Index: sdk/include/reactos/libs/lcms2/lcms2.h =================================================================== --- sdk/include/reactos/libs/lcms2/lcms2.h (nonexistent) +++ sdk/include/reactos/libs/lcms2/lcms2.h (working copy) @@ -0,0 +1,1903 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// +// Version 2.8 +// + +#ifndef _lcms2_H + +// ********** Configuration toggles **************************************** + +// Uncomment this one if you are using big endian machines +// #define CMS_USE_BIG_ENDIAN 1 + +// Uncomment this one if your compiler/machine does NOT support the +// "long long" type. +// #define CMS_DONT_USE_INT64 1 + +// Uncomment this if your compiler doesn't work with fast floor function +// #define CMS_DONT_USE_FAST_FLOOR 1 + +// Uncomment this line if you want lcms to use the black point tag in profile, +// if commented, lcms will compute the black point by its own. +// It is safer to leave it commented out +// #define CMS_USE_PROFILE_BLACK_POINT_TAG 1 + +// Uncomment this line if you are compiling as C++ and want a C++ API +// #define CMS_USE_CPP_API + +// Uncomment this line if you need strict CGATS syntax. Makes CGATS files to +// require "KEYWORD" on undefined identifiers, keep it comented out unless needed +// #define CMS_STRICT_CGATS 1 + +// Uncomment to get rid of the tables for "half" float support +// #define CMS_NO_HALF_SUPPORT 1 + +// Uncomment to get rid of pthreads/windows dependency +// #define CMS_NO_PTHREADS 1 + +// ********** End of configuration toggles ****************************** + +// Needed for streams +#include + +// Needed for portability (C99 per 7.1.2) +#include +#include +#include + +#ifndef CMS_USE_CPP_API +# ifdef __cplusplus +extern "C" { +# endif +#endif + +// Version/release +#define LCMS_VERSION 2080 + +// I will give the chance of redefining basic types for compilers that are not fully C99 compliant +#ifndef CMS_BASIC_TYPES_ALREADY_DEFINED + +// Base types +typedef unsigned char cmsUInt8Number; // That is guaranteed by the C99 spec +typedef signed char cmsInt8Number; // That is guaranteed by the C99 spec + +#if CHAR_BIT != 8 +# error "Unable to find 8 bit type, unsupported compiler" +#endif + +// IEEE float storage numbers +typedef float cmsFloat32Number; +typedef double cmsFloat64Number; + +// 16-bit base types +#if (USHRT_MAX == 65535U) + typedef unsigned short cmsUInt16Number; +#elif (UINT_MAX == 65535U) + typedef unsigned int cmsUInt16Number; +#else +# error "Unable to find 16 bits unsigned type, unsupported compiler" +#endif + +#if (SHRT_MAX == 32767) + typedef short cmsInt16Number; +#elif (INT_MAX == 32767) + typedef int cmsInt16Number; +#else +# error "Unable to find 16 bits signed type, unsupported compiler" +#endif + +// 32-bit base type +#if (UINT_MAX == 4294967295U) + typedef unsigned int cmsUInt32Number; +#elif (ULONG_MAX == 4294967295U) + typedef unsigned long cmsUInt32Number; +#else +# error "Unable to find 32 bit unsigned type, unsupported compiler" +#endif + +#if (INT_MAX == +2147483647) + typedef int cmsInt32Number; +#elif (LONG_MAX == +2147483647) + typedef long cmsInt32Number; +#else +# error "Unable to find 32 bit signed type, unsupported compiler" +#endif + +// 64-bit base types +#ifndef CMS_DONT_USE_INT64 +# if (ULONG_MAX == 18446744073709551615U) + typedef unsigned long cmsUInt64Number; +# elif (ULLONG_MAX == 18446744073709551615U) + typedef unsigned long long cmsUInt64Number; +# else +# define CMS_DONT_USE_INT64 1 +# endif +# if (LONG_MAX == +9223372036854775807) + typedef long cmsInt64Number; +# elif (LLONG_MAX == +9223372036854775807) + typedef long long cmsInt64Number; +# else +# define CMS_DONT_USE_INT64 1 +# endif +#endif +#endif + +// In the case 64 bit numbers are not supported by the compiler +#ifdef CMS_DONT_USE_INT64 + typedef cmsUInt32Number cmsUInt64Number[2]; + typedef cmsInt32Number cmsInt64Number[2]; +#endif + +// Derivative types +typedef cmsUInt32Number cmsSignature; +typedef cmsUInt16Number cmsU8Fixed8Number; +typedef cmsInt32Number cmsS15Fixed16Number; +typedef cmsUInt32Number cmsU16Fixed16Number; + +// Boolean type, which will be using the native integer +typedef int cmsBool; + +// Try to detect windows +#if defined (_WIN32) || defined(_WIN64) || defined(WIN32) || defined(_WIN32_) +# define CMS_IS_WINDOWS_ 1 +#endif + +#ifdef _MSC_VER +# define CMS_IS_WINDOWS_ 1 +#endif + +#ifdef __BORLANDC__ +# define CMS_IS_WINDOWS_ 1 +#endif + +// Try to detect big endian platforms. This list can be endless, so primarily rely on the configure script +// on Unix-like systems, and allow it to be set on the compiler command line using +// -DCMS_USE_BIG_ENDIAN or something similar +#ifdef CMS_USE_BIG_ENDIAN // set at compiler command line takes overall precedence + +# if CMS_USE_BIG_ENDIAN == 0 +# undef CMS_USE_BIG_ENDIAN +# endif + +#else // CMS_USE_BIG_ENDIAN + +# ifdef WORDS_BIGENDIAN // set by configure (or explicitly on compiler command line) +# define CMS_USE_BIG_ENDIAN 1 +# else // WORDS_BIGENDIAN +// Fall back to platform/compiler specific tests +# if defined(__sgi__) || defined(__sgi) || defined(sparc) +# define CMS_USE_BIG_ENDIAN 1 +# endif + +# if defined(__s390__) || defined(__s390x__) +# define CMS_USE_BIG_ENDIAN 1 +# endif + +# ifdef macintosh +# ifdef __BIG_ENDIAN__ +# define CMS_USE_BIG_ENDIAN 1 +# endif +# ifdef __LITTLE_ENDIAN__ +# undef CMS_USE_BIG_ENDIAN +# endif +# endif +# endif // WORDS_BIGENDIAN + +# if defined(_HOST_BIG_ENDIAN) || defined(__BIG_ENDIAN__) +# define CMS_USE_BIG_ENDIAN 1 +# endif + +#endif // CMS_USE_BIG_ENDIAN + + +// Calling convention -- this is hardly platform and compiler dependent +#ifdef CMS_IS_WINDOWS_ +# if defined(CMS_DLL) || defined(CMS_DLL_BUILD) +# ifdef __BORLANDC__ +# define CMSEXPORT __stdcall _export +# define CMSAPI +# else +# define CMSEXPORT __stdcall +# ifdef CMS_DLL_BUILD +# define CMSAPI __declspec(dllexport) +# else +# define CMSAPI __declspec(dllimport) +# endif +# endif +# else +# define CMSEXPORT +# define CMSAPI +# endif +#else +# define CMSEXPORT +# define CMSAPI +#endif + +#ifdef HasTHREADS +# if HasTHREADS == 1 +# undef CMS_NO_PTHREADS +# else +# define CMS_NO_PTHREADS 1 +# endif +#endif + +// Some common definitions +#define cmsMAX_PATH 256 + +#ifndef FALSE +# define FALSE 0 +#endif +#ifndef TRUE +# define TRUE 1 +#endif + +// D50 XYZ normalized to Y=1.0 +#define cmsD50X 0.9642 +#define cmsD50Y 1.0 +#define cmsD50Z 0.8249 + +// V4 perceptual black +#define cmsPERCEPTUAL_BLACK_X 0.00336 +#define cmsPERCEPTUAL_BLACK_Y 0.0034731 +#define cmsPERCEPTUAL_BLACK_Z 0.00287 + +// Definitions in ICC spec +#define cmsMagicNumber 0x61637370 // 'acsp' +#define lcmsSignature 0x6c636d73 // 'lcms' + + +// Base ICC type definitions +typedef enum { + cmsSigChromaticityType = 0x6368726D, // 'chrm' + cmsSigColorantOrderType = 0x636C726F, // 'clro' + cmsSigColorantTableType = 0x636C7274, // 'clrt' + cmsSigCrdInfoType = 0x63726469, // 'crdi' + cmsSigCurveType = 0x63757276, // 'curv' + cmsSigDataType = 0x64617461, // 'data' + cmsSigDictType = 0x64696374, // 'dict' + cmsSigDateTimeType = 0x6474696D, // 'dtim' + cmsSigDeviceSettingsType = 0x64657673, // 'devs' + cmsSigLut16Type = 0x6d667432, // 'mft2' + cmsSigLut8Type = 0x6d667431, // 'mft1' + cmsSigLutAtoBType = 0x6d414220, // 'mAB ' + cmsSigLutBtoAType = 0x6d424120, // 'mBA ' + cmsSigMeasurementType = 0x6D656173, // 'meas' + cmsSigMultiLocalizedUnicodeType = 0x6D6C7563, // 'mluc' + cmsSigMultiProcessElementType = 0x6D706574, // 'mpet' + cmsSigNamedColorType = 0x6E636f6C, // 'ncol' -- DEPRECATED! + cmsSigNamedColor2Type = 0x6E636C32, // 'ncl2' + cmsSigParametricCurveType = 0x70617261, // 'para' + cmsSigProfileSequenceDescType = 0x70736571, // 'pseq' + cmsSigProfileSequenceIdType = 0x70736964, // 'psid' + cmsSigResponseCurveSet16Type = 0x72637332, // 'rcs2' + cmsSigS15Fixed16ArrayType = 0x73663332, // 'sf32' + cmsSigScreeningType = 0x7363726E, // 'scrn' + cmsSigSignatureType = 0x73696720, // 'sig ' + cmsSigTextType = 0x74657874, // 'text' + cmsSigTextDescriptionType = 0x64657363, // 'desc' + cmsSigU16Fixed16ArrayType = 0x75663332, // 'uf32' + cmsSigUcrBgType = 0x62666420, // 'bfd ' + cmsSigUInt16ArrayType = 0x75693136, // 'ui16' + cmsSigUInt32ArrayType = 0x75693332, // 'ui32' + cmsSigUInt64ArrayType = 0x75693634, // 'ui64' + cmsSigUInt8ArrayType = 0x75693038, // 'ui08' + cmsSigVcgtType = 0x76636774, // 'vcgt' + cmsSigViewingConditionsType = 0x76696577, // 'view' + cmsSigXYZType = 0x58595A20 // 'XYZ ' + + +} cmsTagTypeSignature; + +// Base ICC tag definitions +typedef enum { + cmsSigAToB0Tag = 0x41324230, // 'A2B0' + cmsSigAToB1Tag = 0x41324231, // 'A2B1' + cmsSigAToB2Tag = 0x41324232, // 'A2B2' + cmsSigBlueColorantTag = 0x6258595A, // 'bXYZ' + cmsSigBlueMatrixColumnTag = 0x6258595A, // 'bXYZ' + cmsSigBlueTRCTag = 0x62545243, // 'bTRC' + cmsSigBToA0Tag = 0x42324130, // 'B2A0' + cmsSigBToA1Tag = 0x42324131, // 'B2A1' + cmsSigBToA2Tag = 0x42324132, // 'B2A2' + cmsSigCalibrationDateTimeTag = 0x63616C74, // 'calt' + cmsSigCharTargetTag = 0x74617267, // 'targ' + cmsSigChromaticAdaptationTag = 0x63686164, // 'chad' + cmsSigChromaticityTag = 0x6368726D, // 'chrm' + cmsSigColorantOrderTag = 0x636C726F, // 'clro' + cmsSigColorantTableTag = 0x636C7274, // 'clrt' + cmsSigColorantTableOutTag = 0x636C6F74, // 'clot' + cmsSigColorimetricIntentImageStateTag = 0x63696973, // 'ciis' + cmsSigCopyrightTag = 0x63707274, // 'cprt' + cmsSigCrdInfoTag = 0x63726469, // 'crdi' + cmsSigDataTag = 0x64617461, // 'data' + cmsSigDateTimeTag = 0x6474696D, // 'dtim' + cmsSigDeviceMfgDescTag = 0x646D6E64, // 'dmnd' + cmsSigDeviceModelDescTag = 0x646D6464, // 'dmdd' + cmsSigDeviceSettingsTag = 0x64657673, // 'devs' + cmsSigDToB0Tag = 0x44324230, // 'D2B0' + cmsSigDToB1Tag = 0x44324231, // 'D2B1' + cmsSigDToB2Tag = 0x44324232, // 'D2B2' + cmsSigDToB3Tag = 0x44324233, // 'D2B3' + cmsSigBToD0Tag = 0x42324430, // 'B2D0' + cmsSigBToD1Tag = 0x42324431, // 'B2D1' + cmsSigBToD2Tag = 0x42324432, // 'B2D2' + cmsSigBToD3Tag = 0x42324433, // 'B2D3' + cmsSigGamutTag = 0x67616D74, // 'gamt' + cmsSigGrayTRCTag = 0x6b545243, // 'kTRC' + cmsSigGreenColorantTag = 0x6758595A, // 'gXYZ' + cmsSigGreenMatrixColumnTag = 0x6758595A, // 'gXYZ' + cmsSigGreenTRCTag = 0x67545243, // 'gTRC' + cmsSigLuminanceTag = 0x6C756d69, // 'lumi' + cmsSigMeasurementTag = 0x6D656173, // 'meas' + cmsSigMediaBlackPointTag = 0x626B7074, // 'bkpt' + cmsSigMediaWhitePointTag = 0x77747074, // 'wtpt' + cmsSigNamedColorTag = 0x6E636f6C, // 'ncol' // Deprecated by the ICC + cmsSigNamedColor2Tag = 0x6E636C32, // 'ncl2' + cmsSigOutputResponseTag = 0x72657370, // 'resp' + cmsSigPerceptualRenderingIntentGamutTag = 0x72696730, // 'rig0' + cmsSigPreview0Tag = 0x70726530, // 'pre0' + cmsSigPreview1Tag = 0x70726531, // 'pre1' + cmsSigPreview2Tag = 0x70726532, // 'pre2' + cmsSigProfileDescriptionTag = 0x64657363, // 'desc' + cmsSigProfileDescriptionMLTag = 0x6473636d, // 'dscm' + cmsSigProfileSequenceDescTag = 0x70736571, // 'pseq' + cmsSigProfileSequenceIdTag = 0x70736964, // 'psid' + cmsSigPs2CRD0Tag = 0x70736430, // 'psd0' + cmsSigPs2CRD1Tag = 0x70736431, // 'psd1' + cmsSigPs2CRD2Tag = 0x70736432, // 'psd2' + cmsSigPs2CRD3Tag = 0x70736433, // 'psd3' + cmsSigPs2CSATag = 0x70733273, // 'ps2s' + cmsSigPs2RenderingIntentTag = 0x70733269, // 'ps2i' + cmsSigRedColorantTag = 0x7258595A, // 'rXYZ' + cmsSigRedMatrixColumnTag = 0x7258595A, // 'rXYZ' + cmsSigRedTRCTag = 0x72545243, // 'rTRC' + cmsSigSaturationRenderingIntentGamutTag = 0x72696732, // 'rig2' + cmsSigScreeningDescTag = 0x73637264, // 'scrd' + cmsSigScreeningTag = 0x7363726E, // 'scrn' + cmsSigTechnologyTag = 0x74656368, // 'tech' + cmsSigUcrBgTag = 0x62666420, // 'bfd ' + cmsSigViewingCondDescTag = 0x76756564, // 'vued' + cmsSigViewingConditionsTag = 0x76696577, // 'view' + cmsSigVcgtTag = 0x76636774, // 'vcgt' + cmsSigMetaTag = 0x6D657461, // 'meta' + cmsSigArgyllArtsTag = 0x61727473 // 'arts' + +} cmsTagSignature; + + +// ICC Technology tag +typedef enum { + cmsSigDigitalCamera = 0x6463616D, // 'dcam' + cmsSigFilmScanner = 0x6673636E, // 'fscn' + cmsSigReflectiveScanner = 0x7273636E, // 'rscn' + cmsSigInkJetPrinter = 0x696A6574, // 'ijet' + cmsSigThermalWaxPrinter = 0x74776178, // 'twax' + cmsSigElectrophotographicPrinter = 0x6570686F, // 'epho' + cmsSigElectrostaticPrinter = 0x65737461, // 'esta' + cmsSigDyeSublimationPrinter = 0x64737562, // 'dsub' + cmsSigPhotographicPaperPrinter = 0x7270686F, // 'rpho' + cmsSigFilmWriter = 0x6670726E, // 'fprn' + cmsSigVideoMonitor = 0x7669646D, // 'vidm' + cmsSigVideoCamera = 0x76696463, // 'vidc' + cmsSigProjectionTelevision = 0x706A7476, // 'pjtv' + cmsSigCRTDisplay = 0x43525420, // 'CRT ' + cmsSigPMDisplay = 0x504D4420, // 'PMD ' + cmsSigAMDisplay = 0x414D4420, // 'AMD ' + cmsSigPhotoCD = 0x4B504344, // 'KPCD' + cmsSigPhotoImageSetter = 0x696D6773, // 'imgs' + cmsSigGravure = 0x67726176, // 'grav' + cmsSigOffsetLithography = 0x6F666673, // 'offs' + cmsSigSilkscreen = 0x73696C6B, // 'silk' + cmsSigFlexography = 0x666C6578, // 'flex' + cmsSigMotionPictureFilmScanner = 0x6D706673, // 'mpfs' + cmsSigMotionPictureFilmRecorder = 0x6D706672, // 'mpfr' + cmsSigDigitalMotionPictureCamera = 0x646D7063, // 'dmpc' + cmsSigDigitalCinemaProjector = 0x64636A70 // 'dcpj' + +} cmsTechnologySignature; + + +// ICC Color spaces +typedef enum { + cmsSigXYZData = 0x58595A20, // 'XYZ ' + cmsSigLabData = 0x4C616220, // 'Lab ' + cmsSigLuvData = 0x4C757620, // 'Luv ' + cmsSigYCbCrData = 0x59436272, // 'YCbr' + cmsSigYxyData = 0x59787920, // 'Yxy ' + cmsSigRgbData = 0x52474220, // 'RGB ' + cmsSigGrayData = 0x47524159, // 'GRAY' + cmsSigHsvData = 0x48535620, // 'HSV ' + cmsSigHlsData = 0x484C5320, // 'HLS ' + cmsSigCmykData = 0x434D594B, // 'CMYK' + cmsSigCmyData = 0x434D5920, // 'CMY ' + cmsSigMCH1Data = 0x4D434831, // 'MCH1' + cmsSigMCH2Data = 0x4D434832, // 'MCH2' + cmsSigMCH3Data = 0x4D434833, // 'MCH3' + cmsSigMCH4Data = 0x4D434834, // 'MCH4' + cmsSigMCH5Data = 0x4D434835, // 'MCH5' + cmsSigMCH6Data = 0x4D434836, // 'MCH6' + cmsSigMCH7Data = 0x4D434837, // 'MCH7' + cmsSigMCH8Data = 0x4D434838, // 'MCH8' + cmsSigMCH9Data = 0x4D434839, // 'MCH9' + cmsSigMCHAData = 0x4D434841, // 'MCHA' + cmsSigMCHBData = 0x4D434842, // 'MCHB' + cmsSigMCHCData = 0x4D434843, // 'MCHC' + cmsSigMCHDData = 0x4D434844, // 'MCHD' + cmsSigMCHEData = 0x4D434845, // 'MCHE' + cmsSigMCHFData = 0x4D434846, // 'MCHF' + cmsSigNamedData = 0x6e6d636c, // 'nmcl' + cmsSig1colorData = 0x31434C52, // '1CLR' + cmsSig2colorData = 0x32434C52, // '2CLR' + cmsSig3colorData = 0x33434C52, // '3CLR' + cmsSig4colorData = 0x34434C52, // '4CLR' + cmsSig5colorData = 0x35434C52, // '5CLR' + cmsSig6colorData = 0x36434C52, // '6CLR' + cmsSig7colorData = 0x37434C52, // '7CLR' + cmsSig8colorData = 0x38434C52, // '8CLR' + cmsSig9colorData = 0x39434C52, // '9CLR' + cmsSig10colorData = 0x41434C52, // 'ACLR' + cmsSig11colorData = 0x42434C52, // 'BCLR' + cmsSig12colorData = 0x43434C52, // 'CCLR' + cmsSig13colorData = 0x44434C52, // 'DCLR' + cmsSig14colorData = 0x45434C52, // 'ECLR' + cmsSig15colorData = 0x46434C52, // 'FCLR' + cmsSigLuvKData = 0x4C75764B // 'LuvK' + +} cmsColorSpaceSignature; + +// ICC Profile Class +typedef enum { + cmsSigInputClass = 0x73636E72, // 'scnr' + cmsSigDisplayClass = 0x6D6E7472, // 'mntr' + cmsSigOutputClass = 0x70727472, // 'prtr' + cmsSigLinkClass = 0x6C696E6B, // 'link' + cmsSigAbstractClass = 0x61627374, // 'abst' + cmsSigColorSpaceClass = 0x73706163, // 'spac' + cmsSigNamedColorClass = 0x6e6d636c // 'nmcl' + +} cmsProfileClassSignature; + +// ICC Platforms +typedef enum { + cmsSigMacintosh = 0x4150504C, // 'APPL' + cmsSigMicrosoft = 0x4D534654, // 'MSFT' + cmsSigSolaris = 0x53554E57, // 'SUNW' + cmsSigSGI = 0x53474920, // 'SGI ' + cmsSigTaligent = 0x54474E54, // 'TGNT' + cmsSigUnices = 0x2A6E6978 // '*nix' // From argyll -- Not official + +} cmsPlatformSignature; + +// Reference gamut +#define cmsSigPerceptualReferenceMediumGamut 0x70726d67 //'prmg' + +// For cmsSigColorimetricIntentImageStateTag +#define cmsSigSceneColorimetryEstimates 0x73636F65 //'scoe' +#define cmsSigSceneAppearanceEstimates 0x73617065 //'sape' +#define cmsSigFocalPlaneColorimetryEstimates 0x66706365 //'fpce' +#define cmsSigReflectionHardcopyOriginalColorimetry 0x72686F63 //'rhoc' +#define cmsSigReflectionPrintOutputColorimetry 0x72706F63 //'rpoc' + +// Multi process elements types +typedef enum { + cmsSigCurveSetElemType = 0x63767374, //'cvst' + cmsSigMatrixElemType = 0x6D617466, //'matf' + cmsSigCLutElemType = 0x636C7574, //'clut' + + cmsSigBAcsElemType = 0x62414353, // 'bACS' + cmsSigEAcsElemType = 0x65414353, // 'eACS' + + // Custom from here, not in the ICC Spec + cmsSigXYZ2LabElemType = 0x6C327820, // 'l2x ' + cmsSigLab2XYZElemType = 0x78326C20, // 'x2l ' + cmsSigNamedColorElemType = 0x6E636C20, // 'ncl ' + cmsSigLabV2toV4 = 0x32203420, // '2 4 ' + cmsSigLabV4toV2 = 0x34203220, // '4 2 ' + + // Identities + cmsSigIdentityElemType = 0x69646E20, // 'idn ' + + // Float to floatPCS + cmsSigLab2FloatPCS = 0x64326C20, // 'd2l ' + cmsSigFloatPCS2Lab = 0x6C326420, // 'l2d ' + cmsSigXYZ2FloatPCS = 0x64327820, // 'd2x ' + cmsSigFloatPCS2XYZ = 0x78326420, // 'x2d ' + cmsSigClipNegativesElemType = 0x636c7020 // 'clp ' + +} cmsStageSignature; + +// Types of CurveElements +typedef enum { + + cmsSigFormulaCurveSeg = 0x70617266, // 'parf' + cmsSigSampledCurveSeg = 0x73616D66, // 'samf' + cmsSigSegmentedCurve = 0x63757266 // 'curf' + +} cmsCurveSegSignature; + +// Used in ResponseCurveType +#define cmsSigStatusA 0x53746141 //'StaA' +#define cmsSigStatusE 0x53746145 //'StaE' +#define cmsSigStatusI 0x53746149 //'StaI' +#define cmsSigStatusT 0x53746154 //'StaT' +#define cmsSigStatusM 0x5374614D //'StaM' +#define cmsSigDN 0x444E2020 //'DN ' +#define cmsSigDNP 0x444E2050 //'DN P' +#define cmsSigDNN 0x444E4E20 //'DNN ' +#define cmsSigDNNP 0x444E4E50 //'DNNP' + +// Device attributes, currently defined values correspond to the low 4 bytes +// of the 8 byte attribute quantity +#define cmsReflective 0 +#define cmsTransparency 1 +#define cmsGlossy 0 +#define cmsMatte 2 + +// Common structures in ICC tags +typedef struct { + cmsUInt32Number len; + cmsUInt32Number flag; + cmsUInt8Number data[1]; + +} cmsICCData; + +// ICC date time +typedef struct { + cmsUInt16Number year; + cmsUInt16Number month; + cmsUInt16Number day; + cmsUInt16Number hours; + cmsUInt16Number minutes; + cmsUInt16Number seconds; + +} cmsDateTimeNumber; + +// ICC XYZ +typedef struct { + cmsS15Fixed16Number X; + cmsS15Fixed16Number Y; + cmsS15Fixed16Number Z; + +} cmsEncodedXYZNumber; + + +// Profile ID as computed by MD5 algorithm +typedef union { + cmsUInt8Number ID8[16]; + cmsUInt16Number ID16[8]; + cmsUInt32Number ID32[4]; + +} cmsProfileID; + + +// ---------------------------------------------------------------------------------------------- +// ICC profile internal base types. Strictly, shouldn't be declared in this header, but maybe +// somebody want to use this info for accessing profile header directly, so here it is. + +// Profile header -- it is 32-bit aligned, so no issues are expected on alignment +typedef struct { + cmsUInt32Number size; // Profile size in bytes + cmsSignature cmmId; // CMM for this profile + cmsUInt32Number version; // Format version number + cmsProfileClassSignature deviceClass; // Type of profile + cmsColorSpaceSignature colorSpace; // Color space of data + cmsColorSpaceSignature pcs; // PCS, XYZ or Lab only + cmsDateTimeNumber date; // Date profile was created + cmsSignature magic; // Magic Number to identify an ICC profile + cmsPlatformSignature platform; // Primary Platform + cmsUInt32Number flags; // Various bit settings + cmsSignature manufacturer; // Device manufacturer + cmsUInt32Number model; // Device model number + cmsUInt64Number attributes; // Device attributes + cmsUInt32Number renderingIntent;// Rendering intent + cmsEncodedXYZNumber illuminant; // Profile illuminant + cmsSignature creator; // Profile creator + cmsProfileID profileID; // Profile ID using MD5 + cmsInt8Number reserved[28]; // Reserved for future use + +} cmsICCHeader; + +// ICC base tag +typedef struct { + cmsTagTypeSignature sig; + cmsInt8Number reserved[4]; + +} cmsTagBase; + +// A tag entry in directory +typedef struct { + cmsTagSignature sig; // The tag signature + cmsUInt32Number offset; // Start of tag + cmsUInt32Number size; // Size in bytes + +} cmsTagEntry; + +// ---------------------------------------------------------------------------------------------- + +// Little CMS specific typedefs + +typedef void* cmsHANDLE ; // Generic handle +typedef void* cmsHPROFILE; // Opaque typedefs to hide internals +typedef void* cmsHTRANSFORM; + +#define cmsMAXCHANNELS 16 // Maximum number of channels in ICC profiles + +// Format of pixel is defined by one cmsUInt32Number, using bit fields as follows +// +// 2 1 0 +// 3 2 10987 6 5 4 3 2 1 098 7654 321 +// A O TTTTT U Y F P X S EEE CCCC BBB +// +// A: Floating point -- With this flag we can differentiate 16 bits as float and as int +// O: Optimized -- previous optimization already returns the final 8-bit value +// T: Pixeltype +// F: Flavor 0=MinIsBlack(Chocolate) 1=MinIsWhite(Vanilla) +// P: Planar? 0=Chunky, 1=Planar +// X: swap 16 bps endianness? +// S: Do swap? ie, BGR, KYMC +// E: Extra samples +// C: Channels (Samples per pixel) +// B: bytes per sample +// Y: Swap first - changes ABGR to BGRA and KCMY to CMYK + +#define FLOAT_SH(a) ((a) << 22) +#define OPTIMIZED_SH(s) ((s) << 21) +#define COLORSPACE_SH(s) ((s) << 16) +#define SWAPFIRST_SH(s) ((s) << 14) +#define FLAVOR_SH(s) ((s) << 13) +#define PLANAR_SH(p) ((p) << 12) +#define ENDIAN16_SH(e) ((e) << 11) +#define DOSWAP_SH(e) ((e) << 10) +#define EXTRA_SH(e) ((e) << 7) +#define CHANNELS_SH(c) ((c) << 3) +#define BYTES_SH(b) (b) + +// These macros unpack format specifiers into integers +#define T_FLOAT(a) (((a)>>22)&1) +#define T_OPTIMIZED(o) (((o)>>21)&1) +#define T_COLORSPACE(s) (((s)>>16)&31) +#define T_SWAPFIRST(s) (((s)>>14)&1) +#define T_FLAVOR(s) (((s)>>13)&1) +#define T_PLANAR(p) (((p)>>12)&1) +#define T_ENDIAN16(e) (((e)>>11)&1) +#define T_DOSWAP(e) (((e)>>10)&1) +#define T_EXTRA(e) (((e)>>7)&7) +#define T_CHANNELS(c) (((c)>>3)&15) +#define T_BYTES(b) ((b)&7) + + +// Pixel types +#define PT_ANY 0 // Don't check colorspace + // 1 & 2 are reserved +#define PT_GRAY 3 +#define PT_RGB 4 +#define PT_CMY 5 +#define PT_CMYK 6 +#define PT_YCbCr 7 +#define PT_YUV 8 // Lu'v' +#define PT_XYZ 9 +#define PT_Lab 10 +#define PT_YUVK 11 // Lu'v'K +#define PT_HSV 12 +#define PT_HLS 13 +#define PT_Yxy 14 + +#define PT_MCH1 15 +#define PT_MCH2 16 +#define PT_MCH3 17 +#define PT_MCH4 18 +#define PT_MCH5 19 +#define PT_MCH6 20 +#define PT_MCH7 21 +#define PT_MCH8 22 +#define PT_MCH9 23 +#define PT_MCH10 24 +#define PT_MCH11 25 +#define PT_MCH12 26 +#define PT_MCH13 27 +#define PT_MCH14 28 +#define PT_MCH15 29 + +#define PT_LabV2 30 // Identical to PT_Lab, but using the V2 old encoding + +// Some (not all!) representations + +#ifndef TYPE_RGB_8 // TYPE_RGB_8 is a very common identifier, so don't include ours + // if user has it already defined. + +#define TYPE_GRAY_8 (COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(1)) +#define TYPE_GRAY_8_REV (COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(1)|FLAVOR_SH(1)) +#define TYPE_GRAY_16 (COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(2)) +#define TYPE_GRAY_16_REV (COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(2)|FLAVOR_SH(1)) +#define TYPE_GRAY_16_SE (COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_GRAYA_8 (COLORSPACE_SH(PT_GRAY)|EXTRA_SH(1)|CHANNELS_SH(1)|BYTES_SH(1)) +#define TYPE_GRAYA_16 (COLORSPACE_SH(PT_GRAY)|EXTRA_SH(1)|CHANNELS_SH(1)|BYTES_SH(2)) +#define TYPE_GRAYA_16_SE (COLORSPACE_SH(PT_GRAY)|EXTRA_SH(1)|CHANNELS_SH(1)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_GRAYA_8_PLANAR (COLORSPACE_SH(PT_GRAY)|EXTRA_SH(1)|CHANNELS_SH(1)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_GRAYA_16_PLANAR (COLORSPACE_SH(PT_GRAY)|EXTRA_SH(1)|CHANNELS_SH(1)|BYTES_SH(2)|PLANAR_SH(1)) + +#define TYPE_RGB_8 (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_RGB_8_PLANAR (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_BGR_8 (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_BGR_8_PLANAR (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|PLANAR_SH(1)) +#define TYPE_RGB_16 (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_RGB_16_PLANAR (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_RGB_16_SE (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_BGR_16 (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_BGR_16_PLANAR (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)|PLANAR_SH(1)) +#define TYPE_BGR_16_SE (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) + +#define TYPE_RGBA_8 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_RGBA_8_PLANAR (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_RGBA_16 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_RGBA_16_PLANAR (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_RGBA_16_SE (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) + +#define TYPE_ARGB_8 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_ARGB_8_PLANAR (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|SWAPFIRST_SH(1)|PLANAR_SH(1)) +#define TYPE_ARGB_16 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|SWAPFIRST_SH(1)) + +#define TYPE_ABGR_8 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_ABGR_8_PLANAR (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|PLANAR_SH(1)) +#define TYPE_ABGR_16 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_ABGR_16_PLANAR (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)|PLANAR_SH(1)) +#define TYPE_ABGR_16_SE (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) + +#define TYPE_BGRA_8 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_BGRA_8_PLANAR (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1)|PLANAR_SH(1)) +#define TYPE_BGRA_16 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_BGRA_16_SE (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1)) + +#define TYPE_CMY_8 (COLORSPACE_SH(PT_CMY)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_CMY_8_PLANAR (COLORSPACE_SH(PT_CMY)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_CMY_16 (COLORSPACE_SH(PT_CMY)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_CMY_16_PLANAR (COLORSPACE_SH(PT_CMY)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_CMY_16_SE (COLORSPACE_SH(PT_CMY)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) + +#define TYPE_CMYK_8 (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(1)) +#define TYPE_CMYKA_8 (COLORSPACE_SH(PT_CMYK)|EXTRA_SH(1)|CHANNELS_SH(4)|BYTES_SH(1)) +#define TYPE_CMYK_8_REV (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(1)|FLAVOR_SH(1)) +#define TYPE_YUVK_8 TYPE_CMYK_8_REV +#define TYPE_CMYK_8_PLANAR (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_CMYK_16 (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)) +#define TYPE_CMYK_16_REV (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|FLAVOR_SH(1)) +#define TYPE_YUVK_16 TYPE_CMYK_16_REV +#define TYPE_CMYK_16_PLANAR (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_CMYK_16_SE (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|ENDIAN16_SH(1)) + +#define TYPE_KYMC_8 (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC_16 (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC_16_SE (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) + +#define TYPE_KCMY_8 (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_KCMY_8_REV (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(1)|FLAVOR_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_KCMY_16 (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|SWAPFIRST_SH(1)) +#define TYPE_KCMY_16_REV (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|FLAVOR_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_KCMY_16_SE (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|ENDIAN16_SH(1)|SWAPFIRST_SH(1)) + +#define TYPE_CMYK5_8 (COLORSPACE_SH(PT_MCH5)|CHANNELS_SH(5)|BYTES_SH(1)) +#define TYPE_CMYK5_16 (COLORSPACE_SH(PT_MCH5)|CHANNELS_SH(5)|BYTES_SH(2)) +#define TYPE_CMYK5_16_SE (COLORSPACE_SH(PT_MCH5)|CHANNELS_SH(5)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC5_8 (COLORSPACE_SH(PT_MCH5)|CHANNELS_SH(5)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC5_16 (COLORSPACE_SH(PT_MCH5)|CHANNELS_SH(5)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC5_16_SE (COLORSPACE_SH(PT_MCH5)|CHANNELS_SH(5)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) +#define TYPE_CMYK6_8 (COLORSPACE_SH(PT_MCH6)|CHANNELS_SH(6)|BYTES_SH(1)) +#define TYPE_CMYK6_8_PLANAR (COLORSPACE_SH(PT_MCH6)|CHANNELS_SH(6)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_CMYK6_16 (COLORSPACE_SH(PT_MCH6)|CHANNELS_SH(6)|BYTES_SH(2)) +#define TYPE_CMYK6_16_PLANAR (COLORSPACE_SH(PT_MCH6)|CHANNELS_SH(6)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_CMYK6_16_SE (COLORSPACE_SH(PT_MCH6)|CHANNELS_SH(6)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_CMYK7_8 (COLORSPACE_SH(PT_MCH7)|CHANNELS_SH(7)|BYTES_SH(1)) +#define TYPE_CMYK7_16 (COLORSPACE_SH(PT_MCH7)|CHANNELS_SH(7)|BYTES_SH(2)) +#define TYPE_CMYK7_16_SE (COLORSPACE_SH(PT_MCH7)|CHANNELS_SH(7)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC7_8 (COLORSPACE_SH(PT_MCH7)|CHANNELS_SH(7)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC7_16 (COLORSPACE_SH(PT_MCH7)|CHANNELS_SH(7)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC7_16_SE (COLORSPACE_SH(PT_MCH7)|CHANNELS_SH(7)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) +#define TYPE_CMYK8_8 (COLORSPACE_SH(PT_MCH8)|CHANNELS_SH(8)|BYTES_SH(1)) +#define TYPE_CMYK8_16 (COLORSPACE_SH(PT_MCH8)|CHANNELS_SH(8)|BYTES_SH(2)) +#define TYPE_CMYK8_16_SE (COLORSPACE_SH(PT_MCH8)|CHANNELS_SH(8)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC8_8 (COLORSPACE_SH(PT_MCH8)|CHANNELS_SH(8)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC8_16 (COLORSPACE_SH(PT_MCH8)|CHANNELS_SH(8)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC8_16_SE (COLORSPACE_SH(PT_MCH8)|CHANNELS_SH(8)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) +#define TYPE_CMYK9_8 (COLORSPACE_SH(PT_MCH9)|CHANNELS_SH(9)|BYTES_SH(1)) +#define TYPE_CMYK9_16 (COLORSPACE_SH(PT_MCH9)|CHANNELS_SH(9)|BYTES_SH(2)) +#define TYPE_CMYK9_16_SE (COLORSPACE_SH(PT_MCH9)|CHANNELS_SH(9)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC9_8 (COLORSPACE_SH(PT_MCH9)|CHANNELS_SH(9)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC9_16 (COLORSPACE_SH(PT_MCH9)|CHANNELS_SH(9)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC9_16_SE (COLORSPACE_SH(PT_MCH9)|CHANNELS_SH(9)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) +#define TYPE_CMYK10_8 (COLORSPACE_SH(PT_MCH10)|CHANNELS_SH(10)|BYTES_SH(1)) +#define TYPE_CMYK10_16 (COLORSPACE_SH(PT_MCH10)|CHANNELS_SH(10)|BYTES_SH(2)) +#define TYPE_CMYK10_16_SE (COLORSPACE_SH(PT_MCH10)|CHANNELS_SH(10)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC10_8 (COLORSPACE_SH(PT_MCH10)|CHANNELS_SH(10)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC10_16 (COLORSPACE_SH(PT_MCH10)|CHANNELS_SH(10)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC10_16_SE (COLORSPACE_SH(PT_MCH10)|CHANNELS_SH(10)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) +#define TYPE_CMYK11_8 (COLORSPACE_SH(PT_MCH11)|CHANNELS_SH(11)|BYTES_SH(1)) +#define TYPE_CMYK11_16 (COLORSPACE_SH(PT_MCH11)|CHANNELS_SH(11)|BYTES_SH(2)) +#define TYPE_CMYK11_16_SE (COLORSPACE_SH(PT_MCH11)|CHANNELS_SH(11)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC11_8 (COLORSPACE_SH(PT_MCH11)|CHANNELS_SH(11)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC11_16 (COLORSPACE_SH(PT_MCH11)|CHANNELS_SH(11)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC11_16_SE (COLORSPACE_SH(PT_MCH11)|CHANNELS_SH(11)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) +#define TYPE_CMYK12_8 (COLORSPACE_SH(PT_MCH12)|CHANNELS_SH(12)|BYTES_SH(1)) +#define TYPE_CMYK12_16 (COLORSPACE_SH(PT_MCH12)|CHANNELS_SH(12)|BYTES_SH(2)) +#define TYPE_CMYK12_16_SE (COLORSPACE_SH(PT_MCH12)|CHANNELS_SH(12)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC12_8 (COLORSPACE_SH(PT_MCH12)|CHANNELS_SH(12)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC12_16 (COLORSPACE_SH(PT_MCH12)|CHANNELS_SH(12)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC12_16_SE (COLORSPACE_SH(PT_MCH12)|CHANNELS_SH(12)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) + +// Colorimetric +#define TYPE_XYZ_16 (COLORSPACE_SH(PT_XYZ)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_Lab_8 (COLORSPACE_SH(PT_Lab)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_LabV2_8 (COLORSPACE_SH(PT_LabV2)|CHANNELS_SH(3)|BYTES_SH(1)) + +#define TYPE_ALab_8 (COLORSPACE_SH(PT_Lab)|CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_ALabV2_8 (COLORSPACE_SH(PT_LabV2)|CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_Lab_16 (COLORSPACE_SH(PT_Lab)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_LabV2_16 (COLORSPACE_SH(PT_LabV2)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_Yxy_16 (COLORSPACE_SH(PT_Yxy)|CHANNELS_SH(3)|BYTES_SH(2)) + +// YCbCr +#define TYPE_YCbCr_8 (COLORSPACE_SH(PT_YCbCr)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_YCbCr_8_PLANAR (COLORSPACE_SH(PT_YCbCr)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_YCbCr_16 (COLORSPACE_SH(PT_YCbCr)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_YCbCr_16_PLANAR (COLORSPACE_SH(PT_YCbCr)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_YCbCr_16_SE (COLORSPACE_SH(PT_YCbCr)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) + +// YUV +#define TYPE_YUV_8 (COLORSPACE_SH(PT_YUV)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_YUV_8_PLANAR (COLORSPACE_SH(PT_YUV)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_YUV_16 (COLORSPACE_SH(PT_YUV)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_YUV_16_PLANAR (COLORSPACE_SH(PT_YUV)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_YUV_16_SE (COLORSPACE_SH(PT_YUV)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) + +// HLS +#define TYPE_HLS_8 (COLORSPACE_SH(PT_HLS)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_HLS_8_PLANAR (COLORSPACE_SH(PT_HLS)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_HLS_16 (COLORSPACE_SH(PT_HLS)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_HLS_16_PLANAR (COLORSPACE_SH(PT_HLS)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_HLS_16_SE (COLORSPACE_SH(PT_HLS)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) + +// HSV +#define TYPE_HSV_8 (COLORSPACE_SH(PT_HSV)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_HSV_8_PLANAR (COLORSPACE_SH(PT_HSV)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_HSV_16 (COLORSPACE_SH(PT_HSV)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_HSV_16_PLANAR (COLORSPACE_SH(PT_HSV)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_HSV_16_SE (COLORSPACE_SH(PT_HSV)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) + +// Named color index. Only 16 bits allowed (don't check colorspace) +#define TYPE_NAMED_COLOR_INDEX (CHANNELS_SH(1)|BYTES_SH(2)) + +// Float formatters. +#define TYPE_XYZ_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_XYZ)|CHANNELS_SH(3)|BYTES_SH(4)) +#define TYPE_Lab_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_Lab)|CHANNELS_SH(3)|BYTES_SH(4)) +#define TYPE_LabA_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_Lab)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(4)) +#define TYPE_GRAY_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(4)) +#define TYPE_RGB_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(4)) + +#define TYPE_RGBA_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(4)) +#define TYPE_ARGB_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(4)|SWAPFIRST_SH(1)) +#define TYPE_BGR_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(4)|DOSWAP_SH(1)) +#define TYPE_BGRA_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(4)|DOSWAP_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_ABGR_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(4)|DOSWAP_SH(1)) + +#define TYPE_CMYK_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(4)) + +// Floating point formatters. +// NOTE THAT 'BYTES' FIELD IS SET TO ZERO ON DLB because 8 bytes overflows the bitfield +#define TYPE_XYZ_DBL (FLOAT_SH(1)|COLORSPACE_SH(PT_XYZ)|CHANNELS_SH(3)|BYTES_SH(0)) +#define TYPE_Lab_DBL (FLOAT_SH(1)|COLORSPACE_SH(PT_Lab)|CHANNELS_SH(3)|BYTES_SH(0)) +#define TYPE_GRAY_DBL (FLOAT_SH(1)|COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(0)) +#define TYPE_RGB_DBL (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(0)) +#define TYPE_BGR_DBL (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(0)|DOSWAP_SH(1)) +#define TYPE_CMYK_DBL (FLOAT_SH(1)|COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(0)) + +// IEEE 754-2008 "half" +#define TYPE_GRAY_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(2)) +#define TYPE_RGB_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_RGBA_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_CMYK_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)) + +#define TYPE_RGBA_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_ARGB_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|SWAPFIRST_SH(1)) +#define TYPE_BGR_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_BGRA_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_ABGR_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)) + +#endif + +// Colorspaces +typedef struct { + cmsFloat64Number X; + cmsFloat64Number Y; + cmsFloat64Number Z; + + } cmsCIEXYZ; + +typedef struct { + cmsFloat64Number x; + cmsFloat64Number y; + cmsFloat64Number Y; + + } cmsCIExyY; + +typedef struct { + cmsFloat64Number L; + cmsFloat64Number a; + cmsFloat64Number b; + + } cmsCIELab; + +typedef struct { + cmsFloat64Number L; + cmsFloat64Number C; + cmsFloat64Number h; + + } cmsCIELCh; + +typedef struct { + cmsFloat64Number J; + cmsFloat64Number C; + cmsFloat64Number h; + + } cmsJCh; + +typedef struct { + cmsCIEXYZ Red; + cmsCIEXYZ Green; + cmsCIEXYZ Blue; + + } cmsCIEXYZTRIPLE; + +typedef struct { + cmsCIExyY Red; + cmsCIExyY Green; + cmsCIExyY Blue; + + } cmsCIExyYTRIPLE; + +// Illuminant types for structs below +#define cmsILLUMINANT_TYPE_UNKNOWN 0x0000000 +#define cmsILLUMINANT_TYPE_D50 0x0000001 +#define cmsILLUMINANT_TYPE_D65 0x0000002 +#define cmsILLUMINANT_TYPE_D93 0x0000003 +#define cmsILLUMINANT_TYPE_F2 0x0000004 +#define cmsILLUMINANT_TYPE_D55 0x0000005 +#define cmsILLUMINANT_TYPE_A 0x0000006 +#define cmsILLUMINANT_TYPE_E 0x0000007 +#define cmsILLUMINANT_TYPE_F8 0x0000008 + +typedef struct { + cmsUInt32Number Observer; // 0 = unknown, 1=CIE 1931, 2=CIE 1964 + cmsCIEXYZ Backing; // Value of backing + cmsUInt32Number Geometry; // 0=unknown, 1=45/0, 0/45 2=0d, d/0 + cmsFloat64Number Flare; // 0..1.0 + cmsUInt32Number IlluminantType; + + } cmsICCMeasurementConditions; + +typedef struct { + cmsCIEXYZ IlluminantXYZ; // Not the same struct as CAM02, + cmsCIEXYZ SurroundXYZ; // This is for storing the tag + cmsUInt32Number IlluminantType; // viewing condition + + } cmsICCViewingConditions; + +// Get LittleCMS version (for shared objects) ----------------------------------------------------------------------------- + +CMSAPI int CMSEXPORT cmsGetEncodedCMMversion(void); + +// Support of non-standard functions -------------------------------------------------------------------------------------- + +CMSAPI int CMSEXPORT cmsstrcasecmp(const char* s1, const char* s2); +CMSAPI long int CMSEXPORT cmsfilelength(FILE* f); + + +// Context handling -------------------------------------------------------------------------------------------------------- + +// Each context holds its owns globals and its own plug-ins. There is a global context with the id = 0 for lecacy compatibility +// though using the global context is not recommended. Proper context handling makes lcms more thread-safe. + +typedef struct _cmsContext_struct* cmsContext; + +CMSAPI cmsContext CMSEXPORT cmsCreateContext(void* Plugin, void* UserData); +CMSAPI void CMSEXPORT cmsDeleteContext(cmsContext ContexID); +CMSAPI cmsContext CMSEXPORT cmsDupContext(cmsContext ContextID, void* NewUserData); +CMSAPI void* CMSEXPORT cmsGetContextUserData(cmsContext ContextID); + +// Plug-In registering -------------------------------------------------------------------------------------------------- + +CMSAPI cmsBool CMSEXPORT cmsPlugin(void* Plugin); +CMSAPI cmsBool CMSEXPORT cmsPluginTHR(cmsContext ContextID, void* Plugin); +CMSAPI void CMSEXPORT cmsUnregisterPlugins(void); +CMSAPI void CMSEXPORT cmsUnregisterPluginsTHR(cmsContext ContextID); + +// Error logging ---------------------------------------------------------------------------------------------------------- + +// There is no error handling at all. When a function fails, it returns proper value. +// For example, all create functions does return NULL on failure. Other may return FALSE. +// It may be interesting, for the developer, to know why the function is failing. +// for that reason, lcms2 does offer a logging function. This function will get +// an ENGLISH string with some clues on what is going wrong. You can show this +// info to the end user if you wish, or just create some sort of log on disk. +// The logging function should NOT terminate the program, as this obviously can leave +// unfreed resources. It is the programmer's responsibility to check each function +// return code to make sure it didn't fail. + +#define cmsERROR_UNDEFINED 0 +#define cmsERROR_FILE 1 +#define cmsERROR_RANGE 2 +#define cmsERROR_INTERNAL 3 +#define cmsERROR_NULL 4 +#define cmsERROR_READ 5 +#define cmsERROR_SEEK 6 +#define cmsERROR_WRITE 7 +#define cmsERROR_UNKNOWN_EXTENSION 8 +#define cmsERROR_COLORSPACE_CHECK 9 +#define cmsERROR_ALREADY_DEFINED 10 +#define cmsERROR_BAD_SIGNATURE 11 +#define cmsERROR_CORRUPTION_DETECTED 12 +#define cmsERROR_NOT_SUITABLE 13 + +// Error logger is called with the ContextID when a message is raised. This gives the +// chance to know which thread is responsible of the warning and any environment associated +// with it. Non-multithreading applications may safely ignore this parameter. +// Note that under certain special circumstances, ContextID may be NULL. +typedef void (* cmsLogErrorHandlerFunction)(cmsContext ContextID, cmsUInt32Number ErrorCode, const char *Text); + +// Allows user to set any specific logger +CMSAPI void CMSEXPORT cmsSetLogErrorHandler(cmsLogErrorHandlerFunction Fn); +CMSAPI void CMSEXPORT cmsSetLogErrorHandlerTHR(cmsContext ContextID, cmsLogErrorHandlerFunction Fn); + +// Conversions -------------------------------------------------------------------------------------------------------------- + +// Returns pointers to constant structs +CMSAPI const cmsCIEXYZ* CMSEXPORT cmsD50_XYZ(void); +CMSAPI const cmsCIExyY* CMSEXPORT cmsD50_xyY(void); + +// Colorimetric space conversions +CMSAPI void CMSEXPORT cmsXYZ2xyY(cmsCIExyY* Dest, const cmsCIEXYZ* Source); +CMSAPI void CMSEXPORT cmsxyY2XYZ(cmsCIEXYZ* Dest, const cmsCIExyY* Source); +CMSAPI void CMSEXPORT cmsXYZ2Lab(const cmsCIEXYZ* WhitePoint, cmsCIELab* Lab, const cmsCIEXYZ* xyz); +CMSAPI void CMSEXPORT cmsLab2XYZ(const cmsCIEXYZ* WhitePoint, cmsCIEXYZ* xyz, const cmsCIELab* Lab); +CMSAPI void CMSEXPORT cmsLab2LCh(cmsCIELCh*LCh, const cmsCIELab* Lab); +CMSAPI void CMSEXPORT cmsLCh2Lab(cmsCIELab* Lab, const cmsCIELCh* LCh); + +// Encoding /Decoding on PCS +CMSAPI void CMSEXPORT cmsLabEncoded2Float(cmsCIELab* Lab, const cmsUInt16Number wLab[3]); +CMSAPI void CMSEXPORT cmsLabEncoded2FloatV2(cmsCIELab* Lab, const cmsUInt16Number wLab[3]); +CMSAPI void CMSEXPORT cmsFloat2LabEncoded(cmsUInt16Number wLab[3], const cmsCIELab* Lab); +CMSAPI void CMSEXPORT cmsFloat2LabEncodedV2(cmsUInt16Number wLab[3], const cmsCIELab* Lab); +CMSAPI void CMSEXPORT cmsXYZEncoded2Float(cmsCIEXYZ* fxyz, const cmsUInt16Number XYZ[3]); +CMSAPI void CMSEXPORT cmsFloat2XYZEncoded(cmsUInt16Number XYZ[3], const cmsCIEXYZ* fXYZ); + +// DeltaE metrics +CMSAPI cmsFloat64Number CMSEXPORT cmsDeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2); +CMSAPI cmsFloat64Number CMSEXPORT cmsCIE94DeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2); +CMSAPI cmsFloat64Number CMSEXPORT cmsBFDdeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2); +CMSAPI cmsFloat64Number CMSEXPORT cmsCMCdeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2, cmsFloat64Number l, cmsFloat64Number c); +CMSAPI cmsFloat64Number CMSEXPORT cmsCIE2000DeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2, cmsFloat64Number Kl, cmsFloat64Number Kc, cmsFloat64Number Kh); + +// Temperature <-> Chromaticity (Black body) +CMSAPI cmsBool CMSEXPORT cmsWhitePointFromTemp(cmsCIExyY* WhitePoint, cmsFloat64Number TempK); +CMSAPI cmsBool CMSEXPORT cmsTempFromWhitePoint(cmsFloat64Number* TempK, const cmsCIExyY* WhitePoint); + +// Chromatic adaptation +CMSAPI cmsBool CMSEXPORT cmsAdaptToIlluminant(cmsCIEXYZ* Result, const cmsCIEXYZ* SourceWhitePt, + const cmsCIEXYZ* Illuminant, + const cmsCIEXYZ* Value); + +// CIECAM02 --------------------------------------------------------------------------------------------------- + +// Viewing conditions. Please note those are CAM model viewing conditions, and not the ICC tag viewing +// conditions, which I'm naming cmsICCViewingConditions to make differences evident. Unfortunately, the tag +// cannot deal with surround La, Yb and D value so is basically useless to store CAM02 viewing conditions. + + +#define AVG_SURROUND 1 +#define DIM_SURROUND 2 +#define DARK_SURROUND 3 +#define CUTSHEET_SURROUND 4 + +#define D_CALCULATE (-1) + +typedef struct { + cmsCIEXYZ whitePoint; + cmsFloat64Number Yb; + cmsFloat64Number La; + int surround; + cmsFloat64Number D_value; + + } cmsViewingConditions; + +CMSAPI cmsHANDLE CMSEXPORT cmsCIECAM02Init(cmsContext ContextID, const cmsViewingConditions* pVC); +CMSAPI void CMSEXPORT cmsCIECAM02Done(cmsHANDLE hModel); +CMSAPI void CMSEXPORT cmsCIECAM02Forward(cmsHANDLE hModel, const cmsCIEXYZ* pIn, cmsJCh* pOut); +CMSAPI void CMSEXPORT cmsCIECAM02Reverse(cmsHANDLE hModel, const cmsJCh* pIn, cmsCIEXYZ* pOut); + + +// Tone curves ----------------------------------------------------------------------------------------- + +// This describes a curve segment. For a table of supported types, see the manual. User can increase the number of +// available types by using a proper plug-in. Parametric segments allow 10 parameters at most + +typedef struct { + cmsFloat32Number x0, x1; // Domain; for x0 < x <= x1 + cmsInt32Number Type; // Parametric type, Type == 0 means sampled segment. Negative values are reserved + cmsFloat64Number Params[10]; // Parameters if Type != 0 + cmsUInt32Number nGridPoints; // Number of grid points if Type == 0 + cmsFloat32Number* SampledPoints; // Points to an array of floats if Type == 0 + +} cmsCurveSegment; + +// The internal representation is none of your business. +typedef struct _cms_curve_struct cmsToneCurve; + +CMSAPI cmsToneCurve* CMSEXPORT cmsBuildSegmentedToneCurve(cmsContext ContextID, cmsInt32Number nSegments, const cmsCurveSegment Segments[]); +CMSAPI cmsToneCurve* CMSEXPORT cmsBuildParametricToneCurve(cmsContext ContextID, cmsInt32Number Type, const cmsFloat64Number Params[]); +CMSAPI cmsToneCurve* CMSEXPORT cmsBuildGamma(cmsContext ContextID, cmsFloat64Number Gamma); +CMSAPI cmsToneCurve* CMSEXPORT cmsBuildTabulatedToneCurve16(cmsContext ContextID, cmsInt32Number nEntries, const cmsUInt16Number values[]); +CMSAPI cmsToneCurve* CMSEXPORT cmsBuildTabulatedToneCurveFloat(cmsContext ContextID, cmsUInt32Number nEntries, const cmsFloat32Number values[]); +CMSAPI void CMSEXPORT cmsFreeToneCurve(cmsToneCurve* Curve); +CMSAPI void CMSEXPORT cmsFreeToneCurveTriple(cmsToneCurve* Curve[3]); +CMSAPI cmsToneCurve* CMSEXPORT cmsDupToneCurve(const cmsToneCurve* Src); +CMSAPI cmsToneCurve* CMSEXPORT cmsReverseToneCurve(const cmsToneCurve* InGamma); +CMSAPI cmsToneCurve* CMSEXPORT cmsReverseToneCurveEx(cmsInt32Number nResultSamples, const cmsToneCurve* InGamma); +CMSAPI cmsToneCurve* CMSEXPORT cmsJoinToneCurve(cmsContext ContextID, const cmsToneCurve* X, const cmsToneCurve* Y, cmsUInt32Number nPoints); +CMSAPI cmsBool CMSEXPORT cmsSmoothToneCurve(cmsToneCurve* Tab, cmsFloat64Number lambda); +CMSAPI cmsFloat32Number CMSEXPORT cmsEvalToneCurveFloat(const cmsToneCurve* Curve, cmsFloat32Number v); +CMSAPI cmsUInt16Number CMSEXPORT cmsEvalToneCurve16(const cmsToneCurve* Curve, cmsUInt16Number v); +CMSAPI cmsBool CMSEXPORT cmsIsToneCurveMultisegment(const cmsToneCurve* InGamma); +CMSAPI cmsBool CMSEXPORT cmsIsToneCurveLinear(const cmsToneCurve* Curve); +CMSAPI cmsBool CMSEXPORT cmsIsToneCurveMonotonic(const cmsToneCurve* t); +CMSAPI cmsBool CMSEXPORT cmsIsToneCurveDescending(const cmsToneCurve* t); +CMSAPI cmsInt32Number CMSEXPORT cmsGetToneCurveParametricType(const cmsToneCurve* t); +CMSAPI cmsFloat64Number CMSEXPORT cmsEstimateGamma(const cmsToneCurve* t, cmsFloat64Number Precision); + +// Tone curve tabular estimation +CMSAPI cmsUInt32Number CMSEXPORT cmsGetToneCurveEstimatedTableEntries(const cmsToneCurve* t); +CMSAPI const cmsUInt16Number* CMSEXPORT cmsGetToneCurveEstimatedTable(const cmsToneCurve* t); + + +// Implements pipelines of multi-processing elements ------------------------------------------------------------- + +// Nothing to see here, move along +typedef struct _cmsPipeline_struct cmsPipeline; +typedef struct _cmsStage_struct cmsStage; + +// Those are hi-level pipelines +CMSAPI cmsPipeline* CMSEXPORT cmsPipelineAlloc(cmsContext ContextID, cmsUInt32Number InputChannels, cmsUInt32Number OutputChannels); +CMSAPI void CMSEXPORT cmsPipelineFree(cmsPipeline* lut); +CMSAPI cmsPipeline* CMSEXPORT cmsPipelineDup(const cmsPipeline* Orig); + +CMSAPI cmsContext CMSEXPORT cmsGetPipelineContextID(const cmsPipeline* lut); +CMSAPI cmsUInt32Number CMSEXPORT cmsPipelineInputChannels(const cmsPipeline* lut); +CMSAPI cmsUInt32Number CMSEXPORT cmsPipelineOutputChannels(const cmsPipeline* lut); + +CMSAPI cmsUInt32Number CMSEXPORT cmsPipelineStageCount(const cmsPipeline* lut); +CMSAPI cmsStage* CMSEXPORT cmsPipelineGetPtrToFirstStage(const cmsPipeline* lut); +CMSAPI cmsStage* CMSEXPORT cmsPipelineGetPtrToLastStage(const cmsPipeline* lut); + +CMSAPI void CMSEXPORT cmsPipelineEval16(const cmsUInt16Number In[], cmsUInt16Number Out[], const cmsPipeline* lut); +CMSAPI void CMSEXPORT cmsPipelineEvalFloat(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsPipeline* lut); +CMSAPI cmsBool CMSEXPORT cmsPipelineEvalReverseFloat(cmsFloat32Number Target[], cmsFloat32Number Result[], cmsFloat32Number Hint[], const cmsPipeline* lut); +CMSAPI cmsBool CMSEXPORT cmsPipelineCat(cmsPipeline* l1, const cmsPipeline* l2); +CMSAPI cmsBool CMSEXPORT cmsPipelineSetSaveAs8bitsFlag(cmsPipeline* lut, cmsBool On); + +// Where to place/locate the stages in the pipeline chain +typedef enum { cmsAT_BEGIN, cmsAT_END } cmsStageLoc; + +CMSAPI int CMSEXPORT cmsPipelineInsertStage(cmsPipeline* lut, cmsStageLoc loc, cmsStage* mpe); +CMSAPI void CMSEXPORT cmsPipelineUnlinkStage(cmsPipeline* lut, cmsStageLoc loc, cmsStage** mpe); + +// This function is quite useful to analyze the structure of a Pipeline and retrieve the Stage elements +// that conform the Pipeline. It should be called with the Pipeline, the number of expected elements and +// then a list of expected types followed with a list of double pointers to Stage elements. If +// the function founds a match with current pipeline, it fills the pointers and returns TRUE +// if not, returns FALSE without touching anything. +CMSAPI cmsBool CMSEXPORT cmsPipelineCheckAndRetreiveStages(const cmsPipeline* Lut, cmsUInt32Number n, ...); + +// Matrix has double precision and CLUT has only float precision. That is because an ICC profile can encode +// matrices with far more precision that CLUTS +CMSAPI cmsStage* CMSEXPORT cmsStageAllocIdentity(cmsContext ContextID, cmsUInt32Number nChannels); +CMSAPI cmsStage* CMSEXPORT cmsStageAllocToneCurves(cmsContext ContextID, cmsUInt32Number nChannels, cmsToneCurve* const Curves[]); +CMSAPI cmsStage* CMSEXPORT cmsStageAllocMatrix(cmsContext ContextID, cmsUInt32Number Rows, cmsUInt32Number Cols, const cmsFloat64Number* Matrix, const cmsFloat64Number* Offset); + +CMSAPI cmsStage* CMSEXPORT cmsStageAllocCLut16bit(cmsContext ContextID, cmsUInt32Number nGridPoints, cmsUInt32Number inputChan, cmsUInt32Number outputChan, const cmsUInt16Number* Table); +CMSAPI cmsStage* CMSEXPORT cmsStageAllocCLutFloat(cmsContext ContextID, cmsUInt32Number nGridPoints, cmsUInt32Number inputChan, cmsUInt32Number outputChan, const cmsFloat32Number* Table); + +CMSAPI cmsStage* CMSEXPORT cmsStageAllocCLut16bitGranular(cmsContext ContextID, const cmsUInt32Number clutPoints[], cmsUInt32Number inputChan, cmsUInt32Number outputChan, const cmsUInt16Number* Table); +CMSAPI cmsStage* CMSEXPORT cmsStageAllocCLutFloatGranular(cmsContext ContextID, const cmsUInt32Number clutPoints[], cmsUInt32Number inputChan, cmsUInt32Number outputChan, const cmsFloat32Number* Table); + +CMSAPI cmsStage* CMSEXPORT cmsStageDup(cmsStage* mpe); +CMSAPI void CMSEXPORT cmsStageFree(cmsStage* mpe); +CMSAPI cmsStage* CMSEXPORT cmsStageNext(const cmsStage* mpe); + +CMSAPI cmsUInt32Number CMSEXPORT cmsStageInputChannels(const cmsStage* mpe); +CMSAPI cmsUInt32Number CMSEXPORT cmsStageOutputChannels(const cmsStage* mpe); +CMSAPI cmsStageSignature CMSEXPORT cmsStageType(const cmsStage* mpe); +CMSAPI void* CMSEXPORT cmsStageData(const cmsStage* mpe); + +// Sampling +typedef cmsInt32Number (* cmsSAMPLER16) (register const cmsUInt16Number In[], + register cmsUInt16Number Out[], + register void * Cargo); + +typedef cmsInt32Number (* cmsSAMPLERFLOAT)(register const cmsFloat32Number In[], + register cmsFloat32Number Out[], + register void * Cargo); + +// Use this flag to prevent changes being written to destination +#define SAMPLER_INSPECT 0x01000000 + +// For CLUT only +CMSAPI cmsBool CMSEXPORT cmsStageSampleCLut16bit(cmsStage* mpe, cmsSAMPLER16 Sampler, void* Cargo, cmsUInt32Number dwFlags); +CMSAPI cmsBool CMSEXPORT cmsStageSampleCLutFloat(cmsStage* mpe, cmsSAMPLERFLOAT Sampler, void* Cargo, cmsUInt32Number dwFlags); + +// Slicers +CMSAPI cmsBool CMSEXPORT cmsSliceSpace16(cmsUInt32Number nInputs, const cmsUInt32Number clutPoints[], + cmsSAMPLER16 Sampler, void * Cargo); + +CMSAPI cmsBool CMSEXPORT cmsSliceSpaceFloat(cmsUInt32Number nInputs, const cmsUInt32Number clutPoints[], + cmsSAMPLERFLOAT Sampler, void * Cargo); + +// Multilocalized Unicode management --------------------------------------------------------------------------------------- + +typedef struct _cms_MLU_struct cmsMLU; + +#define cmsNoLanguage "\0\0" +#define cmsNoCountry "\0\0" + +CMSAPI cmsMLU* CMSEXPORT cmsMLUalloc(cmsContext ContextID, cmsUInt32Number nItems); +CMSAPI void CMSEXPORT cmsMLUfree(cmsMLU* mlu); +CMSAPI cmsMLU* CMSEXPORT cmsMLUdup(const cmsMLU* mlu); + +CMSAPI cmsBool CMSEXPORT cmsMLUsetASCII(cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + const char* ASCIIString); +CMSAPI cmsBool CMSEXPORT cmsMLUsetWide(cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + const wchar_t* WideString); + +CMSAPI cmsUInt32Number CMSEXPORT cmsMLUgetASCII(const cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + char* Buffer, cmsUInt32Number BufferSize); + +CMSAPI cmsUInt32Number CMSEXPORT cmsMLUgetWide(const cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + wchar_t* Buffer, cmsUInt32Number BufferSize); + +CMSAPI cmsBool CMSEXPORT cmsMLUgetTranslation(const cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + char ObtainedLanguage[3], char ObtainedCountry[3]); + +CMSAPI cmsUInt32Number CMSEXPORT cmsMLUtranslationsCount(const cmsMLU* mlu); + +CMSAPI cmsBool CMSEXPORT cmsMLUtranslationsCodes(const cmsMLU* mlu, + cmsUInt32Number idx, + char LanguageCode[3], + char CountryCode[3]); + +// Undercolorremoval & black generation ------------------------------------------------------------------------------------- + +typedef struct { + cmsToneCurve* Ucr; + cmsToneCurve* Bg; + cmsMLU* Desc; + +} cmsUcrBg; + +// Screening ---------------------------------------------------------------------------------------------------------------- + +#define cmsPRINTER_DEFAULT_SCREENS 0x0001 +#define cmsFREQUENCE_UNITS_LINES_CM 0x0000 +#define cmsFREQUENCE_UNITS_LINES_INCH 0x0002 + +#define cmsSPOT_UNKNOWN 0 +#define cmsSPOT_PRINTER_DEFAULT 1 +#define cmsSPOT_ROUND 2 +#define cmsSPOT_DIAMOND 3 +#define cmsSPOT_ELLIPSE 4 +#define cmsSPOT_LINE 5 +#define cmsSPOT_SQUARE 6 +#define cmsSPOT_CROSS 7 + +typedef struct { + cmsFloat64Number Frequency; + cmsFloat64Number ScreenAngle; + cmsUInt32Number SpotShape; + +} cmsScreeningChannel; + +typedef struct { + cmsUInt32Number Flag; + cmsUInt32Number nChannels; + cmsScreeningChannel Channels[cmsMAXCHANNELS]; + +} cmsScreening; + + +// Named color ----------------------------------------------------------------------------------------------------------------- + +typedef struct _cms_NAMEDCOLORLIST_struct cmsNAMEDCOLORLIST; + +CMSAPI cmsNAMEDCOLORLIST* CMSEXPORT cmsAllocNamedColorList(cmsContext ContextID, + cmsUInt32Number n, + cmsUInt32Number ColorantCount, + const char* Prefix, const char* Suffix); + +CMSAPI void CMSEXPORT cmsFreeNamedColorList(cmsNAMEDCOLORLIST* v); +CMSAPI cmsNAMEDCOLORLIST* CMSEXPORT cmsDupNamedColorList(const cmsNAMEDCOLORLIST* v); +CMSAPI cmsBool CMSEXPORT cmsAppendNamedColor(cmsNAMEDCOLORLIST* v, const char* Name, + cmsUInt16Number PCS[3], + cmsUInt16Number Colorant[cmsMAXCHANNELS]); + +CMSAPI cmsUInt32Number CMSEXPORT cmsNamedColorCount(const cmsNAMEDCOLORLIST* v); +CMSAPI cmsInt32Number CMSEXPORT cmsNamedColorIndex(const cmsNAMEDCOLORLIST* v, const char* Name); + +CMSAPI cmsBool CMSEXPORT cmsNamedColorInfo(const cmsNAMEDCOLORLIST* NamedColorList, cmsUInt32Number nColor, + char* Name, + char* Prefix, + char* Suffix, + cmsUInt16Number* PCS, + cmsUInt16Number* Colorant); + +// Retrieve named color list from transform +CMSAPI cmsNAMEDCOLORLIST* CMSEXPORT cmsGetNamedColorList(cmsHTRANSFORM xform); + +// Profile sequence ----------------------------------------------------------------------------------------------------- + +// Profile sequence descriptor. Some fields come from profile sequence descriptor tag, others +// come from Profile Sequence Identifier Tag +typedef struct { + + cmsSignature deviceMfg; + cmsSignature deviceModel; + cmsUInt64Number attributes; + cmsTechnologySignature technology; + cmsProfileID ProfileID; + cmsMLU* Manufacturer; + cmsMLU* Model; + cmsMLU* Description; + +} cmsPSEQDESC; + +typedef struct { + + cmsUInt32Number n; + cmsContext ContextID; + cmsPSEQDESC* seq; + +} cmsSEQ; + +CMSAPI cmsSEQ* CMSEXPORT cmsAllocProfileSequenceDescription(cmsContext ContextID, cmsUInt32Number n); +CMSAPI cmsSEQ* CMSEXPORT cmsDupProfileSequenceDescription(const cmsSEQ* pseq); +CMSAPI void CMSEXPORT cmsFreeProfileSequenceDescription(cmsSEQ* pseq); + +// Dictionaries -------------------------------------------------------------------------------------------------------- + +typedef struct _cmsDICTentry_struct { + + struct _cmsDICTentry_struct* Next; + + cmsMLU *DisplayName; + cmsMLU *DisplayValue; + wchar_t* Name; + wchar_t* Value; + +} cmsDICTentry; + +CMSAPI cmsHANDLE CMSEXPORT cmsDictAlloc(cmsContext ContextID); +CMSAPI void CMSEXPORT cmsDictFree(cmsHANDLE hDict); +CMSAPI cmsHANDLE CMSEXPORT cmsDictDup(cmsHANDLE hDict); + +CMSAPI cmsBool CMSEXPORT cmsDictAddEntry(cmsHANDLE hDict, const wchar_t* Name, const wchar_t* Value, const cmsMLU *DisplayName, const cmsMLU *DisplayValue); +CMSAPI const cmsDICTentry* CMSEXPORT cmsDictGetEntryList(cmsHANDLE hDict); +CMSAPI const cmsDICTentry* CMSEXPORT cmsDictNextEntry(const cmsDICTentry* e); + +// Access to Profile data ---------------------------------------------------------------------------------------------- +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateProfilePlaceholder(cmsContext ContextID); + +CMSAPI cmsContext CMSEXPORT cmsGetProfileContextID(cmsHPROFILE hProfile); +CMSAPI cmsInt32Number CMSEXPORT cmsGetTagCount(cmsHPROFILE hProfile); +CMSAPI cmsTagSignature CMSEXPORT cmsGetTagSignature(cmsHPROFILE hProfile, cmsUInt32Number n); +CMSAPI cmsBool CMSEXPORT cmsIsTag(cmsHPROFILE hProfile, cmsTagSignature sig); + +// Read and write pre-formatted data +CMSAPI void* CMSEXPORT cmsReadTag(cmsHPROFILE hProfile, cmsTagSignature sig); +CMSAPI cmsBool CMSEXPORT cmsWriteTag(cmsHPROFILE hProfile, cmsTagSignature sig, const void* data); +CMSAPI cmsBool CMSEXPORT cmsLinkTag(cmsHPROFILE hProfile, cmsTagSignature sig, cmsTagSignature dest); +CMSAPI cmsTagSignature CMSEXPORT cmsTagLinkedTo(cmsHPROFILE hProfile, cmsTagSignature sig); + +// Read and write raw data +CMSAPI cmsInt32Number CMSEXPORT cmsReadRawTag(cmsHPROFILE hProfile, cmsTagSignature sig, void* Buffer, cmsUInt32Number BufferSize); +CMSAPI cmsBool CMSEXPORT cmsWriteRawTag(cmsHPROFILE hProfile, cmsTagSignature sig, const void* data, cmsUInt32Number Size); + +// Access header data +#define cmsEmbeddedProfileFalse 0x00000000 +#define cmsEmbeddedProfileTrue 0x00000001 +#define cmsUseAnywhere 0x00000000 +#define cmsUseWithEmbeddedDataOnly 0x00000002 + +CMSAPI cmsUInt32Number CMSEXPORT cmsGetHeaderFlags(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsGetHeaderAttributes(cmsHPROFILE hProfile, cmsUInt64Number* Flags); +CMSAPI void CMSEXPORT cmsGetHeaderProfileID(cmsHPROFILE hProfile, cmsUInt8Number* ProfileID); +CMSAPI cmsBool CMSEXPORT cmsGetHeaderCreationDateTime(cmsHPROFILE hProfile, struct tm *Dest); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetHeaderRenderingIntent(cmsHPROFILE hProfile); + +CMSAPI void CMSEXPORT cmsSetHeaderFlags(cmsHPROFILE hProfile, cmsUInt32Number Flags); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetHeaderManufacturer(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsSetHeaderManufacturer(cmsHPROFILE hProfile, cmsUInt32Number manufacturer); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetHeaderCreator(cmsHPROFILE hProfile); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetHeaderModel(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsSetHeaderModel(cmsHPROFILE hProfile, cmsUInt32Number model); +CMSAPI void CMSEXPORT cmsSetHeaderAttributes(cmsHPROFILE hProfile, cmsUInt64Number Flags); +CMSAPI void CMSEXPORT cmsSetHeaderProfileID(cmsHPROFILE hProfile, cmsUInt8Number* ProfileID); +CMSAPI void CMSEXPORT cmsSetHeaderRenderingIntent(cmsHPROFILE hProfile, cmsUInt32Number RenderingIntent); + +CMSAPI cmsColorSpaceSignature + CMSEXPORT cmsGetPCS(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsSetPCS(cmsHPROFILE hProfile, cmsColorSpaceSignature pcs); +CMSAPI cmsColorSpaceSignature + CMSEXPORT cmsGetColorSpace(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsSetColorSpace(cmsHPROFILE hProfile, cmsColorSpaceSignature sig); +CMSAPI cmsProfileClassSignature + CMSEXPORT cmsGetDeviceClass(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsSetDeviceClass(cmsHPROFILE hProfile, cmsProfileClassSignature sig); +CMSAPI void CMSEXPORT cmsSetProfileVersion(cmsHPROFILE hProfile, cmsFloat64Number Version); +CMSAPI cmsFloat64Number CMSEXPORT cmsGetProfileVersion(cmsHPROFILE hProfile); + +CMSAPI cmsUInt32Number CMSEXPORT cmsGetEncodedICCversion(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsSetEncodedICCversion(cmsHPROFILE hProfile, cmsUInt32Number Version); + +// How profiles may be used +#define LCMS_USED_AS_INPUT 0 +#define LCMS_USED_AS_OUTPUT 1 +#define LCMS_USED_AS_PROOF 2 + +CMSAPI cmsBool CMSEXPORT cmsIsIntentSupported(cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number UsedDirection); +CMSAPI cmsBool CMSEXPORT cmsIsMatrixShaper(cmsHPROFILE hProfile); +CMSAPI cmsBool CMSEXPORT cmsIsCLUT(cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number UsedDirection); + +// Translate form/to our notation to ICC +CMSAPI cmsColorSpaceSignature CMSEXPORT _cmsICCcolorSpace(int OurNotation); +CMSAPI int CMSEXPORT _cmsLCMScolorSpace(cmsColorSpaceSignature ProfileSpace); + +CMSAPI cmsUInt32Number CMSEXPORT cmsChannelsOf(cmsColorSpaceSignature ColorSpace); + +// Build a suitable formatter for the colorspace of this profile. nBytes=1 means 8 bits, nBytes=2 means 16 bits. +CMSAPI cmsUInt32Number CMSEXPORT cmsFormatterForColorspaceOfProfile(cmsHPROFILE hProfile, cmsUInt32Number nBytes, cmsBool lIsFloat); +CMSAPI cmsUInt32Number CMSEXPORT cmsFormatterForPCSOfProfile(cmsHPROFILE hProfile, cmsUInt32Number nBytes, cmsBool lIsFloat); + + +// Localized info +typedef enum { + cmsInfoDescription = 0, + cmsInfoManufacturer = 1, + cmsInfoModel = 2, + cmsInfoCopyright = 3 +} cmsInfoType; + +CMSAPI cmsUInt32Number CMSEXPORT cmsGetProfileInfo(cmsHPROFILE hProfile, cmsInfoType Info, + const char LanguageCode[3], const char CountryCode[3], + wchar_t* Buffer, cmsUInt32Number BufferSize); + +CMSAPI cmsUInt32Number CMSEXPORT cmsGetProfileInfoASCII(cmsHPROFILE hProfile, cmsInfoType Info, + const char LanguageCode[3], const char CountryCode[3], + char* Buffer, cmsUInt32Number BufferSize); + +// IO handlers ---------------------------------------------------------------------------------------------------------- + +typedef struct _cms_io_handler cmsIOHANDLER; + +CMSAPI cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromFile(cmsContext ContextID, const char* FileName, const char* AccessMode); +CMSAPI cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromStream(cmsContext ContextID, FILE* Stream); +CMSAPI cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromMem(cmsContext ContextID, void *Buffer, cmsUInt32Number size, const char* AccessMode); +CMSAPI cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromNULL(cmsContext ContextID); +CMSAPI cmsIOHANDLER* CMSEXPORT cmsGetProfileIOhandler(cmsHPROFILE hProfile); +CMSAPI cmsBool CMSEXPORT cmsCloseIOhandler(cmsIOHANDLER* io); + +// MD5 message digest -------------------------------------------------------------------------------------------------- + +CMSAPI cmsBool CMSEXPORT cmsMD5computeID(cmsHPROFILE hProfile); + +// Profile high level funtions ------------------------------------------------------------------------------------------ + +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromFile(const char *ICCProfile, const char *sAccess); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromFileTHR(cmsContext ContextID, const char *ICCProfile, const char *sAccess); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromStream(FILE* ICCProfile, const char* sAccess); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromStreamTHR(cmsContext ContextID, FILE* ICCProfile, const char* sAccess); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromMem(const void * MemPtr, cmsUInt32Number dwSize); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromMemTHR(cmsContext ContextID, const void * MemPtr, cmsUInt32Number dwSize); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromIOhandlerTHR(cmsContext ContextID, cmsIOHANDLER* io); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromIOhandler2THR(cmsContext ContextID, cmsIOHANDLER* io, cmsBool write); +CMSAPI cmsBool CMSEXPORT cmsCloseProfile(cmsHPROFILE hProfile); + +CMSAPI cmsBool CMSEXPORT cmsSaveProfileToFile(cmsHPROFILE hProfile, const char* FileName); +CMSAPI cmsBool CMSEXPORT cmsSaveProfileToStream(cmsHPROFILE hProfile, FILE* Stream); +CMSAPI cmsBool CMSEXPORT cmsSaveProfileToMem(cmsHPROFILE hProfile, void *MemPtr, cmsUInt32Number* BytesNeeded); +CMSAPI cmsUInt32Number CMSEXPORT cmsSaveProfileToIOhandler(cmsHPROFILE hProfile, cmsIOHANDLER* io); + +// Predefined virtual profiles ------------------------------------------------------------------------------------------ + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateRGBProfileTHR(cmsContext ContextID, + const cmsCIExyY* WhitePoint, + const cmsCIExyYTRIPLE* Primaries, + cmsToneCurve* const TransferFunction[3]); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateRGBProfile(const cmsCIExyY* WhitePoint, + const cmsCIExyYTRIPLE* Primaries, + cmsToneCurve* const TransferFunction[3]); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateGrayProfileTHR(cmsContext ContextID, + const cmsCIExyY* WhitePoint, + const cmsToneCurve* TransferFunction); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateGrayProfile(const cmsCIExyY* WhitePoint, + const cmsToneCurve* TransferFunction); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateLinearizationDeviceLinkTHR(cmsContext ContextID, + cmsColorSpaceSignature ColorSpace, + cmsToneCurve* const TransferFunctions[]); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateLinearizationDeviceLink(cmsColorSpaceSignature ColorSpace, + cmsToneCurve* const TransferFunctions[]); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateInkLimitingDeviceLinkTHR(cmsContext ContextID, + cmsColorSpaceSignature ColorSpace, cmsFloat64Number Limit); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateInkLimitingDeviceLink(cmsColorSpaceSignature ColorSpace, cmsFloat64Number Limit); + + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateLab2ProfileTHR(cmsContext ContextID, const cmsCIExyY* WhitePoint); +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateLab2Profile(const cmsCIExyY* WhitePoint); +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateLab4ProfileTHR(cmsContext ContextID, const cmsCIExyY* WhitePoint); +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateLab4Profile(const cmsCIExyY* WhitePoint); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateXYZProfileTHR(cmsContext ContextID); +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateXYZProfile(void); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreate_sRGBProfileTHR(cmsContext ContextID); +CMSAPI cmsHPROFILE CMSEXPORT cmsCreate_sRGBProfile(void); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateBCHSWabstractProfileTHR(cmsContext ContextID, + int nLUTPoints, + cmsFloat64Number Bright, + cmsFloat64Number Contrast, + cmsFloat64Number Hue, + cmsFloat64Number Saturation, + int TempSrc, + int TempDest); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateBCHSWabstractProfile(int nLUTPoints, + cmsFloat64Number Bright, + cmsFloat64Number Contrast, + cmsFloat64Number Hue, + cmsFloat64Number Saturation, + int TempSrc, + int TempDest); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateNULLProfileTHR(cmsContext ContextID); +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateNULLProfile(void); + +// Converts a transform to a devicelink profile +CMSAPI cmsHPROFILE CMSEXPORT cmsTransform2DeviceLink(cmsHTRANSFORM hTransform, cmsFloat64Number Version, cmsUInt32Number dwFlags); + +// Intents ---------------------------------------------------------------------------------------------- + +// ICC Intents +#define INTENT_PERCEPTUAL 0 +#define INTENT_RELATIVE_COLORIMETRIC 1 +#define INTENT_SATURATION 2 +#define INTENT_ABSOLUTE_COLORIMETRIC 3 + +// Non-ICC intents +#define INTENT_PRESERVE_K_ONLY_PERCEPTUAL 10 +#define INTENT_PRESERVE_K_ONLY_RELATIVE_COLORIMETRIC 11 +#define INTENT_PRESERVE_K_ONLY_SATURATION 12 +#define INTENT_PRESERVE_K_PLANE_PERCEPTUAL 13 +#define INTENT_PRESERVE_K_PLANE_RELATIVE_COLORIMETRIC 14 +#define INTENT_PRESERVE_K_PLANE_SATURATION 15 + +// Call with NULL as parameters to get the intent count +CMSAPI cmsUInt32Number CMSEXPORT cmsGetSupportedIntents(cmsUInt32Number nMax, cmsUInt32Number* Codes, char** Descriptions); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetSupportedIntentsTHR(cmsContext ContextID, cmsUInt32Number nMax, cmsUInt32Number* Codes, char** Descriptions); + +// Flags + +#define cmsFLAGS_NOCACHE 0x0040 // Inhibit 1-pixel cache +#define cmsFLAGS_NOOPTIMIZE 0x0100 // Inhibit optimizations +#define cmsFLAGS_NULLTRANSFORM 0x0200 // Don't transform anyway + +// Proofing flags +#define cmsFLAGS_GAMUTCHECK 0x1000 // Out of Gamut alarm +#define cmsFLAGS_SOFTPROOFING 0x4000 // Do softproofing + +// Misc +#define cmsFLAGS_BLACKPOINTCOMPENSATION 0x2000 +#define cmsFLAGS_NOWHITEONWHITEFIXUP 0x0004 // Don't fix scum dot +#define cmsFLAGS_HIGHRESPRECALC 0x0400 // Use more memory to give better accurancy +#define cmsFLAGS_LOWRESPRECALC 0x0800 // Use less memory to minimize resouces + +// For devicelink creation +#define cmsFLAGS_8BITS_DEVICELINK 0x0008 // Create 8 bits devicelinks +#define cmsFLAGS_GUESSDEVICECLASS 0x0020 // Guess device class (for transform2devicelink) +#define cmsFLAGS_KEEP_SEQUENCE 0x0080 // Keep profile sequence for devicelink creation + +// Specific to a particular optimizations +#define cmsFLAGS_FORCE_CLUT 0x0002 // Force CLUT optimization +#define cmsFLAGS_CLUT_POST_LINEARIZATION 0x0001 // create postlinearization tables if possible +#define cmsFLAGS_CLUT_PRE_LINEARIZATION 0x0010 // create prelinearization tables if possible + +// Specific to unbounded mode +#define cmsFLAGS_NONEGATIVES 0x8000 // Prevent negative numbers in floating point transforms + +// Copy alpha channels when transforming +#define cmsFLAGS_COPY_ALPHA 0x04000000 // Alpha channels are copied on cmsDoTransform() + +// Fine-tune control over number of gridpoints +#define cmsFLAGS_GRIDPOINTS(n) (((n) & 0xFF) << 16) + +// CRD special +#define cmsFLAGS_NODEFAULTRESOURCEDEF 0x01000000 + +// Transforms --------------------------------------------------------------------------------------------------- + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateTransformTHR(cmsContext ContextID, + cmsHPROFILE Input, + cmsUInt32Number InputFormat, + cmsHPROFILE Output, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags); + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateTransform(cmsHPROFILE Input, + cmsUInt32Number InputFormat, + cmsHPROFILE Output, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags); + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateProofingTransformTHR(cmsContext ContextID, + cmsHPROFILE Input, + cmsUInt32Number InputFormat, + cmsHPROFILE Output, + cmsUInt32Number OutputFormat, + cmsHPROFILE Proofing, + cmsUInt32Number Intent, + cmsUInt32Number ProofingIntent, + cmsUInt32Number dwFlags); + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateProofingTransform(cmsHPROFILE Input, + cmsUInt32Number InputFormat, + cmsHPROFILE Output, + cmsUInt32Number OutputFormat, + cmsHPROFILE Proofing, + cmsUInt32Number Intent, + cmsUInt32Number ProofingIntent, + cmsUInt32Number dwFlags); + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateMultiprofileTransformTHR(cmsContext ContextID, + cmsHPROFILE hProfiles[], + cmsUInt32Number nProfiles, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags); + + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateMultiprofileTransform(cmsHPROFILE hProfiles[], + cmsUInt32Number nProfiles, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags); + + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateExtendedTransform(cmsContext ContextID, + cmsUInt32Number nProfiles, cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsUInt32Number Intents[], + cmsFloat64Number AdaptationStates[], + cmsHPROFILE hGamutProfile, + cmsUInt32Number nGamutPCSposition, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + cmsUInt32Number dwFlags); + +CMSAPI void CMSEXPORT cmsDeleteTransform(cmsHTRANSFORM hTransform); + +CMSAPI void CMSEXPORT cmsDoTransform(cmsHTRANSFORM Transform, + const void * InputBuffer, + void * OutputBuffer, + cmsUInt32Number Size); + +CMSAPI void CMSEXPORT cmsDoTransformStride(cmsHTRANSFORM Transform, // Deprecated + const void * InputBuffer, + void * OutputBuffer, + cmsUInt32Number Size, + cmsUInt32Number Stride); + +CMSAPI void CMSEXPORT cmsDoTransformLineStride(cmsHTRANSFORM Transform, + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + cmsUInt32Number BytesPerLineIn, + cmsUInt32Number BytesPerLineOut, + cmsUInt32Number BytesPerPlaneIn, + cmsUInt32Number BytesPerPlaneOut); + + +CMSAPI void CMSEXPORT cmsSetAlarmCodes(const cmsUInt16Number NewAlarm[cmsMAXCHANNELS]); +CMSAPI void CMSEXPORT cmsGetAlarmCodes(cmsUInt16Number NewAlarm[cmsMAXCHANNELS]); + + +CMSAPI void CMSEXPORT cmsSetAlarmCodesTHR(cmsContext ContextID, + const cmsUInt16Number AlarmCodes[cmsMAXCHANNELS]); +CMSAPI void CMSEXPORT cmsGetAlarmCodesTHR(cmsContext ContextID, + cmsUInt16Number AlarmCodes[cmsMAXCHANNELS]); + + + +// Adaptation state for absolute colorimetric intent +CMSAPI cmsFloat64Number CMSEXPORT cmsSetAdaptationState(cmsFloat64Number d); +CMSAPI cmsFloat64Number CMSEXPORT cmsSetAdaptationStateTHR(cmsContext ContextID, cmsFloat64Number d); + + + +// Grab the ContextID from an open transform. Returns NULL if a NULL transform is passed +CMSAPI cmsContext CMSEXPORT cmsGetTransformContextID(cmsHTRANSFORM hTransform); + +// Grab the input/output formats +CMSAPI cmsUInt32Number CMSEXPORT cmsGetTransformInputFormat(cmsHTRANSFORM hTransform); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetTransformOutputFormat(cmsHTRANSFORM hTransform); + +// For backwards compatibility +CMSAPI cmsBool CMSEXPORT cmsChangeBuffersFormat(cmsHTRANSFORM hTransform, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat); + + + +// PostScript ColorRenderingDictionary and ColorSpaceArray ---------------------------------------------------- + +typedef enum { cmsPS_RESOURCE_CSA, cmsPS_RESOURCE_CRD } cmsPSResourceType; + +// lcms2 unified method to access postscript color resources +CMSAPI cmsUInt32Number CMSEXPORT cmsGetPostScriptColorResource(cmsContext ContextID, + cmsPSResourceType Type, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags, + cmsIOHANDLER* io); + +CMSAPI cmsUInt32Number CMSEXPORT cmsGetPostScriptCSA(cmsContext ContextID, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags, void* Buffer, cmsUInt32Number dwBufferLen); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetPostScriptCRD(cmsContext ContextID, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags, void* Buffer, cmsUInt32Number dwBufferLen); + + +// IT8.7 / CGATS.17-200x handling ----------------------------------------------------------------------------- + +CMSAPI cmsHANDLE CMSEXPORT cmsIT8Alloc(cmsContext ContextID); +CMSAPI void CMSEXPORT cmsIT8Free(cmsHANDLE hIT8); + +// Tables +CMSAPI cmsUInt32Number CMSEXPORT cmsIT8TableCount(cmsHANDLE hIT8); +CMSAPI cmsInt32Number CMSEXPORT cmsIT8SetTable(cmsHANDLE hIT8, cmsUInt32Number nTable); + +// Persistence +CMSAPI cmsHANDLE CMSEXPORT cmsIT8LoadFromFile(cmsContext ContextID, const char* cFileName); +CMSAPI cmsHANDLE CMSEXPORT cmsIT8LoadFromMem(cmsContext ContextID, void *Ptr, cmsUInt32Number len); +// CMSAPI cmsHANDLE CMSEXPORT cmsIT8LoadFromIOhandler(cmsContext ContextID, cmsIOHANDLER* io); + +CMSAPI cmsBool CMSEXPORT cmsIT8SaveToFile(cmsHANDLE hIT8, const char* cFileName); +CMSAPI cmsBool CMSEXPORT cmsIT8SaveToMem(cmsHANDLE hIT8, void *MemPtr, cmsUInt32Number* BytesNeeded); + +// Properties +CMSAPI const char* CMSEXPORT cmsIT8GetSheetType(cmsHANDLE hIT8); +CMSAPI cmsBool CMSEXPORT cmsIT8SetSheetType(cmsHANDLE hIT8, const char* Type); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetComment(cmsHANDLE hIT8, const char* cComment); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetPropertyStr(cmsHANDLE hIT8, const char* cProp, const char *Str); +CMSAPI cmsBool CMSEXPORT cmsIT8SetPropertyDbl(cmsHANDLE hIT8, const char* cProp, cmsFloat64Number Val); +CMSAPI cmsBool CMSEXPORT cmsIT8SetPropertyHex(cmsHANDLE hIT8, const char* cProp, cmsUInt32Number Val); +CMSAPI cmsBool CMSEXPORT cmsIT8SetPropertyMulti(cmsHANDLE hIT8, const char* Key, const char* SubKey, const char *Buffer); +CMSAPI cmsBool CMSEXPORT cmsIT8SetPropertyUncooked(cmsHANDLE hIT8, const char* Key, const char* Buffer); + + +CMSAPI const char* CMSEXPORT cmsIT8GetProperty(cmsHANDLE hIT8, const char* cProp); +CMSAPI cmsFloat64Number CMSEXPORT cmsIT8GetPropertyDbl(cmsHANDLE hIT8, const char* cProp); +CMSAPI const char* CMSEXPORT cmsIT8GetPropertyMulti(cmsHANDLE hIT8, const char* Key, const char *SubKey); +CMSAPI cmsUInt32Number CMSEXPORT cmsIT8EnumProperties(cmsHANDLE hIT8, char ***PropertyNames); +CMSAPI cmsUInt32Number CMSEXPORT cmsIT8EnumPropertyMulti(cmsHANDLE hIT8, const char* cProp, const char ***SubpropertyNames); + +// Datasets +CMSAPI const char* CMSEXPORT cmsIT8GetDataRowCol(cmsHANDLE hIT8, int row, int col); +CMSAPI cmsFloat64Number CMSEXPORT cmsIT8GetDataRowColDbl(cmsHANDLE hIT8, int row, int col); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetDataRowCol(cmsHANDLE hIT8, int row, int col, + const char* Val); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetDataRowColDbl(cmsHANDLE hIT8, int row, int col, + cmsFloat64Number Val); + +CMSAPI const char* CMSEXPORT cmsIT8GetData(cmsHANDLE hIT8, const char* cPatch, const char* cSample); + + +CMSAPI cmsFloat64Number CMSEXPORT cmsIT8GetDataDbl(cmsHANDLE hIT8, const char* cPatch, const char* cSample); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetData(cmsHANDLE hIT8, const char* cPatch, + const char* cSample, + const char *Val); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetDataDbl(cmsHANDLE hIT8, const char* cPatch, + const char* cSample, + cmsFloat64Number Val); + +CMSAPI int CMSEXPORT cmsIT8FindDataFormat(cmsHANDLE hIT8, const char* cSample); +CMSAPI cmsBool CMSEXPORT cmsIT8SetDataFormat(cmsHANDLE hIT8, int n, const char *Sample); +CMSAPI int CMSEXPORT cmsIT8EnumDataFormat(cmsHANDLE hIT8, char ***SampleNames); + +CMSAPI const char* CMSEXPORT cmsIT8GetPatchName(cmsHANDLE hIT8, int nPatch, char* buffer); +CMSAPI int CMSEXPORT cmsIT8GetPatchByName(cmsHANDLE hIT8, const char *cPatch); + +// The LABEL extension +CMSAPI int CMSEXPORT cmsIT8SetTableByLabel(cmsHANDLE hIT8, const char* cSet, const char* cField, const char* ExpectedType); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetIndexColumn(cmsHANDLE hIT8, const char* cSample); + +// Formatter for double +CMSAPI void CMSEXPORT cmsIT8DefineDblFormat(cmsHANDLE hIT8, const char* Formatter); + +// Gamut boundary description routines ------------------------------------------------------------------------------ + +CMSAPI cmsHANDLE CMSEXPORT cmsGBDAlloc(cmsContext ContextID); +CMSAPI void CMSEXPORT cmsGBDFree(cmsHANDLE hGBD); +CMSAPI cmsBool CMSEXPORT cmsGDBAddPoint(cmsHANDLE hGBD, const cmsCIELab* Lab); +CMSAPI cmsBool CMSEXPORT cmsGDBCompute(cmsHANDLE hGDB, cmsUInt32Number dwFlags); +CMSAPI cmsBool CMSEXPORT cmsGDBCheckPoint(cmsHANDLE hGBD, const cmsCIELab* Lab); + +// Feature detection ---------------------------------------------------------------------------------------------- + +// Estimate the black point +CMSAPI cmsBool CMSEXPORT cmsDetectBlackPoint(cmsCIEXYZ* BlackPoint, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags); +CMSAPI cmsBool CMSEXPORT cmsDetectDestinationBlackPoint(cmsCIEXYZ* BlackPoint, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags); + +// Estimate total area coverage +CMSAPI cmsFloat64Number CMSEXPORT cmsDetectTAC(cmsHPROFILE hProfile); + + +// Poor man's gamut mapping +CMSAPI cmsBool CMSEXPORT cmsDesaturateLab(cmsCIELab* Lab, + double amax, double amin, + double bmax, double bmin); + +#ifndef CMS_USE_CPP_API +# ifdef __cplusplus + } +# endif +#endif + +#define _lcms2_H +#endif Index: sdk/include/reactos/libs/lcms2/lcms2_plugin.h =================================================================== --- sdk/include/reactos/libs/lcms2/lcms2_plugin.h (nonexistent) +++ sdk/include/reactos/libs/lcms2/lcms2_plugin.h (working copy) @@ -0,0 +1,665 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// +// This is the plug-in header file. Normal LittleCMS clients should not use it. +// It is provided for plug-in writters that may want to access the support +// functions to do low level operations. All plug-in related structures +// are defined here. Including this file forces to include the standard API too. + +#ifndef _lcms_plugin_H + +// Deal with Microsoft's attempt at deprecating C standard runtime functions +#ifdef _MSC_VER +# if (_MSC_VER >= 1400) +# ifndef _CRT_SECURE_NO_DEPRECATE +# define _CRT_SECURE_NO_DEPRECATE +# endif +# ifndef _CRT_SECURE_NO_WARNINGS +# define _CRT_SECURE_NO_WARNINGS +# endif +# endif +#endif + +#ifndef _lcms2_H +#include "lcms2.h" +#endif + +// We need some standard C functions. +#include +#include +#include +#include +#include + + +#ifndef CMS_USE_CPP_API +# ifdef __cplusplus +extern "C" { +# endif +#endif + +// Vector & Matrix operations ----------------------------------------------------------------------- + +// Axis of the matrix/array. No specific meaning at all. +#define VX 0 +#define VY 1 +#define VZ 2 + +// Vectors +typedef struct { + cmsFloat64Number n[3]; + + } cmsVEC3; + +// 3x3 Matrix +typedef struct { + cmsVEC3 v[3]; + + } cmsMAT3; + +CMSAPI void CMSEXPORT _cmsVEC3init(cmsVEC3* r, cmsFloat64Number x, cmsFloat64Number y, cmsFloat64Number z); +CMSAPI void CMSEXPORT _cmsVEC3minus(cmsVEC3* r, const cmsVEC3* a, const cmsVEC3* b); +CMSAPI void CMSEXPORT _cmsVEC3cross(cmsVEC3* r, const cmsVEC3* u, const cmsVEC3* v); +CMSAPI cmsFloat64Number CMSEXPORT _cmsVEC3dot(const cmsVEC3* u, const cmsVEC3* v); +CMSAPI cmsFloat64Number CMSEXPORT _cmsVEC3length(const cmsVEC3* a); +CMSAPI cmsFloat64Number CMSEXPORT _cmsVEC3distance(const cmsVEC3* a, const cmsVEC3* b); + +CMSAPI void CMSEXPORT _cmsMAT3identity(cmsMAT3* a); +CMSAPI cmsBool CMSEXPORT _cmsMAT3isIdentity(const cmsMAT3* a); +CMSAPI void CMSEXPORT _cmsMAT3per(cmsMAT3* r, const cmsMAT3* a, const cmsMAT3* b); +CMSAPI cmsBool CMSEXPORT _cmsMAT3inverse(const cmsMAT3* a, cmsMAT3* b); +CMSAPI cmsBool CMSEXPORT _cmsMAT3solve(cmsVEC3* x, cmsMAT3* a, cmsVEC3* b); +CMSAPI void CMSEXPORT _cmsMAT3eval(cmsVEC3* r, const cmsMAT3* a, const cmsVEC3* v); + + +// Error logging ------------------------------------------------------------------------------------- + +CMSAPI void CMSEXPORT cmsSignalError(cmsContext ContextID, cmsUInt32Number ErrorCode, const char *ErrorText, ...); + +// Memory management ---------------------------------------------------------------------------------- + +CMSAPI void* CMSEXPORT _cmsMalloc(cmsContext ContextID, cmsUInt32Number size); +CMSAPI void* CMSEXPORT _cmsMallocZero(cmsContext ContextID, cmsUInt32Number size); +CMSAPI void* CMSEXPORT _cmsCalloc(cmsContext ContextID, cmsUInt32Number num, cmsUInt32Number size); +CMSAPI void* CMSEXPORT _cmsRealloc(cmsContext ContextID, void* Ptr, cmsUInt32Number NewSize); +CMSAPI void CMSEXPORT _cmsFree(cmsContext ContextID, void* Ptr); +CMSAPI void* CMSEXPORT _cmsDupMem(cmsContext ContextID, const void* Org, cmsUInt32Number size); + +// I/O handler ---------------------------------------------------------------------------------- + +struct _cms_io_handler { + + void* stream; // Associated stream, which is implemented differently depending on media. + + cmsContext ContextID; + cmsUInt32Number UsedSpace; + cmsUInt32Number ReportedSize; + char PhysicalFile[cmsMAX_PATH]; + + cmsUInt32Number (* Read)(struct _cms_io_handler* iohandler, void *Buffer, + cmsUInt32Number size, + cmsUInt32Number count); + cmsBool (* Seek)(struct _cms_io_handler* iohandler, cmsUInt32Number offset); + cmsBool (* Close)(struct _cms_io_handler* iohandler); + cmsUInt32Number (* Tell)(struct _cms_io_handler* iohandler); + cmsBool (* Write)(struct _cms_io_handler* iohandler, cmsUInt32Number size, + const void* Buffer); +}; + +// Endianness adjust functions +CMSAPI cmsUInt16Number CMSEXPORT _cmsAdjustEndianess16(cmsUInt16Number Word); +CMSAPI cmsUInt32Number CMSEXPORT _cmsAdjustEndianess32(cmsUInt32Number Value); +CMSAPI void CMSEXPORT _cmsAdjustEndianess64(cmsUInt64Number* Result, cmsUInt64Number* QWord); + +// Helper IO functions +CMSAPI cmsBool CMSEXPORT _cmsReadUInt8Number(cmsIOHANDLER* io, cmsUInt8Number* n); +CMSAPI cmsBool CMSEXPORT _cmsReadUInt16Number(cmsIOHANDLER* io, cmsUInt16Number* n); +CMSAPI cmsBool CMSEXPORT _cmsReadUInt32Number(cmsIOHANDLER* io, cmsUInt32Number* n); +CMSAPI cmsBool CMSEXPORT _cmsReadFloat32Number(cmsIOHANDLER* io, cmsFloat32Number* n); +CMSAPI cmsBool CMSEXPORT _cmsReadUInt64Number(cmsIOHANDLER* io, cmsUInt64Number* n); +CMSAPI cmsBool CMSEXPORT _cmsRead15Fixed16Number(cmsIOHANDLER* io, cmsFloat64Number* n); +CMSAPI cmsBool CMSEXPORT _cmsReadXYZNumber(cmsIOHANDLER* io, cmsCIEXYZ* XYZ); +CMSAPI cmsBool CMSEXPORT _cmsReadUInt16Array(cmsIOHANDLER* io, cmsUInt32Number n, cmsUInt16Number* Array); + +CMSAPI cmsBool CMSEXPORT _cmsWriteUInt8Number(cmsIOHANDLER* io, cmsUInt8Number n); +CMSAPI cmsBool CMSEXPORT _cmsWriteUInt16Number(cmsIOHANDLER* io, cmsUInt16Number n); +CMSAPI cmsBool CMSEXPORT _cmsWriteUInt32Number(cmsIOHANDLER* io, cmsUInt32Number n); +CMSAPI cmsBool CMSEXPORT _cmsWriteFloat32Number(cmsIOHANDLER* io, cmsFloat32Number n); +CMSAPI cmsBool CMSEXPORT _cmsWriteUInt64Number(cmsIOHANDLER* io, cmsUInt64Number* n); +CMSAPI cmsBool CMSEXPORT _cmsWrite15Fixed16Number(cmsIOHANDLER* io, cmsFloat64Number n); +CMSAPI cmsBool CMSEXPORT _cmsWriteXYZNumber(cmsIOHANDLER* io, const cmsCIEXYZ* XYZ); +CMSAPI cmsBool CMSEXPORT _cmsWriteUInt16Array(cmsIOHANDLER* io, cmsUInt32Number n, const cmsUInt16Number* Array); + +// ICC base tag +typedef struct { + cmsTagTypeSignature sig; + cmsInt8Number reserved[4]; + +} _cmsTagBase; + +// Type base helper functions +CMSAPI cmsTagTypeSignature CMSEXPORT _cmsReadTypeBase(cmsIOHANDLER* io); +CMSAPI cmsBool CMSEXPORT _cmsWriteTypeBase(cmsIOHANDLER* io, cmsTagTypeSignature sig); + +// Alignment functions +CMSAPI cmsBool CMSEXPORT _cmsReadAlignment(cmsIOHANDLER* io); +CMSAPI cmsBool CMSEXPORT _cmsWriteAlignment(cmsIOHANDLER* io); + +// To deal with text streams. 2K at most +CMSAPI cmsBool CMSEXPORT _cmsIOPrintf(cmsIOHANDLER* io, const char* frm, ...); + +// Fixed point helper functions +CMSAPI cmsFloat64Number CMSEXPORT _cms8Fixed8toDouble(cmsUInt16Number fixed8); +CMSAPI cmsUInt16Number CMSEXPORT _cmsDoubleTo8Fixed8(cmsFloat64Number val); + +CMSAPI cmsFloat64Number CMSEXPORT _cms15Fixed16toDouble(cmsS15Fixed16Number fix32); +CMSAPI cmsS15Fixed16Number CMSEXPORT _cmsDoubleTo15Fixed16(cmsFloat64Number v); + +// Date/time helper functions +CMSAPI void CMSEXPORT _cmsEncodeDateTimeNumber(cmsDateTimeNumber *Dest, const struct tm *Source); +CMSAPI void CMSEXPORT _cmsDecodeDateTimeNumber(const cmsDateTimeNumber *Source, struct tm *Dest); + +//---------------------------------------------------------------------------------------------------------- + +// Shared callbacks for user data +typedef void (* _cmsFreeUserDataFn)(cmsContext ContextID, void* Data); +typedef void* (* _cmsDupUserDataFn)(cmsContext ContextID, const void* Data); + +//---------------------------------------------------------------------------------------------------------- + +// Plug-in foundation +#define cmsPluginMagicNumber 0x61637070 // 'acpp' + +#define cmsPluginMemHandlerSig 0x6D656D48 // 'memH' +#define cmsPluginInterpolationSig 0x696E7048 // 'inpH' +#define cmsPluginParametricCurveSig 0x70617248 // 'parH' +#define cmsPluginFormattersSig 0x66726D48 // 'frmH +#define cmsPluginTagTypeSig 0x74797048 // 'typH' +#define cmsPluginTagSig 0x74616748 // 'tagH' +#define cmsPluginRenderingIntentSig 0x696E7448 // 'intH' +#define cmsPluginMultiProcessElementSig 0x6D706548 // 'mpeH' +#define cmsPluginOptimizationSig 0x6F707448 // 'optH' +#define cmsPluginTransformSig 0x7A666D48 // 'xfmH' +#define cmsPluginMutexSig 0x6D747A48 // 'mtxH' + +typedef struct _cmsPluginBaseStruct { + + cmsUInt32Number Magic; // 'acpp' signature + cmsUInt32Number ExpectedVersion; // Expected version of LittleCMS + cmsUInt32Number Type; // Type of plug-in + struct _cmsPluginBaseStruct* Next; // For multiple plugin definition. NULL for end of list. + +} cmsPluginBase; + +// Maximum number of types in a plugin array +#define MAX_TYPES_IN_LCMS_PLUGIN 20 + +//---------------------------------------------------------------------------------------------------------- + +// Memory handler. Each new plug-in type replaces current behaviour + +typedef void* (* _cmsMallocFnPtrType)(cmsContext ContextID, cmsUInt32Number size); +typedef void (* _cmsFreeFnPtrType)(cmsContext ContextID, void *Ptr); +typedef void* (* _cmsReallocFnPtrType)(cmsContext ContextID, void* Ptr, cmsUInt32Number NewSize); + +typedef void* (* _cmsMalloZerocFnPtrType)(cmsContext ContextID, cmsUInt32Number size); +typedef void* (* _cmsCallocFnPtrType)(cmsContext ContextID, cmsUInt32Number num, cmsUInt32Number size); +typedef void* (* _cmsDupFnPtrType)(cmsContext ContextID, const void* Org, cmsUInt32Number size); + +typedef struct { + + cmsPluginBase base; + + // Required + _cmsMallocFnPtrType MallocPtr; + _cmsFreeFnPtrType FreePtr; + _cmsReallocFnPtrType ReallocPtr; + + // Optional + _cmsMalloZerocFnPtrType MallocZeroPtr; + _cmsCallocFnPtrType CallocPtr; + _cmsDupFnPtrType DupPtr; + +} cmsPluginMemHandler; + + +// ------------------------------------------------------------------------------------------------------------------ + +// Interpolation. 16 bits and floating point versions. +struct _cms_interp_struc; + +// Interpolation callbacks + +// 16 bits forward interpolation. This function performs precision-limited linear interpolation +// and is supposed to be quite fast. Implementation may be tetrahedral or trilinear, and plug-ins may +// choose to implement any other interpolation algorithm. +typedef void (* _cmsInterpFn16)(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const struct _cms_interp_struc* p); + +// Floating point forward interpolation. Full precision interpolation using floats. This is not a +// time critical function. Implementation may be tetrahedral or trilinear, and plug-ins may +// choose to implement any other interpolation algorithm. +typedef void (* _cmsInterpFnFloat)(cmsFloat32Number const Input[], + cmsFloat32Number Output[], + const struct _cms_interp_struc* p); + + + +// This type holds a pointer to an interpolator that can be either 16 bits or float +typedef union { + _cmsInterpFn16 Lerp16; // Forward interpolation in 16 bits + _cmsInterpFnFloat LerpFloat; // Forward interpolation in floating point +} cmsInterpFunction; + +// Flags for interpolator selection +#define CMS_LERP_FLAGS_16BITS 0x0000 // The default +#define CMS_LERP_FLAGS_FLOAT 0x0001 // Requires different implementation +#define CMS_LERP_FLAGS_TRILINEAR 0x0100 // Hint only + + +#define MAX_INPUT_DIMENSIONS 8 + +typedef struct _cms_interp_struc { // Used on all interpolations. Supplied by lcms2 when calling the interpolation function + + cmsContext ContextID; // The calling thread + + cmsUInt32Number dwFlags; // Keep original flags + cmsUInt32Number nInputs; // != 1 only in 3D interpolation + cmsUInt32Number nOutputs; // != 1 only in 3D interpolation + + cmsUInt32Number nSamples[MAX_INPUT_DIMENSIONS]; // Valid on all kinds of tables + cmsUInt32Number Domain[MAX_INPUT_DIMENSIONS]; // Domain = nSamples - 1 + + cmsUInt32Number opta[MAX_INPUT_DIMENSIONS]; // Optimization for 3D CLUT. This is the number of nodes premultiplied for each + // dimension. For example, in 7 nodes, 7, 7^2 , 7^3, 7^4, etc. On non-regular + // Samplings may vary according of the number of nodes for each dimension. + + const void *Table; // Points to the actual interpolation table + cmsInterpFunction Interpolation; // Points to the function to do the interpolation + + } cmsInterpParams; + +// Interpolators factory +typedef cmsInterpFunction (* cmsInterpFnFactory)(cmsUInt32Number nInputChannels, cmsUInt32Number nOutputChannels, cmsUInt32Number dwFlags); + +// The plug-in +typedef struct { + cmsPluginBase base; + + // Points to a user-supplied function which implements the factory + cmsInterpFnFactory InterpolatorsFactory; + +} cmsPluginInterpolation; + +//---------------------------------------------------------------------------------------------------------- + +// Parametric curves. A negative type means same function but analytically inverted. Max. number of params is 10 + +// Evaluator callback for user-suplied parametric curves. May implement more than one type +typedef cmsFloat64Number (* cmsParametricCurveEvaluator)(cmsInt32Number Type, const cmsFloat64Number Params[10], cmsFloat64Number R); + +// Plug-in may implement an arbitrary number of parametric curves +typedef struct { + cmsPluginBase base; + + cmsUInt32Number nFunctions; // Number of supported functions + cmsUInt32Number FunctionTypes[MAX_TYPES_IN_LCMS_PLUGIN]; // The identification types + cmsUInt32Number ParameterCount[MAX_TYPES_IN_LCMS_PLUGIN]; // Number of parameters for each function + + cmsParametricCurveEvaluator Evaluator; // The evaluator + +} cmsPluginParametricCurves; +//---------------------------------------------------------------------------------------------------------- + +// Formatters. This plug-in adds new handlers, replacing them if they already exist. Formatters dealing with +// cmsFloat32Number (bps = 4) or double (bps = 0) types are requested via FormatterFloat callback. Others come across +// Formatter16 callback + +struct _cmstransform_struct; + +typedef cmsUInt8Number* (* cmsFormatter16)(register struct _cmstransform_struct* CMMcargo, + register cmsUInt16Number Values[], + register cmsUInt8Number* Buffer, + register cmsUInt32Number Stride); + +typedef cmsUInt8Number* (* cmsFormatterFloat)(struct _cmstransform_struct* CMMcargo, + cmsFloat32Number Values[], + cmsUInt8Number* Buffer, + cmsUInt32Number Stride); + +// This type holds a pointer to a formatter that can be either 16 bits or cmsFloat32Number +typedef union { + cmsFormatter16 Fmt16; + cmsFormatterFloat FmtFloat; + +} cmsFormatter; + +#define CMS_PACK_FLAGS_16BITS 0x0000 +#define CMS_PACK_FLAGS_FLOAT 0x0001 + +typedef enum { cmsFormatterInput=0, cmsFormatterOutput=1 } cmsFormatterDirection; + +typedef cmsFormatter (* cmsFormatterFactory)(cmsUInt32Number Type, // Specific type, i.e. TYPE_RGB_8 + cmsFormatterDirection Dir, + cmsUInt32Number dwFlags); // precision + +// Plug-in may implement an arbitrary number of formatters +typedef struct { + cmsPluginBase base; + cmsFormatterFactory FormattersFactory; + +} cmsPluginFormatters; + +//---------------------------------------------------------------------------------------------------------- + +// Tag type handler. Each type is free to return anything it wants, and it is up to the caller to +// know in advance what is the type contained in the tag. +typedef struct _cms_typehandler_struct { + + cmsTagTypeSignature Signature; // The signature of the type + + // Allocates and reads items + void * (* ReadPtr)(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + cmsUInt32Number* nItems, + cmsUInt32Number SizeOfTag); + + // Writes n Items + cmsBool (* WritePtr)(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Ptr, + cmsUInt32Number nItems); + + // Duplicate an item or array of items + void* (* DupPtr)(struct _cms_typehandler_struct* self, + const void *Ptr, + cmsUInt32Number n); + + // Free all resources + void (* FreePtr)(struct _cms_typehandler_struct* self, + void *Ptr); + + // Additional parameters used by the calling thread + cmsContext ContextID; + cmsUInt32Number ICCVersion; + +} cmsTagTypeHandler; + +// Each plug-in implements a single type +typedef struct { + cmsPluginBase base; + cmsTagTypeHandler Handler; + +} cmsPluginTagType; + +//---------------------------------------------------------------------------------------------------------- + +// This is the tag plugin, which identifies tags. For writing, a pointer to function is provided. +// This function should return the desired type for this tag, given the version of profile +// and the data being serialized. +typedef struct { + + cmsUInt32Number ElemCount; // If this tag needs an array, how many elements should keep + + // For reading. + cmsUInt32Number nSupportedTypes; // In how many types this tag can come (MAX_TYPES_IN_LCMS_PLUGIN maximum) + cmsTagTypeSignature SupportedTypes[MAX_TYPES_IN_LCMS_PLUGIN]; + + // For writting + cmsTagTypeSignature (* DecideType)(cmsFloat64Number ICCVersion, const void *Data); + +} cmsTagDescriptor; + +// Plug-in implements a single tag +typedef struct { + cmsPluginBase base; + + cmsTagSignature Signature; + cmsTagDescriptor Descriptor; + +} cmsPluginTag; + +//---------------------------------------------------------------------------------------------------------- + +// Custom intents. This function should join all profiles specified in the array in +// a single LUT. Any custom intent in the chain redirects to custom function. If more than +// one custom intent is found, the one located first is invoked. Usually users should use only one +// custom intent, so mixing custom intents in same multiprofile transform is not supported. + +typedef cmsPipeline* (* cmsIntentFn)( cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number Intents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + + +// Each plug-in defines a single intent number. +typedef struct { + cmsPluginBase base; + cmsUInt32Number Intent; + cmsIntentFn Link; + char Description[256]; + +} cmsPluginRenderingIntent; + + +// The default ICC intents (perceptual, saturation, rel.col and abs.col) +CMSAPI cmsPipeline* CMSEXPORT _cmsDefaultICCintents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number Intents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + + +//---------------------------------------------------------------------------------------------------------- + +// Pipelines, Multi Process Elements. + +typedef void (* _cmsStageEvalFn) (const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage* mpe); +typedef void*(* _cmsStageDupElemFn) (cmsStage* mpe); +typedef void (* _cmsStageFreeElemFn) (cmsStage* mpe); + + +// This function allocates a generic MPE +CMSAPI cmsStage* CMSEXPORT _cmsStageAllocPlaceholder(cmsContext ContextID, + cmsStageSignature Type, + cmsUInt32Number InputChannels, + cmsUInt32Number OutputChannels, + _cmsStageEvalFn EvalPtr, // Points to fn that evaluates the element (always in floating point) + _cmsStageDupElemFn DupElemPtr, // Points to a fn that duplicates the stage + _cmsStageFreeElemFn FreePtr, // Points to a fn that sets the element free + void* Data); // A generic pointer to whatever memory needed by the element +typedef struct { + cmsPluginBase base; + cmsTagTypeHandler Handler; + +} cmsPluginMultiProcessElement; + + +// Data kept in "Element" member of cmsStage + +// Curves +typedef struct { + cmsUInt32Number nCurves; + cmsToneCurve** TheCurves; + +} _cmsStageToneCurvesData; + +// Matrix +typedef struct { + cmsFloat64Number* Double; // floating point for the matrix + cmsFloat64Number* Offset; // The offset + +} _cmsStageMatrixData; + +// CLUT +typedef struct { + + union { // Can have only one of both representations at same time + cmsUInt16Number* T; // Points to the table 16 bits table + cmsFloat32Number* TFloat; // Points to the cmsFloat32Number table + + } Tab; + + cmsInterpParams* Params; + cmsUInt32Number nEntries; + cmsBool HasFloatValues; + +} _cmsStageCLutData; + + +//---------------------------------------------------------------------------------------------------------- +// Optimization. Using this plug-in, additional optimization strategies may be implemented. +// The function should return TRUE if any optimization is done on the LUT, this terminates +// the optimization search. Or FALSE if it is unable to optimize and want to give a chance +// to the rest of optimizers. + +typedef void (* _cmsOPTeval16Fn)(register const cmsUInt16Number In[], + register cmsUInt16Number Out[], + register const void* Data); + + +typedef cmsBool (* _cmsOPToptimizeFn)(cmsPipeline** Lut, + cmsUInt32Number Intent, + cmsUInt32Number* InputFormat, + cmsUInt32Number* OutputFormat, + cmsUInt32Number* dwFlags); + +// This function may be used to set the optional evaluator and a block of private data. If private data is being used, an optional +// duplicator and free functions should also be specified in order to duplicate the LUT construct. Use NULL to inhibit such functionality. + +CMSAPI void CMSEXPORT _cmsPipelineSetOptimizationParameters(cmsPipeline* Lut, + _cmsOPTeval16Fn Eval16, + void* PrivateData, + _cmsFreeUserDataFn FreePrivateDataFn, + _cmsDupUserDataFn DupPrivateDataFn); + +typedef struct { + cmsPluginBase base; + + // Optimize entry point + _cmsOPToptimizeFn OptimizePtr; + +} cmsPluginOptimization; + +//---------------------------------------------------------------------------------------------------------- +// Full xform + +typedef struct { + cmsUInt32Number BytesPerLineIn; + cmsUInt32Number BytesPerLineOut; + cmsUInt32Number BytesPerPlaneIn; + cmsUInt32Number BytesPerPlaneOut; + +} cmsStride; + +typedef void (* _cmsTransformFn)(struct _cmstransform_struct *CMMcargo, // Legacy function, handles just ONE scanline. + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number Size, + cmsUInt32Number Stride); // Stride in bytes to the next plana in planar formats + + +typedef void (*_cmsTransform2Fn)(struct _cmstransform_struct *CMMcargo, + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride); + +typedef cmsBool (* _cmsTransformFactory)(_cmsTransformFn* xform, + void** UserData, + _cmsFreeUserDataFn* FreePrivateDataFn, + cmsPipeline** Lut, + cmsUInt32Number* InputFormat, + cmsUInt32Number* OutputFormat, + cmsUInt32Number* dwFlags); + +typedef cmsBool (* _cmsTransform2Factory)(_cmsTransform2Fn* xform, + void** UserData, + _cmsFreeUserDataFn* FreePrivateDataFn, + cmsPipeline** Lut, + cmsUInt32Number* InputFormat, + cmsUInt32Number* OutputFormat, + cmsUInt32Number* dwFlags); + + +// Retrieve user data as specified by the factory +CMSAPI void CMSEXPORT _cmsSetTransformUserData(struct _cmstransform_struct *CMMcargo, void* ptr, _cmsFreeUserDataFn FreePrivateDataFn); +CMSAPI void * CMSEXPORT _cmsGetTransformUserData(struct _cmstransform_struct *CMMcargo); + + +// Retrieve formatters +CMSAPI void CMSEXPORT _cmsGetTransformFormatters16 (struct _cmstransform_struct *CMMcargo, cmsFormatter16* FromInput, cmsFormatter16* ToOutput); +CMSAPI void CMSEXPORT _cmsGetTransformFormattersFloat(struct _cmstransform_struct *CMMcargo, cmsFormatterFloat* FromInput, cmsFormatterFloat* ToOutput); + +typedef struct { + cmsPluginBase base; + + // Transform entry point + union { + _cmsTransformFactory legacy_xform; + _cmsTransform2Factory xform; + } factories; + +} cmsPluginTransform; + +//---------------------------------------------------------------------------------------------------------- +// Mutex + +typedef void* (* _cmsCreateMutexFnPtrType)(cmsContext ContextID); +typedef void (* _cmsDestroyMutexFnPtrType)(cmsContext ContextID, void* mtx); +typedef cmsBool (* _cmsLockMutexFnPtrType)(cmsContext ContextID, void* mtx); +typedef void (* _cmsUnlockMutexFnPtrType)(cmsContext ContextID, void* mtx); + +typedef struct { + cmsPluginBase base; + + _cmsCreateMutexFnPtrType CreateMutexPtr; + _cmsDestroyMutexFnPtrType DestroyMutexPtr; + _cmsLockMutexFnPtrType LockMutexPtr; + _cmsUnlockMutexFnPtrType UnlockMutexPtr; + +} cmsPluginMutex; + +CMSAPI void* CMSEXPORT _cmsCreateMutex(cmsContext ContextID); +CMSAPI void CMSEXPORT _cmsDestroyMutex(cmsContext ContextID, void* mtx); +CMSAPI cmsBool CMSEXPORT _cmsLockMutex(cmsContext ContextID, void* mtx); +CMSAPI void CMSEXPORT _cmsUnlockMutex(cmsContext ContextID, void* mtx); + + +#ifndef CMS_USE_CPP_API +# ifdef __cplusplus + } +# endif +#endif + +#define _lcms_plugin_H +#endif Index: sdk/include/reactos/libs/lcms2/lcms2.h =================================================================== --- sdk/include/reactos/libs/lcms2/lcms2.h (nonexistent) +++ sdk/include/reactos/libs/lcms2/lcms2.h (working copy) @@ -0,0 +1,1903 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// +// Version 2.8 +// + +#ifndef _lcms2_H + +// ********** Configuration toggles **************************************** + +// Uncomment this one if you are using big endian machines +// #define CMS_USE_BIG_ENDIAN 1 + +// Uncomment this one if your compiler/machine does NOT support the +// "long long" type. +// #define CMS_DONT_USE_INT64 1 + +// Uncomment this if your compiler doesn't work with fast floor function +// #define CMS_DONT_USE_FAST_FLOOR 1 + +// Uncomment this line if you want lcms to use the black point tag in profile, +// if commented, lcms will compute the black point by its own. +// It is safer to leave it commented out +// #define CMS_USE_PROFILE_BLACK_POINT_TAG 1 + +// Uncomment this line if you are compiling as C++ and want a C++ API +// #define CMS_USE_CPP_API + +// Uncomment this line if you need strict CGATS syntax. Makes CGATS files to +// require "KEYWORD" on undefined identifiers, keep it comented out unless needed +// #define CMS_STRICT_CGATS 1 + +// Uncomment to get rid of the tables for "half" float support +// #define CMS_NO_HALF_SUPPORT 1 + +// Uncomment to get rid of pthreads/windows dependency +// #define CMS_NO_PTHREADS 1 + +// ********** End of configuration toggles ****************************** + +// Needed for streams +#include + +// Needed for portability (C99 per 7.1.2) +#include +#include +#include + +#ifndef CMS_USE_CPP_API +# ifdef __cplusplus +extern "C" { +# endif +#endif + +// Version/release +#define LCMS_VERSION 2080 + +// I will give the chance of redefining basic types for compilers that are not fully C99 compliant +#ifndef CMS_BASIC_TYPES_ALREADY_DEFINED + +// Base types +typedef unsigned char cmsUInt8Number; // That is guaranteed by the C99 spec +typedef signed char cmsInt8Number; // That is guaranteed by the C99 spec + +#if CHAR_BIT != 8 +# error "Unable to find 8 bit type, unsupported compiler" +#endif + +// IEEE float storage numbers +typedef float cmsFloat32Number; +typedef double cmsFloat64Number; + +// 16-bit base types +#if (USHRT_MAX == 65535U) + typedef unsigned short cmsUInt16Number; +#elif (UINT_MAX == 65535U) + typedef unsigned int cmsUInt16Number; +#else +# error "Unable to find 16 bits unsigned type, unsupported compiler" +#endif + +#if (SHRT_MAX == 32767) + typedef short cmsInt16Number; +#elif (INT_MAX == 32767) + typedef int cmsInt16Number; +#else +# error "Unable to find 16 bits signed type, unsupported compiler" +#endif + +// 32-bit base type +#if (UINT_MAX == 4294967295U) + typedef unsigned int cmsUInt32Number; +#elif (ULONG_MAX == 4294967295U) + typedef unsigned long cmsUInt32Number; +#else +# error "Unable to find 32 bit unsigned type, unsupported compiler" +#endif + +#if (INT_MAX == +2147483647) + typedef int cmsInt32Number; +#elif (LONG_MAX == +2147483647) + typedef long cmsInt32Number; +#else +# error "Unable to find 32 bit signed type, unsupported compiler" +#endif + +// 64-bit base types +#ifndef CMS_DONT_USE_INT64 +# if (ULONG_MAX == 18446744073709551615U) + typedef unsigned long cmsUInt64Number; +# elif (ULLONG_MAX == 18446744073709551615U) + typedef unsigned long long cmsUInt64Number; +# else +# define CMS_DONT_USE_INT64 1 +# endif +# if (LONG_MAX == +9223372036854775807) + typedef long cmsInt64Number; +# elif (LLONG_MAX == +9223372036854775807) + typedef long long cmsInt64Number; +# else +# define CMS_DONT_USE_INT64 1 +# endif +#endif +#endif + +// In the case 64 bit numbers are not supported by the compiler +#ifdef CMS_DONT_USE_INT64 + typedef cmsUInt32Number cmsUInt64Number[2]; + typedef cmsInt32Number cmsInt64Number[2]; +#endif + +// Derivative types +typedef cmsUInt32Number cmsSignature; +typedef cmsUInt16Number cmsU8Fixed8Number; +typedef cmsInt32Number cmsS15Fixed16Number; +typedef cmsUInt32Number cmsU16Fixed16Number; + +// Boolean type, which will be using the native integer +typedef int cmsBool; + +// Try to detect windows +#if defined (_WIN32) || defined(_WIN64) || defined(WIN32) || defined(_WIN32_) +# define CMS_IS_WINDOWS_ 1 +#endif + +#ifdef _MSC_VER +# define CMS_IS_WINDOWS_ 1 +#endif + +#ifdef __BORLANDC__ +# define CMS_IS_WINDOWS_ 1 +#endif + +// Try to detect big endian platforms. This list can be endless, so primarily rely on the configure script +// on Unix-like systems, and allow it to be set on the compiler command line using +// -DCMS_USE_BIG_ENDIAN or something similar +#ifdef CMS_USE_BIG_ENDIAN // set at compiler command line takes overall precedence + +# if CMS_USE_BIG_ENDIAN == 0 +# undef CMS_USE_BIG_ENDIAN +# endif + +#else // CMS_USE_BIG_ENDIAN + +# ifdef WORDS_BIGENDIAN // set by configure (or explicitly on compiler command line) +# define CMS_USE_BIG_ENDIAN 1 +# else // WORDS_BIGENDIAN +// Fall back to platform/compiler specific tests +# if defined(__sgi__) || defined(__sgi) || defined(sparc) +# define CMS_USE_BIG_ENDIAN 1 +# endif + +# if defined(__s390__) || defined(__s390x__) +# define CMS_USE_BIG_ENDIAN 1 +# endif + +# ifdef macintosh +# ifdef __BIG_ENDIAN__ +# define CMS_USE_BIG_ENDIAN 1 +# endif +# ifdef __LITTLE_ENDIAN__ +# undef CMS_USE_BIG_ENDIAN +# endif +# endif +# endif // WORDS_BIGENDIAN + +# if defined(_HOST_BIG_ENDIAN) || defined(__BIG_ENDIAN__) +# define CMS_USE_BIG_ENDIAN 1 +# endif + +#endif // CMS_USE_BIG_ENDIAN + + +// Calling convention -- this is hardly platform and compiler dependent +#ifdef CMS_IS_WINDOWS_ +# if defined(CMS_DLL) || defined(CMS_DLL_BUILD) +# ifdef __BORLANDC__ +# define CMSEXPORT __stdcall _export +# define CMSAPI +# else +# define CMSEXPORT __stdcall +# ifdef CMS_DLL_BUILD +# define CMSAPI __declspec(dllexport) +# else +# define CMSAPI __declspec(dllimport) +# endif +# endif +# else +# define CMSEXPORT +# define CMSAPI +# endif +#else +# define CMSEXPORT +# define CMSAPI +#endif + +#ifdef HasTHREADS +# if HasTHREADS == 1 +# undef CMS_NO_PTHREADS +# else +# define CMS_NO_PTHREADS 1 +# endif +#endif + +// Some common definitions +#define cmsMAX_PATH 256 + +#ifndef FALSE +# define FALSE 0 +#endif +#ifndef TRUE +# define TRUE 1 +#endif + +// D50 XYZ normalized to Y=1.0 +#define cmsD50X 0.9642 +#define cmsD50Y 1.0 +#define cmsD50Z 0.8249 + +// V4 perceptual black +#define cmsPERCEPTUAL_BLACK_X 0.00336 +#define cmsPERCEPTUAL_BLACK_Y 0.0034731 +#define cmsPERCEPTUAL_BLACK_Z 0.00287 + +// Definitions in ICC spec +#define cmsMagicNumber 0x61637370 // 'acsp' +#define lcmsSignature 0x6c636d73 // 'lcms' + + +// Base ICC type definitions +typedef enum { + cmsSigChromaticityType = 0x6368726D, // 'chrm' + cmsSigColorantOrderType = 0x636C726F, // 'clro' + cmsSigColorantTableType = 0x636C7274, // 'clrt' + cmsSigCrdInfoType = 0x63726469, // 'crdi' + cmsSigCurveType = 0x63757276, // 'curv' + cmsSigDataType = 0x64617461, // 'data' + cmsSigDictType = 0x64696374, // 'dict' + cmsSigDateTimeType = 0x6474696D, // 'dtim' + cmsSigDeviceSettingsType = 0x64657673, // 'devs' + cmsSigLut16Type = 0x6d667432, // 'mft2' + cmsSigLut8Type = 0x6d667431, // 'mft1' + cmsSigLutAtoBType = 0x6d414220, // 'mAB ' + cmsSigLutBtoAType = 0x6d424120, // 'mBA ' + cmsSigMeasurementType = 0x6D656173, // 'meas' + cmsSigMultiLocalizedUnicodeType = 0x6D6C7563, // 'mluc' + cmsSigMultiProcessElementType = 0x6D706574, // 'mpet' + cmsSigNamedColorType = 0x6E636f6C, // 'ncol' -- DEPRECATED! + cmsSigNamedColor2Type = 0x6E636C32, // 'ncl2' + cmsSigParametricCurveType = 0x70617261, // 'para' + cmsSigProfileSequenceDescType = 0x70736571, // 'pseq' + cmsSigProfileSequenceIdType = 0x70736964, // 'psid' + cmsSigResponseCurveSet16Type = 0x72637332, // 'rcs2' + cmsSigS15Fixed16ArrayType = 0x73663332, // 'sf32' + cmsSigScreeningType = 0x7363726E, // 'scrn' + cmsSigSignatureType = 0x73696720, // 'sig ' + cmsSigTextType = 0x74657874, // 'text' + cmsSigTextDescriptionType = 0x64657363, // 'desc' + cmsSigU16Fixed16ArrayType = 0x75663332, // 'uf32' + cmsSigUcrBgType = 0x62666420, // 'bfd ' + cmsSigUInt16ArrayType = 0x75693136, // 'ui16' + cmsSigUInt32ArrayType = 0x75693332, // 'ui32' + cmsSigUInt64ArrayType = 0x75693634, // 'ui64' + cmsSigUInt8ArrayType = 0x75693038, // 'ui08' + cmsSigVcgtType = 0x76636774, // 'vcgt' + cmsSigViewingConditionsType = 0x76696577, // 'view' + cmsSigXYZType = 0x58595A20 // 'XYZ ' + + +} cmsTagTypeSignature; + +// Base ICC tag definitions +typedef enum { + cmsSigAToB0Tag = 0x41324230, // 'A2B0' + cmsSigAToB1Tag = 0x41324231, // 'A2B1' + cmsSigAToB2Tag = 0x41324232, // 'A2B2' + cmsSigBlueColorantTag = 0x6258595A, // 'bXYZ' + cmsSigBlueMatrixColumnTag = 0x6258595A, // 'bXYZ' + cmsSigBlueTRCTag = 0x62545243, // 'bTRC' + cmsSigBToA0Tag = 0x42324130, // 'B2A0' + cmsSigBToA1Tag = 0x42324131, // 'B2A1' + cmsSigBToA2Tag = 0x42324132, // 'B2A2' + cmsSigCalibrationDateTimeTag = 0x63616C74, // 'calt' + cmsSigCharTargetTag = 0x74617267, // 'targ' + cmsSigChromaticAdaptationTag = 0x63686164, // 'chad' + cmsSigChromaticityTag = 0x6368726D, // 'chrm' + cmsSigColorantOrderTag = 0x636C726F, // 'clro' + cmsSigColorantTableTag = 0x636C7274, // 'clrt' + cmsSigColorantTableOutTag = 0x636C6F74, // 'clot' + cmsSigColorimetricIntentImageStateTag = 0x63696973, // 'ciis' + cmsSigCopyrightTag = 0x63707274, // 'cprt' + cmsSigCrdInfoTag = 0x63726469, // 'crdi' + cmsSigDataTag = 0x64617461, // 'data' + cmsSigDateTimeTag = 0x6474696D, // 'dtim' + cmsSigDeviceMfgDescTag = 0x646D6E64, // 'dmnd' + cmsSigDeviceModelDescTag = 0x646D6464, // 'dmdd' + cmsSigDeviceSettingsTag = 0x64657673, // 'devs' + cmsSigDToB0Tag = 0x44324230, // 'D2B0' + cmsSigDToB1Tag = 0x44324231, // 'D2B1' + cmsSigDToB2Tag = 0x44324232, // 'D2B2' + cmsSigDToB3Tag = 0x44324233, // 'D2B3' + cmsSigBToD0Tag = 0x42324430, // 'B2D0' + cmsSigBToD1Tag = 0x42324431, // 'B2D1' + cmsSigBToD2Tag = 0x42324432, // 'B2D2' + cmsSigBToD3Tag = 0x42324433, // 'B2D3' + cmsSigGamutTag = 0x67616D74, // 'gamt' + cmsSigGrayTRCTag = 0x6b545243, // 'kTRC' + cmsSigGreenColorantTag = 0x6758595A, // 'gXYZ' + cmsSigGreenMatrixColumnTag = 0x6758595A, // 'gXYZ' + cmsSigGreenTRCTag = 0x67545243, // 'gTRC' + cmsSigLuminanceTag = 0x6C756d69, // 'lumi' + cmsSigMeasurementTag = 0x6D656173, // 'meas' + cmsSigMediaBlackPointTag = 0x626B7074, // 'bkpt' + cmsSigMediaWhitePointTag = 0x77747074, // 'wtpt' + cmsSigNamedColorTag = 0x6E636f6C, // 'ncol' // Deprecated by the ICC + cmsSigNamedColor2Tag = 0x6E636C32, // 'ncl2' + cmsSigOutputResponseTag = 0x72657370, // 'resp' + cmsSigPerceptualRenderingIntentGamutTag = 0x72696730, // 'rig0' + cmsSigPreview0Tag = 0x70726530, // 'pre0' + cmsSigPreview1Tag = 0x70726531, // 'pre1' + cmsSigPreview2Tag = 0x70726532, // 'pre2' + cmsSigProfileDescriptionTag = 0x64657363, // 'desc' + cmsSigProfileDescriptionMLTag = 0x6473636d, // 'dscm' + cmsSigProfileSequenceDescTag = 0x70736571, // 'pseq' + cmsSigProfileSequenceIdTag = 0x70736964, // 'psid' + cmsSigPs2CRD0Tag = 0x70736430, // 'psd0' + cmsSigPs2CRD1Tag = 0x70736431, // 'psd1' + cmsSigPs2CRD2Tag = 0x70736432, // 'psd2' + cmsSigPs2CRD3Tag = 0x70736433, // 'psd3' + cmsSigPs2CSATag = 0x70733273, // 'ps2s' + cmsSigPs2RenderingIntentTag = 0x70733269, // 'ps2i' + cmsSigRedColorantTag = 0x7258595A, // 'rXYZ' + cmsSigRedMatrixColumnTag = 0x7258595A, // 'rXYZ' + cmsSigRedTRCTag = 0x72545243, // 'rTRC' + cmsSigSaturationRenderingIntentGamutTag = 0x72696732, // 'rig2' + cmsSigScreeningDescTag = 0x73637264, // 'scrd' + cmsSigScreeningTag = 0x7363726E, // 'scrn' + cmsSigTechnologyTag = 0x74656368, // 'tech' + cmsSigUcrBgTag = 0x62666420, // 'bfd ' + cmsSigViewingCondDescTag = 0x76756564, // 'vued' + cmsSigViewingConditionsTag = 0x76696577, // 'view' + cmsSigVcgtTag = 0x76636774, // 'vcgt' + cmsSigMetaTag = 0x6D657461, // 'meta' + cmsSigArgyllArtsTag = 0x61727473 // 'arts' + +} cmsTagSignature; + + +// ICC Technology tag +typedef enum { + cmsSigDigitalCamera = 0x6463616D, // 'dcam' + cmsSigFilmScanner = 0x6673636E, // 'fscn' + cmsSigReflectiveScanner = 0x7273636E, // 'rscn' + cmsSigInkJetPrinter = 0x696A6574, // 'ijet' + cmsSigThermalWaxPrinter = 0x74776178, // 'twax' + cmsSigElectrophotographicPrinter = 0x6570686F, // 'epho' + cmsSigElectrostaticPrinter = 0x65737461, // 'esta' + cmsSigDyeSublimationPrinter = 0x64737562, // 'dsub' + cmsSigPhotographicPaperPrinter = 0x7270686F, // 'rpho' + cmsSigFilmWriter = 0x6670726E, // 'fprn' + cmsSigVideoMonitor = 0x7669646D, // 'vidm' + cmsSigVideoCamera = 0x76696463, // 'vidc' + cmsSigProjectionTelevision = 0x706A7476, // 'pjtv' + cmsSigCRTDisplay = 0x43525420, // 'CRT ' + cmsSigPMDisplay = 0x504D4420, // 'PMD ' + cmsSigAMDisplay = 0x414D4420, // 'AMD ' + cmsSigPhotoCD = 0x4B504344, // 'KPCD' + cmsSigPhotoImageSetter = 0x696D6773, // 'imgs' + cmsSigGravure = 0x67726176, // 'grav' + cmsSigOffsetLithography = 0x6F666673, // 'offs' + cmsSigSilkscreen = 0x73696C6B, // 'silk' + cmsSigFlexography = 0x666C6578, // 'flex' + cmsSigMotionPictureFilmScanner = 0x6D706673, // 'mpfs' + cmsSigMotionPictureFilmRecorder = 0x6D706672, // 'mpfr' + cmsSigDigitalMotionPictureCamera = 0x646D7063, // 'dmpc' + cmsSigDigitalCinemaProjector = 0x64636A70 // 'dcpj' + +} cmsTechnologySignature; + + +// ICC Color spaces +typedef enum { + cmsSigXYZData = 0x58595A20, // 'XYZ ' + cmsSigLabData = 0x4C616220, // 'Lab ' + cmsSigLuvData = 0x4C757620, // 'Luv ' + cmsSigYCbCrData = 0x59436272, // 'YCbr' + cmsSigYxyData = 0x59787920, // 'Yxy ' + cmsSigRgbData = 0x52474220, // 'RGB ' + cmsSigGrayData = 0x47524159, // 'GRAY' + cmsSigHsvData = 0x48535620, // 'HSV ' + cmsSigHlsData = 0x484C5320, // 'HLS ' + cmsSigCmykData = 0x434D594B, // 'CMYK' + cmsSigCmyData = 0x434D5920, // 'CMY ' + cmsSigMCH1Data = 0x4D434831, // 'MCH1' + cmsSigMCH2Data = 0x4D434832, // 'MCH2' + cmsSigMCH3Data = 0x4D434833, // 'MCH3' + cmsSigMCH4Data = 0x4D434834, // 'MCH4' + cmsSigMCH5Data = 0x4D434835, // 'MCH5' + cmsSigMCH6Data = 0x4D434836, // 'MCH6' + cmsSigMCH7Data = 0x4D434837, // 'MCH7' + cmsSigMCH8Data = 0x4D434838, // 'MCH8' + cmsSigMCH9Data = 0x4D434839, // 'MCH9' + cmsSigMCHAData = 0x4D434841, // 'MCHA' + cmsSigMCHBData = 0x4D434842, // 'MCHB' + cmsSigMCHCData = 0x4D434843, // 'MCHC' + cmsSigMCHDData = 0x4D434844, // 'MCHD' + cmsSigMCHEData = 0x4D434845, // 'MCHE' + cmsSigMCHFData = 0x4D434846, // 'MCHF' + cmsSigNamedData = 0x6e6d636c, // 'nmcl' + cmsSig1colorData = 0x31434C52, // '1CLR' + cmsSig2colorData = 0x32434C52, // '2CLR' + cmsSig3colorData = 0x33434C52, // '3CLR' + cmsSig4colorData = 0x34434C52, // '4CLR' + cmsSig5colorData = 0x35434C52, // '5CLR' + cmsSig6colorData = 0x36434C52, // '6CLR' + cmsSig7colorData = 0x37434C52, // '7CLR' + cmsSig8colorData = 0x38434C52, // '8CLR' + cmsSig9colorData = 0x39434C52, // '9CLR' + cmsSig10colorData = 0x41434C52, // 'ACLR' + cmsSig11colorData = 0x42434C52, // 'BCLR' + cmsSig12colorData = 0x43434C52, // 'CCLR' + cmsSig13colorData = 0x44434C52, // 'DCLR' + cmsSig14colorData = 0x45434C52, // 'ECLR' + cmsSig15colorData = 0x46434C52, // 'FCLR' + cmsSigLuvKData = 0x4C75764B // 'LuvK' + +} cmsColorSpaceSignature; + +// ICC Profile Class +typedef enum { + cmsSigInputClass = 0x73636E72, // 'scnr' + cmsSigDisplayClass = 0x6D6E7472, // 'mntr' + cmsSigOutputClass = 0x70727472, // 'prtr' + cmsSigLinkClass = 0x6C696E6B, // 'link' + cmsSigAbstractClass = 0x61627374, // 'abst' + cmsSigColorSpaceClass = 0x73706163, // 'spac' + cmsSigNamedColorClass = 0x6e6d636c // 'nmcl' + +} cmsProfileClassSignature; + +// ICC Platforms +typedef enum { + cmsSigMacintosh = 0x4150504C, // 'APPL' + cmsSigMicrosoft = 0x4D534654, // 'MSFT' + cmsSigSolaris = 0x53554E57, // 'SUNW' + cmsSigSGI = 0x53474920, // 'SGI ' + cmsSigTaligent = 0x54474E54, // 'TGNT' + cmsSigUnices = 0x2A6E6978 // '*nix' // From argyll -- Not official + +} cmsPlatformSignature; + +// Reference gamut +#define cmsSigPerceptualReferenceMediumGamut 0x70726d67 //'prmg' + +// For cmsSigColorimetricIntentImageStateTag +#define cmsSigSceneColorimetryEstimates 0x73636F65 //'scoe' +#define cmsSigSceneAppearanceEstimates 0x73617065 //'sape' +#define cmsSigFocalPlaneColorimetryEstimates 0x66706365 //'fpce' +#define cmsSigReflectionHardcopyOriginalColorimetry 0x72686F63 //'rhoc' +#define cmsSigReflectionPrintOutputColorimetry 0x72706F63 //'rpoc' + +// Multi process elements types +typedef enum { + cmsSigCurveSetElemType = 0x63767374, //'cvst' + cmsSigMatrixElemType = 0x6D617466, //'matf' + cmsSigCLutElemType = 0x636C7574, //'clut' + + cmsSigBAcsElemType = 0x62414353, // 'bACS' + cmsSigEAcsElemType = 0x65414353, // 'eACS' + + // Custom from here, not in the ICC Spec + cmsSigXYZ2LabElemType = 0x6C327820, // 'l2x ' + cmsSigLab2XYZElemType = 0x78326C20, // 'x2l ' + cmsSigNamedColorElemType = 0x6E636C20, // 'ncl ' + cmsSigLabV2toV4 = 0x32203420, // '2 4 ' + cmsSigLabV4toV2 = 0x34203220, // '4 2 ' + + // Identities + cmsSigIdentityElemType = 0x69646E20, // 'idn ' + + // Float to floatPCS + cmsSigLab2FloatPCS = 0x64326C20, // 'd2l ' + cmsSigFloatPCS2Lab = 0x6C326420, // 'l2d ' + cmsSigXYZ2FloatPCS = 0x64327820, // 'd2x ' + cmsSigFloatPCS2XYZ = 0x78326420, // 'x2d ' + cmsSigClipNegativesElemType = 0x636c7020 // 'clp ' + +} cmsStageSignature; + +// Types of CurveElements +typedef enum { + + cmsSigFormulaCurveSeg = 0x70617266, // 'parf' + cmsSigSampledCurveSeg = 0x73616D66, // 'samf' + cmsSigSegmentedCurve = 0x63757266 // 'curf' + +} cmsCurveSegSignature; + +// Used in ResponseCurveType +#define cmsSigStatusA 0x53746141 //'StaA' +#define cmsSigStatusE 0x53746145 //'StaE' +#define cmsSigStatusI 0x53746149 //'StaI' +#define cmsSigStatusT 0x53746154 //'StaT' +#define cmsSigStatusM 0x5374614D //'StaM' +#define cmsSigDN 0x444E2020 //'DN ' +#define cmsSigDNP 0x444E2050 //'DN P' +#define cmsSigDNN 0x444E4E20 //'DNN ' +#define cmsSigDNNP 0x444E4E50 //'DNNP' + +// Device attributes, currently defined values correspond to the low 4 bytes +// of the 8 byte attribute quantity +#define cmsReflective 0 +#define cmsTransparency 1 +#define cmsGlossy 0 +#define cmsMatte 2 + +// Common structures in ICC tags +typedef struct { + cmsUInt32Number len; + cmsUInt32Number flag; + cmsUInt8Number data[1]; + +} cmsICCData; + +// ICC date time +typedef struct { + cmsUInt16Number year; + cmsUInt16Number month; + cmsUInt16Number day; + cmsUInt16Number hours; + cmsUInt16Number minutes; + cmsUInt16Number seconds; + +} cmsDateTimeNumber; + +// ICC XYZ +typedef struct { + cmsS15Fixed16Number X; + cmsS15Fixed16Number Y; + cmsS15Fixed16Number Z; + +} cmsEncodedXYZNumber; + + +// Profile ID as computed by MD5 algorithm +typedef union { + cmsUInt8Number ID8[16]; + cmsUInt16Number ID16[8]; + cmsUInt32Number ID32[4]; + +} cmsProfileID; + + +// ---------------------------------------------------------------------------------------------- +// ICC profile internal base types. Strictly, shouldn't be declared in this header, but maybe +// somebody want to use this info for accessing profile header directly, so here it is. + +// Profile header -- it is 32-bit aligned, so no issues are expected on alignment +typedef struct { + cmsUInt32Number size; // Profile size in bytes + cmsSignature cmmId; // CMM for this profile + cmsUInt32Number version; // Format version number + cmsProfileClassSignature deviceClass; // Type of profile + cmsColorSpaceSignature colorSpace; // Color space of data + cmsColorSpaceSignature pcs; // PCS, XYZ or Lab only + cmsDateTimeNumber date; // Date profile was created + cmsSignature magic; // Magic Number to identify an ICC profile + cmsPlatformSignature platform; // Primary Platform + cmsUInt32Number flags; // Various bit settings + cmsSignature manufacturer; // Device manufacturer + cmsUInt32Number model; // Device model number + cmsUInt64Number attributes; // Device attributes + cmsUInt32Number renderingIntent;// Rendering intent + cmsEncodedXYZNumber illuminant; // Profile illuminant + cmsSignature creator; // Profile creator + cmsProfileID profileID; // Profile ID using MD5 + cmsInt8Number reserved[28]; // Reserved for future use + +} cmsICCHeader; + +// ICC base tag +typedef struct { + cmsTagTypeSignature sig; + cmsInt8Number reserved[4]; + +} cmsTagBase; + +// A tag entry in directory +typedef struct { + cmsTagSignature sig; // The tag signature + cmsUInt32Number offset; // Start of tag + cmsUInt32Number size; // Size in bytes + +} cmsTagEntry; + +// ---------------------------------------------------------------------------------------------- + +// Little CMS specific typedefs + +typedef void* cmsHANDLE ; // Generic handle +typedef void* cmsHPROFILE; // Opaque typedefs to hide internals +typedef void* cmsHTRANSFORM; + +#define cmsMAXCHANNELS 16 // Maximum number of channels in ICC profiles + +// Format of pixel is defined by one cmsUInt32Number, using bit fields as follows +// +// 2 1 0 +// 3 2 10987 6 5 4 3 2 1 098 7654 321 +// A O TTTTT U Y F P X S EEE CCCC BBB +// +// A: Floating point -- With this flag we can differentiate 16 bits as float and as int +// O: Optimized -- previous optimization already returns the final 8-bit value +// T: Pixeltype +// F: Flavor 0=MinIsBlack(Chocolate) 1=MinIsWhite(Vanilla) +// P: Planar? 0=Chunky, 1=Planar +// X: swap 16 bps endianness? +// S: Do swap? ie, BGR, KYMC +// E: Extra samples +// C: Channels (Samples per pixel) +// B: bytes per sample +// Y: Swap first - changes ABGR to BGRA and KCMY to CMYK + +#define FLOAT_SH(a) ((a) << 22) +#define OPTIMIZED_SH(s) ((s) << 21) +#define COLORSPACE_SH(s) ((s) << 16) +#define SWAPFIRST_SH(s) ((s) << 14) +#define FLAVOR_SH(s) ((s) << 13) +#define PLANAR_SH(p) ((p) << 12) +#define ENDIAN16_SH(e) ((e) << 11) +#define DOSWAP_SH(e) ((e) << 10) +#define EXTRA_SH(e) ((e) << 7) +#define CHANNELS_SH(c) ((c) << 3) +#define BYTES_SH(b) (b) + +// These macros unpack format specifiers into integers +#define T_FLOAT(a) (((a)>>22)&1) +#define T_OPTIMIZED(o) (((o)>>21)&1) +#define T_COLORSPACE(s) (((s)>>16)&31) +#define T_SWAPFIRST(s) (((s)>>14)&1) +#define T_FLAVOR(s) (((s)>>13)&1) +#define T_PLANAR(p) (((p)>>12)&1) +#define T_ENDIAN16(e) (((e)>>11)&1) +#define T_DOSWAP(e) (((e)>>10)&1) +#define T_EXTRA(e) (((e)>>7)&7) +#define T_CHANNELS(c) (((c)>>3)&15) +#define T_BYTES(b) ((b)&7) + + +// Pixel types +#define PT_ANY 0 // Don't check colorspace + // 1 & 2 are reserved +#define PT_GRAY 3 +#define PT_RGB 4 +#define PT_CMY 5 +#define PT_CMYK 6 +#define PT_YCbCr 7 +#define PT_YUV 8 // Lu'v' +#define PT_XYZ 9 +#define PT_Lab 10 +#define PT_YUVK 11 // Lu'v'K +#define PT_HSV 12 +#define PT_HLS 13 +#define PT_Yxy 14 + +#define PT_MCH1 15 +#define PT_MCH2 16 +#define PT_MCH3 17 +#define PT_MCH4 18 +#define PT_MCH5 19 +#define PT_MCH6 20 +#define PT_MCH7 21 +#define PT_MCH8 22 +#define PT_MCH9 23 +#define PT_MCH10 24 +#define PT_MCH11 25 +#define PT_MCH12 26 +#define PT_MCH13 27 +#define PT_MCH14 28 +#define PT_MCH15 29 + +#define PT_LabV2 30 // Identical to PT_Lab, but using the V2 old encoding + +// Some (not all!) representations + +#ifndef TYPE_RGB_8 // TYPE_RGB_8 is a very common identifier, so don't include ours + // if user has it already defined. + +#define TYPE_GRAY_8 (COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(1)) +#define TYPE_GRAY_8_REV (COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(1)|FLAVOR_SH(1)) +#define TYPE_GRAY_16 (COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(2)) +#define TYPE_GRAY_16_REV (COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(2)|FLAVOR_SH(1)) +#define TYPE_GRAY_16_SE (COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_GRAYA_8 (COLORSPACE_SH(PT_GRAY)|EXTRA_SH(1)|CHANNELS_SH(1)|BYTES_SH(1)) +#define TYPE_GRAYA_16 (COLORSPACE_SH(PT_GRAY)|EXTRA_SH(1)|CHANNELS_SH(1)|BYTES_SH(2)) +#define TYPE_GRAYA_16_SE (COLORSPACE_SH(PT_GRAY)|EXTRA_SH(1)|CHANNELS_SH(1)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_GRAYA_8_PLANAR (COLORSPACE_SH(PT_GRAY)|EXTRA_SH(1)|CHANNELS_SH(1)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_GRAYA_16_PLANAR (COLORSPACE_SH(PT_GRAY)|EXTRA_SH(1)|CHANNELS_SH(1)|BYTES_SH(2)|PLANAR_SH(1)) + +#define TYPE_RGB_8 (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_RGB_8_PLANAR (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_BGR_8 (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_BGR_8_PLANAR (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|PLANAR_SH(1)) +#define TYPE_RGB_16 (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_RGB_16_PLANAR (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_RGB_16_SE (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_BGR_16 (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_BGR_16_PLANAR (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)|PLANAR_SH(1)) +#define TYPE_BGR_16_SE (COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) + +#define TYPE_RGBA_8 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_RGBA_8_PLANAR (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_RGBA_16 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_RGBA_16_PLANAR (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_RGBA_16_SE (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) + +#define TYPE_ARGB_8 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_ARGB_8_PLANAR (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|SWAPFIRST_SH(1)|PLANAR_SH(1)) +#define TYPE_ARGB_16 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|SWAPFIRST_SH(1)) + +#define TYPE_ABGR_8 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_ABGR_8_PLANAR (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|PLANAR_SH(1)) +#define TYPE_ABGR_16 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_ABGR_16_PLANAR (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)|PLANAR_SH(1)) +#define TYPE_ABGR_16_SE (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) + +#define TYPE_BGRA_8 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_BGRA_8_PLANAR (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1)|PLANAR_SH(1)) +#define TYPE_BGRA_16 (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_BGRA_16_SE (COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1)) + +#define TYPE_CMY_8 (COLORSPACE_SH(PT_CMY)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_CMY_8_PLANAR (COLORSPACE_SH(PT_CMY)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_CMY_16 (COLORSPACE_SH(PT_CMY)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_CMY_16_PLANAR (COLORSPACE_SH(PT_CMY)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_CMY_16_SE (COLORSPACE_SH(PT_CMY)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) + +#define TYPE_CMYK_8 (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(1)) +#define TYPE_CMYKA_8 (COLORSPACE_SH(PT_CMYK)|EXTRA_SH(1)|CHANNELS_SH(4)|BYTES_SH(1)) +#define TYPE_CMYK_8_REV (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(1)|FLAVOR_SH(1)) +#define TYPE_YUVK_8 TYPE_CMYK_8_REV +#define TYPE_CMYK_8_PLANAR (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_CMYK_16 (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)) +#define TYPE_CMYK_16_REV (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|FLAVOR_SH(1)) +#define TYPE_YUVK_16 TYPE_CMYK_16_REV +#define TYPE_CMYK_16_PLANAR (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_CMYK_16_SE (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|ENDIAN16_SH(1)) + +#define TYPE_KYMC_8 (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC_16 (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC_16_SE (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) + +#define TYPE_KCMY_8 (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_KCMY_8_REV (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(1)|FLAVOR_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_KCMY_16 (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|SWAPFIRST_SH(1)) +#define TYPE_KCMY_16_REV (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|FLAVOR_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_KCMY_16_SE (COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)|ENDIAN16_SH(1)|SWAPFIRST_SH(1)) + +#define TYPE_CMYK5_8 (COLORSPACE_SH(PT_MCH5)|CHANNELS_SH(5)|BYTES_SH(1)) +#define TYPE_CMYK5_16 (COLORSPACE_SH(PT_MCH5)|CHANNELS_SH(5)|BYTES_SH(2)) +#define TYPE_CMYK5_16_SE (COLORSPACE_SH(PT_MCH5)|CHANNELS_SH(5)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC5_8 (COLORSPACE_SH(PT_MCH5)|CHANNELS_SH(5)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC5_16 (COLORSPACE_SH(PT_MCH5)|CHANNELS_SH(5)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC5_16_SE (COLORSPACE_SH(PT_MCH5)|CHANNELS_SH(5)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) +#define TYPE_CMYK6_8 (COLORSPACE_SH(PT_MCH6)|CHANNELS_SH(6)|BYTES_SH(1)) +#define TYPE_CMYK6_8_PLANAR (COLORSPACE_SH(PT_MCH6)|CHANNELS_SH(6)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_CMYK6_16 (COLORSPACE_SH(PT_MCH6)|CHANNELS_SH(6)|BYTES_SH(2)) +#define TYPE_CMYK6_16_PLANAR (COLORSPACE_SH(PT_MCH6)|CHANNELS_SH(6)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_CMYK6_16_SE (COLORSPACE_SH(PT_MCH6)|CHANNELS_SH(6)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_CMYK7_8 (COLORSPACE_SH(PT_MCH7)|CHANNELS_SH(7)|BYTES_SH(1)) +#define TYPE_CMYK7_16 (COLORSPACE_SH(PT_MCH7)|CHANNELS_SH(7)|BYTES_SH(2)) +#define TYPE_CMYK7_16_SE (COLORSPACE_SH(PT_MCH7)|CHANNELS_SH(7)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC7_8 (COLORSPACE_SH(PT_MCH7)|CHANNELS_SH(7)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC7_16 (COLORSPACE_SH(PT_MCH7)|CHANNELS_SH(7)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC7_16_SE (COLORSPACE_SH(PT_MCH7)|CHANNELS_SH(7)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) +#define TYPE_CMYK8_8 (COLORSPACE_SH(PT_MCH8)|CHANNELS_SH(8)|BYTES_SH(1)) +#define TYPE_CMYK8_16 (COLORSPACE_SH(PT_MCH8)|CHANNELS_SH(8)|BYTES_SH(2)) +#define TYPE_CMYK8_16_SE (COLORSPACE_SH(PT_MCH8)|CHANNELS_SH(8)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC8_8 (COLORSPACE_SH(PT_MCH8)|CHANNELS_SH(8)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC8_16 (COLORSPACE_SH(PT_MCH8)|CHANNELS_SH(8)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC8_16_SE (COLORSPACE_SH(PT_MCH8)|CHANNELS_SH(8)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) +#define TYPE_CMYK9_8 (COLORSPACE_SH(PT_MCH9)|CHANNELS_SH(9)|BYTES_SH(1)) +#define TYPE_CMYK9_16 (COLORSPACE_SH(PT_MCH9)|CHANNELS_SH(9)|BYTES_SH(2)) +#define TYPE_CMYK9_16_SE (COLORSPACE_SH(PT_MCH9)|CHANNELS_SH(9)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC9_8 (COLORSPACE_SH(PT_MCH9)|CHANNELS_SH(9)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC9_16 (COLORSPACE_SH(PT_MCH9)|CHANNELS_SH(9)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC9_16_SE (COLORSPACE_SH(PT_MCH9)|CHANNELS_SH(9)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) +#define TYPE_CMYK10_8 (COLORSPACE_SH(PT_MCH10)|CHANNELS_SH(10)|BYTES_SH(1)) +#define TYPE_CMYK10_16 (COLORSPACE_SH(PT_MCH10)|CHANNELS_SH(10)|BYTES_SH(2)) +#define TYPE_CMYK10_16_SE (COLORSPACE_SH(PT_MCH10)|CHANNELS_SH(10)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC10_8 (COLORSPACE_SH(PT_MCH10)|CHANNELS_SH(10)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC10_16 (COLORSPACE_SH(PT_MCH10)|CHANNELS_SH(10)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC10_16_SE (COLORSPACE_SH(PT_MCH10)|CHANNELS_SH(10)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) +#define TYPE_CMYK11_8 (COLORSPACE_SH(PT_MCH11)|CHANNELS_SH(11)|BYTES_SH(1)) +#define TYPE_CMYK11_16 (COLORSPACE_SH(PT_MCH11)|CHANNELS_SH(11)|BYTES_SH(2)) +#define TYPE_CMYK11_16_SE (COLORSPACE_SH(PT_MCH11)|CHANNELS_SH(11)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC11_8 (COLORSPACE_SH(PT_MCH11)|CHANNELS_SH(11)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC11_16 (COLORSPACE_SH(PT_MCH11)|CHANNELS_SH(11)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC11_16_SE (COLORSPACE_SH(PT_MCH11)|CHANNELS_SH(11)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) +#define TYPE_CMYK12_8 (COLORSPACE_SH(PT_MCH12)|CHANNELS_SH(12)|BYTES_SH(1)) +#define TYPE_CMYK12_16 (COLORSPACE_SH(PT_MCH12)|CHANNELS_SH(12)|BYTES_SH(2)) +#define TYPE_CMYK12_16_SE (COLORSPACE_SH(PT_MCH12)|CHANNELS_SH(12)|BYTES_SH(2)|ENDIAN16_SH(1)) +#define TYPE_KYMC12_8 (COLORSPACE_SH(PT_MCH12)|CHANNELS_SH(12)|BYTES_SH(1)|DOSWAP_SH(1)) +#define TYPE_KYMC12_16 (COLORSPACE_SH(PT_MCH12)|CHANNELS_SH(12)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_KYMC12_16_SE (COLORSPACE_SH(PT_MCH12)|CHANNELS_SH(12)|BYTES_SH(2)|DOSWAP_SH(1)|ENDIAN16_SH(1)) + +// Colorimetric +#define TYPE_XYZ_16 (COLORSPACE_SH(PT_XYZ)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_Lab_8 (COLORSPACE_SH(PT_Lab)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_LabV2_8 (COLORSPACE_SH(PT_LabV2)|CHANNELS_SH(3)|BYTES_SH(1)) + +#define TYPE_ALab_8 (COLORSPACE_SH(PT_Lab)|CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_ALabV2_8 (COLORSPACE_SH(PT_LabV2)|CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_Lab_16 (COLORSPACE_SH(PT_Lab)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_LabV2_16 (COLORSPACE_SH(PT_LabV2)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_Yxy_16 (COLORSPACE_SH(PT_Yxy)|CHANNELS_SH(3)|BYTES_SH(2)) + +// YCbCr +#define TYPE_YCbCr_8 (COLORSPACE_SH(PT_YCbCr)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_YCbCr_8_PLANAR (COLORSPACE_SH(PT_YCbCr)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_YCbCr_16 (COLORSPACE_SH(PT_YCbCr)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_YCbCr_16_PLANAR (COLORSPACE_SH(PT_YCbCr)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_YCbCr_16_SE (COLORSPACE_SH(PT_YCbCr)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) + +// YUV +#define TYPE_YUV_8 (COLORSPACE_SH(PT_YUV)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_YUV_8_PLANAR (COLORSPACE_SH(PT_YUV)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_YUV_16 (COLORSPACE_SH(PT_YUV)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_YUV_16_PLANAR (COLORSPACE_SH(PT_YUV)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_YUV_16_SE (COLORSPACE_SH(PT_YUV)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) + +// HLS +#define TYPE_HLS_8 (COLORSPACE_SH(PT_HLS)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_HLS_8_PLANAR (COLORSPACE_SH(PT_HLS)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_HLS_16 (COLORSPACE_SH(PT_HLS)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_HLS_16_PLANAR (COLORSPACE_SH(PT_HLS)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_HLS_16_SE (COLORSPACE_SH(PT_HLS)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) + +// HSV +#define TYPE_HSV_8 (COLORSPACE_SH(PT_HSV)|CHANNELS_SH(3)|BYTES_SH(1)) +#define TYPE_HSV_8_PLANAR (COLORSPACE_SH(PT_HSV)|CHANNELS_SH(3)|BYTES_SH(1)|PLANAR_SH(1)) +#define TYPE_HSV_16 (COLORSPACE_SH(PT_HSV)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_HSV_16_PLANAR (COLORSPACE_SH(PT_HSV)|CHANNELS_SH(3)|BYTES_SH(2)|PLANAR_SH(1)) +#define TYPE_HSV_16_SE (COLORSPACE_SH(PT_HSV)|CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1)) + +// Named color index. Only 16 bits allowed (don't check colorspace) +#define TYPE_NAMED_COLOR_INDEX (CHANNELS_SH(1)|BYTES_SH(2)) + +// Float formatters. +#define TYPE_XYZ_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_XYZ)|CHANNELS_SH(3)|BYTES_SH(4)) +#define TYPE_Lab_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_Lab)|CHANNELS_SH(3)|BYTES_SH(4)) +#define TYPE_LabA_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_Lab)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(4)) +#define TYPE_GRAY_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(4)) +#define TYPE_RGB_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(4)) + +#define TYPE_RGBA_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(4)) +#define TYPE_ARGB_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(4)|SWAPFIRST_SH(1)) +#define TYPE_BGR_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(4)|DOSWAP_SH(1)) +#define TYPE_BGRA_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(4)|DOSWAP_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_ABGR_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(4)|DOSWAP_SH(1)) + +#define TYPE_CMYK_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(4)) + +// Floating point formatters. +// NOTE THAT 'BYTES' FIELD IS SET TO ZERO ON DLB because 8 bytes overflows the bitfield +#define TYPE_XYZ_DBL (FLOAT_SH(1)|COLORSPACE_SH(PT_XYZ)|CHANNELS_SH(3)|BYTES_SH(0)) +#define TYPE_Lab_DBL (FLOAT_SH(1)|COLORSPACE_SH(PT_Lab)|CHANNELS_SH(3)|BYTES_SH(0)) +#define TYPE_GRAY_DBL (FLOAT_SH(1)|COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(0)) +#define TYPE_RGB_DBL (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(0)) +#define TYPE_BGR_DBL (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(0)|DOSWAP_SH(1)) +#define TYPE_CMYK_DBL (FLOAT_SH(1)|COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(0)) + +// IEEE 754-2008 "half" +#define TYPE_GRAY_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_GRAY)|CHANNELS_SH(1)|BYTES_SH(2)) +#define TYPE_RGB_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_RGBA_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_CMYK_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_CMYK)|CHANNELS_SH(4)|BYTES_SH(2)) + +#define TYPE_RGBA_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)) +#define TYPE_ARGB_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|SWAPFIRST_SH(1)) +#define TYPE_BGR_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)) +#define TYPE_BGRA_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|EXTRA_SH(1)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)|SWAPFIRST_SH(1)) +#define TYPE_ABGR_HALF_FLT (FLOAT_SH(1)|COLORSPACE_SH(PT_RGB)|CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1)) + +#endif + +// Colorspaces +typedef struct { + cmsFloat64Number X; + cmsFloat64Number Y; + cmsFloat64Number Z; + + } cmsCIEXYZ; + +typedef struct { + cmsFloat64Number x; + cmsFloat64Number y; + cmsFloat64Number Y; + + } cmsCIExyY; + +typedef struct { + cmsFloat64Number L; + cmsFloat64Number a; + cmsFloat64Number b; + + } cmsCIELab; + +typedef struct { + cmsFloat64Number L; + cmsFloat64Number C; + cmsFloat64Number h; + + } cmsCIELCh; + +typedef struct { + cmsFloat64Number J; + cmsFloat64Number C; + cmsFloat64Number h; + + } cmsJCh; + +typedef struct { + cmsCIEXYZ Red; + cmsCIEXYZ Green; + cmsCIEXYZ Blue; + + } cmsCIEXYZTRIPLE; + +typedef struct { + cmsCIExyY Red; + cmsCIExyY Green; + cmsCIExyY Blue; + + } cmsCIExyYTRIPLE; + +// Illuminant types for structs below +#define cmsILLUMINANT_TYPE_UNKNOWN 0x0000000 +#define cmsILLUMINANT_TYPE_D50 0x0000001 +#define cmsILLUMINANT_TYPE_D65 0x0000002 +#define cmsILLUMINANT_TYPE_D93 0x0000003 +#define cmsILLUMINANT_TYPE_F2 0x0000004 +#define cmsILLUMINANT_TYPE_D55 0x0000005 +#define cmsILLUMINANT_TYPE_A 0x0000006 +#define cmsILLUMINANT_TYPE_E 0x0000007 +#define cmsILLUMINANT_TYPE_F8 0x0000008 + +typedef struct { + cmsUInt32Number Observer; // 0 = unknown, 1=CIE 1931, 2=CIE 1964 + cmsCIEXYZ Backing; // Value of backing + cmsUInt32Number Geometry; // 0=unknown, 1=45/0, 0/45 2=0d, d/0 + cmsFloat64Number Flare; // 0..1.0 + cmsUInt32Number IlluminantType; + + } cmsICCMeasurementConditions; + +typedef struct { + cmsCIEXYZ IlluminantXYZ; // Not the same struct as CAM02, + cmsCIEXYZ SurroundXYZ; // This is for storing the tag + cmsUInt32Number IlluminantType; // viewing condition + + } cmsICCViewingConditions; + +// Get LittleCMS version (for shared objects) ----------------------------------------------------------------------------- + +CMSAPI int CMSEXPORT cmsGetEncodedCMMversion(void); + +// Support of non-standard functions -------------------------------------------------------------------------------------- + +CMSAPI int CMSEXPORT cmsstrcasecmp(const char* s1, const char* s2); +CMSAPI long int CMSEXPORT cmsfilelength(FILE* f); + + +// Context handling -------------------------------------------------------------------------------------------------------- + +// Each context holds its owns globals and its own plug-ins. There is a global context with the id = 0 for lecacy compatibility +// though using the global context is not recommended. Proper context handling makes lcms more thread-safe. + +typedef struct _cmsContext_struct* cmsContext; + +CMSAPI cmsContext CMSEXPORT cmsCreateContext(void* Plugin, void* UserData); +CMSAPI void CMSEXPORT cmsDeleteContext(cmsContext ContexID); +CMSAPI cmsContext CMSEXPORT cmsDupContext(cmsContext ContextID, void* NewUserData); +CMSAPI void* CMSEXPORT cmsGetContextUserData(cmsContext ContextID); + +// Plug-In registering -------------------------------------------------------------------------------------------------- + +CMSAPI cmsBool CMSEXPORT cmsPlugin(void* Plugin); +CMSAPI cmsBool CMSEXPORT cmsPluginTHR(cmsContext ContextID, void* Plugin); +CMSAPI void CMSEXPORT cmsUnregisterPlugins(void); +CMSAPI void CMSEXPORT cmsUnregisterPluginsTHR(cmsContext ContextID); + +// Error logging ---------------------------------------------------------------------------------------------------------- + +// There is no error handling at all. When a function fails, it returns proper value. +// For example, all create functions does return NULL on failure. Other may return FALSE. +// It may be interesting, for the developer, to know why the function is failing. +// for that reason, lcms2 does offer a logging function. This function will get +// an ENGLISH string with some clues on what is going wrong. You can show this +// info to the end user if you wish, or just create some sort of log on disk. +// The logging function should NOT terminate the program, as this obviously can leave +// unfreed resources. It is the programmer's responsibility to check each function +// return code to make sure it didn't fail. + +#define cmsERROR_UNDEFINED 0 +#define cmsERROR_FILE 1 +#define cmsERROR_RANGE 2 +#define cmsERROR_INTERNAL 3 +#define cmsERROR_NULL 4 +#define cmsERROR_READ 5 +#define cmsERROR_SEEK 6 +#define cmsERROR_WRITE 7 +#define cmsERROR_UNKNOWN_EXTENSION 8 +#define cmsERROR_COLORSPACE_CHECK 9 +#define cmsERROR_ALREADY_DEFINED 10 +#define cmsERROR_BAD_SIGNATURE 11 +#define cmsERROR_CORRUPTION_DETECTED 12 +#define cmsERROR_NOT_SUITABLE 13 + +// Error logger is called with the ContextID when a message is raised. This gives the +// chance to know which thread is responsible of the warning and any environment associated +// with it. Non-multithreading applications may safely ignore this parameter. +// Note that under certain special circumstances, ContextID may be NULL. +typedef void (* cmsLogErrorHandlerFunction)(cmsContext ContextID, cmsUInt32Number ErrorCode, const char *Text); + +// Allows user to set any specific logger +CMSAPI void CMSEXPORT cmsSetLogErrorHandler(cmsLogErrorHandlerFunction Fn); +CMSAPI void CMSEXPORT cmsSetLogErrorHandlerTHR(cmsContext ContextID, cmsLogErrorHandlerFunction Fn); + +// Conversions -------------------------------------------------------------------------------------------------------------- + +// Returns pointers to constant structs +CMSAPI const cmsCIEXYZ* CMSEXPORT cmsD50_XYZ(void); +CMSAPI const cmsCIExyY* CMSEXPORT cmsD50_xyY(void); + +// Colorimetric space conversions +CMSAPI void CMSEXPORT cmsXYZ2xyY(cmsCIExyY* Dest, const cmsCIEXYZ* Source); +CMSAPI void CMSEXPORT cmsxyY2XYZ(cmsCIEXYZ* Dest, const cmsCIExyY* Source); +CMSAPI void CMSEXPORT cmsXYZ2Lab(const cmsCIEXYZ* WhitePoint, cmsCIELab* Lab, const cmsCIEXYZ* xyz); +CMSAPI void CMSEXPORT cmsLab2XYZ(const cmsCIEXYZ* WhitePoint, cmsCIEXYZ* xyz, const cmsCIELab* Lab); +CMSAPI void CMSEXPORT cmsLab2LCh(cmsCIELCh*LCh, const cmsCIELab* Lab); +CMSAPI void CMSEXPORT cmsLCh2Lab(cmsCIELab* Lab, const cmsCIELCh* LCh); + +// Encoding /Decoding on PCS +CMSAPI void CMSEXPORT cmsLabEncoded2Float(cmsCIELab* Lab, const cmsUInt16Number wLab[3]); +CMSAPI void CMSEXPORT cmsLabEncoded2FloatV2(cmsCIELab* Lab, const cmsUInt16Number wLab[3]); +CMSAPI void CMSEXPORT cmsFloat2LabEncoded(cmsUInt16Number wLab[3], const cmsCIELab* Lab); +CMSAPI void CMSEXPORT cmsFloat2LabEncodedV2(cmsUInt16Number wLab[3], const cmsCIELab* Lab); +CMSAPI void CMSEXPORT cmsXYZEncoded2Float(cmsCIEXYZ* fxyz, const cmsUInt16Number XYZ[3]); +CMSAPI void CMSEXPORT cmsFloat2XYZEncoded(cmsUInt16Number XYZ[3], const cmsCIEXYZ* fXYZ); + +// DeltaE metrics +CMSAPI cmsFloat64Number CMSEXPORT cmsDeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2); +CMSAPI cmsFloat64Number CMSEXPORT cmsCIE94DeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2); +CMSAPI cmsFloat64Number CMSEXPORT cmsBFDdeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2); +CMSAPI cmsFloat64Number CMSEXPORT cmsCMCdeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2, cmsFloat64Number l, cmsFloat64Number c); +CMSAPI cmsFloat64Number CMSEXPORT cmsCIE2000DeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2, cmsFloat64Number Kl, cmsFloat64Number Kc, cmsFloat64Number Kh); + +// Temperature <-> Chromaticity (Black body) +CMSAPI cmsBool CMSEXPORT cmsWhitePointFromTemp(cmsCIExyY* WhitePoint, cmsFloat64Number TempK); +CMSAPI cmsBool CMSEXPORT cmsTempFromWhitePoint(cmsFloat64Number* TempK, const cmsCIExyY* WhitePoint); + +// Chromatic adaptation +CMSAPI cmsBool CMSEXPORT cmsAdaptToIlluminant(cmsCIEXYZ* Result, const cmsCIEXYZ* SourceWhitePt, + const cmsCIEXYZ* Illuminant, + const cmsCIEXYZ* Value); + +// CIECAM02 --------------------------------------------------------------------------------------------------- + +// Viewing conditions. Please note those are CAM model viewing conditions, and not the ICC tag viewing +// conditions, which I'm naming cmsICCViewingConditions to make differences evident. Unfortunately, the tag +// cannot deal with surround La, Yb and D value so is basically useless to store CAM02 viewing conditions. + + +#define AVG_SURROUND 1 +#define DIM_SURROUND 2 +#define DARK_SURROUND 3 +#define CUTSHEET_SURROUND 4 + +#define D_CALCULATE (-1) + +typedef struct { + cmsCIEXYZ whitePoint; + cmsFloat64Number Yb; + cmsFloat64Number La; + int surround; + cmsFloat64Number D_value; + + } cmsViewingConditions; + +CMSAPI cmsHANDLE CMSEXPORT cmsCIECAM02Init(cmsContext ContextID, const cmsViewingConditions* pVC); +CMSAPI void CMSEXPORT cmsCIECAM02Done(cmsHANDLE hModel); +CMSAPI void CMSEXPORT cmsCIECAM02Forward(cmsHANDLE hModel, const cmsCIEXYZ* pIn, cmsJCh* pOut); +CMSAPI void CMSEXPORT cmsCIECAM02Reverse(cmsHANDLE hModel, const cmsJCh* pIn, cmsCIEXYZ* pOut); + + +// Tone curves ----------------------------------------------------------------------------------------- + +// This describes a curve segment. For a table of supported types, see the manual. User can increase the number of +// available types by using a proper plug-in. Parametric segments allow 10 parameters at most + +typedef struct { + cmsFloat32Number x0, x1; // Domain; for x0 < x <= x1 + cmsInt32Number Type; // Parametric type, Type == 0 means sampled segment. Negative values are reserved + cmsFloat64Number Params[10]; // Parameters if Type != 0 + cmsUInt32Number nGridPoints; // Number of grid points if Type == 0 + cmsFloat32Number* SampledPoints; // Points to an array of floats if Type == 0 + +} cmsCurveSegment; + +// The internal representation is none of your business. +typedef struct _cms_curve_struct cmsToneCurve; + +CMSAPI cmsToneCurve* CMSEXPORT cmsBuildSegmentedToneCurve(cmsContext ContextID, cmsInt32Number nSegments, const cmsCurveSegment Segments[]); +CMSAPI cmsToneCurve* CMSEXPORT cmsBuildParametricToneCurve(cmsContext ContextID, cmsInt32Number Type, const cmsFloat64Number Params[]); +CMSAPI cmsToneCurve* CMSEXPORT cmsBuildGamma(cmsContext ContextID, cmsFloat64Number Gamma); +CMSAPI cmsToneCurve* CMSEXPORT cmsBuildTabulatedToneCurve16(cmsContext ContextID, cmsInt32Number nEntries, const cmsUInt16Number values[]); +CMSAPI cmsToneCurve* CMSEXPORT cmsBuildTabulatedToneCurveFloat(cmsContext ContextID, cmsUInt32Number nEntries, const cmsFloat32Number values[]); +CMSAPI void CMSEXPORT cmsFreeToneCurve(cmsToneCurve* Curve); +CMSAPI void CMSEXPORT cmsFreeToneCurveTriple(cmsToneCurve* Curve[3]); +CMSAPI cmsToneCurve* CMSEXPORT cmsDupToneCurve(const cmsToneCurve* Src); +CMSAPI cmsToneCurve* CMSEXPORT cmsReverseToneCurve(const cmsToneCurve* InGamma); +CMSAPI cmsToneCurve* CMSEXPORT cmsReverseToneCurveEx(cmsInt32Number nResultSamples, const cmsToneCurve* InGamma); +CMSAPI cmsToneCurve* CMSEXPORT cmsJoinToneCurve(cmsContext ContextID, const cmsToneCurve* X, const cmsToneCurve* Y, cmsUInt32Number nPoints); +CMSAPI cmsBool CMSEXPORT cmsSmoothToneCurve(cmsToneCurve* Tab, cmsFloat64Number lambda); +CMSAPI cmsFloat32Number CMSEXPORT cmsEvalToneCurveFloat(const cmsToneCurve* Curve, cmsFloat32Number v); +CMSAPI cmsUInt16Number CMSEXPORT cmsEvalToneCurve16(const cmsToneCurve* Curve, cmsUInt16Number v); +CMSAPI cmsBool CMSEXPORT cmsIsToneCurveMultisegment(const cmsToneCurve* InGamma); +CMSAPI cmsBool CMSEXPORT cmsIsToneCurveLinear(const cmsToneCurve* Curve); +CMSAPI cmsBool CMSEXPORT cmsIsToneCurveMonotonic(const cmsToneCurve* t); +CMSAPI cmsBool CMSEXPORT cmsIsToneCurveDescending(const cmsToneCurve* t); +CMSAPI cmsInt32Number CMSEXPORT cmsGetToneCurveParametricType(const cmsToneCurve* t); +CMSAPI cmsFloat64Number CMSEXPORT cmsEstimateGamma(const cmsToneCurve* t, cmsFloat64Number Precision); + +// Tone curve tabular estimation +CMSAPI cmsUInt32Number CMSEXPORT cmsGetToneCurveEstimatedTableEntries(const cmsToneCurve* t); +CMSAPI const cmsUInt16Number* CMSEXPORT cmsGetToneCurveEstimatedTable(const cmsToneCurve* t); + + +// Implements pipelines of multi-processing elements ------------------------------------------------------------- + +// Nothing to see here, move along +typedef struct _cmsPipeline_struct cmsPipeline; +typedef struct _cmsStage_struct cmsStage; + +// Those are hi-level pipelines +CMSAPI cmsPipeline* CMSEXPORT cmsPipelineAlloc(cmsContext ContextID, cmsUInt32Number InputChannels, cmsUInt32Number OutputChannels); +CMSAPI void CMSEXPORT cmsPipelineFree(cmsPipeline* lut); +CMSAPI cmsPipeline* CMSEXPORT cmsPipelineDup(const cmsPipeline* Orig); + +CMSAPI cmsContext CMSEXPORT cmsGetPipelineContextID(const cmsPipeline* lut); +CMSAPI cmsUInt32Number CMSEXPORT cmsPipelineInputChannels(const cmsPipeline* lut); +CMSAPI cmsUInt32Number CMSEXPORT cmsPipelineOutputChannels(const cmsPipeline* lut); + +CMSAPI cmsUInt32Number CMSEXPORT cmsPipelineStageCount(const cmsPipeline* lut); +CMSAPI cmsStage* CMSEXPORT cmsPipelineGetPtrToFirstStage(const cmsPipeline* lut); +CMSAPI cmsStage* CMSEXPORT cmsPipelineGetPtrToLastStage(const cmsPipeline* lut); + +CMSAPI void CMSEXPORT cmsPipelineEval16(const cmsUInt16Number In[], cmsUInt16Number Out[], const cmsPipeline* lut); +CMSAPI void CMSEXPORT cmsPipelineEvalFloat(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsPipeline* lut); +CMSAPI cmsBool CMSEXPORT cmsPipelineEvalReverseFloat(cmsFloat32Number Target[], cmsFloat32Number Result[], cmsFloat32Number Hint[], const cmsPipeline* lut); +CMSAPI cmsBool CMSEXPORT cmsPipelineCat(cmsPipeline* l1, const cmsPipeline* l2); +CMSAPI cmsBool CMSEXPORT cmsPipelineSetSaveAs8bitsFlag(cmsPipeline* lut, cmsBool On); + +// Where to place/locate the stages in the pipeline chain +typedef enum { cmsAT_BEGIN, cmsAT_END } cmsStageLoc; + +CMSAPI int CMSEXPORT cmsPipelineInsertStage(cmsPipeline* lut, cmsStageLoc loc, cmsStage* mpe); +CMSAPI void CMSEXPORT cmsPipelineUnlinkStage(cmsPipeline* lut, cmsStageLoc loc, cmsStage** mpe); + +// This function is quite useful to analyze the structure of a Pipeline and retrieve the Stage elements +// that conform the Pipeline. It should be called with the Pipeline, the number of expected elements and +// then a list of expected types followed with a list of double pointers to Stage elements. If +// the function founds a match with current pipeline, it fills the pointers and returns TRUE +// if not, returns FALSE without touching anything. +CMSAPI cmsBool CMSEXPORT cmsPipelineCheckAndRetreiveStages(const cmsPipeline* Lut, cmsUInt32Number n, ...); + +// Matrix has double precision and CLUT has only float precision. That is because an ICC profile can encode +// matrices with far more precision that CLUTS +CMSAPI cmsStage* CMSEXPORT cmsStageAllocIdentity(cmsContext ContextID, cmsUInt32Number nChannels); +CMSAPI cmsStage* CMSEXPORT cmsStageAllocToneCurves(cmsContext ContextID, cmsUInt32Number nChannels, cmsToneCurve* const Curves[]); +CMSAPI cmsStage* CMSEXPORT cmsStageAllocMatrix(cmsContext ContextID, cmsUInt32Number Rows, cmsUInt32Number Cols, const cmsFloat64Number* Matrix, const cmsFloat64Number* Offset); + +CMSAPI cmsStage* CMSEXPORT cmsStageAllocCLut16bit(cmsContext ContextID, cmsUInt32Number nGridPoints, cmsUInt32Number inputChan, cmsUInt32Number outputChan, const cmsUInt16Number* Table); +CMSAPI cmsStage* CMSEXPORT cmsStageAllocCLutFloat(cmsContext ContextID, cmsUInt32Number nGridPoints, cmsUInt32Number inputChan, cmsUInt32Number outputChan, const cmsFloat32Number* Table); + +CMSAPI cmsStage* CMSEXPORT cmsStageAllocCLut16bitGranular(cmsContext ContextID, const cmsUInt32Number clutPoints[], cmsUInt32Number inputChan, cmsUInt32Number outputChan, const cmsUInt16Number* Table); +CMSAPI cmsStage* CMSEXPORT cmsStageAllocCLutFloatGranular(cmsContext ContextID, const cmsUInt32Number clutPoints[], cmsUInt32Number inputChan, cmsUInt32Number outputChan, const cmsFloat32Number* Table); + +CMSAPI cmsStage* CMSEXPORT cmsStageDup(cmsStage* mpe); +CMSAPI void CMSEXPORT cmsStageFree(cmsStage* mpe); +CMSAPI cmsStage* CMSEXPORT cmsStageNext(const cmsStage* mpe); + +CMSAPI cmsUInt32Number CMSEXPORT cmsStageInputChannels(const cmsStage* mpe); +CMSAPI cmsUInt32Number CMSEXPORT cmsStageOutputChannels(const cmsStage* mpe); +CMSAPI cmsStageSignature CMSEXPORT cmsStageType(const cmsStage* mpe); +CMSAPI void* CMSEXPORT cmsStageData(const cmsStage* mpe); + +// Sampling +typedef cmsInt32Number (* cmsSAMPLER16) (register const cmsUInt16Number In[], + register cmsUInt16Number Out[], + register void * Cargo); + +typedef cmsInt32Number (* cmsSAMPLERFLOAT)(register const cmsFloat32Number In[], + register cmsFloat32Number Out[], + register void * Cargo); + +// Use this flag to prevent changes being written to destination +#define SAMPLER_INSPECT 0x01000000 + +// For CLUT only +CMSAPI cmsBool CMSEXPORT cmsStageSampleCLut16bit(cmsStage* mpe, cmsSAMPLER16 Sampler, void* Cargo, cmsUInt32Number dwFlags); +CMSAPI cmsBool CMSEXPORT cmsStageSampleCLutFloat(cmsStage* mpe, cmsSAMPLERFLOAT Sampler, void* Cargo, cmsUInt32Number dwFlags); + +// Slicers +CMSAPI cmsBool CMSEXPORT cmsSliceSpace16(cmsUInt32Number nInputs, const cmsUInt32Number clutPoints[], + cmsSAMPLER16 Sampler, void * Cargo); + +CMSAPI cmsBool CMSEXPORT cmsSliceSpaceFloat(cmsUInt32Number nInputs, const cmsUInt32Number clutPoints[], + cmsSAMPLERFLOAT Sampler, void * Cargo); + +// Multilocalized Unicode management --------------------------------------------------------------------------------------- + +typedef struct _cms_MLU_struct cmsMLU; + +#define cmsNoLanguage "\0\0" +#define cmsNoCountry "\0\0" + +CMSAPI cmsMLU* CMSEXPORT cmsMLUalloc(cmsContext ContextID, cmsUInt32Number nItems); +CMSAPI void CMSEXPORT cmsMLUfree(cmsMLU* mlu); +CMSAPI cmsMLU* CMSEXPORT cmsMLUdup(const cmsMLU* mlu); + +CMSAPI cmsBool CMSEXPORT cmsMLUsetASCII(cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + const char* ASCIIString); +CMSAPI cmsBool CMSEXPORT cmsMLUsetWide(cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + const wchar_t* WideString); + +CMSAPI cmsUInt32Number CMSEXPORT cmsMLUgetASCII(const cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + char* Buffer, cmsUInt32Number BufferSize); + +CMSAPI cmsUInt32Number CMSEXPORT cmsMLUgetWide(const cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + wchar_t* Buffer, cmsUInt32Number BufferSize); + +CMSAPI cmsBool CMSEXPORT cmsMLUgetTranslation(const cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + char ObtainedLanguage[3], char ObtainedCountry[3]); + +CMSAPI cmsUInt32Number CMSEXPORT cmsMLUtranslationsCount(const cmsMLU* mlu); + +CMSAPI cmsBool CMSEXPORT cmsMLUtranslationsCodes(const cmsMLU* mlu, + cmsUInt32Number idx, + char LanguageCode[3], + char CountryCode[3]); + +// Undercolorremoval & black generation ------------------------------------------------------------------------------------- + +typedef struct { + cmsToneCurve* Ucr; + cmsToneCurve* Bg; + cmsMLU* Desc; + +} cmsUcrBg; + +// Screening ---------------------------------------------------------------------------------------------------------------- + +#define cmsPRINTER_DEFAULT_SCREENS 0x0001 +#define cmsFREQUENCE_UNITS_LINES_CM 0x0000 +#define cmsFREQUENCE_UNITS_LINES_INCH 0x0002 + +#define cmsSPOT_UNKNOWN 0 +#define cmsSPOT_PRINTER_DEFAULT 1 +#define cmsSPOT_ROUND 2 +#define cmsSPOT_DIAMOND 3 +#define cmsSPOT_ELLIPSE 4 +#define cmsSPOT_LINE 5 +#define cmsSPOT_SQUARE 6 +#define cmsSPOT_CROSS 7 + +typedef struct { + cmsFloat64Number Frequency; + cmsFloat64Number ScreenAngle; + cmsUInt32Number SpotShape; + +} cmsScreeningChannel; + +typedef struct { + cmsUInt32Number Flag; + cmsUInt32Number nChannels; + cmsScreeningChannel Channels[cmsMAXCHANNELS]; + +} cmsScreening; + + +// Named color ----------------------------------------------------------------------------------------------------------------- + +typedef struct _cms_NAMEDCOLORLIST_struct cmsNAMEDCOLORLIST; + +CMSAPI cmsNAMEDCOLORLIST* CMSEXPORT cmsAllocNamedColorList(cmsContext ContextID, + cmsUInt32Number n, + cmsUInt32Number ColorantCount, + const char* Prefix, const char* Suffix); + +CMSAPI void CMSEXPORT cmsFreeNamedColorList(cmsNAMEDCOLORLIST* v); +CMSAPI cmsNAMEDCOLORLIST* CMSEXPORT cmsDupNamedColorList(const cmsNAMEDCOLORLIST* v); +CMSAPI cmsBool CMSEXPORT cmsAppendNamedColor(cmsNAMEDCOLORLIST* v, const char* Name, + cmsUInt16Number PCS[3], + cmsUInt16Number Colorant[cmsMAXCHANNELS]); + +CMSAPI cmsUInt32Number CMSEXPORT cmsNamedColorCount(const cmsNAMEDCOLORLIST* v); +CMSAPI cmsInt32Number CMSEXPORT cmsNamedColorIndex(const cmsNAMEDCOLORLIST* v, const char* Name); + +CMSAPI cmsBool CMSEXPORT cmsNamedColorInfo(const cmsNAMEDCOLORLIST* NamedColorList, cmsUInt32Number nColor, + char* Name, + char* Prefix, + char* Suffix, + cmsUInt16Number* PCS, + cmsUInt16Number* Colorant); + +// Retrieve named color list from transform +CMSAPI cmsNAMEDCOLORLIST* CMSEXPORT cmsGetNamedColorList(cmsHTRANSFORM xform); + +// Profile sequence ----------------------------------------------------------------------------------------------------- + +// Profile sequence descriptor. Some fields come from profile sequence descriptor tag, others +// come from Profile Sequence Identifier Tag +typedef struct { + + cmsSignature deviceMfg; + cmsSignature deviceModel; + cmsUInt64Number attributes; + cmsTechnologySignature technology; + cmsProfileID ProfileID; + cmsMLU* Manufacturer; + cmsMLU* Model; + cmsMLU* Description; + +} cmsPSEQDESC; + +typedef struct { + + cmsUInt32Number n; + cmsContext ContextID; + cmsPSEQDESC* seq; + +} cmsSEQ; + +CMSAPI cmsSEQ* CMSEXPORT cmsAllocProfileSequenceDescription(cmsContext ContextID, cmsUInt32Number n); +CMSAPI cmsSEQ* CMSEXPORT cmsDupProfileSequenceDescription(const cmsSEQ* pseq); +CMSAPI void CMSEXPORT cmsFreeProfileSequenceDescription(cmsSEQ* pseq); + +// Dictionaries -------------------------------------------------------------------------------------------------------- + +typedef struct _cmsDICTentry_struct { + + struct _cmsDICTentry_struct* Next; + + cmsMLU *DisplayName; + cmsMLU *DisplayValue; + wchar_t* Name; + wchar_t* Value; + +} cmsDICTentry; + +CMSAPI cmsHANDLE CMSEXPORT cmsDictAlloc(cmsContext ContextID); +CMSAPI void CMSEXPORT cmsDictFree(cmsHANDLE hDict); +CMSAPI cmsHANDLE CMSEXPORT cmsDictDup(cmsHANDLE hDict); + +CMSAPI cmsBool CMSEXPORT cmsDictAddEntry(cmsHANDLE hDict, const wchar_t* Name, const wchar_t* Value, const cmsMLU *DisplayName, const cmsMLU *DisplayValue); +CMSAPI const cmsDICTentry* CMSEXPORT cmsDictGetEntryList(cmsHANDLE hDict); +CMSAPI const cmsDICTentry* CMSEXPORT cmsDictNextEntry(const cmsDICTentry* e); + +// Access to Profile data ---------------------------------------------------------------------------------------------- +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateProfilePlaceholder(cmsContext ContextID); + +CMSAPI cmsContext CMSEXPORT cmsGetProfileContextID(cmsHPROFILE hProfile); +CMSAPI cmsInt32Number CMSEXPORT cmsGetTagCount(cmsHPROFILE hProfile); +CMSAPI cmsTagSignature CMSEXPORT cmsGetTagSignature(cmsHPROFILE hProfile, cmsUInt32Number n); +CMSAPI cmsBool CMSEXPORT cmsIsTag(cmsHPROFILE hProfile, cmsTagSignature sig); + +// Read and write pre-formatted data +CMSAPI void* CMSEXPORT cmsReadTag(cmsHPROFILE hProfile, cmsTagSignature sig); +CMSAPI cmsBool CMSEXPORT cmsWriteTag(cmsHPROFILE hProfile, cmsTagSignature sig, const void* data); +CMSAPI cmsBool CMSEXPORT cmsLinkTag(cmsHPROFILE hProfile, cmsTagSignature sig, cmsTagSignature dest); +CMSAPI cmsTagSignature CMSEXPORT cmsTagLinkedTo(cmsHPROFILE hProfile, cmsTagSignature sig); + +// Read and write raw data +CMSAPI cmsInt32Number CMSEXPORT cmsReadRawTag(cmsHPROFILE hProfile, cmsTagSignature sig, void* Buffer, cmsUInt32Number BufferSize); +CMSAPI cmsBool CMSEXPORT cmsWriteRawTag(cmsHPROFILE hProfile, cmsTagSignature sig, const void* data, cmsUInt32Number Size); + +// Access header data +#define cmsEmbeddedProfileFalse 0x00000000 +#define cmsEmbeddedProfileTrue 0x00000001 +#define cmsUseAnywhere 0x00000000 +#define cmsUseWithEmbeddedDataOnly 0x00000002 + +CMSAPI cmsUInt32Number CMSEXPORT cmsGetHeaderFlags(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsGetHeaderAttributes(cmsHPROFILE hProfile, cmsUInt64Number* Flags); +CMSAPI void CMSEXPORT cmsGetHeaderProfileID(cmsHPROFILE hProfile, cmsUInt8Number* ProfileID); +CMSAPI cmsBool CMSEXPORT cmsGetHeaderCreationDateTime(cmsHPROFILE hProfile, struct tm *Dest); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetHeaderRenderingIntent(cmsHPROFILE hProfile); + +CMSAPI void CMSEXPORT cmsSetHeaderFlags(cmsHPROFILE hProfile, cmsUInt32Number Flags); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetHeaderManufacturer(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsSetHeaderManufacturer(cmsHPROFILE hProfile, cmsUInt32Number manufacturer); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetHeaderCreator(cmsHPROFILE hProfile); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetHeaderModel(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsSetHeaderModel(cmsHPROFILE hProfile, cmsUInt32Number model); +CMSAPI void CMSEXPORT cmsSetHeaderAttributes(cmsHPROFILE hProfile, cmsUInt64Number Flags); +CMSAPI void CMSEXPORT cmsSetHeaderProfileID(cmsHPROFILE hProfile, cmsUInt8Number* ProfileID); +CMSAPI void CMSEXPORT cmsSetHeaderRenderingIntent(cmsHPROFILE hProfile, cmsUInt32Number RenderingIntent); + +CMSAPI cmsColorSpaceSignature + CMSEXPORT cmsGetPCS(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsSetPCS(cmsHPROFILE hProfile, cmsColorSpaceSignature pcs); +CMSAPI cmsColorSpaceSignature + CMSEXPORT cmsGetColorSpace(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsSetColorSpace(cmsHPROFILE hProfile, cmsColorSpaceSignature sig); +CMSAPI cmsProfileClassSignature + CMSEXPORT cmsGetDeviceClass(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsSetDeviceClass(cmsHPROFILE hProfile, cmsProfileClassSignature sig); +CMSAPI void CMSEXPORT cmsSetProfileVersion(cmsHPROFILE hProfile, cmsFloat64Number Version); +CMSAPI cmsFloat64Number CMSEXPORT cmsGetProfileVersion(cmsHPROFILE hProfile); + +CMSAPI cmsUInt32Number CMSEXPORT cmsGetEncodedICCversion(cmsHPROFILE hProfile); +CMSAPI void CMSEXPORT cmsSetEncodedICCversion(cmsHPROFILE hProfile, cmsUInt32Number Version); + +// How profiles may be used +#define LCMS_USED_AS_INPUT 0 +#define LCMS_USED_AS_OUTPUT 1 +#define LCMS_USED_AS_PROOF 2 + +CMSAPI cmsBool CMSEXPORT cmsIsIntentSupported(cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number UsedDirection); +CMSAPI cmsBool CMSEXPORT cmsIsMatrixShaper(cmsHPROFILE hProfile); +CMSAPI cmsBool CMSEXPORT cmsIsCLUT(cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number UsedDirection); + +// Translate form/to our notation to ICC +CMSAPI cmsColorSpaceSignature CMSEXPORT _cmsICCcolorSpace(int OurNotation); +CMSAPI int CMSEXPORT _cmsLCMScolorSpace(cmsColorSpaceSignature ProfileSpace); + +CMSAPI cmsUInt32Number CMSEXPORT cmsChannelsOf(cmsColorSpaceSignature ColorSpace); + +// Build a suitable formatter for the colorspace of this profile. nBytes=1 means 8 bits, nBytes=2 means 16 bits. +CMSAPI cmsUInt32Number CMSEXPORT cmsFormatterForColorspaceOfProfile(cmsHPROFILE hProfile, cmsUInt32Number nBytes, cmsBool lIsFloat); +CMSAPI cmsUInt32Number CMSEXPORT cmsFormatterForPCSOfProfile(cmsHPROFILE hProfile, cmsUInt32Number nBytes, cmsBool lIsFloat); + + +// Localized info +typedef enum { + cmsInfoDescription = 0, + cmsInfoManufacturer = 1, + cmsInfoModel = 2, + cmsInfoCopyright = 3 +} cmsInfoType; + +CMSAPI cmsUInt32Number CMSEXPORT cmsGetProfileInfo(cmsHPROFILE hProfile, cmsInfoType Info, + const char LanguageCode[3], const char CountryCode[3], + wchar_t* Buffer, cmsUInt32Number BufferSize); + +CMSAPI cmsUInt32Number CMSEXPORT cmsGetProfileInfoASCII(cmsHPROFILE hProfile, cmsInfoType Info, + const char LanguageCode[3], const char CountryCode[3], + char* Buffer, cmsUInt32Number BufferSize); + +// IO handlers ---------------------------------------------------------------------------------------------------------- + +typedef struct _cms_io_handler cmsIOHANDLER; + +CMSAPI cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromFile(cmsContext ContextID, const char* FileName, const char* AccessMode); +CMSAPI cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromStream(cmsContext ContextID, FILE* Stream); +CMSAPI cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromMem(cmsContext ContextID, void *Buffer, cmsUInt32Number size, const char* AccessMode); +CMSAPI cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromNULL(cmsContext ContextID); +CMSAPI cmsIOHANDLER* CMSEXPORT cmsGetProfileIOhandler(cmsHPROFILE hProfile); +CMSAPI cmsBool CMSEXPORT cmsCloseIOhandler(cmsIOHANDLER* io); + +// MD5 message digest -------------------------------------------------------------------------------------------------- + +CMSAPI cmsBool CMSEXPORT cmsMD5computeID(cmsHPROFILE hProfile); + +// Profile high level funtions ------------------------------------------------------------------------------------------ + +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromFile(const char *ICCProfile, const char *sAccess); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromFileTHR(cmsContext ContextID, const char *ICCProfile, const char *sAccess); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromStream(FILE* ICCProfile, const char* sAccess); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromStreamTHR(cmsContext ContextID, FILE* ICCProfile, const char* sAccess); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromMem(const void * MemPtr, cmsUInt32Number dwSize); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromMemTHR(cmsContext ContextID, const void * MemPtr, cmsUInt32Number dwSize); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromIOhandlerTHR(cmsContext ContextID, cmsIOHANDLER* io); +CMSAPI cmsHPROFILE CMSEXPORT cmsOpenProfileFromIOhandler2THR(cmsContext ContextID, cmsIOHANDLER* io, cmsBool write); +CMSAPI cmsBool CMSEXPORT cmsCloseProfile(cmsHPROFILE hProfile); + +CMSAPI cmsBool CMSEXPORT cmsSaveProfileToFile(cmsHPROFILE hProfile, const char* FileName); +CMSAPI cmsBool CMSEXPORT cmsSaveProfileToStream(cmsHPROFILE hProfile, FILE* Stream); +CMSAPI cmsBool CMSEXPORT cmsSaveProfileToMem(cmsHPROFILE hProfile, void *MemPtr, cmsUInt32Number* BytesNeeded); +CMSAPI cmsUInt32Number CMSEXPORT cmsSaveProfileToIOhandler(cmsHPROFILE hProfile, cmsIOHANDLER* io); + +// Predefined virtual profiles ------------------------------------------------------------------------------------------ + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateRGBProfileTHR(cmsContext ContextID, + const cmsCIExyY* WhitePoint, + const cmsCIExyYTRIPLE* Primaries, + cmsToneCurve* const TransferFunction[3]); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateRGBProfile(const cmsCIExyY* WhitePoint, + const cmsCIExyYTRIPLE* Primaries, + cmsToneCurve* const TransferFunction[3]); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateGrayProfileTHR(cmsContext ContextID, + const cmsCIExyY* WhitePoint, + const cmsToneCurve* TransferFunction); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateGrayProfile(const cmsCIExyY* WhitePoint, + const cmsToneCurve* TransferFunction); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateLinearizationDeviceLinkTHR(cmsContext ContextID, + cmsColorSpaceSignature ColorSpace, + cmsToneCurve* const TransferFunctions[]); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateLinearizationDeviceLink(cmsColorSpaceSignature ColorSpace, + cmsToneCurve* const TransferFunctions[]); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateInkLimitingDeviceLinkTHR(cmsContext ContextID, + cmsColorSpaceSignature ColorSpace, cmsFloat64Number Limit); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateInkLimitingDeviceLink(cmsColorSpaceSignature ColorSpace, cmsFloat64Number Limit); + + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateLab2ProfileTHR(cmsContext ContextID, const cmsCIExyY* WhitePoint); +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateLab2Profile(const cmsCIExyY* WhitePoint); +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateLab4ProfileTHR(cmsContext ContextID, const cmsCIExyY* WhitePoint); +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateLab4Profile(const cmsCIExyY* WhitePoint); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateXYZProfileTHR(cmsContext ContextID); +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateXYZProfile(void); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreate_sRGBProfileTHR(cmsContext ContextID); +CMSAPI cmsHPROFILE CMSEXPORT cmsCreate_sRGBProfile(void); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateBCHSWabstractProfileTHR(cmsContext ContextID, + int nLUTPoints, + cmsFloat64Number Bright, + cmsFloat64Number Contrast, + cmsFloat64Number Hue, + cmsFloat64Number Saturation, + int TempSrc, + int TempDest); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateBCHSWabstractProfile(int nLUTPoints, + cmsFloat64Number Bright, + cmsFloat64Number Contrast, + cmsFloat64Number Hue, + cmsFloat64Number Saturation, + int TempSrc, + int TempDest); + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateNULLProfileTHR(cmsContext ContextID); +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateNULLProfile(void); + +// Converts a transform to a devicelink profile +CMSAPI cmsHPROFILE CMSEXPORT cmsTransform2DeviceLink(cmsHTRANSFORM hTransform, cmsFloat64Number Version, cmsUInt32Number dwFlags); + +// Intents ---------------------------------------------------------------------------------------------- + +// ICC Intents +#define INTENT_PERCEPTUAL 0 +#define INTENT_RELATIVE_COLORIMETRIC 1 +#define INTENT_SATURATION 2 +#define INTENT_ABSOLUTE_COLORIMETRIC 3 + +// Non-ICC intents +#define INTENT_PRESERVE_K_ONLY_PERCEPTUAL 10 +#define INTENT_PRESERVE_K_ONLY_RELATIVE_COLORIMETRIC 11 +#define INTENT_PRESERVE_K_ONLY_SATURATION 12 +#define INTENT_PRESERVE_K_PLANE_PERCEPTUAL 13 +#define INTENT_PRESERVE_K_PLANE_RELATIVE_COLORIMETRIC 14 +#define INTENT_PRESERVE_K_PLANE_SATURATION 15 + +// Call with NULL as parameters to get the intent count +CMSAPI cmsUInt32Number CMSEXPORT cmsGetSupportedIntents(cmsUInt32Number nMax, cmsUInt32Number* Codes, char** Descriptions); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetSupportedIntentsTHR(cmsContext ContextID, cmsUInt32Number nMax, cmsUInt32Number* Codes, char** Descriptions); + +// Flags + +#define cmsFLAGS_NOCACHE 0x0040 // Inhibit 1-pixel cache +#define cmsFLAGS_NOOPTIMIZE 0x0100 // Inhibit optimizations +#define cmsFLAGS_NULLTRANSFORM 0x0200 // Don't transform anyway + +// Proofing flags +#define cmsFLAGS_GAMUTCHECK 0x1000 // Out of Gamut alarm +#define cmsFLAGS_SOFTPROOFING 0x4000 // Do softproofing + +// Misc +#define cmsFLAGS_BLACKPOINTCOMPENSATION 0x2000 +#define cmsFLAGS_NOWHITEONWHITEFIXUP 0x0004 // Don't fix scum dot +#define cmsFLAGS_HIGHRESPRECALC 0x0400 // Use more memory to give better accurancy +#define cmsFLAGS_LOWRESPRECALC 0x0800 // Use less memory to minimize resouces + +// For devicelink creation +#define cmsFLAGS_8BITS_DEVICELINK 0x0008 // Create 8 bits devicelinks +#define cmsFLAGS_GUESSDEVICECLASS 0x0020 // Guess device class (for transform2devicelink) +#define cmsFLAGS_KEEP_SEQUENCE 0x0080 // Keep profile sequence for devicelink creation + +// Specific to a particular optimizations +#define cmsFLAGS_FORCE_CLUT 0x0002 // Force CLUT optimization +#define cmsFLAGS_CLUT_POST_LINEARIZATION 0x0001 // create postlinearization tables if possible +#define cmsFLAGS_CLUT_PRE_LINEARIZATION 0x0010 // create prelinearization tables if possible + +// Specific to unbounded mode +#define cmsFLAGS_NONEGATIVES 0x8000 // Prevent negative numbers in floating point transforms + +// Copy alpha channels when transforming +#define cmsFLAGS_COPY_ALPHA 0x04000000 // Alpha channels are copied on cmsDoTransform() + +// Fine-tune control over number of gridpoints +#define cmsFLAGS_GRIDPOINTS(n) (((n) & 0xFF) << 16) + +// CRD special +#define cmsFLAGS_NODEFAULTRESOURCEDEF 0x01000000 + +// Transforms --------------------------------------------------------------------------------------------------- + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateTransformTHR(cmsContext ContextID, + cmsHPROFILE Input, + cmsUInt32Number InputFormat, + cmsHPROFILE Output, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags); + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateTransform(cmsHPROFILE Input, + cmsUInt32Number InputFormat, + cmsHPROFILE Output, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags); + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateProofingTransformTHR(cmsContext ContextID, + cmsHPROFILE Input, + cmsUInt32Number InputFormat, + cmsHPROFILE Output, + cmsUInt32Number OutputFormat, + cmsHPROFILE Proofing, + cmsUInt32Number Intent, + cmsUInt32Number ProofingIntent, + cmsUInt32Number dwFlags); + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateProofingTransform(cmsHPROFILE Input, + cmsUInt32Number InputFormat, + cmsHPROFILE Output, + cmsUInt32Number OutputFormat, + cmsHPROFILE Proofing, + cmsUInt32Number Intent, + cmsUInt32Number ProofingIntent, + cmsUInt32Number dwFlags); + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateMultiprofileTransformTHR(cmsContext ContextID, + cmsHPROFILE hProfiles[], + cmsUInt32Number nProfiles, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags); + + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateMultiprofileTransform(cmsHPROFILE hProfiles[], + cmsUInt32Number nProfiles, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags); + + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateExtendedTransform(cmsContext ContextID, + cmsUInt32Number nProfiles, cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsUInt32Number Intents[], + cmsFloat64Number AdaptationStates[], + cmsHPROFILE hGamutProfile, + cmsUInt32Number nGamutPCSposition, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + cmsUInt32Number dwFlags); + +CMSAPI void CMSEXPORT cmsDeleteTransform(cmsHTRANSFORM hTransform); + +CMSAPI void CMSEXPORT cmsDoTransform(cmsHTRANSFORM Transform, + const void * InputBuffer, + void * OutputBuffer, + cmsUInt32Number Size); + +CMSAPI void CMSEXPORT cmsDoTransformStride(cmsHTRANSFORM Transform, // Deprecated + const void * InputBuffer, + void * OutputBuffer, + cmsUInt32Number Size, + cmsUInt32Number Stride); + +CMSAPI void CMSEXPORT cmsDoTransformLineStride(cmsHTRANSFORM Transform, + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + cmsUInt32Number BytesPerLineIn, + cmsUInt32Number BytesPerLineOut, + cmsUInt32Number BytesPerPlaneIn, + cmsUInt32Number BytesPerPlaneOut); + + +CMSAPI void CMSEXPORT cmsSetAlarmCodes(const cmsUInt16Number NewAlarm[cmsMAXCHANNELS]); +CMSAPI void CMSEXPORT cmsGetAlarmCodes(cmsUInt16Number NewAlarm[cmsMAXCHANNELS]); + + +CMSAPI void CMSEXPORT cmsSetAlarmCodesTHR(cmsContext ContextID, + const cmsUInt16Number AlarmCodes[cmsMAXCHANNELS]); +CMSAPI void CMSEXPORT cmsGetAlarmCodesTHR(cmsContext ContextID, + cmsUInt16Number AlarmCodes[cmsMAXCHANNELS]); + + + +// Adaptation state for absolute colorimetric intent +CMSAPI cmsFloat64Number CMSEXPORT cmsSetAdaptationState(cmsFloat64Number d); +CMSAPI cmsFloat64Number CMSEXPORT cmsSetAdaptationStateTHR(cmsContext ContextID, cmsFloat64Number d); + + + +// Grab the ContextID from an open transform. Returns NULL if a NULL transform is passed +CMSAPI cmsContext CMSEXPORT cmsGetTransformContextID(cmsHTRANSFORM hTransform); + +// Grab the input/output formats +CMSAPI cmsUInt32Number CMSEXPORT cmsGetTransformInputFormat(cmsHTRANSFORM hTransform); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetTransformOutputFormat(cmsHTRANSFORM hTransform); + +// For backwards compatibility +CMSAPI cmsBool CMSEXPORT cmsChangeBuffersFormat(cmsHTRANSFORM hTransform, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat); + + + +// PostScript ColorRenderingDictionary and ColorSpaceArray ---------------------------------------------------- + +typedef enum { cmsPS_RESOURCE_CSA, cmsPS_RESOURCE_CRD } cmsPSResourceType; + +// lcms2 unified method to access postscript color resources +CMSAPI cmsUInt32Number CMSEXPORT cmsGetPostScriptColorResource(cmsContext ContextID, + cmsPSResourceType Type, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags, + cmsIOHANDLER* io); + +CMSAPI cmsUInt32Number CMSEXPORT cmsGetPostScriptCSA(cmsContext ContextID, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags, void* Buffer, cmsUInt32Number dwBufferLen); +CMSAPI cmsUInt32Number CMSEXPORT cmsGetPostScriptCRD(cmsContext ContextID, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags, void* Buffer, cmsUInt32Number dwBufferLen); + + +// IT8.7 / CGATS.17-200x handling ----------------------------------------------------------------------------- + +CMSAPI cmsHANDLE CMSEXPORT cmsIT8Alloc(cmsContext ContextID); +CMSAPI void CMSEXPORT cmsIT8Free(cmsHANDLE hIT8); + +// Tables +CMSAPI cmsUInt32Number CMSEXPORT cmsIT8TableCount(cmsHANDLE hIT8); +CMSAPI cmsInt32Number CMSEXPORT cmsIT8SetTable(cmsHANDLE hIT8, cmsUInt32Number nTable); + +// Persistence +CMSAPI cmsHANDLE CMSEXPORT cmsIT8LoadFromFile(cmsContext ContextID, const char* cFileName); +CMSAPI cmsHANDLE CMSEXPORT cmsIT8LoadFromMem(cmsContext ContextID, void *Ptr, cmsUInt32Number len); +// CMSAPI cmsHANDLE CMSEXPORT cmsIT8LoadFromIOhandler(cmsContext ContextID, cmsIOHANDLER* io); + +CMSAPI cmsBool CMSEXPORT cmsIT8SaveToFile(cmsHANDLE hIT8, const char* cFileName); +CMSAPI cmsBool CMSEXPORT cmsIT8SaveToMem(cmsHANDLE hIT8, void *MemPtr, cmsUInt32Number* BytesNeeded); + +// Properties +CMSAPI const char* CMSEXPORT cmsIT8GetSheetType(cmsHANDLE hIT8); +CMSAPI cmsBool CMSEXPORT cmsIT8SetSheetType(cmsHANDLE hIT8, const char* Type); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetComment(cmsHANDLE hIT8, const char* cComment); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetPropertyStr(cmsHANDLE hIT8, const char* cProp, const char *Str); +CMSAPI cmsBool CMSEXPORT cmsIT8SetPropertyDbl(cmsHANDLE hIT8, const char* cProp, cmsFloat64Number Val); +CMSAPI cmsBool CMSEXPORT cmsIT8SetPropertyHex(cmsHANDLE hIT8, const char* cProp, cmsUInt32Number Val); +CMSAPI cmsBool CMSEXPORT cmsIT8SetPropertyMulti(cmsHANDLE hIT8, const char* Key, const char* SubKey, const char *Buffer); +CMSAPI cmsBool CMSEXPORT cmsIT8SetPropertyUncooked(cmsHANDLE hIT8, const char* Key, const char* Buffer); + + +CMSAPI const char* CMSEXPORT cmsIT8GetProperty(cmsHANDLE hIT8, const char* cProp); +CMSAPI cmsFloat64Number CMSEXPORT cmsIT8GetPropertyDbl(cmsHANDLE hIT8, const char* cProp); +CMSAPI const char* CMSEXPORT cmsIT8GetPropertyMulti(cmsHANDLE hIT8, const char* Key, const char *SubKey); +CMSAPI cmsUInt32Number CMSEXPORT cmsIT8EnumProperties(cmsHANDLE hIT8, char ***PropertyNames); +CMSAPI cmsUInt32Number CMSEXPORT cmsIT8EnumPropertyMulti(cmsHANDLE hIT8, const char* cProp, const char ***SubpropertyNames); + +// Datasets +CMSAPI const char* CMSEXPORT cmsIT8GetDataRowCol(cmsHANDLE hIT8, int row, int col); +CMSAPI cmsFloat64Number CMSEXPORT cmsIT8GetDataRowColDbl(cmsHANDLE hIT8, int row, int col); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetDataRowCol(cmsHANDLE hIT8, int row, int col, + const char* Val); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetDataRowColDbl(cmsHANDLE hIT8, int row, int col, + cmsFloat64Number Val); + +CMSAPI const char* CMSEXPORT cmsIT8GetData(cmsHANDLE hIT8, const char* cPatch, const char* cSample); + + +CMSAPI cmsFloat64Number CMSEXPORT cmsIT8GetDataDbl(cmsHANDLE hIT8, const char* cPatch, const char* cSample); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetData(cmsHANDLE hIT8, const char* cPatch, + const char* cSample, + const char *Val); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetDataDbl(cmsHANDLE hIT8, const char* cPatch, + const char* cSample, + cmsFloat64Number Val); + +CMSAPI int CMSEXPORT cmsIT8FindDataFormat(cmsHANDLE hIT8, const char* cSample); +CMSAPI cmsBool CMSEXPORT cmsIT8SetDataFormat(cmsHANDLE hIT8, int n, const char *Sample); +CMSAPI int CMSEXPORT cmsIT8EnumDataFormat(cmsHANDLE hIT8, char ***SampleNames); + +CMSAPI const char* CMSEXPORT cmsIT8GetPatchName(cmsHANDLE hIT8, int nPatch, char* buffer); +CMSAPI int CMSEXPORT cmsIT8GetPatchByName(cmsHANDLE hIT8, const char *cPatch); + +// The LABEL extension +CMSAPI int CMSEXPORT cmsIT8SetTableByLabel(cmsHANDLE hIT8, const char* cSet, const char* cField, const char* ExpectedType); + +CMSAPI cmsBool CMSEXPORT cmsIT8SetIndexColumn(cmsHANDLE hIT8, const char* cSample); + +// Formatter for double +CMSAPI void CMSEXPORT cmsIT8DefineDblFormat(cmsHANDLE hIT8, const char* Formatter); + +// Gamut boundary description routines ------------------------------------------------------------------------------ + +CMSAPI cmsHANDLE CMSEXPORT cmsGBDAlloc(cmsContext ContextID); +CMSAPI void CMSEXPORT cmsGBDFree(cmsHANDLE hGBD); +CMSAPI cmsBool CMSEXPORT cmsGDBAddPoint(cmsHANDLE hGBD, const cmsCIELab* Lab); +CMSAPI cmsBool CMSEXPORT cmsGDBCompute(cmsHANDLE hGDB, cmsUInt32Number dwFlags); +CMSAPI cmsBool CMSEXPORT cmsGDBCheckPoint(cmsHANDLE hGBD, const cmsCIELab* Lab); + +// Feature detection ---------------------------------------------------------------------------------------------- + +// Estimate the black point +CMSAPI cmsBool CMSEXPORT cmsDetectBlackPoint(cmsCIEXYZ* BlackPoint, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags); +CMSAPI cmsBool CMSEXPORT cmsDetectDestinationBlackPoint(cmsCIEXYZ* BlackPoint, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags); + +// Estimate total area coverage +CMSAPI cmsFloat64Number CMSEXPORT cmsDetectTAC(cmsHPROFILE hProfile); + + +// Poor man's gamut mapping +CMSAPI cmsBool CMSEXPORT cmsDesaturateLab(cmsCIELab* Lab, + double amax, double amin, + double bmax, double bmin); + +#ifndef CMS_USE_CPP_API +# ifdef __cplusplus + } +# endif +#endif + +#define _lcms2_H +#endif Index: sdk/include/reactos/libs/lcms2/lcms2_plugin.h =================================================================== --- sdk/include/reactos/libs/lcms2/lcms2_plugin.h (nonexistent) +++ sdk/include/reactos/libs/lcms2/lcms2_plugin.h (working copy) @@ -0,0 +1,665 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// +// This is the plug-in header file. Normal LittleCMS clients should not use it. +// It is provided for plug-in writters that may want to access the support +// functions to do low level operations. All plug-in related structures +// are defined here. Including this file forces to include the standard API too. + +#ifndef _lcms_plugin_H + +// Deal with Microsoft's attempt at deprecating C standard runtime functions +#ifdef _MSC_VER +# if (_MSC_VER >= 1400) +# ifndef _CRT_SECURE_NO_DEPRECATE +# define _CRT_SECURE_NO_DEPRECATE +# endif +# ifndef _CRT_SECURE_NO_WARNINGS +# define _CRT_SECURE_NO_WARNINGS +# endif +# endif +#endif + +#ifndef _lcms2_H +#include "lcms2.h" +#endif + +// We need some standard C functions. +#include +#include +#include +#include +#include + + +#ifndef CMS_USE_CPP_API +# ifdef __cplusplus +extern "C" { +# endif +#endif + +// Vector & Matrix operations ----------------------------------------------------------------------- + +// Axis of the matrix/array. No specific meaning at all. +#define VX 0 +#define VY 1 +#define VZ 2 + +// Vectors +typedef struct { + cmsFloat64Number n[3]; + + } cmsVEC3; + +// 3x3 Matrix +typedef struct { + cmsVEC3 v[3]; + + } cmsMAT3; + +CMSAPI void CMSEXPORT _cmsVEC3init(cmsVEC3* r, cmsFloat64Number x, cmsFloat64Number y, cmsFloat64Number z); +CMSAPI void CMSEXPORT _cmsVEC3minus(cmsVEC3* r, const cmsVEC3* a, const cmsVEC3* b); +CMSAPI void CMSEXPORT _cmsVEC3cross(cmsVEC3* r, const cmsVEC3* u, const cmsVEC3* v); +CMSAPI cmsFloat64Number CMSEXPORT _cmsVEC3dot(const cmsVEC3* u, const cmsVEC3* v); +CMSAPI cmsFloat64Number CMSEXPORT _cmsVEC3length(const cmsVEC3* a); +CMSAPI cmsFloat64Number CMSEXPORT _cmsVEC3distance(const cmsVEC3* a, const cmsVEC3* b); + +CMSAPI void CMSEXPORT _cmsMAT3identity(cmsMAT3* a); +CMSAPI cmsBool CMSEXPORT _cmsMAT3isIdentity(const cmsMAT3* a); +CMSAPI void CMSEXPORT _cmsMAT3per(cmsMAT3* r, const cmsMAT3* a, const cmsMAT3* b); +CMSAPI cmsBool CMSEXPORT _cmsMAT3inverse(const cmsMAT3* a, cmsMAT3* b); +CMSAPI cmsBool CMSEXPORT _cmsMAT3solve(cmsVEC3* x, cmsMAT3* a, cmsVEC3* b); +CMSAPI void CMSEXPORT _cmsMAT3eval(cmsVEC3* r, const cmsMAT3* a, const cmsVEC3* v); + + +// Error logging ------------------------------------------------------------------------------------- + +CMSAPI void CMSEXPORT cmsSignalError(cmsContext ContextID, cmsUInt32Number ErrorCode, const char *ErrorText, ...); + +// Memory management ---------------------------------------------------------------------------------- + +CMSAPI void* CMSEXPORT _cmsMalloc(cmsContext ContextID, cmsUInt32Number size); +CMSAPI void* CMSEXPORT _cmsMallocZero(cmsContext ContextID, cmsUInt32Number size); +CMSAPI void* CMSEXPORT _cmsCalloc(cmsContext ContextID, cmsUInt32Number num, cmsUInt32Number size); +CMSAPI void* CMSEXPORT _cmsRealloc(cmsContext ContextID, void* Ptr, cmsUInt32Number NewSize); +CMSAPI void CMSEXPORT _cmsFree(cmsContext ContextID, void* Ptr); +CMSAPI void* CMSEXPORT _cmsDupMem(cmsContext ContextID, const void* Org, cmsUInt32Number size); + +// I/O handler ---------------------------------------------------------------------------------- + +struct _cms_io_handler { + + void* stream; // Associated stream, which is implemented differently depending on media. + + cmsContext ContextID; + cmsUInt32Number UsedSpace; + cmsUInt32Number ReportedSize; + char PhysicalFile[cmsMAX_PATH]; + + cmsUInt32Number (* Read)(struct _cms_io_handler* iohandler, void *Buffer, + cmsUInt32Number size, + cmsUInt32Number count); + cmsBool (* Seek)(struct _cms_io_handler* iohandler, cmsUInt32Number offset); + cmsBool (* Close)(struct _cms_io_handler* iohandler); + cmsUInt32Number (* Tell)(struct _cms_io_handler* iohandler); + cmsBool (* Write)(struct _cms_io_handler* iohandler, cmsUInt32Number size, + const void* Buffer); +}; + +// Endianness adjust functions +CMSAPI cmsUInt16Number CMSEXPORT _cmsAdjustEndianess16(cmsUInt16Number Word); +CMSAPI cmsUInt32Number CMSEXPORT _cmsAdjustEndianess32(cmsUInt32Number Value); +CMSAPI void CMSEXPORT _cmsAdjustEndianess64(cmsUInt64Number* Result, cmsUInt64Number* QWord); + +// Helper IO functions +CMSAPI cmsBool CMSEXPORT _cmsReadUInt8Number(cmsIOHANDLER* io, cmsUInt8Number* n); +CMSAPI cmsBool CMSEXPORT _cmsReadUInt16Number(cmsIOHANDLER* io, cmsUInt16Number* n); +CMSAPI cmsBool CMSEXPORT _cmsReadUInt32Number(cmsIOHANDLER* io, cmsUInt32Number* n); +CMSAPI cmsBool CMSEXPORT _cmsReadFloat32Number(cmsIOHANDLER* io, cmsFloat32Number* n); +CMSAPI cmsBool CMSEXPORT _cmsReadUInt64Number(cmsIOHANDLER* io, cmsUInt64Number* n); +CMSAPI cmsBool CMSEXPORT _cmsRead15Fixed16Number(cmsIOHANDLER* io, cmsFloat64Number* n); +CMSAPI cmsBool CMSEXPORT _cmsReadXYZNumber(cmsIOHANDLER* io, cmsCIEXYZ* XYZ); +CMSAPI cmsBool CMSEXPORT _cmsReadUInt16Array(cmsIOHANDLER* io, cmsUInt32Number n, cmsUInt16Number* Array); + +CMSAPI cmsBool CMSEXPORT _cmsWriteUInt8Number(cmsIOHANDLER* io, cmsUInt8Number n); +CMSAPI cmsBool CMSEXPORT _cmsWriteUInt16Number(cmsIOHANDLER* io, cmsUInt16Number n); +CMSAPI cmsBool CMSEXPORT _cmsWriteUInt32Number(cmsIOHANDLER* io, cmsUInt32Number n); +CMSAPI cmsBool CMSEXPORT _cmsWriteFloat32Number(cmsIOHANDLER* io, cmsFloat32Number n); +CMSAPI cmsBool CMSEXPORT _cmsWriteUInt64Number(cmsIOHANDLER* io, cmsUInt64Number* n); +CMSAPI cmsBool CMSEXPORT _cmsWrite15Fixed16Number(cmsIOHANDLER* io, cmsFloat64Number n); +CMSAPI cmsBool CMSEXPORT _cmsWriteXYZNumber(cmsIOHANDLER* io, const cmsCIEXYZ* XYZ); +CMSAPI cmsBool CMSEXPORT _cmsWriteUInt16Array(cmsIOHANDLER* io, cmsUInt32Number n, const cmsUInt16Number* Array); + +// ICC base tag +typedef struct { + cmsTagTypeSignature sig; + cmsInt8Number reserved[4]; + +} _cmsTagBase; + +// Type base helper functions +CMSAPI cmsTagTypeSignature CMSEXPORT _cmsReadTypeBase(cmsIOHANDLER* io); +CMSAPI cmsBool CMSEXPORT _cmsWriteTypeBase(cmsIOHANDLER* io, cmsTagTypeSignature sig); + +// Alignment functions +CMSAPI cmsBool CMSEXPORT _cmsReadAlignment(cmsIOHANDLER* io); +CMSAPI cmsBool CMSEXPORT _cmsWriteAlignment(cmsIOHANDLER* io); + +// To deal with text streams. 2K at most +CMSAPI cmsBool CMSEXPORT _cmsIOPrintf(cmsIOHANDLER* io, const char* frm, ...); + +// Fixed point helper functions +CMSAPI cmsFloat64Number CMSEXPORT _cms8Fixed8toDouble(cmsUInt16Number fixed8); +CMSAPI cmsUInt16Number CMSEXPORT _cmsDoubleTo8Fixed8(cmsFloat64Number val); + +CMSAPI cmsFloat64Number CMSEXPORT _cms15Fixed16toDouble(cmsS15Fixed16Number fix32); +CMSAPI cmsS15Fixed16Number CMSEXPORT _cmsDoubleTo15Fixed16(cmsFloat64Number v); + +// Date/time helper functions +CMSAPI void CMSEXPORT _cmsEncodeDateTimeNumber(cmsDateTimeNumber *Dest, const struct tm *Source); +CMSAPI void CMSEXPORT _cmsDecodeDateTimeNumber(const cmsDateTimeNumber *Source, struct tm *Dest); + +//---------------------------------------------------------------------------------------------------------- + +// Shared callbacks for user data +typedef void (* _cmsFreeUserDataFn)(cmsContext ContextID, void* Data); +typedef void* (* _cmsDupUserDataFn)(cmsContext ContextID, const void* Data); + +//---------------------------------------------------------------------------------------------------------- + +// Plug-in foundation +#define cmsPluginMagicNumber 0x61637070 // 'acpp' + +#define cmsPluginMemHandlerSig 0x6D656D48 // 'memH' +#define cmsPluginInterpolationSig 0x696E7048 // 'inpH' +#define cmsPluginParametricCurveSig 0x70617248 // 'parH' +#define cmsPluginFormattersSig 0x66726D48 // 'frmH +#define cmsPluginTagTypeSig 0x74797048 // 'typH' +#define cmsPluginTagSig 0x74616748 // 'tagH' +#define cmsPluginRenderingIntentSig 0x696E7448 // 'intH' +#define cmsPluginMultiProcessElementSig 0x6D706548 // 'mpeH' +#define cmsPluginOptimizationSig 0x6F707448 // 'optH' +#define cmsPluginTransformSig 0x7A666D48 // 'xfmH' +#define cmsPluginMutexSig 0x6D747A48 // 'mtxH' + +typedef struct _cmsPluginBaseStruct { + + cmsUInt32Number Magic; // 'acpp' signature + cmsUInt32Number ExpectedVersion; // Expected version of LittleCMS + cmsUInt32Number Type; // Type of plug-in + struct _cmsPluginBaseStruct* Next; // For multiple plugin definition. NULL for end of list. + +} cmsPluginBase; + +// Maximum number of types in a plugin array +#define MAX_TYPES_IN_LCMS_PLUGIN 20 + +//---------------------------------------------------------------------------------------------------------- + +// Memory handler. Each new plug-in type replaces current behaviour + +typedef void* (* _cmsMallocFnPtrType)(cmsContext ContextID, cmsUInt32Number size); +typedef void (* _cmsFreeFnPtrType)(cmsContext ContextID, void *Ptr); +typedef void* (* _cmsReallocFnPtrType)(cmsContext ContextID, void* Ptr, cmsUInt32Number NewSize); + +typedef void* (* _cmsMalloZerocFnPtrType)(cmsContext ContextID, cmsUInt32Number size); +typedef void* (* _cmsCallocFnPtrType)(cmsContext ContextID, cmsUInt32Number num, cmsUInt32Number size); +typedef void* (* _cmsDupFnPtrType)(cmsContext ContextID, const void* Org, cmsUInt32Number size); + +typedef struct { + + cmsPluginBase base; + + // Required + _cmsMallocFnPtrType MallocPtr; + _cmsFreeFnPtrType FreePtr; + _cmsReallocFnPtrType ReallocPtr; + + // Optional + _cmsMalloZerocFnPtrType MallocZeroPtr; + _cmsCallocFnPtrType CallocPtr; + _cmsDupFnPtrType DupPtr; + +} cmsPluginMemHandler; + + +// ------------------------------------------------------------------------------------------------------------------ + +// Interpolation. 16 bits and floating point versions. +struct _cms_interp_struc; + +// Interpolation callbacks + +// 16 bits forward interpolation. This function performs precision-limited linear interpolation +// and is supposed to be quite fast. Implementation may be tetrahedral or trilinear, and plug-ins may +// choose to implement any other interpolation algorithm. +typedef void (* _cmsInterpFn16)(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const struct _cms_interp_struc* p); + +// Floating point forward interpolation. Full precision interpolation using floats. This is not a +// time critical function. Implementation may be tetrahedral or trilinear, and plug-ins may +// choose to implement any other interpolation algorithm. +typedef void (* _cmsInterpFnFloat)(cmsFloat32Number const Input[], + cmsFloat32Number Output[], + const struct _cms_interp_struc* p); + + + +// This type holds a pointer to an interpolator that can be either 16 bits or float +typedef union { + _cmsInterpFn16 Lerp16; // Forward interpolation in 16 bits + _cmsInterpFnFloat LerpFloat; // Forward interpolation in floating point +} cmsInterpFunction; + +// Flags for interpolator selection +#define CMS_LERP_FLAGS_16BITS 0x0000 // The default +#define CMS_LERP_FLAGS_FLOAT 0x0001 // Requires different implementation +#define CMS_LERP_FLAGS_TRILINEAR 0x0100 // Hint only + + +#define MAX_INPUT_DIMENSIONS 8 + +typedef struct _cms_interp_struc { // Used on all interpolations. Supplied by lcms2 when calling the interpolation function + + cmsContext ContextID; // The calling thread + + cmsUInt32Number dwFlags; // Keep original flags + cmsUInt32Number nInputs; // != 1 only in 3D interpolation + cmsUInt32Number nOutputs; // != 1 only in 3D interpolation + + cmsUInt32Number nSamples[MAX_INPUT_DIMENSIONS]; // Valid on all kinds of tables + cmsUInt32Number Domain[MAX_INPUT_DIMENSIONS]; // Domain = nSamples - 1 + + cmsUInt32Number opta[MAX_INPUT_DIMENSIONS]; // Optimization for 3D CLUT. This is the number of nodes premultiplied for each + // dimension. For example, in 7 nodes, 7, 7^2 , 7^3, 7^4, etc. On non-regular + // Samplings may vary according of the number of nodes for each dimension. + + const void *Table; // Points to the actual interpolation table + cmsInterpFunction Interpolation; // Points to the function to do the interpolation + + } cmsInterpParams; + +// Interpolators factory +typedef cmsInterpFunction (* cmsInterpFnFactory)(cmsUInt32Number nInputChannels, cmsUInt32Number nOutputChannels, cmsUInt32Number dwFlags); + +// The plug-in +typedef struct { + cmsPluginBase base; + + // Points to a user-supplied function which implements the factory + cmsInterpFnFactory InterpolatorsFactory; + +} cmsPluginInterpolation; + +//---------------------------------------------------------------------------------------------------------- + +// Parametric curves. A negative type means same function but analytically inverted. Max. number of params is 10 + +// Evaluator callback for user-suplied parametric curves. May implement more than one type +typedef cmsFloat64Number (* cmsParametricCurveEvaluator)(cmsInt32Number Type, const cmsFloat64Number Params[10], cmsFloat64Number R); + +// Plug-in may implement an arbitrary number of parametric curves +typedef struct { + cmsPluginBase base; + + cmsUInt32Number nFunctions; // Number of supported functions + cmsUInt32Number FunctionTypes[MAX_TYPES_IN_LCMS_PLUGIN]; // The identification types + cmsUInt32Number ParameterCount[MAX_TYPES_IN_LCMS_PLUGIN]; // Number of parameters for each function + + cmsParametricCurveEvaluator Evaluator; // The evaluator + +} cmsPluginParametricCurves; +//---------------------------------------------------------------------------------------------------------- + +// Formatters. This plug-in adds new handlers, replacing them if they already exist. Formatters dealing with +// cmsFloat32Number (bps = 4) or double (bps = 0) types are requested via FormatterFloat callback. Others come across +// Formatter16 callback + +struct _cmstransform_struct; + +typedef cmsUInt8Number* (* cmsFormatter16)(register struct _cmstransform_struct* CMMcargo, + register cmsUInt16Number Values[], + register cmsUInt8Number* Buffer, + register cmsUInt32Number Stride); + +typedef cmsUInt8Number* (* cmsFormatterFloat)(struct _cmstransform_struct* CMMcargo, + cmsFloat32Number Values[], + cmsUInt8Number* Buffer, + cmsUInt32Number Stride); + +// This type holds a pointer to a formatter that can be either 16 bits or cmsFloat32Number +typedef union { + cmsFormatter16 Fmt16; + cmsFormatterFloat FmtFloat; + +} cmsFormatter; + +#define CMS_PACK_FLAGS_16BITS 0x0000 +#define CMS_PACK_FLAGS_FLOAT 0x0001 + +typedef enum { cmsFormatterInput=0, cmsFormatterOutput=1 } cmsFormatterDirection; + +typedef cmsFormatter (* cmsFormatterFactory)(cmsUInt32Number Type, // Specific type, i.e. TYPE_RGB_8 + cmsFormatterDirection Dir, + cmsUInt32Number dwFlags); // precision + +// Plug-in may implement an arbitrary number of formatters +typedef struct { + cmsPluginBase base; + cmsFormatterFactory FormattersFactory; + +} cmsPluginFormatters; + +//---------------------------------------------------------------------------------------------------------- + +// Tag type handler. Each type is free to return anything it wants, and it is up to the caller to +// know in advance what is the type contained in the tag. +typedef struct _cms_typehandler_struct { + + cmsTagTypeSignature Signature; // The signature of the type + + // Allocates and reads items + void * (* ReadPtr)(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + cmsUInt32Number* nItems, + cmsUInt32Number SizeOfTag); + + // Writes n Items + cmsBool (* WritePtr)(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Ptr, + cmsUInt32Number nItems); + + // Duplicate an item or array of items + void* (* DupPtr)(struct _cms_typehandler_struct* self, + const void *Ptr, + cmsUInt32Number n); + + // Free all resources + void (* FreePtr)(struct _cms_typehandler_struct* self, + void *Ptr); + + // Additional parameters used by the calling thread + cmsContext ContextID; + cmsUInt32Number ICCVersion; + +} cmsTagTypeHandler; + +// Each plug-in implements a single type +typedef struct { + cmsPluginBase base; + cmsTagTypeHandler Handler; + +} cmsPluginTagType; + +//---------------------------------------------------------------------------------------------------------- + +// This is the tag plugin, which identifies tags. For writing, a pointer to function is provided. +// This function should return the desired type for this tag, given the version of profile +// and the data being serialized. +typedef struct { + + cmsUInt32Number ElemCount; // If this tag needs an array, how many elements should keep + + // For reading. + cmsUInt32Number nSupportedTypes; // In how many types this tag can come (MAX_TYPES_IN_LCMS_PLUGIN maximum) + cmsTagTypeSignature SupportedTypes[MAX_TYPES_IN_LCMS_PLUGIN]; + + // For writting + cmsTagTypeSignature (* DecideType)(cmsFloat64Number ICCVersion, const void *Data); + +} cmsTagDescriptor; + +// Plug-in implements a single tag +typedef struct { + cmsPluginBase base; + + cmsTagSignature Signature; + cmsTagDescriptor Descriptor; + +} cmsPluginTag; + +//---------------------------------------------------------------------------------------------------------- + +// Custom intents. This function should join all profiles specified in the array in +// a single LUT. Any custom intent in the chain redirects to custom function. If more than +// one custom intent is found, the one located first is invoked. Usually users should use only one +// custom intent, so mixing custom intents in same multiprofile transform is not supported. + +typedef cmsPipeline* (* cmsIntentFn)( cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number Intents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + + +// Each plug-in defines a single intent number. +typedef struct { + cmsPluginBase base; + cmsUInt32Number Intent; + cmsIntentFn Link; + char Description[256]; + +} cmsPluginRenderingIntent; + + +// The default ICC intents (perceptual, saturation, rel.col and abs.col) +CMSAPI cmsPipeline* CMSEXPORT _cmsDefaultICCintents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number Intents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + + +//---------------------------------------------------------------------------------------------------------- + +// Pipelines, Multi Process Elements. + +typedef void (* _cmsStageEvalFn) (const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage* mpe); +typedef void*(* _cmsStageDupElemFn) (cmsStage* mpe); +typedef void (* _cmsStageFreeElemFn) (cmsStage* mpe); + + +// This function allocates a generic MPE +CMSAPI cmsStage* CMSEXPORT _cmsStageAllocPlaceholder(cmsContext ContextID, + cmsStageSignature Type, + cmsUInt32Number InputChannels, + cmsUInt32Number OutputChannels, + _cmsStageEvalFn EvalPtr, // Points to fn that evaluates the element (always in floating point) + _cmsStageDupElemFn DupElemPtr, // Points to a fn that duplicates the stage + _cmsStageFreeElemFn FreePtr, // Points to a fn that sets the element free + void* Data); // A generic pointer to whatever memory needed by the element +typedef struct { + cmsPluginBase base; + cmsTagTypeHandler Handler; + +} cmsPluginMultiProcessElement; + + +// Data kept in "Element" member of cmsStage + +// Curves +typedef struct { + cmsUInt32Number nCurves; + cmsToneCurve** TheCurves; + +} _cmsStageToneCurvesData; + +// Matrix +typedef struct { + cmsFloat64Number* Double; // floating point for the matrix + cmsFloat64Number* Offset; // The offset + +} _cmsStageMatrixData; + +// CLUT +typedef struct { + + union { // Can have only one of both representations at same time + cmsUInt16Number* T; // Points to the table 16 bits table + cmsFloat32Number* TFloat; // Points to the cmsFloat32Number table + + } Tab; + + cmsInterpParams* Params; + cmsUInt32Number nEntries; + cmsBool HasFloatValues; + +} _cmsStageCLutData; + + +//---------------------------------------------------------------------------------------------------------- +// Optimization. Using this plug-in, additional optimization strategies may be implemented. +// The function should return TRUE if any optimization is done on the LUT, this terminates +// the optimization search. Or FALSE if it is unable to optimize and want to give a chance +// to the rest of optimizers. + +typedef void (* _cmsOPTeval16Fn)(register const cmsUInt16Number In[], + register cmsUInt16Number Out[], + register const void* Data); + + +typedef cmsBool (* _cmsOPToptimizeFn)(cmsPipeline** Lut, + cmsUInt32Number Intent, + cmsUInt32Number* InputFormat, + cmsUInt32Number* OutputFormat, + cmsUInt32Number* dwFlags); + +// This function may be used to set the optional evaluator and a block of private data. If private data is being used, an optional +// duplicator and free functions should also be specified in order to duplicate the LUT construct. Use NULL to inhibit such functionality. + +CMSAPI void CMSEXPORT _cmsPipelineSetOptimizationParameters(cmsPipeline* Lut, + _cmsOPTeval16Fn Eval16, + void* PrivateData, + _cmsFreeUserDataFn FreePrivateDataFn, + _cmsDupUserDataFn DupPrivateDataFn); + +typedef struct { + cmsPluginBase base; + + // Optimize entry point + _cmsOPToptimizeFn OptimizePtr; + +} cmsPluginOptimization; + +//---------------------------------------------------------------------------------------------------------- +// Full xform + +typedef struct { + cmsUInt32Number BytesPerLineIn; + cmsUInt32Number BytesPerLineOut; + cmsUInt32Number BytesPerPlaneIn; + cmsUInt32Number BytesPerPlaneOut; + +} cmsStride; + +typedef void (* _cmsTransformFn)(struct _cmstransform_struct *CMMcargo, // Legacy function, handles just ONE scanline. + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number Size, + cmsUInt32Number Stride); // Stride in bytes to the next plana in planar formats + + +typedef void (*_cmsTransform2Fn)(struct _cmstransform_struct *CMMcargo, + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride); + +typedef cmsBool (* _cmsTransformFactory)(_cmsTransformFn* xform, + void** UserData, + _cmsFreeUserDataFn* FreePrivateDataFn, + cmsPipeline** Lut, + cmsUInt32Number* InputFormat, + cmsUInt32Number* OutputFormat, + cmsUInt32Number* dwFlags); + +typedef cmsBool (* _cmsTransform2Factory)(_cmsTransform2Fn* xform, + void** UserData, + _cmsFreeUserDataFn* FreePrivateDataFn, + cmsPipeline** Lut, + cmsUInt32Number* InputFormat, + cmsUInt32Number* OutputFormat, + cmsUInt32Number* dwFlags); + + +// Retrieve user data as specified by the factory +CMSAPI void CMSEXPORT _cmsSetTransformUserData(struct _cmstransform_struct *CMMcargo, void* ptr, _cmsFreeUserDataFn FreePrivateDataFn); +CMSAPI void * CMSEXPORT _cmsGetTransformUserData(struct _cmstransform_struct *CMMcargo); + + +// Retrieve formatters +CMSAPI void CMSEXPORT _cmsGetTransformFormatters16 (struct _cmstransform_struct *CMMcargo, cmsFormatter16* FromInput, cmsFormatter16* ToOutput); +CMSAPI void CMSEXPORT _cmsGetTransformFormattersFloat(struct _cmstransform_struct *CMMcargo, cmsFormatterFloat* FromInput, cmsFormatterFloat* ToOutput); + +typedef struct { + cmsPluginBase base; + + // Transform entry point + union { + _cmsTransformFactory legacy_xform; + _cmsTransform2Factory xform; + } factories; + +} cmsPluginTransform; + +//---------------------------------------------------------------------------------------------------------- +// Mutex + +typedef void* (* _cmsCreateMutexFnPtrType)(cmsContext ContextID); +typedef void (* _cmsDestroyMutexFnPtrType)(cmsContext ContextID, void* mtx); +typedef cmsBool (* _cmsLockMutexFnPtrType)(cmsContext ContextID, void* mtx); +typedef void (* _cmsUnlockMutexFnPtrType)(cmsContext ContextID, void* mtx); + +typedef struct { + cmsPluginBase base; + + _cmsCreateMutexFnPtrType CreateMutexPtr; + _cmsDestroyMutexFnPtrType DestroyMutexPtr; + _cmsLockMutexFnPtrType LockMutexPtr; + _cmsUnlockMutexFnPtrType UnlockMutexPtr; + +} cmsPluginMutex; + +CMSAPI void* CMSEXPORT _cmsCreateMutex(cmsContext ContextID); +CMSAPI void CMSEXPORT _cmsDestroyMutex(cmsContext ContextID, void* mtx); +CMSAPI cmsBool CMSEXPORT _cmsLockMutex(cmsContext ContextID, void* mtx); +CMSAPI void CMSEXPORT _cmsUnlockMutex(cmsContext ContextID, void* mtx); + + +#ifndef CMS_USE_CPP_API +# ifdef __cplusplus + } +# endif +#endif + +#define _lcms_plugin_H +#endif Index: sdk/lib/3rdparty/CMakeLists.txt =================================================================== --- sdk/lib/3rdparty/CMakeLists.txt (revision 75929) +++ sdk/lib/3rdparty/CMakeLists.txt (working copy) @@ -4,6 +4,7 @@ add_subdirectory(cardlib) add_subdirectory(freetype) add_subdirectory(fullfat) +add_subdirectory(lcms2) add_subdirectory(libmpg123) add_subdirectory(libsamplerate) add_subdirectory(libwine) Index: sdk/lib/3rdparty/lcms2/CMakeLists.txt =================================================================== --- sdk/lib/3rdparty/lcms2/CMakeLists.txt (nonexistent) +++ sdk/lib/3rdparty/lcms2/CMakeLists.txt (working copy) @@ -0,0 +1,39 @@ + +add_definitions(-DCMS_NO_PTHREADS) +include_directories(${REACTOS_SOURCE_DIR}/sdk/include/reactos/libs/lcms2) + +list(APPEND SOURCE + cmsalpha.c + cmscam02.c + cmscgats.c + cmscnvrt.c + cmserr.c + cmsgamma.c + cmsgmt.c + cmshalf.c + cmsintrp.c + cmsio0.c + cmsio1.c + cmslut.c + cmsmd5.c + cmsmtrx.c + cmsnamed.c + cmsopt.c + cmspack.c + cmspcs.c + cmsplugin.c + cmsps2.c + cmssamp.c + cmssm.c + cmstypes.c + cmsvirt.c + cmswtpnt.c + cmsxform.c) + +add_library(lcms2 ${SOURCE}) +add_dependencies(lcms2 psdk) + +if((NOT MSVC) AND (NOT CMAKE_C_COMPILER_ID STREQUAL "Clang")) + add_target_compile_flags(lcms2 "-Wno-unused-but-set-variable") +endif() + Index: sdk/lib/3rdparty/lcms2/Makefile.am =================================================================== --- sdk/lib/3rdparty/lcms2/Makefile.am (nonexistent) +++ sdk/lib/3rdparty/lcms2/Makefile.am (working copy) @@ -0,0 +1,31 @@ +# +# Makefile for building lcms 2 library +# + +# Don't require all the GNU mandated files +AUTOMAKE_OPTIONS = 1.7 foreign + +# CFLAGS = -pedantic -Wall -std=c99 -O3 + +includedir = ${prefix}/include + +# Shared libraries built in this directory +lib_LTLIBRARIES = liblcms2.la + +LIBRARY_CURRENT = @LIBRARY_CURRENT@ +LIBRARY_REVISION = @LIBRARY_REVISION@ +LIBRARY_AGE = @LIBRARY_AGE@ + +AM_CPPFLAGS = -I$(top_builddir)/include -I$(top_srcdir)/include + +liblcms2_la_LDFLAGS = -no-undefined \ + -version-info $(LIBRARY_CURRENT):$(LIBRARY_REVISION):$(LIBRARY_AGE) + +liblcms2_la_LIBADD = $(LCMS_LIB_DEPLIBS) + +liblcms2_la_SOURCES = \ + cmscnvrt.c cmserr.c cmsgamma.c cmsgmt.c cmsintrp.c cmsio0.c cmsio1.c cmslut.c \ + cmsplugin.c cmssm.c cmsmd5.c cmsmtrx.c cmspack.c cmspcs.c cmswtpnt.c cmsxform.c \ + cmssamp.c cmsnamed.c cmscam02.c cmsvirt.c cmstypes.c cmscgats.c cmsps2.c cmsopt.c \ + cmshalf.c cmsalpha.c lcms2_internal.h + Index: sdk/lib/3rdparty/lcms2/Makefile.in =================================================================== --- sdk/lib/3rdparty/lcms2/Makefile.in (nonexistent) +++ sdk/lib/3rdparty/lcms2/Makefile.in (working copy) @@ -0,0 +1,707 @@ +# Makefile.in generated by automake 1.14.1 from Makefile.am. +# @configure_input@ + +# Copyright (C) 1994-2013 Free Software Foundation, Inc. + +# This Makefile.in is free software; the Free Software Foundation +# gives unlimited permission to copy and/or distribute it, +# with or without modifications, as long as this notice is preserved. + +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY, to the extent permitted by law; without +# even the implied warranty of MERCHANTABILITY or FITNESS FOR A +# PARTICULAR PURPOSE. + +@SET_MAKE@ + +# +# Makefile for building lcms 2 library +# + +VPATH = @srcdir@ +am__is_gnu_make = test -n '$(MAKEFILE_LIST)' && test -n '$(MAKELEVEL)' +am__make_running_with_option = \ + case $${target_option-} in \ + ?) ;; \ + *) echo "am__make_running_with_option: internal error: invalid" \ + "target option '$${target_option-}' specified" >&2; \ + exit 1;; \ + esac; \ + has_opt=no; \ + sane_makeflags=$$MAKEFLAGS; \ + if $(am__is_gnu_make); then \ + sane_makeflags=$$MFLAGS; \ + else \ + case $$MAKEFLAGS in \ + *\\[\ \ ]*) \ + bs=\\; \ + sane_makeflags=`printf '%s\n' "$$MAKEFLAGS" \ + | sed "s/$$bs$$bs[$$bs $$bs ]*//g"`;; 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IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// Alpha copy ------------------------------------------------------------------------------------------------------------------ + +// Floor to byte, taking care of saturation +cmsINLINE cmsUInt8Number _cmsQuickSaturateByte(cmsFloat64Number d) +{ + d += 0.5; + if (d <= 0) return 0; + if (d >= 255.0) return 255; + + return (cmsUInt8Number) _cmsQuickFloorWord(d); +} + + +// Return the size in bytes of a given formatter +static +int trueBytesSize(cmsUInt32Number Format) +{ + int fmt_bytes = T_BYTES(Format); + + // For double, the T_BYTES field returns zero + if (fmt_bytes == 0) + return sizeof(double); + + // Otherwise, it is already correct for all formats + return fmt_bytes; +} + + +// Several format converters + +typedef void(*cmsFormatterAlphaFn)(void* dst, const void* src); + + +// From 8 + +static +void copy8(void* dst, const void* src) +{ + memmove(dst, src, 1); +} + +static +void from8to16(void* dst, const void* src) +{ + cmsUInt8Number n = *(cmsUInt8Number*)src; + *(cmsUInt16Number*) dst = FROM_8_TO_16(n); +} + +static +void from8toFLT(void* dst, const void* src) +{ + *(cmsFloat32Number*)dst = (*(cmsUInt8Number*)src) / 255.0f; +} + +static +void from8toDBL(void* dst, const void* src) +{ + *(cmsFloat64Number*)dst = (*(cmsUInt8Number*)src) / 255.0; +} + +static +void from8toHLF(void* dst, const void* src) +{ + cmsFloat32Number n = (*(cmsUInt8Number*)src) / 255.0f; + *(cmsUInt16Number*)dst = _cmsFloat2Half(n); +} + +// From 16 + +static +void from16to8(void* dst, const void* src) +{ + cmsUInt16Number n = *(cmsUInt16Number*)src; + *(cmsUInt8Number*) dst = FROM_16_TO_8(n); +} + +static +void copy16(void* dst, const void* src) +{ + memmove(dst, src, 2); +} + +void from16toFLT(void* dst, const void* src) +{ + *(cmsFloat32Number*)dst = (*(cmsUInt16Number*)src) / 65535.0f; +} + +void from16toDBL(void* dst, const void* src) +{ + *(cmsFloat64Number*)dst = (*(cmsUInt16Number*)src) / 65535.0f; +} + +static +void from16toHLF(void* dst, const void* src) +{ + cmsFloat32Number n = (*(cmsUInt16Number*)src) / 65535.0f; + *(cmsUInt16Number*)dst = _cmsFloat2Half(n); +} + +// From Float + +static +void fromFLTto8(void* dst, const void* src) +{ + cmsFloat32Number n = *(cmsFloat32Number*)src; + *(cmsUInt8Number*)dst = _cmsQuickSaturateByte(n * 255.0f); +} + +static +void fromFLTto16(void* dst, const void* src) +{ + cmsFloat32Number n = *(cmsFloat32Number*)src; + *(cmsUInt16Number*)dst = _cmsQuickSaturateWord(n * 65535.0f); +} + +static +void copy32(void* dst, const void* src) +{ + memmove(dst, src, sizeof(cmsFloat32Number)); +} + +static +void fromFLTtoDBL(void* dst, const void* src) +{ + cmsFloat32Number n = *(cmsFloat32Number*)src; + *(cmsFloat64Number*)dst = (cmsFloat64Number)n; +} + +static +void fromFLTtoHLF(void* dst, const void* src) +{ + cmsFloat32Number n = *(cmsFloat32Number*)src; + *(cmsUInt16Number*)dst = _cmsFloat2Half(n); +} + + +// From HALF + +static +void fromHLFto8(void* dst, const void* src) +{ + cmsFloat32Number n = _cmsHalf2Float(*(cmsUInt16Number*)src); + *(cmsUInt8Number*)dst = _cmsQuickSaturateByte(n * 255.0f); +} + +static +void fromHLFto16(void* dst, const void* src) +{ + cmsFloat32Number n = _cmsHalf2Float(*(cmsUInt16Number*)src); + *(cmsUInt16Number*)dst = _cmsQuickSaturateWord(n * 65535.0f); +} + +static +void fromHLFtoFLT(void* dst, const void* src) +{ + *(cmsFloat32Number*)dst = _cmsHalf2Float(*(cmsUInt16Number*)src); +} + +static +void fromHLFtoDBL(void* dst, const void* src) +{ + *(cmsFloat64Number*)dst = (cmsFloat64Number)_cmsHalf2Float(*(cmsUInt16Number*)src); +} + +// From double +static +void fromDBLto8(void* dst, const void* src) +{ + cmsFloat64Number n = *(cmsFloat64Number*)src; + *(cmsUInt8Number*)dst = _cmsQuickSaturateByte(n * 255.0); +} + +static +void fromDBLto16(void* dst, const void* src) +{ + cmsFloat64Number n = *(cmsFloat64Number*)src; + *(cmsUInt16Number*)dst = _cmsQuickSaturateWord(n * 65535.0f); +} + +static +void fromDBLtoFLT(void* dst, const void* src) +{ + cmsFloat64Number n = *(cmsFloat64Number*)src; + *(cmsFloat32Number*)dst = (cmsFloat32Number) n; +} + +static +void fromDBLtoHLF(void* dst, const void* src) +{ + cmsFloat32Number n = (cmsFloat32Number) *(cmsFloat64Number*)src; + *(cmsUInt16Number*)dst = _cmsFloat2Half(n); +} + +static +void copy64(void* dst, const void* src) +{ + memmove(dst, src, sizeof(cmsFloat64Number)); +} + + +// Returns the position (x or y) of the formatter in the table of functions +static +int FormatterPos(cmsUInt32Number frm) +{ + int b = T_BYTES(frm); + + if (b == 0 && T_FLOAT(frm)) + return 4; // DBL + if (b == 2 && T_FLOAT(frm)) + return 2; // HLF + if (b == 4 && T_FLOAT(frm)) + return 3; // FLT + if (b == 2 && !T_FLOAT(frm)) + return 1; // 16 + if (b == 1 && !T_FLOAT(frm)) + return 0; // 8 + + return -1; // not recognized + +} + +// Obtains a alpha-to-alpha funmction formatter +static +cmsFormatterAlphaFn _cmsGetFormatterAlpha(cmsContext id, cmsUInt32Number in, cmsUInt32Number out) +{ +static cmsFormatterAlphaFn FormattersAlpha[5][5] = { + + /* from 8 */ { copy8, from8to16, from8toHLF, from8toFLT, from8toDBL }, + /* from 16*/ { from16to8, copy16, from16toHLF, from16toFLT, from16toDBL }, + /* from HLF*/ { fromHLFto8, fromHLFto16, copy16, fromHLFtoFLT, fromHLFtoDBL }, + /* from FLT*/ { fromFLTto8, fromFLTto16, fromFLTtoHLF, copy32, fromFLTtoDBL }, + /* from DBL*/ { fromDBLto8, fromDBLto16, fromDBLtoHLF, fromDBLtoFLT, copy64 }}; + + int in_n = FormatterPos(in); + int out_n = FormatterPos(out); + + if (in_n < 0 || out_n < 0 || in_n > 4 || out_n > 4) { + + cmsSignalError(id, cmsERROR_UNKNOWN_EXTENSION, "Unrecognized alpha channel width"); + return NULL; + } + + return FormattersAlpha[in_n][out_n]; +} + + + +// This function computes the distance from each component to the next one in bytes. +static +void ComputeIncrementsForChunky(cmsUInt32Number Format, + cmsUInt32Number ComponentStartingOrder[], + cmsUInt32Number ComponentPointerIncrements[]) +{ + cmsUInt32Number channels[cmsMAXCHANNELS]; + int extra = T_EXTRA(Format); + int nchannels = T_CHANNELS(Format); + int total_chans = nchannels + extra; + int i; + int channelSize = trueBytesSize(Format); + int pixelSize = channelSize * total_chans; + + // Sanity check + if (total_chans <= 0 || total_chans >= cmsMAXCHANNELS) + return; + + memset(channels, 0, sizeof(channels)); + + // Separation is independent of starting point and only depends on channel size + for (i = 0; i < extra; i++) + ComponentPointerIncrements[i] = pixelSize; + + // Handle do swap + for (i = 0; i < total_chans; i++) + { + if (T_DOSWAP(Format)) { + channels[i] = total_chans - i - 1; + } + else { + channels[i] = i; + } + } + + // Handle swap first (ROL of positions), example CMYK -> KCMY | 0123 -> 3012 + if (T_SWAPFIRST(Format) && total_chans > 1) { + + cmsUInt32Number tmp = channels[0]; + for (i = 0; i < total_chans-1; i++) + channels[i] = channels[i + 1]; + + channels[total_chans - 1] = tmp; + } + + // Handle size + if (channelSize > 1) + for (i = 0; i < total_chans; i++) { + channels[i] *= channelSize; + } + + for (i = 0; i < extra; i++) + ComponentStartingOrder[i] = channels[i + nchannels]; +} + + + +// On planar configurations, the distance is the stride added to any non-negative +static +void ComputeIncrementsForPlanar(cmsUInt32Number Format, + cmsUInt32Number BytesPerPlane, + cmsUInt32Number ComponentStartingOrder[], + cmsUInt32Number ComponentPointerIncrements[]) +{ + cmsUInt32Number channels[cmsMAXCHANNELS]; + int extra = T_EXTRA(Format); + int nchannels = T_CHANNELS(Format); + int total_chans = nchannels + extra; + int i; + int channelSize = trueBytesSize(Format); + + // Sanity check + if (total_chans <= 0 || total_chans >= cmsMAXCHANNELS) + return; + + memset(channels, 0, sizeof(channels)); + + // Separation is independent of starting point and only depends on channel size + for (i = 0; i < extra; i++) + ComponentPointerIncrements[i] = channelSize; + + // Handle do swap + for (i = 0; i < total_chans; i++) + { + if (T_DOSWAP(Format)) { + channels[i] = total_chans - i - 1; + } + else { + channels[i] = i; + } + } + + // Handle swap first (ROL of positions), example CMYK -> KCMY | 0123 -> 3012 + if (T_SWAPFIRST(Format) && total_chans > 0) { + + cmsUInt32Number tmp = channels[0]; + for (i = 0; i < total_chans - 1; i++) + channels[i] = channels[i + 1]; + + channels[total_chans - 1] = tmp; + } + + // Handle size + for (i = 0; i < total_chans; i++) { + channels[i] *= BytesPerPlane; + } + + for (i = 0; i < extra; i++) + ComponentStartingOrder[i] = channels[i + nchannels]; +} + + + +// Dispatcher por chunky and planar RGB +static +void ComputeComponentIncrements(cmsUInt32Number Format, + cmsUInt32Number BytesPerPlane, + cmsUInt32Number ComponentStartingOrder[], + cmsUInt32Number ComponentPointerIncrements[]) +{ + if (T_PLANAR(Format)) { + + ComputeIncrementsForPlanar(Format, BytesPerPlane, ComponentStartingOrder, ComponentPointerIncrements); + } + else { + ComputeIncrementsForChunky(Format, ComponentStartingOrder, ComponentPointerIncrements); + } + +} + + + +// Handles extra channels copying alpha if requested by the flags +void _cmsHandleExtraChannels(_cmsTRANSFORM* p, const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + cmsUInt32Number i, j, k; + cmsUInt32Number nExtra; + cmsUInt32Number SourceStartingOrder[cmsMAXCHANNELS]; + cmsUInt32Number SourceIncrements[cmsMAXCHANNELS]; + cmsUInt32Number DestStartingOrder[cmsMAXCHANNELS]; + cmsUInt32Number DestIncrements[cmsMAXCHANNELS]; + + cmsFormatterAlphaFn copyValueFn; + + // Make sure we need some copy + if (!(p->dwOriginalFlags & cmsFLAGS_COPY_ALPHA)) + return; + + // Exit early if in-place color-management is occurring - no need to copy extra channels to themselves. + if (p->InputFormat == p->OutputFormat && in == out) + return; + + // Make sure we have same number of alpha channels. If not, just return as this should be checked at transform creation time. + nExtra = T_EXTRA(p->InputFormat); + if (nExtra != T_EXTRA(p->OutputFormat)) + return; + + // Anything to do? + if (nExtra == 0) + return; + + // Compute the increments + ComputeComponentIncrements(p->InputFormat, Stride->BytesPerPlaneIn, SourceStartingOrder, SourceIncrements); + ComputeComponentIncrements(p->OutputFormat, Stride->BytesPerPlaneOut, DestStartingOrder, DestIncrements); + + // Check for conversions 8, 16, half, float, dbl + copyValueFn = _cmsGetFormatterAlpha(p->ContextID, p->InputFormat, p->OutputFormat); + + if (nExtra == 1) { // Optimized routine for copying a single extra channel quickly + + cmsUInt8Number* SourcePtr; + cmsUInt8Number* DestPtr; + + cmsUInt32Number SourceStrideIncrement = 0; + cmsUInt32Number DestStrideIncrement = 0; + + // The loop itself + for (i = 0; i < LineCount; i++) { + + // Prepare pointers for the loop + SourcePtr = (cmsUInt8Number*)in + SourceStartingOrder[0] + SourceStrideIncrement; + DestPtr = (cmsUInt8Number*)out + DestStartingOrder[0] + DestStrideIncrement; + + for (j = 0; j < PixelsPerLine; j++) { + + copyValueFn(DestPtr, SourcePtr); + + SourcePtr += SourceIncrements[0]; + DestPtr += DestIncrements[0]; + } + + SourceStrideIncrement += Stride->BytesPerLineIn; + DestStrideIncrement += Stride->BytesPerLineOut; + } + + } + else { // General case with more than one extra channel + + cmsUInt8Number* SourcePtr[cmsMAXCHANNELS]; + cmsUInt8Number* DestPtr[cmsMAXCHANNELS]; + + cmsUInt32Number SourceStrideIncrements[cmsMAXCHANNELS]; + cmsUInt32Number DestStrideIncrements[cmsMAXCHANNELS]; + + memset(SourceStrideIncrements, 0, sizeof(SourceStrideIncrements)); + memset(DestStrideIncrements, 0, sizeof(DestStrideIncrements)); + + // The loop itself + for (i = 0; i < LineCount; i++) { + + // Prepare pointers for the loop + for (j = 0; j < nExtra; j++) { + + SourcePtr[j] = (cmsUInt8Number*)in + SourceStartingOrder[j] + SourceStrideIncrements[j]; + DestPtr[j] = (cmsUInt8Number*)out + DestStartingOrder[j] + DestStrideIncrements[j]; + } + + for (j = 0; j < PixelsPerLine; j++) { + + for (k = 0; k < nExtra; k++) { + + copyValueFn(DestPtr[k], SourcePtr[k]); + + SourcePtr[k] += SourceIncrements[k]; + DestPtr[k] += DestIncrements[k]; + } + } + + for (j = 0; j < nExtra; j++) { + + SourceStrideIncrements[j] += Stride->BytesPerLineIn; + DestStrideIncrements[j] += Stride->BytesPerLineOut; + } + } + } +} + + Index: sdk/lib/3rdparty/lcms2/cmscam02.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmscam02.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmscam02.c (working copy) @@ -0,0 +1,486 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// CIECAM 02 appearance model. Many thanks to Jordi Vilar for the debugging. + +// ---------- Implementation -------------------------------------------- + +typedef struct { + + cmsFloat64Number XYZ[3]; + cmsFloat64Number RGB[3]; + cmsFloat64Number RGBc[3]; + cmsFloat64Number RGBp[3]; + cmsFloat64Number RGBpa[3]; + cmsFloat64Number a, b, h, e, H, A, J, Q, s, t, C, M; + cmsFloat64Number abC[2]; + cmsFloat64Number abs[2]; + cmsFloat64Number abM[2]; + +} CAM02COLOR; + +typedef struct { + + CAM02COLOR adoptedWhite; + cmsFloat64Number LA, Yb; + cmsFloat64Number F, c, Nc; + cmsUInt32Number surround; + cmsFloat64Number n, Nbb, Ncb, z, FL, D; + + cmsContext ContextID; + +} cmsCIECAM02; + + +static +cmsFloat64Number compute_n(cmsCIECAM02* pMod) +{ + return (pMod -> Yb / pMod -> adoptedWhite.XYZ[1]); +} + +static +cmsFloat64Number compute_z(cmsCIECAM02* pMod) +{ + return (1.48 + pow(pMod -> n, 0.5)); +} + +static +cmsFloat64Number computeNbb(cmsCIECAM02* pMod) +{ + return (0.725 * pow((1.0 / pMod -> n), 0.2)); +} + +static +cmsFloat64Number computeFL(cmsCIECAM02* pMod) +{ + cmsFloat64Number k, FL; + + k = 1.0 / ((5.0 * pMod->LA) + 1.0); + FL = 0.2 * pow(k, 4.0) * (5.0 * pMod->LA) + 0.1 * + (pow((1.0 - pow(k, 4.0)), 2.0)) * + (pow((5.0 * pMod->LA), (1.0 / 3.0))); + + return FL; +} + +static +cmsFloat64Number computeD(cmsCIECAM02* pMod) +{ + cmsFloat64Number D; + + D = pMod->F - (1.0/3.6)*(exp(((-pMod ->LA-42) / 92.0))); + + return D; +} + + +static +CAM02COLOR XYZtoCAT02(CAM02COLOR clr) +{ + clr.RGB[0] = (clr.XYZ[0] * 0.7328) + (clr.XYZ[1] * 0.4296) + (clr.XYZ[2] * -0.1624); + clr.RGB[1] = (clr.XYZ[0] * -0.7036) + (clr.XYZ[1] * 1.6975) + (clr.XYZ[2] * 0.0061); + clr.RGB[2] = (clr.XYZ[0] * 0.0030) + (clr.XYZ[1] * 0.0136) + (clr.XYZ[2] * 0.9834); + + return clr; +} + +static +CAM02COLOR ChromaticAdaptation(CAM02COLOR clr, cmsCIECAM02* pMod) +{ + cmsUInt32Number i; + + for (i = 0; i < 3; i++) { + clr.RGBc[i] = ((pMod -> adoptedWhite.XYZ[1] * + (pMod->D / pMod -> adoptedWhite.RGB[i])) + + (1.0 - pMod->D)) * clr.RGB[i]; + } + + return clr; +} + + +static +CAM02COLOR CAT02toHPE(CAM02COLOR clr) +{ + cmsFloat64Number M[9]; + + M[0] =(( 0.38971 * 1.096124) + (0.68898 * 0.454369) + (-0.07868 * -0.009628)); + M[1] =(( 0.38971 * -0.278869) + (0.68898 * 0.473533) + (-0.07868 * -0.005698)); + M[2] =(( 0.38971 * 0.182745) + (0.68898 * 0.072098) + (-0.07868 * 1.015326)); + M[3] =((-0.22981 * 1.096124) + (1.18340 * 0.454369) + ( 0.04641 * -0.009628)); + M[4] =((-0.22981 * -0.278869) + (1.18340 * 0.473533) + ( 0.04641 * -0.005698)); + M[5] =((-0.22981 * 0.182745) + (1.18340 * 0.072098) + ( 0.04641 * 1.015326)); + M[6] =(-0.009628); + M[7] =(-0.005698); + M[8] =( 1.015326); + + clr.RGBp[0] = (clr.RGBc[0] * M[0]) + (clr.RGBc[1] * M[1]) + (clr.RGBc[2] * M[2]); + clr.RGBp[1] = (clr.RGBc[0] * M[3]) + (clr.RGBc[1] * M[4]) + (clr.RGBc[2] * M[5]); + clr.RGBp[2] = (clr.RGBc[0] * M[6]) + (clr.RGBc[1] * M[7]) + (clr.RGBc[2] * M[8]); + + return clr; +} + +static +CAM02COLOR NonlinearCompression(CAM02COLOR clr, cmsCIECAM02* pMod) +{ + cmsUInt32Number i; + cmsFloat64Number temp; + + for (i = 0; i < 3; i++) { + if (clr.RGBp[i] < 0) { + + temp = pow((-1.0 * pMod->FL * clr.RGBp[i] / 100.0), 0.42); + clr.RGBpa[i] = (-1.0 * 400.0 * temp) / (temp + 27.13) + 0.1; + } + else { + temp = pow((pMod->FL * clr.RGBp[i] / 100.0), 0.42); + clr.RGBpa[i] = (400.0 * temp) / (temp + 27.13) + 0.1; + } + } + + clr.A = (((2.0 * clr.RGBpa[0]) + clr.RGBpa[1] + + (clr.RGBpa[2] / 20.0)) - 0.305) * pMod->Nbb; + + return clr; +} + +static +CAM02COLOR ComputeCorrelates(CAM02COLOR clr, cmsCIECAM02* pMod) +{ + cmsFloat64Number a, b, temp, e, t, r2d, d2r; + + a = clr.RGBpa[0] - (12.0 * clr.RGBpa[1] / 11.0) + (clr.RGBpa[2] / 11.0); + b = (clr.RGBpa[0] + clr.RGBpa[1] - (2.0 * clr.RGBpa[2])) / 9.0; + + r2d = (180.0 / 3.141592654); + if (a == 0) { + if (b == 0) clr.h = 0; + else if (b > 0) clr.h = 90; + else clr.h = 270; + } + else if (a > 0) { + temp = b / a; + if (b > 0) clr.h = (r2d * atan(temp)); + else if (b == 0) clr.h = 0; + else clr.h = (r2d * atan(temp)) + 360; + } + else { + temp = b / a; + clr.h = (r2d * atan(temp)) + 180; + } + + d2r = (3.141592654 / 180.0); + e = ((12500.0 / 13.0) * pMod->Nc * pMod->Ncb) * + (cos((clr.h * d2r + 2.0)) + 3.8); + + if (clr.h < 20.14) { + temp = ((clr.h + 122.47)/1.2) + ((20.14 - clr.h)/0.8); + clr.H = 300 + (100*((clr.h + 122.47)/1.2)) / temp; + } + else if (clr.h < 90.0) { + temp = ((clr.h - 20.14)/0.8) + ((90.00 - clr.h)/0.7); + clr.H = (100*((clr.h - 20.14)/0.8)) / temp; + } + else if (clr.h < 164.25) { + temp = ((clr.h - 90.00)/0.7) + ((164.25 - clr.h)/1.0); + clr.H = 100 + ((100*((clr.h - 90.00)/0.7)) / temp); + } + else if (clr.h < 237.53) { + temp = ((clr.h - 164.25)/1.0) + ((237.53 - clr.h)/1.2); + clr.H = 200 + ((100*((clr.h - 164.25)/1.0)) / temp); + } + else { + temp = ((clr.h - 237.53)/1.2) + ((360 - clr.h + 20.14)/0.8); + clr.H = 300 + ((100*((clr.h - 237.53)/1.2)) / temp); + } + + clr.J = 100.0 * pow((clr.A / pMod->adoptedWhite.A), + (pMod->c * pMod->z)); + + clr.Q = (4.0 / pMod->c) * pow((clr.J / 100.0), 0.5) * + (pMod->adoptedWhite.A + 4.0) * pow(pMod->FL, 0.25); + + t = (e * pow(((a * a) + (b * b)), 0.5)) / + (clr.RGBpa[0] + clr.RGBpa[1] + + ((21.0 / 20.0) * clr.RGBpa[2])); + + clr.C = pow(t, 0.9) * pow((clr.J / 100.0), 0.5) * + pow((1.64 - pow(0.29, pMod->n)), 0.73); + + clr.M = clr.C * pow(pMod->FL, 0.25); + clr.s = 100.0 * pow((clr.M / clr.Q), 0.5); + + return clr; +} + + +static +CAM02COLOR InverseCorrelates(CAM02COLOR clr, cmsCIECAM02* pMod) +{ + + cmsFloat64Number t, e, p1, p2, p3, p4, p5, hr, d2r; + d2r = 3.141592654 / 180.0; + + t = pow( (clr.C / (pow((clr.J / 100.0), 0.5) * + (pow((1.64 - pow(0.29, pMod->n)), 0.73)))), + (1.0 / 0.9) ); + e = ((12500.0 / 13.0) * pMod->Nc * pMod->Ncb) * + (cos((clr.h * d2r + 2.0)) + 3.8); + + clr.A = pMod->adoptedWhite.A * pow( + (clr.J / 100.0), + (1.0 / (pMod->c * pMod->z))); + + p1 = e / t; + p2 = (clr.A / pMod->Nbb) + 0.305; + p3 = 21.0 / 20.0; + + hr = clr.h * d2r; + + if (fabs(sin(hr)) >= fabs(cos(hr))) { + p4 = p1 / sin(hr); + clr.b = (p2 * (2.0 + p3) * (460.0 / 1403.0)) / + (p4 + (2.0 + p3) * (220.0 / 1403.0) * + (cos(hr) / sin(hr)) - (27.0 / 1403.0) + + p3 * (6300.0 / 1403.0)); + clr.a = clr.b * (cos(hr) / sin(hr)); + } + else { + p5 = p1 / cos(hr); + clr.a = (p2 * (2.0 + p3) * (460.0 / 1403.0)) / + (p5 + (2.0 + p3) * (220.0 / 1403.0) - + ((27.0 / 1403.0) - p3 * (6300.0 / 1403.0)) * + (sin(hr) / cos(hr))); + clr.b = clr.a * (sin(hr) / cos(hr)); + } + + clr.RGBpa[0] = ((460.0 / 1403.0) * p2) + + ((451.0 / 1403.0) * clr.a) + + ((288.0 / 1403.0) * clr.b); + clr.RGBpa[1] = ((460.0 / 1403.0) * p2) - + ((891.0 / 1403.0) * clr.a) - + ((261.0 / 1403.0) * clr.b); + clr.RGBpa[2] = ((460.0 / 1403.0) * p2) - + ((220.0 / 1403.0) * clr.a) - + ((6300.0 / 1403.0) * clr.b); + + return clr; +} + +static +CAM02COLOR InverseNonlinearity(CAM02COLOR clr, cmsCIECAM02* pMod) +{ + cmsUInt32Number i; + cmsFloat64Number c1; + + for (i = 0; i < 3; i++) { + if ((clr.RGBpa[i] - 0.1) < 0) c1 = -1; + else c1 = 1; + clr.RGBp[i] = c1 * (100.0 / pMod->FL) * + pow(((27.13 * fabs(clr.RGBpa[i] - 0.1)) / + (400.0 - fabs(clr.RGBpa[i] - 0.1))), + (1.0 / 0.42)); + } + + return clr; +} + +static +CAM02COLOR HPEtoCAT02(CAM02COLOR clr) +{ + cmsFloat64Number M[9]; + + M[0] = (( 0.7328 * 1.910197) + (0.4296 * 0.370950)); + M[1] = (( 0.7328 * -1.112124) + (0.4296 * 0.629054)); + M[2] = (( 0.7328 * 0.201908) + (0.4296 * 0.000008) - 0.1624); + M[3] = ((-0.7036 * 1.910197) + (1.6975 * 0.370950)); + M[4] = ((-0.7036 * -1.112124) + (1.6975 * 0.629054)); + M[5] = ((-0.7036 * 0.201908) + (1.6975 * 0.000008) + 0.0061); + M[6] = (( 0.0030 * 1.910197) + (0.0136 * 0.370950)); + M[7] = (( 0.0030 * -1.112124) + (0.0136 * 0.629054)); + M[8] = (( 0.0030 * 0.201908) + (0.0136 * 0.000008) + 0.9834);; + + clr.RGBc[0] = (clr.RGBp[0] * M[0]) + (clr.RGBp[1] * M[1]) + (clr.RGBp[2] * M[2]); + clr.RGBc[1] = (clr.RGBp[0] * M[3]) + (clr.RGBp[1] * M[4]) + (clr.RGBp[2] * M[5]); + clr.RGBc[2] = (clr.RGBp[0] * M[6]) + (clr.RGBp[1] * M[7]) + (clr.RGBp[2] * M[8]); + return clr; +} + + +static +CAM02COLOR InverseChromaticAdaptation(CAM02COLOR clr, cmsCIECAM02* pMod) +{ + cmsUInt32Number i; + for (i = 0; i < 3; i++) { + clr.RGB[i] = clr.RGBc[i] / + ((pMod->adoptedWhite.XYZ[1] * pMod->D / pMod->adoptedWhite.RGB[i]) + 1.0 - pMod->D); + } + return clr; +} + + +static +CAM02COLOR CAT02toXYZ(CAM02COLOR clr) +{ + clr.XYZ[0] = (clr.RGB[0] * 1.096124) + (clr.RGB[1] * -0.278869) + (clr.RGB[2] * 0.182745); + clr.XYZ[1] = (clr.RGB[0] * 0.454369) + (clr.RGB[1] * 0.473533) + (clr.RGB[2] * 0.072098); + clr.XYZ[2] = (clr.RGB[0] * -0.009628) + (clr.RGB[1] * -0.005698) + (clr.RGB[2] * 1.015326); + + return clr; +} + + +cmsHANDLE CMSEXPORT cmsCIECAM02Init(cmsContext ContextID, const cmsViewingConditions* pVC) +{ + cmsCIECAM02* lpMod; + + _cmsAssert(pVC != NULL); + + if((lpMod = (cmsCIECAM02*) _cmsMallocZero(ContextID, sizeof(cmsCIECAM02))) == NULL) { + return NULL; + } + + lpMod ->ContextID = ContextID; + + lpMod ->adoptedWhite.XYZ[0] = pVC ->whitePoint.X; + lpMod ->adoptedWhite.XYZ[1] = pVC ->whitePoint.Y; + lpMod ->adoptedWhite.XYZ[2] = pVC ->whitePoint.Z; + + lpMod -> LA = pVC ->La; + lpMod -> Yb = pVC ->Yb; + lpMod -> D = pVC ->D_value; + lpMod -> surround = pVC ->surround; + + switch (lpMod -> surround) { + + + case CUTSHEET_SURROUND: + lpMod->F = 0.8; + lpMod->c = 0.41; + lpMod->Nc = 0.8; + break; + + case DARK_SURROUND: + lpMod -> F = 0.8; + lpMod -> c = 0.525; + lpMod -> Nc = 0.8; + break; + + case DIM_SURROUND: + lpMod -> F = 0.9; + lpMod -> c = 0.59; + lpMod -> Nc = 0.95; + break; + + default: + // Average surround + lpMod -> F = 1.0; + lpMod -> c = 0.69; + lpMod -> Nc = 1.0; + } + + lpMod -> n = compute_n(lpMod); + lpMod -> z = compute_z(lpMod); + lpMod -> Nbb = computeNbb(lpMod); + lpMod -> FL = computeFL(lpMod); + + if (lpMod -> D == D_CALCULATE) { + lpMod -> D = computeD(lpMod); + } + + lpMod -> Ncb = lpMod -> Nbb; + + lpMod -> adoptedWhite = XYZtoCAT02(lpMod -> adoptedWhite); + lpMod -> adoptedWhite = ChromaticAdaptation(lpMod -> adoptedWhite, lpMod); + lpMod -> adoptedWhite = CAT02toHPE(lpMod -> adoptedWhite); + lpMod -> adoptedWhite = NonlinearCompression(lpMod -> adoptedWhite, lpMod); + + return (cmsHANDLE) lpMod; + +} + +void CMSEXPORT cmsCIECAM02Done(cmsHANDLE hModel) +{ + cmsCIECAM02* lpMod = (cmsCIECAM02*) hModel; + + if (lpMod) _cmsFree(lpMod ->ContextID, lpMod); +} + + +void CMSEXPORT cmsCIECAM02Forward(cmsHANDLE hModel, const cmsCIEXYZ* pIn, cmsJCh* pOut) +{ + CAM02COLOR clr; + cmsCIECAM02* lpMod = (cmsCIECAM02*) hModel; + + _cmsAssert(lpMod != NULL); + _cmsAssert(pIn != NULL); + _cmsAssert(pOut != NULL); + + memset(&clr, 0, sizeof(clr)); + + clr.XYZ[0] = pIn ->X; + clr.XYZ[1] = pIn ->Y; + clr.XYZ[2] = pIn ->Z; + + clr = XYZtoCAT02(clr); + clr = ChromaticAdaptation(clr, lpMod); + clr = CAT02toHPE(clr); + clr = NonlinearCompression(clr, lpMod); + clr = ComputeCorrelates(clr, lpMod); + + pOut ->J = clr.J; + pOut ->C = clr.C; + pOut ->h = clr.h; +} + +void CMSEXPORT cmsCIECAM02Reverse(cmsHANDLE hModel, const cmsJCh* pIn, cmsCIEXYZ* pOut) +{ + CAM02COLOR clr; + cmsCIECAM02* lpMod = (cmsCIECAM02*) hModel; + + _cmsAssert(lpMod != NULL); + _cmsAssert(pIn != NULL); + _cmsAssert(pOut != NULL); + + memset(&clr, 0, sizeof(clr)); + + clr.J = pIn -> J; + clr.C = pIn -> C; + clr.h = pIn -> h; + + clr = InverseCorrelates(clr, lpMod); + clr = InverseNonlinearity(clr, lpMod); + clr = HPEtoCAT02(clr); + clr = InverseChromaticAdaptation(clr, lpMod); + clr = CAT02toXYZ(clr); + + pOut ->X = clr.XYZ[0]; + pOut ->Y = clr.XYZ[1]; + pOut ->Z = clr.XYZ[2]; +} Index: sdk/lib/3rdparty/lcms2/cmscgats.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmscgats.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmscgats.c (working copy) @@ -0,0 +1,2775 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// IT8.7 / CGATS.17-200x handling ----------------------------------------------------------------------------- + + +#define MAXID 128 // Max length of identifier +#define MAXSTR 1024 // Max length of string +#define MAXTABLES 255 // Max Number of tables in a single stream +#define MAXINCLUDE 20 // Max number of nested includes + +#define DEFAULT_DBL_FORMAT "%.10g" // Double formatting + +#ifdef CMS_IS_WINDOWS_ +# include +# define DIR_CHAR '\\' +#else +# define DIR_CHAR '/' +#endif + + +// Symbols +typedef enum { + + SUNDEFINED, + SINUM, // Integer + SDNUM, // Real + SIDENT, // Identifier + SSTRING, // string + SCOMMENT, // comment + SEOLN, // End of line + SEOF, // End of stream + SSYNERROR, // Syntax error found on stream + + // Keywords + + SBEGIN_DATA, + SBEGIN_DATA_FORMAT, + SEND_DATA, + SEND_DATA_FORMAT, + SKEYWORD, + SDATA_FORMAT_ID, + SINCLUDE + + } SYMBOL; + + +// How to write the value +typedef enum { + + WRITE_UNCOOKED, + WRITE_STRINGIFY, + WRITE_HEXADECIMAL, + WRITE_BINARY, + WRITE_PAIR + + } WRITEMODE; + +// Linked list of variable names +typedef struct _KeyVal { + + struct _KeyVal* Next; + char* Keyword; // Name of variable + struct _KeyVal* NextSubkey; // If key is a dictionary, points to the next item + char* Subkey; // If key is a dictionary, points to the subkey name + char* Value; // Points to value + WRITEMODE WriteAs; // How to write the value + + } KEYVALUE; + + +// Linked list of memory chunks (Memory sink) +typedef struct _OwnedMem { + + struct _OwnedMem* Next; + void * Ptr; // Point to value + + } OWNEDMEM; + +// Suballocator +typedef struct _SubAllocator { + + cmsUInt8Number* Block; + cmsUInt32Number BlockSize; + cmsUInt32Number Used; + + } SUBALLOCATOR; + +// Table. Each individual table can hold properties and rows & cols +typedef struct _Table { + + char SheetType[MAXSTR]; // The first row of the IT8 (the type) + + int nSamples, nPatches; // Cols, Rows + int SampleID; // Pos of ID + + KEYVALUE* HeaderList; // The properties + + char** DataFormat; // The binary stream descriptor + char** Data; // The binary stream + + } TABLE; + +// File stream being parsed +typedef struct _FileContext { + char FileName[cmsMAX_PATH]; // File name if being readed from file + FILE* Stream; // File stream or NULL if holded in memory + } FILECTX; + +// This struct hold all information about an open IT8 handler. +typedef struct { + + + cmsUInt32Number TablesCount; // How many tables in this stream + cmsUInt32Number nTable; // The actual table + + TABLE Tab[MAXTABLES]; + + // Memory management + OWNEDMEM* MemorySink; // The storage backend + SUBALLOCATOR Allocator; // String suballocator -- just to keep it fast + + // Parser state machine + SYMBOL sy; // Current symbol + int ch; // Current character + + int inum; // integer value + cmsFloat64Number dnum; // real value + char id[MAXID]; // identifier + char str[MAXSTR]; // string + + // Allowed keywords & datasets. They have visibility on whole stream + KEYVALUE* ValidKeywords; + KEYVALUE* ValidSampleID; + + char* Source; // Points to loc. being parsed + int lineno; // line counter for error reporting + + FILECTX* FileStack[MAXINCLUDE]; // Stack of files being parsed + int IncludeSP; // Include Stack Pointer + + char* MemoryBlock; // The stream if holded in memory + + char DoubleFormatter[MAXID];// Printf-like 'cmsFloat64Number' formatter + + cmsContext ContextID; // The threading context + + } cmsIT8; + + +// The stream for save operations +typedef struct { + + FILE* stream; // For save-to-file behaviour + + cmsUInt8Number* Base; + cmsUInt8Number* Ptr; // For save-to-mem behaviour + cmsUInt32Number Used; + cmsUInt32Number Max; + + } SAVESTREAM; + + +// ------------------------------------------------------ cmsIT8 parsing routines + + +// A keyword +typedef struct { + + const char *id; + SYMBOL sy; + + } KEYWORD; + +// The keyword->symbol translation table. Sorting is required. +static const KEYWORD TabKeys[] = { + + {"$INCLUDE", SINCLUDE}, // This is an extension! + {".INCLUDE", SINCLUDE}, // This is an extension! + + {"BEGIN_DATA", SBEGIN_DATA }, + {"BEGIN_DATA_FORMAT", SBEGIN_DATA_FORMAT }, + {"DATA_FORMAT_IDENTIFIER", SDATA_FORMAT_ID}, + {"END_DATA", SEND_DATA}, + {"END_DATA_FORMAT", SEND_DATA_FORMAT}, + {"KEYWORD", SKEYWORD} + }; + +#define NUMKEYS (sizeof(TabKeys)/sizeof(KEYWORD)) + +// Predefined properties + +// A property +typedef struct { + const char *id; // The identifier + WRITEMODE as; // How is supposed to be written + } PROPERTY; + +static PROPERTY PredefinedProperties[] = { + + {"NUMBER_OF_FIELDS", WRITE_UNCOOKED}, // Required - NUMBER OF FIELDS + {"NUMBER_OF_SETS", WRITE_UNCOOKED}, // Required - NUMBER OF SETS + {"ORIGINATOR", WRITE_STRINGIFY}, // Required - Identifies the specific system, organization or individual that created the data file. + {"FILE_DESCRIPTOR", WRITE_STRINGIFY}, // Required - Describes the purpose or contents of the data file. + {"CREATED", WRITE_STRINGIFY}, // Required - Indicates date of creation of the data file. + {"DESCRIPTOR", WRITE_STRINGIFY}, // Required - Describes the purpose or contents of the data file. + {"DIFFUSE_GEOMETRY", WRITE_STRINGIFY}, // The diffuse geometry used. Allowed values are "sphere" or "opal". + {"MANUFACTURER", WRITE_STRINGIFY}, + {"MANUFACTURE", WRITE_STRINGIFY}, // Some broken Fuji targets does store this value + {"PROD_DATE", WRITE_STRINGIFY}, // Identifies year and month of production of the target in the form yyyy:mm. + {"SERIAL", WRITE_STRINGIFY}, // Uniquely identifies individual physical target. + + {"MATERIAL", WRITE_STRINGIFY}, // Identifies the material on which the target was produced using a code + // uniquely identifying th e material. This is intend ed to be used for IT8.7 + // physical targets only (i.e . IT8.7/1 a nd IT8.7/2). + + {"INSTRUMENTATION", WRITE_STRINGIFY}, // Used to report the specific instrumentation used (manufacturer and + // model number) to generate the data reported. This data will often + // provide more information about the particular data collected than an + // extensive list of specific details. This is particularly important for + // spectral data or data derived from spectrophotometry. + + {"MEASUREMENT_SOURCE", WRITE_STRINGIFY}, // Illumination used for spectral measurements. This data helps provide + // a guide to the potential for issues of paper fluorescence, etc. + + {"PRINT_CONDITIONS", WRITE_STRINGIFY}, // Used to define the characteristics of the printed sheet being reported. + // Where standard conditions have been defined (e.g., SWOP at nominal) + // named conditions may suffice. Otherwise, detailed information is + // needed. + + {"SAMPLE_BACKING", WRITE_STRINGIFY}, // Identifies the backing material used behind the sample during + // measurement. Allowed values are “black”, “white”, or {"na". + + {"CHISQ_DOF", WRITE_STRINGIFY}, // Degrees of freedom associated with the Chi squared statistic + + // below properties are new in recent specs: + + {"MEASUREMENT_GEOMETRY", WRITE_STRINGIFY}, // The type of measurement, either reflection or transmission, should be indicated + // along with details of the geometry and the aperture size and shape. For example, + // for transmission measurements it is important to identify 0/diffuse, diffuse/0, + // opal or integrating sphere, etc. For reflection it is important to identify 0/45, + // 45/0, sphere (specular included or excluded), etc. + + {"FILTER", WRITE_STRINGIFY}, // Identifies the use of physical filter(s) during measurement. Typically used to + // denote the use of filters such as none, D65, Red, Green or Blue. + + {"POLARIZATION", WRITE_STRINGIFY}, // Identifies the use of a physical polarization filter during measurement. Allowed + // values are {"yes”, “white”, “none” or “na”. + + {"WEIGHTING_FUNCTION", WRITE_PAIR}, // Indicates such functions as: the CIE standard observer functions used in the + // calculation of various data parameters (2 degree and 10 degree), CIE standard + // illuminant functions used in the calculation of various data parameters (e.g., D50, + // D65, etc.), density status response, etc. If used there shall be at least one + // name-value pair following the WEIGHTING_FUNCTION tag/keyword. The first attribute + // in the set shall be {"name" and shall identify the particular parameter used. + // The second shall be {"value" and shall provide the value associated with that name. + // For ASCII data, a string containing the Name and Value attribute pairs shall follow + // the weighting function keyword. A semi-colon separates attribute pairs from each + // other and within the attribute the name and value are separated by a comma. + + {"COMPUTATIONAL_PARAMETER", WRITE_PAIR}, // Parameter that is used in computing a value from measured data. Name is the name + // of the calculation, parameter is the name of the parameter used in the calculation + // and value is the value of the parameter. + + {"TARGET_TYPE", WRITE_STRINGIFY}, // The type of target being measured, e.g. IT8.7/1, IT8.7/3, user defined, etc. + + {"COLORANT", WRITE_STRINGIFY}, // Identifies the colorant(s) used in creating the target. + + {"TABLE_DESCRIPTOR", WRITE_STRINGIFY}, // Describes the purpose or contents of a data table. + + {"TABLE_NAME", WRITE_STRINGIFY} // Provides a short name for a data table. +}; + +#define NUMPREDEFINEDPROPS (sizeof(PredefinedProperties)/sizeof(PROPERTY)) + + +// Predefined sample types on dataset +static const char* PredefinedSampleID[] = { + "SAMPLE_ID", // Identifies sample that data represents + "STRING", // Identifies label, or other non-machine readable value. + // Value must begin and end with a " symbol + + "CMYK_C", // Cyan component of CMYK data expressed as a percentage + "CMYK_M", // Magenta component of CMYK data expressed as a percentage + "CMYK_Y", // Yellow component of CMYK data expressed as a percentage + "CMYK_K", // Black component of CMYK data expressed as a percentage + "D_RED", // Red filter density + "D_GREEN", // Green filter density + "D_BLUE", // Blue filter density + "D_VIS", // Visual filter density + "D_MAJOR_FILTER", // Major filter d ensity + "RGB_R", // Red component of RGB data + "RGB_G", // Green component of RGB data + "RGB_B", // Blue com ponent of RGB data + "SPECTRAL_NM", // Wavelength of measurement expressed in nanometers + "SPECTRAL_PCT", // Percentage reflectance/transmittance + "SPECTRAL_DEC", // Reflectance/transmittance + "XYZ_X", // X component of tristimulus data + "XYZ_Y", // Y component of tristimulus data + "XYZ_Z", // Z component of tristimulus data + "XYY_X", // x component of chromaticity data + "XYY_Y", // y component of chromaticity data + "XYY_CAPY", // Y component of tristimulus data + "LAB_L", // L* component of Lab data + "LAB_A", // a* component of Lab data + "LAB_B", // b* component of Lab data + "LAB_C", // C*ab component of Lab data + "LAB_H", // hab component of Lab data + "LAB_DE", // CIE dE + "LAB_DE_94", // CIE dE using CIE 94 + "LAB_DE_CMC", // dE using CMC + "LAB_DE_2000", // CIE dE using CIE DE 2000 + "MEAN_DE", // Mean Delta E (LAB_DE) of samples compared to batch average + // (Used for data files for ANSI IT8.7/1 and IT8.7/2 targets) + "STDEV_X", // Standard deviation of X (tristimulus data) + "STDEV_Y", // Standard deviation of Y (tristimulus data) + "STDEV_Z", // Standard deviation of Z (tristimulus data) + "STDEV_L", // Standard deviation of L* + "STDEV_A", // Standard deviation of a* + "STDEV_B", // Standard deviation of b* + "STDEV_DE", // Standard deviation of CIE dE + "CHI_SQD_PAR"}; // The average of the standard deviations of L*, a* and b*. It is + // used to derive an estimate of the chi-squared parameter which is + // recommended as the predictor of the variability of dE + +#define NUMPREDEFINEDSAMPLEID (sizeof(PredefinedSampleID)/sizeof(char *)) + +//Forward declaration of some internal functions +static void* AllocChunk(cmsIT8* it8, cmsUInt32Number size); + +// Checks whatever c is a separator +static +cmsBool isseparator(int c) +{ + return (c == ' ') || (c == '\t') ; +} + +// Checks whatever c is a valid identifier char +static +cmsBool ismiddle(int c) +{ + return (!isseparator(c) && (c != '#') && (c !='\"') && (c != '\'') && (c > 32) && (c < 127)); +} + +// Checks whatsever c is a valid identifier middle char. +static +cmsBool isidchar(int c) +{ + return isalnum(c) || ismiddle(c); +} + +// Checks whatsever c is a valid identifier first char. +static +cmsBool isfirstidchar(int c) +{ + return !isdigit(c) && ismiddle(c); +} + +// Guess whether the supplied path looks like an absolute path +static +cmsBool isabsolutepath(const char *path) +{ + char ThreeChars[4]; + + if(path == NULL) + return FALSE; + if (path[0] == 0) + return FALSE; + + strncpy(ThreeChars, path, 3); + ThreeChars[3] = 0; + + if(ThreeChars[0] == DIR_CHAR) + return TRUE; + +#ifdef CMS_IS_WINDOWS_ + if (isalpha((int) ThreeChars[0]) && ThreeChars[1] == ':') + return TRUE; +#endif + return FALSE; +} + + +// Makes a file path based on a given reference path +// NOTE: this function doesn't check if the path exists or even if it's legal +static +cmsBool BuildAbsolutePath(const char *relPath, const char *basePath, char *buffer, cmsUInt32Number MaxLen) +{ + char *tail; + cmsUInt32Number len; + + // Already absolute? + if (isabsolutepath(relPath)) { + + strncpy(buffer, relPath, MaxLen); + buffer[MaxLen-1] = 0; + return TRUE; + } + + // No, search for last + strncpy(buffer, basePath, MaxLen); + buffer[MaxLen-1] = 0; + + tail = strrchr(buffer, DIR_CHAR); + if (tail == NULL) return FALSE; // Is not absolute and has no separators?? + + len = (cmsUInt32Number) (tail - buffer); + if (len >= MaxLen) return FALSE; + + // No need to assure zero terminator over here + strncpy(tail + 1, relPath, MaxLen - len); + + return TRUE; +} + + +// Make sure no exploit is being even tried +static +const char* NoMeta(const char* str) +{ + if (strchr(str, '%') != NULL) + return "**** CORRUPTED FORMAT STRING ***"; + + return str; +} + +// Syntax error +static +cmsBool SynError(cmsIT8* it8, const char *Txt, ...) +{ + char Buffer[256], ErrMsg[1024]; + va_list args; + + va_start(args, Txt); + vsnprintf(Buffer, 255, Txt, args); + Buffer[255] = 0; + va_end(args); + + snprintf(ErrMsg, 1023, "%s: Line %d, %s", it8->FileStack[it8 ->IncludeSP]->FileName, it8->lineno, Buffer); + ErrMsg[1023] = 0; + it8->sy = SSYNERROR; + cmsSignalError(it8 ->ContextID, cmsERROR_CORRUPTION_DETECTED, "%s", ErrMsg); + return FALSE; +} + +// Check if current symbol is same as specified. issue an error else. +static +cmsBool Check(cmsIT8* it8, SYMBOL sy, const char* Err) +{ + if (it8 -> sy != sy) + return SynError(it8, NoMeta(Err)); + return TRUE; +} + +// Read Next character from stream +static +void NextCh(cmsIT8* it8) +{ + if (it8 -> FileStack[it8 ->IncludeSP]->Stream) { + + it8 ->ch = fgetc(it8 ->FileStack[it8 ->IncludeSP]->Stream); + + if (feof(it8 -> FileStack[it8 ->IncludeSP]->Stream)) { + + if (it8 ->IncludeSP > 0) { + + fclose(it8 ->FileStack[it8->IncludeSP--]->Stream); + it8 -> ch = ' '; // Whitespace to be ignored + + } else + it8 ->ch = 0; // EOF + } + } + else { + it8->ch = *it8->Source; + if (it8->ch) it8->Source++; + } +} + + +// Try to see if current identifier is a keyword, if so return the referred symbol +static +SYMBOL BinSrchKey(const char *id) +{ + int l = 1; + int r = NUMKEYS; + int x, res; + + while (r >= l) + { + x = (l+r)/2; + res = cmsstrcasecmp(id, TabKeys[x-1].id); + if (res == 0) return TabKeys[x-1].sy; + if (res < 0) r = x - 1; + else l = x + 1; + } + + return SUNDEFINED; +} + + +// 10 ^n +static +cmsFloat64Number xpow10(int n) +{ + return pow(10, (cmsFloat64Number) n); +} + + +// Reads a Real number, tries to follow from integer number +static +void ReadReal(cmsIT8* it8, int inum) +{ + it8->dnum = (cmsFloat64Number) inum; + + while (isdigit(it8->ch)) { + + it8->dnum = it8->dnum * 10.0 + (it8->ch - '0'); + NextCh(it8); + } + + if (it8->ch == '.') { // Decimal point + + cmsFloat64Number frac = 0.0; // fraction + int prec = 0; // precision + + NextCh(it8); // Eats dec. point + + while (isdigit(it8->ch)) { + + frac = frac * 10.0 + (it8->ch - '0'); + prec++; + NextCh(it8); + } + + it8->dnum = it8->dnum + (frac / xpow10(prec)); + } + + // Exponent, example 34.00E+20 + if (toupper(it8->ch) == 'E') { + + int e; + int sgn; + + NextCh(it8); sgn = 1; + + if (it8->ch == '-') { + + sgn = -1; NextCh(it8); + } + else + if (it8->ch == '+') { + + sgn = +1; + NextCh(it8); + } + + e = 0; + while (isdigit(it8->ch)) { + + if ((cmsFloat64Number) e * 10L < INT_MAX) + e = e * 10 + (it8->ch - '0'); + + NextCh(it8); + } + + e = sgn*e; + it8 -> dnum = it8 -> dnum * xpow10(e); + } +} + +// Parses a float number +// This can not call directly atof because it uses locale dependent +// parsing, while CCMX files always use . as decimal separator +static +cmsFloat64Number ParseFloatNumber(const char *Buffer) +{ + cmsFloat64Number dnum = 0.0; + int sign = 1; + + // keep safe + if (Buffer == NULL) return 0.0; + + if (*Buffer == '-' || *Buffer == '+') { + + sign = (*Buffer == '-') ? -1 : 1; + Buffer++; + } + + + while (*Buffer && isdigit((int) *Buffer)) { + + dnum = dnum * 10.0 + (*Buffer - '0'); + if (*Buffer) Buffer++; + } + + if (*Buffer == '.') { + + cmsFloat64Number frac = 0.0; // fraction + int prec = 0; // precission + + if (*Buffer) Buffer++; + + while (*Buffer && isdigit((int) *Buffer)) { + + frac = frac * 10.0 + (*Buffer - '0'); + prec++; + if (*Buffer) Buffer++; + } + + dnum = dnum + (frac / xpow10(prec)); + } + + // Exponent, example 34.00E+20 + if (*Buffer && toupper(*Buffer) == 'E') { + + int e; + int sgn; + + if (*Buffer) Buffer++; + sgn = 1; + + if (*Buffer == '-') { + + sgn = -1; + if (*Buffer) Buffer++; + } + else + if (*Buffer == '+') { + + sgn = +1; + if (*Buffer) Buffer++; + } + + e = 0; + while (*Buffer && isdigit((int) *Buffer)) { + + if ((cmsFloat64Number) e * 10L < INT_MAX) + e = e * 10 + (*Buffer - '0'); + + if (*Buffer) Buffer++; + } + + e = sgn*e; + dnum = dnum * xpow10(e); + } + + return sign * dnum; +} + + +// Reads next symbol +static +void InSymbol(cmsIT8* it8) +{ + register char *idptr; + register int k; + SYMBOL key; + int sng; + + do { + + while (isseparator(it8->ch)) + NextCh(it8); + + if (isfirstidchar(it8->ch)) { // Identifier + + k = 0; + idptr = it8->id; + + do { + + if (++k < MAXID) *idptr++ = (char) it8->ch; + + NextCh(it8); + + } while (isidchar(it8->ch)); + + *idptr = '\0'; + + + key = BinSrchKey(it8->id); + if (key == SUNDEFINED) it8->sy = SIDENT; + else it8->sy = key; + + } + else // Is a number? + if (isdigit(it8->ch) || it8->ch == '.' || it8->ch == '-' || it8->ch == '+') + { + int sign = 1; + + if (it8->ch == '-') { + sign = -1; + NextCh(it8); + } + + it8->inum = 0; + it8->sy = SINUM; + + if (it8->ch == '0') { // 0xnnnn (Hexa) or 0bnnnn (Binary) + + NextCh(it8); + if (toupper(it8->ch) == 'X') { + + int j; + + NextCh(it8); + while (isxdigit(it8->ch)) + { + it8->ch = toupper(it8->ch); + if (it8->ch >= 'A' && it8->ch <= 'F') j = it8->ch -'A'+10; + else j = it8->ch - '0'; + + if ((long) it8->inum * 16L > (long) INT_MAX) + { + SynError(it8, "Invalid hexadecimal number"); + return; + } + + it8->inum = it8->inum * 16 + j; + NextCh(it8); + } + return; + } + + if (toupper(it8->ch) == 'B') { // Binary + + int j; + + NextCh(it8); + while (it8->ch == '0' || it8->ch == '1') + { + j = it8->ch - '0'; + + if ((long) it8->inum * 2L > (long) INT_MAX) + { + SynError(it8, "Invalid binary number"); + return; + } + + it8->inum = it8->inum * 2 + j; + NextCh(it8); + } + return; + } + } + + + while (isdigit(it8->ch)) { + + if ((long) it8->inum * 10L > (long) INT_MAX) { + ReadReal(it8, it8->inum); + it8->sy = SDNUM; + it8->dnum *= sign; + return; + } + + it8->inum = it8->inum * 10 + (it8->ch - '0'); + NextCh(it8); + } + + if (it8->ch == '.') { + + ReadReal(it8, it8->inum); + it8->sy = SDNUM; + it8->dnum *= sign; + return; + } + + it8 -> inum *= sign; + + // Special case. Numbers followed by letters are taken as identifiers + + if (isidchar(it8 ->ch)) { + + if (it8 ->sy == SINUM) { + + snprintf(it8->id, 127, "%d", it8->inum); + } + else { + + snprintf(it8->id, 127, it8 ->DoubleFormatter, it8->dnum); + } + + k = (int) strlen(it8 ->id); + idptr = it8 ->id + k; + do { + + if (++k < MAXID) *idptr++ = (char) it8->ch; + + NextCh(it8); + + } while (isidchar(it8->ch)); + + *idptr = '\0'; + it8->sy = SIDENT; + } + return; + + } + else + switch ((int) it8->ch) { + + // EOF marker -- ignore it + case '\x1a': + NextCh(it8); + break; + + // Eof stream markers + case 0: + case -1: + it8->sy = SEOF; + break; + + + // Next line + case '\r': + NextCh(it8); + if (it8 ->ch == '\n') + NextCh(it8); + it8->sy = SEOLN; + it8->lineno++; + break; + + case '\n': + NextCh(it8); + it8->sy = SEOLN; + it8->lineno++; + break; + + // Comment + case '#': + NextCh(it8); + while (it8->ch && it8->ch != '\n' && it8->ch != '\r') + NextCh(it8); + + it8->sy = SCOMMENT; + break; + + // String. + case '\'': + case '\"': + idptr = it8->str; + sng = it8->ch; + k = 0; + NextCh(it8); + + while (k < MAXSTR && it8->ch != sng) { + + if (it8->ch == '\n'|| it8->ch == '\r') k = MAXSTR+1; + else { + *idptr++ = (char) it8->ch; + NextCh(it8); + k++; + } + } + + it8->sy = SSTRING; + *idptr = '\0'; + NextCh(it8); + break; + + + default: + SynError(it8, "Unrecognized character: 0x%x", it8 ->ch); + return; + } + + } while (it8->sy == SCOMMENT); + + // Handle the include special token + + if (it8 -> sy == SINCLUDE) { + + FILECTX* FileNest; + + if(it8 -> IncludeSP >= (MAXINCLUDE-1)) { + + SynError(it8, "Too many recursion levels"); + return; + } + + InSymbol(it8); + if (!Check(it8, SSTRING, "Filename expected")) return; + + FileNest = it8 -> FileStack[it8 -> IncludeSP + 1]; + if(FileNest == NULL) { + + FileNest = it8 ->FileStack[it8 -> IncludeSP + 1] = (FILECTX*)AllocChunk(it8, sizeof(FILECTX)); + //if(FileNest == NULL) + // TODO: how to manage out-of-memory conditions? + } + + if (BuildAbsolutePath(it8->str, + it8->FileStack[it8->IncludeSP]->FileName, + FileNest->FileName, cmsMAX_PATH-1) == FALSE) { + SynError(it8, "File path too long"); + return; + } + + FileNest->Stream = fopen(FileNest->FileName, "rt"); + if (FileNest->Stream == NULL) { + + SynError(it8, "File %s not found", FileNest->FileName); + return; + } + it8->IncludeSP++; + + it8 ->ch = ' '; + InSymbol(it8); + } + +} + +// Checks end of line separator +static +cmsBool CheckEOLN(cmsIT8* it8) +{ + if (!Check(it8, SEOLN, "Expected separator")) return FALSE; + while (it8 -> sy == SEOLN) + InSymbol(it8); + return TRUE; + +} + +// Skip a symbol + +static +void Skip(cmsIT8* it8, SYMBOL sy) +{ + if (it8->sy == sy && it8->sy != SEOF) + InSymbol(it8); +} + + +// Skip multiple EOLN +static +void SkipEOLN(cmsIT8* it8) +{ + while (it8->sy == SEOLN) { + InSymbol(it8); + } +} + + +// Returns a string holding current value +static +cmsBool GetVal(cmsIT8* it8, char* Buffer, cmsUInt32Number max, const char* ErrorTitle) +{ + switch (it8->sy) { + + case SEOLN: // Empty value + Buffer[0]=0; + break; + case SIDENT: strncpy(Buffer, it8->id, max); + Buffer[max-1]=0; + break; + case SINUM: snprintf(Buffer, max, "%d", it8 -> inum); break; + case SDNUM: snprintf(Buffer, max, it8->DoubleFormatter, it8 -> dnum); break; + case SSTRING: strncpy(Buffer, it8->str, max); + Buffer[max-1] = 0; + break; + + + default: + return SynError(it8, "%s", ErrorTitle); + } + + Buffer[max] = 0; + return TRUE; +} + +// ---------------------------------------------------------- Table + +static +TABLE* GetTable(cmsIT8* it8) +{ + if ((it8 -> nTable >= it8 ->TablesCount)) { + + SynError(it8, "Table %d out of sequence", it8 -> nTable); + return it8 -> Tab; + } + + return it8 ->Tab + it8 ->nTable; +} + +// ---------------------------------------------------------- Memory management + + +// Frees an allocator and owned memory +void CMSEXPORT cmsIT8Free(cmsHANDLE hIT8) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + if (it8 == NULL) + return; + + if (it8->MemorySink) { + + OWNEDMEM* p; + OWNEDMEM* n; + + for (p = it8->MemorySink; p != NULL; p = n) { + + n = p->Next; + if (p->Ptr) _cmsFree(it8 ->ContextID, p->Ptr); + _cmsFree(it8 ->ContextID, p); + } + } + + if (it8->MemoryBlock) + _cmsFree(it8 ->ContextID, it8->MemoryBlock); + + _cmsFree(it8 ->ContextID, it8); +} + + +// Allocates a chunk of data, keep linked list +static +void* AllocBigBlock(cmsIT8* it8, cmsUInt32Number size) +{ + OWNEDMEM* ptr1; + void* ptr = _cmsMallocZero(it8->ContextID, size); + + if (ptr != NULL) { + + ptr1 = (OWNEDMEM*) _cmsMallocZero(it8 ->ContextID, sizeof(OWNEDMEM)); + + if (ptr1 == NULL) { + + _cmsFree(it8 ->ContextID, ptr); + return NULL; + } + + ptr1-> Ptr = ptr; + ptr1-> Next = it8 -> MemorySink; + it8 -> MemorySink = ptr1; + } + + return ptr; +} + + +// Suballocator. +static +void* AllocChunk(cmsIT8* it8, cmsUInt32Number size) +{ + cmsUInt32Number Free = it8 ->Allocator.BlockSize - it8 ->Allocator.Used; + cmsUInt8Number* ptr; + + size = _cmsALIGNMEM(size); + + if (size > Free) { + + if (it8 -> Allocator.BlockSize == 0) + + it8 -> Allocator.BlockSize = 20*1024; + else + it8 ->Allocator.BlockSize *= 2; + + if (it8 ->Allocator.BlockSize < size) + it8 ->Allocator.BlockSize = size; + + it8 ->Allocator.Used = 0; + it8 ->Allocator.Block = (cmsUInt8Number*) AllocBigBlock(it8, it8 ->Allocator.BlockSize); + } + + ptr = it8 ->Allocator.Block + it8 ->Allocator.Used; + it8 ->Allocator.Used += size; + + return (void*) ptr; + +} + + +// Allocates a string +static +char *AllocString(cmsIT8* it8, const char* str) +{ + cmsUInt32Number Size = (cmsUInt32Number) strlen(str)+1; + char *ptr; + + + ptr = (char *) AllocChunk(it8, Size); + if (ptr) strncpy (ptr, str, Size-1); + + return ptr; +} + +// Searches through linked list + +static +cmsBool IsAvailableOnList(KEYVALUE* p, const char* Key, const char* Subkey, KEYVALUE** LastPtr) +{ + if (LastPtr) *LastPtr = p; + + for (; p != NULL; p = p->Next) { + + if (LastPtr) *LastPtr = p; + + if (*Key != '#') { // Comments are ignored + + if (cmsstrcasecmp(Key, p->Keyword) == 0) + break; + } + } + + if (p == NULL) + return FALSE; + + if (Subkey == 0) + return TRUE; + + for (; p != NULL; p = p->NextSubkey) { + + if (p ->Subkey == NULL) continue; + + if (LastPtr) *LastPtr = p; + + if (cmsstrcasecmp(Subkey, p->Subkey) == 0) + return TRUE; + } + + return FALSE; +} + + + +// Add a property into a linked list +static +KEYVALUE* AddToList(cmsIT8* it8, KEYVALUE** Head, const char *Key, const char *Subkey, const char* xValue, WRITEMODE WriteAs) +{ + KEYVALUE* p; + KEYVALUE* last; + + + // Check if property is already in list + + if (IsAvailableOnList(*Head, Key, Subkey, &p)) { + + // This may work for editing properties + + // return SynError(it8, "duplicate key <%s>", Key); + } + else { + + last = p; + + // Allocate the container + p = (KEYVALUE*) AllocChunk(it8, sizeof(KEYVALUE)); + if (p == NULL) + { + SynError(it8, "AddToList: out of memory"); + return NULL; + } + + // Store name and value + p->Keyword = AllocString(it8, Key); + p->Subkey = (Subkey == NULL) ? NULL : AllocString(it8, Subkey); + + // Keep the container in our list + if (*Head == NULL) { + *Head = p; + } + else + { + if (Subkey != NULL && last != NULL) { + + last->NextSubkey = p; + + // If Subkey is not null, then last is the last property with the same key, + // but not necessarily is the last property in the list, so we need to move + // to the actual list end + while (last->Next != NULL) + last = last->Next; + } + + if (last != NULL) last->Next = p; + } + + p->Next = NULL; + p->NextSubkey = NULL; + } + + p->WriteAs = WriteAs; + + if (xValue != NULL) { + + p->Value = AllocString(it8, xValue); + } + else { + p->Value = NULL; + } + + return p; +} + +static +KEYVALUE* AddAvailableProperty(cmsIT8* it8, const char* Key, WRITEMODE as) +{ + return AddToList(it8, &it8->ValidKeywords, Key, NULL, NULL, as); +} + + +static +KEYVALUE* AddAvailableSampleID(cmsIT8* it8, const char* Key) +{ + return AddToList(it8, &it8->ValidSampleID, Key, NULL, NULL, WRITE_UNCOOKED); +} + + +static +void AllocTable(cmsIT8* it8) +{ + TABLE* t; + + t = it8 ->Tab + it8 ->TablesCount; + + t->HeaderList = NULL; + t->DataFormat = NULL; + t->Data = NULL; + + it8 ->TablesCount++; +} + + +cmsInt32Number CMSEXPORT cmsIT8SetTable(cmsHANDLE IT8, cmsUInt32Number nTable) +{ + cmsIT8* it8 = (cmsIT8*) IT8; + + if (nTable >= it8 ->TablesCount) { + + if (nTable == it8 ->TablesCount) { + + AllocTable(it8); + } + else { + SynError(it8, "Table %d is out of sequence", nTable); + return -1; + } + } + + it8 ->nTable = nTable; + + return (cmsInt32Number) nTable; +} + + + +// Init an empty container +cmsHANDLE CMSEXPORT cmsIT8Alloc(cmsContext ContextID) +{ + cmsIT8* it8; + cmsUInt32Number i; + + it8 = (cmsIT8*) _cmsMallocZero(ContextID, sizeof(cmsIT8)); + if (it8 == NULL) return NULL; + + AllocTable(it8); + + it8->MemoryBlock = NULL; + it8->MemorySink = NULL; + + it8 ->nTable = 0; + + it8->ContextID = ContextID; + it8->Allocator.Used = 0; + it8->Allocator.Block = NULL; + it8->Allocator.BlockSize = 0; + + it8->ValidKeywords = NULL; + it8->ValidSampleID = NULL; + + it8 -> sy = SUNDEFINED; + it8 -> ch = ' '; + it8 -> Source = NULL; + it8 -> inum = 0; + it8 -> dnum = 0.0; + + it8->FileStack[0] = (FILECTX*)AllocChunk(it8, sizeof(FILECTX)); + it8->IncludeSP = 0; + it8 -> lineno = 1; + + strcpy(it8->DoubleFormatter, DEFAULT_DBL_FORMAT); + cmsIT8SetSheetType((cmsHANDLE) it8, "CGATS.17"); + + // Initialize predefined properties & data + + for (i=0; i < NUMPREDEFINEDPROPS; i++) + AddAvailableProperty(it8, PredefinedProperties[i].id, PredefinedProperties[i].as); + + for (i=0; i < NUMPREDEFINEDSAMPLEID; i++) + AddAvailableSampleID(it8, PredefinedSampleID[i]); + + + return (cmsHANDLE) it8; +} + + +const char* CMSEXPORT cmsIT8GetSheetType(cmsHANDLE hIT8) +{ + return GetTable((cmsIT8*) hIT8)->SheetType; +} + +cmsBool CMSEXPORT cmsIT8SetSheetType(cmsHANDLE hIT8, const char* Type) +{ + TABLE* t = GetTable((cmsIT8*) hIT8); + + strncpy(t ->SheetType, Type, MAXSTR-1); + t ->SheetType[MAXSTR-1] = 0; + return TRUE; +} + +cmsBool CMSEXPORT cmsIT8SetComment(cmsHANDLE hIT8, const char* Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + if (!Val) return FALSE; + if (!*Val) return FALSE; + + return AddToList(it8, &GetTable(it8)->HeaderList, "# ", NULL, Val, WRITE_UNCOOKED) != NULL; +} + +// Sets a property +cmsBool CMSEXPORT cmsIT8SetPropertyStr(cmsHANDLE hIT8, const char* Key, const char *Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + if (!Val) return FALSE; + if (!*Val) return FALSE; + + return AddToList(it8, &GetTable(it8)->HeaderList, Key, NULL, Val, WRITE_STRINGIFY) != NULL; +} + +cmsBool CMSEXPORT cmsIT8SetPropertyDbl(cmsHANDLE hIT8, const char* cProp, cmsFloat64Number Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + char Buffer[1024]; + + snprintf(Buffer, 1023, it8->DoubleFormatter, Val); + + return AddToList(it8, &GetTable(it8)->HeaderList, cProp, NULL, Buffer, WRITE_UNCOOKED) != NULL; +} + +cmsBool CMSEXPORT cmsIT8SetPropertyHex(cmsHANDLE hIT8, const char* cProp, cmsUInt32Number Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + char Buffer[1024]; + + snprintf(Buffer, 1023, "%u", Val); + + return AddToList(it8, &GetTable(it8)->HeaderList, cProp, NULL, Buffer, WRITE_HEXADECIMAL) != NULL; +} + +cmsBool CMSEXPORT cmsIT8SetPropertyUncooked(cmsHANDLE hIT8, const char* Key, const char* Buffer) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + return AddToList(it8, &GetTable(it8)->HeaderList, Key, NULL, Buffer, WRITE_UNCOOKED) != NULL; +} + +cmsBool CMSEXPORT cmsIT8SetPropertyMulti(cmsHANDLE hIT8, const char* Key, const char* SubKey, const char *Buffer) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + return AddToList(it8, &GetTable(it8)->HeaderList, Key, SubKey, Buffer, WRITE_PAIR) != NULL; +} + +// Gets a property +const char* CMSEXPORT cmsIT8GetProperty(cmsHANDLE hIT8, const char* Key) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + KEYVALUE* p; + + if (IsAvailableOnList(GetTable(it8) -> HeaderList, Key, NULL, &p)) + { + return p -> Value; + } + return NULL; +} + + +cmsFloat64Number CMSEXPORT cmsIT8GetPropertyDbl(cmsHANDLE hIT8, const char* cProp) +{ + const char *v = cmsIT8GetProperty(hIT8, cProp); + + if (v == NULL) return 0.0; + + return ParseFloatNumber(v); +} + +const char* CMSEXPORT cmsIT8GetPropertyMulti(cmsHANDLE hIT8, const char* Key, const char *SubKey) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + KEYVALUE* p; + + if (IsAvailableOnList(GetTable(it8) -> HeaderList, Key, SubKey, &p)) { + return p -> Value; + } + return NULL; +} + +// ----------------------------------------------------------------- Datasets + + +static +void AllocateDataFormat(cmsIT8* it8) +{ + TABLE* t = GetTable(it8); + + if (t -> DataFormat) return; // Already allocated + + t -> nSamples = (int) cmsIT8GetPropertyDbl(it8, "NUMBER_OF_FIELDS"); + + if (t -> nSamples <= 0) { + + SynError(it8, "AllocateDataFormat: Unknown NUMBER_OF_FIELDS"); + t -> nSamples = 10; + } + + t -> DataFormat = (char**) AllocChunk (it8, ((cmsUInt32Number) t->nSamples + 1) * sizeof(char *)); + if (t->DataFormat == NULL) { + + SynError(it8, "AllocateDataFormat: Unable to allocate dataFormat array"); + } + +} + +static +const char *GetDataFormat(cmsIT8* it8, int n) +{ + TABLE* t = GetTable(it8); + + if (t->DataFormat) + return t->DataFormat[n]; + + return NULL; +} + +static +cmsBool SetDataFormat(cmsIT8* it8, int n, const char *label) +{ + TABLE* t = GetTable(it8); + + if (!t->DataFormat) + AllocateDataFormat(it8); + + if (n > t -> nSamples) { + SynError(it8, "More than NUMBER_OF_FIELDS fields."); + return FALSE; + } + + if (t->DataFormat) { + t->DataFormat[n] = AllocString(it8, label); + } + + return TRUE; +} + + +cmsBool CMSEXPORT cmsIT8SetDataFormat(cmsHANDLE h, int n, const char *Sample) +{ + cmsIT8* it8 = (cmsIT8*) h; + return SetDataFormat(it8, n, Sample); +} + +static +void AllocateDataSet(cmsIT8* it8) +{ + TABLE* t = GetTable(it8); + + if (t -> Data) return; // Already allocated + + t-> nSamples = atoi(cmsIT8GetProperty(it8, "NUMBER_OF_FIELDS")); + t-> nPatches = atoi(cmsIT8GetProperty(it8, "NUMBER_OF_SETS")); + + t-> Data = (char**)AllocChunk (it8, ((cmsUInt32Number) t->nSamples + 1) * ((cmsUInt32Number) t->nPatches + 1) *sizeof (char*)); + if (t->Data == NULL) { + + SynError(it8, "AllocateDataSet: Unable to allocate data array"); + } + +} + +static +char* GetData(cmsIT8* it8, int nSet, int nField) +{ + TABLE* t = GetTable(it8); + int nSamples = t -> nSamples; + int nPatches = t -> nPatches; + + if (nSet >= nPatches || nField >= nSamples) + return NULL; + + if (!t->Data) return NULL; + return t->Data [nSet * nSamples + nField]; +} + +static +cmsBool SetData(cmsIT8* it8, int nSet, int nField, const char *Val) +{ + TABLE* t = GetTable(it8); + + if (!t->Data) + AllocateDataSet(it8); + + if (!t->Data) return FALSE; + + if (nSet > t -> nPatches || nSet < 0) { + + return SynError(it8, "Patch %d out of range, there are %d patches", nSet, t -> nPatches); + } + + if (nField > t ->nSamples || nField < 0) { + return SynError(it8, "Sample %d out of range, there are %d samples", nField, t ->nSamples); + + } + + t->Data [nSet * t -> nSamples + nField] = AllocString(it8, Val); + return TRUE; +} + + +// --------------------------------------------------------------- File I/O + + +// Writes a string to file +static +void WriteStr(SAVESTREAM* f, const char *str) +{ + cmsUInt32Number len; + + if (str == NULL) + str = " "; + + // Length to write + len = (cmsUInt32Number) strlen(str); + f ->Used += len; + + + if (f ->stream) { // Should I write it to a file? + + if (fwrite(str, 1, len, f->stream) != len) { + cmsSignalError(0, cmsERROR_WRITE, "Write to file error in CGATS parser"); + return; + } + + } + else { // Or to a memory block? + + if (f ->Base) { // Am I just counting the bytes? + + if (f ->Used > f ->Max) { + + cmsSignalError(0, cmsERROR_WRITE, "Write to memory overflows in CGATS parser"); + return; + } + + memmove(f ->Ptr, str, len); + f->Ptr += len; + } + + } +} + + +// Write formatted + +static +void Writef(SAVESTREAM* f, const char* frm, ...) +{ + char Buffer[4096]; + va_list args; + + va_start(args, frm); + vsnprintf(Buffer, 4095, frm, args); + Buffer[4095] = 0; + WriteStr(f, Buffer); + va_end(args); + +} + +// Writes full header +static +void WriteHeader(cmsIT8* it8, SAVESTREAM* fp) +{ + KEYVALUE* p; + TABLE* t = GetTable(it8); + + // Writes the type + WriteStr(fp, t->SheetType); + WriteStr(fp, "\n"); + + for (p = t->HeaderList; (p != NULL); p = p->Next) + { + if (*p ->Keyword == '#') { + + char* Pt; + + WriteStr(fp, "#\n# "); + for (Pt = p ->Value; *Pt; Pt++) { + + + Writef(fp, "%c", *Pt); + + if (*Pt == '\n') { + WriteStr(fp, "# "); + } + } + + WriteStr(fp, "\n#\n"); + continue; + } + + + if (!IsAvailableOnList(it8-> ValidKeywords, p->Keyword, NULL, NULL)) { + +#ifdef CMS_STRICT_CGATS + WriteStr(fp, "KEYWORD\t\""); + WriteStr(fp, p->Keyword); + WriteStr(fp, "\"\n"); +#endif + + AddAvailableProperty(it8, p->Keyword, WRITE_UNCOOKED); + } + + WriteStr(fp, p->Keyword); + if (p->Value) { + + switch (p ->WriteAs) { + + case WRITE_UNCOOKED: + Writef(fp, "\t%s", p ->Value); + break; + + case WRITE_STRINGIFY: + Writef(fp, "\t\"%s\"", p->Value ); + break; + + case WRITE_HEXADECIMAL: + Writef(fp, "\t0x%X", atoi(p ->Value)); + break; + + case WRITE_BINARY: + Writef(fp, "\t0x%B", atoi(p ->Value)); + break; + + case WRITE_PAIR: + Writef(fp, "\t\"%s,%s\"", p->Subkey, p->Value); + break; + + default: SynError(it8, "Unknown write mode %d", p ->WriteAs); + return; + } + } + + WriteStr (fp, "\n"); + } + +} + + +// Writes the data format +static +void WriteDataFormat(SAVESTREAM* fp, cmsIT8* it8) +{ + int i, nSamples; + TABLE* t = GetTable(it8); + + if (!t -> DataFormat) return; + + WriteStr(fp, "BEGIN_DATA_FORMAT\n"); + WriteStr(fp, " "); + nSamples = atoi(cmsIT8GetProperty(it8, "NUMBER_OF_FIELDS")); + + for (i = 0; i < nSamples; i++) { + + WriteStr(fp, t->DataFormat[i]); + WriteStr(fp, ((i == (nSamples-1)) ? "\n" : "\t")); + } + + WriteStr (fp, "END_DATA_FORMAT\n"); +} + + +// Writes data array +static +void WriteData(SAVESTREAM* fp, cmsIT8* it8) +{ + int i, j; + TABLE* t = GetTable(it8); + + if (!t->Data) return; + + WriteStr (fp, "BEGIN_DATA\n"); + + t->nPatches = atoi(cmsIT8GetProperty(it8, "NUMBER_OF_SETS")); + + for (i = 0; i < t-> nPatches; i++) { + + WriteStr(fp, " "); + + for (j = 0; j < t->nSamples; j++) { + + char *ptr = t->Data[i*t->nSamples+j]; + + if (ptr == NULL) WriteStr(fp, "\"\""); + else { + // If value contains whitespace, enclose within quote + + if (strchr(ptr, ' ') != NULL) { + + WriteStr(fp, "\""); + WriteStr(fp, ptr); + WriteStr(fp, "\""); + } + else + WriteStr(fp, ptr); + } + + WriteStr(fp, ((j == (t->nSamples-1)) ? "\n" : "\t")); + } + } + WriteStr (fp, "END_DATA\n"); +} + + + +// Saves whole file +cmsBool CMSEXPORT cmsIT8SaveToFile(cmsHANDLE hIT8, const char* cFileName) +{ + SAVESTREAM sd; + cmsUInt32Number i; + cmsIT8* it8 = (cmsIT8*) hIT8; + + memset(&sd, 0, sizeof(sd)); + + sd.stream = fopen(cFileName, "wt"); + if (!sd.stream) return FALSE; + + for (i=0; i < it8 ->TablesCount; i++) { + + cmsIT8SetTable(hIT8, i); + WriteHeader(it8, &sd); + WriteDataFormat(&sd, it8); + WriteData(&sd, it8); + } + + if (fclose(sd.stream) != 0) return FALSE; + + return TRUE; +} + + +// Saves to memory +cmsBool CMSEXPORT cmsIT8SaveToMem(cmsHANDLE hIT8, void *MemPtr, cmsUInt32Number* BytesNeeded) +{ + SAVESTREAM sd; + cmsUInt32Number i; + cmsIT8* it8 = (cmsIT8*) hIT8; + + memset(&sd, 0, sizeof(sd)); + + sd.stream = NULL; + sd.Base = (cmsUInt8Number*) MemPtr; + sd.Ptr = sd.Base; + + sd.Used = 0; + + if (sd.Base) + sd.Max = *BytesNeeded; // Write to memory? + else + sd.Max = 0; // Just counting the needed bytes + + for (i=0; i < it8 ->TablesCount; i++) { + + cmsIT8SetTable(hIT8, i); + WriteHeader(it8, &sd); + WriteDataFormat(&sd, it8); + WriteData(&sd, it8); + } + + sd.Used++; // The \0 at the very end + + if (sd.Base) + *sd.Ptr = 0; + + *BytesNeeded = sd.Used; + + return TRUE; +} + + +// -------------------------------------------------------------- Higher level parsing + +static +cmsBool DataFormatSection(cmsIT8* it8) +{ + int iField = 0; + TABLE* t = GetTable(it8); + + InSymbol(it8); // Eats "BEGIN_DATA_FORMAT" + CheckEOLN(it8); + + while (it8->sy != SEND_DATA_FORMAT && + it8->sy != SEOLN && + it8->sy != SEOF && + it8->sy != SSYNERROR) { + + if (it8->sy != SIDENT) { + + return SynError(it8, "Sample type expected"); + } + + if (!SetDataFormat(it8, iField, it8->id)) return FALSE; + iField++; + + InSymbol(it8); + SkipEOLN(it8); + } + + SkipEOLN(it8); + Skip(it8, SEND_DATA_FORMAT); + SkipEOLN(it8); + + if (iField != t ->nSamples) { + SynError(it8, "Count mismatch. NUMBER_OF_FIELDS was %d, found %d\n", t ->nSamples, iField); + + + } + + return TRUE; +} + + + +static +cmsBool DataSection (cmsIT8* it8) +{ + int iField = 0; + int iSet = 0; + char Buffer[256]; + TABLE* t = GetTable(it8); + + InSymbol(it8); // Eats "BEGIN_DATA" + CheckEOLN(it8); + + if (!t->Data) + AllocateDataSet(it8); + + while (it8->sy != SEND_DATA && it8->sy != SEOF) + { + if (iField >= t -> nSamples) { + iField = 0; + iSet++; + + } + + if (it8->sy != SEND_DATA && it8->sy != SEOF) { + + if (!GetVal(it8, Buffer, 255, "Sample data expected")) + return FALSE; + + if (!SetData(it8, iSet, iField, Buffer)) + return FALSE; + + iField++; + + InSymbol(it8); + SkipEOLN(it8); + } + } + + SkipEOLN(it8); + Skip(it8, SEND_DATA); + SkipEOLN(it8); + + // Check for data completion. + + if ((iSet+1) != t -> nPatches) + return SynError(it8, "Count mismatch. NUMBER_OF_SETS was %d, found %d\n", t ->nPatches, iSet+1); + + return TRUE; +} + + + + +static +cmsBool HeaderSection(cmsIT8* it8) +{ + char VarName[MAXID]; + char Buffer[MAXSTR]; + KEYVALUE* Key; + + while (it8->sy != SEOF && + it8->sy != SSYNERROR && + it8->sy != SBEGIN_DATA_FORMAT && + it8->sy != SBEGIN_DATA) { + + + switch (it8 -> sy) { + + case SKEYWORD: + InSymbol(it8); + if (!GetVal(it8, Buffer, MAXSTR-1, "Keyword expected")) return FALSE; + if (!AddAvailableProperty(it8, Buffer, WRITE_UNCOOKED)) return FALSE; + InSymbol(it8); + break; + + + case SDATA_FORMAT_ID: + InSymbol(it8); + if (!GetVal(it8, Buffer, MAXSTR-1, "Keyword expected")) return FALSE; + if (!AddAvailableSampleID(it8, Buffer)) return FALSE; + InSymbol(it8); + break; + + + case SIDENT: + strncpy(VarName, it8->id, MAXID-1); + VarName[MAXID-1] = 0; + + if (!IsAvailableOnList(it8-> ValidKeywords, VarName, NULL, &Key)) { + +#ifdef CMS_STRICT_CGATS + return SynError(it8, "Undefined keyword '%s'", VarName); +#else + Key = AddAvailableProperty(it8, VarName, WRITE_UNCOOKED); + if (Key == NULL) return FALSE; +#endif + } + + InSymbol(it8); + if (!GetVal(it8, Buffer, MAXSTR-1, "Property data expected")) return FALSE; + + if(Key->WriteAs != WRITE_PAIR) { + AddToList(it8, &GetTable(it8)->HeaderList, VarName, NULL, Buffer, + (it8->sy == SSTRING) ? WRITE_STRINGIFY : WRITE_UNCOOKED); + } + else { + const char *Subkey; + char *Nextkey; + if (it8->sy != SSTRING) + return SynError(it8, "Invalid value '%s' for property '%s'.", Buffer, VarName); + + // chop the string as a list of "subkey, value" pairs, using ';' as a separator + for (Subkey = Buffer; Subkey != NULL; Subkey = Nextkey) + { + char *Value, *temp; + + // identify token pair boundary + Nextkey = (char*) strchr(Subkey, ';'); + if(Nextkey) + *Nextkey++ = '\0'; + + // for each pair, split the subkey and the value + Value = (char*) strrchr(Subkey, ','); + if(Value == NULL) + return SynError(it8, "Invalid value for property '%s'.", VarName); + + // gobble the spaces before the coma, and the coma itself + temp = Value++; + do *temp-- = '\0'; while(temp >= Subkey && *temp == ' '); + + // gobble any space at the right + temp = Value + strlen(Value) - 1; + while(*temp == ' ') *temp-- = '\0'; + + // trim the strings from the left + Subkey += strspn(Subkey, " "); + Value += strspn(Value, " "); + + if(Subkey[0] == 0 || Value[0] == 0) + return SynError(it8, "Invalid value for property '%s'.", VarName); + AddToList(it8, &GetTable(it8)->HeaderList, VarName, Subkey, Value, WRITE_PAIR); + } + } + + InSymbol(it8); + break; + + + case SEOLN: break; + + default: + return SynError(it8, "expected keyword or identifier"); + } + + SkipEOLN(it8); + } + + return TRUE; + +} + + +static +void ReadType(cmsIT8* it8, char* SheetTypePtr) +{ + // First line is a very special case. + + while (isseparator(it8->ch)) + NextCh(it8); + + while (it8->ch != '\r' && it8 ->ch != '\n' && it8->ch != '\t' && it8 -> ch != -1) { + + *SheetTypePtr++= (char) it8 ->ch; + NextCh(it8); + } + + *SheetTypePtr = 0; +} + + +static +cmsBool ParseIT8(cmsIT8* it8, cmsBool nosheet) +{ + char* SheetTypePtr = it8 ->Tab[0].SheetType; + + if (nosheet == 0) { + ReadType(it8, SheetTypePtr); + } + + InSymbol(it8); + + SkipEOLN(it8); + + while (it8-> sy != SEOF && + it8-> sy != SSYNERROR) { + + switch (it8 -> sy) { + + case SBEGIN_DATA_FORMAT: + if (!DataFormatSection(it8)) return FALSE; + break; + + case SBEGIN_DATA: + + if (!DataSection(it8)) return FALSE; + + if (it8 -> sy != SEOF) { + + AllocTable(it8); + it8 ->nTable = it8 ->TablesCount - 1; + + // Read sheet type if present. We only support identifier and string. + // is a type string + // anything else, is not a type string + if (nosheet == 0) { + + if (it8 ->sy == SIDENT) { + + // May be a type sheet or may be a prop value statement. We cannot use insymbol in + // this special case... + while (isseparator(it8->ch)) + NextCh(it8); + + // If a newline is found, then this is a type string + if (it8 ->ch == '\n' || it8->ch == '\r') { + + cmsIT8SetSheetType(it8, it8 ->id); + InSymbol(it8); + } + else + { + // It is not. Just continue + cmsIT8SetSheetType(it8, ""); + } + } + else + // Validate quoted strings + if (it8 ->sy == SSTRING) { + cmsIT8SetSheetType(it8, it8 ->str); + InSymbol(it8); + } + } + + } + break; + + case SEOLN: + SkipEOLN(it8); + break; + + default: + if (!HeaderSection(it8)) return FALSE; + } + + } + + return (it8 -> sy != SSYNERROR); +} + + + +// Init useful pointers + +static +void CookPointers(cmsIT8* it8) +{ + int idField, i; + char* Fld; + cmsUInt32Number j; + cmsUInt32Number nOldTable = it8 ->nTable; + + for (j=0; j < it8 ->TablesCount; j++) { + + TABLE* t = it8 ->Tab + j; + + t -> SampleID = 0; + it8 ->nTable = j; + + for (idField = 0; idField < t -> nSamples; idField++) + { + if (t ->DataFormat == NULL){ + SynError(it8, "Undefined DATA_FORMAT"); + return; + } + + Fld = t->DataFormat[idField]; + if (!Fld) continue; + + + if (cmsstrcasecmp(Fld, "SAMPLE_ID") == 0) { + + t -> SampleID = idField; + + for (i=0; i < t -> nPatches; i++) { + + char *Data = GetData(it8, i, idField); + if (Data) { + char Buffer[256]; + + strncpy(Buffer, Data, 255); + Buffer[255] = 0; + + if (strlen(Buffer) <= strlen(Data)) + strcpy(Data, Buffer); + else + SetData(it8, i, idField, Buffer); + + } + } + + } + + // "LABEL" is an extension. It keeps references to forward tables + + if ((cmsstrcasecmp(Fld, "LABEL") == 0) || Fld[0] == '$' ) { + + // Search for table references... + for (i=0; i < t -> nPatches; i++) { + + char *Label = GetData(it8, i, idField); + + if (Label) { + + cmsUInt32Number k; + + // This is the label, search for a table containing + // this property + + for (k=0; k < it8 ->TablesCount; k++) { + + TABLE* Table = it8 ->Tab + k; + KEYVALUE* p; + + if (IsAvailableOnList(Table->HeaderList, Label, NULL, &p)) { + + // Available, keep type and table + char Buffer[256]; + + char *Type = p ->Value; + int nTable = (int) k; + + snprintf(Buffer, 255, "%s %d %s", Label, nTable, Type ); + + SetData(it8, i, idField, Buffer); + } + } + + + } + + } + + + } + + } + } + + it8 ->nTable = nOldTable; +} + +// Try to infere if the file is a CGATS/IT8 file at all. Read first line +// that should be something like some printable characters plus a \n +// returns 0 if this is not like a CGATS, or an integer otherwise. This integer is the number of words in first line? +static +int IsMyBlock(cmsUInt8Number* Buffer, int n) +{ + int words = 1, space = 0, quot = 0; + int i; + + if (n < 10) return 0; // Too small + + if (n > 132) + n = 132; + + for (i = 1; i < n; i++) { + + switch(Buffer[i]) + { + case '\n': + case '\r': + return ((quot == 1) || (words > 2)) ? 0 : words; + case '\t': + case ' ': + if(!quot && !space) + space = 1; + break; + case '\"': + quot = !quot; + break; + default: + if (Buffer[i] < 32) return 0; + if (Buffer[i] > 127) return 0; + words += space; + space = 0; + break; + } + } + + return 0; +} + + +static +cmsBool IsMyFile(const char* FileName) +{ + FILE *fp; + cmsUInt32Number Size; + cmsUInt8Number Ptr[133]; + + fp = fopen(FileName, "rt"); + if (!fp) { + cmsSignalError(0, cmsERROR_FILE, "File '%s' not found", FileName); + return FALSE; + } + + Size = (cmsUInt32Number) fread(Ptr, 1, 132, fp); + + if (fclose(fp) != 0) + return FALSE; + + Ptr[Size] = '\0'; + + return IsMyBlock(Ptr, Size); +} + +// ---------------------------------------------------------- Exported routines + + +cmsHANDLE CMSEXPORT cmsIT8LoadFromMem(cmsContext ContextID, void *Ptr, cmsUInt32Number len) +{ + cmsHANDLE hIT8; + cmsIT8* it8; + int type; + + _cmsAssert(Ptr != NULL); + _cmsAssert(len != 0); + + type = IsMyBlock((cmsUInt8Number*)Ptr, len); + if (type == 0) return NULL; + + hIT8 = cmsIT8Alloc(ContextID); + if (!hIT8) return NULL; + + it8 = (cmsIT8*) hIT8; + it8 ->MemoryBlock = (char*) _cmsMalloc(ContextID, len + 1); + + strncpy(it8 ->MemoryBlock, (const char*) Ptr, len); + it8 ->MemoryBlock[len] = 0; + + strncpy(it8->FileStack[0]->FileName, "", cmsMAX_PATH-1); + it8-> Source = it8 -> MemoryBlock; + + if (!ParseIT8(it8, type-1)) { + + cmsIT8Free(hIT8); + return FALSE; + } + + CookPointers(it8); + it8 ->nTable = 0; + + _cmsFree(ContextID, it8->MemoryBlock); + it8 -> MemoryBlock = NULL; + + return hIT8; + + +} + + +cmsHANDLE CMSEXPORT cmsIT8LoadFromFile(cmsContext ContextID, const char* cFileName) +{ + + cmsHANDLE hIT8; + cmsIT8* it8; + int type; + + _cmsAssert(cFileName != NULL); + + type = IsMyFile(cFileName); + if (type == 0) return NULL; + + hIT8 = cmsIT8Alloc(ContextID); + it8 = (cmsIT8*) hIT8; + if (!hIT8) return NULL; + + + it8 ->FileStack[0]->Stream = fopen(cFileName, "rt"); + + if (!it8 ->FileStack[0]->Stream) { + cmsIT8Free(hIT8); + return NULL; + } + + + strncpy(it8->FileStack[0]->FileName, cFileName, cmsMAX_PATH-1); + it8->FileStack[0]->FileName[cmsMAX_PATH-1] = 0; + + if (!ParseIT8(it8, type-1)) { + + fclose(it8 ->FileStack[0]->Stream); + cmsIT8Free(hIT8); + return NULL; + } + + CookPointers(it8); + it8 ->nTable = 0; + + if (fclose(it8 ->FileStack[0]->Stream)!= 0) { + cmsIT8Free(hIT8); + return NULL; + } + + return hIT8; + +} + +int CMSEXPORT cmsIT8EnumDataFormat(cmsHANDLE hIT8, char ***SampleNames) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + TABLE* t; + + _cmsAssert(hIT8 != NULL); + + t = GetTable(it8); + + if (SampleNames) + *SampleNames = t -> DataFormat; + return t -> nSamples; +} + + +cmsUInt32Number CMSEXPORT cmsIT8EnumProperties(cmsHANDLE hIT8, char ***PropertyNames) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + KEYVALUE* p; + cmsUInt32Number n; + char **Props; + TABLE* t; + + _cmsAssert(hIT8 != NULL); + + t = GetTable(it8); + + // Pass#1 - count properties + + n = 0; + for (p = t -> HeaderList; p != NULL; p = p->Next) { + n++; + } + + + Props = (char **) AllocChunk(it8, sizeof(char *) * n); + + // Pass#2 - Fill pointers + n = 0; + for (p = t -> HeaderList; p != NULL; p = p->Next) { + Props[n++] = p -> Keyword; + } + + *PropertyNames = Props; + return n; +} + +cmsUInt32Number CMSEXPORT cmsIT8EnumPropertyMulti(cmsHANDLE hIT8, const char* cProp, const char ***SubpropertyNames) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + KEYVALUE *p, *tmp; + cmsUInt32Number n; + const char **Props; + TABLE* t; + + _cmsAssert(hIT8 != NULL); + + + t = GetTable(it8); + + if(!IsAvailableOnList(t->HeaderList, cProp, NULL, &p)) { + *SubpropertyNames = 0; + return 0; + } + + // Pass#1 - count properties + + n = 0; + for (tmp = p; tmp != NULL; tmp = tmp->NextSubkey) { + if(tmp->Subkey != NULL) + n++; + } + + + Props = (const char **) AllocChunk(it8, sizeof(char *) * n); + + // Pass#2 - Fill pointers + n = 0; + for (tmp = p; tmp != NULL; tmp = tmp->NextSubkey) { + if(tmp->Subkey != NULL) + Props[n++] = p ->Subkey; + } + + *SubpropertyNames = Props; + return n; +} + +static +int LocatePatch(cmsIT8* it8, const char* cPatch) +{ + int i; + const char *data; + TABLE* t = GetTable(it8); + + for (i=0; i < t-> nPatches; i++) { + + data = GetData(it8, i, t->SampleID); + + if (data != NULL) { + + if (cmsstrcasecmp(data, cPatch) == 0) + return i; + } + } + + // SynError(it8, "Couldn't find patch '%s'\n", cPatch); + return -1; +} + + +static +int LocateEmptyPatch(cmsIT8* it8) +{ + int i; + const char *data; + TABLE* t = GetTable(it8); + + for (i=0; i < t-> nPatches; i++) { + + data = GetData(it8, i, t->SampleID); + + if (data == NULL) + return i; + + } + + return -1; +} + +static +int LocateSample(cmsIT8* it8, const char* cSample) +{ + int i; + const char *fld; + TABLE* t = GetTable(it8); + + for (i=0; i < t->nSamples; i++) { + + fld = GetDataFormat(it8, i); + if (fld != NULL) { + if (cmsstrcasecmp(fld, cSample) == 0) + return i; + } + } + + return -1; + +} + + +int CMSEXPORT cmsIT8FindDataFormat(cmsHANDLE hIT8, const char* cSample) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + _cmsAssert(hIT8 != NULL); + + return LocateSample(it8, cSample); +} + + + +const char* CMSEXPORT cmsIT8GetDataRowCol(cmsHANDLE hIT8, int row, int col) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + _cmsAssert(hIT8 != NULL); + + return GetData(it8, row, col); +} + + +cmsFloat64Number CMSEXPORT cmsIT8GetDataRowColDbl(cmsHANDLE hIT8, int row, int col) +{ + const char* Buffer; + + Buffer = cmsIT8GetDataRowCol(hIT8, row, col); + + if (Buffer == NULL) return 0.0; + + return ParseFloatNumber(Buffer); +} + + +cmsBool CMSEXPORT cmsIT8SetDataRowCol(cmsHANDLE hIT8, int row, int col, const char* Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + _cmsAssert(hIT8 != NULL); + + return SetData(it8, row, col, Val); +} + + +cmsBool CMSEXPORT cmsIT8SetDataRowColDbl(cmsHANDLE hIT8, int row, int col, cmsFloat64Number Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + char Buff[256]; + + _cmsAssert(hIT8 != NULL); + + snprintf(Buff, 255, it8->DoubleFormatter, Val); + + return SetData(it8, row, col, Buff); +} + + + +const char* CMSEXPORT cmsIT8GetData(cmsHANDLE hIT8, const char* cPatch, const char* cSample) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + int iField, iSet; + + _cmsAssert(hIT8 != NULL); + + iField = LocateSample(it8, cSample); + if (iField < 0) { + return NULL; + } + + iSet = LocatePatch(it8, cPatch); + if (iSet < 0) { + return NULL; + } + + return GetData(it8, iSet, iField); +} + + +cmsFloat64Number CMSEXPORT cmsIT8GetDataDbl(cmsHANDLE it8, const char* cPatch, const char* cSample) +{ + const char* Buffer; + + Buffer = cmsIT8GetData(it8, cPatch, cSample); + + return ParseFloatNumber(Buffer); +} + + + +cmsBool CMSEXPORT cmsIT8SetData(cmsHANDLE hIT8, const char* cPatch, const char* cSample, const char *Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + int iField, iSet; + TABLE* t; + + _cmsAssert(hIT8 != NULL); + + t = GetTable(it8); + + iField = LocateSample(it8, cSample); + + if (iField < 0) + return FALSE; + + if (t-> nPatches == 0) { + + AllocateDataFormat(it8); + AllocateDataSet(it8); + CookPointers(it8); + } + + if (cmsstrcasecmp(cSample, "SAMPLE_ID") == 0) { + + iSet = LocateEmptyPatch(it8); + if (iSet < 0) { + return SynError(it8, "Couldn't add more patches '%s'\n", cPatch); + } + + iField = t -> SampleID; + } + else { + iSet = LocatePatch(it8, cPatch); + if (iSet < 0) { + return FALSE; + } + } + + return SetData(it8, iSet, iField, Val); +} + + +cmsBool CMSEXPORT cmsIT8SetDataDbl(cmsHANDLE hIT8, const char* cPatch, + const char* cSample, + cmsFloat64Number Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + char Buff[256]; + + _cmsAssert(hIT8 != NULL); + + snprintf(Buff, 255, it8->DoubleFormatter, Val); + return cmsIT8SetData(hIT8, cPatch, cSample, Buff); +} + +// Buffer should get MAXSTR at least + +const char* CMSEXPORT cmsIT8GetPatchName(cmsHANDLE hIT8, int nPatch, char* buffer) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + TABLE* t; + char* Data; + + _cmsAssert(hIT8 != NULL); + + t = GetTable(it8); + Data = GetData(it8, nPatch, t->SampleID); + + if (!Data) return NULL; + if (!buffer) return Data; + + strncpy(buffer, Data, MAXSTR-1); + buffer[MAXSTR-1] = 0; + return buffer; +} + +int CMSEXPORT cmsIT8GetPatchByName(cmsHANDLE hIT8, const char *cPatch) +{ + _cmsAssert(hIT8 != NULL); + + return LocatePatch((cmsIT8*)hIT8, cPatch); +} + +cmsUInt32Number CMSEXPORT cmsIT8TableCount(cmsHANDLE hIT8) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + _cmsAssert(hIT8 != NULL); + + return it8 ->TablesCount; +} + +// This handles the "LABEL" extension. +// Label, nTable, Type + +int CMSEXPORT cmsIT8SetTableByLabel(cmsHANDLE hIT8, const char* cSet, const char* cField, const char* ExpectedType) +{ + const char* cLabelFld; + char Type[256], Label[256]; + int nTable; + + _cmsAssert(hIT8 != NULL); + + if (cField != NULL && *cField == 0) + cField = "LABEL"; + + if (cField == NULL) + cField = "LABEL"; + + cLabelFld = cmsIT8GetData(hIT8, cSet, cField); + if (!cLabelFld) return -1; + + if (sscanf(cLabelFld, "%255s %d %255s", Label, &nTable, Type) != 3) + return -1; + + if (ExpectedType != NULL && *ExpectedType == 0) + ExpectedType = NULL; + + if (ExpectedType) { + + if (cmsstrcasecmp(Type, ExpectedType) != 0) return -1; + } + + return cmsIT8SetTable(hIT8, nTable); +} + + +cmsBool CMSEXPORT cmsIT8SetIndexColumn(cmsHANDLE hIT8, const char* cSample) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + int pos; + + _cmsAssert(hIT8 != NULL); + + pos = LocateSample(it8, cSample); + if(pos == -1) + return FALSE; + + it8->Tab[it8->nTable].SampleID = pos; + return TRUE; +} + + +void CMSEXPORT cmsIT8DefineDblFormat(cmsHANDLE hIT8, const char* Formatter) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + _cmsAssert(hIT8 != NULL); + + if (Formatter == NULL) + strcpy(it8->DoubleFormatter, DEFAULT_DBL_FORMAT); + else + strncpy(it8->DoubleFormatter, Formatter, sizeof(it8->DoubleFormatter)); + + it8 ->DoubleFormatter[sizeof(it8 ->DoubleFormatter)-1] = 0; +} + Index: sdk/lib/3rdparty/lcms2/cmscnvrt.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmscnvrt.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmscnvrt.c (working copy) @@ -0,0 +1,1161 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// Link several profiles to obtain a single LUT modelling the whole color transform. Intents, Black point +// compensation and Adaptation parameters may vary across profiles. BPC and Adaptation refers to the PCS +// after the profile. I.e, BPC[0] refers to connexion between profile(0) and profile(1) +cmsPipeline* _cmsLinkProfiles(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number Intents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + +//--------------------------------------------------------------------------------- + +// This is the default routine for ICC-style intents. A user may decide to override it by using a plugin. +// Supported intents are perceptual, relative colorimetric, saturation and ICC-absolute colorimetric +static +cmsPipeline* DefaultICCintents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number Intents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + +//--------------------------------------------------------------------------------- + +// This is the entry for black-preserving K-only intents, which are non-ICC. Last profile have to be a output profile +// to do the trick (no devicelinks allowed at that position) +static +cmsPipeline* BlackPreservingKOnlyIntents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number Intents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + +//--------------------------------------------------------------------------------- + +// This is the entry for black-plane preserving, which are non-ICC. Again, Last profile have to be a output profile +// to do the trick (no devicelinks allowed at that position) +static +cmsPipeline* BlackPreservingKPlaneIntents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number Intents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + +//--------------------------------------------------------------------------------- + + +// This is a structure holding implementations for all supported intents. +typedef struct _cms_intents_list { + + cmsUInt32Number Intent; + char Description[256]; + cmsIntentFn Link; + struct _cms_intents_list* Next; + +} cmsIntentsList; + + +// Built-in intents +static cmsIntentsList DefaultIntents[] = { + + { INTENT_PERCEPTUAL, "Perceptual", DefaultICCintents, &DefaultIntents[1] }, + { INTENT_RELATIVE_COLORIMETRIC, "Relative colorimetric", DefaultICCintents, &DefaultIntents[2] }, + { INTENT_SATURATION, "Saturation", DefaultICCintents, &DefaultIntents[3] }, + { INTENT_ABSOLUTE_COLORIMETRIC, "Absolute colorimetric", DefaultICCintents, &DefaultIntents[4] }, + { INTENT_PRESERVE_K_ONLY_PERCEPTUAL, "Perceptual preserving black ink", BlackPreservingKOnlyIntents, &DefaultIntents[5] }, + { INTENT_PRESERVE_K_ONLY_RELATIVE_COLORIMETRIC, "Relative colorimetric preserving black ink", BlackPreservingKOnlyIntents, &DefaultIntents[6] }, + { INTENT_PRESERVE_K_ONLY_SATURATION, "Saturation preserving black ink", BlackPreservingKOnlyIntents, &DefaultIntents[7] }, + { INTENT_PRESERVE_K_PLANE_PERCEPTUAL, "Perceptual preserving black plane", BlackPreservingKPlaneIntents, &DefaultIntents[8] }, + { INTENT_PRESERVE_K_PLANE_RELATIVE_COLORIMETRIC,"Relative colorimetric preserving black plane", BlackPreservingKPlaneIntents, &DefaultIntents[9] }, + { INTENT_PRESERVE_K_PLANE_SATURATION, "Saturation preserving black plane", BlackPreservingKPlaneIntents, NULL } +}; + + +// A pointer to the beginning of the list +_cmsIntentsPluginChunkType _cmsIntentsPluginChunk = { NULL }; + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupPluginIntentsList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsIntentsPluginChunkType newHead = { NULL }; + cmsIntentsList* entry; + cmsIntentsList* Anterior = NULL; + _cmsIntentsPluginChunkType* head = (_cmsIntentsPluginChunkType*) src->chunks[IntentPlugin]; + + // Walk the list copying all nodes + for (entry = head->Intents; + entry != NULL; + entry = entry ->Next) { + + cmsIntentsList *newEntry = ( cmsIntentsList *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(cmsIntentsList)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.Intents == NULL) + newHead.Intents = newEntry; + } + + ctx ->chunks[IntentPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsIntentsPluginChunkType)); +} + +void _cmsAllocIntentsPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + // Copy all linked list + DupPluginIntentsList(ctx, src); + } + else { + static _cmsIntentsPluginChunkType IntentsPluginChunkType = { NULL }; + ctx ->chunks[IntentPlugin] = _cmsSubAllocDup(ctx ->MemPool, &IntentsPluginChunkType, sizeof(_cmsIntentsPluginChunkType)); + } +} + + +// Search the list for a suitable intent. Returns NULL if not found +static +cmsIntentsList* SearchIntent(cmsContext ContextID, cmsUInt32Number Intent) +{ + _cmsIntentsPluginChunkType* ctx = ( _cmsIntentsPluginChunkType*) _cmsContextGetClientChunk(ContextID, IntentPlugin); + cmsIntentsList* pt; + + for (pt = ctx -> Intents; pt != NULL; pt = pt -> Next) + if (pt ->Intent == Intent) return pt; + + for (pt = DefaultIntents; pt != NULL; pt = pt -> Next) + if (pt ->Intent == Intent) return pt; + + return NULL; +} + +// Black point compensation. Implemented as a linear scaling in XYZ. Black points +// should come relative to the white point. Fills an matrix/offset element m +// which is organized as a 4x4 matrix. +static +void ComputeBlackPointCompensation(const cmsCIEXYZ* BlackPointIn, + const cmsCIEXYZ* BlackPointOut, + cmsMAT3* m, cmsVEC3* off) +{ + cmsFloat64Number ax, ay, az, bx, by, bz, tx, ty, tz; + + // Now we need to compute a matrix plus an offset m and of such of + // [m]*bpin + off = bpout + // [m]*D50 + off = D50 + // + // This is a linear scaling in the form ax+b, where + // a = (bpout - D50) / (bpin - D50) + // b = - D50* (bpout - bpin) / (bpin - D50) + + tx = BlackPointIn->X - cmsD50_XYZ()->X; + ty = BlackPointIn->Y - cmsD50_XYZ()->Y; + tz = BlackPointIn->Z - cmsD50_XYZ()->Z; + + ax = (BlackPointOut->X - cmsD50_XYZ()->X) / tx; + ay = (BlackPointOut->Y - cmsD50_XYZ()->Y) / ty; + az = (BlackPointOut->Z - cmsD50_XYZ()->Z) / tz; + + bx = - cmsD50_XYZ()-> X * (BlackPointOut->X - BlackPointIn->X) / tx; + by = - cmsD50_XYZ()-> Y * (BlackPointOut->Y - BlackPointIn->Y) / ty; + bz = - cmsD50_XYZ()-> Z * (BlackPointOut->Z - BlackPointIn->Z) / tz; + + _cmsVEC3init(&m ->v[0], ax, 0, 0); + _cmsVEC3init(&m ->v[1], 0, ay, 0); + _cmsVEC3init(&m ->v[2], 0, 0, az); + _cmsVEC3init(off, bx, by, bz); + +} + + +// Approximate a blackbody illuminant based on CHAD information +static +cmsFloat64Number CHAD2Temp(const cmsMAT3* Chad) +{ + // Convert D50 across inverse CHAD to get the absolute white point + cmsVEC3 d, s; + cmsCIEXYZ Dest; + cmsCIExyY DestChromaticity; + cmsFloat64Number TempK; + cmsMAT3 m1, m2; + + m1 = *Chad; + if (!_cmsMAT3inverse(&m1, &m2)) return FALSE; + + s.n[VX] = cmsD50_XYZ() -> X; + s.n[VY] = cmsD50_XYZ() -> Y; + s.n[VZ] = cmsD50_XYZ() -> Z; + + _cmsMAT3eval(&d, &m2, &s); + + Dest.X = d.n[VX]; + Dest.Y = d.n[VY]; + Dest.Z = d.n[VZ]; + + cmsXYZ2xyY(&DestChromaticity, &Dest); + + if (!cmsTempFromWhitePoint(&TempK, &DestChromaticity)) + return -1.0; + + return TempK; +} + +// Compute a CHAD based on a given temperature +static + void Temp2CHAD(cmsMAT3* Chad, cmsFloat64Number Temp) +{ + cmsCIEXYZ White; + cmsCIExyY ChromaticityOfWhite; + + cmsWhitePointFromTemp(&ChromaticityOfWhite, Temp); + cmsxyY2XYZ(&White, &ChromaticityOfWhite); + _cmsAdaptationMatrix(Chad, NULL, &White, cmsD50_XYZ()); +} + +// Join scalings to obtain relative input to absolute and then to relative output. +// Result is stored in a 3x3 matrix +static +cmsBool ComputeAbsoluteIntent(cmsFloat64Number AdaptationState, + const cmsCIEXYZ* WhitePointIn, + const cmsMAT3* ChromaticAdaptationMatrixIn, + const cmsCIEXYZ* WhitePointOut, + const cmsMAT3* ChromaticAdaptationMatrixOut, + cmsMAT3* m) +{ + cmsMAT3 Scale, m1, m2, m3, m4; + + // TODO: Follow Marc Mahy's recommendation to check if CHAD is same by using M1*M2 == M2*M1. If so, do nothing. + // TODO: Add support for ArgyllArts tag + + // Adaptation state + if (AdaptationState == 1.0) { + + // Observer is fully adapted. Keep chromatic adaptation. + // That is the standard V4 behaviour + _cmsVEC3init(&m->v[0], WhitePointIn->X / WhitePointOut->X, 0, 0); + _cmsVEC3init(&m->v[1], 0, WhitePointIn->Y / WhitePointOut->Y, 0); + _cmsVEC3init(&m->v[2], 0, 0, WhitePointIn->Z / WhitePointOut->Z); + + } + else { + + // Incomplete adaptation. This is an advanced feature. + _cmsVEC3init(&Scale.v[0], WhitePointIn->X / WhitePointOut->X, 0, 0); + _cmsVEC3init(&Scale.v[1], 0, WhitePointIn->Y / WhitePointOut->Y, 0); + _cmsVEC3init(&Scale.v[2], 0, 0, WhitePointIn->Z / WhitePointOut->Z); + + + if (AdaptationState == 0.0) { + + m1 = *ChromaticAdaptationMatrixOut; + _cmsMAT3per(&m2, &m1, &Scale); + // m2 holds CHAD from output white to D50 times abs. col. scaling + + // Observer is not adapted, undo the chromatic adaptation + _cmsMAT3per(m, &m2, ChromaticAdaptationMatrixOut); + + m3 = *ChromaticAdaptationMatrixIn; + if (!_cmsMAT3inverse(&m3, &m4)) return FALSE; + _cmsMAT3per(m, &m2, &m4); + + } else { + + cmsMAT3 MixedCHAD; + cmsFloat64Number TempSrc, TempDest, Temp; + + m1 = *ChromaticAdaptationMatrixIn; + if (!_cmsMAT3inverse(&m1, &m2)) return FALSE; + _cmsMAT3per(&m3, &m2, &Scale); + // m3 holds CHAD from input white to D50 times abs. col. scaling + + TempSrc = CHAD2Temp(ChromaticAdaptationMatrixIn); + TempDest = CHAD2Temp(ChromaticAdaptationMatrixOut); + + if (TempSrc < 0.0 || TempDest < 0.0) return FALSE; // Something went wrong + + if (_cmsMAT3isIdentity(&Scale) && fabs(TempSrc - TempDest) < 0.01) { + + _cmsMAT3identity(m); + return TRUE; + } + + Temp = (1.0 - AdaptationState) * TempDest + AdaptationState * TempSrc; + + // Get a CHAD from whatever output temperature to D50. This replaces output CHAD + Temp2CHAD(&MixedCHAD, Temp); + + _cmsMAT3per(m, &m3, &MixedCHAD); + } + + } + return TRUE; + +} + +// Just to see if m matrix should be applied +static +cmsBool IsEmptyLayer(cmsMAT3* m, cmsVEC3* off) +{ + cmsFloat64Number diff = 0; + cmsMAT3 Ident; + int i; + + if (m == NULL && off == NULL) return TRUE; // NULL is allowed as an empty layer + if (m == NULL && off != NULL) return FALSE; // This is an internal error + + _cmsMAT3identity(&Ident); + + for (i=0; i < 3*3; i++) + diff += fabs(((cmsFloat64Number*)m)[i] - ((cmsFloat64Number*)&Ident)[i]); + + for (i=0; i < 3; i++) + diff += fabs(((cmsFloat64Number*)off)[i]); + + + return (diff < 0.002); +} + + +// Compute the conversion layer +static +cmsBool ComputeConversion(int i, cmsHPROFILE hProfiles[], + cmsUInt32Number Intent, + cmsBool BPC, + cmsFloat64Number AdaptationState, + cmsMAT3* m, cmsVEC3* off) +{ + + int k; + + // m and off are set to identity and this is detected latter on + _cmsMAT3identity(m); + _cmsVEC3init(off, 0, 0, 0); + + // If intent is abs. colorimetric, + if (Intent == INTENT_ABSOLUTE_COLORIMETRIC) { + + cmsCIEXYZ WhitePointIn, WhitePointOut; + cmsMAT3 ChromaticAdaptationMatrixIn, ChromaticAdaptationMatrixOut; + + _cmsReadMediaWhitePoint(&WhitePointIn, hProfiles[i-1]); + _cmsReadCHAD(&ChromaticAdaptationMatrixIn, hProfiles[i-1]); + + _cmsReadMediaWhitePoint(&WhitePointOut, hProfiles[i]); + _cmsReadCHAD(&ChromaticAdaptationMatrixOut, hProfiles[i]); + + if (!ComputeAbsoluteIntent(AdaptationState, + &WhitePointIn, &ChromaticAdaptationMatrixIn, + &WhitePointOut, &ChromaticAdaptationMatrixOut, m)) return FALSE; + + } + else { + // Rest of intents may apply BPC. + + if (BPC) { + + cmsCIEXYZ BlackPointIn, BlackPointOut; + + cmsDetectBlackPoint(&BlackPointIn, hProfiles[i-1], Intent, 0); + cmsDetectDestinationBlackPoint(&BlackPointOut, hProfiles[i], Intent, 0); + + // If black points are equal, then do nothing + if (BlackPointIn.X != BlackPointOut.X || + BlackPointIn.Y != BlackPointOut.Y || + BlackPointIn.Z != BlackPointOut.Z) + ComputeBlackPointCompensation(&BlackPointIn, &BlackPointOut, m, off); + } + } + + // Offset should be adjusted because the encoding. We encode XYZ normalized to 0..1.0, + // to do that, we divide by MAX_ENCODEABLE_XZY. The conversion stage goes XYZ -> XYZ so + // we have first to convert from encoded to XYZ and then convert back to encoded. + // y = Mx + Off + // x = x'c + // y = M x'c + Off + // y = y'c; y' = y / c + // y' = (Mx'c + Off) /c = Mx' + (Off / c) + + for (k=0; k < 3; k++) { + off ->n[k] /= MAX_ENCODEABLE_XYZ; + } + + return TRUE; +} + + +// Add a conversion stage if needed. If a matrix/offset m is given, it applies to XYZ space +static +cmsBool AddConversion(cmsPipeline* Result, cmsColorSpaceSignature InPCS, cmsColorSpaceSignature OutPCS, cmsMAT3* m, cmsVEC3* off) +{ + cmsFloat64Number* m_as_dbl = (cmsFloat64Number*) m; + cmsFloat64Number* off_as_dbl = (cmsFloat64Number*) off; + + // Handle PCS mismatches. A specialized stage is added to the LUT in such case + switch (InPCS) { + + case cmsSigXYZData: // Input profile operates in XYZ + + switch (OutPCS) { + + case cmsSigXYZData: // XYZ -> XYZ + if (!IsEmptyLayer(m, off) && + !cmsPipelineInsertStage(Result, cmsAT_END, cmsStageAllocMatrix(Result ->ContextID, 3, 3, m_as_dbl, off_as_dbl))) + return FALSE; + break; + + case cmsSigLabData: // XYZ -> Lab + if (!IsEmptyLayer(m, off) && + !cmsPipelineInsertStage(Result, cmsAT_END, cmsStageAllocMatrix(Result ->ContextID, 3, 3, m_as_dbl, off_as_dbl))) + return FALSE; + if (!cmsPipelineInsertStage(Result, cmsAT_END, _cmsStageAllocXYZ2Lab(Result ->ContextID))) + return FALSE; + break; + + default: + return FALSE; // Colorspace mismatch + } + break; + + case cmsSigLabData: // Input profile operates in Lab + + switch (OutPCS) { + + case cmsSigXYZData: // Lab -> XYZ + + if (!cmsPipelineInsertStage(Result, cmsAT_END, _cmsStageAllocLab2XYZ(Result ->ContextID))) + return FALSE; + if (!IsEmptyLayer(m, off) && + !cmsPipelineInsertStage(Result, cmsAT_END, cmsStageAllocMatrix(Result ->ContextID, 3, 3, m_as_dbl, off_as_dbl))) + return FALSE; + break; + + case cmsSigLabData: // Lab -> Lab + + if (!IsEmptyLayer(m, off)) { + if (!cmsPipelineInsertStage(Result, cmsAT_END, _cmsStageAllocLab2XYZ(Result ->ContextID)) || + !cmsPipelineInsertStage(Result, cmsAT_END, cmsStageAllocMatrix(Result ->ContextID, 3, 3, m_as_dbl, off_as_dbl)) || + !cmsPipelineInsertStage(Result, cmsAT_END, _cmsStageAllocXYZ2Lab(Result ->ContextID))) + return FALSE; + } + break; + + default: + return FALSE; // Mismatch + } + break; + + // On colorspaces other than PCS, check for same space + default: + if (InPCS != OutPCS) return FALSE; + break; + } + + return TRUE; +} + + +// Is a given space compatible with another? +static +cmsBool ColorSpaceIsCompatible(cmsColorSpaceSignature a, cmsColorSpaceSignature b) +{ + // If they are same, they are compatible. + if (a == b) return TRUE; + + // Check for MCH4 substitution of CMYK + if ((a == cmsSig4colorData) && (b == cmsSigCmykData)) return TRUE; + if ((a == cmsSigCmykData) && (b == cmsSig4colorData)) return TRUE; + + // Check for XYZ/Lab. Those spaces are interchangeable as they can be computed one from other. + if ((a == cmsSigXYZData) && (b == cmsSigLabData)) return TRUE; + if ((a == cmsSigLabData) && (b == cmsSigXYZData)) return TRUE; + + return FALSE; +} + + +// Default handler for ICC-style intents +static +cmsPipeline* DefaultICCintents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number TheIntents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + cmsPipeline* Lut = NULL; + cmsPipeline* Result; + cmsHPROFILE hProfile; + cmsMAT3 m; + cmsVEC3 off; + cmsColorSpaceSignature ColorSpaceIn, ColorSpaceOut = cmsSigLabData, CurrentColorSpace; + cmsProfileClassSignature ClassSig; + cmsUInt32Number i, Intent; + + // For safety + if (nProfiles == 0) return NULL; + + // Allocate an empty LUT for holding the result. 0 as channel count means 'undefined' + Result = cmsPipelineAlloc(ContextID, 0, 0); + if (Result == NULL) return NULL; + + CurrentColorSpace = cmsGetColorSpace(hProfiles[0]); + + for (i=0; i < nProfiles; i++) { + + cmsBool lIsDeviceLink, lIsInput; + + hProfile = hProfiles[i]; + ClassSig = cmsGetDeviceClass(hProfile); + lIsDeviceLink = (ClassSig == cmsSigLinkClass || ClassSig == cmsSigAbstractClass ); + + // First profile is used as input unless devicelink or abstract + if ((i == 0) && !lIsDeviceLink) { + lIsInput = TRUE; + } + else { + // Else use profile in the input direction if current space is not PCS + lIsInput = (CurrentColorSpace != cmsSigXYZData) && + (CurrentColorSpace != cmsSigLabData); + } + + Intent = TheIntents[i]; + + if (lIsInput || lIsDeviceLink) { + + ColorSpaceIn = cmsGetColorSpace(hProfile); + ColorSpaceOut = cmsGetPCS(hProfile); + } + else { + + ColorSpaceIn = cmsGetPCS(hProfile); + ColorSpaceOut = cmsGetColorSpace(hProfile); + } + + if (!ColorSpaceIsCompatible(ColorSpaceIn, CurrentColorSpace)) { + + cmsSignalError(ContextID, cmsERROR_COLORSPACE_CHECK, "ColorSpace mismatch"); + goto Error; + } + + // If devicelink is found, then no custom intent is allowed and we can + // read the LUT to be applied. Settings don't apply here. + if (lIsDeviceLink || ((ClassSig == cmsSigNamedColorClass) && (nProfiles == 1))) { + + // Get the involved LUT from the profile + Lut = _cmsReadDevicelinkLUT(hProfile, Intent); + if (Lut == NULL) goto Error; + + // What about abstract profiles? + if (ClassSig == cmsSigAbstractClass && i > 0) { + if (!ComputeConversion(i, hProfiles, Intent, BPC[i], AdaptationStates[i], &m, &off)) goto Error; + } + else { + _cmsMAT3identity(&m); + _cmsVEC3init(&off, 0, 0, 0); + } + + + if (!AddConversion(Result, CurrentColorSpace, ColorSpaceIn, &m, &off)) goto Error; + + } + else { + + if (lIsInput) { + // Input direction means non-pcs connection, so proceed like devicelinks + Lut = _cmsReadInputLUT(hProfile, Intent); + if (Lut == NULL) goto Error; + } + else { + + // Output direction means PCS connection. Intent may apply here + Lut = _cmsReadOutputLUT(hProfile, Intent); + if (Lut == NULL) goto Error; + + + if (!ComputeConversion(i, hProfiles, Intent, BPC[i], AdaptationStates[i], &m, &off)) goto Error; + if (!AddConversion(Result, CurrentColorSpace, ColorSpaceIn, &m, &off)) goto Error; + + } + } + + // Concatenate to the output LUT + if (!cmsPipelineCat(Result, Lut)) + goto Error; + + cmsPipelineFree(Lut); + Lut = NULL; + + // Update current space + CurrentColorSpace = ColorSpaceOut; + } + + // Check for non-negatives clip + if (dwFlags & cmsFLAGS_NONEGATIVES) { + + if (ColorSpaceOut == cmsSigGrayData || + ColorSpaceOut == cmsSigRgbData || + ColorSpaceOut == cmsSigCmykData) { + + cmsStage* clip = _cmsStageClipNegatives(Result->ContextID, cmsChannelsOf(ColorSpaceOut)); + if (clip == NULL) goto Error; + + if (!cmsPipelineInsertStage(Result, cmsAT_END, clip)) + goto Error; + } + + } + + return Result; + +Error: + + if (Lut != NULL) cmsPipelineFree(Lut); + if (Result != NULL) cmsPipelineFree(Result); + return NULL; + + cmsUNUSED_PARAMETER(dwFlags); +} + + +// Wrapper for DLL calling convention +cmsPipeline* CMSEXPORT _cmsDefaultICCintents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number TheIntents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + return DefaultICCintents(ContextID, nProfiles, TheIntents, hProfiles, BPC, AdaptationStates, dwFlags); +} + +// Black preserving intents --------------------------------------------------------------------------------------------- + +// Translate black-preserving intents to ICC ones +static +int TranslateNonICCIntents(int Intent) +{ + switch (Intent) { + case INTENT_PRESERVE_K_ONLY_PERCEPTUAL: + case INTENT_PRESERVE_K_PLANE_PERCEPTUAL: + return INTENT_PERCEPTUAL; + + case INTENT_PRESERVE_K_ONLY_RELATIVE_COLORIMETRIC: + case INTENT_PRESERVE_K_PLANE_RELATIVE_COLORIMETRIC: + return INTENT_RELATIVE_COLORIMETRIC; + + case INTENT_PRESERVE_K_ONLY_SATURATION: + case INTENT_PRESERVE_K_PLANE_SATURATION: + return INTENT_SATURATION; + + default: return Intent; + } +} + +// Sampler for Black-only preserving CMYK->CMYK transforms + +typedef struct { + cmsPipeline* cmyk2cmyk; // The original transform + cmsToneCurve* KTone; // Black-to-black tone curve + +} GrayOnlyParams; + + +// Preserve black only if that is the only ink used +static +int BlackPreservingGrayOnlySampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + GrayOnlyParams* bp = (GrayOnlyParams*) Cargo; + + // If going across black only, keep black only + if (In[0] == 0 && In[1] == 0 && In[2] == 0) { + + // TAC does not apply because it is black ink! + Out[0] = Out[1] = Out[2] = 0; + Out[3] = cmsEvalToneCurve16(bp->KTone, In[3]); + return TRUE; + } + + // Keep normal transform for other colors + bp ->cmyk2cmyk ->Eval16Fn(In, Out, bp ->cmyk2cmyk->Data); + return TRUE; +} + +// This is the entry for black-preserving K-only intents, which are non-ICC +static +cmsPipeline* BlackPreservingKOnlyIntents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number TheIntents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + GrayOnlyParams bp; + cmsPipeline* Result; + cmsUInt32Number ICCIntents[256]; + cmsStage* CLUT; + cmsUInt32Number i, nGridPoints; + + + // Sanity check + if (nProfiles < 1 || nProfiles > 255) return NULL; + + // Translate black-preserving intents to ICC ones + for (i=0; i < nProfiles; i++) + ICCIntents[i] = TranslateNonICCIntents(TheIntents[i]); + + // Check for non-cmyk profiles + if (cmsGetColorSpace(hProfiles[0]) != cmsSigCmykData || + cmsGetColorSpace(hProfiles[nProfiles-1]) != cmsSigCmykData) + return DefaultICCintents(ContextID, nProfiles, ICCIntents, hProfiles, BPC, AdaptationStates, dwFlags); + + memset(&bp, 0, sizeof(bp)); + + // Allocate an empty LUT for holding the result + Result = cmsPipelineAlloc(ContextID, 4, 4); + if (Result == NULL) return NULL; + + // Create a LUT holding normal ICC transform + bp.cmyk2cmyk = DefaultICCintents(ContextID, + nProfiles, + ICCIntents, + hProfiles, + BPC, + AdaptationStates, + dwFlags); + + if (bp.cmyk2cmyk == NULL) goto Error; + + // Now, compute the tone curve + bp.KTone = _cmsBuildKToneCurve(ContextID, + 4096, + nProfiles, + ICCIntents, + hProfiles, + BPC, + AdaptationStates, + dwFlags); + + if (bp.KTone == NULL) goto Error; + + + // How many gridpoints are we going to use? + nGridPoints = _cmsReasonableGridpointsByColorspace(cmsSigCmykData, dwFlags); + + // Create the CLUT. 16 bits + CLUT = cmsStageAllocCLut16bit(ContextID, nGridPoints, 4, 4, NULL); + if (CLUT == NULL) goto Error; + + // This is the one and only MPE in this LUT + if (!cmsPipelineInsertStage(Result, cmsAT_BEGIN, CLUT)) + goto Error; + + // Sample it. We cannot afford pre/post linearization this time. + if (!cmsStageSampleCLut16bit(CLUT, BlackPreservingGrayOnlySampler, (void*) &bp, 0)) + goto Error; + + // Get rid of xform and tone curve + cmsPipelineFree(bp.cmyk2cmyk); + cmsFreeToneCurve(bp.KTone); + + return Result; + +Error: + + if (bp.cmyk2cmyk != NULL) cmsPipelineFree(bp.cmyk2cmyk); + if (bp.KTone != NULL) cmsFreeToneCurve(bp.KTone); + if (Result != NULL) cmsPipelineFree(Result); + return NULL; + +} + +// K Plane-preserving CMYK to CMYK ------------------------------------------------------------------------------------ + +typedef struct { + + cmsPipeline* cmyk2cmyk; // The original transform + cmsHTRANSFORM hProofOutput; // Output CMYK to Lab (last profile) + cmsHTRANSFORM cmyk2Lab; // The input chain + cmsToneCurve* KTone; // Black-to-black tone curve + cmsPipeline* LabK2cmyk; // The output profile + cmsFloat64Number MaxError; + + cmsHTRANSFORM hRoundTrip; + cmsFloat64Number MaxTAC; + + +} PreserveKPlaneParams; + + +// The CLUT will be stored at 16 bits, but calculations are performed at cmsFloat32Number precision +static +int BlackPreservingSampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + int i; + cmsFloat32Number Inf[4], Outf[4]; + cmsFloat32Number LabK[4]; + cmsFloat64Number SumCMY, SumCMYK, Error, Ratio; + cmsCIELab ColorimetricLab, BlackPreservingLab; + PreserveKPlaneParams* bp = (PreserveKPlaneParams*) Cargo; + + // Convert from 16 bits to floating point + for (i=0; i < 4; i++) + Inf[i] = (cmsFloat32Number) (In[i] / 65535.0); + + // Get the K across Tone curve + LabK[3] = cmsEvalToneCurveFloat(bp ->KTone, Inf[3]); + + // If going across black only, keep black only + if (In[0] == 0 && In[1] == 0 && In[2] == 0) { + + Out[0] = Out[1] = Out[2] = 0; + Out[3] = _cmsQuickSaturateWord(LabK[3] * 65535.0); + return TRUE; + } + + // Try the original transform, + cmsPipelineEvalFloat( Inf, Outf, bp ->cmyk2cmyk); + + // Store a copy of the floating point result into 16-bit + for (i=0; i < 4; i++) + Out[i] = _cmsQuickSaturateWord(Outf[i] * 65535.0); + + // Maybe K is already ok (mostly on K=0) + if ( fabs(Outf[3] - LabK[3]) < (3.0 / 65535.0) ) { + return TRUE; + } + + // K differ, mesure and keep Lab measurement for further usage + // this is done in relative colorimetric intent + cmsDoTransform(bp->hProofOutput, Out, &ColorimetricLab, 1); + + // Is not black only and the transform doesn't keep black. + // Obtain the Lab of output CMYK. After that we have Lab + K + cmsDoTransform(bp ->cmyk2Lab, Outf, LabK, 1); + + // Obtain the corresponding CMY using reverse interpolation + // (K is fixed in LabK[3]) + if (!cmsPipelineEvalReverseFloat(LabK, Outf, Outf, bp ->LabK2cmyk)) { + + // Cannot find a suitable value, so use colorimetric xform + // which is already stored in Out[] + return TRUE; + } + + // Make sure to pass through K (which now is fixed) + Outf[3] = LabK[3]; + + // Apply TAC if needed + SumCMY = Outf[0] + Outf[1] + Outf[2]; + SumCMYK = SumCMY + Outf[3]; + + if (SumCMYK > bp ->MaxTAC) { + + Ratio = 1 - ((SumCMYK - bp->MaxTAC) / SumCMY); + if (Ratio < 0) + Ratio = 0; + } + else + Ratio = 1.0; + + Out[0] = _cmsQuickSaturateWord(Outf[0] * Ratio * 65535.0); // C + Out[1] = _cmsQuickSaturateWord(Outf[1] * Ratio * 65535.0); // M + Out[2] = _cmsQuickSaturateWord(Outf[2] * Ratio * 65535.0); // Y + Out[3] = _cmsQuickSaturateWord(Outf[3] * 65535.0); + + // Estimate the error (this goes 16 bits to Lab DBL) + cmsDoTransform(bp->hProofOutput, Out, &BlackPreservingLab, 1); + Error = cmsDeltaE(&ColorimetricLab, &BlackPreservingLab); + if (Error > bp -> MaxError) + bp->MaxError = Error; + + return TRUE; +} + +// This is the entry for black-plane preserving, which are non-ICC +static +cmsPipeline* BlackPreservingKPlaneIntents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number TheIntents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + PreserveKPlaneParams bp; + cmsPipeline* Result = NULL; + cmsUInt32Number ICCIntents[256]; + cmsStage* CLUT; + cmsUInt32Number i, nGridPoints; + cmsHPROFILE hLab; + + // Sanity check + if (nProfiles < 1 || nProfiles > 255) return NULL; + + // Translate black-preserving intents to ICC ones + for (i=0; i < nProfiles; i++) + ICCIntents[i] = TranslateNonICCIntents(TheIntents[i]); + + // Check for non-cmyk profiles + if (cmsGetColorSpace(hProfiles[0]) != cmsSigCmykData || + !(cmsGetColorSpace(hProfiles[nProfiles-1]) == cmsSigCmykData || + cmsGetDeviceClass(hProfiles[nProfiles-1]) == cmsSigOutputClass)) + return DefaultICCintents(ContextID, nProfiles, ICCIntents, hProfiles, BPC, AdaptationStates, dwFlags); + + // Allocate an empty LUT for holding the result + Result = cmsPipelineAlloc(ContextID, 4, 4); + if (Result == NULL) return NULL; + + + memset(&bp, 0, sizeof(bp)); + + // We need the input LUT of the last profile, assuming this one is responsible of + // black generation. This LUT will be searched in inverse order. + bp.LabK2cmyk = _cmsReadInputLUT(hProfiles[nProfiles-1], INTENT_RELATIVE_COLORIMETRIC); + if (bp.LabK2cmyk == NULL) goto Cleanup; + + // Get total area coverage (in 0..1 domain) + bp.MaxTAC = cmsDetectTAC(hProfiles[nProfiles-1]) / 100.0; + if (bp.MaxTAC <= 0) goto Cleanup; + + + // Create a LUT holding normal ICC transform + bp.cmyk2cmyk = DefaultICCintents(ContextID, + nProfiles, + ICCIntents, + hProfiles, + BPC, + AdaptationStates, + dwFlags); + if (bp.cmyk2cmyk == NULL) goto Cleanup; + + // Now the tone curve + bp.KTone = _cmsBuildKToneCurve(ContextID, 4096, nProfiles, + ICCIntents, + hProfiles, + BPC, + AdaptationStates, + dwFlags); + if (bp.KTone == NULL) goto Cleanup; + + // To measure the output, Last profile to Lab + hLab = cmsCreateLab4ProfileTHR(ContextID, NULL); + bp.hProofOutput = cmsCreateTransformTHR(ContextID, hProfiles[nProfiles-1], + CHANNELS_SH(4)|BYTES_SH(2), hLab, TYPE_Lab_DBL, + INTENT_RELATIVE_COLORIMETRIC, + cmsFLAGS_NOCACHE|cmsFLAGS_NOOPTIMIZE); + if ( bp.hProofOutput == NULL) goto Cleanup; + + // Same as anterior, but lab in the 0..1 range + bp.cmyk2Lab = cmsCreateTransformTHR(ContextID, hProfiles[nProfiles-1], + FLOAT_SH(1)|CHANNELS_SH(4)|BYTES_SH(4), hLab, + FLOAT_SH(1)|CHANNELS_SH(3)|BYTES_SH(4), + INTENT_RELATIVE_COLORIMETRIC, + cmsFLAGS_NOCACHE|cmsFLAGS_NOOPTIMIZE); + if (bp.cmyk2Lab == NULL) goto Cleanup; + cmsCloseProfile(hLab); + + // Error estimation (for debug only) + bp.MaxError = 0; + + // How many gridpoints are we going to use? + nGridPoints = _cmsReasonableGridpointsByColorspace(cmsSigCmykData, dwFlags); + + + CLUT = cmsStageAllocCLut16bit(ContextID, nGridPoints, 4, 4, NULL); + if (CLUT == NULL) goto Cleanup; + + if (!cmsPipelineInsertStage(Result, cmsAT_BEGIN, CLUT)) + goto Cleanup; + + cmsStageSampleCLut16bit(CLUT, BlackPreservingSampler, (void*) &bp, 0); + +Cleanup: + + if (bp.cmyk2cmyk) cmsPipelineFree(bp.cmyk2cmyk); + if (bp.cmyk2Lab) cmsDeleteTransform(bp.cmyk2Lab); + if (bp.hProofOutput) cmsDeleteTransform(bp.hProofOutput); + + if (bp.KTone) cmsFreeToneCurve(bp.KTone); + if (bp.LabK2cmyk) cmsPipelineFree(bp.LabK2cmyk); + + return Result; +} + +// Link routines ------------------------------------------------------------------------------------------------------ + +// Chain several profiles into a single LUT. It just checks the parameters and then calls the handler +// for the first intent in chain. The handler may be user-defined. Is up to the handler to deal with the +// rest of intents in chain. A maximum of 255 profiles at time are supported, which is pretty reasonable. +cmsPipeline* _cmsLinkProfiles(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number TheIntents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + cmsUInt32Number i; + cmsIntentsList* Intent; + + // Make sure a reasonable number of profiles is provided + if (nProfiles <= 0 || nProfiles > 255) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Couldn't link '%d' profiles", nProfiles); + return NULL; + } + + for (i=0; i < nProfiles; i++) { + + // Check if black point is really needed or allowed. Note that + // following Adobe's document: + // BPC does not apply to devicelink profiles, nor to abs colorimetric, + // and applies always on V4 perceptual and saturation. + + if (TheIntents[i] == INTENT_ABSOLUTE_COLORIMETRIC) + BPC[i] = FALSE; + + if (TheIntents[i] == INTENT_PERCEPTUAL || TheIntents[i] == INTENT_SATURATION) { + + // Force BPC for V4 profiles in perceptual and saturation + if (cmsGetEncodedICCversion(hProfiles[i]) >= 0x4000000) + BPC[i] = TRUE; + } + } + + // Search for a handler. The first intent in the chain defines the handler. That would + // prevent using multiple custom intents in a multiintent chain, but the behaviour of + // this case would present some issues if the custom intent tries to do things like + // preserve primaries. This solution is not perfect, but works well on most cases. + + Intent = SearchIntent(ContextID, TheIntents[0]); + if (Intent == NULL) { + cmsSignalError(ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported intent '%d'", TheIntents[0]); + return NULL; + } + + // Call the handler + return Intent ->Link(ContextID, nProfiles, TheIntents, hProfiles, BPC, AdaptationStates, dwFlags); +} + +// ------------------------------------------------------------------------------------------------- + +// Get information about available intents. nMax is the maximum space for the supplied "Codes" +// and "Descriptions" the function returns the total number of intents, which may be greater +// than nMax, although the matrices are not populated beyond this level. +cmsUInt32Number CMSEXPORT cmsGetSupportedIntentsTHR(cmsContext ContextID, cmsUInt32Number nMax, cmsUInt32Number* Codes, char** Descriptions) +{ + _cmsIntentsPluginChunkType* ctx = ( _cmsIntentsPluginChunkType*) _cmsContextGetClientChunk(ContextID, IntentPlugin); + cmsIntentsList* pt; + cmsUInt32Number nIntents; + + + for (nIntents=0, pt = ctx->Intents; pt != NULL; pt = pt -> Next) + { + if (nIntents < nMax) { + if (Codes != NULL) + Codes[nIntents] = pt ->Intent; + + if (Descriptions != NULL) + Descriptions[nIntents] = pt ->Description; + } + + nIntents++; + } + + for (nIntents=0, pt = DefaultIntents; pt != NULL; pt = pt -> Next) + { + if (nIntents < nMax) { + if (Codes != NULL) + Codes[nIntents] = pt ->Intent; + + if (Descriptions != NULL) + Descriptions[nIntents] = pt ->Description; + } + + nIntents++; + } + return nIntents; +} + +cmsUInt32Number CMSEXPORT cmsGetSupportedIntents(cmsUInt32Number nMax, cmsUInt32Number* Codes, char** Descriptions) +{ + return cmsGetSupportedIntentsTHR(NULL, nMax, Codes, Descriptions); +} + +// The plug-in registration. User can add new intents or override default routines +cmsBool _cmsRegisterRenderingIntentPlugin(cmsContext id, cmsPluginBase* Data) +{ + _cmsIntentsPluginChunkType* ctx = ( _cmsIntentsPluginChunkType*) _cmsContextGetClientChunk(id, IntentPlugin); + cmsPluginRenderingIntent* Plugin = (cmsPluginRenderingIntent*) Data; + cmsIntentsList* fl; + + // Do we have to reset the custom intents? + if (Data == NULL) { + + ctx->Intents = NULL; + return TRUE; + } + + fl = (cmsIntentsList*) _cmsPluginMalloc(id, sizeof(cmsIntentsList)); + if (fl == NULL) return FALSE; + + + fl ->Intent = Plugin ->Intent; + strncpy(fl ->Description, Plugin ->Description, sizeof(fl ->Description)-1); + fl ->Description[sizeof(fl ->Description)-1] = 0; + + fl ->Link = Plugin ->Link; + + fl ->Next = ctx ->Intents; + ctx ->Intents = fl; + + return TRUE; +} + Index: sdk/lib/3rdparty/lcms2/cmserr.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmserr.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmserr.c (working copy) @@ -0,0 +1,661 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- + +#include "lcms2_internal.h" + + +// This function is here to help applications to prevent mixing lcms versions on header and shared objects. +int CMSEXPORT cmsGetEncodedCMMversion(void) +{ + return LCMS_VERSION; +} + +// I am so tired about incompatibilities on those functions that here are some replacements +// that hopefully would be fully portable. + +// compare two strings ignoring case +int CMSEXPORT cmsstrcasecmp(const char* s1, const char* s2) +{ + register const unsigned char *us1 = (const unsigned char *)s1, + *us2 = (const unsigned char *)s2; + + while (toupper(*us1) == toupper(*us2++)) + if (*us1++ == '\0') + return 0; + + return (toupper(*us1) - toupper(*--us2)); +} + +// long int because C99 specifies ftell in such way (7.19.9.2) +long int CMSEXPORT cmsfilelength(FILE* f) +{ + long int p , n; + + p = ftell(f); // register current file position + + if (fseek(f, 0, SEEK_END) != 0) { + return -1; + } + + n = ftell(f); + fseek(f, p, SEEK_SET); // file position restored + + return n; +} + + +// Memory handling ------------------------------------------------------------------ +// +// This is the interface to low-level memory management routines. By default a simple +// wrapping to malloc/free/realloc is provided, although there is a limit on the max +// amount of memoy that can be reclaimed. This is mostly as a safety feature to prevent +// bogus or evil code to allocate huge blocks that otherwise lcms would never need. + +#define MAX_MEMORY_FOR_ALLOC ((cmsUInt32Number)(1024U*1024U*512U)) + +// User may override this behaviour by using a memory plug-in, which basically replaces +// the default memory management functions. In this case, no check is performed and it +// is up to the plug-in writter to keep in the safe side. There are only three functions +// required to be implemented: malloc, realloc and free, although the user may want to +// replace the optional mallocZero, calloc and dup as well. + +cmsBool _cmsRegisterMemHandlerPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// ********************************************************************************* + +// This is the default memory allocation function. It does a very coarse +// check of amout of memory, just to prevent exploits +static +void* _cmsMallocDefaultFn(cmsContext ContextID, cmsUInt32Number size) +{ + if (size > MAX_MEMORY_FOR_ALLOC) return NULL; // Never allow over maximum + + return (void*) malloc(size); + + cmsUNUSED_PARAMETER(ContextID); +} + +// Generic allocate & zero +static +void* _cmsMallocZeroDefaultFn(cmsContext ContextID, cmsUInt32Number size) +{ + void *pt = _cmsMalloc(ContextID, size); + if (pt == NULL) return NULL; + + memset(pt, 0, size); + return pt; +} + + +// The default free function. The only check proformed is against NULL pointers +static +void _cmsFreeDefaultFn(cmsContext ContextID, void *Ptr) +{ + // free(NULL) is defined a no-op by C99, therefore it is safe to + // avoid the check, but it is here just in case... + + if (Ptr) free(Ptr); + + cmsUNUSED_PARAMETER(ContextID); +} + +// The default realloc function. Again it checks for exploits. If Ptr is NULL, +// realloc behaves the same way as malloc and allocates a new block of size bytes. +static +void* _cmsReallocDefaultFn(cmsContext ContextID, void* Ptr, cmsUInt32Number size) +{ + + if (size > MAX_MEMORY_FOR_ALLOC) return NULL; // Never realloc over 512Mb + + return realloc(Ptr, size); + + cmsUNUSED_PARAMETER(ContextID); +} + + +// The default calloc function. Allocates an array of num elements, each one of size bytes +// all memory is initialized to zero. +static +void* _cmsCallocDefaultFn(cmsContext ContextID, cmsUInt32Number num, cmsUInt32Number size) +{ + cmsUInt32Number Total = num * size; + + // Preserve calloc behaviour + if (Total == 0) return NULL; + + // Safe check for overflow. + if (num >= UINT_MAX / size) return NULL; + + // Check for overflow + if (Total < num || Total < size) { + return NULL; + } + + if (Total > MAX_MEMORY_FOR_ALLOC) return NULL; // Never alloc over 512Mb + + return _cmsMallocZero(ContextID, Total); +} + +// Generic block duplication +static +void* _cmsDupDefaultFn(cmsContext ContextID, const void* Org, cmsUInt32Number size) +{ + void* mem; + + if (size > MAX_MEMORY_FOR_ALLOC) return NULL; // Never dup over 512Mb + + mem = _cmsMalloc(ContextID, size); + + if (mem != NULL && Org != NULL) + memmove(mem, Org, size); + + return mem; +} + + +// Pointers to memory manager functions in Context0 +_cmsMemPluginChunkType _cmsMemPluginChunk = { _cmsMallocDefaultFn, _cmsMallocZeroDefaultFn, _cmsFreeDefaultFn, + _cmsReallocDefaultFn, _cmsCallocDefaultFn, _cmsDupDefaultFn + }; + + +// Reset and duplicate memory manager +void _cmsAllocMemPluginChunk(struct _cmsContext_struct* ctx, const struct _cmsContext_struct* src) +{ + _cmsAssert(ctx != NULL); + + if (src != NULL) { + + // Duplicate + ctx ->chunks[MemPlugin] = _cmsSubAllocDup(ctx ->MemPool, src ->chunks[MemPlugin], sizeof(_cmsMemPluginChunkType)); + } + else { + + // To reset it, we use the default allocators, which cannot be overriden + ctx ->chunks[MemPlugin] = &ctx ->DefaultMemoryManager; + } +} + +// Auxiliary to fill memory management functions from plugin (or context 0 defaults) +void _cmsInstallAllocFunctions(cmsPluginMemHandler* Plugin, _cmsMemPluginChunkType* ptr) +{ + if (Plugin == NULL) { + + memcpy(ptr, &_cmsMemPluginChunk, sizeof(_cmsMemPluginChunk)); + } + else { + + ptr ->MallocPtr = Plugin -> MallocPtr; + ptr ->FreePtr = Plugin -> FreePtr; + ptr ->ReallocPtr = Plugin -> ReallocPtr; + + // Make sure we revert to defaults + ptr ->MallocZeroPtr= _cmsMallocZeroDefaultFn; + ptr ->CallocPtr = _cmsCallocDefaultFn; + ptr ->DupPtr = _cmsDupDefaultFn; + + if (Plugin ->MallocZeroPtr != NULL) ptr ->MallocZeroPtr = Plugin -> MallocZeroPtr; + if (Plugin ->CallocPtr != NULL) ptr ->CallocPtr = Plugin -> CallocPtr; + if (Plugin ->DupPtr != NULL) ptr ->DupPtr = Plugin -> DupPtr; + + } +} + + +// Plug-in replacement entry +cmsBool _cmsRegisterMemHandlerPlugin(cmsContext ContextID, cmsPluginBase *Data) +{ + cmsPluginMemHandler* Plugin = (cmsPluginMemHandler*) Data; + _cmsMemPluginChunkType* ptr; + + // NULL forces to reset to defaults. In this special case, the defaults are stored in the context structure. + // Remaining plug-ins does NOT have any copy in the context structure, but this is somehow special as the + // context internal data should be malloce'd by using those functions. + if (Data == NULL) { + + struct _cmsContext_struct* ctx = ( struct _cmsContext_struct*) ContextID; + + // Return to the default allocators + if (ContextID != NULL) { + ctx->chunks[MemPlugin] = (void*) &ctx->DefaultMemoryManager; + } + return TRUE; + } + + // Check for required callbacks + if (Plugin -> MallocPtr == NULL || + Plugin -> FreePtr == NULL || + Plugin -> ReallocPtr == NULL) return FALSE; + + // Set replacement functions + ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + if (ptr == NULL) + return FALSE; + + _cmsInstallAllocFunctions(Plugin, ptr); + return TRUE; +} + +// Generic allocate +void* CMSEXPORT _cmsMalloc(cmsContext ContextID, cmsUInt32Number size) +{ + _cmsMemPluginChunkType* ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + return ptr ->MallocPtr(ContextID, size); +} + +// Generic allocate & zero +void* CMSEXPORT _cmsMallocZero(cmsContext ContextID, cmsUInt32Number size) +{ + _cmsMemPluginChunkType* ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + return ptr->MallocZeroPtr(ContextID, size); +} + +// Generic calloc +void* CMSEXPORT _cmsCalloc(cmsContext ContextID, cmsUInt32Number num, cmsUInt32Number size) +{ + _cmsMemPluginChunkType* ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + return ptr->CallocPtr(ContextID, num, size); +} + +// Generic reallocate +void* CMSEXPORT _cmsRealloc(cmsContext ContextID, void* Ptr, cmsUInt32Number size) +{ + _cmsMemPluginChunkType* ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + return ptr->ReallocPtr(ContextID, Ptr, size); +} + +// Generic free memory +void CMSEXPORT _cmsFree(cmsContext ContextID, void* Ptr) +{ + if (Ptr != NULL) { + _cmsMemPluginChunkType* ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + ptr ->FreePtr(ContextID, Ptr); + } +} + +// Generic block duplication +void* CMSEXPORT _cmsDupMem(cmsContext ContextID, const void* Org, cmsUInt32Number size) +{ + _cmsMemPluginChunkType* ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + return ptr ->DupPtr(ContextID, Org, size); +} + +// ******************************************************************************************** + +// Sub allocation takes care of many pointers of small size. The memory allocated in +// this way have be freed at once. Next function allocates a single chunk for linked list +// I prefer this method over realloc due to the big inpact on xput realloc may have if +// memory is being swapped to disk. This approach is safer (although that may not be true on all platforms) +static +_cmsSubAllocator_chunk* _cmsCreateSubAllocChunk(cmsContext ContextID, cmsUInt32Number Initial) +{ + _cmsSubAllocator_chunk* chunk; + + // 20K by default + if (Initial == 0) + Initial = 20*1024; + + // Create the container + chunk = (_cmsSubAllocator_chunk*) _cmsMallocZero(ContextID, sizeof(_cmsSubAllocator_chunk)); + if (chunk == NULL) return NULL; + + // Initialize values + chunk ->Block = (cmsUInt8Number*) _cmsMalloc(ContextID, Initial); + if (chunk ->Block == NULL) { + + // Something went wrong + _cmsFree(ContextID, chunk); + return NULL; + } + + chunk ->BlockSize = Initial; + chunk ->Used = 0; + chunk ->next = NULL; + + return chunk; +} + +// The suballocated is nothing but a pointer to the first element in the list. We also keep +// the thread ID in this structure. +_cmsSubAllocator* _cmsCreateSubAlloc(cmsContext ContextID, cmsUInt32Number Initial) +{ + _cmsSubAllocator* sub; + + // Create the container + sub = (_cmsSubAllocator*) _cmsMallocZero(ContextID, sizeof(_cmsSubAllocator)); + if (sub == NULL) return NULL; + + sub ->ContextID = ContextID; + + sub ->h = _cmsCreateSubAllocChunk(ContextID, Initial); + if (sub ->h == NULL) { + _cmsFree(ContextID, sub); + return NULL; + } + + return sub; +} + + +// Get rid of whole linked list +void _cmsSubAllocDestroy(_cmsSubAllocator* sub) +{ + _cmsSubAllocator_chunk *chunk, *n; + + for (chunk = sub ->h; chunk != NULL; chunk = n) { + + n = chunk->next; + if (chunk->Block != NULL) _cmsFree(sub ->ContextID, chunk->Block); + _cmsFree(sub ->ContextID, chunk); + } + + // Free the header + _cmsFree(sub ->ContextID, sub); +} + + +// Get a pointer to small memory block. +void* _cmsSubAlloc(_cmsSubAllocator* sub, cmsUInt32Number size) +{ + cmsUInt32Number Free = sub -> h ->BlockSize - sub -> h -> Used; + cmsUInt8Number* ptr; + + size = _cmsALIGNMEM(size); + + // Check for memory. If there is no room, allocate a new chunk of double memory size. + if (size > Free) { + + _cmsSubAllocator_chunk* chunk; + cmsUInt32Number newSize; + + newSize = sub -> h ->BlockSize * 2; + if (newSize < size) newSize = size; + + chunk = _cmsCreateSubAllocChunk(sub -> ContextID, newSize); + if (chunk == NULL) return NULL; + + // Link list + chunk ->next = sub ->h; + sub ->h = chunk; + + } + + ptr = sub -> h ->Block + sub -> h ->Used; + sub -> h -> Used += size; + + return (void*) ptr; +} + +// Duplicate in pool +void* _cmsSubAllocDup(_cmsSubAllocator* s, const void *ptr, cmsUInt32Number size) +{ + void *NewPtr; + + // Dup of null pointer is also NULL + if (ptr == NULL) + return NULL; + + NewPtr = _cmsSubAlloc(s, size); + + if (ptr != NULL && NewPtr != NULL) { + memcpy(NewPtr, ptr, size); + } + + return NewPtr; +} + + + +// Error logging ****************************************************************** + +// There is no error handling at all. When a function fails, it returns proper value. +// For example, all create functions does return NULL on failure. Other return FALSE +// It may be interesting, for the developer, to know why the function is failing. +// for that reason, lcms2 does offer a logging function. This function does recive +// a ENGLISH string with some clues on what is going wrong. You can show this +// info to the end user, or just create some sort of log. +// The logging function should NOT terminate the program, as this obviously can leave +// resources. It is the programmer's responsibility to check each function return code +// to make sure it didn't fail. + +// Error messages are limited to MAX_ERROR_MESSAGE_LEN + +#define MAX_ERROR_MESSAGE_LEN 1024 + +// --------------------------------------------------------------------------------------------------------- + +// This is our default log error +static void DefaultLogErrorHandlerFunction(cmsContext ContextID, cmsUInt32Number ErrorCode, const char *Text); + +// Context0 storage, which is global +_cmsLogErrorChunkType _cmsLogErrorChunk = { DefaultLogErrorHandlerFunction }; + +// Allocates and inits error logger container for a given context. If src is NULL, only initializes the value +// to the default. Otherwise, it duplicates the value. The interface is standard across all context clients +void _cmsAllocLogErrorChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + static _cmsLogErrorChunkType LogErrorChunk = { DefaultLogErrorHandlerFunction }; + void* from; + + if (src != NULL) { + from = src ->chunks[Logger]; + } + else { + from = &LogErrorChunk; + } + + ctx ->chunks[Logger] = _cmsSubAllocDup(ctx ->MemPool, from, sizeof(_cmsLogErrorChunkType)); +} + +// The default error logger does nothing. +static +void DefaultLogErrorHandlerFunction(cmsContext ContextID, cmsUInt32Number ErrorCode, const char *Text) +{ + // fprintf(stderr, "[lcms]: %s\n", Text); + // fflush(stderr); + + cmsUNUSED_PARAMETER(ContextID); + cmsUNUSED_PARAMETER(ErrorCode); + cmsUNUSED_PARAMETER(Text); +} + +// Change log error, context based +void CMSEXPORT cmsSetLogErrorHandlerTHR(cmsContext ContextID, cmsLogErrorHandlerFunction Fn) +{ + _cmsLogErrorChunkType* lhg = (_cmsLogErrorChunkType*) _cmsContextGetClientChunk(ContextID, Logger); + + if (lhg != NULL) { + + if (Fn == NULL) + lhg -> LogErrorHandler = DefaultLogErrorHandlerFunction; + else + lhg -> LogErrorHandler = Fn; + } +} + +// Change log error, legacy +void CMSEXPORT cmsSetLogErrorHandler(cmsLogErrorHandlerFunction Fn) +{ + cmsSetLogErrorHandlerTHR(NULL, Fn); +} + +// Log an error +// ErrorText is a text holding an english description of error. +void CMSEXPORT cmsSignalError(cmsContext ContextID, cmsUInt32Number ErrorCode, const char *ErrorText, ...) +{ + va_list args; + char Buffer[MAX_ERROR_MESSAGE_LEN]; + _cmsLogErrorChunkType* lhg; + + + va_start(args, ErrorText); + vsnprintf(Buffer, MAX_ERROR_MESSAGE_LEN-1, ErrorText, args); + va_end(args); + + // Check for the context, if specified go there. If not, go for the global + lhg = (_cmsLogErrorChunkType*) _cmsContextGetClientChunk(ContextID, Logger); + if (lhg ->LogErrorHandler) { + lhg ->LogErrorHandler(ContextID, ErrorCode, Buffer); + } +} + +// Utility function to print signatures +void _cmsTagSignature2String(char String[5], cmsTagSignature sig) +{ + cmsUInt32Number be; + + // Convert to big endian + be = _cmsAdjustEndianess32((cmsUInt32Number) sig); + + // Move chars + memmove(String, &be, 4); + + // Make sure of terminator + String[4] = 0; +} + +//-------------------------------------------------------------------------------------------------- + + +static +void* defMtxCreate(cmsContext id) +{ + _cmsMutex* ptr_mutex = (_cmsMutex*) _cmsMalloc(id, sizeof(_cmsMutex)); + _cmsInitMutexPrimitive(ptr_mutex); + return (void*) ptr_mutex; +} + +static +void defMtxDestroy(cmsContext id, void* mtx) +{ + _cmsDestroyMutexPrimitive((_cmsMutex *) mtx); + _cmsFree(id, mtx); +} + +static +cmsBool defMtxLock(cmsContext id, void* mtx) +{ + cmsUNUSED_PARAMETER(id); + return _cmsLockPrimitive((_cmsMutex *) mtx) == 0; +} + +static +void defMtxUnlock(cmsContext id, void* mtx) +{ + cmsUNUSED_PARAMETER(id); + _cmsUnlockPrimitive((_cmsMutex *) mtx); +} + + + +// Pointers to memory manager functions in Context0 +_cmsMutexPluginChunkType _cmsMutexPluginChunk = { defMtxCreate, defMtxDestroy, defMtxLock, defMtxUnlock }; + +// Allocate and init mutex container. +void _cmsAllocMutexPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + static _cmsMutexPluginChunkType MutexChunk = {defMtxCreate, defMtxDestroy, defMtxLock, defMtxUnlock }; + void* from; + + if (src != NULL) { + from = src ->chunks[MutexPlugin]; + } + else { + from = &MutexChunk; + } + + ctx ->chunks[MutexPlugin] = _cmsSubAllocDup(ctx ->MemPool, from, sizeof(_cmsMutexPluginChunkType)); +} + +// Register new ways to transform +cmsBool _cmsRegisterMutexPlugin(cmsContext ContextID, cmsPluginBase* Data) +{ + cmsPluginMutex* Plugin = (cmsPluginMutex*) Data; + _cmsMutexPluginChunkType* ctx = ( _cmsMutexPluginChunkType*) _cmsContextGetClientChunk(ContextID, MutexPlugin); + + if (Data == NULL) { + + // No lock routines + ctx->CreateMutexPtr = NULL; + ctx->DestroyMutexPtr = NULL; + ctx->LockMutexPtr = NULL; + ctx ->UnlockMutexPtr = NULL; + return TRUE; + } + + // Factory callback is required + if (Plugin ->CreateMutexPtr == NULL || Plugin ->DestroyMutexPtr == NULL || + Plugin ->LockMutexPtr == NULL || Plugin ->UnlockMutexPtr == NULL) return FALSE; + + + ctx->CreateMutexPtr = Plugin->CreateMutexPtr; + ctx->DestroyMutexPtr = Plugin ->DestroyMutexPtr; + ctx ->LockMutexPtr = Plugin ->LockMutexPtr; + ctx ->UnlockMutexPtr = Plugin ->UnlockMutexPtr; + + // All is ok + return TRUE; +} + +// Generic Mutex fns +void* CMSEXPORT _cmsCreateMutex(cmsContext ContextID) +{ + _cmsMutexPluginChunkType* ptr = (_cmsMutexPluginChunkType*) _cmsContextGetClientChunk(ContextID, MutexPlugin); + + if (ptr ->CreateMutexPtr == NULL) return NULL; + + return ptr ->CreateMutexPtr(ContextID); +} + +void CMSEXPORT _cmsDestroyMutex(cmsContext ContextID, void* mtx) +{ + _cmsMutexPluginChunkType* ptr = (_cmsMutexPluginChunkType*) _cmsContextGetClientChunk(ContextID, MutexPlugin); + + if (ptr ->DestroyMutexPtr != NULL) { + + ptr ->DestroyMutexPtr(ContextID, mtx); + } +} + +cmsBool CMSEXPORT _cmsLockMutex(cmsContext ContextID, void* mtx) +{ + _cmsMutexPluginChunkType* ptr = (_cmsMutexPluginChunkType*) _cmsContextGetClientChunk(ContextID, MutexPlugin); + + if (ptr ->LockMutexPtr == NULL) return TRUE; + + return ptr ->LockMutexPtr(ContextID, mtx); +} + +void CMSEXPORT _cmsUnlockMutex(cmsContext ContextID, void* mtx) +{ + _cmsMutexPluginChunkType* ptr = (_cmsMutexPluginChunkType*) _cmsContextGetClientChunk(ContextID, MutexPlugin); + + if (ptr ->UnlockMutexPtr != NULL) { + + ptr ->UnlockMutexPtr(ContextID, mtx); + } +} Index: sdk/lib/3rdparty/lcms2/cmsgamma.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsgamma.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsgamma.c (working copy) @@ -0,0 +1,1275 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2013 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// +#include "lcms2_internal.h" + +// Tone curves are powerful constructs that can contain curves specified in diverse ways. +// The curve is stored in segments, where each segment can be sampled or specified by parameters. +// a 16.bit simplification of the *whole* curve is kept for optimization purposes. For float operation, +// each segment is evaluated separately. Plug-ins may be used to define new parametric schemes, +// each plug-in may define up to MAX_TYPES_IN_LCMS_PLUGIN functions types. For defining a function, +// the plug-in should provide the type id, how many parameters each type has, and a pointer to +// a procedure that evaluates the function. In the case of reverse evaluation, the evaluator will +// be called with the type id as a negative value, and a sampled version of the reversed curve +// will be built. + +// ----------------------------------------------------------------- Implementation +// Maxim number of nodes +#define MAX_NODES_IN_CURVE 4097 +#define MINUS_INF (-1E22F) +#define PLUS_INF (+1E22F) + +// The list of supported parametric curves +typedef struct _cmsParametricCurvesCollection_st { + + int nFunctions; // Number of supported functions in this chunk + int FunctionTypes[MAX_TYPES_IN_LCMS_PLUGIN]; // The identification types + int ParameterCount[MAX_TYPES_IN_LCMS_PLUGIN]; // Number of parameters for each function + cmsParametricCurveEvaluator Evaluator; // The evaluator + + struct _cmsParametricCurvesCollection_st* Next; // Next in list + +} _cmsParametricCurvesCollection; + +// This is the default (built-in) evaluator +static cmsFloat64Number DefaultEvalParametricFn(cmsInt32Number Type, const cmsFloat64Number Params[], cmsFloat64Number R); + +// The built-in list +static _cmsParametricCurvesCollection DefaultCurves = { + 9, // # of curve types + { 1, 2, 3, 4, 5, 6, 7, 8, 108 }, // Parametric curve ID + { 1, 3, 4, 5, 7, 4, 5, 5, 1 }, // Parameters by type + DefaultEvalParametricFn, // Evaluator + NULL // Next in chain +}; + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupPluginCurvesList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsCurvesPluginChunkType newHead = { NULL }; + _cmsParametricCurvesCollection* entry; + _cmsParametricCurvesCollection* Anterior = NULL; + _cmsCurvesPluginChunkType* head = (_cmsCurvesPluginChunkType*) src->chunks[CurvesPlugin]; + + _cmsAssert(head != NULL); + + // Walk the list copying all nodes + for (entry = head->ParametricCurves; + entry != NULL; + entry = entry ->Next) { + + _cmsParametricCurvesCollection *newEntry = ( _cmsParametricCurvesCollection *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(_cmsParametricCurvesCollection)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.ParametricCurves == NULL) + newHead.ParametricCurves = newEntry; + } + + ctx ->chunks[CurvesPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsCurvesPluginChunkType)); +} + +// The allocator have to follow the chain +void _cmsAllocCurvesPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsAssert(ctx != NULL); + + if (src != NULL) { + + // Copy all linked list + DupPluginCurvesList(ctx, src); + } + else { + static _cmsCurvesPluginChunkType CurvesPluginChunk = { NULL }; + ctx ->chunks[CurvesPlugin] = _cmsSubAllocDup(ctx ->MemPool, &CurvesPluginChunk, sizeof(_cmsCurvesPluginChunkType)); + } +} + + +// The linked list head +_cmsCurvesPluginChunkType _cmsCurvesPluginChunk = { NULL }; + +// As a way to install new parametric curves +cmsBool _cmsRegisterParametricCurvesPlugin(cmsContext ContextID, cmsPluginBase* Data) +{ + _cmsCurvesPluginChunkType* ctx = ( _cmsCurvesPluginChunkType*) _cmsContextGetClientChunk(ContextID, CurvesPlugin); + cmsPluginParametricCurves* Plugin = (cmsPluginParametricCurves*) Data; + _cmsParametricCurvesCollection* fl; + + if (Data == NULL) { + + ctx -> ParametricCurves = NULL; + return TRUE; + } + + fl = (_cmsParametricCurvesCollection*) _cmsPluginMalloc(ContextID, sizeof(_cmsParametricCurvesCollection)); + if (fl == NULL) return FALSE; + + // Copy the parameters + fl ->Evaluator = Plugin ->Evaluator; + fl ->nFunctions = Plugin ->nFunctions; + + // Make sure no mem overwrites + if (fl ->nFunctions > MAX_TYPES_IN_LCMS_PLUGIN) + fl ->nFunctions = MAX_TYPES_IN_LCMS_PLUGIN; + + // Copy the data + memmove(fl->FunctionTypes, Plugin ->FunctionTypes, fl->nFunctions * sizeof(cmsUInt32Number)); + memmove(fl->ParameterCount, Plugin ->ParameterCount, fl->nFunctions * sizeof(cmsUInt32Number)); + + // Keep linked list + fl ->Next = ctx->ParametricCurves; + ctx->ParametricCurves = fl; + + // All is ok + return TRUE; +} + + +// Search in type list, return position or -1 if not found +static +int IsInSet(int Type, _cmsParametricCurvesCollection* c) +{ + int i; + + for (i=0; i < c ->nFunctions; i++) + if (abs(Type) == c ->FunctionTypes[i]) return i; + + return -1; +} + + +// Search for the collection which contains a specific type +static +_cmsParametricCurvesCollection *GetParametricCurveByType(cmsContext ContextID, int Type, int* index) +{ + _cmsParametricCurvesCollection* c; + int Position; + _cmsCurvesPluginChunkType* ctx = ( _cmsCurvesPluginChunkType*) _cmsContextGetClientChunk(ContextID, CurvesPlugin); + + for (c = ctx->ParametricCurves; c != NULL; c = c ->Next) { + + Position = IsInSet(Type, c); + + if (Position != -1) { + if (index != NULL) + *index = Position; + return c; + } + } + // If none found, revert for defaults + for (c = &DefaultCurves; c != NULL; c = c ->Next) { + + Position = IsInSet(Type, c); + + if (Position != -1) { + if (index != NULL) + *index = Position; + return c; + } + } + + return NULL; +} + +// Low level allocate, which takes care of memory details. nEntries may be zero, and in this case +// no optimation curve is computed. nSegments may also be zero in the inverse case, where only the +// optimization curve is given. Both features simultaneously is an error +static +cmsToneCurve* AllocateToneCurveStruct(cmsContext ContextID, cmsInt32Number nEntries, + cmsInt32Number nSegments, const cmsCurveSegment* Segments, + const cmsUInt16Number* Values) +{ + cmsToneCurve* p; + int i; + + // We allow huge tables, which are then restricted for smoothing operations + if (nEntries > 65530 || nEntries < 0) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Couldn't create tone curve of more than 65530 entries"); + return NULL; + } + + if (nEntries <= 0 && nSegments <= 0) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Couldn't create tone curve with zero segments and no table"); + return NULL; + } + + // Allocate all required pointers, etc. + p = (cmsToneCurve*) _cmsMallocZero(ContextID, sizeof(cmsToneCurve)); + if (!p) return NULL; + + // In this case, there are no segments + if (nSegments <= 0) { + p ->Segments = NULL; + p ->Evals = NULL; + } + else { + p ->Segments = (cmsCurveSegment*) _cmsCalloc(ContextID, nSegments, sizeof(cmsCurveSegment)); + if (p ->Segments == NULL) goto Error; + + p ->Evals = (cmsParametricCurveEvaluator*) _cmsCalloc(ContextID, nSegments, sizeof(cmsParametricCurveEvaluator)); + if (p ->Evals == NULL) goto Error; + } + + p -> nSegments = nSegments; + + // This 16-bit table contains a limited precision representation of the whole curve and is kept for + // increasing xput on certain operations. + if (nEntries <= 0) { + p ->Table16 = NULL; + } + else { + p ->Table16 = (cmsUInt16Number*) _cmsCalloc(ContextID, nEntries, sizeof(cmsUInt16Number)); + if (p ->Table16 == NULL) goto Error; + } + + p -> nEntries = nEntries; + + // Initialize members if requested + if (Values != NULL && (nEntries > 0)) { + + for (i=0; i < nEntries; i++) + p ->Table16[i] = Values[i]; + } + + // Initialize the segments stuff. The evaluator for each segment is located and a pointer to it + // is placed in advance to maximize performance. + if (Segments != NULL && (nSegments > 0)) { + + _cmsParametricCurvesCollection *c; + + p ->SegInterp = (cmsInterpParams**) _cmsCalloc(ContextID, nSegments, sizeof(cmsInterpParams*)); + if (p ->SegInterp == NULL) goto Error; + + for (i=0; i< nSegments; i++) { + + // Type 0 is a special marker for table-based curves + if (Segments[i].Type == 0) + p ->SegInterp[i] = _cmsComputeInterpParams(ContextID, Segments[i].nGridPoints, 1, 1, NULL, CMS_LERP_FLAGS_FLOAT); + + memmove(&p ->Segments[i], &Segments[i], sizeof(cmsCurveSegment)); + + if (Segments[i].Type == 0 && Segments[i].SampledPoints != NULL) + p ->Segments[i].SampledPoints = (cmsFloat32Number*) _cmsDupMem(ContextID, Segments[i].SampledPoints, sizeof(cmsFloat32Number) * Segments[i].nGridPoints); + else + p ->Segments[i].SampledPoints = NULL; + + + c = GetParametricCurveByType(ContextID, Segments[i].Type, NULL); + if (c != NULL) + p ->Evals[i] = c ->Evaluator; + } + } + + p ->InterpParams = _cmsComputeInterpParams(ContextID, p ->nEntries, 1, 1, p->Table16, CMS_LERP_FLAGS_16BITS); + if (p->InterpParams != NULL) + return p; + +Error: + if (p -> Segments) _cmsFree(ContextID, p ->Segments); + if (p -> Evals) _cmsFree(ContextID, p -> Evals); + if (p ->Table16) _cmsFree(ContextID, p ->Table16); + _cmsFree(ContextID, p); + return NULL; +} + + +// Parametric Fn using floating point +static +cmsFloat64Number DefaultEvalParametricFn(cmsInt32Number Type, const cmsFloat64Number Params[], cmsFloat64Number R) +{ + cmsFloat64Number e, Val, disc; + + switch (Type) { + + // X = Y ^ Gamma + case 1: + if (R < 0) { + + if (fabs(Params[0] - 1.0) < MATRIX_DET_TOLERANCE) + Val = R; + else + Val = 0; + } + else + Val = pow(R, Params[0]); + break; + + // Type 1 Reversed: X = Y ^1/gamma + case -1: + if (R < 0) { + + if (fabs(Params[0] - 1.0) < MATRIX_DET_TOLERANCE) + Val = R; + else + Val = 0; + } + else + Val = pow(R, 1/Params[0]); + break; + + // CIE 122-1966 + // Y = (aX + b)^Gamma | X >= -b/a + // Y = 0 | else + case 2: + disc = -Params[2] / Params[1]; + + if (R >= disc ) { + + e = Params[1]*R + Params[2]; + + if (e > 0) + Val = pow(e, Params[0]); + else + Val = 0; + } + else + Val = 0; + break; + + // Type 2 Reversed + // X = (Y ^1/g - b) / a + case -2: + if (R < 0) + Val = 0; + else + Val = (pow(R, 1.0/Params[0]) - Params[2]) / Params[1]; + + if (Val < 0) + Val = 0; + break; + + + // IEC 61966-3 + // Y = (aX + b)^Gamma | X <= -b/a + // Y = c | else + case 3: + disc = -Params[2] / Params[1]; + if (disc < 0) + disc = 0; + + if (R >= disc) { + + e = Params[1]*R + Params[2]; + + if (e > 0) + Val = pow(e, Params[0]) + Params[3]; + else + Val = 0; + } + else + Val = Params[3]; + break; + + + // Type 3 reversed + // X=((Y-c)^1/g - b)/a | (Y>=c) + // X=-b/a | (Y= Params[3]) { + + e = R - Params[3]; + + if (e > 0) + Val = (pow(e, 1/Params[0]) - Params[2]) / Params[1]; + else + Val = 0; + } + else { + Val = -Params[2] / Params[1]; + } + break; + + + // IEC 61966-2.1 (sRGB) + // Y = (aX + b)^Gamma | X >= d + // Y = cX | X < d + case 4: + if (R >= Params[4]) { + + e = Params[1]*R + Params[2]; + + if (e > 0) + Val = pow(e, Params[0]); + else + Val = 0; + } + else + Val = R * Params[3]; + break; + + // Type 4 reversed + // X=((Y^1/g-b)/a) | Y >= (ad+b)^g + // X=Y/c | Y< (ad+b)^g + case -4: + e = Params[1] * Params[4] + Params[2]; + if (e < 0) + disc = 0; + else + disc = pow(e, Params[0]); + + if (R >= disc) { + + Val = (pow(R, 1.0/Params[0]) - Params[2]) / Params[1]; + } + else { + Val = R / Params[3]; + } + break; + + + // Y = (aX + b)^Gamma + e | X >= d + // Y = cX + f | X < d + case 5: + if (R >= Params[4]) { + + e = Params[1]*R + Params[2]; + + if (e > 0) + Val = pow(e, Params[0]) + Params[5]; + else + Val = Params[5]; + } + else + Val = R*Params[3] + Params[6]; + break; + + + // Reversed type 5 + // X=((Y-e)1/g-b)/a | Y >=(ad+b)^g+e), cd+f + // X=(Y-f)/c | else + case -5: + + disc = Params[3] * Params[4] + Params[6]; + if (R >= disc) { + + e = R - Params[5]; + if (e < 0) + Val = 0; + else + Val = (pow(e, 1.0/Params[0]) - Params[2]) / Params[1]; + } + else { + Val = (R - Params[6]) / Params[3]; + } + break; + + + // Types 6,7,8 comes from segmented curves as described in ICCSpecRevision_02_11_06_Float.pdf + // Type 6 is basically identical to type 5 without d + + // Y = (a * X + b) ^ Gamma + c + case 6: + e = Params[1]*R + Params[2]; + + if (e < 0) + Val = Params[3]; + else + Val = pow(e, Params[0]) + Params[3]; + break; + + // ((Y - c) ^1/Gamma - b) / a + case -6: + e = R - Params[3]; + if (e < 0) + Val = 0; + else + Val = (pow(e, 1.0/Params[0]) - Params[2]) / Params[1]; + break; + + + // Y = a * log (b * X^Gamma + c) + d + case 7: + + e = Params[2] * pow(R, Params[0]) + Params[3]; + if (e <= 0) + Val = Params[4]; + else + Val = Params[1]*log10(e) + Params[4]; + break; + + // (Y - d) / a = log(b * X ^Gamma + c) + // pow(10, (Y-d) / a) = b * X ^Gamma + c + // pow((pow(10, (Y-d) / a) - c) / b, 1/g) = X + case -7: + Val = pow((pow(10.0, (R-Params[4]) / Params[1]) - Params[3]) / Params[2], 1.0 / Params[0]); + break; + + + //Y = a * b^(c*X+d) + e + case 8: + Val = (Params[0] * pow(Params[1], Params[2] * R + Params[3]) + Params[4]); + break; + + + // Y = (log((y-e) / a) / log(b) - d ) / c + // a=0, b=1, c=2, d=3, e=4, + case -8: + + disc = R - Params[4]; + if (disc < 0) Val = 0; + else + Val = (log(disc / Params[0]) / log(Params[1]) - Params[3]) / Params[2]; + break; + + // S-Shaped: (1 - (1-x)^1/g)^1/g + case 108: + Val = pow(1.0 - pow(1 - R, 1/Params[0]), 1/Params[0]); + break; + + // y = (1 - (1-x)^1/g)^1/g + // y^g = (1 - (1-x)^1/g) + // 1 - y^g = (1-x)^1/g + // (1 - y^g)^g = 1 - x + // 1 - (1 - y^g)^g + case -108: + Val = 1 - pow(1 - pow(R, Params[0]), Params[0]); + break; + + default: + // Unsupported parametric curve. Should never reach here + return 0; + } + + return Val; +} + +// Evaluate a segmented function for a single value. Return -1 if no valid segment found . +// If fn type is 0, perform an interpolation on the table +static +cmsFloat64Number EvalSegmentedFn(const cmsToneCurve *g, cmsFloat64Number R) +{ + int i; + + for (i = g ->nSegments-1; i >= 0 ; --i) { + + // Check for domain + if ((R > g ->Segments[i].x0) && (R <= g ->Segments[i].x1)) { + + // Type == 0 means segment is sampled + if (g ->Segments[i].Type == 0) { + + cmsFloat32Number R1 = (cmsFloat32Number) (R - g ->Segments[i].x0) / (g ->Segments[i].x1 - g ->Segments[i].x0); + cmsFloat32Number Out; + + // Setup the table (TODO: clean that) + g ->SegInterp[i]-> Table = g ->Segments[i].SampledPoints; + + g ->SegInterp[i] -> Interpolation.LerpFloat(&R1, &Out, g ->SegInterp[i]); + + return Out; + } + else + return g ->Evals[i](g->Segments[i].Type, g ->Segments[i].Params, R); + } + } + + return MINUS_INF; +} + +// Access to estimated low-res table +cmsUInt32Number CMSEXPORT cmsGetToneCurveEstimatedTableEntries(const cmsToneCurve* t) +{ + _cmsAssert(t != NULL); + return t ->nEntries; +} + +const cmsUInt16Number* CMSEXPORT cmsGetToneCurveEstimatedTable(const cmsToneCurve* t) +{ + _cmsAssert(t != NULL); + return t ->Table16; +} + + +// Create an empty gamma curve, by using tables. This specifies only the limited-precision part, and leaves the +// floating point description empty. +cmsToneCurve* CMSEXPORT cmsBuildTabulatedToneCurve16(cmsContext ContextID, cmsInt32Number nEntries, const cmsUInt16Number Values[]) +{ + return AllocateToneCurveStruct(ContextID, nEntries, 0, NULL, Values); +} + +static +int EntriesByGamma(cmsFloat64Number Gamma) +{ + if (fabs(Gamma - 1.0) < 0.001) return 2; + return 4096; +} + + +// Create a segmented gamma, fill the table +cmsToneCurve* CMSEXPORT cmsBuildSegmentedToneCurve(cmsContext ContextID, + cmsInt32Number nSegments, const cmsCurveSegment Segments[]) +{ + int i; + cmsFloat64Number R, Val; + cmsToneCurve* g; + int nGridPoints = 4096; + + _cmsAssert(Segments != NULL); + + // Optimizatin for identity curves. + if (nSegments == 1 && Segments[0].Type == 1) { + + nGridPoints = EntriesByGamma(Segments[0].Params[0]); + } + + g = AllocateToneCurveStruct(ContextID, nGridPoints, nSegments, Segments, NULL); + if (g == NULL) return NULL; + + // Once we have the floating point version, we can approximate a 16 bit table of 4096 entries + // for performance reasons. This table would normally not be used except on 8/16 bits transforms. + for (i=0; i < nGridPoints; i++) { + + R = (cmsFloat64Number) i / (nGridPoints-1); + + Val = EvalSegmentedFn(g, R); + + // Round and saturate + g ->Table16[i] = _cmsQuickSaturateWord(Val * 65535.0); + } + + return g; +} + +// Use a segmented curve to store the floating point table +cmsToneCurve* CMSEXPORT cmsBuildTabulatedToneCurveFloat(cmsContext ContextID, cmsUInt32Number nEntries, const cmsFloat32Number values[]) +{ + cmsCurveSegment Seg[3]; + + // A segmented tone curve should have function segments in the first and last positions + // Initialize segmented curve part up to 0 to constant value = samples[0] + Seg[0].x0 = MINUS_INF; + Seg[0].x1 = 0; + Seg[0].Type = 6; + + Seg[0].Params[0] = 1; + Seg[0].Params[1] = 0; + Seg[0].Params[2] = 0; + Seg[0].Params[3] = values[0]; + Seg[0].Params[4] = 0; + + // From zero to 1 + Seg[1].x0 = 0; + Seg[1].x1 = 1.0; + Seg[1].Type = 0; + + Seg[1].nGridPoints = nEntries; + Seg[1].SampledPoints = (cmsFloat32Number*) values; + + // Final segment is constant = lastsample + Seg[2].x0 = 1.0; + Seg[2].x1 = PLUS_INF; + Seg[2].Type = 6; + + Seg[2].Params[0] = 1; + Seg[2].Params[1] = 0; + Seg[2].Params[2] = 0; + Seg[2].Params[3] = values[nEntries-1]; + Seg[2].Params[4] = 0; + + + return cmsBuildSegmentedToneCurve(ContextID, 3, Seg); +} + +// Parametric curves +// +// Parameters goes as: Curve, a, b, c, d, e, f +// Type is the ICC type +1 +// if type is negative, then the curve is analyticaly inverted +cmsToneCurve* CMSEXPORT cmsBuildParametricToneCurve(cmsContext ContextID, cmsInt32Number Type, const cmsFloat64Number Params[]) +{ + cmsCurveSegment Seg0; + int Pos = 0; + cmsUInt32Number size; + _cmsParametricCurvesCollection* c = GetParametricCurveByType(ContextID, Type, &Pos); + + _cmsAssert(Params != NULL); + + if (c == NULL) { + cmsSignalError(ContextID, cmsERROR_UNKNOWN_EXTENSION, "Invalid parametric curve type %d", Type); + return NULL; + } + + memset(&Seg0, 0, sizeof(Seg0)); + + Seg0.x0 = MINUS_INF; + Seg0.x1 = PLUS_INF; + Seg0.Type = Type; + + size = c->ParameterCount[Pos] * sizeof(cmsFloat64Number); + memmove(Seg0.Params, Params, size); + + return cmsBuildSegmentedToneCurve(ContextID, 1, &Seg0); +} + + + +// Build a gamma table based on gamma constant +cmsToneCurve* CMSEXPORT cmsBuildGamma(cmsContext ContextID, cmsFloat64Number Gamma) +{ + return cmsBuildParametricToneCurve(ContextID, 1, &Gamma); +} + + +// Free all memory taken by the gamma curve +void CMSEXPORT cmsFreeToneCurve(cmsToneCurve* Curve) +{ + cmsContext ContextID; + + if (Curve == NULL) return; + + ContextID = Curve ->InterpParams->ContextID; + + _cmsFreeInterpParams(Curve ->InterpParams); + + if (Curve -> Table16) + _cmsFree(ContextID, Curve ->Table16); + + if (Curve ->Segments) { + + cmsUInt32Number i; + + for (i=0; i < Curve ->nSegments; i++) { + + if (Curve ->Segments[i].SampledPoints) { + _cmsFree(ContextID, Curve ->Segments[i].SampledPoints); + } + + if (Curve ->SegInterp[i] != 0) + _cmsFreeInterpParams(Curve->SegInterp[i]); + } + + _cmsFree(ContextID, Curve ->Segments); + _cmsFree(ContextID, Curve ->SegInterp); + } + + if (Curve -> Evals) + _cmsFree(ContextID, Curve -> Evals); + + if (Curve) _cmsFree(ContextID, Curve); +} + +// Utility function, free 3 gamma tables +void CMSEXPORT cmsFreeToneCurveTriple(cmsToneCurve* Curve[3]) +{ + + _cmsAssert(Curve != NULL); + + if (Curve[0] != NULL) cmsFreeToneCurve(Curve[0]); + if (Curve[1] != NULL) cmsFreeToneCurve(Curve[1]); + if (Curve[2] != NULL) cmsFreeToneCurve(Curve[2]); + + Curve[0] = Curve[1] = Curve[2] = NULL; +} + + +// Duplicate a gamma table +cmsToneCurve* CMSEXPORT cmsDupToneCurve(const cmsToneCurve* In) +{ + if (In == NULL) return NULL; + + return AllocateToneCurveStruct(In ->InterpParams ->ContextID, In ->nEntries, In ->nSegments, In ->Segments, In ->Table16); +} + +// Joins two curves for X and Y. Curves should be monotonic. +// We want to get +// +// y = Y^-1(X(t)) +// +cmsToneCurve* CMSEXPORT cmsJoinToneCurve(cmsContext ContextID, + const cmsToneCurve* X, + const cmsToneCurve* Y, cmsUInt32Number nResultingPoints) +{ + cmsToneCurve* out = NULL; + cmsToneCurve* Yreversed = NULL; + cmsFloat32Number t, x; + cmsFloat32Number* Res = NULL; + cmsUInt32Number i; + + + _cmsAssert(X != NULL); + _cmsAssert(Y != NULL); + + Yreversed = cmsReverseToneCurveEx(nResultingPoints, Y); + if (Yreversed == NULL) goto Error; + + Res = (cmsFloat32Number*) _cmsCalloc(ContextID, nResultingPoints, sizeof(cmsFloat32Number)); + if (Res == NULL) goto Error; + + //Iterate + for (i=0; i < nResultingPoints; i++) { + + t = (cmsFloat32Number) i / (nResultingPoints-1); + x = cmsEvalToneCurveFloat(X, t); + Res[i] = cmsEvalToneCurveFloat(Yreversed, x); + } + + // Allocate space for output + out = cmsBuildTabulatedToneCurveFloat(ContextID, nResultingPoints, Res); + +Error: + + if (Res != NULL) _cmsFree(ContextID, Res); + if (Yreversed != NULL) cmsFreeToneCurve(Yreversed); + + return out; +} + + + +// Get the surrounding nodes. This is tricky on non-monotonic tables +static +int GetInterval(cmsFloat64Number In, const cmsUInt16Number LutTable[], const struct _cms_interp_struc* p) +{ + int i; + int y0, y1; + + // A 1 point table is not allowed + if (p -> Domain[0] < 1) return -1; + + // Let's see if ascending or descending. + if (LutTable[0] < LutTable[p ->Domain[0]]) { + + // Table is overall ascending + for (i=p->Domain[0]-1; i >=0; --i) { + + y0 = LutTable[i]; + y1 = LutTable[i+1]; + + if (y0 <= y1) { // Increasing + if (In >= y0 && In <= y1) return i; + } + else + if (y1 < y0) { // Decreasing + if (In >= y1 && In <= y0) return i; + } + } + } + else { + // Table is overall descending + for (i=0; i < (int) p -> Domain[0]; i++) { + + y0 = LutTable[i]; + y1 = LutTable[i+1]; + + if (y0 <= y1) { // Increasing + if (In >= y0 && In <= y1) return i; + } + else + if (y1 < y0) { // Decreasing + if (In >= y1 && In <= y0) return i; + } + } + } + + return -1; +} + +// Reverse a gamma table +cmsToneCurve* CMSEXPORT cmsReverseToneCurveEx(cmsInt32Number nResultSamples, const cmsToneCurve* InCurve) +{ + cmsToneCurve *out; + cmsFloat64Number a = 0, b = 0, y, x1, y1, x2, y2; + int i, j; + int Ascending; + + _cmsAssert(InCurve != NULL); + + // Try to reverse it analytically whatever possible + + if (InCurve ->nSegments == 1 && InCurve ->Segments[0].Type > 0 && + /* InCurve -> Segments[0].Type <= 5 */ + GetParametricCurveByType(InCurve ->InterpParams->ContextID, InCurve ->Segments[0].Type, NULL) != NULL) { + + return cmsBuildParametricToneCurve(InCurve ->InterpParams->ContextID, + -(InCurve -> Segments[0].Type), + InCurve -> Segments[0].Params); + } + + // Nope, reverse the table. + out = cmsBuildTabulatedToneCurve16(InCurve ->InterpParams->ContextID, nResultSamples, NULL); + if (out == NULL) + return NULL; + + // We want to know if this is an ascending or descending table + Ascending = !cmsIsToneCurveDescending(InCurve); + + // Iterate across Y axis + for (i=0; i < nResultSamples; i++) { + + y = (cmsFloat64Number) i * 65535.0 / (nResultSamples - 1); + + // Find interval in which y is within. + j = GetInterval(y, InCurve->Table16, InCurve->InterpParams); + if (j >= 0) { + + + // Get limits of interval + x1 = InCurve ->Table16[j]; + x2 = InCurve ->Table16[j+1]; + + y1 = (cmsFloat64Number) (j * 65535.0) / (InCurve ->nEntries - 1); + y2 = (cmsFloat64Number) ((j+1) * 65535.0 ) / (InCurve ->nEntries - 1); + + // If collapsed, then use any + if (x1 == x2) { + + out ->Table16[i] = _cmsQuickSaturateWord(Ascending ? y2 : y1); + continue; + + } else { + + // Interpolate + a = (y2 - y1) / (x2 - x1); + b = y2 - a * x2; + } + } + + out ->Table16[i] = _cmsQuickSaturateWord(a* y + b); + } + + + return out; +} + +// Reverse a gamma table +cmsToneCurve* CMSEXPORT cmsReverseToneCurve(const cmsToneCurve* InGamma) +{ + _cmsAssert(InGamma != NULL); + + return cmsReverseToneCurveEx(4096, InGamma); +} + +// From: Eilers, P.H.C. (1994) Smoothing and interpolation with finite +// differences. in: Graphic Gems IV, Heckbert, P.S. (ed.), Academic press. +// +// Smoothing and interpolation with second differences. +// +// Input: weights (w), data (y): vector from 1 to m. +// Input: smoothing parameter (lambda), length (m). +// Output: smoothed vector (z): vector from 1 to m. + +static +cmsBool smooth2(cmsContext ContextID, cmsFloat32Number w[], cmsFloat32Number y[], cmsFloat32Number z[], cmsFloat32Number lambda, int m) +{ + int i, i1, i2; + cmsFloat32Number *c, *d, *e; + cmsBool st; + + + c = (cmsFloat32Number*) _cmsCalloc(ContextID, MAX_NODES_IN_CURVE, sizeof(cmsFloat32Number)); + d = (cmsFloat32Number*) _cmsCalloc(ContextID, MAX_NODES_IN_CURVE, sizeof(cmsFloat32Number)); + e = (cmsFloat32Number*) _cmsCalloc(ContextID, MAX_NODES_IN_CURVE, sizeof(cmsFloat32Number)); + + if (c != NULL && d != NULL && e != NULL) { + + + d[1] = w[1] + lambda; + c[1] = -2 * lambda / d[1]; + e[1] = lambda /d[1]; + z[1] = w[1] * y[1]; + d[2] = w[2] + 5 * lambda - d[1] * c[1] * c[1]; + c[2] = (-4 * lambda - d[1] * c[1] * e[1]) / d[2]; + e[2] = lambda / d[2]; + z[2] = w[2] * y[2] - c[1] * z[1]; + + for (i = 3; i < m - 1; i++) { + i1 = i - 1; i2 = i - 2; + d[i]= w[i] + 6 * lambda - c[i1] * c[i1] * d[i1] - e[i2] * e[i2] * d[i2]; + c[i] = (-4 * lambda -d[i1] * c[i1] * e[i1])/ d[i]; + e[i] = lambda / d[i]; + z[i] = w[i] * y[i] - c[i1] * z[i1] - e[i2] * z[i2]; + } + + i1 = m - 2; i2 = m - 3; + + d[m - 1] = w[m - 1] + 5 * lambda -c[i1] * c[i1] * d[i1] - e[i2] * e[i2] * d[i2]; + c[m - 1] = (-2 * lambda - d[i1] * c[i1] * e[i1]) / d[m - 1]; + z[m - 1] = w[m - 1] * y[m - 1] - c[i1] * z[i1] - e[i2] * z[i2]; + i1 = m - 1; i2 = m - 2; + + d[m] = w[m] + lambda - c[i1] * c[i1] * d[i1] - e[i2] * e[i2] * d[i2]; + z[m] = (w[m] * y[m] - c[i1] * z[i1] - e[i2] * z[i2]) / d[m]; + z[m - 1] = z[m - 1] / d[m - 1] - c[m - 1] * z[m]; + + for (i = m - 2; 1<= i; i--) + z[i] = z[i] / d[i] - c[i] * z[i + 1] - e[i] * z[i + 2]; + + st = TRUE; + } + else st = FALSE; + + if (c != NULL) _cmsFree(ContextID, c); + if (d != NULL) _cmsFree(ContextID, d); + if (e != NULL) _cmsFree(ContextID, e); + + return st; +} + +// Smooths a curve sampled at regular intervals. +cmsBool CMSEXPORT cmsSmoothToneCurve(cmsToneCurve* Tab, cmsFloat64Number lambda) +{ + cmsFloat32Number w[MAX_NODES_IN_CURVE], y[MAX_NODES_IN_CURVE], z[MAX_NODES_IN_CURVE]; + int i, nItems, Zeros, Poles; + + if (Tab == NULL) return FALSE; + + if (cmsIsToneCurveLinear(Tab)) return TRUE; // Nothing to do + + nItems = Tab -> nEntries; + + if (nItems >= MAX_NODES_IN_CURVE) { + cmsSignalError(Tab ->InterpParams->ContextID, cmsERROR_RANGE, "cmsSmoothToneCurve: too many points."); + return FALSE; + } + + memset(w, 0, nItems * sizeof(cmsFloat32Number)); + memset(y, 0, nItems * sizeof(cmsFloat32Number)); + memset(z, 0, nItems * sizeof(cmsFloat32Number)); + + for (i=0; i < nItems; i++) + { + y[i+1] = (cmsFloat32Number) Tab -> Table16[i]; + w[i+1] = 1.0; + } + + if (!smooth2(Tab ->InterpParams->ContextID, w, y, z, (cmsFloat32Number) lambda, nItems)) return FALSE; + + // Do some reality - checking... + Zeros = Poles = 0; + for (i=nItems; i > 1; --i) { + + if (z[i] == 0.) Zeros++; + if (z[i] >= 65535.) Poles++; + if (z[i] < z[i-1]) { + cmsSignalError(Tab ->InterpParams->ContextID, cmsERROR_RANGE, "cmsSmoothToneCurve: Non-Monotonic."); + return FALSE; + } + } + + if (Zeros > (nItems / 3)) { + cmsSignalError(Tab ->InterpParams->ContextID, cmsERROR_RANGE, "cmsSmoothToneCurve: Degenerated, mostly zeros."); + return FALSE; + } + if (Poles > (nItems / 3)) { + cmsSignalError(Tab ->InterpParams->ContextID, cmsERROR_RANGE, "cmsSmoothToneCurve: Degenerated, mostly poles."); + return FALSE; + } + + // Seems ok + for (i=0; i < nItems; i++) { + + // Clamp to cmsUInt16Number + Tab -> Table16[i] = _cmsQuickSaturateWord(z[i+1]); + } + + return TRUE; +} + +// Is a table linear? Do not use parametric since we cannot guarantee some weird parameters resulting +// in a linear table. This way assures it is linear in 12 bits, which should be enought in most cases. +cmsBool CMSEXPORT cmsIsToneCurveLinear(const cmsToneCurve* Curve) +{ + cmsUInt32Number i; + int diff; + + _cmsAssert(Curve != NULL); + + for (i=0; i < Curve ->nEntries; i++) { + + diff = abs((int) Curve->Table16[i] - (int) _cmsQuantizeVal(i, Curve ->nEntries)); + if (diff > 0x0f) + return FALSE; + } + + return TRUE; +} + +// Same, but for monotonicity +cmsBool CMSEXPORT cmsIsToneCurveMonotonic(const cmsToneCurve* t) +{ + int n; + int i, last; + cmsBool lDescending; + + _cmsAssert(t != NULL); + + // Degenerated curves are monotonic? Ok, let's pass them + n = t ->nEntries; + if (n < 2) return TRUE; + + // Curve direction + lDescending = cmsIsToneCurveDescending(t); + + if (lDescending) { + + last = t ->Table16[0]; + + for (i = 1; i < n; i++) { + + if (t ->Table16[i] - last > 2) // We allow some ripple + return FALSE; + else + last = t ->Table16[i]; + + } + } + else { + + last = t ->Table16[n-1]; + + for (i = n-2; i >= 0; --i) { + + if (t ->Table16[i] - last > 2) + return FALSE; + else + last = t ->Table16[i]; + + } + } + + return TRUE; +} + +// Same, but for descending tables +cmsBool CMSEXPORT cmsIsToneCurveDescending(const cmsToneCurve* t) +{ + _cmsAssert(t != NULL); + + return t ->Table16[0] > t ->Table16[t ->nEntries-1]; +} + + +// Another info fn: is out gamma table multisegment? +cmsBool CMSEXPORT cmsIsToneCurveMultisegment(const cmsToneCurve* t) +{ + _cmsAssert(t != NULL); + + return t -> nSegments > 1; +} + +cmsInt32Number CMSEXPORT cmsGetToneCurveParametricType(const cmsToneCurve* t) +{ + _cmsAssert(t != NULL); + + if (t -> nSegments != 1) return 0; + return t ->Segments[0].Type; +} + +// We need accuracy this time +cmsFloat32Number CMSEXPORT cmsEvalToneCurveFloat(const cmsToneCurve* Curve, cmsFloat32Number v) +{ + _cmsAssert(Curve != NULL); + + // Check for 16 bits table. If so, this is a limited-precision tone curve + if (Curve ->nSegments == 0) { + + cmsUInt16Number In, Out; + + In = (cmsUInt16Number) _cmsQuickSaturateWord(v * 65535.0); + Out = cmsEvalToneCurve16(Curve, In); + + return (cmsFloat32Number) (Out / 65535.0); + } + + return (cmsFloat32Number) EvalSegmentedFn(Curve, v); +} + +// We need xput over here +cmsUInt16Number CMSEXPORT cmsEvalToneCurve16(const cmsToneCurve* Curve, cmsUInt16Number v) +{ + cmsUInt16Number out; + + _cmsAssert(Curve != NULL); + + Curve ->InterpParams ->Interpolation.Lerp16(&v, &out, Curve ->InterpParams); + return out; +} + + +// Least squares fitting. +// A mathematical procedure for finding the best-fitting curve to a given set of points by +// minimizing the sum of the squares of the offsets ("the residuals") of the points from the curve. +// The sum of the squares of the offsets is used instead of the offset absolute values because +// this allows the residuals to be treated as a continuous differentiable quantity. +// +// y = f(x) = x ^ g +// +// R = (yi - (xi^g)) +// R2 = (yi - (xi^g))2 +// SUM R2 = SUM (yi - (xi^g))2 +// +// dR2/dg = -2 SUM x^g log(x)(y - x^g) +// solving for dR2/dg = 0 +// +// g = 1/n * SUM(log(y) / log(x)) + +cmsFloat64Number CMSEXPORT cmsEstimateGamma(const cmsToneCurve* t, cmsFloat64Number Precision) +{ + cmsFloat64Number gamma, sum, sum2; + cmsFloat64Number n, x, y, Std; + cmsUInt32Number i; + + _cmsAssert(t != NULL); + + sum = sum2 = n = 0; + + // Excluding endpoints + for (i=1; i < (MAX_NODES_IN_CURVE-1); i++) { + + x = (cmsFloat64Number) i / (MAX_NODES_IN_CURVE-1); + y = (cmsFloat64Number) cmsEvalToneCurveFloat(t, (cmsFloat32Number) x); + + // Avoid 7% on lower part to prevent + // artifacts due to linear ramps + + if (y > 0. && y < 1. && x > 0.07) { + + gamma = log(y) / log(x); + sum += gamma; + sum2 += gamma * gamma; + n++; + } + } + + // Take a look on SD to see if gamma isn't exponential at all + Std = sqrt((n * sum2 - sum * sum) / (n*(n-1))); + + if (Std > Precision) + return -1.0; + + return (sum / n); // The mean +} Index: sdk/lib/3rdparty/lcms2/cmsgmt.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsgmt.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsgmt.c (working copy) @@ -0,0 +1,590 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// Auxiliary: append a Lab identity after the given sequence of profiles +// and return the transform. Lab profile is closed, rest of profiles are kept open. +cmsHTRANSFORM _cmsChain2Lab(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + const cmsUInt32Number Intents[], + const cmsHPROFILE hProfiles[], + const cmsBool BPC[], + const cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + cmsHTRANSFORM xform; + cmsHPROFILE hLab; + cmsHPROFILE ProfileList[256]; + cmsBool BPCList[256]; + cmsFloat64Number AdaptationList[256]; + cmsUInt32Number IntentList[256]; + cmsUInt32Number i; + + // This is a rather big number and there is no need of dynamic memory + // since we are adding a profile, 254 + 1 = 255 and this is the limit + if (nProfiles > 254) return NULL; + + // The output space + hLab = cmsCreateLab4ProfileTHR(ContextID, NULL); + if (hLab == NULL) return NULL; + + // Create a copy of parameters + for (i=0; i < nProfiles; i++) { + + ProfileList[i] = hProfiles[i]; + BPCList[i] = BPC[i]; + AdaptationList[i] = AdaptationStates[i]; + IntentList[i] = Intents[i]; + } + + // Place Lab identity at chain's end. + ProfileList[nProfiles] = hLab; + BPCList[nProfiles] = 0; + AdaptationList[nProfiles] = 1.0; + IntentList[nProfiles] = INTENT_RELATIVE_COLORIMETRIC; + + // Create the transform + xform = cmsCreateExtendedTransform(ContextID, nProfiles + 1, ProfileList, + BPCList, + IntentList, + AdaptationList, + NULL, 0, + InputFormat, + OutputFormat, + dwFlags); + + cmsCloseProfile(hLab); + + return xform; +} + + +// Compute K -> L* relationship. Flags may include black point compensation. In this case, +// the relationship is assumed from the profile with BPC to a black point zero. +static +cmsToneCurve* ComputeKToLstar(cmsContext ContextID, + cmsUInt32Number nPoints, + cmsUInt32Number nProfiles, + const cmsUInt32Number Intents[], + const cmsHPROFILE hProfiles[], + const cmsBool BPC[], + const cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + cmsToneCurve* out = NULL; + cmsUInt32Number i; + cmsHTRANSFORM xform; + cmsCIELab Lab; + cmsFloat32Number cmyk[4]; + cmsFloat32Number* SampledPoints; + + xform = _cmsChain2Lab(ContextID, nProfiles, TYPE_CMYK_FLT, TYPE_Lab_DBL, Intents, hProfiles, BPC, AdaptationStates, dwFlags); + if (xform == NULL) return NULL; + + SampledPoints = (cmsFloat32Number*) _cmsCalloc(ContextID, nPoints, sizeof(cmsFloat32Number)); + if (SampledPoints == NULL) goto Error; + + for (i=0; i < nPoints; i++) { + + cmyk[0] = 0; + cmyk[1] = 0; + cmyk[2] = 0; + cmyk[3] = (cmsFloat32Number) ((i * 100.0) / (nPoints-1)); + + cmsDoTransform(xform, cmyk, &Lab, 1); + SampledPoints[i]= (cmsFloat32Number) (1.0 - Lab.L / 100.0); // Negate K for easier operation + } + + out = cmsBuildTabulatedToneCurveFloat(ContextID, nPoints, SampledPoints); + +Error: + + cmsDeleteTransform(xform); + if (SampledPoints) _cmsFree(ContextID, SampledPoints); + + return out; +} + + +// Compute Black tone curve on a CMYK -> CMYK transform. This is done by +// using the proof direction on both profiles to find K->L* relationship +// then joining both curves. dwFlags may include black point compensation. +cmsToneCurve* _cmsBuildKToneCurve(cmsContext ContextID, + cmsUInt32Number nPoints, + cmsUInt32Number nProfiles, + const cmsUInt32Number Intents[], + const cmsHPROFILE hProfiles[], + const cmsBool BPC[], + const cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + cmsToneCurve *in, *out, *KTone; + + // Make sure CMYK -> CMYK + if (cmsGetColorSpace(hProfiles[0]) != cmsSigCmykData || + cmsGetColorSpace(hProfiles[nProfiles-1])!= cmsSigCmykData) return NULL; + + + // Make sure last is an output profile + if (cmsGetDeviceClass(hProfiles[nProfiles - 1]) != cmsSigOutputClass) return NULL; + + // Create individual curves. BPC works also as each K to L* is + // computed as a BPC to zero black point in case of L* + in = ComputeKToLstar(ContextID, nPoints, nProfiles - 1, Intents, hProfiles, BPC, AdaptationStates, dwFlags); + if (in == NULL) return NULL; + + out = ComputeKToLstar(ContextID, nPoints, 1, + Intents + (nProfiles - 1), + &hProfiles [nProfiles - 1], + BPC + (nProfiles - 1), + AdaptationStates + (nProfiles - 1), + dwFlags); + if (out == NULL) { + cmsFreeToneCurve(in); + return NULL; + } + + // Build the relationship. This effectively limits the maximum accuracy to 16 bits, but + // since this is used on black-preserving LUTs, we are not losing accuracy in any case + KTone = cmsJoinToneCurve(ContextID, in, out, nPoints); + + // Get rid of components + cmsFreeToneCurve(in); cmsFreeToneCurve(out); + + // Something went wrong... + if (KTone == NULL) return NULL; + + // Make sure it is monotonic + if (!cmsIsToneCurveMonotonic(KTone)) { + cmsFreeToneCurve(KTone); + return NULL; + } + + return KTone; +} + + +// Gamut LUT Creation ----------------------------------------------------------------------------------------- + +// Used by gamut & softproofing + +typedef struct { + + cmsHTRANSFORM hInput; // From whatever input color space. 16 bits to DBL + cmsHTRANSFORM hForward, hReverse; // Transforms going from Lab to colorant and back + cmsFloat64Number Thereshold; // The thereshold after which is considered out of gamut + + } GAMUTCHAIN; + +// This sampler does compute gamut boundaries by comparing original +// values with a transform going back and forth. Values above ERR_THERESHOLD +// of maximum are considered out of gamut. + +#define ERR_THERESHOLD 5 + + +static +int GamutSampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + GAMUTCHAIN* t = (GAMUTCHAIN* ) Cargo; + cmsCIELab LabIn1, LabOut1; + cmsCIELab LabIn2, LabOut2; + cmsUInt16Number Proof[cmsMAXCHANNELS], Proof2[cmsMAXCHANNELS]; + cmsFloat64Number dE1, dE2, ErrorRatio; + + // Assume in-gamut by default. + ErrorRatio = 1.0; + + // Convert input to Lab + cmsDoTransform(t -> hInput, In, &LabIn1, 1); + + // converts from PCS to colorant. This always + // does return in-gamut values, + cmsDoTransform(t -> hForward, &LabIn1, Proof, 1); + + // Now, do the inverse, from colorant to PCS. + cmsDoTransform(t -> hReverse, Proof, &LabOut1, 1); + + memmove(&LabIn2, &LabOut1, sizeof(cmsCIELab)); + + // Try again, but this time taking Check as input + cmsDoTransform(t -> hForward, &LabOut1, Proof2, 1); + cmsDoTransform(t -> hReverse, Proof2, &LabOut2, 1); + + // Take difference of direct value + dE1 = cmsDeltaE(&LabIn1, &LabOut1); + + // Take difference of converted value + dE2 = cmsDeltaE(&LabIn2, &LabOut2); + + + // if dE1 is small and dE2 is small, value is likely to be in gamut + if (dE1 < t->Thereshold && dE2 < t->Thereshold) + Out[0] = 0; + else { + + // if dE1 is small and dE2 is big, undefined. Assume in gamut + if (dE1 < t->Thereshold && dE2 > t->Thereshold) + Out[0] = 0; + else + // dE1 is big and dE2 is small, clearly out of gamut + if (dE1 > t->Thereshold && dE2 < t->Thereshold) + Out[0] = (cmsUInt16Number) _cmsQuickFloor((dE1 - t->Thereshold) + .5); + else { + + // dE1 is big and dE2 is also big, could be due to perceptual mapping + // so take error ratio + if (dE2 == 0.0) + ErrorRatio = dE1; + else + ErrorRatio = dE1 / dE2; + + if (ErrorRatio > t->Thereshold) + Out[0] = (cmsUInt16Number) _cmsQuickFloor((ErrorRatio - t->Thereshold) + .5); + else + Out[0] = 0; + } + } + + + return TRUE; +} + +// Does compute a gamut LUT going back and forth across pcs -> relativ. colorimetric intent -> pcs +// the dE obtained is then annotated on the LUT. Values truly out of gamut are clipped to dE = 0xFFFE +// and values changed are supposed to be handled by any gamut remapping, so, are out of gamut as well. +// +// **WARNING: This algorithm does assume that gamut remapping algorithms does NOT move in-gamut colors, +// of course, many perceptual and saturation intents does not work in such way, but relativ. ones should. + +cmsPipeline* _cmsCreateGamutCheckPipeline(cmsContext ContextID, + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsUInt32Number Intents[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number nGamutPCSposition, + cmsHPROFILE hGamut) +{ + cmsHPROFILE hLab; + cmsPipeline* Gamut; + cmsStage* CLUT; + cmsUInt32Number dwFormat; + GAMUTCHAIN Chain; + int nChannels, nGridpoints; + cmsColorSpaceSignature ColorSpace; + cmsUInt32Number i; + cmsHPROFILE ProfileList[256]; + cmsBool BPCList[256]; + cmsFloat64Number AdaptationList[256]; + cmsUInt32Number IntentList[256]; + + memset(&Chain, 0, sizeof(GAMUTCHAIN)); + + + if (nGamutPCSposition <= 0 || nGamutPCSposition > 255) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Wrong position of PCS. 1..255 expected, %d found.", nGamutPCSposition); + return NULL; + } + + hLab = cmsCreateLab4ProfileTHR(ContextID, NULL); + if (hLab == NULL) return NULL; + + + // The figure of merit. On matrix-shaper profiles, should be almost zero as + // the conversion is pretty exact. On LUT based profiles, different resolutions + // of input and output CLUT may result in differences. + + if (cmsIsMatrixShaper(hGamut)) { + + Chain.Thereshold = 1.0; + } + else { + Chain.Thereshold = ERR_THERESHOLD; + } + + + // Create a copy of parameters + for (i=0; i < nGamutPCSposition; i++) { + ProfileList[i] = hProfiles[i]; + BPCList[i] = BPC[i]; + AdaptationList[i] = AdaptationStates[i]; + IntentList[i] = Intents[i]; + } + + // Fill Lab identity + ProfileList[nGamutPCSposition] = hLab; + BPCList[nGamutPCSposition] = 0; + AdaptationList[nGamutPCSposition] = 1.0; + IntentList[nGamutPCSposition] = INTENT_RELATIVE_COLORIMETRIC; + + + ColorSpace = cmsGetColorSpace(hGamut); + + nChannels = cmsChannelsOf(ColorSpace); + nGridpoints = _cmsReasonableGridpointsByColorspace(ColorSpace, cmsFLAGS_HIGHRESPRECALC); + dwFormat = (CHANNELS_SH(nChannels)|BYTES_SH(2)); + + // 16 bits to Lab double + Chain.hInput = cmsCreateExtendedTransform(ContextID, + nGamutPCSposition + 1, + ProfileList, + BPCList, + IntentList, + AdaptationList, + NULL, 0, + dwFormat, TYPE_Lab_DBL, + cmsFLAGS_NOCACHE); + + + // Does create the forward step. Lab double to device + dwFormat = (CHANNELS_SH(nChannels)|BYTES_SH(2)); + Chain.hForward = cmsCreateTransformTHR(ContextID, + hLab, TYPE_Lab_DBL, + hGamut, dwFormat, + INTENT_RELATIVE_COLORIMETRIC, + cmsFLAGS_NOCACHE); + + // Does create the backwards step + Chain.hReverse = cmsCreateTransformTHR(ContextID, hGamut, dwFormat, + hLab, TYPE_Lab_DBL, + INTENT_RELATIVE_COLORIMETRIC, + cmsFLAGS_NOCACHE); + + + // All ok? + if (Chain.hInput && Chain.hForward && Chain.hReverse) { + + // Go on, try to compute gamut LUT from PCS. This consist on a single channel containing + // dE when doing a transform back and forth on the colorimetric intent. + + Gamut = cmsPipelineAlloc(ContextID, 3, 1); + if (Gamut != NULL) { + + CLUT = cmsStageAllocCLut16bit(ContextID, nGridpoints, nChannels, 1, NULL); + if (!cmsPipelineInsertStage(Gamut, cmsAT_BEGIN, CLUT)) { + cmsPipelineFree(Gamut); + Gamut = NULL; + } + else { + cmsStageSampleCLut16bit(CLUT, GamutSampler, (void*) &Chain, 0); + } + } + } + else + Gamut = NULL; // Didn't work... + + // Free all needed stuff. + if (Chain.hInput) cmsDeleteTransform(Chain.hInput); + if (Chain.hForward) cmsDeleteTransform(Chain.hForward); + if (Chain.hReverse) cmsDeleteTransform(Chain.hReverse); + if (hLab) cmsCloseProfile(hLab); + + // And return computed hull + return Gamut; +} + +// Total Area Coverage estimation ---------------------------------------------------------------- + +typedef struct { + cmsUInt32Number nOutputChans; + cmsHTRANSFORM hRoundTrip; + cmsFloat32Number MaxTAC; + cmsFloat32Number MaxInput[cmsMAXCHANNELS]; + +} cmsTACestimator; + + +// This callback just accounts the maximum ink dropped in the given node. It does not populate any +// memory, as the destination table is NULL. Its only purpose it to know the global maximum. +static +int EstimateTAC(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void * Cargo) +{ + cmsTACestimator* bp = (cmsTACestimator*) Cargo; + cmsFloat32Number RoundTrip[cmsMAXCHANNELS]; + cmsUInt32Number i; + cmsFloat32Number Sum; + + + // Evaluate the xform + cmsDoTransform(bp->hRoundTrip, In, RoundTrip, 1); + + // All all amounts of ink + for (Sum=0, i=0; i < bp ->nOutputChans; i++) + Sum += RoundTrip[i]; + + // If above maximum, keep track of input values + if (Sum > bp ->MaxTAC) { + + bp ->MaxTAC = Sum; + + for (i=0; i < bp ->nOutputChans; i++) { + bp ->MaxInput[i] = In[i]; + } + } + + return TRUE; + + cmsUNUSED_PARAMETER(Out); +} + + +// Detect Total area coverage of the profile +cmsFloat64Number CMSEXPORT cmsDetectTAC(cmsHPROFILE hProfile) +{ + cmsTACestimator bp; + cmsUInt32Number dwFormatter; + cmsUInt32Number GridPoints[MAX_INPUT_DIMENSIONS]; + cmsHPROFILE hLab; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + // TAC only works on output profiles + if (cmsGetDeviceClass(hProfile) != cmsSigOutputClass) { + return 0; + } + + // Create a fake formatter for result + dwFormatter = cmsFormatterForColorspaceOfProfile(hProfile, 4, TRUE); + + bp.nOutputChans = T_CHANNELS(dwFormatter); + bp.MaxTAC = 0; // Initial TAC is 0 + + // for safety + if (bp.nOutputChans >= cmsMAXCHANNELS) return 0; + + hLab = cmsCreateLab4ProfileTHR(ContextID, NULL); + if (hLab == NULL) return 0; + // Setup a roundtrip on perceptual intent in output profile for TAC estimation + bp.hRoundTrip = cmsCreateTransformTHR(ContextID, hLab, TYPE_Lab_16, + hProfile, dwFormatter, INTENT_PERCEPTUAL, cmsFLAGS_NOOPTIMIZE|cmsFLAGS_NOCACHE); + + cmsCloseProfile(hLab); + if (bp.hRoundTrip == NULL) return 0; + + // For L* we only need black and white. For C* we need many points + GridPoints[0] = 6; + GridPoints[1] = 74; + GridPoints[2] = 74; + + + if (!cmsSliceSpace16(3, GridPoints, EstimateTAC, &bp)) { + bp.MaxTAC = 0; + } + + cmsDeleteTransform(bp.hRoundTrip); + + // Results in % + return bp.MaxTAC; +} + + +// Carefully, clamp on CIELab space. + +cmsBool CMSEXPORT cmsDesaturateLab(cmsCIELab* Lab, + double amax, double amin, + double bmax, double bmin) +{ + + // Whole Luma surface to zero + + if (Lab -> L < 0) { + + Lab-> L = Lab->a = Lab-> b = 0.0; + return FALSE; + } + + // Clamp white, DISCARD HIGHLIGHTS. This is done + // in such way because icc spec doesn't allow the + // use of L>100 as a highlight means. + + if (Lab->L > 100) + Lab -> L = 100; + + // Check out gamut prism, on a, b faces + + if (Lab -> a < amin || Lab->a > amax|| + Lab -> b < bmin || Lab->b > bmax) { + + cmsCIELCh LCh; + double h, slope; + + // Falls outside a, b limits. Transports to LCh space, + // and then do the clipping + + + if (Lab -> a == 0.0) { // Is hue exactly 90? + + // atan will not work, so clamp here + Lab -> b = Lab->b < 0 ? bmin : bmax; + return TRUE; + } + + cmsLab2LCh(&LCh, Lab); + + slope = Lab -> b / Lab -> a; + h = LCh.h; + + // There are 4 zones + + if ((h >= 0. && h < 45.) || + (h >= 315 && h <= 360.)) { + + // clip by amax + Lab -> a = amax; + Lab -> b = amax * slope; + } + else + if (h >= 45. && h < 135.) + { + // clip by bmax + Lab -> b = bmax; + Lab -> a = bmax / slope; + } + else + if (h >= 135. && h < 225.) { + // clip by amin + Lab -> a = amin; + Lab -> b = amin * slope; + + } + else + if (h >= 225. && h < 315.) { + // clip by bmin + Lab -> b = bmin; + Lab -> a = bmin / slope; + } + else { + cmsSignalError(0, cmsERROR_RANGE, "Invalid angle"); + return FALSE; + } + + } + + return TRUE; +} Index: sdk/lib/3rdparty/lcms2/cmshalf.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmshalf.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmshalf.c (working copy) @@ -0,0 +1,535 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// +// +#include "lcms2_internal.h" + +#ifndef CMS_NO_HALF_SUPPORT + +// This code is inspired in the paper "Fast Half Float Conversions" +// by Jeroen van der Zijp + +static cmsUInt32Number Mantissa[2048] = { + +0x00000000, 0x33800000, 0x34000000, 0x34400000, 0x34800000, 0x34a00000, +0x34c00000, 0x34e00000, 0x35000000, 0x35100000, 0x35200000, 0x35300000, +0x35400000, 0x35500000, 0x35600000, 0x35700000, 0x35800000, 0x35880000, +0x35900000, 0x35980000, 0x35a00000, 0x35a80000, 0x35b00000, 0x35b80000, +0x35c00000, 0x35c80000, 0x35d00000, 0x35d80000, 0x35e00000, 0x35e80000, +0x35f00000, 0x35f80000, 0x36000000, 0x36040000, 0x36080000, 0x360c0000, +0x36100000, 0x36140000, 0x36180000, 0x361c0000, 0x36200000, 0x36240000, +0x36280000, 0x362c0000, 0x36300000, 0x36340000, 0x36380000, 0x363c0000, +0x36400000, 0x36440000, 0x36480000, 0x364c0000, 0x36500000, 0x36540000, +0x36580000, 0x365c0000, 0x36600000, 0x36640000, 0x36680000, 0x366c0000, +0x36700000, 0x36740000, 0x36780000, 0x367c0000, 0x36800000, 0x36820000, +0x36840000, 0x36860000, 0x36880000, 0x368a0000, 0x368c0000, 0x368e0000, +0x36900000, 0x36920000, 0x36940000, 0x36960000, 0x36980000, 0x369a0000, +0x369c0000, 0x369e0000, 0x36a00000, 0x36a20000, 0x36a40000, 0x36a60000, +0x36a80000, 0x36aa0000, 0x36ac0000, 0x36ae0000, 0x36b00000, 0x36b20000, +0x36b40000, 0x36b60000, 0x36b80000, 0x36ba0000, 0x36bc0000, 0x36be0000, +0x36c00000, 0x36c20000, 0x36c40000, 0x36c60000, 0x36c80000, 0x36ca0000, +0x36cc0000, 0x36ce0000, 0x36d00000, 0x36d20000, 0x36d40000, 0x36d60000, +0x36d80000, 0x36da0000, 0x36dc0000, 0x36de0000, 0x36e00000, 0x36e20000, +0x36e40000, 0x36e60000, 0x36e80000, 0x36ea0000, 0x36ec0000, 0x36ee0000, +0x36f00000, 0x36f20000, 0x36f40000, 0x36f60000, 0x36f80000, 0x36fa0000, +0x36fc0000, 0x36fe0000, 0x37000000, 0x37010000, 0x37020000, 0x37030000, +0x37040000, 0x37050000, 0x37060000, 0x37070000, 0x37080000, 0x37090000, +0x370a0000, 0x370b0000, 0x370c0000, 0x370d0000, 0x370e0000, 0x370f0000, +0x37100000, 0x37110000, 0x37120000, 0x37130000, 0x37140000, 0x37150000, +0x37160000, 0x37170000, 0x37180000, 0x37190000, 0x371a0000, 0x371b0000, +0x371c0000, 0x371d0000, 0x371e0000, 0x371f0000, 0x37200000, 0x37210000, +0x37220000, 0x37230000, 0x37240000, 0x37250000, 0x37260000, 0x37270000, +0x37280000, 0x37290000, 0x372a0000, 0x372b0000, 0x372c0000, 0x372d0000, +0x372e0000, 0x372f0000, 0x37300000, 0x37310000, 0x37320000, 0x37330000, +0x37340000, 0x37350000, 0x37360000, 0x37370000, 0x37380000, 0x37390000, +0x373a0000, 0x373b0000, 0x373c0000, 0x373d0000, 0x373e0000, 0x373f0000, +0x37400000, 0x37410000, 0x37420000, 0x37430000, 0x37440000, 0x37450000, +0x37460000, 0x37470000, 0x37480000, 0x37490000, 0x374a0000, 0x374b0000, +0x374c0000, 0x374d0000, 0x374e0000, 0x374f0000, 0x37500000, 0x37510000, +0x37520000, 0x37530000, 0x37540000, 0x37550000, 0x37560000, 0x37570000, +0x37580000, 0x37590000, 0x375a0000, 0x375b0000, 0x375c0000, 0x375d0000, +0x375e0000, 0x375f0000, 0x37600000, 0x37610000, 0x37620000, 0x37630000, +0x37640000, 0x37650000, 0x37660000, 0x37670000, 0x37680000, 0x37690000, +0x376a0000, 0x376b0000, 0x376c0000, 0x376d0000, 0x376e0000, 0x376f0000, +0x37700000, 0x37710000, 0x37720000, 0x37730000, 0x37740000, 0x37750000, +0x37760000, 0x37770000, 0x37780000, 0x37790000, 0x377a0000, 0x377b0000, +0x377c0000, 0x377d0000, 0x377e0000, 0x377f0000, 0x37800000, 0x37808000, +0x37810000, 0x37818000, 0x37820000, 0x37828000, 0x37830000, 0x37838000, +0x37840000, 0x37848000, 0x37850000, 0x37858000, 0x37860000, 0x37868000, +0x37870000, 0x37878000, 0x37880000, 0x37888000, 0x37890000, 0x37898000, +0x378a0000, 0x378a8000, 0x378b0000, 0x378b8000, 0x378c0000, 0x378c8000, +0x378d0000, 0x378d8000, 0x378e0000, 0x378e8000, 0x378f0000, 0x378f8000, +0x37900000, 0x37908000, 0x37910000, 0x37918000, 0x37920000, 0x37928000, +0x37930000, 0x37938000, 0x37940000, 0x37948000, 0x37950000, 0x37958000, +0x37960000, 0x37968000, 0x37970000, 0x37978000, 0x37980000, 0x37988000, +0x37990000, 0x37998000, 0x379a0000, 0x379a8000, 0x379b0000, 0x379b8000, +0x379c0000, 0x379c8000, 0x379d0000, 0x379d8000, 0x379e0000, 0x379e8000, +0x379f0000, 0x379f8000, 0x37a00000, 0x37a08000, 0x37a10000, 0x37a18000, +0x37a20000, 0x37a28000, 0x37a30000, 0x37a38000, 0x37a40000, 0x37a48000, +0x37a50000, 0x37a58000, 0x37a60000, 0x37a68000, 0x37a70000, 0x37a78000, +0x37a80000, 0x37a88000, 0x37a90000, 0x37a98000, 0x37aa0000, 0x37aa8000, +0x37ab0000, 0x37ab8000, 0x37ac0000, 0x37ac8000, 0x37ad0000, 0x37ad8000, +0x37ae0000, 0x37ae8000, 0x37af0000, 0x37af8000, 0x37b00000, 0x37b08000, +0x37b10000, 0x37b18000, 0x37b20000, 0x37b28000, 0x37b30000, 0x37b38000, +0x37b40000, 0x37b48000, 0x37b50000, 0x37b58000, 0x37b60000, 0x37b68000, +0x37b70000, 0x37b78000, 0x37b80000, 0x37b88000, 0x37b90000, 0x37b98000, +0x37ba0000, 0x37ba8000, 0x37bb0000, 0x37bb8000, 0x37bc0000, 0x37bc8000, +0x37bd0000, 0x37bd8000, 0x37be0000, 0x37be8000, 0x37bf0000, 0x37bf8000, +0x37c00000, 0x37c08000, 0x37c10000, 0x37c18000, 0x37c20000, 0x37c28000, +0x37c30000, 0x37c38000, 0x37c40000, 0x37c48000, 0x37c50000, 0x37c58000, +0x37c60000, 0x37c68000, 0x37c70000, 0x37c78000, 0x37c80000, 0x37c88000, +0x37c90000, 0x37c98000, 0x37ca0000, 0x37ca8000, 0x37cb0000, 0x37cb8000, +0x37cc0000, 0x37cc8000, 0x37cd0000, 0x37cd8000, 0x37ce0000, 0x37ce8000, +0x37cf0000, 0x37cf8000, 0x37d00000, 0x37d08000, 0x37d10000, 0x37d18000, +0x37d20000, 0x37d28000, 0x37d30000, 0x37d38000, 0x37d40000, 0x37d48000, +0x37d50000, 0x37d58000, 0x37d60000, 0x37d68000, 0x37d70000, 0x37d78000, +0x37d80000, 0x37d88000, 0x37d90000, 0x37d98000, 0x37da0000, 0x37da8000, +0x37db0000, 0x37db8000, 0x37dc0000, 0x37dc8000, 0x37dd0000, 0x37dd8000, +0x37de0000, 0x37de8000, 0x37df0000, 0x37df8000, 0x37e00000, 0x37e08000, +0x37e10000, 0x37e18000, 0x37e20000, 0x37e28000, 0x37e30000, 0x37e38000, +0x37e40000, 0x37e48000, 0x37e50000, 0x37e58000, 0x37e60000, 0x37e68000, +0x37e70000, 0x37e78000, 0x37e80000, 0x37e88000, 0x37e90000, 0x37e98000, +0x37ea0000, 0x37ea8000, 0x37eb0000, 0x37eb8000, 0x37ec0000, 0x37ec8000, +0x37ed0000, 0x37ed8000, 0x37ee0000, 0x37ee8000, 0x37ef0000, 0x37ef8000, +0x37f00000, 0x37f08000, 0x37f10000, 0x37f18000, 0x37f20000, 0x37f28000, +0x37f30000, 0x37f38000, 0x37f40000, 0x37f48000, 0x37f50000, 0x37f58000, +0x37f60000, 0x37f68000, 0x37f70000, 0x37f78000, 0x37f80000, 0x37f88000, +0x37f90000, 0x37f98000, 0x37fa0000, 0x37fa8000, 0x37fb0000, 0x37fb8000, +0x37fc0000, 0x37fc8000, 0x37fd0000, 0x37fd8000, 0x37fe0000, 0x37fe8000, +0x37ff0000, 0x37ff8000, 0x38000000, 0x38004000, 0x38008000, 0x3800c000, +0x38010000, 0x38014000, 0x38018000, 0x3801c000, 0x38020000, 0x38024000, +0x38028000, 0x3802c000, 0x38030000, 0x38034000, 0x38038000, 0x3803c000, +0x38040000, 0x38044000, 0x38048000, 0x3804c000, 0x38050000, 0x38054000, +0x38058000, 0x3805c000, 0x38060000, 0x38064000, 0x38068000, 0x3806c000, +0x38070000, 0x38074000, 0x38078000, 0x3807c000, 0x38080000, 0x38084000, +0x38088000, 0x3808c000, 0x38090000, 0x38094000, 0x38098000, 0x3809c000, +0x380a0000, 0x380a4000, 0x380a8000, 0x380ac000, 0x380b0000, 0x380b4000, +0x380b8000, 0x380bc000, 0x380c0000, 0x380c4000, 0x380c8000, 0x380cc000, +0x380d0000, 0x380d4000, 0x380d8000, 0x380dc000, 0x380e0000, 0x380e4000, +0x380e8000, 0x380ec000, 0x380f0000, 0x380f4000, 0x380f8000, 0x380fc000, +0x38100000, 0x38104000, 0x38108000, 0x3810c000, 0x38110000, 0x38114000, +0x38118000, 0x3811c000, 0x38120000, 0x38124000, 0x38128000, 0x3812c000, +0x38130000, 0x38134000, 0x38138000, 0x3813c000, 0x38140000, 0x38144000, +0x38148000, 0x3814c000, 0x38150000, 0x38154000, 0x38158000, 0x3815c000, +0x38160000, 0x38164000, 0x38168000, 0x3816c000, 0x38170000, 0x38174000, +0x38178000, 0x3817c000, 0x38180000, 0x38184000, 0x38188000, 0x3818c000, +0x38190000, 0x38194000, 0x38198000, 0x3819c000, 0x381a0000, 0x381a4000, +0x381a8000, 0x381ac000, 0x381b0000, 0x381b4000, 0x381b8000, 0x381bc000, +0x381c0000, 0x381c4000, 0x381c8000, 0x381cc000, 0x381d0000, 0x381d4000, +0x381d8000, 0x381dc000, 0x381e0000, 0x381e4000, 0x381e8000, 0x381ec000, +0x381f0000, 0x381f4000, 0x381f8000, 0x381fc000, 0x38200000, 0x38204000, +0x38208000, 0x3820c000, 0x38210000, 0x38214000, 0x38218000, 0x3821c000, +0x38220000, 0x38224000, 0x38228000, 0x3822c000, 0x38230000, 0x38234000, +0x38238000, 0x3823c000, 0x38240000, 0x38244000, 0x38248000, 0x3824c000, +0x38250000, 0x38254000, 0x38258000, 0x3825c000, 0x38260000, 0x38264000, +0x38268000, 0x3826c000, 0x38270000, 0x38274000, 0x38278000, 0x3827c000, +0x38280000, 0x38284000, 0x38288000, 0x3828c000, 0x38290000, 0x38294000, +0x38298000, 0x3829c000, 0x382a0000, 0x382a4000, 0x382a8000, 0x382ac000, +0x382b0000, 0x382b4000, 0x382b8000, 0x382bc000, 0x382c0000, 0x382c4000, +0x382c8000, 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0x38702000, 0x38704000, 0x38706000, 0x38708000, 0x3870a000, +0x3870c000, 0x3870e000, 0x38710000, 0x38712000, 0x38714000, 0x38716000, +0x38718000, 0x3871a000, 0x3871c000, 0x3871e000, 0x38720000, 0x38722000, +0x38724000, 0x38726000, 0x38728000, 0x3872a000, 0x3872c000, 0x3872e000, +0x38730000, 0x38732000, 0x38734000, 0x38736000, 0x38738000, 0x3873a000, +0x3873c000, 0x3873e000, 0x38740000, 0x38742000, 0x38744000, 0x38746000, +0x38748000, 0x3874a000, 0x3874c000, 0x3874e000, 0x38750000, 0x38752000, +0x38754000, 0x38756000, 0x38758000, 0x3875a000, 0x3875c000, 0x3875e000, +0x38760000, 0x38762000, 0x38764000, 0x38766000, 0x38768000, 0x3876a000, +0x3876c000, 0x3876e000, 0x38770000, 0x38772000, 0x38774000, 0x38776000, +0x38778000, 0x3877a000, 0x3877c000, 0x3877e000, 0x38780000, 0x38782000, +0x38784000, 0x38786000, 0x38788000, 0x3878a000, 0x3878c000, 0x3878e000, +0x38790000, 0x38792000, 0x38794000, 0x38796000, 0x38798000, 0x3879a000, +0x3879c000, 0x3879e000, 0x387a0000, 0x387a2000, 0x387a4000, 0x387a6000, +0x387a8000, 0x387aa000, 0x387ac000, 0x387ae000, 0x387b0000, 0x387b2000, +0x387b4000, 0x387b6000, 0x387b8000, 0x387ba000, 0x387bc000, 0x387be000, +0x387c0000, 0x387c2000, 0x387c4000, 0x387c6000, 0x387c8000, 0x387ca000, +0x387cc000, 0x387ce000, 0x387d0000, 0x387d2000, 0x387d4000, 0x387d6000, +0x387d8000, 0x387da000, 0x387dc000, 0x387de000, 0x387e0000, 0x387e2000, +0x387e4000, 0x387e6000, 0x387e8000, 0x387ea000, 0x387ec000, 0x387ee000, +0x387f0000, 0x387f2000, 0x387f4000, 0x387f6000, 0x387f8000, 0x387fa000, +0x387fc000, 0x387fe000 +}; + +static cmsUInt16Number Offset[64] = { +0x0000, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0000, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400 +}; + +static cmsUInt32Number Exponent[64] = { +0x00000000, 0x00800000, 0x01000000, 0x01800000, 0x02000000, 0x02800000, +0x03000000, 0x03800000, 0x04000000, 0x04800000, 0x05000000, 0x05800000, +0x06000000, 0x06800000, 0x07000000, 0x07800000, 0x08000000, 0x08800000, +0x09000000, 0x09800000, 0x0a000000, 0x0a800000, 0x0b000000, 0x0b800000, +0x0c000000, 0x0c800000, 0x0d000000, 0x0d800000, 0x0e000000, 0x0e800000, +0x0f000000, 0x47800000, 0x80000000, 0x80800000, 0x81000000, 0x81800000, +0x82000000, 0x82800000, 0x83000000, 0x83800000, 0x84000000, 0x84800000, +0x85000000, 0x85800000, 0x86000000, 0x86800000, 0x87000000, 0x87800000, +0x88000000, 0x88800000, 0x89000000, 0x89800000, 0x8a000000, 0x8a800000, +0x8b000000, 0x8b800000, 0x8c000000, 0x8c800000, 0x8d000000, 0x8d800000, +0x8e000000, 0x8e800000, 0x8f000000, 0xc7800000 +}; + +static cmsUInt16Number Base[512] = { +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0001, 0x0002, 0x0004, 0x0008, 0x0010, 0x0020, 0x0040, +0x0080, 0x0100, 0x0200, 0x0400, 0x0800, 0x0c00, 0x1000, 0x1400, 0x1800, 0x1c00, +0x2000, 0x2400, 0x2800, 0x2c00, 0x3000, 0x3400, 0x3800, 0x3c00, 0x4000, 0x4400, +0x4800, 0x4c00, 0x5000, 0x5400, 0x5800, 0x5c00, 0x6000, 0x6400, 0x6800, 0x6c00, +0x7000, 0x7400, 0x7800, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8001, +0x8002, 0x8004, 0x8008, 0x8010, 0x8020, 0x8040, 0x8080, 0x8100, 0x8200, 0x8400, +0x8800, 0x8c00, 0x9000, 0x9400, 0x9800, 0x9c00, 0xa000, 0xa400, 0xa800, 0xac00, +0xb000, 0xb400, 0xb800, 0xbc00, 0xc000, 0xc400, 0xc800, 0xcc00, 0xd000, 0xd400, +0xd800, 0xdc00, 0xe000, 0xe400, 0xe800, 0xec00, 0xf000, 0xf400, 0xf800, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00 +}; + +static cmsUInt8Number Shift[512] = { +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x17, +0x16, 0x15, 0x14, 0x13, 0x12, 0x11, 0x10, 0x0f, 0x0e, 0x0d, 0x0d, 0x0d, 0x0d, +0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, +0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x0d, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x17, 0x16, 0x15, 0x14, 0x13, +0x12, 0x11, 0x10, 0x0f, 0x0e, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, +0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, +0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x0d +}; + +cmsFloat32Number _cmsHalf2Float(cmsUInt16Number h) +{ + union { + cmsFloat32Number flt; + cmsUInt32Number num; + } out; + + int n = h >> 10; + + out.num = Mantissa[ (h & 0x3ff) + Offset[ n ] ] + Exponent[ n ]; + return out.flt; +} + +cmsUInt16Number _cmsFloat2Half(cmsFloat32Number flt) +{ + union { + cmsFloat32Number flt; + cmsUInt32Number num; + } in; + + cmsUInt32Number n, j; + + in.flt = flt; + n = in.num; + j = (n >> 23) & 0x1ff; + + return (cmsUInt16Number) ((cmsUInt32Number) Base[ j ] + (( n & 0x007fffff) >> Shift[ j ])); +} + +#endif Index: sdk/lib/3rdparty/lcms2/cmsintrp.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsintrp.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsintrp.c (working copy) @@ -0,0 +1,1506 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// This module incorporates several interpolation routines, for 1 to 8 channels on input and +// up to 65535 channels on output. The user may change those by using the interpolation plug-in + +// Interpolation routines by default +static cmsInterpFunction DefaultInterpolatorsFactory(cmsUInt32Number nInputChannels, cmsUInt32Number nOutputChannels, cmsUInt32Number dwFlags); + +// This is the default factory +_cmsInterpPluginChunkType _cmsInterpPluginChunk = { NULL }; + +// The interpolation plug-in memory chunk allocator/dup +void _cmsAllocInterpPluginChunk(struct _cmsContext_struct* ctx, const struct _cmsContext_struct* src) +{ + void* from; + + _cmsAssert(ctx != NULL); + + if (src != NULL) { + from = src ->chunks[InterpPlugin]; + } + else { + static _cmsInterpPluginChunkType InterpPluginChunk = { NULL }; + + from = &InterpPluginChunk; + } + + _cmsAssert(from != NULL); + ctx ->chunks[InterpPlugin] = _cmsSubAllocDup(ctx ->MemPool, from, sizeof(_cmsInterpPluginChunkType)); +} + + +// Main plug-in entry +cmsBool _cmsRegisterInterpPlugin(cmsContext ContextID, cmsPluginBase* Data) +{ + cmsPluginInterpolation* Plugin = (cmsPluginInterpolation*) Data; + _cmsInterpPluginChunkType* ptr = (_cmsInterpPluginChunkType*) _cmsContextGetClientChunk(ContextID, InterpPlugin); + + if (Data == NULL) { + + ptr ->Interpolators = NULL; + return TRUE; + } + + // Set replacement functions + ptr ->Interpolators = Plugin ->InterpolatorsFactory; + return TRUE; +} + + +// Set the interpolation method +cmsBool _cmsSetInterpolationRoutine(cmsContext ContextID, cmsInterpParams* p) +{ + _cmsInterpPluginChunkType* ptr = (_cmsInterpPluginChunkType*) _cmsContextGetClientChunk(ContextID, InterpPlugin); + + p ->Interpolation.Lerp16 = NULL; + + // Invoke factory, possibly in the Plug-in + if (ptr ->Interpolators != NULL) + p ->Interpolation = ptr->Interpolators(p -> nInputs, p ->nOutputs, p ->dwFlags); + + // If unsupported by the plug-in, go for the LittleCMS default. + // If happens only if an extern plug-in is being used + if (p ->Interpolation.Lerp16 == NULL) + p ->Interpolation = DefaultInterpolatorsFactory(p ->nInputs, p ->nOutputs, p ->dwFlags); + + // Check for valid interpolator (we just check one member of the union) + if (p ->Interpolation.Lerp16 == NULL) { + return FALSE; + } + + return TRUE; +} + + +// This function precalculates as many parameters as possible to speed up the interpolation. +cmsInterpParams* _cmsComputeInterpParamsEx(cmsContext ContextID, + const cmsUInt32Number nSamples[], + int InputChan, int OutputChan, + const void *Table, + cmsUInt32Number dwFlags) +{ + cmsInterpParams* p; + int i; + + // Check for maximum inputs + if (InputChan > MAX_INPUT_DIMENSIONS) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Too many input channels (%d channels, max=%d)", InputChan, MAX_INPUT_DIMENSIONS); + return NULL; + } + + // Creates an empty object + p = (cmsInterpParams*) _cmsMallocZero(ContextID, sizeof(cmsInterpParams)); + if (p == NULL) return NULL; + + // Keep original parameters + p -> dwFlags = dwFlags; + p -> nInputs = InputChan; + p -> nOutputs = OutputChan; + p ->Table = Table; + p ->ContextID = ContextID; + + // Fill samples per input direction and domain (which is number of nodes minus one) + for (i=0; i < InputChan; i++) { + + p -> nSamples[i] = nSamples[i]; + p -> Domain[i] = nSamples[i] - 1; + } + + // Compute factors to apply to each component to index the grid array + p -> opta[0] = p -> nOutputs; + for (i=1; i < InputChan; i++) + p ->opta[i] = p ->opta[i-1] * nSamples[InputChan-i]; + + + if (!_cmsSetInterpolationRoutine(ContextID, p)) { + cmsSignalError(ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported interpolation (%d->%d channels)", InputChan, OutputChan); + _cmsFree(ContextID, p); + return NULL; + } + + // All seems ok + return p; +} + + +// This one is a wrapper on the anterior, but assuming all directions have same number of nodes +cmsInterpParams* _cmsComputeInterpParams(cmsContext ContextID, int nSamples, int InputChan, int OutputChan, const void* Table, cmsUInt32Number dwFlags) +{ + int i; + cmsUInt32Number Samples[MAX_INPUT_DIMENSIONS]; + + // Fill the auxiliary array + for (i=0; i < MAX_INPUT_DIMENSIONS; i++) + Samples[i] = nSamples; + + // Call the extended function + return _cmsComputeInterpParamsEx(ContextID, Samples, InputChan, OutputChan, Table, dwFlags); +} + + +// Free all associated memory +void _cmsFreeInterpParams(cmsInterpParams* p) +{ + if (p != NULL) _cmsFree(p ->ContextID, p); +} + + +// Inline fixed point interpolation +cmsINLINE cmsUInt16Number LinearInterp(cmsS15Fixed16Number a, cmsS15Fixed16Number l, cmsS15Fixed16Number h) +{ + cmsUInt32Number dif = (cmsUInt32Number) (h - l) * a + 0x8000; + dif = (dif >> 16) + l; + return (cmsUInt16Number) (dif); +} + + +// Linear interpolation (Fixed-point optimized) +static +void LinLerp1D(register const cmsUInt16Number Value[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p) +{ + cmsUInt16Number y1, y0; + int cell0, rest; + int val3; + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p ->Table; + + // if last value... + if (Value[0] == 0xffff) { + + Output[0] = LutTable[p -> Domain[0]]; + return; + } + + val3 = p -> Domain[0] * Value[0]; + val3 = _cmsToFixedDomain(val3); // To fixed 15.16 + + cell0 = FIXED_TO_INT(val3); // Cell is 16 MSB bits + rest = FIXED_REST_TO_INT(val3); // Rest is 16 LSB bits + + y0 = LutTable[cell0]; + y1 = LutTable[cell0+1]; + + + Output[0] = LinearInterp(rest, y0, y1); +} + +// To prevent out of bounds indexing +cmsINLINE cmsFloat32Number fclamp(cmsFloat32Number v) +{ + return v < 0.0f ? 0.0f : (v > 1.0f ? 1.0f : v); +} + +// Floating-point version of 1D interpolation +static +void LinLerp1Dfloat(const cmsFloat32Number Value[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + cmsFloat32Number y1, y0; + cmsFloat32Number val2, rest; + int cell0, cell1; + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p ->Table; + + val2 = fclamp(Value[0]); + + // if last value... + if (val2 == 1.0) { + Output[0] = LutTable[p -> Domain[0]]; + return; + } + + val2 *= p -> Domain[0]; + + cell0 = (int) floor(val2); + cell1 = (int) ceil(val2); + + // Rest is 16 LSB bits + rest = val2 - cell0; + + y0 = LutTable[cell0] ; + y1 = LutTable[cell1] ; + + Output[0] = y0 + (y1 - y0) * rest; +} + + + +// Eval gray LUT having only one input channel +static +void Eval1Input(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p16) +{ + cmsS15Fixed16Number fk; + cmsS15Fixed16Number k0, k1, rk, K0, K1; + int v; + cmsUInt32Number OutChan; + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p16 -> Table; + + v = Input[0] * p16 -> Domain[0]; + fk = _cmsToFixedDomain(v); + + k0 = FIXED_TO_INT(fk); + rk = (cmsUInt16Number) FIXED_REST_TO_INT(fk); + + k1 = k0 + (Input[0] != 0xFFFFU ? 1 : 0); + + K0 = p16 -> opta[0] * k0; + K1 = p16 -> opta[0] * k1; + + for (OutChan=0; OutChan < p16->nOutputs; OutChan++) { + + Output[OutChan] = LinearInterp(rk, LutTable[K0+OutChan], LutTable[K1+OutChan]); + } +} + + + +// Eval gray LUT having only one input channel +static +void Eval1InputFloat(const cmsFloat32Number Value[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + cmsFloat32Number y1, y0; + cmsFloat32Number val2, rest; + int cell0, cell1; + cmsUInt32Number OutChan; + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p ->Table; + + val2 = fclamp(Value[0]); + + // if last value... + if (val2 == 1.0) { + Output[0] = LutTable[p -> Domain[0]]; + return; + } + + val2 *= p -> Domain[0]; + + cell0 = (int) floor(val2); + cell1 = (int) ceil(val2); + + // Rest is 16 LSB bits + rest = val2 - cell0; + + cell0 *= p -> opta[0]; + cell1 *= p -> opta[0]; + + for (OutChan=0; OutChan < p->nOutputs; OutChan++) { + + y0 = LutTable[cell0 + OutChan] ; + y1 = LutTable[cell1 + OutChan] ; + + Output[OutChan] = y0 + (y1 - y0) * rest; + } +} + +// Bilinear interpolation (16 bits) - cmsFloat32Number version +static +void BilinearInterpFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) + +{ +# define LERP(a,l,h) (cmsFloat32Number) ((l)+(((h)-(l))*(a))) +# define DENS(i,j) (LutTable[(i)+(j)+OutChan]) + + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p ->Table; + cmsFloat32Number px, py; + int x0, y0, + X0, Y0, X1, Y1; + int TotalOut, OutChan; + cmsFloat32Number fx, fy, + d00, d01, d10, d11, + dx0, dx1, + dxy; + + TotalOut = p -> nOutputs; + px = fclamp(Input[0]) * p->Domain[0]; + py = fclamp(Input[1]) * p->Domain[1]; + + x0 = (int) _cmsQuickFloor(px); fx = px - (cmsFloat32Number) x0; + y0 = (int) _cmsQuickFloor(py); fy = py - (cmsFloat32Number) y0; + + X0 = p -> opta[1] * x0; + X1 = X0 + (Input[0] >= 1.0 ? 0 : p->opta[1]); + + Y0 = p -> opta[0] * y0; + Y1 = Y0 + (Input[1] >= 1.0 ? 0 : p->opta[0]); + + for (OutChan = 0; OutChan < TotalOut; OutChan++) { + + d00 = DENS(X0, Y0); + d01 = DENS(X0, Y1); + d10 = DENS(X1, Y0); + d11 = DENS(X1, Y1); + + dx0 = LERP(fx, d00, d10); + dx1 = LERP(fx, d01, d11); + + dxy = LERP(fy, dx0, dx1); + + Output[OutChan] = dxy; + } + + +# undef LERP +# undef DENS +} + +// Bilinear interpolation (16 bits) - optimized version +static +void BilinearInterp16(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p) + +{ +#define DENS(i,j) (LutTable[(i)+(j)+OutChan]) +#define LERP(a,l,h) (cmsUInt16Number) (l + ROUND_FIXED_TO_INT(((h-l)*a))) + + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p ->Table; + int OutChan, TotalOut; + cmsS15Fixed16Number fx, fy; + register int rx, ry; + int x0, y0; + register int X0, X1, Y0, Y1; + int d00, d01, d10, d11, + dx0, dx1, + dxy; + + TotalOut = p -> nOutputs; + + fx = _cmsToFixedDomain((int) Input[0] * p -> Domain[0]); + x0 = FIXED_TO_INT(fx); + rx = FIXED_REST_TO_INT(fx); // Rest in 0..1.0 domain + + + fy = _cmsToFixedDomain((int) Input[1] * p -> Domain[1]); + y0 = FIXED_TO_INT(fy); + ry = FIXED_REST_TO_INT(fy); + + + X0 = p -> opta[1] * x0; + X1 = X0 + (Input[0] == 0xFFFFU ? 0 : p->opta[1]); + + Y0 = p -> opta[0] * y0; + Y1 = Y0 + (Input[1] == 0xFFFFU ? 0 : p->opta[0]); + + for (OutChan = 0; OutChan < TotalOut; OutChan++) { + + d00 = DENS(X0, Y0); + d01 = DENS(X0, Y1); + d10 = DENS(X1, Y0); + d11 = DENS(X1, Y1); + + dx0 = LERP(rx, d00, d10); + dx1 = LERP(rx, d01, d11); + + dxy = LERP(ry, dx0, dx1); + + Output[OutChan] = (cmsUInt16Number) dxy; + } + + +# undef LERP +# undef DENS +} + + +// Trilinear interpolation (16 bits) - cmsFloat32Number version +static +void TrilinearInterpFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) + +{ +# define LERP(a,l,h) (cmsFloat32Number) ((l)+(((h)-(l))*(a))) +# define DENS(i,j,k) (LutTable[(i)+(j)+(k)+OutChan]) + + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p ->Table; + cmsFloat32Number px, py, pz; + int x0, y0, z0, + X0, Y0, Z0, X1, Y1, Z1; + int TotalOut, OutChan; + cmsFloat32Number fx, fy, fz, + d000, d001, d010, d011, + d100, d101, d110, d111, + dx00, dx01, dx10, dx11, + dxy0, dxy1, dxyz; + + TotalOut = p -> nOutputs; + + // We need some clipping here + px = fclamp(Input[0]) * p->Domain[0]; + py = fclamp(Input[1]) * p->Domain[1]; + pz = fclamp(Input[2]) * p->Domain[2]; + + x0 = (int) _cmsQuickFloor(px); fx = px - (cmsFloat32Number) x0; + y0 = (int) _cmsQuickFloor(py); fy = py - (cmsFloat32Number) y0; + z0 = (int) _cmsQuickFloor(pz); fz = pz - (cmsFloat32Number) z0; + + X0 = p -> opta[2] * x0; + X1 = X0 + (Input[0] >= 1.0 ? 0 : p->opta[2]); + + Y0 = p -> opta[1] * y0; + Y1 = Y0 + (Input[1] >= 1.0 ? 0 : p->opta[1]); + + Z0 = p -> opta[0] * z0; + Z1 = Z0 + (Input[2] >= 1.0 ? 0 : p->opta[0]); + + for (OutChan = 0; OutChan < TotalOut; OutChan++) { + + d000 = DENS(X0, Y0, Z0); + d001 = DENS(X0, Y0, Z1); + d010 = DENS(X0, Y1, Z0); + d011 = DENS(X0, Y1, Z1); + + d100 = DENS(X1, Y0, Z0); + d101 = DENS(X1, Y0, Z1); + d110 = DENS(X1, Y1, Z0); + d111 = DENS(X1, Y1, Z1); + + + dx00 = LERP(fx, d000, d100); + dx01 = LERP(fx, d001, d101); + dx10 = LERP(fx, d010, d110); + dx11 = LERP(fx, d011, d111); + + dxy0 = LERP(fy, dx00, dx10); + dxy1 = LERP(fy, dx01, dx11); + + dxyz = LERP(fz, dxy0, dxy1); + + Output[OutChan] = dxyz; + } + + +# undef LERP +# undef DENS +} + +// Trilinear interpolation (16 bits) - optimized version +static +void TrilinearInterp16(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p) + +{ +#define DENS(i,j,k) (LutTable[(i)+(j)+(k)+OutChan]) +#define LERP(a,l,h) (cmsUInt16Number) (l + ROUND_FIXED_TO_INT(((h-l)*a))) + + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p ->Table; + int OutChan, TotalOut; + cmsS15Fixed16Number fx, fy, fz; + register int rx, ry, rz; + int x0, y0, z0; + register int X0, X1, Y0, Y1, Z0, Z1; + int d000, d001, d010, d011, + d100, d101, d110, d111, + dx00, dx01, dx10, dx11, + dxy0, dxy1, dxyz; + + TotalOut = p -> nOutputs; + + fx = _cmsToFixedDomain((int) Input[0] * p -> Domain[0]); + x0 = FIXED_TO_INT(fx); + rx = FIXED_REST_TO_INT(fx); // Rest in 0..1.0 domain + + + fy = _cmsToFixedDomain((int) Input[1] * p -> Domain[1]); + y0 = FIXED_TO_INT(fy); + ry = FIXED_REST_TO_INT(fy); + + fz = _cmsToFixedDomain((int) Input[2] * p -> Domain[2]); + z0 = FIXED_TO_INT(fz); + rz = FIXED_REST_TO_INT(fz); + + + X0 = p -> opta[2] * x0; + X1 = X0 + (Input[0] == 0xFFFFU ? 0 : p->opta[2]); + + Y0 = p -> opta[1] * y0; + Y1 = Y0 + (Input[1] == 0xFFFFU ? 0 : p->opta[1]); + + Z0 = p -> opta[0] * z0; + Z1 = Z0 + (Input[2] == 0xFFFFU ? 0 : p->opta[0]); + + for (OutChan = 0; OutChan < TotalOut; OutChan++) { + + d000 = DENS(X0, Y0, Z0); + d001 = DENS(X0, Y0, Z1); + d010 = DENS(X0, Y1, Z0); + d011 = DENS(X0, Y1, Z1); + + d100 = DENS(X1, Y0, Z0); + d101 = DENS(X1, Y0, Z1); + d110 = DENS(X1, Y1, Z0); + d111 = DENS(X1, Y1, Z1); + + + dx00 = LERP(rx, d000, d100); + dx01 = LERP(rx, d001, d101); + dx10 = LERP(rx, d010, d110); + dx11 = LERP(rx, d011, d111); + + dxy0 = LERP(ry, dx00, dx10); + dxy1 = LERP(ry, dx01, dx11); + + dxyz = LERP(rz, dxy0, dxy1); + + Output[OutChan] = (cmsUInt16Number) dxyz; + } + + +# undef LERP +# undef DENS +} + + +// Tetrahedral interpolation, using Sakamoto algorithm. +#define DENS(i,j,k) (LutTable[(i)+(j)+(k)+OutChan]) +static +void TetrahedralInterpFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p -> Table; + cmsFloat32Number px, py, pz; + int x0, y0, z0, + X0, Y0, Z0, X1, Y1, Z1; + cmsFloat32Number rx, ry, rz; + cmsFloat32Number c0, c1=0, c2=0, c3=0; + int OutChan, TotalOut; + + TotalOut = p -> nOutputs; + + // We need some clipping here + px = fclamp(Input[0]) * p->Domain[0]; + py = fclamp(Input[1]) * p->Domain[1]; + pz = fclamp(Input[2]) * p->Domain[2]; + + x0 = (int) _cmsQuickFloor(px); rx = (px - (cmsFloat32Number) x0); + y0 = (int) _cmsQuickFloor(py); ry = (py - (cmsFloat32Number) y0); + z0 = (int) _cmsQuickFloor(pz); rz = (pz - (cmsFloat32Number) z0); + + + X0 = p -> opta[2] * x0; + X1 = X0 + (Input[0] >= 1.0 ? 0 : p->opta[2]); + + Y0 = p -> opta[1] * y0; + Y1 = Y0 + (Input[1] >= 1.0 ? 0 : p->opta[1]); + + Z0 = p -> opta[0] * z0; + Z1 = Z0 + (Input[2] >= 1.0 ? 0 : p->opta[0]); + + for (OutChan=0; OutChan < TotalOut; OutChan++) { + + // These are the 6 Tetrahedral + + c0 = DENS(X0, Y0, Z0); + + if (rx >= ry && ry >= rz) { + + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z0) - DENS(X1, Y0, Z0); + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + + } + else + if (rx >= rz && rz >= ry) { + + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X1, Y0, Z1) - DENS(X1, Y0, Z0); + + } + else + if (rz >= rx && rx >= ry) { + + c1 = DENS(X1, Y0, Z1) - DENS(X0, Y0, Z1); + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + + } + else + if (ry >= rx && rx >= rz) { + + c1 = DENS(X1, Y1, Z0) - DENS(X0, Y1, Z0); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + + } + else + if (ry >= rz && rz >= rx) { + + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X0, Y1, Z1) - DENS(X0, Y1, Z0); + + } + else + if (rz >= ry && ry >= rx) { + + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z1) - DENS(X0, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + + } + else { + c1 = c2 = c3 = 0; + } + + Output[OutChan] = c0 + c1 * rx + c2 * ry + c3 * rz; + } + +} + +#undef DENS + + + + +static +void TetrahedralInterp16(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p) +{ + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p -> Table; + cmsS15Fixed16Number fx, fy, fz; + cmsS15Fixed16Number rx, ry, rz; + int x0, y0, z0; + cmsS15Fixed16Number c0, c1, c2, c3, Rest; + cmsS15Fixed16Number X0, X1, Y0, Y1, Z0, Z1; + cmsUInt32Number TotalOut = p -> nOutputs; + + fx = _cmsToFixedDomain((int) Input[0] * p -> Domain[0]); + fy = _cmsToFixedDomain((int) Input[1] * p -> Domain[1]); + fz = _cmsToFixedDomain((int) Input[2] * p -> Domain[2]); + + x0 = FIXED_TO_INT(fx); + y0 = FIXED_TO_INT(fy); + z0 = FIXED_TO_INT(fz); + + rx = FIXED_REST_TO_INT(fx); + ry = FIXED_REST_TO_INT(fy); + rz = FIXED_REST_TO_INT(fz); + + X0 = p -> opta[2] * x0; + X1 = (Input[0] == 0xFFFFU ? 0 : p->opta[2]); + + Y0 = p -> opta[1] * y0; + Y1 = (Input[1] == 0xFFFFU ? 0 : p->opta[1]); + + Z0 = p -> opta[0] * z0; + Z1 = (Input[2] == 0xFFFFU ? 0 : p->opta[0]); + + LutTable = &LutTable[X0+Y0+Z0]; + + // Output should be computed as x = ROUND_FIXED_TO_INT(_cmsToFixedDomain(Rest)) + // which expands as: x = (Rest + ((Rest+0x7fff)/0xFFFF) + 0x8000)>>16 + // This can be replaced by: t = Rest+0x8001, x = (t + (t>>16))>>16 + // at the cost of being off by one at 7fff and 17ffe. + + if (rx >= ry) { + if (ry >= rz) { + Y1 += X1; + Z1 += Y1; + for (; TotalOut; TotalOut--) { + c1 = LutTable[X1]; + c2 = LutTable[Y1]; + c3 = LutTable[Z1]; + c0 = *LutTable++; + c3 -= c2; + c2 -= c1; + c1 -= c0; + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + *Output++ = (cmsUInt16Number) c0 + ((Rest + (Rest>>16))>>16); + } + } else if (rz >= rx) { + X1 += Z1; + Y1 += X1; + for (; TotalOut; TotalOut--) { + c1 = LutTable[X1]; + c2 = LutTable[Y1]; + c3 = LutTable[Z1]; + c0 = *LutTable++; + c2 -= c1; + c1 -= c3; + c3 -= c0; + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + *Output++ = (cmsUInt16Number) c0 + ((Rest + (Rest>>16))>>16); + } + } else { + Z1 += X1; + Y1 += Z1; + for (; TotalOut; TotalOut--) { + c1 = LutTable[X1]; + c2 = LutTable[Y1]; + c3 = LutTable[Z1]; + c0 = *LutTable++; + c2 -= c3; + c3 -= c1; + c1 -= c0; + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + *Output++ = (cmsUInt16Number) c0 + ((Rest + (Rest>>16))>>16); + } + } + } else { + if (rx >= rz) { + X1 += Y1; + Z1 += X1; + for (; TotalOut; TotalOut--) { + c1 = LutTable[X1]; + c2 = LutTable[Y1]; + c3 = LutTable[Z1]; + c0 = *LutTable++; + c3 -= c1; + c1 -= c2; + c2 -= c0; + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + *Output++ = (cmsUInt16Number) c0 + ((Rest + (Rest>>16))>>16); + } + } else if (ry >= rz) { + Z1 += Y1; + X1 += Z1; + for (; TotalOut; TotalOut--) { + c1 = LutTable[X1]; + c2 = LutTable[Y1]; + c3 = LutTable[Z1]; + c0 = *LutTable++; + c1 -= c3; + c3 -= c2; + c2 -= c0; + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + *Output++ = (cmsUInt16Number) c0 + ((Rest + (Rest>>16))>>16); + } + } else { + Y1 += Z1; + X1 += Y1; + for (; TotalOut; TotalOut--) { + c1 = LutTable[X1]; + c2 = LutTable[Y1]; + c3 = LutTable[Z1]; + c0 = *LutTable++; + c1 -= c2; + c2 -= c3; + c3 -= c0; + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + *Output++ = (cmsUInt16Number) c0 + ((Rest + (Rest>>16))>>16); + } + } + } +} + + +#define DENS(i,j,k) (LutTable[(i)+(j)+(k)+OutChan]) +static +void Eval4Inputs(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p16) +{ + const cmsUInt16Number* LutTable; + cmsS15Fixed16Number fk; + cmsS15Fixed16Number k0, rk; + int K0, K1; + cmsS15Fixed16Number fx, fy, fz; + cmsS15Fixed16Number rx, ry, rz; + int x0, y0, z0; + cmsS15Fixed16Number X0, X1, Y0, Y1, Z0, Z1; + cmsUInt32Number i; + cmsS15Fixed16Number c0, c1, c2, c3, Rest; + cmsUInt32Number OutChan; + cmsUInt16Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + + + fk = _cmsToFixedDomain((int) Input[0] * p16 -> Domain[0]); + fx = _cmsToFixedDomain((int) Input[1] * p16 -> Domain[1]); + fy = _cmsToFixedDomain((int) Input[2] * p16 -> Domain[2]); + fz = _cmsToFixedDomain((int) Input[3] * p16 -> Domain[3]); + + k0 = FIXED_TO_INT(fk); + x0 = FIXED_TO_INT(fx); + y0 = FIXED_TO_INT(fy); + z0 = FIXED_TO_INT(fz); + + rk = FIXED_REST_TO_INT(fk); + rx = FIXED_REST_TO_INT(fx); + ry = FIXED_REST_TO_INT(fy); + rz = FIXED_REST_TO_INT(fz); + + K0 = p16 -> opta[3] * k0; + K1 = K0 + (Input[0] == 0xFFFFU ? 0 : p16->opta[3]); + + X0 = p16 -> opta[2] * x0; + X1 = X0 + (Input[1] == 0xFFFFU ? 0 : p16->opta[2]); + + Y0 = p16 -> opta[1] * y0; + Y1 = Y0 + (Input[2] == 0xFFFFU ? 0 : p16->opta[1]); + + Z0 = p16 -> opta[0] * z0; + Z1 = Z0 + (Input[3] == 0xFFFFU ? 0 : p16->opta[0]); + + LutTable = (cmsUInt16Number*) p16 -> Table; + LutTable += K0; + + for (OutChan=0; OutChan < p16 -> nOutputs; OutChan++) { + + c0 = DENS(X0, Y0, Z0); + + if (rx >= ry && ry >= rz) { + + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z0) - DENS(X1, Y0, Z0); + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + + } + else + if (rx >= rz && rz >= ry) { + + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X1, Y0, Z1) - DENS(X1, Y0, Z0); + + } + else + if (rz >= rx && rx >= ry) { + + c1 = DENS(X1, Y0, Z1) - DENS(X0, Y0, Z1); + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + + } + else + if (ry >= rx && rx >= rz) { + + c1 = DENS(X1, Y1, Z0) - DENS(X0, Y1, Z0); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + + } + else + if (ry >= rz && rz >= rx) { + + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X0, Y1, Z1) - DENS(X0, Y1, Z0); + + } + else + if (rz >= ry && ry >= rx) { + + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z1) - DENS(X0, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + + } + else { + c1 = c2 = c3 = 0; + } + + Rest = c1 * rx + c2 * ry + c3 * rz; + + Tmp1[OutChan] = (cmsUInt16Number) ( c0 + ROUND_FIXED_TO_INT(_cmsToFixedDomain(Rest))); + } + + + LutTable = (cmsUInt16Number*) p16 -> Table; + LutTable += K1; + + for (OutChan=0; OutChan < p16 -> nOutputs; OutChan++) { + + c0 = DENS(X0, Y0, Z0); + + if (rx >= ry && ry >= rz) { + + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z0) - DENS(X1, Y0, Z0); + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + + } + else + if (rx >= rz && rz >= ry) { + + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X1, Y0, Z1) - DENS(X1, Y0, Z0); + + } + else + if (rz >= rx && rx >= ry) { + + c1 = DENS(X1, Y0, Z1) - DENS(X0, Y0, Z1); + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + + } + else + if (ry >= rx && rx >= rz) { + + c1 = DENS(X1, Y1, Z0) - DENS(X0, Y1, Z0); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + + } + else + if (ry >= rz && rz >= rx) { + + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X0, Y1, Z1) - DENS(X0, Y1, Z0); + + } + else + if (rz >= ry && ry >= rx) { + + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z1) - DENS(X0, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + + } + else { + c1 = c2 = c3 = 0; + } + + Rest = c1 * rx + c2 * ry + c3 * rz; + + Tmp2[OutChan] = (cmsUInt16Number) (c0 + ROUND_FIXED_TO_INT(_cmsToFixedDomain(Rest))); + } + + + + for (i=0; i < p16 -> nOutputs; i++) { + Output[i] = LinearInterp(rk, Tmp1[i], Tmp2[i]); + } +} +#undef DENS + + +// For more that 3 inputs (i.e., CMYK) +// evaluate two 3-dimensional interpolations and then linearly interpolate between them. + + +static +void Eval4InputsFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p -> Table; + cmsFloat32Number rest; + cmsFloat32Number pk; + int k0, K0, K1; + const cmsFloat32Number* T; + cmsUInt32Number i; + cmsFloat32Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + pk = fclamp(Input[0]) * p->Domain[0]; + k0 = _cmsQuickFloor(pk); + rest = pk - (cmsFloat32Number) k0; + + K0 = p -> opta[3] * k0; + K1 = K0 + (Input[0] >= 1.0 ? 0 : p->opta[3]); + + p1 = *p; + memmove(&p1.Domain[0], &p ->Domain[1], 3*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + TetrahedralInterpFloat(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + TetrahedralInterpFloat(Input + 1, Tmp2, &p1); + + for (i=0; i < p -> nOutputs; i++) + { + cmsFloat32Number y0 = Tmp1[i]; + cmsFloat32Number y1 = Tmp2[i]; + + Output[i] = y0 + (y1 - y0) * rest; + } +} + + +static +void Eval5Inputs(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + + register const cmsInterpParams* p16) +{ + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p16 -> Table; + cmsS15Fixed16Number fk; + cmsS15Fixed16Number k0, rk; + int K0, K1; + const cmsUInt16Number* T; + cmsUInt32Number i; + cmsUInt16Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + + fk = _cmsToFixedDomain((cmsS15Fixed16Number) Input[0] * p16 -> Domain[0]); + k0 = FIXED_TO_INT(fk); + rk = FIXED_REST_TO_INT(fk); + + K0 = p16 -> opta[4] * k0; + K1 = p16 -> opta[4] * (k0 + (Input[0] != 0xFFFFU ? 1 : 0)); + + p1 = *p16; + memmove(&p1.Domain[0], &p16 ->Domain[1], 4*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval4Inputs(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval4Inputs(Input + 1, Tmp2, &p1); + + for (i=0; i < p16 -> nOutputs; i++) { + + Output[i] = LinearInterp(rk, Tmp1[i], Tmp2[i]); + } + +} + + +static +void Eval5InputsFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p -> Table; + cmsFloat32Number rest; + cmsFloat32Number pk; + int k0, K0, K1; + const cmsFloat32Number* T; + cmsUInt32Number i; + cmsFloat32Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + pk = fclamp(Input[0]) * p->Domain[0]; + k0 = _cmsQuickFloor(pk); + rest = pk - (cmsFloat32Number) k0; + + K0 = p -> opta[4] * k0; + K1 = K0 + (Input[0] >= 1.0 ? 0 : p->opta[4]); + + p1 = *p; + memmove(&p1.Domain[0], &p ->Domain[1], 4*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval4InputsFloat(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval4InputsFloat(Input + 1, Tmp2, &p1); + + for (i=0; i < p -> nOutputs; i++) { + + cmsFloat32Number y0 = Tmp1[i]; + cmsFloat32Number y1 = Tmp2[i]; + + Output[i] = y0 + (y1 - y0) * rest; + } +} + + + +static +void Eval6Inputs(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p16) +{ + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p16 -> Table; + cmsS15Fixed16Number fk; + cmsS15Fixed16Number k0, rk; + int K0, K1; + const cmsUInt16Number* T; + cmsUInt32Number i; + cmsUInt16Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + fk = _cmsToFixedDomain((cmsS15Fixed16Number) Input[0] * p16 -> Domain[0]); + k0 = FIXED_TO_INT(fk); + rk = FIXED_REST_TO_INT(fk); + + K0 = p16 -> opta[5] * k0; + K1 = p16 -> opta[5] * (k0 + (Input[0] != 0xFFFFU ? 1 : 0)); + + p1 = *p16; + memmove(&p1.Domain[0], &p16 ->Domain[1], 5*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval5Inputs(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval5Inputs(Input + 1, Tmp2, &p1); + + for (i=0; i < p16 -> nOutputs; i++) { + + Output[i] = LinearInterp(rk, Tmp1[i], Tmp2[i]); + } + +} + + +static +void Eval6InputsFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p -> Table; + cmsFloat32Number rest; + cmsFloat32Number pk; + int k0, K0, K1; + const cmsFloat32Number* T; + cmsUInt32Number i; + cmsFloat32Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + pk = fclamp(Input[0]) * p->Domain[0]; + k0 = _cmsQuickFloor(pk); + rest = pk - (cmsFloat32Number) k0; + + K0 = p -> opta[5] * k0; + K1 = K0 + (Input[0] >= 1.0 ? 0 : p->opta[5]); + + p1 = *p; + memmove(&p1.Domain[0], &p ->Domain[1], 5*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval5InputsFloat(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval5InputsFloat(Input + 1, Tmp2, &p1); + + for (i=0; i < p -> nOutputs; i++) { + + cmsFloat32Number y0 = Tmp1[i]; + cmsFloat32Number y1 = Tmp2[i]; + + Output[i] = y0 + (y1 - y0) * rest; + } +} + + +static +void Eval7Inputs(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p16) +{ + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p16 -> Table; + cmsS15Fixed16Number fk; + cmsS15Fixed16Number k0, rk; + int K0, K1; + const cmsUInt16Number* T; + cmsUInt32Number i; + cmsUInt16Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + + fk = _cmsToFixedDomain((cmsS15Fixed16Number) Input[0] * p16 -> Domain[0]); + k0 = FIXED_TO_INT(fk); + rk = FIXED_REST_TO_INT(fk); + + K0 = p16 -> opta[6] * k0; + K1 = p16 -> opta[6] * (k0 + (Input[0] != 0xFFFFU ? 1 : 0)); + + p1 = *p16; + memmove(&p1.Domain[0], &p16 ->Domain[1], 6*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval6Inputs(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval6Inputs(Input + 1, Tmp2, &p1); + + for (i=0; i < p16 -> nOutputs; i++) { + Output[i] = LinearInterp(rk, Tmp1[i], Tmp2[i]); + } +} + + +static +void Eval7InputsFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p -> Table; + cmsFloat32Number rest; + cmsFloat32Number pk; + int k0, K0, K1; + const cmsFloat32Number* T; + cmsUInt32Number i; + cmsFloat32Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + pk = fclamp(Input[0]) * p->Domain[0]; + k0 = _cmsQuickFloor(pk); + rest = pk - (cmsFloat32Number) k0; + + K0 = p -> opta[6] * k0; + K1 = K0 + (Input[0] >= 1.0 ? 0 : p->opta[6]); + + p1 = *p; + memmove(&p1.Domain[0], &p ->Domain[1], 6*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval6InputsFloat(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval6InputsFloat(Input + 1, Tmp2, &p1); + + + for (i=0; i < p -> nOutputs; i++) { + + cmsFloat32Number y0 = Tmp1[i]; + cmsFloat32Number y1 = Tmp2[i]; + + Output[i] = y0 + (y1 - y0) * rest; + + } +} + +static +void Eval8Inputs(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p16) +{ + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p16 -> Table; + cmsS15Fixed16Number fk; + cmsS15Fixed16Number k0, rk; + int K0, K1; + const cmsUInt16Number* T; + cmsUInt32Number i; + cmsUInt16Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + fk = _cmsToFixedDomain((cmsS15Fixed16Number) Input[0] * p16 -> Domain[0]); + k0 = FIXED_TO_INT(fk); + rk = FIXED_REST_TO_INT(fk); + + K0 = p16 -> opta[7] * k0; + K1 = p16 -> opta[7] * (k0 + (Input[0] != 0xFFFFU ? 1 : 0)); + + p1 = *p16; + memmove(&p1.Domain[0], &p16 ->Domain[1], 7*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval7Inputs(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + Eval7Inputs(Input + 1, Tmp2, &p1); + + for (i=0; i < p16 -> nOutputs; i++) { + Output[i] = LinearInterp(rk, Tmp1[i], Tmp2[i]); + } +} + + + +static +void Eval8InputsFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p -> Table; + cmsFloat32Number rest; + cmsFloat32Number pk; + int k0, K0, K1; + const cmsFloat32Number* T; + cmsUInt32Number i; + cmsFloat32Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + pk = fclamp(Input[0]) * p->Domain[0]; + k0 = _cmsQuickFloor(pk); + rest = pk - (cmsFloat32Number) k0; + + K0 = p -> opta[7] * k0; + K1 = K0 + (Input[0] >= 1.0 ? 0 : p->opta[7]); + + p1 = *p; + memmove(&p1.Domain[0], &p ->Domain[1], 7*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval7InputsFloat(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval7InputsFloat(Input + 1, Tmp2, &p1); + + + for (i=0; i < p -> nOutputs; i++) { + + cmsFloat32Number y0 = Tmp1[i]; + cmsFloat32Number y1 = Tmp2[i]; + + Output[i] = y0 + (y1 - y0) * rest; + } +} + +// The default factory +static +cmsInterpFunction DefaultInterpolatorsFactory(cmsUInt32Number nInputChannels, cmsUInt32Number nOutputChannels, cmsUInt32Number dwFlags) +{ + + cmsInterpFunction Interpolation; + cmsBool IsFloat = (dwFlags & CMS_LERP_FLAGS_FLOAT); + cmsBool IsTrilinear = (dwFlags & CMS_LERP_FLAGS_TRILINEAR); + + memset(&Interpolation, 0, sizeof(Interpolation)); + + // Safety check + if (nInputChannels >= 4 && nOutputChannels >= MAX_STAGE_CHANNELS) + return Interpolation; + + switch (nInputChannels) { + + case 1: // Gray LUT / linear + + if (nOutputChannels == 1) { + + if (IsFloat) + Interpolation.LerpFloat = LinLerp1Dfloat; + else + Interpolation.Lerp16 = LinLerp1D; + + } + else { + + if (IsFloat) + Interpolation.LerpFloat = Eval1InputFloat; + else + Interpolation.Lerp16 = Eval1Input; + } + break; + + case 2: // Duotone + if (IsFloat) + Interpolation.LerpFloat = BilinearInterpFloat; + else + Interpolation.Lerp16 = BilinearInterp16; + break; + + case 3: // RGB et al + + if (IsTrilinear) { + + if (IsFloat) + Interpolation.LerpFloat = TrilinearInterpFloat; + else + Interpolation.Lerp16 = TrilinearInterp16; + } + else { + + if (IsFloat) + Interpolation.LerpFloat = TetrahedralInterpFloat; + else { + + Interpolation.Lerp16 = TetrahedralInterp16; + } + } + break; + + case 4: // CMYK lut + + if (IsFloat) + Interpolation.LerpFloat = Eval4InputsFloat; + else + Interpolation.Lerp16 = Eval4Inputs; + break; + + case 5: // 5 Inks + if (IsFloat) + Interpolation.LerpFloat = Eval5InputsFloat; + else + Interpolation.Lerp16 = Eval5Inputs; + break; + + case 6: // 6 Inks + if (IsFloat) + Interpolation.LerpFloat = Eval6InputsFloat; + else + Interpolation.Lerp16 = Eval6Inputs; + break; + + case 7: // 7 inks + if (IsFloat) + Interpolation.LerpFloat = Eval7InputsFloat; + else + Interpolation.Lerp16 = Eval7Inputs; + break; + + case 8: // 8 inks + if (IsFloat) + Interpolation.LerpFloat = Eval8InputsFloat; + else + Interpolation.Lerp16 = Eval8Inputs; + break; + + break; + + default: + Interpolation.Lerp16 = NULL; + } + + return Interpolation; +} Index: sdk/lib/3rdparty/lcms2/cmsio0.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsio0.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsio0.c (working copy) @@ -0,0 +1,1928 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Generic I/O, tag dictionary management, profile struct + +// IOhandlers are abstractions used by littleCMS to read from whatever file, stream, +// memory block or any storage. Each IOhandler provides implementations for read, +// write, seek and tell functions. LittleCMS code deals with IO across those objects. +// In this way, is easier to add support for new storage media. + +// NULL stream, for taking care of used space ------------------------------------- + +// NULL IOhandler basically does nothing but keep track on how many bytes have been +// written. This is handy when creating profiles, where the file size is needed in the +// header. Then, whole profile is serialized across NULL IOhandler and a second pass +// writes the bytes to the pertinent IOhandler. + +typedef struct { + cmsUInt32Number Pointer; // Points to current location +} FILENULL; + +static +cmsUInt32Number NULLRead(cmsIOHANDLER* iohandler, void *Buffer, cmsUInt32Number size, cmsUInt32Number count) +{ + FILENULL* ResData = (FILENULL*) iohandler ->stream; + + cmsUInt32Number len = size * count; + ResData -> Pointer += len; + return count; + + cmsUNUSED_PARAMETER(Buffer); +} + +static +cmsBool NULLSeek(cmsIOHANDLER* iohandler, cmsUInt32Number offset) +{ + FILENULL* ResData = (FILENULL*) iohandler ->stream; + + ResData ->Pointer = offset; + return TRUE; +} + +static +cmsUInt32Number NULLTell(cmsIOHANDLER* iohandler) +{ + FILENULL* ResData = (FILENULL*) iohandler ->stream; + return ResData -> Pointer; +} + +static +cmsBool NULLWrite(cmsIOHANDLER* iohandler, cmsUInt32Number size, const void *Ptr) +{ + FILENULL* ResData = (FILENULL*) iohandler ->stream; + + ResData ->Pointer += size; + if (ResData ->Pointer > iohandler->UsedSpace) + iohandler->UsedSpace = ResData ->Pointer; + + return TRUE; + + cmsUNUSED_PARAMETER(Ptr); +} + +static +cmsBool NULLClose(cmsIOHANDLER* iohandler) +{ + FILENULL* ResData = (FILENULL*) iohandler ->stream; + + _cmsFree(iohandler ->ContextID, ResData); + _cmsFree(iohandler ->ContextID, iohandler); + return TRUE; +} + +// The NULL IOhandler creator +cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromNULL(cmsContext ContextID) +{ + struct _cms_io_handler* iohandler = NULL; + FILENULL* fm = NULL; + + iohandler = (struct _cms_io_handler*) _cmsMallocZero(ContextID, sizeof(struct _cms_io_handler)); + if (iohandler == NULL) return NULL; + + fm = (FILENULL*) _cmsMallocZero(ContextID, sizeof(FILENULL)); + if (fm == NULL) goto Error; + + fm ->Pointer = 0; + + iohandler ->ContextID = ContextID; + iohandler ->stream = (void*) fm; + iohandler ->UsedSpace = 0; + iohandler ->ReportedSize = 0; + iohandler ->PhysicalFile[0] = 0; + + iohandler ->Read = NULLRead; + iohandler ->Seek = NULLSeek; + iohandler ->Close = NULLClose; + iohandler ->Tell = NULLTell; + iohandler ->Write = NULLWrite; + + return iohandler; + +Error: + if (iohandler) _cmsFree(ContextID, iohandler); + return NULL; + +} + + +// Memory-based stream -------------------------------------------------------------- + +// Those functions implements an iohandler which takes a block of memory as storage medium. + +typedef struct { + cmsUInt8Number* Block; // Points to allocated memory + cmsUInt32Number Size; // Size of allocated memory + cmsUInt32Number Pointer; // Points to current location + int FreeBlockOnClose; // As title + +} FILEMEM; + +static +cmsUInt32Number MemoryRead(struct _cms_io_handler* iohandler, void *Buffer, cmsUInt32Number size, cmsUInt32Number count) +{ + FILEMEM* ResData = (FILEMEM*) iohandler ->stream; + cmsUInt8Number* Ptr; + cmsUInt32Number len = size * count; + + if (ResData -> Pointer + len > ResData -> Size){ + + len = (ResData -> Size - ResData -> Pointer); + cmsSignalError(iohandler ->ContextID, cmsERROR_READ, "Read from memory error. Got %d bytes, block should be of %d bytes", len, count * size); + return 0; + } + + Ptr = ResData -> Block; + Ptr += ResData -> Pointer; + memmove(Buffer, Ptr, len); + ResData -> Pointer += len; + + return count; +} + +// SEEK_CUR is assumed +static +cmsBool MemorySeek(struct _cms_io_handler* iohandler, cmsUInt32Number offset) +{ + FILEMEM* ResData = (FILEMEM*) iohandler ->stream; + + if (offset > ResData ->Size) { + cmsSignalError(iohandler ->ContextID, cmsERROR_SEEK, "Too few data; probably corrupted profile"); + return FALSE; + } + + ResData ->Pointer = offset; + return TRUE; +} + +// Tell for memory +static +cmsUInt32Number MemoryTell(struct _cms_io_handler* iohandler) +{ + FILEMEM* ResData = (FILEMEM*) iohandler ->stream; + + if (ResData == NULL) return 0; + return ResData -> Pointer; +} + + +// Writes data to memory, also keeps used space for further reference. +static +cmsBool MemoryWrite(struct _cms_io_handler* iohandler, cmsUInt32Number size, const void *Ptr) +{ + FILEMEM* ResData = (FILEMEM*) iohandler ->stream; + + if (ResData == NULL) return FALSE; // Housekeeping + + // Check for available space. Clip. + if (ResData->Pointer + size > ResData->Size) { + size = ResData ->Size - ResData->Pointer; + } + + if (size == 0) return TRUE; // Write zero bytes is ok, but does nothing + + memmove(ResData ->Block + ResData ->Pointer, Ptr, size); + ResData ->Pointer += size; + + if (ResData ->Pointer > iohandler->UsedSpace) + iohandler->UsedSpace = ResData ->Pointer; + + return TRUE; +} + + +static +cmsBool MemoryClose(struct _cms_io_handler* iohandler) +{ + FILEMEM* ResData = (FILEMEM*) iohandler ->stream; + + if (ResData ->FreeBlockOnClose) { + + if (ResData ->Block) _cmsFree(iohandler ->ContextID, ResData ->Block); + } + + _cmsFree(iohandler ->ContextID, ResData); + _cmsFree(iohandler ->ContextID, iohandler); + + return TRUE; +} + +// Create a iohandler for memory block. AccessMode=='r' assumes the iohandler is going to read, and makes +// a copy of the memory block for letting user to free the memory after invoking open profile. In write +// mode ("w"), Buffere points to the begin of memory block to be written. +cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromMem(cmsContext ContextID, void *Buffer, cmsUInt32Number size, const char* AccessMode) +{ + cmsIOHANDLER* iohandler = NULL; + FILEMEM* fm = NULL; + + _cmsAssert(AccessMode != NULL); + + iohandler = (cmsIOHANDLER*) _cmsMallocZero(ContextID, sizeof(cmsIOHANDLER)); + if (iohandler == NULL) return NULL; + + switch (*AccessMode) { + + case 'r': + fm = (FILEMEM*) _cmsMallocZero(ContextID, sizeof(FILEMEM)); + if (fm == NULL) goto Error; + + if (Buffer == NULL) { + cmsSignalError(ContextID, cmsERROR_READ, "Couldn't read profile from NULL pointer"); + goto Error; + } + + fm ->Block = (cmsUInt8Number*) _cmsMalloc(ContextID, size); + if (fm ->Block == NULL) { + + _cmsFree(ContextID, fm); + _cmsFree(ContextID, iohandler); + cmsSignalError(ContextID, cmsERROR_READ, "Couldn't allocate %ld bytes for profile", size); + return NULL; + } + + + memmove(fm->Block, Buffer, size); + fm ->FreeBlockOnClose = TRUE; + fm ->Size = size; + fm ->Pointer = 0; + iohandler -> ReportedSize = size; + break; + + case 'w': + fm = (FILEMEM*) _cmsMallocZero(ContextID, sizeof(FILEMEM)); + if (fm == NULL) goto Error; + + fm ->Block = (cmsUInt8Number*) Buffer; + fm ->FreeBlockOnClose = FALSE; + fm ->Size = size; + fm ->Pointer = 0; + iohandler -> ReportedSize = 0; + break; + + default: + cmsSignalError(ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown access mode '%c'", *AccessMode); + return NULL; + } + + iohandler ->ContextID = ContextID; + iohandler ->stream = (void*) fm; + iohandler ->UsedSpace = 0; + iohandler ->PhysicalFile[0] = 0; + + iohandler ->Read = MemoryRead; + iohandler ->Seek = MemorySeek; + iohandler ->Close = MemoryClose; + iohandler ->Tell = MemoryTell; + iohandler ->Write = MemoryWrite; + + return iohandler; + +Error: + if (fm) _cmsFree(ContextID, fm); + if (iohandler) _cmsFree(ContextID, iohandler); + return NULL; +} + +// File-based stream ------------------------------------------------------- + +// Read count elements of size bytes each. Return number of elements read +static +cmsUInt32Number FileRead(cmsIOHANDLER* iohandler, void *Buffer, cmsUInt32Number size, cmsUInt32Number count) +{ + cmsUInt32Number nReaded = (cmsUInt32Number) fread(Buffer, size, count, (FILE*) iohandler->stream); + + if (nReaded != count) { + cmsSignalError(iohandler ->ContextID, cmsERROR_FILE, "Read error. Got %d bytes, block should be of %d bytes", nReaded * size, count * size); + return 0; + } + + return nReaded; +} + +// Position file pointer in the file +static +cmsBool FileSeek(cmsIOHANDLER* iohandler, cmsUInt32Number offset) +{ + if (fseek((FILE*) iohandler ->stream, (long) offset, SEEK_SET) != 0) { + + cmsSignalError(iohandler ->ContextID, cmsERROR_FILE, "Seek error; probably corrupted file"); + return FALSE; + } + + return TRUE; +} + +// Returns file pointer position +static +cmsUInt32Number FileTell(cmsIOHANDLER* iohandler) +{ + return (cmsUInt32Number) ftell((FILE*)iohandler ->stream); +} + +// Writes data to stream, also keeps used space for further reference. Returns TRUE on success, FALSE on error +static +cmsBool FileWrite(cmsIOHANDLER* iohandler, cmsUInt32Number size, const void* Buffer) +{ + if (size == 0) return TRUE; // We allow to write 0 bytes, but nothing is written + + iohandler->UsedSpace += size; + return (fwrite(Buffer, size, 1, (FILE*) iohandler->stream) == 1); +} + +// Closes the file +static +cmsBool FileClose(cmsIOHANDLER* iohandler) +{ + if (fclose((FILE*) iohandler ->stream) != 0) return FALSE; + _cmsFree(iohandler ->ContextID, iohandler); + return TRUE; +} + +// Create a iohandler for disk based files. +cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromFile(cmsContext ContextID, const char* FileName, const char* AccessMode) +{ + cmsIOHANDLER* iohandler = NULL; + FILE* fm = NULL; + cmsInt32Number fileLen; + + _cmsAssert(FileName != NULL); + _cmsAssert(AccessMode != NULL); + + iohandler = (cmsIOHANDLER*) _cmsMallocZero(ContextID, sizeof(cmsIOHANDLER)); + if (iohandler == NULL) return NULL; + + switch (*AccessMode) { + + case 'r': + fm = fopen(FileName, "rb"); + if (fm == NULL) { + _cmsFree(ContextID, iohandler); + cmsSignalError(ContextID, cmsERROR_FILE, "File '%s' not found", FileName); + return NULL; + } + fileLen = cmsfilelength(fm); + if (fileLen < 0) + { + fclose(fm); + _cmsFree(ContextID, iohandler); + cmsSignalError(ContextID, cmsERROR_FILE, "Cannot get size of file '%s'", FileName); + return NULL; + } + + iohandler -> ReportedSize = (cmsUInt32Number) fileLen; + break; + + case 'w': + fm = fopen(FileName, "wb"); + if (fm == NULL) { + _cmsFree(ContextID, iohandler); + cmsSignalError(ContextID, cmsERROR_FILE, "Couldn't create '%s'", FileName); + return NULL; + } + iohandler -> ReportedSize = 0; + break; + + default: + _cmsFree(ContextID, iohandler); + cmsSignalError(ContextID, cmsERROR_FILE, "Unknown access mode '%c'", *AccessMode); + return NULL; + } + + iohandler ->ContextID = ContextID; + iohandler ->stream = (void*) fm; + iohandler ->UsedSpace = 0; + + // Keep track of the original file + strncpy(iohandler -> PhysicalFile, FileName, sizeof(iohandler -> PhysicalFile)-1); + iohandler -> PhysicalFile[sizeof(iohandler -> PhysicalFile)-1] = 0; + + iohandler ->Read = FileRead; + iohandler ->Seek = FileSeek; + iohandler ->Close = FileClose; + iohandler ->Tell = FileTell; + iohandler ->Write = FileWrite; + + return iohandler; +} + +// Create a iohandler for stream based files +cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromStream(cmsContext ContextID, FILE* Stream) +{ + cmsIOHANDLER* iohandler = NULL; + cmsInt32Number fileSize; + + fileSize = cmsfilelength(Stream); + if (fileSize < 0) + { + cmsSignalError(ContextID, cmsERROR_FILE, "Cannot get size of stream"); + return NULL; + } + + iohandler = (cmsIOHANDLER*) _cmsMallocZero(ContextID, sizeof(cmsIOHANDLER)); + if (iohandler == NULL) return NULL; + + iohandler -> ContextID = ContextID; + iohandler -> stream = (void*) Stream; + iohandler -> UsedSpace = 0; + iohandler -> ReportedSize = (cmsUInt32Number) fileSize; + iohandler -> PhysicalFile[0] = 0; + + iohandler ->Read = FileRead; + iohandler ->Seek = FileSeek; + iohandler ->Close = FileClose; + iohandler ->Tell = FileTell; + iohandler ->Write = FileWrite; + + return iohandler; +} + + + +// Close an open IO handler +cmsBool CMSEXPORT cmsCloseIOhandler(cmsIOHANDLER* io) +{ + return io -> Close(io); +} + +// ------------------------------------------------------------------------------------------------------- + +cmsIOHANDLER* CMSEXPORT cmsGetProfileIOhandler(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*)hProfile; + + if (Icc == NULL) return NULL; + return Icc->IOhandler; +} + +// Creates an empty structure holding all required parameters +cmsHPROFILE CMSEXPORT cmsCreateProfilePlaceholder(cmsContext ContextID) +{ + time_t now = time(NULL); + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) _cmsMallocZero(ContextID, sizeof(_cmsICCPROFILE)); + if (Icc == NULL) return NULL; + + Icc ->ContextID = ContextID; + + // Set it to empty + Icc -> TagCount = 0; + + // Set default version + Icc ->Version = 0x02100000; + + // Set creation date/time + memmove(&Icc ->Created, gmtime(&now), sizeof(Icc ->Created)); + + // Create a mutex if the user provided proper plugin. NULL otherwise + Icc ->UsrMutex = _cmsCreateMutex(ContextID); + + // Return the handle + return (cmsHPROFILE) Icc; +} + +cmsContext CMSEXPORT cmsGetProfileContextID(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + + if (Icc == NULL) return NULL; + return Icc -> ContextID; +} + + +// Return the number of tags +cmsInt32Number CMSEXPORT cmsGetTagCount(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + if (Icc == NULL) return -1; + + return Icc->TagCount; +} + +// Return the tag signature of a given tag number +cmsTagSignature CMSEXPORT cmsGetTagSignature(cmsHPROFILE hProfile, cmsUInt32Number n) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + + if (n > Icc->TagCount) return (cmsTagSignature) 0; // Mark as not available + if (n >= MAX_TABLE_TAG) return (cmsTagSignature) 0; // As double check + + return Icc ->TagNames[n]; +} + + +static +int SearchOneTag(_cmsICCPROFILE* Profile, cmsTagSignature sig) +{ + cmsUInt32Number i; + + for (i=0; i < Profile -> TagCount; i++) { + + if (sig == Profile -> TagNames[i]) + return i; + } + + return -1; +} + +// Search for a specific tag in tag dictionary. Returns position or -1 if tag not found. +// If followlinks is turned on, then the position of the linked tag is returned +int _cmsSearchTag(_cmsICCPROFILE* Icc, cmsTagSignature sig, cmsBool lFollowLinks) +{ + int n; + cmsTagSignature LinkedSig; + + do { + + // Search for given tag in ICC profile directory + n = SearchOneTag(Icc, sig); + if (n < 0) + return -1; // Not found + + if (!lFollowLinks) + return n; // Found, don't follow links + + // Is this a linked tag? + LinkedSig = Icc ->TagLinked[n]; + + // Yes, follow link + if (LinkedSig != (cmsTagSignature) 0) { + sig = LinkedSig; + } + + } while (LinkedSig != (cmsTagSignature) 0); + + return n; +} + +// Deletes a tag entry + +static +void _cmsDeleteTagByPos(_cmsICCPROFILE* Icc, int i) +{ + _cmsAssert(Icc != NULL); + _cmsAssert(i >= 0); + + + if (Icc -> TagPtrs[i] != NULL) { + + // Free previous version + if (Icc ->TagSaveAsRaw[i]) { + _cmsFree(Icc ->ContextID, Icc ->TagPtrs[i]); + } + else { + cmsTagTypeHandler* TypeHandler = Icc ->TagTypeHandlers[i]; + + if (TypeHandler != NULL) { + + cmsTagTypeHandler LocalTypeHandler = *TypeHandler; + LocalTypeHandler.ContextID = Icc ->ContextID; // As an additional parameter + LocalTypeHandler.ICCVersion = Icc ->Version; + LocalTypeHandler.FreePtr(&LocalTypeHandler, Icc -> TagPtrs[i]); + Icc ->TagPtrs[i] = NULL; + } + } + + } +} + + +// Creates a new tag entry +static +cmsBool _cmsNewTag(_cmsICCPROFILE* Icc, cmsTagSignature sig, int* NewPos) +{ + int i; + + // Search for the tag + i = _cmsSearchTag(Icc, sig, FALSE); + if (i >= 0) { + + // Already exists? delete it + _cmsDeleteTagByPos(Icc, i); + *NewPos = i; + } + else { + + // No, make a new one + + if (Icc -> TagCount >= MAX_TABLE_TAG) { + cmsSignalError(Icc ->ContextID, cmsERROR_RANGE, "Too many tags (%d)", MAX_TABLE_TAG); + return FALSE; + } + + *NewPos = Icc ->TagCount; + Icc -> TagCount++; + } + + return TRUE; +} + + +// Check existence +cmsBool CMSEXPORT cmsIsTag(cmsHPROFILE hProfile, cmsTagSignature sig) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) (void*) hProfile; + return _cmsSearchTag(Icc, sig, FALSE) >= 0; +} + + + +// Enforces that the profile version is per. spec. +// Operates on the big endian bytes from the profile. +// Called before converting to platform endianness. +// Byte 0 is BCD major version, so max 9. +// Byte 1 is 2 BCD digits, one per nibble. +// Reserved bytes 2 & 3 must be 0. +static +cmsUInt32Number _validatedVersion(cmsUInt32Number DWord) +{ + cmsUInt8Number* pByte = (cmsUInt8Number*) &DWord; + cmsUInt8Number temp1; + cmsUInt8Number temp2; + + if (*pByte > 0x09) *pByte = (cmsUInt8Number) 0x09; + temp1 = *(pByte+1) & 0xf0; + temp2 = *(pByte+1) & 0x0f; + if (temp1 > 0x90) temp1 = 0x90; + if (temp2 > 0x09) temp2 = 0x09; + *(pByte+1) = (cmsUInt8Number)(temp1 | temp2); + *(pByte+2) = (cmsUInt8Number)0; + *(pByte+3) = (cmsUInt8Number)0; + + return DWord; +} + +// Read profile header and validate it +cmsBool _cmsReadHeader(_cmsICCPROFILE* Icc) +{ + cmsTagEntry Tag; + cmsICCHeader Header; + cmsUInt32Number i, j; + cmsUInt32Number HeaderSize; + cmsIOHANDLER* io = Icc ->IOhandler; + cmsUInt32Number TagCount; + + + // Read the header + if (io -> Read(io, &Header, sizeof(cmsICCHeader), 1) != 1) { + return FALSE; + } + + // Validate file as an ICC profile + if (_cmsAdjustEndianess32(Header.magic) != cmsMagicNumber) { + cmsSignalError(Icc ->ContextID, cmsERROR_BAD_SIGNATURE, "not an ICC profile, invalid signature"); + return FALSE; + } + + // Adjust endianness of the used parameters + Icc -> DeviceClass = (cmsProfileClassSignature) _cmsAdjustEndianess32(Header.deviceClass); + Icc -> ColorSpace = (cmsColorSpaceSignature) _cmsAdjustEndianess32(Header.colorSpace); + Icc -> PCS = (cmsColorSpaceSignature) _cmsAdjustEndianess32(Header.pcs); + + Icc -> RenderingIntent = _cmsAdjustEndianess32(Header.renderingIntent); + Icc -> flags = _cmsAdjustEndianess32(Header.flags); + Icc -> manufacturer = _cmsAdjustEndianess32(Header.manufacturer); + Icc -> model = _cmsAdjustEndianess32(Header.model); + Icc -> creator = _cmsAdjustEndianess32(Header.creator); + + _cmsAdjustEndianess64(&Icc -> attributes, &Header.attributes); + Icc -> Version = _cmsAdjustEndianess32(_validatedVersion(Header.version)); + + // Get size as reported in header + HeaderSize = _cmsAdjustEndianess32(Header.size); + + // Make sure HeaderSize is lower than profile size + if (HeaderSize >= Icc ->IOhandler ->ReportedSize) + HeaderSize = Icc ->IOhandler ->ReportedSize; + + + // Get creation date/time + _cmsDecodeDateTimeNumber(&Header.date, &Icc ->Created); + + // The profile ID are 32 raw bytes + memmove(Icc ->ProfileID.ID32, Header.profileID.ID32, 16); + + + // Read tag directory + if (!_cmsReadUInt32Number(io, &TagCount)) return FALSE; + if (TagCount > MAX_TABLE_TAG) { + + cmsSignalError(Icc ->ContextID, cmsERROR_RANGE, "Too many tags (%d)", TagCount); + return FALSE; + } + + + // Read tag directory + Icc -> TagCount = 0; + for (i=0; i < TagCount; i++) { + + if (!_cmsReadUInt32Number(io, (cmsUInt32Number *) &Tag.sig)) return FALSE; + if (!_cmsReadUInt32Number(io, &Tag.offset)) return FALSE; + if (!_cmsReadUInt32Number(io, &Tag.size)) return FALSE; + + // Perform some sanity check. Offset + size should fall inside file. + if (Tag.offset + Tag.size > HeaderSize || + Tag.offset + Tag.size < Tag.offset) + continue; + + Icc -> TagNames[Icc ->TagCount] = Tag.sig; + Icc -> TagOffsets[Icc ->TagCount] = Tag.offset; + Icc -> TagSizes[Icc ->TagCount] = Tag.size; + + // Search for links + for (j=0; j < Icc ->TagCount; j++) { + + if ((Icc ->TagOffsets[j] == Tag.offset) && + (Icc ->TagSizes[j] == Tag.size)) { + + Icc ->TagLinked[Icc ->TagCount] = Icc ->TagNames[j]; + } + + } + + Icc ->TagCount++; + } + + return TRUE; +} + +// Saves profile header +cmsBool _cmsWriteHeader(_cmsICCPROFILE* Icc, cmsUInt32Number UsedSpace) +{ + cmsICCHeader Header; + cmsUInt32Number i; + cmsTagEntry Tag; + cmsInt32Number Count = 0; + + Header.size = _cmsAdjustEndianess32(UsedSpace); + Header.cmmId = _cmsAdjustEndianess32(lcmsSignature); + Header.version = _cmsAdjustEndianess32(Icc ->Version); + + Header.deviceClass = (cmsProfileClassSignature) _cmsAdjustEndianess32(Icc -> DeviceClass); + Header.colorSpace = (cmsColorSpaceSignature) _cmsAdjustEndianess32(Icc -> ColorSpace); + Header.pcs = (cmsColorSpaceSignature) _cmsAdjustEndianess32(Icc -> PCS); + + // NOTE: in v4 Timestamp must be in UTC rather than in local time + _cmsEncodeDateTimeNumber(&Header.date, &Icc ->Created); + + Header.magic = _cmsAdjustEndianess32(cmsMagicNumber); + +#ifdef CMS_IS_WINDOWS_ + Header.platform = (cmsPlatformSignature) _cmsAdjustEndianess32(cmsSigMicrosoft); +#else + Header.platform = (cmsPlatformSignature) _cmsAdjustEndianess32(cmsSigMacintosh); +#endif + + Header.flags = _cmsAdjustEndianess32(Icc -> flags); + Header.manufacturer = _cmsAdjustEndianess32(Icc -> manufacturer); + Header.model = _cmsAdjustEndianess32(Icc -> model); + + _cmsAdjustEndianess64(&Header.attributes, &Icc -> attributes); + + // Rendering intent in the header (for embedded profiles) + Header.renderingIntent = _cmsAdjustEndianess32(Icc -> RenderingIntent); + + // Illuminant is always D50 + Header.illuminant.X = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(cmsD50_XYZ()->X)); + Header.illuminant.Y = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(cmsD50_XYZ()->Y)); + Header.illuminant.Z = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(cmsD50_XYZ()->Z)); + + // Created by LittleCMS (that's me!) + Header.creator = _cmsAdjustEndianess32(lcmsSignature); + + memset(&Header.reserved, 0, sizeof(Header.reserved)); + + // Set profile ID. Endianness is always big endian + memmove(&Header.profileID, &Icc ->ProfileID, 16); + + // Dump the header + if (!Icc -> IOhandler->Write(Icc->IOhandler, sizeof(cmsICCHeader), &Header)) return FALSE; + + // Saves Tag directory + + // Get true count + for (i=0; i < Icc -> TagCount; i++) { + if (Icc ->TagNames[i] != (cmsTagSignature) 0) + Count++; + } + + // Store number of tags + if (!_cmsWriteUInt32Number(Icc ->IOhandler, Count)) return FALSE; + + for (i=0; i < Icc -> TagCount; i++) { + + if (Icc ->TagNames[i] == (cmsTagSignature) 0) continue; // It is just a placeholder + + Tag.sig = (cmsTagSignature) _cmsAdjustEndianess32((cmsInt32Number) Icc -> TagNames[i]); + Tag.offset = _cmsAdjustEndianess32((cmsInt32Number) Icc -> TagOffsets[i]); + Tag.size = _cmsAdjustEndianess32((cmsInt32Number) Icc -> TagSizes[i]); + + if (!Icc ->IOhandler -> Write(Icc-> IOhandler, sizeof(cmsTagEntry), &Tag)) return FALSE; + } + + return TRUE; +} + +// ----------------------------------------------------------------------- Set/Get several struct members + + +cmsUInt32Number CMSEXPORT cmsGetHeaderRenderingIntent(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc -> RenderingIntent; +} + +void CMSEXPORT cmsSetHeaderRenderingIntent(cmsHPROFILE hProfile, cmsUInt32Number RenderingIntent) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> RenderingIntent = RenderingIntent; +} + +cmsUInt32Number CMSEXPORT cmsGetHeaderFlags(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return (cmsUInt32Number) Icc -> flags; +} + +void CMSEXPORT cmsSetHeaderFlags(cmsHPROFILE hProfile, cmsUInt32Number Flags) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> flags = (cmsUInt32Number) Flags; +} + +cmsUInt32Number CMSEXPORT cmsGetHeaderManufacturer(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc ->manufacturer; +} + +void CMSEXPORT cmsSetHeaderManufacturer(cmsHPROFILE hProfile, cmsUInt32Number manufacturer) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> manufacturer = manufacturer; +} + +cmsUInt32Number CMSEXPORT cmsGetHeaderCreator(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc ->creator; +} + +cmsUInt32Number CMSEXPORT cmsGetHeaderModel(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc ->model; +} + +void CMSEXPORT cmsSetHeaderModel(cmsHPROFILE hProfile, cmsUInt32Number model) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> model = model; +} + +void CMSEXPORT cmsGetHeaderAttributes(cmsHPROFILE hProfile, cmsUInt64Number* Flags) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + memmove(Flags, &Icc -> attributes, sizeof(cmsUInt64Number)); +} + +void CMSEXPORT cmsSetHeaderAttributes(cmsHPROFILE hProfile, cmsUInt64Number Flags) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + memmove(&Icc -> attributes, &Flags, sizeof(cmsUInt64Number)); +} + +void CMSEXPORT cmsGetHeaderProfileID(cmsHPROFILE hProfile, cmsUInt8Number* ProfileID) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + memmove(ProfileID, Icc ->ProfileID.ID8, 16); +} + +void CMSEXPORT cmsSetHeaderProfileID(cmsHPROFILE hProfile, cmsUInt8Number* ProfileID) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + memmove(&Icc -> ProfileID, ProfileID, 16); +} + +cmsBool CMSEXPORT cmsGetHeaderCreationDateTime(cmsHPROFILE hProfile, struct tm *Dest) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + memmove(Dest, &Icc ->Created, sizeof(struct tm)); + return TRUE; +} + +cmsColorSpaceSignature CMSEXPORT cmsGetPCS(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc -> PCS; +} + +void CMSEXPORT cmsSetPCS(cmsHPROFILE hProfile, cmsColorSpaceSignature pcs) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> PCS = pcs; +} + +cmsColorSpaceSignature CMSEXPORT cmsGetColorSpace(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc -> ColorSpace; +} + +void CMSEXPORT cmsSetColorSpace(cmsHPROFILE hProfile, cmsColorSpaceSignature sig) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> ColorSpace = sig; +} + +cmsProfileClassSignature CMSEXPORT cmsGetDeviceClass(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc -> DeviceClass; +} + +void CMSEXPORT cmsSetDeviceClass(cmsHPROFILE hProfile, cmsProfileClassSignature sig) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> DeviceClass = sig; +} + +cmsUInt32Number CMSEXPORT cmsGetEncodedICCversion(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc -> Version; +} + +void CMSEXPORT cmsSetEncodedICCversion(cmsHPROFILE hProfile, cmsUInt32Number Version) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> Version = Version; +} + +// Get an hexadecimal number with same digits as v +static +cmsUInt32Number BaseToBase(cmsUInt32Number in, int BaseIn, int BaseOut) +{ + char Buff[100]; + int i, len; + cmsUInt32Number out; + + for (len=0; in > 0 && len < 100; len++) { + + Buff[len] = (char) (in % BaseIn); + in /= BaseIn; + } + + for (i=len-1, out=0; i >= 0; --i) { + out = out * BaseOut + Buff[i]; + } + + return out; +} + +void CMSEXPORT cmsSetProfileVersion(cmsHPROFILE hProfile, cmsFloat64Number Version) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + + // 4.2 -> 0x4200000 + + Icc -> Version = BaseToBase((cmsUInt32Number) floor(Version * 100.0 + 0.5), 10, 16) << 16; +} + +cmsFloat64Number CMSEXPORT cmsGetProfileVersion(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + cmsUInt32Number n = Icc -> Version >> 16; + + return BaseToBase(n, 16, 10) / 100.0; +} +// -------------------------------------------------------------------------------------------------------------- + + +// Create profile from IOhandler +cmsHPROFILE CMSEXPORT cmsOpenProfileFromIOhandlerTHR(cmsContext ContextID, cmsIOHANDLER* io) +{ + _cmsICCPROFILE* NewIcc; + cmsHPROFILE hEmpty = cmsCreateProfilePlaceholder(ContextID); + + if (hEmpty == NULL) return NULL; + + NewIcc = (_cmsICCPROFILE*) hEmpty; + + NewIcc ->IOhandler = io; + if (!_cmsReadHeader(NewIcc)) goto Error; + return hEmpty; + +Error: + cmsCloseProfile(hEmpty); + return NULL; +} + +// Create profile from IOhandler +cmsHPROFILE CMSEXPORT cmsOpenProfileFromIOhandler2THR(cmsContext ContextID, cmsIOHANDLER* io, cmsBool write) +{ + _cmsICCPROFILE* NewIcc; + cmsHPROFILE hEmpty = cmsCreateProfilePlaceholder(ContextID); + + if (hEmpty == NULL) return NULL; + + NewIcc = (_cmsICCPROFILE*) hEmpty; + + NewIcc ->IOhandler = io; + if (write) { + + NewIcc -> IsWrite = TRUE; + return hEmpty; + } + + if (!_cmsReadHeader(NewIcc)) goto Error; + return hEmpty; + +Error: + cmsCloseProfile(hEmpty); + return NULL; +} + + +// Create profile from disk file +cmsHPROFILE CMSEXPORT cmsOpenProfileFromFileTHR(cmsContext ContextID, const char *lpFileName, const char *sAccess) +{ + _cmsICCPROFILE* NewIcc; + cmsHPROFILE hEmpty = cmsCreateProfilePlaceholder(ContextID); + + if (hEmpty == NULL) return NULL; + + NewIcc = (_cmsICCPROFILE*) hEmpty; + + NewIcc ->IOhandler = cmsOpenIOhandlerFromFile(ContextID, lpFileName, sAccess); + if (NewIcc ->IOhandler == NULL) goto Error; + + if (*sAccess == 'W' || *sAccess == 'w') { + + NewIcc -> IsWrite = TRUE; + + return hEmpty; + } + + if (!_cmsReadHeader(NewIcc)) goto Error; + return hEmpty; + +Error: + cmsCloseProfile(hEmpty); + return NULL; +} + + +cmsHPROFILE CMSEXPORT cmsOpenProfileFromFile(const char *ICCProfile, const char *sAccess) +{ + return cmsOpenProfileFromFileTHR(NULL, ICCProfile, sAccess); +} + + +cmsHPROFILE CMSEXPORT cmsOpenProfileFromStreamTHR(cmsContext ContextID, FILE* ICCProfile, const char *sAccess) +{ + _cmsICCPROFILE* NewIcc; + cmsHPROFILE hEmpty = cmsCreateProfilePlaceholder(ContextID); + + if (hEmpty == NULL) return NULL; + + NewIcc = (_cmsICCPROFILE*) hEmpty; + + NewIcc ->IOhandler = cmsOpenIOhandlerFromStream(ContextID, ICCProfile); + if (NewIcc ->IOhandler == NULL) goto Error; + + if (*sAccess == 'w') { + + NewIcc -> IsWrite = TRUE; + return hEmpty; + } + + if (!_cmsReadHeader(NewIcc)) goto Error; + return hEmpty; + +Error: + cmsCloseProfile(hEmpty); + return NULL; + +} + +cmsHPROFILE CMSEXPORT cmsOpenProfileFromStream(FILE* ICCProfile, const char *sAccess) +{ + return cmsOpenProfileFromStreamTHR(NULL, ICCProfile, sAccess); +} + + +// Open from memory block +cmsHPROFILE CMSEXPORT cmsOpenProfileFromMemTHR(cmsContext ContextID, const void* MemPtr, cmsUInt32Number dwSize) +{ + _cmsICCPROFILE* NewIcc; + cmsHPROFILE hEmpty; + + hEmpty = cmsCreateProfilePlaceholder(ContextID); + if (hEmpty == NULL) return NULL; + + NewIcc = (_cmsICCPROFILE*) hEmpty; + + // Ok, in this case const void* is casted to void* just because open IO handler + // shares read and writting modes. Don't abuse this feature! + NewIcc ->IOhandler = cmsOpenIOhandlerFromMem(ContextID, (void*) MemPtr, dwSize, "r"); + if (NewIcc ->IOhandler == NULL) goto Error; + + if (!_cmsReadHeader(NewIcc)) goto Error; + + return hEmpty; + +Error: + cmsCloseProfile(hEmpty); + return NULL; +} + +cmsHPROFILE CMSEXPORT cmsOpenProfileFromMem(const void* MemPtr, cmsUInt32Number dwSize) +{ + return cmsOpenProfileFromMemTHR(NULL, MemPtr, dwSize); +} + + + +// Dump tag contents. If the profile is being modified, untouched tags are copied from FileOrig +static +cmsBool SaveTags(_cmsICCPROFILE* Icc, _cmsICCPROFILE* FileOrig) +{ + cmsUInt8Number* Data; + cmsUInt32Number i; + cmsUInt32Number Begin; + cmsIOHANDLER* io = Icc ->IOhandler; + cmsTagDescriptor* TagDescriptor; + cmsTagTypeSignature TypeBase; + cmsTagTypeSignature Type; + cmsTagTypeHandler* TypeHandler; + cmsFloat64Number Version = cmsGetProfileVersion((cmsHPROFILE) Icc); + cmsTagTypeHandler LocalTypeHandler; + + for (i=0; i < Icc -> TagCount; i++) { + + if (Icc ->TagNames[i] == (cmsTagSignature) 0) continue; + + // Linked tags are not written + if (Icc ->TagLinked[i] != (cmsTagSignature) 0) continue; + + Icc -> TagOffsets[i] = Begin = io ->UsedSpace; + + Data = (cmsUInt8Number*) Icc -> TagPtrs[i]; + + if (!Data) { + + // Reach here if we are copying a tag from a disk-based ICC profile which has not been modified by user. + // In this case a blind copy of the block data is performed + if (FileOrig != NULL && Icc -> TagOffsets[i]) { + + cmsUInt32Number TagSize = FileOrig -> TagSizes[i]; + cmsUInt32Number TagOffset = FileOrig -> TagOffsets[i]; + void* Mem; + + if (!FileOrig ->IOhandler->Seek(FileOrig ->IOhandler, TagOffset)) return FALSE; + + Mem = _cmsMalloc(Icc ->ContextID, TagSize); + if (Mem == NULL) return FALSE; + + if (FileOrig ->IOhandler->Read(FileOrig->IOhandler, Mem, TagSize, 1) != 1) return FALSE; + if (!io ->Write(io, TagSize, Mem)) return FALSE; + _cmsFree(Icc ->ContextID, Mem); + + Icc -> TagSizes[i] = (io ->UsedSpace - Begin); + + + // Align to 32 bit boundary. + if (! _cmsWriteAlignment(io)) + return FALSE; + } + + continue; + } + + + // Should this tag be saved as RAW? If so, tagsizes should be specified in advance (no further cooking is done) + if (Icc ->TagSaveAsRaw[i]) { + + if (io -> Write(io, Icc ->TagSizes[i], Data) != 1) return FALSE; + } + else { + + // Search for support on this tag + TagDescriptor = _cmsGetTagDescriptor(Icc-> ContextID, Icc -> TagNames[i]); + if (TagDescriptor == NULL) continue; // Unsupported, ignore it + + if (TagDescriptor ->DecideType != NULL) { + + Type = TagDescriptor ->DecideType(Version, Data); + } + else { + + Type = TagDescriptor ->SupportedTypes[0]; + } + + TypeHandler = _cmsGetTagTypeHandler(Icc->ContextID, Type); + + if (TypeHandler == NULL) { + cmsSignalError(Icc ->ContextID, cmsERROR_INTERNAL, "(Internal) no handler for tag %x", Icc -> TagNames[i]); + continue; + } + + TypeBase = TypeHandler ->Signature; + if (!_cmsWriteTypeBase(io, TypeBase)) + return FALSE; + + LocalTypeHandler = *TypeHandler; + LocalTypeHandler.ContextID = Icc ->ContextID; + LocalTypeHandler.ICCVersion = Icc ->Version; + if (!LocalTypeHandler.WritePtr(&LocalTypeHandler, io, Data, TagDescriptor ->ElemCount)) { + + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) TypeBase); + cmsSignalError(Icc ->ContextID, cmsERROR_WRITE, "Couldn't write type '%s'", String); + return FALSE; + } + } + + + Icc -> TagSizes[i] = (io ->UsedSpace - Begin); + + // Align to 32 bit boundary. + if (! _cmsWriteAlignment(io)) + return FALSE; + } + + + return TRUE; +} + + +// Fill the offset and size fields for all linked tags +static +cmsBool SetLinks( _cmsICCPROFILE* Icc) +{ + cmsUInt32Number i; + + for (i=0; i < Icc -> TagCount; i++) { + + cmsTagSignature lnk = Icc ->TagLinked[i]; + if (lnk != (cmsTagSignature) 0) { + + int j = _cmsSearchTag(Icc, lnk, FALSE); + if (j >= 0) { + + Icc ->TagOffsets[i] = Icc ->TagOffsets[j]; + Icc ->TagSizes[i] = Icc ->TagSizes[j]; + } + + } + } + + return TRUE; +} + +// Low-level save to IOHANDLER. It returns the number of bytes used to +// store the profile, or zero on error. io may be NULL and in this case +// no data is written--only sizes are calculated +cmsUInt32Number CMSEXPORT cmsSaveProfileToIOhandler(cmsHPROFILE hProfile, cmsIOHANDLER* io) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + _cmsICCPROFILE Keep; + cmsIOHANDLER* PrevIO = NULL; + cmsUInt32Number UsedSpace; + cmsContext ContextID; + + _cmsAssert(hProfile != NULL); + + if (!_cmsLockMutex(Icc->ContextID, Icc->UsrMutex)) return 0; + memmove(&Keep, Icc, sizeof(_cmsICCPROFILE)); + + ContextID = cmsGetProfileContextID(hProfile); + PrevIO = Icc ->IOhandler = cmsOpenIOhandlerFromNULL(ContextID); + if (PrevIO == NULL) { + _cmsUnlockMutex(Icc->ContextID, Icc->UsrMutex); + return 0; + } + + // Pass #1 does compute offsets + + if (!_cmsWriteHeader(Icc, 0)) goto Error; + if (!SaveTags(Icc, &Keep)) goto Error; + + UsedSpace = PrevIO ->UsedSpace; + + // Pass #2 does save to iohandler + + if (io != NULL) { + + Icc ->IOhandler = io; + if (!SetLinks(Icc)) goto Error; + if (!_cmsWriteHeader(Icc, UsedSpace)) goto Error; + if (!SaveTags(Icc, &Keep)) goto Error; + } + + memmove(Icc, &Keep, sizeof(_cmsICCPROFILE)); + if (!cmsCloseIOhandler(PrevIO)) + UsedSpace = 0; // As a error marker + + _cmsUnlockMutex(Icc->ContextID, Icc->UsrMutex); + + return UsedSpace; + + +Error: + cmsCloseIOhandler(PrevIO); + memmove(Icc, &Keep, sizeof(_cmsICCPROFILE)); + _cmsUnlockMutex(Icc->ContextID, Icc->UsrMutex); + + return 0; +} + + +// Low-level save to disk. +cmsBool CMSEXPORT cmsSaveProfileToFile(cmsHPROFILE hProfile, const char* FileName) +{ + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsIOHANDLER* io = cmsOpenIOhandlerFromFile(ContextID, FileName, "w"); + cmsBool rc; + + if (io == NULL) return FALSE; + + rc = (cmsSaveProfileToIOhandler(hProfile, io) != 0); + rc &= cmsCloseIOhandler(io); + + if (rc == FALSE) { // remove() is C99 per 7.19.4.1 + remove(FileName); // We have to IGNORE return value in this case + } + return rc; +} + +// Same as anterior, but for streams +cmsBool CMSEXPORT cmsSaveProfileToStream(cmsHPROFILE hProfile, FILE* Stream) +{ + cmsBool rc; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsIOHANDLER* io = cmsOpenIOhandlerFromStream(ContextID, Stream); + + if (io == NULL) return FALSE; + + rc = (cmsSaveProfileToIOhandler(hProfile, io) != 0); + rc &= cmsCloseIOhandler(io); + + return rc; +} + + +// Same as anterior, but for memory blocks. In this case, a NULL as MemPtr means calculate needed space only +cmsBool CMSEXPORT cmsSaveProfileToMem(cmsHPROFILE hProfile, void *MemPtr, cmsUInt32Number* BytesNeeded) +{ + cmsBool rc; + cmsIOHANDLER* io; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + _cmsAssert(BytesNeeded != NULL); + + // Should we just calculate the needed space? + if (MemPtr == NULL) { + + *BytesNeeded = cmsSaveProfileToIOhandler(hProfile, NULL); + return (*BytesNeeded == 0) ? FALSE : TRUE; + } + + // That is a real write operation + io = cmsOpenIOhandlerFromMem(ContextID, MemPtr, *BytesNeeded, "w"); + if (io == NULL) return FALSE; + + rc = (cmsSaveProfileToIOhandler(hProfile, io) != 0); + rc &= cmsCloseIOhandler(io); + + return rc; +} + + + +// Closes a profile freeing any involved resources +cmsBool CMSEXPORT cmsCloseProfile(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + cmsBool rc = TRUE; + cmsUInt32Number i; + + if (!Icc) return FALSE; + + // Was open in write mode? + if (Icc ->IsWrite) { + + Icc ->IsWrite = FALSE; // Assure no further writting + rc &= cmsSaveProfileToFile(hProfile, Icc ->IOhandler->PhysicalFile); + } + + for (i=0; i < Icc -> TagCount; i++) { + + if (Icc -> TagPtrs[i]) { + + cmsTagTypeHandler* TypeHandler = Icc ->TagTypeHandlers[i]; + + if (TypeHandler != NULL) { + cmsTagTypeHandler LocalTypeHandler = *TypeHandler; + + LocalTypeHandler.ContextID = Icc ->ContextID; // As an additional parameters + LocalTypeHandler.ICCVersion = Icc ->Version; + LocalTypeHandler.FreePtr(&LocalTypeHandler, Icc -> TagPtrs[i]); + } + else + _cmsFree(Icc ->ContextID, Icc ->TagPtrs[i]); + } + } + + if (Icc ->IOhandler != NULL) { + rc &= cmsCloseIOhandler(Icc->IOhandler); + } + + _cmsDestroyMutex(Icc->ContextID, Icc->UsrMutex); + + _cmsFree(Icc ->ContextID, Icc); // Free placeholder memory + + return rc; +} + + +// ------------------------------------------------------------------------------------------------------------------- + + +// Returns TRUE if a given tag is supported by a plug-in +static +cmsBool IsTypeSupported(cmsTagDescriptor* TagDescriptor, cmsTagTypeSignature Type) +{ + cmsUInt32Number i, nMaxTypes; + + nMaxTypes = TagDescriptor->nSupportedTypes; + if (nMaxTypes >= MAX_TYPES_IN_LCMS_PLUGIN) + nMaxTypes = MAX_TYPES_IN_LCMS_PLUGIN; + + for (i=0; i < nMaxTypes; i++) { + if (Type == TagDescriptor ->SupportedTypes[i]) return TRUE; + } + + return FALSE; +} + + +// That's the main read function +void* CMSEXPORT cmsReadTag(cmsHPROFILE hProfile, cmsTagSignature sig) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + cmsIOHANDLER* io = Icc ->IOhandler; + cmsTagTypeHandler* TypeHandler; + cmsTagTypeHandler LocalTypeHandler; + cmsTagDescriptor* TagDescriptor; + cmsTagTypeSignature BaseType; + cmsUInt32Number Offset, TagSize; + cmsUInt32Number ElemCount; + int n; + + if (!_cmsLockMutex(Icc->ContextID, Icc ->UsrMutex)) return NULL; + + n = _cmsSearchTag(Icc, sig, TRUE); + if (n < 0) goto Error; // Not found, return NULL + + + // If the element is already in memory, return the pointer + if (Icc -> TagPtrs[n]) { + + if (Icc ->TagSaveAsRaw[n]) goto Error; // We don't support read raw tags as cooked + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return Icc -> TagPtrs[n]; + } + + // We need to read it. Get the offset and size to the file + Offset = Icc -> TagOffsets[n]; + TagSize = Icc -> TagSizes[n]; + + // Seek to its location + if (!io -> Seek(io, Offset)) + goto Error; + + // Search for support on this tag + TagDescriptor = _cmsGetTagDescriptor(Icc-> ContextID, sig); + if (TagDescriptor == NULL) { + + char String[5]; + + _cmsTagSignature2String(String, sig); + + // An unknown element was found. + cmsSignalError(Icc ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown tag type '%s' found.", String); + goto Error; // Unsupported. + } + + // if supported, get type and check if in list + BaseType = _cmsReadTypeBase(io); + if (BaseType == 0) goto Error; + + if (!IsTypeSupported(TagDescriptor, BaseType)) goto Error; + + TagSize -= 8; // Alredy read by the type base logic + + // Get type handler + TypeHandler = _cmsGetTagTypeHandler(Icc ->ContextID, BaseType); + if (TypeHandler == NULL) goto Error; + LocalTypeHandler = *TypeHandler; + + + // Read the tag + Icc -> TagTypeHandlers[n] = TypeHandler; + + LocalTypeHandler.ContextID = Icc ->ContextID; + LocalTypeHandler.ICCVersion = Icc ->Version; + Icc -> TagPtrs[n] = LocalTypeHandler.ReadPtr(&LocalTypeHandler, io, &ElemCount, TagSize); + + // The tag type is supported, but something wrong happened and we cannot read the tag. + // let know the user about this (although it is just a warning) + if (Icc -> TagPtrs[n] == NULL) { + + char String[5]; + + _cmsTagSignature2String(String, sig); + cmsSignalError(Icc ->ContextID, cmsERROR_CORRUPTION_DETECTED, "Corrupted tag '%s'", String); + goto Error; + } + + // This is a weird error that may be a symptom of something more serious, the number of + // stored item is actually less than the number of required elements. + if (ElemCount < TagDescriptor ->ElemCount) { + + char String[5]; + + _cmsTagSignature2String(String, sig); + cmsSignalError(Icc ->ContextID, cmsERROR_CORRUPTION_DETECTED, "'%s' Inconsistent number of items: expected %d, got %d", + String, TagDescriptor ->ElemCount, ElemCount); + } + + + // Return the data + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return Icc -> TagPtrs[n]; + + + // Return error and unlock tha data +Error: + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return NULL; +} + + +// Get true type of data +cmsTagTypeSignature _cmsGetTagTrueType(cmsHPROFILE hProfile, cmsTagSignature sig) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + cmsTagTypeHandler* TypeHandler; + int n; + + // Search for given tag in ICC profile directory + n = _cmsSearchTag(Icc, sig, TRUE); + if (n < 0) return (cmsTagTypeSignature) 0; // Not found, return NULL + + // Get the handler. The true type is there + TypeHandler = Icc -> TagTypeHandlers[n]; + return TypeHandler ->Signature; +} + + +// Write a single tag. This just keeps track of the tak into a list of "to be written". If the tag is already +// in that list, the previous version is deleted. +cmsBool CMSEXPORT cmsWriteTag(cmsHPROFILE hProfile, cmsTagSignature sig, const void* data) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + cmsTagTypeHandler* TypeHandler = NULL; + cmsTagTypeHandler LocalTypeHandler; + cmsTagDescriptor* TagDescriptor = NULL; + cmsTagTypeSignature Type; + int i; + cmsFloat64Number Version; + char TypeString[5], SigString[5]; + + if (!_cmsLockMutex(Icc->ContextID, Icc ->UsrMutex)) return FALSE; + + // To delete tags. + if (data == NULL) { + + // Delete the tag + i = _cmsSearchTag(Icc, sig, FALSE); + if (i >= 0) { + + // Use zero as a mark of deleted + _cmsDeleteTagByPos(Icc, i); + Icc ->TagNames[i] = (cmsTagSignature) 0; + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return TRUE; + } + // Didn't find the tag + goto Error; + } + + if (!_cmsNewTag(Icc, sig, &i)) goto Error; + + // This is not raw + Icc ->TagSaveAsRaw[i] = FALSE; + + // This is not a link + Icc ->TagLinked[i] = (cmsTagSignature) 0; + + // Get information about the TAG. + TagDescriptor = _cmsGetTagDescriptor(Icc-> ContextID, sig); + if (TagDescriptor == NULL){ + cmsSignalError(Icc ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported tag '%x'", sig); + goto Error; + } + + + // Now we need to know which type to use. It depends on the version. + Version = cmsGetProfileVersion(hProfile); + + if (TagDescriptor ->DecideType != NULL) { + + // Let the tag descriptor to decide the type base on depending on + // the data. This is useful for example on parametric curves, where + // curves specified by a table cannot be saved as parametric and needs + // to be casted to single v2-curves, even on v4 profiles. + + Type = TagDescriptor ->DecideType(Version, data); + } + else { + + Type = TagDescriptor ->SupportedTypes[0]; + } + + // Does the tag support this type? + if (!IsTypeSupported(TagDescriptor, Type)) { + + _cmsTagSignature2String(TypeString, (cmsTagSignature) Type); + _cmsTagSignature2String(SigString, sig); + + cmsSignalError(Icc ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported type '%s' for tag '%s'", TypeString, SigString); + goto Error; + } + + // Does we have a handler for this type? + TypeHandler = _cmsGetTagTypeHandler(Icc->ContextID, Type); + if (TypeHandler == NULL) { + + _cmsTagSignature2String(TypeString, (cmsTagSignature) Type); + _cmsTagSignature2String(SigString, sig); + + cmsSignalError(Icc ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported type '%s' for tag '%s'", TypeString, SigString); + goto Error; // Should never happen + } + + + // Fill fields on icc structure + Icc ->TagTypeHandlers[i] = TypeHandler; + Icc ->TagNames[i] = sig; + Icc ->TagSizes[i] = 0; + Icc ->TagOffsets[i] = 0; + + LocalTypeHandler = *TypeHandler; + LocalTypeHandler.ContextID = Icc ->ContextID; + LocalTypeHandler.ICCVersion = Icc ->Version; + Icc ->TagPtrs[i] = LocalTypeHandler.DupPtr(&LocalTypeHandler, data, TagDescriptor ->ElemCount); + + if (Icc ->TagPtrs[i] == NULL) { + + _cmsTagSignature2String(TypeString, (cmsTagSignature) Type); + _cmsTagSignature2String(SigString, sig); + cmsSignalError(Icc ->ContextID, cmsERROR_CORRUPTION_DETECTED, "Malformed struct in type '%s' for tag '%s'", TypeString, SigString); + + goto Error; + } + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return TRUE; + +Error: + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return FALSE; + +} + +// Read and write raw data. The only way those function would work and keep consistence with normal read and write +// is to do an additional step of serialization. That means, readRaw would issue a normal read and then convert the obtained +// data to raw bytes by using the "write" serialization logic. And vice-versa. I know this may end in situations where +// raw data written does not exactly correspond with the raw data proposed to cmsWriteRaw data, but this approach allows +// to write a tag as raw data and the read it as handled. + +cmsInt32Number CMSEXPORT cmsReadRawTag(cmsHPROFILE hProfile, cmsTagSignature sig, void* data, cmsUInt32Number BufferSize) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + void *Object; + int i; + cmsIOHANDLER* MemIO; + cmsTagTypeHandler* TypeHandler = NULL; + cmsTagTypeHandler LocalTypeHandler; + cmsTagDescriptor* TagDescriptor = NULL; + cmsUInt32Number rc; + cmsUInt32Number Offset, TagSize; + + if (!_cmsLockMutex(Icc->ContextID, Icc ->UsrMutex)) return 0; + + // Search for given tag in ICC profile directory + i = _cmsSearchTag(Icc, sig, TRUE); + if (i < 0) goto Error; // Not found, + + // It is already read? + if (Icc -> TagPtrs[i] == NULL) { + + // No yet, get original position + Offset = Icc ->TagOffsets[i]; + TagSize = Icc ->TagSizes[i]; + + // read the data directly, don't keep copy + if (data != NULL) { + + if (BufferSize < TagSize) + TagSize = BufferSize; + + if (!Icc ->IOhandler ->Seek(Icc ->IOhandler, Offset)) goto Error; + if (!Icc ->IOhandler ->Read(Icc ->IOhandler, data, 1, TagSize)) goto Error; + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return TagSize; + } + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return Icc ->TagSizes[i]; + } + + // The data has been already read, or written. But wait!, maybe the user choosed to save as + // raw data. In this case, return the raw data directly + if (Icc ->TagSaveAsRaw[i]) { + + if (data != NULL) { + + TagSize = Icc ->TagSizes[i]; + if (BufferSize < TagSize) + TagSize = BufferSize; + + memmove(data, Icc ->TagPtrs[i], TagSize); + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return TagSize; + } + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return Icc ->TagSizes[i]; + } + + // Already readed, or previously set by cmsWriteTag(). We need to serialize that + // data to raw in order to maintain consistency. + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + Object = cmsReadTag(hProfile, sig); + if (!_cmsLockMutex(Icc->ContextID, Icc ->UsrMutex)) return 0; + + if (Object == NULL) goto Error; + + // Now we need to serialize to a memory block: just use a memory iohandler + + if (data == NULL) { + MemIO = cmsOpenIOhandlerFromNULL(cmsGetProfileContextID(hProfile)); + } else{ + MemIO = cmsOpenIOhandlerFromMem(cmsGetProfileContextID(hProfile), data, BufferSize, "w"); + } + if (MemIO == NULL) goto Error; + + // Obtain type handling for the tag + TypeHandler = Icc ->TagTypeHandlers[i]; + TagDescriptor = _cmsGetTagDescriptor(Icc-> ContextID, sig); + if (TagDescriptor == NULL) { + cmsCloseIOhandler(MemIO); + goto Error; + } + + if (TypeHandler == NULL) goto Error; + + // Serialize + LocalTypeHandler = *TypeHandler; + LocalTypeHandler.ContextID = Icc ->ContextID; + LocalTypeHandler.ICCVersion = Icc ->Version; + + if (!_cmsWriteTypeBase(MemIO, TypeHandler ->Signature)) { + cmsCloseIOhandler(MemIO); + goto Error; + } + + if (!LocalTypeHandler.WritePtr(&LocalTypeHandler, MemIO, Object, TagDescriptor ->ElemCount)) { + cmsCloseIOhandler(MemIO); + goto Error; + } + + // Get Size and close + rc = MemIO ->Tell(MemIO); + cmsCloseIOhandler(MemIO); // Ignore return code this time + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return rc; + +Error: + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return 0; +} + +// Similar to the anterior. This function allows to write directly to the ICC profile any data, without +// checking anything. As a rule, mixing Raw with cooked doesn't work, so writting a tag as raw and then reading +// it as cooked without serializing does result into an error. If that is what you want, you will need to dump +// the profile to memry or disk and then reopen it. +cmsBool CMSEXPORT cmsWriteRawTag(cmsHPROFILE hProfile, cmsTagSignature sig, const void* data, cmsUInt32Number Size) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + int i; + + if (!_cmsLockMutex(Icc->ContextID, Icc ->UsrMutex)) return 0; + + if (!_cmsNewTag(Icc, sig, &i)) { + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return FALSE; + } + + // Mark the tag as being written as RAW + Icc ->TagSaveAsRaw[i] = TRUE; + Icc ->TagNames[i] = sig; + Icc ->TagLinked[i] = (cmsTagSignature) 0; + + // Keep a copy of the block + Icc ->TagPtrs[i] = _cmsDupMem(Icc ->ContextID, data, Size); + Icc ->TagSizes[i] = Size; + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + + if (Icc->TagPtrs[i] == NULL) { + Icc->TagNames[i] = (cmsTagSignature) 0; + return FALSE; + } + return TRUE; +} + +// Using this function you can collapse several tag entries to the same block in the profile +cmsBool CMSEXPORT cmsLinkTag(cmsHPROFILE hProfile, cmsTagSignature sig, cmsTagSignature dest) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + int i; + + if (!_cmsLockMutex(Icc->ContextID, Icc ->UsrMutex)) return FALSE; + + if (!_cmsNewTag(Icc, sig, &i)) { + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return FALSE; + } + + // Keep necessary information + Icc ->TagSaveAsRaw[i] = FALSE; + Icc ->TagNames[i] = sig; + Icc ->TagLinked[i] = dest; + + Icc ->TagPtrs[i] = NULL; + Icc ->TagSizes[i] = 0; + Icc ->TagOffsets[i] = 0; + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return TRUE; +} + + +// Returns the tag linked to sig, in the case two tags are sharing same resource +cmsTagSignature CMSEXPORT cmsTagLinkedTo(cmsHPROFILE hProfile, cmsTagSignature sig) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + int i; + + // Search for given tag in ICC profile directory + i = _cmsSearchTag(Icc, sig, FALSE); + if (i < 0) return (cmsTagSignature) 0; // Not found, return 0 + + return Icc -> TagLinked[i]; +} Index: sdk/lib/3rdparty/lcms2/cmsio1.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsio1.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsio1.c (working copy) @@ -0,0 +1,1029 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Read tags using low-level functions, provides necessary glue code to adapt versions, etc. + +// LUT tags +static const cmsTagSignature Device2PCS16[] = {cmsSigAToB0Tag, // Perceptual + cmsSigAToB1Tag, // Relative colorimetric + cmsSigAToB2Tag, // Saturation + cmsSigAToB1Tag }; // Absolute colorimetric + +static const cmsTagSignature Device2PCSFloat[] = {cmsSigDToB0Tag, // Perceptual + cmsSigDToB1Tag, // Relative colorimetric + cmsSigDToB2Tag, // Saturation + cmsSigDToB3Tag }; // Absolute colorimetric + +static const cmsTagSignature PCS2Device16[] = {cmsSigBToA0Tag, // Perceptual + cmsSigBToA1Tag, // Relative colorimetric + cmsSigBToA2Tag, // Saturation + cmsSigBToA1Tag }; // Absolute colorimetric + +static const cmsTagSignature PCS2DeviceFloat[] = {cmsSigBToD0Tag, // Perceptual + cmsSigBToD1Tag, // Relative colorimetric + cmsSigBToD2Tag, // Saturation + cmsSigBToD3Tag }; // Absolute colorimetric + + +// Factors to convert from 1.15 fixed point to 0..1.0 range and vice-versa +#define InpAdj (1.0/MAX_ENCODEABLE_XYZ) // (65536.0/(65535.0*2.0)) +#define OutpAdj (MAX_ENCODEABLE_XYZ) // ((2.0*65535.0)/65536.0) + +// Several resources for gray conversions. +static const cmsFloat64Number GrayInputMatrix[] = { (InpAdj*cmsD50X), (InpAdj*cmsD50Y), (InpAdj*cmsD50Z) }; +static const cmsFloat64Number OneToThreeInputMatrix[] = { 1, 1, 1 }; +static const cmsFloat64Number PickYMatrix[] = { 0, (OutpAdj*cmsD50Y), 0 }; +static const cmsFloat64Number PickLstarMatrix[] = { 1, 0, 0 }; + +// Get a media white point fixing some issues found in certain old profiles +cmsBool _cmsReadMediaWhitePoint(cmsCIEXYZ* Dest, cmsHPROFILE hProfile) +{ + cmsCIEXYZ* Tag; + + _cmsAssert(Dest != NULL); + + Tag = (cmsCIEXYZ*) cmsReadTag(hProfile, cmsSigMediaWhitePointTag); + + // If no wp, take D50 + if (Tag == NULL) { + *Dest = *cmsD50_XYZ(); + return TRUE; + } + + // V2 display profiles should give D50 + if (cmsGetEncodedICCversion(hProfile) < 0x4000000) { + + if (cmsGetDeviceClass(hProfile) == cmsSigDisplayClass) { + *Dest = *cmsD50_XYZ(); + return TRUE; + } + } + + // All seems ok + *Dest = *Tag; + return TRUE; +} + + +// Chromatic adaptation matrix. Fix some issues as well +cmsBool _cmsReadCHAD(cmsMAT3* Dest, cmsHPROFILE hProfile) +{ + cmsMAT3* Tag; + + _cmsAssert(Dest != NULL); + + Tag = (cmsMAT3*) cmsReadTag(hProfile, cmsSigChromaticAdaptationTag); + + if (Tag != NULL) { + *Dest = *Tag; + return TRUE; + } + + // No CHAD available, default it to identity + _cmsMAT3identity(Dest); + + // V2 display profiles should give D50 + if (cmsGetEncodedICCversion(hProfile) < 0x4000000) { + + if (cmsGetDeviceClass(hProfile) == cmsSigDisplayClass) { + + cmsCIEXYZ* White = (cmsCIEXYZ*) cmsReadTag(hProfile, cmsSigMediaWhitePointTag); + + if (White == NULL) { + + _cmsMAT3identity(Dest); + return TRUE; + } + + return _cmsAdaptationMatrix(Dest, NULL, White, cmsD50_XYZ()); + } + } + + return TRUE; +} + + +// Auxiliary, read colorants as a MAT3 structure. Used by any function that needs a matrix-shaper +static +cmsBool ReadICCMatrixRGB2XYZ(cmsMAT3* r, cmsHPROFILE hProfile) +{ + cmsCIEXYZ *PtrRed, *PtrGreen, *PtrBlue; + + _cmsAssert(r != NULL); + + PtrRed = (cmsCIEXYZ *) cmsReadTag(hProfile, cmsSigRedColorantTag); + PtrGreen = (cmsCIEXYZ *) cmsReadTag(hProfile, cmsSigGreenColorantTag); + PtrBlue = (cmsCIEXYZ *) cmsReadTag(hProfile, cmsSigBlueColorantTag); + + if (PtrRed == NULL || PtrGreen == NULL || PtrBlue == NULL) + return FALSE; + + _cmsVEC3init(&r -> v[0], PtrRed -> X, PtrGreen -> X, PtrBlue -> X); + _cmsVEC3init(&r -> v[1], PtrRed -> Y, PtrGreen -> Y, PtrBlue -> Y); + _cmsVEC3init(&r -> v[2], PtrRed -> Z, PtrGreen -> Z, PtrBlue -> Z); + + return TRUE; +} + + +// Gray input pipeline +static +cmsPipeline* BuildGrayInputMatrixPipeline(cmsHPROFILE hProfile) +{ + cmsToneCurve *GrayTRC; + cmsPipeline* Lut; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + GrayTRC = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigGrayTRCTag); + if (GrayTRC == NULL) return NULL; + + Lut = cmsPipelineAlloc(ContextID, 1, 3); + if (Lut == NULL) + goto Error; + + if (cmsGetPCS(hProfile) == cmsSigLabData) { + + // In this case we implement the profile as an identity matrix plus 3 tone curves + cmsUInt16Number Zero[2] = { 0x8080, 0x8080 }; + cmsToneCurve* EmptyTab; + cmsToneCurve* LabCurves[3]; + + EmptyTab = cmsBuildTabulatedToneCurve16(ContextID, 2, Zero); + + if (EmptyTab == NULL) + goto Error; + + LabCurves[0] = GrayTRC; + LabCurves[1] = EmptyTab; + LabCurves[2] = EmptyTab; + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocMatrix(ContextID, 3, 1, OneToThreeInputMatrix, NULL)) || + !cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, 3, LabCurves))) { + cmsFreeToneCurve(EmptyTab); + goto Error; + } + + cmsFreeToneCurve(EmptyTab); + + } + else { + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, 1, &GrayTRC)) || + !cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocMatrix(ContextID, 3, 1, GrayInputMatrix, NULL))) + goto Error; + } + + return Lut; + +Error: + cmsFreeToneCurve(GrayTRC); + cmsPipelineFree(Lut); + return NULL; +} + +// RGB Matrix shaper +static +cmsPipeline* BuildRGBInputMatrixShaper(cmsHPROFILE hProfile) +{ + cmsPipeline* Lut; + cmsMAT3 Mat; + cmsToneCurve *Shapes[3]; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + int i, j; + + if (!ReadICCMatrixRGB2XYZ(&Mat, hProfile)) return NULL; + + // XYZ PCS in encoded in 1.15 format, and the matrix output comes in 0..0xffff range, so + // we need to adjust the output by a factor of (0x10000/0xffff) to put data in + // a 1.16 range, and then a >> 1 to obtain 1.15. The total factor is (65536.0)/(65535.0*2) + + for (i=0; i < 3; i++) + for (j=0; j < 3; j++) + Mat.v[i].n[j] *= InpAdj; + + + Shapes[0] = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigRedTRCTag); + Shapes[1] = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigGreenTRCTag); + Shapes[2] = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigBlueTRCTag); + + if (!Shapes[0] || !Shapes[1] || !Shapes[2]) + return NULL; + + Lut = cmsPipelineAlloc(ContextID, 3, 3); + if (Lut != NULL) { + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, 3, Shapes)) || + !cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocMatrix(ContextID, 3, 3, (cmsFloat64Number*) &Mat, NULL))) + goto Error; + + // Note that it is certainly possible a single profile would have a LUT based + // tag for output working in lab and a matrix-shaper for the fallback cases. + // This is not allowed by the spec, but this code is tolerant to those cases + if (cmsGetPCS(hProfile) == cmsSigLabData) { + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocXYZ2Lab(ContextID))) + goto Error; + } + + } + + return Lut; + +Error: + cmsPipelineFree(Lut); + return NULL; +} + + + +// Read the DToAX tag, adjusting the encoding of Lab or XYZ if neded +static +cmsPipeline* _cmsReadFloatInputTag(cmsHPROFILE hProfile, cmsTagSignature tagFloat) +{ + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsPipeline* Lut = cmsPipelineDup((cmsPipeline*) cmsReadTag(hProfile, tagFloat)); + cmsColorSpaceSignature spc = cmsGetColorSpace(hProfile); + cmsColorSpaceSignature PCS = cmsGetPCS(hProfile); + + if (Lut == NULL) return NULL; + + // input and output of transform are in lcms 0..1 encoding. If XYZ or Lab spaces are used, + // these need to be normalized into the appropriate ranges (Lab = 100,0,0, XYZ=1.0,1.0,1.0) + if ( spc == cmsSigLabData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageNormalizeToLabFloat(ContextID))) + goto Error; + } + else if (spc == cmsSigXYZData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageNormalizeToXyzFloat(ContextID))) + goto Error; + } + + if ( PCS == cmsSigLabData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageNormalizeFromLabFloat(ContextID))) + goto Error; + } + else if( PCS == cmsSigXYZData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageNormalizeFromXyzFloat(ContextID))) + goto Error; + } + + return Lut; + +Error: + cmsPipelineFree(Lut); + return NULL; +} + + +// Read and create a BRAND NEW MPE LUT from a given profile. All stuff dependent of version, etc +// is adjusted here in order to create a LUT that takes care of all those details. +// We add intent = -1 as a way to read matrix shaper always, no matter of other LUT +cmsPipeline* _cmsReadInputLUT(cmsHPROFILE hProfile, int Intent) +{ + cmsTagTypeSignature OriginalType; + cmsTagSignature tag16; + cmsTagSignature tagFloat; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + // On named color, take the appropriate tag + if (cmsGetDeviceClass(hProfile) == cmsSigNamedColorClass) { + + cmsPipeline* Lut; + cmsNAMEDCOLORLIST* nc = (cmsNAMEDCOLORLIST*) cmsReadTag(hProfile, cmsSigNamedColor2Tag); + + if (nc == NULL) return NULL; + + Lut = cmsPipelineAlloc(ContextID, 0, 0); + if (Lut == NULL) { + cmsFreeNamedColorList(nc); + return NULL; + } + + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageAllocNamedColor(nc, TRUE)) || + !cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocLabV2ToV4(ContextID))) { + cmsPipelineFree(Lut); + return NULL; + } + return Lut; + } + + // This is an attempt to reuse this function to retrieve the matrix-shaper as pipeline no + // matter other LUT are present and have precedence. Intent = -1 means just this. + if (Intent >= INTENT_PERCEPTUAL && Intent <= INTENT_ABSOLUTE_COLORIMETRIC) { + + tag16 = Device2PCS16[Intent]; + tagFloat = Device2PCSFloat[Intent]; + + if (cmsIsTag(hProfile, tagFloat)) { // Float tag takes precedence + + // Floating point LUT are always V4, but the encoding range is no + // longer 0..1.0, so we need to add an stage depending on the color space + return _cmsReadFloatInputTag(hProfile, tagFloat); + } + + // Revert to perceptual if no tag is found + if (!cmsIsTag(hProfile, tag16)) { + tag16 = Device2PCS16[0]; + } + + if (cmsIsTag(hProfile, tag16)) { // Is there any LUT-Based table? + + // Check profile version and LUT type. Do the necessary adjustments if needed + + // First read the tag + cmsPipeline* Lut = (cmsPipeline*) cmsReadTag(hProfile, tag16); + if (Lut == NULL) return NULL; + + // After reading it, we have now info about the original type + OriginalType = _cmsGetTagTrueType(hProfile, tag16); + + // The profile owns the Lut, so we need to copy it + Lut = cmsPipelineDup(Lut); + + // We need to adjust data only for Lab16 on output + if (OriginalType != cmsSigLut16Type || cmsGetPCS(hProfile) != cmsSigLabData) + return Lut; + + // If the input is Lab, add also a conversion at the begin + if (cmsGetColorSpace(hProfile) == cmsSigLabData && + !cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageAllocLabV4ToV2(ContextID))) + goto Error; + + // Add a matrix for conversion V2 to V4 Lab PCS + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocLabV2ToV4(ContextID))) + goto Error; + + return Lut; +Error: + cmsPipelineFree(Lut); + return NULL; + } + } + + // Lut was not found, try to create a matrix-shaper + + // Check if this is a grayscale profile. + if (cmsGetColorSpace(hProfile) == cmsSigGrayData) { + + // if so, build appropriate conversion tables. + // The tables are the PCS iluminant, scaled across GrayTRC + return BuildGrayInputMatrixPipeline(hProfile); + } + + // Not gray, create a normal matrix-shaper + return BuildRGBInputMatrixShaper(hProfile); +} + +// --------------------------------------------------------------------------------------------------------------- + +// Gray output pipeline. +// XYZ -> Gray or Lab -> Gray. Since we only know the GrayTRC, we need to do some assumptions. Gray component will be +// given by Y on XYZ PCS and by L* on Lab PCS, Both across inverse TRC curve. +// The complete pipeline on XYZ is Matrix[3:1] -> Tone curve and in Lab Matrix[3:1] -> Tone Curve as well. + +static +cmsPipeline* BuildGrayOutputPipeline(cmsHPROFILE hProfile) +{ + cmsToneCurve *GrayTRC, *RevGrayTRC; + cmsPipeline* Lut; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + GrayTRC = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigGrayTRCTag); + if (GrayTRC == NULL) return NULL; + + RevGrayTRC = cmsReverseToneCurve(GrayTRC); + if (RevGrayTRC == NULL) return NULL; + + Lut = cmsPipelineAlloc(ContextID, 3, 1); + if (Lut == NULL) { + cmsFreeToneCurve(RevGrayTRC); + return NULL; + } + + if (cmsGetPCS(hProfile) == cmsSigLabData) { + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocMatrix(ContextID, 1, 3, PickLstarMatrix, NULL))) + goto Error; + } + else { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocMatrix(ContextID, 1, 3, PickYMatrix, NULL))) + goto Error; + } + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, 1, &RevGrayTRC))) + goto Error; + + cmsFreeToneCurve(RevGrayTRC); + return Lut; + +Error: + cmsFreeToneCurve(RevGrayTRC); + cmsPipelineFree(Lut); + return NULL; +} + + +static +cmsPipeline* BuildRGBOutputMatrixShaper(cmsHPROFILE hProfile) +{ + cmsPipeline* Lut; + cmsToneCurve *Shapes[3], *InvShapes[3]; + cmsMAT3 Mat, Inv; + int i, j; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + if (!ReadICCMatrixRGB2XYZ(&Mat, hProfile)) + return NULL; + + if (!_cmsMAT3inverse(&Mat, &Inv)) + return NULL; + + // XYZ PCS in encoded in 1.15 format, and the matrix input should come in 0..0xffff range, so + // we need to adjust the input by a << 1 to obtain a 1.16 fixed and then by a factor of + // (0xffff/0x10000) to put data in 0..0xffff range. Total factor is (2.0*65535.0)/65536.0; + + for (i=0; i < 3; i++) + for (j=0; j < 3; j++) + Inv.v[i].n[j] *= OutpAdj; + + Shapes[0] = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigRedTRCTag); + Shapes[1] = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigGreenTRCTag); + Shapes[2] = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigBlueTRCTag); + + if (!Shapes[0] || !Shapes[1] || !Shapes[2]) + return NULL; + + InvShapes[0] = cmsReverseToneCurve(Shapes[0]); + InvShapes[1] = cmsReverseToneCurve(Shapes[1]); + InvShapes[2] = cmsReverseToneCurve(Shapes[2]); + + if (!InvShapes[0] || !InvShapes[1] || !InvShapes[2]) { + return NULL; + } + + Lut = cmsPipelineAlloc(ContextID, 3, 3); + if (Lut != NULL) { + + // Note that it is certainly possible a single profile would have a LUT based + // tag for output working in lab and a matrix-shaper for the fallback cases. + // This is not allowed by the spec, but this code is tolerant to those cases + if (cmsGetPCS(hProfile) == cmsSigLabData) { + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocLab2XYZ(ContextID))) + goto Error; + } + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocMatrix(ContextID, 3, 3, (cmsFloat64Number*) &Inv, NULL)) || + !cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, 3, InvShapes))) + goto Error; + } + + cmsFreeToneCurveTriple(InvShapes); + return Lut; +Error: + cmsFreeToneCurveTriple(InvShapes); + cmsPipelineFree(Lut); + return NULL; +} + + +// Change CLUT interpolation to trilinear +static +void ChangeInterpolationToTrilinear(cmsPipeline* Lut) +{ + cmsStage* Stage; + + for (Stage = cmsPipelineGetPtrToFirstStage(Lut); + Stage != NULL; + Stage = cmsStageNext(Stage)) { + + if (cmsStageType(Stage) == cmsSigCLutElemType) { + + _cmsStageCLutData* CLUT = (_cmsStageCLutData*) Stage ->Data; + + CLUT ->Params->dwFlags |= CMS_LERP_FLAGS_TRILINEAR; + _cmsSetInterpolationRoutine(Lut->ContextID, CLUT ->Params); + } + } +} + + +// Read the DToAX tag, adjusting the encoding of Lab or XYZ if neded +static +cmsPipeline* _cmsReadFloatOutputTag(cmsHPROFILE hProfile, cmsTagSignature tagFloat) +{ + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsPipeline* Lut = cmsPipelineDup((cmsPipeline*) cmsReadTag(hProfile, tagFloat)); + cmsColorSpaceSignature PCS = cmsGetPCS(hProfile); + cmsColorSpaceSignature dataSpace = cmsGetColorSpace(hProfile); + + if (Lut == NULL) return NULL; + + // If PCS is Lab or XYZ, the floating point tag is accepting data in the space encoding, + // and since the formatter has already accommodated to 0..1.0, we should undo this change + if ( PCS == cmsSigLabData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageNormalizeToLabFloat(ContextID))) + goto Error; + } + else + if (PCS == cmsSigXYZData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageNormalizeToXyzFloat(ContextID))) + goto Error; + } + + // the output can be Lab or XYZ, in which case normalisation is needed on the end of the pipeline + if ( dataSpace == cmsSigLabData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageNormalizeFromLabFloat(ContextID))) + goto Error; + } + else if (dataSpace == cmsSigXYZData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageNormalizeFromXyzFloat(ContextID))) + goto Error; + } + + return Lut; + +Error: + cmsPipelineFree(Lut); + return NULL; +} + +// Create an output MPE LUT from agiven profile. Version mismatches are handled here +cmsPipeline* _cmsReadOutputLUT(cmsHPROFILE hProfile, int Intent) +{ + cmsTagTypeSignature OriginalType; + cmsTagSignature tag16; + cmsTagSignature tagFloat; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + + if (Intent >= INTENT_PERCEPTUAL && Intent <= INTENT_ABSOLUTE_COLORIMETRIC) { + + tag16 = PCS2Device16[Intent]; + tagFloat = PCS2DeviceFloat[Intent]; + + if (cmsIsTag(hProfile, tagFloat)) { // Float tag takes precedence + + // Floating point LUT are always V4 + return _cmsReadFloatOutputTag(hProfile, tagFloat); + } + + // Revert to perceptual if no tag is found + if (!cmsIsTag(hProfile, tag16)) { + tag16 = PCS2Device16[0]; + } + + if (cmsIsTag(hProfile, tag16)) { // Is there any LUT-Based table? + + // Check profile version and LUT type. Do the necessary adjustments if needed + + // First read the tag + cmsPipeline* Lut = (cmsPipeline*) cmsReadTag(hProfile, tag16); + if (Lut == NULL) return NULL; + + // After reading it, we have info about the original type + OriginalType = _cmsGetTagTrueType(hProfile, tag16); + + // The profile owns the Lut, so we need to copy it + Lut = cmsPipelineDup(Lut); + if (Lut == NULL) return NULL; + + // Now it is time for a controversial stuff. I found that for 3D LUTS using + // Lab used as indexer space, trilinear interpolation should be used + if (cmsGetPCS(hProfile) == cmsSigLabData) + ChangeInterpolationToTrilinear(Lut); + + // We need to adjust data only for Lab and Lut16 type + if (OriginalType != cmsSigLut16Type || cmsGetPCS(hProfile) != cmsSigLabData) + return Lut; + + // Add a matrix for conversion V4 to V2 Lab PCS + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageAllocLabV4ToV2(ContextID))) + goto Error; + + // If the output is Lab, add also a conversion at the end + if (cmsGetColorSpace(hProfile) == cmsSigLabData) + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocLabV2ToV4(ContextID))) + goto Error; + + return Lut; +Error: + cmsPipelineFree(Lut); + return NULL; + } + } + + // Lut not found, try to create a matrix-shaper + + // Check if this is a grayscale profile. + if (cmsGetColorSpace(hProfile) == cmsSigGrayData) { + + // if so, build appropriate conversion tables. + // The tables are the PCS iluminant, scaled across GrayTRC + return BuildGrayOutputPipeline(hProfile); + } + + // Not gray, create a normal matrix-shaper, which only operates in XYZ space + return BuildRGBOutputMatrixShaper(hProfile); +} + +// --------------------------------------------------------------------------------------------------------------- + +// Read the AToD0 tag, adjusting the encoding of Lab or XYZ if neded +static +cmsPipeline* _cmsReadFloatDevicelinkTag(cmsHPROFILE hProfile, cmsTagSignature tagFloat) +{ + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsPipeline* Lut = cmsPipelineDup((cmsPipeline*) cmsReadTag(hProfile, tagFloat)); + cmsColorSpaceSignature PCS = cmsGetPCS(hProfile); + cmsColorSpaceSignature spc = cmsGetColorSpace(hProfile); + + if (Lut == NULL) return NULL; + + if (spc == cmsSigLabData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageNormalizeToLabFloat(ContextID))) + goto Error; + } + else + if (spc == cmsSigXYZData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageNormalizeToXyzFloat(ContextID))) + goto Error; + } + + if (PCS == cmsSigLabData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageNormalizeFromLabFloat(ContextID))) + goto Error; + } + else + if (PCS == cmsSigXYZData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageNormalizeFromXyzFloat(ContextID))) + goto Error; + } + + return Lut; +Error: + cmsPipelineFree(Lut); + return NULL; +} + +// This one includes abstract profiles as well. Matrix-shaper cannot be obtained on that device class. The +// tag name here may default to AToB0 +cmsPipeline* _cmsReadDevicelinkLUT(cmsHPROFILE hProfile, int Intent) +{ + cmsPipeline* Lut; + cmsTagTypeSignature OriginalType; + cmsTagSignature tag16; + cmsTagSignature tagFloat; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + + if (Intent < INTENT_PERCEPTUAL || Intent > INTENT_ABSOLUTE_COLORIMETRIC) + return NULL; + + tag16 = Device2PCS16[Intent]; + tagFloat = Device2PCSFloat[Intent]; + + // On named color, take the appropriate tag + if (cmsGetDeviceClass(hProfile) == cmsSigNamedColorClass) { + + cmsNAMEDCOLORLIST* nc = (cmsNAMEDCOLORLIST*)cmsReadTag(hProfile, cmsSigNamedColor2Tag); + + if (nc == NULL) return NULL; + + Lut = cmsPipelineAlloc(ContextID, 0, 0); + if (Lut == NULL) + goto Error; + + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageAllocNamedColor(nc, FALSE))) + goto Error; + + if (cmsGetColorSpace(hProfile) == cmsSigLabData) + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocLabV2ToV4(ContextID))) + goto Error; + + return Lut; + Error: + cmsPipelineFree(Lut); + cmsFreeNamedColorList(nc); + return NULL; + } + + + if (cmsIsTag(hProfile, tagFloat)) { // Float tag takes precedence + + // Floating point LUT are always V + return _cmsReadFloatDevicelinkTag(hProfile, tagFloat); + } + + tagFloat = Device2PCSFloat[0]; + if (cmsIsTag(hProfile, tagFloat)) { + + return cmsPipelineDup((cmsPipeline*)cmsReadTag(hProfile, tagFloat)); + } + + if (!cmsIsTag(hProfile, tag16)) { // Is there any LUT-Based table? + + tag16 = Device2PCS16[0]; + if (!cmsIsTag(hProfile, tag16)) return NULL; + } + + // Check profile version and LUT type. Do the necessary adjustments if needed + + // Read the tag + Lut = (cmsPipeline*)cmsReadTag(hProfile, tag16); + if (Lut == NULL) return NULL; + + // The profile owns the Lut, so we need to copy it + Lut = cmsPipelineDup(Lut); + if (Lut == NULL) return NULL; + + // Now it is time for a controversial stuff. I found that for 3D LUTS using + // Lab used as indexer space, trilinear interpolation should be used + if (cmsGetPCS(hProfile) == cmsSigLabData) + ChangeInterpolationToTrilinear(Lut); + + // After reading it, we have info about the original type + OriginalType = _cmsGetTagTrueType(hProfile, tag16); + + // We need to adjust data for Lab16 on output + if (OriginalType != cmsSigLut16Type) return Lut; + + // Here it is possible to get Lab on both sides + + if (cmsGetColorSpace(hProfile) == cmsSigLabData) { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageAllocLabV4ToV2(ContextID))) + goto Error2; + } + + if (cmsGetPCS(hProfile) == cmsSigLabData) { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocLabV2ToV4(ContextID))) + goto Error2; + } + + return Lut; + +Error2: + cmsPipelineFree(Lut); + return NULL; +} + +// --------------------------------------------------------------------------------------------------------------- + +// Returns TRUE if the profile is implemented as matrix-shaper +cmsBool CMSEXPORT cmsIsMatrixShaper(cmsHPROFILE hProfile) +{ + switch (cmsGetColorSpace(hProfile)) { + + case cmsSigGrayData: + + return cmsIsTag(hProfile, cmsSigGrayTRCTag); + + case cmsSigRgbData: + + return (cmsIsTag(hProfile, cmsSigRedColorantTag) && + cmsIsTag(hProfile, cmsSigGreenColorantTag) && + cmsIsTag(hProfile, cmsSigBlueColorantTag) && + cmsIsTag(hProfile, cmsSigRedTRCTag) && + cmsIsTag(hProfile, cmsSigGreenTRCTag) && + cmsIsTag(hProfile, cmsSigBlueTRCTag)); + + default: + + return FALSE; + } +} + +// Returns TRUE if the intent is implemented as CLUT +cmsBool CMSEXPORT cmsIsCLUT(cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number UsedDirection) +{ + const cmsTagSignature* TagTable; + + // For devicelinks, the supported intent is that one stated in the header + if (cmsGetDeviceClass(hProfile) == cmsSigLinkClass) { + return (cmsGetHeaderRenderingIntent(hProfile) == Intent); + } + + switch (UsedDirection) { + + case LCMS_USED_AS_INPUT: TagTable = Device2PCS16; break; + case LCMS_USED_AS_OUTPUT:TagTable = PCS2Device16; break; + + // For proofing, we need rel. colorimetric in output. Let's do some recursion + case LCMS_USED_AS_PROOF: + return cmsIsIntentSupported(hProfile, Intent, LCMS_USED_AS_INPUT) && + cmsIsIntentSupported(hProfile, INTENT_RELATIVE_COLORIMETRIC, LCMS_USED_AS_OUTPUT); + + default: + cmsSignalError(cmsGetProfileContextID(hProfile), cmsERROR_RANGE, "Unexpected direction (%d)", UsedDirection); + return FALSE; + } + + return cmsIsTag(hProfile, TagTable[Intent]); + +} + + +// Return info about supported intents +cmsBool CMSEXPORT cmsIsIntentSupported(cmsHPROFILE hProfile, + cmsUInt32Number Intent, cmsUInt32Number UsedDirection) +{ + + if (cmsIsCLUT(hProfile, Intent, UsedDirection)) return TRUE; + + // Is there any matrix-shaper? If so, the intent is supported. This is a bit odd, since V2 matrix shaper + // does not fully support relative colorimetric because they cannot deal with non-zero black points, but + // many profiles claims that, and this is certainly not true for V4 profiles. Lets answer "yes" no matter + // the accuracy would be less than optimal in rel.col and v2 case. + + return cmsIsMatrixShaper(hProfile); +} + + +// --------------------------------------------------------------------------------------------------------------- + +// Read both, profile sequence description and profile sequence id if present. Then combine both to +// create qa unique structure holding both. Shame on ICC to store things in such complicated way. +cmsSEQ* _cmsReadProfileSequence(cmsHPROFILE hProfile) +{ + cmsSEQ* ProfileSeq; + cmsSEQ* ProfileId; + cmsSEQ* NewSeq; + cmsUInt32Number i; + + // Take profile sequence description first + ProfileSeq = (cmsSEQ*) cmsReadTag(hProfile, cmsSigProfileSequenceDescTag); + + // Take profile sequence ID + ProfileId = (cmsSEQ*) cmsReadTag(hProfile, cmsSigProfileSequenceIdTag); + + if (ProfileSeq == NULL && ProfileId == NULL) return NULL; + + if (ProfileSeq == NULL) return cmsDupProfileSequenceDescription(ProfileId); + if (ProfileId == NULL) return cmsDupProfileSequenceDescription(ProfileSeq); + + // We have to mix both together. For that they must agree + if (ProfileSeq ->n != ProfileId ->n) return cmsDupProfileSequenceDescription(ProfileSeq); + + NewSeq = cmsDupProfileSequenceDescription(ProfileSeq); + + // Ok, proceed to the mixing + if (NewSeq != NULL) { + for (i=0; i < ProfileSeq ->n; i++) { + + memmove(&NewSeq ->seq[i].ProfileID, &ProfileId ->seq[i].ProfileID, sizeof(cmsProfileID)); + NewSeq ->seq[i].Description = cmsMLUdup(ProfileId ->seq[i].Description); + } + } + return NewSeq; +} + +// Dump the contents of profile sequence in both tags (if v4 available) +cmsBool _cmsWriteProfileSequence(cmsHPROFILE hProfile, const cmsSEQ* seq) +{ + if (!cmsWriteTag(hProfile, cmsSigProfileSequenceDescTag, seq)) return FALSE; + + if (cmsGetEncodedICCversion(hProfile) >= 0x4000000) { + + if (!cmsWriteTag(hProfile, cmsSigProfileSequenceIdTag, seq)) return FALSE; + } + + return TRUE; +} + + +// Auxiliary, read and duplicate a MLU if found. +static +cmsMLU* GetMLUFromProfile(cmsHPROFILE h, cmsTagSignature sig) +{ + cmsMLU* mlu = (cmsMLU*) cmsReadTag(h, sig); + if (mlu == NULL) return NULL; + + return cmsMLUdup(mlu); +} + +// Create a sequence description out of an array of profiles +cmsSEQ* _cmsCompileProfileSequence(cmsContext ContextID, cmsUInt32Number nProfiles, cmsHPROFILE hProfiles[]) +{ + cmsUInt32Number i; + cmsSEQ* seq = cmsAllocProfileSequenceDescription(ContextID, nProfiles); + + if (seq == NULL) return NULL; + + for (i=0; i < nProfiles; i++) { + + cmsPSEQDESC* ps = &seq ->seq[i]; + cmsHPROFILE h = hProfiles[i]; + cmsTechnologySignature* techpt; + + cmsGetHeaderAttributes(h, &ps ->attributes); + cmsGetHeaderProfileID(h, ps ->ProfileID.ID8); + ps ->deviceMfg = cmsGetHeaderManufacturer(h); + ps ->deviceModel = cmsGetHeaderModel(h); + + techpt = (cmsTechnologySignature*) cmsReadTag(h, cmsSigTechnologyTag); + if (techpt == NULL) + ps ->technology = (cmsTechnologySignature) 0; + else + ps ->technology = *techpt; + + ps ->Manufacturer = GetMLUFromProfile(h, cmsSigDeviceMfgDescTag); + ps ->Model = GetMLUFromProfile(h, cmsSigDeviceModelDescTag); + ps ->Description = GetMLUFromProfile(h, cmsSigProfileDescriptionTag); + + } + + return seq; +} + +// ------------------------------------------------------------------------------------------------------------------- + + +static +const cmsMLU* GetInfo(cmsHPROFILE hProfile, cmsInfoType Info) +{ + cmsTagSignature sig; + + switch (Info) { + + case cmsInfoDescription: + sig = cmsSigProfileDescriptionTag; + break; + + case cmsInfoManufacturer: + sig = cmsSigDeviceMfgDescTag; + break; + + case cmsInfoModel: + sig = cmsSigDeviceModelDescTag; + break; + + case cmsInfoCopyright: + sig = cmsSigCopyrightTag; + break; + + default: return NULL; + } + + + return (cmsMLU*) cmsReadTag(hProfile, sig); +} + + + +cmsUInt32Number CMSEXPORT cmsGetProfileInfo(cmsHPROFILE hProfile, cmsInfoType Info, + const char LanguageCode[3], const char CountryCode[3], + wchar_t* Buffer, cmsUInt32Number BufferSize) +{ + const cmsMLU* mlu = GetInfo(hProfile, Info); + if (mlu == NULL) return 0; + + return cmsMLUgetWide(mlu, LanguageCode, CountryCode, Buffer, BufferSize); +} + + +cmsUInt32Number CMSEXPORT cmsGetProfileInfoASCII(cmsHPROFILE hProfile, cmsInfoType Info, + const char LanguageCode[3], const char CountryCode[3], + char* Buffer, cmsUInt32Number BufferSize) +{ + const cmsMLU* mlu = GetInfo(hProfile, Info); + if (mlu == NULL) return 0; + + return cmsMLUgetASCII(mlu, LanguageCode, CountryCode, Buffer, BufferSize); +} Index: sdk/lib/3rdparty/lcms2/cmslut.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmslut.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmslut.c (working copy) @@ -0,0 +1,1812 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// Allocates an empty multi profile element +cmsStage* CMSEXPORT _cmsStageAllocPlaceholder(cmsContext ContextID, + cmsStageSignature Type, + cmsUInt32Number InputChannels, + cmsUInt32Number OutputChannels, + _cmsStageEvalFn EvalPtr, + _cmsStageDupElemFn DupElemPtr, + _cmsStageFreeElemFn FreePtr, + void* Data) +{ + cmsStage* ph = (cmsStage*) _cmsMallocZero(ContextID, sizeof(cmsStage)); + + if (ph == NULL) return NULL; + + + ph ->ContextID = ContextID; + + ph ->Type = Type; + ph ->Implements = Type; // By default, no clue on what is implementing + + ph ->InputChannels = InputChannels; + ph ->OutputChannels = OutputChannels; + ph ->EvalPtr = EvalPtr; + ph ->DupElemPtr = DupElemPtr; + ph ->FreePtr = FreePtr; + ph ->Data = Data; + + return ph; +} + + +static +void EvaluateIdentity(const cmsFloat32Number In[], + cmsFloat32Number Out[], + const cmsStage *mpe) +{ + memmove(Out, In, mpe ->InputChannels * sizeof(cmsFloat32Number)); +} + + +cmsStage* CMSEXPORT cmsStageAllocIdentity(cmsContext ContextID, cmsUInt32Number nChannels) +{ + return _cmsStageAllocPlaceholder(ContextID, + cmsSigIdentityElemType, + nChannels, nChannels, + EvaluateIdentity, + NULL, + NULL, + NULL); + } + +// Conversion functions. From floating point to 16 bits +static +void FromFloatTo16(const cmsFloat32Number In[], cmsUInt16Number Out[], cmsUInt32Number n) +{ + cmsUInt32Number i; + + for (i=0; i < n; i++) { + Out[i] = _cmsQuickSaturateWord(In[i] * 65535.0); + } +} + +// From 16 bits to floating point +static +void From16ToFloat(const cmsUInt16Number In[], cmsFloat32Number Out[], cmsUInt32Number n) +{ + cmsUInt32Number i; + + for (i=0; i < n; i++) { + Out[i] = (cmsFloat32Number) In[i] / 65535.0F; + } +} + + +// This function is quite useful to analyze the structure of a LUT and retrieve the MPE elements +// that conform the LUT. It should be called with the LUT, the number of expected elements and +// then a list of expected types followed with a list of cmsFloat64Number pointers to MPE elements. If +// the function founds a match with current pipeline, it fills the pointers and returns TRUE +// if not, returns FALSE without touching anything. Setting pointers to NULL does bypass +// the storage process. +cmsBool CMSEXPORT cmsPipelineCheckAndRetreiveStages(const cmsPipeline* Lut, cmsUInt32Number n, ...) +{ + va_list args; + cmsUInt32Number i; + cmsStage* mpe; + cmsStageSignature Type; + void** ElemPtr; + + // Make sure same number of elements + if (cmsPipelineStageCount(Lut) != n) return FALSE; + + va_start(args, n); + + // Iterate across asked types + mpe = Lut ->Elements; + for (i=0; i < n; i++) { + + // Get asked type + Type = (cmsStageSignature)va_arg(args, cmsStageSignature); + if (mpe ->Type != Type) { + + va_end(args); // Mismatch. We are done. + return FALSE; + } + mpe = mpe ->Next; + } + + // Found a combination, fill pointers if not NULL + mpe = Lut ->Elements; + for (i=0; i < n; i++) { + + ElemPtr = va_arg(args, void**); + if (ElemPtr != NULL) + *ElemPtr = mpe; + + mpe = mpe ->Next; + } + + va_end(args); + return TRUE; +} + +// Below there are implementations for several types of elements. Each type may be implemented by a +// evaluation function, a duplication function, a function to free resources and a constructor. + +// ************************************************************************************************* +// Type cmsSigCurveSetElemType (curves) +// ************************************************************************************************* + +cmsToneCurve** _cmsStageGetPtrToCurveSet(const cmsStage* mpe) +{ + _cmsStageToneCurvesData* Data = (_cmsStageToneCurvesData*) mpe ->Data; + + return Data ->TheCurves; +} + +static +void EvaluateCurves(const cmsFloat32Number In[], + cmsFloat32Number Out[], + const cmsStage *mpe) +{ + _cmsStageToneCurvesData* Data; + cmsUInt32Number i; + + _cmsAssert(mpe != NULL); + + Data = (_cmsStageToneCurvesData*) mpe ->Data; + if (Data == NULL) return; + + if (Data ->TheCurves == NULL) return; + + for (i=0; i < Data ->nCurves; i++) { + Out[i] = cmsEvalToneCurveFloat(Data ->TheCurves[i], In[i]); + } +} + +static +void CurveSetElemTypeFree(cmsStage* mpe) +{ + _cmsStageToneCurvesData* Data; + cmsUInt32Number i; + + _cmsAssert(mpe != NULL); + + Data = (_cmsStageToneCurvesData*) mpe ->Data; + if (Data == NULL) return; + + if (Data ->TheCurves != NULL) { + for (i=0; i < Data ->nCurves; i++) { + if (Data ->TheCurves[i] != NULL) + cmsFreeToneCurve(Data ->TheCurves[i]); + } + } + _cmsFree(mpe ->ContextID, Data ->TheCurves); + _cmsFree(mpe ->ContextID, Data); +} + + +static +void* CurveSetDup(cmsStage* mpe) +{ + _cmsStageToneCurvesData* Data = (_cmsStageToneCurvesData*) mpe ->Data; + _cmsStageToneCurvesData* NewElem; + cmsUInt32Number i; + + NewElem = (_cmsStageToneCurvesData*) _cmsMallocZero(mpe ->ContextID, sizeof(_cmsStageToneCurvesData)); + if (NewElem == NULL) return NULL; + + NewElem ->nCurves = Data ->nCurves; + NewElem ->TheCurves = (cmsToneCurve**) _cmsCalloc(mpe ->ContextID, NewElem ->nCurves, sizeof(cmsToneCurve*)); + + if (NewElem ->TheCurves == NULL) goto Error; + + for (i=0; i < NewElem ->nCurves; i++) { + + // Duplicate each curve. It may fail. + NewElem ->TheCurves[i] = cmsDupToneCurve(Data ->TheCurves[i]); + if (NewElem ->TheCurves[i] == NULL) goto Error; + + + } + return (void*) NewElem; + +Error: + + if (NewElem ->TheCurves != NULL) { + for (i=0; i < NewElem ->nCurves; i++) { + if (NewElem ->TheCurves[i]) + cmsFreeToneCurve(NewElem ->TheCurves[i]); + } + } + _cmsFree(mpe ->ContextID, NewElem ->TheCurves); + _cmsFree(mpe ->ContextID, NewElem); + return NULL; +} + + +// Curves == NULL forces identity curves +cmsStage* CMSEXPORT cmsStageAllocToneCurves(cmsContext ContextID, cmsUInt32Number nChannels, cmsToneCurve* const Curves[]) +{ + cmsUInt32Number i; + _cmsStageToneCurvesData* NewElem; + cmsStage* NewMPE; + + + NewMPE = _cmsStageAllocPlaceholder(ContextID, cmsSigCurveSetElemType, nChannels, nChannels, + EvaluateCurves, CurveSetDup, CurveSetElemTypeFree, NULL ); + if (NewMPE == NULL) return NULL; + + NewElem = (_cmsStageToneCurvesData*) _cmsMallocZero(ContextID, sizeof(_cmsStageToneCurvesData)); + if (NewElem == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + NewMPE ->Data = (void*) NewElem; + + NewElem ->nCurves = nChannels; + NewElem ->TheCurves = (cmsToneCurve**) _cmsCalloc(ContextID, nChannels, sizeof(cmsToneCurve*)); + if (NewElem ->TheCurves == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + for (i=0; i < nChannels; i++) { + + if (Curves == NULL) { + NewElem ->TheCurves[i] = cmsBuildGamma(ContextID, 1.0); + } + else { + NewElem ->TheCurves[i] = cmsDupToneCurve(Curves[i]); + } + + if (NewElem ->TheCurves[i] == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + } + + return NewMPE; +} + + +// Create a bunch of identity curves +cmsStage* _cmsStageAllocIdentityCurves(cmsContext ContextID, int nChannels) +{ + cmsStage* mpe = cmsStageAllocToneCurves(ContextID, nChannels, NULL); + + if (mpe == NULL) return NULL; + mpe ->Implements = cmsSigIdentityElemType; + return mpe; +} + + +// ************************************************************************************************* +// Type cmsSigMatrixElemType (Matrices) +// ************************************************************************************************* + + +// Special care should be taken here because precision loss. A temporary cmsFloat64Number buffer is being used +static +void EvaluateMatrix(const cmsFloat32Number In[], + cmsFloat32Number Out[], + const cmsStage *mpe) +{ + cmsUInt32Number i, j; + _cmsStageMatrixData* Data = (_cmsStageMatrixData*) mpe ->Data; + cmsFloat64Number Tmp; + + // Input is already in 0..1.0 notation + for (i=0; i < mpe ->OutputChannels; i++) { + + Tmp = 0; + for (j=0; j < mpe->InputChannels; j++) { + Tmp += In[j] * Data->Double[i*mpe->InputChannels + j]; + } + + if (Data ->Offset != NULL) + Tmp += Data->Offset[i]; + + Out[i] = (cmsFloat32Number) Tmp; + } + + + // Output in 0..1.0 domain +} + + +// Duplicate a yet-existing matrix element +static +void* MatrixElemDup(cmsStage* mpe) +{ + _cmsStageMatrixData* Data = (_cmsStageMatrixData*) mpe ->Data; + _cmsStageMatrixData* NewElem; + cmsUInt32Number sz; + + NewElem = (_cmsStageMatrixData*) _cmsMallocZero(mpe ->ContextID, sizeof(_cmsStageMatrixData)); + if (NewElem == NULL) return NULL; + + sz = mpe ->InputChannels * mpe ->OutputChannels; + + NewElem ->Double = (cmsFloat64Number*) _cmsDupMem(mpe ->ContextID, Data ->Double, sz * sizeof(cmsFloat64Number)) ; + + if (Data ->Offset) + NewElem ->Offset = (cmsFloat64Number*) _cmsDupMem(mpe ->ContextID, + Data ->Offset, mpe -> OutputChannels * sizeof(cmsFloat64Number)) ; + + return (void*) NewElem; +} + + +static +void MatrixElemTypeFree(cmsStage* mpe) +{ + _cmsStageMatrixData* Data = (_cmsStageMatrixData*) mpe ->Data; + if (Data == NULL) + return; + if (Data ->Double) + _cmsFree(mpe ->ContextID, Data ->Double); + + if (Data ->Offset) + _cmsFree(mpe ->ContextID, Data ->Offset); + + _cmsFree(mpe ->ContextID, mpe ->Data); +} + + + +cmsStage* CMSEXPORT cmsStageAllocMatrix(cmsContext ContextID, cmsUInt32Number Rows, cmsUInt32Number Cols, + const cmsFloat64Number* Matrix, const cmsFloat64Number* Offset) +{ + cmsUInt32Number i, n; + _cmsStageMatrixData* NewElem; + cmsStage* NewMPE; + + n = Rows * Cols; + + // Check for overflow + if (n == 0) return NULL; + if (n >= UINT_MAX / Cols) return NULL; + if (n >= UINT_MAX / Rows) return NULL; + if (n < Rows || n < Cols) return NULL; + + NewMPE = _cmsStageAllocPlaceholder(ContextID, cmsSigMatrixElemType, Cols, Rows, + EvaluateMatrix, MatrixElemDup, MatrixElemTypeFree, NULL ); + if (NewMPE == NULL) return NULL; + + + NewElem = (_cmsStageMatrixData*) _cmsMallocZero(ContextID, sizeof(_cmsStageMatrixData)); + if (NewElem == NULL) return NULL; + + + NewElem ->Double = (cmsFloat64Number*) _cmsCalloc(ContextID, n, sizeof(cmsFloat64Number)); + + if (NewElem->Double == NULL) { + MatrixElemTypeFree(NewMPE); + return NULL; + } + + for (i=0; i < n; i++) { + NewElem ->Double[i] = Matrix[i]; + } + + + if (Offset != NULL) { + + NewElem ->Offset = (cmsFloat64Number*) _cmsCalloc(ContextID, Cols, sizeof(cmsFloat64Number)); + if (NewElem->Offset == NULL) { + MatrixElemTypeFree(NewMPE); + return NULL; + } + + for (i=0; i < Cols; i++) { + NewElem ->Offset[i] = Offset[i]; + } + + } + + NewMPE ->Data = (void*) NewElem; + return NewMPE; +} + + +// ************************************************************************************************* +// Type cmsSigCLutElemType +// ************************************************************************************************* + + +// Evaluate in true floating point +static +void EvaluateCLUTfloat(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe) +{ + _cmsStageCLutData* Data = (_cmsStageCLutData*) mpe ->Data; + + Data -> Params ->Interpolation.LerpFloat(In, Out, Data->Params); +} + + +// Convert to 16 bits, evaluate, and back to floating point +static +void EvaluateCLUTfloatIn16(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe) +{ + _cmsStageCLutData* Data = (_cmsStageCLutData*) mpe ->Data; + cmsUInt16Number In16[MAX_STAGE_CHANNELS], Out16[MAX_STAGE_CHANNELS]; + + _cmsAssert(mpe ->InputChannels <= MAX_STAGE_CHANNELS); + _cmsAssert(mpe ->OutputChannels <= MAX_STAGE_CHANNELS); + + FromFloatTo16(In, In16, mpe ->InputChannels); + Data -> Params ->Interpolation.Lerp16(In16, Out16, Data->Params); + From16ToFloat(Out16, Out, mpe ->OutputChannels); +} + + +// Given an hypercube of b dimensions, with Dims[] number of nodes by dimension, calculate the total amount of nodes +static +cmsUInt32Number CubeSize(const cmsUInt32Number Dims[], cmsUInt32Number b) +{ + cmsUInt32Number rv, dim; + + _cmsAssert(Dims != NULL); + + for (rv = 1; b > 0; b--) { + + dim = Dims[b-1]; + if (dim == 0) return 0; // Error + + rv *= dim; + + // Check for overflow + if (rv > UINT_MAX / dim) return 0; + } + + return rv; +} + +static +void* CLUTElemDup(cmsStage* mpe) +{ + _cmsStageCLutData* Data = (_cmsStageCLutData*) mpe ->Data; + _cmsStageCLutData* NewElem; + + + NewElem = (_cmsStageCLutData*) _cmsMallocZero(mpe ->ContextID, sizeof(_cmsStageCLutData)); + if (NewElem == NULL) return NULL; + + NewElem ->nEntries = Data ->nEntries; + NewElem ->HasFloatValues = Data ->HasFloatValues; + + if (Data ->Tab.T) { + + if (Data ->HasFloatValues) { + NewElem ->Tab.TFloat = (cmsFloat32Number*) _cmsDupMem(mpe ->ContextID, Data ->Tab.TFloat, Data ->nEntries * sizeof (cmsFloat32Number)); + if (NewElem ->Tab.TFloat == NULL) + goto Error; + } else { + NewElem ->Tab.T = (cmsUInt16Number*) _cmsDupMem(mpe ->ContextID, Data ->Tab.T, Data ->nEntries * sizeof (cmsUInt16Number)); + if (NewElem ->Tab.T == NULL) + goto Error; + } + } + + NewElem ->Params = _cmsComputeInterpParamsEx(mpe ->ContextID, + Data ->Params ->nSamples, + Data ->Params ->nInputs, + Data ->Params ->nOutputs, + NewElem ->Tab.T, + Data ->Params ->dwFlags); + if (NewElem->Params != NULL) + return (void*) NewElem; + Error: + if (NewElem->Tab.T) + // This works for both types + _cmsFree(mpe ->ContextID, NewElem -> Tab.T); + _cmsFree(mpe ->ContextID, NewElem); + return NULL; +} + + +static +void CLutElemTypeFree(cmsStage* mpe) +{ + + _cmsStageCLutData* Data = (_cmsStageCLutData*) mpe ->Data; + + // Already empty + if (Data == NULL) return; + + // This works for both types + if (Data -> Tab.T) + _cmsFree(mpe ->ContextID, Data -> Tab.T); + + _cmsFreeInterpParams(Data ->Params); + _cmsFree(mpe ->ContextID, mpe ->Data); +} + + +// Allocates a 16-bit multidimensional CLUT. This is evaluated at 16-bit precision. Table may have different +// granularity on each dimension. +cmsStage* CMSEXPORT cmsStageAllocCLut16bitGranular(cmsContext ContextID, + const cmsUInt32Number clutPoints[], + cmsUInt32Number inputChan, + cmsUInt32Number outputChan, + const cmsUInt16Number* Table) +{ + cmsUInt32Number i, n; + _cmsStageCLutData* NewElem; + cmsStage* NewMPE; + + _cmsAssert(clutPoints != NULL); + + if (inputChan > MAX_INPUT_DIMENSIONS) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Too many input channels (%d channels, max=%d)", inputChan, MAX_INPUT_DIMENSIONS); + return NULL; + } + + NewMPE = _cmsStageAllocPlaceholder(ContextID, cmsSigCLutElemType, inputChan, outputChan, + EvaluateCLUTfloatIn16, CLUTElemDup, CLutElemTypeFree, NULL ); + + if (NewMPE == NULL) return NULL; + + NewElem = (_cmsStageCLutData*) _cmsMallocZero(ContextID, sizeof(_cmsStageCLutData)); + if (NewElem == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + NewMPE ->Data = (void*) NewElem; + + NewElem -> nEntries = n = outputChan * CubeSize(clutPoints, inputChan); + NewElem -> HasFloatValues = FALSE; + + if (n == 0) { + cmsStageFree(NewMPE); + return NULL; + } + + + NewElem ->Tab.T = (cmsUInt16Number*) _cmsCalloc(ContextID, n, sizeof(cmsUInt16Number)); + if (NewElem ->Tab.T == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + if (Table != NULL) { + for (i=0; i < n; i++) { + NewElem ->Tab.T[i] = Table[i]; + } + } + + NewElem ->Params = _cmsComputeInterpParamsEx(ContextID, clutPoints, inputChan, outputChan, NewElem ->Tab.T, CMS_LERP_FLAGS_16BITS); + if (NewElem ->Params == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + return NewMPE; +} + +cmsStage* CMSEXPORT cmsStageAllocCLut16bit(cmsContext ContextID, + cmsUInt32Number nGridPoints, + cmsUInt32Number inputChan, + cmsUInt32Number outputChan, + const cmsUInt16Number* Table) +{ + cmsUInt32Number Dimensions[MAX_INPUT_DIMENSIONS]; + int i; + + // Our resulting LUT would be same gridpoints on all dimensions + for (i=0; i < MAX_INPUT_DIMENSIONS; i++) + Dimensions[i] = nGridPoints; + + return cmsStageAllocCLut16bitGranular(ContextID, Dimensions, inputChan, outputChan, Table); +} + + +cmsStage* CMSEXPORT cmsStageAllocCLutFloat(cmsContext ContextID, + cmsUInt32Number nGridPoints, + cmsUInt32Number inputChan, + cmsUInt32Number outputChan, + const cmsFloat32Number* Table) +{ + cmsUInt32Number Dimensions[MAX_INPUT_DIMENSIONS]; + int i; + + // Our resulting LUT would be same gridpoints on all dimensions + for (i=0; i < MAX_INPUT_DIMENSIONS; i++) + Dimensions[i] = nGridPoints; + + return cmsStageAllocCLutFloatGranular(ContextID, Dimensions, inputChan, outputChan, Table); +} + + + +cmsStage* CMSEXPORT cmsStageAllocCLutFloatGranular(cmsContext ContextID, const cmsUInt32Number clutPoints[], cmsUInt32Number inputChan, cmsUInt32Number outputChan, const cmsFloat32Number* Table) +{ + cmsUInt32Number i, n; + _cmsStageCLutData* NewElem; + cmsStage* NewMPE; + + _cmsAssert(clutPoints != NULL); + + if (inputChan > MAX_INPUT_DIMENSIONS) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Too many input channels (%d channels, max=%d)", inputChan, MAX_INPUT_DIMENSIONS); + return NULL; + } + + NewMPE = _cmsStageAllocPlaceholder(ContextID, cmsSigCLutElemType, inputChan, outputChan, + EvaluateCLUTfloat, CLUTElemDup, CLutElemTypeFree, NULL); + if (NewMPE == NULL) return NULL; + + + NewElem = (_cmsStageCLutData*) _cmsMallocZero(ContextID, sizeof(_cmsStageCLutData)); + if (NewElem == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + NewMPE ->Data = (void*) NewElem; + + // There is a potential integer overflow on conputing n and nEntries. + NewElem -> nEntries = n = outputChan * CubeSize(clutPoints, inputChan); + NewElem -> HasFloatValues = TRUE; + + if (n == 0) { + cmsStageFree(NewMPE); + return NULL; + } + + NewElem ->Tab.TFloat = (cmsFloat32Number*) _cmsCalloc(ContextID, n, sizeof(cmsFloat32Number)); + if (NewElem ->Tab.TFloat == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + if (Table != NULL) { + for (i=0; i < n; i++) { + NewElem ->Tab.TFloat[i] = Table[i]; + } + } + + NewElem ->Params = _cmsComputeInterpParamsEx(ContextID, clutPoints, inputChan, outputChan, NewElem ->Tab.TFloat, CMS_LERP_FLAGS_FLOAT); + if (NewElem ->Params == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + return NewMPE; +} + + +static +int IdentitySampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void * Cargo) +{ + int nChan = *(int*) Cargo; + int i; + + for (i=0; i < nChan; i++) + Out[i] = In[i]; + + return 1; +} + +// Creates an MPE that just copies input to output +cmsStage* _cmsStageAllocIdentityCLut(cmsContext ContextID, int nChan) +{ + cmsUInt32Number Dimensions[MAX_INPUT_DIMENSIONS]; + cmsStage* mpe ; + int i; + + for (i=0; i < MAX_INPUT_DIMENSIONS; i++) + Dimensions[i] = 2; + + mpe = cmsStageAllocCLut16bitGranular(ContextID, Dimensions, nChan, nChan, NULL); + if (mpe == NULL) return NULL; + + if (!cmsStageSampleCLut16bit(mpe, IdentitySampler, &nChan, 0)) { + cmsStageFree(mpe); + return NULL; + } + + mpe ->Implements = cmsSigIdentityElemType; + return mpe; +} + + + +// Quantize a value 0 <= i < MaxSamples to 0..0xffff +cmsUInt16Number _cmsQuantizeVal(cmsFloat64Number i, int MaxSamples) +{ + cmsFloat64Number x; + + x = ((cmsFloat64Number) i * 65535.) / (cmsFloat64Number) (MaxSamples - 1); + return _cmsQuickSaturateWord(x); +} + + +// This routine does a sweep on whole input space, and calls its callback +// function on knots. returns TRUE if all ok, FALSE otherwise. +cmsBool CMSEXPORT cmsStageSampleCLut16bit(cmsStage* mpe, cmsSAMPLER16 Sampler, void * Cargo, cmsUInt32Number dwFlags) +{ + int i, t, nTotalPoints, index, rest; + int nInputs, nOutputs; + cmsUInt32Number* nSamples; + cmsUInt16Number In[MAX_INPUT_DIMENSIONS+1], Out[MAX_STAGE_CHANNELS]; + _cmsStageCLutData* clut; + + if (mpe == NULL) return FALSE; + + clut = (_cmsStageCLutData*) mpe->Data; + + if (clut == NULL) return FALSE; + + nSamples = clut->Params ->nSamples; + nInputs = clut->Params ->nInputs; + nOutputs = clut->Params ->nOutputs; + + if (nInputs <= 0) return FALSE; + if (nOutputs <= 0) return FALSE; + if (nInputs > MAX_INPUT_DIMENSIONS) return FALSE; + if (nOutputs >= MAX_STAGE_CHANNELS) return FALSE; + + nTotalPoints = CubeSize(nSamples, nInputs); + if (nTotalPoints == 0) return FALSE; + + index = 0; + for (i = 0; i < nTotalPoints; i++) { + + rest = i; + for (t = nInputs-1; t >=0; --t) { + + cmsUInt32Number Colorant = rest % nSamples[t]; + + rest /= nSamples[t]; + + In[t] = _cmsQuantizeVal(Colorant, nSamples[t]); + } + + if (clut ->Tab.T != NULL) { + for (t=0; t < nOutputs; t++) + Out[t] = clut->Tab.T[index + t]; + } + + if (!Sampler(In, Out, Cargo)) + return FALSE; + + if (!(dwFlags & SAMPLER_INSPECT)) { + + if (clut ->Tab.T != NULL) { + for (t=0; t < nOutputs; t++) + clut->Tab.T[index + t] = Out[t]; + } + } + + index += nOutputs; + } + + return TRUE; +} + +// Same as anterior, but for floting point +cmsBool CMSEXPORT cmsStageSampleCLutFloat(cmsStage* mpe, cmsSAMPLERFLOAT Sampler, void * Cargo, cmsUInt32Number dwFlags) +{ + int i, t, nTotalPoints, index, rest; + int nInputs, nOutputs; + cmsUInt32Number* nSamples; + cmsFloat32Number In[MAX_INPUT_DIMENSIONS+1], Out[MAX_STAGE_CHANNELS]; + _cmsStageCLutData* clut = (_cmsStageCLutData*) mpe->Data; + + nSamples = clut->Params ->nSamples; + nInputs = clut->Params ->nInputs; + nOutputs = clut->Params ->nOutputs; + + if (nInputs <= 0) return FALSE; + if (nOutputs <= 0) return FALSE; + if (nInputs > MAX_INPUT_DIMENSIONS) return FALSE; + if (nOutputs >= MAX_STAGE_CHANNELS) return FALSE; + + nTotalPoints = CubeSize(nSamples, nInputs); + if (nTotalPoints == 0) return FALSE; + + index = 0; + for (i = 0; i < nTotalPoints; i++) { + + rest = i; + for (t = nInputs-1; t >=0; --t) { + + cmsUInt32Number Colorant = rest % nSamples[t]; + + rest /= nSamples[t]; + + In[t] = (cmsFloat32Number) (_cmsQuantizeVal(Colorant, nSamples[t]) / 65535.0); + } + + if (clut ->Tab.TFloat != NULL) { + for (t=0; t < nOutputs; t++) + Out[t] = clut->Tab.TFloat[index + t]; + } + + if (!Sampler(In, Out, Cargo)) + return FALSE; + + if (!(dwFlags & SAMPLER_INSPECT)) { + + if (clut ->Tab.TFloat != NULL) { + for (t=0; t < nOutputs; t++) + clut->Tab.TFloat[index + t] = Out[t]; + } + } + + index += nOutputs; + } + + return TRUE; +} + + + +// This routine does a sweep on whole input space, and calls its callback +// function on knots. returns TRUE if all ok, FALSE otherwise. +cmsBool CMSEXPORT cmsSliceSpace16(cmsUInt32Number nInputs, const cmsUInt32Number clutPoints[], + cmsSAMPLER16 Sampler, void * Cargo) +{ + int i, t, nTotalPoints, rest; + cmsUInt16Number In[cmsMAXCHANNELS]; + + if (nInputs >= cmsMAXCHANNELS) return FALSE; + + nTotalPoints = CubeSize(clutPoints, nInputs); + if (nTotalPoints == 0) return FALSE; + + for (i = 0; i < nTotalPoints; i++) { + + rest = i; + for (t = nInputs-1; t >=0; --t) { + + cmsUInt32Number Colorant = rest % clutPoints[t]; + + rest /= clutPoints[t]; + In[t] = _cmsQuantizeVal(Colorant, clutPoints[t]); + + } + + if (!Sampler(In, NULL, Cargo)) + return FALSE; + } + + return TRUE; +} + +cmsInt32Number CMSEXPORT cmsSliceSpaceFloat(cmsUInt32Number nInputs, const cmsUInt32Number clutPoints[], + cmsSAMPLERFLOAT Sampler, void * Cargo) +{ + int i, t, nTotalPoints, rest; + cmsFloat32Number In[cmsMAXCHANNELS]; + + if (nInputs >= cmsMAXCHANNELS) return FALSE; + + nTotalPoints = CubeSize(clutPoints, nInputs); + if (nTotalPoints == 0) return FALSE; + + for (i = 0; i < nTotalPoints; i++) { + + rest = i; + for (t = nInputs-1; t >=0; --t) { + + cmsUInt32Number Colorant = rest % clutPoints[t]; + + rest /= clutPoints[t]; + In[t] = (cmsFloat32Number) (_cmsQuantizeVal(Colorant, clutPoints[t]) / 65535.0); + + } + + if (!Sampler(In, NULL, Cargo)) + return FALSE; + } + + return TRUE; +} + +// ******************************************************************************** +// Type cmsSigLab2XYZElemType +// ******************************************************************************** + + +static +void EvaluateLab2XYZ(const cmsFloat32Number In[], + cmsFloat32Number Out[], + const cmsStage *mpe) +{ + cmsCIELab Lab; + cmsCIEXYZ XYZ; + const cmsFloat64Number XYZadj = MAX_ENCODEABLE_XYZ; + + // V4 rules + Lab.L = In[0] * 100.0; + Lab.a = In[1] * 255.0 - 128.0; + Lab.b = In[2] * 255.0 - 128.0; + + cmsLab2XYZ(NULL, &XYZ, &Lab); + + // From XYZ, range 0..19997 to 0..1.0, note that 1.99997 comes from 0xffff + // encoded as 1.15 fixed point, so 1 + (32767.0 / 32768.0) + + Out[0] = (cmsFloat32Number) ((cmsFloat64Number) XYZ.X / XYZadj); + Out[1] = (cmsFloat32Number) ((cmsFloat64Number) XYZ.Y / XYZadj); + Out[2] = (cmsFloat32Number) ((cmsFloat64Number) XYZ.Z / XYZadj); + return; + + cmsUNUSED_PARAMETER(mpe); +} + + +// No dup or free routines needed, as the structure has no pointers in it. +cmsStage* _cmsStageAllocLab2XYZ(cmsContext ContextID) +{ + return _cmsStageAllocPlaceholder(ContextID, cmsSigLab2XYZElemType, 3, 3, EvaluateLab2XYZ, NULL, NULL, NULL); +} + +// ******************************************************************************** + +// v2 L=100 is supposed to be placed on 0xFF00. There is no reasonable +// number of gridpoints that would make exact match. However, a prelinearization +// of 258 entries, would map 0xFF00 exactly on entry 257, and this is good to avoid scum dot. +// Almost all what we need but unfortunately, the rest of entries should be scaled by +// (255*257/256) and this is not exact. + +cmsStage* _cmsStageAllocLabV2ToV4curves(cmsContext ContextID) +{ + cmsStage* mpe; + cmsToneCurve* LabTable[3]; + int i, j; + + LabTable[0] = cmsBuildTabulatedToneCurve16(ContextID, 258, NULL); + LabTable[1] = cmsBuildTabulatedToneCurve16(ContextID, 258, NULL); + LabTable[2] = cmsBuildTabulatedToneCurve16(ContextID, 258, NULL); + + for (j=0; j < 3; j++) { + + if (LabTable[j] == NULL) { + cmsFreeToneCurveTriple(LabTable); + return NULL; + } + + // We need to map * (0xffff / 0xff00), thats same as (257 / 256) + // So we can use 258-entry tables to do the trick (i / 257) * (255 * 257) * (257 / 256); + for (i=0; i < 257; i++) { + + LabTable[j]->Table16[i] = (cmsUInt16Number) ((i * 0xffff + 0x80) >> 8); + } + + LabTable[j] ->Table16[257] = 0xffff; + } + + mpe = cmsStageAllocToneCurves(ContextID, 3, LabTable); + cmsFreeToneCurveTriple(LabTable); + + if (mpe == NULL) return NULL; + mpe ->Implements = cmsSigLabV2toV4; + return mpe; +} + +// ******************************************************************************** + +// Matrix-based conversion, which is more accurate, but slower and cannot properly be saved in devicelink profiles +cmsStage* _cmsStageAllocLabV2ToV4(cmsContext ContextID) +{ + static const cmsFloat64Number V2ToV4[] = { 65535.0/65280.0, 0, 0, + 0, 65535.0/65280.0, 0, + 0, 0, 65535.0/65280.0 + }; + + cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, V2ToV4, NULL); + + if (mpe == NULL) return mpe; + mpe ->Implements = cmsSigLabV2toV4; + return mpe; +} + + +// Reverse direction +cmsStage* _cmsStageAllocLabV4ToV2(cmsContext ContextID) +{ + static const cmsFloat64Number V4ToV2[] = { 65280.0/65535.0, 0, 0, + 0, 65280.0/65535.0, 0, + 0, 0, 65280.0/65535.0 + }; + + cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, V4ToV2, NULL); + + if (mpe == NULL) return mpe; + mpe ->Implements = cmsSigLabV4toV2; + return mpe; +} + + +// To Lab to float. Note that the MPE gives numbers in normal Lab range +// and we need 0..1.0 range for the formatters +// L* : 0...100 => 0...1.0 (L* / 100) +// ab* : -128..+127 to 0..1 ((ab* + 128) / 255) + +cmsStage* _cmsStageNormalizeFromLabFloat(cmsContext ContextID) +{ + static const cmsFloat64Number a1[] = { + 1.0/100.0, 0, 0, + 0, 1.0/255.0, 0, + 0, 0, 1.0/255.0 + }; + + static const cmsFloat64Number o1[] = { + 0, + 128.0/255.0, + 128.0/255.0 + }; + + cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, a1, o1); + + if (mpe == NULL) return mpe; + mpe ->Implements = cmsSigLab2FloatPCS; + return mpe; +} + +// Fom XYZ to floating point PCS +cmsStage* _cmsStageNormalizeFromXyzFloat(cmsContext ContextID) +{ +#define n (32768.0/65535.0) + static const cmsFloat64Number a1[] = { + n, 0, 0, + 0, n, 0, + 0, 0, n + }; +#undef n + + cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, a1, NULL); + + if (mpe == NULL) return mpe; + mpe ->Implements = cmsSigXYZ2FloatPCS; + return mpe; +} + +cmsStage* _cmsStageNormalizeToLabFloat(cmsContext ContextID) +{ + static const cmsFloat64Number a1[] = { + 100.0, 0, 0, + 0, 255.0, 0, + 0, 0, 255.0 + }; + + static const cmsFloat64Number o1[] = { + 0, + -128.0, + -128.0 + }; + + cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, a1, o1); + if (mpe == NULL) return mpe; + mpe ->Implements = cmsSigFloatPCS2Lab; + return mpe; +} + +cmsStage* _cmsStageNormalizeToXyzFloat(cmsContext ContextID) +{ +#define n (65535.0/32768.0) + + static const cmsFloat64Number a1[] = { + n, 0, 0, + 0, n, 0, + 0, 0, n + }; +#undef n + + cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, a1, NULL); + if (mpe == NULL) return mpe; + mpe ->Implements = cmsSigFloatPCS2XYZ; + return mpe; +} + +// Clips values smaller than zero +static +void Clipper(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe) +{ + cmsUInt32Number i; + for (i = 0; i < mpe->InputChannels; i++) { + + cmsFloat32Number n = In[i]; + Out[i] = n < 0 ? 0 : n; + } +} + +cmsStage* _cmsStageClipNegatives(cmsContext ContextID, int nChannels) +{ + return _cmsStageAllocPlaceholder(ContextID, cmsSigClipNegativesElemType, + nChannels, nChannels, Clipper, NULL, NULL, NULL); +} + +// ******************************************************************************** +// Type cmsSigXYZ2LabElemType +// ******************************************************************************** + +static +void EvaluateXYZ2Lab(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe) +{ + cmsCIELab Lab; + cmsCIEXYZ XYZ; + const cmsFloat64Number XYZadj = MAX_ENCODEABLE_XYZ; + + // From 0..1.0 to XYZ + + XYZ.X = In[0] * XYZadj; + XYZ.Y = In[1] * XYZadj; + XYZ.Z = In[2] * XYZadj; + + cmsXYZ2Lab(NULL, &Lab, &XYZ); + + // From V4 Lab to 0..1.0 + + Out[0] = (cmsFloat32Number) (Lab.L / 100.0); + Out[1] = (cmsFloat32Number) ((Lab.a + 128.0) / 255.0); + Out[2] = (cmsFloat32Number) ((Lab.b + 128.0) / 255.0); + return; + + cmsUNUSED_PARAMETER(mpe); +} + +cmsStage* _cmsStageAllocXYZ2Lab(cmsContext ContextID) +{ + return _cmsStageAllocPlaceholder(ContextID, cmsSigXYZ2LabElemType, 3, 3, EvaluateXYZ2Lab, NULL, NULL, NULL); + +} + +// ******************************************************************************** + +// For v4, S-Shaped curves are placed in a/b axis to increase resolution near gray + +cmsStage* _cmsStageAllocLabPrelin(cmsContext ContextID) +{ + cmsToneCurve* LabTable[3]; + cmsFloat64Number Params[1] = {2.4} ; + + LabTable[0] = cmsBuildGamma(ContextID, 1.0); + LabTable[1] = cmsBuildParametricToneCurve(ContextID, 108, Params); + LabTable[2] = cmsBuildParametricToneCurve(ContextID, 108, Params); + + return cmsStageAllocToneCurves(ContextID, 3, LabTable); +} + + +// Free a single MPE +void CMSEXPORT cmsStageFree(cmsStage* mpe) +{ + if (mpe ->FreePtr) + mpe ->FreePtr(mpe); + + _cmsFree(mpe ->ContextID, mpe); +} + + +cmsUInt32Number CMSEXPORT cmsStageInputChannels(const cmsStage* mpe) +{ + return mpe ->InputChannels; +} + +cmsUInt32Number CMSEXPORT cmsStageOutputChannels(const cmsStage* mpe) +{ + return mpe ->OutputChannels; +} + +cmsStageSignature CMSEXPORT cmsStageType(const cmsStage* mpe) +{ + return mpe -> Type; +} + +void* CMSEXPORT cmsStageData(const cmsStage* mpe) +{ + return mpe -> Data; +} + +cmsStage* CMSEXPORT cmsStageNext(const cmsStage* mpe) +{ + return mpe -> Next; +} + + +// Duplicates an MPE +cmsStage* CMSEXPORT cmsStageDup(cmsStage* mpe) +{ + cmsStage* NewMPE; + + if (mpe == NULL) return NULL; + NewMPE = _cmsStageAllocPlaceholder(mpe ->ContextID, + mpe ->Type, + mpe ->InputChannels, + mpe ->OutputChannels, + mpe ->EvalPtr, + mpe ->DupElemPtr, + mpe ->FreePtr, + NULL); + if (NewMPE == NULL) return NULL; + + NewMPE ->Implements = mpe ->Implements; + + if (mpe ->DupElemPtr) { + + NewMPE ->Data = mpe ->DupElemPtr(mpe); + + if (NewMPE->Data == NULL) { + + cmsStageFree(NewMPE); + return NULL; + } + + } else { + + NewMPE ->Data = NULL; + } + + return NewMPE; +} + + +// *********************************************************************************************************** + +// This function sets up the channel count + +static +void BlessLUT(cmsPipeline* lut) +{ + // We can set the input/ouput channels only if we have elements. + if (lut ->Elements != NULL) { + + cmsStage *First, *Last; + + First = cmsPipelineGetPtrToFirstStage(lut); + Last = cmsPipelineGetPtrToLastStage(lut); + + if (First != NULL)lut ->InputChannels = First ->InputChannels; + if (Last != NULL) lut ->OutputChannels = Last ->OutputChannels; + } +} + + +// Default to evaluate the LUT on 16 bit-basis. Precision is retained. +static +void _LUTeval16(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register const void* D) +{ + cmsPipeline* lut = (cmsPipeline*) D; + cmsStage *mpe; + cmsFloat32Number Storage[2][MAX_STAGE_CHANNELS]; + int Phase = 0, NextPhase; + + From16ToFloat(In, &Storage[Phase][0], lut ->InputChannels); + + for (mpe = lut ->Elements; + mpe != NULL; + mpe = mpe ->Next) { + + NextPhase = Phase ^ 1; + mpe ->EvalPtr(&Storage[Phase][0], &Storage[NextPhase][0], mpe); + Phase = NextPhase; + } + + + FromFloatTo16(&Storage[Phase][0], Out, lut ->OutputChannels); +} + + + +// Does evaluate the LUT on cmsFloat32Number-basis. +static +void _LUTevalFloat(register const cmsFloat32Number In[], register cmsFloat32Number Out[], const void* D) +{ + cmsPipeline* lut = (cmsPipeline*) D; + cmsStage *mpe; + cmsFloat32Number Storage[2][MAX_STAGE_CHANNELS]; + int Phase = 0, NextPhase; + + memmove(&Storage[Phase][0], In, lut ->InputChannels * sizeof(cmsFloat32Number)); + + for (mpe = lut ->Elements; + mpe != NULL; + mpe = mpe ->Next) { + + NextPhase = Phase ^ 1; + mpe ->EvalPtr(&Storage[Phase][0], &Storage[NextPhase][0], mpe); + Phase = NextPhase; + } + + memmove(Out, &Storage[Phase][0], lut ->OutputChannels * sizeof(cmsFloat32Number)); +} + + + + +// LUT Creation & Destruction + +cmsPipeline* CMSEXPORT cmsPipelineAlloc(cmsContext ContextID, cmsUInt32Number InputChannels, cmsUInt32Number OutputChannels) +{ + cmsPipeline* NewLUT; + + if (InputChannels >= cmsMAXCHANNELS || + OutputChannels >= cmsMAXCHANNELS) return NULL; + + NewLUT = (cmsPipeline*) _cmsMallocZero(ContextID, sizeof(cmsPipeline)); + if (NewLUT == NULL) return NULL; + + + NewLUT -> InputChannels = InputChannels; + NewLUT -> OutputChannels = OutputChannels; + + NewLUT ->Eval16Fn = _LUTeval16; + NewLUT ->EvalFloatFn = _LUTevalFloat; + NewLUT ->DupDataFn = NULL; + NewLUT ->FreeDataFn = NULL; + NewLUT ->Data = NewLUT; + NewLUT ->ContextID = ContextID; + + BlessLUT(NewLUT); + + return NewLUT; +} + +cmsContext CMSEXPORT cmsGetPipelineContextID(const cmsPipeline* lut) +{ + _cmsAssert(lut != NULL); + return lut ->ContextID; +} + +cmsUInt32Number CMSEXPORT cmsPipelineInputChannels(const cmsPipeline* lut) +{ + _cmsAssert(lut != NULL); + return lut ->InputChannels; +} + +cmsUInt32Number CMSEXPORT cmsPipelineOutputChannels(const cmsPipeline* lut) +{ + _cmsAssert(lut != NULL); + return lut ->OutputChannels; +} + +// Free a profile elements LUT +void CMSEXPORT cmsPipelineFree(cmsPipeline* lut) +{ + cmsStage *mpe, *Next; + + if (lut == NULL) return; + + for (mpe = lut ->Elements; + mpe != NULL; + mpe = Next) { + + Next = mpe ->Next; + cmsStageFree(mpe); + } + + if (lut ->FreeDataFn) lut ->FreeDataFn(lut ->ContextID, lut ->Data); + + _cmsFree(lut ->ContextID, lut); +} + + +// Default to evaluate the LUT on 16 bit-basis. +void CMSEXPORT cmsPipelineEval16(const cmsUInt16Number In[], cmsUInt16Number Out[], const cmsPipeline* lut) +{ + _cmsAssert(lut != NULL); + lut ->Eval16Fn(In, Out, lut->Data); +} + + +// Does evaluate the LUT on cmsFloat32Number-basis. +void CMSEXPORT cmsPipelineEvalFloat(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsPipeline* lut) +{ + _cmsAssert(lut != NULL); + lut ->EvalFloatFn(In, Out, lut); +} + + + +// Duplicates a LUT +cmsPipeline* CMSEXPORT cmsPipelineDup(const cmsPipeline* lut) +{ + cmsPipeline* NewLUT; + cmsStage *NewMPE, *Anterior = NULL, *mpe; + cmsBool First = TRUE; + + if (lut == NULL) return NULL; + + NewLUT = cmsPipelineAlloc(lut ->ContextID, lut ->InputChannels, lut ->OutputChannels); + if (NewLUT == NULL) return NULL; + + for (mpe = lut ->Elements; + mpe != NULL; + mpe = mpe ->Next) { + + NewMPE = cmsStageDup(mpe); + + if (NewMPE == NULL) { + cmsPipelineFree(NewLUT); + return NULL; + } + + if (First) { + NewLUT ->Elements = NewMPE; + First = FALSE; + } + else { + if (Anterior != NULL) + Anterior ->Next = NewMPE; + } + + Anterior = NewMPE; + } + + NewLUT ->Eval16Fn = lut ->Eval16Fn; + NewLUT ->EvalFloatFn = lut ->EvalFloatFn; + NewLUT ->DupDataFn = lut ->DupDataFn; + NewLUT ->FreeDataFn = lut ->FreeDataFn; + + if (NewLUT ->DupDataFn != NULL) + NewLUT ->Data = NewLUT ->DupDataFn(lut ->ContextID, lut->Data); + + + NewLUT ->SaveAs8Bits = lut ->SaveAs8Bits; + + BlessLUT(NewLUT); + return NewLUT; +} + + +int CMSEXPORT cmsPipelineInsertStage(cmsPipeline* lut, cmsStageLoc loc, cmsStage* mpe) +{ + cmsStage* Anterior = NULL, *pt; + + if (lut == NULL || mpe == NULL) + return FALSE; + + switch (loc) { + + case cmsAT_BEGIN: + mpe ->Next = lut ->Elements; + lut ->Elements = mpe; + break; + + case cmsAT_END: + + if (lut ->Elements == NULL) + lut ->Elements = mpe; + else { + + for (pt = lut ->Elements; + pt != NULL; + pt = pt -> Next) Anterior = pt; + + Anterior ->Next = mpe; + mpe ->Next = NULL; + } + break; + default:; + return FALSE; + } + + BlessLUT(lut); + return TRUE; +} + +// Unlink an element and return the pointer to it +void CMSEXPORT cmsPipelineUnlinkStage(cmsPipeline* lut, cmsStageLoc loc, cmsStage** mpe) +{ + cmsStage *Anterior, *pt, *Last; + cmsStage *Unlinked = NULL; + + + // If empty LUT, there is nothing to remove + if (lut ->Elements == NULL) { + if (mpe) *mpe = NULL; + return; + } + + // On depending on the strategy... + switch (loc) { + + case cmsAT_BEGIN: + { + cmsStage* elem = lut ->Elements; + + lut ->Elements = elem -> Next; + elem ->Next = NULL; + Unlinked = elem; + + } + break; + + case cmsAT_END: + Anterior = Last = NULL; + for (pt = lut ->Elements; + pt != NULL; + pt = pt -> Next) { + Anterior = Last; + Last = pt; + } + + Unlinked = Last; // Next already points to NULL + + // Truncate the chain + if (Anterior) + Anterior ->Next = NULL; + else + lut ->Elements = NULL; + break; + default:; + } + + if (mpe) + *mpe = Unlinked; + else + cmsStageFree(Unlinked); + + BlessLUT(lut); +} + + +// Concatenate two LUT into a new single one +cmsBool CMSEXPORT cmsPipelineCat(cmsPipeline* l1, const cmsPipeline* l2) +{ + cmsStage* mpe; + + // If both LUTS does not have elements, we need to inherit + // the number of channels + if (l1 ->Elements == NULL && l2 ->Elements == NULL) { + l1 ->InputChannels = l2 ->InputChannels; + l1 ->OutputChannels = l2 ->OutputChannels; + } + + // Cat second + for (mpe = l2 ->Elements; + mpe != NULL; + mpe = mpe ->Next) { + + // We have to dup each element + if (!cmsPipelineInsertStage(l1, cmsAT_END, cmsStageDup(mpe))) + return FALSE; + } + + BlessLUT(l1); + return TRUE; +} + + +cmsBool CMSEXPORT cmsPipelineSetSaveAs8bitsFlag(cmsPipeline* lut, cmsBool On) +{ + cmsBool Anterior = lut ->SaveAs8Bits; + + lut ->SaveAs8Bits = On; + return Anterior; +} + + +cmsStage* CMSEXPORT cmsPipelineGetPtrToFirstStage(const cmsPipeline* lut) +{ + return lut ->Elements; +} + +cmsStage* CMSEXPORT cmsPipelineGetPtrToLastStage(const cmsPipeline* lut) +{ + cmsStage *mpe, *Anterior = NULL; + + for (mpe = lut ->Elements; mpe != NULL; mpe = mpe ->Next) + Anterior = mpe; + + return Anterior; +} + +cmsUInt32Number CMSEXPORT cmsPipelineStageCount(const cmsPipeline* lut) +{ + cmsStage *mpe; + cmsUInt32Number n; + + for (n=0, mpe = lut ->Elements; mpe != NULL; mpe = mpe ->Next) + n++; + + return n; +} + +// This function may be used to set the optional evaluator and a block of private data. If private data is being used, an optional +// duplicator and free functions should also be specified in order to duplicate the LUT construct. Use NULL to inhibit such functionality. +void CMSEXPORT _cmsPipelineSetOptimizationParameters(cmsPipeline* Lut, + _cmsOPTeval16Fn Eval16, + void* PrivateData, + _cmsFreeUserDataFn FreePrivateDataFn, + _cmsDupUserDataFn DupPrivateDataFn) +{ + + Lut ->Eval16Fn = Eval16; + Lut ->DupDataFn = DupPrivateDataFn; + Lut ->FreeDataFn = FreePrivateDataFn; + Lut ->Data = PrivateData; +} + + +// ----------------------------------------------------------- Reverse interpolation +// Here's how it goes. The derivative Df(x) of the function f is the linear +// transformation that best approximates f near the point x. It can be represented +// by a matrix A whose entries are the partial derivatives of the components of f +// with respect to all the coordinates. This is know as the Jacobian +// +// The best linear approximation to f is given by the matrix equation: +// +// y-y0 = A (x-x0) +// +// So, if x0 is a good "guess" for the zero of f, then solving for the zero of this +// linear approximation will give a "better guess" for the zero of f. Thus let y=0, +// and since y0=f(x0) one can solve the above equation for x. This leads to the +// Newton's method formula: +// +// xn+1 = xn - A-1 f(xn) +// +// where xn+1 denotes the (n+1)-st guess, obtained from the n-th guess xn in the +// fashion described above. Iterating this will give better and better approximations +// if you have a "good enough" initial guess. + + +#define JACOBIAN_EPSILON 0.001f +#define INVERSION_MAX_ITERATIONS 30 + +// Increment with reflexion on boundary +static +void IncDelta(cmsFloat32Number *Val) +{ + if (*Val < (1.0 - JACOBIAN_EPSILON)) + + *Val += JACOBIAN_EPSILON; + + else + *Val -= JACOBIAN_EPSILON; + +} + + + +// Euclidean distance between two vectors of n elements each one +static +cmsFloat32Number EuclideanDistance(cmsFloat32Number a[], cmsFloat32Number b[], int n) +{ + cmsFloat32Number sum = 0; + int i; + + for (i=0; i < n; i++) { + cmsFloat32Number dif = b[i] - a[i]; + sum += dif * dif; + } + + return sqrtf(sum); +} + + +// Evaluate a LUT in reverse direction. It only searches on 3->3 LUT. Uses Newton method +// +// x1 <- x - [J(x)]^-1 * f(x) +// +// lut: The LUT on where to do the search +// Target: LabK, 3 values of Lab plus destination K which is fixed +// Result: The obtained CMYK +// Hint: Location where begin the search + +cmsBool CMSEXPORT cmsPipelineEvalReverseFloat(cmsFloat32Number Target[], + cmsFloat32Number Result[], + cmsFloat32Number Hint[], + const cmsPipeline* lut) +{ + cmsUInt32Number i, j; + cmsFloat64Number error, LastError = 1E20; + cmsFloat32Number fx[4], x[4], xd[4], fxd[4]; + cmsVEC3 tmp, tmp2; + cmsMAT3 Jacobian; + + // Only 3->3 and 4->3 are supported + if (lut ->InputChannels != 3 && lut ->InputChannels != 4) return FALSE; + if (lut ->OutputChannels != 3) return FALSE; + + // Take the hint as starting point if specified + if (Hint == NULL) { + + // Begin at any point, we choose 1/3 of CMY axis + x[0] = x[1] = x[2] = 0.3f; + } + else { + + // Only copy 3 channels from hint... + for (j=0; j < 3; j++) + x[j] = Hint[j]; + } + + // If Lut is 4-dimensions, then grab target[3], which is fixed + if (lut ->InputChannels == 4) { + x[3] = Target[3]; + } + else x[3] = 0; // To keep lint happy + + + // Iterate + for (i = 0; i < INVERSION_MAX_ITERATIONS; i++) { + + // Get beginning fx + cmsPipelineEvalFloat(x, fx, lut); + + // Compute error + error = EuclideanDistance(fx, Target, 3); + + // If not convergent, return last safe value + if (error >= LastError) + break; + + // Keep latest values + LastError = error; + for (j=0; j < lut ->InputChannels; j++) + Result[j] = x[j]; + + // Found an exact match? + if (error <= 0) + break; + + // Obtain slope (the Jacobian) + for (j = 0; j < 3; j++) { + + xd[0] = x[0]; + xd[1] = x[1]; + xd[2] = x[2]; + xd[3] = x[3]; // Keep fixed channel + + IncDelta(&xd[j]); + + cmsPipelineEvalFloat(xd, fxd, lut); + + Jacobian.v[0].n[j] = ((fxd[0] - fx[0]) / JACOBIAN_EPSILON); + Jacobian.v[1].n[j] = ((fxd[1] - fx[1]) / JACOBIAN_EPSILON); + Jacobian.v[2].n[j] = ((fxd[2] - fx[2]) / JACOBIAN_EPSILON); + } + + // Solve system + tmp2.n[0] = fx[0] - Target[0]; + tmp2.n[1] = fx[1] - Target[1]; + tmp2.n[2] = fx[2] - Target[2]; + + if (!_cmsMAT3solve(&tmp, &Jacobian, &tmp2)) + return FALSE; + + // Move our guess + x[0] -= (cmsFloat32Number) tmp.n[0]; + x[1] -= (cmsFloat32Number) tmp.n[1]; + x[2] -= (cmsFloat32Number) tmp.n[2]; + + // Some clipping.... + for (j=0; j < 3; j++) { + if (x[j] < 0) x[j] = 0; + else + if (x[j] > 1.0) x[j] = 1.0; + } + } + + return TRUE; +} + + Index: sdk/lib/3rdparty/lcms2/cmsmd5.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsmd5.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsmd5.c (working copy) @@ -0,0 +1,317 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- + + +#include "lcms2_internal.h" + +#ifdef CMS_USE_BIG_ENDIAN + +static +void byteReverse(cmsUInt8Number * buf, cmsUInt32Number longs) +{ + do { + + cmsUInt32Number t = _cmsAdjustEndianess32(*(cmsUInt32Number *) buf); + *(cmsUInt32Number *) buf = t; + buf += sizeof(cmsUInt32Number); + + } while (--longs); + +} + +#else +#define byteReverse(buf, len) +#endif + + +typedef struct { + + cmsUInt32Number buf[4]; + cmsUInt32Number bits[2]; + cmsUInt8Number in[64]; + cmsContext ContextID; + +} _cmsMD5; + +#define F1(x, y, z) (z ^ (x & (y ^ z))) +#define F2(x, y, z) F1(z, x, y) +#define F3(x, y, z) (x ^ y ^ z) +#define F4(x, y, z) (y ^ (x | ~z)) + +#define STEP(f, w, x, y, z, data, s) \ + ( w += f(x, y, z) + data, w = w<>(32-s), w += x ) + + +static +void MD5_Transform(cmsUInt32Number buf[4], cmsUInt32Number in[16]) + +{ + register cmsUInt32Number a, b, c, d; + + a = buf[0]; + b = buf[1]; + c = buf[2]; + d = buf[3]; + + STEP(F1, a, b, c, d, in[0] + 0xd76aa478, 7); + STEP(F1, d, a, b, c, in[1] + 0xe8c7b756, 12); + STEP(F1, c, d, a, b, in[2] + 0x242070db, 17); + STEP(F1, b, c, d, a, in[3] + 0xc1bdceee, 22); + STEP(F1, a, b, c, d, in[4] + 0xf57c0faf, 7); + STEP(F1, d, a, b, c, in[5] + 0x4787c62a, 12); + STEP(F1, c, d, a, b, in[6] + 0xa8304613, 17); + STEP(F1, b, c, d, a, in[7] + 0xfd469501, 22); + STEP(F1, a, b, c, d, in[8] + 0x698098d8, 7); + STEP(F1, d, a, b, c, in[9] + 0x8b44f7af, 12); + STEP(F1, c, d, a, b, in[10] + 0xffff5bb1, 17); + STEP(F1, b, c, d, a, in[11] + 0x895cd7be, 22); + STEP(F1, a, b, c, d, in[12] + 0x6b901122, 7); + STEP(F1, d, a, b, c, in[13] + 0xfd987193, 12); + STEP(F1, c, d, a, b, in[14] + 0xa679438e, 17); + STEP(F1, b, c, d, a, in[15] + 0x49b40821, 22); + + STEP(F2, a, b, c, d, in[1] + 0xf61e2562, 5); + STEP(F2, d, a, b, c, in[6] + 0xc040b340, 9); + STEP(F2, c, d, a, b, in[11] + 0x265e5a51, 14); + STEP(F2, b, c, d, a, in[0] + 0xe9b6c7aa, 20); + STEP(F2, a, b, c, d, in[5] + 0xd62f105d, 5); + STEP(F2, d, a, b, c, in[10] + 0x02441453, 9); + STEP(F2, c, d, a, b, in[15] + 0xd8a1e681, 14); + STEP(F2, b, c, d, a, in[4] + 0xe7d3fbc8, 20); + STEP(F2, a, b, c, d, in[9] + 0x21e1cde6, 5); + STEP(F2, d, a, b, c, in[14] + 0xc33707d6, 9); + STEP(F2, c, d, a, b, in[3] + 0xf4d50d87, 14); + STEP(F2, b, c, d, a, in[8] + 0x455a14ed, 20); + STEP(F2, a, b, c, d, in[13] + 0xa9e3e905, 5); + STEP(F2, d, a, b, c, in[2] + 0xfcefa3f8, 9); + STEP(F2, c, d, a, b, in[7] + 0x676f02d9, 14); + STEP(F2, b, c, d, a, in[12] + 0x8d2a4c8a, 20); + + STEP(F3, a, b, c, d, in[5] + 0xfffa3942, 4); + STEP(F3, d, a, b, c, in[8] + 0x8771f681, 11); + STEP(F3, c, d, a, b, in[11] + 0x6d9d6122, 16); + STEP(F3, b, c, d, a, in[14] + 0xfde5380c, 23); + STEP(F3, a, b, c, d, in[1] + 0xa4beea44, 4); + STEP(F3, d, a, b, c, in[4] + 0x4bdecfa9, 11); + STEP(F3, c, d, a, b, in[7] + 0xf6bb4b60, 16); + STEP(F3, b, c, d, a, in[10] + 0xbebfbc70, 23); + STEP(F3, a, b, c, d, in[13] + 0x289b7ec6, 4); + STEP(F3, d, a, b, c, in[0] + 0xeaa127fa, 11); + STEP(F3, c, d, a, b, in[3] + 0xd4ef3085, 16); + STEP(F3, b, c, d, a, in[6] + 0x04881d05, 23); + STEP(F3, a, b, c, d, in[9] + 0xd9d4d039, 4); + STEP(F3, d, a, b, c, in[12] + 0xe6db99e5, 11); + STEP(F3, c, d, a, b, in[15] + 0x1fa27cf8, 16); + STEP(F3, b, c, d, a, in[2] + 0xc4ac5665, 23); + + STEP(F4, a, b, c, d, in[0] + 0xf4292244, 6); + STEP(F4, d, a, b, c, in[7] + 0x432aff97, 10); + STEP(F4, c, d, a, b, in[14] + 0xab9423a7, 15); + STEP(F4, b, c, d, a, in[5] + 0xfc93a039, 21); + STEP(F4, a, b, c, d, in[12] + 0x655b59c3, 6); + STEP(F4, d, a, b, c, in[3] + 0x8f0ccc92, 10); + STEP(F4, c, d, a, b, in[10] + 0xffeff47d, 15); + STEP(F4, b, c, d, a, in[1] + 0x85845dd1, 21); + STEP(F4, a, b, c, d, in[8] + 0x6fa87e4f, 6); + STEP(F4, d, a, b, c, in[15] + 0xfe2ce6e0, 10); + STEP(F4, c, d, a, b, in[6] + 0xa3014314, 15); + STEP(F4, b, c, d, a, in[13] + 0x4e0811a1, 21); + STEP(F4, a, b, c, d, in[4] + 0xf7537e82, 6); + STEP(F4, d, a, b, c, in[11] + 0xbd3af235, 10); + STEP(F4, c, d, a, b, in[2] + 0x2ad7d2bb, 15); + STEP(F4, b, c, d, a, in[9] + 0xeb86d391, 21); + + buf[0] += a; + buf[1] += b; + buf[2] += c; + buf[3] += d; +} + + +// Create a MD5 object +static +cmsHANDLE MD5alloc(cmsContext ContextID) +{ + _cmsMD5* ctx = (_cmsMD5*) _cmsMallocZero(ContextID, sizeof(_cmsMD5)); + if (ctx == NULL) return NULL; + + ctx ->ContextID = ContextID; + + ctx->buf[0] = 0x67452301; + ctx->buf[1] = 0xefcdab89; + ctx->buf[2] = 0x98badcfe; + ctx->buf[3] = 0x10325476; + + ctx->bits[0] = 0; + ctx->bits[1] = 0; + + return (cmsHANDLE) ctx; +} + + +static +void MD5add(cmsHANDLE Handle, cmsUInt8Number* buf, cmsUInt32Number len) +{ + _cmsMD5* ctx = (_cmsMD5*) Handle; + cmsUInt32Number t; + + t = ctx->bits[0]; + if ((ctx->bits[0] = t + (len << 3)) < t) + ctx->bits[1]++; + + ctx->bits[1] += len >> 29; + + t = (t >> 3) & 0x3f; + + if (t) { + + cmsUInt8Number *p = (cmsUInt8Number *) ctx->in + t; + + t = 64 - t; + if (len < t) { + memmove(p, buf, len); + return; + } + + memmove(p, buf, t); + byteReverse(ctx->in, 16); + + MD5_Transform(ctx->buf, (cmsUInt32Number *) ctx->in); + buf += t; + len -= t; + } + + while (len >= 64) { + memmove(ctx->in, buf, 64); + byteReverse(ctx->in, 16); + MD5_Transform(ctx->buf, (cmsUInt32Number *) ctx->in); + buf += 64; + len -= 64; + } + + memmove(ctx->in, buf, len); +} + +// Destroy the object and return the checksum +static +void MD5finish(cmsProfileID* ProfileID, cmsHANDLE Handle) +{ + _cmsMD5* ctx = (_cmsMD5*) Handle; + cmsUInt32Number count; + cmsUInt8Number *p; + + count = (ctx->bits[0] >> 3) & 0x3F; + + p = ctx->in + count; + *p++ = 0x80; + + count = 64 - 1 - count; + + if (count < 8) { + + memset(p, 0, count); + byteReverse(ctx->in, 16); + MD5_Transform(ctx->buf, (cmsUInt32Number *) ctx->in); + + memset(ctx->in, 0, 56); + } else { + memset(p, 0, count - 8); + } + byteReverse(ctx->in, 14); + + ((cmsUInt32Number *) ctx->in)[14] = ctx->bits[0]; + ((cmsUInt32Number *) ctx->in)[15] = ctx->bits[1]; + + MD5_Transform(ctx->buf, (cmsUInt32Number *) ctx->in); + + byteReverse((cmsUInt8Number *) ctx->buf, 4); + memmove(ProfileID ->ID8, ctx->buf, 16); + + _cmsFree(ctx ->ContextID, ctx); +} + + + +// Assuming io points to an ICC profile, compute and store MD5 checksum +// In the header, rendering intentent, attributes and ID should be set to zero +// before computing MD5 checksum (per 6.1.13 in ICC spec) + +cmsBool CMSEXPORT cmsMD5computeID(cmsHPROFILE hProfile) +{ + cmsContext ContextID; + cmsUInt32Number BytesNeeded; + cmsUInt8Number* Mem = NULL; + cmsHANDLE MD5 = NULL; + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + _cmsICCPROFILE Keep; + + _cmsAssert(hProfile != NULL); + + ContextID = cmsGetProfileContextID(hProfile); + + // Save a copy of the profile header + memmove(&Keep, Icc, sizeof(_cmsICCPROFILE)); + + // Set RI, attributes and ID + memset(&Icc ->attributes, 0, sizeof(Icc ->attributes)); + Icc ->RenderingIntent = 0; + memset(&Icc ->ProfileID, 0, sizeof(Icc ->ProfileID)); + + // Compute needed storage + if (!cmsSaveProfileToMem(hProfile, NULL, &BytesNeeded)) goto Error; + + // Allocate memory + Mem = (cmsUInt8Number*) _cmsMalloc(ContextID, BytesNeeded); + if (Mem == NULL) goto Error; + + // Save to temporary storage + if (!cmsSaveProfileToMem(hProfile, Mem, &BytesNeeded)) goto Error; + + // Create MD5 object + MD5 = MD5alloc(ContextID); + if (MD5 == NULL) goto Error; + + // Add all bytes + MD5add(MD5, Mem, BytesNeeded); + + // Temp storage is no longer needed + _cmsFree(ContextID, Mem); + + // Restore header + memmove(Icc, &Keep, sizeof(_cmsICCPROFILE)); + + // And store the ID + MD5finish(&Icc ->ProfileID, MD5); + return TRUE; + +Error: + + // Free resources as something went wrong + // "MD5" cannot be other than NULL here, so no need to free it + if (Mem != NULL) _cmsFree(ContextID, Mem); + memmove(Icc, &Keep, sizeof(_cmsICCPROFILE)); + return FALSE; +} + Index: sdk/lib/3rdparty/lcms2/cmsmtrx.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsmtrx.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsmtrx.c (working copy) @@ -0,0 +1,176 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +#define DSWAP(x, y) {cmsFloat64Number tmp = (x); (x)=(y); (y)=tmp;} + + +// Initiate a vector +void CMSEXPORT _cmsVEC3init(cmsVEC3* r, cmsFloat64Number x, cmsFloat64Number y, cmsFloat64Number z) +{ + r -> n[VX] = x; + r -> n[VY] = y; + r -> n[VZ] = z; +} + +// Vector subtraction +void CMSEXPORT _cmsVEC3minus(cmsVEC3* r, const cmsVEC3* a, const cmsVEC3* b) +{ + r -> n[VX] = a -> n[VX] - b -> n[VX]; + r -> n[VY] = a -> n[VY] - b -> n[VY]; + r -> n[VZ] = a -> n[VZ] - b -> n[VZ]; +} + +// Vector cross product +void CMSEXPORT _cmsVEC3cross(cmsVEC3* r, const cmsVEC3* u, const cmsVEC3* v) +{ + r ->n[VX] = u->n[VY] * v->n[VZ] - v->n[VY] * u->n[VZ]; + r ->n[VY] = u->n[VZ] * v->n[VX] - v->n[VZ] * u->n[VX]; + r ->n[VZ] = u->n[VX] * v->n[VY] - v->n[VX] * u->n[VY]; +} + +// Vector dot product +cmsFloat64Number CMSEXPORT _cmsVEC3dot(const cmsVEC3* u, const cmsVEC3* v) +{ + return u->n[VX] * v->n[VX] + u->n[VY] * v->n[VY] + u->n[VZ] * v->n[VZ]; +} + +// Euclidean length +cmsFloat64Number CMSEXPORT _cmsVEC3length(const cmsVEC3* a) +{ + return sqrt(a ->n[VX] * a ->n[VX] + + a ->n[VY] * a ->n[VY] + + a ->n[VZ] * a ->n[VZ]); +} + +// Euclidean distance +cmsFloat64Number CMSEXPORT _cmsVEC3distance(const cmsVEC3* a, const cmsVEC3* b) +{ + cmsFloat64Number d1 = a ->n[VX] - b ->n[VX]; + cmsFloat64Number d2 = a ->n[VY] - b ->n[VY]; + cmsFloat64Number d3 = a ->n[VZ] - b ->n[VZ]; + + return sqrt(d1*d1 + d2*d2 + d3*d3); +} + + + +// 3x3 Identity +void CMSEXPORT _cmsMAT3identity(cmsMAT3* a) +{ + _cmsVEC3init(&a-> v[0], 1.0, 0.0, 0.0); + _cmsVEC3init(&a-> v[1], 0.0, 1.0, 0.0); + _cmsVEC3init(&a-> v[2], 0.0, 0.0, 1.0); +} + +static +cmsBool CloseEnough(cmsFloat64Number a, cmsFloat64Number b) +{ + return fabs(b - a) < (1.0 / 65535.0); +} + + +cmsBool CMSEXPORT _cmsMAT3isIdentity(const cmsMAT3* a) +{ + cmsMAT3 Identity; + int i, j; + + _cmsMAT3identity(&Identity); + + for (i=0; i < 3; i++) + for (j=0; j < 3; j++) + if (!CloseEnough(a ->v[i].n[j], Identity.v[i].n[j])) return FALSE; + + return TRUE; +} + + +// Multiply two matrices +void CMSEXPORT _cmsMAT3per(cmsMAT3* r, const cmsMAT3* a, const cmsMAT3* b) +{ +#define ROWCOL(i, j) \ + a->v[i].n[0]*b->v[0].n[j] + a->v[i].n[1]*b->v[1].n[j] + a->v[i].n[2]*b->v[2].n[j] + + _cmsVEC3init(&r-> v[0], ROWCOL(0,0), ROWCOL(0,1), ROWCOL(0,2)); + _cmsVEC3init(&r-> v[1], ROWCOL(1,0), ROWCOL(1,1), ROWCOL(1,2)); + _cmsVEC3init(&r-> v[2], ROWCOL(2,0), ROWCOL(2,1), ROWCOL(2,2)); + +#undef ROWCOL //(i, j) +} + + + +// Inverse of a matrix b = a^(-1) +cmsBool CMSEXPORT _cmsMAT3inverse(const cmsMAT3* a, cmsMAT3* b) +{ + cmsFloat64Number det, c0, c1, c2; + + c0 = a -> v[1].n[1]*a -> v[2].n[2] - a -> v[1].n[2]*a -> v[2].n[1]; + c1 = -a -> v[1].n[0]*a -> v[2].n[2] + a -> v[1].n[2]*a -> v[2].n[0]; + c2 = a -> v[1].n[0]*a -> v[2].n[1] - a -> v[1].n[1]*a -> v[2].n[0]; + + det = a -> v[0].n[0]*c0 + a -> v[0].n[1]*c1 + a -> v[0].n[2]*c2; + + if (fabs(det) < MATRIX_DET_TOLERANCE) return FALSE; // singular matrix; can't invert + + b -> v[0].n[0] = c0/det; + b -> v[0].n[1] = (a -> v[0].n[2]*a -> v[2].n[1] - a -> v[0].n[1]*a -> v[2].n[2])/det; + b -> v[0].n[2] = (a -> v[0].n[1]*a -> v[1].n[2] - a -> v[0].n[2]*a -> v[1].n[1])/det; + b -> v[1].n[0] = c1/det; + b -> v[1].n[1] = (a -> v[0].n[0]*a -> v[2].n[2] - a -> v[0].n[2]*a -> v[2].n[0])/det; + b -> v[1].n[2] = (a -> v[0].n[2]*a -> v[1].n[0] - a -> v[0].n[0]*a -> v[1].n[2])/det; + b -> v[2].n[0] = c2/det; + b -> v[2].n[1] = (a -> v[0].n[1]*a -> v[2].n[0] - a -> v[0].n[0]*a -> v[2].n[1])/det; + b -> v[2].n[2] = (a -> v[0].n[0]*a -> v[1].n[1] - a -> v[0].n[1]*a -> v[1].n[0])/det; + + return TRUE; +} + + +// Solve a system in the form Ax = b +cmsBool CMSEXPORT _cmsMAT3solve(cmsVEC3* x, cmsMAT3* a, cmsVEC3* b) +{ + cmsMAT3 m, a_1; + + memmove(&m, a, sizeof(cmsMAT3)); + + if (!_cmsMAT3inverse(&m, &a_1)) return FALSE; // Singular matrix + + _cmsMAT3eval(x, &a_1, b); + return TRUE; +} + +// Evaluate a vector across a matrix +void CMSEXPORT _cmsMAT3eval(cmsVEC3* r, const cmsMAT3* a, const cmsVEC3* v) +{ + r->n[VX] = a->v[0].n[VX]*v->n[VX] + a->v[0].n[VY]*v->n[VY] + a->v[0].n[VZ]*v->n[VZ]; + r->n[VY] = a->v[1].n[VX]*v->n[VX] + a->v[1].n[VY]*v->n[VY] + a->v[1].n[VZ]*v->n[VZ]; + r->n[VZ] = a->v[2].n[VX]*v->n[VX] + a->v[2].n[VY]*v->n[VY] + a->v[2].n[VZ]*v->n[VZ]; +} + + Index: sdk/lib/3rdparty/lcms2/cmsnamed.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsnamed.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsnamed.c (working copy) @@ -0,0 +1,956 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Multilocalized unicode objects. That is an attempt to encapsulate i18n. + + +// Allocates an empty multi localizad unicode object +cmsMLU* CMSEXPORT cmsMLUalloc(cmsContext ContextID, cmsUInt32Number nItems) +{ + cmsMLU* mlu; + + // nItems should be positive if given + if (nItems <= 0) nItems = 2; + + // Create the container + mlu = (cmsMLU*) _cmsMallocZero(ContextID, sizeof(cmsMLU)); + if (mlu == NULL) return NULL; + + mlu ->ContextID = ContextID; + + // Create entry array + mlu ->Entries = (_cmsMLUentry*) _cmsCalloc(ContextID, nItems, sizeof(_cmsMLUentry)); + if (mlu ->Entries == NULL) { + _cmsFree(ContextID, mlu); + return NULL; + } + + // Ok, keep indexes up to date + mlu ->AllocatedEntries = nItems; + mlu ->UsedEntries = 0; + + return mlu; +} + + +// Grows a mempool table for a MLU. Each time this function is called, mempool size is multiplied times two. +static +cmsBool GrowMLUpool(cmsMLU* mlu) +{ + cmsUInt32Number size; + void *NewPtr; + + // Sanity check + if (mlu == NULL) return FALSE; + + if (mlu ->PoolSize == 0) + size = 256; + else + size = mlu ->PoolSize * 2; + + // Check for overflow + if (size < mlu ->PoolSize) return FALSE; + + // Reallocate the pool + NewPtr = _cmsRealloc(mlu ->ContextID, mlu ->MemPool, size); + if (NewPtr == NULL) return FALSE; + + + mlu ->MemPool = NewPtr; + mlu ->PoolSize = size; + + return TRUE; +} + + +// Grows a entry table for a MLU. Each time this function is called, table size is multiplied times two. +static +cmsBool GrowMLUtable(cmsMLU* mlu) +{ + cmsUInt32Number AllocatedEntries; + _cmsMLUentry *NewPtr; + + // Sanity check + if (mlu == NULL) return FALSE; + + AllocatedEntries = mlu ->AllocatedEntries * 2; + + // Check for overflow + if (AllocatedEntries / 2 != mlu ->AllocatedEntries) return FALSE; + + // Reallocate the memory + NewPtr = (_cmsMLUentry*)_cmsRealloc(mlu ->ContextID, mlu ->Entries, AllocatedEntries*sizeof(_cmsMLUentry)); + if (NewPtr == NULL) return FALSE; + + mlu ->Entries = NewPtr; + mlu ->AllocatedEntries = AllocatedEntries; + + return TRUE; +} + + +// Search for a specific entry in the structure. Language and Country are used. +static +int SearchMLUEntry(cmsMLU* mlu, cmsUInt16Number LanguageCode, cmsUInt16Number CountryCode) +{ + cmsUInt32Number i; + + // Sanity check + if (mlu == NULL) return -1; + + // Iterate whole table + for (i=0; i < mlu ->UsedEntries; i++) { + + if (mlu ->Entries[i].Country == CountryCode && + mlu ->Entries[i].Language == LanguageCode) return i; + } + + // Not found + return -1; +} + +// Add a block of characters to the intended MLU. Language and country are specified. +// Only one entry for Language/country pair is allowed. +static +cmsBool AddMLUBlock(cmsMLU* mlu, cmsUInt32Number size, const wchar_t *Block, + cmsUInt16Number LanguageCode, cmsUInt16Number CountryCode) +{ + cmsUInt32Number Offset; + cmsUInt8Number* Ptr; + + // Sanity check + if (mlu == NULL) return FALSE; + + // Is there any room available? + if (mlu ->UsedEntries >= mlu ->AllocatedEntries) { + if (!GrowMLUtable(mlu)) return FALSE; + } + + // Only one ASCII string + if (SearchMLUEntry(mlu, LanguageCode, CountryCode) >= 0) return FALSE; // Only one is allowed! + + // Check for size + while ((mlu ->PoolSize - mlu ->PoolUsed) < size) { + + if (!GrowMLUpool(mlu)) return FALSE; + } + + Offset = mlu ->PoolUsed; + + Ptr = (cmsUInt8Number*) mlu ->MemPool; + if (Ptr == NULL) return FALSE; + + // Set the entry + memmove(Ptr + Offset, Block, size); + mlu ->PoolUsed += size; + + mlu ->Entries[mlu ->UsedEntries].StrW = Offset; + mlu ->Entries[mlu ->UsedEntries].Len = size; + mlu ->Entries[mlu ->UsedEntries].Country = CountryCode; + mlu ->Entries[mlu ->UsedEntries].Language = LanguageCode; + mlu ->UsedEntries++; + + return TRUE; +} + +// Convert from a 3-char code to a cmsUInt16Number. It is done inthis way because some +// compilers don't properly align beginning of strings + +static +cmsUInt16Number strTo16(const char str[3]) +{ + cmsUInt16Number n = ((cmsUInt16Number) str[0] << 8) | str[1]; + + return n; // Always big endian in this case +} + +static +void strFrom16(char str[3], cmsUInt16Number n) +{ + // Assiming this would be aligned + union { + + cmsUInt16Number n; + char str[2]; + + } c; + + c.n = n; // Always big endian in this case + + str[0] = c.str[0]; str[1] = c.str[1]; str[2] = 0; + +} + +// Add an ASCII entry. Do not add any \0 termination (ICC1v43_2010-12.pdf page 61) +cmsBool CMSEXPORT cmsMLUsetASCII(cmsMLU* mlu, const char LanguageCode[3], const char CountryCode[3], const char* ASCIIString) +{ + cmsUInt32Number i, len = (cmsUInt32Number) strlen(ASCIIString); + wchar_t* WStr; + cmsBool rc; + cmsUInt16Number Lang = strTo16(LanguageCode); + cmsUInt16Number Cntry = strTo16(CountryCode); + + if (mlu == NULL) return FALSE; + + WStr = (wchar_t*) _cmsCalloc(mlu ->ContextID, len, sizeof(wchar_t)); + if (WStr == NULL) return FALSE; + + for (i=0; i < len; i++) + WStr[i] = (wchar_t) ASCIIString[i]; + + rc = AddMLUBlock(mlu, len * sizeof(wchar_t), WStr, Lang, Cntry); + + _cmsFree(mlu ->ContextID, WStr); + return rc; + +} + +// We don't need any wcs support library +static +cmsUInt32Number mywcslen(const wchar_t *s) +{ + const wchar_t *p; + + p = s; + while (*p) + p++; + + return (cmsUInt32Number)(p - s); +} + +// Add a wide entry. Do not add any \0 terminator (ICC1v43_2010-12.pdf page 61) +cmsBool CMSEXPORT cmsMLUsetWide(cmsMLU* mlu, const char Language[3], const char Country[3], const wchar_t* WideString) +{ + cmsUInt16Number Lang = strTo16(Language); + cmsUInt16Number Cntry = strTo16(Country); + cmsUInt32Number len; + + if (mlu == NULL) return FALSE; + if (WideString == NULL) return FALSE; + + len = (cmsUInt32Number) (mywcslen(WideString)) * sizeof(wchar_t); + return AddMLUBlock(mlu, len, WideString, Lang, Cntry); +} + +// Duplicating a MLU is as easy as copying all members +cmsMLU* CMSEXPORT cmsMLUdup(const cmsMLU* mlu) +{ + cmsMLU* NewMlu = NULL; + + // Duplicating a NULL obtains a NULL + if (mlu == NULL) return NULL; + + NewMlu = cmsMLUalloc(mlu ->ContextID, mlu ->UsedEntries); + if (NewMlu == NULL) return NULL; + + // Should never happen + if (NewMlu ->AllocatedEntries < mlu ->UsedEntries) + goto Error; + + // Sanitize... + if (NewMlu ->Entries == NULL || mlu ->Entries == NULL) goto Error; + + memmove(NewMlu ->Entries, mlu ->Entries, mlu ->UsedEntries * sizeof(_cmsMLUentry)); + NewMlu ->UsedEntries = mlu ->UsedEntries; + + // The MLU may be empty + if (mlu ->PoolUsed == 0) { + NewMlu ->MemPool = NULL; + } + else { + // It is not empty + NewMlu ->MemPool = _cmsMalloc(mlu ->ContextID, mlu ->PoolUsed); + if (NewMlu ->MemPool == NULL) goto Error; + } + + NewMlu ->PoolSize = mlu ->PoolUsed; + + if (NewMlu ->MemPool == NULL || mlu ->MemPool == NULL) goto Error; + + memmove(NewMlu ->MemPool, mlu->MemPool, mlu ->PoolUsed); + NewMlu ->PoolUsed = mlu ->PoolUsed; + + return NewMlu; + +Error: + + if (NewMlu != NULL) cmsMLUfree(NewMlu); + return NULL; +} + +// Free any used memory +void CMSEXPORT cmsMLUfree(cmsMLU* mlu) +{ + if (mlu) { + + if (mlu -> Entries) _cmsFree(mlu ->ContextID, mlu->Entries); + if (mlu -> MemPool) _cmsFree(mlu ->ContextID, mlu->MemPool); + + _cmsFree(mlu ->ContextID, mlu); + } +} + + +// The algorithm first searches for an exact match of country and language, if not found it uses +// the Language. If none is found, first entry is used instead. +static +const wchar_t* _cmsMLUgetWide(const cmsMLU* mlu, + cmsUInt32Number *len, + cmsUInt16Number LanguageCode, cmsUInt16Number CountryCode, + cmsUInt16Number* UsedLanguageCode, cmsUInt16Number* UsedCountryCode) +{ + cmsUInt32Number i; + cmsInt32Number Best = -1; + _cmsMLUentry* v; + + if (mlu == NULL) return NULL; + + if (mlu -> AllocatedEntries <= 0) return NULL; + + for (i=0; i < mlu ->UsedEntries; i++) { + + v = mlu ->Entries + i; + + if (v -> Language == LanguageCode) { + + if (Best == -1) Best = i; + + if (v -> Country == CountryCode) { + + if (UsedLanguageCode != NULL) *UsedLanguageCode = v ->Language; + if (UsedCountryCode != NULL) *UsedCountryCode = v ->Country; + + if (len != NULL) *len = v ->Len; + + return (wchar_t*) ((cmsUInt8Number*) mlu ->MemPool + v -> StrW); // Found exact match + } + } + } + + // No string found. Return First one + if (Best == -1) + Best = 0; + + v = mlu ->Entries + Best; + + if (UsedLanguageCode != NULL) *UsedLanguageCode = v ->Language; + if (UsedCountryCode != NULL) *UsedCountryCode = v ->Country; + + if (len != NULL) *len = v ->Len; + + return(wchar_t*) ((cmsUInt8Number*) mlu ->MemPool + v ->StrW); +} + + +// Obtain an ASCII representation of the wide string. Setting buffer to NULL returns the len +cmsUInt32Number CMSEXPORT cmsMLUgetASCII(const cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + char* Buffer, cmsUInt32Number BufferSize) +{ + const wchar_t *Wide; + cmsUInt32Number StrLen = 0; + cmsUInt32Number ASCIIlen, i; + + cmsUInt16Number Lang = strTo16(LanguageCode); + cmsUInt16Number Cntry = strTo16(CountryCode); + + // Sanitize + if (mlu == NULL) return 0; + + // Get WideChar + Wide = _cmsMLUgetWide(mlu, &StrLen, Lang, Cntry, NULL, NULL); + if (Wide == NULL) return 0; + + ASCIIlen = StrLen / sizeof(wchar_t); + + // Maybe we want only to know the len? + if (Buffer == NULL) return ASCIIlen + 1; // Note the zero at the end + + // No buffer size means no data + if (BufferSize <= 0) return 0; + + // Some clipping may be required + if (BufferSize < ASCIIlen + 1) + ASCIIlen = BufferSize - 1; + + // Precess each character + for (i=0; i < ASCIIlen; i++) { + + if (Wide[i] == 0) + Buffer[i] = 0; + else + Buffer[i] = (char) Wide[i]; + } + + // We put a termination "\0" + Buffer[ASCIIlen] = 0; + return ASCIIlen + 1; +} + +// Obtain a wide representation of the MLU, on depending on current locale settings +cmsUInt32Number CMSEXPORT cmsMLUgetWide(const cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + wchar_t* Buffer, cmsUInt32Number BufferSize) +{ + const wchar_t *Wide; + cmsUInt32Number StrLen = 0; + + cmsUInt16Number Lang = strTo16(LanguageCode); + cmsUInt16Number Cntry = strTo16(CountryCode); + + // Sanitize + if (mlu == NULL) return 0; + + Wide = _cmsMLUgetWide(mlu, &StrLen, Lang, Cntry, NULL, NULL); + if (Wide == NULL) return 0; + + // Maybe we want only to know the len? + if (Buffer == NULL) return StrLen + sizeof(wchar_t); + + // No buffer size means no data + if (BufferSize <= 0) return 0; + + // Some clipping may be required + if (BufferSize < StrLen + sizeof(wchar_t)) + StrLen = BufferSize - + sizeof(wchar_t); + + memmove(Buffer, Wide, StrLen); + Buffer[StrLen / sizeof(wchar_t)] = 0; + + return StrLen + sizeof(wchar_t); +} + + +// Get also the language and country +CMSAPI cmsBool CMSEXPORT cmsMLUgetTranslation(const cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + char ObtainedLanguage[3], char ObtainedCountry[3]) +{ + const wchar_t *Wide; + + cmsUInt16Number Lang = strTo16(LanguageCode); + cmsUInt16Number Cntry = strTo16(CountryCode); + cmsUInt16Number ObtLang, ObtCode; + + // Sanitize + if (mlu == NULL) return FALSE; + + Wide = _cmsMLUgetWide(mlu, NULL, Lang, Cntry, &ObtLang, &ObtCode); + if (Wide == NULL) return FALSE; + + // Get used language and code + strFrom16(ObtainedLanguage, ObtLang); + strFrom16(ObtainedCountry, ObtCode); + + return TRUE; +} + + + +// Get the number of translations in the MLU object +cmsUInt32Number CMSEXPORT cmsMLUtranslationsCount(const cmsMLU* mlu) +{ + if (mlu == NULL) return 0; + return mlu->UsedEntries; +} + +// Get the language and country codes for a specific MLU index +cmsBool CMSEXPORT cmsMLUtranslationsCodes(const cmsMLU* mlu, + cmsUInt32Number idx, + char LanguageCode[3], + char CountryCode[3]) +{ + _cmsMLUentry *entry; + + if (mlu == NULL) return FALSE; + + if (idx >= mlu->UsedEntries) return FALSE; + + entry = &mlu->Entries[idx]; + + strFrom16(LanguageCode, entry->Language); + strFrom16(CountryCode, entry->Country); + + return TRUE; +} + + +// Named color lists -------------------------------------------------------------------------------------------- + +// Grow the list to keep at least NumElements +static +cmsBool GrowNamedColorList(cmsNAMEDCOLORLIST* v) +{ + cmsUInt32Number size; + _cmsNAMEDCOLOR * NewPtr; + + if (v == NULL) return FALSE; + + if (v ->Allocated == 0) + size = 64; // Initial guess + else + size = v ->Allocated * 2; + + // Keep a maximum color lists can grow, 100K entries seems reasonable + if (size > 1024*100) return FALSE; + + NewPtr = (_cmsNAMEDCOLOR*) _cmsRealloc(v ->ContextID, v ->List, size * sizeof(_cmsNAMEDCOLOR)); + if (NewPtr == NULL) + return FALSE; + + v ->List = NewPtr; + v ->Allocated = size; + return TRUE; +} + +// Allocate a list for n elements +cmsNAMEDCOLORLIST* CMSEXPORT cmsAllocNamedColorList(cmsContext ContextID, cmsUInt32Number n, cmsUInt32Number ColorantCount, const char* Prefix, const char* Suffix) +{ + cmsNAMEDCOLORLIST* v = (cmsNAMEDCOLORLIST*) _cmsMallocZero(ContextID, sizeof(cmsNAMEDCOLORLIST)); + + if (v == NULL) return NULL; + + v ->List = NULL; + v ->nColors = 0; + v ->ContextID = ContextID; + + while (v -> Allocated < n){ + if (!GrowNamedColorList(v)) return NULL; + } + + strncpy(v ->Prefix, Prefix, sizeof(v ->Prefix)-1); + strncpy(v ->Suffix, Suffix, sizeof(v ->Suffix)-1); + v->Prefix[32] = v->Suffix[32] = 0; + + v -> ColorantCount = ColorantCount; + + return v; +} + +// Free a list +void CMSEXPORT cmsFreeNamedColorList(cmsNAMEDCOLORLIST* v) +{ + if (v == NULL) return; + if (v ->List) _cmsFree(v ->ContextID, v ->List); + _cmsFree(v ->ContextID, v); +} + +cmsNAMEDCOLORLIST* CMSEXPORT cmsDupNamedColorList(const cmsNAMEDCOLORLIST* v) +{ + cmsNAMEDCOLORLIST* NewNC; + + if (v == NULL) return NULL; + + NewNC= cmsAllocNamedColorList(v ->ContextID, v -> nColors, v ->ColorantCount, v ->Prefix, v ->Suffix); + if (NewNC == NULL) return NULL; + + // For really large tables we need this + while (NewNC ->Allocated < v ->Allocated){ + if (!GrowNamedColorList(NewNC)) return NULL; + } + + memmove(NewNC ->Prefix, v ->Prefix, sizeof(v ->Prefix)); + memmove(NewNC ->Suffix, v ->Suffix, sizeof(v ->Suffix)); + NewNC ->ColorantCount = v ->ColorantCount; + memmove(NewNC->List, v ->List, v->nColors * sizeof(_cmsNAMEDCOLOR)); + NewNC ->nColors = v ->nColors; + return NewNC; +} + + +// Append a color to a list. List pointer may change if reallocated +cmsBool CMSEXPORT cmsAppendNamedColor(cmsNAMEDCOLORLIST* NamedColorList, + const char* Name, + cmsUInt16Number PCS[3], cmsUInt16Number Colorant[cmsMAXCHANNELS]) +{ + cmsUInt32Number i; + + if (NamedColorList == NULL) return FALSE; + + if (NamedColorList ->nColors + 1 > NamedColorList ->Allocated) { + if (!GrowNamedColorList(NamedColorList)) return FALSE; + } + + for (i=0; i < NamedColorList ->ColorantCount; i++) + NamedColorList ->List[NamedColorList ->nColors].DeviceColorant[i] = Colorant == NULL? 0 : Colorant[i]; + + for (i=0; i < 3; i++) + NamedColorList ->List[NamedColorList ->nColors].PCS[i] = PCS == NULL ? 0 : PCS[i]; + + if (Name != NULL) { + + strncpy(NamedColorList ->List[NamedColorList ->nColors].Name, Name, cmsMAX_PATH-1); + NamedColorList ->List[NamedColorList ->nColors].Name[cmsMAX_PATH-1] = 0; + + } + else + NamedColorList ->List[NamedColorList ->nColors].Name[0] = 0; + + + NamedColorList ->nColors++; + return TRUE; +} + +// Returns number of elements +cmsUInt32Number CMSEXPORT cmsNamedColorCount(const cmsNAMEDCOLORLIST* NamedColorList) +{ + if (NamedColorList == NULL) return 0; + return NamedColorList ->nColors; +} + +// Info aboout a given color +cmsBool CMSEXPORT cmsNamedColorInfo(const cmsNAMEDCOLORLIST* NamedColorList, cmsUInt32Number nColor, + char* Name, + char* Prefix, + char* Suffix, + cmsUInt16Number* PCS, + cmsUInt16Number* Colorant) +{ + if (NamedColorList == NULL) return FALSE; + + if (nColor >= cmsNamedColorCount(NamedColorList)) return FALSE; + + if (Name) strcpy(Name, NamedColorList->List[nColor].Name); + if (Prefix) strcpy(Prefix, NamedColorList->Prefix); + if (Suffix) strcpy(Suffix, NamedColorList->Suffix); + if (PCS) + memmove(PCS, NamedColorList ->List[nColor].PCS, 3*sizeof(cmsUInt16Number)); + + if (Colorant) + memmove(Colorant, NamedColorList ->List[nColor].DeviceColorant, + sizeof(cmsUInt16Number) * NamedColorList ->ColorantCount); + + + return TRUE; +} + +// Search for a given color name (no prefix or suffix) +cmsInt32Number CMSEXPORT cmsNamedColorIndex(const cmsNAMEDCOLORLIST* NamedColorList, const char* Name) +{ + int i, n; + + if (NamedColorList == NULL) return -1; + n = cmsNamedColorCount(NamedColorList); + for (i=0; i < n; i++) { + if (cmsstrcasecmp(Name, NamedColorList->List[i].Name) == 0) + return i; + } + + return -1; +} + +// MPE support ----------------------------------------------------------------------------------------------------------------- + +static +void FreeNamedColorList(cmsStage* mpe) +{ + cmsNAMEDCOLORLIST* List = (cmsNAMEDCOLORLIST*) mpe ->Data; + cmsFreeNamedColorList(List); +} + +static +void* DupNamedColorList(cmsStage* mpe) +{ + cmsNAMEDCOLORLIST* List = (cmsNAMEDCOLORLIST*) mpe ->Data; + return cmsDupNamedColorList(List); +} + +static +void EvalNamedColorPCS(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe) +{ + cmsNAMEDCOLORLIST* NamedColorList = (cmsNAMEDCOLORLIST*) mpe ->Data; + cmsUInt16Number index = (cmsUInt16Number) _cmsQuickSaturateWord(In[0] * 65535.0); + + if (index >= NamedColorList-> nColors) { + cmsSignalError(NamedColorList ->ContextID, cmsERROR_RANGE, "Color %d out of range; ignored", index); + } + else { + + // Named color always uses Lab + Out[0] = (cmsFloat32Number) (NamedColorList->List[index].PCS[0] / 65535.0); + Out[1] = (cmsFloat32Number) (NamedColorList->List[index].PCS[1] / 65535.0); + Out[2] = (cmsFloat32Number) (NamedColorList->List[index].PCS[2] / 65535.0); + } +} + +static +void EvalNamedColor(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe) +{ + cmsNAMEDCOLORLIST* NamedColorList = (cmsNAMEDCOLORLIST*) mpe ->Data; + cmsUInt16Number index = (cmsUInt16Number) _cmsQuickSaturateWord(In[0] * 65535.0); + cmsUInt32Number j; + + if (index >= NamedColorList-> nColors) { + cmsSignalError(NamedColorList ->ContextID, cmsERROR_RANGE, "Color %d out of range; ignored", index); + } + else { + for (j=0; j < NamedColorList ->ColorantCount; j++) + Out[j] = (cmsFloat32Number) (NamedColorList->List[index].DeviceColorant[j] / 65535.0); + } +} + + +// Named color lookup element +cmsStage* _cmsStageAllocNamedColor(cmsNAMEDCOLORLIST* NamedColorList, cmsBool UsePCS) +{ + return _cmsStageAllocPlaceholder(NamedColorList ->ContextID, + cmsSigNamedColorElemType, + 1, UsePCS ? 3 : NamedColorList ->ColorantCount, + UsePCS ? EvalNamedColorPCS : EvalNamedColor, + DupNamedColorList, + FreeNamedColorList, + cmsDupNamedColorList(NamedColorList)); + +} + + +// Retrieve the named color list from a transform. Should be first element in the LUT +cmsNAMEDCOLORLIST* CMSEXPORT cmsGetNamedColorList(cmsHTRANSFORM xform) +{ + _cmsTRANSFORM* v = (_cmsTRANSFORM*) xform; + cmsStage* mpe = v ->Lut->Elements; + + if (mpe ->Type != cmsSigNamedColorElemType) return NULL; + return (cmsNAMEDCOLORLIST*) mpe ->Data; +} + + +// Profile sequence description routines ------------------------------------------------------------------------------------- + +cmsSEQ* CMSEXPORT cmsAllocProfileSequenceDescription(cmsContext ContextID, cmsUInt32Number n) +{ + cmsSEQ* Seq; + cmsUInt32Number i; + + if (n == 0) return NULL; + + // In a absolutely arbitrary way, I hereby decide to allow a maxim of 255 profiles linked + // in a devicelink. It makes not sense anyway and may be used for exploits, so let's close the door! + if (n > 255) return NULL; + + Seq = (cmsSEQ*) _cmsMallocZero(ContextID, sizeof(cmsSEQ)); + if (Seq == NULL) return NULL; + + Seq -> ContextID = ContextID; + Seq -> seq = (cmsPSEQDESC*) _cmsCalloc(ContextID, n, sizeof(cmsPSEQDESC)); + Seq -> n = n; + + if (Seq -> seq == NULL) { + _cmsFree(ContextID, Seq); + return NULL; + } + + for (i=0; i < n; i++) { + Seq -> seq[i].Manufacturer = NULL; + Seq -> seq[i].Model = NULL; + Seq -> seq[i].Description = NULL; + } + + return Seq; +} + +void CMSEXPORT cmsFreeProfileSequenceDescription(cmsSEQ* pseq) +{ + cmsUInt32Number i; + + for (i=0; i < pseq ->n; i++) { + if (pseq ->seq[i].Manufacturer != NULL) cmsMLUfree(pseq ->seq[i].Manufacturer); + if (pseq ->seq[i].Model != NULL) cmsMLUfree(pseq ->seq[i].Model); + if (pseq ->seq[i].Description != NULL) cmsMLUfree(pseq ->seq[i].Description); + } + + if (pseq ->seq != NULL) _cmsFree(pseq ->ContextID, pseq ->seq); + _cmsFree(pseq -> ContextID, pseq); +} + +cmsSEQ* CMSEXPORT cmsDupProfileSequenceDescription(const cmsSEQ* pseq) +{ + cmsSEQ *NewSeq; + cmsUInt32Number i; + + if (pseq == NULL) + return NULL; + + NewSeq = (cmsSEQ*) _cmsMalloc(pseq -> ContextID, sizeof(cmsSEQ)); + if (NewSeq == NULL) return NULL; + + + NewSeq -> seq = (cmsPSEQDESC*) _cmsCalloc(pseq ->ContextID, pseq ->n, sizeof(cmsPSEQDESC)); + if (NewSeq ->seq == NULL) goto Error; + + NewSeq -> ContextID = pseq ->ContextID; + NewSeq -> n = pseq ->n; + + for (i=0; i < pseq->n; i++) { + + memmove(&NewSeq ->seq[i].attributes, &pseq ->seq[i].attributes, sizeof(cmsUInt64Number)); + + NewSeq ->seq[i].deviceMfg = pseq ->seq[i].deviceMfg; + NewSeq ->seq[i].deviceModel = pseq ->seq[i].deviceModel; + memmove(&NewSeq ->seq[i].ProfileID, &pseq ->seq[i].ProfileID, sizeof(cmsProfileID)); + NewSeq ->seq[i].technology = pseq ->seq[i].technology; + + NewSeq ->seq[i].Manufacturer = cmsMLUdup(pseq ->seq[i].Manufacturer); + NewSeq ->seq[i].Model = cmsMLUdup(pseq ->seq[i].Model); + NewSeq ->seq[i].Description = cmsMLUdup(pseq ->seq[i].Description); + + } + + return NewSeq; + +Error: + + cmsFreeProfileSequenceDescription(NewSeq); + return NULL; +} + +// Dictionaries -------------------------------------------------------------------------------------------------------- + +// Dictionaries are just very simple linked lists + + +typedef struct _cmsDICT_struct { + cmsDICTentry* head; + cmsContext ContextID; +} _cmsDICT; + + +// Allocate an empty dictionary +cmsHANDLE CMSEXPORT cmsDictAlloc(cmsContext ContextID) +{ + _cmsDICT* dict = (_cmsDICT*) _cmsMallocZero(ContextID, sizeof(_cmsDICT)); + if (dict == NULL) return NULL; + + dict ->ContextID = ContextID; + return (cmsHANDLE) dict; + +} + +// Dispose resources +void CMSEXPORT cmsDictFree(cmsHANDLE hDict) +{ + _cmsDICT* dict = (_cmsDICT*) hDict; + cmsDICTentry *entry, *next; + + _cmsAssert(dict != NULL); + + // Walk the list freeing all nodes + entry = dict ->head; + while (entry != NULL) { + + if (entry ->DisplayName != NULL) cmsMLUfree(entry ->DisplayName); + if (entry ->DisplayValue != NULL) cmsMLUfree(entry ->DisplayValue); + if (entry ->Name != NULL) _cmsFree(dict ->ContextID, entry -> Name); + if (entry ->Value != NULL) _cmsFree(dict ->ContextID, entry -> Value); + + // Don't fall in the habitual trap... + next = entry ->Next; + _cmsFree(dict ->ContextID, entry); + + entry = next; + } + + _cmsFree(dict ->ContextID, dict); +} + + +// Duplicate a wide char string +static +wchar_t* DupWcs(cmsContext ContextID, const wchar_t* ptr) +{ + if (ptr == NULL) return NULL; + return (wchar_t*) _cmsDupMem(ContextID, ptr, (mywcslen(ptr) + 1) * sizeof(wchar_t)); +} + +// Add a new entry to the linked list +cmsBool CMSEXPORT cmsDictAddEntry(cmsHANDLE hDict, const wchar_t* Name, const wchar_t* Value, const cmsMLU *DisplayName, const cmsMLU *DisplayValue) +{ + _cmsDICT* dict = (_cmsDICT*) hDict; + cmsDICTentry *entry; + + _cmsAssert(dict != NULL); + _cmsAssert(Name != NULL); + + entry = (cmsDICTentry*) _cmsMallocZero(dict ->ContextID, sizeof(cmsDICTentry)); + if (entry == NULL) return FALSE; + + entry ->DisplayName = cmsMLUdup(DisplayName); + entry ->DisplayValue = cmsMLUdup(DisplayValue); + entry ->Name = DupWcs(dict ->ContextID, Name); + entry ->Value = DupWcs(dict ->ContextID, Value); + + entry ->Next = dict ->head; + dict ->head = entry; + + return TRUE; +} + + +// Duplicates an existing dictionary +cmsHANDLE CMSEXPORT cmsDictDup(cmsHANDLE hDict) +{ + _cmsDICT* old_dict = (_cmsDICT*) hDict; + cmsHANDLE hNew; + cmsDICTentry *entry; + + _cmsAssert(old_dict != NULL); + + hNew = cmsDictAlloc(old_dict ->ContextID); + if (hNew == NULL) return NULL; + + // Walk the list freeing all nodes + entry = old_dict ->head; + while (entry != NULL) { + + if (!cmsDictAddEntry(hNew, entry ->Name, entry ->Value, entry ->DisplayName, entry ->DisplayValue)) { + + cmsDictFree(hNew); + return NULL; + } + + entry = entry -> Next; + } + + return hNew; +} + +// Get a pointer to the linked list +const cmsDICTentry* CMSEXPORT cmsDictGetEntryList(cmsHANDLE hDict) +{ + _cmsDICT* dict = (_cmsDICT*) hDict; + + if (dict == NULL) return NULL; + return dict ->head; +} + +// Helper For external languages +const cmsDICTentry* CMSEXPORT cmsDictNextEntry(const cmsDICTentry* e) +{ + if (e == NULL) return NULL; + return e ->Next; +} Index: sdk/lib/3rdparty/lcms2/cmsopt.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsopt.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsopt.c (working copy) @@ -0,0 +1,1938 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +//---------------------------------------------------------------------------------- + +// Optimization for 8 bits, Shaper-CLUT (3 inputs only) +typedef struct { + + cmsContext ContextID; + + const cmsInterpParams* p; // Tetrahedrical interpolation parameters. This is a not-owned pointer. + + cmsUInt16Number rx[256], ry[256], rz[256]; + cmsUInt32Number X0[256], Y0[256], Z0[256]; // Precomputed nodes and offsets for 8-bit input data + + +} Prelin8Data; + + +// Generic optimization for 16 bits Shaper-CLUT-Shaper (any inputs) +typedef struct { + + cmsContext ContextID; + + // Number of channels + int nInputs; + int nOutputs; + + _cmsInterpFn16 EvalCurveIn16[MAX_INPUT_DIMENSIONS]; // The maximum number of input channels is known in advance + cmsInterpParams* ParamsCurveIn16[MAX_INPUT_DIMENSIONS]; + + _cmsInterpFn16 EvalCLUT; // The evaluator for 3D grid + const cmsInterpParams* CLUTparams; // (not-owned pointer) + + + _cmsInterpFn16* EvalCurveOut16; // Points to an array of curve evaluators in 16 bits (not-owned pointer) + cmsInterpParams** ParamsCurveOut16; // Points to an array of references to interpolation params (not-owned pointer) + + +} Prelin16Data; + + +// Optimization for matrix-shaper in 8 bits. Numbers are operated in n.14 signed, tables are stored in 1.14 fixed + +typedef cmsInt32Number cmsS1Fixed14Number; // Note that this may hold more than 16 bits! + +#define DOUBLE_TO_1FIXED14(x) ((cmsS1Fixed14Number) floor((x) * 16384.0 + 0.5)) + +typedef struct { + + cmsContext ContextID; + + cmsS1Fixed14Number Shaper1R[256]; // from 0..255 to 1.14 (0.0...1.0) + cmsS1Fixed14Number Shaper1G[256]; + cmsS1Fixed14Number Shaper1B[256]; + + cmsS1Fixed14Number Mat[3][3]; // n.14 to n.14 (needs a saturation after that) + cmsS1Fixed14Number Off[3]; + + cmsUInt16Number Shaper2R[16385]; // 1.14 to 0..255 + cmsUInt16Number Shaper2G[16385]; + cmsUInt16Number Shaper2B[16385]; + +} MatShaper8Data; + +// Curves, optimization is shared between 8 and 16 bits +typedef struct { + + cmsContext ContextID; + + int nCurves; // Number of curves + int nElements; // Elements in curves + cmsUInt16Number** Curves; // Points to a dynamically allocated array + +} Curves16Data; + + +// Simple optimizations ---------------------------------------------------------------------------------------------------------- + + +// Remove an element in linked chain +static +void _RemoveElement(cmsStage** head) +{ + cmsStage* mpe = *head; + cmsStage* next = mpe ->Next; + *head = next; + cmsStageFree(mpe); +} + +// Remove all identities in chain. Note that pt actually is a double pointer to the element that holds the pointer. +static +cmsBool _Remove1Op(cmsPipeline* Lut, cmsStageSignature UnaryOp) +{ + cmsStage** pt = &Lut ->Elements; + cmsBool AnyOpt = FALSE; + + while (*pt != NULL) { + + if ((*pt) ->Implements == UnaryOp) { + _RemoveElement(pt); + AnyOpt = TRUE; + } + else + pt = &((*pt) -> Next); + } + + return AnyOpt; +} + +// Same, but only if two adjacent elements are found +static +cmsBool _Remove2Op(cmsPipeline* Lut, cmsStageSignature Op1, cmsStageSignature Op2) +{ + cmsStage** pt1; + cmsStage** pt2; + cmsBool AnyOpt = FALSE; + + pt1 = &Lut ->Elements; + if (*pt1 == NULL) return AnyOpt; + + while (*pt1 != NULL) { + + pt2 = &((*pt1) -> Next); + if (*pt2 == NULL) return AnyOpt; + + if ((*pt1) ->Implements == Op1 && (*pt2) ->Implements == Op2) { + _RemoveElement(pt2); + _RemoveElement(pt1); + AnyOpt = TRUE; + } + else + pt1 = &((*pt1) -> Next); + } + + return AnyOpt; +} + + +static +cmsBool CloseEnoughFloat(cmsFloat64Number a, cmsFloat64Number b) +{ + return fabs(b - a) < 0.00001f; +} + +static +cmsBool isFloatMatrixIdentity(const cmsMAT3* a) +{ + cmsMAT3 Identity; + int i, j; + + _cmsMAT3identity(&Identity); + + for (i = 0; i < 3; i++) + for (j = 0; j < 3; j++) + if (!CloseEnoughFloat(a->v[i].n[j], Identity.v[i].n[j])) return FALSE; + + return TRUE; +} +// if two adjacent matrices are found, multiply them. +static +cmsBool _MultiplyMatrix(cmsPipeline* Lut) +{ + cmsStage** pt1; + cmsStage** pt2; + cmsStage* chain; + cmsBool AnyOpt = FALSE; + + pt1 = &Lut->Elements; + if (*pt1 == NULL) return AnyOpt; + + while (*pt1 != NULL) { + + pt2 = &((*pt1)->Next); + if (*pt2 == NULL) return AnyOpt; + + if ((*pt1)->Implements == cmsSigMatrixElemType && (*pt2)->Implements == cmsSigMatrixElemType) { + + // Get both matrices + _cmsStageMatrixData* m1 = (_cmsStageMatrixData*) cmsStageData(*pt1); + _cmsStageMatrixData* m2 = (_cmsStageMatrixData*) cmsStageData(*pt2); + cmsMAT3 res; + + // Input offset and output offset should be zero to use this optimization + if (m1->Offset != NULL || m2 ->Offset != NULL || + cmsStageInputChannels(*pt1) != 3 || cmsStageOutputChannels(*pt1) != 3 || + cmsStageInputChannels(*pt2) != 3 || cmsStageOutputChannels(*pt2) != 3) + return FALSE; + + // Multiply both matrices to get the result + _cmsMAT3per(&res, (cmsMAT3*)m2->Double, (cmsMAT3*)m1->Double); + + // Get the next in chain afer the matrices + chain = (*pt2)->Next; + + // Remove both matrices + _RemoveElement(pt2); + _RemoveElement(pt1); + + // Now what if the result is a plain identity? + if (!isFloatMatrixIdentity(&res)) { + + // We can not get rid of full matrix + cmsStage* Multmat = cmsStageAllocMatrix(Lut->ContextID, 3, 3, (const cmsFloat64Number*) &res, NULL); + if (Multmat == NULL) return FALSE; // Should never happen + + // Recover the chain + Multmat->Next = chain; + *pt1 = Multmat; + } + + AnyOpt = TRUE; + } + else + pt1 = &((*pt1)->Next); + } + + return AnyOpt; +} + + +// Preoptimize just gets rif of no-ops coming paired. Conversion from v2 to v4 followed +// by a v4 to v2 and vice-versa. The elements are then discarded. +static +cmsBool PreOptimize(cmsPipeline* Lut) +{ + cmsBool AnyOpt = FALSE, Opt; + + do { + + Opt = FALSE; + + // Remove all identities + Opt |= _Remove1Op(Lut, cmsSigIdentityElemType); + + // Remove XYZ2Lab followed by Lab2XYZ + Opt |= _Remove2Op(Lut, cmsSigXYZ2LabElemType, cmsSigLab2XYZElemType); + + // Remove Lab2XYZ followed by XYZ2Lab + Opt |= _Remove2Op(Lut, cmsSigLab2XYZElemType, cmsSigXYZ2LabElemType); + + // Remove V4 to V2 followed by V2 to V4 + Opt |= _Remove2Op(Lut, cmsSigLabV4toV2, cmsSigLabV2toV4); + + // Remove V2 to V4 followed by V4 to V2 + Opt |= _Remove2Op(Lut, cmsSigLabV2toV4, cmsSigLabV4toV2); + + // Remove float pcs Lab conversions + Opt |= _Remove2Op(Lut, cmsSigLab2FloatPCS, cmsSigFloatPCS2Lab); + + // Remove float pcs Lab conversions + Opt |= _Remove2Op(Lut, cmsSigXYZ2FloatPCS, cmsSigFloatPCS2XYZ); + + // Simplify matrix. + Opt |= _MultiplyMatrix(Lut); + + if (Opt) AnyOpt = TRUE; + + } while (Opt); + + return AnyOpt; +} + +static +void Eval16nop1D(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const struct _cms_interp_struc* p) +{ + Output[0] = Input[0]; + + cmsUNUSED_PARAMETER(p); +} + +static +void PrelinEval16(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const void* D) +{ + Prelin16Data* p16 = (Prelin16Data*) D; + cmsUInt16Number StageABC[MAX_INPUT_DIMENSIONS]; + cmsUInt16Number StageDEF[cmsMAXCHANNELS]; + int i; + + for (i=0; i < p16 ->nInputs; i++) { + + p16 ->EvalCurveIn16[i](&Input[i], &StageABC[i], p16 ->ParamsCurveIn16[i]); + } + + p16 ->EvalCLUT(StageABC, StageDEF, p16 ->CLUTparams); + + for (i=0; i < p16 ->nOutputs; i++) { + + p16 ->EvalCurveOut16[i](&StageDEF[i], &Output[i], p16 ->ParamsCurveOut16[i]); + } +} + + +static +void PrelinOpt16free(cmsContext ContextID, void* ptr) +{ + Prelin16Data* p16 = (Prelin16Data*) ptr; + + _cmsFree(ContextID, p16 ->EvalCurveOut16); + _cmsFree(ContextID, p16 ->ParamsCurveOut16); + + _cmsFree(ContextID, p16); +} + +static +void* Prelin16dup(cmsContext ContextID, const void* ptr) +{ + Prelin16Data* p16 = (Prelin16Data*) ptr; + Prelin16Data* Duped = (Prelin16Data*) _cmsDupMem(ContextID, p16, sizeof(Prelin16Data)); + + if (Duped == NULL) return NULL; + + Duped->EvalCurveOut16 = (_cmsInterpFn16*) _cmsDupMem(ContextID, p16->EvalCurveOut16, p16->nOutputs * sizeof(_cmsInterpFn16)); + Duped->ParamsCurveOut16 = (cmsInterpParams**)_cmsDupMem(ContextID, p16->ParamsCurveOut16, p16->nOutputs * sizeof(cmsInterpParams*)); + + return Duped; +} + + +static +Prelin16Data* PrelinOpt16alloc(cmsContext ContextID, + const cmsInterpParams* ColorMap, + int nInputs, cmsToneCurve** In, + int nOutputs, cmsToneCurve** Out ) +{ + int i; + Prelin16Data* p16 = (Prelin16Data*)_cmsMallocZero(ContextID, sizeof(Prelin16Data)); + if (p16 == NULL) return NULL; + + p16 ->nInputs = nInputs; + p16 -> nOutputs = nOutputs; + + + for (i=0; i < nInputs; i++) { + + if (In == NULL) { + p16 -> ParamsCurveIn16[i] = NULL; + p16 -> EvalCurveIn16[i] = Eval16nop1D; + + } + else { + p16 -> ParamsCurveIn16[i] = In[i] ->InterpParams; + p16 -> EvalCurveIn16[i] = p16 ->ParamsCurveIn16[i]->Interpolation.Lerp16; + } + } + + p16 ->CLUTparams = ColorMap; + p16 ->EvalCLUT = ColorMap ->Interpolation.Lerp16; + + + p16 -> EvalCurveOut16 = (_cmsInterpFn16*) _cmsCalloc(ContextID, nOutputs, sizeof(_cmsInterpFn16)); + p16 -> ParamsCurveOut16 = (cmsInterpParams**) _cmsCalloc(ContextID, nOutputs, sizeof(cmsInterpParams* )); + + for (i=0; i < nOutputs; i++) { + + if (Out == NULL) { + p16 ->ParamsCurveOut16[i] = NULL; + p16 -> EvalCurveOut16[i] = Eval16nop1D; + } + else { + + p16 ->ParamsCurveOut16[i] = Out[i] ->InterpParams; + p16 -> EvalCurveOut16[i] = p16 ->ParamsCurveOut16[i]->Interpolation.Lerp16; + } + } + + return p16; +} + + + +// Resampling --------------------------------------------------------------------------------- + +#define PRELINEARIZATION_POINTS 4096 + +// Sampler implemented by another LUT. This is a clean way to precalculate the devicelink 3D CLUT for +// almost any transform. We use floating point precision and then convert from floating point to 16 bits. +static +int XFormSampler16(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + cmsPipeline* Lut = (cmsPipeline*) Cargo; + cmsFloat32Number InFloat[cmsMAXCHANNELS], OutFloat[cmsMAXCHANNELS]; + cmsUInt32Number i; + + _cmsAssert(Lut -> InputChannels < cmsMAXCHANNELS); + _cmsAssert(Lut -> OutputChannels < cmsMAXCHANNELS); + + // From 16 bit to floating point + for (i=0; i < Lut ->InputChannels; i++) + InFloat[i] = (cmsFloat32Number) (In[i] / 65535.0); + + // Evaluate in floating point + cmsPipelineEvalFloat(InFloat, OutFloat, Lut); + + // Back to 16 bits representation + for (i=0; i < Lut ->OutputChannels; i++) + Out[i] = _cmsQuickSaturateWord(OutFloat[i] * 65535.0); + + // Always succeed + return TRUE; +} + +// Try to see if the curves of a given MPE are linear +static +cmsBool AllCurvesAreLinear(cmsStage* mpe) +{ + cmsToneCurve** Curves; + cmsUInt32Number i, n; + + Curves = _cmsStageGetPtrToCurveSet(mpe); + if (Curves == NULL) return FALSE; + + n = cmsStageOutputChannels(mpe); + + for (i=0; i < n; i++) { + if (!cmsIsToneCurveLinear(Curves[i])) return FALSE; + } + + return TRUE; +} + +// This function replaces a specific node placed in "At" by the "Value" numbers. Its purpose +// is to fix scum dot on broken profiles/transforms. Works on 1, 3 and 4 channels +static +cmsBool PatchLUT(cmsStage* CLUT, cmsUInt16Number At[], cmsUInt16Number Value[], + int nChannelsOut, int nChannelsIn) +{ + _cmsStageCLutData* Grid = (_cmsStageCLutData*) CLUT ->Data; + cmsInterpParams* p16 = Grid ->Params; + cmsFloat64Number px, py, pz, pw; + int x0, y0, z0, w0; + int i, index; + + if (CLUT -> Type != cmsSigCLutElemType) { + cmsSignalError(CLUT->ContextID, cmsERROR_INTERNAL, "(internal) Attempt to PatchLUT on non-lut stage"); + return FALSE; + } + + if (nChannelsIn == 4) { + + px = ((cmsFloat64Number) At[0] * (p16->Domain[0])) / 65535.0; + py = ((cmsFloat64Number) At[1] * (p16->Domain[1])) / 65535.0; + pz = ((cmsFloat64Number) At[2] * (p16->Domain[2])) / 65535.0; + pw = ((cmsFloat64Number) At[3] * (p16->Domain[3])) / 65535.0; + + x0 = (int) floor(px); + y0 = (int) floor(py); + z0 = (int) floor(pz); + w0 = (int) floor(pw); + + if (((px - x0) != 0) || + ((py - y0) != 0) || + ((pz - z0) != 0) || + ((pw - w0) != 0)) return FALSE; // Not on exact node + + index = p16 -> opta[3] * x0 + + p16 -> opta[2] * y0 + + p16 -> opta[1] * z0 + + p16 -> opta[0] * w0; + } + else + if (nChannelsIn == 3) { + + px = ((cmsFloat64Number) At[0] * (p16->Domain[0])) / 65535.0; + py = ((cmsFloat64Number) At[1] * (p16->Domain[1])) / 65535.0; + pz = ((cmsFloat64Number) At[2] * (p16->Domain[2])) / 65535.0; + + x0 = (int) floor(px); + y0 = (int) floor(py); + z0 = (int) floor(pz); + + if (((px - x0) != 0) || + ((py - y0) != 0) || + ((pz - z0) != 0)) return FALSE; // Not on exact node + + index = p16 -> opta[2] * x0 + + p16 -> opta[1] * y0 + + p16 -> opta[0] * z0; + } + else + if (nChannelsIn == 1) { + + px = ((cmsFloat64Number) At[0] * (p16->Domain[0])) / 65535.0; + + x0 = (int) floor(px); + + if (((px - x0) != 0)) return FALSE; // Not on exact node + + index = p16 -> opta[0] * x0; + } + else { + cmsSignalError(CLUT->ContextID, cmsERROR_INTERNAL, "(internal) %d Channels are not supported on PatchLUT", nChannelsIn); + return FALSE; + } + + for (i=0; i < nChannelsOut; i++) + Grid -> Tab.T[index + i] = Value[i]; + + return TRUE; +} + +// Auxiliary, to see if two values are equal or very different +static +cmsBool WhitesAreEqual(int n, cmsUInt16Number White1[], cmsUInt16Number White2[] ) +{ + int i; + + for (i=0; i < n; i++) { + + if (abs(White1[i] - White2[i]) > 0xf000) return TRUE; // Values are so extremely different that the fixup should be avoided + if (White1[i] != White2[i]) return FALSE; + } + return TRUE; +} + + +// Locate the node for the white point and fix it to pure white in order to avoid scum dot. +static +cmsBool FixWhiteMisalignment(cmsPipeline* Lut, cmsColorSpaceSignature EntryColorSpace, cmsColorSpaceSignature ExitColorSpace) +{ + cmsUInt16Number *WhitePointIn, *WhitePointOut; + cmsUInt16Number WhiteIn[cmsMAXCHANNELS], WhiteOut[cmsMAXCHANNELS], ObtainedOut[cmsMAXCHANNELS]; + cmsUInt32Number i, nOuts, nIns; + cmsStage *PreLin = NULL, *CLUT = NULL, *PostLin = NULL; + + if (!_cmsEndPointsBySpace(EntryColorSpace, + &WhitePointIn, NULL, &nIns)) return FALSE; + + if (!_cmsEndPointsBySpace(ExitColorSpace, + &WhitePointOut, NULL, &nOuts)) return FALSE; + + // It needs to be fixed? + if (Lut ->InputChannels != nIns) return FALSE; + if (Lut ->OutputChannels != nOuts) return FALSE; + + cmsPipelineEval16(WhitePointIn, ObtainedOut, Lut); + + if (WhitesAreEqual(nOuts, WhitePointOut, ObtainedOut)) return TRUE; // whites already match + + // Check if the LUT comes as Prelin, CLUT or Postlin. We allow all combinations + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, &PreLin, &CLUT, &PostLin)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 2, cmsSigCurveSetElemType, cmsSigCLutElemType, &PreLin, &CLUT)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 2, cmsSigCLutElemType, cmsSigCurveSetElemType, &CLUT, &PostLin)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 1, cmsSigCLutElemType, &CLUT)) + return FALSE; + + // We need to interpolate white points of both, pre and post curves + if (PreLin) { + + cmsToneCurve** Curves = _cmsStageGetPtrToCurveSet(PreLin); + + for (i=0; i < nIns; i++) { + WhiteIn[i] = cmsEvalToneCurve16(Curves[i], WhitePointIn[i]); + } + } + else { + for (i=0; i < nIns; i++) + WhiteIn[i] = WhitePointIn[i]; + } + + // If any post-linearization, we need to find how is represented white before the curve, do + // a reverse interpolation in this case. + if (PostLin) { + + cmsToneCurve** Curves = _cmsStageGetPtrToCurveSet(PostLin); + + for (i=0; i < nOuts; i++) { + + cmsToneCurve* InversePostLin = cmsReverseToneCurve(Curves[i]); + if (InversePostLin == NULL) { + WhiteOut[i] = WhitePointOut[i]; + + } else { + + WhiteOut[i] = cmsEvalToneCurve16(InversePostLin, WhitePointOut[i]); + cmsFreeToneCurve(InversePostLin); + } + } + } + else { + for (i=0; i < nOuts; i++) + WhiteOut[i] = WhitePointOut[i]; + } + + // Ok, proceed with patching. May fail and we don't care if it fails + PatchLUT(CLUT, WhiteIn, WhiteOut, nOuts, nIns); + + return TRUE; +} + +// ----------------------------------------------------------------------------------------------------------------------------------------------- +// This function creates simple LUT from complex ones. The generated LUT has an optional set of +// prelinearization curves, a CLUT of nGridPoints and optional postlinearization tables. +// These curves have to exist in the original LUT in order to be used in the simplified output. +// Caller may also use the flags to allow this feature. +// LUTS with all curves will be simplified to a single curve. Parametric curves are lost. +// This function should be used on 16-bits LUTS only, as floating point losses precision when simplified +// ----------------------------------------------------------------------------------------------------------------------------------------------- + +static +cmsBool OptimizeByResampling(cmsPipeline** Lut, cmsUInt32Number Intent, cmsUInt32Number* InputFormat, cmsUInt32Number* OutputFormat, cmsUInt32Number* dwFlags) +{ + cmsPipeline* Src = NULL; + cmsPipeline* Dest = NULL; + cmsStage* mpe; + cmsStage* CLUT; + cmsStage *KeepPreLin = NULL, *KeepPostLin = NULL; + int nGridPoints; + cmsColorSpaceSignature ColorSpace, OutputColorSpace; + cmsStage *NewPreLin = NULL; + cmsStage *NewPostLin = NULL; + _cmsStageCLutData* DataCLUT; + cmsToneCurve** DataSetIn; + cmsToneCurve** DataSetOut; + Prelin16Data* p16; + + // This is a loosy optimization! does not apply in floating-point cases + if (_cmsFormatterIsFloat(*InputFormat) || _cmsFormatterIsFloat(*OutputFormat)) return FALSE; + + ColorSpace = _cmsICCcolorSpace(T_COLORSPACE(*InputFormat)); + OutputColorSpace = _cmsICCcolorSpace(T_COLORSPACE(*OutputFormat)); + nGridPoints = _cmsReasonableGridpointsByColorspace(ColorSpace, *dwFlags); + + // For empty LUTs, 2 points are enough + if (cmsPipelineStageCount(*Lut) == 0) + nGridPoints = 2; + + Src = *Lut; + + // Named color pipelines cannot be optimized either + for (mpe = cmsPipelineGetPtrToFirstStage(Src); + mpe != NULL; + mpe = cmsStageNext(mpe)) { + if (cmsStageType(mpe) == cmsSigNamedColorElemType) return FALSE; + } + + // Allocate an empty LUT + Dest = cmsPipelineAlloc(Src ->ContextID, Src ->InputChannels, Src ->OutputChannels); + if (!Dest) return FALSE; + + // Prelinearization tables are kept unless indicated by flags + if (*dwFlags & cmsFLAGS_CLUT_PRE_LINEARIZATION) { + + // Get a pointer to the prelinearization element + cmsStage* PreLin = cmsPipelineGetPtrToFirstStage(Src); + + // Check if suitable + if (PreLin && PreLin ->Type == cmsSigCurveSetElemType) { + + // Maybe this is a linear tram, so we can avoid the whole stuff + if (!AllCurvesAreLinear(PreLin)) { + + // All seems ok, proceed. + NewPreLin = cmsStageDup(PreLin); + if(!cmsPipelineInsertStage(Dest, cmsAT_BEGIN, NewPreLin)) + goto Error; + + // Remove prelinearization. Since we have duplicated the curve + // in destination LUT, the sampling shoud be applied after this stage. + cmsPipelineUnlinkStage(Src, cmsAT_BEGIN, &KeepPreLin); + } + } + } + + // Allocate the CLUT + CLUT = cmsStageAllocCLut16bit(Src ->ContextID, nGridPoints, Src ->InputChannels, Src->OutputChannels, NULL); + if (CLUT == NULL) return FALSE; + + // Add the CLUT to the destination LUT + if (!cmsPipelineInsertStage(Dest, cmsAT_END, CLUT)) { + goto Error; + } + + // Postlinearization tables are kept unless indicated by flags + if (*dwFlags & cmsFLAGS_CLUT_POST_LINEARIZATION) { + + // Get a pointer to the postlinearization if present + cmsStage* PostLin = cmsPipelineGetPtrToLastStage(Src); + + // Check if suitable + if (PostLin && cmsStageType(PostLin) == cmsSigCurveSetElemType) { + + // Maybe this is a linear tram, so we can avoid the whole stuff + if (!AllCurvesAreLinear(PostLin)) { + + // All seems ok, proceed. + NewPostLin = cmsStageDup(PostLin); + if (!cmsPipelineInsertStage(Dest, cmsAT_END, NewPostLin)) + goto Error; + + // In destination LUT, the sampling shoud be applied after this stage. + cmsPipelineUnlinkStage(Src, cmsAT_END, &KeepPostLin); + } + } + } + + // Now its time to do the sampling. We have to ignore pre/post linearization + // The source LUT whithout pre/post curves is passed as parameter. + if (!cmsStageSampleCLut16bit(CLUT, XFormSampler16, (void*) Src, 0)) { +Error: + // Ops, something went wrong, Restore stages + if (KeepPreLin != NULL) { + if (!cmsPipelineInsertStage(Src, cmsAT_BEGIN, KeepPreLin)) { + _cmsAssert(0); // This never happens + } + } + if (KeepPostLin != NULL) { + if (!cmsPipelineInsertStage(Src, cmsAT_END, KeepPostLin)) { + _cmsAssert(0); // This never happens + } + } + cmsPipelineFree(Dest); + return FALSE; + } + + // Done. + + if (KeepPreLin != NULL) cmsStageFree(KeepPreLin); + if (KeepPostLin != NULL) cmsStageFree(KeepPostLin); + cmsPipelineFree(Src); + + DataCLUT = (_cmsStageCLutData*) CLUT ->Data; + + if (NewPreLin == NULL) DataSetIn = NULL; + else DataSetIn = ((_cmsStageToneCurvesData*) NewPreLin ->Data) ->TheCurves; + + if (NewPostLin == NULL) DataSetOut = NULL; + else DataSetOut = ((_cmsStageToneCurvesData*) NewPostLin ->Data) ->TheCurves; + + + if (DataSetIn == NULL && DataSetOut == NULL) { + + _cmsPipelineSetOptimizationParameters(Dest, (_cmsOPTeval16Fn) DataCLUT->Params->Interpolation.Lerp16, DataCLUT->Params, NULL, NULL); + } + else { + + p16 = PrelinOpt16alloc(Dest ->ContextID, + DataCLUT ->Params, + Dest ->InputChannels, + DataSetIn, + Dest ->OutputChannels, + DataSetOut); + + _cmsPipelineSetOptimizationParameters(Dest, PrelinEval16, (void*) p16, PrelinOpt16free, Prelin16dup); + } + + + // Don't fix white on absolute colorimetric + if (Intent == INTENT_ABSOLUTE_COLORIMETRIC) + *dwFlags |= cmsFLAGS_NOWHITEONWHITEFIXUP; + + if (!(*dwFlags & cmsFLAGS_NOWHITEONWHITEFIXUP)) { + + FixWhiteMisalignment(Dest, ColorSpace, OutputColorSpace); + } + + *Lut = Dest; + return TRUE; + + cmsUNUSED_PARAMETER(Intent); +} + + +// ----------------------------------------------------------------------------------------------------------------------------------------------- +// Fixes the gamma balancing of transform. This is described in my paper "Prelinearization Stages on +// Color-Management Application-Specific Integrated Circuits (ASICs)" presented at NIP24. It only works +// for RGB transforms. See the paper for more details +// ----------------------------------------------------------------------------------------------------------------------------------------------- + + +// Normalize endpoints by slope limiting max and min. This assures endpoints as well. +// Descending curves are handled as well. +static +void SlopeLimiting(cmsToneCurve* g) +{ + int BeginVal, EndVal; + int AtBegin = (int) floor((cmsFloat64Number) g ->nEntries * 0.02 + 0.5); // Cutoff at 2% + int AtEnd = g ->nEntries - AtBegin - 1; // And 98% + cmsFloat64Number Val, Slope, beta; + int i; + + if (cmsIsToneCurveDescending(g)) { + BeginVal = 0xffff; EndVal = 0; + } + else { + BeginVal = 0; EndVal = 0xffff; + } + + // Compute slope and offset for begin of curve + Val = g ->Table16[AtBegin]; + Slope = (Val - BeginVal) / AtBegin; + beta = Val - Slope * AtBegin; + + for (i=0; i < AtBegin; i++) + g ->Table16[i] = _cmsQuickSaturateWord(i * Slope + beta); + + // Compute slope and offset for the end + Val = g ->Table16[AtEnd]; + Slope = (EndVal - Val) / AtBegin; // AtBegin holds the X interval, which is same in both cases + beta = Val - Slope * AtEnd; + + for (i = AtEnd; i < (int) g ->nEntries; i++) + g ->Table16[i] = _cmsQuickSaturateWord(i * Slope + beta); +} + + +// Precomputes tables for 8-bit on input devicelink. +static +Prelin8Data* PrelinOpt8alloc(cmsContext ContextID, const cmsInterpParams* p, cmsToneCurve* G[3]) +{ + int i; + cmsUInt16Number Input[3]; + cmsS15Fixed16Number v1, v2, v3; + Prelin8Data* p8; + + p8 = (Prelin8Data*)_cmsMallocZero(ContextID, sizeof(Prelin8Data)); + if (p8 == NULL) return NULL; + + // Since this only works for 8 bit input, values comes always as x * 257, + // we can safely take msb byte (x << 8 + x) + + for (i=0; i < 256; i++) { + + if (G != NULL) { + + // Get 16-bit representation + Input[0] = cmsEvalToneCurve16(G[0], FROM_8_TO_16(i)); + Input[1] = cmsEvalToneCurve16(G[1], FROM_8_TO_16(i)); + Input[2] = cmsEvalToneCurve16(G[2], FROM_8_TO_16(i)); + } + else { + Input[0] = FROM_8_TO_16(i); + Input[1] = FROM_8_TO_16(i); + Input[2] = FROM_8_TO_16(i); + } + + + // Move to 0..1.0 in fixed domain + v1 = _cmsToFixedDomain(Input[0] * p -> Domain[0]); + v2 = _cmsToFixedDomain(Input[1] * p -> Domain[1]); + v3 = _cmsToFixedDomain(Input[2] * p -> Domain[2]); + + // Store the precalculated table of nodes + p8 ->X0[i] = (p->opta[2] * FIXED_TO_INT(v1)); + p8 ->Y0[i] = (p->opta[1] * FIXED_TO_INT(v2)); + p8 ->Z0[i] = (p->opta[0] * FIXED_TO_INT(v3)); + + // Store the precalculated table of offsets + p8 ->rx[i] = (cmsUInt16Number) FIXED_REST_TO_INT(v1); + p8 ->ry[i] = (cmsUInt16Number) FIXED_REST_TO_INT(v2); + p8 ->rz[i] = (cmsUInt16Number) FIXED_REST_TO_INT(v3); + } + + p8 ->ContextID = ContextID; + p8 ->p = p; + + return p8; +} + +static +void Prelin8free(cmsContext ContextID, void* ptr) +{ + _cmsFree(ContextID, ptr); +} + +static +void* Prelin8dup(cmsContext ContextID, const void* ptr) +{ + return _cmsDupMem(ContextID, ptr, sizeof(Prelin8Data)); +} + + + +// A optimized interpolation for 8-bit input. +#define DENS(i,j,k) (LutTable[(i)+(j)+(k)+OutChan]) +static +void PrelinEval8(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const void* D) +{ + + cmsUInt8Number r, g, b; + cmsS15Fixed16Number rx, ry, rz; + cmsS15Fixed16Number c0, c1, c2, c3, Rest; + int OutChan; + register cmsS15Fixed16Number X0, X1, Y0, Y1, Z0, Z1; + Prelin8Data* p8 = (Prelin8Data*) D; + register const cmsInterpParams* p = p8 ->p; + int TotalOut = p -> nOutputs; + const cmsUInt16Number* LutTable = (const cmsUInt16Number*) p->Table; + + r = Input[0] >> 8; + g = Input[1] >> 8; + b = Input[2] >> 8; + + X0 = X1 = p8->X0[r]; + Y0 = Y1 = p8->Y0[g]; + Z0 = Z1 = p8->Z0[b]; + + rx = p8 ->rx[r]; + ry = p8 ->ry[g]; + rz = p8 ->rz[b]; + + X1 = X0 + ((rx == 0) ? 0 : p ->opta[2]); + Y1 = Y0 + ((ry == 0) ? 0 : p ->opta[1]); + Z1 = Z0 + ((rz == 0) ? 0 : p ->opta[0]); + + + // These are the 6 Tetrahedral + for (OutChan=0; OutChan < TotalOut; OutChan++) { + + c0 = DENS(X0, Y0, Z0); + + if (rx >= ry && ry >= rz) + { + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z0) - DENS(X1, Y0, Z0); + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + } + else + if (rx >= rz && rz >= ry) + { + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X1, Y0, Z1) - DENS(X1, Y0, Z0); + } + else + if (rz >= rx && rx >= ry) + { + c1 = DENS(X1, Y0, Z1) - DENS(X0, Y0, Z1); + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + } + else + if (ry >= rx && rx >= rz) + { + c1 = DENS(X1, Y1, Z0) - DENS(X0, Y1, Z0); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + } + else + if (ry >= rz && rz >= rx) + { + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X0, Y1, Z1) - DENS(X0, Y1, Z0); + } + else + if (rz >= ry && ry >= rx) + { + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z1) - DENS(X0, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + } + else { + c1 = c2 = c3 = 0; + } + + + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + Output[OutChan] = (cmsUInt16Number)c0 + ((Rest + (Rest>>16))>>16); + + } +} + +#undef DENS + + +// Curves that contain wide empty areas are not optimizeable +static +cmsBool IsDegenerated(const cmsToneCurve* g) +{ + int i, Zeros = 0, Poles = 0; + int nEntries = g ->nEntries; + + for (i=0; i < nEntries; i++) { + + if (g ->Table16[i] == 0x0000) Zeros++; + if (g ->Table16[i] == 0xffff) Poles++; + } + + if (Zeros == 1 && Poles == 1) return FALSE; // For linear tables + if (Zeros > (nEntries / 20)) return TRUE; // Degenerated, many zeros + if (Poles > (nEntries / 20)) return TRUE; // Degenerated, many poles + + return FALSE; +} + +// -------------------------------------------------------------------------------------------------------------- +// We need xput over here + +static +cmsBool OptimizeByComputingLinearization(cmsPipeline** Lut, cmsUInt32Number Intent, cmsUInt32Number* InputFormat, cmsUInt32Number* OutputFormat, cmsUInt32Number* dwFlags) +{ + cmsPipeline* OriginalLut; + int nGridPoints; + cmsToneCurve *Trans[cmsMAXCHANNELS], *TransReverse[cmsMAXCHANNELS]; + cmsUInt32Number t, i; + cmsFloat32Number v, In[cmsMAXCHANNELS], Out[cmsMAXCHANNELS]; + cmsBool lIsSuitable, lIsLinear; + cmsPipeline* OptimizedLUT = NULL, *LutPlusCurves = NULL; + cmsStage* OptimizedCLUTmpe; + cmsColorSpaceSignature ColorSpace, OutputColorSpace; + cmsStage* OptimizedPrelinMpe; + cmsStage* mpe; + cmsToneCurve** OptimizedPrelinCurves; + _cmsStageCLutData* OptimizedPrelinCLUT; + + + // This is a loosy optimization! does not apply in floating-point cases + if (_cmsFormatterIsFloat(*InputFormat) || _cmsFormatterIsFloat(*OutputFormat)) return FALSE; + + // Only on chunky RGB + if (T_COLORSPACE(*InputFormat) != PT_RGB) return FALSE; + if (T_PLANAR(*InputFormat)) return FALSE; + + if (T_COLORSPACE(*OutputFormat) != PT_RGB) return FALSE; + if (T_PLANAR(*OutputFormat)) return FALSE; + + // On 16 bits, user has to specify the feature + if (!_cmsFormatterIs8bit(*InputFormat)) { + if (!(*dwFlags & cmsFLAGS_CLUT_PRE_LINEARIZATION)) return FALSE; + } + + OriginalLut = *Lut; + + // Named color pipelines cannot be optimized either + for (mpe = cmsPipelineGetPtrToFirstStage(OriginalLut); + mpe != NULL; + mpe = cmsStageNext(mpe)) { + if (cmsStageType(mpe) == cmsSigNamedColorElemType) return FALSE; + } + + ColorSpace = _cmsICCcolorSpace(T_COLORSPACE(*InputFormat)); + OutputColorSpace = _cmsICCcolorSpace(T_COLORSPACE(*OutputFormat)); + nGridPoints = _cmsReasonableGridpointsByColorspace(ColorSpace, *dwFlags); + + // Empty gamma containers + memset(Trans, 0, sizeof(Trans)); + memset(TransReverse, 0, sizeof(TransReverse)); + + // If the last stage of the original lut are curves, and those curves are + // degenerated, it is likely the transform is squeezing and clipping + // the output from previous CLUT. We cannot optimize this case + { + cmsStage* last = cmsPipelineGetPtrToLastStage(OriginalLut); + + if (cmsStageType(last) == cmsSigCurveSetElemType) { + + _cmsStageToneCurvesData* Data = (_cmsStageToneCurvesData*)cmsStageData(last); + for (i = 0; i < Data->nCurves; i++) { + if (IsDegenerated(Data->TheCurves[i])) + goto Error; + } + } + } + + for (t = 0; t < OriginalLut ->InputChannels; t++) { + Trans[t] = cmsBuildTabulatedToneCurve16(OriginalLut ->ContextID, PRELINEARIZATION_POINTS, NULL); + if (Trans[t] == NULL) goto Error; + } + + // Populate the curves + for (i=0; i < PRELINEARIZATION_POINTS; i++) { + + v = (cmsFloat32Number) ((cmsFloat64Number) i / (PRELINEARIZATION_POINTS - 1)); + + // Feed input with a gray ramp + for (t=0; t < OriginalLut ->InputChannels; t++) + In[t] = v; + + // Evaluate the gray value + cmsPipelineEvalFloat(In, Out, OriginalLut); + + // Store result in curve + for (t=0; t < OriginalLut ->InputChannels; t++) + Trans[t] ->Table16[i] = _cmsQuickSaturateWord(Out[t] * 65535.0); + } + + // Slope-limit the obtained curves + for (t = 0; t < OriginalLut ->InputChannels; t++) + SlopeLimiting(Trans[t]); + + // Check for validity + lIsSuitable = TRUE; + lIsLinear = TRUE; + for (t=0; (lIsSuitable && (t < OriginalLut ->InputChannels)); t++) { + + // Exclude if already linear + if (!cmsIsToneCurveLinear(Trans[t])) + lIsLinear = FALSE; + + // Exclude if non-monotonic + if (!cmsIsToneCurveMonotonic(Trans[t])) + lIsSuitable = FALSE; + + if (IsDegenerated(Trans[t])) + lIsSuitable = FALSE; + } + + // If it is not suitable, just quit + if (!lIsSuitable) goto Error; + + // Invert curves if possible + for (t = 0; t < OriginalLut ->InputChannels; t++) { + TransReverse[t] = cmsReverseToneCurveEx(PRELINEARIZATION_POINTS, Trans[t]); + if (TransReverse[t] == NULL) goto Error; + } + + // Now inset the reversed curves at the begin of transform + LutPlusCurves = cmsPipelineDup(OriginalLut); + if (LutPlusCurves == NULL) goto Error; + + if (!cmsPipelineInsertStage(LutPlusCurves, cmsAT_BEGIN, cmsStageAllocToneCurves(OriginalLut ->ContextID, OriginalLut ->InputChannels, TransReverse))) + goto Error; + + // Create the result LUT + OptimizedLUT = cmsPipelineAlloc(OriginalLut ->ContextID, OriginalLut ->InputChannels, OriginalLut ->OutputChannels); + if (OptimizedLUT == NULL) goto Error; + + OptimizedPrelinMpe = cmsStageAllocToneCurves(OriginalLut ->ContextID, OriginalLut ->InputChannels, Trans); + + // Create and insert the curves at the beginning + if (!cmsPipelineInsertStage(OptimizedLUT, cmsAT_BEGIN, OptimizedPrelinMpe)) + goto Error; + + // Allocate the CLUT for result + OptimizedCLUTmpe = cmsStageAllocCLut16bit(OriginalLut ->ContextID, nGridPoints, OriginalLut ->InputChannels, OriginalLut ->OutputChannels, NULL); + + // Add the CLUT to the destination LUT + if (!cmsPipelineInsertStage(OptimizedLUT, cmsAT_END, OptimizedCLUTmpe)) + goto Error; + + // Resample the LUT + if (!cmsStageSampleCLut16bit(OptimizedCLUTmpe, XFormSampler16, (void*) LutPlusCurves, 0)) goto Error; + + // Free resources + for (t = 0; t < OriginalLut ->InputChannels; t++) { + + if (Trans[t]) cmsFreeToneCurve(Trans[t]); + if (TransReverse[t]) cmsFreeToneCurve(TransReverse[t]); + } + + cmsPipelineFree(LutPlusCurves); + + + OptimizedPrelinCurves = _cmsStageGetPtrToCurveSet(OptimizedPrelinMpe); + OptimizedPrelinCLUT = (_cmsStageCLutData*) OptimizedCLUTmpe ->Data; + + // Set the evaluator if 8-bit + if (_cmsFormatterIs8bit(*InputFormat)) { + + Prelin8Data* p8 = PrelinOpt8alloc(OptimizedLUT ->ContextID, + OptimizedPrelinCLUT ->Params, + OptimizedPrelinCurves); + if (p8 == NULL) return FALSE; + + _cmsPipelineSetOptimizationParameters(OptimizedLUT, PrelinEval8, (void*) p8, Prelin8free, Prelin8dup); + + } + else + { + Prelin16Data* p16 = PrelinOpt16alloc(OptimizedLUT ->ContextID, + OptimizedPrelinCLUT ->Params, + 3, OptimizedPrelinCurves, 3, NULL); + if (p16 == NULL) return FALSE; + + _cmsPipelineSetOptimizationParameters(OptimizedLUT, PrelinEval16, (void*) p16, PrelinOpt16free, Prelin16dup); + + } + + // Don't fix white on absolute colorimetric + if (Intent == INTENT_ABSOLUTE_COLORIMETRIC) + *dwFlags |= cmsFLAGS_NOWHITEONWHITEFIXUP; + + if (!(*dwFlags & cmsFLAGS_NOWHITEONWHITEFIXUP)) { + + if (!FixWhiteMisalignment(OptimizedLUT, ColorSpace, OutputColorSpace)) { + + return FALSE; + } + } + + // And return the obtained LUT + + cmsPipelineFree(OriginalLut); + *Lut = OptimizedLUT; + return TRUE; + +Error: + + for (t = 0; t < OriginalLut ->InputChannels; t++) { + + if (Trans[t]) cmsFreeToneCurve(Trans[t]); + if (TransReverse[t]) cmsFreeToneCurve(TransReverse[t]); + } + + if (LutPlusCurves != NULL) cmsPipelineFree(LutPlusCurves); + if (OptimizedLUT != NULL) cmsPipelineFree(OptimizedLUT); + + return FALSE; + + cmsUNUSED_PARAMETER(Intent); +} + + +// Curves optimizer ------------------------------------------------------------------------------------------------------------------ + +static +void CurvesFree(cmsContext ContextID, void* ptr) +{ + Curves16Data* Data = (Curves16Data*) ptr; + int i; + + for (i=0; i < Data -> nCurves; i++) { + + _cmsFree(ContextID, Data ->Curves[i]); + } + + _cmsFree(ContextID, Data ->Curves); + _cmsFree(ContextID, ptr); +} + +static +void* CurvesDup(cmsContext ContextID, const void* ptr) +{ + Curves16Data* Data = (Curves16Data*)_cmsDupMem(ContextID, ptr, sizeof(Curves16Data)); + int i; + + if (Data == NULL) return NULL; + + Data->Curves = (cmsUInt16Number**) _cmsDupMem(ContextID, Data->Curves, Data->nCurves * sizeof(cmsUInt16Number*)); + + for (i=0; i < Data -> nCurves; i++) { + Data->Curves[i] = (cmsUInt16Number*) _cmsDupMem(ContextID, Data->Curves[i], Data->nElements * sizeof(cmsUInt16Number)); + } + + return (void*) Data; +} + +// Precomputes tables for 8-bit on input devicelink. +static +Curves16Data* CurvesAlloc(cmsContext ContextID, int nCurves, int nElements, cmsToneCurve** G) +{ + int i, j; + Curves16Data* c16; + + c16 = (Curves16Data*)_cmsMallocZero(ContextID, sizeof(Curves16Data)); + if (c16 == NULL) return NULL; + + c16 ->nCurves = nCurves; + c16 ->nElements = nElements; + + c16->Curves = (cmsUInt16Number**) _cmsCalloc(ContextID, nCurves, sizeof(cmsUInt16Number*)); + if (c16 ->Curves == NULL) return NULL; + + for (i=0; i < nCurves; i++) { + + c16->Curves[i] = (cmsUInt16Number*) _cmsCalloc(ContextID, nElements, sizeof(cmsUInt16Number)); + + if (c16->Curves[i] == NULL) { + + for (j=0; j < i; j++) { + _cmsFree(ContextID, c16->Curves[j]); + } + _cmsFree(ContextID, c16->Curves); + _cmsFree(ContextID, c16); + return NULL; + } + + if (nElements == 256) { + + for (j=0; j < nElements; j++) { + + c16 ->Curves[i][j] = cmsEvalToneCurve16(G[i], FROM_8_TO_16(j)); + } + } + else { + + for (j=0; j < nElements; j++) { + c16 ->Curves[i][j] = cmsEvalToneCurve16(G[i], (cmsUInt16Number) j); + } + } + } + + return c16; +} + +static +void FastEvaluateCurves8(register const cmsUInt16Number In[], + register cmsUInt16Number Out[], + register const void* D) +{ + Curves16Data* Data = (Curves16Data*) D; + cmsUInt8Number x; + int i; + + for (i=0; i < Data ->nCurves; i++) { + + x = (In[i] >> 8); + Out[i] = Data -> Curves[i][x]; + } +} + + +static +void FastEvaluateCurves16(register const cmsUInt16Number In[], + register cmsUInt16Number Out[], + register const void* D) +{ + Curves16Data* Data = (Curves16Data*) D; + int i; + + for (i=0; i < Data ->nCurves; i++) { + Out[i] = Data -> Curves[i][In[i]]; + } +} + + +static +void FastIdentity16(register const cmsUInt16Number In[], + register cmsUInt16Number Out[], + register const void* D) +{ + cmsPipeline* Lut = (cmsPipeline*) D; + cmsUInt32Number i; + + for (i=0; i < Lut ->InputChannels; i++) { + Out[i] = In[i]; + } +} + + +// If the target LUT holds only curves, the optimization procedure is to join all those +// curves together. That only works on curves and does not work on matrices. +static +cmsBool OptimizeByJoiningCurves(cmsPipeline** Lut, cmsUInt32Number Intent, cmsUInt32Number* InputFormat, cmsUInt32Number* OutputFormat, cmsUInt32Number* dwFlags) +{ + cmsToneCurve** GammaTables = NULL; + cmsFloat32Number InFloat[cmsMAXCHANNELS], OutFloat[cmsMAXCHANNELS]; + cmsUInt32Number i, j; + cmsPipeline* Src = *Lut; + cmsPipeline* Dest = NULL; + cmsStage* mpe; + cmsStage* ObtainedCurves = NULL; + + + // This is a loosy optimization! does not apply in floating-point cases + if (_cmsFormatterIsFloat(*InputFormat) || _cmsFormatterIsFloat(*OutputFormat)) return FALSE; + + // Only curves in this LUT? + for (mpe = cmsPipelineGetPtrToFirstStage(Src); + mpe != NULL; + mpe = cmsStageNext(mpe)) { + if (cmsStageType(mpe) != cmsSigCurveSetElemType) return FALSE; + } + + // Allocate an empty LUT + Dest = cmsPipelineAlloc(Src ->ContextID, Src ->InputChannels, Src ->OutputChannels); + if (Dest == NULL) return FALSE; + + // Create target curves + GammaTables = (cmsToneCurve**) _cmsCalloc(Src ->ContextID, Src ->InputChannels, sizeof(cmsToneCurve*)); + if (GammaTables == NULL) goto Error; + + for (i=0; i < Src ->InputChannels; i++) { + GammaTables[i] = cmsBuildTabulatedToneCurve16(Src ->ContextID, PRELINEARIZATION_POINTS, NULL); + if (GammaTables[i] == NULL) goto Error; + } + + // Compute 16 bit result by using floating point + for (i=0; i < PRELINEARIZATION_POINTS; i++) { + + for (j=0; j < Src ->InputChannels; j++) + InFloat[j] = (cmsFloat32Number) ((cmsFloat64Number) i / (PRELINEARIZATION_POINTS - 1)); + + cmsPipelineEvalFloat(InFloat, OutFloat, Src); + + for (j=0; j < Src ->InputChannels; j++) + GammaTables[j] -> Table16[i] = _cmsQuickSaturateWord(OutFloat[j] * 65535.0); + } + + ObtainedCurves = cmsStageAllocToneCurves(Src ->ContextID, Src ->InputChannels, GammaTables); + if (ObtainedCurves == NULL) goto Error; + + for (i=0; i < Src ->InputChannels; i++) { + cmsFreeToneCurve(GammaTables[i]); + GammaTables[i] = NULL; + } + + if (GammaTables != NULL) { + _cmsFree(Src->ContextID, GammaTables); + GammaTables = NULL; + } + + // Maybe the curves are linear at the end + if (!AllCurvesAreLinear(ObtainedCurves)) { + + if (!cmsPipelineInsertStage(Dest, cmsAT_BEGIN, ObtainedCurves)) + goto Error; + + // If the curves are to be applied in 8 bits, we can save memory + if (_cmsFormatterIs8bit(*InputFormat)) { + + _cmsStageToneCurvesData* Data = (_cmsStageToneCurvesData*) ObtainedCurves ->Data; + Curves16Data* c16 = CurvesAlloc(Dest ->ContextID, Data ->nCurves, 256, Data ->TheCurves); + + if (c16 == NULL) goto Error; + *dwFlags |= cmsFLAGS_NOCACHE; + _cmsPipelineSetOptimizationParameters(Dest, FastEvaluateCurves8, c16, CurvesFree, CurvesDup); + + } + else { + + _cmsStageToneCurvesData* Data = (_cmsStageToneCurvesData*) cmsStageData(ObtainedCurves); + Curves16Data* c16 = CurvesAlloc(Dest ->ContextID, Data ->nCurves, 65536, Data ->TheCurves); + + if (c16 == NULL) goto Error; + *dwFlags |= cmsFLAGS_NOCACHE; + _cmsPipelineSetOptimizationParameters(Dest, FastEvaluateCurves16, c16, CurvesFree, CurvesDup); + } + } + else { + + // LUT optimizes to nothing. Set the identity LUT + cmsStageFree(ObtainedCurves); + + if (!cmsPipelineInsertStage(Dest, cmsAT_BEGIN, cmsStageAllocIdentity(Dest ->ContextID, Src ->InputChannels))) + goto Error; + + *dwFlags |= cmsFLAGS_NOCACHE; + _cmsPipelineSetOptimizationParameters(Dest, FastIdentity16, (void*) Dest, NULL, NULL); + } + + // We are done. + cmsPipelineFree(Src); + *Lut = Dest; + return TRUE; + +Error: + + if (ObtainedCurves != NULL) cmsStageFree(ObtainedCurves); + if (GammaTables != NULL) { + for (i=0; i < Src ->InputChannels; i++) { + if (GammaTables[i] != NULL) cmsFreeToneCurve(GammaTables[i]); + } + + _cmsFree(Src ->ContextID, GammaTables); + } + + if (Dest != NULL) cmsPipelineFree(Dest); + return FALSE; + + cmsUNUSED_PARAMETER(Intent); + cmsUNUSED_PARAMETER(InputFormat); + cmsUNUSED_PARAMETER(OutputFormat); + cmsUNUSED_PARAMETER(dwFlags); +} + +// ------------------------------------------------------------------------------------------------------------------------------------- +// LUT is Shaper - Matrix - Matrix - Shaper, which is very frequent when combining two matrix-shaper profiles + + +static +void FreeMatShaper(cmsContext ContextID, void* Data) +{ + if (Data != NULL) _cmsFree(ContextID, Data); +} + +static +void* DupMatShaper(cmsContext ContextID, const void* Data) +{ + return _cmsDupMem(ContextID, Data, sizeof(MatShaper8Data)); +} + + +// A fast matrix-shaper evaluator for 8 bits. This is a bit ticky since I'm using 1.14 signed fixed point +// to accomplish some performance. Actually it takes 256x3 16 bits tables and 16385 x 3 tables of 8 bits, +// in total about 50K, and the performance boost is huge! +static +void MatShaperEval16(register const cmsUInt16Number In[], + register cmsUInt16Number Out[], + register const void* D) +{ + MatShaper8Data* p = (MatShaper8Data*) D; + cmsS1Fixed14Number l1, l2, l3, r, g, b; + cmsUInt32Number ri, gi, bi; + + // In this case (and only in this case!) we can use this simplification since + // In[] is assured to come from a 8 bit number. (a << 8 | a) + ri = In[0] & 0xFF; + gi = In[1] & 0xFF; + bi = In[2] & 0xFF; + + // Across first shaper, which also converts to 1.14 fixed point + r = p->Shaper1R[ri]; + g = p->Shaper1G[gi]; + b = p->Shaper1B[bi]; + + // Evaluate the matrix in 1.14 fixed point + l1 = (p->Mat[0][0] * r + p->Mat[0][1] * g + p->Mat[0][2] * b + p->Off[0] + 0x2000) >> 14; + l2 = (p->Mat[1][0] * r + p->Mat[1][1] * g + p->Mat[1][2] * b + p->Off[1] + 0x2000) >> 14; + l3 = (p->Mat[2][0] * r + p->Mat[2][1] * g + p->Mat[2][2] * b + p->Off[2] + 0x2000) >> 14; + + // Now we have to clip to 0..1.0 range + ri = (l1 < 0) ? 0 : ((l1 > 16384) ? 16384 : l1); + gi = (l2 < 0) ? 0 : ((l2 > 16384) ? 16384 : l2); + bi = (l3 < 0) ? 0 : ((l3 > 16384) ? 16384 : l3); + + // And across second shaper, + Out[0] = p->Shaper2R[ri]; + Out[1] = p->Shaper2G[gi]; + Out[2] = p->Shaper2B[bi]; + +} + +// This table converts from 8 bits to 1.14 after applying the curve +static +void FillFirstShaper(cmsS1Fixed14Number* Table, cmsToneCurve* Curve) +{ + int i; + cmsFloat32Number R, y; + + for (i=0; i < 256; i++) { + + R = (cmsFloat32Number) (i / 255.0); + y = cmsEvalToneCurveFloat(Curve, R); + + Table[i] = DOUBLE_TO_1FIXED14(y); + } +} + +// This table converts form 1.14 (being 0x4000 the last entry) to 8 bits after applying the curve +static +void FillSecondShaper(cmsUInt16Number* Table, cmsToneCurve* Curve, cmsBool Is8BitsOutput) +{ + int i; + cmsFloat32Number R, Val; + + for (i=0; i < 16385; i++) { + + R = (cmsFloat32Number) (i / 16384.0); + Val = cmsEvalToneCurveFloat(Curve, R); // Val comes 0..1.0 + + if (Is8BitsOutput) { + + // If 8 bits output, we can optimize further by computing the / 257 part. + // first we compute the resulting byte and then we store the byte times + // 257. This quantization allows to round very quick by doing a >> 8, but + // since the low byte is always equal to msb, we can do a & 0xff and this works! + cmsUInt16Number w = _cmsQuickSaturateWord(Val * 65535.0); + cmsUInt8Number b = FROM_16_TO_8(w); + + Table[i] = FROM_8_TO_16(b); + } + else Table[i] = _cmsQuickSaturateWord(Val * 65535.0); + } +} + +// Compute the matrix-shaper structure +static +cmsBool SetMatShaper(cmsPipeline* Dest, cmsToneCurve* Curve1[3], cmsMAT3* Mat, cmsVEC3* Off, cmsToneCurve* Curve2[3], cmsUInt32Number* OutputFormat) +{ + MatShaper8Data* p; + int i, j; + cmsBool Is8Bits = _cmsFormatterIs8bit(*OutputFormat); + + // Allocate a big chuck of memory to store precomputed tables + p = (MatShaper8Data*) _cmsMalloc(Dest ->ContextID, sizeof(MatShaper8Data)); + if (p == NULL) return FALSE; + + p -> ContextID = Dest -> ContextID; + + // Precompute tables + FillFirstShaper(p ->Shaper1R, Curve1[0]); + FillFirstShaper(p ->Shaper1G, Curve1[1]); + FillFirstShaper(p ->Shaper1B, Curve1[2]); + + FillSecondShaper(p ->Shaper2R, Curve2[0], Is8Bits); + FillSecondShaper(p ->Shaper2G, Curve2[1], Is8Bits); + FillSecondShaper(p ->Shaper2B, Curve2[2], Is8Bits); + + // Convert matrix to nFixed14. Note that those values may take more than 16 bits as + for (i=0; i < 3; i++) { + for (j=0; j < 3; j++) { + p ->Mat[i][j] = DOUBLE_TO_1FIXED14(Mat->v[i].n[j]); + } + } + + for (i=0; i < 3; i++) { + + if (Off == NULL) { + p ->Off[i] = 0; + } + else { + p ->Off[i] = DOUBLE_TO_1FIXED14(Off->n[i]); + } + } + + // Mark as optimized for faster formatter + if (Is8Bits) + *OutputFormat |= OPTIMIZED_SH(1); + + // Fill function pointers + _cmsPipelineSetOptimizationParameters(Dest, MatShaperEval16, (void*) p, FreeMatShaper, DupMatShaper); + return TRUE; +} + +// 8 bits on input allows matrix-shaper boot up to 25 Mpixels per second on RGB. That's fast! +static +cmsBool OptimizeMatrixShaper(cmsPipeline** Lut, cmsUInt32Number Intent, cmsUInt32Number* InputFormat, cmsUInt32Number* OutputFormat, cmsUInt32Number* dwFlags) +{ + cmsStage* Curve1, *Curve2; + cmsStage* Matrix1, *Matrix2; + cmsMAT3 res; + cmsBool IdentityMat; + cmsPipeline* Dest, *Src; + cmsFloat64Number* Offset; + + // Only works on RGB to RGB + if (T_CHANNELS(*InputFormat) != 3 || T_CHANNELS(*OutputFormat) != 3) return FALSE; + + // Only works on 8 bit input + if (!_cmsFormatterIs8bit(*InputFormat)) return FALSE; + + // Seems suitable, proceed + Src = *Lut; + + // Check for: + // + // shaper-matrix-matrix-shaper + // shaper-matrix-shaper + // + // Both of those constructs are possible (first because abs. colorimetric). + // additionally, In the first case, the input matrix offset should be zero. + + IdentityMat = FALSE; + if (cmsPipelineCheckAndRetreiveStages(Src, 4, + cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, + &Curve1, &Matrix1, &Matrix2, &Curve2)) { + + // Get both matrices + _cmsStageMatrixData* Data1 = (_cmsStageMatrixData*)cmsStageData(Matrix1); + _cmsStageMatrixData* Data2 = (_cmsStageMatrixData*)cmsStageData(Matrix2); + + // Input offset should be zero + if (Data1->Offset != NULL) return FALSE; + + // Multiply both matrices to get the result + _cmsMAT3per(&res, (cmsMAT3*)Data2->Double, (cmsMAT3*)Data1->Double); + + // Only 2nd matrix has offset, or it is zero + Offset = Data2->Offset; + + // Now the result is in res + Data2 -> Offset. Maybe is a plain identity? + if (_cmsMAT3isIdentity(&res) && Offset == NULL) { + + // We can get rid of full matrix + IdentityMat = TRUE; + } + + } + else { + + if (cmsPipelineCheckAndRetreiveStages(Src, 3, + cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, + &Curve1, &Matrix1, &Curve2)) { + + _cmsStageMatrixData* Data = (_cmsStageMatrixData*)cmsStageData(Matrix1); + + // Copy the matrix to our result + memcpy(&res, Data->Double, sizeof(res)); + + // Preserve the Odffset (may be NULL as a zero offset) + Offset = Data->Offset; + + if (_cmsMAT3isIdentity(&res) && Offset == NULL) { + + // We can get rid of full matrix + IdentityMat = TRUE; + } + } + else + return FALSE; // Not optimizeable this time + + } + + // Allocate an empty LUT + Dest = cmsPipelineAlloc(Src ->ContextID, Src ->InputChannels, Src ->OutputChannels); + if (!Dest) return FALSE; + + // Assamble the new LUT + if (!cmsPipelineInsertStage(Dest, cmsAT_BEGIN, cmsStageDup(Curve1))) + goto Error; + + if (!IdentityMat) { + + if (!cmsPipelineInsertStage(Dest, cmsAT_END, cmsStageAllocMatrix(Dest->ContextID, 3, 3, (const cmsFloat64Number*)&res, Offset))) + goto Error; + } + + if (!cmsPipelineInsertStage(Dest, cmsAT_END, cmsStageDup(Curve2))) + goto Error; + + // If identity on matrix, we can further optimize the curves, so call the join curves routine + if (IdentityMat) { + + OptimizeByJoiningCurves(&Dest, Intent, InputFormat, OutputFormat, dwFlags); + } + else { + _cmsStageToneCurvesData* mpeC1 = (_cmsStageToneCurvesData*) cmsStageData(Curve1); + _cmsStageToneCurvesData* mpeC2 = (_cmsStageToneCurvesData*) cmsStageData(Curve2); + + // In this particular optimization, caché does not help as it takes more time to deal with + // the caché that with the pixel handling + *dwFlags |= cmsFLAGS_NOCACHE; + + // Setup the optimizarion routines + SetMatShaper(Dest, mpeC1 ->TheCurves, &res, (cmsVEC3*) Offset, mpeC2->TheCurves, OutputFormat); + } + + cmsPipelineFree(Src); + *Lut = Dest; + return TRUE; +Error: + // Leave Src unchanged + cmsPipelineFree(Dest); + return FALSE; +} + + +// ------------------------------------------------------------------------------------------------------------------------------------- +// Optimization plug-ins + +// List of optimizations +typedef struct _cmsOptimizationCollection_st { + + _cmsOPToptimizeFn OptimizePtr; + + struct _cmsOptimizationCollection_st *Next; + +} _cmsOptimizationCollection; + + +// The built-in list. We currently implement 4 types of optimizations. Joining of curves, matrix-shaper, linearization and resampling +static _cmsOptimizationCollection DefaultOptimization[] = { + + { OptimizeByJoiningCurves, &DefaultOptimization[1] }, + { OptimizeMatrixShaper, &DefaultOptimization[2] }, + { OptimizeByComputingLinearization, &DefaultOptimization[3] }, + { OptimizeByResampling, NULL } +}; + +// The linked list head +_cmsOptimizationPluginChunkType _cmsOptimizationPluginChunk = { NULL }; + + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupPluginOptimizationList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsOptimizationPluginChunkType newHead = { NULL }; + _cmsOptimizationCollection* entry; + _cmsOptimizationCollection* Anterior = NULL; + _cmsOptimizationPluginChunkType* head = (_cmsOptimizationPluginChunkType*) src->chunks[OptimizationPlugin]; + + _cmsAssert(ctx != NULL); + _cmsAssert(head != NULL); + + // Walk the list copying all nodes + for (entry = head->OptimizationCollection; + entry != NULL; + entry = entry ->Next) { + + _cmsOptimizationCollection *newEntry = ( _cmsOptimizationCollection *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(_cmsOptimizationCollection)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.OptimizationCollection == NULL) + newHead.OptimizationCollection = newEntry; + } + + ctx ->chunks[OptimizationPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsOptimizationPluginChunkType)); +} + +void _cmsAllocOptimizationPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + // Copy all linked list + DupPluginOptimizationList(ctx, src); + } + else { + static _cmsOptimizationPluginChunkType OptimizationPluginChunkType = { NULL }; + ctx ->chunks[OptimizationPlugin] = _cmsSubAllocDup(ctx ->MemPool, &OptimizationPluginChunkType, sizeof(_cmsOptimizationPluginChunkType)); + } +} + + +// Register new ways to optimize +cmsBool _cmsRegisterOptimizationPlugin(cmsContext ContextID, cmsPluginBase* Data) +{ + cmsPluginOptimization* Plugin = (cmsPluginOptimization*) Data; + _cmsOptimizationPluginChunkType* ctx = ( _cmsOptimizationPluginChunkType*) _cmsContextGetClientChunk(ContextID, OptimizationPlugin); + _cmsOptimizationCollection* fl; + + if (Data == NULL) { + + ctx->OptimizationCollection = NULL; + return TRUE; + } + + // Optimizer callback is required + if (Plugin ->OptimizePtr == NULL) return FALSE; + + fl = (_cmsOptimizationCollection*) _cmsPluginMalloc(ContextID, sizeof(_cmsOptimizationCollection)); + if (fl == NULL) return FALSE; + + // Copy the parameters + fl ->OptimizePtr = Plugin ->OptimizePtr; + + // Keep linked list + fl ->Next = ctx->OptimizationCollection; + + // Set the head + ctx ->OptimizationCollection = fl; + + // All is ok + return TRUE; +} + +// The entry point for LUT optimization +cmsBool _cmsOptimizePipeline(cmsContext ContextID, + cmsPipeline** PtrLut, + int Intent, + cmsUInt32Number* InputFormat, + cmsUInt32Number* OutputFormat, + cmsUInt32Number* dwFlags) +{ + _cmsOptimizationPluginChunkType* ctx = ( _cmsOptimizationPluginChunkType*) _cmsContextGetClientChunk(ContextID, OptimizationPlugin); + _cmsOptimizationCollection* Opts; + cmsBool AnySuccess = FALSE; + + // A CLUT is being asked, so force this specific optimization + if (*dwFlags & cmsFLAGS_FORCE_CLUT) { + + PreOptimize(*PtrLut); + return OptimizeByResampling(PtrLut, Intent, InputFormat, OutputFormat, dwFlags); + } + + // Anything to optimize? + if ((*PtrLut) ->Elements == NULL) { + _cmsPipelineSetOptimizationParameters(*PtrLut, FastIdentity16, (void*) *PtrLut, NULL, NULL); + return TRUE; + } + + // Try to get rid of identities and trivial conversions. + AnySuccess = PreOptimize(*PtrLut); + + // After removal do we end with an identity? + if ((*PtrLut) ->Elements == NULL) { + _cmsPipelineSetOptimizationParameters(*PtrLut, FastIdentity16, (void*) *PtrLut, NULL, NULL); + return TRUE; + } + + // Do not optimize, keep all precision + if (*dwFlags & cmsFLAGS_NOOPTIMIZE) + return FALSE; + + // Try plug-in optimizations + for (Opts = ctx->OptimizationCollection; + Opts != NULL; + Opts = Opts ->Next) { + + // If one schema succeeded, we are done + if (Opts ->OptimizePtr(PtrLut, Intent, InputFormat, OutputFormat, dwFlags)) { + + return TRUE; // Optimized! + } + } + + // Try built-in optimizations + for (Opts = DefaultOptimization; + Opts != NULL; + Opts = Opts ->Next) { + + if (Opts ->OptimizePtr(PtrLut, Intent, InputFormat, OutputFormat, dwFlags)) { + + return TRUE; + } + } + + // Only simple optimizations succeeded + return AnySuccess; +} + + + Index: sdk/lib/3rdparty/lcms2/cmspack.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmspack.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmspack.c (working copy) @@ -0,0 +1,3354 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// This module handles all formats supported by lcms. There are two flavors, 16 bits and +// floating point. Floating point is supported only in a subset, those formats holding +// cmsFloat32Number (4 bytes per component) and double (marked as 0 bytes per component +// as special case) + +// --------------------------------------------------------------------------- + + +// This macro return words stored as big endian +#define CHANGE_ENDIAN(w) (cmsUInt16Number) ((cmsUInt16Number) ((w)<<8)|((w)>>8)) + +// These macros handles reversing (negative) +#define REVERSE_FLAVOR_8(x) ((cmsUInt8Number) (0xff-(x))) +#define REVERSE_FLAVOR_16(x) ((cmsUInt16Number)(0xffff-(x))) + +// * 0xffff / 0xff00 = (255 * 257) / (255 * 256) = 257 / 256 +cmsINLINE cmsUInt16Number FomLabV2ToLabV4(cmsUInt16Number x) +{ + int a = (x << 8 | x) >> 8; // * 257 / 256 + if ( a > 0xffff) return 0xffff; + return (cmsUInt16Number) a; +} + +// * 0xf00 / 0xffff = * 256 / 257 +cmsINLINE cmsUInt16Number FomLabV4ToLabV2(cmsUInt16Number x) +{ + return (cmsUInt16Number) (((x << 8) + 0x80) / 257); +} + + +typedef struct { + cmsUInt32Number Type; + cmsUInt32Number Mask; + cmsFormatter16 Frm; + +} cmsFormatters16; + +typedef struct { + cmsUInt32Number Type; + cmsUInt32Number Mask; + cmsFormatterFloat Frm; + +} cmsFormattersFloat; + + +#define ANYSPACE COLORSPACE_SH(31) +#define ANYCHANNELS CHANNELS_SH(15) +#define ANYEXTRA EXTRA_SH(7) +#define ANYPLANAR PLANAR_SH(1) +#define ANYENDIAN ENDIAN16_SH(1) +#define ANYSWAP DOSWAP_SH(1) +#define ANYSWAPFIRST SWAPFIRST_SH(1) +#define ANYFLAVOR FLAVOR_SH(1) + + +// Suppress waning about info never being used + +#ifdef _MSC_VER +#pragma warning(disable : 4100) +#endif + +// Unpacking routines (16 bits) ---------------------------------------------------------------------------------------- + + +// Does almost everything but is slow +static +cmsUInt8Number* UnrollChunkyBytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsUInt16Number v; + int i; + + if (ExtraFirst) { + accum += Extra; + } + + for (i=0; i < nChan; i++) { + int index = DoSwap ? (nChan - i - 1) : i; + + v = FROM_8_TO_16(*accum); + v = Reverse ? REVERSE_FLAVOR_16(v) : v; + wIn[index] = v; + accum++; + } + + if (!ExtraFirst) { + accum += Extra; + } + + if (Extra == 0 && SwapFirst) { + cmsUInt16Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsUInt16Number)); + wIn[nChan-1] = tmp; + } + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); + +} + +// Extra channels are just ignored because come in the next planes +static +cmsUInt8Number* UnrollPlanarBytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int i; + cmsUInt8Number* Init = accum; + + if (DoSwap ^ SwapFirst) { + accum += T_EXTRA(info -> InputFormat) * Stride; + } + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + cmsUInt16Number v = FROM_8_TO_16(*accum); + + wIn[index] = Reverse ? REVERSE_FLAVOR_16(v) : v; + accum += Stride; + } + + return (Init + 1); +} + +// Special cases, provided for performance +static +cmsUInt8Number* Unroll4Bytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = FROM_8_TO_16(*accum); accum++; // C + wIn[1] = FROM_8_TO_16(*accum); accum++; // M + wIn[2] = FROM_8_TO_16(*accum); accum++; // Y + wIn[3] = FROM_8_TO_16(*accum); accum++; // K + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll4BytesReverse(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = FROM_8_TO_16(REVERSE_FLAVOR_8(*accum)); accum++; // C + wIn[1] = FROM_8_TO_16(REVERSE_FLAVOR_8(*accum)); accum++; // M + wIn[2] = FROM_8_TO_16(REVERSE_FLAVOR_8(*accum)); accum++; // Y + wIn[3] = FROM_8_TO_16(REVERSE_FLAVOR_8(*accum)); accum++; // K + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll4BytesSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[3] = FROM_8_TO_16(*accum); accum++; // K + wIn[0] = FROM_8_TO_16(*accum); accum++; // C + wIn[1] = FROM_8_TO_16(*accum); accum++; // M + wIn[2] = FROM_8_TO_16(*accum); accum++; // Y + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// KYMC +static +cmsUInt8Number* Unroll4BytesSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[3] = FROM_8_TO_16(*accum); accum++; // K + wIn[2] = FROM_8_TO_16(*accum); accum++; // Y + wIn[1] = FROM_8_TO_16(*accum); accum++; // M + wIn[0] = FROM_8_TO_16(*accum); accum++; // C + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll4BytesSwapSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[2] = FROM_8_TO_16(*accum); accum++; // K + wIn[1] = FROM_8_TO_16(*accum); accum++; // Y + wIn[0] = FROM_8_TO_16(*accum); accum++; // M + wIn[3] = FROM_8_TO_16(*accum); accum++; // C + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3Bytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = FROM_8_TO_16(*accum); accum++; // R + wIn[1] = FROM_8_TO_16(*accum); accum++; // G + wIn[2] = FROM_8_TO_16(*accum); accum++; // B + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3BytesSkip1Swap(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + accum++; // A + wIn[2] = FROM_8_TO_16(*accum); accum++; // B + wIn[1] = FROM_8_TO_16(*accum); accum++; // G + wIn[0] = FROM_8_TO_16(*accum); accum++; // R + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3BytesSkip1SwapSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[2] = FROM_8_TO_16(*accum); accum++; // B + wIn[1] = FROM_8_TO_16(*accum); accum++; // G + wIn[0] = FROM_8_TO_16(*accum); accum++; // R + accum++; // A + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3BytesSkip1SwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + accum++; // A + wIn[0] = FROM_8_TO_16(*accum); accum++; // R + wIn[1] = FROM_8_TO_16(*accum); accum++; // G + wIn[2] = FROM_8_TO_16(*accum); accum++; // B + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +// BRG +static +cmsUInt8Number* Unroll3BytesSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[2] = FROM_8_TO_16(*accum); accum++; // B + wIn[1] = FROM_8_TO_16(*accum); accum++; // G + wIn[0] = FROM_8_TO_16(*accum); accum++; // R + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* UnrollLabV2_8(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = FomLabV2ToLabV4(FROM_8_TO_16(*accum)); accum++; // L + wIn[1] = FomLabV2ToLabV4(FROM_8_TO_16(*accum)); accum++; // a + wIn[2] = FomLabV2ToLabV4(FROM_8_TO_16(*accum)); accum++; // b + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* UnrollALabV2_8(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + accum++; // A + wIn[0] = FomLabV2ToLabV4(FROM_8_TO_16(*accum)); accum++; // L + wIn[1] = FomLabV2ToLabV4(FROM_8_TO_16(*accum)); accum++; // a + wIn[2] = FomLabV2ToLabV4(FROM_8_TO_16(*accum)); accum++; // b + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* UnrollLabV2_16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = FomLabV2ToLabV4(*(cmsUInt16Number*) accum); accum += 2; // L + wIn[1] = FomLabV2ToLabV4(*(cmsUInt16Number*) accum); accum += 2; // a + wIn[2] = FomLabV2ToLabV4(*(cmsUInt16Number*) accum); accum += 2; // b + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// for duplex +static +cmsUInt8Number* Unroll2Bytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = FROM_8_TO_16(*accum); accum++; // ch1 + wIn[1] = FROM_8_TO_16(*accum); accum++; // ch2 + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + + + +// Monochrome duplicates L into RGB for null-transforms +static +cmsUInt8Number* Unroll1Byte(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = FROM_8_TO_16(*accum); accum++; // L + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Unroll1ByteSkip1(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = FROM_8_TO_16(*accum); accum++; // L + accum += 1; + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll1ByteSkip2(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = FROM_8_TO_16(*accum); accum++; // L + accum += 2; + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll1ByteReversed(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = REVERSE_FLAVOR_16(FROM_8_TO_16(*accum)); accum++; // L + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* UnrollAnyWords(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> InputFormat); + int SwapEndian = T_ENDIAN16(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int i; + + if (ExtraFirst) { + accum += Extra * sizeof(cmsUInt16Number); + } + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + cmsUInt16Number v = *(cmsUInt16Number*) accum; + + if (SwapEndian) + v = CHANGE_ENDIAN(v); + + wIn[index] = Reverse ? REVERSE_FLAVOR_16(v) : v; + + accum += sizeof(cmsUInt16Number); + } + + if (!ExtraFirst) { + accum += Extra * sizeof(cmsUInt16Number); + } + + if (Extra == 0 && SwapFirst) { + + cmsUInt16Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsUInt16Number)); + wIn[nChan-1] = tmp; + } + + return accum; + + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* UnrollPlanarWords(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap= T_DOSWAP(info ->InputFormat); + int Reverse= T_FLAVOR(info ->InputFormat); + int SwapEndian = T_ENDIAN16(info -> InputFormat); + int i; + cmsUInt8Number* Init = accum; + + if (DoSwap) { + accum += T_EXTRA(info -> InputFormat) * Stride * sizeof(cmsUInt16Number); + } + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + cmsUInt16Number v = *(cmsUInt16Number*) accum; + + if (SwapEndian) + v = CHANGE_ENDIAN(v); + + wIn[index] = Reverse ? REVERSE_FLAVOR_16(v) : v; + + accum += Stride * sizeof(cmsUInt16Number); + } + + return (Init + sizeof(cmsUInt16Number)); +} + + +static +cmsUInt8Number* Unroll4Words(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = *(cmsUInt16Number*) accum; accum+= 2; // C + wIn[1] = *(cmsUInt16Number*) accum; accum+= 2; // M + wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // Y + wIn[3] = *(cmsUInt16Number*) accum; accum+= 2; // K + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll4WordsReverse(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = REVERSE_FLAVOR_16(*(cmsUInt16Number*) accum); accum+= 2; // C + wIn[1] = REVERSE_FLAVOR_16(*(cmsUInt16Number*) accum); accum+= 2; // M + wIn[2] = REVERSE_FLAVOR_16(*(cmsUInt16Number*) accum); accum+= 2; // Y + wIn[3] = REVERSE_FLAVOR_16(*(cmsUInt16Number*) accum); accum+= 2; // K + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll4WordsSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[3] = *(cmsUInt16Number*) accum; accum+= 2; // K + wIn[0] = *(cmsUInt16Number*) accum; accum+= 2; // C + wIn[1] = *(cmsUInt16Number*) accum; accum+= 2; // M + wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // Y + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// KYMC +static +cmsUInt8Number* Unroll4WordsSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[3] = *(cmsUInt16Number*) accum; accum+= 2; // K + wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // Y + wIn[1] = *(cmsUInt16Number*) accum; accum+= 2; // M + wIn[0] = *(cmsUInt16Number*) accum; accum+= 2; // C + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll4WordsSwapSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // K + wIn[1] = *(cmsUInt16Number*) accum; accum+= 2; // Y + wIn[0] = *(cmsUInt16Number*) accum; accum+= 2; // M + wIn[3] = *(cmsUInt16Number*) accum; accum+= 2; // C + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3Words(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = *(cmsUInt16Number*) accum; accum+= 2; // C R + wIn[1] = *(cmsUInt16Number*) accum; accum+= 2; // M G + wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // Y B + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3WordsSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // C R + wIn[1] = *(cmsUInt16Number*) accum; accum+= 2; // M G + wIn[0] = *(cmsUInt16Number*) accum; accum+= 2; // Y B + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3WordsSkip1Swap(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + accum += 2; // A + wIn[2] = *(cmsUInt16Number*) accum; accum += 2; // R + wIn[1] = *(cmsUInt16Number*) accum; accum += 2; // G + wIn[0] = *(cmsUInt16Number*) accum; accum += 2; // B + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3WordsSkip1SwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + accum += 2; // A + wIn[0] = *(cmsUInt16Number*) accum; accum += 2; // R + wIn[1] = *(cmsUInt16Number*) accum; accum += 2; // G + wIn[2] = *(cmsUInt16Number*) accum; accum += 2; // B + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll1Word(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // L + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll1WordReversed(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = REVERSE_FLAVOR_16(*(cmsUInt16Number*) accum); accum+= 2; + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll1WordSkip3(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = *(cmsUInt16Number*) accum; + + accum += 8; + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll2Words(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = *(cmsUInt16Number*) accum; accum += 2; // ch1 + wIn[1] = *(cmsUInt16Number*) accum; accum += 2; // ch2 + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +// This is a conversion of Lab double to 16 bits +static +cmsUInt8Number* UnrollLabDoubleTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + if (T_PLANAR(info -> InputFormat)) { + + cmsFloat64Number* Pt = (cmsFloat64Number*) accum; + + cmsCIELab Lab; + + Lab.L = Pt[0]; + Lab.a = Pt[Stride]; + Lab.b = Pt[Stride*2]; + + cmsFloat2LabEncoded(wIn, &Lab); + return accum + sizeof(cmsFloat64Number); + } + else { + + cmsFloat2LabEncoded(wIn, (cmsCIELab*) accum); + accum += sizeof(cmsCIELab) + T_EXTRA(info ->InputFormat) * sizeof(cmsFloat64Number); + return accum; + } +} + + +// This is a conversion of Lab float to 16 bits +static +cmsUInt8Number* UnrollLabFloatTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + cmsCIELab Lab; + + if (T_PLANAR(info -> InputFormat)) { + + cmsFloat32Number* Pt = (cmsFloat32Number*) accum; + + + Lab.L = Pt[0]; + Lab.a = Pt[Stride]; + Lab.b = Pt[Stride*2]; + + cmsFloat2LabEncoded(wIn, &Lab); + return accum + sizeof(cmsFloat32Number); + } + else { + + Lab.L = ((cmsFloat32Number*) accum)[0]; + Lab.a = ((cmsFloat32Number*) accum)[1]; + Lab.b = ((cmsFloat32Number*) accum)[2]; + + cmsFloat2LabEncoded(wIn, &Lab); + accum += (3 + T_EXTRA(info ->InputFormat)) * sizeof(cmsFloat32Number); + return accum; + } +} + +// This is a conversion of XYZ double to 16 bits +static +cmsUInt8Number* UnrollXYZDoubleTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + if (T_PLANAR(info -> InputFormat)) { + + cmsFloat64Number* Pt = (cmsFloat64Number*) accum; + cmsCIEXYZ XYZ; + + XYZ.X = Pt[0]; + XYZ.Y = Pt[Stride]; + XYZ.Z = Pt[Stride*2]; + cmsFloat2XYZEncoded(wIn, &XYZ); + + return accum + sizeof(cmsFloat64Number); + + } + + else { + cmsFloat2XYZEncoded(wIn, (cmsCIEXYZ*) accum); + accum += sizeof(cmsCIEXYZ) + T_EXTRA(info ->InputFormat) * sizeof(cmsFloat64Number); + + return accum; + } +} + +// This is a conversion of XYZ float to 16 bits +static +cmsUInt8Number* UnrollXYZFloatTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + if (T_PLANAR(info -> InputFormat)) { + + cmsFloat32Number* Pt = (cmsFloat32Number*) accum; + cmsCIEXYZ XYZ; + + XYZ.X = Pt[0]; + XYZ.Y = Pt[Stride]; + XYZ.Z = Pt[Stride*2]; + cmsFloat2XYZEncoded(wIn, &XYZ); + + return accum + sizeof(cmsFloat32Number); + + } + + else { + cmsFloat32Number* Pt = (cmsFloat32Number*) accum; + cmsCIEXYZ XYZ; + + XYZ.X = Pt[0]; + XYZ.Y = Pt[1]; + XYZ.Z = Pt[2]; + cmsFloat2XYZEncoded(wIn, &XYZ); + + accum += 3 * sizeof(cmsFloat32Number) + T_EXTRA(info ->InputFormat) * sizeof(cmsFloat32Number); + + return accum; + } +} + +// Check if space is marked as ink +cmsINLINE cmsBool IsInkSpace(cmsUInt32Number Type) +{ + switch (T_COLORSPACE(Type)) { + + case PT_CMY: + case PT_CMYK: + case PT_MCH5: + case PT_MCH6: + case PT_MCH7: + case PT_MCH8: + case PT_MCH9: + case PT_MCH10: + case PT_MCH11: + case PT_MCH12: + case PT_MCH13: + case PT_MCH14: + case PT_MCH15: return TRUE; + + default: return FALSE; + } +} + +// Inks does come in percentage, remaining cases are between 0..1.0, again to 16 bits +static +cmsUInt8Number* UnrollDoubleTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int Planar = T_PLANAR(info -> InputFormat); + cmsFloat64Number v; + cmsUInt16Number vi; + int i, start = 0; + cmsFloat64Number maximum = IsInkSpace(info ->InputFormat) ? 655.35 : 65535.0; + + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + if (Planar) + v = (cmsFloat32Number) ((cmsFloat64Number*) accum)[(i + start) * Stride]; + else + v = (cmsFloat32Number) ((cmsFloat64Number*) accum)[i + start]; + + vi = _cmsQuickSaturateWord(v * maximum); + + if (Reverse) + vi = REVERSE_FLAVOR_16(vi); + + wIn[index] = vi; + } + + + if (Extra == 0 && SwapFirst) { + cmsUInt16Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsUInt16Number)); + wIn[nChan-1] = tmp; + } + + if (T_PLANAR(info -> InputFormat)) + return accum + sizeof(cmsFloat64Number); + else + return accum + (nChan + Extra) * sizeof(cmsFloat64Number); +} + + + +static +cmsUInt8Number* UnrollFloatTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int Planar = T_PLANAR(info -> InputFormat); + cmsFloat32Number v; + cmsUInt16Number vi; + int i, start = 0; + cmsFloat64Number maximum = IsInkSpace(info ->InputFormat) ? 655.35 : 65535.0; + + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + if (Planar) + v = (cmsFloat32Number) ((cmsFloat32Number*) accum)[(i + start) * Stride]; + else + v = (cmsFloat32Number) ((cmsFloat32Number*) accum)[i + start]; + + vi = _cmsQuickSaturateWord(v * maximum); + + if (Reverse) + vi = REVERSE_FLAVOR_16(vi); + + wIn[index] = vi; + } + + + if (Extra == 0 && SwapFirst) { + cmsUInt16Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsUInt16Number)); + wIn[nChan-1] = tmp; + } + + if (T_PLANAR(info -> InputFormat)) + return accum + sizeof(cmsFloat32Number); + else + return accum + (nChan + Extra) * sizeof(cmsFloat32Number); +} + + + + +// For 1 channel, we need to duplicate data (it comes in 0..1.0 range) +static +cmsUInt8Number* UnrollDouble1Chan(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + cmsFloat64Number* Inks = (cmsFloat64Number*) accum; + + wIn[0] = wIn[1] = wIn[2] = _cmsQuickSaturateWord(Inks[0] * 65535.0); + + return accum + sizeof(cmsFloat64Number); + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +//------------------------------------------------------------------------------------------------------------------- + +// For anything going from cmsFloat32Number +static +cmsUInt8Number* UnrollFloatsToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int Planar = T_PLANAR(info -> InputFormat); + cmsFloat32Number v; + int i, start = 0; + cmsFloat32Number maximum = IsInkSpace(info ->InputFormat) ? 100.0F : 1.0F; + + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + if (Planar) + v = (cmsFloat32Number) ((cmsFloat32Number*) accum)[(i + start) * Stride]; + else + v = (cmsFloat32Number) ((cmsFloat32Number*) accum)[i + start]; + + v /= maximum; + + wIn[index] = Reverse ? 1 - v : v; + } + + + if (Extra == 0 && SwapFirst) { + cmsFloat32Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsFloat32Number)); + wIn[nChan-1] = tmp; + } + + if (T_PLANAR(info -> InputFormat)) + return accum + sizeof(cmsFloat32Number); + else + return accum + (nChan + Extra) * sizeof(cmsFloat32Number); +} + +// For anything going from double + +static +cmsUInt8Number* UnrollDoublesToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int Planar = T_PLANAR(info -> InputFormat); + cmsFloat64Number v; + int i, start = 0; + cmsFloat64Number maximum = IsInkSpace(info ->InputFormat) ? 100.0 : 1.0; + + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + if (Planar) + v = (cmsFloat64Number) ((cmsFloat64Number*) accum)[(i + start) * Stride]; + else + v = (cmsFloat64Number) ((cmsFloat64Number*) accum)[i + start]; + + v /= maximum; + + wIn[index] = (cmsFloat32Number) (Reverse ? 1.0 - v : v); + } + + + if (Extra == 0 && SwapFirst) { + cmsFloat32Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsFloat32Number)); + wIn[nChan-1] = tmp; + } + + if (T_PLANAR(info -> InputFormat)) + return accum + sizeof(cmsFloat64Number); + else + return accum + (nChan + Extra) * sizeof(cmsFloat64Number); +} + + + +// From Lab double to cmsFloat32Number +static +cmsUInt8Number* UnrollLabDoubleToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + cmsFloat64Number* Pt = (cmsFloat64Number*) accum; + + if (T_PLANAR(info -> InputFormat)) { + + wIn[0] = (cmsFloat32Number) (Pt[0] / 100.0); // from 0..100 to 0..1 + wIn[1] = (cmsFloat32Number) ((Pt[Stride] + 128) / 255.0); // form -128..+127 to 0..1 + wIn[2] = (cmsFloat32Number) ((Pt[Stride*2] + 128) / 255.0); + + return accum + sizeof(cmsFloat64Number); + } + else { + + wIn[0] = (cmsFloat32Number) (Pt[0] / 100.0); // from 0..100 to 0..1 + wIn[1] = (cmsFloat32Number) ((Pt[1] + 128) / 255.0); // form -128..+127 to 0..1 + wIn[2] = (cmsFloat32Number) ((Pt[2] + 128) / 255.0); + + accum += sizeof(cmsFloat64Number)*(3 + T_EXTRA(info ->InputFormat)); + return accum; + } +} + +// From Lab double to cmsFloat32Number +static +cmsUInt8Number* UnrollLabFloatToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + cmsFloat32Number* Pt = (cmsFloat32Number*) accum; + + if (T_PLANAR(info -> InputFormat)) { + + wIn[0] = (cmsFloat32Number) (Pt[0] / 100.0); // from 0..100 to 0..1 + wIn[1] = (cmsFloat32Number) ((Pt[Stride] + 128) / 255.0); // form -128..+127 to 0..1 + wIn[2] = (cmsFloat32Number) ((Pt[Stride*2] + 128) / 255.0); + + return accum + sizeof(cmsFloat32Number); + } + else { + + wIn[0] = (cmsFloat32Number) (Pt[0] / 100.0); // from 0..100 to 0..1 + wIn[1] = (cmsFloat32Number) ((Pt[1] + 128) / 255.0); // form -128..+127 to 0..1 + wIn[2] = (cmsFloat32Number) ((Pt[2] + 128) / 255.0); + + accum += sizeof(cmsFloat32Number)*(3 + T_EXTRA(info ->InputFormat)); + return accum; + } +} + + + +// 1.15 fixed point, that means maximum value is MAX_ENCODEABLE_XYZ (0xFFFF) +static +cmsUInt8Number* UnrollXYZDoubleToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + cmsFloat64Number* Pt = (cmsFloat64Number*) accum; + + if (T_PLANAR(info -> InputFormat)) { + + wIn[0] = (cmsFloat32Number) (Pt[0] / MAX_ENCODEABLE_XYZ); + wIn[1] = (cmsFloat32Number) (Pt[Stride] / MAX_ENCODEABLE_XYZ); + wIn[2] = (cmsFloat32Number) (Pt[Stride*2] / MAX_ENCODEABLE_XYZ); + + return accum + sizeof(cmsFloat64Number); + } + else { + + wIn[0] = (cmsFloat32Number) (Pt[0] / MAX_ENCODEABLE_XYZ); + wIn[1] = (cmsFloat32Number) (Pt[1] / MAX_ENCODEABLE_XYZ); + wIn[2] = (cmsFloat32Number) (Pt[2] / MAX_ENCODEABLE_XYZ); + + accum += sizeof(cmsFloat64Number)*(3 + T_EXTRA(info ->InputFormat)); + return accum; + } +} + +static +cmsUInt8Number* UnrollXYZFloatToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + cmsFloat32Number* Pt = (cmsFloat32Number*) accum; + + if (T_PLANAR(info -> InputFormat)) { + + wIn[0] = (cmsFloat32Number) (Pt[0] / MAX_ENCODEABLE_XYZ); + wIn[1] = (cmsFloat32Number) (Pt[Stride] / MAX_ENCODEABLE_XYZ); + wIn[2] = (cmsFloat32Number) (Pt[Stride*2] / MAX_ENCODEABLE_XYZ); + + return accum + sizeof(cmsFloat32Number); + } + else { + + wIn[0] = (cmsFloat32Number) (Pt[0] / MAX_ENCODEABLE_XYZ); + wIn[1] = (cmsFloat32Number) (Pt[1] / MAX_ENCODEABLE_XYZ); + wIn[2] = (cmsFloat32Number) (Pt[2] / MAX_ENCODEABLE_XYZ); + + accum += sizeof(cmsFloat32Number)*(3 + T_EXTRA(info ->InputFormat)); + return accum; + } +} + + + +// Packing routines ----------------------------------------------------------------------------------------------------------- + + +// Generic chunky for byte + +static +cmsUInt8Number* PackAnyBytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> OutputFormat); + int DoSwap = T_DOSWAP(info ->OutputFormat); + int Reverse = T_FLAVOR(info ->OutputFormat); + int Extra = T_EXTRA(info -> OutputFormat); + int SwapFirst = T_SWAPFIRST(info -> OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsUInt8Number* swap1; + cmsUInt8Number v = 0; + int i; + + swap1 = output; + + if (ExtraFirst) { + output += Extra; + } + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = FROM_16_TO_8(wOut[index]); + + if (Reverse) + v = REVERSE_FLAVOR_8(v); + + *output++ = v; + } + + if (!ExtraFirst) { + output += Extra; + } + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, nChan-1); + *swap1 = v; + } + + + return output; + + cmsUNUSED_PARAMETER(Stride); +} + + + +static +cmsUInt8Number* PackAnyWords(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> OutputFormat); + int SwapEndian = T_ENDIAN16(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->OutputFormat); + int Reverse = T_FLAVOR(info ->OutputFormat); + int Extra = T_EXTRA(info -> OutputFormat); + int SwapFirst = T_SWAPFIRST(info -> OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsUInt16Number* swap1; + cmsUInt16Number v = 0; + int i; + + swap1 = (cmsUInt16Number*) output; + + if (ExtraFirst) { + output += Extra * sizeof(cmsUInt16Number); + } + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = wOut[index]; + + if (SwapEndian) + v = CHANGE_ENDIAN(v); + + if (Reverse) + v = REVERSE_FLAVOR_16(v); + + *(cmsUInt16Number*) output = v; + + output += sizeof(cmsUInt16Number); + } + + if (!ExtraFirst) { + output += Extra * sizeof(cmsUInt16Number); + } + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan-1)* sizeof(cmsUInt16Number)); + *swap1 = v; + } + + + return output; + + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* PackPlanarBytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> OutputFormat); + int DoSwap = T_DOSWAP(info ->OutputFormat); + int SwapFirst = T_SWAPFIRST(info ->OutputFormat); + int Reverse = T_FLAVOR(info ->OutputFormat); + int i; + cmsUInt8Number* Init = output; + + + if (DoSwap ^ SwapFirst) { + output += T_EXTRA(info -> OutputFormat) * Stride; + } + + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + cmsUInt8Number v = FROM_16_TO_8(wOut[index]); + + *(cmsUInt8Number*) output = (cmsUInt8Number) (Reverse ? REVERSE_FLAVOR_8(v) : v); + output += Stride; + } + + return (Init + 1); + + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* PackPlanarWords(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> OutputFormat); + int DoSwap = T_DOSWAP(info ->OutputFormat); + int Reverse= T_FLAVOR(info ->OutputFormat); + int SwapEndian = T_ENDIAN16(info -> OutputFormat); + int i; + cmsUInt8Number* Init = output; + cmsUInt16Number v; + + if (DoSwap) { + output += T_EXTRA(info -> OutputFormat) * Stride * sizeof(cmsUInt16Number); + } + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = wOut[index]; + + if (SwapEndian) + v = CHANGE_ENDIAN(v); + + if (Reverse) + v = REVERSE_FLAVOR_16(v); + + *(cmsUInt16Number*) output = v; + output += (Stride * sizeof(cmsUInt16Number)); + } + + return (Init + sizeof(cmsUInt16Number)); +} + +// CMYKcm (unrolled for speed) + +static +cmsUInt8Number* Pack6Bytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[3]); + *output++ = FROM_16_TO_8(wOut[4]); + *output++ = FROM_16_TO_8(wOut[5]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// KCMYcm + +static +cmsUInt8Number* Pack6BytesSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[5]); + *output++ = FROM_16_TO_8(wOut[4]); + *output++ = FROM_16_TO_8(wOut[3]); + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[0]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// CMYKcm +static +cmsUInt8Number* Pack6Words(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[3]; + output+= 2; + *(cmsUInt16Number*) output = wOut[4]; + output+= 2; + *(cmsUInt16Number*) output = wOut[5]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// KCMYcm +static +cmsUInt8Number* Pack6WordsSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[5]; + output+= 2; + *(cmsUInt16Number*) output = wOut[4]; + output+= 2; + *(cmsUInt16Number*) output = wOut[3]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack4Bytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[3]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack4BytesReverse(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = REVERSE_FLAVOR_8(FROM_16_TO_8(wOut[0])); + *output++ = REVERSE_FLAVOR_8(FROM_16_TO_8(wOut[1])); + *output++ = REVERSE_FLAVOR_8(FROM_16_TO_8(wOut[2])); + *output++ = REVERSE_FLAVOR_8(FROM_16_TO_8(wOut[3])); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack4BytesSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[3]); + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[2]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// ABGR +static +cmsUInt8Number* Pack4BytesSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[3]); + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[0]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack4BytesSwapSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[3]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack4Words(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[3]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack4WordsReverse(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = REVERSE_FLAVOR_16(wOut[0]); + output+= 2; + *(cmsUInt16Number*) output = REVERSE_FLAVOR_16(wOut[1]); + output+= 2; + *(cmsUInt16Number*) output = REVERSE_FLAVOR_16(wOut[2]); + output+= 2; + *(cmsUInt16Number*) output = REVERSE_FLAVOR_16(wOut[3]); + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// ABGR +static +cmsUInt8Number* Pack4WordsSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[3]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// CMYK +static +cmsUInt8Number* Pack4WordsBigEndian(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[0]); + output+= 2; + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[1]); + output+= 2; + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[2]); + output+= 2; + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[3]); + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* PackLabV2_8(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(FomLabV4ToLabV2(wOut[0])); + *output++ = FROM_16_TO_8(FomLabV4ToLabV2(wOut[1])); + *output++ = FROM_16_TO_8(FomLabV4ToLabV2(wOut[2])); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* PackALabV2_8(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output++; + *output++ = FROM_16_TO_8(FomLabV4ToLabV2(wOut[0])); + *output++ = FROM_16_TO_8(FomLabV4ToLabV2(wOut[1])); + *output++ = FROM_16_TO_8(FomLabV4ToLabV2(wOut[2])); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* PackLabV2_16(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = FomLabV4ToLabV2(wOut[0]); + output += 2; + *(cmsUInt16Number*) output = FomLabV4ToLabV2(wOut[1]); + output += 2; + *(cmsUInt16Number*) output = FomLabV4ToLabV2(wOut[2]); + output += 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3Bytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[2]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesOptimized(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = (wOut[0] & 0xFF); + *output++ = (wOut[1] & 0xFF); + *output++ = (wOut[2] & 0xFF); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[0]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesSwapOptimized(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = (wOut[2] & 0xFF); + *output++ = (wOut[1] & 0xFF); + *output++ = (wOut[0] & 0xFF); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack3Words(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3WordsSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3WordsBigEndian(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[0]); + output+= 2; + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[1]); + output+= 2; + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[2]); + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesAndSkip1(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[2]); + output++; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesAndSkip1Optimized(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = (wOut[0] & 0xFF); + *output++ = (wOut[1] & 0xFF); + *output++ = (wOut[2] & 0xFF); + output++; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack3BytesAndSkip1SwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output++; + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[2]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesAndSkip1SwapFirstOptimized(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output++; + *output++ = (wOut[0] & 0xFF); + *output++ = (wOut[1] & 0xFF); + *output++ = (wOut[2] & 0xFF); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesAndSkip1Swap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output++; + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[0]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesAndSkip1SwapOptimized(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output++; + *output++ = (wOut[2] & 0xFF); + *output++ = (wOut[1] & 0xFF); + *output++ = (wOut[0] & 0xFF); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack3BytesAndSkip1SwapSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[0]); + output++; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesAndSkip1SwapSwapFirstOptimized(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = (wOut[2] & 0xFF); + *output++ = (wOut[1] & 0xFF); + *output++ = (wOut[0] & 0xFF); + output++; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3WordsAndSkip1(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3WordsAndSkip1Swap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack3WordsAndSkip1SwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output+= 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack3WordsAndSkip1SwapSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + + +static +cmsUInt8Number* Pack1Byte(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[0]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack1ByteReversed(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(REVERSE_FLAVOR_16(wOut[0])); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack1ByteSkip1(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[0]); + output++; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack1ByteSkip1SwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output++; + *output++ = FROM_16_TO_8(wOut[0]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack1Word(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack1WordReversed(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = REVERSE_FLAVOR_16(wOut[0]); + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack1WordBigEndian(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[0]); + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack1WordSkip1(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[0]; + output+= 4; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack1WordSkip1SwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output += 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +// Unencoded Float values -- don't try optimize speed +static +cmsUInt8Number* PackLabDoubleFrom16(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + + if (T_PLANAR(info -> OutputFormat)) { + + cmsCIELab Lab; + cmsFloat64Number* Out = (cmsFloat64Number*) output; + cmsLabEncoded2Float(&Lab, wOut); + + Out[0] = Lab.L; + Out[Stride] = Lab.a; + Out[Stride*2] = Lab.b; + + return output + sizeof(cmsFloat64Number); + } + else { + + cmsLabEncoded2Float((cmsCIELab*) output, wOut); + return output + (sizeof(cmsCIELab) + T_EXTRA(info ->OutputFormat) * sizeof(cmsFloat64Number)); + } +} + + +static +cmsUInt8Number* PackLabFloatFrom16(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + cmsCIELab Lab; + cmsLabEncoded2Float(&Lab, wOut); + + if (T_PLANAR(info -> OutputFormat)) { + + cmsFloat32Number* Out = (cmsFloat32Number*) output; + + Out[0] = (cmsFloat32Number)Lab.L; + Out[Stride] = (cmsFloat32Number)Lab.a; + Out[Stride*2] = (cmsFloat32Number)Lab.b; + + return output + sizeof(cmsFloat32Number); + } + else { + + ((cmsFloat32Number*) output)[0] = (cmsFloat32Number) Lab.L; + ((cmsFloat32Number*) output)[1] = (cmsFloat32Number) Lab.a; + ((cmsFloat32Number*) output)[2] = (cmsFloat32Number) Lab.b; + + return output + (3 + T_EXTRA(info ->OutputFormat)) * sizeof(cmsFloat32Number); + } +} + +static +cmsUInt8Number* PackXYZDoubleFrom16(register _cmsTRANSFORM* Info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + if (T_PLANAR(Info -> OutputFormat)) { + + cmsCIEXYZ XYZ; + cmsFloat64Number* Out = (cmsFloat64Number*) output; + cmsXYZEncoded2Float(&XYZ, wOut); + + Out[0] = XYZ.X; + Out[Stride] = XYZ.Y; + Out[Stride*2] = XYZ.Z; + + return output + sizeof(cmsFloat64Number); + + } + else { + + cmsXYZEncoded2Float((cmsCIEXYZ*) output, wOut); + + return output + (sizeof(cmsCIEXYZ) + T_EXTRA(Info ->OutputFormat) * sizeof(cmsFloat64Number)); + } +} + +static +cmsUInt8Number* PackXYZFloatFrom16(register _cmsTRANSFORM* Info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + if (T_PLANAR(Info -> OutputFormat)) { + + cmsCIEXYZ XYZ; + cmsFloat32Number* Out = (cmsFloat32Number*) output; + cmsXYZEncoded2Float(&XYZ, wOut); + + Out[0] = (cmsFloat32Number) XYZ.X; + Out[Stride] = (cmsFloat32Number) XYZ.Y; + Out[Stride*2] = (cmsFloat32Number) XYZ.Z; + + return output + sizeof(cmsFloat32Number); + + } + else { + + cmsCIEXYZ XYZ; + cmsFloat32Number* Out = (cmsFloat32Number*) output; + cmsXYZEncoded2Float(&XYZ, wOut); + + Out[0] = (cmsFloat32Number) XYZ.X; + Out[1] = (cmsFloat32Number) XYZ.Y; + Out[2] = (cmsFloat32Number) XYZ.Z; + + return output + (3 * sizeof(cmsFloat32Number) + T_EXTRA(Info ->OutputFormat) * sizeof(cmsFloat32Number)); + } +} + +static +cmsUInt8Number* PackDoubleFrom16(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> OutputFormat); + int DoSwap = T_DOSWAP(info ->OutputFormat); + int Reverse = T_FLAVOR(info ->OutputFormat); + int Extra = T_EXTRA(info -> OutputFormat); + int SwapFirst = T_SWAPFIRST(info -> OutputFormat); + int Planar = T_PLANAR(info -> OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsFloat64Number maximum = IsInkSpace(info ->OutputFormat) ? 655.35 : 65535.0; + cmsFloat64Number v = 0; + cmsFloat64Number* swap1 = (cmsFloat64Number*) output; + int i, start = 0; + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = (cmsFloat64Number) wOut[index] / maximum; + + if (Reverse) + v = maximum - v; + + if (Planar) + ((cmsFloat64Number*) output)[(i + start) * Stride]= v; + else + ((cmsFloat64Number*) output)[i + start] = v; + } + + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan-1)* sizeof(cmsFloat64Number)); + *swap1 = v; + } + + if (T_PLANAR(info -> OutputFormat)) + return output + sizeof(cmsFloat64Number); + else + return output + (nChan + Extra) * sizeof(cmsFloat64Number); + +} + + +static +cmsUInt8Number* PackFloatFrom16(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info->OutputFormat); + int DoSwap = T_DOSWAP(info->OutputFormat); + int Reverse = T_FLAVOR(info->OutputFormat); + int Extra = T_EXTRA(info->OutputFormat); + int SwapFirst = T_SWAPFIRST(info->OutputFormat); + int Planar = T_PLANAR(info->OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsFloat64Number maximum = IsInkSpace(info->OutputFormat) ? 655.35 : 65535.0; + cmsFloat64Number v = 0; + cmsFloat32Number* swap1 = (cmsFloat32Number*)output; + int i, start = 0; + + if (ExtraFirst) + start = Extra; + + for (i = 0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = (cmsFloat64Number)wOut[index] / maximum; + + if (Reverse) + v = maximum - v; + + if (Planar) + ((cmsFloat32Number*)output)[(i + start) * Stride] = (cmsFloat32Number)v; + else + ((cmsFloat32Number*)output)[i + start] = (cmsFloat32Number)v; + } + + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan - 1)* sizeof(cmsFloat32Number)); + *swap1 = (cmsFloat32Number)v; + } + + if (T_PLANAR(info->OutputFormat)) + return output + sizeof(cmsFloat32Number); + else + return output + (nChan + Extra) * sizeof(cmsFloat32Number); +} + + + +// -------------------------------------------------------------------------------------------------------- + +static +cmsUInt8Number* PackFloatsFromFloat(_cmsTRANSFORM* info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info->OutputFormat); + int DoSwap = T_DOSWAP(info->OutputFormat); + int Reverse = T_FLAVOR(info->OutputFormat); + int Extra = T_EXTRA(info->OutputFormat); + int SwapFirst = T_SWAPFIRST(info->OutputFormat); + int Planar = T_PLANAR(info->OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsFloat64Number maximum = IsInkSpace(info->OutputFormat) ? 100.0 : 1.0; + cmsFloat32Number* swap1 = (cmsFloat32Number*)output; + cmsFloat64Number v = 0; + int i, start = 0; + + if (ExtraFirst) + start = Extra; + + for (i = 0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = wOut[index] * maximum; + + if (Reverse) + v = maximum - v; + + if (Planar) + ((cmsFloat32Number*)output)[(i + start)* Stride] = (cmsFloat32Number)v; + else + ((cmsFloat32Number*)output)[i + start] = (cmsFloat32Number)v; + } + + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan - 1)* sizeof(cmsFloat32Number)); + *swap1 = (cmsFloat32Number)v; + } + + if (T_PLANAR(info->OutputFormat)) + return output + sizeof(cmsFloat32Number); + else + return output + (nChan + Extra) * sizeof(cmsFloat32Number); +} + +static +cmsUInt8Number* PackDoublesFromFloat(_cmsTRANSFORM* info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info->OutputFormat); + int DoSwap = T_DOSWAP(info->OutputFormat); + int Reverse = T_FLAVOR(info->OutputFormat); + int Extra = T_EXTRA(info->OutputFormat); + int SwapFirst = T_SWAPFIRST(info->OutputFormat); + int Planar = T_PLANAR(info->OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsFloat64Number maximum = IsInkSpace(info->OutputFormat) ? 100.0 : 1.0; + cmsFloat64Number v = 0; + cmsFloat64Number* swap1 = (cmsFloat64Number*)output; + int i, start = 0; + + if (ExtraFirst) + start = Extra; + + for (i = 0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = wOut[index] * maximum; + + if (Reverse) + v = maximum - v; + + if (Planar) + ((cmsFloat64Number*)output)[(i + start) * Stride] = v; + else + ((cmsFloat64Number*)output)[i + start] = v; + } + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan - 1)* sizeof(cmsFloat64Number)); + *swap1 = v; + } + + + if (T_PLANAR(info->OutputFormat)) + return output + sizeof(cmsFloat64Number); + else + return output + (nChan + Extra) * sizeof(cmsFloat64Number); + +} + + + + + +static +cmsUInt8Number* PackLabFloatFromFloat(_cmsTRANSFORM* Info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + cmsFloat32Number* Out = (cmsFloat32Number*) output; + + if (T_PLANAR(Info -> OutputFormat)) { + + Out[0] = (cmsFloat32Number) (wOut[0] * 100.0); + Out[Stride] = (cmsFloat32Number) (wOut[1] * 255.0 - 128.0); + Out[Stride*2] = (cmsFloat32Number) (wOut[2] * 255.0 - 128.0); + + return output + sizeof(cmsFloat32Number); + } + else { + + Out[0] = (cmsFloat32Number) (wOut[0] * 100.0); + Out[1] = (cmsFloat32Number) (wOut[1] * 255.0 - 128.0); + Out[2] = (cmsFloat32Number) (wOut[2] * 255.0 - 128.0); + + return output + (sizeof(cmsFloat32Number)*3 + T_EXTRA(Info ->OutputFormat) * sizeof(cmsFloat32Number)); + } + +} + + +static +cmsUInt8Number* PackLabDoubleFromFloat(_cmsTRANSFORM* Info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + cmsFloat64Number* Out = (cmsFloat64Number*) output; + + if (T_PLANAR(Info -> OutputFormat)) { + + Out[0] = (cmsFloat64Number) (wOut[0] * 100.0); + Out[Stride] = (cmsFloat64Number) (wOut[1] * 255.0 - 128.0); + Out[Stride*2] = (cmsFloat64Number) (wOut[2] * 255.0 - 128.0); + + return output + sizeof(cmsFloat64Number); + } + else { + + Out[0] = (cmsFloat64Number) (wOut[0] * 100.0); + Out[1] = (cmsFloat64Number) (wOut[1] * 255.0 - 128.0); + Out[2] = (cmsFloat64Number) (wOut[2] * 255.0 - 128.0); + + return output + (sizeof(cmsFloat64Number)*3 + T_EXTRA(Info ->OutputFormat) * sizeof(cmsFloat64Number)); + } + +} + + +// From 0..1 range to 0..MAX_ENCODEABLE_XYZ +static +cmsUInt8Number* PackXYZFloatFromFloat(_cmsTRANSFORM* Info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + cmsFloat32Number* Out = (cmsFloat32Number*) output; + + if (T_PLANAR(Info -> OutputFormat)) { + + Out[0] = (cmsFloat32Number) (wOut[0] * MAX_ENCODEABLE_XYZ); + Out[Stride] = (cmsFloat32Number) (wOut[1] * MAX_ENCODEABLE_XYZ); + Out[Stride*2] = (cmsFloat32Number) (wOut[2] * MAX_ENCODEABLE_XYZ); + + return output + sizeof(cmsFloat32Number); + } + else { + + Out[0] = (cmsFloat32Number) (wOut[0] * MAX_ENCODEABLE_XYZ); + Out[1] = (cmsFloat32Number) (wOut[1] * MAX_ENCODEABLE_XYZ); + Out[2] = (cmsFloat32Number) (wOut[2] * MAX_ENCODEABLE_XYZ); + + return output + (sizeof(cmsFloat32Number)*3 + T_EXTRA(Info ->OutputFormat) * sizeof(cmsFloat32Number)); + } + +} + +// Same, but convert to double +static +cmsUInt8Number* PackXYZDoubleFromFloat(_cmsTRANSFORM* Info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + cmsFloat64Number* Out = (cmsFloat64Number*) output; + + if (T_PLANAR(Info -> OutputFormat)) { + + Out[0] = (cmsFloat64Number) (wOut[0] * MAX_ENCODEABLE_XYZ); + Out[Stride] = (cmsFloat64Number) (wOut[1] * MAX_ENCODEABLE_XYZ); + Out[Stride*2] = (cmsFloat64Number) (wOut[2] * MAX_ENCODEABLE_XYZ); + + return output + sizeof(cmsFloat64Number); + } + else { + + Out[0] = (cmsFloat64Number) (wOut[0] * MAX_ENCODEABLE_XYZ); + Out[1] = (cmsFloat64Number) (wOut[1] * MAX_ENCODEABLE_XYZ); + Out[2] = (cmsFloat64Number) (wOut[2] * MAX_ENCODEABLE_XYZ); + + return output + (sizeof(cmsFloat64Number)*3 + T_EXTRA(Info ->OutputFormat) * sizeof(cmsFloat64Number)); + } + +} + + +// ---------------------------------------------------------------------------------------------------------------- + +#ifndef CMS_NO_HALF_SUPPORT + +// Decodes an stream of half floats to wIn[] described by input format + +static +cmsUInt8Number* UnrollHalfTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int Planar = T_PLANAR(info -> InputFormat); + cmsFloat32Number v; + int i, start = 0; + cmsFloat32Number maximum = IsInkSpace(info ->InputFormat) ? 655.35F : 65535.0F; + + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + if (Planar) + v = _cmsHalf2Float ( ((cmsUInt16Number*) accum)[(i + start) * Stride] ); + else + v = _cmsHalf2Float ( ((cmsUInt16Number*) accum)[i + start] ) ; + + if (Reverse) v = maximum - v; + + wIn[index] = _cmsQuickSaturateWord(v * maximum); + } + + + if (Extra == 0 && SwapFirst) { + cmsUInt16Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsUInt16Number)); + wIn[nChan-1] = tmp; + } + + if (T_PLANAR(info -> InputFormat)) + return accum + sizeof(cmsUInt16Number); + else + return accum + (nChan + Extra) * sizeof(cmsUInt16Number); +} + +// Decodes an stream of half floats to wIn[] described by input format + +static +cmsUInt8Number* UnrollHalfToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int Planar = T_PLANAR(info -> InputFormat); + cmsFloat32Number v; + int i, start = 0; + cmsFloat32Number maximum = IsInkSpace(info ->InputFormat) ? 100.0F : 1.0F; + + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + if (Planar) + v = _cmsHalf2Float ( ((cmsUInt16Number*) accum)[(i + start) * Stride] ); + else + v = _cmsHalf2Float ( ((cmsUInt16Number*) accum)[i + start] ) ; + + v /= maximum; + + wIn[index] = Reverse ? 1 - v : v; + } + + + if (Extra == 0 && SwapFirst) { + cmsFloat32Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsFloat32Number)); + wIn[nChan-1] = tmp; + } + + if (T_PLANAR(info -> InputFormat)) + return accum + sizeof(cmsUInt16Number); + else + return accum + (nChan + Extra) * sizeof(cmsUInt16Number); +} + + +static +cmsUInt8Number* PackHalfFrom16(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info->OutputFormat); + int DoSwap = T_DOSWAP(info->OutputFormat); + int Reverse = T_FLAVOR(info->OutputFormat); + int Extra = T_EXTRA(info->OutputFormat); + int SwapFirst = T_SWAPFIRST(info->OutputFormat); + int Planar = T_PLANAR(info->OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsFloat32Number maximum = IsInkSpace(info->OutputFormat) ? 655.35F : 65535.0F; + cmsFloat32Number v = 0; + cmsUInt16Number* swap1 = (cmsUInt16Number*)output; + int i, start = 0; + + if (ExtraFirst) + start = Extra; + + for (i = 0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = (cmsFloat32Number)wOut[index] / maximum; + + if (Reverse) + v = maximum - v; + + if (Planar) + ((cmsUInt16Number*)output)[(i + start) * Stride] = _cmsFloat2Half(v); + else + ((cmsUInt16Number*)output)[i + start] = _cmsFloat2Half(v); + } + + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan - 1)* sizeof(cmsUInt16Number)); + *swap1 = _cmsFloat2Half(v); + } + + if (T_PLANAR(info->OutputFormat)) + return output + sizeof(cmsUInt16Number); + else + return output + (nChan + Extra) * sizeof(cmsUInt16Number); +} + + + +static +cmsUInt8Number* PackHalfFromFloat(_cmsTRANSFORM* info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info->OutputFormat); + int DoSwap = T_DOSWAP(info->OutputFormat); + int Reverse = T_FLAVOR(info->OutputFormat); + int Extra = T_EXTRA(info->OutputFormat); + int SwapFirst = T_SWAPFIRST(info->OutputFormat); + int Planar = T_PLANAR(info->OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsFloat32Number maximum = IsInkSpace(info->OutputFormat) ? 100.0F : 1.0F; + cmsUInt16Number* swap1 = (cmsUInt16Number*)output; + cmsFloat32Number v = 0; + int i, start = 0; + + if (ExtraFirst) + start = Extra; + + for (i = 0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = wOut[index] * maximum; + + if (Reverse) + v = maximum - v; + + if (Planar) + ((cmsUInt16Number*)output)[(i + start)* Stride] = _cmsFloat2Half(v); + else + ((cmsUInt16Number*)output)[i + start] = _cmsFloat2Half(v); + } + + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan - 1)* sizeof(cmsUInt16Number)); + *swap1 = (cmsUInt16Number)_cmsFloat2Half(v); + } + + if (T_PLANAR(info->OutputFormat)) + return output + sizeof(cmsUInt16Number); + else + return output + (nChan + Extra)* sizeof(cmsUInt16Number); +} + +#endif + +// ---------------------------------------------------------------------------------------------------------------- + + +static cmsFormatters16 InputFormatters16[] = { + + // Type Mask Function + // ---------------------------- ------------------------------------ ---------------------------- + { TYPE_Lab_DBL, ANYPLANAR|ANYEXTRA, UnrollLabDoubleTo16}, + { TYPE_XYZ_DBL, ANYPLANAR|ANYEXTRA, UnrollXYZDoubleTo16}, + { TYPE_Lab_FLT, ANYPLANAR|ANYEXTRA, UnrollLabFloatTo16}, + { TYPE_XYZ_FLT, ANYPLANAR|ANYEXTRA, UnrollXYZFloatTo16}, + { TYPE_GRAY_DBL, 0, UnrollDouble1Chan}, + { FLOAT_SH(1)|BYTES_SH(0), ANYCHANNELS|ANYPLANAR|ANYSWAPFIRST|ANYFLAVOR| + ANYSWAP|ANYEXTRA|ANYSPACE, UnrollDoubleTo16}, + { FLOAT_SH(1)|BYTES_SH(4), ANYCHANNELS|ANYPLANAR|ANYSWAPFIRST|ANYFLAVOR| + ANYSWAP|ANYEXTRA|ANYSPACE, UnrollFloatTo16}, +#ifndef CMS_NO_HALF_SUPPORT + { FLOAT_SH(1)|BYTES_SH(2), ANYCHANNELS|ANYPLANAR|ANYSWAPFIRST|ANYFLAVOR| + ANYEXTRA|ANYSWAP|ANYSPACE, UnrollHalfTo16}, +#endif + + { CHANNELS_SH(1)|BYTES_SH(1), ANYSPACE, Unroll1Byte}, + { CHANNELS_SH(1)|BYTES_SH(1)|EXTRA_SH(1), ANYSPACE, Unroll1ByteSkip1}, + { CHANNELS_SH(1)|BYTES_SH(1)|EXTRA_SH(2), ANYSPACE, Unroll1ByteSkip2}, + { CHANNELS_SH(1)|BYTES_SH(1)|FLAVOR_SH(1), ANYSPACE, Unroll1ByteReversed}, + { COLORSPACE_SH(PT_MCH2)|CHANNELS_SH(2)|BYTES_SH(1), 0, Unroll2Bytes}, + + { TYPE_LabV2_8, 0, UnrollLabV2_8 }, + { TYPE_ALabV2_8, 0, UnrollALabV2_8 }, + { TYPE_LabV2_16, 0, UnrollLabV2_16 }, + + { CHANNELS_SH(3)|BYTES_SH(1), ANYSPACE, Unroll3Bytes}, + { CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1), ANYSPACE, Unroll3BytesSwap}, + { CHANNELS_SH(3)|EXTRA_SH(1)|BYTES_SH(1)|DOSWAP_SH(1), ANYSPACE, Unroll3BytesSkip1Swap}, + { CHANNELS_SH(3)|EXTRA_SH(1)|BYTES_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Unroll3BytesSkip1SwapFirst}, + + { CHANNELS_SH(3)|EXTRA_SH(1)|BYTES_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1), + ANYSPACE, Unroll3BytesSkip1SwapSwapFirst}, + + { CHANNELS_SH(4)|BYTES_SH(1), ANYSPACE, Unroll4Bytes}, + { CHANNELS_SH(4)|BYTES_SH(1)|FLAVOR_SH(1), ANYSPACE, Unroll4BytesReverse}, + { CHANNELS_SH(4)|BYTES_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Unroll4BytesSwapFirst}, + { CHANNELS_SH(4)|BYTES_SH(1)|DOSWAP_SH(1), ANYSPACE, Unroll4BytesSwap}, + { CHANNELS_SH(4)|BYTES_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Unroll4BytesSwapSwapFirst}, + + { BYTES_SH(1)|PLANAR_SH(1), ANYFLAVOR|ANYSWAPFIRST| + ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, UnrollPlanarBytes}, + + { BYTES_SH(1), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP| + ANYEXTRA|ANYCHANNELS|ANYSPACE, UnrollChunkyBytes}, + + { CHANNELS_SH(1)|BYTES_SH(2), ANYSPACE, Unroll1Word}, + { CHANNELS_SH(1)|BYTES_SH(2)|FLAVOR_SH(1), ANYSPACE, Unroll1WordReversed}, + { CHANNELS_SH(1)|BYTES_SH(2)|EXTRA_SH(3), ANYSPACE, Unroll1WordSkip3}, + + { CHANNELS_SH(2)|BYTES_SH(2), ANYSPACE, Unroll2Words}, + { CHANNELS_SH(3)|BYTES_SH(2), ANYSPACE, Unroll3Words}, + { CHANNELS_SH(4)|BYTES_SH(2), ANYSPACE, Unroll4Words}, + + { CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1), ANYSPACE, Unroll3WordsSwap}, + { CHANNELS_SH(3)|BYTES_SH(2)|EXTRA_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Unroll3WordsSkip1SwapFirst}, + { CHANNELS_SH(3)|BYTES_SH(2)|EXTRA_SH(1)|DOSWAP_SH(1), ANYSPACE, Unroll3WordsSkip1Swap}, + { CHANNELS_SH(4)|BYTES_SH(2)|FLAVOR_SH(1), ANYSPACE, Unroll4WordsReverse}, + { CHANNELS_SH(4)|BYTES_SH(2)|SWAPFIRST_SH(1), ANYSPACE, Unroll4WordsSwapFirst}, + { CHANNELS_SH(4)|BYTES_SH(2)|DOSWAP_SH(1), ANYSPACE, Unroll4WordsSwap}, + { CHANNELS_SH(4)|BYTES_SH(2)|DOSWAP_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Unroll4WordsSwapSwapFirst}, + + + { BYTES_SH(2)|PLANAR_SH(1), ANYFLAVOR|ANYSWAP|ANYENDIAN|ANYEXTRA|ANYCHANNELS|ANYSPACE, UnrollPlanarWords}, + { BYTES_SH(2), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYENDIAN|ANYEXTRA|ANYCHANNELS|ANYSPACE, UnrollAnyWords}, +}; + + + +static cmsFormattersFloat InputFormattersFloat[] = { + + // Type Mask Function + // ---------------------------- ------------------------------------ ---------------------------- + { TYPE_Lab_DBL, ANYPLANAR|ANYEXTRA, UnrollLabDoubleToFloat}, + { TYPE_Lab_FLT, ANYPLANAR|ANYEXTRA, UnrollLabFloatToFloat}, + + { TYPE_XYZ_DBL, ANYPLANAR|ANYEXTRA, UnrollXYZDoubleToFloat}, + { TYPE_XYZ_FLT, ANYPLANAR|ANYEXTRA, UnrollXYZFloatToFloat}, + + { FLOAT_SH(1)|BYTES_SH(4), ANYPLANAR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA| + ANYCHANNELS|ANYSPACE, UnrollFloatsToFloat}, + + { FLOAT_SH(1)|BYTES_SH(0), ANYPLANAR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA| + ANYCHANNELS|ANYSPACE, UnrollDoublesToFloat}, +#ifndef CMS_NO_HALF_SUPPORT + { FLOAT_SH(1)|BYTES_SH(2), ANYPLANAR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA| + ANYCHANNELS|ANYSPACE, UnrollHalfToFloat}, +#endif +}; + + +// Bit fields set to one in the mask are not compared +static +cmsFormatter _cmsGetStockInputFormatter(cmsUInt32Number dwInput, cmsUInt32Number dwFlags) +{ + cmsUInt32Number i; + cmsFormatter fr; + + switch (dwFlags) { + + case CMS_PACK_FLAGS_16BITS: { + for (i=0; i < sizeof(InputFormatters16) / sizeof(cmsFormatters16); i++) { + cmsFormatters16* f = InputFormatters16 + i; + + if ((dwInput & ~f ->Mask) == f ->Type) { + fr.Fmt16 = f ->Frm; + return fr; + } + } + } + break; + + case CMS_PACK_FLAGS_FLOAT: { + for (i=0; i < sizeof(InputFormattersFloat) / sizeof(cmsFormattersFloat); i++) { + cmsFormattersFloat* f = InputFormattersFloat + i; + + if ((dwInput & ~f ->Mask) == f ->Type) { + fr.FmtFloat = f ->Frm; + return fr; + } + } + } + break; + + default:; + + } + + fr.Fmt16 = NULL; + return fr; +} + +static cmsFormatters16 OutputFormatters16[] = { + // Type Mask Function + // ---------------------------- ------------------------------------ ---------------------------- + + { TYPE_Lab_DBL, ANYPLANAR|ANYEXTRA, PackLabDoubleFrom16}, + { TYPE_XYZ_DBL, ANYPLANAR|ANYEXTRA, PackXYZDoubleFrom16}, + + { TYPE_Lab_FLT, ANYPLANAR|ANYEXTRA, PackLabFloatFrom16}, + { TYPE_XYZ_FLT, ANYPLANAR|ANYEXTRA, PackXYZFloatFrom16}, + + { FLOAT_SH(1)|BYTES_SH(0), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP| + ANYCHANNELS|ANYPLANAR|ANYEXTRA|ANYSPACE, PackDoubleFrom16}, + { FLOAT_SH(1)|BYTES_SH(4), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP| + ANYCHANNELS|ANYPLANAR|ANYEXTRA|ANYSPACE, PackFloatFrom16}, +#ifndef CMS_NO_HALF_SUPPORT + { FLOAT_SH(1)|BYTES_SH(2), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP| + ANYCHANNELS|ANYPLANAR|ANYEXTRA|ANYSPACE, PackHalfFrom16}, +#endif + + { CHANNELS_SH(1)|BYTES_SH(1), ANYSPACE, Pack1Byte}, + { CHANNELS_SH(1)|BYTES_SH(1)|EXTRA_SH(1), ANYSPACE, Pack1ByteSkip1}, + { CHANNELS_SH(1)|BYTES_SH(1)|EXTRA_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Pack1ByteSkip1SwapFirst}, + + { CHANNELS_SH(1)|BYTES_SH(1)|FLAVOR_SH(1), ANYSPACE, Pack1ByteReversed}, + + { TYPE_LabV2_8, 0, PackLabV2_8 }, + { TYPE_ALabV2_8, 0, PackALabV2_8 }, + { TYPE_LabV2_16, 0, PackLabV2_16 }, + + { CHANNELS_SH(3)|BYTES_SH(1)|OPTIMIZED_SH(1), ANYSPACE, Pack3BytesOptimized}, + { CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|OPTIMIZED_SH(1), ANYSPACE, Pack3BytesAndSkip1Optimized}, + { CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|SWAPFIRST_SH(1)|OPTIMIZED_SH(1), + ANYSPACE, Pack3BytesAndSkip1SwapFirstOptimized}, + { CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1)|OPTIMIZED_SH(1), + ANYSPACE, Pack3BytesAndSkip1SwapSwapFirstOptimized}, + { CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|EXTRA_SH(1)|OPTIMIZED_SH(1), + ANYSPACE, Pack3BytesAndSkip1SwapOptimized}, + { CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|OPTIMIZED_SH(1), ANYSPACE, Pack3BytesSwapOptimized}, + + + + { CHANNELS_SH(3)|BYTES_SH(1), ANYSPACE, Pack3Bytes}, + { CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1), ANYSPACE, Pack3BytesAndSkip1}, + { CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Pack3BytesAndSkip1SwapFirst}, + { CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1), + ANYSPACE, Pack3BytesAndSkip1SwapSwapFirst}, + { CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|EXTRA_SH(1), ANYSPACE, Pack3BytesAndSkip1Swap}, + { CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1), ANYSPACE, Pack3BytesSwap}, + { CHANNELS_SH(6)|BYTES_SH(1), ANYSPACE, Pack6Bytes}, + { CHANNELS_SH(6)|BYTES_SH(1)|DOSWAP_SH(1), ANYSPACE, Pack6BytesSwap}, + { CHANNELS_SH(4)|BYTES_SH(1), ANYSPACE, Pack4Bytes}, + { CHANNELS_SH(4)|BYTES_SH(1)|FLAVOR_SH(1), ANYSPACE, Pack4BytesReverse}, + { CHANNELS_SH(4)|BYTES_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Pack4BytesSwapFirst}, + { CHANNELS_SH(4)|BYTES_SH(1)|DOSWAP_SH(1), ANYSPACE, Pack4BytesSwap}, + { CHANNELS_SH(4)|BYTES_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Pack4BytesSwapSwapFirst}, + + { BYTES_SH(1), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackAnyBytes}, + { BYTES_SH(1)|PLANAR_SH(1), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackPlanarBytes}, + + { CHANNELS_SH(1)|BYTES_SH(2), ANYSPACE, Pack1Word}, + { CHANNELS_SH(1)|BYTES_SH(2)|EXTRA_SH(1), ANYSPACE, Pack1WordSkip1}, + { CHANNELS_SH(1)|BYTES_SH(2)|EXTRA_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Pack1WordSkip1SwapFirst}, + { CHANNELS_SH(1)|BYTES_SH(2)|FLAVOR_SH(1), ANYSPACE, Pack1WordReversed}, + { CHANNELS_SH(1)|BYTES_SH(2)|ENDIAN16_SH(1), ANYSPACE, Pack1WordBigEndian}, + { CHANNELS_SH(3)|BYTES_SH(2), ANYSPACE, Pack3Words}, + { CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1), ANYSPACE, Pack3WordsSwap}, + { CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1), ANYSPACE, Pack3WordsBigEndian}, + { CHANNELS_SH(3)|BYTES_SH(2)|EXTRA_SH(1), ANYSPACE, Pack3WordsAndSkip1}, + { CHANNELS_SH(3)|BYTES_SH(2)|EXTRA_SH(1)|DOSWAP_SH(1), ANYSPACE, Pack3WordsAndSkip1Swap}, + { CHANNELS_SH(3)|BYTES_SH(2)|EXTRA_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Pack3WordsAndSkip1SwapFirst}, + + { CHANNELS_SH(3)|BYTES_SH(2)|EXTRA_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1), + ANYSPACE, Pack3WordsAndSkip1SwapSwapFirst}, + + { CHANNELS_SH(4)|BYTES_SH(2), ANYSPACE, Pack4Words}, + { CHANNELS_SH(4)|BYTES_SH(2)|FLAVOR_SH(1), ANYSPACE, Pack4WordsReverse}, + { CHANNELS_SH(4)|BYTES_SH(2)|DOSWAP_SH(1), ANYSPACE, Pack4WordsSwap}, + { CHANNELS_SH(4)|BYTES_SH(2)|ENDIAN16_SH(1), ANYSPACE, Pack4WordsBigEndian}, + + { CHANNELS_SH(6)|BYTES_SH(2), ANYSPACE, Pack6Words}, + { CHANNELS_SH(6)|BYTES_SH(2)|DOSWAP_SH(1), ANYSPACE, Pack6WordsSwap}, + + { BYTES_SH(2)|PLANAR_SH(1), ANYFLAVOR|ANYENDIAN|ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackPlanarWords}, + { BYTES_SH(2), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYENDIAN|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackAnyWords} + +}; + + +static cmsFormattersFloat OutputFormattersFloat[] = { + // Type Mask Function + // ---------------------------- --------------------------------------------------- ---------------------------- + { TYPE_Lab_FLT, ANYPLANAR|ANYEXTRA, PackLabFloatFromFloat}, + { TYPE_XYZ_FLT, ANYPLANAR|ANYEXTRA, PackXYZFloatFromFloat}, + + { TYPE_Lab_DBL, ANYPLANAR|ANYEXTRA, PackLabDoubleFromFloat}, + { TYPE_XYZ_DBL, ANYPLANAR|ANYEXTRA, PackXYZDoubleFromFloat}, + + { FLOAT_SH(1)|BYTES_SH(4), ANYPLANAR| + ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackFloatsFromFloat }, + { FLOAT_SH(1)|BYTES_SH(0), ANYPLANAR| + ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackDoublesFromFloat }, +#ifndef CMS_NO_HALF_SUPPORT + { FLOAT_SH(1)|BYTES_SH(2), + ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackHalfFromFloat }, +#endif + + + +}; + + +// Bit fields set to one in the mask are not compared +static +cmsFormatter _cmsGetStockOutputFormatter(cmsUInt32Number dwInput, cmsUInt32Number dwFlags) +{ + cmsUInt32Number i; + cmsFormatter fr; + + // Optimization is only a hint + dwInput &= ~OPTIMIZED_SH(1); + + switch (dwFlags) + { + + case CMS_PACK_FLAGS_16BITS: { + + for (i=0; i < sizeof(OutputFormatters16) / sizeof(cmsFormatters16); i++) { + cmsFormatters16* f = OutputFormatters16 + i; + + if ((dwInput & ~f ->Mask) == f ->Type) { + fr.Fmt16 = f ->Frm; + return fr; + } + } + } + break; + + case CMS_PACK_FLAGS_FLOAT: { + + for (i=0; i < sizeof(OutputFormattersFloat) / sizeof(cmsFormattersFloat); i++) { + cmsFormattersFloat* f = OutputFormattersFloat + i; + + if ((dwInput & ~f ->Mask) == f ->Type) { + fr.FmtFloat = f ->Frm; + return fr; + } + } + } + break; + + default:; + + } + + fr.Fmt16 = NULL; + return fr; +} + + +typedef struct _cms_formatters_factory_list { + + cmsFormatterFactory Factory; + struct _cms_formatters_factory_list *Next; + +} cmsFormattersFactoryList; + +_cmsFormattersPluginChunkType _cmsFormattersPluginChunk = { NULL }; + + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupFormatterFactoryList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsFormattersPluginChunkType newHead = { NULL }; + cmsFormattersFactoryList* entry; + cmsFormattersFactoryList* Anterior = NULL; + _cmsFormattersPluginChunkType* head = (_cmsFormattersPluginChunkType*) src->chunks[FormattersPlugin]; + + _cmsAssert(head != NULL); + + // Walk the list copying all nodes + for (entry = head->FactoryList; + entry != NULL; + entry = entry ->Next) { + + cmsFormattersFactoryList *newEntry = ( cmsFormattersFactoryList *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(cmsFormattersFactoryList)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.FactoryList == NULL) + newHead.FactoryList = newEntry; + } + + ctx ->chunks[FormattersPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsFormattersPluginChunkType)); +} + +// The interpolation plug-in memory chunk allocator/dup +void _cmsAllocFormattersPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsAssert(ctx != NULL); + + if (src != NULL) { + + // Duplicate the LIST + DupFormatterFactoryList(ctx, src); + } + else { + static _cmsFormattersPluginChunkType FormattersPluginChunk = { NULL }; + ctx ->chunks[FormattersPlugin] = _cmsSubAllocDup(ctx ->MemPool, &FormattersPluginChunk, sizeof(_cmsFormattersPluginChunkType)); + } +} + + + +// Formatters management +cmsBool _cmsRegisterFormattersPlugin(cmsContext ContextID, cmsPluginBase* Data) +{ + _cmsFormattersPluginChunkType* ctx = ( _cmsFormattersPluginChunkType*) _cmsContextGetClientChunk(ContextID, FormattersPlugin); + cmsPluginFormatters* Plugin = (cmsPluginFormatters*) Data; + cmsFormattersFactoryList* fl ; + + // Reset to built-in defaults + if (Data == NULL) { + + ctx ->FactoryList = NULL; + return TRUE; + } + + fl = (cmsFormattersFactoryList*) _cmsPluginMalloc(ContextID, sizeof(cmsFormattersFactoryList)); + if (fl == NULL) return FALSE; + + fl ->Factory = Plugin ->FormattersFactory; + + fl ->Next = ctx -> FactoryList; + ctx ->FactoryList = fl; + + return TRUE; +} + +cmsFormatter _cmsGetFormatter(cmsContext ContextID, + cmsUInt32Number Type, // Specific type, i.e. TYPE_RGB_8 + cmsFormatterDirection Dir, + cmsUInt32Number dwFlags) +{ + _cmsFormattersPluginChunkType* ctx = ( _cmsFormattersPluginChunkType*) _cmsContextGetClientChunk(ContextID, FormattersPlugin); + cmsFormattersFactoryList* f; + + for (f =ctx->FactoryList; f != NULL; f = f ->Next) { + + cmsFormatter fn = f ->Factory(Type, Dir, dwFlags); + if (fn.Fmt16 != NULL) return fn; + } + + // Revert to default + if (Dir == cmsFormatterInput) + return _cmsGetStockInputFormatter(Type, dwFlags); + else + return _cmsGetStockOutputFormatter(Type, dwFlags); +} + + +// Return whatever given formatter refers to float values +cmsBool _cmsFormatterIsFloat(cmsUInt32Number Type) +{ + return T_FLOAT(Type) ? TRUE : FALSE; +} + +// Return whatever given formatter refers to 8 bits +cmsBool _cmsFormatterIs8bit(cmsUInt32Number Type) +{ + int Bytes = T_BYTES(Type); + + return (Bytes == 1); +} + +// Build a suitable formatter for the colorspace of this profile +cmsUInt32Number CMSEXPORT cmsFormatterForColorspaceOfProfile(cmsHPROFILE hProfile, cmsUInt32Number nBytes, cmsBool lIsFloat) +{ + + cmsColorSpaceSignature ColorSpace = cmsGetColorSpace(hProfile); + cmsUInt32Number ColorSpaceBits = _cmsLCMScolorSpace(ColorSpace); + cmsUInt32Number nOutputChans = cmsChannelsOf(ColorSpace); + cmsUInt32Number Float = lIsFloat ? 1 : 0; + + // Create a fake formatter for result + return FLOAT_SH(Float) | COLORSPACE_SH(ColorSpaceBits) | BYTES_SH(nBytes) | CHANNELS_SH(nOutputChans); +} + +// Build a suitable formatter for the colorspace of this profile +cmsUInt32Number CMSEXPORT cmsFormatterForPCSOfProfile(cmsHPROFILE hProfile, cmsUInt32Number nBytes, cmsBool lIsFloat) +{ + + cmsColorSpaceSignature ColorSpace = cmsGetPCS(hProfile); + int ColorSpaceBits = _cmsLCMScolorSpace(ColorSpace); + cmsUInt32Number nOutputChans = cmsChannelsOf(ColorSpace); + cmsUInt32Number Float = lIsFloat ? 1 : 0; + + // Create a fake formatter for result + return FLOAT_SH(Float) | COLORSPACE_SH(ColorSpaceBits) | BYTES_SH(nBytes) | CHANNELS_SH(nOutputChans); +} + Index: sdk/lib/3rdparty/lcms2/cmspcs.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmspcs.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmspcs.c (working copy) @@ -0,0 +1,940 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// inter PCS conversions XYZ <-> CIE L* a* b* +/* + + + CIE 15:2004 CIELab is defined as: + + L* = 116*f(Y/Yn) - 16 0 <= L* <= 100 + a* = 500*[f(X/Xn) - f(Y/Yn)] + b* = 200*[f(Y/Yn) - f(Z/Zn)] + + and + + f(t) = t^(1/3) 1 >= t > (24/116)^3 + (841/108)*t + (16/116) 0 <= t <= (24/116)^3 + + + Reverse transform is: + + X = Xn*[a* / 500 + (L* + 16) / 116] ^ 3 if (X/Xn) > (24/116) + = Xn*(a* / 500 + L* / 116) / 7.787 if (X/Xn) <= (24/116) + + + + PCS in Lab2 is encoded as: + + 8 bit Lab PCS: + + L* 0..100 into a 0..ff byte. + a* t + 128 range is -128.0 +127.0 + b* + + 16 bit Lab PCS: + + L* 0..100 into a 0..ff00 word. + a* t + 128 range is -128.0 +127.9961 + b* + + + +Interchange Space Component Actual Range Encoded Range +CIE XYZ X 0 -> 1.99997 0x0000 -> 0xffff +CIE XYZ Y 0 -> 1.99997 0x0000 -> 0xffff +CIE XYZ Z 0 -> 1.99997 0x0000 -> 0xffff + +Version 2,3 +----------- + +CIELAB (16 bit) L* 0 -> 100.0 0x0000 -> 0xff00 +CIELAB (16 bit) a* -128.0 -> +127.996 0x0000 -> 0x8000 -> 0xffff +CIELAB (16 bit) b* -128.0 -> +127.996 0x0000 -> 0x8000 -> 0xffff + + +Version 4 +--------- + +CIELAB (16 bit) L* 0 -> 100.0 0x0000 -> 0xffff +CIELAB (16 bit) a* -128.0 -> +127 0x0000 -> 0x8080 -> 0xffff +CIELAB (16 bit) b* -128.0 -> +127 0x0000 -> 0x8080 -> 0xffff + +*/ + +// Conversions +void CMSEXPORT cmsXYZ2xyY(cmsCIExyY* Dest, const cmsCIEXYZ* Source) +{ + cmsFloat64Number ISum; + + ISum = 1./(Source -> X + Source -> Y + Source -> Z); + + Dest -> x = (Source -> X) * ISum; + Dest -> y = (Source -> Y) * ISum; + Dest -> Y = Source -> Y; +} + +void CMSEXPORT cmsxyY2XYZ(cmsCIEXYZ* Dest, const cmsCIExyY* Source) +{ + Dest -> X = (Source -> x / Source -> y) * Source -> Y; + Dest -> Y = Source -> Y; + Dest -> Z = ((1 - Source -> x - Source -> y) / Source -> y) * Source -> Y; +} + +/* + The break point (24/116)^3 = (6/29)^3 is a very small amount of tristimulus + primary (0.008856). Generally, this only happens for + nearly ideal blacks and for some orange / amber colors in transmission mode. + For example, the Z value of the orange turn indicator lamp lens on an + automobile will often be below this value. But the Z does not + contribute to the perceived color directly. +*/ + +static +cmsFloat64Number f(cmsFloat64Number t) +{ + const cmsFloat64Number Limit = (24.0/116.0) * (24.0/116.0) * (24.0/116.0); + + if (t <= Limit) + return (841.0/108.0) * t + (16.0/116.0); + else + return pow(t, 1.0/3.0); +} + +static +cmsFloat64Number f_1(cmsFloat64Number t) +{ + const cmsFloat64Number Limit = (24.0/116.0); + + if (t <= Limit) { + return (108.0/841.0) * (t - (16.0/116.0)); + } + + return t * t * t; +} + + +// Standard XYZ to Lab. it can handle negative XZY numbers in some cases +void CMSEXPORT cmsXYZ2Lab(const cmsCIEXYZ* WhitePoint, cmsCIELab* Lab, const cmsCIEXYZ* xyz) +{ + cmsFloat64Number fx, fy, fz; + + if (WhitePoint == NULL) + WhitePoint = cmsD50_XYZ(); + + fx = f(xyz->X / WhitePoint->X); + fy = f(xyz->Y / WhitePoint->Y); + fz = f(xyz->Z / WhitePoint->Z); + + Lab->L = 116.0*fy - 16.0; + Lab->a = 500.0*(fx - fy); + Lab->b = 200.0*(fy - fz); +} + + +// Standard XYZ to Lab. It can return negative XYZ in some cases +void CMSEXPORT cmsLab2XYZ(const cmsCIEXYZ* WhitePoint, cmsCIEXYZ* xyz, const cmsCIELab* Lab) +{ + cmsFloat64Number x, y, z; + + if (WhitePoint == NULL) + WhitePoint = cmsD50_XYZ(); + + y = (Lab-> L + 16.0) / 116.0; + x = y + 0.002 * Lab -> a; + z = y - 0.005 * Lab -> b; + + xyz -> X = f_1(x) * WhitePoint -> X; + xyz -> Y = f_1(y) * WhitePoint -> Y; + xyz -> Z = f_1(z) * WhitePoint -> Z; + +} + +static +cmsFloat64Number L2float2(cmsUInt16Number v) +{ + return (cmsFloat64Number) v / 652.800; +} + +// the a/b part +static +cmsFloat64Number ab2float2(cmsUInt16Number v) +{ + return ((cmsFloat64Number) v / 256.0) - 128.0; +} + +static +cmsUInt16Number L2Fix2(cmsFloat64Number L) +{ + return _cmsQuickSaturateWord(L * 652.8); +} + +static +cmsUInt16Number ab2Fix2(cmsFloat64Number ab) +{ + return _cmsQuickSaturateWord((ab + 128.0) * 256.0); +} + + +static +cmsFloat64Number L2float4(cmsUInt16Number v) +{ + return (cmsFloat64Number) v / 655.35; +} + +// the a/b part +static +cmsFloat64Number ab2float4(cmsUInt16Number v) +{ + return ((cmsFloat64Number) v / 257.0) - 128.0; +} + + +void CMSEXPORT cmsLabEncoded2FloatV2(cmsCIELab* Lab, const cmsUInt16Number wLab[3]) +{ + Lab->L = L2float2(wLab[0]); + Lab->a = ab2float2(wLab[1]); + Lab->b = ab2float2(wLab[2]); +} + + +void CMSEXPORT cmsLabEncoded2Float(cmsCIELab* Lab, const cmsUInt16Number wLab[3]) +{ + Lab->L = L2float4(wLab[0]); + Lab->a = ab2float4(wLab[1]); + Lab->b = ab2float4(wLab[2]); +} + +static +cmsFloat64Number Clamp_L_doubleV2(cmsFloat64Number L) +{ + const cmsFloat64Number L_max = (cmsFloat64Number) (0xFFFF * 100.0) / 0xFF00; + + if (L < 0) L = 0; + if (L > L_max) L = L_max; + + return L; +} + + +static +cmsFloat64Number Clamp_ab_doubleV2(cmsFloat64Number ab) +{ + if (ab < MIN_ENCODEABLE_ab2) ab = MIN_ENCODEABLE_ab2; + if (ab > MAX_ENCODEABLE_ab2) ab = MAX_ENCODEABLE_ab2; + + return ab; +} + +void CMSEXPORT cmsFloat2LabEncodedV2(cmsUInt16Number wLab[3], const cmsCIELab* fLab) +{ + cmsCIELab Lab; + + Lab.L = Clamp_L_doubleV2(fLab ->L); + Lab.a = Clamp_ab_doubleV2(fLab ->a); + Lab.b = Clamp_ab_doubleV2(fLab ->b); + + wLab[0] = L2Fix2(Lab.L); + wLab[1] = ab2Fix2(Lab.a); + wLab[2] = ab2Fix2(Lab.b); +} + + +static +cmsFloat64Number Clamp_L_doubleV4(cmsFloat64Number L) +{ + if (L < 0) L = 0; + if (L > 100.0) L = 100.0; + + return L; +} + +static +cmsFloat64Number Clamp_ab_doubleV4(cmsFloat64Number ab) +{ + if (ab < MIN_ENCODEABLE_ab4) ab = MIN_ENCODEABLE_ab4; + if (ab > MAX_ENCODEABLE_ab4) ab = MAX_ENCODEABLE_ab4; + + return ab; +} + +static +cmsUInt16Number L2Fix4(cmsFloat64Number L) +{ + return _cmsQuickSaturateWord(L * 655.35); +} + +static +cmsUInt16Number ab2Fix4(cmsFloat64Number ab) +{ + return _cmsQuickSaturateWord((ab + 128.0) * 257.0); +} + +void CMSEXPORT cmsFloat2LabEncoded(cmsUInt16Number wLab[3], const cmsCIELab* fLab) +{ + cmsCIELab Lab; + + Lab.L = Clamp_L_doubleV4(fLab ->L); + Lab.a = Clamp_ab_doubleV4(fLab ->a); + Lab.b = Clamp_ab_doubleV4(fLab ->b); + + wLab[0] = L2Fix4(Lab.L); + wLab[1] = ab2Fix4(Lab.a); + wLab[2] = ab2Fix4(Lab.b); +} + +// Auxiliary: convert to Radians +static +cmsFloat64Number RADIANS(cmsFloat64Number deg) +{ + return (deg * M_PI) / 180.; +} + + +// Auxiliary: atan2 but operating in degrees and returning 0 if a==b==0 +static +cmsFloat64Number atan2deg(cmsFloat64Number a, cmsFloat64Number b) +{ + cmsFloat64Number h; + + if (a == 0 && b == 0) + h = 0; + else + h = atan2(a, b); + + h *= (180. / M_PI); + + while (h > 360.) + h -= 360.; + + while ( h < 0) + h += 360.; + + return h; +} + + +// Auxiliary: Square +static +cmsFloat64Number Sqr(cmsFloat64Number v) +{ + return v * v; +} +// From cylindrical coordinates. No check is performed, then negative values are allowed +void CMSEXPORT cmsLab2LCh(cmsCIELCh* LCh, const cmsCIELab* Lab) +{ + LCh -> L = Lab -> L; + LCh -> C = pow(Sqr(Lab ->a) + Sqr(Lab ->b), 0.5); + LCh -> h = atan2deg(Lab ->b, Lab ->a); +} + + +// To cylindrical coordinates. No check is performed, then negative values are allowed +void CMSEXPORT cmsLCh2Lab(cmsCIELab* Lab, const cmsCIELCh* LCh) +{ + cmsFloat64Number h = (LCh -> h * M_PI) / 180.0; + + Lab -> L = LCh -> L; + Lab -> a = LCh -> C * cos(h); + Lab -> b = LCh -> C * sin(h); +} + +// In XYZ All 3 components are encoded using 1.15 fixed point +static +cmsUInt16Number XYZ2Fix(cmsFloat64Number d) +{ + return _cmsQuickSaturateWord(d * 32768.0); +} + +void CMSEXPORT cmsFloat2XYZEncoded(cmsUInt16Number XYZ[3], const cmsCIEXYZ* fXYZ) +{ + cmsCIEXYZ xyz; + + xyz.X = fXYZ -> X; + xyz.Y = fXYZ -> Y; + xyz.Z = fXYZ -> Z; + + // Clamp to encodeable values. + if (xyz.Y <= 0) { + + xyz.X = 0; + xyz.Y = 0; + xyz.Z = 0; + } + + if (xyz.X > MAX_ENCODEABLE_XYZ) + xyz.X = MAX_ENCODEABLE_XYZ; + + if (xyz.X < 0) + xyz.X = 0; + + if (xyz.Y > MAX_ENCODEABLE_XYZ) + xyz.Y = MAX_ENCODEABLE_XYZ; + + if (xyz.Y < 0) + xyz.Y = 0; + + if (xyz.Z > MAX_ENCODEABLE_XYZ) + xyz.Z = MAX_ENCODEABLE_XYZ; + + if (xyz.Z < 0) + xyz.Z = 0; + + + XYZ[0] = XYZ2Fix(xyz.X); + XYZ[1] = XYZ2Fix(xyz.Y); + XYZ[2] = XYZ2Fix(xyz.Z); +} + + +// To convert from Fixed 1.15 point to cmsFloat64Number +static +cmsFloat64Number XYZ2float(cmsUInt16Number v) +{ + cmsS15Fixed16Number fix32; + + // From 1.15 to 15.16 + fix32 = v << 1; + + // From fixed 15.16 to cmsFloat64Number + return _cms15Fixed16toDouble(fix32); +} + + +void CMSEXPORT cmsXYZEncoded2Float(cmsCIEXYZ* fXYZ, const cmsUInt16Number XYZ[3]) +{ + fXYZ -> X = XYZ2float(XYZ[0]); + fXYZ -> Y = XYZ2float(XYZ[1]); + fXYZ -> Z = XYZ2float(XYZ[2]); +} + + +// Returns dE on two Lab values +cmsFloat64Number CMSEXPORT cmsDeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2) +{ + cmsFloat64Number dL, da, db; + + dL = fabs(Lab1 -> L - Lab2 -> L); + da = fabs(Lab1 -> a - Lab2 -> a); + db = fabs(Lab1 -> b - Lab2 -> b); + + return pow(Sqr(dL) + Sqr(da) + Sqr(db), 0.5); +} + + +// Return the CIE94 Delta E +cmsFloat64Number CMSEXPORT cmsCIE94DeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2) +{ + cmsCIELCh LCh1, LCh2; + cmsFloat64Number dE, dL, dC, dh, dhsq; + cmsFloat64Number c12, sc, sh; + + dL = fabs(Lab1 ->L - Lab2 ->L); + + cmsLab2LCh(&LCh1, Lab1); + cmsLab2LCh(&LCh2, Lab2); + + dC = fabs(LCh1.C - LCh2.C); + dE = cmsDeltaE(Lab1, Lab2); + + dhsq = Sqr(dE) - Sqr(dL) - Sqr(dC); + if (dhsq < 0) + dh = 0; + else + dh = pow(dhsq, 0.5); + + c12 = sqrt(LCh1.C * LCh2.C); + + sc = 1.0 + (0.048 * c12); + sh = 1.0 + (0.014 * c12); + + return sqrt(Sqr(dL) + Sqr(dC) / Sqr(sc) + Sqr(dh) / Sqr(sh)); +} + + +// Auxiliary +static +cmsFloat64Number ComputeLBFD(const cmsCIELab* Lab) +{ + cmsFloat64Number yt; + + if (Lab->L > 7.996969) + yt = (Sqr((Lab->L+16)/116)*((Lab->L+16)/116))*100; + else + yt = 100 * (Lab->L / 903.3); + + return (54.6 * (M_LOG10E * (log(yt + 1.5))) - 9.6); +} + + + +// bfd - gets BFD(1:1) difference between Lab1, Lab2 +cmsFloat64Number CMSEXPORT cmsBFDdeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2) +{ + cmsFloat64Number lbfd1,lbfd2,AveC,Aveh,dE,deltaL, + deltaC,deltah,dc,t,g,dh,rh,rc,rt,bfd; + cmsCIELCh LCh1, LCh2; + + + lbfd1 = ComputeLBFD(Lab1); + lbfd2 = ComputeLBFD(Lab2); + deltaL = lbfd2 - lbfd1; + + cmsLab2LCh(&LCh1, Lab1); + cmsLab2LCh(&LCh2, Lab2); + + deltaC = LCh2.C - LCh1.C; + AveC = (LCh1.C+LCh2.C)/2; + Aveh = (LCh1.h+LCh2.h)/2; + + dE = cmsDeltaE(Lab1, Lab2); + + if (Sqr(dE)>(Sqr(Lab2->L-Lab1->L)+Sqr(deltaC))) + deltah = sqrt(Sqr(dE)-Sqr(Lab2->L-Lab1->L)-Sqr(deltaC)); + else + deltah =0; + + + dc = 0.035 * AveC / (1 + 0.00365 * AveC)+0.521; + g = sqrt(Sqr(Sqr(AveC))/(Sqr(Sqr(AveC))+14000)); + t = 0.627+(0.055*cos((Aveh-254)/(180/M_PI))- + 0.040*cos((2*Aveh-136)/(180/M_PI))+ + 0.070*cos((3*Aveh-31)/(180/M_PI))+ + 0.049*cos((4*Aveh+114)/(180/M_PI))- + 0.015*cos((5*Aveh-103)/(180/M_PI))); + + dh = dc*(g*t+1-g); + rh = -0.260*cos((Aveh-308)/(180/M_PI))- + 0.379*cos((2*Aveh-160)/(180/M_PI))- + 0.636*cos((3*Aveh+254)/(180/M_PI))+ + 0.226*cos((4*Aveh+140)/(180/M_PI))- + 0.194*cos((5*Aveh+280)/(180/M_PI)); + + rc = sqrt((AveC*AveC*AveC*AveC*AveC*AveC)/((AveC*AveC*AveC*AveC*AveC*AveC)+70000000)); + rt = rh*rc; + + bfd = sqrt(Sqr(deltaL)+Sqr(deltaC/dc)+Sqr(deltah/dh)+(rt*(deltaC/dc)*(deltah/dh))); + + return bfd; +} + + +// cmc - CMC(l:c) difference between Lab1, Lab2 +cmsFloat64Number CMSEXPORT cmsCMCdeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2, cmsFloat64Number l, cmsFloat64Number c) +{ + cmsFloat64Number dE,dL,dC,dh,sl,sc,sh,t,f,cmc; + cmsCIELCh LCh1, LCh2; + + if (Lab1 ->L == 0 && Lab2 ->L == 0) return 0; + + cmsLab2LCh(&LCh1, Lab1); + cmsLab2LCh(&LCh2, Lab2); + + + dL = Lab2->L-Lab1->L; + dC = LCh2.C-LCh1.C; + + dE = cmsDeltaE(Lab1, Lab2); + + if (Sqr(dE)>(Sqr(dL)+Sqr(dC))) + dh = sqrt(Sqr(dE)-Sqr(dL)-Sqr(dC)); + else + dh =0; + + if ((LCh1.h > 164) && (LCh1.h < 345)) + t = 0.56 + fabs(0.2 * cos(((LCh1.h + 168)/(180/M_PI)))); + else + t = 0.36 + fabs(0.4 * cos(((LCh1.h + 35 )/(180/M_PI)))); + + sc = 0.0638 * LCh1.C / (1 + 0.0131 * LCh1.C) + 0.638; + sl = 0.040975 * Lab1->L /(1 + 0.01765 * Lab1->L); + + if (Lab1->L<16) + sl = 0.511; + + f = sqrt((LCh1.C * LCh1.C * LCh1.C * LCh1.C)/((LCh1.C * LCh1.C * LCh1.C * LCh1.C)+1900)); + sh = sc*(t*f+1-f); + cmc = sqrt(Sqr(dL/(l*sl))+Sqr(dC/(c*sc))+Sqr(dh/sh)); + + return cmc; +} + +// dE2000 The weightings KL, KC and KH can be modified to reflect the relative +// importance of lightness, chroma and hue in different industrial applications +cmsFloat64Number CMSEXPORT cmsCIE2000DeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2, + cmsFloat64Number Kl, cmsFloat64Number Kc, cmsFloat64Number Kh) +{ + cmsFloat64Number L1 = Lab1->L; + cmsFloat64Number a1 = Lab1->a; + cmsFloat64Number b1 = Lab1->b; + cmsFloat64Number C = sqrt( Sqr(a1) + Sqr(b1) ); + + cmsFloat64Number Ls = Lab2 ->L; + cmsFloat64Number as = Lab2 ->a; + cmsFloat64Number bs = Lab2 ->b; + cmsFloat64Number Cs = sqrt( Sqr(as) + Sqr(bs) ); + + cmsFloat64Number G = 0.5 * ( 1 - sqrt(pow((C + Cs) / 2 , 7.0) / (pow((C + Cs) / 2, 7.0) + pow(25.0, 7.0) ) )); + + cmsFloat64Number a_p = (1 + G ) * a1; + cmsFloat64Number b_p = b1; + cmsFloat64Number C_p = sqrt( Sqr(a_p) + Sqr(b_p)); + cmsFloat64Number h_p = atan2deg(b_p, a_p); + + + cmsFloat64Number a_ps = (1 + G) * as; + cmsFloat64Number b_ps = bs; + cmsFloat64Number C_ps = sqrt(Sqr(a_ps) + Sqr(b_ps)); + cmsFloat64Number h_ps = atan2deg(b_ps, a_ps); + + cmsFloat64Number meanC_p =(C_p + C_ps) / 2; + + cmsFloat64Number hps_plus_hp = h_ps + h_p; + cmsFloat64Number hps_minus_hp = h_ps - h_p; + + cmsFloat64Number meanh_p = fabs(hps_minus_hp) <= 180.000001 ? (hps_plus_hp)/2 : + (hps_plus_hp) < 360 ? (hps_plus_hp + 360)/2 : + (hps_plus_hp - 360)/2; + + cmsFloat64Number delta_h = (hps_minus_hp) <= -180.000001 ? (hps_minus_hp + 360) : + (hps_minus_hp) > 180 ? (hps_minus_hp - 360) : + (hps_minus_hp); + cmsFloat64Number delta_L = (Ls - L1); + cmsFloat64Number delta_C = (C_ps - C_p ); + + + cmsFloat64Number delta_H =2 * sqrt(C_ps*C_p) * sin(RADIANS(delta_h) / 2); + + cmsFloat64Number T = 1 - 0.17 * cos(RADIANS(meanh_p-30)) + + 0.24 * cos(RADIANS(2*meanh_p)) + + 0.32 * cos(RADIANS(3*meanh_p + 6)) + - 0.2 * cos(RADIANS(4*meanh_p - 63)); + + cmsFloat64Number Sl = 1 + (0.015 * Sqr((Ls + L1) /2- 50) )/ sqrt(20 + Sqr( (Ls+L1)/2 - 50) ); + + cmsFloat64Number Sc = 1 + 0.045 * (C_p + C_ps)/2; + cmsFloat64Number Sh = 1 + 0.015 * ((C_ps + C_p)/2) * T; + + cmsFloat64Number delta_ro = 30 * exp( -Sqr(((meanh_p - 275 ) / 25))); + + cmsFloat64Number Rc = 2 * sqrt(( pow(meanC_p, 7.0) )/( pow(meanC_p, 7.0) + pow(25.0, 7.0))); + + cmsFloat64Number Rt = -sin(2 * RADIANS(delta_ro)) * Rc; + + cmsFloat64Number deltaE00 = sqrt( Sqr(delta_L /(Sl * Kl)) + + Sqr(delta_C/(Sc * Kc)) + + Sqr(delta_H/(Sh * Kh)) + + Rt*(delta_C/(Sc * Kc)) * (delta_H / (Sh * Kh))); + + return deltaE00; +} + +// This function returns a number of gridpoints to be used as LUT table. It assumes same number +// of gripdpoints in all dimensions. Flags may override the choice. +int _cmsReasonableGridpointsByColorspace(cmsColorSpaceSignature Colorspace, cmsUInt32Number dwFlags) +{ + int nChannels; + + // Already specified? + if (dwFlags & 0x00FF0000) { + // Yes, grab'em + return (dwFlags >> 16) & 0xFF; + } + + nChannels = cmsChannelsOf(Colorspace); + + // HighResPrecalc is maximum resolution + if (dwFlags & cmsFLAGS_HIGHRESPRECALC) { + + if (nChannels > 4) + return 7; // 7 for Hifi + + if (nChannels == 4) // 23 for CMYK + return 23; + + return 49; // 49 for RGB and others + } + + + // LowResPrecal is lower resolution + if (dwFlags & cmsFLAGS_LOWRESPRECALC) { + + if (nChannels > 4) + return 6; // 6 for more than 4 channels + + if (nChannels == 1) + return 33; // For monochrome + + return 17; // 17 for remaining + } + + // Default values + if (nChannels > 4) + return 7; // 7 for Hifi + + if (nChannels == 4) + return 17; // 17 for CMYK + + return 33; // 33 for RGB +} + + +cmsBool _cmsEndPointsBySpace(cmsColorSpaceSignature Space, + cmsUInt16Number **White, + cmsUInt16Number **Black, + cmsUInt32Number *nOutputs) +{ + // Only most common spaces + + static cmsUInt16Number RGBblack[4] = { 0, 0, 0 }; + static cmsUInt16Number RGBwhite[4] = { 0xffff, 0xffff, 0xffff }; + static cmsUInt16Number CMYKblack[4] = { 0xffff, 0xffff, 0xffff, 0xffff }; // 400% of ink + static cmsUInt16Number CMYKwhite[4] = { 0, 0, 0, 0 }; + static cmsUInt16Number LABblack[4] = { 0, 0x8080, 0x8080 }; // V4 Lab encoding + static cmsUInt16Number LABwhite[4] = { 0xFFFF, 0x8080, 0x8080 }; + static cmsUInt16Number CMYblack[4] = { 0xffff, 0xffff, 0xffff }; + static cmsUInt16Number CMYwhite[4] = { 0, 0, 0 }; + static cmsUInt16Number Grayblack[4] = { 0 }; + static cmsUInt16Number GrayWhite[4] = { 0xffff }; + + switch (Space) { + + case cmsSigGrayData: if (White) *White = GrayWhite; + if (Black) *Black = Grayblack; + if (nOutputs) *nOutputs = 1; + return TRUE; + + case cmsSigRgbData: if (White) *White = RGBwhite; + if (Black) *Black = RGBblack; + if (nOutputs) *nOutputs = 3; + return TRUE; + + case cmsSigLabData: if (White) *White = LABwhite; + if (Black) *Black = LABblack; + if (nOutputs) *nOutputs = 3; + return TRUE; + + case cmsSigCmykData: if (White) *White = CMYKwhite; + if (Black) *Black = CMYKblack; + if (nOutputs) *nOutputs = 4; + return TRUE; + + case cmsSigCmyData: if (White) *White = CMYwhite; + if (Black) *Black = CMYblack; + if (nOutputs) *nOutputs = 3; + return TRUE; + + default:; + } + + return FALSE; +} + + + +// Several utilities ------------------------------------------------------- + +// Translate from our colorspace to ICC representation + +cmsColorSpaceSignature CMSEXPORT _cmsICCcolorSpace(int OurNotation) +{ + switch (OurNotation) { + + case 1: + case PT_GRAY: return cmsSigGrayData; + + case 2: + case PT_RGB: return cmsSigRgbData; + + case PT_CMY: return cmsSigCmyData; + case PT_CMYK: return cmsSigCmykData; + case PT_YCbCr:return cmsSigYCbCrData; + case PT_YUV: return cmsSigLuvData; + case PT_XYZ: return cmsSigXYZData; + + case PT_LabV2: + case PT_Lab: return cmsSigLabData; + + case PT_YUVK: return cmsSigLuvKData; + case PT_HSV: return cmsSigHsvData; + case PT_HLS: return cmsSigHlsData; + case PT_Yxy: return cmsSigYxyData; + + case PT_MCH1: return cmsSigMCH1Data; + case PT_MCH2: return cmsSigMCH2Data; + case PT_MCH3: return cmsSigMCH3Data; + case PT_MCH4: return cmsSigMCH4Data; + case PT_MCH5: return cmsSigMCH5Data; + case PT_MCH6: return cmsSigMCH6Data; + case PT_MCH7: return cmsSigMCH7Data; + case PT_MCH8: return cmsSigMCH8Data; + + case PT_MCH9: return cmsSigMCH9Data; + case PT_MCH10: return cmsSigMCHAData; + case PT_MCH11: return cmsSigMCHBData; + case PT_MCH12: return cmsSigMCHCData; + case PT_MCH13: return cmsSigMCHDData; + case PT_MCH14: return cmsSigMCHEData; + case PT_MCH15: return cmsSigMCHFData; + + default: return (cmsColorSpaceSignature) (-1); + } +} + + +int CMSEXPORT _cmsLCMScolorSpace(cmsColorSpaceSignature ProfileSpace) +{ + switch (ProfileSpace) { + + case cmsSigGrayData: return PT_GRAY; + case cmsSigRgbData: return PT_RGB; + case cmsSigCmyData: return PT_CMY; + case cmsSigCmykData: return PT_CMYK; + case cmsSigYCbCrData:return PT_YCbCr; + case cmsSigLuvData: return PT_YUV; + case cmsSigXYZData: return PT_XYZ; + case cmsSigLabData: return PT_Lab; + case cmsSigLuvKData: return PT_YUVK; + case cmsSigHsvData: return PT_HSV; + case cmsSigHlsData: return PT_HLS; + case cmsSigYxyData: return PT_Yxy; + + case cmsSig1colorData: + case cmsSigMCH1Data: return PT_MCH1; + + case cmsSig2colorData: + case cmsSigMCH2Data: return PT_MCH2; + + case cmsSig3colorData: + case cmsSigMCH3Data: return PT_MCH3; + + case cmsSig4colorData: + case cmsSigMCH4Data: return PT_MCH4; + + case cmsSig5colorData: + case cmsSigMCH5Data: return PT_MCH5; + + case cmsSig6colorData: + case cmsSigMCH6Data: return PT_MCH6; + + case cmsSigMCH7Data: + case cmsSig7colorData:return PT_MCH7; + + case cmsSigMCH8Data: + case cmsSig8colorData:return PT_MCH8; + + case cmsSigMCH9Data: + case cmsSig9colorData:return PT_MCH9; + + case cmsSigMCHAData: + case cmsSig10colorData:return PT_MCH10; + + case cmsSigMCHBData: + case cmsSig11colorData:return PT_MCH11; + + case cmsSigMCHCData: + case cmsSig12colorData:return PT_MCH12; + + case cmsSigMCHDData: + case cmsSig13colorData:return PT_MCH13; + + case cmsSigMCHEData: + case cmsSig14colorData:return PT_MCH14; + + case cmsSigMCHFData: + case cmsSig15colorData:return PT_MCH15; + + default: return (cmsColorSpaceSignature) (-1); + } +} + + +cmsUInt32Number CMSEXPORT cmsChannelsOf(cmsColorSpaceSignature ColorSpace) +{ + switch (ColorSpace) { + + case cmsSigMCH1Data: + case cmsSig1colorData: + case cmsSigGrayData: return 1; + + case cmsSigMCH2Data: + case cmsSig2colorData: return 2; + + case cmsSigXYZData: + case cmsSigLabData: + case cmsSigLuvData: + case cmsSigYCbCrData: + case cmsSigYxyData: + case cmsSigRgbData: + case cmsSigHsvData: + case cmsSigHlsData: + case cmsSigCmyData: + case cmsSigMCH3Data: + case cmsSig3colorData: return 3; + + case cmsSigLuvKData: + case cmsSigCmykData: + case cmsSigMCH4Data: + case cmsSig4colorData: return 4; + + case cmsSigMCH5Data: + case cmsSig5colorData: return 5; + + case cmsSigMCH6Data: + case cmsSig6colorData: return 6; + + case cmsSigMCH7Data: + case cmsSig7colorData: return 7; + + case cmsSigMCH8Data: + case cmsSig8colorData: return 8; + + case cmsSigMCH9Data: + case cmsSig9colorData: return 9; + + case cmsSigMCHAData: + case cmsSig10colorData: return 10; + + case cmsSigMCHBData: + case cmsSig11colorData: return 11; + + case cmsSigMCHCData: + case cmsSig12colorData: return 12; + + case cmsSigMCHDData: + case cmsSig13colorData: return 13; + + case cmsSigMCHEData: + case cmsSig14colorData: return 14; + + case cmsSigMCHFData: + case cmsSig15colorData: return 15; + + default: return 3; + } +} Index: sdk/lib/3rdparty/lcms2/cmsplugin.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsplugin.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsplugin.c (working copy) @@ -0,0 +1,950 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// ---------------------------------------------------------------------------------- +// Encoding & Decoding support functions +// ---------------------------------------------------------------------------------- + +// Little-Endian to Big-Endian + +// Adjust a word value after being readed/ before being written from/to an ICC profile +cmsUInt16Number CMSEXPORT _cmsAdjustEndianess16(cmsUInt16Number Word) +{ +#ifndef CMS_USE_BIG_ENDIAN + + cmsUInt8Number* pByte = (cmsUInt8Number*) &Word; + cmsUInt8Number tmp; + + tmp = pByte[0]; + pByte[0] = pByte[1]; + pByte[1] = tmp; +#endif + + return Word; +} + + +// Transports to properly encoded values - note that icc profiles does use big endian notation. + +// 1 2 3 4 +// 4 3 2 1 + +cmsUInt32Number CMSEXPORT _cmsAdjustEndianess32(cmsUInt32Number DWord) +{ +#ifndef CMS_USE_BIG_ENDIAN + + cmsUInt8Number* pByte = (cmsUInt8Number*) &DWord; + cmsUInt8Number temp1; + cmsUInt8Number temp2; + + temp1 = *pByte++; + temp2 = *pByte++; + *(pByte-1) = *pByte; + *pByte++ = temp2; + *(pByte-3) = *pByte; + *pByte = temp1; +#endif + return DWord; +} + +// 1 2 3 4 5 6 7 8 +// 8 7 6 5 4 3 2 1 + +void CMSEXPORT _cmsAdjustEndianess64(cmsUInt64Number* Result, cmsUInt64Number* QWord) +{ + +#ifndef CMS_USE_BIG_ENDIAN + + cmsUInt8Number* pIn = (cmsUInt8Number*) QWord; + cmsUInt8Number* pOut = (cmsUInt8Number*) Result; + + _cmsAssert(Result != NULL); + + pOut[7] = pIn[0]; + pOut[6] = pIn[1]; + pOut[5] = pIn[2]; + pOut[4] = pIn[3]; + pOut[3] = pIn[4]; + pOut[2] = pIn[5]; + pOut[1] = pIn[6]; + pOut[0] = pIn[7]; + +#else + _cmsAssert(Result != NULL); + +# ifdef CMS_DONT_USE_INT64 + (*Result)[0] = QWord[0]; + (*Result)[1] = QWord[1]; +# else + *Result = *QWord; +# endif +#endif +} + +// Auxiliary -- read 8, 16 and 32-bit numbers +cmsBool CMSEXPORT _cmsReadUInt8Number(cmsIOHANDLER* io, cmsUInt8Number* n) +{ + cmsUInt8Number tmp; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &tmp, sizeof(cmsUInt8Number), 1) != 1) + return FALSE; + + if (n != NULL) *n = tmp; + return TRUE; +} + +cmsBool CMSEXPORT _cmsReadUInt16Number(cmsIOHANDLER* io, cmsUInt16Number* n) +{ + cmsUInt16Number tmp; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &tmp, sizeof(cmsUInt16Number), 1) != 1) + return FALSE; + + if (n != NULL) *n = _cmsAdjustEndianess16(tmp); + return TRUE; +} + +cmsBool CMSEXPORT _cmsReadUInt16Array(cmsIOHANDLER* io, cmsUInt32Number n, cmsUInt16Number* Array) +{ + cmsUInt32Number i; + + _cmsAssert(io != NULL); + + for (i=0; i < n; i++) { + + if (Array != NULL) { + if (!_cmsReadUInt16Number(io, Array + i)) return FALSE; + } + else { + if (!_cmsReadUInt16Number(io, NULL)) return FALSE; + } + + } + return TRUE; +} + +cmsBool CMSEXPORT _cmsReadUInt32Number(cmsIOHANDLER* io, cmsUInt32Number* n) +{ + cmsUInt32Number tmp; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &tmp, sizeof(cmsUInt32Number), 1) != 1) + return FALSE; + + if (n != NULL) *n = _cmsAdjustEndianess32(tmp); + return TRUE; +} + +cmsBool CMSEXPORT _cmsReadFloat32Number(cmsIOHANDLER* io, cmsFloat32Number* n) +{ + cmsUInt32Number tmp; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &tmp, sizeof(cmsUInt32Number), 1) != 1) + return FALSE; + + if (n != NULL) { + + tmp = _cmsAdjustEndianess32(tmp); + *n = *(cmsFloat32Number*) (void*) &tmp; + } + return TRUE; +} + + +cmsBool CMSEXPORT _cmsReadUInt64Number(cmsIOHANDLER* io, cmsUInt64Number* n) +{ + cmsUInt64Number tmp; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &tmp, sizeof(cmsUInt64Number), 1) != 1) + return FALSE; + + if (n != NULL) _cmsAdjustEndianess64(n, &tmp); + return TRUE; +} + + +cmsBool CMSEXPORT _cmsRead15Fixed16Number(cmsIOHANDLER* io, cmsFloat64Number* n) +{ + cmsUInt32Number tmp; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &tmp, sizeof(cmsUInt32Number), 1) != 1) + return FALSE; + + if (n != NULL) { + *n = _cms15Fixed16toDouble(_cmsAdjustEndianess32(tmp)); + } + + return TRUE; +} + + +cmsBool CMSEXPORT _cmsReadXYZNumber(cmsIOHANDLER* io, cmsCIEXYZ* XYZ) +{ + cmsEncodedXYZNumber xyz; + + _cmsAssert(io != NULL); + + if (io ->Read(io, &xyz, sizeof(cmsEncodedXYZNumber), 1) != 1) return FALSE; + + if (XYZ != NULL) { + + XYZ->X = _cms15Fixed16toDouble(_cmsAdjustEndianess32(xyz.X)); + XYZ->Y = _cms15Fixed16toDouble(_cmsAdjustEndianess32(xyz.Y)); + XYZ->Z = _cms15Fixed16toDouble(_cmsAdjustEndianess32(xyz.Z)); + } + return TRUE; +} + +cmsBool CMSEXPORT _cmsWriteUInt8Number(cmsIOHANDLER* io, cmsUInt8Number n) +{ + _cmsAssert(io != NULL); + + if (io -> Write(io, sizeof(cmsUInt8Number), &n) != 1) + return FALSE; + + return TRUE; +} + +cmsBool CMSEXPORT _cmsWriteUInt16Number(cmsIOHANDLER* io, cmsUInt16Number n) +{ + cmsUInt16Number tmp; + + _cmsAssert(io != NULL); + + tmp = _cmsAdjustEndianess16(n); + if (io -> Write(io, sizeof(cmsUInt16Number), &tmp) != 1) + return FALSE; + + return TRUE; +} + +cmsBool CMSEXPORT _cmsWriteUInt16Array(cmsIOHANDLER* io, cmsUInt32Number n, const cmsUInt16Number* Array) +{ + cmsUInt32Number i; + + _cmsAssert(io != NULL); + _cmsAssert(Array != NULL); + + for (i=0; i < n; i++) { + if (!_cmsWriteUInt16Number(io, Array[i])) return FALSE; + } + + return TRUE; +} + +cmsBool CMSEXPORT _cmsWriteUInt32Number(cmsIOHANDLER* io, cmsUInt32Number n) +{ + cmsUInt32Number tmp; + + _cmsAssert(io != NULL); + + tmp = _cmsAdjustEndianess32(n); + if (io -> Write(io, sizeof(cmsUInt32Number), &tmp) != 1) + return FALSE; + + return TRUE; +} + + +cmsBool CMSEXPORT _cmsWriteFloat32Number(cmsIOHANDLER* io, cmsFloat32Number n) +{ + cmsUInt32Number tmp; + + _cmsAssert(io != NULL); + + tmp = *(cmsUInt32Number*) (void*) &n; + tmp = _cmsAdjustEndianess32(tmp); + if (io -> Write(io, sizeof(cmsUInt32Number), &tmp) != 1) + return FALSE; + + return TRUE; +} + +cmsBool CMSEXPORT _cmsWriteUInt64Number(cmsIOHANDLER* io, cmsUInt64Number* n) +{ + cmsUInt64Number tmp; + + _cmsAssert(io != NULL); + + _cmsAdjustEndianess64(&tmp, n); + if (io -> Write(io, sizeof(cmsUInt64Number), &tmp) != 1) + return FALSE; + + return TRUE; +} + +cmsBool CMSEXPORT _cmsWrite15Fixed16Number(cmsIOHANDLER* io, cmsFloat64Number n) +{ + cmsUInt32Number tmp; + + _cmsAssert(io != NULL); + + tmp = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(n)); + if (io -> Write(io, sizeof(cmsUInt32Number), &tmp) != 1) + return FALSE; + + return TRUE; +} + +cmsBool CMSEXPORT _cmsWriteXYZNumber(cmsIOHANDLER* io, const cmsCIEXYZ* XYZ) +{ + cmsEncodedXYZNumber xyz; + + _cmsAssert(io != NULL); + _cmsAssert(XYZ != NULL); + + xyz.X = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(XYZ->X)); + xyz.Y = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(XYZ->Y)); + xyz.Z = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(XYZ->Z)); + + return io -> Write(io, sizeof(cmsEncodedXYZNumber), &xyz); +} + +// from Fixed point 8.8 to double +cmsFloat64Number CMSEXPORT _cms8Fixed8toDouble(cmsUInt16Number fixed8) +{ + cmsUInt8Number msb, lsb; + + lsb = (cmsUInt8Number) (fixed8 & 0xff); + msb = (cmsUInt8Number) (((cmsUInt16Number) fixed8 >> 8) & 0xff); + + return (cmsFloat64Number) ((cmsFloat64Number) msb + ((cmsFloat64Number) lsb / 256.0)); +} + +cmsUInt16Number CMSEXPORT _cmsDoubleTo8Fixed8(cmsFloat64Number val) +{ + cmsS15Fixed16Number GammaFixed32 = _cmsDoubleTo15Fixed16(val); + return (cmsUInt16Number) ((GammaFixed32 >> 8) & 0xFFFF); +} + +// from Fixed point 15.16 to double +cmsFloat64Number CMSEXPORT _cms15Fixed16toDouble(cmsS15Fixed16Number fix32) +{ + cmsFloat64Number floater, sign, mid; + int Whole, FracPart; + + sign = (fix32 < 0 ? -1 : 1); + fix32 = abs(fix32); + + Whole = (cmsUInt16Number)(fix32 >> 16) & 0xffff; + FracPart = (cmsUInt16Number)(fix32 & 0xffff); + + mid = (cmsFloat64Number) FracPart / 65536.0; + floater = (cmsFloat64Number) Whole + mid; + + return sign * floater; +} + +// from double to Fixed point 15.16 +cmsS15Fixed16Number CMSEXPORT _cmsDoubleTo15Fixed16(cmsFloat64Number v) +{ + return ((cmsS15Fixed16Number) floor((v)*65536.0 + 0.5)); +} + +// Date/Time functions + +void CMSEXPORT _cmsDecodeDateTimeNumber(const cmsDateTimeNumber *Source, struct tm *Dest) +{ + + _cmsAssert(Dest != NULL); + _cmsAssert(Source != NULL); + + Dest->tm_sec = _cmsAdjustEndianess16(Source->seconds); + Dest->tm_min = _cmsAdjustEndianess16(Source->minutes); + Dest->tm_hour = _cmsAdjustEndianess16(Source->hours); + Dest->tm_mday = _cmsAdjustEndianess16(Source->day); + Dest->tm_mon = _cmsAdjustEndianess16(Source->month) - 1; + Dest->tm_year = _cmsAdjustEndianess16(Source->year) - 1900; + Dest->tm_wday = -1; + Dest->tm_yday = -1; + Dest->tm_isdst = 0; +} + +void CMSEXPORT _cmsEncodeDateTimeNumber(cmsDateTimeNumber *Dest, const struct tm *Source) +{ + _cmsAssert(Dest != NULL); + _cmsAssert(Source != NULL); + + Dest->seconds = _cmsAdjustEndianess16((cmsUInt16Number) Source->tm_sec); + Dest->minutes = _cmsAdjustEndianess16((cmsUInt16Number) Source->tm_min); + Dest->hours = _cmsAdjustEndianess16((cmsUInt16Number) Source->tm_hour); + Dest->day = _cmsAdjustEndianess16((cmsUInt16Number) Source->tm_mday); + Dest->month = _cmsAdjustEndianess16((cmsUInt16Number) (Source->tm_mon + 1)); + Dest->year = _cmsAdjustEndianess16((cmsUInt16Number) (Source->tm_year + 1900)); +} + +// Read base and return type base +cmsTagTypeSignature CMSEXPORT _cmsReadTypeBase(cmsIOHANDLER* io) +{ + _cmsTagBase Base; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &Base, sizeof(_cmsTagBase), 1) != 1) + return (cmsTagTypeSignature) 0; + + return (cmsTagTypeSignature) _cmsAdjustEndianess32(Base.sig); +} + +// Setup base marker +cmsBool CMSEXPORT _cmsWriteTypeBase(cmsIOHANDLER* io, cmsTagTypeSignature sig) +{ + _cmsTagBase Base; + + _cmsAssert(io != NULL); + + Base.sig = (cmsTagTypeSignature) _cmsAdjustEndianess32(sig); + memset(&Base.reserved, 0, sizeof(Base.reserved)); + return io -> Write(io, sizeof(_cmsTagBase), &Base); +} + +cmsBool CMSEXPORT _cmsReadAlignment(cmsIOHANDLER* io) +{ + cmsUInt8Number Buffer[4]; + cmsUInt32Number NextAligned, At; + cmsUInt32Number BytesToNextAlignedPos; + + _cmsAssert(io != NULL); + + At = io -> Tell(io); + NextAligned = _cmsALIGNLONG(At); + BytesToNextAlignedPos = NextAligned - At; + if (BytesToNextAlignedPos == 0) return TRUE; + if (BytesToNextAlignedPos > 4) return FALSE; + + return (io ->Read(io, Buffer, BytesToNextAlignedPos, 1) == 1); +} + +cmsBool CMSEXPORT _cmsWriteAlignment(cmsIOHANDLER* io) +{ + cmsUInt8Number Buffer[4]; + cmsUInt32Number NextAligned, At; + cmsUInt32Number BytesToNextAlignedPos; + + _cmsAssert(io != NULL); + + At = io -> Tell(io); + NextAligned = _cmsALIGNLONG(At); + BytesToNextAlignedPos = NextAligned - At; + if (BytesToNextAlignedPos == 0) return TRUE; + if (BytesToNextAlignedPos > 4) return FALSE; + + memset(Buffer, 0, BytesToNextAlignedPos); + return io -> Write(io, BytesToNextAlignedPos, Buffer); +} + + +// To deal with text streams. 2K at most +cmsBool CMSEXPORT _cmsIOPrintf(cmsIOHANDLER* io, const char* frm, ...) +{ + va_list args; + int len; + cmsUInt8Number Buffer[2048]; + cmsBool rc; + + _cmsAssert(io != NULL); + _cmsAssert(frm != NULL); + + va_start(args, frm); + + len = vsnprintf((char*) Buffer, 2047, frm, args); + if (len < 0) { + va_end(args); + return FALSE; // Truncated, which is a fatal error for us + } + + rc = io ->Write(io, len, Buffer); + + va_end(args); + + return rc; +} + + +// Plugin memory management ------------------------------------------------------------------------------------------------- + +// Specialized malloc for plug-ins, that is freed upon exit. +void* _cmsPluginMalloc(cmsContext ContextID, cmsUInt32Number size) +{ + struct _cmsContext_struct* ctx = _cmsGetContext(ContextID); + + if (ctx ->MemPool == NULL) { + + if (ContextID == NULL) { + + ctx->MemPool = _cmsCreateSubAlloc(0, 2*1024); + if (ctx->MemPool == NULL) return NULL; + } + else { + cmsSignalError(ContextID, cmsERROR_CORRUPTION_DETECTED, "NULL memory pool on context"); + return NULL; + } + } + + return _cmsSubAlloc(ctx->MemPool, size); +} + + +// Main plug-in dispatcher +cmsBool CMSEXPORT cmsPlugin(void* Plug_in) +{ + return cmsPluginTHR(NULL, Plug_in); +} + +cmsBool CMSEXPORT cmsPluginTHR(cmsContext id, void* Plug_in) +{ + cmsPluginBase* Plugin; + + for (Plugin = (cmsPluginBase*) Plug_in; + Plugin != NULL; + Plugin = Plugin -> Next) { + + if (Plugin -> Magic != cmsPluginMagicNumber) { + cmsSignalError(id, cmsERROR_UNKNOWN_EXTENSION, "Unrecognized plugin"); + return FALSE; + } + + if (Plugin ->ExpectedVersion > LCMS_VERSION) { + cmsSignalError(id, cmsERROR_UNKNOWN_EXTENSION, "plugin needs Little CMS %d, current version is %d", + Plugin ->ExpectedVersion, LCMS_VERSION); + return FALSE; + } + + switch (Plugin -> Type) { + + case cmsPluginMemHandlerSig: + if (!_cmsRegisterMemHandlerPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginInterpolationSig: + if (!_cmsRegisterInterpPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginTagTypeSig: + if (!_cmsRegisterTagTypePlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginTagSig: + if (!_cmsRegisterTagPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginFormattersSig: + if (!_cmsRegisterFormattersPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginRenderingIntentSig: + if (!_cmsRegisterRenderingIntentPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginParametricCurveSig: + if (!_cmsRegisterParametricCurvesPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginMultiProcessElementSig: + if (!_cmsRegisterMultiProcessElementPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginOptimizationSig: + if (!_cmsRegisterOptimizationPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginTransformSig: + if (!_cmsRegisterTransformPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginMutexSig: + if (!_cmsRegisterMutexPlugin(id, Plugin)) return FALSE; + break; + + default: + cmsSignalError(id, cmsERROR_UNKNOWN_EXTENSION, "Unrecognized plugin type '%X'", Plugin -> Type); + return FALSE; + } + } + + // Keep a reference to the plug-in + return TRUE; +} + + +// Revert all plug-ins to default +void CMSEXPORT cmsUnregisterPlugins(void) +{ + cmsUnregisterPluginsTHR(NULL); +} + + +// The Global storage for system context. This is the one and only global variable +// pointers structure. All global vars are referenced here. +static struct _cmsContext_struct globalContext = { + + NULL, // Not in the linked list + NULL, // No suballocator + { + NULL, // UserPtr, + &_cmsLogErrorChunk, // Logger, + &_cmsAlarmCodesChunk, // AlarmCodes, + &_cmsAdaptationStateChunk, // AdaptationState, + &_cmsMemPluginChunk, // MemPlugin, + &_cmsInterpPluginChunk, // InterpPlugin, + &_cmsCurvesPluginChunk, // CurvesPlugin, + &_cmsFormattersPluginChunk, // FormattersPlugin, + &_cmsTagTypePluginChunk, // TagTypePlugin, + &_cmsTagPluginChunk, // TagPlugin, + &_cmsIntentsPluginChunk, // IntentPlugin, + &_cmsMPETypePluginChunk, // MPEPlugin, + &_cmsOptimizationPluginChunk, // OptimizationPlugin, + &_cmsTransformPluginChunk, // TransformPlugin, + &_cmsMutexPluginChunk // MutexPlugin + }, + + { NULL, NULL, NULL, NULL, NULL, NULL } // The default memory allocator is not used for context 0 +}; + + +// The context pool (linked list head) +static _cmsMutex _cmsContextPoolHeadMutex = CMS_MUTEX_INITIALIZER; +static struct _cmsContext_struct* _cmsContextPoolHead = NULL; + +// Internal, get associated pointer, with guessing. Never returns NULL. +struct _cmsContext_struct* _cmsGetContext(cmsContext ContextID) +{ + struct _cmsContext_struct* id = (struct _cmsContext_struct*) ContextID; + struct _cmsContext_struct* ctx; + + + // On 0, use global settings + if (id == NULL) + return &globalContext; + + // Search + for (ctx = _cmsContextPoolHead; + ctx != NULL; + ctx = ctx ->Next) { + + // Found it? + if (id == ctx) + return ctx; // New-style context, + } + + return &globalContext; +} + + +// Internal: get the memory area associanted with each context client +// Returns the block assigned to the specific zone. Never return NULL. +void* _cmsContextGetClientChunk(cmsContext ContextID, _cmsMemoryClient mc) +{ + struct _cmsContext_struct* ctx; + void *ptr; + + if ((int) mc < 0 || mc >= MemoryClientMax) { + + cmsSignalError(ContextID, cmsERROR_INTERNAL, "Bad context client -- possible corruption"); + + // This is catastrophic. Should never reach here + _cmsAssert(0); + + // Reverts to global context + return globalContext.chunks[UserPtr]; + } + + ctx = _cmsGetContext(ContextID); + ptr = ctx ->chunks[mc]; + + if (ptr != NULL) + return ptr; + + // A null ptr means no special settings for that context, and this + // reverts to Context0 globals + return globalContext.chunks[mc]; +} + + +// This function returns the given context its default pristine state, +// as no plug-ins were declared. There is no way to unregister a single +// plug-in, as a single call to cmsPluginTHR() function may register +// many different plug-ins simultaneously, then there is no way to +// identify which plug-in to unregister. +void CMSEXPORT cmsUnregisterPluginsTHR(cmsContext ContextID) +{ + _cmsRegisterMemHandlerPlugin(ContextID, NULL); + _cmsRegisterInterpPlugin(ContextID, NULL); + _cmsRegisterTagTypePlugin(ContextID, NULL); + _cmsRegisterTagPlugin(ContextID, NULL); + _cmsRegisterFormattersPlugin(ContextID, NULL); + _cmsRegisterRenderingIntentPlugin(ContextID, NULL); + _cmsRegisterParametricCurvesPlugin(ContextID, NULL); + _cmsRegisterMultiProcessElementPlugin(ContextID, NULL); + _cmsRegisterOptimizationPlugin(ContextID, NULL); + _cmsRegisterTransformPlugin(ContextID, NULL); + _cmsRegisterMutexPlugin(ContextID, NULL); +} + + +// Returns the memory manager plug-in, if any, from the Plug-in bundle +static +cmsPluginMemHandler* _cmsFindMemoryPlugin(void* PluginBundle) +{ + cmsPluginBase* Plugin; + + for (Plugin = (cmsPluginBase*) PluginBundle; + Plugin != NULL; + Plugin = Plugin -> Next) { + + if (Plugin -> Magic == cmsPluginMagicNumber && + Plugin -> ExpectedVersion <= LCMS_VERSION && + Plugin -> Type == cmsPluginMemHandlerSig) { + + // Found! + return (cmsPluginMemHandler*) Plugin; + } + } + + // Nope, revert to defaults + return NULL; +} + + +// Creates a new context with optional associated plug-ins. Caller may also specify an optional pointer to user-defined +// data that will be forwarded to plug-ins and logger. +cmsContext CMSEXPORT cmsCreateContext(void* Plugin, void* UserData) +{ + struct _cmsContext_struct* ctx; + struct _cmsContext_struct fakeContext; + + _cmsInstallAllocFunctions(_cmsFindMemoryPlugin(Plugin), &fakeContext.DefaultMemoryManager); + + fakeContext.chunks[UserPtr] = UserData; + fakeContext.chunks[MemPlugin] = &fakeContext.DefaultMemoryManager; + + // Create the context structure. + ctx = (struct _cmsContext_struct*) _cmsMalloc(&fakeContext, sizeof(struct _cmsContext_struct)); + if (ctx == NULL) + return NULL; // Something very wrong happened! + + // Init the structure and the memory manager + memset(ctx, 0, sizeof(struct _cmsContext_struct)); + + // Keep memory manager + memcpy(&ctx->DefaultMemoryManager, &fakeContext.DefaultMemoryManager, sizeof(_cmsMemPluginChunk)); + + // Maintain the linked list (with proper locking) + _cmsEnterCriticalSectionPrimitive(&_cmsContextPoolHeadMutex); + ctx ->Next = _cmsContextPoolHead; + _cmsContextPoolHead = ctx; + _cmsLeaveCriticalSectionPrimitive(&_cmsContextPoolHeadMutex); + + ctx ->chunks[UserPtr] = UserData; + ctx ->chunks[MemPlugin] = &ctx->DefaultMemoryManager; + + // Now we can allocate the pool by using default memory manager + ctx ->MemPool = _cmsCreateSubAlloc(ctx, 22 * sizeof(void*)); // default size about 32 pointers + if (ctx ->MemPool == NULL) { + + cmsDeleteContext(ctx); + return NULL; + } + + _cmsAllocLogErrorChunk(ctx, NULL); + _cmsAllocAlarmCodesChunk(ctx, NULL); + _cmsAllocAdaptationStateChunk(ctx, NULL); + _cmsAllocMemPluginChunk(ctx, NULL); + _cmsAllocInterpPluginChunk(ctx, NULL); + _cmsAllocCurvesPluginChunk(ctx, NULL); + _cmsAllocFormattersPluginChunk(ctx, NULL); + _cmsAllocTagTypePluginChunk(ctx, NULL); + _cmsAllocMPETypePluginChunk(ctx, NULL); + _cmsAllocTagPluginChunk(ctx, NULL); + _cmsAllocIntentsPluginChunk(ctx, NULL); + _cmsAllocOptimizationPluginChunk(ctx, NULL); + _cmsAllocTransformPluginChunk(ctx, NULL); + _cmsAllocMutexPluginChunk(ctx, NULL); + + // Setup the plug-ins + if (!cmsPluginTHR(ctx, Plugin)) { + + cmsDeleteContext(ctx); + return NULL; + } + + return (cmsContext) ctx; +} + +// Duplicates a context with all associated plug-ins. +// Caller may specify an optional pointer to user-defined +// data that will be forwarded to plug-ins and logger. +cmsContext CMSEXPORT cmsDupContext(cmsContext ContextID, void* NewUserData) +{ + int i; + struct _cmsContext_struct* ctx; + const struct _cmsContext_struct* src = _cmsGetContext(ContextID); + + void* userData = (NewUserData != NULL) ? NewUserData : src -> chunks[UserPtr]; + + + ctx = (struct _cmsContext_struct*) _cmsMalloc(ContextID, sizeof(struct _cmsContext_struct)); + if (ctx == NULL) + return NULL; // Something very wrong happened + + // Setup default memory allocators + memcpy(&ctx->DefaultMemoryManager, &src->DefaultMemoryManager, sizeof(ctx->DefaultMemoryManager)); + + // Maintain the linked list + _cmsEnterCriticalSectionPrimitive(&_cmsContextPoolHeadMutex); + ctx ->Next = _cmsContextPoolHead; + _cmsContextPoolHead = ctx; + _cmsLeaveCriticalSectionPrimitive(&_cmsContextPoolHeadMutex); + + ctx ->chunks[UserPtr] = userData; + ctx ->chunks[MemPlugin] = &ctx->DefaultMemoryManager; + + ctx ->MemPool = _cmsCreateSubAlloc(ctx, 22 * sizeof(void*)); + if (ctx ->MemPool == NULL) { + + cmsDeleteContext(ctx); + return NULL; + } + + // Allocate all required chunks. + _cmsAllocLogErrorChunk(ctx, src); + _cmsAllocAlarmCodesChunk(ctx, src); + _cmsAllocAdaptationStateChunk(ctx, src); + _cmsAllocMemPluginChunk(ctx, src); + _cmsAllocInterpPluginChunk(ctx, src); + _cmsAllocCurvesPluginChunk(ctx, src); + _cmsAllocFormattersPluginChunk(ctx, src); + _cmsAllocTagTypePluginChunk(ctx, src); + _cmsAllocMPETypePluginChunk(ctx, src); + _cmsAllocTagPluginChunk(ctx, src); + _cmsAllocIntentsPluginChunk(ctx, src); + _cmsAllocOptimizationPluginChunk(ctx, src); + _cmsAllocTransformPluginChunk(ctx, src); + _cmsAllocMutexPluginChunk(ctx, src); + + // Make sure no one failed + for (i=Logger; i < MemoryClientMax; i++) { + + if (src ->chunks[i] == NULL) { + cmsDeleteContext((cmsContext) ctx); + return NULL; + } + } + + return (cmsContext) ctx; +} + + +/* +static +struct _cmsContext_struct* FindPrev(struct _cmsContext_struct* id) +{ + struct _cmsContext_struct* prev; + + // Search for previous + for (prev = _cmsContextPoolHead; + prev != NULL; + prev = prev ->Next) + { + if (prev ->Next == id) + return prev; + } + + return NULL; // List is empty or only one element! +} +*/ + +// Frees any resources associated with the given context, +// and destroys the context placeholder. +// The ContextID can no longer be used in any THR operation. +void CMSEXPORT cmsDeleteContext(cmsContext ContextID) +{ + if (ContextID != NULL) { + + struct _cmsContext_struct* ctx = (struct _cmsContext_struct*) ContextID; + struct _cmsContext_struct fakeContext; + struct _cmsContext_struct* prev; + + memcpy(&fakeContext.DefaultMemoryManager, &ctx->DefaultMemoryManager, sizeof(ctx->DefaultMemoryManager)); + + fakeContext.chunks[UserPtr] = ctx ->chunks[UserPtr]; + fakeContext.chunks[MemPlugin] = &fakeContext.DefaultMemoryManager; + + // Get rid of plugins + cmsUnregisterPluginsTHR(ContextID); + + // Since all memory is allocated in the private pool, all what we need to do is destroy the pool + if (ctx -> MemPool != NULL) + _cmsSubAllocDestroy(ctx ->MemPool); + ctx -> MemPool = NULL; + + // Maintain list + _cmsEnterCriticalSectionPrimitive(&_cmsContextPoolHeadMutex); + if (_cmsContextPoolHead == ctx) { + + _cmsContextPoolHead = ctx->Next; + } + else { + + // Search for previous + for (prev = _cmsContextPoolHead; + prev != NULL; + prev = prev ->Next) + { + if (prev -> Next == ctx) { + prev -> Next = ctx ->Next; + break; + } + } + } + _cmsLeaveCriticalSectionPrimitive(&_cmsContextPoolHeadMutex); + + // free the memory block itself + _cmsFree(&fakeContext, ctx); + } +} + +// Returns the user data associated to the given ContextID, or NULL if no user data was attached on context creation +void* CMSEXPORT cmsGetContextUserData(cmsContext ContextID) +{ + return _cmsContextGetClientChunk(ContextID, UserPtr); +} + + Index: sdk/lib/3rdparty/lcms2/cmsps2.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsps2.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsps2.c (working copy) @@ -0,0 +1,1598 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// PostScript ColorRenderingDictionary and ColorSpaceArray + + +#define MAXPSCOLS 60 // Columns on tables + +/* + Implementation + -------------- + + PostScript does use XYZ as its internal PCS. But since PostScript + interpolation tables are limited to 8 bits, I use Lab as a way to + improve the accuracy, favoring perceptual results. So, for the creation + of each CRD, CSA the profiles are converted to Lab via a device + link between profile -> Lab or Lab -> profile. The PS code necessary to + convert Lab <-> XYZ is also included. + + + + Color Space Arrays (CSA) + ================================================================================== + + In order to obtain precision, code chooses between three ways to implement + the device -> XYZ transform. These cases identifies monochrome profiles (often + implemented as a set of curves), matrix-shaper and Pipeline-based. + + Monochrome + ----------- + + This is implemented as /CIEBasedA CSA. The prelinearization curve is + placed into /DecodeA section, and matrix equals to D50. Since here is + no interpolation tables, I do the conversion directly to XYZ + + NOTE: CLUT-based monochrome profiles are NOT supported. So, cmsFLAGS_MATRIXINPUT + flag is forced on such profiles. + + [ /CIEBasedA + << + /DecodeA { transfer function } bind + /MatrixA [D50] + /RangeLMN [ 0.0 cmsD50X 0.0 cmsD50Y 0.0 cmsD50Z ] + /WhitePoint [D50] + /BlackPoint [BP] + /RenderingIntent (intent) + >> + ] + + On simpler profiles, the PCS is already XYZ, so no conversion is required. + + + Matrix-shaper based + ------------------- + + This is implemented both with /CIEBasedABC or /CIEBasedDEF on dependig + of profile implementation. Since here there are no interpolation tables, I do + the conversion directly to XYZ + + + + [ /CIEBasedABC + << + /DecodeABC [ {transfer1} {transfer2} {transfer3} ] + /MatrixABC [Matrix] + /RangeLMN [ 0.0 cmsD50X 0.0 cmsD50Y 0.0 cmsD50Z ] + /DecodeLMN [ { / 2} dup dup ] + /WhitePoint [D50] + /BlackPoint [BP] + /RenderingIntent (intent) + >> + ] + + + CLUT based + ---------- + + Lab is used in such cases. + + [ /CIEBasedDEF + << + /DecodeDEF [ ] + /Table [ p p p [<...>]] + /RangeABC [ 0 1 0 1 0 1] + /DecodeABC[ ] + /RangeLMN [ -0.236 1.254 0 1 -0.635 1.640 ] + % -128/500 1+127/500 0 1 -127/200 1+128/200 + /MatrixABC [ 1 1 1 1 0 0 0 0 -1] + /WhitePoint [D50] + /BlackPoint [BP] + /RenderingIntent (intent) + ] + + + Color Rendering Dictionaries (CRD) + ================================== + These are always implemented as CLUT, and always are using Lab. Since CRD are expected to + be used as resources, the code adds the definition as well. + + << + /ColorRenderingType 1 + /WhitePoint [ D50 ] + /BlackPoint [BP] + /MatrixPQR [ Bradford ] + /RangePQR [-0.125 1.375 -0.125 1.375 -0.125 1.375 ] + /TransformPQR [ + {4 index 3 get div 2 index 3 get mul exch pop exch pop exch pop exch pop } bind + {4 index 4 get div 2 index 4 get mul exch pop exch pop exch pop exch pop } bind + {4 index 5 get div 2 index 5 get mul exch pop exch pop exch pop exch pop } bind + ] + /MatrixABC <...> + /EncodeABC <...> + /RangeABC <.. used for XYZ -> Lab> + /EncodeLMN + /RenderTable [ p p p [<...>]] + + /RenderingIntent (Perceptual) + >> + /Current exch /ColorRendering defineresource pop + + + The following stages are used to convert from XYZ to Lab + -------------------------------------------------------- + + Input is given at LMN stage on X, Y, Z + + Encode LMN gives us f(X/Xn), f(Y/Yn), f(Z/Zn) + + /EncodeLMN [ + + { 0.964200 div dup 0.008856 le {7.787 mul 16 116 div add}{1 3 div exp} ifelse } bind + { 1.000000 div dup 0.008856 le {7.787 mul 16 116 div add}{1 3 div exp} ifelse } bind + { 0.824900 div dup 0.008856 le {7.787 mul 16 116 div add}{1 3 div exp} ifelse } bind + + ] + + + MatrixABC is used to compute f(Y/Yn), f(X/Xn) - f(Y/Yn), f(Y/Yn) - f(Z/Zn) + + | 0 1 0| + | 1 -1 0| + | 0 1 -1| + + /MatrixABC [ 0 1 0 1 -1 1 0 0 -1 ] + + EncodeABC finally gives Lab values. + + /EncodeABC [ + { 116 mul 16 sub 100 div } bind + { 500 mul 128 add 255 div } bind + { 200 mul 128 add 255 div } bind + ] + + The following stages are used to convert Lab to XYZ + ---------------------------------------------------- + + /RangeABC [ 0 1 0 1 0 1] + /DecodeABC [ { 100 mul 16 add 116 div } bind + { 255 mul 128 sub 500 div } bind + { 255 mul 128 sub 200 div } bind + ] + + /MatrixABC [ 1 1 1 1 0 0 0 0 -1] + /DecodeLMN [ + {dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse 0.964200 mul} bind + {dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse } bind + {dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse 0.824900 mul} bind + ] + + +*/ + +/* + + PostScript algorithms discussion. + ========================================================================================================= + + 1D interpolation algorithm + + + 1D interpolation (float) + ------------------------ + + val2 = Domain * Value; + + cell0 = (int) floor(val2); + cell1 = (int) ceil(val2); + + rest = val2 - cell0; + + y0 = LutTable[cell0] ; + y1 = LutTable[cell1] ; + + y = y0 + (y1 - y0) * rest; + + + + PostScript code Stack + ================================================ + + { % v + + [array] % v tab + dup % v tab tab + length 1 sub % v tab dom + + 3 -1 roll % tab dom v + + mul % tab val2 + dup % tab val2 val2 + dup % tab val2 val2 val2 + floor cvi % tab val2 val2 cell0 + exch % tab val2 cell0 val2 + ceiling cvi % tab val2 cell0 cell1 + + 3 index % tab val2 cell0 cell1 tab + exch % tab val2 cell0 tab cell1 + get % tab val2 cell0 y1 + + 4 -1 roll % val2 cell0 y1 tab + 3 -1 roll % val2 y1 tab cell0 + get % val2 y1 y0 + + dup % val2 y1 y0 y0 + 3 1 roll % val2 y0 y1 y0 + + sub % val2 y0 (y1-y0) + 3 -1 roll % y0 (y1-y0) val2 + dup % y0 (y1-y0) val2 val2 + floor cvi % y0 (y1-y0) val2 floor(val2) + sub % y0 (y1-y0) rest + mul % y0 t1 + add % y + 65535 div % result + + } bind + + +*/ + + +// This struct holds the memory block currently being write +typedef struct { + _cmsStageCLutData* Pipeline; + cmsIOHANDLER* m; + + int FirstComponent; + int SecondComponent; + + const char* PreMaj; + const char* PostMaj; + const char* PreMin; + const char* PostMin; + + int FixWhite; // Force mapping of pure white + + cmsColorSpaceSignature ColorSpace; // ColorSpace of profile + + +} cmsPsSamplerCargo; + +static int _cmsPSActualColumn = 0; + + +// Convert to byte +static +cmsUInt8Number Word2Byte(cmsUInt16Number w) +{ + return (cmsUInt8Number) floor((cmsFloat64Number) w / 257.0 + 0.5); +} + + +// Convert to byte (using ICC2 notation) +/* +static +cmsUInt8Number L2Byte(cmsUInt16Number w) +{ + int ww = w + 0x0080; + + if (ww > 0xFFFF) return 0xFF; + + return (cmsUInt8Number) ((cmsUInt16Number) (ww >> 8) & 0xFF); +} +*/ + +// Write a cooked byte + +static +void WriteByte(cmsIOHANDLER* m, cmsUInt8Number b) +{ + _cmsIOPrintf(m, "%02x", b); + _cmsPSActualColumn += 2; + + if (_cmsPSActualColumn > MAXPSCOLS) { + + _cmsIOPrintf(m, "\n"); + _cmsPSActualColumn = 0; + } +} + +// ----------------------------------------------------------------- PostScript generation + + +// Removes offending Carriage returns +static +char* RemoveCR(const char* txt) +{ + static char Buffer[2048]; + char* pt; + + strncpy(Buffer, txt, 2047); + Buffer[2047] = 0; + for (pt = Buffer; *pt; pt++) + if (*pt == '\n' || *pt == '\r') *pt = ' '; + + return Buffer; + +} + +static +void EmitHeader(cmsIOHANDLER* m, const char* Title, cmsHPROFILE hProfile) +{ + time_t timer; + cmsMLU *Description, *Copyright; + char DescASCII[256], CopyrightASCII[256]; + + time(&timer); + + Description = (cmsMLU*) cmsReadTag(hProfile, cmsSigProfileDescriptionTag); + Copyright = (cmsMLU*) cmsReadTag(hProfile, cmsSigCopyrightTag); + + DescASCII[0] = DescASCII[255] = 0; + CopyrightASCII[0] = CopyrightASCII[255] = 0; + + if (Description != NULL) cmsMLUgetASCII(Description, cmsNoLanguage, cmsNoCountry, DescASCII, 255); + if (Copyright != NULL) cmsMLUgetASCII(Copyright, cmsNoLanguage, cmsNoCountry, CopyrightASCII, 255); + + _cmsIOPrintf(m, "%%!PS-Adobe-3.0\n"); + _cmsIOPrintf(m, "%%\n"); + _cmsIOPrintf(m, "%% %s\n", Title); + _cmsIOPrintf(m, "%% Source: %s\n", RemoveCR(DescASCII)); + _cmsIOPrintf(m, "%% %s\n", RemoveCR(CopyrightASCII)); + _cmsIOPrintf(m, "%% Created: %s", ctime(&timer)); // ctime appends a \n!!! + _cmsIOPrintf(m, "%%\n"); + _cmsIOPrintf(m, "%%%%BeginResource\n"); + +} + + +// Emits White & Black point. White point is always D50, Black point is the device +// Black point adapted to D50. + +static +void EmitWhiteBlackD50(cmsIOHANDLER* m, cmsCIEXYZ* BlackPoint) +{ + + _cmsIOPrintf(m, "/BlackPoint [%f %f %f]\n", BlackPoint -> X, + BlackPoint -> Y, + BlackPoint -> Z); + + _cmsIOPrintf(m, "/WhitePoint [%f %f %f]\n", cmsD50_XYZ()->X, + cmsD50_XYZ()->Y, + cmsD50_XYZ()->Z); +} + + +static +void EmitRangeCheck(cmsIOHANDLER* m) +{ + _cmsIOPrintf(m, "dup 0.0 lt { pop 0.0 } if " + "dup 1.0 gt { pop 1.0 } if "); + +} + +// Does write the intent + +static +void EmitIntent(cmsIOHANDLER* m, int RenderingIntent) +{ + const char *intent; + + switch (RenderingIntent) { + + case INTENT_PERCEPTUAL: intent = "Perceptual"; break; + case INTENT_RELATIVE_COLORIMETRIC: intent = "RelativeColorimetric"; break; + case INTENT_ABSOLUTE_COLORIMETRIC: intent = "AbsoluteColorimetric"; break; + case INTENT_SATURATION: intent = "Saturation"; break; + + default: intent = "Undefined"; break; + } + + _cmsIOPrintf(m, "/RenderingIntent (%s)\n", intent ); +} + +// +// Convert L* to Y +// +// Y = Yn*[ (L* + 16) / 116] ^ 3 if (L*) >= 6 / 29 +// = Yn*( L* / 116) / 7.787 if (L*) < 6 / 29 +// + +/* +static +void EmitL2Y(cmsIOHANDLER* m) +{ + _cmsIOPrintf(m, + "{ " + "100 mul 16 add 116 div " // (L * 100 + 16) / 116 + "dup 6 29 div ge " // >= 6 / 29 ? + "{ dup dup mul mul } " // yes, ^3 and done + "{ 4 29 div sub 108 841 div mul } " // no, slope limiting + "ifelse } bind "); +} +*/ + + +// Lab -> XYZ, see the discussion above + +static +void EmitLab2XYZ(cmsIOHANDLER* m) +{ + _cmsIOPrintf(m, "/RangeABC [ 0 1 0 1 0 1]\n"); + _cmsIOPrintf(m, "/DecodeABC [\n"); + _cmsIOPrintf(m, "{100 mul 16 add 116 div } bind\n"); + _cmsIOPrintf(m, "{255 mul 128 sub 500 div } bind\n"); + _cmsIOPrintf(m, "{255 mul 128 sub 200 div } bind\n"); + _cmsIOPrintf(m, "]\n"); + _cmsIOPrintf(m, "/MatrixABC [ 1 1 1 1 0 0 0 0 -1]\n"); + _cmsIOPrintf(m, "/RangeLMN [ -0.236 1.254 0 1 -0.635 1.640 ]\n"); + _cmsIOPrintf(m, "/DecodeLMN [\n"); + _cmsIOPrintf(m, "{dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse 0.964200 mul} bind\n"); + _cmsIOPrintf(m, "{dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse } bind\n"); + _cmsIOPrintf(m, "{dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse 0.824900 mul} bind\n"); + _cmsIOPrintf(m, "]\n"); +} + + + +// Outputs a table of words. It does use 16 bits + +static +void Emit1Gamma(cmsIOHANDLER* m, cmsToneCurve* Table) +{ + cmsUInt32Number i; + cmsFloat64Number gamma; + + if (Table == NULL) return; // Error + + if (Table ->nEntries <= 0) return; // Empty table + + // Suppress whole if identity + if (cmsIsToneCurveLinear(Table)) return; + + // Check if is really an exponential. If so, emit "exp" + gamma = cmsEstimateGamma(Table, 0.001); + if (gamma > 0) { + _cmsIOPrintf(m, "{ %g exp } bind ", gamma); + return; + } + + _cmsIOPrintf(m, "{ "); + + // Bounds check + EmitRangeCheck(m); + + // Emit intepolation code + + // PostScript code Stack + // =============== ======================== + // v + _cmsIOPrintf(m, " ["); + + for (i=0; i < Table->nEntries; i++) { + _cmsIOPrintf(m, "%d ", Table->Table16[i]); + } + + _cmsIOPrintf(m, "] "); // v tab + + _cmsIOPrintf(m, "dup "); // v tab tab + _cmsIOPrintf(m, "length 1 sub "); // v tab dom + _cmsIOPrintf(m, "3 -1 roll "); // tab dom v + _cmsIOPrintf(m, "mul "); // tab val2 + _cmsIOPrintf(m, "dup "); // tab val2 val2 + _cmsIOPrintf(m, "dup "); // tab val2 val2 val2 + _cmsIOPrintf(m, "floor cvi "); // tab val2 val2 cell0 + _cmsIOPrintf(m, "exch "); // tab val2 cell0 val2 + _cmsIOPrintf(m, "ceiling cvi "); // tab val2 cell0 cell1 + _cmsIOPrintf(m, "3 index "); // tab val2 cell0 cell1 tab + _cmsIOPrintf(m, "exch "); // tab val2 cell0 tab cell1 + _cmsIOPrintf(m, "get "); // tab val2 cell0 y1 + _cmsIOPrintf(m, "4 -1 roll "); // val2 cell0 y1 tab + _cmsIOPrintf(m, "3 -1 roll "); // val2 y1 tab cell0 + _cmsIOPrintf(m, "get "); // val2 y1 y0 + _cmsIOPrintf(m, "dup "); // val2 y1 y0 y0 + _cmsIOPrintf(m, "3 1 roll "); // val2 y0 y1 y0 + _cmsIOPrintf(m, "sub "); // val2 y0 (y1-y0) + _cmsIOPrintf(m, "3 -1 roll "); // y0 (y1-y0) val2 + _cmsIOPrintf(m, "dup "); // y0 (y1-y0) val2 val2 + _cmsIOPrintf(m, "floor cvi "); // y0 (y1-y0) val2 floor(val2) + _cmsIOPrintf(m, "sub "); // y0 (y1-y0) rest + _cmsIOPrintf(m, "mul "); // y0 t1 + _cmsIOPrintf(m, "add "); // y + _cmsIOPrintf(m, "65535 div "); // result + + _cmsIOPrintf(m, " } bind "); +} + + +// Compare gamma table + +static +cmsBool GammaTableEquals(cmsUInt16Number* g1, cmsUInt16Number* g2, int nEntries) +{ + return memcmp(g1, g2, nEntries* sizeof(cmsUInt16Number)) == 0; +} + + +// Does write a set of gamma curves + +static +void EmitNGamma(cmsIOHANDLER* m, int n, cmsToneCurve* g[]) +{ + int i; + + for( i=0; i < n; i++ ) + { + if (g[i] == NULL) return; // Error + + if (i > 0 && GammaTableEquals(g[i-1]->Table16, g[i]->Table16, g[i]->nEntries)) { + + _cmsIOPrintf(m, "dup "); + } + else { + Emit1Gamma(m, g[i]); + } + } + +} + + + + + +// Following code dumps a LUT onto memory stream + + +// This is the sampler. Intended to work in SAMPLER_INSPECT mode, +// that is, the callback will be called for each knot with +// +// In[] The grid location coordinates, normalized to 0..ffff +// Out[] The Pipeline values, normalized to 0..ffff +// +// Returning a value other than 0 does terminate the sampling process +// +// Each row contains Pipeline values for all but first component. So, I +// detect row changing by keeping a copy of last value of first +// component. -1 is used to mark beginning of whole block. + +static +int OutputValueSampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + cmsPsSamplerCargo* sc = (cmsPsSamplerCargo*) Cargo; + cmsUInt32Number i; + + + if (sc -> FixWhite) { + + if (In[0] == 0xFFFF) { // Only in L* = 100, ab = [-8..8] + + if ((In[1] >= 0x7800 && In[1] <= 0x8800) && + (In[2] >= 0x7800 && In[2] <= 0x8800)) { + + cmsUInt16Number* Black; + cmsUInt16Number* White; + cmsUInt32Number nOutputs; + + if (!_cmsEndPointsBySpace(sc ->ColorSpace, &White, &Black, &nOutputs)) + return 0; + + for (i=0; i < nOutputs; i++) + Out[i] = White[i]; + } + + + } + } + + + // Hadle the parenthesis on rows + + if (In[0] != sc ->FirstComponent) { + + if (sc ->FirstComponent != -1) { + + _cmsIOPrintf(sc ->m, sc ->PostMin); + sc ->SecondComponent = -1; + _cmsIOPrintf(sc ->m, sc ->PostMaj); + } + + // Begin block + _cmsPSActualColumn = 0; + + _cmsIOPrintf(sc ->m, sc ->PreMaj); + sc ->FirstComponent = In[0]; + } + + + if (In[1] != sc ->SecondComponent) { + + if (sc ->SecondComponent != -1) { + + _cmsIOPrintf(sc ->m, sc ->PostMin); + } + + _cmsIOPrintf(sc ->m, sc ->PreMin); + sc ->SecondComponent = In[1]; + } + + // Dump table. + + for (i=0; i < sc -> Pipeline ->Params->nOutputs; i++) { + + cmsUInt16Number wWordOut = Out[i]; + cmsUInt8Number wByteOut; // Value as byte + + + // We always deal with Lab4 + + wByteOut = Word2Byte(wWordOut); + WriteByte(sc -> m, wByteOut); + } + + return 1; +} + +// Writes a Pipeline on memstream. Could be 8 or 16 bits based + +static +void WriteCLUT(cmsIOHANDLER* m, cmsStage* mpe, const char* PreMaj, + const char* PostMaj, + const char* PreMin, + const char* PostMin, + int FixWhite, + cmsColorSpaceSignature ColorSpace) +{ + cmsUInt32Number i; + cmsPsSamplerCargo sc; + + sc.FirstComponent = -1; + sc.SecondComponent = -1; + sc.Pipeline = (_cmsStageCLutData *) mpe ->Data; + sc.m = m; + sc.PreMaj = PreMaj; + sc.PostMaj= PostMaj; + + sc.PreMin = PreMin; + sc.PostMin = PostMin; + sc.FixWhite = FixWhite; + sc.ColorSpace = ColorSpace; + + _cmsIOPrintf(m, "["); + + for (i=0; i < sc.Pipeline->Params->nInputs; i++) + _cmsIOPrintf(m, " %d ", sc.Pipeline->Params->nSamples[i]); + + _cmsIOPrintf(m, " [\n"); + + cmsStageSampleCLut16bit(mpe, OutputValueSampler, (void*) &sc, SAMPLER_INSPECT); + + _cmsIOPrintf(m, PostMin); + _cmsIOPrintf(m, PostMaj); + _cmsIOPrintf(m, "] "); + +} + + +// Dumps CIEBasedA Color Space Array + +static +int EmitCIEBasedA(cmsIOHANDLER* m, cmsToneCurve* Curve, cmsCIEXYZ* BlackPoint) +{ + + _cmsIOPrintf(m, "[ /CIEBasedA\n"); + _cmsIOPrintf(m, " <<\n"); + + _cmsIOPrintf(m, "/DecodeA "); + + Emit1Gamma(m, Curve); + + _cmsIOPrintf(m, " \n"); + + _cmsIOPrintf(m, "/MatrixA [ 0.9642 1.0000 0.8249 ]\n"); + _cmsIOPrintf(m, "/RangeLMN [ 0.0 0.9642 0.0 1.0000 0.0 0.8249 ]\n"); + + EmitWhiteBlackD50(m, BlackPoint); + EmitIntent(m, INTENT_PERCEPTUAL); + + _cmsIOPrintf(m, ">>\n"); + _cmsIOPrintf(m, "]\n"); + + return 1; +} + + +// Dumps CIEBasedABC Color Space Array + +static +int EmitCIEBasedABC(cmsIOHANDLER* m, cmsFloat64Number* Matrix, cmsToneCurve** CurveSet, cmsCIEXYZ* BlackPoint) +{ + int i; + + _cmsIOPrintf(m, "[ /CIEBasedABC\n"); + _cmsIOPrintf(m, "<<\n"); + _cmsIOPrintf(m, "/DecodeABC [ "); + + EmitNGamma(m, 3, CurveSet); + + _cmsIOPrintf(m, "]\n"); + + _cmsIOPrintf(m, "/MatrixABC [ " ); + + for( i=0; i < 3; i++ ) { + + _cmsIOPrintf(m, "%.6f %.6f %.6f ", Matrix[i + 3*0], + Matrix[i + 3*1], + Matrix[i + 3*2]); + } + + + _cmsIOPrintf(m, "]\n"); + + _cmsIOPrintf(m, "/RangeLMN [ 0.0 0.9642 0.0 1.0000 0.0 0.8249 ]\n"); + + EmitWhiteBlackD50(m, BlackPoint); + EmitIntent(m, INTENT_PERCEPTUAL); + + _cmsIOPrintf(m, ">>\n"); + _cmsIOPrintf(m, "]\n"); + + + return 1; +} + + +static +int EmitCIEBasedDEF(cmsIOHANDLER* m, cmsPipeline* Pipeline, int Intent, cmsCIEXYZ* BlackPoint) +{ + const char* PreMaj; + const char* PostMaj; + const char* PreMin, *PostMin; + cmsStage* mpe; + + mpe = Pipeline ->Elements; + + switch (cmsStageInputChannels(mpe)) { + case 3: + + _cmsIOPrintf(m, "[ /CIEBasedDEF\n"); + PreMaj ="<"; + PostMaj= ">\n"; + PreMin = PostMin = ""; + break; + case 4: + _cmsIOPrintf(m, "[ /CIEBasedDEFG\n"); + PreMaj = "["; + PostMaj = "]\n"; + PreMin = "<"; + PostMin = ">\n"; + break; + default: + return 0; + + } + + _cmsIOPrintf(m, "<<\n"); + + if (cmsStageType(mpe) == cmsSigCurveSetElemType) { + + _cmsIOPrintf(m, "/DecodeDEF [ "); + EmitNGamma(m, cmsStageOutputChannels(mpe), _cmsStageGetPtrToCurveSet(mpe)); + _cmsIOPrintf(m, "]\n"); + + mpe = mpe ->Next; + } + + if (cmsStageType(mpe) == cmsSigCLutElemType) { + + _cmsIOPrintf(m, "/Table "); + WriteCLUT(m, mpe, PreMaj, PostMaj, PreMin, PostMin, FALSE, (cmsColorSpaceSignature) 0); + _cmsIOPrintf(m, "]\n"); + } + + EmitLab2XYZ(m); + EmitWhiteBlackD50(m, BlackPoint); + EmitIntent(m, Intent); + + _cmsIOPrintf(m, " >>\n"); + _cmsIOPrintf(m, "]\n"); + + return 1; +} + +// Generates a curve from a gray profile + +static + cmsToneCurve* ExtractGray2Y(cmsContext ContextID, cmsHPROFILE hProfile, int Intent) +{ + cmsToneCurve* Out = cmsBuildTabulatedToneCurve16(ContextID, 256, NULL); + cmsHPROFILE hXYZ = cmsCreateXYZProfile(); + cmsHTRANSFORM xform = cmsCreateTransformTHR(ContextID, hProfile, TYPE_GRAY_8, hXYZ, TYPE_XYZ_DBL, Intent, cmsFLAGS_NOOPTIMIZE); + int i; + + if (Out != NULL) { + for (i=0; i < 256; i++) { + + cmsUInt8Number Gray = (cmsUInt8Number) i; + cmsCIEXYZ XYZ; + + cmsDoTransform(xform, &Gray, &XYZ, 1); + + Out ->Table16[i] =_cmsQuickSaturateWord(XYZ.Y * 65535.0); + } + } + + cmsDeleteTransform(xform); + cmsCloseProfile(hXYZ); + return Out; +} + + + +// Because PostScript has only 8 bits in /Table, we should use +// a more perceptually uniform space... I do choose Lab. + +static +int WriteInputLUT(cmsIOHANDLER* m, cmsHPROFILE hProfile, int Intent, cmsUInt32Number dwFlags) +{ + cmsHPROFILE hLab; + cmsHTRANSFORM xform; + cmsUInt32Number nChannels; + cmsUInt32Number InputFormat; + int rc; + cmsHPROFILE Profiles[2]; + cmsCIEXYZ BlackPointAdaptedToD50; + + // Does create a device-link based transform. + // The DeviceLink is next dumped as working CSA. + + InputFormat = cmsFormatterForColorspaceOfProfile(hProfile, 2, FALSE); + nChannels = T_CHANNELS(InputFormat); + + + cmsDetectBlackPoint(&BlackPointAdaptedToD50, hProfile, Intent, 0); + + // Adjust output to Lab4 + hLab = cmsCreateLab4ProfileTHR(m ->ContextID, NULL); + + Profiles[0] = hProfile; + Profiles[1] = hLab; + + xform = cmsCreateMultiprofileTransform(Profiles, 2, InputFormat, TYPE_Lab_DBL, Intent, 0); + cmsCloseProfile(hLab); + + if (xform == NULL) { + + cmsSignalError(m ->ContextID, cmsERROR_COLORSPACE_CHECK, "Cannot create transform Profile -> Lab"); + return 0; + } + + // Only 1, 3 and 4 channels are allowed + + switch (nChannels) { + + case 1: { + cmsToneCurve* Gray2Y = ExtractGray2Y(m ->ContextID, hProfile, Intent); + EmitCIEBasedA(m, Gray2Y, &BlackPointAdaptedToD50); + cmsFreeToneCurve(Gray2Y); + } + break; + + case 3: + case 4: { + cmsUInt32Number OutFrm = TYPE_Lab_16; + cmsPipeline* DeviceLink; + _cmsTRANSFORM* v = (_cmsTRANSFORM*) xform; + + DeviceLink = cmsPipelineDup(v ->Lut); + if (DeviceLink == NULL) return 0; + + dwFlags |= cmsFLAGS_FORCE_CLUT; + _cmsOptimizePipeline(m->ContextID, &DeviceLink, Intent, &InputFormat, &OutFrm, &dwFlags); + + rc = EmitCIEBasedDEF(m, DeviceLink, Intent, &BlackPointAdaptedToD50); + cmsPipelineFree(DeviceLink); + if (rc == 0) return 0; + } + break; + + default: + + cmsSignalError(m ->ContextID, cmsERROR_COLORSPACE_CHECK, "Only 3, 4 channels supported for CSA. This profile has %d channels.", nChannels); + return 0; + } + + + cmsDeleteTransform(xform); + + return 1; +} + +static +cmsFloat64Number* GetPtrToMatrix(const cmsStage* mpe) +{ + _cmsStageMatrixData* Data = (_cmsStageMatrixData*) mpe ->Data; + + return Data -> Double; +} + + +// Does create CSA based on matrix-shaper. Allowed types are gray and RGB based + +static +int WriteInputMatrixShaper(cmsIOHANDLER* m, cmsHPROFILE hProfile, cmsStage* Matrix, cmsStage* Shaper) +{ + cmsColorSpaceSignature ColorSpace; + int rc; + cmsCIEXYZ BlackPointAdaptedToD50; + + ColorSpace = cmsGetColorSpace(hProfile); + + cmsDetectBlackPoint(&BlackPointAdaptedToD50, hProfile, INTENT_RELATIVE_COLORIMETRIC, 0); + + if (ColorSpace == cmsSigGrayData) { + + cmsToneCurve** ShaperCurve = _cmsStageGetPtrToCurveSet(Shaper); + rc = EmitCIEBasedA(m, ShaperCurve[0], &BlackPointAdaptedToD50); + + } + else + if (ColorSpace == cmsSigRgbData) { + + cmsMAT3 Mat; + int i, j; + + memmove(&Mat, GetPtrToMatrix(Matrix), sizeof(Mat)); + + for (i=0; i < 3; i++) + for (j=0; j < 3; j++) + Mat.v[i].n[j] *= MAX_ENCODEABLE_XYZ; + + rc = EmitCIEBasedABC(m, (cmsFloat64Number *) &Mat, + _cmsStageGetPtrToCurveSet(Shaper), + &BlackPointAdaptedToD50); + } + else { + + cmsSignalError(m ->ContextID, cmsERROR_COLORSPACE_CHECK, "Profile is not suitable for CSA. Unsupported colorspace."); + return 0; + } + + return rc; +} + + + +// Creates a PostScript color list from a named profile data. +// This is a HP extension, and it works in Lab instead of XYZ + +static +int WriteNamedColorCSA(cmsIOHANDLER* m, cmsHPROFILE hNamedColor, int Intent) +{ + cmsHTRANSFORM xform; + cmsHPROFILE hLab; + int i, nColors; + char ColorName[32]; + cmsNAMEDCOLORLIST* NamedColorList; + + hLab = cmsCreateLab4ProfileTHR(m ->ContextID, NULL); + xform = cmsCreateTransform(hNamedColor, TYPE_NAMED_COLOR_INDEX, hLab, TYPE_Lab_DBL, Intent, 0); + if (xform == NULL) return 0; + + NamedColorList = cmsGetNamedColorList(xform); + if (NamedColorList == NULL) return 0; + + _cmsIOPrintf(m, "<<\n"); + _cmsIOPrintf(m, "(colorlistcomment) (%s)\n", "Named color CSA"); + _cmsIOPrintf(m, "(Prefix) [ (Pantone ) (PANTONE ) ]\n"); + _cmsIOPrintf(m, "(Suffix) [ ( CV) ( CVC) ( C) ]\n"); + + nColors = cmsNamedColorCount(NamedColorList); + + + for (i=0; i < nColors; i++) { + + cmsUInt16Number In[1]; + cmsCIELab Lab; + + In[0] = (cmsUInt16Number) i; + + if (!cmsNamedColorInfo(NamedColorList, i, ColorName, NULL, NULL, NULL, NULL)) + continue; + + cmsDoTransform(xform, In, &Lab, 1); + _cmsIOPrintf(m, " (%s) [ %.3f %.3f %.3f ]\n", ColorName, Lab.L, Lab.a, Lab.b); + } + + + + _cmsIOPrintf(m, ">>\n"); + + cmsDeleteTransform(xform); + cmsCloseProfile(hLab); + return 1; +} + + +// Does create a Color Space Array on XYZ colorspace for PostScript usage +static +cmsUInt32Number GenerateCSA(cmsContext ContextID, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags, + cmsIOHANDLER* mem) +{ + cmsUInt32Number dwBytesUsed; + cmsPipeline* lut = NULL; + cmsStage* Matrix, *Shaper; + + + // Is a named color profile? + if (cmsGetDeviceClass(hProfile) == cmsSigNamedColorClass) { + + if (!WriteNamedColorCSA(mem, hProfile, Intent)) goto Error; + } + else { + + + // Any profile class are allowed (including devicelink), but + // output (PCS) colorspace must be XYZ or Lab + cmsColorSpaceSignature ColorSpace = cmsGetPCS(hProfile); + + if (ColorSpace != cmsSigXYZData && + ColorSpace != cmsSigLabData) { + + cmsSignalError(ContextID, cmsERROR_COLORSPACE_CHECK, "Invalid output color space"); + goto Error; + } + + + // Read the lut with all necessary conversion stages + lut = _cmsReadInputLUT(hProfile, Intent); + if (lut == NULL) goto Error; + + + // Tone curves + matrix can be implemented without any LUT + if (cmsPipelineCheckAndRetreiveStages(lut, 2, cmsSigCurveSetElemType, cmsSigMatrixElemType, &Shaper, &Matrix)) { + + if (!WriteInputMatrixShaper(mem, hProfile, Matrix, Shaper)) goto Error; + + } + else { + // We need a LUT for the rest + if (!WriteInputLUT(mem, hProfile, Intent, dwFlags)) goto Error; + } + } + + + // Done, keep memory usage + dwBytesUsed = mem ->UsedSpace; + + // Get rid of LUT + if (lut != NULL) cmsPipelineFree(lut); + + // Finally, return used byte count + return dwBytesUsed; + +Error: + if (lut != NULL) cmsPipelineFree(lut); + return 0; +} + +// ------------------------------------------------------ Color Rendering Dictionary (CRD) + + + +/* + + Black point compensation plus chromatic adaptation: + + Step 1 - Chromatic adaptation + ============================= + + WPout + X = ------- PQR + Wpin + + Step 2 - Black point compensation + ================================= + + (WPout - BPout)*X - WPout*(BPin - BPout) + out = --------------------------------------- + WPout - BPin + + + Algorithm discussion + ==================== + + TransformPQR(WPin, BPin, WPout, BPout, PQR) + + Wpin,etc= { Xws Yws Zws Pws Qws Rws } + + + Algorithm Stack 0...n + =========================================================== + PQR BPout WPout BPin WPin + 4 index 3 get WPin PQR BPout WPout BPin WPin + div (PQR/WPin) BPout WPout BPin WPin + 2 index 3 get WPout (PQR/WPin) BPout WPout BPin WPin + mult WPout*(PQR/WPin) BPout WPout BPin WPin + + 2 index 3 get WPout WPout*(PQR/WPin) BPout WPout BPin WPin + 2 index 3 get BPout WPout WPout*(PQR/WPin) BPout WPout BPin WPin + sub (WPout-BPout) WPout*(PQR/WPin) BPout WPout BPin WPin + mult (WPout-BPout)* WPout*(PQR/WPin) BPout WPout BPin WPin + + 2 index 3 get WPout (BPout-WPout)* WPout*(PQR/WPin) BPout WPout BPin WPin + 4 index 3 get BPin WPout (BPout-WPout)* WPout*(PQR/WPin) BPout WPout BPin WPin + 3 index 3 get BPout BPin WPout (BPout-WPout)* WPout*(PQR/WPin) BPout WPout BPin WPin + + sub (BPin-BPout) WPout (BPout-WPout)* WPout*(PQR/WPin) BPout WPout BPin WPin + mult (BPin-BPout)*WPout (BPout-WPout)* WPout*(PQR/WPin) BPout WPout BPin WPin + sub (BPout-WPout)* WPout*(PQR/WPin)-(BPin-BPout)*WPout BPout WPout BPin WPin + + 3 index 3 get BPin (BPout-WPout)* WPout*(PQR/WPin)-(BPin-BPout)*WPout BPout WPout BPin WPin + 3 index 3 get WPout BPin (BPout-WPout)* WPout*(PQR/WPin)-(BPin-BPout)*WPout BPout WPout BPin WPin + exch + sub (WPout-BPin) (BPout-WPout)* WPout*(PQR/WPin)-(BPin-BPout)*WPout BPout WPout BPin WPin + div + + exch pop + exch pop + exch pop + exch pop + +*/ + + +static +void EmitPQRStage(cmsIOHANDLER* m, cmsHPROFILE hProfile, int DoBPC, int lIsAbsolute) +{ + + + if (lIsAbsolute) { + + // For absolute colorimetric intent, encode back to relative + // and generate a relative Pipeline + + // Relative encoding is obtained across XYZpcs*(D50/WhitePoint) + + cmsCIEXYZ White; + + _cmsReadMediaWhitePoint(&White, hProfile); + + _cmsIOPrintf(m,"/MatrixPQR [1 0 0 0 1 0 0 0 1 ]\n"); + _cmsIOPrintf(m,"/RangePQR [ -0.5 2 -0.5 2 -0.5 2 ]\n"); + + _cmsIOPrintf(m, "%% Absolute colorimetric -- encode to relative to maximize LUT usage\n" + "/TransformPQR [\n" + "{0.9642 mul %g div exch pop exch pop exch pop exch pop} bind\n" + "{1.0000 mul %g div exch pop exch pop exch pop exch pop} bind\n" + "{0.8249 mul %g div exch pop exch pop exch pop exch pop} bind\n]\n", + White.X, White.Y, White.Z); + return; + } + + + _cmsIOPrintf(m,"%% Bradford Cone Space\n" + "/MatrixPQR [0.8951 -0.7502 0.0389 0.2664 1.7135 -0.0685 -0.1614 0.0367 1.0296 ] \n"); + + _cmsIOPrintf(m, "/RangePQR [ -0.5 2 -0.5 2 -0.5 2 ]\n"); + + + // No BPC + + if (!DoBPC) { + + _cmsIOPrintf(m, "%% VonKries-like transform in Bradford Cone Space\n" + "/TransformPQR [\n" + "{exch pop exch 3 get mul exch pop exch 3 get div} bind\n" + "{exch pop exch 4 get mul exch pop exch 4 get div} bind\n" + "{exch pop exch 5 get mul exch pop exch 5 get div} bind\n]\n"); + } else { + + // BPC + + _cmsIOPrintf(m, "%% VonKries-like transform in Bradford Cone Space plus BPC\n" + "/TransformPQR [\n"); + + _cmsIOPrintf(m, "{4 index 3 get div 2 index 3 get mul " + "2 index 3 get 2 index 3 get sub mul " + "2 index 3 get 4 index 3 get 3 index 3 get sub mul sub " + "3 index 3 get 3 index 3 get exch sub div " + "exch pop exch pop exch pop exch pop } bind\n"); + + _cmsIOPrintf(m, "{4 index 4 get div 2 index 4 get mul " + "2 index 4 get 2 index 4 get sub mul " + "2 index 4 get 4 index 4 get 3 index 4 get sub mul sub " + "3 index 4 get 3 index 4 get exch sub div " + "exch pop exch pop exch pop exch pop } bind\n"); + + _cmsIOPrintf(m, "{4 index 5 get div 2 index 5 get mul " + "2 index 5 get 2 index 5 get sub mul " + "2 index 5 get 4 index 5 get 3 index 5 get sub mul sub " + "3 index 5 get 3 index 5 get exch sub div " + "exch pop exch pop exch pop exch pop } bind\n]\n"); + + } + + +} + + +static +void EmitXYZ2Lab(cmsIOHANDLER* m) +{ + _cmsIOPrintf(m, "/RangeLMN [ -0.635 2.0 0 2 -0.635 2.0 ]\n"); + _cmsIOPrintf(m, "/EncodeLMN [\n"); + _cmsIOPrintf(m, "{ 0.964200 div dup 0.008856 le {7.787 mul 16 116 div add}{1 3 div exp} ifelse } bind\n"); + _cmsIOPrintf(m, "{ 1.000000 div dup 0.008856 le {7.787 mul 16 116 div add}{1 3 div exp} ifelse } bind\n"); + _cmsIOPrintf(m, "{ 0.824900 div dup 0.008856 le {7.787 mul 16 116 div add}{1 3 div exp} ifelse } bind\n"); + _cmsIOPrintf(m, "]\n"); + _cmsIOPrintf(m, "/MatrixABC [ 0 1 0 1 -1 1 0 0 -1 ]\n"); + _cmsIOPrintf(m, "/EncodeABC [\n"); + + + _cmsIOPrintf(m, "{ 116 mul 16 sub 100 div } bind\n"); + _cmsIOPrintf(m, "{ 500 mul 128 add 256 div } bind\n"); + _cmsIOPrintf(m, "{ 200 mul 128 add 256 div } bind\n"); + + + _cmsIOPrintf(m, "]\n"); + + +} + +// Due to impedance mismatch between XYZ and almost all RGB and CMYK spaces +// I choose to dump LUTS in Lab instead of XYZ. There is still a lot of wasted +// space on 3D CLUT, but since space seems not to be a problem here, 33 points +// would give a reasonable accurancy. Note also that CRD tables must operate in +// 8 bits. + +static +int WriteOutputLUT(cmsIOHANDLER* m, cmsHPROFILE hProfile, int Intent, cmsUInt32Number dwFlags) +{ + cmsHPROFILE hLab; + cmsHTRANSFORM xform; + int i, nChannels; + cmsUInt32Number OutputFormat; + _cmsTRANSFORM* v; + cmsPipeline* DeviceLink; + cmsHPROFILE Profiles[3]; + cmsCIEXYZ BlackPointAdaptedToD50; + cmsBool lDoBPC = (dwFlags & cmsFLAGS_BLACKPOINTCOMPENSATION); + cmsBool lFixWhite = !(dwFlags & cmsFLAGS_NOWHITEONWHITEFIXUP); + cmsUInt32Number InFrm = TYPE_Lab_16; + int RelativeEncodingIntent; + cmsColorSpaceSignature ColorSpace; + + + hLab = cmsCreateLab4ProfileTHR(m ->ContextID, NULL); + if (hLab == NULL) return 0; + + OutputFormat = cmsFormatterForColorspaceOfProfile(hProfile, 2, FALSE); + nChannels = T_CHANNELS(OutputFormat); + + ColorSpace = cmsGetColorSpace(hProfile); + + // For absolute colorimetric, the LUT is encoded as relative in order to preserve precision. + + RelativeEncodingIntent = Intent; + if (RelativeEncodingIntent == INTENT_ABSOLUTE_COLORIMETRIC) + RelativeEncodingIntent = INTENT_RELATIVE_COLORIMETRIC; + + + // Use V4 Lab always + Profiles[0] = hLab; + Profiles[1] = hProfile; + + xform = cmsCreateMultiprofileTransformTHR(m ->ContextID, + Profiles, 2, TYPE_Lab_DBL, + OutputFormat, RelativeEncodingIntent, 0); + cmsCloseProfile(hLab); + + if (xform == NULL) { + + cmsSignalError(m ->ContextID, cmsERROR_COLORSPACE_CHECK, "Cannot create transform Lab -> Profile in CRD creation"); + return 0; + } + + // Get a copy of the internal devicelink + v = (_cmsTRANSFORM*) xform; + DeviceLink = cmsPipelineDup(v ->Lut); + if (DeviceLink == NULL) return 0; + + + // We need a CLUT + dwFlags |= cmsFLAGS_FORCE_CLUT; + _cmsOptimizePipeline(m->ContextID, &DeviceLink, RelativeEncodingIntent, &InFrm, &OutputFormat, &dwFlags); + + _cmsIOPrintf(m, "<<\n"); + _cmsIOPrintf(m, "/ColorRenderingType 1\n"); + + + cmsDetectBlackPoint(&BlackPointAdaptedToD50, hProfile, Intent, 0); + + // Emit headers, etc. + EmitWhiteBlackD50(m, &BlackPointAdaptedToD50); + EmitPQRStage(m, hProfile, lDoBPC, Intent == INTENT_ABSOLUTE_COLORIMETRIC); + EmitXYZ2Lab(m); + + + // FIXUP: map Lab (100, 0, 0) to perfect white, because the particular encoding for Lab + // does map a=b=0 not falling into any specific node. Since range a,b goes -128..127, + // zero is slightly moved towards right, so assure next node (in L=100 slice) is mapped to + // zero. This would sacrifice a bit of highlights, but failure to do so would cause + // scum dot. Ouch. + + if (Intent == INTENT_ABSOLUTE_COLORIMETRIC) + lFixWhite = FALSE; + + _cmsIOPrintf(m, "/RenderTable "); + + + WriteCLUT(m, cmsPipelineGetPtrToFirstStage(DeviceLink), "<", ">\n", "", "", lFixWhite, ColorSpace); + + _cmsIOPrintf(m, " %d {} bind ", nChannels); + + for (i=1; i < nChannels; i++) + _cmsIOPrintf(m, "dup "); + + _cmsIOPrintf(m, "]\n"); + + + EmitIntent(m, Intent); + + _cmsIOPrintf(m, ">>\n"); + + if (!(dwFlags & cmsFLAGS_NODEFAULTRESOURCEDEF)) { + + _cmsIOPrintf(m, "/Current exch /ColorRendering defineresource pop\n"); + } + + cmsPipelineFree(DeviceLink); + cmsDeleteTransform(xform); + + return 1; +} + + +// Builds a ASCII string containing colorant list in 0..1.0 range +static +void BuildColorantList(char *Colorant, int nColorant, cmsUInt16Number Out[]) +{ + char Buff[32]; + int j; + + Colorant[0] = 0; + if (nColorant > cmsMAXCHANNELS) + nColorant = cmsMAXCHANNELS; + + for (j = 0; j < nColorant; j++) { + + snprintf(Buff, 31, "%.3f", Out[j] / 65535.0); + Buff[31] = 0; + strcat(Colorant, Buff); + if (j < nColorant - 1) + strcat(Colorant, " "); + + } +} + + +// Creates a PostScript color list from a named profile data. +// This is a HP extension. + +static +int WriteNamedColorCRD(cmsIOHANDLER* m, cmsHPROFILE hNamedColor, int Intent, cmsUInt32Number dwFlags) +{ + cmsHTRANSFORM xform; + int i, nColors, nColorant; + cmsUInt32Number OutputFormat; + char ColorName[32]; + char Colorant[128]; + cmsNAMEDCOLORLIST* NamedColorList; + + + OutputFormat = cmsFormatterForColorspaceOfProfile(hNamedColor, 2, FALSE); + nColorant = T_CHANNELS(OutputFormat); + + + xform = cmsCreateTransform(hNamedColor, TYPE_NAMED_COLOR_INDEX, NULL, OutputFormat, Intent, dwFlags); + if (xform == NULL) return 0; + + + NamedColorList = cmsGetNamedColorList(xform); + if (NamedColorList == NULL) return 0; + + _cmsIOPrintf(m, "<<\n"); + _cmsIOPrintf(m, "(colorlistcomment) (%s) \n", "Named profile"); + _cmsIOPrintf(m, "(Prefix) [ (Pantone ) (PANTONE ) ]\n"); + _cmsIOPrintf(m, "(Suffix) [ ( CV) ( CVC) ( C) ]\n"); + + nColors = cmsNamedColorCount(NamedColorList); + + for (i=0; i < nColors; i++) { + + cmsUInt16Number In[1]; + cmsUInt16Number Out[cmsMAXCHANNELS]; + + In[0] = (cmsUInt16Number) i; + + if (!cmsNamedColorInfo(NamedColorList, i, ColorName, NULL, NULL, NULL, NULL)) + continue; + + cmsDoTransform(xform, In, Out, 1); + BuildColorantList(Colorant, nColorant, Out); + _cmsIOPrintf(m, " (%s) [ %s ]\n", ColorName, Colorant); + } + + _cmsIOPrintf(m, " >>"); + + if (!(dwFlags & cmsFLAGS_NODEFAULTRESOURCEDEF)) { + + _cmsIOPrintf(m, " /Current exch /HPSpotTable defineresource pop\n"); + } + + cmsDeleteTransform(xform); + return 1; +} + + + +// This one does create a Color Rendering Dictionary. +// CRD are always LUT-Based, no matter if profile is +// implemented as matrix-shaper. + +static +cmsUInt32Number GenerateCRD(cmsContext ContextID, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, cmsUInt32Number dwFlags, + cmsIOHANDLER* mem) +{ + cmsUInt32Number dwBytesUsed; + + if (!(dwFlags & cmsFLAGS_NODEFAULTRESOURCEDEF)) { + + EmitHeader(mem, "Color Rendering Dictionary (CRD)", hProfile); + } + + + // Is a named color profile? + if (cmsGetDeviceClass(hProfile) == cmsSigNamedColorClass) { + + if (!WriteNamedColorCRD(mem, hProfile, Intent, dwFlags)) { + return 0; + } + } + else { + + // CRD are always implemented as LUT + + if (!WriteOutputLUT(mem, hProfile, Intent, dwFlags)) { + return 0; + } + } + + if (!(dwFlags & cmsFLAGS_NODEFAULTRESOURCEDEF)) { + + _cmsIOPrintf(mem, "%%%%EndResource\n"); + _cmsIOPrintf(mem, "\n%% CRD End\n"); + } + + // Done, keep memory usage + dwBytesUsed = mem ->UsedSpace; + + // Finally, return used byte count + return dwBytesUsed; + + cmsUNUSED_PARAMETER(ContextID); +} + + + + +cmsUInt32Number CMSEXPORT cmsGetPostScriptColorResource(cmsContext ContextID, + cmsPSResourceType Type, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags, + cmsIOHANDLER* io) +{ + cmsUInt32Number rc; + + + switch (Type) { + + case cmsPS_RESOURCE_CSA: + rc = GenerateCSA(ContextID, hProfile, Intent, dwFlags, io); + break; + + default: + case cmsPS_RESOURCE_CRD: + rc = GenerateCRD(ContextID, hProfile, Intent, dwFlags, io); + break; + } + + return rc; +} + + + +cmsUInt32Number CMSEXPORT cmsGetPostScriptCRD(cmsContext ContextID, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, cmsUInt32Number dwFlags, + void* Buffer, cmsUInt32Number dwBufferLen) +{ + cmsIOHANDLER* mem; + cmsUInt32Number dwBytesUsed; + + // Set up the serialization engine + if (Buffer == NULL) + mem = cmsOpenIOhandlerFromNULL(ContextID); + else + mem = cmsOpenIOhandlerFromMem(ContextID, Buffer, dwBufferLen, "w"); + + if (!mem) return 0; + + dwBytesUsed = cmsGetPostScriptColorResource(ContextID, cmsPS_RESOURCE_CRD, hProfile, Intent, dwFlags, mem); + + // Get rid of memory stream + cmsCloseIOhandler(mem); + + return dwBytesUsed; +} + + + +// Does create a Color Space Array on XYZ colorspace for PostScript usage +cmsUInt32Number CMSEXPORT cmsGetPostScriptCSA(cmsContext ContextID, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags, + void* Buffer, + cmsUInt32Number dwBufferLen) +{ + cmsIOHANDLER* mem; + cmsUInt32Number dwBytesUsed; + + if (Buffer == NULL) + mem = cmsOpenIOhandlerFromNULL(ContextID); + else + mem = cmsOpenIOhandlerFromMem(ContextID, Buffer, dwBufferLen, "w"); + + if (!mem) return 0; + + dwBytesUsed = cmsGetPostScriptColorResource(ContextID, cmsPS_RESOURCE_CSA, hProfile, Intent, dwFlags, mem); + + // Get rid of memory stream + cmsCloseIOhandler(mem); + + return dwBytesUsed; + +} Index: sdk/lib/3rdparty/lcms2/cmssamp.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmssamp.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmssamp.c (working copy) @@ -0,0 +1,547 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +#define cmsmin(a, b) (((a) < (b)) ? (a) : (b)) +#define cmsmax(a, b) (((a) > (b)) ? (a) : (b)) + +// This file contains routines for resampling and LUT optimization, black point detection +// and black preservation. + +// Black point detection ------------------------------------------------------------------------- + + +// PCS -> PCS round trip transform, always uses relative intent on the device -> pcs +static +cmsHTRANSFORM CreateRoundtripXForm(cmsHPROFILE hProfile, cmsUInt32Number nIntent) +{ + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsHPROFILE hLab = cmsCreateLab4ProfileTHR(ContextID, NULL); + cmsHTRANSFORM xform; + cmsBool BPC[4] = { FALSE, FALSE, FALSE, FALSE }; + cmsFloat64Number States[4] = { 1.0, 1.0, 1.0, 1.0 }; + cmsHPROFILE hProfiles[4]; + cmsUInt32Number Intents[4]; + + hProfiles[0] = hLab; hProfiles[1] = hProfile; hProfiles[2] = hProfile; hProfiles[3] = hLab; + Intents[0] = INTENT_RELATIVE_COLORIMETRIC; Intents[1] = nIntent; Intents[2] = INTENT_RELATIVE_COLORIMETRIC; Intents[3] = INTENT_RELATIVE_COLORIMETRIC; + + xform = cmsCreateExtendedTransform(ContextID, 4, hProfiles, BPC, Intents, + States, NULL, 0, TYPE_Lab_DBL, TYPE_Lab_DBL, cmsFLAGS_NOCACHE|cmsFLAGS_NOOPTIMIZE); + + cmsCloseProfile(hLab); + return xform; +} + +// Use darker colorants to obtain black point. This works in the relative colorimetric intent and +// assumes more ink results in darker colors. No ink limit is assumed. +static +cmsBool BlackPointAsDarkerColorant(cmsHPROFILE hInput, + cmsUInt32Number Intent, + cmsCIEXYZ* BlackPoint, + cmsUInt32Number dwFlags) +{ + cmsUInt16Number *Black; + cmsHTRANSFORM xform; + cmsColorSpaceSignature Space; + cmsUInt32Number nChannels; + cmsUInt32Number dwFormat; + cmsHPROFILE hLab; + cmsCIELab Lab; + cmsCIEXYZ BlackXYZ; + cmsContext ContextID = cmsGetProfileContextID(hInput); + + // If the profile does not support input direction, assume Black point 0 + if (!cmsIsIntentSupported(hInput, Intent, LCMS_USED_AS_INPUT)) { + + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // Create a formatter which has n channels and floating point + dwFormat = cmsFormatterForColorspaceOfProfile(hInput, 2, FALSE); + + // Try to get black by using black colorant + Space = cmsGetColorSpace(hInput); + + // This function returns darker colorant in 16 bits for several spaces + if (!_cmsEndPointsBySpace(Space, NULL, &Black, &nChannels)) { + + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + if (nChannels != T_CHANNELS(dwFormat)) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // Lab will be used as the output space, but lab2 will avoid recursion + hLab = cmsCreateLab2ProfileTHR(ContextID, NULL); + if (hLab == NULL) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // Create the transform + xform = cmsCreateTransformTHR(ContextID, hInput, dwFormat, + hLab, TYPE_Lab_DBL, Intent, cmsFLAGS_NOOPTIMIZE|cmsFLAGS_NOCACHE); + cmsCloseProfile(hLab); + + if (xform == NULL) { + + // Something went wrong. Get rid of open resources and return zero as black + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // Convert black to Lab + cmsDoTransform(xform, Black, &Lab, 1); + + // Force it to be neutral, clip to max. L* of 50 + Lab.a = Lab.b = 0; + if (Lab.L > 50) Lab.L = 50; + + // Free the resources + cmsDeleteTransform(xform); + + // Convert from Lab (which is now clipped) to XYZ. + cmsLab2XYZ(NULL, &BlackXYZ, &Lab); + + if (BlackPoint != NULL) + *BlackPoint = BlackXYZ; + + return TRUE; + + cmsUNUSED_PARAMETER(dwFlags); +} + +// Get a black point of output CMYK profile, discounting any ink-limiting embedded +// in the profile. For doing that, we use perceptual intent in input direction: +// Lab (0, 0, 0) -> [Perceptual] Profile -> CMYK -> [Rel. colorimetric] Profile -> Lab +static +cmsBool BlackPointUsingPerceptualBlack(cmsCIEXYZ* BlackPoint, cmsHPROFILE hProfile) +{ + cmsHTRANSFORM hRoundTrip; + cmsCIELab LabIn, LabOut; + cmsCIEXYZ BlackXYZ; + + // Is the intent supported by the profile? + if (!cmsIsIntentSupported(hProfile, INTENT_PERCEPTUAL, LCMS_USED_AS_INPUT)) { + + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return TRUE; + } + + hRoundTrip = CreateRoundtripXForm(hProfile, INTENT_PERCEPTUAL); + if (hRoundTrip == NULL) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + LabIn.L = LabIn.a = LabIn.b = 0; + cmsDoTransform(hRoundTrip, &LabIn, &LabOut, 1); + + // Clip Lab to reasonable limits + if (LabOut.L > 50) LabOut.L = 50; + LabOut.a = LabOut.b = 0; + + cmsDeleteTransform(hRoundTrip); + + // Convert it to XYZ + cmsLab2XYZ(NULL, &BlackXYZ, &LabOut); + + if (BlackPoint != NULL) + *BlackPoint = BlackXYZ; + + return TRUE; +} + +// This function shouldn't exist at all -- there is such quantity of broken +// profiles on black point tag, that we must somehow fix chromaticity to +// avoid huge tint when doing Black point compensation. This function does +// just that. There is a special flag for using black point tag, but turned +// off by default because it is bogus on most profiles. The detection algorithm +// involves to turn BP to neutral and to use only L component. +cmsBool CMSEXPORT cmsDetectBlackPoint(cmsCIEXYZ* BlackPoint, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags) +{ + cmsProfileClassSignature devClass; + + // Make sure the device class is adequate + devClass = cmsGetDeviceClass(hProfile); + if (devClass == cmsSigLinkClass || + devClass == cmsSigAbstractClass || + devClass == cmsSigNamedColorClass) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // Make sure intent is adequate + if (Intent != INTENT_PERCEPTUAL && + Intent != INTENT_RELATIVE_COLORIMETRIC && + Intent != INTENT_SATURATION) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // v4 + perceptual & saturation intents does have its own black point, and it is + // well specified enough to use it. Black point tag is deprecated in V4. + if ((cmsGetEncodedICCversion(hProfile) >= 0x4000000) && + (Intent == INTENT_PERCEPTUAL || Intent == INTENT_SATURATION)) { + + // Matrix shaper share MRC & perceptual intents + if (cmsIsMatrixShaper(hProfile)) + return BlackPointAsDarkerColorant(hProfile, INTENT_RELATIVE_COLORIMETRIC, BlackPoint, 0); + + // Get Perceptual black out of v4 profiles. That is fixed for perceptual & saturation intents + BlackPoint -> X = cmsPERCEPTUAL_BLACK_X; + BlackPoint -> Y = cmsPERCEPTUAL_BLACK_Y; + BlackPoint -> Z = cmsPERCEPTUAL_BLACK_Z; + + return TRUE; + } + + +#ifdef CMS_USE_PROFILE_BLACK_POINT_TAG + + // v2, v4 rel/abs colorimetric + if (cmsIsTag(hProfile, cmsSigMediaBlackPointTag) && + Intent == INTENT_RELATIVE_COLORIMETRIC) { + + cmsCIEXYZ *BlackPtr, BlackXYZ, UntrustedBlackPoint, TrustedBlackPoint, MediaWhite; + cmsCIELab Lab; + + // If black point is specified, then use it, + + BlackPtr = cmsReadTag(hProfile, cmsSigMediaBlackPointTag); + if (BlackPtr != NULL) { + + BlackXYZ = *BlackPtr; + _cmsReadMediaWhitePoint(&MediaWhite, hProfile); + + // Black point is absolute XYZ, so adapt to D50 to get PCS value + cmsAdaptToIlluminant(&UntrustedBlackPoint, &MediaWhite, cmsD50_XYZ(), &BlackXYZ); + + // Force a=b=0 to get rid of any chroma + cmsXYZ2Lab(NULL, &Lab, &UntrustedBlackPoint); + Lab.a = Lab.b = 0; + if (Lab.L > 50) Lab.L = 50; // Clip to L* <= 50 + cmsLab2XYZ(NULL, &TrustedBlackPoint, &Lab); + + if (BlackPoint != NULL) + *BlackPoint = TrustedBlackPoint; + + return TRUE; + } + } +#endif + + // That is about v2 profiles. + + // If output profile, discount ink-limiting and that's all + if (Intent == INTENT_RELATIVE_COLORIMETRIC && + (cmsGetDeviceClass(hProfile) == cmsSigOutputClass) && + (cmsGetColorSpace(hProfile) == cmsSigCmykData)) + return BlackPointUsingPerceptualBlack(BlackPoint, hProfile); + + // Nope, compute BP using current intent. + return BlackPointAsDarkerColorant(hProfile, Intent, BlackPoint, dwFlags); +} + + + +// --------------------------------------------------------------------------------------------------------- + +// Least Squares Fit of a Quadratic Curve to Data +// http://www.personal.psu.edu/jhm/f90/lectures/lsq2.html + +static +cmsFloat64Number RootOfLeastSquaresFitQuadraticCurve(int n, cmsFloat64Number x[], cmsFloat64Number y[]) +{ + double sum_x = 0, sum_x2 = 0, sum_x3 = 0, sum_x4 = 0; + double sum_y = 0, sum_yx = 0, sum_yx2 = 0; + double d, a, b, c; + int i; + cmsMAT3 m; + cmsVEC3 v, res; + + if (n < 4) return 0; + + for (i=0; i < n; i++) { + + double xn = x[i]; + double yn = y[i]; + + sum_x += xn; + sum_x2 += xn*xn; + sum_x3 += xn*xn*xn; + sum_x4 += xn*xn*xn*xn; + + sum_y += yn; + sum_yx += yn*xn; + sum_yx2 += yn*xn*xn; + } + + _cmsVEC3init(&m.v[0], n, sum_x, sum_x2); + _cmsVEC3init(&m.v[1], sum_x, sum_x2, sum_x3); + _cmsVEC3init(&m.v[2], sum_x2, sum_x3, sum_x4); + + _cmsVEC3init(&v, sum_y, sum_yx, sum_yx2); + + if (!_cmsMAT3solve(&res, &m, &v)) return 0; + + + a = res.n[2]; + b = res.n[1]; + c = res.n[0]; + + if (fabs(a) < 1.0E-10) { + + return cmsmin(0, cmsmax(50, -c/b )); + } + else { + + d = b*b - 4.0 * a * c; + if (d <= 0) { + return 0; + } + else { + + double rt = (-b + sqrt(d)) / (2.0 * a); + + return cmsmax(0, cmsmin(50, rt)); + } + } + +} + + + +// Calculates the black point of a destination profile. +// This algorithm comes from the Adobe paper disclosing its black point compensation method. +cmsBool CMSEXPORT cmsDetectDestinationBlackPoint(cmsCIEXYZ* BlackPoint, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags) +{ + cmsColorSpaceSignature ColorSpace; + cmsHTRANSFORM hRoundTrip = NULL; + cmsCIELab InitialLab, destLab, Lab; + cmsFloat64Number inRamp[256], outRamp[256]; + cmsFloat64Number MinL, MaxL; + cmsBool NearlyStraightMidrange = TRUE; + cmsFloat64Number yRamp[256]; + cmsFloat64Number x[256], y[256]; + cmsFloat64Number lo, hi; + int n, l; + cmsProfileClassSignature devClass; + + // Make sure the device class is adequate + devClass = cmsGetDeviceClass(hProfile); + if (devClass == cmsSigLinkClass || + devClass == cmsSigAbstractClass || + devClass == cmsSigNamedColorClass) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // Make sure intent is adequate + if (Intent != INTENT_PERCEPTUAL && + Intent != INTENT_RELATIVE_COLORIMETRIC && + Intent != INTENT_SATURATION) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + + // v4 + perceptual & saturation intents does have its own black point, and it is + // well specified enough to use it. Black point tag is deprecated in V4. + if ((cmsGetEncodedICCversion(hProfile) >= 0x4000000) && + (Intent == INTENT_PERCEPTUAL || Intent == INTENT_SATURATION)) { + + // Matrix shaper share MRC & perceptual intents + if (cmsIsMatrixShaper(hProfile)) + return BlackPointAsDarkerColorant(hProfile, INTENT_RELATIVE_COLORIMETRIC, BlackPoint, 0); + + // Get Perceptual black out of v4 profiles. That is fixed for perceptual & saturation intents + BlackPoint -> X = cmsPERCEPTUAL_BLACK_X; + BlackPoint -> Y = cmsPERCEPTUAL_BLACK_Y; + BlackPoint -> Z = cmsPERCEPTUAL_BLACK_Z; + return TRUE; + } + + + // Check if the profile is lut based and gray, rgb or cmyk (7.2 in Adobe's document) + ColorSpace = cmsGetColorSpace(hProfile); + if (!cmsIsCLUT(hProfile, Intent, LCMS_USED_AS_OUTPUT ) || + (ColorSpace != cmsSigGrayData && + ColorSpace != cmsSigRgbData && + ColorSpace != cmsSigCmykData)) { + + // In this case, handle as input case + return cmsDetectBlackPoint(BlackPoint, hProfile, Intent, dwFlags); + } + + // It is one of the valid cases!, use Adobe algorithm + + + // Set a first guess, that should work on good profiles. + if (Intent == INTENT_RELATIVE_COLORIMETRIC) { + + cmsCIEXYZ IniXYZ; + + // calculate initial Lab as source black point + if (!cmsDetectBlackPoint(&IniXYZ, hProfile, Intent, dwFlags)) { + return FALSE; + } + + // convert the XYZ to lab + cmsXYZ2Lab(NULL, &InitialLab, &IniXYZ); + + } else { + + // set the initial Lab to zero, that should be the black point for perceptual and saturation + InitialLab.L = 0; + InitialLab.a = 0; + InitialLab.b = 0; + } + + + // Step 2 + // ====== + + // Create a roundtrip. Define a Transform BT for all x in L*a*b* + hRoundTrip = CreateRoundtripXForm(hProfile, Intent); + if (hRoundTrip == NULL) return FALSE; + + // Compute ramps + + for (l=0; l < 256; l++) { + + Lab.L = (cmsFloat64Number) (l * 100.0) / 255.0; + Lab.a = cmsmin(50, cmsmax(-50, InitialLab.a)); + Lab.b = cmsmin(50, cmsmax(-50, InitialLab.b)); + + cmsDoTransform(hRoundTrip, &Lab, &destLab, 1); + + inRamp[l] = Lab.L; + outRamp[l] = destLab.L; + } + + // Make monotonic + for (l = 254; l > 0; --l) { + outRamp[l] = cmsmin(outRamp[l], outRamp[l+1]); + } + + // Check + if (! (outRamp[0] < outRamp[255])) { + + cmsDeleteTransform(hRoundTrip); + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + + // Test for mid range straight (only on relative colorimetric) + NearlyStraightMidrange = TRUE; + MinL = outRamp[0]; MaxL = outRamp[255]; + if (Intent == INTENT_RELATIVE_COLORIMETRIC) { + + for (l=0; l < 256; l++) { + + if (! ((inRamp[l] <= MinL + 0.2 * (MaxL - MinL) ) || + (fabs(inRamp[l] - outRamp[l]) < 4.0 ))) + NearlyStraightMidrange = FALSE; + } + + // If the mid range is straight (as determined above) then the + // DestinationBlackPoint shall be the same as initialLab. + // Otherwise, the DestinationBlackPoint shall be determined + // using curve fitting. + if (NearlyStraightMidrange) { + + cmsLab2XYZ(NULL, BlackPoint, &InitialLab); + cmsDeleteTransform(hRoundTrip); + return TRUE; + } + } + + + // curve fitting: The round-trip curve normally looks like a nearly constant section at the black point, + // with a corner and a nearly straight line to the white point. + for (l=0; l < 256; l++) { + + yRamp[l] = (outRamp[l] - MinL) / (MaxL - MinL); + } + + // find the black point using the least squares error quadratic curve fitting + if (Intent == INTENT_RELATIVE_COLORIMETRIC) { + lo = 0.1; + hi = 0.5; + } + else { + + // Perceptual and saturation + lo = 0.03; + hi = 0.25; + } + + // Capture shadow points for the fitting. + n = 0; + for (l=0; l < 256; l++) { + + cmsFloat64Number ff = yRamp[l]; + + if (ff >= lo && ff < hi) { + x[n] = inRamp[l]; + y[n] = yRamp[l]; + n++; + } + } + + + // No suitable points + if (n < 3 ) { + cmsDeleteTransform(hRoundTrip); + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + + // fit and get the vertex of quadratic curve + Lab.L = RootOfLeastSquaresFitQuadraticCurve(n, x, y); + + if (Lab.L < 0.0) { // clip to zero L* if the vertex is negative + Lab.L = 0; + } + + Lab.a = InitialLab.a; + Lab.b = InitialLab.b; + + cmsLab2XYZ(NULL, BlackPoint, &Lab); + + cmsDeleteTransform(hRoundTrip); + return TRUE; +} Index: sdk/lib/3rdparty/lcms2/cmssm.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmssm.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmssm.c (working copy) @@ -0,0 +1,736 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// ------------------------------------------------------------------------ + +// Gamut boundary description by using Jan Morovic's Segment maxima method +// Many thanks to Jan for allowing me to use his algorithm. + +// r = C* +// alpha = Hab +// theta = L* + +#define SECTORS 16 // number of divisions in alpha and theta + +// Spherical coordinates +typedef struct { + + cmsFloat64Number r; + cmsFloat64Number alpha; + cmsFloat64Number theta; + +} cmsSpherical; + +typedef enum { + GP_EMPTY, + GP_SPECIFIED, + GP_MODELED + + } GDBPointType; + + +typedef struct { + + GDBPointType Type; + cmsSpherical p; // Keep also alpha & theta of maximum + +} cmsGDBPoint; + + +typedef struct { + + cmsContext ContextID; + cmsGDBPoint Gamut[SECTORS][SECTORS]; + +} cmsGDB; + + +// A line using the parametric form +// P = a + t*u +typedef struct { + + cmsVEC3 a; + cmsVEC3 u; + +} cmsLine; + + +// A plane using the parametric form +// Q = b + r*v + s*w +typedef struct { + + cmsVEC3 b; + cmsVEC3 v; + cmsVEC3 w; + +} cmsPlane; + + + +// -------------------------------------------------------------------------------------------- + +// ATAN2() which always returns degree positive numbers + +static +cmsFloat64Number _cmsAtan2(cmsFloat64Number y, cmsFloat64Number x) +{ + cmsFloat64Number a; + + // Deal with undefined case + if (x == 0.0 && y == 0.0) return 0; + + a = (atan2(y, x) * 180.0) / M_PI; + + while (a < 0) { + a += 360; + } + + return a; +} + +// Convert to spherical coordinates +static +void ToSpherical(cmsSpherical* sp, const cmsVEC3* v) +{ + + cmsFloat64Number L, a, b; + + L = v ->n[VX]; + a = v ->n[VY]; + b = v ->n[VZ]; + + sp ->r = sqrt( L*L + a*a + b*b ); + + if (sp ->r == 0) { + sp ->alpha = sp ->theta = 0; + return; + } + + sp ->alpha = _cmsAtan2(a, b); + sp ->theta = _cmsAtan2(sqrt(a*a + b*b), L); +} + + +// Convert to cartesian from spherical +static +void ToCartesian(cmsVEC3* v, const cmsSpherical* sp) +{ + cmsFloat64Number sin_alpha; + cmsFloat64Number cos_alpha; + cmsFloat64Number sin_theta; + cmsFloat64Number cos_theta; + cmsFloat64Number L, a, b; + + sin_alpha = sin((M_PI * sp ->alpha) / 180.0); + cos_alpha = cos((M_PI * sp ->alpha) / 180.0); + sin_theta = sin((M_PI * sp ->theta) / 180.0); + cos_theta = cos((M_PI * sp ->theta) / 180.0); + + a = sp ->r * sin_theta * sin_alpha; + b = sp ->r * sin_theta * cos_alpha; + L = sp ->r * cos_theta; + + v ->n[VX] = L; + v ->n[VY] = a; + v ->n[VZ] = b; +} + + +// Quantize sector of a spherical coordinate. Saturate 360, 180 to last sector +// The limits are the centers of each sector, so +static +void QuantizeToSector(const cmsSpherical* sp, int* alpha, int* theta) +{ + *alpha = (int) floor(((sp->alpha * (SECTORS)) / 360.0) ); + *theta = (int) floor(((sp->theta * (SECTORS)) / 180.0) ); + + if (*alpha >= SECTORS) + *alpha = SECTORS-1; + if (*theta >= SECTORS) + *theta = SECTORS-1; +} + + +// Line determined by 2 points +static +void LineOf2Points(cmsLine* line, cmsVEC3* a, cmsVEC3* b) +{ + + _cmsVEC3init(&line ->a, a ->n[VX], a ->n[VY], a ->n[VZ]); + _cmsVEC3init(&line ->u, b ->n[VX] - a ->n[VX], + b ->n[VY] - a ->n[VY], + b ->n[VZ] - a ->n[VZ]); +} + + +// Evaluate parametric line +static +void GetPointOfLine(cmsVEC3* p, const cmsLine* line, cmsFloat64Number t) +{ + p ->n[VX] = line ->a.n[VX] + t * line->u.n[VX]; + p ->n[VY] = line ->a.n[VY] + t * line->u.n[VY]; + p ->n[VZ] = line ->a.n[VZ] + t * line->u.n[VZ]; +} + + + +/* + Closest point in sector line1 to sector line2 (both are defined as 0 <=t <= 1) + http://softsurfer.com/Archive/algorithm_0106/algorithm_0106.htm + + Copyright 2001, softSurfer (www.softsurfer.com) + This code may be freely used and modified for any purpose + providing that this copyright notice is included with it. + SoftSurfer makes no warranty for this code, and cannot be held + liable for any real or imagined damage resulting from its use. + Users of this code must verify correctness for their application. + +*/ + +static +cmsBool ClosestLineToLine(cmsVEC3* r, const cmsLine* line1, const cmsLine* line2) +{ + cmsFloat64Number a, b, c, d, e, D; + cmsFloat64Number sc, sN, sD; + //cmsFloat64Number tc; // left for future use + cmsFloat64Number tN, tD; + cmsVEC3 w0; + + _cmsVEC3minus(&w0, &line1 ->a, &line2 ->a); + + a = _cmsVEC3dot(&line1 ->u, &line1 ->u); + b = _cmsVEC3dot(&line1 ->u, &line2 ->u); + c = _cmsVEC3dot(&line2 ->u, &line2 ->u); + d = _cmsVEC3dot(&line1 ->u, &w0); + e = _cmsVEC3dot(&line2 ->u, &w0); + + D = a*c - b * b; // Denominator + sD = tD = D; // default sD = D >= 0 + + if (D < MATRIX_DET_TOLERANCE) { // the lines are almost parallel + + sN = 0.0; // force using point P0 on segment S1 + sD = 1.0; // to prevent possible division by 0.0 later + tN = e; + tD = c; + } + else { // get the closest points on the infinite lines + + sN = (b*e - c*d); + tN = (a*e - b*d); + + if (sN < 0.0) { // sc < 0 => the s=0 edge is visible + + sN = 0.0; + tN = e; + tD = c; + } + else if (sN > sD) { // sc > 1 => the s=1 edge is visible + sN = sD; + tN = e + b; + tD = c; + } + } + + if (tN < 0.0) { // tc < 0 => the t=0 edge is visible + + tN = 0.0; + // recompute sc for this edge + if (-d < 0.0) + sN = 0.0; + else if (-d > a) + sN = sD; + else { + sN = -d; + sD = a; + } + } + else if (tN > tD) { // tc > 1 => the t=1 edge is visible + + tN = tD; + + // recompute sc for this edge + if ((-d + b) < 0.0) + sN = 0; + else if ((-d + b) > a) + sN = sD; + else { + sN = (-d + b); + sD = a; + } + } + // finally do the division to get sc and tc + sc = (fabs(sN) < MATRIX_DET_TOLERANCE ? 0.0 : sN / sD); + //tc = (fabs(tN) < MATRIX_DET_TOLERANCE ? 0.0 : tN / tD); // left for future use. + + GetPointOfLine(r, line1, sc); + return TRUE; +} + + + +// ------------------------------------------------------------------ Wrapper + + +// Allocate & free structure +cmsHANDLE CMSEXPORT cmsGBDAlloc(cmsContext ContextID) +{ + cmsGDB* gbd = (cmsGDB*) _cmsMallocZero(ContextID, sizeof(cmsGDB)); + if (gbd == NULL) return NULL; + + gbd -> ContextID = ContextID; + + return (cmsHANDLE) gbd; +} + + +void CMSEXPORT cmsGBDFree(cmsHANDLE hGBD) +{ + cmsGDB* gbd = (cmsGDB*) hGBD; + if (hGBD != NULL) + _cmsFree(gbd->ContextID, (void*) gbd); +} + + +// Auxiliary to retrieve a pointer to the segmentr containing the Lab value +static +cmsGDBPoint* GetPoint(cmsGDB* gbd, const cmsCIELab* Lab, cmsSpherical* sp) +{ + cmsVEC3 v; + int alpha, theta; + + // Housekeeping + _cmsAssert(gbd != NULL); + _cmsAssert(Lab != NULL); + _cmsAssert(sp != NULL); + + // Center L* by subtracting half of its domain, that's 50 + _cmsVEC3init(&v, Lab ->L - 50.0, Lab ->a, Lab ->b); + + // Convert to spherical coordinates + ToSpherical(sp, &v); + + if (sp ->r < 0 || sp ->alpha < 0 || sp->theta < 0) { + cmsSignalError(gbd ->ContextID, cmsERROR_RANGE, "spherical value out of range"); + return NULL; + } + + // On which sector it falls? + QuantizeToSector(sp, &alpha, &theta); + + if (alpha < 0 || theta < 0 || alpha >= SECTORS || theta >= SECTORS) { + cmsSignalError(gbd ->ContextID, cmsERROR_RANGE, " quadrant out of range"); + return NULL; + } + + // Get pointer to the sector + return &gbd ->Gamut[theta][alpha]; +} + +// Add a point to gamut descriptor. Point to add is in Lab color space. +// GBD is centered on a=b=0 and L*=50 +cmsBool CMSEXPORT cmsGDBAddPoint(cmsHANDLE hGBD, const cmsCIELab* Lab) +{ + cmsGDB* gbd = (cmsGDB*) hGBD; + cmsGDBPoint* ptr; + cmsSpherical sp; + + + // Get pointer to the sector + ptr = GetPoint(gbd, Lab, &sp); + if (ptr == NULL) return FALSE; + + // If no samples at this sector, add it + if (ptr ->Type == GP_EMPTY) { + + ptr -> Type = GP_SPECIFIED; + ptr -> p = sp; + } + else { + + + // Substitute only if radius is greater + if (sp.r > ptr -> p.r) { + + ptr -> Type = GP_SPECIFIED; + ptr -> p = sp; + } + } + + return TRUE; +} + +// Check if a given point falls inside gamut +cmsBool CMSEXPORT cmsGDBCheckPoint(cmsHANDLE hGBD, const cmsCIELab* Lab) +{ + cmsGDB* gbd = (cmsGDB*) hGBD; + cmsGDBPoint* ptr; + cmsSpherical sp; + + // Get pointer to the sector + ptr = GetPoint(gbd, Lab, &sp); + if (ptr == NULL) return FALSE; + + // If no samples at this sector, return no data + if (ptr ->Type == GP_EMPTY) return FALSE; + + // In gamut only if radius is greater + + return (sp.r <= ptr -> p.r); +} + +// ----------------------------------------------------------------------------------------------------------------------- + +// Find near sectors. The list of sectors found is returned on Close[]. +// The function returns the number of sectors as well. + +// 24 9 10 11 12 +// 23 8 1 2 13 +// 22 7 * 3 14 +// 21 6 5 4 15 +// 20 19 18 17 16 +// +// Those are the relative movements +// {-2,-2}, {-1, -2}, {0, -2}, {+1, -2}, {+2, -2}, +// {-2,-1}, {-1, -1}, {0, -1}, {+1, -1}, {+2, -1}, +// {-2, 0}, {-1, 0}, {0, 0}, {+1, 0}, {+2, 0}, +// {-2,+1}, {-1, +1}, {0, +1}, {+1, +1}, {+2, +1}, +// {-2,+2}, {-1, +2}, {0, +2}, {+1, +2}, {+2, +2}}; + + +static +const struct _spiral { + + int AdvX, AdvY; + + } Spiral[] = { {0, -1}, {+1, -1}, {+1, 0}, {+1, +1}, {0, +1}, {-1, +1}, + {-1, 0}, {-1, -1}, {-1, -2}, {0, -2}, {+1, -2}, {+2, -2}, + {+2, -1}, {+2, 0}, {+2, +1}, {+2, +2}, {+1, +2}, {0, +2}, + {-1, +2}, {-2, +2}, {-2, +1}, {-2, 0}, {-2, -1}, {-2, -2} }; + +#define NSTEPS (sizeof(Spiral) / sizeof(struct _spiral)) + +static +int FindNearSectors(cmsGDB* gbd, int alpha, int theta, cmsGDBPoint* Close[]) +{ + int nSectors = 0; + int a, t; + cmsUInt32Number i; + cmsGDBPoint* pt; + + for (i=0; i < NSTEPS; i++) { + + a = alpha + Spiral[i].AdvX; + t = theta + Spiral[i].AdvY; + + // Cycle at the end + a %= SECTORS; + t %= SECTORS; + + // Cycle at the begin + if (a < 0) a = SECTORS + a; + if (t < 0) t = SECTORS + t; + + pt = &gbd ->Gamut[t][a]; + + if (pt -> Type != GP_EMPTY) { + + Close[nSectors++] = pt; + } + } + + return nSectors; +} + + +// Interpolate a missing sector. Method identifies whatever this is top, bottom or mid +static +cmsBool InterpolateMissingSector(cmsGDB* gbd, int alpha, int theta) +{ + cmsSpherical sp; + cmsVEC3 Lab; + cmsVEC3 Centre; + cmsLine ray; + int nCloseSectors; + cmsGDBPoint* Close[NSTEPS + 1]; + cmsSpherical closel, templ; + cmsLine edge; + int k, m; + + // Is that point already specified? + if (gbd ->Gamut[theta][alpha].Type != GP_EMPTY) return TRUE; + + // Fill close points + nCloseSectors = FindNearSectors(gbd, alpha, theta, Close); + + + // Find a central point on the sector + sp.alpha = (cmsFloat64Number) ((alpha + 0.5) * 360.0) / (SECTORS); + sp.theta = (cmsFloat64Number) ((theta + 0.5) * 180.0) / (SECTORS); + sp.r = 50.0; + + // Convert to Cartesian + ToCartesian(&Lab, &sp); + + // Create a ray line from centre to this point + _cmsVEC3init(&Centre, 50.0, 0, 0); + LineOf2Points(&ray, &Lab, &Centre); + + // For all close sectors + closel.r = 0.0; + closel.alpha = 0; + closel.theta = 0; + + for (k=0; k < nCloseSectors; k++) { + + for(m = k+1; m < nCloseSectors; m++) { + + cmsVEC3 temp, a1, a2; + + // A line from sector to sector + ToCartesian(&a1, &Close[k]->p); + ToCartesian(&a2, &Close[m]->p); + + LineOf2Points(&edge, &a1, &a2); + + // Find a line + ClosestLineToLine(&temp, &ray, &edge); + + // Convert to spherical + ToSpherical(&templ, &temp); + + + if ( templ.r > closel.r && + templ.theta >= (theta*180.0/SECTORS) && + templ.theta <= ((theta+1)*180.0/SECTORS) && + templ.alpha >= (alpha*360.0/SECTORS) && + templ.alpha <= ((alpha+1)*360.0/SECTORS)) { + + closel = templ; + } + } + } + + gbd ->Gamut[theta][alpha].p = closel; + gbd ->Gamut[theta][alpha].Type = GP_MODELED; + + return TRUE; + +} + + +// Interpolate missing parts. The algorithm fist computes slices at +// theta=0 and theta=Max. +cmsBool CMSEXPORT cmsGDBCompute(cmsHANDLE hGBD, cmsUInt32Number dwFlags) +{ + int alpha, theta; + cmsGDB* gbd = (cmsGDB*) hGBD; + + _cmsAssert(hGBD != NULL); + + // Interpolate black + for (alpha = 0; alpha < SECTORS; alpha++) { + + if (!InterpolateMissingSector(gbd, alpha, 0)) return FALSE; + } + + // Interpolate white + for (alpha = 0; alpha < SECTORS; alpha++) { + + if (!InterpolateMissingSector(gbd, alpha, SECTORS-1)) return FALSE; + } + + + // Interpolate Mid + for (theta = 1; theta < SECTORS; theta++) { + for (alpha = 0; alpha < SECTORS; alpha++) { + + if (!InterpolateMissingSector(gbd, alpha, theta)) return FALSE; + } + } + + // Done + return TRUE; + + cmsUNUSED_PARAMETER(dwFlags); +} + + + + +// -------------------------------------------------------------------------------------------------------- + +// Great for debug, but not suitable for real use + +#if 0 +cmsBool cmsGBDdumpVRML(cmsHANDLE hGBD, const char* fname) +{ + FILE* fp; + int i, j; + cmsGDB* gbd = (cmsGDB*) hGBD; + cmsGDBPoint* pt; + + fp = fopen (fname, "wt"); + if (fp == NULL) + return FALSE; + + fprintf (fp, "#VRML V2.0 utf8\n"); + + // set the viewing orientation and distance + fprintf (fp, "DEF CamTest Group {\n"); + fprintf (fp, "\tchildren [\n"); + fprintf (fp, "\t\tDEF Cameras Group {\n"); + fprintf (fp, "\t\t\tchildren [\n"); + fprintf (fp, "\t\t\t\tDEF DefaultView Viewpoint {\n"); + fprintf (fp, "\t\t\t\t\tposition 0 0 340\n"); + fprintf (fp, "\t\t\t\t\torientation 0 0 1 0\n"); + fprintf (fp, "\t\t\t\t\tdescription \"default view\"\n"); + fprintf (fp, "\t\t\t\t}\n"); + fprintf (fp, "\t\t\t]\n"); + fprintf (fp, "\t\t},\n"); + fprintf (fp, "\t]\n"); + fprintf (fp, "}\n"); + + // Output the background stuff + fprintf (fp, "Background {\n"); + fprintf (fp, "\tskyColor [\n"); + fprintf (fp, "\t\t.5 .5 .5\n"); + fprintf (fp, "\t]\n"); + fprintf (fp, "}\n"); + + // Output the shape stuff + fprintf (fp, "Transform {\n"); + fprintf (fp, "\tscale .3 .3 .3\n"); + fprintf (fp, "\tchildren [\n"); + + // Draw the axes as a shape: + fprintf (fp, "\t\tShape {\n"); + fprintf (fp, "\t\t\tappearance Appearance {\n"); + fprintf (fp, "\t\t\t\tmaterial Material {\n"); + fprintf (fp, "\t\t\t\t\tdiffuseColor 0 0.8 0\n"); + fprintf (fp, "\t\t\t\t\temissiveColor 1.0 1.0 1.0\n"); + fprintf (fp, "\t\t\t\t\tshininess 0.8\n"); + fprintf (fp, "\t\t\t\t}\n"); + fprintf (fp, "\t\t\t}\n"); + fprintf (fp, "\t\t\tgeometry IndexedLineSet {\n"); + fprintf (fp, "\t\t\t\tcoord Coordinate {\n"); + fprintf (fp, "\t\t\t\t\tpoint [\n"); + fprintf (fp, "\t\t\t\t\t0.0 0.0 0.0,\n"); + fprintf (fp, "\t\t\t\t\t%f 0.0 0.0,\n", 255.0); + fprintf (fp, "\t\t\t\t\t0.0 %f 0.0,\n", 255.0); + fprintf (fp, "\t\t\t\t\t0.0 0.0 %f]\n", 255.0); + fprintf (fp, "\t\t\t\t}\n"); + fprintf (fp, "\t\t\t\tcoordIndex [\n"); + fprintf (fp, "\t\t\t\t\t0, 1, -1\n"); + fprintf (fp, "\t\t\t\t\t0, 2, -1\n"); + fprintf (fp, "\t\t\t\t\t0, 3, -1]\n"); + fprintf (fp, "\t\t\t}\n"); + fprintf (fp, "\t\t}\n"); + + + fprintf (fp, "\t\tShape {\n"); + fprintf (fp, "\t\t\tappearance Appearance {\n"); + fprintf (fp, "\t\t\t\tmaterial Material {\n"); + fprintf (fp, "\t\t\t\t\tdiffuseColor 0 0.8 0\n"); + fprintf (fp, "\t\t\t\t\temissiveColor 1 1 1\n"); + fprintf (fp, "\t\t\t\t\tshininess 0.8\n"); + fprintf (fp, "\t\t\t\t}\n"); + fprintf (fp, "\t\t\t}\n"); + fprintf (fp, "\t\t\tgeometry PointSet {\n"); + + // fill in the points here + fprintf (fp, "\t\t\t\tcoord Coordinate {\n"); + fprintf (fp, "\t\t\t\t\tpoint [\n"); + + // We need to transverse all gamut hull. + for (i=0; i < SECTORS; i++) + for (j=0; j < SECTORS; j++) { + + cmsVEC3 v; + + pt = &gbd ->Gamut[i][j]; + ToCartesian(&v, &pt ->p); + + fprintf (fp, "\t\t\t\t\t%g %g %g", v.n[0]+50, v.n[1], v.n[2]); + + if ((j == SECTORS - 1) && (i == SECTORS - 1)) + fprintf (fp, "]\n"); + else + fprintf (fp, ",\n"); + + } + + fprintf (fp, "\t\t\t\t}\n"); + + + + // fill in the face colors + fprintf (fp, "\t\t\t\tcolor Color {\n"); + fprintf (fp, "\t\t\t\t\tcolor [\n"); + + for (i=0; i < SECTORS; i++) + for (j=0; j < SECTORS; j++) { + + cmsVEC3 v; + + pt = &gbd ->Gamut[i][j]; + + + ToCartesian(&v, &pt ->p); + + + if (pt ->Type == GP_EMPTY) + fprintf (fp, "\t\t\t\t\t%g %g %g", 0.0, 0.0, 0.0); + else + if (pt ->Type == GP_MODELED) + fprintf (fp, "\t\t\t\t\t%g %g %g", 1.0, .5, .5); + else { + fprintf (fp, "\t\t\t\t\t%g %g %g", 1.0, 1.0, 1.0); + + } + + if ((j == SECTORS - 1) && (i == SECTORS - 1)) + fprintf (fp, "]\n"); + else + fprintf (fp, ",\n"); + } + fprintf (fp, "\t\t\t}\n"); + + + fprintf (fp, "\t\t\t}\n"); + fprintf (fp, "\t\t}\n"); + fprintf (fp, "\t]\n"); + fprintf (fp, "}\n"); + + fclose (fp); + + return TRUE; +} +#endif + Index: sdk/lib/3rdparty/lcms2/cmstypes.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmstypes.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmstypes.c (working copy) @@ -0,0 +1,5573 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Tag Serialization ----------------------------------------------------------------------------- +// This file implements every single tag and tag type as described in the ICC spec. Some types +// have been deprecated, like ncl and Data. There is no implementation for those types as there +// are no profiles holding them. The programmer can also extend this list by defining his own types +// by using the appropriate plug-in. There are three types of plug ins regarding that. First type +// allows to define new tags using any existing type. Next plug-in type allows to define new types +// and the third one is very specific: allows to extend the number of elements in the multiprocessing +// elements special type. +//-------------------------------------------------------------------------------------------------- + +// Some broken types +#define cmsCorbisBrokenXYZtype ((cmsTagTypeSignature) 0x17A505B8) +#define cmsMonacoBrokenCurveType ((cmsTagTypeSignature) 0x9478ee00) + +// This is the linked list that keeps track of the defined types +typedef struct _cmsTagTypeLinkedList_st { + + cmsTagTypeHandler Handler; + struct _cmsTagTypeLinkedList_st* Next; + +} _cmsTagTypeLinkedList; + +// Some macros to define callbacks. +#define READ_FN(x) Type_##x##_Read +#define WRITE_FN(x) Type_##x##_Write +#define FREE_FN(x) Type_##x##_Free +#define DUP_FN(x) Type_##x##_Dup + +// Helper macro to define a handler. Callbacks do have a fixed naming convention. +#define TYPE_HANDLER(t, x) { (t), READ_FN(x), WRITE_FN(x), DUP_FN(x), FREE_FN(x), NULL, 0 } + +// Helper macro to define a MPE handler. Callbacks do have a fixed naming convention +#define TYPE_MPE_HANDLER(t, x) { (t), READ_FN(x), WRITE_FN(x), GenericMPEdup, GenericMPEfree, NULL, 0 } + +// Register a new type handler. This routine is shared between normal types and MPE. LinkedList points to the optional list head +static +cmsBool RegisterTypesPlugin(cmsContext id, cmsPluginBase* Data, _cmsMemoryClient pos) +{ + cmsPluginTagType* Plugin = (cmsPluginTagType*) Data; + _cmsTagTypePluginChunkType* ctx = ( _cmsTagTypePluginChunkType*) _cmsContextGetClientChunk(id, pos); + _cmsTagTypeLinkedList *pt; + + // Calling the function with NULL as plug-in would unregister the plug in. + if (Data == NULL) { + + // There is no need to set free the memory, as pool is destroyed as a whole. + ctx ->TagTypes = NULL; + return TRUE; + } + + // Registering happens in plug-in memory pool. + pt = (_cmsTagTypeLinkedList*) _cmsPluginMalloc(id, sizeof(_cmsTagTypeLinkedList)); + if (pt == NULL) return FALSE; + + pt ->Handler = Plugin ->Handler; + pt ->Next = ctx ->TagTypes; + + ctx ->TagTypes = pt; + + return TRUE; +} + +// Return handler for a given type or NULL if not found. Shared between normal types and MPE. It first tries the additons +// made by plug-ins and then the built-in defaults. +static +cmsTagTypeHandler* GetHandler(cmsTagTypeSignature sig, _cmsTagTypeLinkedList* PluginLinkedList, _cmsTagTypeLinkedList* DefaultLinkedList) +{ + _cmsTagTypeLinkedList* pt; + + for (pt = PluginLinkedList; + pt != NULL; + pt = pt ->Next) { + + if (sig == pt -> Handler.Signature) return &pt ->Handler; + } + + for (pt = DefaultLinkedList; + pt != NULL; + pt = pt ->Next) { + + if (sig == pt -> Handler.Signature) return &pt ->Handler; + } + + return NULL; +} + + +// Auxiliary to convert UTF-32 to UTF-16 in some cases +static +cmsBool _cmsWriteWCharArray(cmsIOHANDLER* io, cmsUInt32Number n, const wchar_t* Array) +{ + cmsUInt32Number i; + + _cmsAssert(io != NULL); + _cmsAssert(!(Array == NULL && n > 0)); + + for (i=0; i < n; i++) { + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) Array[i])) return FALSE; + } + + return TRUE; +} + +// Auxiliary to read an array of wchar_t +static +cmsBool _cmsReadWCharArray(cmsIOHANDLER* io, cmsUInt32Number n, wchar_t* Array) +{ + cmsUInt32Number i; + cmsUInt16Number tmp; + + _cmsAssert(io != NULL); + + for (i=0; i < n; i++) { + + if (Array != NULL) { + + if (!_cmsReadUInt16Number(io, &tmp)) return FALSE; + Array[i] = (wchar_t) tmp; + } + else { + if (!_cmsReadUInt16Number(io, NULL)) return FALSE; + } + + } + return TRUE; +} + +// To deal with position tables +typedef cmsBool (* PositionTableEntryFn)(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag); + +// Helper function to deal with position tables as described in ICC spec 4.3 +// A table of n elements is readed, where first comes n records containing offsets and sizes and +// then a block containing the data itself. This allows to reuse same data in more than one entry +static +cmsBool ReadPositionTable(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + cmsUInt32Number Count, + cmsUInt32Number BaseOffset, + void *Cargo, + PositionTableEntryFn ElementFn) +{ + cmsUInt32Number i; + cmsUInt32Number *ElementOffsets = NULL, *ElementSizes = NULL; + + // Let's take the offsets to each element + ElementOffsets = (cmsUInt32Number *) _cmsCalloc(io ->ContextID, Count, sizeof(cmsUInt32Number)); + if (ElementOffsets == NULL) goto Error; + + ElementSizes = (cmsUInt32Number *) _cmsCalloc(io ->ContextID, Count, sizeof(cmsUInt32Number)); + if (ElementSizes == NULL) goto Error; + + for (i=0; i < Count; i++) { + + if (!_cmsReadUInt32Number(io, &ElementOffsets[i])) goto Error; + if (!_cmsReadUInt32Number(io, &ElementSizes[i])) goto Error; + + ElementOffsets[i] += BaseOffset; + } + + // Seek to each element and read it + for (i=0; i < Count; i++) { + + if (!io -> Seek(io, ElementOffsets[i])) goto Error; + + // This is the reader callback + if (!ElementFn(self, io, Cargo, i, ElementSizes[i])) goto Error; + } + + // Success + if (ElementOffsets != NULL) _cmsFree(io ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(io ->ContextID, ElementSizes); + return TRUE; + +Error: + if (ElementOffsets != NULL) _cmsFree(io ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(io ->ContextID, ElementSizes); + return FALSE; +} + +// Same as anterior, but for write position tables +static +cmsBool WritePositionTable(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + cmsUInt32Number SizeOfTag, + cmsUInt32Number Count, + cmsUInt32Number BaseOffset, + void *Cargo, + PositionTableEntryFn ElementFn) +{ + cmsUInt32Number i; + cmsUInt32Number DirectoryPos, CurrentPos, Before; + cmsUInt32Number *ElementOffsets = NULL, *ElementSizes = NULL; + + // Create table + ElementOffsets = (cmsUInt32Number *) _cmsCalloc(io ->ContextID, Count, sizeof(cmsUInt32Number)); + if (ElementOffsets == NULL) goto Error; + + ElementSizes = (cmsUInt32Number *) _cmsCalloc(io ->ContextID, Count, sizeof(cmsUInt32Number)); + if (ElementSizes == NULL) goto Error; + + // Keep starting position of curve offsets + DirectoryPos = io ->Tell(io); + + // Write a fake directory to be filled latter on + for (i=0; i < Count; i++) { + + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // Offset + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // size + } + + // Write each element. Keep track of the size as well. + for (i=0; i < Count; i++) { + + Before = io ->Tell(io); + ElementOffsets[i] = Before - BaseOffset; + + // Callback to write... + if (!ElementFn(self, io, Cargo, i, SizeOfTag)) goto Error; + + // Now the size + ElementSizes[i] = io ->Tell(io) - Before; + } + + // Write the directory + CurrentPos = io ->Tell(io); + if (!io ->Seek(io, DirectoryPos)) goto Error; + + for (i=0; i < Count; i++) { + if (!_cmsWriteUInt32Number(io, ElementOffsets[i])) goto Error; + if (!_cmsWriteUInt32Number(io, ElementSizes[i])) goto Error; + } + + if (!io ->Seek(io, CurrentPos)) goto Error; + + if (ElementOffsets != NULL) _cmsFree(io ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(io ->ContextID, ElementSizes); + return TRUE; + +Error: + if (ElementOffsets != NULL) _cmsFree(io ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(io ->ContextID, ElementSizes); + return FALSE; +} + + +// ******************************************************************************** +// Type XYZ. Only one value is allowed +// ******************************************************************************** + +//The XYZType contains an array of three encoded values for the XYZ tristimulus +//values. Tristimulus values must be non-negative. The signed encoding allows for +//implementation optimizations by minimizing the number of fixed formats. + + +static +void *Type_XYZ_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsCIEXYZ* xyz; + + *nItems = 0; + xyz = (cmsCIEXYZ*) _cmsMallocZero(self ->ContextID, sizeof(cmsCIEXYZ)); + if (xyz == NULL) return NULL; + + if (!_cmsReadXYZNumber(io, xyz)) { + _cmsFree(self ->ContextID, xyz); + return NULL; + } + + *nItems = 1; + return (void*) xyz; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_XYZ_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + return _cmsWriteXYZNumber(io, (cmsCIEXYZ*) Ptr); + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_XYZ_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsCIEXYZ)); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_XYZ_Free(struct _cms_typehandler_struct* self, void *Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +static +cmsTagTypeSignature DecideXYZtype(cmsFloat64Number ICCVersion, const void *Data) +{ + return cmsSigXYZType; + + cmsUNUSED_PARAMETER(ICCVersion); + cmsUNUSED_PARAMETER(Data); +} + + +// ******************************************************************************** +// Type chromaticity. Only one value is allowed +// ******************************************************************************** +// The chromaticity tag type provides basic chromaticity data and type of +// phosphors or colorants of a monitor to applications and utilities. + +static +void *Type_Chromaticity_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsCIExyYTRIPLE* chrm; + cmsUInt16Number nChans, Table; + + *nItems = 0; + chrm = (cmsCIExyYTRIPLE*) _cmsMallocZero(self ->ContextID, sizeof(cmsCIExyYTRIPLE)); + if (chrm == NULL) return NULL; + + if (!_cmsReadUInt16Number(io, &nChans)) goto Error; + + // Let's recover from a bug introduced in early versions of lcms1 + if (nChans == 0 && SizeOfTag == 32) { + + if (!_cmsReadUInt16Number(io, NULL)) goto Error; + if (!_cmsReadUInt16Number(io, &nChans)) goto Error; + } + + if (nChans != 3) goto Error; + + if (!_cmsReadUInt16Number(io, &Table)) goto Error; + + if (!_cmsRead15Fixed16Number(io, &chrm ->Red.x)) goto Error; + if (!_cmsRead15Fixed16Number(io, &chrm ->Red.y)) goto Error; + + chrm ->Red.Y = 1.0; + + if (!_cmsRead15Fixed16Number(io, &chrm ->Green.x)) goto Error; + if (!_cmsRead15Fixed16Number(io, &chrm ->Green.y)) goto Error; + + chrm ->Green.Y = 1.0; + + if (!_cmsRead15Fixed16Number(io, &chrm ->Blue.x)) goto Error; + if (!_cmsRead15Fixed16Number(io, &chrm ->Blue.y)) goto Error; + + chrm ->Blue.Y = 1.0; + + *nItems = 1; + return (void*) chrm; + +Error: + _cmsFree(self ->ContextID, (void*) chrm); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool SaveOneChromaticity(cmsFloat64Number x, cmsFloat64Number y, cmsIOHANDLER* io) +{ + if (!_cmsWriteUInt32Number(io, _cmsDoubleTo15Fixed16(x))) return FALSE; + if (!_cmsWriteUInt32Number(io, _cmsDoubleTo15Fixed16(y))) return FALSE; + + return TRUE; +} + +static +cmsBool Type_Chromaticity_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsCIExyYTRIPLE* chrm = (cmsCIExyYTRIPLE*) Ptr; + + if (!_cmsWriteUInt16Number(io, 3)) return FALSE; // nChannels + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; // Table + + if (!SaveOneChromaticity(chrm -> Red.x, chrm -> Red.y, io)) return FALSE; + if (!SaveOneChromaticity(chrm -> Green.x, chrm -> Green.y, io)) return FALSE; + if (!SaveOneChromaticity(chrm -> Blue.x, chrm -> Blue.y, io)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_Chromaticity_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsCIExyYTRIPLE)); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_Chromaticity_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigColorantOrderType +// ******************************************************************************** + +// This is an optional tag which specifies the laydown order in which colorants will +// be printed on an n-colorant device. The laydown order may be the same as the +// channel generation order listed in the colorantTableTag or the channel order of a +// colour space such as CMYK, in which case this tag is not needed. When this is not +// the case (for example, ink-towers sometimes use the order KCMY), this tag may be +// used to specify the laydown order of the colorants. + + +static +void *Type_ColorantOrderType_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt8Number* ColorantOrder; + cmsUInt32Number Count; + + *nItems = 0; + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + if (Count > cmsMAXCHANNELS) return NULL; + + ColorantOrder = (cmsUInt8Number*) _cmsCalloc(self ->ContextID, cmsMAXCHANNELS, sizeof(cmsUInt8Number)); + if (ColorantOrder == NULL) return NULL; + + // We use FF as end marker + memset(ColorantOrder, 0xFF, cmsMAXCHANNELS * sizeof(cmsUInt8Number)); + + if (io ->Read(io, ColorantOrder, sizeof(cmsUInt8Number), Count) != Count) { + + _cmsFree(self ->ContextID, (void*) ColorantOrder); + return NULL; + } + + *nItems = 1; + return (void*) ColorantOrder; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_ColorantOrderType_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt8Number* ColorantOrder = (cmsUInt8Number*) Ptr; + cmsUInt32Number i, sz, Count; + + // Get the length + for (Count=i=0; i < cmsMAXCHANNELS; i++) { + if (ColorantOrder[i] != 0xFF) Count++; + } + + if (!_cmsWriteUInt32Number(io, Count)) return FALSE; + + sz = Count * sizeof(cmsUInt8Number); + if (!io -> Write(io, sz, ColorantOrder)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_ColorantOrderType_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, cmsMAXCHANNELS * sizeof(cmsUInt8Number)); + + cmsUNUSED_PARAMETER(n); +} + + +static +void Type_ColorantOrderType_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigS15Fixed16ArrayType +// ******************************************************************************** +// This type represents an array of generic 4-byte/32-bit fixed point quantity. +// The number of values is determined from the size of the tag. + +static +void *Type_S15Fixed16_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsFloat64Number* array_double; + cmsUInt32Number i, n; + + *nItems = 0; + n = SizeOfTag / sizeof(cmsUInt32Number); + array_double = (cmsFloat64Number*) _cmsCalloc(self ->ContextID, n, sizeof(cmsFloat64Number)); + if (array_double == NULL) return NULL; + + for (i=0; i < n; i++) { + + if (!_cmsRead15Fixed16Number(io, &array_double[i])) { + + _cmsFree(self ->ContextID, array_double); + return NULL; + } + } + + *nItems = n; + return (void*) array_double; +} + +static +cmsBool Type_S15Fixed16_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsFloat64Number* Value = (cmsFloat64Number*) Ptr; + cmsUInt32Number i; + + for (i=0; i < nItems; i++) { + + if (!_cmsWrite15Fixed16Number(io, Value[i])) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_S15Fixed16_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, n * sizeof(cmsFloat64Number)); +} + + +static +void Type_S15Fixed16_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigU16Fixed16ArrayType +// ******************************************************************************** +// This type represents an array of generic 4-byte/32-bit quantity. +// The number of values is determined from the size of the tag. + + +static +void *Type_U16Fixed16_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsFloat64Number* array_double; + cmsUInt32Number v; + cmsUInt32Number i, n; + + *nItems = 0; + n = SizeOfTag / sizeof(cmsUInt32Number); + array_double = (cmsFloat64Number*) _cmsCalloc(self ->ContextID, n, sizeof(cmsFloat64Number)); + if (array_double == NULL) return NULL; + + for (i=0; i < n; i++) { + + if (!_cmsReadUInt32Number(io, &v)) { + _cmsFree(self ->ContextID, (void*) array_double); + return NULL; + } + + // Convert to cmsFloat64Number + array_double[i] = (cmsFloat64Number) (v / 65536.0); + } + + *nItems = n; + return (void*) array_double; +} + +static +cmsBool Type_U16Fixed16_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsFloat64Number* Value = (cmsFloat64Number*) Ptr; + cmsUInt32Number i; + + for (i=0; i < nItems; i++) { + + cmsUInt32Number v = (cmsUInt32Number) floor(Value[i]*65536.0 + 0.5); + + if (!_cmsWriteUInt32Number(io, v)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_U16Fixed16_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, n * sizeof(cmsFloat64Number)); +} + +static +void Type_U16Fixed16_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigSignatureType +// ******************************************************************************** +// +// The signatureType contains a four-byte sequence, Sequences of less than four +// characters are padded at the end with spaces, 20h. +// Typically this type is used for registered tags that can be displayed on many +// development systems as a sequence of four characters. + +static +void *Type_Signature_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsSignature* SigPtr = (cmsSignature*) _cmsMalloc(self ->ContextID, sizeof(cmsSignature)); + if (SigPtr == NULL) return NULL; + + if (!_cmsReadUInt32Number(io, SigPtr)) return NULL; + *nItems = 1; + + return SigPtr; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_Signature_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsSignature* SigPtr = (cmsSignature*) Ptr; + + return _cmsWriteUInt32Number(io, *SigPtr); + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_Signature_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, n * sizeof(cmsSignature)); +} + +static +void Type_Signature_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigTextType +// ******************************************************************************** +// +// The textType is a simple text structure that contains a 7-bit ASCII text string. +// The length of the string is obtained by subtracting 8 from the element size portion +// of the tag itself. This string must be terminated with a 00h byte. + +static +void *Type_Text_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + char* Text = NULL; + cmsMLU* mlu = NULL; + + // Create a container + mlu = cmsMLUalloc(self ->ContextID, 1); + if (mlu == NULL) return NULL; + + *nItems = 0; + + // We need to store the "\0" at the end, so +1 + if (SizeOfTag == UINT_MAX) goto Error; + + Text = (char*) _cmsMalloc(self ->ContextID, SizeOfTag + 1); + if (Text == NULL) goto Error; + + if (io -> Read(io, Text, sizeof(char), SizeOfTag) != SizeOfTag) goto Error; + + // Make sure text is properly ended + Text[SizeOfTag] = 0; + *nItems = 1; + + // Keep the result + if (!cmsMLUsetASCII(mlu, cmsNoLanguage, cmsNoCountry, Text)) goto Error; + + _cmsFree(self ->ContextID, Text); + return (void*) mlu; + +Error: + if (mlu != NULL) + cmsMLUfree(mlu); + if (Text != NULL) + _cmsFree(self ->ContextID, Text); + + return NULL; +} + +// The conversion implies to choose a language. So, we choose the actual language. +static +cmsBool Type_Text_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsMLU* mlu = (cmsMLU*) Ptr; + cmsUInt32Number size; + cmsBool rc; + char* Text; + + // Get the size of the string. Note there is an extra "\0" at the end + size = cmsMLUgetASCII(mlu, cmsNoLanguage, cmsNoCountry, NULL, 0); + if (size == 0) return FALSE; // Cannot be zero! + + // Create memory + Text = (char*) _cmsMalloc(self ->ContextID, size); + if (Text == NULL) return FALSE; + + cmsMLUgetASCII(mlu, cmsNoLanguage, cmsNoCountry, Text, size); + + // Write it, including separator + rc = io ->Write(io, size, Text); + + _cmsFree(self ->ContextID, Text); + return rc; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_Text_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsMLUdup((cmsMLU*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + + +static +void Type_Text_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsMLU* mlu = (cmsMLU*) Ptr; + cmsMLUfree(mlu); + return; + + cmsUNUSED_PARAMETER(self); +} + +static +cmsTagTypeSignature DecideTextType(cmsFloat64Number ICCVersion, const void *Data) +{ + if (ICCVersion >= 4.0) + return cmsSigMultiLocalizedUnicodeType; + + return cmsSigTextType; + + cmsUNUSED_PARAMETER(Data); +} + + +// ******************************************************************************** +// Type cmsSigDataType +// ******************************************************************************** + +// General purpose data type +static +void *Type_Data_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsICCData* BinData; + cmsUInt32Number LenOfData; + + *nItems = 0; + + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + + LenOfData = SizeOfTag - sizeof(cmsUInt32Number); + if (LenOfData > INT_MAX) return NULL; + + BinData = (cmsICCData*) _cmsMalloc(self ->ContextID, sizeof(cmsICCData) + LenOfData - 1); + if (BinData == NULL) return NULL; + + BinData ->len = LenOfData; + if (!_cmsReadUInt32Number(io, &BinData->flag)) { + _cmsFree(self ->ContextID, BinData); + return NULL; + } + + if (io -> Read(io, BinData ->data, sizeof(cmsUInt8Number), LenOfData) != LenOfData) { + + _cmsFree(self ->ContextID, BinData); + return NULL; + } + + *nItems = 1; + + return (void*) BinData; +} + + +static +cmsBool Type_Data_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsICCData* BinData = (cmsICCData*) Ptr; + + if (!_cmsWriteUInt32Number(io, BinData ->flag)) return FALSE; + + return io ->Write(io, BinData ->len, BinData ->data); + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_Data_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + cmsICCData* BinData = (cmsICCData*) Ptr; + + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsICCData) + BinData ->len - 1); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_Data_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigTextDescriptionType +// ******************************************************************************** + +static +void *Type_Text_Description_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + char* Text = NULL; + cmsMLU* mlu = NULL; + cmsUInt32Number AsciiCount; + cmsUInt32Number i, UnicodeCode, UnicodeCount; + cmsUInt16Number ScriptCodeCode, Dummy; + cmsUInt8Number ScriptCodeCount; + + *nItems = 0; + + // One dword should be there + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + + // Read len of ASCII + if (!_cmsReadUInt32Number(io, &AsciiCount)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + // Check for size + if (SizeOfTag < AsciiCount) return NULL; + + // All seems Ok, allocate the container + mlu = cmsMLUalloc(self ->ContextID, 1); + if (mlu == NULL) return NULL; + + // As many memory as size of tag + Text = (char*) _cmsMalloc(self ->ContextID, AsciiCount + 1); + if (Text == NULL) goto Error; + + // Read it + if (io ->Read(io, Text, sizeof(char), AsciiCount) != AsciiCount) goto Error; + SizeOfTag -= AsciiCount; + + // Make sure there is a terminator + Text[AsciiCount] = 0; + + // Set the MLU entry. From here we can be tolerant to wrong types + if (!cmsMLUsetASCII(mlu, cmsNoLanguage, cmsNoCountry, Text)) goto Error; + _cmsFree(self ->ContextID, (void*) Text); + Text = NULL; + + // Skip Unicode code + if (SizeOfTag < 2* sizeof(cmsUInt32Number)) goto Done; + if (!_cmsReadUInt32Number(io, &UnicodeCode)) goto Done; + if (!_cmsReadUInt32Number(io, &UnicodeCount)) goto Done; + SizeOfTag -= 2* sizeof(cmsUInt32Number); + + if (SizeOfTag < UnicodeCount*sizeof(cmsUInt16Number)) goto Done; + + for (i=0; i < UnicodeCount; i++) { + if (!io ->Read(io, &Dummy, sizeof(cmsUInt16Number), 1)) goto Done; + } + SizeOfTag -= UnicodeCount*sizeof(cmsUInt16Number); + + // Skip ScriptCode code if present. Some buggy profiles does have less + // data that stricttly required. We need to skip it as this type may come + // embedded in other types. + + if (SizeOfTag >= sizeof(cmsUInt16Number) + sizeof(cmsUInt8Number) + 67) { + + if (!_cmsReadUInt16Number(io, &ScriptCodeCode)) goto Done; + if (!_cmsReadUInt8Number(io, &ScriptCodeCount)) goto Done; + + // Skip rest of tag + for (i=0; i < 67; i++) { + if (!io ->Read(io, &Dummy, sizeof(cmsUInt8Number), 1)) goto Error; + } + } + +Done: + + *nItems = 1; + return mlu; + +Error: + if (Text) _cmsFree(self ->ContextID, (void*) Text); + if (mlu) cmsMLUfree(mlu); + return NULL; +} + + +// This tag can come IN UNALIGNED SIZE. In order to prevent issues, we force zeros on description to align it +static +cmsBool Type_Text_Description_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsMLU* mlu = (cmsMLU*) Ptr; + char *Text = NULL; + wchar_t *Wide = NULL; + cmsUInt32Number len, len_text, len_tag_requirement, len_aligned; + cmsBool rc = FALSE; + char Filler[68]; + + // Used below for writting zeroes + memset(Filler, 0, sizeof(Filler)); + + // Get the len of string + len = cmsMLUgetASCII(mlu, cmsNoLanguage, cmsNoCountry, NULL, 0); + + // Specification ICC.1:2001-04 (v2.4.0): It has been found that textDescriptionType can contain misaligned data + //(see clause 4.1 for the definition of “aligned”). Because the Unicode language + // code and Unicode count immediately follow the ASCII description, their + // alignment is not correct if the ASCII count is not a multiple of four. The + // ScriptCode code is misaligned when the ASCII count is odd. Profile reading and + // writing software must be written carefully in order to handle these alignment + // problems. + // + // The above last sentence suggest to handle alignment issues in the + // parser. The provided example (Table 69 on Page 60) makes this clear. + // The padding only in the ASCII count is not sufficient for a aligned tag + // size, with the same text size in ASCII and Unicode. + + // Null strings + if (len <= 0) { + + Text = (char*) _cmsDupMem(self ->ContextID, "", sizeof(char)); + Wide = (wchar_t*) _cmsDupMem(self ->ContextID, L"", sizeof(wchar_t)); + } + else { + // Create independent buffers + Text = (char*) _cmsCalloc(self ->ContextID, len, sizeof(char)); + if (Text == NULL) goto Error; + + Wide = (wchar_t*) _cmsCalloc(self ->ContextID, len, sizeof(wchar_t)); + if (Wide == NULL) goto Error; + + // Get both representations. + cmsMLUgetASCII(mlu, cmsNoLanguage, cmsNoCountry, Text, len * sizeof(char)); + cmsMLUgetWide(mlu, cmsNoLanguage, cmsNoCountry, Wide, len * sizeof(wchar_t)); + } + + // Tell the real text len including the null terminator and padding + len_text = (cmsUInt32Number) strlen(Text) + 1; + // Compute an total tag size requirement + len_tag_requirement = (8+4+len_text+4+4+2*len_text+2+1+67); + len_aligned = _cmsALIGNLONG(len_tag_requirement); + + // * cmsUInt32Number count; * Description length + // * cmsInt8Number desc[count] * NULL terminated ascii string + // * cmsUInt32Number ucLangCode; * UniCode language code + // * cmsUInt32Number ucCount; * UniCode description length + // * cmsInt16Number ucDesc[ucCount];* The UniCode description + // * cmsUInt16Number scCode; * ScriptCode code + // * cmsUInt8Number scCount; * ScriptCode count + // * cmsInt8Number scDesc[67]; * ScriptCode Description + + if (!_cmsWriteUInt32Number(io, len_text)) goto Error; + if (!io ->Write(io, len_text, Text)) goto Error; + + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // ucLanguageCode + + if (!_cmsWriteUInt32Number(io, len_text)) goto Error; + // Note that in some compilers sizeof(cmsUInt16Number) != sizeof(wchar_t) + if (!_cmsWriteWCharArray(io, len_text, Wide)) goto Error; + + // ScriptCode Code & count (unused) + if (!_cmsWriteUInt16Number(io, 0)) goto Error; + if (!_cmsWriteUInt8Number(io, 0)) goto Error; + + if (!io ->Write(io, 67, Filler)) goto Error; + + // possibly add pad at the end of tag + if(len_aligned - len_tag_requirement > 0) + if (!io ->Write(io, len_aligned - len_tag_requirement, Filler)) goto Error; + + rc = TRUE; + +Error: + if (Text) _cmsFree(self ->ContextID, Text); + if (Wide) _cmsFree(self ->ContextID, Wide); + + return rc; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_Text_Description_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsMLUdup((cmsMLU*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_Text_Description_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsMLU* mlu = (cmsMLU*) Ptr; + + cmsMLUfree(mlu); + return; + + cmsUNUSED_PARAMETER(self); +} + + +static +cmsTagTypeSignature DecideTextDescType(cmsFloat64Number ICCVersion, const void *Data) +{ + if (ICCVersion >= 4.0) + return cmsSigMultiLocalizedUnicodeType; + + return cmsSigTextDescriptionType; + + cmsUNUSED_PARAMETER(Data); +} + + +// ******************************************************************************** +// Type cmsSigCurveType +// ******************************************************************************** + +static +void *Type_Curve_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt32Number Count; + cmsToneCurve* NewGamma; + + *nItems = 0; + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + + switch (Count) { + + case 0: // Linear. + { + cmsFloat64Number SingleGamma = 1.0; + + NewGamma = cmsBuildParametricToneCurve(self ->ContextID, 1, &SingleGamma); + if (!NewGamma) return NULL; + *nItems = 1; + return NewGamma; + } + + case 1: // Specified as the exponent of gamma function + { + cmsUInt16Number SingleGammaFixed; + cmsFloat64Number SingleGamma; + + if (!_cmsReadUInt16Number(io, &SingleGammaFixed)) return NULL; + SingleGamma = _cms8Fixed8toDouble(SingleGammaFixed); + + *nItems = 1; + return cmsBuildParametricToneCurve(self ->ContextID, 1, &SingleGamma); + } + + default: // Curve + + if (Count > 0x7FFF) + return NULL; // This is to prevent bad guys for doing bad things + + NewGamma = cmsBuildTabulatedToneCurve16(self ->ContextID, Count, NULL); + if (!NewGamma) return NULL; + + if (!_cmsReadUInt16Array(io, Count, NewGamma -> Table16)) return NULL; + + *nItems = 1; + return NewGamma; + } + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_Curve_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsToneCurve* Curve = (cmsToneCurve*) Ptr; + + if (Curve ->nSegments == 1 && Curve ->Segments[0].Type == 1) { + + // Single gamma, preserve number + cmsUInt16Number SingleGammaFixed = _cmsDoubleTo8Fixed8(Curve ->Segments[0].Params[0]); + + if (!_cmsWriteUInt32Number(io, 1)) return FALSE; + if (!_cmsWriteUInt16Number(io, SingleGammaFixed)) return FALSE; + return TRUE; + + } + + if (!_cmsWriteUInt32Number(io, Curve ->nEntries)) return FALSE; + return _cmsWriteUInt16Array(io, Curve ->nEntries, Curve ->Table16); + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_Curve_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsDupToneCurve((cmsToneCurve*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_Curve_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsToneCurve* gamma = (cmsToneCurve*) Ptr; + + cmsFreeToneCurve(gamma); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigParametricCurveType +// ******************************************************************************** + + +// Decide which curve type to use on writting +static +cmsTagTypeSignature DecideCurveType(cmsFloat64Number ICCVersion, const void *Data) +{ + cmsToneCurve* Curve = (cmsToneCurve*) Data; + + if (ICCVersion < 4.0) return cmsSigCurveType; + if (Curve ->nSegments != 1) return cmsSigCurveType; // Only 1-segment curves can be saved as parametric + if (Curve ->Segments[0].Type < 0) return cmsSigCurveType; // Only non-inverted curves + if (Curve ->Segments[0].Type > 5) return cmsSigCurveType; // Only ICC parametric curves + + return cmsSigParametricCurveType; +} + +static +void *Type_ParametricCurve_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + static const int ParamsByType[] = { 1, 3, 4, 5, 7 }; + cmsFloat64Number Params[10]; + cmsUInt16Number Type; + int i, n; + cmsToneCurve* NewGamma; + + if (!_cmsReadUInt16Number(io, &Type)) return NULL; + if (!_cmsReadUInt16Number(io, NULL)) return NULL; // Reserved + + if (Type > 4) { + + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown parametric curve type '%d'", Type); + return NULL; + } + + memset(Params, 0, sizeof(Params)); + n = ParamsByType[Type]; + + for (i=0; i < n; i++) { + + if (!_cmsRead15Fixed16Number(io, &Params[i])) return NULL; + } + + NewGamma = cmsBuildParametricToneCurve(self ->ContextID, Type+1, Params); + + *nItems = 1; + return NewGamma; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_ParametricCurve_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsToneCurve* Curve = (cmsToneCurve*) Ptr; + int i, nParams, typen; + static const int ParamsByType[] = { 0, 1, 3, 4, 5, 7 }; + + typen = Curve -> Segments[0].Type; + + if (Curve ->nSegments > 1 || typen < 1) { + + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Multisegment or Inverted parametric curves cannot be written"); + return FALSE; + } + + if (typen > 5) { + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported parametric curve"); + return FALSE; + } + + nParams = ParamsByType[typen]; + + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) (Curve ->Segments[0].Type - 1))) return FALSE; + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; // Reserved + + for (i=0; i < nParams; i++) { + + if (!_cmsWrite15Fixed16Number(io, Curve -> Segments[0].Params[i])) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_ParametricCurve_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsDupToneCurve((cmsToneCurve*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_ParametricCurve_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsToneCurve* gamma = (cmsToneCurve*) Ptr; + + cmsFreeToneCurve(gamma); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigDateTimeType +// ******************************************************************************** + +// A 12-byte value representation of the time and date, where the byte usage is assigned +// as specified in table 1. The actual values are encoded as 16-bit unsigned integers +// (uInt16Number - see 5.1.6). +// +// All the dateTimeNumber values in a profile shall be in Coordinated Universal Time +// (UTC, also known as GMT or ZULU Time). Profile writers are required to convert local +// time to UTC when setting these values. Programmes that display these values may show +// the dateTimeNumber as UTC, show the equivalent local time (at current locale), or +// display both UTC and local versions of the dateTimeNumber. + +static +void *Type_DateTime_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsDateTimeNumber timestamp; + struct tm * NewDateTime; + + *nItems = 0; + NewDateTime = (struct tm*) _cmsMalloc(self ->ContextID, sizeof(struct tm)); + if (NewDateTime == NULL) return NULL; + + if (io->Read(io, ×tamp, sizeof(cmsDateTimeNumber), 1) != 1) return NULL; + + _cmsDecodeDateTimeNumber(×tamp, NewDateTime); + + *nItems = 1; + return NewDateTime; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_DateTime_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + struct tm * DateTime = (struct tm*) Ptr; + cmsDateTimeNumber timestamp; + + _cmsEncodeDateTimeNumber(×tamp, DateTime); + if (!io ->Write(io, sizeof(cmsDateTimeNumber), ×tamp)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_DateTime_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(struct tm)); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_DateTime_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + + +// ******************************************************************************** +// Type icMeasurementType +// ******************************************************************************** + +/* +The measurementType information refers only to the internal profile data and is +meant to provide profile makers an alternative to the default measurement +specifications. +*/ + +static +void *Type_Measurement_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsICCMeasurementConditions mc; + + + memset(&mc, 0, sizeof(mc)); + + if (!_cmsReadUInt32Number(io, &mc.Observer)) return NULL; + if (!_cmsReadXYZNumber(io, &mc.Backing)) return NULL; + if (!_cmsReadUInt32Number(io, &mc.Geometry)) return NULL; + if (!_cmsRead15Fixed16Number(io, &mc.Flare)) return NULL; + if (!_cmsReadUInt32Number(io, &mc.IlluminantType)) return NULL; + + *nItems = 1; + return _cmsDupMem(self ->ContextID, &mc, sizeof(cmsICCMeasurementConditions)); + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_Measurement_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsICCMeasurementConditions* mc =(cmsICCMeasurementConditions*) Ptr; + + if (!_cmsWriteUInt32Number(io, mc->Observer)) return FALSE; + if (!_cmsWriteXYZNumber(io, &mc->Backing)) return FALSE; + if (!_cmsWriteUInt32Number(io, mc->Geometry)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, mc->Flare)) return FALSE; + if (!_cmsWriteUInt32Number(io, mc->IlluminantType)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_Measurement_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsICCMeasurementConditions)); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_Measurement_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigMultiLocalizedUnicodeType +// ******************************************************************************** +// +// Do NOT trust SizeOfTag as there is an issue on the definition of profileSequenceDescTag. See the TechNote from +// Max Derhak and Rohit Patil about this: basically the size of the string table should be guessed and cannot be +// taken from the size of tag if this tag is embedded as part of bigger structures (profileSequenceDescTag, for instance) +// + +static +void *Type_MLU_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsMLU* mlu; + cmsUInt32Number Count, RecLen, NumOfWchar; + cmsUInt32Number SizeOfHeader; + cmsUInt32Number Len, Offset; + cmsUInt32Number i; + wchar_t* Block; + cmsUInt32Number BeginOfThisString, EndOfThisString, LargestPosition; + + *nItems = 0; + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + if (!_cmsReadUInt32Number(io, &RecLen)) return NULL; + + if (RecLen != 12) { + + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "multiLocalizedUnicodeType of len != 12 is not supported."); + return NULL; + } + + mlu = cmsMLUalloc(self ->ContextID, Count); + if (mlu == NULL) return NULL; + + mlu ->UsedEntries = Count; + + SizeOfHeader = 12 * Count + sizeof(_cmsTagBase); + LargestPosition = 0; + + for (i=0; i < Count; i++) { + + if (!_cmsReadUInt16Number(io, &mlu ->Entries[i].Language)) goto Error; + if (!_cmsReadUInt16Number(io, &mlu ->Entries[i].Country)) goto Error; + + // Now deal with Len and offset. + if (!_cmsReadUInt32Number(io, &Len)) goto Error; + if (!_cmsReadUInt32Number(io, &Offset)) goto Error; + + // Check for overflow + if (Offset < (SizeOfHeader + 8)) goto Error; + + // True begin of the string + BeginOfThisString = Offset - SizeOfHeader - 8; + + // Ajust to wchar_t elements + mlu ->Entries[i].Len = (Len * sizeof(wchar_t)) / sizeof(cmsUInt16Number); + mlu ->Entries[i].StrW = (BeginOfThisString * sizeof(wchar_t)) / sizeof(cmsUInt16Number); + + // To guess maximum size, add offset + len + EndOfThisString = BeginOfThisString + Len; + if (EndOfThisString > LargestPosition) + LargestPosition = EndOfThisString; + } + + // Now read the remaining of tag and fill all strings. Subtract the directory + SizeOfTag = (LargestPosition * sizeof(wchar_t)) / sizeof(cmsUInt16Number); + if (SizeOfTag == 0) + { + Block = NULL; + NumOfWchar = 0; + + } + else + { + Block = (wchar_t*) _cmsMalloc(self ->ContextID, SizeOfTag); + if (Block == NULL) goto Error; + NumOfWchar = SizeOfTag / sizeof(wchar_t); + if (!_cmsReadWCharArray(io, NumOfWchar, Block)) goto Error; + } + + mlu ->MemPool = Block; + mlu ->PoolSize = SizeOfTag; + mlu ->PoolUsed = SizeOfTag; + + *nItems = 1; + return (void*) mlu; + +Error: + if (mlu) cmsMLUfree(mlu); + return NULL; +} + +static +cmsBool Type_MLU_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsMLU* mlu =(cmsMLU*) Ptr; + cmsUInt32Number HeaderSize; + cmsUInt32Number Len, Offset; + cmsUInt32Number i; + + if (Ptr == NULL) { + + // Empty placeholder + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 12)) return FALSE; + return TRUE; + } + + if (!_cmsWriteUInt32Number(io, mlu ->UsedEntries)) return FALSE; + if (!_cmsWriteUInt32Number(io, 12)) return FALSE; + + HeaderSize = 12 * mlu ->UsedEntries + sizeof(_cmsTagBase); + + for (i=0; i < mlu ->UsedEntries; i++) { + + Len = mlu ->Entries[i].Len; + Offset = mlu ->Entries[i].StrW; + + Len = (Len * sizeof(cmsUInt16Number)) / sizeof(wchar_t); + Offset = (Offset * sizeof(cmsUInt16Number)) / sizeof(wchar_t) + HeaderSize + 8; + + if (!_cmsWriteUInt16Number(io, mlu ->Entries[i].Language)) return FALSE; + if (!_cmsWriteUInt16Number(io, mlu ->Entries[i].Country)) return FALSE; + if (!_cmsWriteUInt32Number(io, Len)) return FALSE; + if (!_cmsWriteUInt32Number(io, Offset)) return FALSE; + } + + if (!_cmsWriteWCharArray(io, mlu ->PoolUsed / sizeof(wchar_t), (wchar_t*) mlu ->MemPool)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_MLU_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsMLUdup((cmsMLU*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_MLU_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsMLUfree((cmsMLU*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigLut8Type +// ******************************************************************************** + +// Decide which LUT type to use on writting +static +cmsTagTypeSignature DecideLUTtypeA2B(cmsFloat64Number ICCVersion, const void *Data) +{ + cmsPipeline* Lut = (cmsPipeline*) Data; + + if (ICCVersion < 4.0) { + if (Lut ->SaveAs8Bits) return cmsSigLut8Type; + return cmsSigLut16Type; + } + else { + return cmsSigLutAtoBType; + } +} + +static +cmsTagTypeSignature DecideLUTtypeB2A(cmsFloat64Number ICCVersion, const void *Data) +{ + cmsPipeline* Lut = (cmsPipeline*) Data; + + if (ICCVersion < 4.0) { + if (Lut ->SaveAs8Bits) return cmsSigLut8Type; + return cmsSigLut16Type; + } + else { + return cmsSigLutBtoAType; + } +} + +/* +This structure represents a colour transform using tables of 8-bit precision. +This type contains four processing elements: a 3 by 3 matrix (which shall be +the identity matrix unless the input colour space is XYZ), a set of one dimensional +input tables, a multidimensional lookup table, and a set of one dimensional output +tables. Data is processed using these elements via the following sequence: +(matrix) -> (1d input tables) -> (multidimensional lookup table - CLUT) -> (1d output tables) + +Byte Position Field Length (bytes) Content Encoded as... +8 1 Number of Input Channels (i) uInt8Number +9 1 Number of Output Channels (o) uInt8Number +10 1 Number of CLUT grid points (identical for each side) (g) uInt8Number +11 1 Reserved for padding (fill with 00h) + +12..15 4 Encoded e00 parameter s15Fixed16Number +*/ + + +// Read 8 bit tables as gamma functions +static +cmsBool Read8bitTables(cmsContext ContextID, cmsIOHANDLER* io, cmsPipeline* lut, int nChannels) +{ + cmsUInt8Number* Temp = NULL; + int i, j; + cmsToneCurve* Tables[cmsMAXCHANNELS]; + + if (nChannels > cmsMAXCHANNELS) return FALSE; + if (nChannels <= 0) return FALSE; + + memset(Tables, 0, sizeof(Tables)); + + Temp = (cmsUInt8Number*) _cmsMalloc(ContextID, 256); + if (Temp == NULL) return FALSE; + + for (i=0; i < nChannels; i++) { + Tables[i] = cmsBuildTabulatedToneCurve16(ContextID, 256, NULL); + if (Tables[i] == NULL) goto Error; + } + + for (i=0; i < nChannels; i++) { + + if (io ->Read(io, Temp, 256, 1) != 1) goto Error; + + for (j=0; j < 256; j++) + Tables[i]->Table16[j] = (cmsUInt16Number) FROM_8_TO_16(Temp[j]); + } + + _cmsFree(ContextID, Temp); + Temp = NULL; + + if (!cmsPipelineInsertStage(lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, nChannels, Tables))) + goto Error; + + for (i=0; i < nChannels; i++) + cmsFreeToneCurve(Tables[i]); + + return TRUE; + +Error: + for (i=0; i < nChannels; i++) { + if (Tables[i]) cmsFreeToneCurve(Tables[i]); + } + + if (Temp) _cmsFree(ContextID, Temp); + return FALSE; +} + + +static +cmsBool Write8bitTables(cmsContext ContextID, cmsIOHANDLER* io, cmsUInt32Number n, _cmsStageToneCurvesData* Tables) +{ + int j; + cmsUInt32Number i; + cmsUInt8Number val; + + for (i=0; i < n; i++) { + + if (Tables) { + + // Usual case of identity curves + if ((Tables ->TheCurves[i]->nEntries == 2) && + (Tables->TheCurves[i]->Table16[0] == 0) && + (Tables->TheCurves[i]->Table16[1] == 65535)) { + + for (j=0; j < 256; j++) { + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) j)) return FALSE; + } + } + else + if (Tables ->TheCurves[i]->nEntries != 256) { + cmsSignalError(ContextID, cmsERROR_RANGE, "LUT8 needs 256 entries on prelinearization"); + return FALSE; + } + else + for (j=0; j < 256; j++) { + + val = (cmsUInt8Number) FROM_16_TO_8(Tables->TheCurves[i]->Table16[j]); + + if (!_cmsWriteUInt8Number(io, val)) return FALSE; + } + } + } + return TRUE; +} + + +// Check overflow +static +cmsUInt32Number uipow(cmsUInt32Number n, cmsUInt32Number a, cmsUInt32Number b) +{ + cmsUInt32Number rv = 1, rc; + + if (a == 0) return 0; + if (n == 0) return 0; + + for (; b > 0; b--) { + + rv *= a; + + // Check for overflow + if (rv > UINT_MAX / a) return (cmsUInt32Number) -1; + + } + + rc = rv * n; + + if (rv != rc / n) return (cmsUInt32Number) -1; + return rc; +} + + +// That will create a MPE LUT with Matrix, pre tables, CLUT and post tables. +// 8 bit lut may be scaled easely to v4 PCS, but we need also to properly adjust +// PCS on BToAxx tags and AtoB if abstract. We need to fix input direction. + +static +void *Type_LUT8_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt8Number InputChannels, OutputChannels, CLUTpoints; + cmsUInt8Number* Temp = NULL; + cmsPipeline* NewLUT = NULL; + cmsUInt32Number nTabSize, i; + cmsFloat64Number Matrix[3*3]; + + *nItems = 0; + + if (!_cmsReadUInt8Number(io, &InputChannels)) goto Error; + if (!_cmsReadUInt8Number(io, &OutputChannels)) goto Error; + if (!_cmsReadUInt8Number(io, &CLUTpoints)) goto Error; + + if (CLUTpoints == 1) goto Error; // Impossible value, 0 for no CLUT and then 2 at least + + // Padding + if (!_cmsReadUInt8Number(io, NULL)) goto Error; + + // Do some checking + if (InputChannels > cmsMAXCHANNELS) goto Error; + if (OutputChannels > cmsMAXCHANNELS) goto Error; + + // Allocates an empty Pipeline + NewLUT = cmsPipelineAlloc(self ->ContextID, InputChannels, OutputChannels); + if (NewLUT == NULL) goto Error; + + // Read the Matrix + if (!_cmsRead15Fixed16Number(io, &Matrix[0])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[1])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[2])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[3])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[4])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[5])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[6])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[7])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[8])) goto Error; + + + // Only operates if not identity... + if ((InputChannels == 3) && !_cmsMAT3isIdentity((cmsMAT3*) Matrix)) { + + if (!cmsPipelineInsertStage(NewLUT, cmsAT_BEGIN, cmsStageAllocMatrix(self ->ContextID, 3, 3, Matrix, NULL))) + goto Error; + } + + // Get input tables + if (!Read8bitTables(self ->ContextID, io, NewLUT, InputChannels)) goto Error; + + // Get 3D CLUT. Check the overflow.... + nTabSize = uipow(OutputChannels, CLUTpoints, InputChannels); + if (nTabSize == (cmsUInt32Number) -1) goto Error; + if (nTabSize > 0) { + + cmsUInt16Number *PtrW, *T; + + PtrW = T = (cmsUInt16Number*) _cmsCalloc(self ->ContextID, nTabSize, sizeof(cmsUInt16Number)); + if (T == NULL) goto Error; + + Temp = (cmsUInt8Number*) _cmsMalloc(self ->ContextID, nTabSize); + if (Temp == NULL) { + _cmsFree(self ->ContextID, T); + goto Error; + } + + if (io ->Read(io, Temp, nTabSize, 1) != 1) { + _cmsFree(self ->ContextID, T); + _cmsFree(self ->ContextID, Temp); + goto Error; + } + + for (i = 0; i < nTabSize; i++) { + + *PtrW++ = FROM_8_TO_16(Temp[i]); + } + _cmsFree(self ->ContextID, Temp); + Temp = NULL; + + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, cmsStageAllocCLut16bit(self ->ContextID, CLUTpoints, InputChannels, OutputChannels, T))) + goto Error; + _cmsFree(self ->ContextID, T); + } + + + // Get output tables + if (!Read8bitTables(self ->ContextID, io, NewLUT, OutputChannels)) goto Error; + + *nItems = 1; + return NewLUT; + +Error: + if (NewLUT != NULL) cmsPipelineFree(NewLUT); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +// We only allow a specific MPE structure: Matrix plus prelin, plus clut, plus post-lin. +static +cmsBool Type_LUT8_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number j, nTabSize; + cmsUInt8Number val; + cmsPipeline* NewLUT = (cmsPipeline*) Ptr; + cmsStage* mpe; + _cmsStageToneCurvesData* PreMPE = NULL, *PostMPE = NULL; + _cmsStageMatrixData* MatMPE = NULL; + _cmsStageCLutData* clut = NULL; + int clutPoints; + + // Disassemble the LUT into components. + mpe = NewLUT -> Elements; + if (mpe ->Type == cmsSigMatrixElemType) { + + MatMPE = (_cmsStageMatrixData*) mpe ->Data; + mpe = mpe -> Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCurveSetElemType) { + PreMPE = (_cmsStageToneCurvesData*) mpe ->Data; + mpe = mpe -> Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCLutElemType) { + clut = (_cmsStageCLutData*) mpe -> Data; + mpe = mpe ->Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCurveSetElemType) { + PostMPE = (_cmsStageToneCurvesData*) mpe ->Data; + mpe = mpe -> Next; + } + + // That should be all + if (mpe != NULL) { + cmsSignalError(mpe->ContextID, cmsERROR_UNKNOWN_EXTENSION, "LUT is not suitable to be saved as LUT8"); + return FALSE; + } + + + if (clut == NULL) + clutPoints = 0; + else + clutPoints = clut->Params->nSamples[0]; + + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) NewLUT ->InputChannels)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) NewLUT ->OutputChannels)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) clutPoints)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; // Padding + + + if (MatMPE != NULL) { + + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[0])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[1])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[2])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[3])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[4])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[5])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[6])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[7])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[8])) return FALSE; + + } + else { + + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + } + + // The prelinearization table + if (!Write8bitTables(self ->ContextID, io, NewLUT ->InputChannels, PreMPE)) return FALSE; + + nTabSize = uipow(NewLUT->OutputChannels, clutPoints, NewLUT ->InputChannels); + if (nTabSize == (cmsUInt32Number) -1) return FALSE; + if (nTabSize > 0) { + + // The 3D CLUT. + if (clut != NULL) { + + for (j=0; j < nTabSize; j++) { + + val = (cmsUInt8Number) FROM_16_TO_8(clut ->Tab.T[j]); + if (!_cmsWriteUInt8Number(io, val)) return FALSE; + } + } + } + + // The postlinearization table + if (!Write8bitTables(self ->ContextID, io, NewLUT ->OutputChannels, PostMPE)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_LUT8_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_LUT8_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + +// ******************************************************************************** +// Type cmsSigLut16Type +// ******************************************************************************** + +// Read 16 bit tables as gamma functions +static +cmsBool Read16bitTables(cmsContext ContextID, cmsIOHANDLER* io, cmsPipeline* lut, int nChannels, int nEntries) +{ + int i; + cmsToneCurve* Tables[cmsMAXCHANNELS]; + + // Maybe an empty table? (this is a lcms extension) + if (nEntries <= 0) return TRUE; + + // Check for malicious profiles + if (nEntries < 2) return FALSE; + if (nChannels > cmsMAXCHANNELS) return FALSE; + + // Init table to zero + memset(Tables, 0, sizeof(Tables)); + + for (i=0; i < nChannels; i++) { + + Tables[i] = cmsBuildTabulatedToneCurve16(ContextID, nEntries, NULL); + if (Tables[i] == NULL) goto Error; + + if (!_cmsReadUInt16Array(io, nEntries, Tables[i]->Table16)) goto Error; + } + + + // Add the table (which may certainly be an identity, but this is up to the optimizer, not the reading code) + if (!cmsPipelineInsertStage(lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, nChannels, Tables))) + goto Error; + + for (i=0; i < nChannels; i++) + cmsFreeToneCurve(Tables[i]); + + return TRUE; + +Error: + for (i=0; i < nChannels; i++) { + if (Tables[i]) cmsFreeToneCurve(Tables[i]); + } + + return FALSE; +} + +static +cmsBool Write16bitTables(cmsContext ContextID, cmsIOHANDLER* io, _cmsStageToneCurvesData* Tables) +{ + int j; + cmsUInt32Number i; + cmsUInt16Number val; + int nEntries; + + _cmsAssert(Tables != NULL); + + nEntries = Tables->TheCurves[0]->nEntries; + + for (i=0; i < Tables ->nCurves; i++) { + + for (j=0; j < nEntries; j++) { + + val = Tables->TheCurves[i]->Table16[j]; + if (!_cmsWriteUInt16Number(io, val)) return FALSE; + } + } + return TRUE; + + cmsUNUSED_PARAMETER(ContextID); +} + +static +void *Type_LUT16_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt8Number InputChannels, OutputChannels, CLUTpoints; + cmsPipeline* NewLUT = NULL; + cmsUInt32Number nTabSize; + cmsFloat64Number Matrix[3*3]; + cmsUInt16Number InputEntries, OutputEntries; + + *nItems = 0; + + if (!_cmsReadUInt8Number(io, &InputChannels)) return NULL; + if (!_cmsReadUInt8Number(io, &OutputChannels)) return NULL; + if (!_cmsReadUInt8Number(io, &CLUTpoints)) return NULL; // 255 maximum + + // Padding + if (!_cmsReadUInt8Number(io, NULL)) return NULL; + + // Do some checking + if (InputChannels > cmsMAXCHANNELS) goto Error; + if (OutputChannels > cmsMAXCHANNELS) goto Error; + + // Allocates an empty LUT + NewLUT = cmsPipelineAlloc(self ->ContextID, InputChannels, OutputChannels); + if (NewLUT == NULL) goto Error; + + // Read the Matrix + if (!_cmsRead15Fixed16Number(io, &Matrix[0])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[1])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[2])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[3])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[4])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[5])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[6])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[7])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[8])) goto Error; + + + // Only operates on 3 channels + if ((InputChannels == 3) && !_cmsMAT3isIdentity((cmsMAT3*) Matrix)) { + + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, cmsStageAllocMatrix(self ->ContextID, 3, 3, Matrix, NULL))) + goto Error; + } + + if (!_cmsReadUInt16Number(io, &InputEntries)) goto Error; + if (!_cmsReadUInt16Number(io, &OutputEntries)) goto Error; + + if (InputEntries > 0x7FFF || OutputEntries > 0x7FFF) goto Error; + if (CLUTpoints == 1) goto Error; // Impossible value, 0 for no CLUT and then 2 at least + + // Get input tables + if (!Read16bitTables(self ->ContextID, io, NewLUT, InputChannels, InputEntries)) goto Error; + + // Get 3D CLUT + nTabSize = uipow(OutputChannels, CLUTpoints, InputChannels); + if (nTabSize == (cmsUInt32Number) -1) goto Error; + if (nTabSize > 0) { + + cmsUInt16Number *T; + + T = (cmsUInt16Number*) _cmsCalloc(self ->ContextID, nTabSize, sizeof(cmsUInt16Number)); + if (T == NULL) goto Error; + + if (!_cmsReadUInt16Array(io, nTabSize, T)) { + _cmsFree(self ->ContextID, T); + goto Error; + } + + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, cmsStageAllocCLut16bit(self ->ContextID, CLUTpoints, InputChannels, OutputChannels, T))) { + _cmsFree(self ->ContextID, T); + goto Error; + } + _cmsFree(self ->ContextID, T); + } + + + // Get output tables + if (!Read16bitTables(self ->ContextID, io, NewLUT, OutputChannels, OutputEntries)) goto Error; + + *nItems = 1; + return NewLUT; + +Error: + if (NewLUT != NULL) cmsPipelineFree(NewLUT); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +// We only allow some specific MPE structures: Matrix plus prelin, plus clut, plus post-lin. +// Some empty defaults are created for missing parts + +static +cmsBool Type_LUT16_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number nTabSize; + cmsPipeline* NewLUT = (cmsPipeline*) Ptr; + cmsStage* mpe; + _cmsStageToneCurvesData* PreMPE = NULL, *PostMPE = NULL; + _cmsStageMatrixData* MatMPE = NULL; + _cmsStageCLutData* clut = NULL; + int i, InputChannels, OutputChannels, clutPoints; + + // Disassemble the LUT into components. + mpe = NewLUT -> Elements; + if (mpe != NULL && mpe ->Type == cmsSigMatrixElemType) { + + MatMPE = (_cmsStageMatrixData*) mpe ->Data; + mpe = mpe -> Next; + } + + + if (mpe != NULL && mpe ->Type == cmsSigCurveSetElemType) { + PreMPE = (_cmsStageToneCurvesData*) mpe ->Data; + mpe = mpe -> Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCLutElemType) { + clut = (_cmsStageCLutData*) mpe -> Data; + mpe = mpe ->Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCurveSetElemType) { + PostMPE = (_cmsStageToneCurvesData*) mpe ->Data; + mpe = mpe -> Next; + } + + // That should be all + if (mpe != NULL) { + cmsSignalError(mpe->ContextID, cmsERROR_UNKNOWN_EXTENSION, "LUT is not suitable to be saved as LUT16"); + return FALSE; + } + + InputChannels = cmsPipelineInputChannels(NewLUT); + OutputChannels = cmsPipelineOutputChannels(NewLUT); + + if (clut == NULL) + clutPoints = 0; + else + clutPoints = clut->Params->nSamples[0]; + + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) InputChannels)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) OutputChannels)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) clutPoints)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; // Padding + + + if (MatMPE != NULL) { + + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[0])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[1])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[2])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[3])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[4])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[5])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[6])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[7])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[8])) return FALSE; + } + else { + + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + } + + + if (PreMPE != NULL) { + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) PreMPE ->TheCurves[0]->nEntries)) return FALSE; + } else { + if (!_cmsWriteUInt16Number(io, 2)) return FALSE; + } + + if (PostMPE != NULL) { + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) PostMPE ->TheCurves[0]->nEntries)) return FALSE; + } else { + if (!_cmsWriteUInt16Number(io, 2)) return FALSE; + + } + + // The prelinearization table + + if (PreMPE != NULL) { + if (!Write16bitTables(self ->ContextID, io, PreMPE)) return FALSE; + } + else { + for (i=0; i < InputChannels; i++) { + + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; + if (!_cmsWriteUInt16Number(io, 0xffff)) return FALSE; + } + } + + nTabSize = uipow(OutputChannels, clutPoints, InputChannels); + if (nTabSize == (cmsUInt32Number) -1) return FALSE; + if (nTabSize > 0) { + // The 3D CLUT. + if (clut != NULL) { + if (!_cmsWriteUInt16Array(io, nTabSize, clut->Tab.T)) return FALSE; + } + } + + // The postlinearization table + if (PostMPE != NULL) { + if (!Write16bitTables(self ->ContextID, io, PostMPE)) return FALSE; + } + else { + for (i=0; i < OutputChannels; i++) { + + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; + if (!_cmsWriteUInt16Number(io, 0xffff)) return FALSE; + } + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_LUT16_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_LUT16_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigLutAToBType +// ******************************************************************************** + + +// V4 stuff. Read matrix for LutAtoB and LutBtoA + +static +cmsStage* ReadMatrix(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number Offset) +{ + cmsFloat64Number dMat[3*3]; + cmsFloat64Number dOff[3]; + cmsStage* Mat; + + // Go to address + if (!io -> Seek(io, Offset)) return NULL; + + // Read the Matrix + if (!_cmsRead15Fixed16Number(io, &dMat[0])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[1])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[2])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[3])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[4])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[5])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[6])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[7])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[8])) return NULL; + + if (!_cmsRead15Fixed16Number(io, &dOff[0])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dOff[1])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dOff[2])) return NULL; + + Mat = cmsStageAllocMatrix(self ->ContextID, 3, 3, dMat, dOff); + + return Mat; +} + + + + +// V4 stuff. Read CLUT part for LutAtoB and LutBtoA + +static +cmsStage* ReadCLUT(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number Offset, int InputChannels, int OutputChannels) +{ + cmsUInt8Number gridPoints8[cmsMAXCHANNELS]; // Number of grid points in each dimension. + cmsUInt32Number GridPoints[cmsMAXCHANNELS], i; + cmsUInt8Number Precision; + cmsStage* CLUT; + _cmsStageCLutData* Data; + + if (!io -> Seek(io, Offset)) return NULL; + if (io -> Read(io, gridPoints8, cmsMAXCHANNELS, 1) != 1) return NULL; + + + for (i=0; i < cmsMAXCHANNELS; i++) { + + if (gridPoints8[i] == 1) return NULL; // Impossible value, 0 for no CLUT and then 2 at least + GridPoints[i] = gridPoints8[i]; + } + + if (!_cmsReadUInt8Number(io, &Precision)) return NULL; + + if (!_cmsReadUInt8Number(io, NULL)) return NULL; + if (!_cmsReadUInt8Number(io, NULL)) return NULL; + if (!_cmsReadUInt8Number(io, NULL)) return NULL; + + CLUT = cmsStageAllocCLut16bitGranular(self ->ContextID, GridPoints, InputChannels, OutputChannels, NULL); + if (CLUT == NULL) return NULL; + + Data = (_cmsStageCLutData*) CLUT ->Data; + + // Precision can be 1 or 2 bytes + if (Precision == 1) { + + cmsUInt8Number v; + + for (i=0; i < Data ->nEntries; i++) { + + if (io ->Read(io, &v, sizeof(cmsUInt8Number), 1) != 1) return NULL; + Data ->Tab.T[i] = FROM_8_TO_16(v); + } + + } + else + if (Precision == 2) { + + if (!_cmsReadUInt16Array(io, Data->nEntries, Data ->Tab.T)) { + cmsStageFree(CLUT); + return NULL; + } + } + else { + cmsStageFree(CLUT); + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown precision of '%d'", Precision); + return NULL; + } + + return CLUT; +} + +static +cmsToneCurve* ReadEmbeddedCurve(struct _cms_typehandler_struct* self, cmsIOHANDLER* io) +{ + cmsTagTypeSignature BaseType; + cmsUInt32Number nItems; + + BaseType = _cmsReadTypeBase(io); + switch (BaseType) { + + case cmsSigCurveType: + return (cmsToneCurve*) Type_Curve_Read(self, io, &nItems, 0); + + case cmsSigParametricCurveType: + return (cmsToneCurve*) Type_ParametricCurve_Read(self, io, &nItems, 0); + + default: + { + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) BaseType); + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown curve type '%s'", String); + } + return NULL; + } +} + + +// Read a set of curves from specific offset +static +cmsStage* ReadSetOfCurves(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number Offset, cmsUInt32Number nCurves) +{ + cmsToneCurve* Curves[cmsMAXCHANNELS]; + cmsUInt32Number i; + cmsStage* Lin = NULL; + + if (nCurves > cmsMAXCHANNELS) return FALSE; + + if (!io -> Seek(io, Offset)) return FALSE; + + for (i=0; i < nCurves; i++) + Curves[i] = NULL; + + for (i=0; i < nCurves; i++) { + + Curves[i] = ReadEmbeddedCurve(self, io); + if (Curves[i] == NULL) goto Error; + if (!_cmsReadAlignment(io)) goto Error; + + } + + Lin = cmsStageAllocToneCurves(self ->ContextID, nCurves, Curves); + +Error: + for (i=0; i < nCurves; i++) + cmsFreeToneCurve(Curves[i]); + + return Lin; +} + + +// LutAtoB type + +// This structure represents a colour transform. The type contains up to five processing +// elements which are stored in the AtoBTag tag in the following order: a set of one +// dimensional curves, a 3 by 3 matrix with offset terms, a set of one dimensional curves, +// a multidimensional lookup table, and a set of one dimensional output curves. +// Data are processed using these elements via the following sequence: +// +//("A" curves) -> (multidimensional lookup table - CLUT) -> ("M" curves) -> (matrix) -> ("B" curves). +// +/* +It is possible to use any or all of these processing elements. At least one processing element +must be included.Only the following combinations are allowed: + +B +M - Matrix - B +A - CLUT - B +A - CLUT - M - Matrix - B + +*/ + +static +void* Type_LUTA2B_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt32Number BaseOffset; + cmsUInt8Number inputChan; // Number of input channels + cmsUInt8Number outputChan; // Number of output channels + cmsUInt32Number offsetB; // Offset to first "B" curve + cmsUInt32Number offsetMat; // Offset to matrix + cmsUInt32Number offsetM; // Offset to first "M" curve + cmsUInt32Number offsetC; // Offset to CLUT + cmsUInt32Number offsetA; // Offset to first "A" curve + cmsPipeline* NewLUT = NULL; + + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (!_cmsReadUInt8Number(io, &inputChan)) return NULL; + if (!_cmsReadUInt8Number(io, &outputChan)) return NULL; + + if (!_cmsReadUInt16Number(io, NULL)) return NULL; + + if (!_cmsReadUInt32Number(io, &offsetB)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetMat)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetM)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetC)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetA)) return NULL; + + // Allocates an empty LUT + NewLUT = cmsPipelineAlloc(self ->ContextID, inputChan, outputChan); + if (NewLUT == NULL) return NULL; + + if (offsetA!= 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetA, inputChan))) + goto Error; + } + + if (offsetC != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadCLUT(self, io, BaseOffset + offsetC, inputChan, outputChan))) + goto Error; + } + + if (offsetM != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetM, outputChan))) + goto Error; + } + + if (offsetMat != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadMatrix(self, io, BaseOffset + offsetMat))) + goto Error; + } + + if (offsetB != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetB, outputChan))) + goto Error; + } + + *nItems = 1; + return NewLUT; +Error: + cmsPipelineFree(NewLUT); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +// Write a set of curves +static +cmsBool WriteMatrix(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsStage* mpe) +{ + _cmsStageMatrixData* m = (_cmsStageMatrixData*) mpe -> Data; + + // Write the Matrix + if (!_cmsWrite15Fixed16Number(io, m -> Double[0])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[1])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[2])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[3])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[4])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[5])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[6])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[7])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[8])) return FALSE; + + if (m ->Offset != NULL) { + + if (!_cmsWrite15Fixed16Number(io, m -> Offset[0])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Offset[1])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Offset[2])) return FALSE; + } + else { + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + + } + + + return TRUE; + + cmsUNUSED_PARAMETER(self); +} + + +// Write a set of curves +static +cmsBool WriteSetOfCurves(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsTagTypeSignature Type, cmsStage* mpe) +{ + cmsUInt32Number i, n; + cmsTagTypeSignature CurrentType; + cmsToneCurve** Curves; + + + n = cmsStageOutputChannels(mpe); + Curves = _cmsStageGetPtrToCurveSet(mpe); + + for (i=0; i < n; i++) { + + // If this is a table-based curve, use curve type even on V4 + CurrentType = Type; + + if ((Curves[i] ->nSegments == 0)|| + ((Curves[i]->nSegments == 2) && (Curves[i] ->Segments[1].Type == 0)) ) + CurrentType = cmsSigCurveType; + else + if (Curves[i] ->Segments[0].Type < 0) + CurrentType = cmsSigCurveType; + + if (!_cmsWriteTypeBase(io, CurrentType)) return FALSE; + + switch (CurrentType) { + + case cmsSigCurveType: + if (!Type_Curve_Write(self, io, Curves[i], 1)) return FALSE; + break; + + case cmsSigParametricCurveType: + if (!Type_ParametricCurve_Write(self, io, Curves[i], 1)) return FALSE; + break; + + default: + { + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) Type); + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown curve type '%s'", String); + } + return FALSE; + } + + if (!_cmsWriteAlignment(io)) return FALSE; + } + + + return TRUE; +} + + +static +cmsBool WriteCLUT(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt8Number Precision, cmsStage* mpe) +{ + cmsUInt8Number gridPoints[cmsMAXCHANNELS]; // Number of grid points in each dimension. + cmsUInt32Number i; + _cmsStageCLutData* CLUT = ( _cmsStageCLutData*) mpe -> Data; + + if (CLUT ->HasFloatValues) { + cmsSignalError(self ->ContextID, cmsERROR_NOT_SUITABLE, "Cannot save floating point data, CLUT are 8 or 16 bit only"); + return FALSE; + } + + memset(gridPoints, 0, sizeof(gridPoints)); + for (i=0; i < (cmsUInt32Number) CLUT ->Params ->nInputs; i++) + gridPoints[i] = (cmsUInt8Number) CLUT ->Params ->nSamples[i]; + + if (!io -> Write(io, cmsMAXCHANNELS*sizeof(cmsUInt8Number), gridPoints)) return FALSE; + + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) Precision)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; + + // Precision can be 1 or 2 bytes + if (Precision == 1) { + + for (i=0; i < CLUT->nEntries; i++) { + + if (!_cmsWriteUInt8Number(io, FROM_16_TO_8(CLUT->Tab.T[i]))) return FALSE; + } + } + else + if (Precision == 2) { + + if (!_cmsWriteUInt16Array(io, CLUT->nEntries, CLUT ->Tab.T)) return FALSE; + } + else { + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown precision of '%d'", Precision); + return FALSE; + } + + if (!_cmsWriteAlignment(io)) return FALSE; + + return TRUE; +} + + + + +static +cmsBool Type_LUTA2B_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsPipeline* Lut = (cmsPipeline*) Ptr; + int inputChan, outputChan; + cmsStage *A = NULL, *B = NULL, *M = NULL; + cmsStage * Matrix = NULL; + cmsStage * CLUT = NULL; + cmsUInt32Number offsetB = 0, offsetMat = 0, offsetM = 0, offsetC = 0, offsetA = 0; + cmsUInt32Number BaseOffset, DirectoryPos, CurrentPos; + + // Get the base for all offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (Lut ->Elements != NULL) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 1, cmsSigCurveSetElemType, &B)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, &M, &Matrix, &B)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, &A, &CLUT, &B)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 5, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, + cmsSigMatrixElemType, cmsSigCurveSetElemType, &A, &CLUT, &M, &Matrix, &B)) { + + cmsSignalError(self->ContextID, cmsERROR_NOT_SUITABLE, "LUT is not suitable to be saved as LutAToB"); + return FALSE; + } + + // Get input, output channels + inputChan = cmsPipelineInputChannels(Lut); + outputChan = cmsPipelineOutputChannels(Lut); + + // Write channel count + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) inputChan)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) outputChan)) return FALSE; + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; + + // Keep directory to be filled latter + DirectoryPos = io ->Tell(io); + + // Write the directory + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + + if (A != NULL) { + + offsetA = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, A)) return FALSE; + } + + if (CLUT != NULL) { + offsetC = io ->Tell(io) - BaseOffset; + if (!WriteCLUT(self, io, Lut ->SaveAs8Bits ? 1 : 2, CLUT)) return FALSE; + + } + if (M != NULL) { + + offsetM = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, M)) return FALSE; + } + + if (Matrix != NULL) { + offsetMat = io ->Tell(io) - BaseOffset; + if (!WriteMatrix(self, io, Matrix)) return FALSE; + } + + if (B != NULL) { + + offsetB = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, B)) return FALSE; + } + + CurrentPos = io ->Tell(io); + + if (!io ->Seek(io, DirectoryPos)) return FALSE; + + if (!_cmsWriteUInt32Number(io, offsetB)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetMat)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetM)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetC)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetA)) return FALSE; + + if (!io ->Seek(io, CurrentPos)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_LUTA2B_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_LUTA2B_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// LutBToA type + +static +void* Type_LUTB2A_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt8Number inputChan; // Number of input channels + cmsUInt8Number outputChan; // Number of output channels + cmsUInt32Number BaseOffset; // Actual position in file + cmsUInt32Number offsetB; // Offset to first "B" curve + cmsUInt32Number offsetMat; // Offset to matrix + cmsUInt32Number offsetM; // Offset to first "M" curve + cmsUInt32Number offsetC; // Offset to CLUT + cmsUInt32Number offsetA; // Offset to first "A" curve + cmsPipeline* NewLUT = NULL; + + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (!_cmsReadUInt8Number(io, &inputChan)) return NULL; + if (!_cmsReadUInt8Number(io, &outputChan)) return NULL; + + // Padding + if (!_cmsReadUInt16Number(io, NULL)) return NULL; + + if (!_cmsReadUInt32Number(io, &offsetB)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetMat)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetM)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetC)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetA)) return NULL; + + // Allocates an empty LUT + NewLUT = cmsPipelineAlloc(self ->ContextID, inputChan, outputChan); + if (NewLUT == NULL) return NULL; + + if (offsetB != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetB, inputChan))) + goto Error; + } + + if (offsetMat != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadMatrix(self, io, BaseOffset + offsetMat))) + goto Error; + } + + if (offsetM != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetM, inputChan))) + goto Error; + } + + if (offsetC != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadCLUT(self, io, BaseOffset + offsetC, inputChan, outputChan))) + goto Error; + } + + if (offsetA!= 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetA, outputChan))) + goto Error; + } + + *nItems = 1; + return NewLUT; +Error: + cmsPipelineFree(NewLUT); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +/* +B +B - Matrix - M +B - CLUT - A +B - Matrix - M - CLUT - A +*/ + +static +cmsBool Type_LUTB2A_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsPipeline* Lut = (cmsPipeline*) Ptr; + int inputChan, outputChan; + cmsStage *A = NULL, *B = NULL, *M = NULL; + cmsStage *Matrix = NULL; + cmsStage *CLUT = NULL; + cmsUInt32Number offsetB = 0, offsetMat = 0, offsetM = 0, offsetC = 0, offsetA = 0; + cmsUInt32Number BaseOffset, DirectoryPos, CurrentPos; + + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (!cmsPipelineCheckAndRetreiveStages(Lut, 1, cmsSigCurveSetElemType, &B)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, &B, &Matrix, &M)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, &B, &CLUT, &A)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 5, cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, + cmsSigCLutElemType, cmsSigCurveSetElemType, &B, &Matrix, &M, &CLUT, &A)) { + cmsSignalError(self->ContextID, cmsERROR_NOT_SUITABLE, "LUT is not suitable to be saved as LutBToA"); + return FALSE; + } + + inputChan = cmsPipelineInputChannels(Lut); + outputChan = cmsPipelineOutputChannels(Lut); + + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) inputChan)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) outputChan)) return FALSE; + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; + + DirectoryPos = io ->Tell(io); + + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + + if (A != NULL) { + + offsetA = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, A)) return FALSE; + } + + if (CLUT != NULL) { + offsetC = io ->Tell(io) - BaseOffset; + if (!WriteCLUT(self, io, Lut ->SaveAs8Bits ? 1 : 2, CLUT)) return FALSE; + + } + if (M != NULL) { + + offsetM = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, M)) return FALSE; + } + + if (Matrix != NULL) { + offsetMat = io ->Tell(io) - BaseOffset; + if (!WriteMatrix(self, io, Matrix)) return FALSE; + } + + if (B != NULL) { + + offsetB = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, B)) return FALSE; + } + + CurrentPos = io ->Tell(io); + + if (!io ->Seek(io, DirectoryPos)) return FALSE; + + if (!_cmsWriteUInt32Number(io, offsetB)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetMat)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetM)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetC)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetA)) return FALSE; + + if (!io ->Seek(io, CurrentPos)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + + +static +void* Type_LUTB2A_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_LUTB2A_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + + +// ******************************************************************************** +// Type cmsSigColorantTableType +// ******************************************************************************** +/* +The purpose of this tag is to identify the colorants used in the profile by a +unique name and set of XYZ or L*a*b* values to give the colorant an unambiguous +value. The first colorant listed is the colorant of the first device channel of +a lut tag. The second colorant listed is the colorant of the second device channel +of a lut tag, and so on. +*/ + +static +void *Type_ColorantTable_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt32Number i, Count; + cmsNAMEDCOLORLIST* List; + char Name[34]; + cmsUInt16Number PCS[3]; + + + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + + if (Count > cmsMAXCHANNELS) { + cmsSignalError(self->ContextID, cmsERROR_RANGE, "Too many colorants '%d'", Count); + return NULL; + } + + List = cmsAllocNamedColorList(self ->ContextID, Count, 0, "", ""); + for (i=0; i < Count; i++) { + + if (io ->Read(io, Name, 32, 1) != 1) goto Error; + Name[33] = 0; + + if (!_cmsReadUInt16Array(io, 3, PCS)) goto Error; + + if (!cmsAppendNamedColor(List, Name, PCS, NULL)) goto Error; + + } + + *nItems = 1; + return List; + +Error: + *nItems = 0; + cmsFreeNamedColorList(List); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + + +// Saves a colorant table. It is using the named color structure for simplicity sake +static +cmsBool Type_ColorantTable_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsNAMEDCOLORLIST* NamedColorList = (cmsNAMEDCOLORLIST*) Ptr; + int i, nColors; + + nColors = cmsNamedColorCount(NamedColorList); + + if (!_cmsWriteUInt32Number(io, nColors)) return FALSE; + + for (i=0; i < nColors; i++) { + + char root[33]; + cmsUInt16Number PCS[3]; + + if (!cmsNamedColorInfo(NamedColorList, i, root, NULL, NULL, PCS, NULL)) return 0; + root[32] = 0; + + if (!io ->Write(io, 32, root)) return FALSE; + if (!_cmsWriteUInt16Array(io, 3, PCS)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_ColorantTable_Dup(struct _cms_typehandler_struct* self, const void* Ptr, cmsUInt32Number n) +{ + cmsNAMEDCOLORLIST* nc = (cmsNAMEDCOLORLIST*) Ptr; + return (void*) cmsDupNamedColorList(nc); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + + +static +void Type_ColorantTable_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeNamedColorList((cmsNAMEDCOLORLIST*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigNamedColor2Type +// ******************************************************************************** +// +//The namedColor2Type is a count value and array of structures that provide color +//coordinates for 7-bit ASCII color names. For each named color, a PCS and optional +//device representation of the color are given. Both representations are 16-bit values. +//The device representation corresponds to the header’s “color space of data” field. +//This representation should be consistent with the “number of device components” +//field in the namedColor2Type. If this field is 0, device coordinates are not provided. +//The PCS representation corresponds to the header’s PCS field. The PCS representation +//is always provided. Color names are fixed-length, 32-byte fields including null +//termination. In order to maintain maximum portability, it is strongly recommended +//that special characters of the 7-bit ASCII set not be used. + +static +void *Type_NamedColor_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + + cmsUInt32Number vendorFlag; // Bottom 16 bits for ICC use + cmsUInt32Number count; // Count of named colors + cmsUInt32Number nDeviceCoords; // Num of device coordinates + char prefix[32]; // Prefix for each color name + char suffix[32]; // Suffix for each color name + cmsNAMEDCOLORLIST* v; + cmsUInt32Number i; + + + *nItems = 0; + if (!_cmsReadUInt32Number(io, &vendorFlag)) return NULL; + if (!_cmsReadUInt32Number(io, &count)) return NULL; + if (!_cmsReadUInt32Number(io, &nDeviceCoords)) return NULL; + + if (io -> Read(io, prefix, 32, 1) != 1) return NULL; + if (io -> Read(io, suffix, 32, 1) != 1) return NULL; + + prefix[31] = suffix[31] = 0; + + v = cmsAllocNamedColorList(self ->ContextID, count, nDeviceCoords, prefix, suffix); + if (v == NULL) { + cmsSignalError(self->ContextID, cmsERROR_RANGE, "Too many named colors '%d'", count); + return NULL; + } + + if (nDeviceCoords > cmsMAXCHANNELS) { + cmsSignalError(self->ContextID, cmsERROR_RANGE, "Too many device coordinates '%d'", nDeviceCoords); + return 0; + } + for (i=0; i < count; i++) { + + cmsUInt16Number PCS[3]; + cmsUInt16Number Colorant[cmsMAXCHANNELS]; + char Root[33]; + + memset(Colorant, 0, sizeof(Colorant)); + if (io -> Read(io, Root, 32, 1) != 1) return NULL; + Root[32] = 0; // To prevent exploits + + if (!_cmsReadUInt16Array(io, 3, PCS)) goto Error; + if (!_cmsReadUInt16Array(io, nDeviceCoords, Colorant)) goto Error; + + if (!cmsAppendNamedColor(v, Root, PCS, Colorant)) goto Error; + } + + *nItems = 1; + return (void*) v ; + +Error: + cmsFreeNamedColorList(v); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +// Saves a named color list into a named color profile +static +cmsBool Type_NamedColor_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsNAMEDCOLORLIST* NamedColorList = (cmsNAMEDCOLORLIST*) Ptr; + char prefix[33]; // Prefix for each color name + char suffix[33]; // Suffix for each color name + int i, nColors; + + nColors = cmsNamedColorCount(NamedColorList); + + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, nColors)) return FALSE; + if (!_cmsWriteUInt32Number(io, NamedColorList ->ColorantCount)) return FALSE; + + strncpy(prefix, (const char*) NamedColorList->Prefix, 32); + strncpy(suffix, (const char*) NamedColorList->Suffix, 32); + + suffix[32] = prefix[32] = 0; + + if (!io ->Write(io, 32, prefix)) return FALSE; + if (!io ->Write(io, 32, suffix)) return FALSE; + + for (i=0; i < nColors; i++) { + + cmsUInt16Number PCS[3]; + cmsUInt16Number Colorant[cmsMAXCHANNELS]; + char Root[33]; + + if (!cmsNamedColorInfo(NamedColorList, i, Root, NULL, NULL, PCS, Colorant)) return 0; + Root[32] = 0; + if (!io ->Write(io, 32 , Root)) return FALSE; + if (!_cmsWriteUInt16Array(io, 3, PCS)) return FALSE; + if (!_cmsWriteUInt16Array(io, NamedColorList ->ColorantCount, Colorant)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_NamedColor_Dup(struct _cms_typehandler_struct* self, const void* Ptr, cmsUInt32Number n) +{ + cmsNAMEDCOLORLIST* nc = (cmsNAMEDCOLORLIST*) Ptr; + + return (void*) cmsDupNamedColorList(nc); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + + +static +void Type_NamedColor_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeNamedColorList((cmsNAMEDCOLORLIST*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigProfileSequenceDescType +// ******************************************************************************** + +// This type is an array of structures, each of which contains information from the +// header fields and tags from the original profiles which were combined to create +// the final profile. The order of the structures is the order in which the profiles +// were combined and includes a structure for the final profile. This provides a +// description of the profile sequence from source to destination, +// typically used with the DeviceLink profile. + +static +cmsBool ReadEmbeddedText(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsMLU** mlu, cmsUInt32Number SizeOfTag) +{ + cmsTagTypeSignature BaseType; + cmsUInt32Number nItems; + + BaseType = _cmsReadTypeBase(io); + + switch (BaseType) { + + case cmsSigTextType: + if (*mlu) cmsMLUfree(*mlu); + *mlu = (cmsMLU*)Type_Text_Read(self, io, &nItems, SizeOfTag); + return (*mlu != NULL); + + case cmsSigTextDescriptionType: + if (*mlu) cmsMLUfree(*mlu); + *mlu = (cmsMLU*) Type_Text_Description_Read(self, io, &nItems, SizeOfTag); + return (*mlu != NULL); + + /* + TBD: Size is needed for MLU, and we have no idea on which is the available size + */ + + case cmsSigMultiLocalizedUnicodeType: + if (*mlu) cmsMLUfree(*mlu); + *mlu = (cmsMLU*) Type_MLU_Read(self, io, &nItems, SizeOfTag); + return (*mlu != NULL); + + default: return FALSE; + } +} + + +static +void *Type_ProfileSequenceDesc_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsSEQ* OutSeq; + cmsUInt32Number i, Count; + + *nItems = 0; + + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + + OutSeq = cmsAllocProfileSequenceDescription(self ->ContextID, Count); + if (OutSeq == NULL) return NULL; + + OutSeq ->n = Count; + + // Get structures as well + + for (i=0; i < Count; i++) { + + cmsPSEQDESC* sec = &OutSeq -> seq[i]; + + if (!_cmsReadUInt32Number(io, &sec ->deviceMfg)) goto Error; + if (SizeOfTag < sizeof(cmsUInt32Number)) goto Error; + SizeOfTag -= sizeof(cmsUInt32Number); + + if (!_cmsReadUInt32Number(io, &sec ->deviceModel)) goto Error; + if (SizeOfTag < sizeof(cmsUInt32Number)) goto Error; + SizeOfTag -= sizeof(cmsUInt32Number); + + if (!_cmsReadUInt64Number(io, &sec ->attributes)) goto Error; + if (SizeOfTag < sizeof(cmsUInt64Number)) goto Error; + SizeOfTag -= sizeof(cmsUInt64Number); + + if (!_cmsReadUInt32Number(io, (cmsUInt32Number *)&sec ->technology)) goto Error; + if (SizeOfTag < sizeof(cmsUInt32Number)) goto Error; + SizeOfTag -= sizeof(cmsUInt32Number); + + if (!ReadEmbeddedText(self, io, &sec ->Manufacturer, SizeOfTag)) goto Error; + if (!ReadEmbeddedText(self, io, &sec ->Model, SizeOfTag)) goto Error; + } + + *nItems = 1; + return OutSeq; + +Error: + cmsFreeProfileSequenceDescription(OutSeq); + return NULL; +} + + +// Aux--Embed a text description type. It can be of type text description or multilocalized unicode +// and it depends of the version number passed on cmsTagDescriptor structure instead of stack +static +cmsBool SaveDescription(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsMLU* Text) +{ + if (self ->ICCVersion < 0x4000000) { + + if (!_cmsWriteTypeBase(io, cmsSigTextDescriptionType)) return FALSE; + return Type_Text_Description_Write(self, io, Text, 1); + } + else { + if (!_cmsWriteTypeBase(io, cmsSigMultiLocalizedUnicodeType)) return FALSE; + return Type_MLU_Write(self, io, Text, 1); + } +} + + +static +cmsBool Type_ProfileSequenceDesc_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsSEQ* Seq = (cmsSEQ*) Ptr; + cmsUInt32Number i; + + if (!_cmsWriteUInt32Number(io, Seq->n)) return FALSE; + + for (i=0; i < Seq ->n; i++) { + + cmsPSEQDESC* sec = &Seq -> seq[i]; + + if (!_cmsWriteUInt32Number(io, sec ->deviceMfg)) return FALSE; + if (!_cmsWriteUInt32Number(io, sec ->deviceModel)) return FALSE; + if (!_cmsWriteUInt64Number(io, &sec ->attributes)) return FALSE; + if (!_cmsWriteUInt32Number(io, sec ->technology)) return FALSE; + + if (!SaveDescription(self, io, sec ->Manufacturer)) return FALSE; + if (!SaveDescription(self, io, sec ->Model)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_ProfileSequenceDesc_Dup(struct _cms_typehandler_struct* self, const void* Ptr, cmsUInt32Number n) +{ + return (void*) cmsDupProfileSequenceDescription((cmsSEQ*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_ProfileSequenceDesc_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeProfileSequenceDescription((cmsSEQ*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigProfileSequenceIdType +// ******************************************************************************** +/* +In certain workflows using ICC Device Link Profiles, it is necessary to identify the +original profiles that were combined to create the Device Link Profile. +This type is an array of structures, each of which contains information for +identification of a profile used in a sequence +*/ + + +static +cmsBool ReadSeqID(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + cmsSEQ* OutSeq = (cmsSEQ*) Cargo; + cmsPSEQDESC* seq = &OutSeq ->seq[n]; + + if (io -> Read(io, seq ->ProfileID.ID8, 16, 1) != 1) return FALSE; + if (!ReadEmbeddedText(self, io, &seq ->Description, SizeOfTag)) return FALSE; + + return TRUE; +} + + + +static +void *Type_ProfileSequenceId_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsSEQ* OutSeq; + cmsUInt32Number Count; + cmsUInt32Number BaseOffset; + + *nItems = 0; + + // Get actual position as a basis for element offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Get table count + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + // Allocate an empty structure + OutSeq = cmsAllocProfileSequenceDescription(self ->ContextID, Count); + if (OutSeq == NULL) return NULL; + + + // Read the position table + if (!ReadPositionTable(self, io, Count, BaseOffset, OutSeq, ReadSeqID)) { + + cmsFreeProfileSequenceDescription(OutSeq); + return NULL; + } + + // Success + *nItems = 1; + return OutSeq; + +} + + +static +cmsBool WriteSeqID(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + cmsSEQ* Seq = (cmsSEQ*) Cargo; + + if (!io ->Write(io, 16, Seq ->seq[n].ProfileID.ID8)) return FALSE; + + // Store here the MLU + if (!SaveDescription(self, io, Seq ->seq[n].Description)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_ProfileSequenceId_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsSEQ* Seq = (cmsSEQ*) Ptr; + cmsUInt32Number BaseOffset; + + // Keep the base offset + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // This is the table count + if (!_cmsWriteUInt32Number(io, Seq ->n)) return FALSE; + + // This is the position table and content + if (!WritePositionTable(self, io, 0, Seq ->n, BaseOffset, Seq, WriteSeqID)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_ProfileSequenceId_Dup(struct _cms_typehandler_struct* self, const void* Ptr, cmsUInt32Number n) +{ + return (void*) cmsDupProfileSequenceDescription((cmsSEQ*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_ProfileSequenceId_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeProfileSequenceDescription((cmsSEQ*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigUcrBgType +// ******************************************************************************** +/* +This type contains curves representing the under color removal and black +generation and a text string which is a general description of the method used +for the ucr/bg. +*/ + +static +void *Type_UcrBg_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUcrBg* n = (cmsUcrBg*) _cmsMallocZero(self ->ContextID, sizeof(cmsUcrBg)); + cmsUInt32Number CountUcr, CountBg; + char* ASCIIString; + + *nItems = 0; + if (n == NULL) return NULL; + + // First curve is Under color removal + if (!_cmsReadUInt32Number(io, &CountUcr)) return NULL; + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + n ->Ucr = cmsBuildTabulatedToneCurve16(self ->ContextID, CountUcr, NULL); + if (n ->Ucr == NULL) return NULL; + + if (!_cmsReadUInt16Array(io, CountUcr, n ->Ucr->Table16)) return NULL; + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + SizeOfTag -= CountUcr * sizeof(cmsUInt16Number); + + // Second curve is Black generation + if (!_cmsReadUInt32Number(io, &CountBg)) return NULL; + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + n ->Bg = cmsBuildTabulatedToneCurve16(self ->ContextID, CountBg, NULL); + if (n ->Bg == NULL) return NULL; + if (!_cmsReadUInt16Array(io, CountBg, n ->Bg->Table16)) return NULL; + if (SizeOfTag < CountBg * sizeof(cmsUInt16Number)) return NULL; + SizeOfTag -= CountBg * sizeof(cmsUInt16Number); + if (SizeOfTag == UINT_MAX) return NULL; + + // Now comes the text. The length is specified by the tag size + n ->Desc = cmsMLUalloc(self ->ContextID, 1); + if (n ->Desc == NULL) return NULL; + + ASCIIString = (char*) _cmsMalloc(self ->ContextID, SizeOfTag + 1); + if (io ->Read(io, ASCIIString, sizeof(char), SizeOfTag) != SizeOfTag) return NULL; + ASCIIString[SizeOfTag] = 0; + cmsMLUsetASCII(n ->Desc, cmsNoLanguage, cmsNoCountry, ASCIIString); + _cmsFree(self ->ContextID, ASCIIString); + + *nItems = 1; + return (void*) n; +} + +static +cmsBool Type_UcrBg_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUcrBg* Value = (cmsUcrBg*) Ptr; + cmsUInt32Number TextSize; + char* Text; + + // First curve is Under color removal + if (!_cmsWriteUInt32Number(io, Value ->Ucr ->nEntries)) return FALSE; + if (!_cmsWriteUInt16Array(io, Value ->Ucr ->nEntries, Value ->Ucr ->Table16)) return FALSE; + + // Then black generation + if (!_cmsWriteUInt32Number(io, Value ->Bg ->nEntries)) return FALSE; + if (!_cmsWriteUInt16Array(io, Value ->Bg ->nEntries, Value ->Bg ->Table16)) return FALSE; + + // Now comes the text. The length is specified by the tag size + TextSize = cmsMLUgetASCII(Value ->Desc, cmsNoLanguage, cmsNoCountry, NULL, 0); + Text = (char*) _cmsMalloc(self ->ContextID, TextSize); + if (cmsMLUgetASCII(Value ->Desc, cmsNoLanguage, cmsNoCountry, Text, TextSize) != TextSize) return FALSE; + + if (!io ->Write(io, TextSize, Text)) return FALSE; + _cmsFree(self ->ContextID, Text); + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_UcrBg_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + cmsUcrBg* Src = (cmsUcrBg*) Ptr; + cmsUcrBg* NewUcrBg = (cmsUcrBg*) _cmsMallocZero(self ->ContextID, sizeof(cmsUcrBg)); + + if (NewUcrBg == NULL) return NULL; + + NewUcrBg ->Bg = cmsDupToneCurve(Src ->Bg); + NewUcrBg ->Ucr = cmsDupToneCurve(Src ->Ucr); + NewUcrBg ->Desc = cmsMLUdup(Src ->Desc); + + return (void*) NewUcrBg; + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_UcrBg_Free(struct _cms_typehandler_struct* self, void *Ptr) +{ + cmsUcrBg* Src = (cmsUcrBg*) Ptr; + + if (Src ->Ucr) cmsFreeToneCurve(Src ->Ucr); + if (Src ->Bg) cmsFreeToneCurve(Src ->Bg); + if (Src ->Desc) cmsMLUfree(Src ->Desc); + + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigCrdInfoType +// ******************************************************************************** + +/* +This type contains the PostScript product name to which this profile corresponds +and the names of the companion CRDs. Recall that a single profile can generate +multiple CRDs. It is implemented as a MLU being the language code "PS" and then +country varies for each element: + + nm: PostScript product name + #0: Rendering intent 0 CRD name + #1: Rendering intent 1 CRD name + #2: Rendering intent 2 CRD name + #3: Rendering intent 3 CRD name +*/ + + + +// Auxiliary, read an string specified as count + string +static +cmsBool ReadCountAndSting(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsMLU* mlu, cmsUInt32Number* SizeOfTag, const char* Section) +{ + cmsUInt32Number Count; + char* Text; + + if (*SizeOfTag < sizeof(cmsUInt32Number)) return FALSE; + + if (!_cmsReadUInt32Number(io, &Count)) return FALSE; + + if (Count > UINT_MAX - sizeof(cmsUInt32Number)) return FALSE; + if (*SizeOfTag < Count + sizeof(cmsUInt32Number)) return FALSE; + + Text = (char*) _cmsMalloc(self ->ContextID, Count+1); + if (Text == NULL) return FALSE; + + if (io ->Read(io, Text, sizeof(cmsUInt8Number), Count) != Count) { + _cmsFree(self ->ContextID, Text); + return FALSE; + } + + Text[Count] = 0; + + cmsMLUsetASCII(mlu, "PS", Section, Text); + _cmsFree(self ->ContextID, Text); + + *SizeOfTag -= (Count + sizeof(cmsUInt32Number)); + return TRUE; +} + +static +cmsBool WriteCountAndSting(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsMLU* mlu, const char* Section) +{ + cmsUInt32Number TextSize; + char* Text; + + TextSize = cmsMLUgetASCII(mlu, "PS", Section, NULL, 0); + Text = (char*) _cmsMalloc(self ->ContextID, TextSize); + + if (!_cmsWriteUInt32Number(io, TextSize)) return FALSE; + + if (cmsMLUgetASCII(mlu, "PS", Section, Text, TextSize) == 0) return FALSE; + + if (!io ->Write(io, TextSize, Text)) return FALSE; + _cmsFree(self ->ContextID, Text); + + return TRUE; +} + +static +void *Type_CrdInfo_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsMLU* mlu = cmsMLUalloc(self ->ContextID, 5); + + *nItems = 0; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "nm")) goto Error; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "#0")) goto Error; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "#1")) goto Error; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "#2")) goto Error; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "#3")) goto Error; + + *nItems = 1; + return (void*) mlu; + +Error: + cmsMLUfree(mlu); + return NULL; + +} + +static +cmsBool Type_CrdInfo_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + + cmsMLU* mlu = (cmsMLU*) Ptr; + + if (!WriteCountAndSting(self, io, mlu, "nm")) goto Error; + if (!WriteCountAndSting(self, io, mlu, "#0")) goto Error; + if (!WriteCountAndSting(self, io, mlu, "#1")) goto Error; + if (!WriteCountAndSting(self, io, mlu, "#2")) goto Error; + if (!WriteCountAndSting(self, io, mlu, "#3")) goto Error; + + return TRUE; + +Error: + return FALSE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_CrdInfo_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsMLUdup((cmsMLU*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_CrdInfo_Free(struct _cms_typehandler_struct* self, void *Ptr) +{ + cmsMLUfree((cmsMLU*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + +// ******************************************************************************** +// Type cmsSigScreeningType +// ******************************************************************************** +// +//The screeningType describes various screening parameters including screen +//frequency, screening angle, and spot shape. + +static +void *Type_Screening_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsScreening* sc = NULL; + cmsUInt32Number i; + + sc = (cmsScreening*) _cmsMallocZero(self ->ContextID, sizeof(cmsScreening)); + if (sc == NULL) return NULL; + + *nItems = 0; + + if (!_cmsReadUInt32Number(io, &sc ->Flag)) goto Error; + if (!_cmsReadUInt32Number(io, &sc ->nChannels)) goto Error; + + if (sc ->nChannels > cmsMAXCHANNELS - 1) + sc ->nChannels = cmsMAXCHANNELS - 1; + + for (i=0; i < sc ->nChannels; i++) { + + if (!_cmsRead15Fixed16Number(io, &sc ->Channels[i].Frequency)) goto Error; + if (!_cmsRead15Fixed16Number(io, &sc ->Channels[i].ScreenAngle)) goto Error; + if (!_cmsReadUInt32Number(io, &sc ->Channels[i].SpotShape)) goto Error; + } + + + *nItems = 1; + + return (void*) sc; + +Error: + if (sc != NULL) + _cmsFree(self ->ContextID, sc); + + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_Screening_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsScreening* sc = (cmsScreening* ) Ptr; + cmsUInt32Number i; + + if (!_cmsWriteUInt32Number(io, sc ->Flag)) return FALSE; + if (!_cmsWriteUInt32Number(io, sc ->nChannels)) return FALSE; + + for (i=0; i < sc ->nChannels; i++) { + + if (!_cmsWrite15Fixed16Number(io, sc ->Channels[i].Frequency)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, sc ->Channels[i].ScreenAngle)) return FALSE; + if (!_cmsWriteUInt32Number(io, sc ->Channels[i].SpotShape)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_Screening_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsScreening)); + + cmsUNUSED_PARAMETER(n); +} + + +static +void Type_Screening_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigViewingConditionsType +// ******************************************************************************** +// +//This type represents a set of viewing condition parameters including: +//CIE ’absolute’ illuminant white point tristimulus values and CIE ’absolute’ +//surround tristimulus values. + +static +void *Type_ViewingConditions_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsICCViewingConditions* vc = NULL; + + vc = (cmsICCViewingConditions*) _cmsMallocZero(self ->ContextID, sizeof(cmsICCViewingConditions)); + if (vc == NULL) return NULL; + + *nItems = 0; + + if (!_cmsReadXYZNumber(io, &vc ->IlluminantXYZ)) goto Error; + if (!_cmsReadXYZNumber(io, &vc ->SurroundXYZ)) goto Error; + if (!_cmsReadUInt32Number(io, &vc ->IlluminantType)) goto Error; + + *nItems = 1; + + return (void*) vc; + +Error: + if (vc != NULL) + _cmsFree(self ->ContextID, vc); + + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_ViewingConditions_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsICCViewingConditions* sc = (cmsICCViewingConditions* ) Ptr; + + if (!_cmsWriteXYZNumber(io, &sc ->IlluminantXYZ)) return FALSE; + if (!_cmsWriteXYZNumber(io, &sc ->SurroundXYZ)) return FALSE; + if (!_cmsWriteUInt32Number(io, sc ->IlluminantType)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_ViewingConditions_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self->ContextID, Ptr, sizeof(cmsICCViewingConditions)); + + cmsUNUSED_PARAMETER(n); +} + + +static +void Type_ViewingConditions_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigMultiProcessElementType +// ******************************************************************************** + + +static +void* GenericMPEdup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsStageDup((cmsStage*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void GenericMPEfree(struct _cms_typehandler_struct* self, void *Ptr) +{ + cmsStageFree((cmsStage*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + +// Each curve is stored in one or more curve segments, with break-points specified between curve segments. +// The first curve segment always starts at –Infinity, and the last curve segment always ends at +Infinity. The +// first and last curve segments shall be specified in terms of a formula, whereas the other segments shall be +// specified either in terms of a formula, or by a sampled curve. + + +// Read an embedded segmented curve +static +cmsToneCurve* ReadSegmentedCurve(struct _cms_typehandler_struct* self, cmsIOHANDLER* io) +{ + cmsCurveSegSignature ElementSig; + cmsUInt32Number i, j; + cmsUInt16Number nSegments; + cmsCurveSegment* Segments; + cmsToneCurve* Curve; + cmsFloat32Number PrevBreak = -1E22F; // - infinite + + // Take signature and channels for each element. + if (!_cmsReadUInt32Number(io, (cmsUInt32Number*) &ElementSig)) return NULL; + + // That should be a segmented curve + if (ElementSig != cmsSigSegmentedCurve) return NULL; + + if (!_cmsReadUInt32Number(io, NULL)) return NULL; + if (!_cmsReadUInt16Number(io, &nSegments)) return NULL; + if (!_cmsReadUInt16Number(io, NULL)) return NULL; + + if (nSegments < 1) return NULL; + Segments = (cmsCurveSegment*) _cmsCalloc(self ->ContextID, nSegments, sizeof(cmsCurveSegment)); + if (Segments == NULL) return NULL; + + // Read breakpoints + for (i=0; i < (cmsUInt32Number) nSegments - 1; i++) { + + Segments[i].x0 = PrevBreak; + if (!_cmsReadFloat32Number(io, &Segments[i].x1)) goto Error; + PrevBreak = Segments[i].x1; + } + + Segments[nSegments-1].x0 = PrevBreak; + Segments[nSegments-1].x1 = 1E22F; // A big cmsFloat32Number number + + // Read segments + for (i=0; i < nSegments; i++) { + + if (!_cmsReadUInt32Number(io, (cmsUInt32Number*) &ElementSig)) goto Error; + if (!_cmsReadUInt32Number(io, NULL)) goto Error; + + switch (ElementSig) { + + case cmsSigFormulaCurveSeg: { + + cmsUInt16Number Type; + cmsUInt32Number ParamsByType[] = {4, 5, 5 }; + + if (!_cmsReadUInt16Number(io, &Type)) goto Error; + if (!_cmsReadUInt16Number(io, NULL)) goto Error; + + Segments[i].Type = Type + 6; + if (Type > 2) goto Error; + + for (j=0; j < ParamsByType[Type]; j++) { + + cmsFloat32Number f; + if (!_cmsReadFloat32Number(io, &f)) goto Error; + Segments[i].Params[j] = f; + } + } + break; + + + case cmsSigSampledCurveSeg: { + cmsUInt32Number Count; + + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + + Segments[i].nGridPoints = Count; + Segments[i].SampledPoints = (cmsFloat32Number*) _cmsCalloc(self ->ContextID, Count, sizeof(cmsFloat32Number)); + if (Segments[i].SampledPoints == NULL) goto Error; + + for (j=0; j < Count; j++) { + if (!_cmsReadFloat32Number(io, &Segments[i].SampledPoints[j])) goto Error; + } + } + break; + + default: + { + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) ElementSig); + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown curve element type '%s' found.", String); + } + return NULL; + + } + } + + Curve = cmsBuildSegmentedToneCurve(self ->ContextID, nSegments, Segments); + + for (i=0; i < nSegments; i++) { + if (Segments[i].SampledPoints) _cmsFree(self ->ContextID, Segments[i].SampledPoints); + } + _cmsFree(self ->ContextID, Segments); + return Curve; + +Error: + if (Segments) _cmsFree(self ->ContextID, Segments); + return NULL; +} + + +static +cmsBool ReadMPECurve(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + cmsToneCurve** GammaTables = ( cmsToneCurve**) Cargo; + + GammaTables[n] = ReadSegmentedCurve(self, io); + return (GammaTables[n] != NULL); + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +void *Type_MPEcurve_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsStage* mpe = NULL; + cmsUInt16Number InputChans, OutputChans; + cmsUInt32Number i, BaseOffset; + cmsToneCurve** GammaTables; + + *nItems = 0; + + // Get actual position as a basis for element offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (!_cmsReadUInt16Number(io, &InputChans)) return NULL; + if (!_cmsReadUInt16Number(io, &OutputChans)) return NULL; + + if (InputChans != OutputChans) return NULL; + + GammaTables = (cmsToneCurve**) _cmsCalloc(self ->ContextID, InputChans, sizeof(cmsToneCurve*)); + if (GammaTables == NULL) return NULL; + + if (ReadPositionTable(self, io, InputChans, BaseOffset, GammaTables, ReadMPECurve)) { + + mpe = cmsStageAllocToneCurves(self ->ContextID, InputChans, GammaTables); + } + else { + mpe = NULL; + } + + for (i=0; i < InputChans; i++) { + if (GammaTables[i]) cmsFreeToneCurve(GammaTables[i]); + } + + _cmsFree(self ->ContextID, GammaTables); + *nItems = (mpe != NULL) ? 1 : 0; + return mpe; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +// Write a single segmented curve. NO CHECK IS PERFORMED ON VALIDITY +static +cmsBool WriteSegmentedCurve(cmsIOHANDLER* io, cmsToneCurve* g) +{ + cmsUInt32Number i, j; + cmsCurveSegment* Segments = g ->Segments; + cmsUInt32Number nSegments = g ->nSegments; + + if (!_cmsWriteUInt32Number(io, cmsSigSegmentedCurve)) goto Error; + if (!_cmsWriteUInt32Number(io, 0)) goto Error; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) nSegments)) goto Error; + if (!_cmsWriteUInt16Number(io, 0)) goto Error; + + // Write the break-points + for (i=0; i < nSegments - 1; i++) { + if (!_cmsWriteFloat32Number(io, Segments[i].x1)) goto Error; + } + + // Write the segments + for (i=0; i < g ->nSegments; i++) { + + cmsCurveSegment* ActualSeg = Segments + i; + + if (ActualSeg -> Type == 0) { + + // This is a sampled curve + if (!_cmsWriteUInt32Number(io, (cmsUInt32Number) cmsSigSampledCurveSeg)) goto Error; + if (!_cmsWriteUInt32Number(io, 0)) goto Error; + if (!_cmsWriteUInt32Number(io, ActualSeg -> nGridPoints)) goto Error; + + for (j=0; j < g ->Segments[i].nGridPoints; j++) { + if (!_cmsWriteFloat32Number(io, ActualSeg -> SampledPoints[j])) goto Error; + } + + } + else { + int Type; + cmsUInt32Number ParamsByType[] = { 4, 5, 5 }; + + // This is a formula-based + if (!_cmsWriteUInt32Number(io, (cmsUInt32Number) cmsSigFormulaCurveSeg)) goto Error; + if (!_cmsWriteUInt32Number(io, 0)) goto Error; + + // We only allow 1, 2 and 3 as types + Type = ActualSeg ->Type - 6; + if (Type > 2 || Type < 0) goto Error; + + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) Type)) goto Error; + if (!_cmsWriteUInt16Number(io, 0)) goto Error; + + for (j=0; j < ParamsByType[Type]; j++) { + if (!_cmsWriteFloat32Number(io, (cmsFloat32Number) ActualSeg ->Params[j])) goto Error; + } + } + + // It seems there is no need to align. Code is here, and for safety commented out + // if (!_cmsWriteAlignment(io)) goto Error; + } + + return TRUE; + +Error: + return FALSE; +} + + +static +cmsBool WriteMPECurve(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + _cmsStageToneCurvesData* Curves = (_cmsStageToneCurvesData*) Cargo; + + return WriteSegmentedCurve(io, Curves ->TheCurves[n]); + + cmsUNUSED_PARAMETER(SizeOfTag); + cmsUNUSED_PARAMETER(self); +} + +// Write a curve, checking first for validity +static +cmsBool Type_MPEcurve_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number BaseOffset; + cmsStage* mpe = (cmsStage*) Ptr; + _cmsStageToneCurvesData* Curves = (_cmsStageToneCurvesData*) mpe ->Data; + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Write the header. Since those are curves, input and output channels are same + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->InputChannels)) return FALSE; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->InputChannels)) return FALSE; + + if (!WritePositionTable(self, io, 0, + mpe ->InputChannels, BaseOffset, Curves, WriteMPECurve)) return FALSE; + + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + + +// The matrix is organized as an array of PxQ+Q elements, where P is the number of input channels to the +// matrix, and Q is the number of output channels. The matrix elements are each float32Numbers. The array +// is organized as follows: +// array = [e11, e12, …, e1P, e21, e22, …, e2P, …, eQ1, eQ2, …, eQP, e1, e2, …, eQ] + +static +void *Type_MPEmatrix_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsStage* mpe; + cmsUInt16Number InputChans, OutputChans; + cmsUInt32Number nElems, i; + cmsFloat64Number* Matrix; + cmsFloat64Number* Offsets; + + if (!_cmsReadUInt16Number(io, &InputChans)) return NULL; + if (!_cmsReadUInt16Number(io, &OutputChans)) return NULL; + + + nElems = InputChans * OutputChans; + + // Input and output chans may be ANY (up to 0xffff) + Matrix = (cmsFloat64Number*) _cmsCalloc(self ->ContextID, nElems, sizeof(cmsFloat64Number)); + if (Matrix == NULL) return NULL; + + Offsets = (cmsFloat64Number*) _cmsCalloc(self ->ContextID, OutputChans, sizeof(cmsFloat64Number)); + if (Offsets == NULL) { + + _cmsFree(self ->ContextID, Matrix); + return NULL; + } + + for (i=0; i < nElems; i++) { + + cmsFloat32Number v; + + if (!_cmsReadFloat32Number(io, &v)) return NULL; + Matrix[i] = v; + } + + + for (i=0; i < OutputChans; i++) { + + cmsFloat32Number v; + + if (!_cmsReadFloat32Number(io, &v)) return NULL; + Offsets[i] = v; + } + + + mpe = cmsStageAllocMatrix(self ->ContextID, OutputChans, InputChans, Matrix, Offsets); + _cmsFree(self ->ContextID, Matrix); + _cmsFree(self ->ContextID, Offsets); + + *nItems = 1; + + return mpe; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_MPEmatrix_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number i, nElems; + cmsStage* mpe = (cmsStage*) Ptr; + _cmsStageMatrixData* Matrix = (_cmsStageMatrixData*) mpe ->Data; + + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->InputChannels)) return FALSE; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->OutputChannels)) return FALSE; + + nElems = mpe ->InputChannels * mpe ->OutputChannels; + + for (i=0; i < nElems; i++) { + if (!_cmsWriteFloat32Number(io, (cmsFloat32Number) Matrix->Double[i])) return FALSE; + } + + + for (i=0; i < mpe ->OutputChannels; i++) { + + if (Matrix ->Offset == NULL) { + + if (!_cmsWriteFloat32Number(io, 0)) return FALSE; + } + else { + if (!_cmsWriteFloat32Number(io, (cmsFloat32Number) Matrix->Offset[i])) return FALSE; + } + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + + +static +void *Type_MPEclut_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsStage* mpe = NULL; + cmsUInt16Number InputChans, OutputChans; + cmsUInt8Number Dimensions8[16]; + cmsUInt32Number i, nMaxGrids, GridPoints[MAX_INPUT_DIMENSIONS]; + _cmsStageCLutData* clut; + + if (!_cmsReadUInt16Number(io, &InputChans)) return NULL; + if (!_cmsReadUInt16Number(io, &OutputChans)) return NULL; + + if (InputChans == 0) goto Error; + if (OutputChans == 0) goto Error; + + if (io ->Read(io, Dimensions8, sizeof(cmsUInt8Number), 16) != 16) + goto Error; + + // Copy MAX_INPUT_DIMENSIONS at most. Expand to cmsUInt32Number + nMaxGrids = InputChans > MAX_INPUT_DIMENSIONS ? MAX_INPUT_DIMENSIONS : InputChans; + for (i=0; i < nMaxGrids; i++) GridPoints[i] = (cmsUInt32Number) Dimensions8[i]; + + // Allocate the true CLUT + mpe = cmsStageAllocCLutFloatGranular(self ->ContextID, GridPoints, InputChans, OutputChans, NULL); + if (mpe == NULL) goto Error; + + // Read the data + clut = (_cmsStageCLutData*) mpe ->Data; + for (i=0; i < clut ->nEntries; i++) { + + if (!_cmsReadFloat32Number(io, &clut ->Tab.TFloat[i])) goto Error; + } + + *nItems = 1; + return mpe; + +Error: + *nItems = 0; + if (mpe != NULL) cmsStageFree(mpe); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +// Write a CLUT in floating point +static +cmsBool Type_MPEclut_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt8Number Dimensions8[16]; // 16 because the spec says 16 and not max number of channels + cmsUInt32Number i; + cmsStage* mpe = (cmsStage*) Ptr; + _cmsStageCLutData* clut = (_cmsStageCLutData*) mpe ->Data; + + // Check for maximum number of channels supported by lcms + if (mpe -> InputChannels > MAX_INPUT_DIMENSIONS) return FALSE; + + // Only floats are supported in MPE + if (clut ->HasFloatValues == FALSE) return FALSE; + + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->InputChannels)) return FALSE; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->OutputChannels)) return FALSE; + + memset(Dimensions8, 0, sizeof(Dimensions8)); + + for (i=0; i < mpe ->InputChannels; i++) + Dimensions8[i] = (cmsUInt8Number) clut ->Params ->nSamples[i]; + + if (!io ->Write(io, 16, Dimensions8)) return FALSE; + + for (i=0; i < clut ->nEntries; i++) { + + if (!_cmsWriteFloat32Number(io, clut ->Tab.TFloat[i])) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + + +// This is the list of built-in MPE types +static _cmsTagTypeLinkedList SupportedMPEtypes[] = { + +{{ (cmsTagTypeSignature) cmsSigBAcsElemType, NULL, NULL, NULL, NULL, NULL, 0 }, &SupportedMPEtypes[1] }, // Ignore those elements for now +{{ (cmsTagTypeSignature) cmsSigEAcsElemType, NULL, NULL, NULL, NULL, NULL, 0 }, &SupportedMPEtypes[2] }, // (That's what the spec says) + +{TYPE_MPE_HANDLER((cmsTagTypeSignature) cmsSigCurveSetElemType, MPEcurve), &SupportedMPEtypes[3] }, +{TYPE_MPE_HANDLER((cmsTagTypeSignature) cmsSigMatrixElemType, MPEmatrix), &SupportedMPEtypes[4] }, +{TYPE_MPE_HANDLER((cmsTagTypeSignature) cmsSigCLutElemType, MPEclut), NULL }, +}; + +_cmsTagTypePluginChunkType _cmsMPETypePluginChunk = { NULL }; + +static +cmsBool ReadMPEElem(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + cmsStageSignature ElementSig; + cmsTagTypeHandler* TypeHandler; + cmsUInt32Number nItems; + cmsPipeline *NewLUT = (cmsPipeline *) Cargo; + _cmsTagTypePluginChunkType* MPETypePluginChunk = ( _cmsTagTypePluginChunkType*) _cmsContextGetClientChunk(self->ContextID, MPEPlugin); + + + // Take signature and channels for each element. + if (!_cmsReadUInt32Number(io, (cmsUInt32Number*) &ElementSig)) return FALSE; + + // The reserved placeholder + if (!_cmsReadUInt32Number(io, NULL)) return FALSE; + + // Read diverse MPE types + TypeHandler = GetHandler((cmsTagTypeSignature) ElementSig, MPETypePluginChunk ->TagTypes, SupportedMPEtypes); + if (TypeHandler == NULL) { + + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) ElementSig); + + // An unknown element was found. + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown MPE type '%s' found.", String); + return FALSE; + } + + // If no read method, just ignore the element (valid for cmsSigBAcsElemType and cmsSigEAcsElemType) + // Read the MPE. No size is given + if (TypeHandler ->ReadPtr != NULL) { + + // This is a real element which should be read and processed + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, (cmsStage*) TypeHandler ->ReadPtr(self, io, &nItems, SizeOfTag))) + return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(SizeOfTag); + cmsUNUSED_PARAMETER(n); +} + + +// This is the main dispatcher for MPE +static +void *Type_MPE_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt16Number InputChans, OutputChans; + cmsUInt32Number ElementCount; + cmsPipeline *NewLUT = NULL; + cmsUInt32Number BaseOffset; + + // Get actual position as a basis for element offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Read channels and element count + if (!_cmsReadUInt16Number(io, &InputChans)) return NULL; + if (!_cmsReadUInt16Number(io, &OutputChans)) return NULL; + + // Allocates an empty LUT + NewLUT = cmsPipelineAlloc(self ->ContextID, InputChans, OutputChans); + if (NewLUT == NULL) return NULL; + + if (!_cmsReadUInt32Number(io, &ElementCount)) return NULL; + + if (!ReadPositionTable(self, io, ElementCount, BaseOffset, NewLUT, ReadMPEElem)) { + if (NewLUT != NULL) cmsPipelineFree(NewLUT); + *nItems = 0; + return NULL; + } + + // Success + *nItems = 1; + return NewLUT; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + + +// This one is a liitle bit more complex, so we don't use position tables this time. +static +cmsBool Type_MPE_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number i, BaseOffset, DirectoryPos, CurrentPos; + int inputChan, outputChan; + cmsUInt32Number ElemCount; + cmsUInt32Number *ElementOffsets = NULL, *ElementSizes = NULL, Before; + cmsStageSignature ElementSig; + cmsPipeline* Lut = (cmsPipeline*) Ptr; + cmsStage* Elem = Lut ->Elements; + cmsTagTypeHandler* TypeHandler; + _cmsTagTypePluginChunkType* MPETypePluginChunk = ( _cmsTagTypePluginChunkType*) _cmsContextGetClientChunk(self->ContextID, MPEPlugin); + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + inputChan = cmsPipelineInputChannels(Lut); + outputChan = cmsPipelineOutputChannels(Lut); + ElemCount = cmsPipelineStageCount(Lut); + + ElementOffsets = (cmsUInt32Number *) _cmsCalloc(self ->ContextID, ElemCount, sizeof(cmsUInt32Number)); + if (ElementOffsets == NULL) goto Error; + + ElementSizes = (cmsUInt32Number *) _cmsCalloc(self ->ContextID, ElemCount, sizeof(cmsUInt32Number)); + if (ElementSizes == NULL) goto Error; + + // Write the head + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) inputChan)) goto Error; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) outputChan)) goto Error; + if (!_cmsWriteUInt32Number(io, (cmsUInt16Number) ElemCount)) goto Error; + + DirectoryPos = io ->Tell(io); + + // Write a fake directory to be filled latter on + for (i=0; i < ElemCount; i++) { + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // Offset + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // size + } + + // Write each single tag. Keep track of the size as well. + for (i=0; i < ElemCount; i++) { + + ElementOffsets[i] = io ->Tell(io) - BaseOffset; + + ElementSig = Elem ->Type; + + TypeHandler = GetHandler((cmsTagTypeSignature) ElementSig, MPETypePluginChunk->TagTypes, SupportedMPEtypes); + if (TypeHandler == NULL) { + + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) ElementSig); + + // An unknow element was found. + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Found unknown MPE type '%s'", String); + goto Error; + } + + if (!_cmsWriteUInt32Number(io, ElementSig)) goto Error; + if (!_cmsWriteUInt32Number(io, 0)) goto Error; + Before = io ->Tell(io); + if (!TypeHandler ->WritePtr(self, io, Elem, 1)) goto Error; + if (!_cmsWriteAlignment(io)) goto Error; + + ElementSizes[i] = io ->Tell(io) - Before; + + Elem = Elem ->Next; + } + + // Write the directory + CurrentPos = io ->Tell(io); + + if (!io ->Seek(io, DirectoryPos)) goto Error; + + for (i=0; i < ElemCount; i++) { + if (!_cmsWriteUInt32Number(io, ElementOffsets[i])) goto Error; + if (!_cmsWriteUInt32Number(io, ElementSizes[i])) goto Error; + } + + if (!io ->Seek(io, CurrentPos)) goto Error; + + if (ElementOffsets != NULL) _cmsFree(self ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(self ->ContextID, ElementSizes); + return TRUE; + +Error: + if (ElementOffsets != NULL) _cmsFree(self ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(self ->ContextID, ElementSizes); + return FALSE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_MPE_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_MPE_Free(struct _cms_typehandler_struct* self, void *Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigVcgtType +// ******************************************************************************** + + +#define cmsVideoCardGammaTableType 0 +#define cmsVideoCardGammaFormulaType 1 + +// Used internally +typedef struct { + double Gamma; + double Min; + double Max; +} _cmsVCGTGAMMA; + + +static +void *Type_vcgt_Read(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + cmsUInt32Number* nItems, + cmsUInt32Number SizeOfTag) +{ + cmsUInt32Number TagType, n, i; + cmsToneCurve** Curves; + + *nItems = 0; + + // Read tag type + if (!_cmsReadUInt32Number(io, &TagType)) return NULL; + + // Allocate space for the array + Curves = ( cmsToneCurve**) _cmsCalloc(self ->ContextID, 3, sizeof(cmsToneCurve*)); + if (Curves == NULL) return NULL; + + // There are two possible flavors + switch (TagType) { + + // Gamma is stored as a table + case cmsVideoCardGammaTableType: + { + cmsUInt16Number nChannels, nElems, nBytes; + + // Check channel count, which should be 3 (we don't support monochrome this time) + if (!_cmsReadUInt16Number(io, &nChannels)) goto Error; + + if (nChannels != 3) { + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported number of channels for VCGT '%d'", nChannels); + goto Error; + } + + // Get Table element count and bytes per element + if (!_cmsReadUInt16Number(io, &nElems)) goto Error; + if (!_cmsReadUInt16Number(io, &nBytes)) goto Error; + + // Adobe's quirk fixup. Fixing broken profiles... + if (nElems == 256 && nBytes == 1 && SizeOfTag == 1576) + nBytes = 2; + + + // Populate tone curves + for (n=0; n < 3; n++) { + + Curves[n] = cmsBuildTabulatedToneCurve16(self ->ContextID, nElems, NULL); + if (Curves[n] == NULL) goto Error; + + // On depending on byte depth + switch (nBytes) { + + // One byte, 0..255 + case 1: + for (i=0; i < nElems; i++) { + + cmsUInt8Number v; + + if (!_cmsReadUInt8Number(io, &v)) goto Error; + Curves[n] ->Table16[i] = FROM_8_TO_16(v); + } + break; + + // One word 0..65535 + case 2: + if (!_cmsReadUInt16Array(io, nElems, Curves[n]->Table16)) goto Error; + break; + + // Unsupported + default: + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported bit depth for VCGT '%d'", nBytes * 8); + goto Error; + } + } // For all 3 channels + } + break; + + // In this case, gamma is stored as a formula + case cmsVideoCardGammaFormulaType: + { + _cmsVCGTGAMMA Colorant[3]; + + // Populate tone curves + for (n=0; n < 3; n++) { + + double Params[10]; + + if (!_cmsRead15Fixed16Number(io, &Colorant[n].Gamma)) goto Error; + if (!_cmsRead15Fixed16Number(io, &Colorant[n].Min)) goto Error; + if (!_cmsRead15Fixed16Number(io, &Colorant[n].Max)) goto Error; + + // Parametric curve type 5 is: + // Y = (aX + b)^Gamma + e | X >= d + // Y = cX + f | X < d + + // vcgt formula is: + // Y = (Max – Min) * (X ^ Gamma) + Min + + // So, the translation is + // a = (Max – Min) ^ ( 1 / Gamma) + // e = Min + // b=c=d=f=0 + + Params[0] = Colorant[n].Gamma; + Params[1] = pow((Colorant[n].Max - Colorant[n].Min), (1.0 / Colorant[n].Gamma)); + Params[2] = 0; + Params[3] = 0; + Params[4] = 0; + Params[5] = Colorant[n].Min; + Params[6] = 0; + + Curves[n] = cmsBuildParametricToneCurve(self ->ContextID, 5, Params); + if (Curves[n] == NULL) goto Error; + } + } + break; + + // Unsupported + default: + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported tag type for VCGT '%d'", TagType); + goto Error; + } + + *nItems = 1; + return (void*) Curves; + +// Regret, free all resources +Error: + + cmsFreeToneCurveTriple(Curves); + _cmsFree(self ->ContextID, Curves); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +// We don't support all flavors, only 16bits tables and formula +static +cmsBool Type_vcgt_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsToneCurve** Curves = (cmsToneCurve**) Ptr; + cmsUInt32Number i, j; + + if (cmsGetToneCurveParametricType(Curves[0]) == 5 && + cmsGetToneCurveParametricType(Curves[1]) == 5 && + cmsGetToneCurveParametricType(Curves[2]) == 5) { + + if (!_cmsWriteUInt32Number(io, cmsVideoCardGammaFormulaType)) return FALSE; + + // Save parameters + for (i=0; i < 3; i++) { + + _cmsVCGTGAMMA v; + + v.Gamma = Curves[i] ->Segments[0].Params[0]; + v.Min = Curves[i] ->Segments[0].Params[5]; + v.Max = pow(Curves[i] ->Segments[0].Params[1], v.Gamma) + v.Min; + + if (!_cmsWrite15Fixed16Number(io, v.Gamma)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, v.Min)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, v.Max)) return FALSE; + } + } + + else { + + // Always store as a table of 256 words + if (!_cmsWriteUInt32Number(io, cmsVideoCardGammaTableType)) return FALSE; + if (!_cmsWriteUInt16Number(io, 3)) return FALSE; + if (!_cmsWriteUInt16Number(io, 256)) return FALSE; + if (!_cmsWriteUInt16Number(io, 2)) return FALSE; + + for (i=0; i < 3; i++) { + for (j=0; j < 256; j++) { + + cmsFloat32Number v = cmsEvalToneCurveFloat(Curves[i], (cmsFloat32Number) (j / 255.0)); + cmsUInt16Number n = _cmsQuickSaturateWord(v * 65535.0); + + if (!_cmsWriteUInt16Number(io, n)) return FALSE; + } + } + } + + return TRUE; + + cmsUNUSED_PARAMETER(self); + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_vcgt_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + cmsToneCurve** OldCurves = (cmsToneCurve**) Ptr; + cmsToneCurve** NewCurves; + + NewCurves = ( cmsToneCurve**) _cmsCalloc(self ->ContextID, 3, sizeof(cmsToneCurve*)); + if (NewCurves == NULL) return NULL; + + NewCurves[0] = cmsDupToneCurve(OldCurves[0]); + NewCurves[1] = cmsDupToneCurve(OldCurves[1]); + NewCurves[2] = cmsDupToneCurve(OldCurves[2]); + + return (void*) NewCurves; + + cmsUNUSED_PARAMETER(n); +} + + +static +void Type_vcgt_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeToneCurveTriple((cmsToneCurve**) Ptr); + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigDictType +// ******************************************************************************** + +// Single column of the table can point to wchar or MLUC elements. Holds arrays of data +typedef struct { + cmsContext ContextID; + cmsUInt32Number *Offsets; + cmsUInt32Number *Sizes; +} _cmsDICelem; + +typedef struct { + _cmsDICelem Name, Value, DisplayName, DisplayValue; + +} _cmsDICarray; + +// Allocate an empty array element +static +cmsBool AllocElem(cmsContext ContextID, _cmsDICelem* e, cmsUInt32Number Count) +{ + e->Offsets = (cmsUInt32Number *) _cmsCalloc(ContextID, Count, sizeof(cmsUInt32Number)); + if (e->Offsets == NULL) return FALSE; + + e->Sizes = (cmsUInt32Number *) _cmsCalloc(ContextID, Count, sizeof(cmsUInt32Number)); + if (e->Sizes == NULL) { + + _cmsFree(ContextID, e -> Offsets); + return FALSE; + } + + e ->ContextID = ContextID; + return TRUE; +} + +// Free an array element +static +void FreeElem(_cmsDICelem* e) +{ + if (e ->Offsets != NULL) _cmsFree(e -> ContextID, e -> Offsets); + if (e ->Sizes != NULL) _cmsFree(e -> ContextID, e -> Sizes); + e->Offsets = e ->Sizes = NULL; +} + +// Get rid of whole array +static +void FreeArray( _cmsDICarray* a) +{ + if (a ->Name.Offsets != NULL) FreeElem(&a->Name); + if (a ->Value.Offsets != NULL) FreeElem(&a ->Value); + if (a ->DisplayName.Offsets != NULL) FreeElem(&a->DisplayName); + if (a ->DisplayValue.Offsets != NULL) FreeElem(&a ->DisplayValue); +} + + +// Allocate whole array +static +cmsBool AllocArray(cmsContext ContextID, _cmsDICarray* a, cmsUInt32Number Count, cmsUInt32Number Length) +{ + // Empty values + memset(a, 0, sizeof(_cmsDICarray)); + + // On depending on record size, create column arrays + if (!AllocElem(ContextID, &a ->Name, Count)) goto Error; + if (!AllocElem(ContextID, &a ->Value, Count)) goto Error; + + if (Length > 16) { + if (!AllocElem(ContextID, &a -> DisplayName, Count)) goto Error; + + } + if (Length > 24) { + if (!AllocElem(ContextID, &a ->DisplayValue, Count)) goto Error; + } + return TRUE; + +Error: + FreeArray(a); + return FALSE; +} + +// Read one element +static +cmsBool ReadOneElem(cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, cmsUInt32Number BaseOffset) +{ + if (!_cmsReadUInt32Number(io, &e->Offsets[i])) return FALSE; + if (!_cmsReadUInt32Number(io, &e ->Sizes[i])) return FALSE; + + // An offset of zero has special meaning and shal be preserved + if (e ->Offsets[i] > 0) + e ->Offsets[i] += BaseOffset; + return TRUE; +} + + +static +cmsBool ReadOffsetArray(cmsIOHANDLER* io, _cmsDICarray* a, cmsUInt32Number Count, cmsUInt32Number Length, cmsUInt32Number BaseOffset) +{ + cmsUInt32Number i; + + // Read column arrays + for (i=0; i < Count; i++) { + + if (!ReadOneElem(io, &a -> Name, i, BaseOffset)) return FALSE; + if (!ReadOneElem(io, &a -> Value, i, BaseOffset)) return FALSE; + + if (Length > 16) { + + if (!ReadOneElem(io, &a ->DisplayName, i, BaseOffset)) return FALSE; + + } + + if (Length > 24) { + + if (!ReadOneElem(io, & a -> DisplayValue, i, BaseOffset)) return FALSE; + } + } + return TRUE; +} + + +// Write one element +static +cmsBool WriteOneElem(cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i) +{ + if (!_cmsWriteUInt32Number(io, e->Offsets[i])) return FALSE; + if (!_cmsWriteUInt32Number(io, e ->Sizes[i])) return FALSE; + + return TRUE; +} + +static +cmsBool WriteOffsetArray(cmsIOHANDLER* io, _cmsDICarray* a, cmsUInt32Number Count, cmsUInt32Number Length) +{ + cmsUInt32Number i; + + for (i=0; i < Count; i++) { + + if (!WriteOneElem(io, &a -> Name, i)) return FALSE; + if (!WriteOneElem(io, &a -> Value, i)) return FALSE; + + if (Length > 16) { + + if (!WriteOneElem(io, &a -> DisplayName, i)) return FALSE; + } + + if (Length > 24) { + + if (!WriteOneElem(io, &a -> DisplayValue, i)) return FALSE; + } + } + + return TRUE; +} + +static +cmsBool ReadOneWChar(cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, wchar_t ** wcstr) +{ + + cmsUInt32Number nChars; + + // Special case for undefined strings (see ICC Votable + // Proposal Submission, Dictionary Type and Metadata TAG Definition) + if (e -> Offsets[i] == 0) { + + *wcstr = NULL; + return TRUE; + } + + if (!io -> Seek(io, e -> Offsets[i])) return FALSE; + + nChars = e ->Sizes[i] / sizeof(cmsUInt16Number); + + + *wcstr = (wchar_t*) _cmsMallocZero(e ->ContextID, (nChars + 1) * sizeof(wchar_t)); + if (*wcstr == NULL) return FALSE; + + if (!_cmsReadWCharArray(io, nChars, *wcstr)) { + _cmsFree(e ->ContextID, *wcstr); + return FALSE; + } + + // End of string marker + (*wcstr)[nChars] = 0; + return TRUE; +} + +static +cmsUInt32Number mywcslen(const wchar_t *s) +{ + const wchar_t *p; + + p = s; + while (*p) + p++; + + return (cmsUInt32Number)(p - s); +} + +static +cmsBool WriteOneWChar(cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, const wchar_t * wcstr, cmsUInt32Number BaseOffset) +{ + cmsUInt32Number Before = io ->Tell(io); + cmsUInt32Number n; + + e ->Offsets[i] = Before - BaseOffset; + + if (wcstr == NULL) { + e ->Sizes[i] = 0; + e ->Offsets[i] = 0; + return TRUE; + } + + n = mywcslen(wcstr); + if (!_cmsWriteWCharArray(io, n, wcstr)) return FALSE; + + e ->Sizes[i] = io ->Tell(io) - Before; + return TRUE; +} + +static +cmsBool ReadOneMLUC(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, cmsMLU** mlu) +{ + cmsUInt32Number nItems = 0; + + // A way to get null MLUCs + if (e -> Offsets[i] == 0 || e ->Sizes[i] == 0) { + + *mlu = NULL; + return TRUE; + } + + if (!io -> Seek(io, e -> Offsets[i])) return FALSE; + + *mlu = (cmsMLU*) Type_MLU_Read(self, io, &nItems, e ->Sizes[i]); + return *mlu != NULL; +} + +static +cmsBool WriteOneMLUC(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, const cmsMLU* mlu, cmsUInt32Number BaseOffset) +{ + cmsUInt32Number Before; + + // Special case for undefined strings (see ICC Votable + // Proposal Submission, Dictionary Type and Metadata TAG Definition) + if (mlu == NULL) { + e ->Sizes[i] = 0; + e ->Offsets[i] = 0; + return TRUE; + } + + Before = io ->Tell(io); + e ->Offsets[i] = Before - BaseOffset; + + if (!Type_MLU_Write(self, io, (void*) mlu, 1)) return FALSE; + + e ->Sizes[i] = io ->Tell(io) - Before; + return TRUE; +} + + +static +void *Type_Dictionary_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsHANDLE hDict; + cmsUInt32Number i, Count, Length; + cmsUInt32Number BaseOffset; + _cmsDICarray a; + wchar_t *NameWCS = NULL, *ValueWCS = NULL; + cmsMLU *DisplayNameMLU = NULL, *DisplayValueMLU=NULL; + cmsBool rc; + + *nItems = 0; + + // Get actual position as a basis for element offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Get name-value record count + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + // Get rec length + if (!_cmsReadUInt32Number(io, &Length)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + // Check for valid lengths + if (Length != 16 && Length != 24 && Length != 32) { + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown record length in dictionary '%d'", Length); + return NULL; + } + + // Creates an empty dictionary + hDict = cmsDictAlloc(self -> ContextID); + if (hDict == NULL) return NULL; + + // On depending on record size, create column arrays + if (!AllocArray(self -> ContextID, &a, Count, Length)) goto Error; + + // Read column arrays + if (!ReadOffsetArray(io, &a, Count, Length, BaseOffset)) goto Error; + + // Seek to each element and read it + for (i=0; i < Count; i++) { + + if (!ReadOneWChar(io, &a.Name, i, &NameWCS)) goto Error; + if (!ReadOneWChar(io, &a.Value, i, &ValueWCS)) goto Error; + + if (Length > 16) { + if (!ReadOneMLUC(self, io, &a.DisplayName, i, &DisplayNameMLU)) goto Error; + } + + if (Length > 24) { + if (!ReadOneMLUC(self, io, &a.DisplayValue, i, &DisplayValueMLU)) goto Error; + } + + if (NameWCS == NULL || ValueWCS == NULL) { + + cmsSignalError(self->ContextID, cmsERROR_CORRUPTION_DETECTED, "Bad dictionary Name/Value"); + rc = FALSE; + } + else { + + rc = cmsDictAddEntry(hDict, NameWCS, ValueWCS, DisplayNameMLU, DisplayValueMLU); + } + + if (NameWCS != NULL) _cmsFree(self ->ContextID, NameWCS); + if (ValueWCS != NULL) _cmsFree(self ->ContextID, ValueWCS); + if (DisplayNameMLU != NULL) cmsMLUfree(DisplayNameMLU); + if (DisplayValueMLU != NULL) cmsMLUfree(DisplayValueMLU); + + if (!rc) goto Error; + } + + FreeArray(&a); + *nItems = 1; + return (void*) hDict; + +Error: + FreeArray(&a); + cmsDictFree(hDict); + return NULL; +} + + +static +cmsBool Type_Dictionary_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsHANDLE hDict = (cmsHANDLE) Ptr; + const cmsDICTentry* p; + cmsBool AnyName, AnyValue; + cmsUInt32Number i, Count, Length; + cmsUInt32Number DirectoryPos, CurrentPos, BaseOffset; + _cmsDICarray a; + + if (hDict == NULL) return FALSE; + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Let's inspect the dictionary + Count = 0; AnyName = FALSE; AnyValue = FALSE; + for (p = cmsDictGetEntryList(hDict); p != NULL; p = cmsDictNextEntry(p)) { + + if (p ->DisplayName != NULL) AnyName = TRUE; + if (p ->DisplayValue != NULL) AnyValue = TRUE; + Count++; + } + + Length = 16; + if (AnyName) Length += 8; + if (AnyValue) Length += 8; + + if (!_cmsWriteUInt32Number(io, Count)) return FALSE; + if (!_cmsWriteUInt32Number(io, Length)) return FALSE; + + // Keep starting position of offsets table + DirectoryPos = io ->Tell(io); + + // Allocate offsets array + if (!AllocArray(self ->ContextID, &a, Count, Length)) goto Error; + + // Write a fake directory to be filled latter on + if (!WriteOffsetArray(io, &a, Count, Length)) goto Error; + + // Write each element. Keep track of the size as well. + p = cmsDictGetEntryList(hDict); + for (i=0; i < Count; i++) { + + if (!WriteOneWChar(io, &a.Name, i, p ->Name, BaseOffset)) goto Error; + if (!WriteOneWChar(io, &a.Value, i, p ->Value, BaseOffset)) goto Error; + + if (p ->DisplayName != NULL) { + if (!WriteOneMLUC(self, io, &a.DisplayName, i, p ->DisplayName, BaseOffset)) goto Error; + } + + if (p ->DisplayValue != NULL) { + if (!WriteOneMLUC(self, io, &a.DisplayValue, i, p ->DisplayValue, BaseOffset)) goto Error; + } + + p = cmsDictNextEntry(p); + } + + // Write the directory + CurrentPos = io ->Tell(io); + if (!io ->Seek(io, DirectoryPos)) goto Error; + + if (!WriteOffsetArray(io, &a, Count, Length)) goto Error; + + if (!io ->Seek(io, CurrentPos)) goto Error; + + FreeArray(&a); + return TRUE; + +Error: + FreeArray(&a); + return FALSE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_Dictionary_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsDictDup((cmsHANDLE) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + + +static +void Type_Dictionary_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsDictFree((cmsHANDLE) Ptr); + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type support main routines +// ******************************************************************************** + + +// This is the list of built-in types +static _cmsTagTypeLinkedList SupportedTagTypes[] = { + +{TYPE_HANDLER(cmsSigChromaticityType, Chromaticity), &SupportedTagTypes[1] }, +{TYPE_HANDLER(cmsSigColorantOrderType, ColorantOrderType), &SupportedTagTypes[2] }, +{TYPE_HANDLER(cmsSigS15Fixed16ArrayType, S15Fixed16), &SupportedTagTypes[3] }, +{TYPE_HANDLER(cmsSigU16Fixed16ArrayType, U16Fixed16), &SupportedTagTypes[4] }, +{TYPE_HANDLER(cmsSigTextType, Text), &SupportedTagTypes[5] }, +{TYPE_HANDLER(cmsSigTextDescriptionType, Text_Description), &SupportedTagTypes[6] }, +{TYPE_HANDLER(cmsSigCurveType, Curve), &SupportedTagTypes[7] }, +{TYPE_HANDLER(cmsSigParametricCurveType, ParametricCurve), &SupportedTagTypes[8] }, +{TYPE_HANDLER(cmsSigDateTimeType, DateTime), &SupportedTagTypes[9] }, +{TYPE_HANDLER(cmsSigLut8Type, LUT8), &SupportedTagTypes[10] }, +{TYPE_HANDLER(cmsSigLut16Type, LUT16), &SupportedTagTypes[11] }, +{TYPE_HANDLER(cmsSigColorantTableType, ColorantTable), &SupportedTagTypes[12] }, +{TYPE_HANDLER(cmsSigNamedColor2Type, NamedColor), &SupportedTagTypes[13] }, +{TYPE_HANDLER(cmsSigMultiLocalizedUnicodeType, MLU), &SupportedTagTypes[14] }, +{TYPE_HANDLER(cmsSigProfileSequenceDescType, ProfileSequenceDesc), &SupportedTagTypes[15] }, +{TYPE_HANDLER(cmsSigSignatureType, Signature), &SupportedTagTypes[16] }, +{TYPE_HANDLER(cmsSigMeasurementType, Measurement), &SupportedTagTypes[17] }, +{TYPE_HANDLER(cmsSigDataType, Data), &SupportedTagTypes[18] }, +{TYPE_HANDLER(cmsSigLutAtoBType, LUTA2B), &SupportedTagTypes[19] }, +{TYPE_HANDLER(cmsSigLutBtoAType, LUTB2A), &SupportedTagTypes[20] }, +{TYPE_HANDLER(cmsSigUcrBgType, UcrBg), &SupportedTagTypes[21] }, +{TYPE_HANDLER(cmsSigCrdInfoType, CrdInfo), &SupportedTagTypes[22] }, +{TYPE_HANDLER(cmsSigMultiProcessElementType, MPE), &SupportedTagTypes[23] }, +{TYPE_HANDLER(cmsSigScreeningType, Screening), &SupportedTagTypes[24] }, +{TYPE_HANDLER(cmsSigViewingConditionsType, ViewingConditions), &SupportedTagTypes[25] }, +{TYPE_HANDLER(cmsSigXYZType, XYZ), &SupportedTagTypes[26] }, +{TYPE_HANDLER(cmsCorbisBrokenXYZtype, XYZ), &SupportedTagTypes[27] }, +{TYPE_HANDLER(cmsMonacoBrokenCurveType, Curve), &SupportedTagTypes[28] }, +{TYPE_HANDLER(cmsSigProfileSequenceIdType, ProfileSequenceId), &SupportedTagTypes[29] }, +{TYPE_HANDLER(cmsSigDictType, Dictionary), &SupportedTagTypes[30] }, +{TYPE_HANDLER(cmsSigVcgtType, vcgt), NULL } +}; + + +_cmsTagTypePluginChunkType _cmsTagTypePluginChunk = { NULL }; + + + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupTagTypeList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src, + int loc) +{ + _cmsTagTypePluginChunkType newHead = { NULL }; + _cmsTagTypeLinkedList* entry; + _cmsTagTypeLinkedList* Anterior = NULL; + _cmsTagTypePluginChunkType* head = (_cmsTagTypePluginChunkType*) src->chunks[loc]; + + // Walk the list copying all nodes + for (entry = head->TagTypes; + entry != NULL; + entry = entry ->Next) { + + _cmsTagTypeLinkedList *newEntry = ( _cmsTagTypeLinkedList *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(_cmsTagTypeLinkedList)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.TagTypes == NULL) + newHead.TagTypes = newEntry; + } + + ctx ->chunks[loc] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsTagTypePluginChunkType)); +} + + +void _cmsAllocTagTypePluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + // Duplicate the LIST + DupTagTypeList(ctx, src, TagTypePlugin); + } + else { + static _cmsTagTypePluginChunkType TagTypePluginChunk = { NULL }; + ctx ->chunks[TagTypePlugin] = _cmsSubAllocDup(ctx ->MemPool, &TagTypePluginChunk, sizeof(_cmsTagTypePluginChunkType)); + } +} + +void _cmsAllocMPETypePluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + // Duplicate the LIST + DupTagTypeList(ctx, src, MPEPlugin); + } + else { + static _cmsTagTypePluginChunkType TagTypePluginChunk = { NULL }; + ctx ->chunks[MPEPlugin] = _cmsSubAllocDup(ctx ->MemPool, &TagTypePluginChunk, sizeof(_cmsTagTypePluginChunkType)); + } + +} + + +// Both kind of plug-ins share same structure +cmsBool _cmsRegisterTagTypePlugin(cmsContext id, cmsPluginBase* Data) +{ + return RegisterTypesPlugin(id, Data, TagTypePlugin); +} + +cmsBool _cmsRegisterMultiProcessElementPlugin(cmsContext id, cmsPluginBase* Data) +{ + return RegisterTypesPlugin(id, Data,MPEPlugin); +} + + +// Wrapper for tag types +cmsTagTypeHandler* _cmsGetTagTypeHandler(cmsContext ContextID, cmsTagTypeSignature sig) +{ + _cmsTagTypePluginChunkType* ctx = ( _cmsTagTypePluginChunkType*) _cmsContextGetClientChunk(ContextID, TagTypePlugin); + + return GetHandler(sig, ctx->TagTypes, SupportedTagTypes); +} + +// ******************************************************************************** +// Tag support main routines +// ******************************************************************************** + +typedef struct _cmsTagLinkedList_st { + + cmsTagSignature Signature; + cmsTagDescriptor Descriptor; + struct _cmsTagLinkedList_st* Next; + +} _cmsTagLinkedList; + +// This is the list of built-in tags +static _cmsTagLinkedList SupportedTags[] = { + + { cmsSigAToB0Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutAtoBType, cmsSigLut8Type}, DecideLUTtypeA2B}, &SupportedTags[1]}, + { cmsSigAToB1Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutAtoBType, cmsSigLut8Type}, DecideLUTtypeA2B}, &SupportedTags[2]}, + { cmsSigAToB2Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutAtoBType, cmsSigLut8Type}, DecideLUTtypeA2B}, &SupportedTags[3]}, + { cmsSigBToA0Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type}, DecideLUTtypeB2A}, &SupportedTags[4]}, + { cmsSigBToA1Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type}, DecideLUTtypeB2A}, &SupportedTags[5]}, + { cmsSigBToA2Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type}, DecideLUTtypeB2A}, &SupportedTags[6]}, + + // Allow corbis and its broken XYZ type + { cmsSigRedColorantTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, DecideXYZtype}, &SupportedTags[7]}, + { cmsSigGreenColorantTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, DecideXYZtype}, &SupportedTags[8]}, + { cmsSigBlueColorantTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, DecideXYZtype}, &SupportedTags[9]}, + + { cmsSigRedTRCTag, { 1, 3, { cmsSigCurveType, cmsSigParametricCurveType, cmsMonacoBrokenCurveType }, DecideCurveType}, &SupportedTags[10]}, + { cmsSigGreenTRCTag, { 1, 3, { cmsSigCurveType, cmsSigParametricCurveType, cmsMonacoBrokenCurveType }, DecideCurveType}, &SupportedTags[11]}, + { cmsSigBlueTRCTag, { 1, 3, { cmsSigCurveType, cmsSigParametricCurveType, cmsMonacoBrokenCurveType }, DecideCurveType}, &SupportedTags[12]}, + + { cmsSigCalibrationDateTimeTag, { 1, 1, { cmsSigDateTimeType }, NULL}, &SupportedTags[13]}, + { cmsSigCharTargetTag, { 1, 1, { cmsSigTextType }, NULL}, &SupportedTags[14]}, + + { cmsSigChromaticAdaptationTag, { 9, 1, { cmsSigS15Fixed16ArrayType }, NULL}, &SupportedTags[15]}, + { cmsSigChromaticityTag, { 1, 1, { cmsSigChromaticityType }, NULL}, &SupportedTags[16]}, + { cmsSigColorantOrderTag, { 1, 1, { cmsSigColorantOrderType }, NULL}, &SupportedTags[17]}, + { cmsSigColorantTableTag, { 1, 1, { cmsSigColorantTableType }, NULL}, &SupportedTags[18]}, + { cmsSigColorantTableOutTag, { 1, 1, { cmsSigColorantTableType }, NULL}, &SupportedTags[19]}, + + { cmsSigCopyrightTag, { 1, 3, { cmsSigTextType, cmsSigMultiLocalizedUnicodeType, cmsSigTextDescriptionType}, DecideTextType}, &SupportedTags[20]}, + { cmsSigDateTimeTag, { 1, 1, { cmsSigDateTimeType }, NULL}, &SupportedTags[21]}, + + { cmsSigDeviceMfgDescTag, { 1, 3, { cmsSigTextDescriptionType, cmsSigMultiLocalizedUnicodeType, cmsSigTextType}, DecideTextDescType}, &SupportedTags[22]}, + { cmsSigDeviceModelDescTag, { 1, 3, { cmsSigTextDescriptionType, cmsSigMultiLocalizedUnicodeType, cmsSigTextType}, DecideTextDescType}, &SupportedTags[23]}, + + { cmsSigGamutTag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type }, DecideLUTtypeB2A}, &SupportedTags[24]}, + + { cmsSigGrayTRCTag, { 1, 2, { cmsSigCurveType, cmsSigParametricCurveType }, DecideCurveType}, &SupportedTags[25]}, + { cmsSigLuminanceTag, { 1, 1, { cmsSigXYZType }, NULL}, &SupportedTags[26]}, + + { cmsSigMediaBlackPointTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, NULL}, &SupportedTags[27]}, + { cmsSigMediaWhitePointTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, NULL}, &SupportedTags[28]}, + + { cmsSigNamedColor2Tag, { 1, 1, { cmsSigNamedColor2Type }, NULL}, &SupportedTags[29]}, + + { cmsSigPreview0Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type }, DecideLUTtypeB2A}, &SupportedTags[30]}, + { cmsSigPreview1Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type }, DecideLUTtypeB2A}, &SupportedTags[31]}, + { cmsSigPreview2Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type }, DecideLUTtypeB2A}, &SupportedTags[32]}, + + { cmsSigProfileDescriptionTag, { 1, 3, { cmsSigTextDescriptionType, cmsSigMultiLocalizedUnicodeType, cmsSigTextType}, DecideTextDescType}, &SupportedTags[33]}, + { cmsSigProfileSequenceDescTag, { 1, 1, { cmsSigProfileSequenceDescType }, NULL}, &SupportedTags[34]}, + { cmsSigTechnologyTag, { 1, 1, { cmsSigSignatureType }, NULL}, &SupportedTags[35]}, + + { cmsSigColorimetricIntentImageStateTag, { 1, 1, { cmsSigSignatureType }, NULL}, &SupportedTags[36]}, + { cmsSigPerceptualRenderingIntentGamutTag, { 1, 1, { cmsSigSignatureType }, NULL}, &SupportedTags[37]}, + { cmsSigSaturationRenderingIntentGamutTag, { 1, 1, { cmsSigSignatureType }, NULL}, &SupportedTags[38]}, + + { cmsSigMeasurementTag, { 1, 1, { cmsSigMeasurementType }, NULL}, &SupportedTags[39]}, + + { cmsSigPs2CRD0Tag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[40]}, + { cmsSigPs2CRD1Tag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[41]}, + { cmsSigPs2CRD2Tag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[42]}, + { cmsSigPs2CRD3Tag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[43]}, + { cmsSigPs2CSATag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[44]}, + { cmsSigPs2RenderingIntentTag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[45]}, + + { cmsSigViewingCondDescTag, { 1, 3, { cmsSigTextDescriptionType, cmsSigMultiLocalizedUnicodeType, cmsSigTextType}, DecideTextDescType}, &SupportedTags[46]}, + + { cmsSigUcrBgTag, { 1, 1, { cmsSigUcrBgType}, NULL}, &SupportedTags[47]}, + { cmsSigCrdInfoTag, { 1, 1, { cmsSigCrdInfoType}, NULL}, &SupportedTags[48]}, + + { cmsSigDToB0Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[49]}, + { cmsSigDToB1Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[50]}, + { cmsSigDToB2Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[51]}, + { cmsSigDToB3Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[52]}, + { cmsSigBToD0Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[53]}, + { cmsSigBToD1Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[54]}, + { cmsSigBToD2Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[55]}, + { cmsSigBToD3Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[56]}, + + { cmsSigScreeningDescTag, { 1, 1, { cmsSigTextDescriptionType }, NULL}, &SupportedTags[57]}, + { cmsSigViewingConditionsTag, { 1, 1, { cmsSigViewingConditionsType }, NULL}, &SupportedTags[58]}, + + { cmsSigScreeningTag, { 1, 1, { cmsSigScreeningType}, NULL }, &SupportedTags[59]}, + { cmsSigVcgtTag, { 1, 1, { cmsSigVcgtType}, NULL }, &SupportedTags[60]}, + { cmsSigMetaTag, { 1, 1, { cmsSigDictType}, NULL }, &SupportedTags[61]}, + { cmsSigProfileSequenceIdTag, { 1, 1, { cmsSigProfileSequenceIdType}, NULL }, &SupportedTags[62]}, + { cmsSigProfileDescriptionMLTag,{ 1, 1, { cmsSigMultiLocalizedUnicodeType}, NULL}, &SupportedTags[63]}, + { cmsSigArgyllArtsTag, { 9, 1, { cmsSigS15Fixed16ArrayType}, NULL}, NULL} + + +}; + +/* + Not supported Why + ======================= ========================================= + cmsSigOutputResponseTag ==> WARNING, POSSIBLE PATENT ON THIS SUBJECT! + cmsSigNamedColorTag ==> Deprecated + cmsSigDataTag ==> Ancient, unused + cmsSigDeviceSettingsTag ==> Deprecated, useless +*/ + + +_cmsTagPluginChunkType _cmsTagPluginChunk = { NULL }; + + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupTagList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsTagPluginChunkType newHead = { NULL }; + _cmsTagLinkedList* entry; + _cmsTagLinkedList* Anterior = NULL; + _cmsTagPluginChunkType* head = (_cmsTagPluginChunkType*) src->chunks[TagPlugin]; + + // Walk the list copying all nodes + for (entry = head->Tag; + entry != NULL; + entry = entry ->Next) { + + _cmsTagLinkedList *newEntry = ( _cmsTagLinkedList *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(_cmsTagLinkedList)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.Tag == NULL) + newHead.Tag = newEntry; + } + + ctx ->chunks[TagPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsTagPluginChunkType)); +} + +void _cmsAllocTagPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + DupTagList(ctx, src); + } + else { + static _cmsTagPluginChunkType TagPluginChunk = { NULL }; + ctx ->chunks[TagPlugin] = _cmsSubAllocDup(ctx ->MemPool, &TagPluginChunk, sizeof(_cmsTagPluginChunkType)); + } + +} + +cmsBool _cmsRegisterTagPlugin(cmsContext id, cmsPluginBase* Data) +{ + cmsPluginTag* Plugin = (cmsPluginTag*) Data; + _cmsTagLinkedList *pt; + _cmsTagPluginChunkType* TagPluginChunk = ( _cmsTagPluginChunkType*) _cmsContextGetClientChunk(id, TagPlugin); + + if (Data == NULL) { + + TagPluginChunk->Tag = NULL; + return TRUE; + } + + pt = (_cmsTagLinkedList*) _cmsPluginMalloc(id, sizeof(_cmsTagLinkedList)); + if (pt == NULL) return FALSE; + + pt ->Signature = Plugin ->Signature; + pt ->Descriptor = Plugin ->Descriptor; + pt ->Next = TagPluginChunk ->Tag; + + TagPluginChunk ->Tag = pt; + + return TRUE; +} + +// Return a descriptor for a given tag or NULL +cmsTagDescriptor* _cmsGetTagDescriptor(cmsContext ContextID, cmsTagSignature sig) +{ + _cmsTagLinkedList* pt; + _cmsTagPluginChunkType* TagPluginChunk = ( _cmsTagPluginChunkType*) _cmsContextGetClientChunk(ContextID, TagPlugin); + + for (pt = TagPluginChunk->Tag; + pt != NULL; + pt = pt ->Next) { + + if (sig == pt -> Signature) return &pt ->Descriptor; + } + + for (pt = SupportedTags; + pt != NULL; + pt = pt ->Next) { + + if (sig == pt -> Signature) return &pt ->Descriptor; + } + + return NULL; +} + Index: sdk/lib/3rdparty/lcms2/cmsvirt.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsvirt.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsvirt.c (working copy) @@ -0,0 +1,1208 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Virtual (built-in) profiles +// ----------------------------------------------------------------------------------- + +static +cmsBool SetTextTags(cmsHPROFILE hProfile, const wchar_t* Description) +{ + cmsMLU *DescriptionMLU, *CopyrightMLU; + cmsBool rc = FALSE; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + DescriptionMLU = cmsMLUalloc(ContextID, 1); + CopyrightMLU = cmsMLUalloc(ContextID, 1); + + if (DescriptionMLU == NULL || CopyrightMLU == NULL) goto Error; + + if (!cmsMLUsetWide(DescriptionMLU, "en", "US", Description)) goto Error; + if (!cmsMLUsetWide(CopyrightMLU, "en", "US", L"No copyright, use freely")) goto Error; + + if (!cmsWriteTag(hProfile, cmsSigProfileDescriptionTag, DescriptionMLU)) goto Error; + if (!cmsWriteTag(hProfile, cmsSigCopyrightTag, CopyrightMLU)) goto Error; + + rc = TRUE; + +Error: + + if (DescriptionMLU) + cmsMLUfree(DescriptionMLU); + if (CopyrightMLU) + cmsMLUfree(CopyrightMLU); + return rc; +} + + +static +cmsBool SetSeqDescTag(cmsHPROFILE hProfile, const char* Model) +{ + cmsBool rc = FALSE; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsSEQ* Seq = cmsAllocProfileSequenceDescription(ContextID, 1); + + if (Seq == NULL) return FALSE; + + Seq->seq[0].deviceMfg = (cmsSignature) 0; + Seq->seq[0].deviceModel = (cmsSignature) 0; + +#ifdef CMS_DONT_USE_INT64 + Seq->seq[0].attributes[0] = 0; + Seq->seq[0].attributes[1] = 0; +#else + Seq->seq[0].attributes = 0; +#endif + + Seq->seq[0].technology = (cmsTechnologySignature) 0; + + cmsMLUsetASCII( Seq->seq[0].Manufacturer, cmsNoLanguage, cmsNoCountry, "Little CMS"); + cmsMLUsetASCII( Seq->seq[0].Model, cmsNoLanguage, cmsNoCountry, Model); + + if (!_cmsWriteProfileSequence(hProfile, Seq)) goto Error; + + rc = TRUE; + +Error: + if (Seq) + cmsFreeProfileSequenceDescription(Seq); + + return rc; +} + + + +// This function creates a profile based on White point, primaries and +// transfer functions. +cmsHPROFILE CMSEXPORT cmsCreateRGBProfileTHR(cmsContext ContextID, + const cmsCIExyY* WhitePoint, + const cmsCIExyYTRIPLE* Primaries, + cmsToneCurve* const TransferFunction[3]) +{ + cmsHPROFILE hICC; + cmsMAT3 MColorants; + cmsCIEXYZTRIPLE Colorants; + cmsCIExyY MaxWhite; + cmsMAT3 CHAD; + cmsCIEXYZ WhitePointXYZ; + + hICC = cmsCreateProfilePlaceholder(ContextID); + if (!hICC) // can't allocate + return NULL; + + cmsSetProfileVersion(hICC, 4.3); + + cmsSetDeviceClass(hICC, cmsSigDisplayClass); + cmsSetColorSpace(hICC, cmsSigRgbData); + cmsSetPCS(hICC, cmsSigXYZData); + + cmsSetHeaderRenderingIntent(hICC, INTENT_PERCEPTUAL); + + + // Implement profile using following tags: + // + // 1 cmsSigProfileDescriptionTag + // 2 cmsSigMediaWhitePointTag + // 3 cmsSigRedColorantTag + // 4 cmsSigGreenColorantTag + // 5 cmsSigBlueColorantTag + // 6 cmsSigRedTRCTag + // 7 cmsSigGreenTRCTag + // 8 cmsSigBlueTRCTag + // 9 Chromatic adaptation Tag + // This conforms a standard RGB DisplayProfile as says ICC, and then I add (As per addendum II) + // 10 cmsSigChromaticityTag + + + if (!SetTextTags(hICC, L"RGB built-in")) goto Error; + + if (WhitePoint) { + + if (!cmsWriteTag(hICC, cmsSigMediaWhitePointTag, cmsD50_XYZ())) goto Error; + + cmsxyY2XYZ(&WhitePointXYZ, WhitePoint); + _cmsAdaptationMatrix(&CHAD, NULL, &WhitePointXYZ, cmsD50_XYZ()); + + // This is a V4 tag, but many CMM does read and understand it no matter which version + if (!cmsWriteTag(hICC, cmsSigChromaticAdaptationTag, (void*) &CHAD)) goto Error; + } + + if (WhitePoint && Primaries) { + + MaxWhite.x = WhitePoint -> x; + MaxWhite.y = WhitePoint -> y; + MaxWhite.Y = 1.0; + + if (!_cmsBuildRGB2XYZtransferMatrix(&MColorants, &MaxWhite, Primaries)) goto Error; + + Colorants.Red.X = MColorants.v[0].n[0]; + Colorants.Red.Y = MColorants.v[1].n[0]; + Colorants.Red.Z = MColorants.v[2].n[0]; + + Colorants.Green.X = MColorants.v[0].n[1]; + Colorants.Green.Y = MColorants.v[1].n[1]; + Colorants.Green.Z = MColorants.v[2].n[1]; + + Colorants.Blue.X = MColorants.v[0].n[2]; + Colorants.Blue.Y = MColorants.v[1].n[2]; + Colorants.Blue.Z = MColorants.v[2].n[2]; + + if (!cmsWriteTag(hICC, cmsSigRedColorantTag, (void*) &Colorants.Red)) goto Error; + if (!cmsWriteTag(hICC, cmsSigBlueColorantTag, (void*) &Colorants.Blue)) goto Error; + if (!cmsWriteTag(hICC, cmsSigGreenColorantTag, (void*) &Colorants.Green)) goto Error; + } + + + if (TransferFunction) { + + // Tries to minimize space. Thanks to Richard Hughes for this nice idea + if (!cmsWriteTag(hICC, cmsSigRedTRCTag, (void*) TransferFunction[0])) goto Error; + + if (TransferFunction[1] == TransferFunction[0]) { + + if (!cmsLinkTag (hICC, cmsSigGreenTRCTag, cmsSigRedTRCTag)) goto Error; + + } else { + + if (!cmsWriteTag(hICC, cmsSigGreenTRCTag, (void*) TransferFunction[1])) goto Error; + } + + if (TransferFunction[2] == TransferFunction[0]) { + + if (!cmsLinkTag (hICC, cmsSigBlueTRCTag, cmsSigRedTRCTag)) goto Error; + + } else { + + if (!cmsWriteTag(hICC, cmsSigBlueTRCTag, (void*) TransferFunction[2])) goto Error; + } + } + + if (Primaries) { + if (!cmsWriteTag(hICC, cmsSigChromaticityTag, (void*) Primaries)) goto Error; + } + + + return hICC; + +Error: + if (hICC) + cmsCloseProfile(hICC); + return NULL; +} + +cmsHPROFILE CMSEXPORT cmsCreateRGBProfile(const cmsCIExyY* WhitePoint, + const cmsCIExyYTRIPLE* Primaries, + cmsToneCurve* const TransferFunction[3]) +{ + return cmsCreateRGBProfileTHR(NULL, WhitePoint, Primaries, TransferFunction); +} + + + +// This function creates a profile based on White point and transfer function. +cmsHPROFILE CMSEXPORT cmsCreateGrayProfileTHR(cmsContext ContextID, + const cmsCIExyY* WhitePoint, + const cmsToneCurve* TransferFunction) +{ + cmsHPROFILE hICC; + cmsCIEXYZ tmp; + + hICC = cmsCreateProfilePlaceholder(ContextID); + if (!hICC) // can't allocate + return NULL; + + cmsSetProfileVersion(hICC, 4.3); + + cmsSetDeviceClass(hICC, cmsSigDisplayClass); + cmsSetColorSpace(hICC, cmsSigGrayData); + cmsSetPCS(hICC, cmsSigXYZData); + cmsSetHeaderRenderingIntent(hICC, INTENT_PERCEPTUAL); + + + // Implement profile using following tags: + // + // 1 cmsSigProfileDescriptionTag + // 2 cmsSigMediaWhitePointTag + // 3 cmsSigGrayTRCTag + + // This conforms a standard Gray DisplayProfile + + // Fill-in the tags + + if (!SetTextTags(hICC, L"gray built-in")) goto Error; + + + if (WhitePoint) { + + cmsxyY2XYZ(&tmp, WhitePoint); + if (!cmsWriteTag(hICC, cmsSigMediaWhitePointTag, (void*) &tmp)) goto Error; + } + + if (TransferFunction) { + + if (!cmsWriteTag(hICC, cmsSigGrayTRCTag, (void*) TransferFunction)) goto Error; + } + + return hICC; + +Error: + if (hICC) + cmsCloseProfile(hICC); + return NULL; +} + + + +cmsHPROFILE CMSEXPORT cmsCreateGrayProfile(const cmsCIExyY* WhitePoint, + const cmsToneCurve* TransferFunction) +{ + return cmsCreateGrayProfileTHR(NULL, WhitePoint, TransferFunction); +} + +// This is a devicelink operating in the target colorspace with as many transfer functions as components + +cmsHPROFILE CMSEXPORT cmsCreateLinearizationDeviceLinkTHR(cmsContext ContextID, + cmsColorSpaceSignature ColorSpace, + cmsToneCurve* const TransferFunctions[]) +{ + cmsHPROFILE hICC; + cmsPipeline* Pipeline; + int nChannels; + + hICC = cmsCreateProfilePlaceholder(ContextID); + if (!hICC) + return NULL; + + cmsSetProfileVersion(hICC, 4.3); + + cmsSetDeviceClass(hICC, cmsSigLinkClass); + cmsSetColorSpace(hICC, ColorSpace); + cmsSetPCS(hICC, ColorSpace); + + cmsSetHeaderRenderingIntent(hICC, INTENT_PERCEPTUAL); + + // Set up channels + nChannels = cmsChannelsOf(ColorSpace); + + // Creates a Pipeline with prelinearization step only + Pipeline = cmsPipelineAlloc(ContextID, nChannels, nChannels); + if (Pipeline == NULL) goto Error; + + + // Copy tables to Pipeline + if (!cmsPipelineInsertStage(Pipeline, cmsAT_BEGIN, cmsStageAllocToneCurves(ContextID, nChannels, TransferFunctions))) + goto Error; + + // Create tags + if (!SetTextTags(hICC, L"Linearization built-in")) goto Error; + if (!cmsWriteTag(hICC, cmsSigAToB0Tag, (void*) Pipeline)) goto Error; + if (!SetSeqDescTag(hICC, "Linearization built-in")) goto Error; + + // Pipeline is already on virtual profile + cmsPipelineFree(Pipeline); + + // Ok, done + return hICC; + +Error: + cmsPipelineFree(Pipeline); + if (hICC) + cmsCloseProfile(hICC); + + + return NULL; +} + +cmsHPROFILE CMSEXPORT cmsCreateLinearizationDeviceLink(cmsColorSpaceSignature ColorSpace, + cmsToneCurve* const TransferFunctions[]) +{ + return cmsCreateLinearizationDeviceLinkTHR(NULL, ColorSpace, TransferFunctions); +} + +// Ink-limiting algorithm +// +// Sum = C + M + Y + K +// If Sum > InkLimit +// Ratio= 1 - (Sum - InkLimit) / (C + M + Y) +// if Ratio <0 +// Ratio=0 +// endif +// Else +// Ratio=1 +// endif +// +// C = Ratio * C +// M = Ratio * M +// Y = Ratio * Y +// K: Does not change + +static +int InkLimitingSampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + cmsFloat64Number InkLimit = *(cmsFloat64Number *) Cargo; + cmsFloat64Number SumCMY, SumCMYK, Ratio; + + InkLimit = (InkLimit * 655.35); + + SumCMY = In[0] + In[1] + In[2]; + SumCMYK = SumCMY + In[3]; + + if (SumCMYK > InkLimit) { + + Ratio = 1 - ((SumCMYK - InkLimit) / SumCMY); + if (Ratio < 0) + Ratio = 0; + } + else Ratio = 1; + + Out[0] = _cmsQuickSaturateWord(In[0] * Ratio); // C + Out[1] = _cmsQuickSaturateWord(In[1] * Ratio); // M + Out[2] = _cmsQuickSaturateWord(In[2] * Ratio); // Y + + Out[3] = In[3]; // K (untouched) + + return TRUE; +} + +// This is a devicelink operating in CMYK for ink-limiting + +cmsHPROFILE CMSEXPORT cmsCreateInkLimitingDeviceLinkTHR(cmsContext ContextID, + cmsColorSpaceSignature ColorSpace, + cmsFloat64Number Limit) +{ + cmsHPROFILE hICC; + cmsPipeline* LUT; + cmsStage* CLUT; + int nChannels; + + if (ColorSpace != cmsSigCmykData) { + cmsSignalError(ContextID, cmsERROR_COLORSPACE_CHECK, "InkLimiting: Only CMYK currently supported"); + return NULL; + } + + if (Limit < 0.0 || Limit > 400) { + + cmsSignalError(ContextID, cmsERROR_RANGE, "InkLimiting: Limit should be between 0..400"); + if (Limit < 0) Limit = 0; + if (Limit > 400) Limit = 400; + + } + + hICC = cmsCreateProfilePlaceholder(ContextID); + if (!hICC) // can't allocate + return NULL; + + cmsSetProfileVersion(hICC, 4.3); + + cmsSetDeviceClass(hICC, cmsSigLinkClass); + cmsSetColorSpace(hICC, ColorSpace); + cmsSetPCS(hICC, ColorSpace); + + cmsSetHeaderRenderingIntent(hICC, INTENT_PERCEPTUAL); + + + // Creates a Pipeline with 3D grid only + LUT = cmsPipelineAlloc(ContextID, 4, 4); + if (LUT == NULL) goto Error; + + + nChannels = cmsChannelsOf(ColorSpace); + + CLUT = cmsStageAllocCLut16bit(ContextID, 17, nChannels, nChannels, NULL); + if (CLUT == NULL) goto Error; + + if (!cmsStageSampleCLut16bit(CLUT, InkLimitingSampler, (void*) &Limit, 0)) goto Error; + + if (!cmsPipelineInsertStage(LUT, cmsAT_BEGIN, _cmsStageAllocIdentityCurves(ContextID, nChannels)) || + !cmsPipelineInsertStage(LUT, cmsAT_END, CLUT) || + !cmsPipelineInsertStage(LUT, cmsAT_END, _cmsStageAllocIdentityCurves(ContextID, nChannels))) + goto Error; + + // Create tags + if (!SetTextTags(hICC, L"ink-limiting built-in")) goto Error; + + if (!cmsWriteTag(hICC, cmsSigAToB0Tag, (void*) LUT)) goto Error; + if (!SetSeqDescTag(hICC, "ink-limiting built-in")) goto Error; + + // cmsPipeline is already on virtual profile + cmsPipelineFree(LUT); + + // Ok, done + return hICC; + +Error: + if (LUT != NULL) + cmsPipelineFree(LUT); + + if (hICC != NULL) + cmsCloseProfile(hICC); + + return NULL; +} + +cmsHPROFILE CMSEXPORT cmsCreateInkLimitingDeviceLink(cmsColorSpaceSignature ColorSpace, cmsFloat64Number Limit) +{ + return cmsCreateInkLimitingDeviceLinkTHR(NULL, ColorSpace, Limit); +} + + +// Creates a fake Lab identity. +cmsHPROFILE CMSEXPORT cmsCreateLab2ProfileTHR(cmsContext ContextID, const cmsCIExyY* WhitePoint) +{ + cmsHPROFILE hProfile; + cmsPipeline* LUT = NULL; + + hProfile = cmsCreateRGBProfileTHR(ContextID, WhitePoint == NULL ? cmsD50_xyY() : WhitePoint, NULL, NULL); + if (hProfile == NULL) return NULL; + + cmsSetProfileVersion(hProfile, 2.1); + + cmsSetDeviceClass(hProfile, cmsSigAbstractClass); + cmsSetColorSpace(hProfile, cmsSigLabData); + cmsSetPCS(hProfile, cmsSigLabData); + + if (!SetTextTags(hProfile, L"Lab identity built-in")) return NULL; + + // An identity LUT is all we need + LUT = cmsPipelineAlloc(ContextID, 3, 3); + if (LUT == NULL) goto Error; + + if (!cmsPipelineInsertStage(LUT, cmsAT_BEGIN, _cmsStageAllocIdentityCLut(ContextID, 3))) + goto Error; + + if (!cmsWriteTag(hProfile, cmsSigAToB0Tag, LUT)) goto Error; + cmsPipelineFree(LUT); + + return hProfile; + +Error: + + if (LUT != NULL) + cmsPipelineFree(LUT); + + if (hProfile != NULL) + cmsCloseProfile(hProfile); + + return NULL; +} + + +cmsHPROFILE CMSEXPORT cmsCreateLab2Profile(const cmsCIExyY* WhitePoint) +{ + return cmsCreateLab2ProfileTHR(NULL, WhitePoint); +} + + +// Creates a fake Lab V4 identity. +cmsHPROFILE CMSEXPORT cmsCreateLab4ProfileTHR(cmsContext ContextID, const cmsCIExyY* WhitePoint) +{ + cmsHPROFILE hProfile; + cmsPipeline* LUT = NULL; + + hProfile = cmsCreateRGBProfileTHR(ContextID, WhitePoint == NULL ? cmsD50_xyY() : WhitePoint, NULL, NULL); + if (hProfile == NULL) return NULL; + + cmsSetProfileVersion(hProfile, 4.3); + + cmsSetDeviceClass(hProfile, cmsSigAbstractClass); + cmsSetColorSpace(hProfile, cmsSigLabData); + cmsSetPCS(hProfile, cmsSigLabData); + + if (!SetTextTags(hProfile, L"Lab identity built-in")) goto Error; + + // An empty LUTs is all we need + LUT = cmsPipelineAlloc(ContextID, 3, 3); + if (LUT == NULL) goto Error; + + if (!cmsPipelineInsertStage(LUT, cmsAT_BEGIN, _cmsStageAllocIdentityCurves(ContextID, 3))) + goto Error; + + if (!cmsWriteTag(hProfile, cmsSigAToB0Tag, LUT)) goto Error; + cmsPipelineFree(LUT); + + return hProfile; + +Error: + + if (LUT != NULL) + cmsPipelineFree(LUT); + + if (hProfile != NULL) + cmsCloseProfile(hProfile); + + return NULL; +} + +cmsHPROFILE CMSEXPORT cmsCreateLab4Profile(const cmsCIExyY* WhitePoint) +{ + return cmsCreateLab4ProfileTHR(NULL, WhitePoint); +} + + +// Creates a fake XYZ identity +cmsHPROFILE CMSEXPORT cmsCreateXYZProfileTHR(cmsContext ContextID) +{ + cmsHPROFILE hProfile; + cmsPipeline* LUT = NULL; + + hProfile = cmsCreateRGBProfileTHR(ContextID, cmsD50_xyY(), NULL, NULL); + if (hProfile == NULL) return NULL; + + cmsSetProfileVersion(hProfile, 4.3); + + cmsSetDeviceClass(hProfile, cmsSigAbstractClass); + cmsSetColorSpace(hProfile, cmsSigXYZData); + cmsSetPCS(hProfile, cmsSigXYZData); + + if (!SetTextTags(hProfile, L"XYZ identity built-in")) goto Error; + + // An identity LUT is all we need + LUT = cmsPipelineAlloc(ContextID, 3, 3); + if (LUT == NULL) goto Error; + + if (!cmsPipelineInsertStage(LUT, cmsAT_BEGIN, _cmsStageAllocIdentityCurves(ContextID, 3))) + goto Error; + + if (!cmsWriteTag(hProfile, cmsSigAToB0Tag, LUT)) goto Error; + cmsPipelineFree(LUT); + + return hProfile; + +Error: + + if (LUT != NULL) + cmsPipelineFree(LUT); + + if (hProfile != NULL) + cmsCloseProfile(hProfile); + + return NULL; +} + + +cmsHPROFILE CMSEXPORT cmsCreateXYZProfile(void) +{ + return cmsCreateXYZProfileTHR(NULL); +} + + +//sRGB Curves are defined by: +// +//If R’sRGB,G’sRGB, B’sRGB < 0.04045 +// +// R = R’sRGB / 12.92 +// G = G’sRGB / 12.92 +// B = B’sRGB / 12.92 +// +// +//else if R’sRGB,G’sRGB, B’sRGB >= 0.04045 +// +// R = ((R’sRGB + 0.055) / 1.055)^2.4 +// G = ((G’sRGB + 0.055) / 1.055)^2.4 +// B = ((B’sRGB + 0.055) / 1.055)^2.4 + +static +cmsToneCurve* Build_sRGBGamma(cmsContext ContextID) +{ + cmsFloat64Number Parameters[5]; + + Parameters[0] = 2.4; + Parameters[1] = 1. / 1.055; + Parameters[2] = 0.055 / 1.055; + Parameters[3] = 1. / 12.92; + Parameters[4] = 0.04045; + + return cmsBuildParametricToneCurve(ContextID, 4, Parameters); +} + +// Create the ICC virtual profile for sRGB space +cmsHPROFILE CMSEXPORT cmsCreate_sRGBProfileTHR(cmsContext ContextID) +{ + cmsCIExyY D65 = { 0.3127, 0.3290, 1.0 }; + cmsCIExyYTRIPLE Rec709Primaries = { + {0.6400, 0.3300, 1.0}, + {0.3000, 0.6000, 1.0}, + {0.1500, 0.0600, 1.0} + }; + cmsToneCurve* Gamma22[3]; + cmsHPROFILE hsRGB; + + // cmsWhitePointFromTemp(&D65, 6504); + Gamma22[0] = Gamma22[1] = Gamma22[2] = Build_sRGBGamma(ContextID); + if (Gamma22[0] == NULL) return NULL; + + hsRGB = cmsCreateRGBProfileTHR(ContextID, &D65, &Rec709Primaries, Gamma22); + cmsFreeToneCurve(Gamma22[0]); + if (hsRGB == NULL) return NULL; + + if (!SetTextTags(hsRGB, L"sRGB built-in")) { + cmsCloseProfile(hsRGB); + return NULL; + } + + return hsRGB; +} + +cmsHPROFILE CMSEXPORT cmsCreate_sRGBProfile(void) +{ + return cmsCreate_sRGBProfileTHR(NULL); +} + + + +typedef struct { + cmsFloat64Number Brightness; + cmsFloat64Number Contrast; + cmsFloat64Number Hue; + cmsFloat64Number Saturation; + cmsBool lAdjustWP; + cmsCIEXYZ WPsrc, WPdest; + +} BCHSWADJUSTS, *LPBCHSWADJUSTS; + + +static +int bchswSampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + cmsCIELab LabIn, LabOut; + cmsCIELCh LChIn, LChOut; + cmsCIEXYZ XYZ; + LPBCHSWADJUSTS bchsw = (LPBCHSWADJUSTS) Cargo; + + + cmsLabEncoded2Float(&LabIn, In); + + + cmsLab2LCh(&LChIn, &LabIn); + + // Do some adjusts on LCh + + LChOut.L = LChIn.L * bchsw ->Contrast + bchsw ->Brightness; + LChOut.C = LChIn.C + bchsw -> Saturation; + LChOut.h = LChIn.h + bchsw -> Hue; + + + cmsLCh2Lab(&LabOut, &LChOut); + + // Move white point in Lab + if (bchsw->lAdjustWP) { + cmsLab2XYZ(&bchsw->WPsrc, &XYZ, &LabOut); + cmsXYZ2Lab(&bchsw->WPdest, &LabOut, &XYZ); + } + + // Back to encoded + + cmsFloat2LabEncoded(Out, &LabOut); + + return TRUE; +} + + +// Creates an abstract profile operating in Lab space for Brightness, +// contrast, Saturation and white point displacement + +cmsHPROFILE CMSEXPORT cmsCreateBCHSWabstractProfileTHR(cmsContext ContextID, + int nLUTPoints, + cmsFloat64Number Bright, + cmsFloat64Number Contrast, + cmsFloat64Number Hue, + cmsFloat64Number Saturation, + int TempSrc, + int TempDest) +{ + cmsHPROFILE hICC; + cmsPipeline* Pipeline; + BCHSWADJUSTS bchsw; + cmsCIExyY WhitePnt; + cmsStage* CLUT; + cmsUInt32Number Dimensions[MAX_INPUT_DIMENSIONS]; + int i; + + bchsw.Brightness = Bright; + bchsw.Contrast = Contrast; + bchsw.Hue = Hue; + bchsw.Saturation = Saturation; + if (TempSrc == TempDest) { + + bchsw.lAdjustWP = FALSE; + } + else { + bchsw.lAdjustWP = TRUE; + cmsWhitePointFromTemp(&WhitePnt, TempSrc); + cmsxyY2XYZ(&bchsw.WPsrc, &WhitePnt); + cmsWhitePointFromTemp(&WhitePnt, TempDest); + cmsxyY2XYZ(&bchsw.WPdest, &WhitePnt); + + } + + hICC = cmsCreateProfilePlaceholder(ContextID); + if (!hICC) // can't allocate + return NULL; + + cmsSetDeviceClass(hICC, cmsSigAbstractClass); + cmsSetColorSpace(hICC, cmsSigLabData); + cmsSetPCS(hICC, cmsSigLabData); + + cmsSetHeaderRenderingIntent(hICC, INTENT_PERCEPTUAL); + + // Creates a Pipeline with 3D grid only + Pipeline = cmsPipelineAlloc(ContextID, 3, 3); + if (Pipeline == NULL) { + cmsCloseProfile(hICC); + return NULL; + } + + for (i=0; i < MAX_INPUT_DIMENSIONS; i++) Dimensions[i] = nLUTPoints; + CLUT = cmsStageAllocCLut16bitGranular(ContextID, Dimensions, 3, 3, NULL); + if (CLUT == NULL) return NULL; + + + if (!cmsStageSampleCLut16bit(CLUT, bchswSampler, (void*) &bchsw, 0)) { + + // Shouldn't reach here + goto Error; + } + + if (!cmsPipelineInsertStage(Pipeline, cmsAT_END, CLUT)) { + goto Error; + } + + // Create tags + if (!SetTextTags(hICC, L"BCHS built-in")) return NULL; + + cmsWriteTag(hICC, cmsSigMediaWhitePointTag, (void*) cmsD50_XYZ()); + + cmsWriteTag(hICC, cmsSigAToB0Tag, (void*) Pipeline); + + // Pipeline is already on virtual profile + cmsPipelineFree(Pipeline); + + // Ok, done + return hICC; + +Error: + cmsPipelineFree(Pipeline); + cmsCloseProfile(hICC); + return NULL; +} + + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateBCHSWabstractProfile(int nLUTPoints, + cmsFloat64Number Bright, + cmsFloat64Number Contrast, + cmsFloat64Number Hue, + cmsFloat64Number Saturation, + int TempSrc, + int TempDest) +{ + return cmsCreateBCHSWabstractProfileTHR(NULL, nLUTPoints, Bright, Contrast, Hue, Saturation, TempSrc, TempDest); +} + + +// Creates a fake NULL profile. This profile return 1 channel as always 0. +// Is useful only for gamut checking tricks +cmsHPROFILE CMSEXPORT cmsCreateNULLProfileTHR(cmsContext ContextID) +{ + cmsHPROFILE hProfile; + cmsPipeline* LUT = NULL; + cmsStage* PostLin; + cmsToneCurve* EmptyTab; + cmsUInt16Number Zero[2] = { 0, 0 }; + + hProfile = cmsCreateProfilePlaceholder(ContextID); + if (!hProfile) // can't allocate + return NULL; + + cmsSetProfileVersion(hProfile, 4.3); + + if (!SetTextTags(hProfile, L"NULL profile built-in")) goto Error; + + + + cmsSetDeviceClass(hProfile, cmsSigOutputClass); + cmsSetColorSpace(hProfile, cmsSigGrayData); + cmsSetPCS(hProfile, cmsSigLabData); + + // An empty LUTs is all we need + LUT = cmsPipelineAlloc(ContextID, 1, 1); + if (LUT == NULL) goto Error; + + EmptyTab = cmsBuildTabulatedToneCurve16(ContextID, 2, Zero); + PostLin = cmsStageAllocToneCurves(ContextID, 1, &EmptyTab); + cmsFreeToneCurve(EmptyTab); + + if (!cmsPipelineInsertStage(LUT, cmsAT_END, PostLin)) + goto Error; + + if (!cmsWriteTag(hProfile, cmsSigBToA0Tag, (void*) LUT)) goto Error; + if (!cmsWriteTag(hProfile, cmsSigMediaWhitePointTag, cmsD50_XYZ())) goto Error; + + cmsPipelineFree(LUT); + return hProfile; + +Error: + + if (LUT != NULL) + cmsPipelineFree(LUT); + + if (hProfile != NULL) + cmsCloseProfile(hProfile); + + return NULL; +} + +cmsHPROFILE CMSEXPORT cmsCreateNULLProfile(void) +{ + return cmsCreateNULLProfileTHR(NULL); +} + + +static +int IsPCS(cmsColorSpaceSignature ColorSpace) +{ + return (ColorSpace == cmsSigXYZData || + ColorSpace == cmsSigLabData); +} + + +static +void FixColorSpaces(cmsHPROFILE hProfile, + cmsColorSpaceSignature ColorSpace, + cmsColorSpaceSignature PCS, + cmsUInt32Number dwFlags) +{ + if (dwFlags & cmsFLAGS_GUESSDEVICECLASS) { + + if (IsPCS(ColorSpace) && IsPCS(PCS)) { + + cmsSetDeviceClass(hProfile, cmsSigAbstractClass); + cmsSetColorSpace(hProfile, ColorSpace); + cmsSetPCS(hProfile, PCS); + return; + } + + if (IsPCS(ColorSpace) && !IsPCS(PCS)) { + + cmsSetDeviceClass(hProfile, cmsSigOutputClass); + cmsSetPCS(hProfile, ColorSpace); + cmsSetColorSpace(hProfile, PCS); + return; + } + + if (IsPCS(PCS) && !IsPCS(ColorSpace)) { + + cmsSetDeviceClass(hProfile, cmsSigInputClass); + cmsSetColorSpace(hProfile, ColorSpace); + cmsSetPCS(hProfile, PCS); + return; + } + } + + cmsSetDeviceClass(hProfile, cmsSigLinkClass); + cmsSetColorSpace(hProfile, ColorSpace); + cmsSetPCS(hProfile, PCS); +} + + + +// This function creates a named color profile dumping all the contents of transform to a single profile +// In this way, LittleCMS may be used to "group" several named color databases into a single profile. +// It has, however, several minor limitations. PCS is always Lab, which is not very critic since this +// is the normal PCS for named color profiles. +static +cmsHPROFILE CreateNamedColorDevicelink(cmsHTRANSFORM xform) +{ + _cmsTRANSFORM* v = (_cmsTRANSFORM*) xform; + cmsHPROFILE hICC = NULL; + int i, nColors; + cmsNAMEDCOLORLIST *nc2 = NULL, *Original = NULL; + + // Create an empty placeholder + hICC = cmsCreateProfilePlaceholder(v->ContextID); + if (hICC == NULL) return NULL; + + // Critical information + cmsSetDeviceClass(hICC, cmsSigNamedColorClass); + cmsSetColorSpace(hICC, v ->ExitColorSpace); + cmsSetPCS(hICC, cmsSigLabData); + + // Tag profile with information + if (!SetTextTags(hICC, L"Named color devicelink")) goto Error; + + Original = cmsGetNamedColorList(xform); + if (Original == NULL) goto Error; + + nColors = cmsNamedColorCount(Original); + nc2 = cmsDupNamedColorList(Original); + if (nc2 == NULL) goto Error; + + // Colorant count now depends on the output space + nc2 ->ColorantCount = cmsPipelineOutputChannels(v ->Lut); + + // Make sure we have proper formatters + cmsChangeBuffersFormat(xform, TYPE_NAMED_COLOR_INDEX, + FLOAT_SH(0) | COLORSPACE_SH(_cmsLCMScolorSpace(v ->ExitColorSpace)) + | BYTES_SH(2) | CHANNELS_SH(cmsChannelsOf(v ->ExitColorSpace))); + + // Apply the transfor to colorants. + for (i=0; i < nColors; i++) { + cmsDoTransform(xform, &i, nc2 ->List[i].DeviceColorant, 1); + } + + if (!cmsWriteTag(hICC, cmsSigNamedColor2Tag, (void*) nc2)) goto Error; + cmsFreeNamedColorList(nc2); + + return hICC; + +Error: + if (hICC != NULL) cmsCloseProfile(hICC); + return NULL; +} + + +// This structure holds information about which MPU can be stored on a profile based on the version + +typedef struct { + cmsBool IsV4; // Is a V4 tag? + cmsTagSignature RequiredTag; // Set to 0 for both types + cmsTagTypeSignature LutType; // The LUT type + int nTypes; // Number of types (up to 5) + cmsStageSignature MpeTypes[5]; // 5 is the maximum number + +} cmsAllowedLUT; + +#define cmsSig0 ((cmsTagSignature) 0) + +static const cmsAllowedLUT AllowedLUTTypes[] = { + + { FALSE, cmsSig0, cmsSigLut16Type, 4, { cmsSigMatrixElemType, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType } }, + { FALSE, cmsSig0, cmsSigLut16Type, 3, { cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType } }, + { FALSE, cmsSig0, cmsSigLut16Type, 2, { cmsSigCurveSetElemType, cmsSigCLutElemType } }, + { TRUE, cmsSig0, cmsSigLutAtoBType, 1, { cmsSigCurveSetElemType } }, + { TRUE , cmsSigAToB0Tag, cmsSigLutAtoBType, 3, { cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType } }, + { TRUE , cmsSigAToB0Tag, cmsSigLutAtoBType, 3, { cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType } }, + { TRUE , cmsSigAToB0Tag, cmsSigLutAtoBType, 5, { cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType }}, + { TRUE , cmsSigBToA0Tag, cmsSigLutBtoAType, 1, { cmsSigCurveSetElemType }}, + { TRUE , cmsSigBToA0Tag, cmsSigLutBtoAType, 3, { cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType }}, + { TRUE , cmsSigBToA0Tag, cmsSigLutBtoAType, 3, { cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType }}, + { TRUE , cmsSigBToA0Tag, cmsSigLutBtoAType, 5, { cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType }} +}; + +#define SIZE_OF_ALLOWED_LUT (sizeof(AllowedLUTTypes)/sizeof(cmsAllowedLUT)) + +// Check a single entry +static +cmsBool CheckOne(const cmsAllowedLUT* Tab, const cmsPipeline* Lut) +{ + cmsStage* mpe; + int n; + + for (n=0, mpe = Lut ->Elements; mpe != NULL; mpe = mpe ->Next, n++) { + + if (n > Tab ->nTypes) return FALSE; + if (cmsStageType(mpe) != Tab ->MpeTypes[n]) return FALSE; + } + + return (n == Tab ->nTypes); +} + + +static +const cmsAllowedLUT* FindCombination(const cmsPipeline* Lut, cmsBool IsV4, cmsTagSignature DestinationTag) +{ + cmsUInt32Number n; + + for (n=0; n < SIZE_OF_ALLOWED_LUT; n++) { + + const cmsAllowedLUT* Tab = AllowedLUTTypes + n; + + if (IsV4 ^ Tab -> IsV4) continue; + if ((Tab ->RequiredTag != 0) && (Tab ->RequiredTag != DestinationTag)) continue; + + if (CheckOne(Tab, Lut)) return Tab; + } + + return NULL; +} + + +// Does convert a transform into a device link profile +cmsHPROFILE CMSEXPORT cmsTransform2DeviceLink(cmsHTRANSFORM hTransform, cmsFloat64Number Version, cmsUInt32Number dwFlags) +{ + cmsHPROFILE hProfile = NULL; + cmsUInt32Number FrmIn, FrmOut, ChansIn, ChansOut; + cmsUInt32Number ColorSpaceBitsIn, ColorSpaceBitsOut; + _cmsTRANSFORM* xform = (_cmsTRANSFORM*) hTransform; + cmsPipeline* LUT = NULL; + cmsStage* mpe; + cmsContext ContextID = cmsGetTransformContextID(hTransform); + const cmsAllowedLUT* AllowedLUT; + cmsTagSignature DestinationTag; + cmsProfileClassSignature deviceClass; + + _cmsAssert(hTransform != NULL); + + // Get the first mpe to check for named color + mpe = cmsPipelineGetPtrToFirstStage(xform ->Lut); + + // Check if is a named color transform + if (mpe != NULL) { + + if (cmsStageType(mpe) == cmsSigNamedColorElemType) { + return CreateNamedColorDevicelink(hTransform); + } + } + + // First thing to do is to get a copy of the transformation + LUT = cmsPipelineDup(xform ->Lut); + if (LUT == NULL) return NULL; + + // Time to fix the Lab2/Lab4 issue. + if ((xform ->EntryColorSpace == cmsSigLabData) && (Version < 4.0)) { + + if (!cmsPipelineInsertStage(LUT, cmsAT_BEGIN, _cmsStageAllocLabV2ToV4curves(ContextID))) + goto Error; + } + + // On the output side too + if ((xform ->ExitColorSpace) == cmsSigLabData && (Version < 4.0)) { + + if (!cmsPipelineInsertStage(LUT, cmsAT_END, _cmsStageAllocLabV4ToV2(ContextID))) + goto Error; + } + + + hProfile = cmsCreateProfilePlaceholder(ContextID); + if (!hProfile) goto Error; // can't allocate + + cmsSetProfileVersion(hProfile, Version); + + FixColorSpaces(hProfile, xform -> EntryColorSpace, xform -> ExitColorSpace, dwFlags); + + // Optimize the LUT and precalculate a devicelink + + ChansIn = cmsChannelsOf(xform -> EntryColorSpace); + ChansOut = cmsChannelsOf(xform -> ExitColorSpace); + + ColorSpaceBitsIn = _cmsLCMScolorSpace(xform -> EntryColorSpace); + ColorSpaceBitsOut = _cmsLCMScolorSpace(xform -> ExitColorSpace); + + FrmIn = COLORSPACE_SH(ColorSpaceBitsIn) | CHANNELS_SH(ChansIn)|BYTES_SH(2); + FrmOut = COLORSPACE_SH(ColorSpaceBitsOut) | CHANNELS_SH(ChansOut)|BYTES_SH(2); + + deviceClass = cmsGetDeviceClass(hProfile); + + if (deviceClass == cmsSigOutputClass) + DestinationTag = cmsSigBToA0Tag; + else + DestinationTag = cmsSigAToB0Tag; + + // Check if the profile/version can store the result + if (dwFlags & cmsFLAGS_FORCE_CLUT) + AllowedLUT = NULL; + else + AllowedLUT = FindCombination(LUT, Version >= 4.0, DestinationTag); + + if (AllowedLUT == NULL) { + + // Try to optimize + _cmsOptimizePipeline(ContextID, &LUT, xform ->RenderingIntent, &FrmIn, &FrmOut, &dwFlags); + AllowedLUT = FindCombination(LUT, Version >= 4.0, DestinationTag); + + } + + // If no way, then force CLUT that for sure can be written + if (AllowedLUT == NULL) { + + cmsStage* FirstStage; + cmsStage* LastStage; + + dwFlags |= cmsFLAGS_FORCE_CLUT; + _cmsOptimizePipeline(ContextID, &LUT, xform ->RenderingIntent, &FrmIn, &FrmOut, &dwFlags); + + // Put identity curves if needed + FirstStage = cmsPipelineGetPtrToFirstStage(LUT); + if (FirstStage != NULL && FirstStage ->Type != cmsSigCurveSetElemType) + if (!cmsPipelineInsertStage(LUT, cmsAT_BEGIN, _cmsStageAllocIdentityCurves(ContextID, ChansIn))) + goto Error; + + LastStage = cmsPipelineGetPtrToLastStage(LUT); + if (LastStage != NULL && LastStage ->Type != cmsSigCurveSetElemType) + if (!cmsPipelineInsertStage(LUT, cmsAT_END, _cmsStageAllocIdentityCurves(ContextID, ChansOut))) + goto Error; + + AllowedLUT = FindCombination(LUT, Version >= 4.0, DestinationTag); + } + + // Somethings is wrong... + if (AllowedLUT == NULL) { + goto Error; + } + + + if (dwFlags & cmsFLAGS_8BITS_DEVICELINK) + cmsPipelineSetSaveAs8bitsFlag(LUT, TRUE); + + // Tag profile with information + if (!SetTextTags(hProfile, L"devicelink")) goto Error; + + // Store result + if (!cmsWriteTag(hProfile, DestinationTag, LUT)) goto Error; + + + if (xform -> InputColorant != NULL) { + if (!cmsWriteTag(hProfile, cmsSigColorantTableTag, xform->InputColorant)) goto Error; + } + + if (xform -> OutputColorant != NULL) { + if (!cmsWriteTag(hProfile, cmsSigColorantTableOutTag, xform->OutputColorant)) goto Error; + } + + if ((deviceClass == cmsSigLinkClass) && (xform ->Sequence != NULL)) { + if (!_cmsWriteProfileSequence(hProfile, xform ->Sequence)) goto Error; + } + + // Set the white point + if (deviceClass == cmsSigInputClass) { + if (!cmsWriteTag(hProfile, cmsSigMediaWhitePointTag, &xform ->EntryWhitePoint)) goto Error; + } + else { + if (!cmsWriteTag(hProfile, cmsSigMediaWhitePointTag, &xform ->ExitWhitePoint)) goto Error; + } + + + // Per 7.2.15 in spec 4.3 + cmsSetHeaderRenderingIntent(hProfile, xform ->RenderingIntent); + + cmsPipelineFree(LUT); + return hProfile; + +Error: + if (LUT != NULL) cmsPipelineFree(LUT); + cmsCloseProfile(hProfile); + return NULL; +} Index: sdk/lib/3rdparty/lcms2/cmswtpnt.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmswtpnt.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmswtpnt.c (working copy) @@ -0,0 +1,351 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// D50 - Widely used +const cmsCIEXYZ* CMSEXPORT cmsD50_XYZ(void) +{ + static cmsCIEXYZ D50XYZ = {cmsD50X, cmsD50Y, cmsD50Z}; + + return &D50XYZ; +} + +const cmsCIExyY* CMSEXPORT cmsD50_xyY(void) +{ + static cmsCIExyY D50xyY; + + cmsXYZ2xyY(&D50xyY, cmsD50_XYZ()); + + return &D50xyY; +} + +// Obtains WhitePoint from Temperature +cmsBool CMSEXPORT cmsWhitePointFromTemp(cmsCIExyY* WhitePoint, cmsFloat64Number TempK) +{ + cmsFloat64Number x, y; + cmsFloat64Number T, T2, T3; + // cmsFloat64Number M1, M2; + + _cmsAssert(WhitePoint != NULL); + + T = TempK; + T2 = T*T; // Square + T3 = T2*T; // Cube + + // For correlated color temperature (T) between 4000K and 7000K: + + if (T >= 4000. && T <= 7000.) + { + x = -4.6070*(1E9/T3) + 2.9678*(1E6/T2) + 0.09911*(1E3/T) + 0.244063; + } + else + // or for correlated color temperature (T) between 7000K and 25000K: + + if (T > 7000.0 && T <= 25000.0) + { + x = -2.0064*(1E9/T3) + 1.9018*(1E6/T2) + 0.24748*(1E3/T) + 0.237040; + } + else { + cmsSignalError(0, cmsERROR_RANGE, "cmsWhitePointFromTemp: invalid temp"); + return FALSE; + } + + // Obtain y(x) + + y = -3.000*(x*x) + 2.870*x - 0.275; + + // wave factors (not used, but here for futures extensions) + + // M1 = (-1.3515 - 1.7703*x + 5.9114 *y)/(0.0241 + 0.2562*x - 0.7341*y); + // M2 = (0.0300 - 31.4424*x + 30.0717*y)/(0.0241 + 0.2562*x - 0.7341*y); + + WhitePoint -> x = x; + WhitePoint -> y = y; + WhitePoint -> Y = 1.0; + + return TRUE; +} + + + +typedef struct { + + cmsFloat64Number mirek; // temp (in microreciprocal kelvin) + cmsFloat64Number ut; // u coord of intersection w/ blackbody locus + cmsFloat64Number vt; // v coord of intersection w/ blackbody locus + cmsFloat64Number tt; // slope of ISOTEMPERATURE. line + + } ISOTEMPERATURE; + +static ISOTEMPERATURE isotempdata[] = { +// {Mirek, Ut, Vt, Tt } + {0, 0.18006, 0.26352, -0.24341}, + {10, 0.18066, 0.26589, -0.25479}, + {20, 0.18133, 0.26846, -0.26876}, + {30, 0.18208, 0.27119, -0.28539}, + {40, 0.18293, 0.27407, -0.30470}, + {50, 0.18388, 0.27709, -0.32675}, + {60, 0.18494, 0.28021, -0.35156}, + {70, 0.18611, 0.28342, -0.37915}, + {80, 0.18740, 0.28668, -0.40955}, + {90, 0.18880, 0.28997, -0.44278}, + {100, 0.19032, 0.29326, -0.47888}, + {125, 0.19462, 0.30141, -0.58204}, + {150, 0.19962, 0.30921, -0.70471}, + {175, 0.20525, 0.31647, -0.84901}, + {200, 0.21142, 0.32312, -1.0182 }, + {225, 0.21807, 0.32909, -1.2168 }, + {250, 0.22511, 0.33439, -1.4512 }, + {275, 0.23247, 0.33904, -1.7298 }, + {300, 0.24010, 0.34308, -2.0637 }, + {325, 0.24702, 0.34655, -2.4681 }, + {350, 0.25591, 0.34951, -2.9641 }, + {375, 0.26400, 0.35200, -3.5814 }, + {400, 0.27218, 0.35407, -4.3633 }, + {425, 0.28039, 0.35577, -5.3762 }, + {450, 0.28863, 0.35714, -6.7262 }, + {475, 0.29685, 0.35823, -8.5955 }, + {500, 0.30505, 0.35907, -11.324 }, + {525, 0.31320, 0.35968, -15.628 }, + {550, 0.32129, 0.36011, -23.325 }, + {575, 0.32931, 0.36038, -40.770 }, + {600, 0.33724, 0.36051, -116.45 } +}; + +#define NISO sizeof(isotempdata)/sizeof(ISOTEMPERATURE) + + +// Robertson's method +cmsBool CMSEXPORT cmsTempFromWhitePoint(cmsFloat64Number* TempK, const cmsCIExyY* WhitePoint) +{ + cmsUInt32Number j; + cmsFloat64Number us,vs; + cmsFloat64Number uj,vj,tj,di,dj,mi,mj; + cmsFloat64Number xs, ys; + + _cmsAssert(WhitePoint != NULL); + _cmsAssert(TempK != NULL); + + di = mi = 0; + xs = WhitePoint -> x; + ys = WhitePoint -> y; + + // convert (x,y) to CIE 1960 (u,WhitePoint) + + us = (2*xs) / (-xs + 6*ys + 1.5); + vs = (3*ys) / (-xs + 6*ys + 1.5); + + + for (j=0; j < NISO; j++) { + + uj = isotempdata[j].ut; + vj = isotempdata[j].vt; + tj = isotempdata[j].tt; + mj = isotempdata[j].mirek; + + dj = ((vs - vj) - tj * (us - uj)) / sqrt(1.0 + tj * tj); + + if ((j != 0) && (di/dj < 0.0)) { + + // Found a match + *TempK = 1000000.0 / (mi + (di / (di - dj)) * (mj - mi)); + return TRUE; + } + + di = dj; + mi = mj; + } + + // Not found + return FALSE; +} + + +// Compute chromatic adaptation matrix using Chad as cone matrix + +static +cmsBool ComputeChromaticAdaptation(cmsMAT3* Conversion, + const cmsCIEXYZ* SourceWhitePoint, + const cmsCIEXYZ* DestWhitePoint, + const cmsMAT3* Chad) + +{ + + cmsMAT3 Chad_Inv; + cmsVEC3 ConeSourceXYZ, ConeSourceRGB; + cmsVEC3 ConeDestXYZ, ConeDestRGB; + cmsMAT3 Cone, Tmp; + + + Tmp = *Chad; + if (!_cmsMAT3inverse(&Tmp, &Chad_Inv)) return FALSE; + + _cmsVEC3init(&ConeSourceXYZ, SourceWhitePoint -> X, + SourceWhitePoint -> Y, + SourceWhitePoint -> Z); + + _cmsVEC3init(&ConeDestXYZ, DestWhitePoint -> X, + DestWhitePoint -> Y, + DestWhitePoint -> Z); + + _cmsMAT3eval(&ConeSourceRGB, Chad, &ConeSourceXYZ); + _cmsMAT3eval(&ConeDestRGB, Chad, &ConeDestXYZ); + + // Build matrix + _cmsVEC3init(&Cone.v[0], ConeDestRGB.n[0]/ConeSourceRGB.n[0], 0.0, 0.0); + _cmsVEC3init(&Cone.v[1], 0.0, ConeDestRGB.n[1]/ConeSourceRGB.n[1], 0.0); + _cmsVEC3init(&Cone.v[2], 0.0, 0.0, ConeDestRGB.n[2]/ConeSourceRGB.n[2]); + + + // Normalize + _cmsMAT3per(&Tmp, &Cone, Chad); + _cmsMAT3per(Conversion, &Chad_Inv, &Tmp); + + return TRUE; +} + +// Returns the final chrmatic adaptation from illuminant FromIll to Illuminant ToIll +// The cone matrix can be specified in ConeMatrix. If NULL, Bradford is assumed +cmsBool _cmsAdaptationMatrix(cmsMAT3* r, const cmsMAT3* ConeMatrix, const cmsCIEXYZ* FromIll, const cmsCIEXYZ* ToIll) +{ + cmsMAT3 LamRigg = {{ // Bradford matrix + {{ 0.8951, 0.2664, -0.1614 }}, + {{ -0.7502, 1.7135, 0.0367 }}, + {{ 0.0389, -0.0685, 1.0296 }} + }}; + + if (ConeMatrix == NULL) + ConeMatrix = &LamRigg; + + return ComputeChromaticAdaptation(r, FromIll, ToIll, ConeMatrix); +} + +// Same as anterior, but assuming D50 destination. White point is given in xyY +static +cmsBool _cmsAdaptMatrixToD50(cmsMAT3* r, const cmsCIExyY* SourceWhitePt) +{ + cmsCIEXYZ Dn; + cmsMAT3 Bradford; + cmsMAT3 Tmp; + + cmsxyY2XYZ(&Dn, SourceWhitePt); + + if (!_cmsAdaptationMatrix(&Bradford, NULL, &Dn, cmsD50_XYZ())) return FALSE; + + Tmp = *r; + _cmsMAT3per(r, &Bradford, &Tmp); + + return TRUE; +} + +// Build a White point, primary chromas transfer matrix from RGB to CIE XYZ +// This is just an approximation, I am not handling all the non-linear +// aspects of the RGB to XYZ process, and assumming that the gamma correction +// has transitive property in the tranformation chain. +// +// the alghoritm: +// +// - First I build the absolute conversion matrix using +// primaries in XYZ. This matrix is next inverted +// - Then I eval the source white point across this matrix +// obtaining the coeficients of the transformation +// - Then, I apply these coeficients to the original matrix +// +cmsBool _cmsBuildRGB2XYZtransferMatrix(cmsMAT3* r, const cmsCIExyY* WhitePt, const cmsCIExyYTRIPLE* Primrs) +{ + cmsVEC3 WhitePoint, Coef; + cmsMAT3 Result, Primaries; + cmsFloat64Number xn, yn; + cmsFloat64Number xr, yr; + cmsFloat64Number xg, yg; + cmsFloat64Number xb, yb; + + xn = WhitePt -> x; + yn = WhitePt -> y; + xr = Primrs -> Red.x; + yr = Primrs -> Red.y; + xg = Primrs -> Green.x; + yg = Primrs -> Green.y; + xb = Primrs -> Blue.x; + yb = Primrs -> Blue.y; + + // Build Primaries matrix + _cmsVEC3init(&Primaries.v[0], xr, xg, xb); + _cmsVEC3init(&Primaries.v[1], yr, yg, yb); + _cmsVEC3init(&Primaries.v[2], (1-xr-yr), (1-xg-yg), (1-xb-yb)); + + + // Result = Primaries ^ (-1) inverse matrix + if (!_cmsMAT3inverse(&Primaries, &Result)) + return FALSE; + + + _cmsVEC3init(&WhitePoint, xn/yn, 1.0, (1.0-xn-yn)/yn); + + // Across inverse primaries ... + _cmsMAT3eval(&Coef, &Result, &WhitePoint); + + // Give us the Coefs, then I build transformation matrix + _cmsVEC3init(&r -> v[0], Coef.n[VX]*xr, Coef.n[VY]*xg, Coef.n[VZ]*xb); + _cmsVEC3init(&r -> v[1], Coef.n[VX]*yr, Coef.n[VY]*yg, Coef.n[VZ]*yb); + _cmsVEC3init(&r -> v[2], Coef.n[VX]*(1.0-xr-yr), Coef.n[VY]*(1.0-xg-yg), Coef.n[VZ]*(1.0-xb-yb)); + + + return _cmsAdaptMatrixToD50(r, WhitePt); + +} + + +// Adapts a color to a given illuminant. Original color is expected to have +// a SourceWhitePt white point. +cmsBool CMSEXPORT cmsAdaptToIlluminant(cmsCIEXYZ* Result, + const cmsCIEXYZ* SourceWhitePt, + const cmsCIEXYZ* Illuminant, + const cmsCIEXYZ* Value) +{ + cmsMAT3 Bradford; + cmsVEC3 In, Out; + + _cmsAssert(Result != NULL); + _cmsAssert(SourceWhitePt != NULL); + _cmsAssert(Illuminant != NULL); + _cmsAssert(Value != NULL); + + if (!_cmsAdaptationMatrix(&Bradford, NULL, SourceWhitePt, Illuminant)) return FALSE; + + _cmsVEC3init(&In, Value -> X, Value -> Y, Value -> Z); + _cmsMAT3eval(&Out, &Bradford, &In); + + Result -> X = Out.n[0]; + Result -> Y = Out.n[1]; + Result -> Z = Out.n[2]; + + return TRUE; +} + + Index: sdk/lib/3rdparty/lcms2/cmsxform.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsxform.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsxform.c (working copy) @@ -0,0 +1,1328 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Transformations stuff +// ----------------------------------------------------------------------- + +#define DEFAULT_OBSERVER_ADAPTATION_STATE 1.0 + +// The Context0 observer adaptation state. +_cmsAdaptationStateChunkType _cmsAdaptationStateChunk = { DEFAULT_OBSERVER_ADAPTATION_STATE }; + +// Init and duplicate observer adaptation state +void _cmsAllocAdaptationStateChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + static _cmsAdaptationStateChunkType AdaptationStateChunk = { DEFAULT_OBSERVER_ADAPTATION_STATE }; + void* from; + + if (src != NULL) { + from = src ->chunks[AdaptationStateContext]; + } + else { + from = &AdaptationStateChunk; + } + + ctx ->chunks[AdaptationStateContext] = _cmsSubAllocDup(ctx ->MemPool, from, sizeof(_cmsAdaptationStateChunkType)); +} + + +// Sets adaptation state for absolute colorimetric intent in the given context. Adaptation state applies on all +// but cmsCreateExtendedTransformTHR(). Little CMS can handle incomplete adaptation states. +cmsFloat64Number CMSEXPORT cmsSetAdaptationStateTHR(cmsContext ContextID, cmsFloat64Number d) +{ + cmsFloat64Number prev; + _cmsAdaptationStateChunkType* ptr = (_cmsAdaptationStateChunkType*) _cmsContextGetClientChunk(ContextID, AdaptationStateContext); + + // Get previous value for return + prev = ptr ->AdaptationState; + + // Set the value if d is positive or zero + if (d >= 0.0) { + + ptr ->AdaptationState = d; + } + + // Always return previous value + return prev; +} + + +// The adaptation state may be defaulted by this function. If you don't like it, use the extended transform routine +cmsFloat64Number CMSEXPORT cmsSetAdaptationState(cmsFloat64Number d) +{ + return cmsSetAdaptationStateTHR(NULL, d); +} + +// ----------------------------------------------------------------------- + +// Alarm codes for 16-bit transformations, because the fixed range of containers there are +// no values left to mark out of gamut. + +#define DEFAULT_ALARM_CODES_VALUE {0x7F00, 0x7F00, 0x7F00, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} + +_cmsAlarmCodesChunkType _cmsAlarmCodesChunk = { DEFAULT_ALARM_CODES_VALUE }; + +// Sets the codes used to mark out-out-gamut on Proofing transforms for a given context. Values are meant to be +// encoded in 16 bits. +void CMSEXPORT cmsSetAlarmCodesTHR(cmsContext ContextID, const cmsUInt16Number AlarmCodesP[cmsMAXCHANNELS]) +{ + _cmsAlarmCodesChunkType* ContextAlarmCodes = (_cmsAlarmCodesChunkType*) _cmsContextGetClientChunk(ContextID, AlarmCodesContext); + + _cmsAssert(ContextAlarmCodes != NULL); // Can't happen + + memcpy(ContextAlarmCodes->AlarmCodes, AlarmCodesP, sizeof(ContextAlarmCodes->AlarmCodes)); +} + +// Gets the current codes used to mark out-out-gamut on Proofing transforms for the given context. +// Values are meant to be encoded in 16 bits. +void CMSEXPORT cmsGetAlarmCodesTHR(cmsContext ContextID, cmsUInt16Number AlarmCodesP[cmsMAXCHANNELS]) +{ + _cmsAlarmCodesChunkType* ContextAlarmCodes = (_cmsAlarmCodesChunkType*) _cmsContextGetClientChunk(ContextID, AlarmCodesContext); + + _cmsAssert(ContextAlarmCodes != NULL); // Can't happen + + memcpy(AlarmCodesP, ContextAlarmCodes->AlarmCodes, sizeof(ContextAlarmCodes->AlarmCodes)); +} + +void CMSEXPORT cmsSetAlarmCodes(const cmsUInt16Number NewAlarm[cmsMAXCHANNELS]) +{ + _cmsAssert(NewAlarm != NULL); + + cmsSetAlarmCodesTHR(NULL, NewAlarm); +} + +void CMSEXPORT cmsGetAlarmCodes(cmsUInt16Number OldAlarm[cmsMAXCHANNELS]) +{ + _cmsAssert(OldAlarm != NULL); + cmsGetAlarmCodesTHR(NULL, OldAlarm); +} + + +// Init and duplicate alarm codes +void _cmsAllocAlarmCodesChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + static _cmsAlarmCodesChunkType AlarmCodesChunk = { DEFAULT_ALARM_CODES_VALUE }; + void* from; + + if (src != NULL) { + from = src ->chunks[AlarmCodesContext]; + } + else { + from = &AlarmCodesChunk; + } + + ctx ->chunks[AlarmCodesContext] = _cmsSubAllocDup(ctx ->MemPool, from, sizeof(_cmsAlarmCodesChunkType)); +} + +// ----------------------------------------------------------------------- + +// Get rid of transform resources +void CMSEXPORT cmsDeleteTransform(cmsHTRANSFORM hTransform) +{ + _cmsTRANSFORM* p = (_cmsTRANSFORM*) hTransform; + + _cmsAssert(p != NULL); + + if (p -> GamutCheck) + cmsPipelineFree(p -> GamutCheck); + + if (p -> Lut) + cmsPipelineFree(p -> Lut); + + if (p ->InputColorant) + cmsFreeNamedColorList(p ->InputColorant); + + if (p -> OutputColorant) + cmsFreeNamedColorList(p ->OutputColorant); + + if (p ->Sequence) + cmsFreeProfileSequenceDescription(p ->Sequence); + + if (p ->UserData) + p ->FreeUserData(p ->ContextID, p ->UserData); + + _cmsFree(p ->ContextID, (void *) p); +} + +// Apply transform. +void CMSEXPORT cmsDoTransform(cmsHTRANSFORM Transform, + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number Size) + +{ + _cmsTRANSFORM* p = (_cmsTRANSFORM*) Transform; + cmsStride stride; + + stride.BytesPerLineIn = 0; // Not used + stride.BytesPerLineOut = 0; + stride.BytesPerPlaneIn = Size; + stride.BytesPerPlaneOut = Size; + + p -> xform(p, InputBuffer, OutputBuffer, Size, 1, &stride); +} + + +// This is a legacy stride for planar +void CMSEXPORT cmsDoTransformStride(cmsHTRANSFORM Transform, + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number Size, cmsUInt32Number Stride) + +{ + _cmsTRANSFORM* p = (_cmsTRANSFORM*) Transform; + cmsStride stride; + + stride.BytesPerLineIn = 0; + stride.BytesPerLineOut = 0; + stride.BytesPerPlaneIn = Stride; + stride.BytesPerPlaneOut = Stride; + + p -> xform(p, InputBuffer, OutputBuffer, Size, 1, &stride); +} + +// This is the "fast" function for plugins +void CMSEXPORT cmsDoTransformLineStride(cmsHTRANSFORM Transform, + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + cmsUInt32Number BytesPerLineIn, + cmsUInt32Number BytesPerLineOut, + cmsUInt32Number BytesPerPlaneIn, + cmsUInt32Number BytesPerPlaneOut) + +{ + _cmsTRANSFORM* p = (_cmsTRANSFORM*) Transform; + cmsStride stride; + + stride.BytesPerLineIn = BytesPerLineIn; + stride.BytesPerLineOut = BytesPerLineOut; + stride.BytesPerPlaneIn = BytesPerPlaneIn; + stride.BytesPerPlaneOut = BytesPerPlaneOut; + + p->xform(p, InputBuffer, OutputBuffer, PixelsPerLine, LineCount, &stride); +} + + + +// Transform routines ---------------------------------------------------------------------------------------------------------- + +// Float xform converts floats. Since there are no performance issues, one routine does all job, including gamut check. +// Note that because extended range, we can use a -1.0 value for out of gamut in this case. +static +void FloatXFORM(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + cmsUInt8Number* accum; + cmsUInt8Number* output; + cmsFloat32Number fIn[cmsMAXCHANNELS], fOut[cmsMAXCHANNELS]; + cmsFloat32Number OutOfGamut; + cmsUInt32Number i, j, c, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*)in + strideIn; + output = (cmsUInt8Number*)out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInputFloat(p, fIn, accum, Stride->BytesPerPlaneIn); + + // Any gamut chack to do? + if (p->GamutCheck != NULL) { + + // Evaluate gamut marker. + cmsPipelineEvalFloat(fIn, &OutOfGamut, p->GamutCheck); + + // Is current color out of gamut? + if (OutOfGamut > 0.0) { + + // Certainly, out of gamut + for (c = 0; c < cmsMAXCHANNELS; c++) + fOut[c] = -1.0; + + } + else { + // No, proceed normally + cmsPipelineEvalFloat(fIn, fOut, p->Lut); + } + } + else { + + // No gamut check at all + cmsPipelineEvalFloat(fIn, fOut, p->Lut); + } + + + output = p->ToOutputFloat(p, fOut, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } + +} + + +static +void NullFloatXFORM(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) + +{ + cmsUInt8Number* accum; + cmsUInt8Number* output; + cmsFloat32Number fIn[cmsMAXCHANNELS]; + cmsUInt32Number i, j, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*) in + strideIn; + output = (cmsUInt8Number*) out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInputFloat(p, fIn, accum, Stride ->BytesPerPlaneIn); + output = p->ToOutputFloat(p, fIn, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } +} + +// 16 bit precision ----------------------------------------------------------------------------------------------------------- + +// Null transformation, only applies formatters. No caché +static +void NullXFORM(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + cmsUInt8Number* accum; + cmsUInt8Number* output; + cmsUInt16Number wIn[cmsMAXCHANNELS]; + cmsUInt32Number i, j, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*)in + strideIn; + output = (cmsUInt8Number*)out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInput(p, wIn, accum, Stride->BytesPerPlaneIn); + output = p->ToOutput(p, wIn, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } + +} + + +// No gamut check, no cache, 16 bits +static +void PrecalculatedXFORM(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + register cmsUInt8Number* accum; + register cmsUInt8Number* output; + cmsUInt16Number wIn[cmsMAXCHANNELS], wOut[cmsMAXCHANNELS]; + cmsUInt32Number i, j, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*)in + strideIn; + output = (cmsUInt8Number*)out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInput(p, wIn, accum, Stride->BytesPerPlaneIn); + p->Lut->Eval16Fn(wIn, wOut, p->Lut->Data); + output = p->ToOutput(p, wOut, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } + +} + + +// Auxiliary: Handle precalculated gamut check. The retrieval of context may be alittle bit slow, but this function is not critical. +static +void TransformOnePixelWithGamutCheck(_cmsTRANSFORM* p, + const cmsUInt16Number wIn[], + cmsUInt16Number wOut[]) +{ + cmsUInt16Number wOutOfGamut; + + p ->GamutCheck ->Eval16Fn(wIn, &wOutOfGamut, p ->GamutCheck ->Data); + if (wOutOfGamut >= 1) { + + cmsUInt16Number i; + _cmsAlarmCodesChunkType* ContextAlarmCodes = (_cmsAlarmCodesChunkType*) _cmsContextGetClientChunk(p->ContextID, AlarmCodesContext); + + for (i=0; i < p ->Lut->OutputChannels; i++) { + + wOut[i] = ContextAlarmCodes ->AlarmCodes[i]; + } + } + else + p ->Lut ->Eval16Fn(wIn, wOut, p -> Lut->Data); +} + +// Gamut check, No caché, 16 bits. +static +void PrecalculatedXFORMGamutCheck(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + cmsUInt8Number* accum; + cmsUInt8Number* output; + cmsUInt16Number wIn[cmsMAXCHANNELS], wOut[cmsMAXCHANNELS]; + cmsUInt32Number i, j, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*)in + strideIn; + output = (cmsUInt8Number*)out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInput(p, wIn, accum, Stride->BytesPerPlaneIn); + TransformOnePixelWithGamutCheck(p, wIn, wOut); + output = p->ToOutput(p, wOut, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } +} + + +// No gamut check, Caché, 16 bits, +static +void CachedXFORM(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + cmsUInt8Number* accum; + cmsUInt8Number* output; + cmsUInt16Number wIn[cmsMAXCHANNELS], wOut[cmsMAXCHANNELS]; + _cmsCACHE Cache; + cmsUInt32Number i, j, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + // Empty buffers for quick memcmp + memset(wIn, 0, sizeof(wIn)); + memset(wOut, 0, sizeof(wOut)); + + // Get copy of zero cache + memcpy(&Cache, &p->Cache, sizeof(Cache)); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*)in + strideIn; + output = (cmsUInt8Number*)out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInput(p, wIn, accum, Stride->BytesPerPlaneIn); + + if (memcmp(wIn, Cache.CacheIn, sizeof(Cache.CacheIn)) == 0) { + + memcpy(wOut, Cache.CacheOut, sizeof(Cache.CacheOut)); + } + else { + p->Lut->Eval16Fn(wIn, wOut, p->Lut->Data); + + memcpy(Cache.CacheIn, wIn, sizeof(Cache.CacheIn)); + memcpy(Cache.CacheOut, wOut, sizeof(Cache.CacheOut)); + } + + output = p->ToOutput(p, wOut, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } +} + +// All those nice features together +static +void CachedXFORMGamutCheck(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + cmsUInt8Number* accum; + cmsUInt8Number* output; + cmsUInt16Number wIn[cmsMAXCHANNELS], wOut[cmsMAXCHANNELS]; + _cmsCACHE Cache; + cmsUInt32Number i, j, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + // Empty buffers for quick memcmp + memset(wIn, 0, sizeof(wIn)); + memset(wOut, 0, sizeof(wOut)); + + // Get copy of zero cache + memcpy(&Cache, &p->Cache, sizeof(Cache)); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*)in + strideIn; + output = (cmsUInt8Number*)out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInput(p, wIn, accum, Stride->BytesPerPlaneIn); + + if (memcmp(wIn, Cache.CacheIn, sizeof(Cache.CacheIn)) == 0) { + + memcpy(wOut, Cache.CacheOut, sizeof(Cache.CacheOut)); + } + else { + TransformOnePixelWithGamutCheck(p, wIn, wOut); + + memcpy(Cache.CacheIn, wIn, sizeof(Cache.CacheIn)); + memcpy(Cache.CacheOut, wOut, sizeof(Cache.CacheOut)); + } + + output = p->ToOutput(p, wOut, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } +} + +// Transform plug-ins ---------------------------------------------------------------------------------------------------- + +// List of used-defined transform factories +typedef struct _cmsTransformCollection_st { + + _cmsTransform2Factory Factory; + cmsBool OldXform; // Factory returns xform function in the old style + + struct _cmsTransformCollection_st *Next; + +} _cmsTransformCollection; + +// The linked list head +_cmsTransformPluginChunkType _cmsTransformPluginChunk = { NULL }; + + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupPluginTransformList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsTransformPluginChunkType newHead = { NULL }; + _cmsTransformCollection* entry; + _cmsTransformCollection* Anterior = NULL; + _cmsTransformPluginChunkType* head = (_cmsTransformPluginChunkType*) src->chunks[TransformPlugin]; + + // Walk the list copying all nodes + for (entry = head->TransformCollection; + entry != NULL; + entry = entry ->Next) { + + _cmsTransformCollection *newEntry = ( _cmsTransformCollection *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(_cmsTransformCollection)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.TransformCollection == NULL) + newHead.TransformCollection = newEntry; + } + + ctx ->chunks[TransformPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsTransformPluginChunkType)); +} + +// Allocates memory for transform plugin factory +void _cmsAllocTransformPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + // Copy all linked list + DupPluginTransformList(ctx, src); + } + else { + static _cmsTransformPluginChunkType TransformPluginChunkType = { NULL }; + ctx ->chunks[TransformPlugin] = _cmsSubAllocDup(ctx ->MemPool, &TransformPluginChunkType, sizeof(_cmsTransformPluginChunkType)); + } +} + +// Adaptor for old versions of plug-in +static +void _cmsTransform2toTransformAdaptor(struct _cmstransform_struct *CMMcargo, + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + + cmsUInt32Number i, strideIn, strideOut; + + _cmsHandleExtraChannels(CMMcargo, InputBuffer, OutputBuffer, PixelsPerLine, LineCount, Stride); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + void *accum = (cmsUInt8Number*)InputBuffer + strideIn; + void *output = (cmsUInt8Number*)OutputBuffer + strideOut; + + CMMcargo->OldXform(CMMcargo, accum, output, PixelsPerLine, Stride->BytesPerPlaneIn); + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } +} + + + +// Register new ways to transform +cmsBool _cmsRegisterTransformPlugin(cmsContext ContextID, cmsPluginBase* Data) +{ + cmsPluginTransform* Plugin = (cmsPluginTransform*) Data; + _cmsTransformCollection* fl; + _cmsTransformPluginChunkType* ctx = ( _cmsTransformPluginChunkType*) _cmsContextGetClientChunk(ContextID,TransformPlugin); + + if (Data == NULL) { + + // Free the chain. Memory is safely freed at exit + ctx->TransformCollection = NULL; + return TRUE; + } + + // Factory callback is required + if (Plugin->factories.xform == NULL) return FALSE; + + + fl = (_cmsTransformCollection*) _cmsPluginMalloc(ContextID, sizeof(_cmsTransformCollection)); + if (fl == NULL) return FALSE; + + // Check for full xform plug-ins previous to 2.8, we would need an adapter in that case + if (Plugin->base.ExpectedVersion < 2080) { + + fl->OldXform = TRUE; + } + else + fl->OldXform = FALSE; + + // Copy the parameters + fl->Factory = Plugin->factories.xform; + + // Keep linked list + fl ->Next = ctx->TransformCollection; + ctx->TransformCollection = fl; + + // All is ok + return TRUE; +} + + +void CMSEXPORT _cmsSetTransformUserData(struct _cmstransform_struct *CMMcargo, void* ptr, _cmsFreeUserDataFn FreePrivateDataFn) +{ + _cmsAssert(CMMcargo != NULL); + CMMcargo ->UserData = ptr; + CMMcargo ->FreeUserData = FreePrivateDataFn; +} + +// returns the pointer defined by the plug-in to store private data +void * CMSEXPORT _cmsGetTransformUserData(struct _cmstransform_struct *CMMcargo) +{ + _cmsAssert(CMMcargo != NULL); + return CMMcargo ->UserData; +} + +// returns the current formatters +void CMSEXPORT _cmsGetTransformFormatters16(struct _cmstransform_struct *CMMcargo, cmsFormatter16* FromInput, cmsFormatter16* ToOutput) +{ + _cmsAssert(CMMcargo != NULL); + if (FromInput) *FromInput = CMMcargo ->FromInput; + if (ToOutput) *ToOutput = CMMcargo ->ToOutput; +} + +void CMSEXPORT _cmsGetTransformFormattersFloat(struct _cmstransform_struct *CMMcargo, cmsFormatterFloat* FromInput, cmsFormatterFloat* ToOutput) +{ + _cmsAssert(CMMcargo != NULL); + if (FromInput) *FromInput = CMMcargo ->FromInputFloat; + if (ToOutput) *ToOutput = CMMcargo ->ToOutputFloat; +} + + +// Allocate transform struct and set it to defaults. Ask the optimization plug-in about if those formats are proper +// for separated transforms. If this is the case, +static +_cmsTRANSFORM* AllocEmptyTransform(cmsContext ContextID, cmsPipeline* lut, + cmsUInt32Number Intent, cmsUInt32Number* InputFormat, cmsUInt32Number* OutputFormat, cmsUInt32Number* dwFlags) +{ + _cmsTransformPluginChunkType* ctx = ( _cmsTransformPluginChunkType*) _cmsContextGetClientChunk(ContextID, TransformPlugin); + _cmsTransformCollection* Plugin; + + // Allocate needed memory + _cmsTRANSFORM* p = (_cmsTRANSFORM*)_cmsMallocZero(ContextID, sizeof(_cmsTRANSFORM)); + if (!p) return NULL; + + // Store the proposed pipeline + p->Lut = lut; + + // Let's see if any plug-in want to do the transform by itself + if (p->Lut != NULL) { + + for (Plugin = ctx->TransformCollection; + Plugin != NULL; + Plugin = Plugin->Next) { + + if (Plugin->Factory(&p->xform, &p->UserData, &p->FreeUserData, &p->Lut, InputFormat, OutputFormat, dwFlags)) { + + // Last plugin in the declaration order takes control. We just keep + // the original parameters as a logging. + // Note that cmsFLAGS_CAN_CHANGE_FORMATTER is not set, so by default + // an optimized transform is not reusable. The plug-in can, however, change + // the flags and make it suitable. + + p->ContextID = ContextID; + p->InputFormat = *InputFormat; + p->OutputFormat = *OutputFormat; + p->dwOriginalFlags = *dwFlags; + + // Fill the formatters just in case the optimized routine is interested. + // No error is thrown if the formatter doesn't exist. It is up to the optimization + // factory to decide what to do in those cases. + p->FromInput = _cmsGetFormatter(ContextID, *InputFormat, cmsFormatterInput, CMS_PACK_FLAGS_16BITS).Fmt16; + p->ToOutput = _cmsGetFormatter(ContextID, *OutputFormat, cmsFormatterOutput, CMS_PACK_FLAGS_16BITS).Fmt16; + p->FromInputFloat = _cmsGetFormatter(ContextID, *InputFormat, cmsFormatterInput, CMS_PACK_FLAGS_FLOAT).FmtFloat; + p->ToOutputFloat = _cmsGetFormatter(ContextID, *OutputFormat, cmsFormatterOutput, CMS_PACK_FLAGS_FLOAT).FmtFloat; + + // Save the day? + if (Plugin->OldXform) { + p->OldXform = (_cmsTransformFn) p->xform; + p->xform = _cmsTransform2toTransformAdaptor; + } + + return p; + } + } + + // Not suitable for the transform plug-in, let's check the pipeline plug-in + _cmsOptimizePipeline(ContextID, &p->Lut, Intent, InputFormat, OutputFormat, dwFlags); + } + + // Check whatever this is a true floating point transform + if (_cmsFormatterIsFloat(*InputFormat) && _cmsFormatterIsFloat(*OutputFormat)) { + + // Get formatter function always return a valid union, but the contents of this union may be NULL. + p ->FromInputFloat = _cmsGetFormatter(ContextID, *InputFormat, cmsFormatterInput, CMS_PACK_FLAGS_FLOAT).FmtFloat; + p ->ToOutputFloat = _cmsGetFormatter(ContextID, *OutputFormat, cmsFormatterOutput, CMS_PACK_FLAGS_FLOAT).FmtFloat; + *dwFlags |= cmsFLAGS_CAN_CHANGE_FORMATTER; + + if (p ->FromInputFloat == NULL || p ->ToOutputFloat == NULL) { + + cmsSignalError(ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported raster format"); + _cmsFree(ContextID, p); + return NULL; + } + + if (*dwFlags & cmsFLAGS_NULLTRANSFORM) { + + p ->xform = NullFloatXFORM; + } + else { + // Float transforms don't use caché, always are non-NULL + p ->xform = FloatXFORM; + } + + } + else { + + if (*InputFormat == 0 && *OutputFormat == 0) { + p ->FromInput = p ->ToOutput = NULL; + *dwFlags |= cmsFLAGS_CAN_CHANGE_FORMATTER; + } + else { + + int BytesPerPixelInput; + + p ->FromInput = _cmsGetFormatter(ContextID, *InputFormat, cmsFormatterInput, CMS_PACK_FLAGS_16BITS).Fmt16; + p ->ToOutput = _cmsGetFormatter(ContextID, *OutputFormat, cmsFormatterOutput, CMS_PACK_FLAGS_16BITS).Fmt16; + + if (p ->FromInput == NULL || p ->ToOutput == NULL) { + + cmsSignalError(ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported raster format"); + _cmsFree(ContextID, p); + return NULL; + } + + BytesPerPixelInput = T_BYTES(p ->InputFormat); + if (BytesPerPixelInput == 0 || BytesPerPixelInput >= 2) + *dwFlags |= cmsFLAGS_CAN_CHANGE_FORMATTER; + + } + + if (*dwFlags & cmsFLAGS_NULLTRANSFORM) { + + p ->xform = NullXFORM; + } + else { + if (*dwFlags & cmsFLAGS_NOCACHE) { + + if (*dwFlags & cmsFLAGS_GAMUTCHECK) + p ->xform = PrecalculatedXFORMGamutCheck; // Gamut check, no caché + else + p ->xform = PrecalculatedXFORM; // No caché, no gamut check + } + else { + + if (*dwFlags & cmsFLAGS_GAMUTCHECK) + p ->xform = CachedXFORMGamutCheck; // Gamut check, caché + else + p ->xform = CachedXFORM; // No gamut check, caché + + } + } + } + + p ->InputFormat = *InputFormat; + p ->OutputFormat = *OutputFormat; + p ->dwOriginalFlags = *dwFlags; + p ->ContextID = ContextID; + p ->UserData = NULL; + return p; +} + +static +cmsBool GetXFormColorSpaces(int nProfiles, cmsHPROFILE hProfiles[], cmsColorSpaceSignature* Input, cmsColorSpaceSignature* Output) +{ + cmsColorSpaceSignature ColorSpaceIn, ColorSpaceOut; + cmsColorSpaceSignature PostColorSpace; + int i; + + if (nProfiles <= 0) return FALSE; + if (hProfiles[0] == NULL) return FALSE; + + *Input = PostColorSpace = cmsGetColorSpace(hProfiles[0]); + + for (i=0; i < nProfiles; i++) { + + cmsProfileClassSignature cls; + cmsHPROFILE hProfile = hProfiles[i]; + + int lIsInput = (PostColorSpace != cmsSigXYZData) && + (PostColorSpace != cmsSigLabData); + + if (hProfile == NULL) return FALSE; + + cls = cmsGetDeviceClass(hProfile); + + if (cls == cmsSigNamedColorClass) { + + ColorSpaceIn = cmsSig1colorData; + ColorSpaceOut = (nProfiles > 1) ? cmsGetPCS(hProfile) : cmsGetColorSpace(hProfile); + } + else + if (lIsInput || (cls == cmsSigLinkClass)) { + + ColorSpaceIn = cmsGetColorSpace(hProfile); + ColorSpaceOut = cmsGetPCS(hProfile); + } + else + { + ColorSpaceIn = cmsGetPCS(hProfile); + ColorSpaceOut = cmsGetColorSpace(hProfile); + } + + if (i==0) + *Input = ColorSpaceIn; + + PostColorSpace = ColorSpaceOut; + } + + *Output = PostColorSpace; + + return TRUE; +} + +// Check colorspace +static +cmsBool IsProperColorSpace(cmsColorSpaceSignature Check, cmsUInt32Number dwFormat) +{ + int Space1 = T_COLORSPACE(dwFormat); + int Space2 = _cmsLCMScolorSpace(Check); + + if (Space1 == PT_ANY) return TRUE; + if (Space1 == Space2) return TRUE; + + if (Space1 == PT_LabV2 && Space2 == PT_Lab) return TRUE; + if (Space1 == PT_Lab && Space2 == PT_LabV2) return TRUE; + + return FALSE; +} + +// ---------------------------------------------------------------------------------------------------------------- + +// Jun-21-2000: Some profiles (those that comes with W2K) comes +// with the media white (media black?) x 100. Add a sanity check + +static +void NormalizeXYZ(cmsCIEXYZ* Dest) +{ + while (Dest -> X > 2. && + Dest -> Y > 2. && + Dest -> Z > 2.) { + + Dest -> X /= 10.; + Dest -> Y /= 10.; + Dest -> Z /= 10.; + } +} + +static +void SetWhitePoint(cmsCIEXYZ* wtPt, const cmsCIEXYZ* src) +{ + if (src == NULL) { + wtPt ->X = cmsD50X; + wtPt ->Y = cmsD50Y; + wtPt ->Z = cmsD50Z; + } + else { + wtPt ->X = src->X; + wtPt ->Y = src->Y; + wtPt ->Z = src->Z; + + NormalizeXYZ(wtPt); + } + +} + +// New to lcms 2.0 -- have all parameters available. +cmsHTRANSFORM CMSEXPORT cmsCreateExtendedTransform(cmsContext ContextID, + cmsUInt32Number nProfiles, cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsUInt32Number Intents[], + cmsFloat64Number AdaptationStates[], + cmsHPROFILE hGamutProfile, + cmsUInt32Number nGamutPCSposition, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + cmsUInt32Number dwFlags) +{ + _cmsTRANSFORM* xform; + cmsColorSpaceSignature EntryColorSpace; + cmsColorSpaceSignature ExitColorSpace; + cmsPipeline* Lut; + cmsUInt32Number LastIntent = Intents[nProfiles-1]; + + // If it is a fake transform + if (dwFlags & cmsFLAGS_NULLTRANSFORM) + { + return AllocEmptyTransform(ContextID, NULL, INTENT_PERCEPTUAL, &InputFormat, &OutputFormat, &dwFlags); + } + + // If gamut check is requested, make sure we have a gamut profile + if (dwFlags & cmsFLAGS_GAMUTCHECK) { + if (hGamutProfile == NULL) dwFlags &= ~cmsFLAGS_GAMUTCHECK; + } + + // On floating point transforms, inhibit cache + if (_cmsFormatterIsFloat(InputFormat) || _cmsFormatterIsFloat(OutputFormat)) + dwFlags |= cmsFLAGS_NOCACHE; + + // Mark entry/exit spaces + if (!GetXFormColorSpaces(nProfiles, hProfiles, &EntryColorSpace, &ExitColorSpace)) { + cmsSignalError(ContextID, cmsERROR_NULL, "NULL input profiles on transform"); + return NULL; + } + + // Check if proper colorspaces + if (!IsProperColorSpace(EntryColorSpace, InputFormat)) { + cmsSignalError(ContextID, cmsERROR_COLORSPACE_CHECK, "Wrong input color space on transform"); + return NULL; + } + + if (!IsProperColorSpace(ExitColorSpace, OutputFormat)) { + cmsSignalError(ContextID, cmsERROR_COLORSPACE_CHECK, "Wrong output color space on transform"); + return NULL; + } + + // Create a pipeline with all transformations + Lut = _cmsLinkProfiles(ContextID, nProfiles, Intents, hProfiles, BPC, AdaptationStates, dwFlags); + if (Lut == NULL) { + cmsSignalError(ContextID, cmsERROR_NOT_SUITABLE, "Couldn't link the profiles"); + return NULL; + } + + // Check channel count + if ((cmsChannelsOf(EntryColorSpace) != cmsPipelineInputChannels(Lut)) || + (cmsChannelsOf(ExitColorSpace) != cmsPipelineOutputChannels(Lut))) { + cmsPipelineFree(Lut); + cmsSignalError(ContextID, cmsERROR_NOT_SUITABLE, "Channel count doesn't match. Profile is corrupted"); + return NULL; + } + + + // All seems ok + xform = AllocEmptyTransform(ContextID, Lut, LastIntent, &InputFormat, &OutputFormat, &dwFlags); + if (xform == NULL) { + return NULL; + } + + // Keep values + xform ->EntryColorSpace = EntryColorSpace; + xform ->ExitColorSpace = ExitColorSpace; + xform ->RenderingIntent = Intents[nProfiles-1]; + + // Take white points + SetWhitePoint(&xform->EntryWhitePoint, (cmsCIEXYZ*) cmsReadTag(hProfiles[0], cmsSigMediaWhitePointTag)); + SetWhitePoint(&xform->ExitWhitePoint, (cmsCIEXYZ*) cmsReadTag(hProfiles[nProfiles-1], cmsSigMediaWhitePointTag)); + + + // Create a gamut check LUT if requested + if (hGamutProfile != NULL && (dwFlags & cmsFLAGS_GAMUTCHECK)) + xform ->GamutCheck = _cmsCreateGamutCheckPipeline(ContextID, hProfiles, + BPC, Intents, + AdaptationStates, + nGamutPCSposition, + hGamutProfile); + + + // Try to read input and output colorant table + if (cmsIsTag(hProfiles[0], cmsSigColorantTableTag)) { + + // Input table can only come in this way. + xform ->InputColorant = cmsDupNamedColorList((cmsNAMEDCOLORLIST*) cmsReadTag(hProfiles[0], cmsSigColorantTableTag)); + } + + // Output is a little bit more complex. + if (cmsGetDeviceClass(hProfiles[nProfiles-1]) == cmsSigLinkClass) { + + // This tag may exist only on devicelink profiles. + if (cmsIsTag(hProfiles[nProfiles-1], cmsSigColorantTableOutTag)) { + + // It may be NULL if error + xform ->OutputColorant = cmsDupNamedColorList((cmsNAMEDCOLORLIST*) cmsReadTag(hProfiles[nProfiles-1], cmsSigColorantTableOutTag)); + } + + } else { + + if (cmsIsTag(hProfiles[nProfiles-1], cmsSigColorantTableTag)) { + + xform -> OutputColorant = cmsDupNamedColorList((cmsNAMEDCOLORLIST*) cmsReadTag(hProfiles[nProfiles-1], cmsSigColorantTableTag)); + } + } + + // Store the sequence of profiles + if (dwFlags & cmsFLAGS_KEEP_SEQUENCE) { + xform ->Sequence = _cmsCompileProfileSequence(ContextID, nProfiles, hProfiles); + } + else + xform ->Sequence = NULL; + + // If this is a cached transform, init first value, which is zero (16 bits only) + if (!(dwFlags & cmsFLAGS_NOCACHE)) { + + memset(&xform ->Cache.CacheIn, 0, sizeof(xform ->Cache.CacheIn)); + + if (xform ->GamutCheck != NULL) { + TransformOnePixelWithGamutCheck(xform, xform ->Cache.CacheIn, xform->Cache.CacheOut); + } + else { + + xform ->Lut ->Eval16Fn(xform ->Cache.CacheIn, xform->Cache.CacheOut, xform -> Lut->Data); + } + + } + + return (cmsHTRANSFORM) xform; +} + +// Multiprofile transforms: Gamut check is not available here, as it is unclear from which profile the gamut comes. +cmsHTRANSFORM CMSEXPORT cmsCreateMultiprofileTransformTHR(cmsContext ContextID, + cmsHPROFILE hProfiles[], + cmsUInt32Number nProfiles, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags) +{ + cmsUInt32Number i; + cmsBool BPC[256]; + cmsUInt32Number Intents[256]; + cmsFloat64Number AdaptationStates[256]; + + if (nProfiles <= 0 || nProfiles > 255) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Wrong number of profiles. 1..255 expected, %d found.", nProfiles); + return NULL; + } + + for (i=0; i < nProfiles; i++) { + BPC[i] = dwFlags & cmsFLAGS_BLACKPOINTCOMPENSATION ? TRUE : FALSE; + Intents[i] = Intent; + AdaptationStates[i] = cmsSetAdaptationStateTHR(ContextID, -1); + } + + + return cmsCreateExtendedTransform(ContextID, nProfiles, hProfiles, BPC, Intents, AdaptationStates, NULL, 0, InputFormat, OutputFormat, dwFlags); +} + + + +cmsHTRANSFORM CMSEXPORT cmsCreateMultiprofileTransform(cmsHPROFILE hProfiles[], + cmsUInt32Number nProfiles, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags) +{ + + if (nProfiles <= 0 || nProfiles > 255) { + cmsSignalError(NULL, cmsERROR_RANGE, "Wrong number of profiles. 1..255 expected, %d found.", nProfiles); + return NULL; + } + + return cmsCreateMultiprofileTransformTHR(cmsGetProfileContextID(hProfiles[0]), + hProfiles, + nProfiles, + InputFormat, + OutputFormat, + Intent, + dwFlags); +} + +cmsHTRANSFORM CMSEXPORT cmsCreateTransformTHR(cmsContext ContextID, + cmsHPROFILE Input, + cmsUInt32Number InputFormat, + cmsHPROFILE Output, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags) +{ + + cmsHPROFILE hArray[2]; + + hArray[0] = Input; + hArray[1] = Output; + + return cmsCreateMultiprofileTransformTHR(ContextID, hArray, Output == NULL ? 1 : 2, InputFormat, OutputFormat, Intent, dwFlags); +} + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateTransform(cmsHPROFILE Input, + cmsUInt32Number InputFormat, + cmsHPROFILE Output, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags) +{ + return cmsCreateTransformTHR(cmsGetProfileContextID(Input), Input, InputFormat, Output, OutputFormat, Intent, dwFlags); +} + + +cmsHTRANSFORM CMSEXPORT cmsCreateProofingTransformTHR(cmsContext ContextID, + cmsHPROFILE InputProfile, + cmsUInt32Number InputFormat, + cmsHPROFILE OutputProfile, + cmsUInt32Number OutputFormat, + cmsHPROFILE ProofingProfile, + cmsUInt32Number nIntent, + cmsUInt32Number ProofingIntent, + cmsUInt32Number dwFlags) +{ + cmsHPROFILE hArray[4]; + cmsUInt32Number Intents[4]; + cmsBool BPC[4]; + cmsFloat64Number Adaptation[4]; + cmsBool DoBPC = (dwFlags & cmsFLAGS_BLACKPOINTCOMPENSATION) ? TRUE : FALSE; + + + hArray[0] = InputProfile; hArray[1] = ProofingProfile; hArray[2] = ProofingProfile; hArray[3] = OutputProfile; + Intents[0] = nIntent; Intents[1] = nIntent; Intents[2] = INTENT_RELATIVE_COLORIMETRIC; Intents[3] = ProofingIntent; + BPC[0] = DoBPC; BPC[1] = DoBPC; BPC[2] = 0; BPC[3] = 0; + + Adaptation[0] = Adaptation[1] = Adaptation[2] = Adaptation[3] = cmsSetAdaptationStateTHR(ContextID, -1); + + if (!(dwFlags & (cmsFLAGS_SOFTPROOFING|cmsFLAGS_GAMUTCHECK))) + return cmsCreateTransformTHR(ContextID, InputProfile, InputFormat, OutputProfile, OutputFormat, nIntent, dwFlags); + + return cmsCreateExtendedTransform(ContextID, 4, hArray, BPC, Intents, Adaptation, + ProofingProfile, 1, InputFormat, OutputFormat, dwFlags); + +} + + +cmsHTRANSFORM CMSEXPORT cmsCreateProofingTransform(cmsHPROFILE InputProfile, + cmsUInt32Number InputFormat, + cmsHPROFILE OutputProfile, + cmsUInt32Number OutputFormat, + cmsHPROFILE ProofingProfile, + cmsUInt32Number nIntent, + cmsUInt32Number ProofingIntent, + cmsUInt32Number dwFlags) +{ + return cmsCreateProofingTransformTHR(cmsGetProfileContextID(InputProfile), + InputProfile, + InputFormat, + OutputProfile, + OutputFormat, + ProofingProfile, + nIntent, + ProofingIntent, + dwFlags); +} + + +// Grab the ContextID from an open transform. Returns NULL if a NULL transform is passed +cmsContext CMSEXPORT cmsGetTransformContextID(cmsHTRANSFORM hTransform) +{ + _cmsTRANSFORM* xform = (_cmsTRANSFORM*) hTransform; + + if (xform == NULL) return NULL; + return xform -> ContextID; +} + +// Grab the input/output formats +cmsUInt32Number CMSEXPORT cmsGetTransformInputFormat(cmsHTRANSFORM hTransform) +{ + _cmsTRANSFORM* xform = (_cmsTRANSFORM*) hTransform; + + if (xform == NULL) return 0; + return xform->InputFormat; +} + +cmsUInt32Number CMSEXPORT cmsGetTransformOutputFormat(cmsHTRANSFORM hTransform) +{ + _cmsTRANSFORM* xform = (_cmsTRANSFORM*) hTransform; + + if (xform == NULL) return 0; + return xform->OutputFormat; +} + +// For backwards compatibility +cmsBool CMSEXPORT cmsChangeBuffersFormat(cmsHTRANSFORM hTransform, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat) +{ + _cmsTRANSFORM* xform = (_cmsTRANSFORM*) hTransform; + cmsFormatter16 FromInput, ToOutput; + + + // We only can afford to change formatters if previous transform is at least 16 bits + if (!(xform ->dwOriginalFlags & cmsFLAGS_CAN_CHANGE_FORMATTER)) { + + cmsSignalError(xform ->ContextID, cmsERROR_NOT_SUITABLE, "cmsChangeBuffersFormat works only on transforms created originally with at least 16 bits of precision"); + return FALSE; + } + + FromInput = _cmsGetFormatter(xform->ContextID, InputFormat, cmsFormatterInput, CMS_PACK_FLAGS_16BITS).Fmt16; + ToOutput = _cmsGetFormatter(xform->ContextID, OutputFormat, cmsFormatterOutput, CMS_PACK_FLAGS_16BITS).Fmt16; + + if (FromInput == NULL || ToOutput == NULL) { + + cmsSignalError(xform -> ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported raster format"); + return FALSE; + } + + xform ->InputFormat = InputFormat; + xform ->OutputFormat = OutputFormat; + xform ->FromInput = FromInput; + xform ->ToOutput = ToOutput; + return TRUE; +} Index: sdk/lib/3rdparty/lcms2/lcms2.def =================================================================== --- sdk/lib/3rdparty/lcms2/lcms2.def (nonexistent) +++ sdk/lib/3rdparty/lcms2/lcms2.def (working copy) @@ -0,0 +1,343 @@ +LIBRARY LCMS2.DLL + +EXPORTS + +_cms15Fixed16toDouble = _cms15Fixed16toDouble +_cms8Fixed8toDouble = _cms8Fixed8toDouble +cmsAdaptToIlluminant = cmsAdaptToIlluminant +_cmsAdjustEndianess16 = _cmsAdjustEndianess16 +_cmsAdjustEndianess32 = _cmsAdjustEndianess32 +_cmsAdjustEndianess64 = _cmsAdjustEndianess64 +cmsAllocNamedColorList = cmsAllocNamedColorList +cmsAllocProfileSequenceDescription = cmsAllocProfileSequenceDescription +cmsAppendNamedColor = cmsAppendNamedColor +cmsBFDdeltaE = cmsBFDdeltaE +cmsBuildGamma = cmsBuildGamma +cmsBuildParametricToneCurve = cmsBuildParametricToneCurve +cmsBuildSegmentedToneCurve = cmsBuildSegmentedToneCurve +cmsBuildTabulatedToneCurve16 = cmsBuildTabulatedToneCurve16 +cmsBuildTabulatedToneCurveFloat = cmsBuildTabulatedToneCurveFloat +_cmsCalloc = _cmsCalloc +cmsChannelsOf = cmsChannelsOf +cmsCIE2000DeltaE = cmsCIE2000DeltaE +cmsCIE94DeltaE = cmsCIE94DeltaE +cmsCIECAM02Done = cmsCIECAM02Done +cmsCIECAM02Forward = cmsCIECAM02Forward +cmsCIECAM02Init = cmsCIECAM02Init +cmsCIECAM02Reverse = cmsCIECAM02Reverse +cmsCloseIOhandler = cmsCloseIOhandler +cmsCloseProfile = cmsCloseProfile +cmsCMCdeltaE = cmsCMCdeltaE +cmsCreate_sRGBProfile = cmsCreate_sRGBProfile +cmsCreate_sRGBProfileTHR = cmsCreate_sRGBProfileTHR +cmsCreateBCHSWabstractProfile = cmsCreateBCHSWabstractProfile +cmsCreateBCHSWabstractProfileTHR = cmsCreateBCHSWabstractProfileTHR +cmsCreateExtendedTransform = cmsCreateExtendedTransform +cmsCreateGrayProfile = cmsCreateGrayProfile +cmsCreateGrayProfileTHR = cmsCreateGrayProfileTHR +cmsCreateInkLimitingDeviceLink = cmsCreateInkLimitingDeviceLink +cmsCreateInkLimitingDeviceLinkTHR = cmsCreateInkLimitingDeviceLinkTHR +cmsCreateLab2Profile = cmsCreateLab2Profile +cmsCreateLab2ProfileTHR = cmsCreateLab2ProfileTHR +cmsCreateLab4Profile = cmsCreateLab4Profile +cmsCreateLab4ProfileTHR = cmsCreateLab4ProfileTHR +cmsCreateLinearizationDeviceLink = cmsCreateLinearizationDeviceLink +cmsCreateLinearizationDeviceLinkTHR = cmsCreateLinearizationDeviceLinkTHR +cmsCreateMultiprofileTransform = cmsCreateMultiprofileTransform +cmsCreateMultiprofileTransformTHR = cmsCreateMultiprofileTransformTHR +cmsCreateNULLProfile = cmsCreateNULLProfile +cmsCreateNULLProfileTHR = cmsCreateNULLProfileTHR +cmsCreateProfilePlaceholder = cmsCreateProfilePlaceholder +cmsCreateProofingTransform = cmsCreateProofingTransform +cmsCreateProofingTransformTHR = cmsCreateProofingTransformTHR +cmsCreateRGBProfile = cmsCreateRGBProfile +cmsCreateRGBProfileTHR = cmsCreateRGBProfileTHR +cmsCreateTransform = cmsCreateTransform +cmsCreateTransformTHR = cmsCreateTransformTHR +cmsCreateXYZProfile = cmsCreateXYZProfile +cmsCreateXYZProfileTHR = cmsCreateXYZProfileTHR +cmsD50_xyY = cmsD50_xyY +cmsD50_XYZ = cmsD50_XYZ +_cmsDecodeDateTimeNumber = _cmsDecodeDateTimeNumber +_cmsDefaultICCintents = _cmsDefaultICCintents +cmsDeleteTransform = cmsDeleteTransform +cmsDeltaE = cmsDeltaE +cmsDetectBlackPoint = cmsDetectBlackPoint +cmsDetectDestinationBlackPoint = cmsDetectDestinationBlackPoint +cmsDetectTAC = cmsDetectTAC +cmsDesaturateLab = cmsDesaturateLab +cmsDoTransform = cmsDoTransform +cmsDoTransformStride = cmsDoTransformStride +_cmsDoubleTo15Fixed16 = _cmsDoubleTo15Fixed16 +_cmsDoubleTo8Fixed8 = _cmsDoubleTo8Fixed8 +_cmsDupMem = _cmsDupMem +cmsDupNamedColorList = cmsDupNamedColorList +cmsDupProfileSequenceDescription = cmsDupProfileSequenceDescription +cmsDupToneCurve = cmsDupToneCurve +_cmsEncodeDateTimeNumber = _cmsEncodeDateTimeNumber +cmsEstimateGamma = cmsEstimateGamma +cmsGetToneCurveEstimatedTableEntries = cmsGetToneCurveEstimatedTableEntries +cmsGetToneCurveEstimatedTable = cmsGetToneCurveEstimatedTable +cmsEvalToneCurve16 = cmsEvalToneCurve16 +cmsEvalToneCurveFloat = cmsEvalToneCurveFloat +cmsfilelength = cmsfilelength +cmsFloat2LabEncoded = cmsFloat2LabEncoded +cmsFloat2LabEncodedV2 = cmsFloat2LabEncodedV2 +cmsFloat2XYZEncoded = cmsFloat2XYZEncoded +cmsFormatterForColorspaceOfProfile = cmsFormatterForColorspaceOfProfile +cmsFormatterForPCSOfProfile = cmsFormatterForPCSOfProfile +_cmsFree = _cmsFree +cmsFreeNamedColorList = cmsFreeNamedColorList +cmsFreeProfileSequenceDescription = cmsFreeProfileSequenceDescription +cmsFreeToneCurve = cmsFreeToneCurve +cmsFreeToneCurveTriple = cmsFreeToneCurveTriple +cmsGBDAlloc = cmsGBDAlloc +cmsGBDFree = cmsGBDFree +cmsGDBAddPoint = cmsGDBAddPoint +cmsGDBCheckPoint = cmsGDBCheckPoint +cmsGDBCompute = cmsGDBCompute +cmsGetAlarmCodes = cmsGetAlarmCodes +cmsGetColorSpace = cmsGetColorSpace +cmsGetDeviceClass = cmsGetDeviceClass +cmsGetEncodedICCversion = cmsGetEncodedICCversion +cmsGetHeaderAttributes = cmsGetHeaderAttributes +cmsGetHeaderCreationDateTime = cmsGetHeaderCreationDateTime +cmsGetHeaderFlags = cmsGetHeaderFlags +cmsGetHeaderManufacturer = cmsGetHeaderManufacturer +cmsGetHeaderModel = cmsGetHeaderModel +cmsGetHeaderProfileID = cmsGetHeaderProfileID +cmsGetHeaderRenderingIntent = cmsGetHeaderRenderingIntent +cmsGetNamedColorList = cmsGetNamedColorList +cmsGetPCS = cmsGetPCS +cmsGetPostScriptColorResource = cmsGetPostScriptColorResource +cmsGetPostScriptCRD = cmsGetPostScriptCRD +cmsGetPostScriptCSA = cmsGetPostScriptCSA +cmsGetProfileInfo = cmsGetProfileInfo +cmsGetProfileInfoASCII = cmsGetProfileInfoASCII +cmsGetProfileContextID = cmsGetProfileContextID +cmsGetProfileVersion = cmsGetProfileVersion +cmsGetSupportedIntents = cmsGetSupportedIntents +cmsGetTagCount = cmsGetTagCount +cmsGetTagSignature = cmsGetTagSignature +cmsGetTransformContextID = cmsGetTransformContextID +_cmsICCcolorSpace = _cmsICCcolorSpace +_cmsIOPrintf = _cmsIOPrintf +cmsIsCLUT = cmsIsCLUT +cmsIsIntentSupported = cmsIsIntentSupported +cmsIsMatrixShaper = cmsIsMatrixShaper +cmsIsTag = cmsIsTag +cmsIsToneCurveDescending = cmsIsToneCurveDescending +cmsIsToneCurveLinear = cmsIsToneCurveLinear +cmsIsToneCurveMonotonic = cmsIsToneCurveMonotonic +cmsIsToneCurveMultisegment = cmsIsToneCurveMultisegment +cmsGetToneCurveParametricType = cmsGetToneCurveParametricType +cmsIT8Alloc = cmsIT8Alloc +cmsIT8DefineDblFormat = cmsIT8DefineDblFormat +cmsIT8EnumDataFormat = cmsIT8EnumDataFormat +cmsIT8EnumProperties = cmsIT8EnumProperties +cmsIT8EnumPropertyMulti = cmsIT8EnumPropertyMulti +cmsIT8Free = cmsIT8Free +cmsIT8GetData = cmsIT8GetData +cmsIT8GetDataDbl = cmsIT8GetDataDbl +cmsIT8FindDataFormat = cmsIT8FindDataFormat +cmsIT8GetDataRowCol = cmsIT8GetDataRowCol +cmsIT8GetDataRowColDbl = cmsIT8GetDataRowColDbl +cmsIT8GetPatchName = cmsIT8GetPatchName +cmsIT8GetPatchByName = cmsIT8GetPatchByName +cmsIT8GetProperty = cmsIT8GetProperty +cmsIT8GetPropertyDbl = cmsIT8GetPropertyDbl +cmsIT8GetPropertyMulti = cmsIT8GetPropertyMulti +cmsIT8GetSheetType = cmsIT8GetSheetType +cmsIT8LoadFromFile = cmsIT8LoadFromFile +cmsIT8LoadFromMem = cmsIT8LoadFromMem +cmsIT8SaveToFile = cmsIT8SaveToFile +cmsIT8SaveToMem = cmsIT8SaveToMem +cmsIT8SetComment = cmsIT8SetComment +cmsIT8SetData = cmsIT8SetData +cmsIT8SetDataDbl = cmsIT8SetDataDbl +cmsIT8SetDataFormat = cmsIT8SetDataFormat +cmsIT8SetDataRowCol = cmsIT8SetDataRowCol +cmsIT8SetDataRowColDbl = cmsIT8SetDataRowColDbl +cmsIT8SetPropertyDbl = cmsIT8SetPropertyDbl +cmsIT8SetPropertyHex = cmsIT8SetPropertyHex +cmsIT8SetPropertyStr = cmsIT8SetPropertyStr +cmsIT8SetPropertyMulti = cmsIT8SetPropertyMulti +cmsIT8SetPropertyUncooked = cmsIT8SetPropertyUncooked +cmsIT8SetSheetType = cmsIT8SetSheetType +cmsIT8SetTable = cmsIT8SetTable +cmsIT8SetTableByLabel = cmsIT8SetTableByLabel +cmsIT8SetIndexColumn = cmsIT8SetIndexColumn +cmsIT8TableCount = cmsIT8TableCount +cmsJoinToneCurve = cmsJoinToneCurve +cmsLab2LCh = cmsLab2LCh +cmsLab2XYZ = cmsLab2XYZ +cmsLabEncoded2Float = cmsLabEncoded2Float +cmsLabEncoded2FloatV2 = cmsLabEncoded2FloatV2 +cmsLCh2Lab = cmsLCh2Lab +_cmsLCMScolorSpace = _cmsLCMScolorSpace +cmsLinkTag = cmsLinkTag +cmsTagLinkedTo = cmsTagLinkedTo +cmsPipelineAlloc = cmsPipelineAlloc +cmsPipelineCat = cmsPipelineCat +cmsPipelineCheckAndRetreiveStages = cmsPipelineCheckAndRetreiveStages +cmsPipelineDup = cmsPipelineDup +cmsPipelineStageCount = cmsPipelineStageCount +cmsPipelineEval16 = cmsPipelineEval16 +cmsPipelineEvalFloat = cmsPipelineEvalFloat +cmsPipelineEvalReverseFloat = cmsPipelineEvalReverseFloat +cmsPipelineFree = cmsPipelineFree +cmsPipelineGetPtrToFirstStage = cmsPipelineGetPtrToFirstStage +cmsPipelineGetPtrToLastStage = cmsPipelineGetPtrToLastStage +cmsPipelineInputChannels = cmsPipelineInputChannels +cmsPipelineInsertStage = cmsPipelineInsertStage +cmsPipelineOutputChannels = cmsPipelineOutputChannels +cmsPipelineSetSaveAs8bitsFlag = cmsPipelineSetSaveAs8bitsFlag +_cmsPipelineSetOptimizationParameters = _cmsPipelineSetOptimizationParameters +cmsPipelineUnlinkStage = cmsPipelineUnlinkStage +_cmsMalloc = _cmsMalloc +_cmsMallocZero = _cmsMallocZero +_cmsMAT3eval = _cmsMAT3eval +_cmsMAT3identity = _cmsMAT3identity +_cmsMAT3inverse = _cmsMAT3inverse +_cmsMAT3isIdentity = _cmsMAT3isIdentity +_cmsMAT3per = _cmsMAT3per +_cmsMAT3solve = _cmsMAT3solve +cmsMD5computeID = cmsMD5computeID +cmsMLUalloc = cmsMLUalloc +cmsMLUdup = cmsMLUdup +cmsMLUfree = cmsMLUfree +cmsMLUgetASCII = cmsMLUgetASCII +cmsMLUgetTranslation = cmsMLUgetTranslation +cmsMLUgetWide = cmsMLUgetWide +cmsMLUsetASCII = cmsMLUsetASCII +cmsMLUsetWide = cmsMLUsetWide +cmsStageAllocCLut16bit = cmsStageAllocCLut16bit +cmsStageAllocCLut16bitGranular = cmsStageAllocCLut16bitGranular +cmsStageAllocCLutFloat = cmsStageAllocCLutFloat +cmsStageAllocCLutFloatGranular = cmsStageAllocCLutFloatGranular +cmsStageAllocToneCurves = cmsStageAllocToneCurves +cmsStageAllocIdentity = cmsStageAllocIdentity +cmsStageAllocMatrix = cmsStageAllocMatrix +_cmsStageAllocPlaceholder = _cmsStageAllocPlaceholder +cmsStageDup = cmsStageDup +cmsStageFree = cmsStageFree +cmsStageNext = cmsStageNext +cmsStageInputChannels = cmsStageInputChannels +cmsStageOutputChannels = cmsStageOutputChannels +cmsStageSampleCLut16bit = cmsStageSampleCLut16bit +cmsStageSampleCLutFloat = cmsStageSampleCLutFloat +cmsStageType = cmsStageType +cmsStageData = cmsStageData +cmsNamedColorCount = cmsNamedColorCount +cmsNamedColorIndex = cmsNamedColorIndex +cmsNamedColorInfo = cmsNamedColorInfo +cmsOpenIOhandlerFromFile = cmsOpenIOhandlerFromFile +cmsOpenIOhandlerFromMem = cmsOpenIOhandlerFromMem +cmsOpenIOhandlerFromNULL = cmsOpenIOhandlerFromNULL +cmsOpenIOhandlerFromStream = cmsOpenIOhandlerFromStream +cmsOpenProfileFromFile = cmsOpenProfileFromFile +cmsOpenProfileFromFileTHR = cmsOpenProfileFromFileTHR +cmsOpenProfileFromIOhandlerTHR = cmsOpenProfileFromIOhandlerTHR +cmsOpenProfileFromMem = cmsOpenProfileFromMem +cmsOpenProfileFromMemTHR = cmsOpenProfileFromMemTHR +cmsOpenProfileFromStream = cmsOpenProfileFromStream +cmsOpenProfileFromStreamTHR = cmsOpenProfileFromStreamTHR +cmsPlugin = cmsPlugin +_cmsRead15Fixed16Number = _cmsRead15Fixed16Number +_cmsReadAlignment = _cmsReadAlignment +_cmsReadFloat32Number = _cmsReadFloat32Number +cmsReadRawTag = cmsReadRawTag +cmsReadTag = cmsReadTag +_cmsReadTypeBase = _cmsReadTypeBase +_cmsReadUInt16Array = _cmsReadUInt16Array +_cmsReadUInt16Number = _cmsReadUInt16Number +_cmsReadUInt32Number = _cmsReadUInt32Number +_cmsReadUInt64Number = _cmsReadUInt64Number +_cmsReadUInt8Number = _cmsReadUInt8Number +_cmsReadXYZNumber = _cmsReadXYZNumber +_cmsRealloc = _cmsRealloc +cmsReverseToneCurve = cmsReverseToneCurve +cmsReverseToneCurveEx = cmsReverseToneCurveEx +cmsSaveProfileToFile = cmsSaveProfileToFile +cmsSaveProfileToIOhandler = cmsSaveProfileToIOhandler +cmsSaveProfileToMem = cmsSaveProfileToMem +cmsSaveProfileToStream = cmsSaveProfileToStream +cmsSetAdaptationState = cmsSetAdaptationState +cmsSetAlarmCodes = cmsSetAlarmCodes +cmsSetColorSpace = cmsSetColorSpace +cmsSetDeviceClass = cmsSetDeviceClass +cmsSetEncodedICCversion = cmsSetEncodedICCversion +cmsSetHeaderAttributes = cmsSetHeaderAttributes +cmsSetHeaderFlags = cmsSetHeaderFlags +cmsSetHeaderManufacturer = cmsSetHeaderManufacturer +cmsSetHeaderModel = cmsSetHeaderModel +cmsSetHeaderProfileID = cmsSetHeaderProfileID +cmsSetHeaderRenderingIntent = cmsSetHeaderRenderingIntent +cmsSetLogErrorHandler = cmsSetLogErrorHandler +cmsSetPCS = cmsSetPCS +cmsSetProfileVersion = cmsSetProfileVersion +cmsSignalError = cmsSignalError +cmsSmoothToneCurve = cmsSmoothToneCurve +cmsstrcasecmp = cmsstrcasecmp +cmsTempFromWhitePoint = cmsTempFromWhitePoint +cmsTransform2DeviceLink = cmsTransform2DeviceLink +cmsUnregisterPlugins = cmsUnregisterPlugins +_cmsVEC3cross = _cmsVEC3cross +_cmsVEC3distance = _cmsVEC3distance +_cmsVEC3dot = _cmsVEC3dot +_cmsVEC3init = _cmsVEC3init +_cmsVEC3length = _cmsVEC3length +_cmsVEC3minus = _cmsVEC3minus +cmsWhitePointFromTemp = cmsWhitePointFromTemp +_cmsWrite15Fixed16Number = _cmsWrite15Fixed16Number +_cmsWriteAlignment = _cmsWriteAlignment +_cmsWriteFloat32Number = _cmsWriteFloat32Number +cmsWriteRawTag = cmsWriteRawTag +cmsWriteTag = cmsWriteTag +_cmsWriteTypeBase = _cmsWriteTypeBase +_cmsWriteUInt16Array = _cmsWriteUInt16Array +_cmsWriteUInt16Number = _cmsWriteUInt16Number +_cmsWriteUInt32Number = _cmsWriteUInt32Number +_cmsWriteUInt64Number = _cmsWriteUInt64Number +_cmsWriteUInt8Number = _cmsWriteUInt8Number +_cmsWriteXYZNumber = _cmsWriteXYZNumber +cmsxyY2XYZ = cmsxyY2XYZ +cmsXYZ2Lab = cmsXYZ2Lab +cmsXYZ2xyY = cmsXYZ2xyY +cmsXYZEncoded2Float = cmsXYZEncoded2Float +cmsSliceSpace16 = cmsSliceSpace16 +cmsSliceSpaceFloat = cmsSliceSpaceFloat +cmsChangeBuffersFormat = cmsChangeBuffersFormat +cmsDictAlloc = cmsDictAlloc +cmsDictFree = cmsDictFree +cmsDictDup = cmsDictDup +cmsDictAddEntry = cmsDictAddEntry +cmsDictGetEntryList = cmsDictGetEntryList +cmsDictNextEntry = cmsDictNextEntry +_cmsGetTransformUserData = _cmsGetTransformUserData +_cmsSetTransformUserData = _cmsSetTransformUserData +_cmsGetTransformFormatters16 = _cmsGetTransformFormatters16 +_cmsGetTransformFormattersFloat = _cmsGetTransformFormattersFloat +cmsGetHeaderCreator = cmsGetHeaderCreator +cmsPluginTHR = cmsPluginTHR +cmsGetPipelineContextID = cmsGetPipelineContextID +cmsGetTransformInputFormat = cmsGetTransformInputFormat +cmsGetTransformOutputFormat = cmsGetTransformOutputFormat +cmsCreateContext = cmsCreateContext +cmsDupContext = cmsDupContext +cmsDeleteContext = cmsDeleteContext +cmsGetContextUserData = cmsGetContextUserData +cmsUnregisterPluginsTHR = cmsUnregisterPluginsTHR +cmsSetAlarmCodesTHR = cmsSetAlarmCodesTHR +cmsGetAlarmCodesTHR = cmsGetAlarmCodesTHR +cmsSetAdaptationStateTHR = cmsSetAdaptationStateTHR +cmsSetLogErrorHandlerTHR = cmsSetLogErrorHandlerTHR +cmsGetSupportedIntentsTHR = cmsGetSupportedIntentsTHR +cmsMLUtranslationsCount = cmsMLUtranslationsCount +cmsMLUtranslationsCodes = cmsMLUtranslationsCodes +_cmsCreateMutex = _cmsCreateMutex +_cmsDestroyMutex = _cmsDestroyMutex +_cmsLockMutex = _cmsLockMutex +_cmsUnlockMutex = _cmsUnlockMutex +cmsGetProfileIOhandler = cmsGetProfileIOhandler +cmsGetEncodedCMMversion = cmsGetEncodedCMMversion Index: sdk/lib/3rdparty/lcms2/lcms2_internal.h =================================================================== --- sdk/lib/3rdparty/lcms2/lcms2_internal.h (nonexistent) +++ sdk/lib/3rdparty/lcms2/lcms2_internal.h (working copy) @@ -0,0 +1,1057 @@ + +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#ifndef _lcms_internal_H + +// Include plug-in foundation +#ifndef _lcms_plugin_H +# include "lcms2_plugin.h" +#endif + +// ctype is part of C99 as per 7.1.2 +#include + +// assert macro is part of C99 as per 7.2 +#include + +// Some needed constants +#ifndef M_PI +# define M_PI 3.14159265358979323846 +#endif + +#ifndef M_LOG10E +# define M_LOG10E 0.434294481903251827651 +#endif + +// BorlandC 5.5, VC2003 are broken on that +#if defined(__BORLANDC__) || (_MSC_VER < 1400) // 1400 == VC++ 8.0 +#define sinf(x) (float)sin((float)x) +#define sqrtf(x) (float)sqrt((float)x) +#endif + + +// Alignment of ICC file format uses 4 bytes (cmsUInt32Number) +#define _cmsALIGNLONG(x) (((x)+(sizeof(cmsUInt32Number)-1)) & ~(sizeof(cmsUInt32Number)-1)) + +// Alignment to memory pointer + +// (Ultra)SPARC with gcc requires ptr alignment of 8 bytes +// even though sizeof(void *) is only four: for greatest flexibility +// allow the build to specify ptr alignment. +#ifndef CMS_PTR_ALIGNMENT +# define CMS_PTR_ALIGNMENT sizeof(void *) +#endif + +#define _cmsALIGNMEM(x) (((x)+(CMS_PTR_ALIGNMENT - 1)) & ~(CMS_PTR_ALIGNMENT - 1)) + +// Maximum encodeable values in floating point +#define MAX_ENCODEABLE_XYZ (1.0 + 32767.0/32768.0) +#define MIN_ENCODEABLE_ab2 (-128.0) +#define MAX_ENCODEABLE_ab2 ((65535.0/256.0) - 128.0) +#define MIN_ENCODEABLE_ab4 (-128.0) +#define MAX_ENCODEABLE_ab4 (127.0) + +// Maximum of channels for internal pipeline evaluation +#define MAX_STAGE_CHANNELS 128 + +// Unused parameter warning supression +#define cmsUNUSED_PARAMETER(x) ((void)x) + +// The specification for "inline" is section 6.7.4 of the C99 standard (ISO/IEC 9899:1999). +// unfortunately VisualC++ does not conform that +#if defined(_MSC_VER) || defined(__BORLANDC__) +# define cmsINLINE __inline +#else +# define cmsINLINE static inline +#endif + +// Other replacement functions +#ifdef _MSC_VER +# ifndef snprintf +# define snprintf _snprintf +# endif +# ifndef vsnprintf +# define vsnprintf _vsnprintf +# endif +#endif + + +// A fast way to convert from/to 16 <-> 8 bits +#define FROM_8_TO_16(rgb) (cmsUInt16Number) ((((cmsUInt16Number) (rgb)) << 8)|(rgb)) +#define FROM_16_TO_8(rgb) (cmsUInt8Number) ((((cmsUInt32Number)(rgb) * 65281U + 8388608U) >> 24) & 0xFFU) + +// Code analysis is broken on asserts +#ifdef _MSC_VER +# if (_MSC_VER >= 1500) +# define _cmsAssert(a) { assert((a)); __analysis_assume((a)); } +# else +# define _cmsAssert(a) assert((a)) +# endif +#else +# define _cmsAssert(a) assert((a)) +#endif + +//--------------------------------------------------------------------------------- + +// Determinant lower than that are assumed zero (used on matrix invert) +#define MATRIX_DET_TOLERANCE 0.0001 + +//--------------------------------------------------------------------------------- + +// Fixed point +#define FIXED_TO_INT(x) ((x)>>16) +#define FIXED_REST_TO_INT(x) ((x)&0xFFFFU) +#define ROUND_FIXED_TO_INT(x) (((x)+0x8000)>>16) + +cmsINLINE cmsS15Fixed16Number _cmsToFixedDomain(int a) { return a + ((a + 0x7fff) / 0xffff); } +cmsINLINE int _cmsFromFixedDomain(cmsS15Fixed16Number a) { return a - ((a + 0x7fff) >> 16); } + +// ----------------------------------------------------------------------------------------------------------- + +// Fast floor conversion logic. Thanks to Sree Kotay and Stuart Nixon +// note than this only works in the range ..-32767...+32767 because +// mantissa is interpreted as 15.16 fixed point. +// The union is to avoid pointer aliasing overoptimization. +cmsINLINE int _cmsQuickFloor(cmsFloat64Number val) +{ +#ifdef CMS_DONT_USE_FAST_FLOOR + return (int) floor(val); +#else + const cmsFloat64Number _lcms_double2fixmagic = 68719476736.0 * 1.5; // 2^36 * 1.5, (52-16=36) uses limited precision to floor + union { + cmsFloat64Number val; + int halves[2]; + } temp; + + temp.val = val + _lcms_double2fixmagic; + +#ifdef CMS_USE_BIG_ENDIAN + return temp.halves[1] >> 16; +#else + return temp.halves[0] >> 16; +#endif +#endif +} + +// Fast floor restricted to 0..65535.0 +cmsINLINE cmsUInt16Number _cmsQuickFloorWord(cmsFloat64Number d) +{ + return (cmsUInt16Number) _cmsQuickFloor(d - 32767.0) + 32767U; +} + +// Floor to word, taking care of saturation +cmsINLINE cmsUInt16Number _cmsQuickSaturateWord(cmsFloat64Number d) +{ + d += 0.5; + if (d <= 0) return 0; + if (d >= 65535.0) return 0xffff; + + return _cmsQuickFloorWord(d); +} + + +// Pthread support -------------------------------------------------------------------- +#ifndef CMS_NO_PTHREADS + +// This is the threading support. Unfortunately, it has to be platform-dependent because +// windows does not support pthreads. + +#ifdef CMS_IS_WINDOWS_ + +#define WIN32_LEAN_AND_MEAN 1 +#include + + +// From: http://locklessinc.com/articles/pthreads_on_windows/ +// The pthreads API has an initialization macro that has no correspondence to anything in +// the windows API. By investigating the internal definition of the critical section type, +// one may work out how to initialize one without calling InitializeCriticalSection(). +// The trick here is that InitializeCriticalSection() is not allowed to fail. It tries +// to allocate a critical section debug object, but if no memory is available, it sets +// the pointer to a specific value. (One would expect that value to be NULL, but it is +// actually (void *)-1 for some reason.) Thus we can use this special value for that +// pointer, and the critical section code will work. + +// The other important part of the critical section type to initialize is the number +// of waiters. This controls whether or not the mutex is locked. Fortunately, this +// part of the critical section is unlikely to change. Apparently, many programs +// already test critical sections to see if they are locked using this value, so +// Microsoft felt that it was necessary to keep it set at -1 for an unlocked critical +// section, even when they changed the underlying algorithm to be more scalable. +// The final parts of the critical section object are unimportant, and can be set +// to zero for their defaults. This yields to an initialization macro: + +typedef CRITICAL_SECTION _cmsMutex; + +#define CMS_MUTEX_INITIALIZER {(PRTL_CRITICAL_SECTION_DEBUG) -1,-1,0,0,0,0} + +#ifdef _MSC_VER +# if (_MSC_VER >= 1800) +# pragma warning(disable : 26135) +# endif +#endif + +cmsINLINE int _cmsLockPrimitive(_cmsMutex *m) +{ + EnterCriticalSection(m); + return 0; +} + +cmsINLINE int _cmsUnlockPrimitive(_cmsMutex *m) +{ + LeaveCriticalSection(m); + return 0; +} + +cmsINLINE int _cmsInitMutexPrimitive(_cmsMutex *m) +{ + InitializeCriticalSection(m); + return 0; +} + +cmsINLINE int _cmsDestroyMutexPrimitive(_cmsMutex *m) +{ + DeleteCriticalSection(m); + return 0; +} + +cmsINLINE int _cmsEnterCriticalSectionPrimitive(_cmsMutex *m) +{ + EnterCriticalSection(m); + return 0; +} + +cmsINLINE int _cmsLeaveCriticalSectionPrimitive(_cmsMutex *m) +{ + LeaveCriticalSection(m); + return 0; +} + +#else + +// Rest of the wide world +#include + +#define CMS_MUTEX_INITIALIZER PTHREAD_MUTEX_INITIALIZER +typedef pthread_mutex_t _cmsMutex; + + +cmsINLINE int _cmsLockPrimitive(_cmsMutex *m) +{ + return pthread_mutex_lock(m); +} + +cmsINLINE int _cmsUnlockPrimitive(_cmsMutex *m) +{ + return pthread_mutex_unlock(m); +} + +cmsINLINE int _cmsInitMutexPrimitive(_cmsMutex *m) +{ + return pthread_mutex_init(m, NULL); +} + +cmsINLINE int _cmsDestroyMutexPrimitive(_cmsMutex *m) +{ + return pthread_mutex_destroy(m); +} + +cmsINLINE int _cmsEnterCriticalSectionPrimitive(_cmsMutex *m) +{ + return pthread_mutex_lock(m); +} + +cmsINLINE int _cmsLeaveCriticalSectionPrimitive(_cmsMutex *m) +{ + return pthread_mutex_unlock(m); +} + +#endif +#else + +#define CMS_MUTEX_INITIALIZER 0 +typedef int _cmsMutex; + + +cmsINLINE int _cmsLockPrimitive(_cmsMutex *m) +{ + cmsUNUSED_PARAMETER(m); + return 0; +} + +cmsINLINE int _cmsUnlockPrimitive(_cmsMutex *m) +{ + cmsUNUSED_PARAMETER(m); + return 0; +} + +cmsINLINE int _cmsInitMutexPrimitive(_cmsMutex *m) +{ + cmsUNUSED_PARAMETER(m); + return 0; +} + +cmsINLINE int _cmsDestroyMutexPrimitive(_cmsMutex *m) +{ + cmsUNUSED_PARAMETER(m); + return 0; +} + +cmsINLINE int _cmsEnterCriticalSectionPrimitive(_cmsMutex *m) +{ + cmsUNUSED_PARAMETER(m); + return 0; +} + +cmsINLINE int _cmsLeaveCriticalSectionPrimitive(_cmsMutex *m) +{ + cmsUNUSED_PARAMETER(m); + return 0; +} +#endif + +// Plug-In registration --------------------------------------------------------------- + +// Specialized function for plug-in memory management. No pairing free() since whole pool is freed at once. +void* _cmsPluginMalloc(cmsContext ContextID, cmsUInt32Number size); + +// Memory management +cmsBool _cmsRegisterMemHandlerPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Interpolation +cmsBool _cmsRegisterInterpPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Parametric curves +cmsBool _cmsRegisterParametricCurvesPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Formatters management +cmsBool _cmsRegisterFormattersPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Tag type management +cmsBool _cmsRegisterTagTypePlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Tag management +cmsBool _cmsRegisterTagPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Intent management +cmsBool _cmsRegisterRenderingIntentPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Multi Process elements +cmsBool _cmsRegisterMultiProcessElementPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Optimization +cmsBool _cmsRegisterOptimizationPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Transform +cmsBool _cmsRegisterTransformPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Mutex +cmsBool _cmsRegisterMutexPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// --------------------------------------------------------------------------------------------------------- + +// Suballocators. +typedef struct _cmsSubAllocator_chunk_st { + + cmsUInt8Number* Block; + cmsUInt32Number BlockSize; + cmsUInt32Number Used; + + struct _cmsSubAllocator_chunk_st* next; + +} _cmsSubAllocator_chunk; + + +typedef struct { + + cmsContext ContextID; + _cmsSubAllocator_chunk* h; + +} _cmsSubAllocator; + + +_cmsSubAllocator* _cmsCreateSubAlloc(cmsContext ContextID, cmsUInt32Number Initial); +void _cmsSubAllocDestroy(_cmsSubAllocator* s); +void* _cmsSubAlloc(_cmsSubAllocator* s, cmsUInt32Number size); +void* _cmsSubAllocDup(_cmsSubAllocator* s, const void *ptr, cmsUInt32Number size); + +// ---------------------------------------------------------------------------------- + +// The context clients. +typedef enum { + + UserPtr, // User-defined pointer + Logger, + AlarmCodesContext, + AdaptationStateContext, + MemPlugin, + InterpPlugin, + CurvesPlugin, + FormattersPlugin, + TagTypePlugin, + TagPlugin, + IntentPlugin, + MPEPlugin, + OptimizationPlugin, + TransformPlugin, + MutexPlugin, + + // Last in list + MemoryClientMax + +} _cmsMemoryClient; + + +// Container for memory management plug-in. +typedef struct { + + _cmsMallocFnPtrType MallocPtr; + _cmsMalloZerocFnPtrType MallocZeroPtr; + _cmsFreeFnPtrType FreePtr; + _cmsReallocFnPtrType ReallocPtr; + _cmsCallocFnPtrType CallocPtr; + _cmsDupFnPtrType DupPtr; + +} _cmsMemPluginChunkType; + +// Copy memory management function pointers from plug-in to chunk, taking care of missing routines +void _cmsInstallAllocFunctions(cmsPluginMemHandler* Plugin, _cmsMemPluginChunkType* ptr); + +// Internal structure for context +struct _cmsContext_struct { + + struct _cmsContext_struct* Next; // Points to next context in the new style + _cmsSubAllocator* MemPool; // The memory pool that stores context data + + void* chunks[MemoryClientMax]; // array of pointers to client chunks. Memory itself is hold in the suballocator. + // If NULL, then it reverts to global Context0 + + _cmsMemPluginChunkType DefaultMemoryManager; // The allocators used for creating the context itself. Cannot be overriden +}; + +// Returns a pointer to a valid context structure, including the global one if id is zero. +// Verifies the magic number. +struct _cmsContext_struct* _cmsGetContext(cmsContext ContextID); + +// Returns the block assigned to the specific zone. +void* _cmsContextGetClientChunk(cmsContext id, _cmsMemoryClient mc); + + +// Chunks of context memory by plug-in client ------------------------------------------------------- + +// Those structures encapsulates all variables needed by the several context clients (mostly plug-ins) + +// Container for error logger -- not a plug-in +typedef struct { + + cmsLogErrorHandlerFunction LogErrorHandler; // Set to NULL for Context0 fallback + +} _cmsLogErrorChunkType; + +// The global Context0 storage for error logger +extern _cmsLogErrorChunkType _cmsLogErrorChunk; + +// Allocate and init error logger container. +void _cmsAllocLogErrorChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for alarm codes -- not a plug-in +typedef struct { + + cmsUInt16Number AlarmCodes[cmsMAXCHANNELS]; + +} _cmsAlarmCodesChunkType; + +// The global Context0 storage for alarm codes +extern _cmsAlarmCodesChunkType _cmsAlarmCodesChunk; + +// Allocate and init alarm codes container. +void _cmsAllocAlarmCodesChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for adaptation state -- not a plug-in +typedef struct { + + cmsFloat64Number AdaptationState; + +} _cmsAdaptationStateChunkType; + +// The global Context0 storage for adaptation state +extern _cmsAdaptationStateChunkType _cmsAdaptationStateChunk; + +// Allocate and init adaptation state container. +void _cmsAllocAdaptationStateChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + + +// The global Context0 storage for memory management +extern _cmsMemPluginChunkType _cmsMemPluginChunk; + +// Allocate and init memory management container. +void _cmsAllocMemPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for interpolation plug-in +typedef struct { + + cmsInterpFnFactory Interpolators; + +} _cmsInterpPluginChunkType; + +// The global Context0 storage for interpolation plug-in +extern _cmsInterpPluginChunkType _cmsInterpPluginChunk; + +// Allocate and init interpolation container. +void _cmsAllocInterpPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for parametric curves plug-in +typedef struct { + + struct _cmsParametricCurvesCollection_st* ParametricCurves; + +} _cmsCurvesPluginChunkType; + +// The global Context0 storage for tone curves plug-in +extern _cmsCurvesPluginChunkType _cmsCurvesPluginChunk; + +// Allocate and init parametric curves container. +void _cmsAllocCurvesPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for formatters plug-in +typedef struct { + + struct _cms_formatters_factory_list* FactoryList; + +} _cmsFormattersPluginChunkType; + +// The global Context0 storage for formatters plug-in +extern _cmsFormattersPluginChunkType _cmsFormattersPluginChunk; + +// Allocate and init formatters container. +void _cmsAllocFormattersPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// This chunk type is shared by TagType plug-in and MPE Plug-in +typedef struct { + + struct _cmsTagTypeLinkedList_st* TagTypes; + +} _cmsTagTypePluginChunkType; + + +// The global Context0 storage for tag types plug-in +extern _cmsTagTypePluginChunkType _cmsTagTypePluginChunk; + + +// The global Context0 storage for mult process elements plug-in +extern _cmsTagTypePluginChunkType _cmsMPETypePluginChunk; + +// Allocate and init Tag types container. +void _cmsAllocTagTypePluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); +// Allocate and init MPE container. +void _cmsAllocMPETypePluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); +// Container for tag plug-in +typedef struct { + + struct _cmsTagLinkedList_st* Tag; + +} _cmsTagPluginChunkType; + + +// The global Context0 storage for tag plug-in +extern _cmsTagPluginChunkType _cmsTagPluginChunk; + +// Allocate and init Tag container. +void _cmsAllocTagPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for intents plug-in +typedef struct { + + struct _cms_intents_list* Intents; + +} _cmsIntentsPluginChunkType; + + +// The global Context0 storage for intents plug-in +extern _cmsIntentsPluginChunkType _cmsIntentsPluginChunk; + +// Allocate and init intents container. +void _cmsAllocIntentsPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for optimization plug-in +typedef struct { + + struct _cmsOptimizationCollection_st* OptimizationCollection; + +} _cmsOptimizationPluginChunkType; + + +// The global Context0 storage for optimizers plug-in +extern _cmsOptimizationPluginChunkType _cmsOptimizationPluginChunk; + +// Allocate and init optimizers container. +void _cmsAllocOptimizationPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for transform plug-in +typedef struct { + + struct _cmsTransformCollection_st* TransformCollection; + +} _cmsTransformPluginChunkType; + +// The global Context0 storage for full-transform replacement plug-in +extern _cmsTransformPluginChunkType _cmsTransformPluginChunk; + +// Allocate and init transform container. +void _cmsAllocTransformPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for mutex plug-in +typedef struct { + + _cmsCreateMutexFnPtrType CreateMutexPtr; + _cmsDestroyMutexFnPtrType DestroyMutexPtr; + _cmsLockMutexFnPtrType LockMutexPtr; + _cmsUnlockMutexFnPtrType UnlockMutexPtr; + +} _cmsMutexPluginChunkType; + +// The global Context0 storage for mutex plug-in +extern _cmsMutexPluginChunkType _cmsMutexPluginChunk; + +// Allocate and init mutex container. +void _cmsAllocMutexPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// ---------------------------------------------------------------------------------- +// MLU internal representation +typedef struct { + + cmsUInt16Number Language; + cmsUInt16Number Country; + + cmsUInt32Number StrW; // Offset to current unicode string + cmsUInt32Number Len; // Length in bytes + +} _cmsMLUentry; + +struct _cms_MLU_struct { + + cmsContext ContextID; + + // The directory + cmsUInt32Number AllocatedEntries; + cmsUInt32Number UsedEntries; + _cmsMLUentry* Entries; // Array of pointers to strings allocated in MemPool + + // The Pool + cmsUInt32Number PoolSize; // The maximum allocated size + cmsUInt32Number PoolUsed; // The used size + void* MemPool; // Pointer to begin of memory pool +}; + +// Named color list internal representation +typedef struct { + + char Name[cmsMAX_PATH]; + cmsUInt16Number PCS[3]; + cmsUInt16Number DeviceColorant[cmsMAXCHANNELS]; + +} _cmsNAMEDCOLOR; + +struct _cms_NAMEDCOLORLIST_struct { + + cmsUInt32Number nColors; + cmsUInt32Number Allocated; + cmsUInt32Number ColorantCount; + + char Prefix[33]; // Prefix and suffix are defined to be 32 characters at most + char Suffix[33]; + + _cmsNAMEDCOLOR* List; + + cmsContext ContextID; +}; + + +// ---------------------------------------------------------------------------------- + +// This is the internal struct holding profile details. + +// Maximum supported tags in a profile +#define MAX_TABLE_TAG 100 + +typedef struct _cms_iccprofile_struct { + + // I/O handler + cmsIOHANDLER* IOhandler; + + // The thread ID + cmsContext ContextID; + + // Creation time + struct tm Created; + + // Only most important items found in ICC profiles + cmsUInt32Number Version; + cmsProfileClassSignature DeviceClass; + cmsColorSpaceSignature ColorSpace; + cmsColorSpaceSignature PCS; + cmsUInt32Number RenderingIntent; + + cmsUInt32Number flags; + cmsUInt32Number manufacturer, model; + cmsUInt64Number attributes; + cmsUInt32Number creator; + + cmsProfileID ProfileID; + + // Dictionary + cmsUInt32Number TagCount; + cmsTagSignature TagNames[MAX_TABLE_TAG]; + cmsTagSignature TagLinked[MAX_TABLE_TAG]; // The tag to which is linked (0=none) + cmsUInt32Number TagSizes[MAX_TABLE_TAG]; // Size on disk + cmsUInt32Number TagOffsets[MAX_TABLE_TAG]; + cmsBool TagSaveAsRaw[MAX_TABLE_TAG]; // True to write uncooked + void * TagPtrs[MAX_TABLE_TAG]; + cmsTagTypeHandler* TagTypeHandlers[MAX_TABLE_TAG]; // Same structure may be serialized on different types + // depending on profile version, so we keep track of the + // type handler for each tag in the list. + // Special + cmsBool IsWrite; + + // Keep a mutex for cmsReadTag -- Note that this only works if the user includes a mutex plugin + void * UsrMutex; + +} _cmsICCPROFILE; + +// IO helpers for profiles +cmsBool _cmsReadHeader(_cmsICCPROFILE* Icc); +cmsBool _cmsWriteHeader(_cmsICCPROFILE* Icc, cmsUInt32Number UsedSpace); +int _cmsSearchTag(_cmsICCPROFILE* Icc, cmsTagSignature sig, cmsBool lFollowLinks); + +// Tag types +cmsTagTypeHandler* _cmsGetTagTypeHandler(cmsContext ContextID, cmsTagTypeSignature sig); +cmsTagTypeSignature _cmsGetTagTrueType(cmsHPROFILE hProfile, cmsTagSignature sig); +cmsTagDescriptor* _cmsGetTagDescriptor(cmsContext ContextID, cmsTagSignature sig); + +// Error logging --------------------------------------------------------------------------------------------------------- + +void _cmsTagSignature2String(char String[5], cmsTagSignature sig); + +// Interpolation --------------------------------------------------------------------------------------------------------- + +cmsInterpParams* _cmsComputeInterpParams(cmsContext ContextID, int nSamples, int InputChan, int OutputChan, const void* Table, cmsUInt32Number dwFlags); +cmsInterpParams* _cmsComputeInterpParamsEx(cmsContext ContextID, const cmsUInt32Number nSamples[], int InputChan, int OutputChan, const void* Table, cmsUInt32Number dwFlags); +void _cmsFreeInterpParams(cmsInterpParams* p); +cmsBool _cmsSetInterpolationRoutine(cmsContext ContextID, cmsInterpParams* p); + +// Curves ---------------------------------------------------------------------------------------------------------------- + +// This struct holds information about a segment, plus a pointer to the function that implements the evaluation. +// In the case of table-based, Eval pointer is set to NULL + +// The gamma function main structure +struct _cms_curve_struct { + + cmsInterpParams* InterpParams; // Private optimizations for interpolation + + cmsUInt32Number nSegments; // Number of segments in the curve. Zero for a 16-bit based tables + cmsCurveSegment* Segments; // The segments + cmsInterpParams** SegInterp; // Array of private optimizations for interpolation in table-based segments + + cmsParametricCurveEvaluator* Evals; // Evaluators (one per segment) + + // 16 bit Table-based representation follows + cmsUInt32Number nEntries; // Number of table elements + cmsUInt16Number* Table16; // The table itself. +}; + + +// Pipelines & Stages --------------------------------------------------------------------------------------------- + +// A single stage +struct _cmsStage_struct { + + cmsContext ContextID; + + cmsStageSignature Type; // Identifies the stage + cmsStageSignature Implements; // Identifies the *function* of the stage (for optimizations) + + cmsUInt32Number InputChannels; // Input channels -- for optimization purposes + cmsUInt32Number OutputChannels; // Output channels -- for optimization purposes + + _cmsStageEvalFn EvalPtr; // Points to fn that evaluates the stage (always in floating point) + _cmsStageDupElemFn DupElemPtr; // Points to a fn that duplicates the *data* of the stage + _cmsStageFreeElemFn FreePtr; // Points to a fn that sets the *data* of the stage free + + // A generic pointer to whatever memory needed by the stage + void* Data; + + // Maintains linked list (used internally) + struct _cmsStage_struct* Next; +}; + + +// Special Stages (cannot be saved) +cmsStage* _cmsStageAllocLab2XYZ(cmsContext ContextID); +cmsStage* _cmsStageAllocXYZ2Lab(cmsContext ContextID); +cmsStage* _cmsStageAllocLabPrelin(cmsContext ContextID); +cmsStage* _cmsStageAllocLabV2ToV4(cmsContext ContextID); +cmsStage* _cmsStageAllocLabV2ToV4curves(cmsContext ContextID); +cmsStage* _cmsStageAllocLabV4ToV2(cmsContext ContextID); +cmsStage* _cmsStageAllocNamedColor(cmsNAMEDCOLORLIST* NamedColorList, cmsBool UsePCS); +cmsStage* _cmsStageAllocIdentityCurves(cmsContext ContextID, int nChannels); +cmsStage* _cmsStageAllocIdentityCLut(cmsContext ContextID, int nChan); +cmsStage* _cmsStageNormalizeFromLabFloat(cmsContext ContextID); +cmsStage* _cmsStageNormalizeFromXyzFloat(cmsContext ContextID); +cmsStage* _cmsStageNormalizeToLabFloat(cmsContext ContextID); +cmsStage* _cmsStageNormalizeToXyzFloat(cmsContext ContextID); +cmsStage* _cmsStageClipNegatives(cmsContext ContextID, int nChannels); + + +// For curve set only +cmsToneCurve** _cmsStageGetPtrToCurveSet(const cmsStage* mpe); + + +// Pipeline Evaluator (in floating point) +typedef void (* _cmsPipelineEvalFloatFn)(const cmsFloat32Number In[], + cmsFloat32Number Out[], + const void* Data); + +struct _cmsPipeline_struct { + + cmsStage* Elements; // Points to elements chain + cmsUInt32Number InputChannels, OutputChannels; + + // Data & evaluators + void *Data; + + _cmsOPTeval16Fn Eval16Fn; + _cmsPipelineEvalFloatFn EvalFloatFn; + _cmsFreeUserDataFn FreeDataFn; + _cmsDupUserDataFn DupDataFn; + + cmsContext ContextID; // Environment + + cmsBool SaveAs8Bits; // Implementation-specific: save as 8 bits if possible +}; + +// LUT reading & creation ------------------------------------------------------------------------------------------- + +// Read tags using low-level function, provide necessary glue code to adapt versions, etc. All those return a brand new copy +// of the LUTS, since ownership of original is up to the profile. The user should free allocated resources. + +cmsPipeline* _cmsReadInputLUT(cmsHPROFILE hProfile, int Intent); +cmsPipeline* _cmsReadOutputLUT(cmsHPROFILE hProfile, int Intent); +cmsPipeline* _cmsReadDevicelinkLUT(cmsHPROFILE hProfile, int Intent); + +// Special values +cmsBool _cmsReadMediaWhitePoint(cmsCIEXYZ* Dest, cmsHPROFILE hProfile); +cmsBool _cmsReadCHAD(cmsMAT3* Dest, cmsHPROFILE hProfile); + +// Profile linker -------------------------------------------------------------------------------------------------- + +cmsPipeline* _cmsLinkProfiles(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number TheIntents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + +// Sequence -------------------------------------------------------------------------------------------------------- + +cmsSEQ* _cmsReadProfileSequence(cmsHPROFILE hProfile); +cmsBool _cmsWriteProfileSequence(cmsHPROFILE hProfile, const cmsSEQ* seq); +cmsSEQ* _cmsCompileProfileSequence(cmsContext ContextID, cmsUInt32Number nProfiles, cmsHPROFILE hProfiles[]); + + +// LUT optimization ------------------------------------------------------------------------------------------------ + +cmsUInt16Number _cmsQuantizeVal(cmsFloat64Number i, int MaxSamples); +int _cmsReasonableGridpointsByColorspace(cmsColorSpaceSignature Colorspace, cmsUInt32Number dwFlags); + +cmsBool _cmsEndPointsBySpace(cmsColorSpaceSignature Space, + cmsUInt16Number **White, + cmsUInt16Number **Black, + cmsUInt32Number *nOutputs); + +cmsBool _cmsOptimizePipeline(cmsContext ContextID, + cmsPipeline** Lut, + int Intent, + cmsUInt32Number* InputFormat, + cmsUInt32Number* OutputFormat, + cmsUInt32Number* dwFlags ); + + +// Hi level LUT building ---------------------------------------------------------------------------------------------- + +cmsPipeline* _cmsCreateGamutCheckPipeline(cmsContext ContextID, + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsUInt32Number Intents[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number nGamutPCSposition, + cmsHPROFILE hGamut); + + +// Formatters ------------------------------------------------------------------------------------------------------------ + +#define cmsFLAGS_CAN_CHANGE_FORMATTER 0x02000000 // Allow change buffer format + +cmsBool _cmsFormatterIsFloat(cmsUInt32Number Type); +cmsBool _cmsFormatterIs8bit(cmsUInt32Number Type); + +cmsFormatter _cmsGetFormatter(cmsContext ContextID, + cmsUInt32Number Type, // Specific type, i.e. TYPE_RGB_8 + cmsFormatterDirection Dir, + cmsUInt32Number dwFlags); + + +#ifndef CMS_NO_HALF_SUPPORT + +// Half float +cmsFloat32Number _cmsHalf2Float(cmsUInt16Number h); +cmsUInt16Number _cmsFloat2Half(cmsFloat32Number flt); + +#endif + +// Transform logic ------------------------------------------------------------------------------------------------------ + +struct _cmstransform_struct; + +typedef struct { + + // 1-pixel cache (16 bits only) + cmsUInt16Number CacheIn[cmsMAXCHANNELS]; + cmsUInt16Number CacheOut[cmsMAXCHANNELS]; + +} _cmsCACHE; + + + +// Transformation +typedef struct _cmstransform_struct { + + cmsUInt32Number InputFormat, OutputFormat; // Keep formats for further reference + + // Points to transform code + _cmsTransform2Fn xform; + + // Formatters, cannot be embedded into LUT because cache + cmsFormatter16 FromInput; + cmsFormatter16 ToOutput; + + cmsFormatterFloat FromInputFloat; + cmsFormatterFloat ToOutputFloat; + + // 1-pixel cache seed for zero as input (16 bits, read only) + _cmsCACHE Cache; + + // A Pipeline holding the full (optimized) transform + cmsPipeline* Lut; + + // A Pipeline holding the gamut check. It goes from the input space to bilevel + cmsPipeline* GamutCheck; + + // Colorant tables + cmsNAMEDCOLORLIST* InputColorant; // Input Colorant table + cmsNAMEDCOLORLIST* OutputColorant; // Colorant table (for n chans > CMYK) + + // Informational only + cmsColorSpaceSignature EntryColorSpace; + cmsColorSpaceSignature ExitColorSpace; + + // White points (informative only) + cmsCIEXYZ EntryWhitePoint; + cmsCIEXYZ ExitWhitePoint; + + // Profiles used to create the transform + cmsSEQ* Sequence; + + cmsUInt32Number dwOriginalFlags; + cmsFloat64Number AdaptationState; + + // The intent of this transform. That is usually the last intent in the profilechain, but may differ + cmsUInt32Number RenderingIntent; + + // An id that uniquely identifies the running context. May be null. + cmsContext ContextID; + + // A user-defined pointer that can be used to store data for transform plug-ins + void* UserData; + _cmsFreeUserDataFn FreeUserData; + + // A way to provide backwards compatibility with full xform plugins + _cmsTransformFn OldXform; + +} _cmsTRANSFORM; + +// Copies extra channels from input to output if the original flags in the transform structure +// instructs to do so. This function is called on all standard transform functions. +void _cmsHandleExtraChannels(_cmsTRANSFORM* p, const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride); + +// ----------------------------------------------------------------------------------------------------------------------- + +cmsHTRANSFORM _cmsChain2Lab(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + const cmsUInt32Number Intents[], + const cmsHPROFILE hProfiles[], + const cmsBool BPC[], + const cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + + +cmsToneCurve* _cmsBuildKToneCurve(cmsContext ContextID, + cmsUInt32Number nPoints, + cmsUInt32Number nProfiles, + const cmsUInt32Number Intents[], + const cmsHPROFILE hProfiles[], + const cmsBool BPC[], + const cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + +cmsBool _cmsAdaptationMatrix(cmsMAT3* r, const cmsMAT3* ConeMatrix, const cmsCIEXYZ* FromIll, const cmsCIEXYZ* ToIll); + +cmsBool _cmsBuildRGB2XYZtransferMatrix(cmsMAT3* r, const cmsCIExyY* WhitePoint, const cmsCIExyYTRIPLE* Primaries); + + +#define _lcms_internal_H +#endif Index: sdk/lib/3rdparty/lcms2/text.txt =================================================================== --- sdk/lib/3rdparty/lcms2/text.txt (nonexistent) +++ sdk/lib/3rdparty/lcms2/text.txt (working copy) @@ -0,0 +1,26 @@ +cmsalpha.c +cmscam02.c +cmscgats.c +cmscnvrt.c +cmserr.c +cmsgamma.c +cmsgmt.c +cmshalf.c +cmsintrp.c +cmsio0.c +cmsio1.c +cmslut.c +cmsmd5.c +cmsmtrx.c +cmsnamed.c +cmsopt.c +cmspack.c +cmspcs.c +cmsplugin.c +cmsps2.c +cmssamp.c +cmssm.c +cmstypes.c +cmsvirt.c +cmswtpnt.c +cmsxform.c Index: sdk/lib/3rdparty/lcms2/CMakeLists.txt =================================================================== --- sdk/lib/3rdparty/lcms2/CMakeLists.txt (nonexistent) +++ sdk/lib/3rdparty/lcms2/CMakeLists.txt (working copy) @@ -0,0 +1,39 @@ + +add_definitions(-DCMS_NO_PTHREADS) +include_directories(${REACTOS_SOURCE_DIR}/sdk/include/reactos/libs/lcms2) + +list(APPEND SOURCE + cmsalpha.c + cmscam02.c + cmscgats.c + cmscnvrt.c + cmserr.c + cmsgamma.c + cmsgmt.c + cmshalf.c + cmsintrp.c + cmsio0.c + cmsio1.c + cmslut.c + cmsmd5.c + cmsmtrx.c + cmsnamed.c + cmsopt.c + cmspack.c + cmspcs.c + cmsplugin.c + cmsps2.c + cmssamp.c + cmssm.c + cmstypes.c + cmsvirt.c + cmswtpnt.c + cmsxform.c) + +add_library(lcms2 ${SOURCE}) +add_dependencies(lcms2 psdk) + +if((NOT MSVC) AND (NOT CMAKE_C_COMPILER_ID STREQUAL "Clang")) + add_target_compile_flags(lcms2 "-Wno-unused-but-set-variable") +endif() + Index: sdk/lib/3rdparty/lcms2/cmsalpha.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsalpha.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsalpha.c (working copy) @@ -0,0 +1,518 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// Alpha copy ------------------------------------------------------------------------------------------------------------------ + +// Floor to byte, taking care of saturation +cmsINLINE cmsUInt8Number _cmsQuickSaturateByte(cmsFloat64Number d) +{ + d += 0.5; + if (d <= 0) return 0; + if (d >= 255.0) return 255; + + return (cmsUInt8Number) _cmsQuickFloorWord(d); +} + + +// Return the size in bytes of a given formatter +static +int trueBytesSize(cmsUInt32Number Format) +{ + int fmt_bytes = T_BYTES(Format); + + // For double, the T_BYTES field returns zero + if (fmt_bytes == 0) + return sizeof(double); + + // Otherwise, it is already correct for all formats + return fmt_bytes; +} + + +// Several format converters + +typedef void(*cmsFormatterAlphaFn)(void* dst, const void* src); + + +// From 8 + +static +void copy8(void* dst, const void* src) +{ + memmove(dst, src, 1); +} + +static +void from8to16(void* dst, const void* src) +{ + cmsUInt8Number n = *(cmsUInt8Number*)src; + *(cmsUInt16Number*) dst = FROM_8_TO_16(n); +} + +static +void from8toFLT(void* dst, const void* src) +{ + *(cmsFloat32Number*)dst = (*(cmsUInt8Number*)src) / 255.0f; +} + +static +void from8toDBL(void* dst, const void* src) +{ + *(cmsFloat64Number*)dst = (*(cmsUInt8Number*)src) / 255.0; +} + +static +void from8toHLF(void* dst, const void* src) +{ + cmsFloat32Number n = (*(cmsUInt8Number*)src) / 255.0f; + *(cmsUInt16Number*)dst = _cmsFloat2Half(n); +} + +// From 16 + +static +void from16to8(void* dst, const void* src) +{ + cmsUInt16Number n = *(cmsUInt16Number*)src; + *(cmsUInt8Number*) dst = FROM_16_TO_8(n); +} + +static +void copy16(void* dst, const void* src) +{ + memmove(dst, src, 2); +} + +void from16toFLT(void* dst, const void* src) +{ + *(cmsFloat32Number*)dst = (*(cmsUInt16Number*)src) / 65535.0f; +} + +void from16toDBL(void* dst, const void* src) +{ + *(cmsFloat64Number*)dst = (*(cmsUInt16Number*)src) / 65535.0f; +} + +static +void from16toHLF(void* dst, const void* src) +{ + cmsFloat32Number n = (*(cmsUInt16Number*)src) / 65535.0f; + *(cmsUInt16Number*)dst = _cmsFloat2Half(n); +} + +// From Float + +static +void fromFLTto8(void* dst, const void* src) +{ + cmsFloat32Number n = *(cmsFloat32Number*)src; + *(cmsUInt8Number*)dst = _cmsQuickSaturateByte(n * 255.0f); +} + +static +void fromFLTto16(void* dst, const void* src) +{ + cmsFloat32Number n = *(cmsFloat32Number*)src; + *(cmsUInt16Number*)dst = _cmsQuickSaturateWord(n * 65535.0f); +} + +static +void copy32(void* dst, const void* src) +{ + memmove(dst, src, sizeof(cmsFloat32Number)); +} + +static +void fromFLTtoDBL(void* dst, const void* src) +{ + cmsFloat32Number n = *(cmsFloat32Number*)src; + *(cmsFloat64Number*)dst = (cmsFloat64Number)n; +} + +static +void fromFLTtoHLF(void* dst, const void* src) +{ + cmsFloat32Number n = *(cmsFloat32Number*)src; + *(cmsUInt16Number*)dst = _cmsFloat2Half(n); +} + + +// From HALF + +static +void fromHLFto8(void* dst, const void* src) +{ + cmsFloat32Number n = _cmsHalf2Float(*(cmsUInt16Number*)src); + *(cmsUInt8Number*)dst = _cmsQuickSaturateByte(n * 255.0f); +} + +static +void fromHLFto16(void* dst, const void* src) +{ + cmsFloat32Number n = _cmsHalf2Float(*(cmsUInt16Number*)src); + *(cmsUInt16Number*)dst = _cmsQuickSaturateWord(n * 65535.0f); +} + +static +void fromHLFtoFLT(void* dst, const void* src) +{ + *(cmsFloat32Number*)dst = _cmsHalf2Float(*(cmsUInt16Number*)src); +} + +static +void fromHLFtoDBL(void* dst, const void* src) +{ + *(cmsFloat64Number*)dst = (cmsFloat64Number)_cmsHalf2Float(*(cmsUInt16Number*)src); +} + +// From double +static +void fromDBLto8(void* dst, const void* src) +{ + cmsFloat64Number n = *(cmsFloat64Number*)src; + *(cmsUInt8Number*)dst = _cmsQuickSaturateByte(n * 255.0); +} + +static +void fromDBLto16(void* dst, const void* src) +{ + cmsFloat64Number n = *(cmsFloat64Number*)src; + *(cmsUInt16Number*)dst = _cmsQuickSaturateWord(n * 65535.0f); +} + +static +void fromDBLtoFLT(void* dst, const void* src) +{ + cmsFloat64Number n = *(cmsFloat64Number*)src; + *(cmsFloat32Number*)dst = (cmsFloat32Number) n; +} + +static +void fromDBLtoHLF(void* dst, const void* src) +{ + cmsFloat32Number n = (cmsFloat32Number) *(cmsFloat64Number*)src; + *(cmsUInt16Number*)dst = _cmsFloat2Half(n); +} + +static +void copy64(void* dst, const void* src) +{ + memmove(dst, src, sizeof(cmsFloat64Number)); +} + + +// Returns the position (x or y) of the formatter in the table of functions +static +int FormatterPos(cmsUInt32Number frm) +{ + int b = T_BYTES(frm); + + if (b == 0 && T_FLOAT(frm)) + return 4; // DBL + if (b == 2 && T_FLOAT(frm)) + return 2; // HLF + if (b == 4 && T_FLOAT(frm)) + return 3; // FLT + if (b == 2 && !T_FLOAT(frm)) + return 1; // 16 + if (b == 1 && !T_FLOAT(frm)) + return 0; // 8 + + return -1; // not recognized + +} + +// Obtains a alpha-to-alpha funmction formatter +static +cmsFormatterAlphaFn _cmsGetFormatterAlpha(cmsContext id, cmsUInt32Number in, cmsUInt32Number out) +{ +static cmsFormatterAlphaFn FormattersAlpha[5][5] = { + + /* from 8 */ { copy8, from8to16, from8toHLF, from8toFLT, from8toDBL }, + /* from 16*/ { from16to8, copy16, from16toHLF, from16toFLT, from16toDBL }, + /* from HLF*/ { fromHLFto8, fromHLFto16, copy16, fromHLFtoFLT, fromHLFtoDBL }, + /* from FLT*/ { fromFLTto8, fromFLTto16, fromFLTtoHLF, copy32, fromFLTtoDBL }, + /* from DBL*/ { fromDBLto8, fromDBLto16, fromDBLtoHLF, fromDBLtoFLT, copy64 }}; + + int in_n = FormatterPos(in); + int out_n = FormatterPos(out); + + if (in_n < 0 || out_n < 0 || in_n > 4 || out_n > 4) { + + cmsSignalError(id, cmsERROR_UNKNOWN_EXTENSION, "Unrecognized alpha channel width"); + return NULL; + } + + return FormattersAlpha[in_n][out_n]; +} + + + +// This function computes the distance from each component to the next one in bytes. +static +void ComputeIncrementsForChunky(cmsUInt32Number Format, + cmsUInt32Number ComponentStartingOrder[], + cmsUInt32Number ComponentPointerIncrements[]) +{ + cmsUInt32Number channels[cmsMAXCHANNELS]; + int extra = T_EXTRA(Format); + int nchannels = T_CHANNELS(Format); + int total_chans = nchannels + extra; + int i; + int channelSize = trueBytesSize(Format); + int pixelSize = channelSize * total_chans; + + // Sanity check + if (total_chans <= 0 || total_chans >= cmsMAXCHANNELS) + return; + + memset(channels, 0, sizeof(channels)); + + // Separation is independent of starting point and only depends on channel size + for (i = 0; i < extra; i++) + ComponentPointerIncrements[i] = pixelSize; + + // Handle do swap + for (i = 0; i < total_chans; i++) + { + if (T_DOSWAP(Format)) { + channels[i] = total_chans - i - 1; + } + else { + channels[i] = i; + } + } + + // Handle swap first (ROL of positions), example CMYK -> KCMY | 0123 -> 3012 + if (T_SWAPFIRST(Format) && total_chans > 1) { + + cmsUInt32Number tmp = channels[0]; + for (i = 0; i < total_chans-1; i++) + channels[i] = channels[i + 1]; + + channels[total_chans - 1] = tmp; + } + + // Handle size + if (channelSize > 1) + for (i = 0; i < total_chans; i++) { + channels[i] *= channelSize; + } + + for (i = 0; i < extra; i++) + ComponentStartingOrder[i] = channels[i + nchannels]; +} + + + +// On planar configurations, the distance is the stride added to any non-negative +static +void ComputeIncrementsForPlanar(cmsUInt32Number Format, + cmsUInt32Number BytesPerPlane, + cmsUInt32Number ComponentStartingOrder[], + cmsUInt32Number ComponentPointerIncrements[]) +{ + cmsUInt32Number channels[cmsMAXCHANNELS]; + int extra = T_EXTRA(Format); + int nchannels = T_CHANNELS(Format); + int total_chans = nchannels + extra; + int i; + int channelSize = trueBytesSize(Format); + + // Sanity check + if (total_chans <= 0 || total_chans >= cmsMAXCHANNELS) + return; + + memset(channels, 0, sizeof(channels)); + + // Separation is independent of starting point and only depends on channel size + for (i = 0; i < extra; i++) + ComponentPointerIncrements[i] = channelSize; + + // Handle do swap + for (i = 0; i < total_chans; i++) + { + if (T_DOSWAP(Format)) { + channels[i] = total_chans - i - 1; + } + else { + channels[i] = i; + } + } + + // Handle swap first (ROL of positions), example CMYK -> KCMY | 0123 -> 3012 + if (T_SWAPFIRST(Format) && total_chans > 0) { + + cmsUInt32Number tmp = channels[0]; + for (i = 0; i < total_chans - 1; i++) + channels[i] = channels[i + 1]; + + channels[total_chans - 1] = tmp; + } + + // Handle size + for (i = 0; i < total_chans; i++) { + channels[i] *= BytesPerPlane; + } + + for (i = 0; i < extra; i++) + ComponentStartingOrder[i] = channels[i + nchannels]; +} + + + +// Dispatcher por chunky and planar RGB +static +void ComputeComponentIncrements(cmsUInt32Number Format, + cmsUInt32Number BytesPerPlane, + cmsUInt32Number ComponentStartingOrder[], + cmsUInt32Number ComponentPointerIncrements[]) +{ + if (T_PLANAR(Format)) { + + ComputeIncrementsForPlanar(Format, BytesPerPlane, ComponentStartingOrder, ComponentPointerIncrements); + } + else { + ComputeIncrementsForChunky(Format, ComponentStartingOrder, ComponentPointerIncrements); + } + +} + + + +// Handles extra channels copying alpha if requested by the flags +void _cmsHandleExtraChannels(_cmsTRANSFORM* p, const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + cmsUInt32Number i, j, k; + cmsUInt32Number nExtra; + cmsUInt32Number SourceStartingOrder[cmsMAXCHANNELS]; + cmsUInt32Number SourceIncrements[cmsMAXCHANNELS]; + cmsUInt32Number DestStartingOrder[cmsMAXCHANNELS]; + cmsUInt32Number DestIncrements[cmsMAXCHANNELS]; + + cmsFormatterAlphaFn copyValueFn; + + // Make sure we need some copy + if (!(p->dwOriginalFlags & cmsFLAGS_COPY_ALPHA)) + return; + + // Exit early if in-place color-management is occurring - no need to copy extra channels to themselves. + if (p->InputFormat == p->OutputFormat && in == out) + return; + + // Make sure we have same number of alpha channels. If not, just return as this should be checked at transform creation time. + nExtra = T_EXTRA(p->InputFormat); + if (nExtra != T_EXTRA(p->OutputFormat)) + return; + + // Anything to do? + if (nExtra == 0) + return; + + // Compute the increments + ComputeComponentIncrements(p->InputFormat, Stride->BytesPerPlaneIn, SourceStartingOrder, SourceIncrements); + ComputeComponentIncrements(p->OutputFormat, Stride->BytesPerPlaneOut, DestStartingOrder, DestIncrements); + + // Check for conversions 8, 16, half, float, dbl + copyValueFn = _cmsGetFormatterAlpha(p->ContextID, p->InputFormat, p->OutputFormat); + + if (nExtra == 1) { // Optimized routine for copying a single extra channel quickly + + cmsUInt8Number* SourcePtr; + cmsUInt8Number* DestPtr; + + cmsUInt32Number SourceStrideIncrement = 0; + cmsUInt32Number DestStrideIncrement = 0; + + // The loop itself + for (i = 0; i < LineCount; i++) { + + // Prepare pointers for the loop + SourcePtr = (cmsUInt8Number*)in + SourceStartingOrder[0] + SourceStrideIncrement; + DestPtr = (cmsUInt8Number*)out + DestStartingOrder[0] + DestStrideIncrement; + + for (j = 0; j < PixelsPerLine; j++) { + + copyValueFn(DestPtr, SourcePtr); + + SourcePtr += SourceIncrements[0]; + DestPtr += DestIncrements[0]; + } + + SourceStrideIncrement += Stride->BytesPerLineIn; + DestStrideIncrement += Stride->BytesPerLineOut; + } + + } + else { // General case with more than one extra channel + + cmsUInt8Number* SourcePtr[cmsMAXCHANNELS]; + cmsUInt8Number* DestPtr[cmsMAXCHANNELS]; + + cmsUInt32Number SourceStrideIncrements[cmsMAXCHANNELS]; + cmsUInt32Number DestStrideIncrements[cmsMAXCHANNELS]; + + memset(SourceStrideIncrements, 0, sizeof(SourceStrideIncrements)); + memset(DestStrideIncrements, 0, sizeof(DestStrideIncrements)); + + // The loop itself + for (i = 0; i < LineCount; i++) { + + // Prepare pointers for the loop + for (j = 0; j < nExtra; j++) { + + SourcePtr[j] = (cmsUInt8Number*)in + SourceStartingOrder[j] + SourceStrideIncrements[j]; + DestPtr[j] = (cmsUInt8Number*)out + DestStartingOrder[j] + DestStrideIncrements[j]; + } + + for (j = 0; j < PixelsPerLine; j++) { + + for (k = 0; k < nExtra; k++) { + + copyValueFn(DestPtr[k], SourcePtr[k]); + + SourcePtr[k] += SourceIncrements[k]; + DestPtr[k] += DestIncrements[k]; + } + } + + for (j = 0; j < nExtra; j++) { + + SourceStrideIncrements[j] += Stride->BytesPerLineIn; + DestStrideIncrements[j] += Stride->BytesPerLineOut; + } + } + } +} + + Index: sdk/lib/3rdparty/lcms2/cmscam02.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmscam02.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmscam02.c (working copy) @@ -0,0 +1,486 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// CIECAM 02 appearance model. Many thanks to Jordi Vilar for the debugging. + +// ---------- Implementation -------------------------------------------- + +typedef struct { + + cmsFloat64Number XYZ[3]; + cmsFloat64Number RGB[3]; + cmsFloat64Number RGBc[3]; + cmsFloat64Number RGBp[3]; + cmsFloat64Number RGBpa[3]; + cmsFloat64Number a, b, h, e, H, A, J, Q, s, t, C, M; + cmsFloat64Number abC[2]; + cmsFloat64Number abs[2]; + cmsFloat64Number abM[2]; + +} CAM02COLOR; + +typedef struct { + + CAM02COLOR adoptedWhite; + cmsFloat64Number LA, Yb; + cmsFloat64Number F, c, Nc; + cmsUInt32Number surround; + cmsFloat64Number n, Nbb, Ncb, z, FL, D; + + cmsContext ContextID; + +} cmsCIECAM02; + + +static +cmsFloat64Number compute_n(cmsCIECAM02* pMod) +{ + return (pMod -> Yb / pMod -> adoptedWhite.XYZ[1]); +} + +static +cmsFloat64Number compute_z(cmsCIECAM02* pMod) +{ + return (1.48 + pow(pMod -> n, 0.5)); +} + +static +cmsFloat64Number computeNbb(cmsCIECAM02* pMod) +{ + return (0.725 * pow((1.0 / pMod -> n), 0.2)); +} + +static +cmsFloat64Number computeFL(cmsCIECAM02* pMod) +{ + cmsFloat64Number k, FL; + + k = 1.0 / ((5.0 * pMod->LA) + 1.0); + FL = 0.2 * pow(k, 4.0) * (5.0 * pMod->LA) + 0.1 * + (pow((1.0 - pow(k, 4.0)), 2.0)) * + (pow((5.0 * pMod->LA), (1.0 / 3.0))); + + return FL; +} + +static +cmsFloat64Number computeD(cmsCIECAM02* pMod) +{ + cmsFloat64Number D; + + D = pMod->F - (1.0/3.6)*(exp(((-pMod ->LA-42) / 92.0))); + + return D; +} + + +static +CAM02COLOR XYZtoCAT02(CAM02COLOR clr) +{ + clr.RGB[0] = (clr.XYZ[0] * 0.7328) + (clr.XYZ[1] * 0.4296) + (clr.XYZ[2] * -0.1624); + clr.RGB[1] = (clr.XYZ[0] * -0.7036) + (clr.XYZ[1] * 1.6975) + (clr.XYZ[2] * 0.0061); + clr.RGB[2] = (clr.XYZ[0] * 0.0030) + (clr.XYZ[1] * 0.0136) + (clr.XYZ[2] * 0.9834); + + return clr; +} + +static +CAM02COLOR ChromaticAdaptation(CAM02COLOR clr, cmsCIECAM02* pMod) +{ + cmsUInt32Number i; + + for (i = 0; i < 3; i++) { + clr.RGBc[i] = ((pMod -> adoptedWhite.XYZ[1] * + (pMod->D / pMod -> adoptedWhite.RGB[i])) + + (1.0 - pMod->D)) * clr.RGB[i]; + } + + return clr; +} + + +static +CAM02COLOR CAT02toHPE(CAM02COLOR clr) +{ + cmsFloat64Number M[9]; + + M[0] =(( 0.38971 * 1.096124) + (0.68898 * 0.454369) + (-0.07868 * -0.009628)); + M[1] =(( 0.38971 * -0.278869) + (0.68898 * 0.473533) + (-0.07868 * -0.005698)); + M[2] =(( 0.38971 * 0.182745) + (0.68898 * 0.072098) + (-0.07868 * 1.015326)); + M[3] =((-0.22981 * 1.096124) + (1.18340 * 0.454369) + ( 0.04641 * -0.009628)); + M[4] =((-0.22981 * -0.278869) + (1.18340 * 0.473533) + ( 0.04641 * -0.005698)); + M[5] =((-0.22981 * 0.182745) + (1.18340 * 0.072098) + ( 0.04641 * 1.015326)); + M[6] =(-0.009628); + M[7] =(-0.005698); + M[8] =( 1.015326); + + clr.RGBp[0] = (clr.RGBc[0] * M[0]) + (clr.RGBc[1] * M[1]) + (clr.RGBc[2] * M[2]); + clr.RGBp[1] = (clr.RGBc[0] * M[3]) + (clr.RGBc[1] * M[4]) + (clr.RGBc[2] * M[5]); + clr.RGBp[2] = (clr.RGBc[0] * M[6]) + (clr.RGBc[1] * M[7]) + (clr.RGBc[2] * M[8]); + + return clr; +} + +static +CAM02COLOR NonlinearCompression(CAM02COLOR clr, cmsCIECAM02* pMod) +{ + cmsUInt32Number i; + cmsFloat64Number temp; + + for (i = 0; i < 3; i++) { + if (clr.RGBp[i] < 0) { + + temp = pow((-1.0 * pMod->FL * clr.RGBp[i] / 100.0), 0.42); + clr.RGBpa[i] = (-1.0 * 400.0 * temp) / (temp + 27.13) + 0.1; + } + else { + temp = pow((pMod->FL * clr.RGBp[i] / 100.0), 0.42); + clr.RGBpa[i] = (400.0 * temp) / (temp + 27.13) + 0.1; + } + } + + clr.A = (((2.0 * clr.RGBpa[0]) + clr.RGBpa[1] + + (clr.RGBpa[2] / 20.0)) - 0.305) * pMod->Nbb; + + return clr; +} + +static +CAM02COLOR ComputeCorrelates(CAM02COLOR clr, cmsCIECAM02* pMod) +{ + cmsFloat64Number a, b, temp, e, t, r2d, d2r; + + a = clr.RGBpa[0] - (12.0 * clr.RGBpa[1] / 11.0) + (clr.RGBpa[2] / 11.0); + b = (clr.RGBpa[0] + clr.RGBpa[1] - (2.0 * clr.RGBpa[2])) / 9.0; + + r2d = (180.0 / 3.141592654); + if (a == 0) { + if (b == 0) clr.h = 0; + else if (b > 0) clr.h = 90; + else clr.h = 270; + } + else if (a > 0) { + temp = b / a; + if (b > 0) clr.h = (r2d * atan(temp)); + else if (b == 0) clr.h = 0; + else clr.h = (r2d * atan(temp)) + 360; + } + else { + temp = b / a; + clr.h = (r2d * atan(temp)) + 180; + } + + d2r = (3.141592654 / 180.0); + e = ((12500.0 / 13.0) * pMod->Nc * pMod->Ncb) * + (cos((clr.h * d2r + 2.0)) + 3.8); + + if (clr.h < 20.14) { + temp = ((clr.h + 122.47)/1.2) + ((20.14 - clr.h)/0.8); + clr.H = 300 + (100*((clr.h + 122.47)/1.2)) / temp; + } + else if (clr.h < 90.0) { + temp = ((clr.h - 20.14)/0.8) + ((90.00 - clr.h)/0.7); + clr.H = (100*((clr.h - 20.14)/0.8)) / temp; + } + else if (clr.h < 164.25) { + temp = ((clr.h - 90.00)/0.7) + ((164.25 - clr.h)/1.0); + clr.H = 100 + ((100*((clr.h - 90.00)/0.7)) / temp); + } + else if (clr.h < 237.53) { + temp = ((clr.h - 164.25)/1.0) + ((237.53 - clr.h)/1.2); + clr.H = 200 + ((100*((clr.h - 164.25)/1.0)) / temp); + } + else { + temp = ((clr.h - 237.53)/1.2) + ((360 - clr.h + 20.14)/0.8); + clr.H = 300 + ((100*((clr.h - 237.53)/1.2)) / temp); + } + + clr.J = 100.0 * pow((clr.A / pMod->adoptedWhite.A), + (pMod->c * pMod->z)); + + clr.Q = (4.0 / pMod->c) * pow((clr.J / 100.0), 0.5) * + (pMod->adoptedWhite.A + 4.0) * pow(pMod->FL, 0.25); + + t = (e * pow(((a * a) + (b * b)), 0.5)) / + (clr.RGBpa[0] + clr.RGBpa[1] + + ((21.0 / 20.0) * clr.RGBpa[2])); + + clr.C = pow(t, 0.9) * pow((clr.J / 100.0), 0.5) * + pow((1.64 - pow(0.29, pMod->n)), 0.73); + + clr.M = clr.C * pow(pMod->FL, 0.25); + clr.s = 100.0 * pow((clr.M / clr.Q), 0.5); + + return clr; +} + + +static +CAM02COLOR InverseCorrelates(CAM02COLOR clr, cmsCIECAM02* pMod) +{ + + cmsFloat64Number t, e, p1, p2, p3, p4, p5, hr, d2r; + d2r = 3.141592654 / 180.0; + + t = pow( (clr.C / (pow((clr.J / 100.0), 0.5) * + (pow((1.64 - pow(0.29, pMod->n)), 0.73)))), + (1.0 / 0.9) ); + e = ((12500.0 / 13.0) * pMod->Nc * pMod->Ncb) * + (cos((clr.h * d2r + 2.0)) + 3.8); + + clr.A = pMod->adoptedWhite.A * pow( + (clr.J / 100.0), + (1.0 / (pMod->c * pMod->z))); + + p1 = e / t; + p2 = (clr.A / pMod->Nbb) + 0.305; + p3 = 21.0 / 20.0; + + hr = clr.h * d2r; + + if (fabs(sin(hr)) >= fabs(cos(hr))) { + p4 = p1 / sin(hr); + clr.b = (p2 * (2.0 + p3) * (460.0 / 1403.0)) / + (p4 + (2.0 + p3) * (220.0 / 1403.0) * + (cos(hr) / sin(hr)) - (27.0 / 1403.0) + + p3 * (6300.0 / 1403.0)); + clr.a = clr.b * (cos(hr) / sin(hr)); + } + else { + p5 = p1 / cos(hr); + clr.a = (p2 * (2.0 + p3) * (460.0 / 1403.0)) / + (p5 + (2.0 + p3) * (220.0 / 1403.0) - + ((27.0 / 1403.0) - p3 * (6300.0 / 1403.0)) * + (sin(hr) / cos(hr))); + clr.b = clr.a * (sin(hr) / cos(hr)); + } + + clr.RGBpa[0] = ((460.0 / 1403.0) * p2) + + ((451.0 / 1403.0) * clr.a) + + ((288.0 / 1403.0) * clr.b); + clr.RGBpa[1] = ((460.0 / 1403.0) * p2) - + ((891.0 / 1403.0) * clr.a) - + ((261.0 / 1403.0) * clr.b); + clr.RGBpa[2] = ((460.0 / 1403.0) * p2) - + ((220.0 / 1403.0) * clr.a) - + ((6300.0 / 1403.0) * clr.b); + + return clr; +} + +static +CAM02COLOR InverseNonlinearity(CAM02COLOR clr, cmsCIECAM02* pMod) +{ + cmsUInt32Number i; + cmsFloat64Number c1; + + for (i = 0; i < 3; i++) { + if ((clr.RGBpa[i] - 0.1) < 0) c1 = -1; + else c1 = 1; + clr.RGBp[i] = c1 * (100.0 / pMod->FL) * + pow(((27.13 * fabs(clr.RGBpa[i] - 0.1)) / + (400.0 - fabs(clr.RGBpa[i] - 0.1))), + (1.0 / 0.42)); + } + + return clr; +} + +static +CAM02COLOR HPEtoCAT02(CAM02COLOR clr) +{ + cmsFloat64Number M[9]; + + M[0] = (( 0.7328 * 1.910197) + (0.4296 * 0.370950)); + M[1] = (( 0.7328 * -1.112124) + (0.4296 * 0.629054)); + M[2] = (( 0.7328 * 0.201908) + (0.4296 * 0.000008) - 0.1624); + M[3] = ((-0.7036 * 1.910197) + (1.6975 * 0.370950)); + M[4] = ((-0.7036 * -1.112124) + (1.6975 * 0.629054)); + M[5] = ((-0.7036 * 0.201908) + (1.6975 * 0.000008) + 0.0061); + M[6] = (( 0.0030 * 1.910197) + (0.0136 * 0.370950)); + M[7] = (( 0.0030 * -1.112124) + (0.0136 * 0.629054)); + M[8] = (( 0.0030 * 0.201908) + (0.0136 * 0.000008) + 0.9834);; + + clr.RGBc[0] = (clr.RGBp[0] * M[0]) + (clr.RGBp[1] * M[1]) + (clr.RGBp[2] * M[2]); + clr.RGBc[1] = (clr.RGBp[0] * M[3]) + (clr.RGBp[1] * M[4]) + (clr.RGBp[2] * M[5]); + clr.RGBc[2] = (clr.RGBp[0] * M[6]) + (clr.RGBp[1] * M[7]) + (clr.RGBp[2] * M[8]); + return clr; +} + + +static +CAM02COLOR InverseChromaticAdaptation(CAM02COLOR clr, cmsCIECAM02* pMod) +{ + cmsUInt32Number i; + for (i = 0; i < 3; i++) { + clr.RGB[i] = clr.RGBc[i] / + ((pMod->adoptedWhite.XYZ[1] * pMod->D / pMod->adoptedWhite.RGB[i]) + 1.0 - pMod->D); + } + return clr; +} + + +static +CAM02COLOR CAT02toXYZ(CAM02COLOR clr) +{ + clr.XYZ[0] = (clr.RGB[0] * 1.096124) + (clr.RGB[1] * -0.278869) + (clr.RGB[2] * 0.182745); + clr.XYZ[1] = (clr.RGB[0] * 0.454369) + (clr.RGB[1] * 0.473533) + (clr.RGB[2] * 0.072098); + clr.XYZ[2] = (clr.RGB[0] * -0.009628) + (clr.RGB[1] * -0.005698) + (clr.RGB[2] * 1.015326); + + return clr; +} + + +cmsHANDLE CMSEXPORT cmsCIECAM02Init(cmsContext ContextID, const cmsViewingConditions* pVC) +{ + cmsCIECAM02* lpMod; + + _cmsAssert(pVC != NULL); + + if((lpMod = (cmsCIECAM02*) _cmsMallocZero(ContextID, sizeof(cmsCIECAM02))) == NULL) { + return NULL; + } + + lpMod ->ContextID = ContextID; + + lpMod ->adoptedWhite.XYZ[0] = pVC ->whitePoint.X; + lpMod ->adoptedWhite.XYZ[1] = pVC ->whitePoint.Y; + lpMod ->adoptedWhite.XYZ[2] = pVC ->whitePoint.Z; + + lpMod -> LA = pVC ->La; + lpMod -> Yb = pVC ->Yb; + lpMod -> D = pVC ->D_value; + lpMod -> surround = pVC ->surround; + + switch (lpMod -> surround) { + + + case CUTSHEET_SURROUND: + lpMod->F = 0.8; + lpMod->c = 0.41; + lpMod->Nc = 0.8; + break; + + case DARK_SURROUND: + lpMod -> F = 0.8; + lpMod -> c = 0.525; + lpMod -> Nc = 0.8; + break; + + case DIM_SURROUND: + lpMod -> F = 0.9; + lpMod -> c = 0.59; + lpMod -> Nc = 0.95; + break; + + default: + // Average surround + lpMod -> F = 1.0; + lpMod -> c = 0.69; + lpMod -> Nc = 1.0; + } + + lpMod -> n = compute_n(lpMod); + lpMod -> z = compute_z(lpMod); + lpMod -> Nbb = computeNbb(lpMod); + lpMod -> FL = computeFL(lpMod); + + if (lpMod -> D == D_CALCULATE) { + lpMod -> D = computeD(lpMod); + } + + lpMod -> Ncb = lpMod -> Nbb; + + lpMod -> adoptedWhite = XYZtoCAT02(lpMod -> adoptedWhite); + lpMod -> adoptedWhite = ChromaticAdaptation(lpMod -> adoptedWhite, lpMod); + lpMod -> adoptedWhite = CAT02toHPE(lpMod -> adoptedWhite); + lpMod -> adoptedWhite = NonlinearCompression(lpMod -> adoptedWhite, lpMod); + + return (cmsHANDLE) lpMod; + +} + +void CMSEXPORT cmsCIECAM02Done(cmsHANDLE hModel) +{ + cmsCIECAM02* lpMod = (cmsCIECAM02*) hModel; + + if (lpMod) _cmsFree(lpMod ->ContextID, lpMod); +} + + +void CMSEXPORT cmsCIECAM02Forward(cmsHANDLE hModel, const cmsCIEXYZ* pIn, cmsJCh* pOut) +{ + CAM02COLOR clr; + cmsCIECAM02* lpMod = (cmsCIECAM02*) hModel; + + _cmsAssert(lpMod != NULL); + _cmsAssert(pIn != NULL); + _cmsAssert(pOut != NULL); + + memset(&clr, 0, sizeof(clr)); + + clr.XYZ[0] = pIn ->X; + clr.XYZ[1] = pIn ->Y; + clr.XYZ[2] = pIn ->Z; + + clr = XYZtoCAT02(clr); + clr = ChromaticAdaptation(clr, lpMod); + clr = CAT02toHPE(clr); + clr = NonlinearCompression(clr, lpMod); + clr = ComputeCorrelates(clr, lpMod); + + pOut ->J = clr.J; + pOut ->C = clr.C; + pOut ->h = clr.h; +} + +void CMSEXPORT cmsCIECAM02Reverse(cmsHANDLE hModel, const cmsJCh* pIn, cmsCIEXYZ* pOut) +{ + CAM02COLOR clr; + cmsCIECAM02* lpMod = (cmsCIECAM02*) hModel; + + _cmsAssert(lpMod != NULL); + _cmsAssert(pIn != NULL); + _cmsAssert(pOut != NULL); + + memset(&clr, 0, sizeof(clr)); + + clr.J = pIn -> J; + clr.C = pIn -> C; + clr.h = pIn -> h; + + clr = InverseCorrelates(clr, lpMod); + clr = InverseNonlinearity(clr, lpMod); + clr = HPEtoCAT02(clr); + clr = InverseChromaticAdaptation(clr, lpMod); + clr = CAT02toXYZ(clr); + + pOut ->X = clr.XYZ[0]; + pOut ->Y = clr.XYZ[1]; + pOut ->Z = clr.XYZ[2]; +} Index: sdk/lib/3rdparty/lcms2/cmscgats.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmscgats.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmscgats.c (working copy) @@ -0,0 +1,2775 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// IT8.7 / CGATS.17-200x handling ----------------------------------------------------------------------------- + + +#define MAXID 128 // Max length of identifier +#define MAXSTR 1024 // Max length of string +#define MAXTABLES 255 // Max Number of tables in a single stream +#define MAXINCLUDE 20 // Max number of nested includes + +#define DEFAULT_DBL_FORMAT "%.10g" // Double formatting + +#ifdef CMS_IS_WINDOWS_ +# include +# define DIR_CHAR '\\' +#else +# define DIR_CHAR '/' +#endif + + +// Symbols +typedef enum { + + SUNDEFINED, + SINUM, // Integer + SDNUM, // Real + SIDENT, // Identifier + SSTRING, // string + SCOMMENT, // comment + SEOLN, // End of line + SEOF, // End of stream + SSYNERROR, // Syntax error found on stream + + // Keywords + + SBEGIN_DATA, + SBEGIN_DATA_FORMAT, + SEND_DATA, + SEND_DATA_FORMAT, + SKEYWORD, + SDATA_FORMAT_ID, + SINCLUDE + + } SYMBOL; + + +// How to write the value +typedef enum { + + WRITE_UNCOOKED, + WRITE_STRINGIFY, + WRITE_HEXADECIMAL, + WRITE_BINARY, + WRITE_PAIR + + } WRITEMODE; + +// Linked list of variable names +typedef struct _KeyVal { + + struct _KeyVal* Next; + char* Keyword; // Name of variable + struct _KeyVal* NextSubkey; // If key is a dictionary, points to the next item + char* Subkey; // If key is a dictionary, points to the subkey name + char* Value; // Points to value + WRITEMODE WriteAs; // How to write the value + + } KEYVALUE; + + +// Linked list of memory chunks (Memory sink) +typedef struct _OwnedMem { + + struct _OwnedMem* Next; + void * Ptr; // Point to value + + } OWNEDMEM; + +// Suballocator +typedef struct _SubAllocator { + + cmsUInt8Number* Block; + cmsUInt32Number BlockSize; + cmsUInt32Number Used; + + } SUBALLOCATOR; + +// Table. Each individual table can hold properties and rows & cols +typedef struct _Table { + + char SheetType[MAXSTR]; // The first row of the IT8 (the type) + + int nSamples, nPatches; // Cols, Rows + int SampleID; // Pos of ID + + KEYVALUE* HeaderList; // The properties + + char** DataFormat; // The binary stream descriptor + char** Data; // The binary stream + + } TABLE; + +// File stream being parsed +typedef struct _FileContext { + char FileName[cmsMAX_PATH]; // File name if being readed from file + FILE* Stream; // File stream or NULL if holded in memory + } FILECTX; + +// This struct hold all information about an open IT8 handler. +typedef struct { + + + cmsUInt32Number TablesCount; // How many tables in this stream + cmsUInt32Number nTable; // The actual table + + TABLE Tab[MAXTABLES]; + + // Memory management + OWNEDMEM* MemorySink; // The storage backend + SUBALLOCATOR Allocator; // String suballocator -- just to keep it fast + + // Parser state machine + SYMBOL sy; // Current symbol + int ch; // Current character + + int inum; // integer value + cmsFloat64Number dnum; // real value + char id[MAXID]; // identifier + char str[MAXSTR]; // string + + // Allowed keywords & datasets. They have visibility on whole stream + KEYVALUE* ValidKeywords; + KEYVALUE* ValidSampleID; + + char* Source; // Points to loc. being parsed + int lineno; // line counter for error reporting + + FILECTX* FileStack[MAXINCLUDE]; // Stack of files being parsed + int IncludeSP; // Include Stack Pointer + + char* MemoryBlock; // The stream if holded in memory + + char DoubleFormatter[MAXID];// Printf-like 'cmsFloat64Number' formatter + + cmsContext ContextID; // The threading context + + } cmsIT8; + + +// The stream for save operations +typedef struct { + + FILE* stream; // For save-to-file behaviour + + cmsUInt8Number* Base; + cmsUInt8Number* Ptr; // For save-to-mem behaviour + cmsUInt32Number Used; + cmsUInt32Number Max; + + } SAVESTREAM; + + +// ------------------------------------------------------ cmsIT8 parsing routines + + +// A keyword +typedef struct { + + const char *id; + SYMBOL sy; + + } KEYWORD; + +// The keyword->symbol translation table. Sorting is required. +static const KEYWORD TabKeys[] = { + + {"$INCLUDE", SINCLUDE}, // This is an extension! + {".INCLUDE", SINCLUDE}, // This is an extension! + + {"BEGIN_DATA", SBEGIN_DATA }, + {"BEGIN_DATA_FORMAT", SBEGIN_DATA_FORMAT }, + {"DATA_FORMAT_IDENTIFIER", SDATA_FORMAT_ID}, + {"END_DATA", SEND_DATA}, + {"END_DATA_FORMAT", SEND_DATA_FORMAT}, + {"KEYWORD", SKEYWORD} + }; + +#define NUMKEYS (sizeof(TabKeys)/sizeof(KEYWORD)) + +// Predefined properties + +// A property +typedef struct { + const char *id; // The identifier + WRITEMODE as; // How is supposed to be written + } PROPERTY; + +static PROPERTY PredefinedProperties[] = { + + {"NUMBER_OF_FIELDS", WRITE_UNCOOKED}, // Required - NUMBER OF FIELDS + {"NUMBER_OF_SETS", WRITE_UNCOOKED}, // Required - NUMBER OF SETS + {"ORIGINATOR", WRITE_STRINGIFY}, // Required - Identifies the specific system, organization or individual that created the data file. + {"FILE_DESCRIPTOR", WRITE_STRINGIFY}, // Required - Describes the purpose or contents of the data file. + {"CREATED", WRITE_STRINGIFY}, // Required - Indicates date of creation of the data file. + {"DESCRIPTOR", WRITE_STRINGIFY}, // Required - Describes the purpose or contents of the data file. + {"DIFFUSE_GEOMETRY", WRITE_STRINGIFY}, // The diffuse geometry used. Allowed values are "sphere" or "opal". + {"MANUFACTURER", WRITE_STRINGIFY}, + {"MANUFACTURE", WRITE_STRINGIFY}, // Some broken Fuji targets does store this value + {"PROD_DATE", WRITE_STRINGIFY}, // Identifies year and month of production of the target in the form yyyy:mm. + {"SERIAL", WRITE_STRINGIFY}, // Uniquely identifies individual physical target. + + {"MATERIAL", WRITE_STRINGIFY}, // Identifies the material on which the target was produced using a code + // uniquely identifying th e material. This is intend ed to be used for IT8.7 + // physical targets only (i.e . IT8.7/1 a nd IT8.7/2). + + {"INSTRUMENTATION", WRITE_STRINGIFY}, // Used to report the specific instrumentation used (manufacturer and + // model number) to generate the data reported. This data will often + // provide more information about the particular data collected than an + // extensive list of specific details. This is particularly important for + // spectral data or data derived from spectrophotometry. + + {"MEASUREMENT_SOURCE", WRITE_STRINGIFY}, // Illumination used for spectral measurements. This data helps provide + // a guide to the potential for issues of paper fluorescence, etc. + + {"PRINT_CONDITIONS", WRITE_STRINGIFY}, // Used to define the characteristics of the printed sheet being reported. + // Where standard conditions have been defined (e.g., SWOP at nominal) + // named conditions may suffice. Otherwise, detailed information is + // needed. + + {"SAMPLE_BACKING", WRITE_STRINGIFY}, // Identifies the backing material used behind the sample during + // measurement. Allowed values are “black”, “white”, or {"na". + + {"CHISQ_DOF", WRITE_STRINGIFY}, // Degrees of freedom associated with the Chi squared statistic + + // below properties are new in recent specs: + + {"MEASUREMENT_GEOMETRY", WRITE_STRINGIFY}, // The type of measurement, either reflection or transmission, should be indicated + // along with details of the geometry and the aperture size and shape. For example, + // for transmission measurements it is important to identify 0/diffuse, diffuse/0, + // opal or integrating sphere, etc. For reflection it is important to identify 0/45, + // 45/0, sphere (specular included or excluded), etc. + + {"FILTER", WRITE_STRINGIFY}, // Identifies the use of physical filter(s) during measurement. Typically used to + // denote the use of filters such as none, D65, Red, Green or Blue. + + {"POLARIZATION", WRITE_STRINGIFY}, // Identifies the use of a physical polarization filter during measurement. Allowed + // values are {"yes”, “white”, “none” or “na”. + + {"WEIGHTING_FUNCTION", WRITE_PAIR}, // Indicates such functions as: the CIE standard observer functions used in the + // calculation of various data parameters (2 degree and 10 degree), CIE standard + // illuminant functions used in the calculation of various data parameters (e.g., D50, + // D65, etc.), density status response, etc. If used there shall be at least one + // name-value pair following the WEIGHTING_FUNCTION tag/keyword. The first attribute + // in the set shall be {"name" and shall identify the particular parameter used. + // The second shall be {"value" and shall provide the value associated with that name. + // For ASCII data, a string containing the Name and Value attribute pairs shall follow + // the weighting function keyword. A semi-colon separates attribute pairs from each + // other and within the attribute the name and value are separated by a comma. + + {"COMPUTATIONAL_PARAMETER", WRITE_PAIR}, // Parameter that is used in computing a value from measured data. Name is the name + // of the calculation, parameter is the name of the parameter used in the calculation + // and value is the value of the parameter. + + {"TARGET_TYPE", WRITE_STRINGIFY}, // The type of target being measured, e.g. IT8.7/1, IT8.7/3, user defined, etc. + + {"COLORANT", WRITE_STRINGIFY}, // Identifies the colorant(s) used in creating the target. + + {"TABLE_DESCRIPTOR", WRITE_STRINGIFY}, // Describes the purpose or contents of a data table. + + {"TABLE_NAME", WRITE_STRINGIFY} // Provides a short name for a data table. +}; + +#define NUMPREDEFINEDPROPS (sizeof(PredefinedProperties)/sizeof(PROPERTY)) + + +// Predefined sample types on dataset +static const char* PredefinedSampleID[] = { + "SAMPLE_ID", // Identifies sample that data represents + "STRING", // Identifies label, or other non-machine readable value. + // Value must begin and end with a " symbol + + "CMYK_C", // Cyan component of CMYK data expressed as a percentage + "CMYK_M", // Magenta component of CMYK data expressed as a percentage + "CMYK_Y", // Yellow component of CMYK data expressed as a percentage + "CMYK_K", // Black component of CMYK data expressed as a percentage + "D_RED", // Red filter density + "D_GREEN", // Green filter density + "D_BLUE", // Blue filter density + "D_VIS", // Visual filter density + "D_MAJOR_FILTER", // Major filter d ensity + "RGB_R", // Red component of RGB data + "RGB_G", // Green component of RGB data + "RGB_B", // Blue com ponent of RGB data + "SPECTRAL_NM", // Wavelength of measurement expressed in nanometers + "SPECTRAL_PCT", // Percentage reflectance/transmittance + "SPECTRAL_DEC", // Reflectance/transmittance + "XYZ_X", // X component of tristimulus data + "XYZ_Y", // Y component of tristimulus data + "XYZ_Z", // Z component of tristimulus data + "XYY_X", // x component of chromaticity data + "XYY_Y", // y component of chromaticity data + "XYY_CAPY", // Y component of tristimulus data + "LAB_L", // L* component of Lab data + "LAB_A", // a* component of Lab data + "LAB_B", // b* component of Lab data + "LAB_C", // C*ab component of Lab data + "LAB_H", // hab component of Lab data + "LAB_DE", // CIE dE + "LAB_DE_94", // CIE dE using CIE 94 + "LAB_DE_CMC", // dE using CMC + "LAB_DE_2000", // CIE dE using CIE DE 2000 + "MEAN_DE", // Mean Delta E (LAB_DE) of samples compared to batch average + // (Used for data files for ANSI IT8.7/1 and IT8.7/2 targets) + "STDEV_X", // Standard deviation of X (tristimulus data) + "STDEV_Y", // Standard deviation of Y (tristimulus data) + "STDEV_Z", // Standard deviation of Z (tristimulus data) + "STDEV_L", // Standard deviation of L* + "STDEV_A", // Standard deviation of a* + "STDEV_B", // Standard deviation of b* + "STDEV_DE", // Standard deviation of CIE dE + "CHI_SQD_PAR"}; // The average of the standard deviations of L*, a* and b*. It is + // used to derive an estimate of the chi-squared parameter which is + // recommended as the predictor of the variability of dE + +#define NUMPREDEFINEDSAMPLEID (sizeof(PredefinedSampleID)/sizeof(char *)) + +//Forward declaration of some internal functions +static void* AllocChunk(cmsIT8* it8, cmsUInt32Number size); + +// Checks whatever c is a separator +static +cmsBool isseparator(int c) +{ + return (c == ' ') || (c == '\t') ; +} + +// Checks whatever c is a valid identifier char +static +cmsBool ismiddle(int c) +{ + return (!isseparator(c) && (c != '#') && (c !='\"') && (c != '\'') && (c > 32) && (c < 127)); +} + +// Checks whatsever c is a valid identifier middle char. +static +cmsBool isidchar(int c) +{ + return isalnum(c) || ismiddle(c); +} + +// Checks whatsever c is a valid identifier first char. +static +cmsBool isfirstidchar(int c) +{ + return !isdigit(c) && ismiddle(c); +} + +// Guess whether the supplied path looks like an absolute path +static +cmsBool isabsolutepath(const char *path) +{ + char ThreeChars[4]; + + if(path == NULL) + return FALSE; + if (path[0] == 0) + return FALSE; + + strncpy(ThreeChars, path, 3); + ThreeChars[3] = 0; + + if(ThreeChars[0] == DIR_CHAR) + return TRUE; + +#ifdef CMS_IS_WINDOWS_ + if (isalpha((int) ThreeChars[0]) && ThreeChars[1] == ':') + return TRUE; +#endif + return FALSE; +} + + +// Makes a file path based on a given reference path +// NOTE: this function doesn't check if the path exists or even if it's legal +static +cmsBool BuildAbsolutePath(const char *relPath, const char *basePath, char *buffer, cmsUInt32Number MaxLen) +{ + char *tail; + cmsUInt32Number len; + + // Already absolute? + if (isabsolutepath(relPath)) { + + strncpy(buffer, relPath, MaxLen); + buffer[MaxLen-1] = 0; + return TRUE; + } + + // No, search for last + strncpy(buffer, basePath, MaxLen); + buffer[MaxLen-1] = 0; + + tail = strrchr(buffer, DIR_CHAR); + if (tail == NULL) return FALSE; // Is not absolute and has no separators?? + + len = (cmsUInt32Number) (tail - buffer); + if (len >= MaxLen) return FALSE; + + // No need to assure zero terminator over here + strncpy(tail + 1, relPath, MaxLen - len); + + return TRUE; +} + + +// Make sure no exploit is being even tried +static +const char* NoMeta(const char* str) +{ + if (strchr(str, '%') != NULL) + return "**** CORRUPTED FORMAT STRING ***"; + + return str; +} + +// Syntax error +static +cmsBool SynError(cmsIT8* it8, const char *Txt, ...) +{ + char Buffer[256], ErrMsg[1024]; + va_list args; + + va_start(args, Txt); + vsnprintf(Buffer, 255, Txt, args); + Buffer[255] = 0; + va_end(args); + + snprintf(ErrMsg, 1023, "%s: Line %d, %s", it8->FileStack[it8 ->IncludeSP]->FileName, it8->lineno, Buffer); + ErrMsg[1023] = 0; + it8->sy = SSYNERROR; + cmsSignalError(it8 ->ContextID, cmsERROR_CORRUPTION_DETECTED, "%s", ErrMsg); + return FALSE; +} + +// Check if current symbol is same as specified. issue an error else. +static +cmsBool Check(cmsIT8* it8, SYMBOL sy, const char* Err) +{ + if (it8 -> sy != sy) + return SynError(it8, NoMeta(Err)); + return TRUE; +} + +// Read Next character from stream +static +void NextCh(cmsIT8* it8) +{ + if (it8 -> FileStack[it8 ->IncludeSP]->Stream) { + + it8 ->ch = fgetc(it8 ->FileStack[it8 ->IncludeSP]->Stream); + + if (feof(it8 -> FileStack[it8 ->IncludeSP]->Stream)) { + + if (it8 ->IncludeSP > 0) { + + fclose(it8 ->FileStack[it8->IncludeSP--]->Stream); + it8 -> ch = ' '; // Whitespace to be ignored + + } else + it8 ->ch = 0; // EOF + } + } + else { + it8->ch = *it8->Source; + if (it8->ch) it8->Source++; + } +} + + +// Try to see if current identifier is a keyword, if so return the referred symbol +static +SYMBOL BinSrchKey(const char *id) +{ + int l = 1; + int r = NUMKEYS; + int x, res; + + while (r >= l) + { + x = (l+r)/2; + res = cmsstrcasecmp(id, TabKeys[x-1].id); + if (res == 0) return TabKeys[x-1].sy; + if (res < 0) r = x - 1; + else l = x + 1; + } + + return SUNDEFINED; +} + + +// 10 ^n +static +cmsFloat64Number xpow10(int n) +{ + return pow(10, (cmsFloat64Number) n); +} + + +// Reads a Real number, tries to follow from integer number +static +void ReadReal(cmsIT8* it8, int inum) +{ + it8->dnum = (cmsFloat64Number) inum; + + while (isdigit(it8->ch)) { + + it8->dnum = it8->dnum * 10.0 + (it8->ch - '0'); + NextCh(it8); + } + + if (it8->ch == '.') { // Decimal point + + cmsFloat64Number frac = 0.0; // fraction + int prec = 0; // precision + + NextCh(it8); // Eats dec. point + + while (isdigit(it8->ch)) { + + frac = frac * 10.0 + (it8->ch - '0'); + prec++; + NextCh(it8); + } + + it8->dnum = it8->dnum + (frac / xpow10(prec)); + } + + // Exponent, example 34.00E+20 + if (toupper(it8->ch) == 'E') { + + int e; + int sgn; + + NextCh(it8); sgn = 1; + + if (it8->ch == '-') { + + sgn = -1; NextCh(it8); + } + else + if (it8->ch == '+') { + + sgn = +1; + NextCh(it8); + } + + e = 0; + while (isdigit(it8->ch)) { + + if ((cmsFloat64Number) e * 10L < INT_MAX) + e = e * 10 + (it8->ch - '0'); + + NextCh(it8); + } + + e = sgn*e; + it8 -> dnum = it8 -> dnum * xpow10(e); + } +} + +// Parses a float number +// This can not call directly atof because it uses locale dependent +// parsing, while CCMX files always use . as decimal separator +static +cmsFloat64Number ParseFloatNumber(const char *Buffer) +{ + cmsFloat64Number dnum = 0.0; + int sign = 1; + + // keep safe + if (Buffer == NULL) return 0.0; + + if (*Buffer == '-' || *Buffer == '+') { + + sign = (*Buffer == '-') ? -1 : 1; + Buffer++; + } + + + while (*Buffer && isdigit((int) *Buffer)) { + + dnum = dnum * 10.0 + (*Buffer - '0'); + if (*Buffer) Buffer++; + } + + if (*Buffer == '.') { + + cmsFloat64Number frac = 0.0; // fraction + int prec = 0; // precission + + if (*Buffer) Buffer++; + + while (*Buffer && isdigit((int) *Buffer)) { + + frac = frac * 10.0 + (*Buffer - '0'); + prec++; + if (*Buffer) Buffer++; + } + + dnum = dnum + (frac / xpow10(prec)); + } + + // Exponent, example 34.00E+20 + if (*Buffer && toupper(*Buffer) == 'E') { + + int e; + int sgn; + + if (*Buffer) Buffer++; + sgn = 1; + + if (*Buffer == '-') { + + sgn = -1; + if (*Buffer) Buffer++; + } + else + if (*Buffer == '+') { + + sgn = +1; + if (*Buffer) Buffer++; + } + + e = 0; + while (*Buffer && isdigit((int) *Buffer)) { + + if ((cmsFloat64Number) e * 10L < INT_MAX) + e = e * 10 + (*Buffer - '0'); + + if (*Buffer) Buffer++; + } + + e = sgn*e; + dnum = dnum * xpow10(e); + } + + return sign * dnum; +} + + +// Reads next symbol +static +void InSymbol(cmsIT8* it8) +{ + register char *idptr; + register int k; + SYMBOL key; + int sng; + + do { + + while (isseparator(it8->ch)) + NextCh(it8); + + if (isfirstidchar(it8->ch)) { // Identifier + + k = 0; + idptr = it8->id; + + do { + + if (++k < MAXID) *idptr++ = (char) it8->ch; + + NextCh(it8); + + } while (isidchar(it8->ch)); + + *idptr = '\0'; + + + key = BinSrchKey(it8->id); + if (key == SUNDEFINED) it8->sy = SIDENT; + else it8->sy = key; + + } + else // Is a number? + if (isdigit(it8->ch) || it8->ch == '.' || it8->ch == '-' || it8->ch == '+') + { + int sign = 1; + + if (it8->ch == '-') { + sign = -1; + NextCh(it8); + } + + it8->inum = 0; + it8->sy = SINUM; + + if (it8->ch == '0') { // 0xnnnn (Hexa) or 0bnnnn (Binary) + + NextCh(it8); + if (toupper(it8->ch) == 'X') { + + int j; + + NextCh(it8); + while (isxdigit(it8->ch)) + { + it8->ch = toupper(it8->ch); + if (it8->ch >= 'A' && it8->ch <= 'F') j = it8->ch -'A'+10; + else j = it8->ch - '0'; + + if ((long) it8->inum * 16L > (long) INT_MAX) + { + SynError(it8, "Invalid hexadecimal number"); + return; + } + + it8->inum = it8->inum * 16 + j; + NextCh(it8); + } + return; + } + + if (toupper(it8->ch) == 'B') { // Binary + + int j; + + NextCh(it8); + while (it8->ch == '0' || it8->ch == '1') + { + j = it8->ch - '0'; + + if ((long) it8->inum * 2L > (long) INT_MAX) + { + SynError(it8, "Invalid binary number"); + return; + } + + it8->inum = it8->inum * 2 + j; + NextCh(it8); + } + return; + } + } + + + while (isdigit(it8->ch)) { + + if ((long) it8->inum * 10L > (long) INT_MAX) { + ReadReal(it8, it8->inum); + it8->sy = SDNUM; + it8->dnum *= sign; + return; + } + + it8->inum = it8->inum * 10 + (it8->ch - '0'); + NextCh(it8); + } + + if (it8->ch == '.') { + + ReadReal(it8, it8->inum); + it8->sy = SDNUM; + it8->dnum *= sign; + return; + } + + it8 -> inum *= sign; + + // Special case. Numbers followed by letters are taken as identifiers + + if (isidchar(it8 ->ch)) { + + if (it8 ->sy == SINUM) { + + snprintf(it8->id, 127, "%d", it8->inum); + } + else { + + snprintf(it8->id, 127, it8 ->DoubleFormatter, it8->dnum); + } + + k = (int) strlen(it8 ->id); + idptr = it8 ->id + k; + do { + + if (++k < MAXID) *idptr++ = (char) it8->ch; + + NextCh(it8); + + } while (isidchar(it8->ch)); + + *idptr = '\0'; + it8->sy = SIDENT; + } + return; + + } + else + switch ((int) it8->ch) { + + // EOF marker -- ignore it + case '\x1a': + NextCh(it8); + break; + + // Eof stream markers + case 0: + case -1: + it8->sy = SEOF; + break; + + + // Next line + case '\r': + NextCh(it8); + if (it8 ->ch == '\n') + NextCh(it8); + it8->sy = SEOLN; + it8->lineno++; + break; + + case '\n': + NextCh(it8); + it8->sy = SEOLN; + it8->lineno++; + break; + + // Comment + case '#': + NextCh(it8); + while (it8->ch && it8->ch != '\n' && it8->ch != '\r') + NextCh(it8); + + it8->sy = SCOMMENT; + break; + + // String. + case '\'': + case '\"': + idptr = it8->str; + sng = it8->ch; + k = 0; + NextCh(it8); + + while (k < MAXSTR && it8->ch != sng) { + + if (it8->ch == '\n'|| it8->ch == '\r') k = MAXSTR+1; + else { + *idptr++ = (char) it8->ch; + NextCh(it8); + k++; + } + } + + it8->sy = SSTRING; + *idptr = '\0'; + NextCh(it8); + break; + + + default: + SynError(it8, "Unrecognized character: 0x%x", it8 ->ch); + return; + } + + } while (it8->sy == SCOMMENT); + + // Handle the include special token + + if (it8 -> sy == SINCLUDE) { + + FILECTX* FileNest; + + if(it8 -> IncludeSP >= (MAXINCLUDE-1)) { + + SynError(it8, "Too many recursion levels"); + return; + } + + InSymbol(it8); + if (!Check(it8, SSTRING, "Filename expected")) return; + + FileNest = it8 -> FileStack[it8 -> IncludeSP + 1]; + if(FileNest == NULL) { + + FileNest = it8 ->FileStack[it8 -> IncludeSP + 1] = (FILECTX*)AllocChunk(it8, sizeof(FILECTX)); + //if(FileNest == NULL) + // TODO: how to manage out-of-memory conditions? + } + + if (BuildAbsolutePath(it8->str, + it8->FileStack[it8->IncludeSP]->FileName, + FileNest->FileName, cmsMAX_PATH-1) == FALSE) { + SynError(it8, "File path too long"); + return; + } + + FileNest->Stream = fopen(FileNest->FileName, "rt"); + if (FileNest->Stream == NULL) { + + SynError(it8, "File %s not found", FileNest->FileName); + return; + } + it8->IncludeSP++; + + it8 ->ch = ' '; + InSymbol(it8); + } + +} + +// Checks end of line separator +static +cmsBool CheckEOLN(cmsIT8* it8) +{ + if (!Check(it8, SEOLN, "Expected separator")) return FALSE; + while (it8 -> sy == SEOLN) + InSymbol(it8); + return TRUE; + +} + +// Skip a symbol + +static +void Skip(cmsIT8* it8, SYMBOL sy) +{ + if (it8->sy == sy && it8->sy != SEOF) + InSymbol(it8); +} + + +// Skip multiple EOLN +static +void SkipEOLN(cmsIT8* it8) +{ + while (it8->sy == SEOLN) { + InSymbol(it8); + } +} + + +// Returns a string holding current value +static +cmsBool GetVal(cmsIT8* it8, char* Buffer, cmsUInt32Number max, const char* ErrorTitle) +{ + switch (it8->sy) { + + case SEOLN: // Empty value + Buffer[0]=0; + break; + case SIDENT: strncpy(Buffer, it8->id, max); + Buffer[max-1]=0; + break; + case SINUM: snprintf(Buffer, max, "%d", it8 -> inum); break; + case SDNUM: snprintf(Buffer, max, it8->DoubleFormatter, it8 -> dnum); break; + case SSTRING: strncpy(Buffer, it8->str, max); + Buffer[max-1] = 0; + break; + + + default: + return SynError(it8, "%s", ErrorTitle); + } + + Buffer[max] = 0; + return TRUE; +} + +// ---------------------------------------------------------- Table + +static +TABLE* GetTable(cmsIT8* it8) +{ + if ((it8 -> nTable >= it8 ->TablesCount)) { + + SynError(it8, "Table %d out of sequence", it8 -> nTable); + return it8 -> Tab; + } + + return it8 ->Tab + it8 ->nTable; +} + +// ---------------------------------------------------------- Memory management + + +// Frees an allocator and owned memory +void CMSEXPORT cmsIT8Free(cmsHANDLE hIT8) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + if (it8 == NULL) + return; + + if (it8->MemorySink) { + + OWNEDMEM* p; + OWNEDMEM* n; + + for (p = it8->MemorySink; p != NULL; p = n) { + + n = p->Next; + if (p->Ptr) _cmsFree(it8 ->ContextID, p->Ptr); + _cmsFree(it8 ->ContextID, p); + } + } + + if (it8->MemoryBlock) + _cmsFree(it8 ->ContextID, it8->MemoryBlock); + + _cmsFree(it8 ->ContextID, it8); +} + + +// Allocates a chunk of data, keep linked list +static +void* AllocBigBlock(cmsIT8* it8, cmsUInt32Number size) +{ + OWNEDMEM* ptr1; + void* ptr = _cmsMallocZero(it8->ContextID, size); + + if (ptr != NULL) { + + ptr1 = (OWNEDMEM*) _cmsMallocZero(it8 ->ContextID, sizeof(OWNEDMEM)); + + if (ptr1 == NULL) { + + _cmsFree(it8 ->ContextID, ptr); + return NULL; + } + + ptr1-> Ptr = ptr; + ptr1-> Next = it8 -> MemorySink; + it8 -> MemorySink = ptr1; + } + + return ptr; +} + + +// Suballocator. +static +void* AllocChunk(cmsIT8* it8, cmsUInt32Number size) +{ + cmsUInt32Number Free = it8 ->Allocator.BlockSize - it8 ->Allocator.Used; + cmsUInt8Number* ptr; + + size = _cmsALIGNMEM(size); + + if (size > Free) { + + if (it8 -> Allocator.BlockSize == 0) + + it8 -> Allocator.BlockSize = 20*1024; + else + it8 ->Allocator.BlockSize *= 2; + + if (it8 ->Allocator.BlockSize < size) + it8 ->Allocator.BlockSize = size; + + it8 ->Allocator.Used = 0; + it8 ->Allocator.Block = (cmsUInt8Number*) AllocBigBlock(it8, it8 ->Allocator.BlockSize); + } + + ptr = it8 ->Allocator.Block + it8 ->Allocator.Used; + it8 ->Allocator.Used += size; + + return (void*) ptr; + +} + + +// Allocates a string +static +char *AllocString(cmsIT8* it8, const char* str) +{ + cmsUInt32Number Size = (cmsUInt32Number) strlen(str)+1; + char *ptr; + + + ptr = (char *) AllocChunk(it8, Size); + if (ptr) strncpy (ptr, str, Size-1); + + return ptr; +} + +// Searches through linked list + +static +cmsBool IsAvailableOnList(KEYVALUE* p, const char* Key, const char* Subkey, KEYVALUE** LastPtr) +{ + if (LastPtr) *LastPtr = p; + + for (; p != NULL; p = p->Next) { + + if (LastPtr) *LastPtr = p; + + if (*Key != '#') { // Comments are ignored + + if (cmsstrcasecmp(Key, p->Keyword) == 0) + break; + } + } + + if (p == NULL) + return FALSE; + + if (Subkey == 0) + return TRUE; + + for (; p != NULL; p = p->NextSubkey) { + + if (p ->Subkey == NULL) continue; + + if (LastPtr) *LastPtr = p; + + if (cmsstrcasecmp(Subkey, p->Subkey) == 0) + return TRUE; + } + + return FALSE; +} + + + +// Add a property into a linked list +static +KEYVALUE* AddToList(cmsIT8* it8, KEYVALUE** Head, const char *Key, const char *Subkey, const char* xValue, WRITEMODE WriteAs) +{ + KEYVALUE* p; + KEYVALUE* last; + + + // Check if property is already in list + + if (IsAvailableOnList(*Head, Key, Subkey, &p)) { + + // This may work for editing properties + + // return SynError(it8, "duplicate key <%s>", Key); + } + else { + + last = p; + + // Allocate the container + p = (KEYVALUE*) AllocChunk(it8, sizeof(KEYVALUE)); + if (p == NULL) + { + SynError(it8, "AddToList: out of memory"); + return NULL; + } + + // Store name and value + p->Keyword = AllocString(it8, Key); + p->Subkey = (Subkey == NULL) ? NULL : AllocString(it8, Subkey); + + // Keep the container in our list + if (*Head == NULL) { + *Head = p; + } + else + { + if (Subkey != NULL && last != NULL) { + + last->NextSubkey = p; + + // If Subkey is not null, then last is the last property with the same key, + // but not necessarily is the last property in the list, so we need to move + // to the actual list end + while (last->Next != NULL) + last = last->Next; + } + + if (last != NULL) last->Next = p; + } + + p->Next = NULL; + p->NextSubkey = NULL; + } + + p->WriteAs = WriteAs; + + if (xValue != NULL) { + + p->Value = AllocString(it8, xValue); + } + else { + p->Value = NULL; + } + + return p; +} + +static +KEYVALUE* AddAvailableProperty(cmsIT8* it8, const char* Key, WRITEMODE as) +{ + return AddToList(it8, &it8->ValidKeywords, Key, NULL, NULL, as); +} + + +static +KEYVALUE* AddAvailableSampleID(cmsIT8* it8, const char* Key) +{ + return AddToList(it8, &it8->ValidSampleID, Key, NULL, NULL, WRITE_UNCOOKED); +} + + +static +void AllocTable(cmsIT8* it8) +{ + TABLE* t; + + t = it8 ->Tab + it8 ->TablesCount; + + t->HeaderList = NULL; + t->DataFormat = NULL; + t->Data = NULL; + + it8 ->TablesCount++; +} + + +cmsInt32Number CMSEXPORT cmsIT8SetTable(cmsHANDLE IT8, cmsUInt32Number nTable) +{ + cmsIT8* it8 = (cmsIT8*) IT8; + + if (nTable >= it8 ->TablesCount) { + + if (nTable == it8 ->TablesCount) { + + AllocTable(it8); + } + else { + SynError(it8, "Table %d is out of sequence", nTable); + return -1; + } + } + + it8 ->nTable = nTable; + + return (cmsInt32Number) nTable; +} + + + +// Init an empty container +cmsHANDLE CMSEXPORT cmsIT8Alloc(cmsContext ContextID) +{ + cmsIT8* it8; + cmsUInt32Number i; + + it8 = (cmsIT8*) _cmsMallocZero(ContextID, sizeof(cmsIT8)); + if (it8 == NULL) return NULL; + + AllocTable(it8); + + it8->MemoryBlock = NULL; + it8->MemorySink = NULL; + + it8 ->nTable = 0; + + it8->ContextID = ContextID; + it8->Allocator.Used = 0; + it8->Allocator.Block = NULL; + it8->Allocator.BlockSize = 0; + + it8->ValidKeywords = NULL; + it8->ValidSampleID = NULL; + + it8 -> sy = SUNDEFINED; + it8 -> ch = ' '; + it8 -> Source = NULL; + it8 -> inum = 0; + it8 -> dnum = 0.0; + + it8->FileStack[0] = (FILECTX*)AllocChunk(it8, sizeof(FILECTX)); + it8->IncludeSP = 0; + it8 -> lineno = 1; + + strcpy(it8->DoubleFormatter, DEFAULT_DBL_FORMAT); + cmsIT8SetSheetType((cmsHANDLE) it8, "CGATS.17"); + + // Initialize predefined properties & data + + for (i=0; i < NUMPREDEFINEDPROPS; i++) + AddAvailableProperty(it8, PredefinedProperties[i].id, PredefinedProperties[i].as); + + for (i=0; i < NUMPREDEFINEDSAMPLEID; i++) + AddAvailableSampleID(it8, PredefinedSampleID[i]); + + + return (cmsHANDLE) it8; +} + + +const char* CMSEXPORT cmsIT8GetSheetType(cmsHANDLE hIT8) +{ + return GetTable((cmsIT8*) hIT8)->SheetType; +} + +cmsBool CMSEXPORT cmsIT8SetSheetType(cmsHANDLE hIT8, const char* Type) +{ + TABLE* t = GetTable((cmsIT8*) hIT8); + + strncpy(t ->SheetType, Type, MAXSTR-1); + t ->SheetType[MAXSTR-1] = 0; + return TRUE; +} + +cmsBool CMSEXPORT cmsIT8SetComment(cmsHANDLE hIT8, const char* Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + if (!Val) return FALSE; + if (!*Val) return FALSE; + + return AddToList(it8, &GetTable(it8)->HeaderList, "# ", NULL, Val, WRITE_UNCOOKED) != NULL; +} + +// Sets a property +cmsBool CMSEXPORT cmsIT8SetPropertyStr(cmsHANDLE hIT8, const char* Key, const char *Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + if (!Val) return FALSE; + if (!*Val) return FALSE; + + return AddToList(it8, &GetTable(it8)->HeaderList, Key, NULL, Val, WRITE_STRINGIFY) != NULL; +} + +cmsBool CMSEXPORT cmsIT8SetPropertyDbl(cmsHANDLE hIT8, const char* cProp, cmsFloat64Number Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + char Buffer[1024]; + + snprintf(Buffer, 1023, it8->DoubleFormatter, Val); + + return AddToList(it8, &GetTable(it8)->HeaderList, cProp, NULL, Buffer, WRITE_UNCOOKED) != NULL; +} + +cmsBool CMSEXPORT cmsIT8SetPropertyHex(cmsHANDLE hIT8, const char* cProp, cmsUInt32Number Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + char Buffer[1024]; + + snprintf(Buffer, 1023, "%u", Val); + + return AddToList(it8, &GetTable(it8)->HeaderList, cProp, NULL, Buffer, WRITE_HEXADECIMAL) != NULL; +} + +cmsBool CMSEXPORT cmsIT8SetPropertyUncooked(cmsHANDLE hIT8, const char* Key, const char* Buffer) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + return AddToList(it8, &GetTable(it8)->HeaderList, Key, NULL, Buffer, WRITE_UNCOOKED) != NULL; +} + +cmsBool CMSEXPORT cmsIT8SetPropertyMulti(cmsHANDLE hIT8, const char* Key, const char* SubKey, const char *Buffer) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + return AddToList(it8, &GetTable(it8)->HeaderList, Key, SubKey, Buffer, WRITE_PAIR) != NULL; +} + +// Gets a property +const char* CMSEXPORT cmsIT8GetProperty(cmsHANDLE hIT8, const char* Key) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + KEYVALUE* p; + + if (IsAvailableOnList(GetTable(it8) -> HeaderList, Key, NULL, &p)) + { + return p -> Value; + } + return NULL; +} + + +cmsFloat64Number CMSEXPORT cmsIT8GetPropertyDbl(cmsHANDLE hIT8, const char* cProp) +{ + const char *v = cmsIT8GetProperty(hIT8, cProp); + + if (v == NULL) return 0.0; + + return ParseFloatNumber(v); +} + +const char* CMSEXPORT cmsIT8GetPropertyMulti(cmsHANDLE hIT8, const char* Key, const char *SubKey) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + KEYVALUE* p; + + if (IsAvailableOnList(GetTable(it8) -> HeaderList, Key, SubKey, &p)) { + return p -> Value; + } + return NULL; +} + +// ----------------------------------------------------------------- Datasets + + +static +void AllocateDataFormat(cmsIT8* it8) +{ + TABLE* t = GetTable(it8); + + if (t -> DataFormat) return; // Already allocated + + t -> nSamples = (int) cmsIT8GetPropertyDbl(it8, "NUMBER_OF_FIELDS"); + + if (t -> nSamples <= 0) { + + SynError(it8, "AllocateDataFormat: Unknown NUMBER_OF_FIELDS"); + t -> nSamples = 10; + } + + t -> DataFormat = (char**) AllocChunk (it8, ((cmsUInt32Number) t->nSamples + 1) * sizeof(char *)); + if (t->DataFormat == NULL) { + + SynError(it8, "AllocateDataFormat: Unable to allocate dataFormat array"); + } + +} + +static +const char *GetDataFormat(cmsIT8* it8, int n) +{ + TABLE* t = GetTable(it8); + + if (t->DataFormat) + return t->DataFormat[n]; + + return NULL; +} + +static +cmsBool SetDataFormat(cmsIT8* it8, int n, const char *label) +{ + TABLE* t = GetTable(it8); + + if (!t->DataFormat) + AllocateDataFormat(it8); + + if (n > t -> nSamples) { + SynError(it8, "More than NUMBER_OF_FIELDS fields."); + return FALSE; + } + + if (t->DataFormat) { + t->DataFormat[n] = AllocString(it8, label); + } + + return TRUE; +} + + +cmsBool CMSEXPORT cmsIT8SetDataFormat(cmsHANDLE h, int n, const char *Sample) +{ + cmsIT8* it8 = (cmsIT8*) h; + return SetDataFormat(it8, n, Sample); +} + +static +void AllocateDataSet(cmsIT8* it8) +{ + TABLE* t = GetTable(it8); + + if (t -> Data) return; // Already allocated + + t-> nSamples = atoi(cmsIT8GetProperty(it8, "NUMBER_OF_FIELDS")); + t-> nPatches = atoi(cmsIT8GetProperty(it8, "NUMBER_OF_SETS")); + + t-> Data = (char**)AllocChunk (it8, ((cmsUInt32Number) t->nSamples + 1) * ((cmsUInt32Number) t->nPatches + 1) *sizeof (char*)); + if (t->Data == NULL) { + + SynError(it8, "AllocateDataSet: Unable to allocate data array"); + } + +} + +static +char* GetData(cmsIT8* it8, int nSet, int nField) +{ + TABLE* t = GetTable(it8); + int nSamples = t -> nSamples; + int nPatches = t -> nPatches; + + if (nSet >= nPatches || nField >= nSamples) + return NULL; + + if (!t->Data) return NULL; + return t->Data [nSet * nSamples + nField]; +} + +static +cmsBool SetData(cmsIT8* it8, int nSet, int nField, const char *Val) +{ + TABLE* t = GetTable(it8); + + if (!t->Data) + AllocateDataSet(it8); + + if (!t->Data) return FALSE; + + if (nSet > t -> nPatches || nSet < 0) { + + return SynError(it8, "Patch %d out of range, there are %d patches", nSet, t -> nPatches); + } + + if (nField > t ->nSamples || nField < 0) { + return SynError(it8, "Sample %d out of range, there are %d samples", nField, t ->nSamples); + + } + + t->Data [nSet * t -> nSamples + nField] = AllocString(it8, Val); + return TRUE; +} + + +// --------------------------------------------------------------- File I/O + + +// Writes a string to file +static +void WriteStr(SAVESTREAM* f, const char *str) +{ + cmsUInt32Number len; + + if (str == NULL) + str = " "; + + // Length to write + len = (cmsUInt32Number) strlen(str); + f ->Used += len; + + + if (f ->stream) { // Should I write it to a file? + + if (fwrite(str, 1, len, f->stream) != len) { + cmsSignalError(0, cmsERROR_WRITE, "Write to file error in CGATS parser"); + return; + } + + } + else { // Or to a memory block? + + if (f ->Base) { // Am I just counting the bytes? + + if (f ->Used > f ->Max) { + + cmsSignalError(0, cmsERROR_WRITE, "Write to memory overflows in CGATS parser"); + return; + } + + memmove(f ->Ptr, str, len); + f->Ptr += len; + } + + } +} + + +// Write formatted + +static +void Writef(SAVESTREAM* f, const char* frm, ...) +{ + char Buffer[4096]; + va_list args; + + va_start(args, frm); + vsnprintf(Buffer, 4095, frm, args); + Buffer[4095] = 0; + WriteStr(f, Buffer); + va_end(args); + +} + +// Writes full header +static +void WriteHeader(cmsIT8* it8, SAVESTREAM* fp) +{ + KEYVALUE* p; + TABLE* t = GetTable(it8); + + // Writes the type + WriteStr(fp, t->SheetType); + WriteStr(fp, "\n"); + + for (p = t->HeaderList; (p != NULL); p = p->Next) + { + if (*p ->Keyword == '#') { + + char* Pt; + + WriteStr(fp, "#\n# "); + for (Pt = p ->Value; *Pt; Pt++) { + + + Writef(fp, "%c", *Pt); + + if (*Pt == '\n') { + WriteStr(fp, "# "); + } + } + + WriteStr(fp, "\n#\n"); + continue; + } + + + if (!IsAvailableOnList(it8-> ValidKeywords, p->Keyword, NULL, NULL)) { + +#ifdef CMS_STRICT_CGATS + WriteStr(fp, "KEYWORD\t\""); + WriteStr(fp, p->Keyword); + WriteStr(fp, "\"\n"); +#endif + + AddAvailableProperty(it8, p->Keyword, WRITE_UNCOOKED); + } + + WriteStr(fp, p->Keyword); + if (p->Value) { + + switch (p ->WriteAs) { + + case WRITE_UNCOOKED: + Writef(fp, "\t%s", p ->Value); + break; + + case WRITE_STRINGIFY: + Writef(fp, "\t\"%s\"", p->Value ); + break; + + case WRITE_HEXADECIMAL: + Writef(fp, "\t0x%X", atoi(p ->Value)); + break; + + case WRITE_BINARY: + Writef(fp, "\t0x%B", atoi(p ->Value)); + break; + + case WRITE_PAIR: + Writef(fp, "\t\"%s,%s\"", p->Subkey, p->Value); + break; + + default: SynError(it8, "Unknown write mode %d", p ->WriteAs); + return; + } + } + + WriteStr (fp, "\n"); + } + +} + + +// Writes the data format +static +void WriteDataFormat(SAVESTREAM* fp, cmsIT8* it8) +{ + int i, nSamples; + TABLE* t = GetTable(it8); + + if (!t -> DataFormat) return; + + WriteStr(fp, "BEGIN_DATA_FORMAT\n"); + WriteStr(fp, " "); + nSamples = atoi(cmsIT8GetProperty(it8, "NUMBER_OF_FIELDS")); + + for (i = 0; i < nSamples; i++) { + + WriteStr(fp, t->DataFormat[i]); + WriteStr(fp, ((i == (nSamples-1)) ? "\n" : "\t")); + } + + WriteStr (fp, "END_DATA_FORMAT\n"); +} + + +// Writes data array +static +void WriteData(SAVESTREAM* fp, cmsIT8* it8) +{ + int i, j; + TABLE* t = GetTable(it8); + + if (!t->Data) return; + + WriteStr (fp, "BEGIN_DATA\n"); + + t->nPatches = atoi(cmsIT8GetProperty(it8, "NUMBER_OF_SETS")); + + for (i = 0; i < t-> nPatches; i++) { + + WriteStr(fp, " "); + + for (j = 0; j < t->nSamples; j++) { + + char *ptr = t->Data[i*t->nSamples+j]; + + if (ptr == NULL) WriteStr(fp, "\"\""); + else { + // If value contains whitespace, enclose within quote + + if (strchr(ptr, ' ') != NULL) { + + WriteStr(fp, "\""); + WriteStr(fp, ptr); + WriteStr(fp, "\""); + } + else + WriteStr(fp, ptr); + } + + WriteStr(fp, ((j == (t->nSamples-1)) ? "\n" : "\t")); + } + } + WriteStr (fp, "END_DATA\n"); +} + + + +// Saves whole file +cmsBool CMSEXPORT cmsIT8SaveToFile(cmsHANDLE hIT8, const char* cFileName) +{ + SAVESTREAM sd; + cmsUInt32Number i; + cmsIT8* it8 = (cmsIT8*) hIT8; + + memset(&sd, 0, sizeof(sd)); + + sd.stream = fopen(cFileName, "wt"); + if (!sd.stream) return FALSE; + + for (i=0; i < it8 ->TablesCount; i++) { + + cmsIT8SetTable(hIT8, i); + WriteHeader(it8, &sd); + WriteDataFormat(&sd, it8); + WriteData(&sd, it8); + } + + if (fclose(sd.stream) != 0) return FALSE; + + return TRUE; +} + + +// Saves to memory +cmsBool CMSEXPORT cmsIT8SaveToMem(cmsHANDLE hIT8, void *MemPtr, cmsUInt32Number* BytesNeeded) +{ + SAVESTREAM sd; + cmsUInt32Number i; + cmsIT8* it8 = (cmsIT8*) hIT8; + + memset(&sd, 0, sizeof(sd)); + + sd.stream = NULL; + sd.Base = (cmsUInt8Number*) MemPtr; + sd.Ptr = sd.Base; + + sd.Used = 0; + + if (sd.Base) + sd.Max = *BytesNeeded; // Write to memory? + else + sd.Max = 0; // Just counting the needed bytes + + for (i=0; i < it8 ->TablesCount; i++) { + + cmsIT8SetTable(hIT8, i); + WriteHeader(it8, &sd); + WriteDataFormat(&sd, it8); + WriteData(&sd, it8); + } + + sd.Used++; // The \0 at the very end + + if (sd.Base) + *sd.Ptr = 0; + + *BytesNeeded = sd.Used; + + return TRUE; +} + + +// -------------------------------------------------------------- Higher level parsing + +static +cmsBool DataFormatSection(cmsIT8* it8) +{ + int iField = 0; + TABLE* t = GetTable(it8); + + InSymbol(it8); // Eats "BEGIN_DATA_FORMAT" + CheckEOLN(it8); + + while (it8->sy != SEND_DATA_FORMAT && + it8->sy != SEOLN && + it8->sy != SEOF && + it8->sy != SSYNERROR) { + + if (it8->sy != SIDENT) { + + return SynError(it8, "Sample type expected"); + } + + if (!SetDataFormat(it8, iField, it8->id)) return FALSE; + iField++; + + InSymbol(it8); + SkipEOLN(it8); + } + + SkipEOLN(it8); + Skip(it8, SEND_DATA_FORMAT); + SkipEOLN(it8); + + if (iField != t ->nSamples) { + SynError(it8, "Count mismatch. NUMBER_OF_FIELDS was %d, found %d\n", t ->nSamples, iField); + + + } + + return TRUE; +} + + + +static +cmsBool DataSection (cmsIT8* it8) +{ + int iField = 0; + int iSet = 0; + char Buffer[256]; + TABLE* t = GetTable(it8); + + InSymbol(it8); // Eats "BEGIN_DATA" + CheckEOLN(it8); + + if (!t->Data) + AllocateDataSet(it8); + + while (it8->sy != SEND_DATA && it8->sy != SEOF) + { + if (iField >= t -> nSamples) { + iField = 0; + iSet++; + + } + + if (it8->sy != SEND_DATA && it8->sy != SEOF) { + + if (!GetVal(it8, Buffer, 255, "Sample data expected")) + return FALSE; + + if (!SetData(it8, iSet, iField, Buffer)) + return FALSE; + + iField++; + + InSymbol(it8); + SkipEOLN(it8); + } + } + + SkipEOLN(it8); + Skip(it8, SEND_DATA); + SkipEOLN(it8); + + // Check for data completion. + + if ((iSet+1) != t -> nPatches) + return SynError(it8, "Count mismatch. NUMBER_OF_SETS was %d, found %d\n", t ->nPatches, iSet+1); + + return TRUE; +} + + + + +static +cmsBool HeaderSection(cmsIT8* it8) +{ + char VarName[MAXID]; + char Buffer[MAXSTR]; + KEYVALUE* Key; + + while (it8->sy != SEOF && + it8->sy != SSYNERROR && + it8->sy != SBEGIN_DATA_FORMAT && + it8->sy != SBEGIN_DATA) { + + + switch (it8 -> sy) { + + case SKEYWORD: + InSymbol(it8); + if (!GetVal(it8, Buffer, MAXSTR-1, "Keyword expected")) return FALSE; + if (!AddAvailableProperty(it8, Buffer, WRITE_UNCOOKED)) return FALSE; + InSymbol(it8); + break; + + + case SDATA_FORMAT_ID: + InSymbol(it8); + if (!GetVal(it8, Buffer, MAXSTR-1, "Keyword expected")) return FALSE; + if (!AddAvailableSampleID(it8, Buffer)) return FALSE; + InSymbol(it8); + break; + + + case SIDENT: + strncpy(VarName, it8->id, MAXID-1); + VarName[MAXID-1] = 0; + + if (!IsAvailableOnList(it8-> ValidKeywords, VarName, NULL, &Key)) { + +#ifdef CMS_STRICT_CGATS + return SynError(it8, "Undefined keyword '%s'", VarName); +#else + Key = AddAvailableProperty(it8, VarName, WRITE_UNCOOKED); + if (Key == NULL) return FALSE; +#endif + } + + InSymbol(it8); + if (!GetVal(it8, Buffer, MAXSTR-1, "Property data expected")) return FALSE; + + if(Key->WriteAs != WRITE_PAIR) { + AddToList(it8, &GetTable(it8)->HeaderList, VarName, NULL, Buffer, + (it8->sy == SSTRING) ? WRITE_STRINGIFY : WRITE_UNCOOKED); + } + else { + const char *Subkey; + char *Nextkey; + if (it8->sy != SSTRING) + return SynError(it8, "Invalid value '%s' for property '%s'.", Buffer, VarName); + + // chop the string as a list of "subkey, value" pairs, using ';' as a separator + for (Subkey = Buffer; Subkey != NULL; Subkey = Nextkey) + { + char *Value, *temp; + + // identify token pair boundary + Nextkey = (char*) strchr(Subkey, ';'); + if(Nextkey) + *Nextkey++ = '\0'; + + // for each pair, split the subkey and the value + Value = (char*) strrchr(Subkey, ','); + if(Value == NULL) + return SynError(it8, "Invalid value for property '%s'.", VarName); + + // gobble the spaces before the coma, and the coma itself + temp = Value++; + do *temp-- = '\0'; while(temp >= Subkey && *temp == ' '); + + // gobble any space at the right + temp = Value + strlen(Value) - 1; + while(*temp == ' ') *temp-- = '\0'; + + // trim the strings from the left + Subkey += strspn(Subkey, " "); + Value += strspn(Value, " "); + + if(Subkey[0] == 0 || Value[0] == 0) + return SynError(it8, "Invalid value for property '%s'.", VarName); + AddToList(it8, &GetTable(it8)->HeaderList, VarName, Subkey, Value, WRITE_PAIR); + } + } + + InSymbol(it8); + break; + + + case SEOLN: break; + + default: + return SynError(it8, "expected keyword or identifier"); + } + + SkipEOLN(it8); + } + + return TRUE; + +} + + +static +void ReadType(cmsIT8* it8, char* SheetTypePtr) +{ + // First line is a very special case. + + while (isseparator(it8->ch)) + NextCh(it8); + + while (it8->ch != '\r' && it8 ->ch != '\n' && it8->ch != '\t' && it8 -> ch != -1) { + + *SheetTypePtr++= (char) it8 ->ch; + NextCh(it8); + } + + *SheetTypePtr = 0; +} + + +static +cmsBool ParseIT8(cmsIT8* it8, cmsBool nosheet) +{ + char* SheetTypePtr = it8 ->Tab[0].SheetType; + + if (nosheet == 0) { + ReadType(it8, SheetTypePtr); + } + + InSymbol(it8); + + SkipEOLN(it8); + + while (it8-> sy != SEOF && + it8-> sy != SSYNERROR) { + + switch (it8 -> sy) { + + case SBEGIN_DATA_FORMAT: + if (!DataFormatSection(it8)) return FALSE; + break; + + case SBEGIN_DATA: + + if (!DataSection(it8)) return FALSE; + + if (it8 -> sy != SEOF) { + + AllocTable(it8); + it8 ->nTable = it8 ->TablesCount - 1; + + // Read sheet type if present. We only support identifier and string. + // is a type string + // anything else, is not a type string + if (nosheet == 0) { + + if (it8 ->sy == SIDENT) { + + // May be a type sheet or may be a prop value statement. We cannot use insymbol in + // this special case... + while (isseparator(it8->ch)) + NextCh(it8); + + // If a newline is found, then this is a type string + if (it8 ->ch == '\n' || it8->ch == '\r') { + + cmsIT8SetSheetType(it8, it8 ->id); + InSymbol(it8); + } + else + { + // It is not. Just continue + cmsIT8SetSheetType(it8, ""); + } + } + else + // Validate quoted strings + if (it8 ->sy == SSTRING) { + cmsIT8SetSheetType(it8, it8 ->str); + InSymbol(it8); + } + } + + } + break; + + case SEOLN: + SkipEOLN(it8); + break; + + default: + if (!HeaderSection(it8)) return FALSE; + } + + } + + return (it8 -> sy != SSYNERROR); +} + + + +// Init useful pointers + +static +void CookPointers(cmsIT8* it8) +{ + int idField, i; + char* Fld; + cmsUInt32Number j; + cmsUInt32Number nOldTable = it8 ->nTable; + + for (j=0; j < it8 ->TablesCount; j++) { + + TABLE* t = it8 ->Tab + j; + + t -> SampleID = 0; + it8 ->nTable = j; + + for (idField = 0; idField < t -> nSamples; idField++) + { + if (t ->DataFormat == NULL){ + SynError(it8, "Undefined DATA_FORMAT"); + return; + } + + Fld = t->DataFormat[idField]; + if (!Fld) continue; + + + if (cmsstrcasecmp(Fld, "SAMPLE_ID") == 0) { + + t -> SampleID = idField; + + for (i=0; i < t -> nPatches; i++) { + + char *Data = GetData(it8, i, idField); + if (Data) { + char Buffer[256]; + + strncpy(Buffer, Data, 255); + Buffer[255] = 0; + + if (strlen(Buffer) <= strlen(Data)) + strcpy(Data, Buffer); + else + SetData(it8, i, idField, Buffer); + + } + } + + } + + // "LABEL" is an extension. It keeps references to forward tables + + if ((cmsstrcasecmp(Fld, "LABEL") == 0) || Fld[0] == '$' ) { + + // Search for table references... + for (i=0; i < t -> nPatches; i++) { + + char *Label = GetData(it8, i, idField); + + if (Label) { + + cmsUInt32Number k; + + // This is the label, search for a table containing + // this property + + for (k=0; k < it8 ->TablesCount; k++) { + + TABLE* Table = it8 ->Tab + k; + KEYVALUE* p; + + if (IsAvailableOnList(Table->HeaderList, Label, NULL, &p)) { + + // Available, keep type and table + char Buffer[256]; + + char *Type = p ->Value; + int nTable = (int) k; + + snprintf(Buffer, 255, "%s %d %s", Label, nTable, Type ); + + SetData(it8, i, idField, Buffer); + } + } + + + } + + } + + + } + + } + } + + it8 ->nTable = nOldTable; +} + +// Try to infere if the file is a CGATS/IT8 file at all. Read first line +// that should be something like some printable characters plus a \n +// returns 0 if this is not like a CGATS, or an integer otherwise. This integer is the number of words in first line? +static +int IsMyBlock(cmsUInt8Number* Buffer, int n) +{ + int words = 1, space = 0, quot = 0; + int i; + + if (n < 10) return 0; // Too small + + if (n > 132) + n = 132; + + for (i = 1; i < n; i++) { + + switch(Buffer[i]) + { + case '\n': + case '\r': + return ((quot == 1) || (words > 2)) ? 0 : words; + case '\t': + case ' ': + if(!quot && !space) + space = 1; + break; + case '\"': + quot = !quot; + break; + default: + if (Buffer[i] < 32) return 0; + if (Buffer[i] > 127) return 0; + words += space; + space = 0; + break; + } + } + + return 0; +} + + +static +cmsBool IsMyFile(const char* FileName) +{ + FILE *fp; + cmsUInt32Number Size; + cmsUInt8Number Ptr[133]; + + fp = fopen(FileName, "rt"); + if (!fp) { + cmsSignalError(0, cmsERROR_FILE, "File '%s' not found", FileName); + return FALSE; + } + + Size = (cmsUInt32Number) fread(Ptr, 1, 132, fp); + + if (fclose(fp) != 0) + return FALSE; + + Ptr[Size] = '\0'; + + return IsMyBlock(Ptr, Size); +} + +// ---------------------------------------------------------- Exported routines + + +cmsHANDLE CMSEXPORT cmsIT8LoadFromMem(cmsContext ContextID, void *Ptr, cmsUInt32Number len) +{ + cmsHANDLE hIT8; + cmsIT8* it8; + int type; + + _cmsAssert(Ptr != NULL); + _cmsAssert(len != 0); + + type = IsMyBlock((cmsUInt8Number*)Ptr, len); + if (type == 0) return NULL; + + hIT8 = cmsIT8Alloc(ContextID); + if (!hIT8) return NULL; + + it8 = (cmsIT8*) hIT8; + it8 ->MemoryBlock = (char*) _cmsMalloc(ContextID, len + 1); + + strncpy(it8 ->MemoryBlock, (const char*) Ptr, len); + it8 ->MemoryBlock[len] = 0; + + strncpy(it8->FileStack[0]->FileName, "", cmsMAX_PATH-1); + it8-> Source = it8 -> MemoryBlock; + + if (!ParseIT8(it8, type-1)) { + + cmsIT8Free(hIT8); + return FALSE; + } + + CookPointers(it8); + it8 ->nTable = 0; + + _cmsFree(ContextID, it8->MemoryBlock); + it8 -> MemoryBlock = NULL; + + return hIT8; + + +} + + +cmsHANDLE CMSEXPORT cmsIT8LoadFromFile(cmsContext ContextID, const char* cFileName) +{ + + cmsHANDLE hIT8; + cmsIT8* it8; + int type; + + _cmsAssert(cFileName != NULL); + + type = IsMyFile(cFileName); + if (type == 0) return NULL; + + hIT8 = cmsIT8Alloc(ContextID); + it8 = (cmsIT8*) hIT8; + if (!hIT8) return NULL; + + + it8 ->FileStack[0]->Stream = fopen(cFileName, "rt"); + + if (!it8 ->FileStack[0]->Stream) { + cmsIT8Free(hIT8); + return NULL; + } + + + strncpy(it8->FileStack[0]->FileName, cFileName, cmsMAX_PATH-1); + it8->FileStack[0]->FileName[cmsMAX_PATH-1] = 0; + + if (!ParseIT8(it8, type-1)) { + + fclose(it8 ->FileStack[0]->Stream); + cmsIT8Free(hIT8); + return NULL; + } + + CookPointers(it8); + it8 ->nTable = 0; + + if (fclose(it8 ->FileStack[0]->Stream)!= 0) { + cmsIT8Free(hIT8); + return NULL; + } + + return hIT8; + +} + +int CMSEXPORT cmsIT8EnumDataFormat(cmsHANDLE hIT8, char ***SampleNames) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + TABLE* t; + + _cmsAssert(hIT8 != NULL); + + t = GetTable(it8); + + if (SampleNames) + *SampleNames = t -> DataFormat; + return t -> nSamples; +} + + +cmsUInt32Number CMSEXPORT cmsIT8EnumProperties(cmsHANDLE hIT8, char ***PropertyNames) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + KEYVALUE* p; + cmsUInt32Number n; + char **Props; + TABLE* t; + + _cmsAssert(hIT8 != NULL); + + t = GetTable(it8); + + // Pass#1 - count properties + + n = 0; + for (p = t -> HeaderList; p != NULL; p = p->Next) { + n++; + } + + + Props = (char **) AllocChunk(it8, sizeof(char *) * n); + + // Pass#2 - Fill pointers + n = 0; + for (p = t -> HeaderList; p != NULL; p = p->Next) { + Props[n++] = p -> Keyword; + } + + *PropertyNames = Props; + return n; +} + +cmsUInt32Number CMSEXPORT cmsIT8EnumPropertyMulti(cmsHANDLE hIT8, const char* cProp, const char ***SubpropertyNames) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + KEYVALUE *p, *tmp; + cmsUInt32Number n; + const char **Props; + TABLE* t; + + _cmsAssert(hIT8 != NULL); + + + t = GetTable(it8); + + if(!IsAvailableOnList(t->HeaderList, cProp, NULL, &p)) { + *SubpropertyNames = 0; + return 0; + } + + // Pass#1 - count properties + + n = 0; + for (tmp = p; tmp != NULL; tmp = tmp->NextSubkey) { + if(tmp->Subkey != NULL) + n++; + } + + + Props = (const char **) AllocChunk(it8, sizeof(char *) * n); + + // Pass#2 - Fill pointers + n = 0; + for (tmp = p; tmp != NULL; tmp = tmp->NextSubkey) { + if(tmp->Subkey != NULL) + Props[n++] = p ->Subkey; + } + + *SubpropertyNames = Props; + return n; +} + +static +int LocatePatch(cmsIT8* it8, const char* cPatch) +{ + int i; + const char *data; + TABLE* t = GetTable(it8); + + for (i=0; i < t-> nPatches; i++) { + + data = GetData(it8, i, t->SampleID); + + if (data != NULL) { + + if (cmsstrcasecmp(data, cPatch) == 0) + return i; + } + } + + // SynError(it8, "Couldn't find patch '%s'\n", cPatch); + return -1; +} + + +static +int LocateEmptyPatch(cmsIT8* it8) +{ + int i; + const char *data; + TABLE* t = GetTable(it8); + + for (i=0; i < t-> nPatches; i++) { + + data = GetData(it8, i, t->SampleID); + + if (data == NULL) + return i; + + } + + return -1; +} + +static +int LocateSample(cmsIT8* it8, const char* cSample) +{ + int i; + const char *fld; + TABLE* t = GetTable(it8); + + for (i=0; i < t->nSamples; i++) { + + fld = GetDataFormat(it8, i); + if (fld != NULL) { + if (cmsstrcasecmp(fld, cSample) == 0) + return i; + } + } + + return -1; + +} + + +int CMSEXPORT cmsIT8FindDataFormat(cmsHANDLE hIT8, const char* cSample) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + _cmsAssert(hIT8 != NULL); + + return LocateSample(it8, cSample); +} + + + +const char* CMSEXPORT cmsIT8GetDataRowCol(cmsHANDLE hIT8, int row, int col) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + _cmsAssert(hIT8 != NULL); + + return GetData(it8, row, col); +} + + +cmsFloat64Number CMSEXPORT cmsIT8GetDataRowColDbl(cmsHANDLE hIT8, int row, int col) +{ + const char* Buffer; + + Buffer = cmsIT8GetDataRowCol(hIT8, row, col); + + if (Buffer == NULL) return 0.0; + + return ParseFloatNumber(Buffer); +} + + +cmsBool CMSEXPORT cmsIT8SetDataRowCol(cmsHANDLE hIT8, int row, int col, const char* Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + _cmsAssert(hIT8 != NULL); + + return SetData(it8, row, col, Val); +} + + +cmsBool CMSEXPORT cmsIT8SetDataRowColDbl(cmsHANDLE hIT8, int row, int col, cmsFloat64Number Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + char Buff[256]; + + _cmsAssert(hIT8 != NULL); + + snprintf(Buff, 255, it8->DoubleFormatter, Val); + + return SetData(it8, row, col, Buff); +} + + + +const char* CMSEXPORT cmsIT8GetData(cmsHANDLE hIT8, const char* cPatch, const char* cSample) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + int iField, iSet; + + _cmsAssert(hIT8 != NULL); + + iField = LocateSample(it8, cSample); + if (iField < 0) { + return NULL; + } + + iSet = LocatePatch(it8, cPatch); + if (iSet < 0) { + return NULL; + } + + return GetData(it8, iSet, iField); +} + + +cmsFloat64Number CMSEXPORT cmsIT8GetDataDbl(cmsHANDLE it8, const char* cPatch, const char* cSample) +{ + const char* Buffer; + + Buffer = cmsIT8GetData(it8, cPatch, cSample); + + return ParseFloatNumber(Buffer); +} + + + +cmsBool CMSEXPORT cmsIT8SetData(cmsHANDLE hIT8, const char* cPatch, const char* cSample, const char *Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + int iField, iSet; + TABLE* t; + + _cmsAssert(hIT8 != NULL); + + t = GetTable(it8); + + iField = LocateSample(it8, cSample); + + if (iField < 0) + return FALSE; + + if (t-> nPatches == 0) { + + AllocateDataFormat(it8); + AllocateDataSet(it8); + CookPointers(it8); + } + + if (cmsstrcasecmp(cSample, "SAMPLE_ID") == 0) { + + iSet = LocateEmptyPatch(it8); + if (iSet < 0) { + return SynError(it8, "Couldn't add more patches '%s'\n", cPatch); + } + + iField = t -> SampleID; + } + else { + iSet = LocatePatch(it8, cPatch); + if (iSet < 0) { + return FALSE; + } + } + + return SetData(it8, iSet, iField, Val); +} + + +cmsBool CMSEXPORT cmsIT8SetDataDbl(cmsHANDLE hIT8, const char* cPatch, + const char* cSample, + cmsFloat64Number Val) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + char Buff[256]; + + _cmsAssert(hIT8 != NULL); + + snprintf(Buff, 255, it8->DoubleFormatter, Val); + return cmsIT8SetData(hIT8, cPatch, cSample, Buff); +} + +// Buffer should get MAXSTR at least + +const char* CMSEXPORT cmsIT8GetPatchName(cmsHANDLE hIT8, int nPatch, char* buffer) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + TABLE* t; + char* Data; + + _cmsAssert(hIT8 != NULL); + + t = GetTable(it8); + Data = GetData(it8, nPatch, t->SampleID); + + if (!Data) return NULL; + if (!buffer) return Data; + + strncpy(buffer, Data, MAXSTR-1); + buffer[MAXSTR-1] = 0; + return buffer; +} + +int CMSEXPORT cmsIT8GetPatchByName(cmsHANDLE hIT8, const char *cPatch) +{ + _cmsAssert(hIT8 != NULL); + + return LocatePatch((cmsIT8*)hIT8, cPatch); +} + +cmsUInt32Number CMSEXPORT cmsIT8TableCount(cmsHANDLE hIT8) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + _cmsAssert(hIT8 != NULL); + + return it8 ->TablesCount; +} + +// This handles the "LABEL" extension. +// Label, nTable, Type + +int CMSEXPORT cmsIT8SetTableByLabel(cmsHANDLE hIT8, const char* cSet, const char* cField, const char* ExpectedType) +{ + const char* cLabelFld; + char Type[256], Label[256]; + int nTable; + + _cmsAssert(hIT8 != NULL); + + if (cField != NULL && *cField == 0) + cField = "LABEL"; + + if (cField == NULL) + cField = "LABEL"; + + cLabelFld = cmsIT8GetData(hIT8, cSet, cField); + if (!cLabelFld) return -1; + + if (sscanf(cLabelFld, "%255s %d %255s", Label, &nTable, Type) != 3) + return -1; + + if (ExpectedType != NULL && *ExpectedType == 0) + ExpectedType = NULL; + + if (ExpectedType) { + + if (cmsstrcasecmp(Type, ExpectedType) != 0) return -1; + } + + return cmsIT8SetTable(hIT8, nTable); +} + + +cmsBool CMSEXPORT cmsIT8SetIndexColumn(cmsHANDLE hIT8, const char* cSample) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + int pos; + + _cmsAssert(hIT8 != NULL); + + pos = LocateSample(it8, cSample); + if(pos == -1) + return FALSE; + + it8->Tab[it8->nTable].SampleID = pos; + return TRUE; +} + + +void CMSEXPORT cmsIT8DefineDblFormat(cmsHANDLE hIT8, const char* Formatter) +{ + cmsIT8* it8 = (cmsIT8*) hIT8; + + _cmsAssert(hIT8 != NULL); + + if (Formatter == NULL) + strcpy(it8->DoubleFormatter, DEFAULT_DBL_FORMAT); + else + strncpy(it8->DoubleFormatter, Formatter, sizeof(it8->DoubleFormatter)); + + it8 ->DoubleFormatter[sizeof(it8 ->DoubleFormatter)-1] = 0; +} + Index: sdk/lib/3rdparty/lcms2/cmscnvrt.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmscnvrt.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmscnvrt.c (working copy) @@ -0,0 +1,1161 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// Link several profiles to obtain a single LUT modelling the whole color transform. Intents, Black point +// compensation and Adaptation parameters may vary across profiles. BPC and Adaptation refers to the PCS +// after the profile. I.e, BPC[0] refers to connexion between profile(0) and profile(1) +cmsPipeline* _cmsLinkProfiles(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number Intents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + +//--------------------------------------------------------------------------------- + +// This is the default routine for ICC-style intents. A user may decide to override it by using a plugin. +// Supported intents are perceptual, relative colorimetric, saturation and ICC-absolute colorimetric +static +cmsPipeline* DefaultICCintents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number Intents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + +//--------------------------------------------------------------------------------- + +// This is the entry for black-preserving K-only intents, which are non-ICC. Last profile have to be a output profile +// to do the trick (no devicelinks allowed at that position) +static +cmsPipeline* BlackPreservingKOnlyIntents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number Intents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + +//--------------------------------------------------------------------------------- + +// This is the entry for black-plane preserving, which are non-ICC. Again, Last profile have to be a output profile +// to do the trick (no devicelinks allowed at that position) +static +cmsPipeline* BlackPreservingKPlaneIntents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number Intents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + +//--------------------------------------------------------------------------------- + + +// This is a structure holding implementations for all supported intents. +typedef struct _cms_intents_list { + + cmsUInt32Number Intent; + char Description[256]; + cmsIntentFn Link; + struct _cms_intents_list* Next; + +} cmsIntentsList; + + +// Built-in intents +static cmsIntentsList DefaultIntents[] = { + + { INTENT_PERCEPTUAL, "Perceptual", DefaultICCintents, &DefaultIntents[1] }, + { INTENT_RELATIVE_COLORIMETRIC, "Relative colorimetric", DefaultICCintents, &DefaultIntents[2] }, + { INTENT_SATURATION, "Saturation", DefaultICCintents, &DefaultIntents[3] }, + { INTENT_ABSOLUTE_COLORIMETRIC, "Absolute colorimetric", DefaultICCintents, &DefaultIntents[4] }, + { INTENT_PRESERVE_K_ONLY_PERCEPTUAL, "Perceptual preserving black ink", BlackPreservingKOnlyIntents, &DefaultIntents[5] }, + { INTENT_PRESERVE_K_ONLY_RELATIVE_COLORIMETRIC, "Relative colorimetric preserving black ink", BlackPreservingKOnlyIntents, &DefaultIntents[6] }, + { INTENT_PRESERVE_K_ONLY_SATURATION, "Saturation preserving black ink", BlackPreservingKOnlyIntents, &DefaultIntents[7] }, + { INTENT_PRESERVE_K_PLANE_PERCEPTUAL, "Perceptual preserving black plane", BlackPreservingKPlaneIntents, &DefaultIntents[8] }, + { INTENT_PRESERVE_K_PLANE_RELATIVE_COLORIMETRIC,"Relative colorimetric preserving black plane", BlackPreservingKPlaneIntents, &DefaultIntents[9] }, + { INTENT_PRESERVE_K_PLANE_SATURATION, "Saturation preserving black plane", BlackPreservingKPlaneIntents, NULL } +}; + + +// A pointer to the beginning of the list +_cmsIntentsPluginChunkType _cmsIntentsPluginChunk = { NULL }; + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupPluginIntentsList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsIntentsPluginChunkType newHead = { NULL }; + cmsIntentsList* entry; + cmsIntentsList* Anterior = NULL; + _cmsIntentsPluginChunkType* head = (_cmsIntentsPluginChunkType*) src->chunks[IntentPlugin]; + + // Walk the list copying all nodes + for (entry = head->Intents; + entry != NULL; + entry = entry ->Next) { + + cmsIntentsList *newEntry = ( cmsIntentsList *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(cmsIntentsList)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.Intents == NULL) + newHead.Intents = newEntry; + } + + ctx ->chunks[IntentPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsIntentsPluginChunkType)); +} + +void _cmsAllocIntentsPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + // Copy all linked list + DupPluginIntentsList(ctx, src); + } + else { + static _cmsIntentsPluginChunkType IntentsPluginChunkType = { NULL }; + ctx ->chunks[IntentPlugin] = _cmsSubAllocDup(ctx ->MemPool, &IntentsPluginChunkType, sizeof(_cmsIntentsPluginChunkType)); + } +} + + +// Search the list for a suitable intent. Returns NULL if not found +static +cmsIntentsList* SearchIntent(cmsContext ContextID, cmsUInt32Number Intent) +{ + _cmsIntentsPluginChunkType* ctx = ( _cmsIntentsPluginChunkType*) _cmsContextGetClientChunk(ContextID, IntentPlugin); + cmsIntentsList* pt; + + for (pt = ctx -> Intents; pt != NULL; pt = pt -> Next) + if (pt ->Intent == Intent) return pt; + + for (pt = DefaultIntents; pt != NULL; pt = pt -> Next) + if (pt ->Intent == Intent) return pt; + + return NULL; +} + +// Black point compensation. Implemented as a linear scaling in XYZ. Black points +// should come relative to the white point. Fills an matrix/offset element m +// which is organized as a 4x4 matrix. +static +void ComputeBlackPointCompensation(const cmsCIEXYZ* BlackPointIn, + const cmsCIEXYZ* BlackPointOut, + cmsMAT3* m, cmsVEC3* off) +{ + cmsFloat64Number ax, ay, az, bx, by, bz, tx, ty, tz; + + // Now we need to compute a matrix plus an offset m and of such of + // [m]*bpin + off = bpout + // [m]*D50 + off = D50 + // + // This is a linear scaling in the form ax+b, where + // a = (bpout - D50) / (bpin - D50) + // b = - D50* (bpout - bpin) / (bpin - D50) + + tx = BlackPointIn->X - cmsD50_XYZ()->X; + ty = BlackPointIn->Y - cmsD50_XYZ()->Y; + tz = BlackPointIn->Z - cmsD50_XYZ()->Z; + + ax = (BlackPointOut->X - cmsD50_XYZ()->X) / tx; + ay = (BlackPointOut->Y - cmsD50_XYZ()->Y) / ty; + az = (BlackPointOut->Z - cmsD50_XYZ()->Z) / tz; + + bx = - cmsD50_XYZ()-> X * (BlackPointOut->X - BlackPointIn->X) / tx; + by = - cmsD50_XYZ()-> Y * (BlackPointOut->Y - BlackPointIn->Y) / ty; + bz = - cmsD50_XYZ()-> Z * (BlackPointOut->Z - BlackPointIn->Z) / tz; + + _cmsVEC3init(&m ->v[0], ax, 0, 0); + _cmsVEC3init(&m ->v[1], 0, ay, 0); + _cmsVEC3init(&m ->v[2], 0, 0, az); + _cmsVEC3init(off, bx, by, bz); + +} + + +// Approximate a blackbody illuminant based on CHAD information +static +cmsFloat64Number CHAD2Temp(const cmsMAT3* Chad) +{ + // Convert D50 across inverse CHAD to get the absolute white point + cmsVEC3 d, s; + cmsCIEXYZ Dest; + cmsCIExyY DestChromaticity; + cmsFloat64Number TempK; + cmsMAT3 m1, m2; + + m1 = *Chad; + if (!_cmsMAT3inverse(&m1, &m2)) return FALSE; + + s.n[VX] = cmsD50_XYZ() -> X; + s.n[VY] = cmsD50_XYZ() -> Y; + s.n[VZ] = cmsD50_XYZ() -> Z; + + _cmsMAT3eval(&d, &m2, &s); + + Dest.X = d.n[VX]; + Dest.Y = d.n[VY]; + Dest.Z = d.n[VZ]; + + cmsXYZ2xyY(&DestChromaticity, &Dest); + + if (!cmsTempFromWhitePoint(&TempK, &DestChromaticity)) + return -1.0; + + return TempK; +} + +// Compute a CHAD based on a given temperature +static + void Temp2CHAD(cmsMAT3* Chad, cmsFloat64Number Temp) +{ + cmsCIEXYZ White; + cmsCIExyY ChromaticityOfWhite; + + cmsWhitePointFromTemp(&ChromaticityOfWhite, Temp); + cmsxyY2XYZ(&White, &ChromaticityOfWhite); + _cmsAdaptationMatrix(Chad, NULL, &White, cmsD50_XYZ()); +} + +// Join scalings to obtain relative input to absolute and then to relative output. +// Result is stored in a 3x3 matrix +static +cmsBool ComputeAbsoluteIntent(cmsFloat64Number AdaptationState, + const cmsCIEXYZ* WhitePointIn, + const cmsMAT3* ChromaticAdaptationMatrixIn, + const cmsCIEXYZ* WhitePointOut, + const cmsMAT3* ChromaticAdaptationMatrixOut, + cmsMAT3* m) +{ + cmsMAT3 Scale, m1, m2, m3, m4; + + // TODO: Follow Marc Mahy's recommendation to check if CHAD is same by using M1*M2 == M2*M1. If so, do nothing. + // TODO: Add support for ArgyllArts tag + + // Adaptation state + if (AdaptationState == 1.0) { + + // Observer is fully adapted. Keep chromatic adaptation. + // That is the standard V4 behaviour + _cmsVEC3init(&m->v[0], WhitePointIn->X / WhitePointOut->X, 0, 0); + _cmsVEC3init(&m->v[1], 0, WhitePointIn->Y / WhitePointOut->Y, 0); + _cmsVEC3init(&m->v[2], 0, 0, WhitePointIn->Z / WhitePointOut->Z); + + } + else { + + // Incomplete adaptation. This is an advanced feature. + _cmsVEC3init(&Scale.v[0], WhitePointIn->X / WhitePointOut->X, 0, 0); + _cmsVEC3init(&Scale.v[1], 0, WhitePointIn->Y / WhitePointOut->Y, 0); + _cmsVEC3init(&Scale.v[2], 0, 0, WhitePointIn->Z / WhitePointOut->Z); + + + if (AdaptationState == 0.0) { + + m1 = *ChromaticAdaptationMatrixOut; + _cmsMAT3per(&m2, &m1, &Scale); + // m2 holds CHAD from output white to D50 times abs. col. scaling + + // Observer is not adapted, undo the chromatic adaptation + _cmsMAT3per(m, &m2, ChromaticAdaptationMatrixOut); + + m3 = *ChromaticAdaptationMatrixIn; + if (!_cmsMAT3inverse(&m3, &m4)) return FALSE; + _cmsMAT3per(m, &m2, &m4); + + } else { + + cmsMAT3 MixedCHAD; + cmsFloat64Number TempSrc, TempDest, Temp; + + m1 = *ChromaticAdaptationMatrixIn; + if (!_cmsMAT3inverse(&m1, &m2)) return FALSE; + _cmsMAT3per(&m3, &m2, &Scale); + // m3 holds CHAD from input white to D50 times abs. col. scaling + + TempSrc = CHAD2Temp(ChromaticAdaptationMatrixIn); + TempDest = CHAD2Temp(ChromaticAdaptationMatrixOut); + + if (TempSrc < 0.0 || TempDest < 0.0) return FALSE; // Something went wrong + + if (_cmsMAT3isIdentity(&Scale) && fabs(TempSrc - TempDest) < 0.01) { + + _cmsMAT3identity(m); + return TRUE; + } + + Temp = (1.0 - AdaptationState) * TempDest + AdaptationState * TempSrc; + + // Get a CHAD from whatever output temperature to D50. This replaces output CHAD + Temp2CHAD(&MixedCHAD, Temp); + + _cmsMAT3per(m, &m3, &MixedCHAD); + } + + } + return TRUE; + +} + +// Just to see if m matrix should be applied +static +cmsBool IsEmptyLayer(cmsMAT3* m, cmsVEC3* off) +{ + cmsFloat64Number diff = 0; + cmsMAT3 Ident; + int i; + + if (m == NULL && off == NULL) return TRUE; // NULL is allowed as an empty layer + if (m == NULL && off != NULL) return FALSE; // This is an internal error + + _cmsMAT3identity(&Ident); + + for (i=0; i < 3*3; i++) + diff += fabs(((cmsFloat64Number*)m)[i] - ((cmsFloat64Number*)&Ident)[i]); + + for (i=0; i < 3; i++) + diff += fabs(((cmsFloat64Number*)off)[i]); + + + return (diff < 0.002); +} + + +// Compute the conversion layer +static +cmsBool ComputeConversion(int i, cmsHPROFILE hProfiles[], + cmsUInt32Number Intent, + cmsBool BPC, + cmsFloat64Number AdaptationState, + cmsMAT3* m, cmsVEC3* off) +{ + + int k; + + // m and off are set to identity and this is detected latter on + _cmsMAT3identity(m); + _cmsVEC3init(off, 0, 0, 0); + + // If intent is abs. colorimetric, + if (Intent == INTENT_ABSOLUTE_COLORIMETRIC) { + + cmsCIEXYZ WhitePointIn, WhitePointOut; + cmsMAT3 ChromaticAdaptationMatrixIn, ChromaticAdaptationMatrixOut; + + _cmsReadMediaWhitePoint(&WhitePointIn, hProfiles[i-1]); + _cmsReadCHAD(&ChromaticAdaptationMatrixIn, hProfiles[i-1]); + + _cmsReadMediaWhitePoint(&WhitePointOut, hProfiles[i]); + _cmsReadCHAD(&ChromaticAdaptationMatrixOut, hProfiles[i]); + + if (!ComputeAbsoluteIntent(AdaptationState, + &WhitePointIn, &ChromaticAdaptationMatrixIn, + &WhitePointOut, &ChromaticAdaptationMatrixOut, m)) return FALSE; + + } + else { + // Rest of intents may apply BPC. + + if (BPC) { + + cmsCIEXYZ BlackPointIn, BlackPointOut; + + cmsDetectBlackPoint(&BlackPointIn, hProfiles[i-1], Intent, 0); + cmsDetectDestinationBlackPoint(&BlackPointOut, hProfiles[i], Intent, 0); + + // If black points are equal, then do nothing + if (BlackPointIn.X != BlackPointOut.X || + BlackPointIn.Y != BlackPointOut.Y || + BlackPointIn.Z != BlackPointOut.Z) + ComputeBlackPointCompensation(&BlackPointIn, &BlackPointOut, m, off); + } + } + + // Offset should be adjusted because the encoding. We encode XYZ normalized to 0..1.0, + // to do that, we divide by MAX_ENCODEABLE_XZY. The conversion stage goes XYZ -> XYZ so + // we have first to convert from encoded to XYZ and then convert back to encoded. + // y = Mx + Off + // x = x'c + // y = M x'c + Off + // y = y'c; y' = y / c + // y' = (Mx'c + Off) /c = Mx' + (Off / c) + + for (k=0; k < 3; k++) { + off ->n[k] /= MAX_ENCODEABLE_XYZ; + } + + return TRUE; +} + + +// Add a conversion stage if needed. If a matrix/offset m is given, it applies to XYZ space +static +cmsBool AddConversion(cmsPipeline* Result, cmsColorSpaceSignature InPCS, cmsColorSpaceSignature OutPCS, cmsMAT3* m, cmsVEC3* off) +{ + cmsFloat64Number* m_as_dbl = (cmsFloat64Number*) m; + cmsFloat64Number* off_as_dbl = (cmsFloat64Number*) off; + + // Handle PCS mismatches. A specialized stage is added to the LUT in such case + switch (InPCS) { + + case cmsSigXYZData: // Input profile operates in XYZ + + switch (OutPCS) { + + case cmsSigXYZData: // XYZ -> XYZ + if (!IsEmptyLayer(m, off) && + !cmsPipelineInsertStage(Result, cmsAT_END, cmsStageAllocMatrix(Result ->ContextID, 3, 3, m_as_dbl, off_as_dbl))) + return FALSE; + break; + + case cmsSigLabData: // XYZ -> Lab + if (!IsEmptyLayer(m, off) && + !cmsPipelineInsertStage(Result, cmsAT_END, cmsStageAllocMatrix(Result ->ContextID, 3, 3, m_as_dbl, off_as_dbl))) + return FALSE; + if (!cmsPipelineInsertStage(Result, cmsAT_END, _cmsStageAllocXYZ2Lab(Result ->ContextID))) + return FALSE; + break; + + default: + return FALSE; // Colorspace mismatch + } + break; + + case cmsSigLabData: // Input profile operates in Lab + + switch (OutPCS) { + + case cmsSigXYZData: // Lab -> XYZ + + if (!cmsPipelineInsertStage(Result, cmsAT_END, _cmsStageAllocLab2XYZ(Result ->ContextID))) + return FALSE; + if (!IsEmptyLayer(m, off) && + !cmsPipelineInsertStage(Result, cmsAT_END, cmsStageAllocMatrix(Result ->ContextID, 3, 3, m_as_dbl, off_as_dbl))) + return FALSE; + break; + + case cmsSigLabData: // Lab -> Lab + + if (!IsEmptyLayer(m, off)) { + if (!cmsPipelineInsertStage(Result, cmsAT_END, _cmsStageAllocLab2XYZ(Result ->ContextID)) || + !cmsPipelineInsertStage(Result, cmsAT_END, cmsStageAllocMatrix(Result ->ContextID, 3, 3, m_as_dbl, off_as_dbl)) || + !cmsPipelineInsertStage(Result, cmsAT_END, _cmsStageAllocXYZ2Lab(Result ->ContextID))) + return FALSE; + } + break; + + default: + return FALSE; // Mismatch + } + break; + + // On colorspaces other than PCS, check for same space + default: + if (InPCS != OutPCS) return FALSE; + break; + } + + return TRUE; +} + + +// Is a given space compatible with another? +static +cmsBool ColorSpaceIsCompatible(cmsColorSpaceSignature a, cmsColorSpaceSignature b) +{ + // If they are same, they are compatible. + if (a == b) return TRUE; + + // Check for MCH4 substitution of CMYK + if ((a == cmsSig4colorData) && (b == cmsSigCmykData)) return TRUE; + if ((a == cmsSigCmykData) && (b == cmsSig4colorData)) return TRUE; + + // Check for XYZ/Lab. Those spaces are interchangeable as they can be computed one from other. + if ((a == cmsSigXYZData) && (b == cmsSigLabData)) return TRUE; + if ((a == cmsSigLabData) && (b == cmsSigXYZData)) return TRUE; + + return FALSE; +} + + +// Default handler for ICC-style intents +static +cmsPipeline* DefaultICCintents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number TheIntents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + cmsPipeline* Lut = NULL; + cmsPipeline* Result; + cmsHPROFILE hProfile; + cmsMAT3 m; + cmsVEC3 off; + cmsColorSpaceSignature ColorSpaceIn, ColorSpaceOut = cmsSigLabData, CurrentColorSpace; + cmsProfileClassSignature ClassSig; + cmsUInt32Number i, Intent; + + // For safety + if (nProfiles == 0) return NULL; + + // Allocate an empty LUT for holding the result. 0 as channel count means 'undefined' + Result = cmsPipelineAlloc(ContextID, 0, 0); + if (Result == NULL) return NULL; + + CurrentColorSpace = cmsGetColorSpace(hProfiles[0]); + + for (i=0; i < nProfiles; i++) { + + cmsBool lIsDeviceLink, lIsInput; + + hProfile = hProfiles[i]; + ClassSig = cmsGetDeviceClass(hProfile); + lIsDeviceLink = (ClassSig == cmsSigLinkClass || ClassSig == cmsSigAbstractClass ); + + // First profile is used as input unless devicelink or abstract + if ((i == 0) && !lIsDeviceLink) { + lIsInput = TRUE; + } + else { + // Else use profile in the input direction if current space is not PCS + lIsInput = (CurrentColorSpace != cmsSigXYZData) && + (CurrentColorSpace != cmsSigLabData); + } + + Intent = TheIntents[i]; + + if (lIsInput || lIsDeviceLink) { + + ColorSpaceIn = cmsGetColorSpace(hProfile); + ColorSpaceOut = cmsGetPCS(hProfile); + } + else { + + ColorSpaceIn = cmsGetPCS(hProfile); + ColorSpaceOut = cmsGetColorSpace(hProfile); + } + + if (!ColorSpaceIsCompatible(ColorSpaceIn, CurrentColorSpace)) { + + cmsSignalError(ContextID, cmsERROR_COLORSPACE_CHECK, "ColorSpace mismatch"); + goto Error; + } + + // If devicelink is found, then no custom intent is allowed and we can + // read the LUT to be applied. Settings don't apply here. + if (lIsDeviceLink || ((ClassSig == cmsSigNamedColorClass) && (nProfiles == 1))) { + + // Get the involved LUT from the profile + Lut = _cmsReadDevicelinkLUT(hProfile, Intent); + if (Lut == NULL) goto Error; + + // What about abstract profiles? + if (ClassSig == cmsSigAbstractClass && i > 0) { + if (!ComputeConversion(i, hProfiles, Intent, BPC[i], AdaptationStates[i], &m, &off)) goto Error; + } + else { + _cmsMAT3identity(&m); + _cmsVEC3init(&off, 0, 0, 0); + } + + + if (!AddConversion(Result, CurrentColorSpace, ColorSpaceIn, &m, &off)) goto Error; + + } + else { + + if (lIsInput) { + // Input direction means non-pcs connection, so proceed like devicelinks + Lut = _cmsReadInputLUT(hProfile, Intent); + if (Lut == NULL) goto Error; + } + else { + + // Output direction means PCS connection. Intent may apply here + Lut = _cmsReadOutputLUT(hProfile, Intent); + if (Lut == NULL) goto Error; + + + if (!ComputeConversion(i, hProfiles, Intent, BPC[i], AdaptationStates[i], &m, &off)) goto Error; + if (!AddConversion(Result, CurrentColorSpace, ColorSpaceIn, &m, &off)) goto Error; + + } + } + + // Concatenate to the output LUT + if (!cmsPipelineCat(Result, Lut)) + goto Error; + + cmsPipelineFree(Lut); + Lut = NULL; + + // Update current space + CurrentColorSpace = ColorSpaceOut; + } + + // Check for non-negatives clip + if (dwFlags & cmsFLAGS_NONEGATIVES) { + + if (ColorSpaceOut == cmsSigGrayData || + ColorSpaceOut == cmsSigRgbData || + ColorSpaceOut == cmsSigCmykData) { + + cmsStage* clip = _cmsStageClipNegatives(Result->ContextID, cmsChannelsOf(ColorSpaceOut)); + if (clip == NULL) goto Error; + + if (!cmsPipelineInsertStage(Result, cmsAT_END, clip)) + goto Error; + } + + } + + return Result; + +Error: + + if (Lut != NULL) cmsPipelineFree(Lut); + if (Result != NULL) cmsPipelineFree(Result); + return NULL; + + cmsUNUSED_PARAMETER(dwFlags); +} + + +// Wrapper for DLL calling convention +cmsPipeline* CMSEXPORT _cmsDefaultICCintents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number TheIntents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + return DefaultICCintents(ContextID, nProfiles, TheIntents, hProfiles, BPC, AdaptationStates, dwFlags); +} + +// Black preserving intents --------------------------------------------------------------------------------------------- + +// Translate black-preserving intents to ICC ones +static +int TranslateNonICCIntents(int Intent) +{ + switch (Intent) { + case INTENT_PRESERVE_K_ONLY_PERCEPTUAL: + case INTENT_PRESERVE_K_PLANE_PERCEPTUAL: + return INTENT_PERCEPTUAL; + + case INTENT_PRESERVE_K_ONLY_RELATIVE_COLORIMETRIC: + case INTENT_PRESERVE_K_PLANE_RELATIVE_COLORIMETRIC: + return INTENT_RELATIVE_COLORIMETRIC; + + case INTENT_PRESERVE_K_ONLY_SATURATION: + case INTENT_PRESERVE_K_PLANE_SATURATION: + return INTENT_SATURATION; + + default: return Intent; + } +} + +// Sampler for Black-only preserving CMYK->CMYK transforms + +typedef struct { + cmsPipeline* cmyk2cmyk; // The original transform + cmsToneCurve* KTone; // Black-to-black tone curve + +} GrayOnlyParams; + + +// Preserve black only if that is the only ink used +static +int BlackPreservingGrayOnlySampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + GrayOnlyParams* bp = (GrayOnlyParams*) Cargo; + + // If going across black only, keep black only + if (In[0] == 0 && In[1] == 0 && In[2] == 0) { + + // TAC does not apply because it is black ink! + Out[0] = Out[1] = Out[2] = 0; + Out[3] = cmsEvalToneCurve16(bp->KTone, In[3]); + return TRUE; + } + + // Keep normal transform for other colors + bp ->cmyk2cmyk ->Eval16Fn(In, Out, bp ->cmyk2cmyk->Data); + return TRUE; +} + +// This is the entry for black-preserving K-only intents, which are non-ICC +static +cmsPipeline* BlackPreservingKOnlyIntents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number TheIntents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + GrayOnlyParams bp; + cmsPipeline* Result; + cmsUInt32Number ICCIntents[256]; + cmsStage* CLUT; + cmsUInt32Number i, nGridPoints; + + + // Sanity check + if (nProfiles < 1 || nProfiles > 255) return NULL; + + // Translate black-preserving intents to ICC ones + for (i=0; i < nProfiles; i++) + ICCIntents[i] = TranslateNonICCIntents(TheIntents[i]); + + // Check for non-cmyk profiles + if (cmsGetColorSpace(hProfiles[0]) != cmsSigCmykData || + cmsGetColorSpace(hProfiles[nProfiles-1]) != cmsSigCmykData) + return DefaultICCintents(ContextID, nProfiles, ICCIntents, hProfiles, BPC, AdaptationStates, dwFlags); + + memset(&bp, 0, sizeof(bp)); + + // Allocate an empty LUT for holding the result + Result = cmsPipelineAlloc(ContextID, 4, 4); + if (Result == NULL) return NULL; + + // Create a LUT holding normal ICC transform + bp.cmyk2cmyk = DefaultICCintents(ContextID, + nProfiles, + ICCIntents, + hProfiles, + BPC, + AdaptationStates, + dwFlags); + + if (bp.cmyk2cmyk == NULL) goto Error; + + // Now, compute the tone curve + bp.KTone = _cmsBuildKToneCurve(ContextID, + 4096, + nProfiles, + ICCIntents, + hProfiles, + BPC, + AdaptationStates, + dwFlags); + + if (bp.KTone == NULL) goto Error; + + + // How many gridpoints are we going to use? + nGridPoints = _cmsReasonableGridpointsByColorspace(cmsSigCmykData, dwFlags); + + // Create the CLUT. 16 bits + CLUT = cmsStageAllocCLut16bit(ContextID, nGridPoints, 4, 4, NULL); + if (CLUT == NULL) goto Error; + + // This is the one and only MPE in this LUT + if (!cmsPipelineInsertStage(Result, cmsAT_BEGIN, CLUT)) + goto Error; + + // Sample it. We cannot afford pre/post linearization this time. + if (!cmsStageSampleCLut16bit(CLUT, BlackPreservingGrayOnlySampler, (void*) &bp, 0)) + goto Error; + + // Get rid of xform and tone curve + cmsPipelineFree(bp.cmyk2cmyk); + cmsFreeToneCurve(bp.KTone); + + return Result; + +Error: + + if (bp.cmyk2cmyk != NULL) cmsPipelineFree(bp.cmyk2cmyk); + if (bp.KTone != NULL) cmsFreeToneCurve(bp.KTone); + if (Result != NULL) cmsPipelineFree(Result); + return NULL; + +} + +// K Plane-preserving CMYK to CMYK ------------------------------------------------------------------------------------ + +typedef struct { + + cmsPipeline* cmyk2cmyk; // The original transform + cmsHTRANSFORM hProofOutput; // Output CMYK to Lab (last profile) + cmsHTRANSFORM cmyk2Lab; // The input chain + cmsToneCurve* KTone; // Black-to-black tone curve + cmsPipeline* LabK2cmyk; // The output profile + cmsFloat64Number MaxError; + + cmsHTRANSFORM hRoundTrip; + cmsFloat64Number MaxTAC; + + +} PreserveKPlaneParams; + + +// The CLUT will be stored at 16 bits, but calculations are performed at cmsFloat32Number precision +static +int BlackPreservingSampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + int i; + cmsFloat32Number Inf[4], Outf[4]; + cmsFloat32Number LabK[4]; + cmsFloat64Number SumCMY, SumCMYK, Error, Ratio; + cmsCIELab ColorimetricLab, BlackPreservingLab; + PreserveKPlaneParams* bp = (PreserveKPlaneParams*) Cargo; + + // Convert from 16 bits to floating point + for (i=0; i < 4; i++) + Inf[i] = (cmsFloat32Number) (In[i] / 65535.0); + + // Get the K across Tone curve + LabK[3] = cmsEvalToneCurveFloat(bp ->KTone, Inf[3]); + + // If going across black only, keep black only + if (In[0] == 0 && In[1] == 0 && In[2] == 0) { + + Out[0] = Out[1] = Out[2] = 0; + Out[3] = _cmsQuickSaturateWord(LabK[3] * 65535.0); + return TRUE; + } + + // Try the original transform, + cmsPipelineEvalFloat( Inf, Outf, bp ->cmyk2cmyk); + + // Store a copy of the floating point result into 16-bit + for (i=0; i < 4; i++) + Out[i] = _cmsQuickSaturateWord(Outf[i] * 65535.0); + + // Maybe K is already ok (mostly on K=0) + if ( fabs(Outf[3] - LabK[3]) < (3.0 / 65535.0) ) { + return TRUE; + } + + // K differ, mesure and keep Lab measurement for further usage + // this is done in relative colorimetric intent + cmsDoTransform(bp->hProofOutput, Out, &ColorimetricLab, 1); + + // Is not black only and the transform doesn't keep black. + // Obtain the Lab of output CMYK. After that we have Lab + K + cmsDoTransform(bp ->cmyk2Lab, Outf, LabK, 1); + + // Obtain the corresponding CMY using reverse interpolation + // (K is fixed in LabK[3]) + if (!cmsPipelineEvalReverseFloat(LabK, Outf, Outf, bp ->LabK2cmyk)) { + + // Cannot find a suitable value, so use colorimetric xform + // which is already stored in Out[] + return TRUE; + } + + // Make sure to pass through K (which now is fixed) + Outf[3] = LabK[3]; + + // Apply TAC if needed + SumCMY = Outf[0] + Outf[1] + Outf[2]; + SumCMYK = SumCMY + Outf[3]; + + if (SumCMYK > bp ->MaxTAC) { + + Ratio = 1 - ((SumCMYK - bp->MaxTAC) / SumCMY); + if (Ratio < 0) + Ratio = 0; + } + else + Ratio = 1.0; + + Out[0] = _cmsQuickSaturateWord(Outf[0] * Ratio * 65535.0); // C + Out[1] = _cmsQuickSaturateWord(Outf[1] * Ratio * 65535.0); // M + Out[2] = _cmsQuickSaturateWord(Outf[2] * Ratio * 65535.0); // Y + Out[3] = _cmsQuickSaturateWord(Outf[3] * 65535.0); + + // Estimate the error (this goes 16 bits to Lab DBL) + cmsDoTransform(bp->hProofOutput, Out, &BlackPreservingLab, 1); + Error = cmsDeltaE(&ColorimetricLab, &BlackPreservingLab); + if (Error > bp -> MaxError) + bp->MaxError = Error; + + return TRUE; +} + +// This is the entry for black-plane preserving, which are non-ICC +static +cmsPipeline* BlackPreservingKPlaneIntents(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number TheIntents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + PreserveKPlaneParams bp; + cmsPipeline* Result = NULL; + cmsUInt32Number ICCIntents[256]; + cmsStage* CLUT; + cmsUInt32Number i, nGridPoints; + cmsHPROFILE hLab; + + // Sanity check + if (nProfiles < 1 || nProfiles > 255) return NULL; + + // Translate black-preserving intents to ICC ones + for (i=0; i < nProfiles; i++) + ICCIntents[i] = TranslateNonICCIntents(TheIntents[i]); + + // Check for non-cmyk profiles + if (cmsGetColorSpace(hProfiles[0]) != cmsSigCmykData || + !(cmsGetColorSpace(hProfiles[nProfiles-1]) == cmsSigCmykData || + cmsGetDeviceClass(hProfiles[nProfiles-1]) == cmsSigOutputClass)) + return DefaultICCintents(ContextID, nProfiles, ICCIntents, hProfiles, BPC, AdaptationStates, dwFlags); + + // Allocate an empty LUT for holding the result + Result = cmsPipelineAlloc(ContextID, 4, 4); + if (Result == NULL) return NULL; + + + memset(&bp, 0, sizeof(bp)); + + // We need the input LUT of the last profile, assuming this one is responsible of + // black generation. This LUT will be searched in inverse order. + bp.LabK2cmyk = _cmsReadInputLUT(hProfiles[nProfiles-1], INTENT_RELATIVE_COLORIMETRIC); + if (bp.LabK2cmyk == NULL) goto Cleanup; + + // Get total area coverage (in 0..1 domain) + bp.MaxTAC = cmsDetectTAC(hProfiles[nProfiles-1]) / 100.0; + if (bp.MaxTAC <= 0) goto Cleanup; + + + // Create a LUT holding normal ICC transform + bp.cmyk2cmyk = DefaultICCintents(ContextID, + nProfiles, + ICCIntents, + hProfiles, + BPC, + AdaptationStates, + dwFlags); + if (bp.cmyk2cmyk == NULL) goto Cleanup; + + // Now the tone curve + bp.KTone = _cmsBuildKToneCurve(ContextID, 4096, nProfiles, + ICCIntents, + hProfiles, + BPC, + AdaptationStates, + dwFlags); + if (bp.KTone == NULL) goto Cleanup; + + // To measure the output, Last profile to Lab + hLab = cmsCreateLab4ProfileTHR(ContextID, NULL); + bp.hProofOutput = cmsCreateTransformTHR(ContextID, hProfiles[nProfiles-1], + CHANNELS_SH(4)|BYTES_SH(2), hLab, TYPE_Lab_DBL, + INTENT_RELATIVE_COLORIMETRIC, + cmsFLAGS_NOCACHE|cmsFLAGS_NOOPTIMIZE); + if ( bp.hProofOutput == NULL) goto Cleanup; + + // Same as anterior, but lab in the 0..1 range + bp.cmyk2Lab = cmsCreateTransformTHR(ContextID, hProfiles[nProfiles-1], + FLOAT_SH(1)|CHANNELS_SH(4)|BYTES_SH(4), hLab, + FLOAT_SH(1)|CHANNELS_SH(3)|BYTES_SH(4), + INTENT_RELATIVE_COLORIMETRIC, + cmsFLAGS_NOCACHE|cmsFLAGS_NOOPTIMIZE); + if (bp.cmyk2Lab == NULL) goto Cleanup; + cmsCloseProfile(hLab); + + // Error estimation (for debug only) + bp.MaxError = 0; + + // How many gridpoints are we going to use? + nGridPoints = _cmsReasonableGridpointsByColorspace(cmsSigCmykData, dwFlags); + + + CLUT = cmsStageAllocCLut16bit(ContextID, nGridPoints, 4, 4, NULL); + if (CLUT == NULL) goto Cleanup; + + if (!cmsPipelineInsertStage(Result, cmsAT_BEGIN, CLUT)) + goto Cleanup; + + cmsStageSampleCLut16bit(CLUT, BlackPreservingSampler, (void*) &bp, 0); + +Cleanup: + + if (bp.cmyk2cmyk) cmsPipelineFree(bp.cmyk2cmyk); + if (bp.cmyk2Lab) cmsDeleteTransform(bp.cmyk2Lab); + if (bp.hProofOutput) cmsDeleteTransform(bp.hProofOutput); + + if (bp.KTone) cmsFreeToneCurve(bp.KTone); + if (bp.LabK2cmyk) cmsPipelineFree(bp.LabK2cmyk); + + return Result; +} + +// Link routines ------------------------------------------------------------------------------------------------------ + +// Chain several profiles into a single LUT. It just checks the parameters and then calls the handler +// for the first intent in chain. The handler may be user-defined. Is up to the handler to deal with the +// rest of intents in chain. A maximum of 255 profiles at time are supported, which is pretty reasonable. +cmsPipeline* _cmsLinkProfiles(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number TheIntents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + cmsUInt32Number i; + cmsIntentsList* Intent; + + // Make sure a reasonable number of profiles is provided + if (nProfiles <= 0 || nProfiles > 255) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Couldn't link '%d' profiles", nProfiles); + return NULL; + } + + for (i=0; i < nProfiles; i++) { + + // Check if black point is really needed or allowed. Note that + // following Adobe's document: + // BPC does not apply to devicelink profiles, nor to abs colorimetric, + // and applies always on V4 perceptual and saturation. + + if (TheIntents[i] == INTENT_ABSOLUTE_COLORIMETRIC) + BPC[i] = FALSE; + + if (TheIntents[i] == INTENT_PERCEPTUAL || TheIntents[i] == INTENT_SATURATION) { + + // Force BPC for V4 profiles in perceptual and saturation + if (cmsGetEncodedICCversion(hProfiles[i]) >= 0x4000000) + BPC[i] = TRUE; + } + } + + // Search for a handler. The first intent in the chain defines the handler. That would + // prevent using multiple custom intents in a multiintent chain, but the behaviour of + // this case would present some issues if the custom intent tries to do things like + // preserve primaries. This solution is not perfect, but works well on most cases. + + Intent = SearchIntent(ContextID, TheIntents[0]); + if (Intent == NULL) { + cmsSignalError(ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported intent '%d'", TheIntents[0]); + return NULL; + } + + // Call the handler + return Intent ->Link(ContextID, nProfiles, TheIntents, hProfiles, BPC, AdaptationStates, dwFlags); +} + +// ------------------------------------------------------------------------------------------------- + +// Get information about available intents. nMax is the maximum space for the supplied "Codes" +// and "Descriptions" the function returns the total number of intents, which may be greater +// than nMax, although the matrices are not populated beyond this level. +cmsUInt32Number CMSEXPORT cmsGetSupportedIntentsTHR(cmsContext ContextID, cmsUInt32Number nMax, cmsUInt32Number* Codes, char** Descriptions) +{ + _cmsIntentsPluginChunkType* ctx = ( _cmsIntentsPluginChunkType*) _cmsContextGetClientChunk(ContextID, IntentPlugin); + cmsIntentsList* pt; + cmsUInt32Number nIntents; + + + for (nIntents=0, pt = ctx->Intents; pt != NULL; pt = pt -> Next) + { + if (nIntents < nMax) { + if (Codes != NULL) + Codes[nIntents] = pt ->Intent; + + if (Descriptions != NULL) + Descriptions[nIntents] = pt ->Description; + } + + nIntents++; + } + + for (nIntents=0, pt = DefaultIntents; pt != NULL; pt = pt -> Next) + { + if (nIntents < nMax) { + if (Codes != NULL) + Codes[nIntents] = pt ->Intent; + + if (Descriptions != NULL) + Descriptions[nIntents] = pt ->Description; + } + + nIntents++; + } + return nIntents; +} + +cmsUInt32Number CMSEXPORT cmsGetSupportedIntents(cmsUInt32Number nMax, cmsUInt32Number* Codes, char** Descriptions) +{ + return cmsGetSupportedIntentsTHR(NULL, nMax, Codes, Descriptions); +} + +// The plug-in registration. User can add new intents or override default routines +cmsBool _cmsRegisterRenderingIntentPlugin(cmsContext id, cmsPluginBase* Data) +{ + _cmsIntentsPluginChunkType* ctx = ( _cmsIntentsPluginChunkType*) _cmsContextGetClientChunk(id, IntentPlugin); + cmsPluginRenderingIntent* Plugin = (cmsPluginRenderingIntent*) Data; + cmsIntentsList* fl; + + // Do we have to reset the custom intents? + if (Data == NULL) { + + ctx->Intents = NULL; + return TRUE; + } + + fl = (cmsIntentsList*) _cmsPluginMalloc(id, sizeof(cmsIntentsList)); + if (fl == NULL) return FALSE; + + + fl ->Intent = Plugin ->Intent; + strncpy(fl ->Description, Plugin ->Description, sizeof(fl ->Description)-1); + fl ->Description[sizeof(fl ->Description)-1] = 0; + + fl ->Link = Plugin ->Link; + + fl ->Next = ctx ->Intents; + ctx ->Intents = fl; + + return TRUE; +} + Index: sdk/lib/3rdparty/lcms2/cmserr.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmserr.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmserr.c (working copy) @@ -0,0 +1,661 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- + +#include "lcms2_internal.h" + + +// This function is here to help applications to prevent mixing lcms versions on header and shared objects. +int CMSEXPORT cmsGetEncodedCMMversion(void) +{ + return LCMS_VERSION; +} + +// I am so tired about incompatibilities on those functions that here are some replacements +// that hopefully would be fully portable. + +// compare two strings ignoring case +int CMSEXPORT cmsstrcasecmp(const char* s1, const char* s2) +{ + register const unsigned char *us1 = (const unsigned char *)s1, + *us2 = (const unsigned char *)s2; + + while (toupper(*us1) == toupper(*us2++)) + if (*us1++ == '\0') + return 0; + + return (toupper(*us1) - toupper(*--us2)); +} + +// long int because C99 specifies ftell in such way (7.19.9.2) +long int CMSEXPORT cmsfilelength(FILE* f) +{ + long int p , n; + + p = ftell(f); // register current file position + + if (fseek(f, 0, SEEK_END) != 0) { + return -1; + } + + n = ftell(f); + fseek(f, p, SEEK_SET); // file position restored + + return n; +} + + +// Memory handling ------------------------------------------------------------------ +// +// This is the interface to low-level memory management routines. By default a simple +// wrapping to malloc/free/realloc is provided, although there is a limit on the max +// amount of memoy that can be reclaimed. This is mostly as a safety feature to prevent +// bogus or evil code to allocate huge blocks that otherwise lcms would never need. + +#define MAX_MEMORY_FOR_ALLOC ((cmsUInt32Number)(1024U*1024U*512U)) + +// User may override this behaviour by using a memory plug-in, which basically replaces +// the default memory management functions. In this case, no check is performed and it +// is up to the plug-in writter to keep in the safe side. There are only three functions +// required to be implemented: malloc, realloc and free, although the user may want to +// replace the optional mallocZero, calloc and dup as well. + +cmsBool _cmsRegisterMemHandlerPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// ********************************************************************************* + +// This is the default memory allocation function. It does a very coarse +// check of amout of memory, just to prevent exploits +static +void* _cmsMallocDefaultFn(cmsContext ContextID, cmsUInt32Number size) +{ + if (size > MAX_MEMORY_FOR_ALLOC) return NULL; // Never allow over maximum + + return (void*) malloc(size); + + cmsUNUSED_PARAMETER(ContextID); +} + +// Generic allocate & zero +static +void* _cmsMallocZeroDefaultFn(cmsContext ContextID, cmsUInt32Number size) +{ + void *pt = _cmsMalloc(ContextID, size); + if (pt == NULL) return NULL; + + memset(pt, 0, size); + return pt; +} + + +// The default free function. The only check proformed is against NULL pointers +static +void _cmsFreeDefaultFn(cmsContext ContextID, void *Ptr) +{ + // free(NULL) is defined a no-op by C99, therefore it is safe to + // avoid the check, but it is here just in case... + + if (Ptr) free(Ptr); + + cmsUNUSED_PARAMETER(ContextID); +} + +// The default realloc function. Again it checks for exploits. If Ptr is NULL, +// realloc behaves the same way as malloc and allocates a new block of size bytes. +static +void* _cmsReallocDefaultFn(cmsContext ContextID, void* Ptr, cmsUInt32Number size) +{ + + if (size > MAX_MEMORY_FOR_ALLOC) return NULL; // Never realloc over 512Mb + + return realloc(Ptr, size); + + cmsUNUSED_PARAMETER(ContextID); +} + + +// The default calloc function. Allocates an array of num elements, each one of size bytes +// all memory is initialized to zero. +static +void* _cmsCallocDefaultFn(cmsContext ContextID, cmsUInt32Number num, cmsUInt32Number size) +{ + cmsUInt32Number Total = num * size; + + // Preserve calloc behaviour + if (Total == 0) return NULL; + + // Safe check for overflow. + if (num >= UINT_MAX / size) return NULL; + + // Check for overflow + if (Total < num || Total < size) { + return NULL; + } + + if (Total > MAX_MEMORY_FOR_ALLOC) return NULL; // Never alloc over 512Mb + + return _cmsMallocZero(ContextID, Total); +} + +// Generic block duplication +static +void* _cmsDupDefaultFn(cmsContext ContextID, const void* Org, cmsUInt32Number size) +{ + void* mem; + + if (size > MAX_MEMORY_FOR_ALLOC) return NULL; // Never dup over 512Mb + + mem = _cmsMalloc(ContextID, size); + + if (mem != NULL && Org != NULL) + memmove(mem, Org, size); + + return mem; +} + + +// Pointers to memory manager functions in Context0 +_cmsMemPluginChunkType _cmsMemPluginChunk = { _cmsMallocDefaultFn, _cmsMallocZeroDefaultFn, _cmsFreeDefaultFn, + _cmsReallocDefaultFn, _cmsCallocDefaultFn, _cmsDupDefaultFn + }; + + +// Reset and duplicate memory manager +void _cmsAllocMemPluginChunk(struct _cmsContext_struct* ctx, const struct _cmsContext_struct* src) +{ + _cmsAssert(ctx != NULL); + + if (src != NULL) { + + // Duplicate + ctx ->chunks[MemPlugin] = _cmsSubAllocDup(ctx ->MemPool, src ->chunks[MemPlugin], sizeof(_cmsMemPluginChunkType)); + } + else { + + // To reset it, we use the default allocators, which cannot be overriden + ctx ->chunks[MemPlugin] = &ctx ->DefaultMemoryManager; + } +} + +// Auxiliary to fill memory management functions from plugin (or context 0 defaults) +void _cmsInstallAllocFunctions(cmsPluginMemHandler* Plugin, _cmsMemPluginChunkType* ptr) +{ + if (Plugin == NULL) { + + memcpy(ptr, &_cmsMemPluginChunk, sizeof(_cmsMemPluginChunk)); + } + else { + + ptr ->MallocPtr = Plugin -> MallocPtr; + ptr ->FreePtr = Plugin -> FreePtr; + ptr ->ReallocPtr = Plugin -> ReallocPtr; + + // Make sure we revert to defaults + ptr ->MallocZeroPtr= _cmsMallocZeroDefaultFn; + ptr ->CallocPtr = _cmsCallocDefaultFn; + ptr ->DupPtr = _cmsDupDefaultFn; + + if (Plugin ->MallocZeroPtr != NULL) ptr ->MallocZeroPtr = Plugin -> MallocZeroPtr; + if (Plugin ->CallocPtr != NULL) ptr ->CallocPtr = Plugin -> CallocPtr; + if (Plugin ->DupPtr != NULL) ptr ->DupPtr = Plugin -> DupPtr; + + } +} + + +// Plug-in replacement entry +cmsBool _cmsRegisterMemHandlerPlugin(cmsContext ContextID, cmsPluginBase *Data) +{ + cmsPluginMemHandler* Plugin = (cmsPluginMemHandler*) Data; + _cmsMemPluginChunkType* ptr; + + // NULL forces to reset to defaults. In this special case, the defaults are stored in the context structure. + // Remaining plug-ins does NOT have any copy in the context structure, but this is somehow special as the + // context internal data should be malloce'd by using those functions. + if (Data == NULL) { + + struct _cmsContext_struct* ctx = ( struct _cmsContext_struct*) ContextID; + + // Return to the default allocators + if (ContextID != NULL) { + ctx->chunks[MemPlugin] = (void*) &ctx->DefaultMemoryManager; + } + return TRUE; + } + + // Check for required callbacks + if (Plugin -> MallocPtr == NULL || + Plugin -> FreePtr == NULL || + Plugin -> ReallocPtr == NULL) return FALSE; + + // Set replacement functions + ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + if (ptr == NULL) + return FALSE; + + _cmsInstallAllocFunctions(Plugin, ptr); + return TRUE; +} + +// Generic allocate +void* CMSEXPORT _cmsMalloc(cmsContext ContextID, cmsUInt32Number size) +{ + _cmsMemPluginChunkType* ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + return ptr ->MallocPtr(ContextID, size); +} + +// Generic allocate & zero +void* CMSEXPORT _cmsMallocZero(cmsContext ContextID, cmsUInt32Number size) +{ + _cmsMemPluginChunkType* ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + return ptr->MallocZeroPtr(ContextID, size); +} + +// Generic calloc +void* CMSEXPORT _cmsCalloc(cmsContext ContextID, cmsUInt32Number num, cmsUInt32Number size) +{ + _cmsMemPluginChunkType* ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + return ptr->CallocPtr(ContextID, num, size); +} + +// Generic reallocate +void* CMSEXPORT _cmsRealloc(cmsContext ContextID, void* Ptr, cmsUInt32Number size) +{ + _cmsMemPluginChunkType* ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + return ptr->ReallocPtr(ContextID, Ptr, size); +} + +// Generic free memory +void CMSEXPORT _cmsFree(cmsContext ContextID, void* Ptr) +{ + if (Ptr != NULL) { + _cmsMemPluginChunkType* ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + ptr ->FreePtr(ContextID, Ptr); + } +} + +// Generic block duplication +void* CMSEXPORT _cmsDupMem(cmsContext ContextID, const void* Org, cmsUInt32Number size) +{ + _cmsMemPluginChunkType* ptr = (_cmsMemPluginChunkType*) _cmsContextGetClientChunk(ContextID, MemPlugin); + return ptr ->DupPtr(ContextID, Org, size); +} + +// ******************************************************************************************** + +// Sub allocation takes care of many pointers of small size. The memory allocated in +// this way have be freed at once. Next function allocates a single chunk for linked list +// I prefer this method over realloc due to the big inpact on xput realloc may have if +// memory is being swapped to disk. This approach is safer (although that may not be true on all platforms) +static +_cmsSubAllocator_chunk* _cmsCreateSubAllocChunk(cmsContext ContextID, cmsUInt32Number Initial) +{ + _cmsSubAllocator_chunk* chunk; + + // 20K by default + if (Initial == 0) + Initial = 20*1024; + + // Create the container + chunk = (_cmsSubAllocator_chunk*) _cmsMallocZero(ContextID, sizeof(_cmsSubAllocator_chunk)); + if (chunk == NULL) return NULL; + + // Initialize values + chunk ->Block = (cmsUInt8Number*) _cmsMalloc(ContextID, Initial); + if (chunk ->Block == NULL) { + + // Something went wrong + _cmsFree(ContextID, chunk); + return NULL; + } + + chunk ->BlockSize = Initial; + chunk ->Used = 0; + chunk ->next = NULL; + + return chunk; +} + +// The suballocated is nothing but a pointer to the first element in the list. We also keep +// the thread ID in this structure. +_cmsSubAllocator* _cmsCreateSubAlloc(cmsContext ContextID, cmsUInt32Number Initial) +{ + _cmsSubAllocator* sub; + + // Create the container + sub = (_cmsSubAllocator*) _cmsMallocZero(ContextID, sizeof(_cmsSubAllocator)); + if (sub == NULL) return NULL; + + sub ->ContextID = ContextID; + + sub ->h = _cmsCreateSubAllocChunk(ContextID, Initial); + if (sub ->h == NULL) { + _cmsFree(ContextID, sub); + return NULL; + } + + return sub; +} + + +// Get rid of whole linked list +void _cmsSubAllocDestroy(_cmsSubAllocator* sub) +{ + _cmsSubAllocator_chunk *chunk, *n; + + for (chunk = sub ->h; chunk != NULL; chunk = n) { + + n = chunk->next; + if (chunk->Block != NULL) _cmsFree(sub ->ContextID, chunk->Block); + _cmsFree(sub ->ContextID, chunk); + } + + // Free the header + _cmsFree(sub ->ContextID, sub); +} + + +// Get a pointer to small memory block. +void* _cmsSubAlloc(_cmsSubAllocator* sub, cmsUInt32Number size) +{ + cmsUInt32Number Free = sub -> h ->BlockSize - sub -> h -> Used; + cmsUInt8Number* ptr; + + size = _cmsALIGNMEM(size); + + // Check for memory. If there is no room, allocate a new chunk of double memory size. + if (size > Free) { + + _cmsSubAllocator_chunk* chunk; + cmsUInt32Number newSize; + + newSize = sub -> h ->BlockSize * 2; + if (newSize < size) newSize = size; + + chunk = _cmsCreateSubAllocChunk(sub -> ContextID, newSize); + if (chunk == NULL) return NULL; + + // Link list + chunk ->next = sub ->h; + sub ->h = chunk; + + } + + ptr = sub -> h ->Block + sub -> h ->Used; + sub -> h -> Used += size; + + return (void*) ptr; +} + +// Duplicate in pool +void* _cmsSubAllocDup(_cmsSubAllocator* s, const void *ptr, cmsUInt32Number size) +{ + void *NewPtr; + + // Dup of null pointer is also NULL + if (ptr == NULL) + return NULL; + + NewPtr = _cmsSubAlloc(s, size); + + if (ptr != NULL && NewPtr != NULL) { + memcpy(NewPtr, ptr, size); + } + + return NewPtr; +} + + + +// Error logging ****************************************************************** + +// There is no error handling at all. When a function fails, it returns proper value. +// For example, all create functions does return NULL on failure. Other return FALSE +// It may be interesting, for the developer, to know why the function is failing. +// for that reason, lcms2 does offer a logging function. This function does recive +// a ENGLISH string with some clues on what is going wrong. You can show this +// info to the end user, or just create some sort of log. +// The logging function should NOT terminate the program, as this obviously can leave +// resources. It is the programmer's responsibility to check each function return code +// to make sure it didn't fail. + +// Error messages are limited to MAX_ERROR_MESSAGE_LEN + +#define MAX_ERROR_MESSAGE_LEN 1024 + +// --------------------------------------------------------------------------------------------------------- + +// This is our default log error +static void DefaultLogErrorHandlerFunction(cmsContext ContextID, cmsUInt32Number ErrorCode, const char *Text); + +// Context0 storage, which is global +_cmsLogErrorChunkType _cmsLogErrorChunk = { DefaultLogErrorHandlerFunction }; + +// Allocates and inits error logger container for a given context. If src is NULL, only initializes the value +// to the default. Otherwise, it duplicates the value. The interface is standard across all context clients +void _cmsAllocLogErrorChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + static _cmsLogErrorChunkType LogErrorChunk = { DefaultLogErrorHandlerFunction }; + void* from; + + if (src != NULL) { + from = src ->chunks[Logger]; + } + else { + from = &LogErrorChunk; + } + + ctx ->chunks[Logger] = _cmsSubAllocDup(ctx ->MemPool, from, sizeof(_cmsLogErrorChunkType)); +} + +// The default error logger does nothing. +static +void DefaultLogErrorHandlerFunction(cmsContext ContextID, cmsUInt32Number ErrorCode, const char *Text) +{ + // fprintf(stderr, "[lcms]: %s\n", Text); + // fflush(stderr); + + cmsUNUSED_PARAMETER(ContextID); + cmsUNUSED_PARAMETER(ErrorCode); + cmsUNUSED_PARAMETER(Text); +} + +// Change log error, context based +void CMSEXPORT cmsSetLogErrorHandlerTHR(cmsContext ContextID, cmsLogErrorHandlerFunction Fn) +{ + _cmsLogErrorChunkType* lhg = (_cmsLogErrorChunkType*) _cmsContextGetClientChunk(ContextID, Logger); + + if (lhg != NULL) { + + if (Fn == NULL) + lhg -> LogErrorHandler = DefaultLogErrorHandlerFunction; + else + lhg -> LogErrorHandler = Fn; + } +} + +// Change log error, legacy +void CMSEXPORT cmsSetLogErrorHandler(cmsLogErrorHandlerFunction Fn) +{ + cmsSetLogErrorHandlerTHR(NULL, Fn); +} + +// Log an error +// ErrorText is a text holding an english description of error. +void CMSEXPORT cmsSignalError(cmsContext ContextID, cmsUInt32Number ErrorCode, const char *ErrorText, ...) +{ + va_list args; + char Buffer[MAX_ERROR_MESSAGE_LEN]; + _cmsLogErrorChunkType* lhg; + + + va_start(args, ErrorText); + vsnprintf(Buffer, MAX_ERROR_MESSAGE_LEN-1, ErrorText, args); + va_end(args); + + // Check for the context, if specified go there. If not, go for the global + lhg = (_cmsLogErrorChunkType*) _cmsContextGetClientChunk(ContextID, Logger); + if (lhg ->LogErrorHandler) { + lhg ->LogErrorHandler(ContextID, ErrorCode, Buffer); + } +} + +// Utility function to print signatures +void _cmsTagSignature2String(char String[5], cmsTagSignature sig) +{ + cmsUInt32Number be; + + // Convert to big endian + be = _cmsAdjustEndianess32((cmsUInt32Number) sig); + + // Move chars + memmove(String, &be, 4); + + // Make sure of terminator + String[4] = 0; +} + +//-------------------------------------------------------------------------------------------------- + + +static +void* defMtxCreate(cmsContext id) +{ + _cmsMutex* ptr_mutex = (_cmsMutex*) _cmsMalloc(id, sizeof(_cmsMutex)); + _cmsInitMutexPrimitive(ptr_mutex); + return (void*) ptr_mutex; +} + +static +void defMtxDestroy(cmsContext id, void* mtx) +{ + _cmsDestroyMutexPrimitive((_cmsMutex *) mtx); + _cmsFree(id, mtx); +} + +static +cmsBool defMtxLock(cmsContext id, void* mtx) +{ + cmsUNUSED_PARAMETER(id); + return _cmsLockPrimitive((_cmsMutex *) mtx) == 0; +} + +static +void defMtxUnlock(cmsContext id, void* mtx) +{ + cmsUNUSED_PARAMETER(id); + _cmsUnlockPrimitive((_cmsMutex *) mtx); +} + + + +// Pointers to memory manager functions in Context0 +_cmsMutexPluginChunkType _cmsMutexPluginChunk = { defMtxCreate, defMtxDestroy, defMtxLock, defMtxUnlock }; + +// Allocate and init mutex container. +void _cmsAllocMutexPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + static _cmsMutexPluginChunkType MutexChunk = {defMtxCreate, defMtxDestroy, defMtxLock, defMtxUnlock }; + void* from; + + if (src != NULL) { + from = src ->chunks[MutexPlugin]; + } + else { + from = &MutexChunk; + } + + ctx ->chunks[MutexPlugin] = _cmsSubAllocDup(ctx ->MemPool, from, sizeof(_cmsMutexPluginChunkType)); +} + +// Register new ways to transform +cmsBool _cmsRegisterMutexPlugin(cmsContext ContextID, cmsPluginBase* Data) +{ + cmsPluginMutex* Plugin = (cmsPluginMutex*) Data; + _cmsMutexPluginChunkType* ctx = ( _cmsMutexPluginChunkType*) _cmsContextGetClientChunk(ContextID, MutexPlugin); + + if (Data == NULL) { + + // No lock routines + ctx->CreateMutexPtr = NULL; + ctx->DestroyMutexPtr = NULL; + ctx->LockMutexPtr = NULL; + ctx ->UnlockMutexPtr = NULL; + return TRUE; + } + + // Factory callback is required + if (Plugin ->CreateMutexPtr == NULL || Plugin ->DestroyMutexPtr == NULL || + Plugin ->LockMutexPtr == NULL || Plugin ->UnlockMutexPtr == NULL) return FALSE; + + + ctx->CreateMutexPtr = Plugin->CreateMutexPtr; + ctx->DestroyMutexPtr = Plugin ->DestroyMutexPtr; + ctx ->LockMutexPtr = Plugin ->LockMutexPtr; + ctx ->UnlockMutexPtr = Plugin ->UnlockMutexPtr; + + // All is ok + return TRUE; +} + +// Generic Mutex fns +void* CMSEXPORT _cmsCreateMutex(cmsContext ContextID) +{ + _cmsMutexPluginChunkType* ptr = (_cmsMutexPluginChunkType*) _cmsContextGetClientChunk(ContextID, MutexPlugin); + + if (ptr ->CreateMutexPtr == NULL) return NULL; + + return ptr ->CreateMutexPtr(ContextID); +} + +void CMSEXPORT _cmsDestroyMutex(cmsContext ContextID, void* mtx) +{ + _cmsMutexPluginChunkType* ptr = (_cmsMutexPluginChunkType*) _cmsContextGetClientChunk(ContextID, MutexPlugin); + + if (ptr ->DestroyMutexPtr != NULL) { + + ptr ->DestroyMutexPtr(ContextID, mtx); + } +} + +cmsBool CMSEXPORT _cmsLockMutex(cmsContext ContextID, void* mtx) +{ + _cmsMutexPluginChunkType* ptr = (_cmsMutexPluginChunkType*) _cmsContextGetClientChunk(ContextID, MutexPlugin); + + if (ptr ->LockMutexPtr == NULL) return TRUE; + + return ptr ->LockMutexPtr(ContextID, mtx); +} + +void CMSEXPORT _cmsUnlockMutex(cmsContext ContextID, void* mtx) +{ + _cmsMutexPluginChunkType* ptr = (_cmsMutexPluginChunkType*) _cmsContextGetClientChunk(ContextID, MutexPlugin); + + if (ptr ->UnlockMutexPtr != NULL) { + + ptr ->UnlockMutexPtr(ContextID, mtx); + } +} Index: sdk/lib/3rdparty/lcms2/cmsgamma.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsgamma.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsgamma.c (working copy) @@ -0,0 +1,1275 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2013 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// +#include "lcms2_internal.h" + +// Tone curves are powerful constructs that can contain curves specified in diverse ways. +// The curve is stored in segments, where each segment can be sampled or specified by parameters. +// a 16.bit simplification of the *whole* curve is kept for optimization purposes. For float operation, +// each segment is evaluated separately. Plug-ins may be used to define new parametric schemes, +// each plug-in may define up to MAX_TYPES_IN_LCMS_PLUGIN functions types. For defining a function, +// the plug-in should provide the type id, how many parameters each type has, and a pointer to +// a procedure that evaluates the function. In the case of reverse evaluation, the evaluator will +// be called with the type id as a negative value, and a sampled version of the reversed curve +// will be built. + +// ----------------------------------------------------------------- Implementation +// Maxim number of nodes +#define MAX_NODES_IN_CURVE 4097 +#define MINUS_INF (-1E22F) +#define PLUS_INF (+1E22F) + +// The list of supported parametric curves +typedef struct _cmsParametricCurvesCollection_st { + + int nFunctions; // Number of supported functions in this chunk + int FunctionTypes[MAX_TYPES_IN_LCMS_PLUGIN]; // The identification types + int ParameterCount[MAX_TYPES_IN_LCMS_PLUGIN]; // Number of parameters for each function + cmsParametricCurveEvaluator Evaluator; // The evaluator + + struct _cmsParametricCurvesCollection_st* Next; // Next in list + +} _cmsParametricCurvesCollection; + +// This is the default (built-in) evaluator +static cmsFloat64Number DefaultEvalParametricFn(cmsInt32Number Type, const cmsFloat64Number Params[], cmsFloat64Number R); + +// The built-in list +static _cmsParametricCurvesCollection DefaultCurves = { + 9, // # of curve types + { 1, 2, 3, 4, 5, 6, 7, 8, 108 }, // Parametric curve ID + { 1, 3, 4, 5, 7, 4, 5, 5, 1 }, // Parameters by type + DefaultEvalParametricFn, // Evaluator + NULL // Next in chain +}; + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupPluginCurvesList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsCurvesPluginChunkType newHead = { NULL }; + _cmsParametricCurvesCollection* entry; + _cmsParametricCurvesCollection* Anterior = NULL; + _cmsCurvesPluginChunkType* head = (_cmsCurvesPluginChunkType*) src->chunks[CurvesPlugin]; + + _cmsAssert(head != NULL); + + // Walk the list copying all nodes + for (entry = head->ParametricCurves; + entry != NULL; + entry = entry ->Next) { + + _cmsParametricCurvesCollection *newEntry = ( _cmsParametricCurvesCollection *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(_cmsParametricCurvesCollection)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.ParametricCurves == NULL) + newHead.ParametricCurves = newEntry; + } + + ctx ->chunks[CurvesPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsCurvesPluginChunkType)); +} + +// The allocator have to follow the chain +void _cmsAllocCurvesPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsAssert(ctx != NULL); + + if (src != NULL) { + + // Copy all linked list + DupPluginCurvesList(ctx, src); + } + else { + static _cmsCurvesPluginChunkType CurvesPluginChunk = { NULL }; + ctx ->chunks[CurvesPlugin] = _cmsSubAllocDup(ctx ->MemPool, &CurvesPluginChunk, sizeof(_cmsCurvesPluginChunkType)); + } +} + + +// The linked list head +_cmsCurvesPluginChunkType _cmsCurvesPluginChunk = { NULL }; + +// As a way to install new parametric curves +cmsBool _cmsRegisterParametricCurvesPlugin(cmsContext ContextID, cmsPluginBase* Data) +{ + _cmsCurvesPluginChunkType* ctx = ( _cmsCurvesPluginChunkType*) _cmsContextGetClientChunk(ContextID, CurvesPlugin); + cmsPluginParametricCurves* Plugin = (cmsPluginParametricCurves*) Data; + _cmsParametricCurvesCollection* fl; + + if (Data == NULL) { + + ctx -> ParametricCurves = NULL; + return TRUE; + } + + fl = (_cmsParametricCurvesCollection*) _cmsPluginMalloc(ContextID, sizeof(_cmsParametricCurvesCollection)); + if (fl == NULL) return FALSE; + + // Copy the parameters + fl ->Evaluator = Plugin ->Evaluator; + fl ->nFunctions = Plugin ->nFunctions; + + // Make sure no mem overwrites + if (fl ->nFunctions > MAX_TYPES_IN_LCMS_PLUGIN) + fl ->nFunctions = MAX_TYPES_IN_LCMS_PLUGIN; + + // Copy the data + memmove(fl->FunctionTypes, Plugin ->FunctionTypes, fl->nFunctions * sizeof(cmsUInt32Number)); + memmove(fl->ParameterCount, Plugin ->ParameterCount, fl->nFunctions * sizeof(cmsUInt32Number)); + + // Keep linked list + fl ->Next = ctx->ParametricCurves; + ctx->ParametricCurves = fl; + + // All is ok + return TRUE; +} + + +// Search in type list, return position or -1 if not found +static +int IsInSet(int Type, _cmsParametricCurvesCollection* c) +{ + int i; + + for (i=0; i < c ->nFunctions; i++) + if (abs(Type) == c ->FunctionTypes[i]) return i; + + return -1; +} + + +// Search for the collection which contains a specific type +static +_cmsParametricCurvesCollection *GetParametricCurveByType(cmsContext ContextID, int Type, int* index) +{ + _cmsParametricCurvesCollection* c; + int Position; + _cmsCurvesPluginChunkType* ctx = ( _cmsCurvesPluginChunkType*) _cmsContextGetClientChunk(ContextID, CurvesPlugin); + + for (c = ctx->ParametricCurves; c != NULL; c = c ->Next) { + + Position = IsInSet(Type, c); + + if (Position != -1) { + if (index != NULL) + *index = Position; + return c; + } + } + // If none found, revert for defaults + for (c = &DefaultCurves; c != NULL; c = c ->Next) { + + Position = IsInSet(Type, c); + + if (Position != -1) { + if (index != NULL) + *index = Position; + return c; + } + } + + return NULL; +} + +// Low level allocate, which takes care of memory details. nEntries may be zero, and in this case +// no optimation curve is computed. nSegments may also be zero in the inverse case, where only the +// optimization curve is given. Both features simultaneously is an error +static +cmsToneCurve* AllocateToneCurveStruct(cmsContext ContextID, cmsInt32Number nEntries, + cmsInt32Number nSegments, const cmsCurveSegment* Segments, + const cmsUInt16Number* Values) +{ + cmsToneCurve* p; + int i; + + // We allow huge tables, which are then restricted for smoothing operations + if (nEntries > 65530 || nEntries < 0) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Couldn't create tone curve of more than 65530 entries"); + return NULL; + } + + if (nEntries <= 0 && nSegments <= 0) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Couldn't create tone curve with zero segments and no table"); + return NULL; + } + + // Allocate all required pointers, etc. + p = (cmsToneCurve*) _cmsMallocZero(ContextID, sizeof(cmsToneCurve)); + if (!p) return NULL; + + // In this case, there are no segments + if (nSegments <= 0) { + p ->Segments = NULL; + p ->Evals = NULL; + } + else { + p ->Segments = (cmsCurveSegment*) _cmsCalloc(ContextID, nSegments, sizeof(cmsCurveSegment)); + if (p ->Segments == NULL) goto Error; + + p ->Evals = (cmsParametricCurveEvaluator*) _cmsCalloc(ContextID, nSegments, sizeof(cmsParametricCurveEvaluator)); + if (p ->Evals == NULL) goto Error; + } + + p -> nSegments = nSegments; + + // This 16-bit table contains a limited precision representation of the whole curve and is kept for + // increasing xput on certain operations. + if (nEntries <= 0) { + p ->Table16 = NULL; + } + else { + p ->Table16 = (cmsUInt16Number*) _cmsCalloc(ContextID, nEntries, sizeof(cmsUInt16Number)); + if (p ->Table16 == NULL) goto Error; + } + + p -> nEntries = nEntries; + + // Initialize members if requested + if (Values != NULL && (nEntries > 0)) { + + for (i=0; i < nEntries; i++) + p ->Table16[i] = Values[i]; + } + + // Initialize the segments stuff. The evaluator for each segment is located and a pointer to it + // is placed in advance to maximize performance. + if (Segments != NULL && (nSegments > 0)) { + + _cmsParametricCurvesCollection *c; + + p ->SegInterp = (cmsInterpParams**) _cmsCalloc(ContextID, nSegments, sizeof(cmsInterpParams*)); + if (p ->SegInterp == NULL) goto Error; + + for (i=0; i< nSegments; i++) { + + // Type 0 is a special marker for table-based curves + if (Segments[i].Type == 0) + p ->SegInterp[i] = _cmsComputeInterpParams(ContextID, Segments[i].nGridPoints, 1, 1, NULL, CMS_LERP_FLAGS_FLOAT); + + memmove(&p ->Segments[i], &Segments[i], sizeof(cmsCurveSegment)); + + if (Segments[i].Type == 0 && Segments[i].SampledPoints != NULL) + p ->Segments[i].SampledPoints = (cmsFloat32Number*) _cmsDupMem(ContextID, Segments[i].SampledPoints, sizeof(cmsFloat32Number) * Segments[i].nGridPoints); + else + p ->Segments[i].SampledPoints = NULL; + + + c = GetParametricCurveByType(ContextID, Segments[i].Type, NULL); + if (c != NULL) + p ->Evals[i] = c ->Evaluator; + } + } + + p ->InterpParams = _cmsComputeInterpParams(ContextID, p ->nEntries, 1, 1, p->Table16, CMS_LERP_FLAGS_16BITS); + if (p->InterpParams != NULL) + return p; + +Error: + if (p -> Segments) _cmsFree(ContextID, p ->Segments); + if (p -> Evals) _cmsFree(ContextID, p -> Evals); + if (p ->Table16) _cmsFree(ContextID, p ->Table16); + _cmsFree(ContextID, p); + return NULL; +} + + +// Parametric Fn using floating point +static +cmsFloat64Number DefaultEvalParametricFn(cmsInt32Number Type, const cmsFloat64Number Params[], cmsFloat64Number R) +{ + cmsFloat64Number e, Val, disc; + + switch (Type) { + + // X = Y ^ Gamma + case 1: + if (R < 0) { + + if (fabs(Params[0] - 1.0) < MATRIX_DET_TOLERANCE) + Val = R; + else + Val = 0; + } + else + Val = pow(R, Params[0]); + break; + + // Type 1 Reversed: X = Y ^1/gamma + case -1: + if (R < 0) { + + if (fabs(Params[0] - 1.0) < MATRIX_DET_TOLERANCE) + Val = R; + else + Val = 0; + } + else + Val = pow(R, 1/Params[0]); + break; + + // CIE 122-1966 + // Y = (aX + b)^Gamma | X >= -b/a + // Y = 0 | else + case 2: + disc = -Params[2] / Params[1]; + + if (R >= disc ) { + + e = Params[1]*R + Params[2]; + + if (e > 0) + Val = pow(e, Params[0]); + else + Val = 0; + } + else + Val = 0; + break; + + // Type 2 Reversed + // X = (Y ^1/g - b) / a + case -2: + if (R < 0) + Val = 0; + else + Val = (pow(R, 1.0/Params[0]) - Params[2]) / Params[1]; + + if (Val < 0) + Val = 0; + break; + + + // IEC 61966-3 + // Y = (aX + b)^Gamma | X <= -b/a + // Y = c | else + case 3: + disc = -Params[2] / Params[1]; + if (disc < 0) + disc = 0; + + if (R >= disc) { + + e = Params[1]*R + Params[2]; + + if (e > 0) + Val = pow(e, Params[0]) + Params[3]; + else + Val = 0; + } + else + Val = Params[3]; + break; + + + // Type 3 reversed + // X=((Y-c)^1/g - b)/a | (Y>=c) + // X=-b/a | (Y= Params[3]) { + + e = R - Params[3]; + + if (e > 0) + Val = (pow(e, 1/Params[0]) - Params[2]) / Params[1]; + else + Val = 0; + } + else { + Val = -Params[2] / Params[1]; + } + break; + + + // IEC 61966-2.1 (sRGB) + // Y = (aX + b)^Gamma | X >= d + // Y = cX | X < d + case 4: + if (R >= Params[4]) { + + e = Params[1]*R + Params[2]; + + if (e > 0) + Val = pow(e, Params[0]); + else + Val = 0; + } + else + Val = R * Params[3]; + break; + + // Type 4 reversed + // X=((Y^1/g-b)/a) | Y >= (ad+b)^g + // X=Y/c | Y< (ad+b)^g + case -4: + e = Params[1] * Params[4] + Params[2]; + if (e < 0) + disc = 0; + else + disc = pow(e, Params[0]); + + if (R >= disc) { + + Val = (pow(R, 1.0/Params[0]) - Params[2]) / Params[1]; + } + else { + Val = R / Params[3]; + } + break; + + + // Y = (aX + b)^Gamma + e | X >= d + // Y = cX + f | X < d + case 5: + if (R >= Params[4]) { + + e = Params[1]*R + Params[2]; + + if (e > 0) + Val = pow(e, Params[0]) + Params[5]; + else + Val = Params[5]; + } + else + Val = R*Params[3] + Params[6]; + break; + + + // Reversed type 5 + // X=((Y-e)1/g-b)/a | Y >=(ad+b)^g+e), cd+f + // X=(Y-f)/c | else + case -5: + + disc = Params[3] * Params[4] + Params[6]; + if (R >= disc) { + + e = R - Params[5]; + if (e < 0) + Val = 0; + else + Val = (pow(e, 1.0/Params[0]) - Params[2]) / Params[1]; + } + else { + Val = (R - Params[6]) / Params[3]; + } + break; + + + // Types 6,7,8 comes from segmented curves as described in ICCSpecRevision_02_11_06_Float.pdf + // Type 6 is basically identical to type 5 without d + + // Y = (a * X + b) ^ Gamma + c + case 6: + e = Params[1]*R + Params[2]; + + if (e < 0) + Val = Params[3]; + else + Val = pow(e, Params[0]) + Params[3]; + break; + + // ((Y - c) ^1/Gamma - b) / a + case -6: + e = R - Params[3]; + if (e < 0) + Val = 0; + else + Val = (pow(e, 1.0/Params[0]) - Params[2]) / Params[1]; + break; + + + // Y = a * log (b * X^Gamma + c) + d + case 7: + + e = Params[2] * pow(R, Params[0]) + Params[3]; + if (e <= 0) + Val = Params[4]; + else + Val = Params[1]*log10(e) + Params[4]; + break; + + // (Y - d) / a = log(b * X ^Gamma + c) + // pow(10, (Y-d) / a) = b * X ^Gamma + c + // pow((pow(10, (Y-d) / a) - c) / b, 1/g) = X + case -7: + Val = pow((pow(10.0, (R-Params[4]) / Params[1]) - Params[3]) / Params[2], 1.0 / Params[0]); + break; + + + //Y = a * b^(c*X+d) + e + case 8: + Val = (Params[0] * pow(Params[1], Params[2] * R + Params[3]) + Params[4]); + break; + + + // Y = (log((y-e) / a) / log(b) - d ) / c + // a=0, b=1, c=2, d=3, e=4, + case -8: + + disc = R - Params[4]; + if (disc < 0) Val = 0; + else + Val = (log(disc / Params[0]) / log(Params[1]) - Params[3]) / Params[2]; + break; + + // S-Shaped: (1 - (1-x)^1/g)^1/g + case 108: + Val = pow(1.0 - pow(1 - R, 1/Params[0]), 1/Params[0]); + break; + + // y = (1 - (1-x)^1/g)^1/g + // y^g = (1 - (1-x)^1/g) + // 1 - y^g = (1-x)^1/g + // (1 - y^g)^g = 1 - x + // 1 - (1 - y^g)^g + case -108: + Val = 1 - pow(1 - pow(R, Params[0]), Params[0]); + break; + + default: + // Unsupported parametric curve. Should never reach here + return 0; + } + + return Val; +} + +// Evaluate a segmented function for a single value. Return -1 if no valid segment found . +// If fn type is 0, perform an interpolation on the table +static +cmsFloat64Number EvalSegmentedFn(const cmsToneCurve *g, cmsFloat64Number R) +{ + int i; + + for (i = g ->nSegments-1; i >= 0 ; --i) { + + // Check for domain + if ((R > g ->Segments[i].x0) && (R <= g ->Segments[i].x1)) { + + // Type == 0 means segment is sampled + if (g ->Segments[i].Type == 0) { + + cmsFloat32Number R1 = (cmsFloat32Number) (R - g ->Segments[i].x0) / (g ->Segments[i].x1 - g ->Segments[i].x0); + cmsFloat32Number Out; + + // Setup the table (TODO: clean that) + g ->SegInterp[i]-> Table = g ->Segments[i].SampledPoints; + + g ->SegInterp[i] -> Interpolation.LerpFloat(&R1, &Out, g ->SegInterp[i]); + + return Out; + } + else + return g ->Evals[i](g->Segments[i].Type, g ->Segments[i].Params, R); + } + } + + return MINUS_INF; +} + +// Access to estimated low-res table +cmsUInt32Number CMSEXPORT cmsGetToneCurveEstimatedTableEntries(const cmsToneCurve* t) +{ + _cmsAssert(t != NULL); + return t ->nEntries; +} + +const cmsUInt16Number* CMSEXPORT cmsGetToneCurveEstimatedTable(const cmsToneCurve* t) +{ + _cmsAssert(t != NULL); + return t ->Table16; +} + + +// Create an empty gamma curve, by using tables. This specifies only the limited-precision part, and leaves the +// floating point description empty. +cmsToneCurve* CMSEXPORT cmsBuildTabulatedToneCurve16(cmsContext ContextID, cmsInt32Number nEntries, const cmsUInt16Number Values[]) +{ + return AllocateToneCurveStruct(ContextID, nEntries, 0, NULL, Values); +} + +static +int EntriesByGamma(cmsFloat64Number Gamma) +{ + if (fabs(Gamma - 1.0) < 0.001) return 2; + return 4096; +} + + +// Create a segmented gamma, fill the table +cmsToneCurve* CMSEXPORT cmsBuildSegmentedToneCurve(cmsContext ContextID, + cmsInt32Number nSegments, const cmsCurveSegment Segments[]) +{ + int i; + cmsFloat64Number R, Val; + cmsToneCurve* g; + int nGridPoints = 4096; + + _cmsAssert(Segments != NULL); + + // Optimizatin for identity curves. + if (nSegments == 1 && Segments[0].Type == 1) { + + nGridPoints = EntriesByGamma(Segments[0].Params[0]); + } + + g = AllocateToneCurveStruct(ContextID, nGridPoints, nSegments, Segments, NULL); + if (g == NULL) return NULL; + + // Once we have the floating point version, we can approximate a 16 bit table of 4096 entries + // for performance reasons. This table would normally not be used except on 8/16 bits transforms. + for (i=0; i < nGridPoints; i++) { + + R = (cmsFloat64Number) i / (nGridPoints-1); + + Val = EvalSegmentedFn(g, R); + + // Round and saturate + g ->Table16[i] = _cmsQuickSaturateWord(Val * 65535.0); + } + + return g; +} + +// Use a segmented curve to store the floating point table +cmsToneCurve* CMSEXPORT cmsBuildTabulatedToneCurveFloat(cmsContext ContextID, cmsUInt32Number nEntries, const cmsFloat32Number values[]) +{ + cmsCurveSegment Seg[3]; + + // A segmented tone curve should have function segments in the first and last positions + // Initialize segmented curve part up to 0 to constant value = samples[0] + Seg[0].x0 = MINUS_INF; + Seg[0].x1 = 0; + Seg[0].Type = 6; + + Seg[0].Params[0] = 1; + Seg[0].Params[1] = 0; + Seg[0].Params[2] = 0; + Seg[0].Params[3] = values[0]; + Seg[0].Params[4] = 0; + + // From zero to 1 + Seg[1].x0 = 0; + Seg[1].x1 = 1.0; + Seg[1].Type = 0; + + Seg[1].nGridPoints = nEntries; + Seg[1].SampledPoints = (cmsFloat32Number*) values; + + // Final segment is constant = lastsample + Seg[2].x0 = 1.0; + Seg[2].x1 = PLUS_INF; + Seg[2].Type = 6; + + Seg[2].Params[0] = 1; + Seg[2].Params[1] = 0; + Seg[2].Params[2] = 0; + Seg[2].Params[3] = values[nEntries-1]; + Seg[2].Params[4] = 0; + + + return cmsBuildSegmentedToneCurve(ContextID, 3, Seg); +} + +// Parametric curves +// +// Parameters goes as: Curve, a, b, c, d, e, f +// Type is the ICC type +1 +// if type is negative, then the curve is analyticaly inverted +cmsToneCurve* CMSEXPORT cmsBuildParametricToneCurve(cmsContext ContextID, cmsInt32Number Type, const cmsFloat64Number Params[]) +{ + cmsCurveSegment Seg0; + int Pos = 0; + cmsUInt32Number size; + _cmsParametricCurvesCollection* c = GetParametricCurveByType(ContextID, Type, &Pos); + + _cmsAssert(Params != NULL); + + if (c == NULL) { + cmsSignalError(ContextID, cmsERROR_UNKNOWN_EXTENSION, "Invalid parametric curve type %d", Type); + return NULL; + } + + memset(&Seg0, 0, sizeof(Seg0)); + + Seg0.x0 = MINUS_INF; + Seg0.x1 = PLUS_INF; + Seg0.Type = Type; + + size = c->ParameterCount[Pos] * sizeof(cmsFloat64Number); + memmove(Seg0.Params, Params, size); + + return cmsBuildSegmentedToneCurve(ContextID, 1, &Seg0); +} + + + +// Build a gamma table based on gamma constant +cmsToneCurve* CMSEXPORT cmsBuildGamma(cmsContext ContextID, cmsFloat64Number Gamma) +{ + return cmsBuildParametricToneCurve(ContextID, 1, &Gamma); +} + + +// Free all memory taken by the gamma curve +void CMSEXPORT cmsFreeToneCurve(cmsToneCurve* Curve) +{ + cmsContext ContextID; + + if (Curve == NULL) return; + + ContextID = Curve ->InterpParams->ContextID; + + _cmsFreeInterpParams(Curve ->InterpParams); + + if (Curve -> Table16) + _cmsFree(ContextID, Curve ->Table16); + + if (Curve ->Segments) { + + cmsUInt32Number i; + + for (i=0; i < Curve ->nSegments; i++) { + + if (Curve ->Segments[i].SampledPoints) { + _cmsFree(ContextID, Curve ->Segments[i].SampledPoints); + } + + if (Curve ->SegInterp[i] != 0) + _cmsFreeInterpParams(Curve->SegInterp[i]); + } + + _cmsFree(ContextID, Curve ->Segments); + _cmsFree(ContextID, Curve ->SegInterp); + } + + if (Curve -> Evals) + _cmsFree(ContextID, Curve -> Evals); + + if (Curve) _cmsFree(ContextID, Curve); +} + +// Utility function, free 3 gamma tables +void CMSEXPORT cmsFreeToneCurveTriple(cmsToneCurve* Curve[3]) +{ + + _cmsAssert(Curve != NULL); + + if (Curve[0] != NULL) cmsFreeToneCurve(Curve[0]); + if (Curve[1] != NULL) cmsFreeToneCurve(Curve[1]); + if (Curve[2] != NULL) cmsFreeToneCurve(Curve[2]); + + Curve[0] = Curve[1] = Curve[2] = NULL; +} + + +// Duplicate a gamma table +cmsToneCurve* CMSEXPORT cmsDupToneCurve(const cmsToneCurve* In) +{ + if (In == NULL) return NULL; + + return AllocateToneCurveStruct(In ->InterpParams ->ContextID, In ->nEntries, In ->nSegments, In ->Segments, In ->Table16); +} + +// Joins two curves for X and Y. Curves should be monotonic. +// We want to get +// +// y = Y^-1(X(t)) +// +cmsToneCurve* CMSEXPORT cmsJoinToneCurve(cmsContext ContextID, + const cmsToneCurve* X, + const cmsToneCurve* Y, cmsUInt32Number nResultingPoints) +{ + cmsToneCurve* out = NULL; + cmsToneCurve* Yreversed = NULL; + cmsFloat32Number t, x; + cmsFloat32Number* Res = NULL; + cmsUInt32Number i; + + + _cmsAssert(X != NULL); + _cmsAssert(Y != NULL); + + Yreversed = cmsReverseToneCurveEx(nResultingPoints, Y); + if (Yreversed == NULL) goto Error; + + Res = (cmsFloat32Number*) _cmsCalloc(ContextID, nResultingPoints, sizeof(cmsFloat32Number)); + if (Res == NULL) goto Error; + + //Iterate + for (i=0; i < nResultingPoints; i++) { + + t = (cmsFloat32Number) i / (nResultingPoints-1); + x = cmsEvalToneCurveFloat(X, t); + Res[i] = cmsEvalToneCurveFloat(Yreversed, x); + } + + // Allocate space for output + out = cmsBuildTabulatedToneCurveFloat(ContextID, nResultingPoints, Res); + +Error: + + if (Res != NULL) _cmsFree(ContextID, Res); + if (Yreversed != NULL) cmsFreeToneCurve(Yreversed); + + return out; +} + + + +// Get the surrounding nodes. This is tricky on non-monotonic tables +static +int GetInterval(cmsFloat64Number In, const cmsUInt16Number LutTable[], const struct _cms_interp_struc* p) +{ + int i; + int y0, y1; + + // A 1 point table is not allowed + if (p -> Domain[0] < 1) return -1; + + // Let's see if ascending or descending. + if (LutTable[0] < LutTable[p ->Domain[0]]) { + + // Table is overall ascending + for (i=p->Domain[0]-1; i >=0; --i) { + + y0 = LutTable[i]; + y1 = LutTable[i+1]; + + if (y0 <= y1) { // Increasing + if (In >= y0 && In <= y1) return i; + } + else + if (y1 < y0) { // Decreasing + if (In >= y1 && In <= y0) return i; + } + } + } + else { + // Table is overall descending + for (i=0; i < (int) p -> Domain[0]; i++) { + + y0 = LutTable[i]; + y1 = LutTable[i+1]; + + if (y0 <= y1) { // Increasing + if (In >= y0 && In <= y1) return i; + } + else + if (y1 < y0) { // Decreasing + if (In >= y1 && In <= y0) return i; + } + } + } + + return -1; +} + +// Reverse a gamma table +cmsToneCurve* CMSEXPORT cmsReverseToneCurveEx(cmsInt32Number nResultSamples, const cmsToneCurve* InCurve) +{ + cmsToneCurve *out; + cmsFloat64Number a = 0, b = 0, y, x1, y1, x2, y2; + int i, j; + int Ascending; + + _cmsAssert(InCurve != NULL); + + // Try to reverse it analytically whatever possible + + if (InCurve ->nSegments == 1 && InCurve ->Segments[0].Type > 0 && + /* InCurve -> Segments[0].Type <= 5 */ + GetParametricCurveByType(InCurve ->InterpParams->ContextID, InCurve ->Segments[0].Type, NULL) != NULL) { + + return cmsBuildParametricToneCurve(InCurve ->InterpParams->ContextID, + -(InCurve -> Segments[0].Type), + InCurve -> Segments[0].Params); + } + + // Nope, reverse the table. + out = cmsBuildTabulatedToneCurve16(InCurve ->InterpParams->ContextID, nResultSamples, NULL); + if (out == NULL) + return NULL; + + // We want to know if this is an ascending or descending table + Ascending = !cmsIsToneCurveDescending(InCurve); + + // Iterate across Y axis + for (i=0; i < nResultSamples; i++) { + + y = (cmsFloat64Number) i * 65535.0 / (nResultSamples - 1); + + // Find interval in which y is within. + j = GetInterval(y, InCurve->Table16, InCurve->InterpParams); + if (j >= 0) { + + + // Get limits of interval + x1 = InCurve ->Table16[j]; + x2 = InCurve ->Table16[j+1]; + + y1 = (cmsFloat64Number) (j * 65535.0) / (InCurve ->nEntries - 1); + y2 = (cmsFloat64Number) ((j+1) * 65535.0 ) / (InCurve ->nEntries - 1); + + // If collapsed, then use any + if (x1 == x2) { + + out ->Table16[i] = _cmsQuickSaturateWord(Ascending ? y2 : y1); + continue; + + } else { + + // Interpolate + a = (y2 - y1) / (x2 - x1); + b = y2 - a * x2; + } + } + + out ->Table16[i] = _cmsQuickSaturateWord(a* y + b); + } + + + return out; +} + +// Reverse a gamma table +cmsToneCurve* CMSEXPORT cmsReverseToneCurve(const cmsToneCurve* InGamma) +{ + _cmsAssert(InGamma != NULL); + + return cmsReverseToneCurveEx(4096, InGamma); +} + +// From: Eilers, P.H.C. (1994) Smoothing and interpolation with finite +// differences. in: Graphic Gems IV, Heckbert, P.S. (ed.), Academic press. +// +// Smoothing and interpolation with second differences. +// +// Input: weights (w), data (y): vector from 1 to m. +// Input: smoothing parameter (lambda), length (m). +// Output: smoothed vector (z): vector from 1 to m. + +static +cmsBool smooth2(cmsContext ContextID, cmsFloat32Number w[], cmsFloat32Number y[], cmsFloat32Number z[], cmsFloat32Number lambda, int m) +{ + int i, i1, i2; + cmsFloat32Number *c, *d, *e; + cmsBool st; + + + c = (cmsFloat32Number*) _cmsCalloc(ContextID, MAX_NODES_IN_CURVE, sizeof(cmsFloat32Number)); + d = (cmsFloat32Number*) _cmsCalloc(ContextID, MAX_NODES_IN_CURVE, sizeof(cmsFloat32Number)); + e = (cmsFloat32Number*) _cmsCalloc(ContextID, MAX_NODES_IN_CURVE, sizeof(cmsFloat32Number)); + + if (c != NULL && d != NULL && e != NULL) { + + + d[1] = w[1] + lambda; + c[1] = -2 * lambda / d[1]; + e[1] = lambda /d[1]; + z[1] = w[1] * y[1]; + d[2] = w[2] + 5 * lambda - d[1] * c[1] * c[1]; + c[2] = (-4 * lambda - d[1] * c[1] * e[1]) / d[2]; + e[2] = lambda / d[2]; + z[2] = w[2] * y[2] - c[1] * z[1]; + + for (i = 3; i < m - 1; i++) { + i1 = i - 1; i2 = i - 2; + d[i]= w[i] + 6 * lambda - c[i1] * c[i1] * d[i1] - e[i2] * e[i2] * d[i2]; + c[i] = (-4 * lambda -d[i1] * c[i1] * e[i1])/ d[i]; + e[i] = lambda / d[i]; + z[i] = w[i] * y[i] - c[i1] * z[i1] - e[i2] * z[i2]; + } + + i1 = m - 2; i2 = m - 3; + + d[m - 1] = w[m - 1] + 5 * lambda -c[i1] * c[i1] * d[i1] - e[i2] * e[i2] * d[i2]; + c[m - 1] = (-2 * lambda - d[i1] * c[i1] * e[i1]) / d[m - 1]; + z[m - 1] = w[m - 1] * y[m - 1] - c[i1] * z[i1] - e[i2] * z[i2]; + i1 = m - 1; i2 = m - 2; + + d[m] = w[m] + lambda - c[i1] * c[i1] * d[i1] - e[i2] * e[i2] * d[i2]; + z[m] = (w[m] * y[m] - c[i1] * z[i1] - e[i2] * z[i2]) / d[m]; + z[m - 1] = z[m - 1] / d[m - 1] - c[m - 1] * z[m]; + + for (i = m - 2; 1<= i; i--) + z[i] = z[i] / d[i] - c[i] * z[i + 1] - e[i] * z[i + 2]; + + st = TRUE; + } + else st = FALSE; + + if (c != NULL) _cmsFree(ContextID, c); + if (d != NULL) _cmsFree(ContextID, d); + if (e != NULL) _cmsFree(ContextID, e); + + return st; +} + +// Smooths a curve sampled at regular intervals. +cmsBool CMSEXPORT cmsSmoothToneCurve(cmsToneCurve* Tab, cmsFloat64Number lambda) +{ + cmsFloat32Number w[MAX_NODES_IN_CURVE], y[MAX_NODES_IN_CURVE], z[MAX_NODES_IN_CURVE]; + int i, nItems, Zeros, Poles; + + if (Tab == NULL) return FALSE; + + if (cmsIsToneCurveLinear(Tab)) return TRUE; // Nothing to do + + nItems = Tab -> nEntries; + + if (nItems >= MAX_NODES_IN_CURVE) { + cmsSignalError(Tab ->InterpParams->ContextID, cmsERROR_RANGE, "cmsSmoothToneCurve: too many points."); + return FALSE; + } + + memset(w, 0, nItems * sizeof(cmsFloat32Number)); + memset(y, 0, nItems * sizeof(cmsFloat32Number)); + memset(z, 0, nItems * sizeof(cmsFloat32Number)); + + for (i=0; i < nItems; i++) + { + y[i+1] = (cmsFloat32Number) Tab -> Table16[i]; + w[i+1] = 1.0; + } + + if (!smooth2(Tab ->InterpParams->ContextID, w, y, z, (cmsFloat32Number) lambda, nItems)) return FALSE; + + // Do some reality - checking... + Zeros = Poles = 0; + for (i=nItems; i > 1; --i) { + + if (z[i] == 0.) Zeros++; + if (z[i] >= 65535.) Poles++; + if (z[i] < z[i-1]) { + cmsSignalError(Tab ->InterpParams->ContextID, cmsERROR_RANGE, "cmsSmoothToneCurve: Non-Monotonic."); + return FALSE; + } + } + + if (Zeros > (nItems / 3)) { + cmsSignalError(Tab ->InterpParams->ContextID, cmsERROR_RANGE, "cmsSmoothToneCurve: Degenerated, mostly zeros."); + return FALSE; + } + if (Poles > (nItems / 3)) { + cmsSignalError(Tab ->InterpParams->ContextID, cmsERROR_RANGE, "cmsSmoothToneCurve: Degenerated, mostly poles."); + return FALSE; + } + + // Seems ok + for (i=0; i < nItems; i++) { + + // Clamp to cmsUInt16Number + Tab -> Table16[i] = _cmsQuickSaturateWord(z[i+1]); + } + + return TRUE; +} + +// Is a table linear? Do not use parametric since we cannot guarantee some weird parameters resulting +// in a linear table. This way assures it is linear in 12 bits, which should be enought in most cases. +cmsBool CMSEXPORT cmsIsToneCurveLinear(const cmsToneCurve* Curve) +{ + cmsUInt32Number i; + int diff; + + _cmsAssert(Curve != NULL); + + for (i=0; i < Curve ->nEntries; i++) { + + diff = abs((int) Curve->Table16[i] - (int) _cmsQuantizeVal(i, Curve ->nEntries)); + if (diff > 0x0f) + return FALSE; + } + + return TRUE; +} + +// Same, but for monotonicity +cmsBool CMSEXPORT cmsIsToneCurveMonotonic(const cmsToneCurve* t) +{ + int n; + int i, last; + cmsBool lDescending; + + _cmsAssert(t != NULL); + + // Degenerated curves are monotonic? Ok, let's pass them + n = t ->nEntries; + if (n < 2) return TRUE; + + // Curve direction + lDescending = cmsIsToneCurveDescending(t); + + if (lDescending) { + + last = t ->Table16[0]; + + for (i = 1; i < n; i++) { + + if (t ->Table16[i] - last > 2) // We allow some ripple + return FALSE; + else + last = t ->Table16[i]; + + } + } + else { + + last = t ->Table16[n-1]; + + for (i = n-2; i >= 0; --i) { + + if (t ->Table16[i] - last > 2) + return FALSE; + else + last = t ->Table16[i]; + + } + } + + return TRUE; +} + +// Same, but for descending tables +cmsBool CMSEXPORT cmsIsToneCurveDescending(const cmsToneCurve* t) +{ + _cmsAssert(t != NULL); + + return t ->Table16[0] > t ->Table16[t ->nEntries-1]; +} + + +// Another info fn: is out gamma table multisegment? +cmsBool CMSEXPORT cmsIsToneCurveMultisegment(const cmsToneCurve* t) +{ + _cmsAssert(t != NULL); + + return t -> nSegments > 1; +} + +cmsInt32Number CMSEXPORT cmsGetToneCurveParametricType(const cmsToneCurve* t) +{ + _cmsAssert(t != NULL); + + if (t -> nSegments != 1) return 0; + return t ->Segments[0].Type; +} + +// We need accuracy this time +cmsFloat32Number CMSEXPORT cmsEvalToneCurveFloat(const cmsToneCurve* Curve, cmsFloat32Number v) +{ + _cmsAssert(Curve != NULL); + + // Check for 16 bits table. If so, this is a limited-precision tone curve + if (Curve ->nSegments == 0) { + + cmsUInt16Number In, Out; + + In = (cmsUInt16Number) _cmsQuickSaturateWord(v * 65535.0); + Out = cmsEvalToneCurve16(Curve, In); + + return (cmsFloat32Number) (Out / 65535.0); + } + + return (cmsFloat32Number) EvalSegmentedFn(Curve, v); +} + +// We need xput over here +cmsUInt16Number CMSEXPORT cmsEvalToneCurve16(const cmsToneCurve* Curve, cmsUInt16Number v) +{ + cmsUInt16Number out; + + _cmsAssert(Curve != NULL); + + Curve ->InterpParams ->Interpolation.Lerp16(&v, &out, Curve ->InterpParams); + return out; +} + + +// Least squares fitting. +// A mathematical procedure for finding the best-fitting curve to a given set of points by +// minimizing the sum of the squares of the offsets ("the residuals") of the points from the curve. +// The sum of the squares of the offsets is used instead of the offset absolute values because +// this allows the residuals to be treated as a continuous differentiable quantity. +// +// y = f(x) = x ^ g +// +// R = (yi - (xi^g)) +// R2 = (yi - (xi^g))2 +// SUM R2 = SUM (yi - (xi^g))2 +// +// dR2/dg = -2 SUM x^g log(x)(y - x^g) +// solving for dR2/dg = 0 +// +// g = 1/n * SUM(log(y) / log(x)) + +cmsFloat64Number CMSEXPORT cmsEstimateGamma(const cmsToneCurve* t, cmsFloat64Number Precision) +{ + cmsFloat64Number gamma, sum, sum2; + cmsFloat64Number n, x, y, Std; + cmsUInt32Number i; + + _cmsAssert(t != NULL); + + sum = sum2 = n = 0; + + // Excluding endpoints + for (i=1; i < (MAX_NODES_IN_CURVE-1); i++) { + + x = (cmsFloat64Number) i / (MAX_NODES_IN_CURVE-1); + y = (cmsFloat64Number) cmsEvalToneCurveFloat(t, (cmsFloat32Number) x); + + // Avoid 7% on lower part to prevent + // artifacts due to linear ramps + + if (y > 0. && y < 1. && x > 0.07) { + + gamma = log(y) / log(x); + sum += gamma; + sum2 += gamma * gamma; + n++; + } + } + + // Take a look on SD to see if gamma isn't exponential at all + Std = sqrt((n * sum2 - sum * sum) / (n*(n-1))); + + if (Std > Precision) + return -1.0; + + return (sum / n); // The mean +} Index: sdk/lib/3rdparty/lcms2/cmsgmt.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsgmt.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsgmt.c (working copy) @@ -0,0 +1,590 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// Auxiliary: append a Lab identity after the given sequence of profiles +// and return the transform. Lab profile is closed, rest of profiles are kept open. +cmsHTRANSFORM _cmsChain2Lab(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + const cmsUInt32Number Intents[], + const cmsHPROFILE hProfiles[], + const cmsBool BPC[], + const cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + cmsHTRANSFORM xform; + cmsHPROFILE hLab; + cmsHPROFILE ProfileList[256]; + cmsBool BPCList[256]; + cmsFloat64Number AdaptationList[256]; + cmsUInt32Number IntentList[256]; + cmsUInt32Number i; + + // This is a rather big number and there is no need of dynamic memory + // since we are adding a profile, 254 + 1 = 255 and this is the limit + if (nProfiles > 254) return NULL; + + // The output space + hLab = cmsCreateLab4ProfileTHR(ContextID, NULL); + if (hLab == NULL) return NULL; + + // Create a copy of parameters + for (i=0; i < nProfiles; i++) { + + ProfileList[i] = hProfiles[i]; + BPCList[i] = BPC[i]; + AdaptationList[i] = AdaptationStates[i]; + IntentList[i] = Intents[i]; + } + + // Place Lab identity at chain's end. + ProfileList[nProfiles] = hLab; + BPCList[nProfiles] = 0; + AdaptationList[nProfiles] = 1.0; + IntentList[nProfiles] = INTENT_RELATIVE_COLORIMETRIC; + + // Create the transform + xform = cmsCreateExtendedTransform(ContextID, nProfiles + 1, ProfileList, + BPCList, + IntentList, + AdaptationList, + NULL, 0, + InputFormat, + OutputFormat, + dwFlags); + + cmsCloseProfile(hLab); + + return xform; +} + + +// Compute K -> L* relationship. Flags may include black point compensation. In this case, +// the relationship is assumed from the profile with BPC to a black point zero. +static +cmsToneCurve* ComputeKToLstar(cmsContext ContextID, + cmsUInt32Number nPoints, + cmsUInt32Number nProfiles, + const cmsUInt32Number Intents[], + const cmsHPROFILE hProfiles[], + const cmsBool BPC[], + const cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + cmsToneCurve* out = NULL; + cmsUInt32Number i; + cmsHTRANSFORM xform; + cmsCIELab Lab; + cmsFloat32Number cmyk[4]; + cmsFloat32Number* SampledPoints; + + xform = _cmsChain2Lab(ContextID, nProfiles, TYPE_CMYK_FLT, TYPE_Lab_DBL, Intents, hProfiles, BPC, AdaptationStates, dwFlags); + if (xform == NULL) return NULL; + + SampledPoints = (cmsFloat32Number*) _cmsCalloc(ContextID, nPoints, sizeof(cmsFloat32Number)); + if (SampledPoints == NULL) goto Error; + + for (i=0; i < nPoints; i++) { + + cmyk[0] = 0; + cmyk[1] = 0; + cmyk[2] = 0; + cmyk[3] = (cmsFloat32Number) ((i * 100.0) / (nPoints-1)); + + cmsDoTransform(xform, cmyk, &Lab, 1); + SampledPoints[i]= (cmsFloat32Number) (1.0 - Lab.L / 100.0); // Negate K for easier operation + } + + out = cmsBuildTabulatedToneCurveFloat(ContextID, nPoints, SampledPoints); + +Error: + + cmsDeleteTransform(xform); + if (SampledPoints) _cmsFree(ContextID, SampledPoints); + + return out; +} + + +// Compute Black tone curve on a CMYK -> CMYK transform. This is done by +// using the proof direction on both profiles to find K->L* relationship +// then joining both curves. dwFlags may include black point compensation. +cmsToneCurve* _cmsBuildKToneCurve(cmsContext ContextID, + cmsUInt32Number nPoints, + cmsUInt32Number nProfiles, + const cmsUInt32Number Intents[], + const cmsHPROFILE hProfiles[], + const cmsBool BPC[], + const cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags) +{ + cmsToneCurve *in, *out, *KTone; + + // Make sure CMYK -> CMYK + if (cmsGetColorSpace(hProfiles[0]) != cmsSigCmykData || + cmsGetColorSpace(hProfiles[nProfiles-1])!= cmsSigCmykData) return NULL; + + + // Make sure last is an output profile + if (cmsGetDeviceClass(hProfiles[nProfiles - 1]) != cmsSigOutputClass) return NULL; + + // Create individual curves. BPC works also as each K to L* is + // computed as a BPC to zero black point in case of L* + in = ComputeKToLstar(ContextID, nPoints, nProfiles - 1, Intents, hProfiles, BPC, AdaptationStates, dwFlags); + if (in == NULL) return NULL; + + out = ComputeKToLstar(ContextID, nPoints, 1, + Intents + (nProfiles - 1), + &hProfiles [nProfiles - 1], + BPC + (nProfiles - 1), + AdaptationStates + (nProfiles - 1), + dwFlags); + if (out == NULL) { + cmsFreeToneCurve(in); + return NULL; + } + + // Build the relationship. This effectively limits the maximum accuracy to 16 bits, but + // since this is used on black-preserving LUTs, we are not losing accuracy in any case + KTone = cmsJoinToneCurve(ContextID, in, out, nPoints); + + // Get rid of components + cmsFreeToneCurve(in); cmsFreeToneCurve(out); + + // Something went wrong... + if (KTone == NULL) return NULL; + + // Make sure it is monotonic + if (!cmsIsToneCurveMonotonic(KTone)) { + cmsFreeToneCurve(KTone); + return NULL; + } + + return KTone; +} + + +// Gamut LUT Creation ----------------------------------------------------------------------------------------- + +// Used by gamut & softproofing + +typedef struct { + + cmsHTRANSFORM hInput; // From whatever input color space. 16 bits to DBL + cmsHTRANSFORM hForward, hReverse; // Transforms going from Lab to colorant and back + cmsFloat64Number Thereshold; // The thereshold after which is considered out of gamut + + } GAMUTCHAIN; + +// This sampler does compute gamut boundaries by comparing original +// values with a transform going back and forth. Values above ERR_THERESHOLD +// of maximum are considered out of gamut. + +#define ERR_THERESHOLD 5 + + +static +int GamutSampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + GAMUTCHAIN* t = (GAMUTCHAIN* ) Cargo; + cmsCIELab LabIn1, LabOut1; + cmsCIELab LabIn2, LabOut2; + cmsUInt16Number Proof[cmsMAXCHANNELS], Proof2[cmsMAXCHANNELS]; + cmsFloat64Number dE1, dE2, ErrorRatio; + + // Assume in-gamut by default. + ErrorRatio = 1.0; + + // Convert input to Lab + cmsDoTransform(t -> hInput, In, &LabIn1, 1); + + // converts from PCS to colorant. This always + // does return in-gamut values, + cmsDoTransform(t -> hForward, &LabIn1, Proof, 1); + + // Now, do the inverse, from colorant to PCS. + cmsDoTransform(t -> hReverse, Proof, &LabOut1, 1); + + memmove(&LabIn2, &LabOut1, sizeof(cmsCIELab)); + + // Try again, but this time taking Check as input + cmsDoTransform(t -> hForward, &LabOut1, Proof2, 1); + cmsDoTransform(t -> hReverse, Proof2, &LabOut2, 1); + + // Take difference of direct value + dE1 = cmsDeltaE(&LabIn1, &LabOut1); + + // Take difference of converted value + dE2 = cmsDeltaE(&LabIn2, &LabOut2); + + + // if dE1 is small and dE2 is small, value is likely to be in gamut + if (dE1 < t->Thereshold && dE2 < t->Thereshold) + Out[0] = 0; + else { + + // if dE1 is small and dE2 is big, undefined. Assume in gamut + if (dE1 < t->Thereshold && dE2 > t->Thereshold) + Out[0] = 0; + else + // dE1 is big and dE2 is small, clearly out of gamut + if (dE1 > t->Thereshold && dE2 < t->Thereshold) + Out[0] = (cmsUInt16Number) _cmsQuickFloor((dE1 - t->Thereshold) + .5); + else { + + // dE1 is big and dE2 is also big, could be due to perceptual mapping + // so take error ratio + if (dE2 == 0.0) + ErrorRatio = dE1; + else + ErrorRatio = dE1 / dE2; + + if (ErrorRatio > t->Thereshold) + Out[0] = (cmsUInt16Number) _cmsQuickFloor((ErrorRatio - t->Thereshold) + .5); + else + Out[0] = 0; + } + } + + + return TRUE; +} + +// Does compute a gamut LUT going back and forth across pcs -> relativ. colorimetric intent -> pcs +// the dE obtained is then annotated on the LUT. Values truly out of gamut are clipped to dE = 0xFFFE +// and values changed are supposed to be handled by any gamut remapping, so, are out of gamut as well. +// +// **WARNING: This algorithm does assume that gamut remapping algorithms does NOT move in-gamut colors, +// of course, many perceptual and saturation intents does not work in such way, but relativ. ones should. + +cmsPipeline* _cmsCreateGamutCheckPipeline(cmsContext ContextID, + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsUInt32Number Intents[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number nGamutPCSposition, + cmsHPROFILE hGamut) +{ + cmsHPROFILE hLab; + cmsPipeline* Gamut; + cmsStage* CLUT; + cmsUInt32Number dwFormat; + GAMUTCHAIN Chain; + int nChannels, nGridpoints; + cmsColorSpaceSignature ColorSpace; + cmsUInt32Number i; + cmsHPROFILE ProfileList[256]; + cmsBool BPCList[256]; + cmsFloat64Number AdaptationList[256]; + cmsUInt32Number IntentList[256]; + + memset(&Chain, 0, sizeof(GAMUTCHAIN)); + + + if (nGamutPCSposition <= 0 || nGamutPCSposition > 255) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Wrong position of PCS. 1..255 expected, %d found.", nGamutPCSposition); + return NULL; + } + + hLab = cmsCreateLab4ProfileTHR(ContextID, NULL); + if (hLab == NULL) return NULL; + + + // The figure of merit. On matrix-shaper profiles, should be almost zero as + // the conversion is pretty exact. On LUT based profiles, different resolutions + // of input and output CLUT may result in differences. + + if (cmsIsMatrixShaper(hGamut)) { + + Chain.Thereshold = 1.0; + } + else { + Chain.Thereshold = ERR_THERESHOLD; + } + + + // Create a copy of parameters + for (i=0; i < nGamutPCSposition; i++) { + ProfileList[i] = hProfiles[i]; + BPCList[i] = BPC[i]; + AdaptationList[i] = AdaptationStates[i]; + IntentList[i] = Intents[i]; + } + + // Fill Lab identity + ProfileList[nGamutPCSposition] = hLab; + BPCList[nGamutPCSposition] = 0; + AdaptationList[nGamutPCSposition] = 1.0; + IntentList[nGamutPCSposition] = INTENT_RELATIVE_COLORIMETRIC; + + + ColorSpace = cmsGetColorSpace(hGamut); + + nChannels = cmsChannelsOf(ColorSpace); + nGridpoints = _cmsReasonableGridpointsByColorspace(ColorSpace, cmsFLAGS_HIGHRESPRECALC); + dwFormat = (CHANNELS_SH(nChannels)|BYTES_SH(2)); + + // 16 bits to Lab double + Chain.hInput = cmsCreateExtendedTransform(ContextID, + nGamutPCSposition + 1, + ProfileList, + BPCList, + IntentList, + AdaptationList, + NULL, 0, + dwFormat, TYPE_Lab_DBL, + cmsFLAGS_NOCACHE); + + + // Does create the forward step. Lab double to device + dwFormat = (CHANNELS_SH(nChannels)|BYTES_SH(2)); + Chain.hForward = cmsCreateTransformTHR(ContextID, + hLab, TYPE_Lab_DBL, + hGamut, dwFormat, + INTENT_RELATIVE_COLORIMETRIC, + cmsFLAGS_NOCACHE); + + // Does create the backwards step + Chain.hReverse = cmsCreateTransformTHR(ContextID, hGamut, dwFormat, + hLab, TYPE_Lab_DBL, + INTENT_RELATIVE_COLORIMETRIC, + cmsFLAGS_NOCACHE); + + + // All ok? + if (Chain.hInput && Chain.hForward && Chain.hReverse) { + + // Go on, try to compute gamut LUT from PCS. This consist on a single channel containing + // dE when doing a transform back and forth on the colorimetric intent. + + Gamut = cmsPipelineAlloc(ContextID, 3, 1); + if (Gamut != NULL) { + + CLUT = cmsStageAllocCLut16bit(ContextID, nGridpoints, nChannels, 1, NULL); + if (!cmsPipelineInsertStage(Gamut, cmsAT_BEGIN, CLUT)) { + cmsPipelineFree(Gamut); + Gamut = NULL; + } + else { + cmsStageSampleCLut16bit(CLUT, GamutSampler, (void*) &Chain, 0); + } + } + } + else + Gamut = NULL; // Didn't work... + + // Free all needed stuff. + if (Chain.hInput) cmsDeleteTransform(Chain.hInput); + if (Chain.hForward) cmsDeleteTransform(Chain.hForward); + if (Chain.hReverse) cmsDeleteTransform(Chain.hReverse); + if (hLab) cmsCloseProfile(hLab); + + // And return computed hull + return Gamut; +} + +// Total Area Coverage estimation ---------------------------------------------------------------- + +typedef struct { + cmsUInt32Number nOutputChans; + cmsHTRANSFORM hRoundTrip; + cmsFloat32Number MaxTAC; + cmsFloat32Number MaxInput[cmsMAXCHANNELS]; + +} cmsTACestimator; + + +// This callback just accounts the maximum ink dropped in the given node. It does not populate any +// memory, as the destination table is NULL. Its only purpose it to know the global maximum. +static +int EstimateTAC(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void * Cargo) +{ + cmsTACestimator* bp = (cmsTACestimator*) Cargo; + cmsFloat32Number RoundTrip[cmsMAXCHANNELS]; + cmsUInt32Number i; + cmsFloat32Number Sum; + + + // Evaluate the xform + cmsDoTransform(bp->hRoundTrip, In, RoundTrip, 1); + + // All all amounts of ink + for (Sum=0, i=0; i < bp ->nOutputChans; i++) + Sum += RoundTrip[i]; + + // If above maximum, keep track of input values + if (Sum > bp ->MaxTAC) { + + bp ->MaxTAC = Sum; + + for (i=0; i < bp ->nOutputChans; i++) { + bp ->MaxInput[i] = In[i]; + } + } + + return TRUE; + + cmsUNUSED_PARAMETER(Out); +} + + +// Detect Total area coverage of the profile +cmsFloat64Number CMSEXPORT cmsDetectTAC(cmsHPROFILE hProfile) +{ + cmsTACestimator bp; + cmsUInt32Number dwFormatter; + cmsUInt32Number GridPoints[MAX_INPUT_DIMENSIONS]; + cmsHPROFILE hLab; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + // TAC only works on output profiles + if (cmsGetDeviceClass(hProfile) != cmsSigOutputClass) { + return 0; + } + + // Create a fake formatter for result + dwFormatter = cmsFormatterForColorspaceOfProfile(hProfile, 4, TRUE); + + bp.nOutputChans = T_CHANNELS(dwFormatter); + bp.MaxTAC = 0; // Initial TAC is 0 + + // for safety + if (bp.nOutputChans >= cmsMAXCHANNELS) return 0; + + hLab = cmsCreateLab4ProfileTHR(ContextID, NULL); + if (hLab == NULL) return 0; + // Setup a roundtrip on perceptual intent in output profile for TAC estimation + bp.hRoundTrip = cmsCreateTransformTHR(ContextID, hLab, TYPE_Lab_16, + hProfile, dwFormatter, INTENT_PERCEPTUAL, cmsFLAGS_NOOPTIMIZE|cmsFLAGS_NOCACHE); + + cmsCloseProfile(hLab); + if (bp.hRoundTrip == NULL) return 0; + + // For L* we only need black and white. For C* we need many points + GridPoints[0] = 6; + GridPoints[1] = 74; + GridPoints[2] = 74; + + + if (!cmsSliceSpace16(3, GridPoints, EstimateTAC, &bp)) { + bp.MaxTAC = 0; + } + + cmsDeleteTransform(bp.hRoundTrip); + + // Results in % + return bp.MaxTAC; +} + + +// Carefully, clamp on CIELab space. + +cmsBool CMSEXPORT cmsDesaturateLab(cmsCIELab* Lab, + double amax, double amin, + double bmax, double bmin) +{ + + // Whole Luma surface to zero + + if (Lab -> L < 0) { + + Lab-> L = Lab->a = Lab-> b = 0.0; + return FALSE; + } + + // Clamp white, DISCARD HIGHLIGHTS. This is done + // in such way because icc spec doesn't allow the + // use of L>100 as a highlight means. + + if (Lab->L > 100) + Lab -> L = 100; + + // Check out gamut prism, on a, b faces + + if (Lab -> a < amin || Lab->a > amax|| + Lab -> b < bmin || Lab->b > bmax) { + + cmsCIELCh LCh; + double h, slope; + + // Falls outside a, b limits. Transports to LCh space, + // and then do the clipping + + + if (Lab -> a == 0.0) { // Is hue exactly 90? + + // atan will not work, so clamp here + Lab -> b = Lab->b < 0 ? bmin : bmax; + return TRUE; + } + + cmsLab2LCh(&LCh, Lab); + + slope = Lab -> b / Lab -> a; + h = LCh.h; + + // There are 4 zones + + if ((h >= 0. && h < 45.) || + (h >= 315 && h <= 360.)) { + + // clip by amax + Lab -> a = amax; + Lab -> b = amax * slope; + } + else + if (h >= 45. && h < 135.) + { + // clip by bmax + Lab -> b = bmax; + Lab -> a = bmax / slope; + } + else + if (h >= 135. && h < 225.) { + // clip by amin + Lab -> a = amin; + Lab -> b = amin * slope; + + } + else + if (h >= 225. && h < 315.) { + // clip by bmin + Lab -> b = bmin; + Lab -> a = bmin / slope; + } + else { + cmsSignalError(0, cmsERROR_RANGE, "Invalid angle"); + return FALSE; + } + + } + + return TRUE; +} Index: sdk/lib/3rdparty/lcms2/cmshalf.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmshalf.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmshalf.c (working copy) @@ -0,0 +1,535 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// +// +#include "lcms2_internal.h" + +#ifndef CMS_NO_HALF_SUPPORT + +// This code is inspired in the paper "Fast Half Float Conversions" +// by Jeroen van der Zijp + +static cmsUInt32Number Mantissa[2048] = { + +0x00000000, 0x33800000, 0x34000000, 0x34400000, 0x34800000, 0x34a00000, +0x34c00000, 0x34e00000, 0x35000000, 0x35100000, 0x35200000, 0x35300000, +0x35400000, 0x35500000, 0x35600000, 0x35700000, 0x35800000, 0x35880000, +0x35900000, 0x35980000, 0x35a00000, 0x35a80000, 0x35b00000, 0x35b80000, +0x35c00000, 0x35c80000, 0x35d00000, 0x35d80000, 0x35e00000, 0x35e80000, +0x35f00000, 0x35f80000, 0x36000000, 0x36040000, 0x36080000, 0x360c0000, +0x36100000, 0x36140000, 0x36180000, 0x361c0000, 0x36200000, 0x36240000, +0x36280000, 0x362c0000, 0x36300000, 0x36340000, 0x36380000, 0x363c0000, +0x36400000, 0x36440000, 0x36480000, 0x364c0000, 0x36500000, 0x36540000, +0x36580000, 0x365c0000, 0x36600000, 0x36640000, 0x36680000, 0x366c0000, +0x36700000, 0x36740000, 0x36780000, 0x367c0000, 0x36800000, 0x36820000, +0x36840000, 0x36860000, 0x36880000, 0x368a0000, 0x368c0000, 0x368e0000, +0x36900000, 0x36920000, 0x36940000, 0x36960000, 0x36980000, 0x369a0000, +0x369c0000, 0x369e0000, 0x36a00000, 0x36a20000, 0x36a40000, 0x36a60000, +0x36a80000, 0x36aa0000, 0x36ac0000, 0x36ae0000, 0x36b00000, 0x36b20000, +0x36b40000, 0x36b60000, 0x36b80000, 0x36ba0000, 0x36bc0000, 0x36be0000, +0x36c00000, 0x36c20000, 0x36c40000, 0x36c60000, 0x36c80000, 0x36ca0000, +0x36cc0000, 0x36ce0000, 0x36d00000, 0x36d20000, 0x36d40000, 0x36d60000, +0x36d80000, 0x36da0000, 0x36dc0000, 0x36de0000, 0x36e00000, 0x36e20000, +0x36e40000, 0x36e60000, 0x36e80000, 0x36ea0000, 0x36ec0000, 0x36ee0000, +0x36f00000, 0x36f20000, 0x36f40000, 0x36f60000, 0x36f80000, 0x36fa0000, +0x36fc0000, 0x36fe0000, 0x37000000, 0x37010000, 0x37020000, 0x37030000, +0x37040000, 0x37050000, 0x37060000, 0x37070000, 0x37080000, 0x37090000, +0x370a0000, 0x370b0000, 0x370c0000, 0x370d0000, 0x370e0000, 0x370f0000, +0x37100000, 0x37110000, 0x37120000, 0x37130000, 0x37140000, 0x37150000, +0x37160000, 0x37170000, 0x37180000, 0x37190000, 0x371a0000, 0x371b0000, +0x371c0000, 0x371d0000, 0x371e0000, 0x371f0000, 0x37200000, 0x37210000, +0x37220000, 0x37230000, 0x37240000, 0x37250000, 0x37260000, 0x37270000, +0x37280000, 0x37290000, 0x372a0000, 0x372b0000, 0x372c0000, 0x372d0000, +0x372e0000, 0x372f0000, 0x37300000, 0x37310000, 0x37320000, 0x37330000, +0x37340000, 0x37350000, 0x37360000, 0x37370000, 0x37380000, 0x37390000, +0x373a0000, 0x373b0000, 0x373c0000, 0x373d0000, 0x373e0000, 0x373f0000, +0x37400000, 0x37410000, 0x37420000, 0x37430000, 0x37440000, 0x37450000, +0x37460000, 0x37470000, 0x37480000, 0x37490000, 0x374a0000, 0x374b0000, +0x374c0000, 0x374d0000, 0x374e0000, 0x374f0000, 0x37500000, 0x37510000, +0x37520000, 0x37530000, 0x37540000, 0x37550000, 0x37560000, 0x37570000, +0x37580000, 0x37590000, 0x375a0000, 0x375b0000, 0x375c0000, 0x375d0000, +0x375e0000, 0x375f0000, 0x37600000, 0x37610000, 0x37620000, 0x37630000, +0x37640000, 0x37650000, 0x37660000, 0x37670000, 0x37680000, 0x37690000, +0x376a0000, 0x376b0000, 0x376c0000, 0x376d0000, 0x376e0000, 0x376f0000, +0x37700000, 0x37710000, 0x37720000, 0x37730000, 0x37740000, 0x37750000, +0x37760000, 0x37770000, 0x37780000, 0x37790000, 0x377a0000, 0x377b0000, +0x377c0000, 0x377d0000, 0x377e0000, 0x377f0000, 0x37800000, 0x37808000, +0x37810000, 0x37818000, 0x37820000, 0x37828000, 0x37830000, 0x37838000, +0x37840000, 0x37848000, 0x37850000, 0x37858000, 0x37860000, 0x37868000, +0x37870000, 0x37878000, 0x37880000, 0x37888000, 0x37890000, 0x37898000, +0x378a0000, 0x378a8000, 0x378b0000, 0x378b8000, 0x378c0000, 0x378c8000, +0x378d0000, 0x378d8000, 0x378e0000, 0x378e8000, 0x378f0000, 0x378f8000, +0x37900000, 0x37908000, 0x37910000, 0x37918000, 0x37920000, 0x37928000, +0x37930000, 0x37938000, 0x37940000, 0x37948000, 0x37950000, 0x37958000, +0x37960000, 0x37968000, 0x37970000, 0x37978000, 0x37980000, 0x37988000, +0x37990000, 0x37998000, 0x379a0000, 0x379a8000, 0x379b0000, 0x379b8000, +0x379c0000, 0x379c8000, 0x379d0000, 0x379d8000, 0x379e0000, 0x379e8000, +0x379f0000, 0x379f8000, 0x37a00000, 0x37a08000, 0x37a10000, 0x37a18000, +0x37a20000, 0x37a28000, 0x37a30000, 0x37a38000, 0x37a40000, 0x37a48000, +0x37a50000, 0x37a58000, 0x37a60000, 0x37a68000, 0x37a70000, 0x37a78000, +0x37a80000, 0x37a88000, 0x37a90000, 0x37a98000, 0x37aa0000, 0x37aa8000, +0x37ab0000, 0x37ab8000, 0x37ac0000, 0x37ac8000, 0x37ad0000, 0x37ad8000, +0x37ae0000, 0x37ae8000, 0x37af0000, 0x37af8000, 0x37b00000, 0x37b08000, +0x37b10000, 0x37b18000, 0x37b20000, 0x37b28000, 0x37b30000, 0x37b38000, +0x37b40000, 0x37b48000, 0x37b50000, 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0x38472000, 0x38474000, 0x38476000, +0x38478000, 0x3847a000, 0x3847c000, 0x3847e000, 0x38480000, 0x38482000, +0x38484000, 0x38486000, 0x38488000, 0x3848a000, 0x3848c000, 0x3848e000, +0x38490000, 0x38492000, 0x38494000, 0x38496000, 0x38498000, 0x3849a000, +0x3849c000, 0x3849e000, 0x384a0000, 0x384a2000, 0x384a4000, 0x384a6000, +0x384a8000, 0x384aa000, 0x384ac000, 0x384ae000, 0x384b0000, 0x384b2000, +0x384b4000, 0x384b6000, 0x384b8000, 0x384ba000, 0x384bc000, 0x384be000, +0x384c0000, 0x384c2000, 0x384c4000, 0x384c6000, 0x384c8000, 0x384ca000, +0x384cc000, 0x384ce000, 0x384d0000, 0x384d2000, 0x384d4000, 0x384d6000, +0x384d8000, 0x384da000, 0x384dc000, 0x384de000, 0x384e0000, 0x384e2000, +0x384e4000, 0x384e6000, 0x384e8000, 0x384ea000, 0x384ec000, 0x384ee000, +0x384f0000, 0x384f2000, 0x384f4000, 0x384f6000, 0x384f8000, 0x384fa000, +0x384fc000, 0x384fe000, 0x38500000, 0x38502000, 0x38504000, 0x38506000, +0x38508000, 0x3850a000, 0x3850c000, 0x3850e000, 0x38510000, 0x38512000, +0x38514000, 0x38516000, 0x38518000, 0x3851a000, 0x3851c000, 0x3851e000, +0x38520000, 0x38522000, 0x38524000, 0x38526000, 0x38528000, 0x3852a000, +0x3852c000, 0x3852e000, 0x38530000, 0x38532000, 0x38534000, 0x38536000, +0x38538000, 0x3853a000, 0x3853c000, 0x3853e000, 0x38540000, 0x38542000, +0x38544000, 0x38546000, 0x38548000, 0x3854a000, 0x3854c000, 0x3854e000, +0x38550000, 0x38552000, 0x38554000, 0x38556000, 0x38558000, 0x3855a000, +0x3855c000, 0x3855e000, 0x38560000, 0x38562000, 0x38564000, 0x38566000, +0x38568000, 0x3856a000, 0x3856c000, 0x3856e000, 0x38570000, 0x38572000, +0x38574000, 0x38576000, 0x38578000, 0x3857a000, 0x3857c000, 0x3857e000, +0x38580000, 0x38582000, 0x38584000, 0x38586000, 0x38588000, 0x3858a000, +0x3858c000, 0x3858e000, 0x38590000, 0x38592000, 0x38594000, 0x38596000, +0x38598000, 0x3859a000, 0x3859c000, 0x3859e000, 0x385a0000, 0x385a2000, +0x385a4000, 0x385a6000, 0x385a8000, 0x385aa000, 0x385ac000, 0x385ae000, +0x385b0000, 0x385b2000, 0x385b4000, 0x385b6000, 0x385b8000, 0x385ba000, +0x385bc000, 0x385be000, 0x385c0000, 0x385c2000, 0x385c4000, 0x385c6000, +0x385c8000, 0x385ca000, 0x385cc000, 0x385ce000, 0x385d0000, 0x385d2000, +0x385d4000, 0x385d6000, 0x385d8000, 0x385da000, 0x385dc000, 0x385de000, +0x385e0000, 0x385e2000, 0x385e4000, 0x385e6000, 0x385e8000, 0x385ea000, +0x385ec000, 0x385ee000, 0x385f0000, 0x385f2000, 0x385f4000, 0x385f6000, +0x385f8000, 0x385fa000, 0x385fc000, 0x385fe000, 0x38600000, 0x38602000, +0x38604000, 0x38606000, 0x38608000, 0x3860a000, 0x3860c000, 0x3860e000, +0x38610000, 0x38612000, 0x38614000, 0x38616000, 0x38618000, 0x3861a000, +0x3861c000, 0x3861e000, 0x38620000, 0x38622000, 0x38624000, 0x38626000, +0x38628000, 0x3862a000, 0x3862c000, 0x3862e000, 0x38630000, 0x38632000, +0x38634000, 0x38636000, 0x38638000, 0x3863a000, 0x3863c000, 0x3863e000, +0x38640000, 0x38642000, 0x38644000, 0x38646000, 0x38648000, 0x3864a000, +0x3864c000, 0x3864e000, 0x38650000, 0x38652000, 0x38654000, 0x38656000, +0x38658000, 0x3865a000, 0x3865c000, 0x3865e000, 0x38660000, 0x38662000, +0x38664000, 0x38666000, 0x38668000, 0x3866a000, 0x3866c000, 0x3866e000, +0x38670000, 0x38672000, 0x38674000, 0x38676000, 0x38678000, 0x3867a000, +0x3867c000, 0x3867e000, 0x38680000, 0x38682000, 0x38684000, 0x38686000, +0x38688000, 0x3868a000, 0x3868c000, 0x3868e000, 0x38690000, 0x38692000, +0x38694000, 0x38696000, 0x38698000, 0x3869a000, 0x3869c000, 0x3869e000, +0x386a0000, 0x386a2000, 0x386a4000, 0x386a6000, 0x386a8000, 0x386aa000, +0x386ac000, 0x386ae000, 0x386b0000, 0x386b2000, 0x386b4000, 0x386b6000, +0x386b8000, 0x386ba000, 0x386bc000, 0x386be000, 0x386c0000, 0x386c2000, +0x386c4000, 0x386c6000, 0x386c8000, 0x386ca000, 0x386cc000, 0x386ce000, +0x386d0000, 0x386d2000, 0x386d4000, 0x386d6000, 0x386d8000, 0x386da000, +0x386dc000, 0x386de000, 0x386e0000, 0x386e2000, 0x386e4000, 0x386e6000, +0x386e8000, 0x386ea000, 0x386ec000, 0x386ee000, 0x386f0000, 0x386f2000, +0x386f4000, 0x386f6000, 0x386f8000, 0x386fa000, 0x386fc000, 0x386fe000, +0x38700000, 0x38702000, 0x38704000, 0x38706000, 0x38708000, 0x3870a000, +0x3870c000, 0x3870e000, 0x38710000, 0x38712000, 0x38714000, 0x38716000, +0x38718000, 0x3871a000, 0x3871c000, 0x3871e000, 0x38720000, 0x38722000, +0x38724000, 0x38726000, 0x38728000, 0x3872a000, 0x3872c000, 0x3872e000, +0x38730000, 0x38732000, 0x38734000, 0x38736000, 0x38738000, 0x3873a000, +0x3873c000, 0x3873e000, 0x38740000, 0x38742000, 0x38744000, 0x38746000, +0x38748000, 0x3874a000, 0x3874c000, 0x3874e000, 0x38750000, 0x38752000, +0x38754000, 0x38756000, 0x38758000, 0x3875a000, 0x3875c000, 0x3875e000, +0x38760000, 0x38762000, 0x38764000, 0x38766000, 0x38768000, 0x3876a000, +0x3876c000, 0x3876e000, 0x38770000, 0x38772000, 0x38774000, 0x38776000, +0x38778000, 0x3877a000, 0x3877c000, 0x3877e000, 0x38780000, 0x38782000, +0x38784000, 0x38786000, 0x38788000, 0x3878a000, 0x3878c000, 0x3878e000, +0x38790000, 0x38792000, 0x38794000, 0x38796000, 0x38798000, 0x3879a000, +0x3879c000, 0x3879e000, 0x387a0000, 0x387a2000, 0x387a4000, 0x387a6000, +0x387a8000, 0x387aa000, 0x387ac000, 0x387ae000, 0x387b0000, 0x387b2000, +0x387b4000, 0x387b6000, 0x387b8000, 0x387ba000, 0x387bc000, 0x387be000, +0x387c0000, 0x387c2000, 0x387c4000, 0x387c6000, 0x387c8000, 0x387ca000, +0x387cc000, 0x387ce000, 0x387d0000, 0x387d2000, 0x387d4000, 0x387d6000, +0x387d8000, 0x387da000, 0x387dc000, 0x387de000, 0x387e0000, 0x387e2000, +0x387e4000, 0x387e6000, 0x387e8000, 0x387ea000, 0x387ec000, 0x387ee000, +0x387f0000, 0x387f2000, 0x387f4000, 0x387f6000, 0x387f8000, 0x387fa000, +0x387fc000, 0x387fe000 +}; + +static cmsUInt16Number Offset[64] = { +0x0000, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0000, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400, 0x0400, 0x0400, +0x0400, 0x0400, 0x0400, 0x0400 +}; + +static cmsUInt32Number Exponent[64] = { +0x00000000, 0x00800000, 0x01000000, 0x01800000, 0x02000000, 0x02800000, +0x03000000, 0x03800000, 0x04000000, 0x04800000, 0x05000000, 0x05800000, +0x06000000, 0x06800000, 0x07000000, 0x07800000, 0x08000000, 0x08800000, +0x09000000, 0x09800000, 0x0a000000, 0x0a800000, 0x0b000000, 0x0b800000, +0x0c000000, 0x0c800000, 0x0d000000, 0x0d800000, 0x0e000000, 0x0e800000, +0x0f000000, 0x47800000, 0x80000000, 0x80800000, 0x81000000, 0x81800000, +0x82000000, 0x82800000, 0x83000000, 0x83800000, 0x84000000, 0x84800000, +0x85000000, 0x85800000, 0x86000000, 0x86800000, 0x87000000, 0x87800000, +0x88000000, 0x88800000, 0x89000000, 0x89800000, 0x8a000000, 0x8a800000, +0x8b000000, 0x8b800000, 0x8c000000, 0x8c800000, 0x8d000000, 0x8d800000, +0x8e000000, 0x8e800000, 0x8f000000, 0xc7800000 +}; + +static cmsUInt16Number Base[512] = { +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, +0x0000, 0x0000, 0x0000, 0x0001, 0x0002, 0x0004, 0x0008, 0x0010, 0x0020, 0x0040, +0x0080, 0x0100, 0x0200, 0x0400, 0x0800, 0x0c00, 0x1000, 0x1400, 0x1800, 0x1c00, +0x2000, 0x2400, 0x2800, 0x2c00, 0x3000, 0x3400, 0x3800, 0x3c00, 0x4000, 0x4400, +0x4800, 0x4c00, 0x5000, 0x5400, 0x5800, 0x5c00, 0x6000, 0x6400, 0x6800, 0x6c00, +0x7000, 0x7400, 0x7800, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, +0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x7c00, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, +0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8000, 0x8001, +0x8002, 0x8004, 0x8008, 0x8010, 0x8020, 0x8040, 0x8080, 0x8100, 0x8200, 0x8400, +0x8800, 0x8c00, 0x9000, 0x9400, 0x9800, 0x9c00, 0xa000, 0xa400, 0xa800, 0xac00, +0xb000, 0xb400, 0xb800, 0xbc00, 0xc000, 0xc400, 0xc800, 0xcc00, 0xd000, 0xd400, +0xd800, 0xdc00, 0xe000, 0xe400, 0xe800, 0xec00, 0xf000, 0xf400, 0xf800, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, 0xfc00, +0xfc00, 0xfc00 +}; + +static cmsUInt8Number Shift[512] = { +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x17, +0x16, 0x15, 0x14, 0x13, 0x12, 0x11, 0x10, 0x0f, 0x0e, 0x0d, 0x0d, 0x0d, 0x0d, +0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, +0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x0d, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x17, 0x16, 0x15, 0x14, 0x13, +0x12, 0x11, 0x10, 0x0f, 0x0e, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, +0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, +0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x0d, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, 0x18, +0x18, 0x18, 0x18, 0x18, 0x0d +}; + +cmsFloat32Number _cmsHalf2Float(cmsUInt16Number h) +{ + union { + cmsFloat32Number flt; + cmsUInt32Number num; + } out; + + int n = h >> 10; + + out.num = Mantissa[ (h & 0x3ff) + Offset[ n ] ] + Exponent[ n ]; + return out.flt; +} + +cmsUInt16Number _cmsFloat2Half(cmsFloat32Number flt) +{ + union { + cmsFloat32Number flt; + cmsUInt32Number num; + } in; + + cmsUInt32Number n, j; + + in.flt = flt; + n = in.num; + j = (n >> 23) & 0x1ff; + + return (cmsUInt16Number) ((cmsUInt32Number) Base[ j ] + (( n & 0x007fffff) >> Shift[ j ])); +} + +#endif Index: sdk/lib/3rdparty/lcms2/cmsintrp.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsintrp.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsintrp.c (working copy) @@ -0,0 +1,1506 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// This module incorporates several interpolation routines, for 1 to 8 channels on input and +// up to 65535 channels on output. The user may change those by using the interpolation plug-in + +// Interpolation routines by default +static cmsInterpFunction DefaultInterpolatorsFactory(cmsUInt32Number nInputChannels, cmsUInt32Number nOutputChannels, cmsUInt32Number dwFlags); + +// This is the default factory +_cmsInterpPluginChunkType _cmsInterpPluginChunk = { NULL }; + +// The interpolation plug-in memory chunk allocator/dup +void _cmsAllocInterpPluginChunk(struct _cmsContext_struct* ctx, const struct _cmsContext_struct* src) +{ + void* from; + + _cmsAssert(ctx != NULL); + + if (src != NULL) { + from = src ->chunks[InterpPlugin]; + } + else { + static _cmsInterpPluginChunkType InterpPluginChunk = { NULL }; + + from = &InterpPluginChunk; + } + + _cmsAssert(from != NULL); + ctx ->chunks[InterpPlugin] = _cmsSubAllocDup(ctx ->MemPool, from, sizeof(_cmsInterpPluginChunkType)); +} + + +// Main plug-in entry +cmsBool _cmsRegisterInterpPlugin(cmsContext ContextID, cmsPluginBase* Data) +{ + cmsPluginInterpolation* Plugin = (cmsPluginInterpolation*) Data; + _cmsInterpPluginChunkType* ptr = (_cmsInterpPluginChunkType*) _cmsContextGetClientChunk(ContextID, InterpPlugin); + + if (Data == NULL) { + + ptr ->Interpolators = NULL; + return TRUE; + } + + // Set replacement functions + ptr ->Interpolators = Plugin ->InterpolatorsFactory; + return TRUE; +} + + +// Set the interpolation method +cmsBool _cmsSetInterpolationRoutine(cmsContext ContextID, cmsInterpParams* p) +{ + _cmsInterpPluginChunkType* ptr = (_cmsInterpPluginChunkType*) _cmsContextGetClientChunk(ContextID, InterpPlugin); + + p ->Interpolation.Lerp16 = NULL; + + // Invoke factory, possibly in the Plug-in + if (ptr ->Interpolators != NULL) + p ->Interpolation = ptr->Interpolators(p -> nInputs, p ->nOutputs, p ->dwFlags); + + // If unsupported by the plug-in, go for the LittleCMS default. + // If happens only if an extern plug-in is being used + if (p ->Interpolation.Lerp16 == NULL) + p ->Interpolation = DefaultInterpolatorsFactory(p ->nInputs, p ->nOutputs, p ->dwFlags); + + // Check for valid interpolator (we just check one member of the union) + if (p ->Interpolation.Lerp16 == NULL) { + return FALSE; + } + + return TRUE; +} + + +// This function precalculates as many parameters as possible to speed up the interpolation. +cmsInterpParams* _cmsComputeInterpParamsEx(cmsContext ContextID, + const cmsUInt32Number nSamples[], + int InputChan, int OutputChan, + const void *Table, + cmsUInt32Number dwFlags) +{ + cmsInterpParams* p; + int i; + + // Check for maximum inputs + if (InputChan > MAX_INPUT_DIMENSIONS) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Too many input channels (%d channels, max=%d)", InputChan, MAX_INPUT_DIMENSIONS); + return NULL; + } + + // Creates an empty object + p = (cmsInterpParams*) _cmsMallocZero(ContextID, sizeof(cmsInterpParams)); + if (p == NULL) return NULL; + + // Keep original parameters + p -> dwFlags = dwFlags; + p -> nInputs = InputChan; + p -> nOutputs = OutputChan; + p ->Table = Table; + p ->ContextID = ContextID; + + // Fill samples per input direction and domain (which is number of nodes minus one) + for (i=0; i < InputChan; i++) { + + p -> nSamples[i] = nSamples[i]; + p -> Domain[i] = nSamples[i] - 1; + } + + // Compute factors to apply to each component to index the grid array + p -> opta[0] = p -> nOutputs; + for (i=1; i < InputChan; i++) + p ->opta[i] = p ->opta[i-1] * nSamples[InputChan-i]; + + + if (!_cmsSetInterpolationRoutine(ContextID, p)) { + cmsSignalError(ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported interpolation (%d->%d channels)", InputChan, OutputChan); + _cmsFree(ContextID, p); + return NULL; + } + + // All seems ok + return p; +} + + +// This one is a wrapper on the anterior, but assuming all directions have same number of nodes +cmsInterpParams* _cmsComputeInterpParams(cmsContext ContextID, int nSamples, int InputChan, int OutputChan, const void* Table, cmsUInt32Number dwFlags) +{ + int i; + cmsUInt32Number Samples[MAX_INPUT_DIMENSIONS]; + + // Fill the auxiliary array + for (i=0; i < MAX_INPUT_DIMENSIONS; i++) + Samples[i] = nSamples; + + // Call the extended function + return _cmsComputeInterpParamsEx(ContextID, Samples, InputChan, OutputChan, Table, dwFlags); +} + + +// Free all associated memory +void _cmsFreeInterpParams(cmsInterpParams* p) +{ + if (p != NULL) _cmsFree(p ->ContextID, p); +} + + +// Inline fixed point interpolation +cmsINLINE cmsUInt16Number LinearInterp(cmsS15Fixed16Number a, cmsS15Fixed16Number l, cmsS15Fixed16Number h) +{ + cmsUInt32Number dif = (cmsUInt32Number) (h - l) * a + 0x8000; + dif = (dif >> 16) + l; + return (cmsUInt16Number) (dif); +} + + +// Linear interpolation (Fixed-point optimized) +static +void LinLerp1D(register const cmsUInt16Number Value[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p) +{ + cmsUInt16Number y1, y0; + int cell0, rest; + int val3; + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p ->Table; + + // if last value... + if (Value[0] == 0xffff) { + + Output[0] = LutTable[p -> Domain[0]]; + return; + } + + val3 = p -> Domain[0] * Value[0]; + val3 = _cmsToFixedDomain(val3); // To fixed 15.16 + + cell0 = FIXED_TO_INT(val3); // Cell is 16 MSB bits + rest = FIXED_REST_TO_INT(val3); // Rest is 16 LSB bits + + y0 = LutTable[cell0]; + y1 = LutTable[cell0+1]; + + + Output[0] = LinearInterp(rest, y0, y1); +} + +// To prevent out of bounds indexing +cmsINLINE cmsFloat32Number fclamp(cmsFloat32Number v) +{ + return v < 0.0f ? 0.0f : (v > 1.0f ? 1.0f : v); +} + +// Floating-point version of 1D interpolation +static +void LinLerp1Dfloat(const cmsFloat32Number Value[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + cmsFloat32Number y1, y0; + cmsFloat32Number val2, rest; + int cell0, cell1; + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p ->Table; + + val2 = fclamp(Value[0]); + + // if last value... + if (val2 == 1.0) { + Output[0] = LutTable[p -> Domain[0]]; + return; + } + + val2 *= p -> Domain[0]; + + cell0 = (int) floor(val2); + cell1 = (int) ceil(val2); + + // Rest is 16 LSB bits + rest = val2 - cell0; + + y0 = LutTable[cell0] ; + y1 = LutTable[cell1] ; + + Output[0] = y0 + (y1 - y0) * rest; +} + + + +// Eval gray LUT having only one input channel +static +void Eval1Input(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p16) +{ + cmsS15Fixed16Number fk; + cmsS15Fixed16Number k0, k1, rk, K0, K1; + int v; + cmsUInt32Number OutChan; + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p16 -> Table; + + v = Input[0] * p16 -> Domain[0]; + fk = _cmsToFixedDomain(v); + + k0 = FIXED_TO_INT(fk); + rk = (cmsUInt16Number) FIXED_REST_TO_INT(fk); + + k1 = k0 + (Input[0] != 0xFFFFU ? 1 : 0); + + K0 = p16 -> opta[0] * k0; + K1 = p16 -> opta[0] * k1; + + for (OutChan=0; OutChan < p16->nOutputs; OutChan++) { + + Output[OutChan] = LinearInterp(rk, LutTable[K0+OutChan], LutTable[K1+OutChan]); + } +} + + + +// Eval gray LUT having only one input channel +static +void Eval1InputFloat(const cmsFloat32Number Value[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + cmsFloat32Number y1, y0; + cmsFloat32Number val2, rest; + int cell0, cell1; + cmsUInt32Number OutChan; + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p ->Table; + + val2 = fclamp(Value[0]); + + // if last value... + if (val2 == 1.0) { + Output[0] = LutTable[p -> Domain[0]]; + return; + } + + val2 *= p -> Domain[0]; + + cell0 = (int) floor(val2); + cell1 = (int) ceil(val2); + + // Rest is 16 LSB bits + rest = val2 - cell0; + + cell0 *= p -> opta[0]; + cell1 *= p -> opta[0]; + + for (OutChan=0; OutChan < p->nOutputs; OutChan++) { + + y0 = LutTable[cell0 + OutChan] ; + y1 = LutTable[cell1 + OutChan] ; + + Output[OutChan] = y0 + (y1 - y0) * rest; + } +} + +// Bilinear interpolation (16 bits) - cmsFloat32Number version +static +void BilinearInterpFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) + +{ +# define LERP(a,l,h) (cmsFloat32Number) ((l)+(((h)-(l))*(a))) +# define DENS(i,j) (LutTable[(i)+(j)+OutChan]) + + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p ->Table; + cmsFloat32Number px, py; + int x0, y0, + X0, Y0, X1, Y1; + int TotalOut, OutChan; + cmsFloat32Number fx, fy, + d00, d01, d10, d11, + dx0, dx1, + dxy; + + TotalOut = p -> nOutputs; + px = fclamp(Input[0]) * p->Domain[0]; + py = fclamp(Input[1]) * p->Domain[1]; + + x0 = (int) _cmsQuickFloor(px); fx = px - (cmsFloat32Number) x0; + y0 = (int) _cmsQuickFloor(py); fy = py - (cmsFloat32Number) y0; + + X0 = p -> opta[1] * x0; + X1 = X0 + (Input[0] >= 1.0 ? 0 : p->opta[1]); + + Y0 = p -> opta[0] * y0; + Y1 = Y0 + (Input[1] >= 1.0 ? 0 : p->opta[0]); + + for (OutChan = 0; OutChan < TotalOut; OutChan++) { + + d00 = DENS(X0, Y0); + d01 = DENS(X0, Y1); + d10 = DENS(X1, Y0); + d11 = DENS(X1, Y1); + + dx0 = LERP(fx, d00, d10); + dx1 = LERP(fx, d01, d11); + + dxy = LERP(fy, dx0, dx1); + + Output[OutChan] = dxy; + } + + +# undef LERP +# undef DENS +} + +// Bilinear interpolation (16 bits) - optimized version +static +void BilinearInterp16(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p) + +{ +#define DENS(i,j) (LutTable[(i)+(j)+OutChan]) +#define LERP(a,l,h) (cmsUInt16Number) (l + ROUND_FIXED_TO_INT(((h-l)*a))) + + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p ->Table; + int OutChan, TotalOut; + cmsS15Fixed16Number fx, fy; + register int rx, ry; + int x0, y0; + register int X0, X1, Y0, Y1; + int d00, d01, d10, d11, + dx0, dx1, + dxy; + + TotalOut = p -> nOutputs; + + fx = _cmsToFixedDomain((int) Input[0] * p -> Domain[0]); + x0 = FIXED_TO_INT(fx); + rx = FIXED_REST_TO_INT(fx); // Rest in 0..1.0 domain + + + fy = _cmsToFixedDomain((int) Input[1] * p -> Domain[1]); + y0 = FIXED_TO_INT(fy); + ry = FIXED_REST_TO_INT(fy); + + + X0 = p -> opta[1] * x0; + X1 = X0 + (Input[0] == 0xFFFFU ? 0 : p->opta[1]); + + Y0 = p -> opta[0] * y0; + Y1 = Y0 + (Input[1] == 0xFFFFU ? 0 : p->opta[0]); + + for (OutChan = 0; OutChan < TotalOut; OutChan++) { + + d00 = DENS(X0, Y0); + d01 = DENS(X0, Y1); + d10 = DENS(X1, Y0); + d11 = DENS(X1, Y1); + + dx0 = LERP(rx, d00, d10); + dx1 = LERP(rx, d01, d11); + + dxy = LERP(ry, dx0, dx1); + + Output[OutChan] = (cmsUInt16Number) dxy; + } + + +# undef LERP +# undef DENS +} + + +// Trilinear interpolation (16 bits) - cmsFloat32Number version +static +void TrilinearInterpFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) + +{ +# define LERP(a,l,h) (cmsFloat32Number) ((l)+(((h)-(l))*(a))) +# define DENS(i,j,k) (LutTable[(i)+(j)+(k)+OutChan]) + + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p ->Table; + cmsFloat32Number px, py, pz; + int x0, y0, z0, + X0, Y0, Z0, X1, Y1, Z1; + int TotalOut, OutChan; + cmsFloat32Number fx, fy, fz, + d000, d001, d010, d011, + d100, d101, d110, d111, + dx00, dx01, dx10, dx11, + dxy0, dxy1, dxyz; + + TotalOut = p -> nOutputs; + + // We need some clipping here + px = fclamp(Input[0]) * p->Domain[0]; + py = fclamp(Input[1]) * p->Domain[1]; + pz = fclamp(Input[2]) * p->Domain[2]; + + x0 = (int) _cmsQuickFloor(px); fx = px - (cmsFloat32Number) x0; + y0 = (int) _cmsQuickFloor(py); fy = py - (cmsFloat32Number) y0; + z0 = (int) _cmsQuickFloor(pz); fz = pz - (cmsFloat32Number) z0; + + X0 = p -> opta[2] * x0; + X1 = X0 + (Input[0] >= 1.0 ? 0 : p->opta[2]); + + Y0 = p -> opta[1] * y0; + Y1 = Y0 + (Input[1] >= 1.0 ? 0 : p->opta[1]); + + Z0 = p -> opta[0] * z0; + Z1 = Z0 + (Input[2] >= 1.0 ? 0 : p->opta[0]); + + for (OutChan = 0; OutChan < TotalOut; OutChan++) { + + d000 = DENS(X0, Y0, Z0); + d001 = DENS(X0, Y0, Z1); + d010 = DENS(X0, Y1, Z0); + d011 = DENS(X0, Y1, Z1); + + d100 = DENS(X1, Y0, Z0); + d101 = DENS(X1, Y0, Z1); + d110 = DENS(X1, Y1, Z0); + d111 = DENS(X1, Y1, Z1); + + + dx00 = LERP(fx, d000, d100); + dx01 = LERP(fx, d001, d101); + dx10 = LERP(fx, d010, d110); + dx11 = LERP(fx, d011, d111); + + dxy0 = LERP(fy, dx00, dx10); + dxy1 = LERP(fy, dx01, dx11); + + dxyz = LERP(fz, dxy0, dxy1); + + Output[OutChan] = dxyz; + } + + +# undef LERP +# undef DENS +} + +// Trilinear interpolation (16 bits) - optimized version +static +void TrilinearInterp16(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p) + +{ +#define DENS(i,j,k) (LutTable[(i)+(j)+(k)+OutChan]) +#define LERP(a,l,h) (cmsUInt16Number) (l + ROUND_FIXED_TO_INT(((h-l)*a))) + + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p ->Table; + int OutChan, TotalOut; + cmsS15Fixed16Number fx, fy, fz; + register int rx, ry, rz; + int x0, y0, z0; + register int X0, X1, Y0, Y1, Z0, Z1; + int d000, d001, d010, d011, + d100, d101, d110, d111, + dx00, dx01, dx10, dx11, + dxy0, dxy1, dxyz; + + TotalOut = p -> nOutputs; + + fx = _cmsToFixedDomain((int) Input[0] * p -> Domain[0]); + x0 = FIXED_TO_INT(fx); + rx = FIXED_REST_TO_INT(fx); // Rest in 0..1.0 domain + + + fy = _cmsToFixedDomain((int) Input[1] * p -> Domain[1]); + y0 = FIXED_TO_INT(fy); + ry = FIXED_REST_TO_INT(fy); + + fz = _cmsToFixedDomain((int) Input[2] * p -> Domain[2]); + z0 = FIXED_TO_INT(fz); + rz = FIXED_REST_TO_INT(fz); + + + X0 = p -> opta[2] * x0; + X1 = X0 + (Input[0] == 0xFFFFU ? 0 : p->opta[2]); + + Y0 = p -> opta[1] * y0; + Y1 = Y0 + (Input[1] == 0xFFFFU ? 0 : p->opta[1]); + + Z0 = p -> opta[0] * z0; + Z1 = Z0 + (Input[2] == 0xFFFFU ? 0 : p->opta[0]); + + for (OutChan = 0; OutChan < TotalOut; OutChan++) { + + d000 = DENS(X0, Y0, Z0); + d001 = DENS(X0, Y0, Z1); + d010 = DENS(X0, Y1, Z0); + d011 = DENS(X0, Y1, Z1); + + d100 = DENS(X1, Y0, Z0); + d101 = DENS(X1, Y0, Z1); + d110 = DENS(X1, Y1, Z0); + d111 = DENS(X1, Y1, Z1); + + + dx00 = LERP(rx, d000, d100); + dx01 = LERP(rx, d001, d101); + dx10 = LERP(rx, d010, d110); + dx11 = LERP(rx, d011, d111); + + dxy0 = LERP(ry, dx00, dx10); + dxy1 = LERP(ry, dx01, dx11); + + dxyz = LERP(rz, dxy0, dxy1); + + Output[OutChan] = (cmsUInt16Number) dxyz; + } + + +# undef LERP +# undef DENS +} + + +// Tetrahedral interpolation, using Sakamoto algorithm. +#define DENS(i,j,k) (LutTable[(i)+(j)+(k)+OutChan]) +static +void TetrahedralInterpFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p -> Table; + cmsFloat32Number px, py, pz; + int x0, y0, z0, + X0, Y0, Z0, X1, Y1, Z1; + cmsFloat32Number rx, ry, rz; + cmsFloat32Number c0, c1=0, c2=0, c3=0; + int OutChan, TotalOut; + + TotalOut = p -> nOutputs; + + // We need some clipping here + px = fclamp(Input[0]) * p->Domain[0]; + py = fclamp(Input[1]) * p->Domain[1]; + pz = fclamp(Input[2]) * p->Domain[2]; + + x0 = (int) _cmsQuickFloor(px); rx = (px - (cmsFloat32Number) x0); + y0 = (int) _cmsQuickFloor(py); ry = (py - (cmsFloat32Number) y0); + z0 = (int) _cmsQuickFloor(pz); rz = (pz - (cmsFloat32Number) z0); + + + X0 = p -> opta[2] * x0; + X1 = X0 + (Input[0] >= 1.0 ? 0 : p->opta[2]); + + Y0 = p -> opta[1] * y0; + Y1 = Y0 + (Input[1] >= 1.0 ? 0 : p->opta[1]); + + Z0 = p -> opta[0] * z0; + Z1 = Z0 + (Input[2] >= 1.0 ? 0 : p->opta[0]); + + for (OutChan=0; OutChan < TotalOut; OutChan++) { + + // These are the 6 Tetrahedral + + c0 = DENS(X0, Y0, Z0); + + if (rx >= ry && ry >= rz) { + + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z0) - DENS(X1, Y0, Z0); + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + + } + else + if (rx >= rz && rz >= ry) { + + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X1, Y0, Z1) - DENS(X1, Y0, Z0); + + } + else + if (rz >= rx && rx >= ry) { + + c1 = DENS(X1, Y0, Z1) - DENS(X0, Y0, Z1); + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + + } + else + if (ry >= rx && rx >= rz) { + + c1 = DENS(X1, Y1, Z0) - DENS(X0, Y1, Z0); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + + } + else + if (ry >= rz && rz >= rx) { + + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X0, Y1, Z1) - DENS(X0, Y1, Z0); + + } + else + if (rz >= ry && ry >= rx) { + + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z1) - DENS(X0, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + + } + else { + c1 = c2 = c3 = 0; + } + + Output[OutChan] = c0 + c1 * rx + c2 * ry + c3 * rz; + } + +} + +#undef DENS + + + + +static +void TetrahedralInterp16(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p) +{ + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p -> Table; + cmsS15Fixed16Number fx, fy, fz; + cmsS15Fixed16Number rx, ry, rz; + int x0, y0, z0; + cmsS15Fixed16Number c0, c1, c2, c3, Rest; + cmsS15Fixed16Number X0, X1, Y0, Y1, Z0, Z1; + cmsUInt32Number TotalOut = p -> nOutputs; + + fx = _cmsToFixedDomain((int) Input[0] * p -> Domain[0]); + fy = _cmsToFixedDomain((int) Input[1] * p -> Domain[1]); + fz = _cmsToFixedDomain((int) Input[2] * p -> Domain[2]); + + x0 = FIXED_TO_INT(fx); + y0 = FIXED_TO_INT(fy); + z0 = FIXED_TO_INT(fz); + + rx = FIXED_REST_TO_INT(fx); + ry = FIXED_REST_TO_INT(fy); + rz = FIXED_REST_TO_INT(fz); + + X0 = p -> opta[2] * x0; + X1 = (Input[0] == 0xFFFFU ? 0 : p->opta[2]); + + Y0 = p -> opta[1] * y0; + Y1 = (Input[1] == 0xFFFFU ? 0 : p->opta[1]); + + Z0 = p -> opta[0] * z0; + Z1 = (Input[2] == 0xFFFFU ? 0 : p->opta[0]); + + LutTable = &LutTable[X0+Y0+Z0]; + + // Output should be computed as x = ROUND_FIXED_TO_INT(_cmsToFixedDomain(Rest)) + // which expands as: x = (Rest + ((Rest+0x7fff)/0xFFFF) + 0x8000)>>16 + // This can be replaced by: t = Rest+0x8001, x = (t + (t>>16))>>16 + // at the cost of being off by one at 7fff and 17ffe. + + if (rx >= ry) { + if (ry >= rz) { + Y1 += X1; + Z1 += Y1; + for (; TotalOut; TotalOut--) { + c1 = LutTable[X1]; + c2 = LutTable[Y1]; + c3 = LutTable[Z1]; + c0 = *LutTable++; + c3 -= c2; + c2 -= c1; + c1 -= c0; + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + *Output++ = (cmsUInt16Number) c0 + ((Rest + (Rest>>16))>>16); + } + } else if (rz >= rx) { + X1 += Z1; + Y1 += X1; + for (; TotalOut; TotalOut--) { + c1 = LutTable[X1]; + c2 = LutTable[Y1]; + c3 = LutTable[Z1]; + c0 = *LutTable++; + c2 -= c1; + c1 -= c3; + c3 -= c0; + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + *Output++ = (cmsUInt16Number) c0 + ((Rest + (Rest>>16))>>16); + } + } else { + Z1 += X1; + Y1 += Z1; + for (; TotalOut; TotalOut--) { + c1 = LutTable[X1]; + c2 = LutTable[Y1]; + c3 = LutTable[Z1]; + c0 = *LutTable++; + c2 -= c3; + c3 -= c1; + c1 -= c0; + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + *Output++ = (cmsUInt16Number) c0 + ((Rest + (Rest>>16))>>16); + } + } + } else { + if (rx >= rz) { + X1 += Y1; + Z1 += X1; + for (; TotalOut; TotalOut--) { + c1 = LutTable[X1]; + c2 = LutTable[Y1]; + c3 = LutTable[Z1]; + c0 = *LutTable++; + c3 -= c1; + c1 -= c2; + c2 -= c0; + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + *Output++ = (cmsUInt16Number) c0 + ((Rest + (Rest>>16))>>16); + } + } else if (ry >= rz) { + Z1 += Y1; + X1 += Z1; + for (; TotalOut; TotalOut--) { + c1 = LutTable[X1]; + c2 = LutTable[Y1]; + c3 = LutTable[Z1]; + c0 = *LutTable++; + c1 -= c3; + c3 -= c2; + c2 -= c0; + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + *Output++ = (cmsUInt16Number) c0 + ((Rest + (Rest>>16))>>16); + } + } else { + Y1 += Z1; + X1 += Y1; + for (; TotalOut; TotalOut--) { + c1 = LutTable[X1]; + c2 = LutTable[Y1]; + c3 = LutTable[Z1]; + c0 = *LutTable++; + c1 -= c2; + c2 -= c3; + c3 -= c0; + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + *Output++ = (cmsUInt16Number) c0 + ((Rest + (Rest>>16))>>16); + } + } + } +} + + +#define DENS(i,j,k) (LutTable[(i)+(j)+(k)+OutChan]) +static +void Eval4Inputs(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p16) +{ + const cmsUInt16Number* LutTable; + cmsS15Fixed16Number fk; + cmsS15Fixed16Number k0, rk; + int K0, K1; + cmsS15Fixed16Number fx, fy, fz; + cmsS15Fixed16Number rx, ry, rz; + int x0, y0, z0; + cmsS15Fixed16Number X0, X1, Y0, Y1, Z0, Z1; + cmsUInt32Number i; + cmsS15Fixed16Number c0, c1, c2, c3, Rest; + cmsUInt32Number OutChan; + cmsUInt16Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + + + fk = _cmsToFixedDomain((int) Input[0] * p16 -> Domain[0]); + fx = _cmsToFixedDomain((int) Input[1] * p16 -> Domain[1]); + fy = _cmsToFixedDomain((int) Input[2] * p16 -> Domain[2]); + fz = _cmsToFixedDomain((int) Input[3] * p16 -> Domain[3]); + + k0 = FIXED_TO_INT(fk); + x0 = FIXED_TO_INT(fx); + y0 = FIXED_TO_INT(fy); + z0 = FIXED_TO_INT(fz); + + rk = FIXED_REST_TO_INT(fk); + rx = FIXED_REST_TO_INT(fx); + ry = FIXED_REST_TO_INT(fy); + rz = FIXED_REST_TO_INT(fz); + + K0 = p16 -> opta[3] * k0; + K1 = K0 + (Input[0] == 0xFFFFU ? 0 : p16->opta[3]); + + X0 = p16 -> opta[2] * x0; + X1 = X0 + (Input[1] == 0xFFFFU ? 0 : p16->opta[2]); + + Y0 = p16 -> opta[1] * y0; + Y1 = Y0 + (Input[2] == 0xFFFFU ? 0 : p16->opta[1]); + + Z0 = p16 -> opta[0] * z0; + Z1 = Z0 + (Input[3] == 0xFFFFU ? 0 : p16->opta[0]); + + LutTable = (cmsUInt16Number*) p16 -> Table; + LutTable += K0; + + for (OutChan=0; OutChan < p16 -> nOutputs; OutChan++) { + + c0 = DENS(X0, Y0, Z0); + + if (rx >= ry && ry >= rz) { + + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z0) - DENS(X1, Y0, Z0); + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + + } + else + if (rx >= rz && rz >= ry) { + + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X1, Y0, Z1) - DENS(X1, Y0, Z0); + + } + else + if (rz >= rx && rx >= ry) { + + c1 = DENS(X1, Y0, Z1) - DENS(X0, Y0, Z1); + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + + } + else + if (ry >= rx && rx >= rz) { + + c1 = DENS(X1, Y1, Z0) - DENS(X0, Y1, Z0); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + + } + else + if (ry >= rz && rz >= rx) { + + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X0, Y1, Z1) - DENS(X0, Y1, Z0); + + } + else + if (rz >= ry && ry >= rx) { + + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z1) - DENS(X0, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + + } + else { + c1 = c2 = c3 = 0; + } + + Rest = c1 * rx + c2 * ry + c3 * rz; + + Tmp1[OutChan] = (cmsUInt16Number) ( c0 + ROUND_FIXED_TO_INT(_cmsToFixedDomain(Rest))); + } + + + LutTable = (cmsUInt16Number*) p16 -> Table; + LutTable += K1; + + for (OutChan=0; OutChan < p16 -> nOutputs; OutChan++) { + + c0 = DENS(X0, Y0, Z0); + + if (rx >= ry && ry >= rz) { + + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z0) - DENS(X1, Y0, Z0); + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + + } + else + if (rx >= rz && rz >= ry) { + + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X1, Y0, Z1) - DENS(X1, Y0, Z0); + + } + else + if (rz >= rx && rx >= ry) { + + c1 = DENS(X1, Y0, Z1) - DENS(X0, Y0, Z1); + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + + } + else + if (ry >= rx && rx >= rz) { + + c1 = DENS(X1, Y1, Z0) - DENS(X0, Y1, Z0); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + + } + else + if (ry >= rz && rz >= rx) { + + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X0, Y1, Z1) - DENS(X0, Y1, Z0); + + } + else + if (rz >= ry && ry >= rx) { + + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z1) - DENS(X0, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + + } + else { + c1 = c2 = c3 = 0; + } + + Rest = c1 * rx + c2 * ry + c3 * rz; + + Tmp2[OutChan] = (cmsUInt16Number) (c0 + ROUND_FIXED_TO_INT(_cmsToFixedDomain(Rest))); + } + + + + for (i=0; i < p16 -> nOutputs; i++) { + Output[i] = LinearInterp(rk, Tmp1[i], Tmp2[i]); + } +} +#undef DENS + + +// For more that 3 inputs (i.e., CMYK) +// evaluate two 3-dimensional interpolations and then linearly interpolate between them. + + +static +void Eval4InputsFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p -> Table; + cmsFloat32Number rest; + cmsFloat32Number pk; + int k0, K0, K1; + const cmsFloat32Number* T; + cmsUInt32Number i; + cmsFloat32Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + pk = fclamp(Input[0]) * p->Domain[0]; + k0 = _cmsQuickFloor(pk); + rest = pk - (cmsFloat32Number) k0; + + K0 = p -> opta[3] * k0; + K1 = K0 + (Input[0] >= 1.0 ? 0 : p->opta[3]); + + p1 = *p; + memmove(&p1.Domain[0], &p ->Domain[1], 3*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + TetrahedralInterpFloat(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + TetrahedralInterpFloat(Input + 1, Tmp2, &p1); + + for (i=0; i < p -> nOutputs; i++) + { + cmsFloat32Number y0 = Tmp1[i]; + cmsFloat32Number y1 = Tmp2[i]; + + Output[i] = y0 + (y1 - y0) * rest; + } +} + + +static +void Eval5Inputs(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + + register const cmsInterpParams* p16) +{ + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p16 -> Table; + cmsS15Fixed16Number fk; + cmsS15Fixed16Number k0, rk; + int K0, K1; + const cmsUInt16Number* T; + cmsUInt32Number i; + cmsUInt16Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + + fk = _cmsToFixedDomain((cmsS15Fixed16Number) Input[0] * p16 -> Domain[0]); + k0 = FIXED_TO_INT(fk); + rk = FIXED_REST_TO_INT(fk); + + K0 = p16 -> opta[4] * k0; + K1 = p16 -> opta[4] * (k0 + (Input[0] != 0xFFFFU ? 1 : 0)); + + p1 = *p16; + memmove(&p1.Domain[0], &p16 ->Domain[1], 4*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval4Inputs(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval4Inputs(Input + 1, Tmp2, &p1); + + for (i=0; i < p16 -> nOutputs; i++) { + + Output[i] = LinearInterp(rk, Tmp1[i], Tmp2[i]); + } + +} + + +static +void Eval5InputsFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p -> Table; + cmsFloat32Number rest; + cmsFloat32Number pk; + int k0, K0, K1; + const cmsFloat32Number* T; + cmsUInt32Number i; + cmsFloat32Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + pk = fclamp(Input[0]) * p->Domain[0]; + k0 = _cmsQuickFloor(pk); + rest = pk - (cmsFloat32Number) k0; + + K0 = p -> opta[4] * k0; + K1 = K0 + (Input[0] >= 1.0 ? 0 : p->opta[4]); + + p1 = *p; + memmove(&p1.Domain[0], &p ->Domain[1], 4*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval4InputsFloat(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval4InputsFloat(Input + 1, Tmp2, &p1); + + for (i=0; i < p -> nOutputs; i++) { + + cmsFloat32Number y0 = Tmp1[i]; + cmsFloat32Number y1 = Tmp2[i]; + + Output[i] = y0 + (y1 - y0) * rest; + } +} + + + +static +void Eval6Inputs(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p16) +{ + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p16 -> Table; + cmsS15Fixed16Number fk; + cmsS15Fixed16Number k0, rk; + int K0, K1; + const cmsUInt16Number* T; + cmsUInt32Number i; + cmsUInt16Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + fk = _cmsToFixedDomain((cmsS15Fixed16Number) Input[0] * p16 -> Domain[0]); + k0 = FIXED_TO_INT(fk); + rk = FIXED_REST_TO_INT(fk); + + K0 = p16 -> opta[5] * k0; + K1 = p16 -> opta[5] * (k0 + (Input[0] != 0xFFFFU ? 1 : 0)); + + p1 = *p16; + memmove(&p1.Domain[0], &p16 ->Domain[1], 5*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval5Inputs(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval5Inputs(Input + 1, Tmp2, &p1); + + for (i=0; i < p16 -> nOutputs; i++) { + + Output[i] = LinearInterp(rk, Tmp1[i], Tmp2[i]); + } + +} + + +static +void Eval6InputsFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p -> Table; + cmsFloat32Number rest; + cmsFloat32Number pk; + int k0, K0, K1; + const cmsFloat32Number* T; + cmsUInt32Number i; + cmsFloat32Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + pk = fclamp(Input[0]) * p->Domain[0]; + k0 = _cmsQuickFloor(pk); + rest = pk - (cmsFloat32Number) k0; + + K0 = p -> opta[5] * k0; + K1 = K0 + (Input[0] >= 1.0 ? 0 : p->opta[5]); + + p1 = *p; + memmove(&p1.Domain[0], &p ->Domain[1], 5*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval5InputsFloat(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval5InputsFloat(Input + 1, Tmp2, &p1); + + for (i=0; i < p -> nOutputs; i++) { + + cmsFloat32Number y0 = Tmp1[i]; + cmsFloat32Number y1 = Tmp2[i]; + + Output[i] = y0 + (y1 - y0) * rest; + } +} + + +static +void Eval7Inputs(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p16) +{ + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p16 -> Table; + cmsS15Fixed16Number fk; + cmsS15Fixed16Number k0, rk; + int K0, K1; + const cmsUInt16Number* T; + cmsUInt32Number i; + cmsUInt16Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + + fk = _cmsToFixedDomain((cmsS15Fixed16Number) Input[0] * p16 -> Domain[0]); + k0 = FIXED_TO_INT(fk); + rk = FIXED_REST_TO_INT(fk); + + K0 = p16 -> opta[6] * k0; + K1 = p16 -> opta[6] * (k0 + (Input[0] != 0xFFFFU ? 1 : 0)); + + p1 = *p16; + memmove(&p1.Domain[0], &p16 ->Domain[1], 6*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval6Inputs(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval6Inputs(Input + 1, Tmp2, &p1); + + for (i=0; i < p16 -> nOutputs; i++) { + Output[i] = LinearInterp(rk, Tmp1[i], Tmp2[i]); + } +} + + +static +void Eval7InputsFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p -> Table; + cmsFloat32Number rest; + cmsFloat32Number pk; + int k0, K0, K1; + const cmsFloat32Number* T; + cmsUInt32Number i; + cmsFloat32Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + pk = fclamp(Input[0]) * p->Domain[0]; + k0 = _cmsQuickFloor(pk); + rest = pk - (cmsFloat32Number) k0; + + K0 = p -> opta[6] * k0; + K1 = K0 + (Input[0] >= 1.0 ? 0 : p->opta[6]); + + p1 = *p; + memmove(&p1.Domain[0], &p ->Domain[1], 6*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval6InputsFloat(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval6InputsFloat(Input + 1, Tmp2, &p1); + + + for (i=0; i < p -> nOutputs; i++) { + + cmsFloat32Number y0 = Tmp1[i]; + cmsFloat32Number y1 = Tmp2[i]; + + Output[i] = y0 + (y1 - y0) * rest; + + } +} + +static +void Eval8Inputs(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const cmsInterpParams* p16) +{ + const cmsUInt16Number* LutTable = (cmsUInt16Number*) p16 -> Table; + cmsS15Fixed16Number fk; + cmsS15Fixed16Number k0, rk; + int K0, K1; + const cmsUInt16Number* T; + cmsUInt32Number i; + cmsUInt16Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + fk = _cmsToFixedDomain((cmsS15Fixed16Number) Input[0] * p16 -> Domain[0]); + k0 = FIXED_TO_INT(fk); + rk = FIXED_REST_TO_INT(fk); + + K0 = p16 -> opta[7] * k0; + K1 = p16 -> opta[7] * (k0 + (Input[0] != 0xFFFFU ? 1 : 0)); + + p1 = *p16; + memmove(&p1.Domain[0], &p16 ->Domain[1], 7*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval7Inputs(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + Eval7Inputs(Input + 1, Tmp2, &p1); + + for (i=0; i < p16 -> nOutputs; i++) { + Output[i] = LinearInterp(rk, Tmp1[i], Tmp2[i]); + } +} + + + +static +void Eval8InputsFloat(const cmsFloat32Number Input[], + cmsFloat32Number Output[], + const cmsInterpParams* p) +{ + const cmsFloat32Number* LutTable = (cmsFloat32Number*) p -> Table; + cmsFloat32Number rest; + cmsFloat32Number pk; + int k0, K0, K1; + const cmsFloat32Number* T; + cmsUInt32Number i; + cmsFloat32Number Tmp1[MAX_STAGE_CHANNELS], Tmp2[MAX_STAGE_CHANNELS]; + cmsInterpParams p1; + + pk = fclamp(Input[0]) * p->Domain[0]; + k0 = _cmsQuickFloor(pk); + rest = pk - (cmsFloat32Number) k0; + + K0 = p -> opta[7] * k0; + K1 = K0 + (Input[0] >= 1.0 ? 0 : p->opta[7]); + + p1 = *p; + memmove(&p1.Domain[0], &p ->Domain[1], 7*sizeof(cmsUInt32Number)); + + T = LutTable + K0; + p1.Table = T; + + Eval7InputsFloat(Input + 1, Tmp1, &p1); + + T = LutTable + K1; + p1.Table = T; + + Eval7InputsFloat(Input + 1, Tmp2, &p1); + + + for (i=0; i < p -> nOutputs; i++) { + + cmsFloat32Number y0 = Tmp1[i]; + cmsFloat32Number y1 = Tmp2[i]; + + Output[i] = y0 + (y1 - y0) * rest; + } +} + +// The default factory +static +cmsInterpFunction DefaultInterpolatorsFactory(cmsUInt32Number nInputChannels, cmsUInt32Number nOutputChannels, cmsUInt32Number dwFlags) +{ + + cmsInterpFunction Interpolation; + cmsBool IsFloat = (dwFlags & CMS_LERP_FLAGS_FLOAT); + cmsBool IsTrilinear = (dwFlags & CMS_LERP_FLAGS_TRILINEAR); + + memset(&Interpolation, 0, sizeof(Interpolation)); + + // Safety check + if (nInputChannels >= 4 && nOutputChannels >= MAX_STAGE_CHANNELS) + return Interpolation; + + switch (nInputChannels) { + + case 1: // Gray LUT / linear + + if (nOutputChannels == 1) { + + if (IsFloat) + Interpolation.LerpFloat = LinLerp1Dfloat; + else + Interpolation.Lerp16 = LinLerp1D; + + } + else { + + if (IsFloat) + Interpolation.LerpFloat = Eval1InputFloat; + else + Interpolation.Lerp16 = Eval1Input; + } + break; + + case 2: // Duotone + if (IsFloat) + Interpolation.LerpFloat = BilinearInterpFloat; + else + Interpolation.Lerp16 = BilinearInterp16; + break; + + case 3: // RGB et al + + if (IsTrilinear) { + + if (IsFloat) + Interpolation.LerpFloat = TrilinearInterpFloat; + else + Interpolation.Lerp16 = TrilinearInterp16; + } + else { + + if (IsFloat) + Interpolation.LerpFloat = TetrahedralInterpFloat; + else { + + Interpolation.Lerp16 = TetrahedralInterp16; + } + } + break; + + case 4: // CMYK lut + + if (IsFloat) + Interpolation.LerpFloat = Eval4InputsFloat; + else + Interpolation.Lerp16 = Eval4Inputs; + break; + + case 5: // 5 Inks + if (IsFloat) + Interpolation.LerpFloat = Eval5InputsFloat; + else + Interpolation.Lerp16 = Eval5Inputs; + break; + + case 6: // 6 Inks + if (IsFloat) + Interpolation.LerpFloat = Eval6InputsFloat; + else + Interpolation.Lerp16 = Eval6Inputs; + break; + + case 7: // 7 inks + if (IsFloat) + Interpolation.LerpFloat = Eval7InputsFloat; + else + Interpolation.Lerp16 = Eval7Inputs; + break; + + case 8: // 8 inks + if (IsFloat) + Interpolation.LerpFloat = Eval8InputsFloat; + else + Interpolation.Lerp16 = Eval8Inputs; + break; + + break; + + default: + Interpolation.Lerp16 = NULL; + } + + return Interpolation; +} Index: sdk/lib/3rdparty/lcms2/cmsio0.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsio0.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsio0.c (working copy) @@ -0,0 +1,1928 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Generic I/O, tag dictionary management, profile struct + +// IOhandlers are abstractions used by littleCMS to read from whatever file, stream, +// memory block or any storage. Each IOhandler provides implementations for read, +// write, seek and tell functions. LittleCMS code deals with IO across those objects. +// In this way, is easier to add support for new storage media. + +// NULL stream, for taking care of used space ------------------------------------- + +// NULL IOhandler basically does nothing but keep track on how many bytes have been +// written. This is handy when creating profiles, where the file size is needed in the +// header. Then, whole profile is serialized across NULL IOhandler and a second pass +// writes the bytes to the pertinent IOhandler. + +typedef struct { + cmsUInt32Number Pointer; // Points to current location +} FILENULL; + +static +cmsUInt32Number NULLRead(cmsIOHANDLER* iohandler, void *Buffer, cmsUInt32Number size, cmsUInt32Number count) +{ + FILENULL* ResData = (FILENULL*) iohandler ->stream; + + cmsUInt32Number len = size * count; + ResData -> Pointer += len; + return count; + + cmsUNUSED_PARAMETER(Buffer); +} + +static +cmsBool NULLSeek(cmsIOHANDLER* iohandler, cmsUInt32Number offset) +{ + FILENULL* ResData = (FILENULL*) iohandler ->stream; + + ResData ->Pointer = offset; + return TRUE; +} + +static +cmsUInt32Number NULLTell(cmsIOHANDLER* iohandler) +{ + FILENULL* ResData = (FILENULL*) iohandler ->stream; + return ResData -> Pointer; +} + +static +cmsBool NULLWrite(cmsIOHANDLER* iohandler, cmsUInt32Number size, const void *Ptr) +{ + FILENULL* ResData = (FILENULL*) iohandler ->stream; + + ResData ->Pointer += size; + if (ResData ->Pointer > iohandler->UsedSpace) + iohandler->UsedSpace = ResData ->Pointer; + + return TRUE; + + cmsUNUSED_PARAMETER(Ptr); +} + +static +cmsBool NULLClose(cmsIOHANDLER* iohandler) +{ + FILENULL* ResData = (FILENULL*) iohandler ->stream; + + _cmsFree(iohandler ->ContextID, ResData); + _cmsFree(iohandler ->ContextID, iohandler); + return TRUE; +} + +// The NULL IOhandler creator +cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromNULL(cmsContext ContextID) +{ + struct _cms_io_handler* iohandler = NULL; + FILENULL* fm = NULL; + + iohandler = (struct _cms_io_handler*) _cmsMallocZero(ContextID, sizeof(struct _cms_io_handler)); + if (iohandler == NULL) return NULL; + + fm = (FILENULL*) _cmsMallocZero(ContextID, sizeof(FILENULL)); + if (fm == NULL) goto Error; + + fm ->Pointer = 0; + + iohandler ->ContextID = ContextID; + iohandler ->stream = (void*) fm; + iohandler ->UsedSpace = 0; + iohandler ->ReportedSize = 0; + iohandler ->PhysicalFile[0] = 0; + + iohandler ->Read = NULLRead; + iohandler ->Seek = NULLSeek; + iohandler ->Close = NULLClose; + iohandler ->Tell = NULLTell; + iohandler ->Write = NULLWrite; + + return iohandler; + +Error: + if (iohandler) _cmsFree(ContextID, iohandler); + return NULL; + +} + + +// Memory-based stream -------------------------------------------------------------- + +// Those functions implements an iohandler which takes a block of memory as storage medium. + +typedef struct { + cmsUInt8Number* Block; // Points to allocated memory + cmsUInt32Number Size; // Size of allocated memory + cmsUInt32Number Pointer; // Points to current location + int FreeBlockOnClose; // As title + +} FILEMEM; + +static +cmsUInt32Number MemoryRead(struct _cms_io_handler* iohandler, void *Buffer, cmsUInt32Number size, cmsUInt32Number count) +{ + FILEMEM* ResData = (FILEMEM*) iohandler ->stream; + cmsUInt8Number* Ptr; + cmsUInt32Number len = size * count; + + if (ResData -> Pointer + len > ResData -> Size){ + + len = (ResData -> Size - ResData -> Pointer); + cmsSignalError(iohandler ->ContextID, cmsERROR_READ, "Read from memory error. Got %d bytes, block should be of %d bytes", len, count * size); + return 0; + } + + Ptr = ResData -> Block; + Ptr += ResData -> Pointer; + memmove(Buffer, Ptr, len); + ResData -> Pointer += len; + + return count; +} + +// SEEK_CUR is assumed +static +cmsBool MemorySeek(struct _cms_io_handler* iohandler, cmsUInt32Number offset) +{ + FILEMEM* ResData = (FILEMEM*) iohandler ->stream; + + if (offset > ResData ->Size) { + cmsSignalError(iohandler ->ContextID, cmsERROR_SEEK, "Too few data; probably corrupted profile"); + return FALSE; + } + + ResData ->Pointer = offset; + return TRUE; +} + +// Tell for memory +static +cmsUInt32Number MemoryTell(struct _cms_io_handler* iohandler) +{ + FILEMEM* ResData = (FILEMEM*) iohandler ->stream; + + if (ResData == NULL) return 0; + return ResData -> Pointer; +} + + +// Writes data to memory, also keeps used space for further reference. +static +cmsBool MemoryWrite(struct _cms_io_handler* iohandler, cmsUInt32Number size, const void *Ptr) +{ + FILEMEM* ResData = (FILEMEM*) iohandler ->stream; + + if (ResData == NULL) return FALSE; // Housekeeping + + // Check for available space. Clip. + if (ResData->Pointer + size > ResData->Size) { + size = ResData ->Size - ResData->Pointer; + } + + if (size == 0) return TRUE; // Write zero bytes is ok, but does nothing + + memmove(ResData ->Block + ResData ->Pointer, Ptr, size); + ResData ->Pointer += size; + + if (ResData ->Pointer > iohandler->UsedSpace) + iohandler->UsedSpace = ResData ->Pointer; + + return TRUE; +} + + +static +cmsBool MemoryClose(struct _cms_io_handler* iohandler) +{ + FILEMEM* ResData = (FILEMEM*) iohandler ->stream; + + if (ResData ->FreeBlockOnClose) { + + if (ResData ->Block) _cmsFree(iohandler ->ContextID, ResData ->Block); + } + + _cmsFree(iohandler ->ContextID, ResData); + _cmsFree(iohandler ->ContextID, iohandler); + + return TRUE; +} + +// Create a iohandler for memory block. AccessMode=='r' assumes the iohandler is going to read, and makes +// a copy of the memory block for letting user to free the memory after invoking open profile. In write +// mode ("w"), Buffere points to the begin of memory block to be written. +cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromMem(cmsContext ContextID, void *Buffer, cmsUInt32Number size, const char* AccessMode) +{ + cmsIOHANDLER* iohandler = NULL; + FILEMEM* fm = NULL; + + _cmsAssert(AccessMode != NULL); + + iohandler = (cmsIOHANDLER*) _cmsMallocZero(ContextID, sizeof(cmsIOHANDLER)); + if (iohandler == NULL) return NULL; + + switch (*AccessMode) { + + case 'r': + fm = (FILEMEM*) _cmsMallocZero(ContextID, sizeof(FILEMEM)); + if (fm == NULL) goto Error; + + if (Buffer == NULL) { + cmsSignalError(ContextID, cmsERROR_READ, "Couldn't read profile from NULL pointer"); + goto Error; + } + + fm ->Block = (cmsUInt8Number*) _cmsMalloc(ContextID, size); + if (fm ->Block == NULL) { + + _cmsFree(ContextID, fm); + _cmsFree(ContextID, iohandler); + cmsSignalError(ContextID, cmsERROR_READ, "Couldn't allocate %ld bytes for profile", size); + return NULL; + } + + + memmove(fm->Block, Buffer, size); + fm ->FreeBlockOnClose = TRUE; + fm ->Size = size; + fm ->Pointer = 0; + iohandler -> ReportedSize = size; + break; + + case 'w': + fm = (FILEMEM*) _cmsMallocZero(ContextID, sizeof(FILEMEM)); + if (fm == NULL) goto Error; + + fm ->Block = (cmsUInt8Number*) Buffer; + fm ->FreeBlockOnClose = FALSE; + fm ->Size = size; + fm ->Pointer = 0; + iohandler -> ReportedSize = 0; + break; + + default: + cmsSignalError(ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown access mode '%c'", *AccessMode); + return NULL; + } + + iohandler ->ContextID = ContextID; + iohandler ->stream = (void*) fm; + iohandler ->UsedSpace = 0; + iohandler ->PhysicalFile[0] = 0; + + iohandler ->Read = MemoryRead; + iohandler ->Seek = MemorySeek; + iohandler ->Close = MemoryClose; + iohandler ->Tell = MemoryTell; + iohandler ->Write = MemoryWrite; + + return iohandler; + +Error: + if (fm) _cmsFree(ContextID, fm); + if (iohandler) _cmsFree(ContextID, iohandler); + return NULL; +} + +// File-based stream ------------------------------------------------------- + +// Read count elements of size bytes each. Return number of elements read +static +cmsUInt32Number FileRead(cmsIOHANDLER* iohandler, void *Buffer, cmsUInt32Number size, cmsUInt32Number count) +{ + cmsUInt32Number nReaded = (cmsUInt32Number) fread(Buffer, size, count, (FILE*) iohandler->stream); + + if (nReaded != count) { + cmsSignalError(iohandler ->ContextID, cmsERROR_FILE, "Read error. Got %d bytes, block should be of %d bytes", nReaded * size, count * size); + return 0; + } + + return nReaded; +} + +// Position file pointer in the file +static +cmsBool FileSeek(cmsIOHANDLER* iohandler, cmsUInt32Number offset) +{ + if (fseek((FILE*) iohandler ->stream, (long) offset, SEEK_SET) != 0) { + + cmsSignalError(iohandler ->ContextID, cmsERROR_FILE, "Seek error; probably corrupted file"); + return FALSE; + } + + return TRUE; +} + +// Returns file pointer position +static +cmsUInt32Number FileTell(cmsIOHANDLER* iohandler) +{ + return (cmsUInt32Number) ftell((FILE*)iohandler ->stream); +} + +// Writes data to stream, also keeps used space for further reference. Returns TRUE on success, FALSE on error +static +cmsBool FileWrite(cmsIOHANDLER* iohandler, cmsUInt32Number size, const void* Buffer) +{ + if (size == 0) return TRUE; // We allow to write 0 bytes, but nothing is written + + iohandler->UsedSpace += size; + return (fwrite(Buffer, size, 1, (FILE*) iohandler->stream) == 1); +} + +// Closes the file +static +cmsBool FileClose(cmsIOHANDLER* iohandler) +{ + if (fclose((FILE*) iohandler ->stream) != 0) return FALSE; + _cmsFree(iohandler ->ContextID, iohandler); + return TRUE; +} + +// Create a iohandler for disk based files. +cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromFile(cmsContext ContextID, const char* FileName, const char* AccessMode) +{ + cmsIOHANDLER* iohandler = NULL; + FILE* fm = NULL; + cmsInt32Number fileLen; + + _cmsAssert(FileName != NULL); + _cmsAssert(AccessMode != NULL); + + iohandler = (cmsIOHANDLER*) _cmsMallocZero(ContextID, sizeof(cmsIOHANDLER)); + if (iohandler == NULL) return NULL; + + switch (*AccessMode) { + + case 'r': + fm = fopen(FileName, "rb"); + if (fm == NULL) { + _cmsFree(ContextID, iohandler); + cmsSignalError(ContextID, cmsERROR_FILE, "File '%s' not found", FileName); + return NULL; + } + fileLen = cmsfilelength(fm); + if (fileLen < 0) + { + fclose(fm); + _cmsFree(ContextID, iohandler); + cmsSignalError(ContextID, cmsERROR_FILE, "Cannot get size of file '%s'", FileName); + return NULL; + } + + iohandler -> ReportedSize = (cmsUInt32Number) fileLen; + break; + + case 'w': + fm = fopen(FileName, "wb"); + if (fm == NULL) { + _cmsFree(ContextID, iohandler); + cmsSignalError(ContextID, cmsERROR_FILE, "Couldn't create '%s'", FileName); + return NULL; + } + iohandler -> ReportedSize = 0; + break; + + default: + _cmsFree(ContextID, iohandler); + cmsSignalError(ContextID, cmsERROR_FILE, "Unknown access mode '%c'", *AccessMode); + return NULL; + } + + iohandler ->ContextID = ContextID; + iohandler ->stream = (void*) fm; + iohandler ->UsedSpace = 0; + + // Keep track of the original file + strncpy(iohandler -> PhysicalFile, FileName, sizeof(iohandler -> PhysicalFile)-1); + iohandler -> PhysicalFile[sizeof(iohandler -> PhysicalFile)-1] = 0; + + iohandler ->Read = FileRead; + iohandler ->Seek = FileSeek; + iohandler ->Close = FileClose; + iohandler ->Tell = FileTell; + iohandler ->Write = FileWrite; + + return iohandler; +} + +// Create a iohandler for stream based files +cmsIOHANDLER* CMSEXPORT cmsOpenIOhandlerFromStream(cmsContext ContextID, FILE* Stream) +{ + cmsIOHANDLER* iohandler = NULL; + cmsInt32Number fileSize; + + fileSize = cmsfilelength(Stream); + if (fileSize < 0) + { + cmsSignalError(ContextID, cmsERROR_FILE, "Cannot get size of stream"); + return NULL; + } + + iohandler = (cmsIOHANDLER*) _cmsMallocZero(ContextID, sizeof(cmsIOHANDLER)); + if (iohandler == NULL) return NULL; + + iohandler -> ContextID = ContextID; + iohandler -> stream = (void*) Stream; + iohandler -> UsedSpace = 0; + iohandler -> ReportedSize = (cmsUInt32Number) fileSize; + iohandler -> PhysicalFile[0] = 0; + + iohandler ->Read = FileRead; + iohandler ->Seek = FileSeek; + iohandler ->Close = FileClose; + iohandler ->Tell = FileTell; + iohandler ->Write = FileWrite; + + return iohandler; +} + + + +// Close an open IO handler +cmsBool CMSEXPORT cmsCloseIOhandler(cmsIOHANDLER* io) +{ + return io -> Close(io); +} + +// ------------------------------------------------------------------------------------------------------- + +cmsIOHANDLER* CMSEXPORT cmsGetProfileIOhandler(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*)hProfile; + + if (Icc == NULL) return NULL; + return Icc->IOhandler; +} + +// Creates an empty structure holding all required parameters +cmsHPROFILE CMSEXPORT cmsCreateProfilePlaceholder(cmsContext ContextID) +{ + time_t now = time(NULL); + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) _cmsMallocZero(ContextID, sizeof(_cmsICCPROFILE)); + if (Icc == NULL) return NULL; + + Icc ->ContextID = ContextID; + + // Set it to empty + Icc -> TagCount = 0; + + // Set default version + Icc ->Version = 0x02100000; + + // Set creation date/time + memmove(&Icc ->Created, gmtime(&now), sizeof(Icc ->Created)); + + // Create a mutex if the user provided proper plugin. NULL otherwise + Icc ->UsrMutex = _cmsCreateMutex(ContextID); + + // Return the handle + return (cmsHPROFILE) Icc; +} + +cmsContext CMSEXPORT cmsGetProfileContextID(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + + if (Icc == NULL) return NULL; + return Icc -> ContextID; +} + + +// Return the number of tags +cmsInt32Number CMSEXPORT cmsGetTagCount(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + if (Icc == NULL) return -1; + + return Icc->TagCount; +} + +// Return the tag signature of a given tag number +cmsTagSignature CMSEXPORT cmsGetTagSignature(cmsHPROFILE hProfile, cmsUInt32Number n) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + + if (n > Icc->TagCount) return (cmsTagSignature) 0; // Mark as not available + if (n >= MAX_TABLE_TAG) return (cmsTagSignature) 0; // As double check + + return Icc ->TagNames[n]; +} + + +static +int SearchOneTag(_cmsICCPROFILE* Profile, cmsTagSignature sig) +{ + cmsUInt32Number i; + + for (i=0; i < Profile -> TagCount; i++) { + + if (sig == Profile -> TagNames[i]) + return i; + } + + return -1; +} + +// Search for a specific tag in tag dictionary. Returns position or -1 if tag not found. +// If followlinks is turned on, then the position of the linked tag is returned +int _cmsSearchTag(_cmsICCPROFILE* Icc, cmsTagSignature sig, cmsBool lFollowLinks) +{ + int n; + cmsTagSignature LinkedSig; + + do { + + // Search for given tag in ICC profile directory + n = SearchOneTag(Icc, sig); + if (n < 0) + return -1; // Not found + + if (!lFollowLinks) + return n; // Found, don't follow links + + // Is this a linked tag? + LinkedSig = Icc ->TagLinked[n]; + + // Yes, follow link + if (LinkedSig != (cmsTagSignature) 0) { + sig = LinkedSig; + } + + } while (LinkedSig != (cmsTagSignature) 0); + + return n; +} + +// Deletes a tag entry + +static +void _cmsDeleteTagByPos(_cmsICCPROFILE* Icc, int i) +{ + _cmsAssert(Icc != NULL); + _cmsAssert(i >= 0); + + + if (Icc -> TagPtrs[i] != NULL) { + + // Free previous version + if (Icc ->TagSaveAsRaw[i]) { + _cmsFree(Icc ->ContextID, Icc ->TagPtrs[i]); + } + else { + cmsTagTypeHandler* TypeHandler = Icc ->TagTypeHandlers[i]; + + if (TypeHandler != NULL) { + + cmsTagTypeHandler LocalTypeHandler = *TypeHandler; + LocalTypeHandler.ContextID = Icc ->ContextID; // As an additional parameter + LocalTypeHandler.ICCVersion = Icc ->Version; + LocalTypeHandler.FreePtr(&LocalTypeHandler, Icc -> TagPtrs[i]); + Icc ->TagPtrs[i] = NULL; + } + } + + } +} + + +// Creates a new tag entry +static +cmsBool _cmsNewTag(_cmsICCPROFILE* Icc, cmsTagSignature sig, int* NewPos) +{ + int i; + + // Search for the tag + i = _cmsSearchTag(Icc, sig, FALSE); + if (i >= 0) { + + // Already exists? delete it + _cmsDeleteTagByPos(Icc, i); + *NewPos = i; + } + else { + + // No, make a new one + + if (Icc -> TagCount >= MAX_TABLE_TAG) { + cmsSignalError(Icc ->ContextID, cmsERROR_RANGE, "Too many tags (%d)", MAX_TABLE_TAG); + return FALSE; + } + + *NewPos = Icc ->TagCount; + Icc -> TagCount++; + } + + return TRUE; +} + + +// Check existence +cmsBool CMSEXPORT cmsIsTag(cmsHPROFILE hProfile, cmsTagSignature sig) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) (void*) hProfile; + return _cmsSearchTag(Icc, sig, FALSE) >= 0; +} + + + +// Enforces that the profile version is per. spec. +// Operates on the big endian bytes from the profile. +// Called before converting to platform endianness. +// Byte 0 is BCD major version, so max 9. +// Byte 1 is 2 BCD digits, one per nibble. +// Reserved bytes 2 & 3 must be 0. +static +cmsUInt32Number _validatedVersion(cmsUInt32Number DWord) +{ + cmsUInt8Number* pByte = (cmsUInt8Number*) &DWord; + cmsUInt8Number temp1; + cmsUInt8Number temp2; + + if (*pByte > 0x09) *pByte = (cmsUInt8Number) 0x09; + temp1 = *(pByte+1) & 0xf0; + temp2 = *(pByte+1) & 0x0f; + if (temp1 > 0x90) temp1 = 0x90; + if (temp2 > 0x09) temp2 = 0x09; + *(pByte+1) = (cmsUInt8Number)(temp1 | temp2); + *(pByte+2) = (cmsUInt8Number)0; + *(pByte+3) = (cmsUInt8Number)0; + + return DWord; +} + +// Read profile header and validate it +cmsBool _cmsReadHeader(_cmsICCPROFILE* Icc) +{ + cmsTagEntry Tag; + cmsICCHeader Header; + cmsUInt32Number i, j; + cmsUInt32Number HeaderSize; + cmsIOHANDLER* io = Icc ->IOhandler; + cmsUInt32Number TagCount; + + + // Read the header + if (io -> Read(io, &Header, sizeof(cmsICCHeader), 1) != 1) { + return FALSE; + } + + // Validate file as an ICC profile + if (_cmsAdjustEndianess32(Header.magic) != cmsMagicNumber) { + cmsSignalError(Icc ->ContextID, cmsERROR_BAD_SIGNATURE, "not an ICC profile, invalid signature"); + return FALSE; + } + + // Adjust endianness of the used parameters + Icc -> DeviceClass = (cmsProfileClassSignature) _cmsAdjustEndianess32(Header.deviceClass); + Icc -> ColorSpace = (cmsColorSpaceSignature) _cmsAdjustEndianess32(Header.colorSpace); + Icc -> PCS = (cmsColorSpaceSignature) _cmsAdjustEndianess32(Header.pcs); + + Icc -> RenderingIntent = _cmsAdjustEndianess32(Header.renderingIntent); + Icc -> flags = _cmsAdjustEndianess32(Header.flags); + Icc -> manufacturer = _cmsAdjustEndianess32(Header.manufacturer); + Icc -> model = _cmsAdjustEndianess32(Header.model); + Icc -> creator = _cmsAdjustEndianess32(Header.creator); + + _cmsAdjustEndianess64(&Icc -> attributes, &Header.attributes); + Icc -> Version = _cmsAdjustEndianess32(_validatedVersion(Header.version)); + + // Get size as reported in header + HeaderSize = _cmsAdjustEndianess32(Header.size); + + // Make sure HeaderSize is lower than profile size + if (HeaderSize >= Icc ->IOhandler ->ReportedSize) + HeaderSize = Icc ->IOhandler ->ReportedSize; + + + // Get creation date/time + _cmsDecodeDateTimeNumber(&Header.date, &Icc ->Created); + + // The profile ID are 32 raw bytes + memmove(Icc ->ProfileID.ID32, Header.profileID.ID32, 16); + + + // Read tag directory + if (!_cmsReadUInt32Number(io, &TagCount)) return FALSE; + if (TagCount > MAX_TABLE_TAG) { + + cmsSignalError(Icc ->ContextID, cmsERROR_RANGE, "Too many tags (%d)", TagCount); + return FALSE; + } + + + // Read tag directory + Icc -> TagCount = 0; + for (i=0; i < TagCount; i++) { + + if (!_cmsReadUInt32Number(io, (cmsUInt32Number *) &Tag.sig)) return FALSE; + if (!_cmsReadUInt32Number(io, &Tag.offset)) return FALSE; + if (!_cmsReadUInt32Number(io, &Tag.size)) return FALSE; + + // Perform some sanity check. Offset + size should fall inside file. + if (Tag.offset + Tag.size > HeaderSize || + Tag.offset + Tag.size < Tag.offset) + continue; + + Icc -> TagNames[Icc ->TagCount] = Tag.sig; + Icc -> TagOffsets[Icc ->TagCount] = Tag.offset; + Icc -> TagSizes[Icc ->TagCount] = Tag.size; + + // Search for links + for (j=0; j < Icc ->TagCount; j++) { + + if ((Icc ->TagOffsets[j] == Tag.offset) && + (Icc ->TagSizes[j] == Tag.size)) { + + Icc ->TagLinked[Icc ->TagCount] = Icc ->TagNames[j]; + } + + } + + Icc ->TagCount++; + } + + return TRUE; +} + +// Saves profile header +cmsBool _cmsWriteHeader(_cmsICCPROFILE* Icc, cmsUInt32Number UsedSpace) +{ + cmsICCHeader Header; + cmsUInt32Number i; + cmsTagEntry Tag; + cmsInt32Number Count = 0; + + Header.size = _cmsAdjustEndianess32(UsedSpace); + Header.cmmId = _cmsAdjustEndianess32(lcmsSignature); + Header.version = _cmsAdjustEndianess32(Icc ->Version); + + Header.deviceClass = (cmsProfileClassSignature) _cmsAdjustEndianess32(Icc -> DeviceClass); + Header.colorSpace = (cmsColorSpaceSignature) _cmsAdjustEndianess32(Icc -> ColorSpace); + Header.pcs = (cmsColorSpaceSignature) _cmsAdjustEndianess32(Icc -> PCS); + + // NOTE: in v4 Timestamp must be in UTC rather than in local time + _cmsEncodeDateTimeNumber(&Header.date, &Icc ->Created); + + Header.magic = _cmsAdjustEndianess32(cmsMagicNumber); + +#ifdef CMS_IS_WINDOWS_ + Header.platform = (cmsPlatformSignature) _cmsAdjustEndianess32(cmsSigMicrosoft); +#else + Header.platform = (cmsPlatformSignature) _cmsAdjustEndianess32(cmsSigMacintosh); +#endif + + Header.flags = _cmsAdjustEndianess32(Icc -> flags); + Header.manufacturer = _cmsAdjustEndianess32(Icc -> manufacturer); + Header.model = _cmsAdjustEndianess32(Icc -> model); + + _cmsAdjustEndianess64(&Header.attributes, &Icc -> attributes); + + // Rendering intent in the header (for embedded profiles) + Header.renderingIntent = _cmsAdjustEndianess32(Icc -> RenderingIntent); + + // Illuminant is always D50 + Header.illuminant.X = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(cmsD50_XYZ()->X)); + Header.illuminant.Y = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(cmsD50_XYZ()->Y)); + Header.illuminant.Z = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(cmsD50_XYZ()->Z)); + + // Created by LittleCMS (that's me!) + Header.creator = _cmsAdjustEndianess32(lcmsSignature); + + memset(&Header.reserved, 0, sizeof(Header.reserved)); + + // Set profile ID. Endianness is always big endian + memmove(&Header.profileID, &Icc ->ProfileID, 16); + + // Dump the header + if (!Icc -> IOhandler->Write(Icc->IOhandler, sizeof(cmsICCHeader), &Header)) return FALSE; + + // Saves Tag directory + + // Get true count + for (i=0; i < Icc -> TagCount; i++) { + if (Icc ->TagNames[i] != (cmsTagSignature) 0) + Count++; + } + + // Store number of tags + if (!_cmsWriteUInt32Number(Icc ->IOhandler, Count)) return FALSE; + + for (i=0; i < Icc -> TagCount; i++) { + + if (Icc ->TagNames[i] == (cmsTagSignature) 0) continue; // It is just a placeholder + + Tag.sig = (cmsTagSignature) _cmsAdjustEndianess32((cmsInt32Number) Icc -> TagNames[i]); + Tag.offset = _cmsAdjustEndianess32((cmsInt32Number) Icc -> TagOffsets[i]); + Tag.size = _cmsAdjustEndianess32((cmsInt32Number) Icc -> TagSizes[i]); + + if (!Icc ->IOhandler -> Write(Icc-> IOhandler, sizeof(cmsTagEntry), &Tag)) return FALSE; + } + + return TRUE; +} + +// ----------------------------------------------------------------------- Set/Get several struct members + + +cmsUInt32Number CMSEXPORT cmsGetHeaderRenderingIntent(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc -> RenderingIntent; +} + +void CMSEXPORT cmsSetHeaderRenderingIntent(cmsHPROFILE hProfile, cmsUInt32Number RenderingIntent) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> RenderingIntent = RenderingIntent; +} + +cmsUInt32Number CMSEXPORT cmsGetHeaderFlags(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return (cmsUInt32Number) Icc -> flags; +} + +void CMSEXPORT cmsSetHeaderFlags(cmsHPROFILE hProfile, cmsUInt32Number Flags) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> flags = (cmsUInt32Number) Flags; +} + +cmsUInt32Number CMSEXPORT cmsGetHeaderManufacturer(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc ->manufacturer; +} + +void CMSEXPORT cmsSetHeaderManufacturer(cmsHPROFILE hProfile, cmsUInt32Number manufacturer) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> manufacturer = manufacturer; +} + +cmsUInt32Number CMSEXPORT cmsGetHeaderCreator(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc ->creator; +} + +cmsUInt32Number CMSEXPORT cmsGetHeaderModel(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc ->model; +} + +void CMSEXPORT cmsSetHeaderModel(cmsHPROFILE hProfile, cmsUInt32Number model) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> model = model; +} + +void CMSEXPORT cmsGetHeaderAttributes(cmsHPROFILE hProfile, cmsUInt64Number* Flags) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + memmove(Flags, &Icc -> attributes, sizeof(cmsUInt64Number)); +} + +void CMSEXPORT cmsSetHeaderAttributes(cmsHPROFILE hProfile, cmsUInt64Number Flags) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + memmove(&Icc -> attributes, &Flags, sizeof(cmsUInt64Number)); +} + +void CMSEXPORT cmsGetHeaderProfileID(cmsHPROFILE hProfile, cmsUInt8Number* ProfileID) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + memmove(ProfileID, Icc ->ProfileID.ID8, 16); +} + +void CMSEXPORT cmsSetHeaderProfileID(cmsHPROFILE hProfile, cmsUInt8Number* ProfileID) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + memmove(&Icc -> ProfileID, ProfileID, 16); +} + +cmsBool CMSEXPORT cmsGetHeaderCreationDateTime(cmsHPROFILE hProfile, struct tm *Dest) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + memmove(Dest, &Icc ->Created, sizeof(struct tm)); + return TRUE; +} + +cmsColorSpaceSignature CMSEXPORT cmsGetPCS(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc -> PCS; +} + +void CMSEXPORT cmsSetPCS(cmsHPROFILE hProfile, cmsColorSpaceSignature pcs) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> PCS = pcs; +} + +cmsColorSpaceSignature CMSEXPORT cmsGetColorSpace(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc -> ColorSpace; +} + +void CMSEXPORT cmsSetColorSpace(cmsHPROFILE hProfile, cmsColorSpaceSignature sig) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> ColorSpace = sig; +} + +cmsProfileClassSignature CMSEXPORT cmsGetDeviceClass(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc -> DeviceClass; +} + +void CMSEXPORT cmsSetDeviceClass(cmsHPROFILE hProfile, cmsProfileClassSignature sig) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> DeviceClass = sig; +} + +cmsUInt32Number CMSEXPORT cmsGetEncodedICCversion(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + return Icc -> Version; +} + +void CMSEXPORT cmsSetEncodedICCversion(cmsHPROFILE hProfile, cmsUInt32Number Version) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + Icc -> Version = Version; +} + +// Get an hexadecimal number with same digits as v +static +cmsUInt32Number BaseToBase(cmsUInt32Number in, int BaseIn, int BaseOut) +{ + char Buff[100]; + int i, len; + cmsUInt32Number out; + + for (len=0; in > 0 && len < 100; len++) { + + Buff[len] = (char) (in % BaseIn); + in /= BaseIn; + } + + for (i=len-1, out=0; i >= 0; --i) { + out = out * BaseOut + Buff[i]; + } + + return out; +} + +void CMSEXPORT cmsSetProfileVersion(cmsHPROFILE hProfile, cmsFloat64Number Version) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + + // 4.2 -> 0x4200000 + + Icc -> Version = BaseToBase((cmsUInt32Number) floor(Version * 100.0 + 0.5), 10, 16) << 16; +} + +cmsFloat64Number CMSEXPORT cmsGetProfileVersion(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + cmsUInt32Number n = Icc -> Version >> 16; + + return BaseToBase(n, 16, 10) / 100.0; +} +// -------------------------------------------------------------------------------------------------------------- + + +// Create profile from IOhandler +cmsHPROFILE CMSEXPORT cmsOpenProfileFromIOhandlerTHR(cmsContext ContextID, cmsIOHANDLER* io) +{ + _cmsICCPROFILE* NewIcc; + cmsHPROFILE hEmpty = cmsCreateProfilePlaceholder(ContextID); + + if (hEmpty == NULL) return NULL; + + NewIcc = (_cmsICCPROFILE*) hEmpty; + + NewIcc ->IOhandler = io; + if (!_cmsReadHeader(NewIcc)) goto Error; + return hEmpty; + +Error: + cmsCloseProfile(hEmpty); + return NULL; +} + +// Create profile from IOhandler +cmsHPROFILE CMSEXPORT cmsOpenProfileFromIOhandler2THR(cmsContext ContextID, cmsIOHANDLER* io, cmsBool write) +{ + _cmsICCPROFILE* NewIcc; + cmsHPROFILE hEmpty = cmsCreateProfilePlaceholder(ContextID); + + if (hEmpty == NULL) return NULL; + + NewIcc = (_cmsICCPROFILE*) hEmpty; + + NewIcc ->IOhandler = io; + if (write) { + + NewIcc -> IsWrite = TRUE; + return hEmpty; + } + + if (!_cmsReadHeader(NewIcc)) goto Error; + return hEmpty; + +Error: + cmsCloseProfile(hEmpty); + return NULL; +} + + +// Create profile from disk file +cmsHPROFILE CMSEXPORT cmsOpenProfileFromFileTHR(cmsContext ContextID, const char *lpFileName, const char *sAccess) +{ + _cmsICCPROFILE* NewIcc; + cmsHPROFILE hEmpty = cmsCreateProfilePlaceholder(ContextID); + + if (hEmpty == NULL) return NULL; + + NewIcc = (_cmsICCPROFILE*) hEmpty; + + NewIcc ->IOhandler = cmsOpenIOhandlerFromFile(ContextID, lpFileName, sAccess); + if (NewIcc ->IOhandler == NULL) goto Error; + + if (*sAccess == 'W' || *sAccess == 'w') { + + NewIcc -> IsWrite = TRUE; + + return hEmpty; + } + + if (!_cmsReadHeader(NewIcc)) goto Error; + return hEmpty; + +Error: + cmsCloseProfile(hEmpty); + return NULL; +} + + +cmsHPROFILE CMSEXPORT cmsOpenProfileFromFile(const char *ICCProfile, const char *sAccess) +{ + return cmsOpenProfileFromFileTHR(NULL, ICCProfile, sAccess); +} + + +cmsHPROFILE CMSEXPORT cmsOpenProfileFromStreamTHR(cmsContext ContextID, FILE* ICCProfile, const char *sAccess) +{ + _cmsICCPROFILE* NewIcc; + cmsHPROFILE hEmpty = cmsCreateProfilePlaceholder(ContextID); + + if (hEmpty == NULL) return NULL; + + NewIcc = (_cmsICCPROFILE*) hEmpty; + + NewIcc ->IOhandler = cmsOpenIOhandlerFromStream(ContextID, ICCProfile); + if (NewIcc ->IOhandler == NULL) goto Error; + + if (*sAccess == 'w') { + + NewIcc -> IsWrite = TRUE; + return hEmpty; + } + + if (!_cmsReadHeader(NewIcc)) goto Error; + return hEmpty; + +Error: + cmsCloseProfile(hEmpty); + return NULL; + +} + +cmsHPROFILE CMSEXPORT cmsOpenProfileFromStream(FILE* ICCProfile, const char *sAccess) +{ + return cmsOpenProfileFromStreamTHR(NULL, ICCProfile, sAccess); +} + + +// Open from memory block +cmsHPROFILE CMSEXPORT cmsOpenProfileFromMemTHR(cmsContext ContextID, const void* MemPtr, cmsUInt32Number dwSize) +{ + _cmsICCPROFILE* NewIcc; + cmsHPROFILE hEmpty; + + hEmpty = cmsCreateProfilePlaceholder(ContextID); + if (hEmpty == NULL) return NULL; + + NewIcc = (_cmsICCPROFILE*) hEmpty; + + // Ok, in this case const void* is casted to void* just because open IO handler + // shares read and writting modes. Don't abuse this feature! + NewIcc ->IOhandler = cmsOpenIOhandlerFromMem(ContextID, (void*) MemPtr, dwSize, "r"); + if (NewIcc ->IOhandler == NULL) goto Error; + + if (!_cmsReadHeader(NewIcc)) goto Error; + + return hEmpty; + +Error: + cmsCloseProfile(hEmpty); + return NULL; +} + +cmsHPROFILE CMSEXPORT cmsOpenProfileFromMem(const void* MemPtr, cmsUInt32Number dwSize) +{ + return cmsOpenProfileFromMemTHR(NULL, MemPtr, dwSize); +} + + + +// Dump tag contents. If the profile is being modified, untouched tags are copied from FileOrig +static +cmsBool SaveTags(_cmsICCPROFILE* Icc, _cmsICCPROFILE* FileOrig) +{ + cmsUInt8Number* Data; + cmsUInt32Number i; + cmsUInt32Number Begin; + cmsIOHANDLER* io = Icc ->IOhandler; + cmsTagDescriptor* TagDescriptor; + cmsTagTypeSignature TypeBase; + cmsTagTypeSignature Type; + cmsTagTypeHandler* TypeHandler; + cmsFloat64Number Version = cmsGetProfileVersion((cmsHPROFILE) Icc); + cmsTagTypeHandler LocalTypeHandler; + + for (i=0; i < Icc -> TagCount; i++) { + + if (Icc ->TagNames[i] == (cmsTagSignature) 0) continue; + + // Linked tags are not written + if (Icc ->TagLinked[i] != (cmsTagSignature) 0) continue; + + Icc -> TagOffsets[i] = Begin = io ->UsedSpace; + + Data = (cmsUInt8Number*) Icc -> TagPtrs[i]; + + if (!Data) { + + // Reach here if we are copying a tag from a disk-based ICC profile which has not been modified by user. + // In this case a blind copy of the block data is performed + if (FileOrig != NULL && Icc -> TagOffsets[i]) { + + cmsUInt32Number TagSize = FileOrig -> TagSizes[i]; + cmsUInt32Number TagOffset = FileOrig -> TagOffsets[i]; + void* Mem; + + if (!FileOrig ->IOhandler->Seek(FileOrig ->IOhandler, TagOffset)) return FALSE; + + Mem = _cmsMalloc(Icc ->ContextID, TagSize); + if (Mem == NULL) return FALSE; + + if (FileOrig ->IOhandler->Read(FileOrig->IOhandler, Mem, TagSize, 1) != 1) return FALSE; + if (!io ->Write(io, TagSize, Mem)) return FALSE; + _cmsFree(Icc ->ContextID, Mem); + + Icc -> TagSizes[i] = (io ->UsedSpace - Begin); + + + // Align to 32 bit boundary. + if (! _cmsWriteAlignment(io)) + return FALSE; + } + + continue; + } + + + // Should this tag be saved as RAW? If so, tagsizes should be specified in advance (no further cooking is done) + if (Icc ->TagSaveAsRaw[i]) { + + if (io -> Write(io, Icc ->TagSizes[i], Data) != 1) return FALSE; + } + else { + + // Search for support on this tag + TagDescriptor = _cmsGetTagDescriptor(Icc-> ContextID, Icc -> TagNames[i]); + if (TagDescriptor == NULL) continue; // Unsupported, ignore it + + if (TagDescriptor ->DecideType != NULL) { + + Type = TagDescriptor ->DecideType(Version, Data); + } + else { + + Type = TagDescriptor ->SupportedTypes[0]; + } + + TypeHandler = _cmsGetTagTypeHandler(Icc->ContextID, Type); + + if (TypeHandler == NULL) { + cmsSignalError(Icc ->ContextID, cmsERROR_INTERNAL, "(Internal) no handler for tag %x", Icc -> TagNames[i]); + continue; + } + + TypeBase = TypeHandler ->Signature; + if (!_cmsWriteTypeBase(io, TypeBase)) + return FALSE; + + LocalTypeHandler = *TypeHandler; + LocalTypeHandler.ContextID = Icc ->ContextID; + LocalTypeHandler.ICCVersion = Icc ->Version; + if (!LocalTypeHandler.WritePtr(&LocalTypeHandler, io, Data, TagDescriptor ->ElemCount)) { + + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) TypeBase); + cmsSignalError(Icc ->ContextID, cmsERROR_WRITE, "Couldn't write type '%s'", String); + return FALSE; + } + } + + + Icc -> TagSizes[i] = (io ->UsedSpace - Begin); + + // Align to 32 bit boundary. + if (! _cmsWriteAlignment(io)) + return FALSE; + } + + + return TRUE; +} + + +// Fill the offset and size fields for all linked tags +static +cmsBool SetLinks( _cmsICCPROFILE* Icc) +{ + cmsUInt32Number i; + + for (i=0; i < Icc -> TagCount; i++) { + + cmsTagSignature lnk = Icc ->TagLinked[i]; + if (lnk != (cmsTagSignature) 0) { + + int j = _cmsSearchTag(Icc, lnk, FALSE); + if (j >= 0) { + + Icc ->TagOffsets[i] = Icc ->TagOffsets[j]; + Icc ->TagSizes[i] = Icc ->TagSizes[j]; + } + + } + } + + return TRUE; +} + +// Low-level save to IOHANDLER. It returns the number of bytes used to +// store the profile, or zero on error. io may be NULL and in this case +// no data is written--only sizes are calculated +cmsUInt32Number CMSEXPORT cmsSaveProfileToIOhandler(cmsHPROFILE hProfile, cmsIOHANDLER* io) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + _cmsICCPROFILE Keep; + cmsIOHANDLER* PrevIO = NULL; + cmsUInt32Number UsedSpace; + cmsContext ContextID; + + _cmsAssert(hProfile != NULL); + + if (!_cmsLockMutex(Icc->ContextID, Icc->UsrMutex)) return 0; + memmove(&Keep, Icc, sizeof(_cmsICCPROFILE)); + + ContextID = cmsGetProfileContextID(hProfile); + PrevIO = Icc ->IOhandler = cmsOpenIOhandlerFromNULL(ContextID); + if (PrevIO == NULL) { + _cmsUnlockMutex(Icc->ContextID, Icc->UsrMutex); + return 0; + } + + // Pass #1 does compute offsets + + if (!_cmsWriteHeader(Icc, 0)) goto Error; + if (!SaveTags(Icc, &Keep)) goto Error; + + UsedSpace = PrevIO ->UsedSpace; + + // Pass #2 does save to iohandler + + if (io != NULL) { + + Icc ->IOhandler = io; + if (!SetLinks(Icc)) goto Error; + if (!_cmsWriteHeader(Icc, UsedSpace)) goto Error; + if (!SaveTags(Icc, &Keep)) goto Error; + } + + memmove(Icc, &Keep, sizeof(_cmsICCPROFILE)); + if (!cmsCloseIOhandler(PrevIO)) + UsedSpace = 0; // As a error marker + + _cmsUnlockMutex(Icc->ContextID, Icc->UsrMutex); + + return UsedSpace; + + +Error: + cmsCloseIOhandler(PrevIO); + memmove(Icc, &Keep, sizeof(_cmsICCPROFILE)); + _cmsUnlockMutex(Icc->ContextID, Icc->UsrMutex); + + return 0; +} + + +// Low-level save to disk. +cmsBool CMSEXPORT cmsSaveProfileToFile(cmsHPROFILE hProfile, const char* FileName) +{ + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsIOHANDLER* io = cmsOpenIOhandlerFromFile(ContextID, FileName, "w"); + cmsBool rc; + + if (io == NULL) return FALSE; + + rc = (cmsSaveProfileToIOhandler(hProfile, io) != 0); + rc &= cmsCloseIOhandler(io); + + if (rc == FALSE) { // remove() is C99 per 7.19.4.1 + remove(FileName); // We have to IGNORE return value in this case + } + return rc; +} + +// Same as anterior, but for streams +cmsBool CMSEXPORT cmsSaveProfileToStream(cmsHPROFILE hProfile, FILE* Stream) +{ + cmsBool rc; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsIOHANDLER* io = cmsOpenIOhandlerFromStream(ContextID, Stream); + + if (io == NULL) return FALSE; + + rc = (cmsSaveProfileToIOhandler(hProfile, io) != 0); + rc &= cmsCloseIOhandler(io); + + return rc; +} + + +// Same as anterior, but for memory blocks. In this case, a NULL as MemPtr means calculate needed space only +cmsBool CMSEXPORT cmsSaveProfileToMem(cmsHPROFILE hProfile, void *MemPtr, cmsUInt32Number* BytesNeeded) +{ + cmsBool rc; + cmsIOHANDLER* io; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + _cmsAssert(BytesNeeded != NULL); + + // Should we just calculate the needed space? + if (MemPtr == NULL) { + + *BytesNeeded = cmsSaveProfileToIOhandler(hProfile, NULL); + return (*BytesNeeded == 0) ? FALSE : TRUE; + } + + // That is a real write operation + io = cmsOpenIOhandlerFromMem(ContextID, MemPtr, *BytesNeeded, "w"); + if (io == NULL) return FALSE; + + rc = (cmsSaveProfileToIOhandler(hProfile, io) != 0); + rc &= cmsCloseIOhandler(io); + + return rc; +} + + + +// Closes a profile freeing any involved resources +cmsBool CMSEXPORT cmsCloseProfile(cmsHPROFILE hProfile) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + cmsBool rc = TRUE; + cmsUInt32Number i; + + if (!Icc) return FALSE; + + // Was open in write mode? + if (Icc ->IsWrite) { + + Icc ->IsWrite = FALSE; // Assure no further writting + rc &= cmsSaveProfileToFile(hProfile, Icc ->IOhandler->PhysicalFile); + } + + for (i=0; i < Icc -> TagCount; i++) { + + if (Icc -> TagPtrs[i]) { + + cmsTagTypeHandler* TypeHandler = Icc ->TagTypeHandlers[i]; + + if (TypeHandler != NULL) { + cmsTagTypeHandler LocalTypeHandler = *TypeHandler; + + LocalTypeHandler.ContextID = Icc ->ContextID; // As an additional parameters + LocalTypeHandler.ICCVersion = Icc ->Version; + LocalTypeHandler.FreePtr(&LocalTypeHandler, Icc -> TagPtrs[i]); + } + else + _cmsFree(Icc ->ContextID, Icc ->TagPtrs[i]); + } + } + + if (Icc ->IOhandler != NULL) { + rc &= cmsCloseIOhandler(Icc->IOhandler); + } + + _cmsDestroyMutex(Icc->ContextID, Icc->UsrMutex); + + _cmsFree(Icc ->ContextID, Icc); // Free placeholder memory + + return rc; +} + + +// ------------------------------------------------------------------------------------------------------------------- + + +// Returns TRUE if a given tag is supported by a plug-in +static +cmsBool IsTypeSupported(cmsTagDescriptor* TagDescriptor, cmsTagTypeSignature Type) +{ + cmsUInt32Number i, nMaxTypes; + + nMaxTypes = TagDescriptor->nSupportedTypes; + if (nMaxTypes >= MAX_TYPES_IN_LCMS_PLUGIN) + nMaxTypes = MAX_TYPES_IN_LCMS_PLUGIN; + + for (i=0; i < nMaxTypes; i++) { + if (Type == TagDescriptor ->SupportedTypes[i]) return TRUE; + } + + return FALSE; +} + + +// That's the main read function +void* CMSEXPORT cmsReadTag(cmsHPROFILE hProfile, cmsTagSignature sig) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + cmsIOHANDLER* io = Icc ->IOhandler; + cmsTagTypeHandler* TypeHandler; + cmsTagTypeHandler LocalTypeHandler; + cmsTagDescriptor* TagDescriptor; + cmsTagTypeSignature BaseType; + cmsUInt32Number Offset, TagSize; + cmsUInt32Number ElemCount; + int n; + + if (!_cmsLockMutex(Icc->ContextID, Icc ->UsrMutex)) return NULL; + + n = _cmsSearchTag(Icc, sig, TRUE); + if (n < 0) goto Error; // Not found, return NULL + + + // If the element is already in memory, return the pointer + if (Icc -> TagPtrs[n]) { + + if (Icc ->TagSaveAsRaw[n]) goto Error; // We don't support read raw tags as cooked + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return Icc -> TagPtrs[n]; + } + + // We need to read it. Get the offset and size to the file + Offset = Icc -> TagOffsets[n]; + TagSize = Icc -> TagSizes[n]; + + // Seek to its location + if (!io -> Seek(io, Offset)) + goto Error; + + // Search for support on this tag + TagDescriptor = _cmsGetTagDescriptor(Icc-> ContextID, sig); + if (TagDescriptor == NULL) { + + char String[5]; + + _cmsTagSignature2String(String, sig); + + // An unknown element was found. + cmsSignalError(Icc ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown tag type '%s' found.", String); + goto Error; // Unsupported. + } + + // if supported, get type and check if in list + BaseType = _cmsReadTypeBase(io); + if (BaseType == 0) goto Error; + + if (!IsTypeSupported(TagDescriptor, BaseType)) goto Error; + + TagSize -= 8; // Alredy read by the type base logic + + // Get type handler + TypeHandler = _cmsGetTagTypeHandler(Icc ->ContextID, BaseType); + if (TypeHandler == NULL) goto Error; + LocalTypeHandler = *TypeHandler; + + + // Read the tag + Icc -> TagTypeHandlers[n] = TypeHandler; + + LocalTypeHandler.ContextID = Icc ->ContextID; + LocalTypeHandler.ICCVersion = Icc ->Version; + Icc -> TagPtrs[n] = LocalTypeHandler.ReadPtr(&LocalTypeHandler, io, &ElemCount, TagSize); + + // The tag type is supported, but something wrong happened and we cannot read the tag. + // let know the user about this (although it is just a warning) + if (Icc -> TagPtrs[n] == NULL) { + + char String[5]; + + _cmsTagSignature2String(String, sig); + cmsSignalError(Icc ->ContextID, cmsERROR_CORRUPTION_DETECTED, "Corrupted tag '%s'", String); + goto Error; + } + + // This is a weird error that may be a symptom of something more serious, the number of + // stored item is actually less than the number of required elements. + if (ElemCount < TagDescriptor ->ElemCount) { + + char String[5]; + + _cmsTagSignature2String(String, sig); + cmsSignalError(Icc ->ContextID, cmsERROR_CORRUPTION_DETECTED, "'%s' Inconsistent number of items: expected %d, got %d", + String, TagDescriptor ->ElemCount, ElemCount); + } + + + // Return the data + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return Icc -> TagPtrs[n]; + + + // Return error and unlock tha data +Error: + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return NULL; +} + + +// Get true type of data +cmsTagTypeSignature _cmsGetTagTrueType(cmsHPROFILE hProfile, cmsTagSignature sig) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + cmsTagTypeHandler* TypeHandler; + int n; + + // Search for given tag in ICC profile directory + n = _cmsSearchTag(Icc, sig, TRUE); + if (n < 0) return (cmsTagTypeSignature) 0; // Not found, return NULL + + // Get the handler. The true type is there + TypeHandler = Icc -> TagTypeHandlers[n]; + return TypeHandler ->Signature; +} + + +// Write a single tag. This just keeps track of the tak into a list of "to be written". If the tag is already +// in that list, the previous version is deleted. +cmsBool CMSEXPORT cmsWriteTag(cmsHPROFILE hProfile, cmsTagSignature sig, const void* data) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + cmsTagTypeHandler* TypeHandler = NULL; + cmsTagTypeHandler LocalTypeHandler; + cmsTagDescriptor* TagDescriptor = NULL; + cmsTagTypeSignature Type; + int i; + cmsFloat64Number Version; + char TypeString[5], SigString[5]; + + if (!_cmsLockMutex(Icc->ContextID, Icc ->UsrMutex)) return FALSE; + + // To delete tags. + if (data == NULL) { + + // Delete the tag + i = _cmsSearchTag(Icc, sig, FALSE); + if (i >= 0) { + + // Use zero as a mark of deleted + _cmsDeleteTagByPos(Icc, i); + Icc ->TagNames[i] = (cmsTagSignature) 0; + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return TRUE; + } + // Didn't find the tag + goto Error; + } + + if (!_cmsNewTag(Icc, sig, &i)) goto Error; + + // This is not raw + Icc ->TagSaveAsRaw[i] = FALSE; + + // This is not a link + Icc ->TagLinked[i] = (cmsTagSignature) 0; + + // Get information about the TAG. + TagDescriptor = _cmsGetTagDescriptor(Icc-> ContextID, sig); + if (TagDescriptor == NULL){ + cmsSignalError(Icc ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported tag '%x'", sig); + goto Error; + } + + + // Now we need to know which type to use. It depends on the version. + Version = cmsGetProfileVersion(hProfile); + + if (TagDescriptor ->DecideType != NULL) { + + // Let the tag descriptor to decide the type base on depending on + // the data. This is useful for example on parametric curves, where + // curves specified by a table cannot be saved as parametric and needs + // to be casted to single v2-curves, even on v4 profiles. + + Type = TagDescriptor ->DecideType(Version, data); + } + else { + + Type = TagDescriptor ->SupportedTypes[0]; + } + + // Does the tag support this type? + if (!IsTypeSupported(TagDescriptor, Type)) { + + _cmsTagSignature2String(TypeString, (cmsTagSignature) Type); + _cmsTagSignature2String(SigString, sig); + + cmsSignalError(Icc ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported type '%s' for tag '%s'", TypeString, SigString); + goto Error; + } + + // Does we have a handler for this type? + TypeHandler = _cmsGetTagTypeHandler(Icc->ContextID, Type); + if (TypeHandler == NULL) { + + _cmsTagSignature2String(TypeString, (cmsTagSignature) Type); + _cmsTagSignature2String(SigString, sig); + + cmsSignalError(Icc ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported type '%s' for tag '%s'", TypeString, SigString); + goto Error; // Should never happen + } + + + // Fill fields on icc structure + Icc ->TagTypeHandlers[i] = TypeHandler; + Icc ->TagNames[i] = sig; + Icc ->TagSizes[i] = 0; + Icc ->TagOffsets[i] = 0; + + LocalTypeHandler = *TypeHandler; + LocalTypeHandler.ContextID = Icc ->ContextID; + LocalTypeHandler.ICCVersion = Icc ->Version; + Icc ->TagPtrs[i] = LocalTypeHandler.DupPtr(&LocalTypeHandler, data, TagDescriptor ->ElemCount); + + if (Icc ->TagPtrs[i] == NULL) { + + _cmsTagSignature2String(TypeString, (cmsTagSignature) Type); + _cmsTagSignature2String(SigString, sig); + cmsSignalError(Icc ->ContextID, cmsERROR_CORRUPTION_DETECTED, "Malformed struct in type '%s' for tag '%s'", TypeString, SigString); + + goto Error; + } + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return TRUE; + +Error: + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return FALSE; + +} + +// Read and write raw data. The only way those function would work and keep consistence with normal read and write +// is to do an additional step of serialization. That means, readRaw would issue a normal read and then convert the obtained +// data to raw bytes by using the "write" serialization logic. And vice-versa. I know this may end in situations where +// raw data written does not exactly correspond with the raw data proposed to cmsWriteRaw data, but this approach allows +// to write a tag as raw data and the read it as handled. + +cmsInt32Number CMSEXPORT cmsReadRawTag(cmsHPROFILE hProfile, cmsTagSignature sig, void* data, cmsUInt32Number BufferSize) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + void *Object; + int i; + cmsIOHANDLER* MemIO; + cmsTagTypeHandler* TypeHandler = NULL; + cmsTagTypeHandler LocalTypeHandler; + cmsTagDescriptor* TagDescriptor = NULL; + cmsUInt32Number rc; + cmsUInt32Number Offset, TagSize; + + if (!_cmsLockMutex(Icc->ContextID, Icc ->UsrMutex)) return 0; + + // Search for given tag in ICC profile directory + i = _cmsSearchTag(Icc, sig, TRUE); + if (i < 0) goto Error; // Not found, + + // It is already read? + if (Icc -> TagPtrs[i] == NULL) { + + // No yet, get original position + Offset = Icc ->TagOffsets[i]; + TagSize = Icc ->TagSizes[i]; + + // read the data directly, don't keep copy + if (data != NULL) { + + if (BufferSize < TagSize) + TagSize = BufferSize; + + if (!Icc ->IOhandler ->Seek(Icc ->IOhandler, Offset)) goto Error; + if (!Icc ->IOhandler ->Read(Icc ->IOhandler, data, 1, TagSize)) goto Error; + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return TagSize; + } + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return Icc ->TagSizes[i]; + } + + // The data has been already read, or written. But wait!, maybe the user choosed to save as + // raw data. In this case, return the raw data directly + if (Icc ->TagSaveAsRaw[i]) { + + if (data != NULL) { + + TagSize = Icc ->TagSizes[i]; + if (BufferSize < TagSize) + TagSize = BufferSize; + + memmove(data, Icc ->TagPtrs[i], TagSize); + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return TagSize; + } + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return Icc ->TagSizes[i]; + } + + // Already readed, or previously set by cmsWriteTag(). We need to serialize that + // data to raw in order to maintain consistency. + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + Object = cmsReadTag(hProfile, sig); + if (!_cmsLockMutex(Icc->ContextID, Icc ->UsrMutex)) return 0; + + if (Object == NULL) goto Error; + + // Now we need to serialize to a memory block: just use a memory iohandler + + if (data == NULL) { + MemIO = cmsOpenIOhandlerFromNULL(cmsGetProfileContextID(hProfile)); + } else{ + MemIO = cmsOpenIOhandlerFromMem(cmsGetProfileContextID(hProfile), data, BufferSize, "w"); + } + if (MemIO == NULL) goto Error; + + // Obtain type handling for the tag + TypeHandler = Icc ->TagTypeHandlers[i]; + TagDescriptor = _cmsGetTagDescriptor(Icc-> ContextID, sig); + if (TagDescriptor == NULL) { + cmsCloseIOhandler(MemIO); + goto Error; + } + + if (TypeHandler == NULL) goto Error; + + // Serialize + LocalTypeHandler = *TypeHandler; + LocalTypeHandler.ContextID = Icc ->ContextID; + LocalTypeHandler.ICCVersion = Icc ->Version; + + if (!_cmsWriteTypeBase(MemIO, TypeHandler ->Signature)) { + cmsCloseIOhandler(MemIO); + goto Error; + } + + if (!LocalTypeHandler.WritePtr(&LocalTypeHandler, MemIO, Object, TagDescriptor ->ElemCount)) { + cmsCloseIOhandler(MemIO); + goto Error; + } + + // Get Size and close + rc = MemIO ->Tell(MemIO); + cmsCloseIOhandler(MemIO); // Ignore return code this time + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return rc; + +Error: + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return 0; +} + +// Similar to the anterior. This function allows to write directly to the ICC profile any data, without +// checking anything. As a rule, mixing Raw with cooked doesn't work, so writting a tag as raw and then reading +// it as cooked without serializing does result into an error. If that is what you want, you will need to dump +// the profile to memry or disk and then reopen it. +cmsBool CMSEXPORT cmsWriteRawTag(cmsHPROFILE hProfile, cmsTagSignature sig, const void* data, cmsUInt32Number Size) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + int i; + + if (!_cmsLockMutex(Icc->ContextID, Icc ->UsrMutex)) return 0; + + if (!_cmsNewTag(Icc, sig, &i)) { + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return FALSE; + } + + // Mark the tag as being written as RAW + Icc ->TagSaveAsRaw[i] = TRUE; + Icc ->TagNames[i] = sig; + Icc ->TagLinked[i] = (cmsTagSignature) 0; + + // Keep a copy of the block + Icc ->TagPtrs[i] = _cmsDupMem(Icc ->ContextID, data, Size); + Icc ->TagSizes[i] = Size; + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + + if (Icc->TagPtrs[i] == NULL) { + Icc->TagNames[i] = (cmsTagSignature) 0; + return FALSE; + } + return TRUE; +} + +// Using this function you can collapse several tag entries to the same block in the profile +cmsBool CMSEXPORT cmsLinkTag(cmsHPROFILE hProfile, cmsTagSignature sig, cmsTagSignature dest) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + int i; + + if (!_cmsLockMutex(Icc->ContextID, Icc ->UsrMutex)) return FALSE; + + if (!_cmsNewTag(Icc, sig, &i)) { + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return FALSE; + } + + // Keep necessary information + Icc ->TagSaveAsRaw[i] = FALSE; + Icc ->TagNames[i] = sig; + Icc ->TagLinked[i] = dest; + + Icc ->TagPtrs[i] = NULL; + Icc ->TagSizes[i] = 0; + Icc ->TagOffsets[i] = 0; + + _cmsUnlockMutex(Icc->ContextID, Icc ->UsrMutex); + return TRUE; +} + + +// Returns the tag linked to sig, in the case two tags are sharing same resource +cmsTagSignature CMSEXPORT cmsTagLinkedTo(cmsHPROFILE hProfile, cmsTagSignature sig) +{ + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + int i; + + // Search for given tag in ICC profile directory + i = _cmsSearchTag(Icc, sig, FALSE); + if (i < 0) return (cmsTagSignature) 0; // Not found, return 0 + + return Icc -> TagLinked[i]; +} Index: sdk/lib/3rdparty/lcms2/cmsio1.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsio1.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsio1.c (working copy) @@ -0,0 +1,1029 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Read tags using low-level functions, provides necessary glue code to adapt versions, etc. + +// LUT tags +static const cmsTagSignature Device2PCS16[] = {cmsSigAToB0Tag, // Perceptual + cmsSigAToB1Tag, // Relative colorimetric + cmsSigAToB2Tag, // Saturation + cmsSigAToB1Tag }; // Absolute colorimetric + +static const cmsTagSignature Device2PCSFloat[] = {cmsSigDToB0Tag, // Perceptual + cmsSigDToB1Tag, // Relative colorimetric + cmsSigDToB2Tag, // Saturation + cmsSigDToB3Tag }; // Absolute colorimetric + +static const cmsTagSignature PCS2Device16[] = {cmsSigBToA0Tag, // Perceptual + cmsSigBToA1Tag, // Relative colorimetric + cmsSigBToA2Tag, // Saturation + cmsSigBToA1Tag }; // Absolute colorimetric + +static const cmsTagSignature PCS2DeviceFloat[] = {cmsSigBToD0Tag, // Perceptual + cmsSigBToD1Tag, // Relative colorimetric + cmsSigBToD2Tag, // Saturation + cmsSigBToD3Tag }; // Absolute colorimetric + + +// Factors to convert from 1.15 fixed point to 0..1.0 range and vice-versa +#define InpAdj (1.0/MAX_ENCODEABLE_XYZ) // (65536.0/(65535.0*2.0)) +#define OutpAdj (MAX_ENCODEABLE_XYZ) // ((2.0*65535.0)/65536.0) + +// Several resources for gray conversions. +static const cmsFloat64Number GrayInputMatrix[] = { (InpAdj*cmsD50X), (InpAdj*cmsD50Y), (InpAdj*cmsD50Z) }; +static const cmsFloat64Number OneToThreeInputMatrix[] = { 1, 1, 1 }; +static const cmsFloat64Number PickYMatrix[] = { 0, (OutpAdj*cmsD50Y), 0 }; +static const cmsFloat64Number PickLstarMatrix[] = { 1, 0, 0 }; + +// Get a media white point fixing some issues found in certain old profiles +cmsBool _cmsReadMediaWhitePoint(cmsCIEXYZ* Dest, cmsHPROFILE hProfile) +{ + cmsCIEXYZ* Tag; + + _cmsAssert(Dest != NULL); + + Tag = (cmsCIEXYZ*) cmsReadTag(hProfile, cmsSigMediaWhitePointTag); + + // If no wp, take D50 + if (Tag == NULL) { + *Dest = *cmsD50_XYZ(); + return TRUE; + } + + // V2 display profiles should give D50 + if (cmsGetEncodedICCversion(hProfile) < 0x4000000) { + + if (cmsGetDeviceClass(hProfile) == cmsSigDisplayClass) { + *Dest = *cmsD50_XYZ(); + return TRUE; + } + } + + // All seems ok + *Dest = *Tag; + return TRUE; +} + + +// Chromatic adaptation matrix. Fix some issues as well +cmsBool _cmsReadCHAD(cmsMAT3* Dest, cmsHPROFILE hProfile) +{ + cmsMAT3* Tag; + + _cmsAssert(Dest != NULL); + + Tag = (cmsMAT3*) cmsReadTag(hProfile, cmsSigChromaticAdaptationTag); + + if (Tag != NULL) { + *Dest = *Tag; + return TRUE; + } + + // No CHAD available, default it to identity + _cmsMAT3identity(Dest); + + // V2 display profiles should give D50 + if (cmsGetEncodedICCversion(hProfile) < 0x4000000) { + + if (cmsGetDeviceClass(hProfile) == cmsSigDisplayClass) { + + cmsCIEXYZ* White = (cmsCIEXYZ*) cmsReadTag(hProfile, cmsSigMediaWhitePointTag); + + if (White == NULL) { + + _cmsMAT3identity(Dest); + return TRUE; + } + + return _cmsAdaptationMatrix(Dest, NULL, White, cmsD50_XYZ()); + } + } + + return TRUE; +} + + +// Auxiliary, read colorants as a MAT3 structure. Used by any function that needs a matrix-shaper +static +cmsBool ReadICCMatrixRGB2XYZ(cmsMAT3* r, cmsHPROFILE hProfile) +{ + cmsCIEXYZ *PtrRed, *PtrGreen, *PtrBlue; + + _cmsAssert(r != NULL); + + PtrRed = (cmsCIEXYZ *) cmsReadTag(hProfile, cmsSigRedColorantTag); + PtrGreen = (cmsCIEXYZ *) cmsReadTag(hProfile, cmsSigGreenColorantTag); + PtrBlue = (cmsCIEXYZ *) cmsReadTag(hProfile, cmsSigBlueColorantTag); + + if (PtrRed == NULL || PtrGreen == NULL || PtrBlue == NULL) + return FALSE; + + _cmsVEC3init(&r -> v[0], PtrRed -> X, PtrGreen -> X, PtrBlue -> X); + _cmsVEC3init(&r -> v[1], PtrRed -> Y, PtrGreen -> Y, PtrBlue -> Y); + _cmsVEC3init(&r -> v[2], PtrRed -> Z, PtrGreen -> Z, PtrBlue -> Z); + + return TRUE; +} + + +// Gray input pipeline +static +cmsPipeline* BuildGrayInputMatrixPipeline(cmsHPROFILE hProfile) +{ + cmsToneCurve *GrayTRC; + cmsPipeline* Lut; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + GrayTRC = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigGrayTRCTag); + if (GrayTRC == NULL) return NULL; + + Lut = cmsPipelineAlloc(ContextID, 1, 3); + if (Lut == NULL) + goto Error; + + if (cmsGetPCS(hProfile) == cmsSigLabData) { + + // In this case we implement the profile as an identity matrix plus 3 tone curves + cmsUInt16Number Zero[2] = { 0x8080, 0x8080 }; + cmsToneCurve* EmptyTab; + cmsToneCurve* LabCurves[3]; + + EmptyTab = cmsBuildTabulatedToneCurve16(ContextID, 2, Zero); + + if (EmptyTab == NULL) + goto Error; + + LabCurves[0] = GrayTRC; + LabCurves[1] = EmptyTab; + LabCurves[2] = EmptyTab; + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocMatrix(ContextID, 3, 1, OneToThreeInputMatrix, NULL)) || + !cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, 3, LabCurves))) { + cmsFreeToneCurve(EmptyTab); + goto Error; + } + + cmsFreeToneCurve(EmptyTab); + + } + else { + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, 1, &GrayTRC)) || + !cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocMatrix(ContextID, 3, 1, GrayInputMatrix, NULL))) + goto Error; + } + + return Lut; + +Error: + cmsFreeToneCurve(GrayTRC); + cmsPipelineFree(Lut); + return NULL; +} + +// RGB Matrix shaper +static +cmsPipeline* BuildRGBInputMatrixShaper(cmsHPROFILE hProfile) +{ + cmsPipeline* Lut; + cmsMAT3 Mat; + cmsToneCurve *Shapes[3]; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + int i, j; + + if (!ReadICCMatrixRGB2XYZ(&Mat, hProfile)) return NULL; + + // XYZ PCS in encoded in 1.15 format, and the matrix output comes in 0..0xffff range, so + // we need to adjust the output by a factor of (0x10000/0xffff) to put data in + // a 1.16 range, and then a >> 1 to obtain 1.15. The total factor is (65536.0)/(65535.0*2) + + for (i=0; i < 3; i++) + for (j=0; j < 3; j++) + Mat.v[i].n[j] *= InpAdj; + + + Shapes[0] = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigRedTRCTag); + Shapes[1] = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigGreenTRCTag); + Shapes[2] = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigBlueTRCTag); + + if (!Shapes[0] || !Shapes[1] || !Shapes[2]) + return NULL; + + Lut = cmsPipelineAlloc(ContextID, 3, 3); + if (Lut != NULL) { + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, 3, Shapes)) || + !cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocMatrix(ContextID, 3, 3, (cmsFloat64Number*) &Mat, NULL))) + goto Error; + + // Note that it is certainly possible a single profile would have a LUT based + // tag for output working in lab and a matrix-shaper for the fallback cases. + // This is not allowed by the spec, but this code is tolerant to those cases + if (cmsGetPCS(hProfile) == cmsSigLabData) { + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocXYZ2Lab(ContextID))) + goto Error; + } + + } + + return Lut; + +Error: + cmsPipelineFree(Lut); + return NULL; +} + + + +// Read the DToAX tag, adjusting the encoding of Lab or XYZ if neded +static +cmsPipeline* _cmsReadFloatInputTag(cmsHPROFILE hProfile, cmsTagSignature tagFloat) +{ + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsPipeline* Lut = cmsPipelineDup((cmsPipeline*) cmsReadTag(hProfile, tagFloat)); + cmsColorSpaceSignature spc = cmsGetColorSpace(hProfile); + cmsColorSpaceSignature PCS = cmsGetPCS(hProfile); + + if (Lut == NULL) return NULL; + + // input and output of transform are in lcms 0..1 encoding. If XYZ or Lab spaces are used, + // these need to be normalized into the appropriate ranges (Lab = 100,0,0, XYZ=1.0,1.0,1.0) + if ( spc == cmsSigLabData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageNormalizeToLabFloat(ContextID))) + goto Error; + } + else if (spc == cmsSigXYZData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageNormalizeToXyzFloat(ContextID))) + goto Error; + } + + if ( PCS == cmsSigLabData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageNormalizeFromLabFloat(ContextID))) + goto Error; + } + else if( PCS == cmsSigXYZData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageNormalizeFromXyzFloat(ContextID))) + goto Error; + } + + return Lut; + +Error: + cmsPipelineFree(Lut); + return NULL; +} + + +// Read and create a BRAND NEW MPE LUT from a given profile. All stuff dependent of version, etc +// is adjusted here in order to create a LUT that takes care of all those details. +// We add intent = -1 as a way to read matrix shaper always, no matter of other LUT +cmsPipeline* _cmsReadInputLUT(cmsHPROFILE hProfile, int Intent) +{ + cmsTagTypeSignature OriginalType; + cmsTagSignature tag16; + cmsTagSignature tagFloat; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + // On named color, take the appropriate tag + if (cmsGetDeviceClass(hProfile) == cmsSigNamedColorClass) { + + cmsPipeline* Lut; + cmsNAMEDCOLORLIST* nc = (cmsNAMEDCOLORLIST*) cmsReadTag(hProfile, cmsSigNamedColor2Tag); + + if (nc == NULL) return NULL; + + Lut = cmsPipelineAlloc(ContextID, 0, 0); + if (Lut == NULL) { + cmsFreeNamedColorList(nc); + return NULL; + } + + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageAllocNamedColor(nc, TRUE)) || + !cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocLabV2ToV4(ContextID))) { + cmsPipelineFree(Lut); + return NULL; + } + return Lut; + } + + // This is an attempt to reuse this function to retrieve the matrix-shaper as pipeline no + // matter other LUT are present and have precedence. Intent = -1 means just this. + if (Intent >= INTENT_PERCEPTUAL && Intent <= INTENT_ABSOLUTE_COLORIMETRIC) { + + tag16 = Device2PCS16[Intent]; + tagFloat = Device2PCSFloat[Intent]; + + if (cmsIsTag(hProfile, tagFloat)) { // Float tag takes precedence + + // Floating point LUT are always V4, but the encoding range is no + // longer 0..1.0, so we need to add an stage depending on the color space + return _cmsReadFloatInputTag(hProfile, tagFloat); + } + + // Revert to perceptual if no tag is found + if (!cmsIsTag(hProfile, tag16)) { + tag16 = Device2PCS16[0]; + } + + if (cmsIsTag(hProfile, tag16)) { // Is there any LUT-Based table? + + // Check profile version and LUT type. Do the necessary adjustments if needed + + // First read the tag + cmsPipeline* Lut = (cmsPipeline*) cmsReadTag(hProfile, tag16); + if (Lut == NULL) return NULL; + + // After reading it, we have now info about the original type + OriginalType = _cmsGetTagTrueType(hProfile, tag16); + + // The profile owns the Lut, so we need to copy it + Lut = cmsPipelineDup(Lut); + + // We need to adjust data only for Lab16 on output + if (OriginalType != cmsSigLut16Type || cmsGetPCS(hProfile) != cmsSigLabData) + return Lut; + + // If the input is Lab, add also a conversion at the begin + if (cmsGetColorSpace(hProfile) == cmsSigLabData && + !cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageAllocLabV4ToV2(ContextID))) + goto Error; + + // Add a matrix for conversion V2 to V4 Lab PCS + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocLabV2ToV4(ContextID))) + goto Error; + + return Lut; +Error: + cmsPipelineFree(Lut); + return NULL; + } + } + + // Lut was not found, try to create a matrix-shaper + + // Check if this is a grayscale profile. + if (cmsGetColorSpace(hProfile) == cmsSigGrayData) { + + // if so, build appropriate conversion tables. + // The tables are the PCS iluminant, scaled across GrayTRC + return BuildGrayInputMatrixPipeline(hProfile); + } + + // Not gray, create a normal matrix-shaper + return BuildRGBInputMatrixShaper(hProfile); +} + +// --------------------------------------------------------------------------------------------------------------- + +// Gray output pipeline. +// XYZ -> Gray or Lab -> Gray. Since we only know the GrayTRC, we need to do some assumptions. Gray component will be +// given by Y on XYZ PCS and by L* on Lab PCS, Both across inverse TRC curve. +// The complete pipeline on XYZ is Matrix[3:1] -> Tone curve and in Lab Matrix[3:1] -> Tone Curve as well. + +static +cmsPipeline* BuildGrayOutputPipeline(cmsHPROFILE hProfile) +{ + cmsToneCurve *GrayTRC, *RevGrayTRC; + cmsPipeline* Lut; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + GrayTRC = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigGrayTRCTag); + if (GrayTRC == NULL) return NULL; + + RevGrayTRC = cmsReverseToneCurve(GrayTRC); + if (RevGrayTRC == NULL) return NULL; + + Lut = cmsPipelineAlloc(ContextID, 3, 1); + if (Lut == NULL) { + cmsFreeToneCurve(RevGrayTRC); + return NULL; + } + + if (cmsGetPCS(hProfile) == cmsSigLabData) { + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocMatrix(ContextID, 1, 3, PickLstarMatrix, NULL))) + goto Error; + } + else { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocMatrix(ContextID, 1, 3, PickYMatrix, NULL))) + goto Error; + } + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, 1, &RevGrayTRC))) + goto Error; + + cmsFreeToneCurve(RevGrayTRC); + return Lut; + +Error: + cmsFreeToneCurve(RevGrayTRC); + cmsPipelineFree(Lut); + return NULL; +} + + +static +cmsPipeline* BuildRGBOutputMatrixShaper(cmsHPROFILE hProfile) +{ + cmsPipeline* Lut; + cmsToneCurve *Shapes[3], *InvShapes[3]; + cmsMAT3 Mat, Inv; + int i, j; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + if (!ReadICCMatrixRGB2XYZ(&Mat, hProfile)) + return NULL; + + if (!_cmsMAT3inverse(&Mat, &Inv)) + return NULL; + + // XYZ PCS in encoded in 1.15 format, and the matrix input should come in 0..0xffff range, so + // we need to adjust the input by a << 1 to obtain a 1.16 fixed and then by a factor of + // (0xffff/0x10000) to put data in 0..0xffff range. Total factor is (2.0*65535.0)/65536.0; + + for (i=0; i < 3; i++) + for (j=0; j < 3; j++) + Inv.v[i].n[j] *= OutpAdj; + + Shapes[0] = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigRedTRCTag); + Shapes[1] = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigGreenTRCTag); + Shapes[2] = (cmsToneCurve *) cmsReadTag(hProfile, cmsSigBlueTRCTag); + + if (!Shapes[0] || !Shapes[1] || !Shapes[2]) + return NULL; + + InvShapes[0] = cmsReverseToneCurve(Shapes[0]); + InvShapes[1] = cmsReverseToneCurve(Shapes[1]); + InvShapes[2] = cmsReverseToneCurve(Shapes[2]); + + if (!InvShapes[0] || !InvShapes[1] || !InvShapes[2]) { + return NULL; + } + + Lut = cmsPipelineAlloc(ContextID, 3, 3); + if (Lut != NULL) { + + // Note that it is certainly possible a single profile would have a LUT based + // tag for output working in lab and a matrix-shaper for the fallback cases. + // This is not allowed by the spec, but this code is tolerant to those cases + if (cmsGetPCS(hProfile) == cmsSigLabData) { + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocLab2XYZ(ContextID))) + goto Error; + } + + if (!cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocMatrix(ContextID, 3, 3, (cmsFloat64Number*) &Inv, NULL)) || + !cmsPipelineInsertStage(Lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, 3, InvShapes))) + goto Error; + } + + cmsFreeToneCurveTriple(InvShapes); + return Lut; +Error: + cmsFreeToneCurveTriple(InvShapes); + cmsPipelineFree(Lut); + return NULL; +} + + +// Change CLUT interpolation to trilinear +static +void ChangeInterpolationToTrilinear(cmsPipeline* Lut) +{ + cmsStage* Stage; + + for (Stage = cmsPipelineGetPtrToFirstStage(Lut); + Stage != NULL; + Stage = cmsStageNext(Stage)) { + + if (cmsStageType(Stage) == cmsSigCLutElemType) { + + _cmsStageCLutData* CLUT = (_cmsStageCLutData*) Stage ->Data; + + CLUT ->Params->dwFlags |= CMS_LERP_FLAGS_TRILINEAR; + _cmsSetInterpolationRoutine(Lut->ContextID, CLUT ->Params); + } + } +} + + +// Read the DToAX tag, adjusting the encoding of Lab or XYZ if neded +static +cmsPipeline* _cmsReadFloatOutputTag(cmsHPROFILE hProfile, cmsTagSignature tagFloat) +{ + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsPipeline* Lut = cmsPipelineDup((cmsPipeline*) cmsReadTag(hProfile, tagFloat)); + cmsColorSpaceSignature PCS = cmsGetPCS(hProfile); + cmsColorSpaceSignature dataSpace = cmsGetColorSpace(hProfile); + + if (Lut == NULL) return NULL; + + // If PCS is Lab or XYZ, the floating point tag is accepting data in the space encoding, + // and since the formatter has already accommodated to 0..1.0, we should undo this change + if ( PCS == cmsSigLabData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageNormalizeToLabFloat(ContextID))) + goto Error; + } + else + if (PCS == cmsSigXYZData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageNormalizeToXyzFloat(ContextID))) + goto Error; + } + + // the output can be Lab or XYZ, in which case normalisation is needed on the end of the pipeline + if ( dataSpace == cmsSigLabData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageNormalizeFromLabFloat(ContextID))) + goto Error; + } + else if (dataSpace == cmsSigXYZData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageNormalizeFromXyzFloat(ContextID))) + goto Error; + } + + return Lut; + +Error: + cmsPipelineFree(Lut); + return NULL; +} + +// Create an output MPE LUT from agiven profile. Version mismatches are handled here +cmsPipeline* _cmsReadOutputLUT(cmsHPROFILE hProfile, int Intent) +{ + cmsTagTypeSignature OriginalType; + cmsTagSignature tag16; + cmsTagSignature tagFloat; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + + if (Intent >= INTENT_PERCEPTUAL && Intent <= INTENT_ABSOLUTE_COLORIMETRIC) { + + tag16 = PCS2Device16[Intent]; + tagFloat = PCS2DeviceFloat[Intent]; + + if (cmsIsTag(hProfile, tagFloat)) { // Float tag takes precedence + + // Floating point LUT are always V4 + return _cmsReadFloatOutputTag(hProfile, tagFloat); + } + + // Revert to perceptual if no tag is found + if (!cmsIsTag(hProfile, tag16)) { + tag16 = PCS2Device16[0]; + } + + if (cmsIsTag(hProfile, tag16)) { // Is there any LUT-Based table? + + // Check profile version and LUT type. Do the necessary adjustments if needed + + // First read the tag + cmsPipeline* Lut = (cmsPipeline*) cmsReadTag(hProfile, tag16); + if (Lut == NULL) return NULL; + + // After reading it, we have info about the original type + OriginalType = _cmsGetTagTrueType(hProfile, tag16); + + // The profile owns the Lut, so we need to copy it + Lut = cmsPipelineDup(Lut); + if (Lut == NULL) return NULL; + + // Now it is time for a controversial stuff. I found that for 3D LUTS using + // Lab used as indexer space, trilinear interpolation should be used + if (cmsGetPCS(hProfile) == cmsSigLabData) + ChangeInterpolationToTrilinear(Lut); + + // We need to adjust data only for Lab and Lut16 type + if (OriginalType != cmsSigLut16Type || cmsGetPCS(hProfile) != cmsSigLabData) + return Lut; + + // Add a matrix for conversion V4 to V2 Lab PCS + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageAllocLabV4ToV2(ContextID))) + goto Error; + + // If the output is Lab, add also a conversion at the end + if (cmsGetColorSpace(hProfile) == cmsSigLabData) + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocLabV2ToV4(ContextID))) + goto Error; + + return Lut; +Error: + cmsPipelineFree(Lut); + return NULL; + } + } + + // Lut not found, try to create a matrix-shaper + + // Check if this is a grayscale profile. + if (cmsGetColorSpace(hProfile) == cmsSigGrayData) { + + // if so, build appropriate conversion tables. + // The tables are the PCS iluminant, scaled across GrayTRC + return BuildGrayOutputPipeline(hProfile); + } + + // Not gray, create a normal matrix-shaper, which only operates in XYZ space + return BuildRGBOutputMatrixShaper(hProfile); +} + +// --------------------------------------------------------------------------------------------------------------- + +// Read the AToD0 tag, adjusting the encoding of Lab or XYZ if neded +static +cmsPipeline* _cmsReadFloatDevicelinkTag(cmsHPROFILE hProfile, cmsTagSignature tagFloat) +{ + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsPipeline* Lut = cmsPipelineDup((cmsPipeline*) cmsReadTag(hProfile, tagFloat)); + cmsColorSpaceSignature PCS = cmsGetPCS(hProfile); + cmsColorSpaceSignature spc = cmsGetColorSpace(hProfile); + + if (Lut == NULL) return NULL; + + if (spc == cmsSigLabData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageNormalizeToLabFloat(ContextID))) + goto Error; + } + else + if (spc == cmsSigXYZData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageNormalizeToXyzFloat(ContextID))) + goto Error; + } + + if (PCS == cmsSigLabData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageNormalizeFromLabFloat(ContextID))) + goto Error; + } + else + if (PCS == cmsSigXYZData) + { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageNormalizeFromXyzFloat(ContextID))) + goto Error; + } + + return Lut; +Error: + cmsPipelineFree(Lut); + return NULL; +} + +// This one includes abstract profiles as well. Matrix-shaper cannot be obtained on that device class. The +// tag name here may default to AToB0 +cmsPipeline* _cmsReadDevicelinkLUT(cmsHPROFILE hProfile, int Intent) +{ + cmsPipeline* Lut; + cmsTagTypeSignature OriginalType; + cmsTagSignature tag16; + cmsTagSignature tagFloat; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + + if (Intent < INTENT_PERCEPTUAL || Intent > INTENT_ABSOLUTE_COLORIMETRIC) + return NULL; + + tag16 = Device2PCS16[Intent]; + tagFloat = Device2PCSFloat[Intent]; + + // On named color, take the appropriate tag + if (cmsGetDeviceClass(hProfile) == cmsSigNamedColorClass) { + + cmsNAMEDCOLORLIST* nc = (cmsNAMEDCOLORLIST*)cmsReadTag(hProfile, cmsSigNamedColor2Tag); + + if (nc == NULL) return NULL; + + Lut = cmsPipelineAlloc(ContextID, 0, 0); + if (Lut == NULL) + goto Error; + + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageAllocNamedColor(nc, FALSE))) + goto Error; + + if (cmsGetColorSpace(hProfile) == cmsSigLabData) + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocLabV2ToV4(ContextID))) + goto Error; + + return Lut; + Error: + cmsPipelineFree(Lut); + cmsFreeNamedColorList(nc); + return NULL; + } + + + if (cmsIsTag(hProfile, tagFloat)) { // Float tag takes precedence + + // Floating point LUT are always V + return _cmsReadFloatDevicelinkTag(hProfile, tagFloat); + } + + tagFloat = Device2PCSFloat[0]; + if (cmsIsTag(hProfile, tagFloat)) { + + return cmsPipelineDup((cmsPipeline*)cmsReadTag(hProfile, tagFloat)); + } + + if (!cmsIsTag(hProfile, tag16)) { // Is there any LUT-Based table? + + tag16 = Device2PCS16[0]; + if (!cmsIsTag(hProfile, tag16)) return NULL; + } + + // Check profile version and LUT type. Do the necessary adjustments if needed + + // Read the tag + Lut = (cmsPipeline*)cmsReadTag(hProfile, tag16); + if (Lut == NULL) return NULL; + + // The profile owns the Lut, so we need to copy it + Lut = cmsPipelineDup(Lut); + if (Lut == NULL) return NULL; + + // Now it is time for a controversial stuff. I found that for 3D LUTS using + // Lab used as indexer space, trilinear interpolation should be used + if (cmsGetPCS(hProfile) == cmsSigLabData) + ChangeInterpolationToTrilinear(Lut); + + // After reading it, we have info about the original type + OriginalType = _cmsGetTagTrueType(hProfile, tag16); + + // We need to adjust data for Lab16 on output + if (OriginalType != cmsSigLut16Type) return Lut; + + // Here it is possible to get Lab on both sides + + if (cmsGetColorSpace(hProfile) == cmsSigLabData) { + if (!cmsPipelineInsertStage(Lut, cmsAT_BEGIN, _cmsStageAllocLabV4ToV2(ContextID))) + goto Error2; + } + + if (cmsGetPCS(hProfile) == cmsSigLabData) { + if (!cmsPipelineInsertStage(Lut, cmsAT_END, _cmsStageAllocLabV2ToV4(ContextID))) + goto Error2; + } + + return Lut; + +Error2: + cmsPipelineFree(Lut); + return NULL; +} + +// --------------------------------------------------------------------------------------------------------------- + +// Returns TRUE if the profile is implemented as matrix-shaper +cmsBool CMSEXPORT cmsIsMatrixShaper(cmsHPROFILE hProfile) +{ + switch (cmsGetColorSpace(hProfile)) { + + case cmsSigGrayData: + + return cmsIsTag(hProfile, cmsSigGrayTRCTag); + + case cmsSigRgbData: + + return (cmsIsTag(hProfile, cmsSigRedColorantTag) && + cmsIsTag(hProfile, cmsSigGreenColorantTag) && + cmsIsTag(hProfile, cmsSigBlueColorantTag) && + cmsIsTag(hProfile, cmsSigRedTRCTag) && + cmsIsTag(hProfile, cmsSigGreenTRCTag) && + cmsIsTag(hProfile, cmsSigBlueTRCTag)); + + default: + + return FALSE; + } +} + +// Returns TRUE if the intent is implemented as CLUT +cmsBool CMSEXPORT cmsIsCLUT(cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number UsedDirection) +{ + const cmsTagSignature* TagTable; + + // For devicelinks, the supported intent is that one stated in the header + if (cmsGetDeviceClass(hProfile) == cmsSigLinkClass) { + return (cmsGetHeaderRenderingIntent(hProfile) == Intent); + } + + switch (UsedDirection) { + + case LCMS_USED_AS_INPUT: TagTable = Device2PCS16; break; + case LCMS_USED_AS_OUTPUT:TagTable = PCS2Device16; break; + + // For proofing, we need rel. colorimetric in output. Let's do some recursion + case LCMS_USED_AS_PROOF: + return cmsIsIntentSupported(hProfile, Intent, LCMS_USED_AS_INPUT) && + cmsIsIntentSupported(hProfile, INTENT_RELATIVE_COLORIMETRIC, LCMS_USED_AS_OUTPUT); + + default: + cmsSignalError(cmsGetProfileContextID(hProfile), cmsERROR_RANGE, "Unexpected direction (%d)", UsedDirection); + return FALSE; + } + + return cmsIsTag(hProfile, TagTable[Intent]); + +} + + +// Return info about supported intents +cmsBool CMSEXPORT cmsIsIntentSupported(cmsHPROFILE hProfile, + cmsUInt32Number Intent, cmsUInt32Number UsedDirection) +{ + + if (cmsIsCLUT(hProfile, Intent, UsedDirection)) return TRUE; + + // Is there any matrix-shaper? If so, the intent is supported. This is a bit odd, since V2 matrix shaper + // does not fully support relative colorimetric because they cannot deal with non-zero black points, but + // many profiles claims that, and this is certainly not true for V4 profiles. Lets answer "yes" no matter + // the accuracy would be less than optimal in rel.col and v2 case. + + return cmsIsMatrixShaper(hProfile); +} + + +// --------------------------------------------------------------------------------------------------------------- + +// Read both, profile sequence description and profile sequence id if present. Then combine both to +// create qa unique structure holding both. Shame on ICC to store things in such complicated way. +cmsSEQ* _cmsReadProfileSequence(cmsHPROFILE hProfile) +{ + cmsSEQ* ProfileSeq; + cmsSEQ* ProfileId; + cmsSEQ* NewSeq; + cmsUInt32Number i; + + // Take profile sequence description first + ProfileSeq = (cmsSEQ*) cmsReadTag(hProfile, cmsSigProfileSequenceDescTag); + + // Take profile sequence ID + ProfileId = (cmsSEQ*) cmsReadTag(hProfile, cmsSigProfileSequenceIdTag); + + if (ProfileSeq == NULL && ProfileId == NULL) return NULL; + + if (ProfileSeq == NULL) return cmsDupProfileSequenceDescription(ProfileId); + if (ProfileId == NULL) return cmsDupProfileSequenceDescription(ProfileSeq); + + // We have to mix both together. For that they must agree + if (ProfileSeq ->n != ProfileId ->n) return cmsDupProfileSequenceDescription(ProfileSeq); + + NewSeq = cmsDupProfileSequenceDescription(ProfileSeq); + + // Ok, proceed to the mixing + if (NewSeq != NULL) { + for (i=0; i < ProfileSeq ->n; i++) { + + memmove(&NewSeq ->seq[i].ProfileID, &ProfileId ->seq[i].ProfileID, sizeof(cmsProfileID)); + NewSeq ->seq[i].Description = cmsMLUdup(ProfileId ->seq[i].Description); + } + } + return NewSeq; +} + +// Dump the contents of profile sequence in both tags (if v4 available) +cmsBool _cmsWriteProfileSequence(cmsHPROFILE hProfile, const cmsSEQ* seq) +{ + if (!cmsWriteTag(hProfile, cmsSigProfileSequenceDescTag, seq)) return FALSE; + + if (cmsGetEncodedICCversion(hProfile) >= 0x4000000) { + + if (!cmsWriteTag(hProfile, cmsSigProfileSequenceIdTag, seq)) return FALSE; + } + + return TRUE; +} + + +// Auxiliary, read and duplicate a MLU if found. +static +cmsMLU* GetMLUFromProfile(cmsHPROFILE h, cmsTagSignature sig) +{ + cmsMLU* mlu = (cmsMLU*) cmsReadTag(h, sig); + if (mlu == NULL) return NULL; + + return cmsMLUdup(mlu); +} + +// Create a sequence description out of an array of profiles +cmsSEQ* _cmsCompileProfileSequence(cmsContext ContextID, cmsUInt32Number nProfiles, cmsHPROFILE hProfiles[]) +{ + cmsUInt32Number i; + cmsSEQ* seq = cmsAllocProfileSequenceDescription(ContextID, nProfiles); + + if (seq == NULL) return NULL; + + for (i=0; i < nProfiles; i++) { + + cmsPSEQDESC* ps = &seq ->seq[i]; + cmsHPROFILE h = hProfiles[i]; + cmsTechnologySignature* techpt; + + cmsGetHeaderAttributes(h, &ps ->attributes); + cmsGetHeaderProfileID(h, ps ->ProfileID.ID8); + ps ->deviceMfg = cmsGetHeaderManufacturer(h); + ps ->deviceModel = cmsGetHeaderModel(h); + + techpt = (cmsTechnologySignature*) cmsReadTag(h, cmsSigTechnologyTag); + if (techpt == NULL) + ps ->technology = (cmsTechnologySignature) 0; + else + ps ->technology = *techpt; + + ps ->Manufacturer = GetMLUFromProfile(h, cmsSigDeviceMfgDescTag); + ps ->Model = GetMLUFromProfile(h, cmsSigDeviceModelDescTag); + ps ->Description = GetMLUFromProfile(h, cmsSigProfileDescriptionTag); + + } + + return seq; +} + +// ------------------------------------------------------------------------------------------------------------------- + + +static +const cmsMLU* GetInfo(cmsHPROFILE hProfile, cmsInfoType Info) +{ + cmsTagSignature sig; + + switch (Info) { + + case cmsInfoDescription: + sig = cmsSigProfileDescriptionTag; + break; + + case cmsInfoManufacturer: + sig = cmsSigDeviceMfgDescTag; + break; + + case cmsInfoModel: + sig = cmsSigDeviceModelDescTag; + break; + + case cmsInfoCopyright: + sig = cmsSigCopyrightTag; + break; + + default: return NULL; + } + + + return (cmsMLU*) cmsReadTag(hProfile, sig); +} + + + +cmsUInt32Number CMSEXPORT cmsGetProfileInfo(cmsHPROFILE hProfile, cmsInfoType Info, + const char LanguageCode[3], const char CountryCode[3], + wchar_t* Buffer, cmsUInt32Number BufferSize) +{ + const cmsMLU* mlu = GetInfo(hProfile, Info); + if (mlu == NULL) return 0; + + return cmsMLUgetWide(mlu, LanguageCode, CountryCode, Buffer, BufferSize); +} + + +cmsUInt32Number CMSEXPORT cmsGetProfileInfoASCII(cmsHPROFILE hProfile, cmsInfoType Info, + const char LanguageCode[3], const char CountryCode[3], + char* Buffer, cmsUInt32Number BufferSize) +{ + const cmsMLU* mlu = GetInfo(hProfile, Info); + if (mlu == NULL) return 0; + + return cmsMLUgetASCII(mlu, LanguageCode, CountryCode, Buffer, BufferSize); +} Index: sdk/lib/3rdparty/lcms2/cmslut.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmslut.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmslut.c (working copy) @@ -0,0 +1,1812 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// Allocates an empty multi profile element +cmsStage* CMSEXPORT _cmsStageAllocPlaceholder(cmsContext ContextID, + cmsStageSignature Type, + cmsUInt32Number InputChannels, + cmsUInt32Number OutputChannels, + _cmsStageEvalFn EvalPtr, + _cmsStageDupElemFn DupElemPtr, + _cmsStageFreeElemFn FreePtr, + void* Data) +{ + cmsStage* ph = (cmsStage*) _cmsMallocZero(ContextID, sizeof(cmsStage)); + + if (ph == NULL) return NULL; + + + ph ->ContextID = ContextID; + + ph ->Type = Type; + ph ->Implements = Type; // By default, no clue on what is implementing + + ph ->InputChannels = InputChannels; + ph ->OutputChannels = OutputChannels; + ph ->EvalPtr = EvalPtr; + ph ->DupElemPtr = DupElemPtr; + ph ->FreePtr = FreePtr; + ph ->Data = Data; + + return ph; +} + + +static +void EvaluateIdentity(const cmsFloat32Number In[], + cmsFloat32Number Out[], + const cmsStage *mpe) +{ + memmove(Out, In, mpe ->InputChannels * sizeof(cmsFloat32Number)); +} + + +cmsStage* CMSEXPORT cmsStageAllocIdentity(cmsContext ContextID, cmsUInt32Number nChannels) +{ + return _cmsStageAllocPlaceholder(ContextID, + cmsSigIdentityElemType, + nChannels, nChannels, + EvaluateIdentity, + NULL, + NULL, + NULL); + } + +// Conversion functions. From floating point to 16 bits +static +void FromFloatTo16(const cmsFloat32Number In[], cmsUInt16Number Out[], cmsUInt32Number n) +{ + cmsUInt32Number i; + + for (i=0; i < n; i++) { + Out[i] = _cmsQuickSaturateWord(In[i] * 65535.0); + } +} + +// From 16 bits to floating point +static +void From16ToFloat(const cmsUInt16Number In[], cmsFloat32Number Out[], cmsUInt32Number n) +{ + cmsUInt32Number i; + + for (i=0; i < n; i++) { + Out[i] = (cmsFloat32Number) In[i] / 65535.0F; + } +} + + +// This function is quite useful to analyze the structure of a LUT and retrieve the MPE elements +// that conform the LUT. It should be called with the LUT, the number of expected elements and +// then a list of expected types followed with a list of cmsFloat64Number pointers to MPE elements. If +// the function founds a match with current pipeline, it fills the pointers and returns TRUE +// if not, returns FALSE without touching anything. Setting pointers to NULL does bypass +// the storage process. +cmsBool CMSEXPORT cmsPipelineCheckAndRetreiveStages(const cmsPipeline* Lut, cmsUInt32Number n, ...) +{ + va_list args; + cmsUInt32Number i; + cmsStage* mpe; + cmsStageSignature Type; + void** ElemPtr; + + // Make sure same number of elements + if (cmsPipelineStageCount(Lut) != n) return FALSE; + + va_start(args, n); + + // Iterate across asked types + mpe = Lut ->Elements; + for (i=0; i < n; i++) { + + // Get asked type + Type = (cmsStageSignature)va_arg(args, cmsStageSignature); + if (mpe ->Type != Type) { + + va_end(args); // Mismatch. We are done. + return FALSE; + } + mpe = mpe ->Next; + } + + // Found a combination, fill pointers if not NULL + mpe = Lut ->Elements; + for (i=0; i < n; i++) { + + ElemPtr = va_arg(args, void**); + if (ElemPtr != NULL) + *ElemPtr = mpe; + + mpe = mpe ->Next; + } + + va_end(args); + return TRUE; +} + +// Below there are implementations for several types of elements. Each type may be implemented by a +// evaluation function, a duplication function, a function to free resources and a constructor. + +// ************************************************************************************************* +// Type cmsSigCurveSetElemType (curves) +// ************************************************************************************************* + +cmsToneCurve** _cmsStageGetPtrToCurveSet(const cmsStage* mpe) +{ + _cmsStageToneCurvesData* Data = (_cmsStageToneCurvesData*) mpe ->Data; + + return Data ->TheCurves; +} + +static +void EvaluateCurves(const cmsFloat32Number In[], + cmsFloat32Number Out[], + const cmsStage *mpe) +{ + _cmsStageToneCurvesData* Data; + cmsUInt32Number i; + + _cmsAssert(mpe != NULL); + + Data = (_cmsStageToneCurvesData*) mpe ->Data; + if (Data == NULL) return; + + if (Data ->TheCurves == NULL) return; + + for (i=0; i < Data ->nCurves; i++) { + Out[i] = cmsEvalToneCurveFloat(Data ->TheCurves[i], In[i]); + } +} + +static +void CurveSetElemTypeFree(cmsStage* mpe) +{ + _cmsStageToneCurvesData* Data; + cmsUInt32Number i; + + _cmsAssert(mpe != NULL); + + Data = (_cmsStageToneCurvesData*) mpe ->Data; + if (Data == NULL) return; + + if (Data ->TheCurves != NULL) { + for (i=0; i < Data ->nCurves; i++) { + if (Data ->TheCurves[i] != NULL) + cmsFreeToneCurve(Data ->TheCurves[i]); + } + } + _cmsFree(mpe ->ContextID, Data ->TheCurves); + _cmsFree(mpe ->ContextID, Data); +} + + +static +void* CurveSetDup(cmsStage* mpe) +{ + _cmsStageToneCurvesData* Data = (_cmsStageToneCurvesData*) mpe ->Data; + _cmsStageToneCurvesData* NewElem; + cmsUInt32Number i; + + NewElem = (_cmsStageToneCurvesData*) _cmsMallocZero(mpe ->ContextID, sizeof(_cmsStageToneCurvesData)); + if (NewElem == NULL) return NULL; + + NewElem ->nCurves = Data ->nCurves; + NewElem ->TheCurves = (cmsToneCurve**) _cmsCalloc(mpe ->ContextID, NewElem ->nCurves, sizeof(cmsToneCurve*)); + + if (NewElem ->TheCurves == NULL) goto Error; + + for (i=0; i < NewElem ->nCurves; i++) { + + // Duplicate each curve. It may fail. + NewElem ->TheCurves[i] = cmsDupToneCurve(Data ->TheCurves[i]); + if (NewElem ->TheCurves[i] == NULL) goto Error; + + + } + return (void*) NewElem; + +Error: + + if (NewElem ->TheCurves != NULL) { + for (i=0; i < NewElem ->nCurves; i++) { + if (NewElem ->TheCurves[i]) + cmsFreeToneCurve(NewElem ->TheCurves[i]); + } + } + _cmsFree(mpe ->ContextID, NewElem ->TheCurves); + _cmsFree(mpe ->ContextID, NewElem); + return NULL; +} + + +// Curves == NULL forces identity curves +cmsStage* CMSEXPORT cmsStageAllocToneCurves(cmsContext ContextID, cmsUInt32Number nChannels, cmsToneCurve* const Curves[]) +{ + cmsUInt32Number i; + _cmsStageToneCurvesData* NewElem; + cmsStage* NewMPE; + + + NewMPE = _cmsStageAllocPlaceholder(ContextID, cmsSigCurveSetElemType, nChannels, nChannels, + EvaluateCurves, CurveSetDup, CurveSetElemTypeFree, NULL ); + if (NewMPE == NULL) return NULL; + + NewElem = (_cmsStageToneCurvesData*) _cmsMallocZero(ContextID, sizeof(_cmsStageToneCurvesData)); + if (NewElem == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + NewMPE ->Data = (void*) NewElem; + + NewElem ->nCurves = nChannels; + NewElem ->TheCurves = (cmsToneCurve**) _cmsCalloc(ContextID, nChannels, sizeof(cmsToneCurve*)); + if (NewElem ->TheCurves == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + for (i=0; i < nChannels; i++) { + + if (Curves == NULL) { + NewElem ->TheCurves[i] = cmsBuildGamma(ContextID, 1.0); + } + else { + NewElem ->TheCurves[i] = cmsDupToneCurve(Curves[i]); + } + + if (NewElem ->TheCurves[i] == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + } + + return NewMPE; +} + + +// Create a bunch of identity curves +cmsStage* _cmsStageAllocIdentityCurves(cmsContext ContextID, int nChannels) +{ + cmsStage* mpe = cmsStageAllocToneCurves(ContextID, nChannels, NULL); + + if (mpe == NULL) return NULL; + mpe ->Implements = cmsSigIdentityElemType; + return mpe; +} + + +// ************************************************************************************************* +// Type cmsSigMatrixElemType (Matrices) +// ************************************************************************************************* + + +// Special care should be taken here because precision loss. A temporary cmsFloat64Number buffer is being used +static +void EvaluateMatrix(const cmsFloat32Number In[], + cmsFloat32Number Out[], + const cmsStage *mpe) +{ + cmsUInt32Number i, j; + _cmsStageMatrixData* Data = (_cmsStageMatrixData*) mpe ->Data; + cmsFloat64Number Tmp; + + // Input is already in 0..1.0 notation + for (i=0; i < mpe ->OutputChannels; i++) { + + Tmp = 0; + for (j=0; j < mpe->InputChannels; j++) { + Tmp += In[j] * Data->Double[i*mpe->InputChannels + j]; + } + + if (Data ->Offset != NULL) + Tmp += Data->Offset[i]; + + Out[i] = (cmsFloat32Number) Tmp; + } + + + // Output in 0..1.0 domain +} + + +// Duplicate a yet-existing matrix element +static +void* MatrixElemDup(cmsStage* mpe) +{ + _cmsStageMatrixData* Data = (_cmsStageMatrixData*) mpe ->Data; + _cmsStageMatrixData* NewElem; + cmsUInt32Number sz; + + NewElem = (_cmsStageMatrixData*) _cmsMallocZero(mpe ->ContextID, sizeof(_cmsStageMatrixData)); + if (NewElem == NULL) return NULL; + + sz = mpe ->InputChannels * mpe ->OutputChannels; + + NewElem ->Double = (cmsFloat64Number*) _cmsDupMem(mpe ->ContextID, Data ->Double, sz * sizeof(cmsFloat64Number)) ; + + if (Data ->Offset) + NewElem ->Offset = (cmsFloat64Number*) _cmsDupMem(mpe ->ContextID, + Data ->Offset, mpe -> OutputChannels * sizeof(cmsFloat64Number)) ; + + return (void*) NewElem; +} + + +static +void MatrixElemTypeFree(cmsStage* mpe) +{ + _cmsStageMatrixData* Data = (_cmsStageMatrixData*) mpe ->Data; + if (Data == NULL) + return; + if (Data ->Double) + _cmsFree(mpe ->ContextID, Data ->Double); + + if (Data ->Offset) + _cmsFree(mpe ->ContextID, Data ->Offset); + + _cmsFree(mpe ->ContextID, mpe ->Data); +} + + + +cmsStage* CMSEXPORT cmsStageAllocMatrix(cmsContext ContextID, cmsUInt32Number Rows, cmsUInt32Number Cols, + const cmsFloat64Number* Matrix, const cmsFloat64Number* Offset) +{ + cmsUInt32Number i, n; + _cmsStageMatrixData* NewElem; + cmsStage* NewMPE; + + n = Rows * Cols; + + // Check for overflow + if (n == 0) return NULL; + if (n >= UINT_MAX / Cols) return NULL; + if (n >= UINT_MAX / Rows) return NULL; + if (n < Rows || n < Cols) return NULL; + + NewMPE = _cmsStageAllocPlaceholder(ContextID, cmsSigMatrixElemType, Cols, Rows, + EvaluateMatrix, MatrixElemDup, MatrixElemTypeFree, NULL ); + if (NewMPE == NULL) return NULL; + + + NewElem = (_cmsStageMatrixData*) _cmsMallocZero(ContextID, sizeof(_cmsStageMatrixData)); + if (NewElem == NULL) return NULL; + + + NewElem ->Double = (cmsFloat64Number*) _cmsCalloc(ContextID, n, sizeof(cmsFloat64Number)); + + if (NewElem->Double == NULL) { + MatrixElemTypeFree(NewMPE); + return NULL; + } + + for (i=0; i < n; i++) { + NewElem ->Double[i] = Matrix[i]; + } + + + if (Offset != NULL) { + + NewElem ->Offset = (cmsFloat64Number*) _cmsCalloc(ContextID, Cols, sizeof(cmsFloat64Number)); + if (NewElem->Offset == NULL) { + MatrixElemTypeFree(NewMPE); + return NULL; + } + + for (i=0; i < Cols; i++) { + NewElem ->Offset[i] = Offset[i]; + } + + } + + NewMPE ->Data = (void*) NewElem; + return NewMPE; +} + + +// ************************************************************************************************* +// Type cmsSigCLutElemType +// ************************************************************************************************* + + +// Evaluate in true floating point +static +void EvaluateCLUTfloat(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe) +{ + _cmsStageCLutData* Data = (_cmsStageCLutData*) mpe ->Data; + + Data -> Params ->Interpolation.LerpFloat(In, Out, Data->Params); +} + + +// Convert to 16 bits, evaluate, and back to floating point +static +void EvaluateCLUTfloatIn16(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe) +{ + _cmsStageCLutData* Data = (_cmsStageCLutData*) mpe ->Data; + cmsUInt16Number In16[MAX_STAGE_CHANNELS], Out16[MAX_STAGE_CHANNELS]; + + _cmsAssert(mpe ->InputChannels <= MAX_STAGE_CHANNELS); + _cmsAssert(mpe ->OutputChannels <= MAX_STAGE_CHANNELS); + + FromFloatTo16(In, In16, mpe ->InputChannels); + Data -> Params ->Interpolation.Lerp16(In16, Out16, Data->Params); + From16ToFloat(Out16, Out, mpe ->OutputChannels); +} + + +// Given an hypercube of b dimensions, with Dims[] number of nodes by dimension, calculate the total amount of nodes +static +cmsUInt32Number CubeSize(const cmsUInt32Number Dims[], cmsUInt32Number b) +{ + cmsUInt32Number rv, dim; + + _cmsAssert(Dims != NULL); + + for (rv = 1; b > 0; b--) { + + dim = Dims[b-1]; + if (dim == 0) return 0; // Error + + rv *= dim; + + // Check for overflow + if (rv > UINT_MAX / dim) return 0; + } + + return rv; +} + +static +void* CLUTElemDup(cmsStage* mpe) +{ + _cmsStageCLutData* Data = (_cmsStageCLutData*) mpe ->Data; + _cmsStageCLutData* NewElem; + + + NewElem = (_cmsStageCLutData*) _cmsMallocZero(mpe ->ContextID, sizeof(_cmsStageCLutData)); + if (NewElem == NULL) return NULL; + + NewElem ->nEntries = Data ->nEntries; + NewElem ->HasFloatValues = Data ->HasFloatValues; + + if (Data ->Tab.T) { + + if (Data ->HasFloatValues) { + NewElem ->Tab.TFloat = (cmsFloat32Number*) _cmsDupMem(mpe ->ContextID, Data ->Tab.TFloat, Data ->nEntries * sizeof (cmsFloat32Number)); + if (NewElem ->Tab.TFloat == NULL) + goto Error; + } else { + NewElem ->Tab.T = (cmsUInt16Number*) _cmsDupMem(mpe ->ContextID, Data ->Tab.T, Data ->nEntries * sizeof (cmsUInt16Number)); + if (NewElem ->Tab.T == NULL) + goto Error; + } + } + + NewElem ->Params = _cmsComputeInterpParamsEx(mpe ->ContextID, + Data ->Params ->nSamples, + Data ->Params ->nInputs, + Data ->Params ->nOutputs, + NewElem ->Tab.T, + Data ->Params ->dwFlags); + if (NewElem->Params != NULL) + return (void*) NewElem; + Error: + if (NewElem->Tab.T) + // This works for both types + _cmsFree(mpe ->ContextID, NewElem -> Tab.T); + _cmsFree(mpe ->ContextID, NewElem); + return NULL; +} + + +static +void CLutElemTypeFree(cmsStage* mpe) +{ + + _cmsStageCLutData* Data = (_cmsStageCLutData*) mpe ->Data; + + // Already empty + if (Data == NULL) return; + + // This works for both types + if (Data -> Tab.T) + _cmsFree(mpe ->ContextID, Data -> Tab.T); + + _cmsFreeInterpParams(Data ->Params); + _cmsFree(mpe ->ContextID, mpe ->Data); +} + + +// Allocates a 16-bit multidimensional CLUT. This is evaluated at 16-bit precision. Table may have different +// granularity on each dimension. +cmsStage* CMSEXPORT cmsStageAllocCLut16bitGranular(cmsContext ContextID, + const cmsUInt32Number clutPoints[], + cmsUInt32Number inputChan, + cmsUInt32Number outputChan, + const cmsUInt16Number* Table) +{ + cmsUInt32Number i, n; + _cmsStageCLutData* NewElem; + cmsStage* NewMPE; + + _cmsAssert(clutPoints != NULL); + + if (inputChan > MAX_INPUT_DIMENSIONS) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Too many input channels (%d channels, max=%d)", inputChan, MAX_INPUT_DIMENSIONS); + return NULL; + } + + NewMPE = _cmsStageAllocPlaceholder(ContextID, cmsSigCLutElemType, inputChan, outputChan, + EvaluateCLUTfloatIn16, CLUTElemDup, CLutElemTypeFree, NULL ); + + if (NewMPE == NULL) return NULL; + + NewElem = (_cmsStageCLutData*) _cmsMallocZero(ContextID, sizeof(_cmsStageCLutData)); + if (NewElem == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + NewMPE ->Data = (void*) NewElem; + + NewElem -> nEntries = n = outputChan * CubeSize(clutPoints, inputChan); + NewElem -> HasFloatValues = FALSE; + + if (n == 0) { + cmsStageFree(NewMPE); + return NULL; + } + + + NewElem ->Tab.T = (cmsUInt16Number*) _cmsCalloc(ContextID, n, sizeof(cmsUInt16Number)); + if (NewElem ->Tab.T == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + if (Table != NULL) { + for (i=0; i < n; i++) { + NewElem ->Tab.T[i] = Table[i]; + } + } + + NewElem ->Params = _cmsComputeInterpParamsEx(ContextID, clutPoints, inputChan, outputChan, NewElem ->Tab.T, CMS_LERP_FLAGS_16BITS); + if (NewElem ->Params == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + return NewMPE; +} + +cmsStage* CMSEXPORT cmsStageAllocCLut16bit(cmsContext ContextID, + cmsUInt32Number nGridPoints, + cmsUInt32Number inputChan, + cmsUInt32Number outputChan, + const cmsUInt16Number* Table) +{ + cmsUInt32Number Dimensions[MAX_INPUT_DIMENSIONS]; + int i; + + // Our resulting LUT would be same gridpoints on all dimensions + for (i=0; i < MAX_INPUT_DIMENSIONS; i++) + Dimensions[i] = nGridPoints; + + return cmsStageAllocCLut16bitGranular(ContextID, Dimensions, inputChan, outputChan, Table); +} + + +cmsStage* CMSEXPORT cmsStageAllocCLutFloat(cmsContext ContextID, + cmsUInt32Number nGridPoints, + cmsUInt32Number inputChan, + cmsUInt32Number outputChan, + const cmsFloat32Number* Table) +{ + cmsUInt32Number Dimensions[MAX_INPUT_DIMENSIONS]; + int i; + + // Our resulting LUT would be same gridpoints on all dimensions + for (i=0; i < MAX_INPUT_DIMENSIONS; i++) + Dimensions[i] = nGridPoints; + + return cmsStageAllocCLutFloatGranular(ContextID, Dimensions, inputChan, outputChan, Table); +} + + + +cmsStage* CMSEXPORT cmsStageAllocCLutFloatGranular(cmsContext ContextID, const cmsUInt32Number clutPoints[], cmsUInt32Number inputChan, cmsUInt32Number outputChan, const cmsFloat32Number* Table) +{ + cmsUInt32Number i, n; + _cmsStageCLutData* NewElem; + cmsStage* NewMPE; + + _cmsAssert(clutPoints != NULL); + + if (inputChan > MAX_INPUT_DIMENSIONS) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Too many input channels (%d channels, max=%d)", inputChan, MAX_INPUT_DIMENSIONS); + return NULL; + } + + NewMPE = _cmsStageAllocPlaceholder(ContextID, cmsSigCLutElemType, inputChan, outputChan, + EvaluateCLUTfloat, CLUTElemDup, CLutElemTypeFree, NULL); + if (NewMPE == NULL) return NULL; + + + NewElem = (_cmsStageCLutData*) _cmsMallocZero(ContextID, sizeof(_cmsStageCLutData)); + if (NewElem == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + NewMPE ->Data = (void*) NewElem; + + // There is a potential integer overflow on conputing n and nEntries. + NewElem -> nEntries = n = outputChan * CubeSize(clutPoints, inputChan); + NewElem -> HasFloatValues = TRUE; + + if (n == 0) { + cmsStageFree(NewMPE); + return NULL; + } + + NewElem ->Tab.TFloat = (cmsFloat32Number*) _cmsCalloc(ContextID, n, sizeof(cmsFloat32Number)); + if (NewElem ->Tab.TFloat == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + if (Table != NULL) { + for (i=0; i < n; i++) { + NewElem ->Tab.TFloat[i] = Table[i]; + } + } + + NewElem ->Params = _cmsComputeInterpParamsEx(ContextID, clutPoints, inputChan, outputChan, NewElem ->Tab.TFloat, CMS_LERP_FLAGS_FLOAT); + if (NewElem ->Params == NULL) { + cmsStageFree(NewMPE); + return NULL; + } + + return NewMPE; +} + + +static +int IdentitySampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void * Cargo) +{ + int nChan = *(int*) Cargo; + int i; + + for (i=0; i < nChan; i++) + Out[i] = In[i]; + + return 1; +} + +// Creates an MPE that just copies input to output +cmsStage* _cmsStageAllocIdentityCLut(cmsContext ContextID, int nChan) +{ + cmsUInt32Number Dimensions[MAX_INPUT_DIMENSIONS]; + cmsStage* mpe ; + int i; + + for (i=0; i < MAX_INPUT_DIMENSIONS; i++) + Dimensions[i] = 2; + + mpe = cmsStageAllocCLut16bitGranular(ContextID, Dimensions, nChan, nChan, NULL); + if (mpe == NULL) return NULL; + + if (!cmsStageSampleCLut16bit(mpe, IdentitySampler, &nChan, 0)) { + cmsStageFree(mpe); + return NULL; + } + + mpe ->Implements = cmsSigIdentityElemType; + return mpe; +} + + + +// Quantize a value 0 <= i < MaxSamples to 0..0xffff +cmsUInt16Number _cmsQuantizeVal(cmsFloat64Number i, int MaxSamples) +{ + cmsFloat64Number x; + + x = ((cmsFloat64Number) i * 65535.) / (cmsFloat64Number) (MaxSamples - 1); + return _cmsQuickSaturateWord(x); +} + + +// This routine does a sweep on whole input space, and calls its callback +// function on knots. returns TRUE if all ok, FALSE otherwise. +cmsBool CMSEXPORT cmsStageSampleCLut16bit(cmsStage* mpe, cmsSAMPLER16 Sampler, void * Cargo, cmsUInt32Number dwFlags) +{ + int i, t, nTotalPoints, index, rest; + int nInputs, nOutputs; + cmsUInt32Number* nSamples; + cmsUInt16Number In[MAX_INPUT_DIMENSIONS+1], Out[MAX_STAGE_CHANNELS]; + _cmsStageCLutData* clut; + + if (mpe == NULL) return FALSE; + + clut = (_cmsStageCLutData*) mpe->Data; + + if (clut == NULL) return FALSE; + + nSamples = clut->Params ->nSamples; + nInputs = clut->Params ->nInputs; + nOutputs = clut->Params ->nOutputs; + + if (nInputs <= 0) return FALSE; + if (nOutputs <= 0) return FALSE; + if (nInputs > MAX_INPUT_DIMENSIONS) return FALSE; + if (nOutputs >= MAX_STAGE_CHANNELS) return FALSE; + + nTotalPoints = CubeSize(nSamples, nInputs); + if (nTotalPoints == 0) return FALSE; + + index = 0; + for (i = 0; i < nTotalPoints; i++) { + + rest = i; + for (t = nInputs-1; t >=0; --t) { + + cmsUInt32Number Colorant = rest % nSamples[t]; + + rest /= nSamples[t]; + + In[t] = _cmsQuantizeVal(Colorant, nSamples[t]); + } + + if (clut ->Tab.T != NULL) { + for (t=0; t < nOutputs; t++) + Out[t] = clut->Tab.T[index + t]; + } + + if (!Sampler(In, Out, Cargo)) + return FALSE; + + if (!(dwFlags & SAMPLER_INSPECT)) { + + if (clut ->Tab.T != NULL) { + for (t=0; t < nOutputs; t++) + clut->Tab.T[index + t] = Out[t]; + } + } + + index += nOutputs; + } + + return TRUE; +} + +// Same as anterior, but for floting point +cmsBool CMSEXPORT cmsStageSampleCLutFloat(cmsStage* mpe, cmsSAMPLERFLOAT Sampler, void * Cargo, cmsUInt32Number dwFlags) +{ + int i, t, nTotalPoints, index, rest; + int nInputs, nOutputs; + cmsUInt32Number* nSamples; + cmsFloat32Number In[MAX_INPUT_DIMENSIONS+1], Out[MAX_STAGE_CHANNELS]; + _cmsStageCLutData* clut = (_cmsStageCLutData*) mpe->Data; + + nSamples = clut->Params ->nSamples; + nInputs = clut->Params ->nInputs; + nOutputs = clut->Params ->nOutputs; + + if (nInputs <= 0) return FALSE; + if (nOutputs <= 0) return FALSE; + if (nInputs > MAX_INPUT_DIMENSIONS) return FALSE; + if (nOutputs >= MAX_STAGE_CHANNELS) return FALSE; + + nTotalPoints = CubeSize(nSamples, nInputs); + if (nTotalPoints == 0) return FALSE; + + index = 0; + for (i = 0; i < nTotalPoints; i++) { + + rest = i; + for (t = nInputs-1; t >=0; --t) { + + cmsUInt32Number Colorant = rest % nSamples[t]; + + rest /= nSamples[t]; + + In[t] = (cmsFloat32Number) (_cmsQuantizeVal(Colorant, nSamples[t]) / 65535.0); + } + + if (clut ->Tab.TFloat != NULL) { + for (t=0; t < nOutputs; t++) + Out[t] = clut->Tab.TFloat[index + t]; + } + + if (!Sampler(In, Out, Cargo)) + return FALSE; + + if (!(dwFlags & SAMPLER_INSPECT)) { + + if (clut ->Tab.TFloat != NULL) { + for (t=0; t < nOutputs; t++) + clut->Tab.TFloat[index + t] = Out[t]; + } + } + + index += nOutputs; + } + + return TRUE; +} + + + +// This routine does a sweep on whole input space, and calls its callback +// function on knots. returns TRUE if all ok, FALSE otherwise. +cmsBool CMSEXPORT cmsSliceSpace16(cmsUInt32Number nInputs, const cmsUInt32Number clutPoints[], + cmsSAMPLER16 Sampler, void * Cargo) +{ + int i, t, nTotalPoints, rest; + cmsUInt16Number In[cmsMAXCHANNELS]; + + if (nInputs >= cmsMAXCHANNELS) return FALSE; + + nTotalPoints = CubeSize(clutPoints, nInputs); + if (nTotalPoints == 0) return FALSE; + + for (i = 0; i < nTotalPoints; i++) { + + rest = i; + for (t = nInputs-1; t >=0; --t) { + + cmsUInt32Number Colorant = rest % clutPoints[t]; + + rest /= clutPoints[t]; + In[t] = _cmsQuantizeVal(Colorant, clutPoints[t]); + + } + + if (!Sampler(In, NULL, Cargo)) + return FALSE; + } + + return TRUE; +} + +cmsInt32Number CMSEXPORT cmsSliceSpaceFloat(cmsUInt32Number nInputs, const cmsUInt32Number clutPoints[], + cmsSAMPLERFLOAT Sampler, void * Cargo) +{ + int i, t, nTotalPoints, rest; + cmsFloat32Number In[cmsMAXCHANNELS]; + + if (nInputs >= cmsMAXCHANNELS) return FALSE; + + nTotalPoints = CubeSize(clutPoints, nInputs); + if (nTotalPoints == 0) return FALSE; + + for (i = 0; i < nTotalPoints; i++) { + + rest = i; + for (t = nInputs-1; t >=0; --t) { + + cmsUInt32Number Colorant = rest % clutPoints[t]; + + rest /= clutPoints[t]; + In[t] = (cmsFloat32Number) (_cmsQuantizeVal(Colorant, clutPoints[t]) / 65535.0); + + } + + if (!Sampler(In, NULL, Cargo)) + return FALSE; + } + + return TRUE; +} + +// ******************************************************************************** +// Type cmsSigLab2XYZElemType +// ******************************************************************************** + + +static +void EvaluateLab2XYZ(const cmsFloat32Number In[], + cmsFloat32Number Out[], + const cmsStage *mpe) +{ + cmsCIELab Lab; + cmsCIEXYZ XYZ; + const cmsFloat64Number XYZadj = MAX_ENCODEABLE_XYZ; + + // V4 rules + Lab.L = In[0] * 100.0; + Lab.a = In[1] * 255.0 - 128.0; + Lab.b = In[2] * 255.0 - 128.0; + + cmsLab2XYZ(NULL, &XYZ, &Lab); + + // From XYZ, range 0..19997 to 0..1.0, note that 1.99997 comes from 0xffff + // encoded as 1.15 fixed point, so 1 + (32767.0 / 32768.0) + + Out[0] = (cmsFloat32Number) ((cmsFloat64Number) XYZ.X / XYZadj); + Out[1] = (cmsFloat32Number) ((cmsFloat64Number) XYZ.Y / XYZadj); + Out[2] = (cmsFloat32Number) ((cmsFloat64Number) XYZ.Z / XYZadj); + return; + + cmsUNUSED_PARAMETER(mpe); +} + + +// No dup or free routines needed, as the structure has no pointers in it. +cmsStage* _cmsStageAllocLab2XYZ(cmsContext ContextID) +{ + return _cmsStageAllocPlaceholder(ContextID, cmsSigLab2XYZElemType, 3, 3, EvaluateLab2XYZ, NULL, NULL, NULL); +} + +// ******************************************************************************** + +// v2 L=100 is supposed to be placed on 0xFF00. There is no reasonable +// number of gridpoints that would make exact match. However, a prelinearization +// of 258 entries, would map 0xFF00 exactly on entry 257, and this is good to avoid scum dot. +// Almost all what we need but unfortunately, the rest of entries should be scaled by +// (255*257/256) and this is not exact. + +cmsStage* _cmsStageAllocLabV2ToV4curves(cmsContext ContextID) +{ + cmsStage* mpe; + cmsToneCurve* LabTable[3]; + int i, j; + + LabTable[0] = cmsBuildTabulatedToneCurve16(ContextID, 258, NULL); + LabTable[1] = cmsBuildTabulatedToneCurve16(ContextID, 258, NULL); + LabTable[2] = cmsBuildTabulatedToneCurve16(ContextID, 258, NULL); + + for (j=0; j < 3; j++) { + + if (LabTable[j] == NULL) { + cmsFreeToneCurveTriple(LabTable); + return NULL; + } + + // We need to map * (0xffff / 0xff00), thats same as (257 / 256) + // So we can use 258-entry tables to do the trick (i / 257) * (255 * 257) * (257 / 256); + for (i=0; i < 257; i++) { + + LabTable[j]->Table16[i] = (cmsUInt16Number) ((i * 0xffff + 0x80) >> 8); + } + + LabTable[j] ->Table16[257] = 0xffff; + } + + mpe = cmsStageAllocToneCurves(ContextID, 3, LabTable); + cmsFreeToneCurveTriple(LabTable); + + if (mpe == NULL) return NULL; + mpe ->Implements = cmsSigLabV2toV4; + return mpe; +} + +// ******************************************************************************** + +// Matrix-based conversion, which is more accurate, but slower and cannot properly be saved in devicelink profiles +cmsStage* _cmsStageAllocLabV2ToV4(cmsContext ContextID) +{ + static const cmsFloat64Number V2ToV4[] = { 65535.0/65280.0, 0, 0, + 0, 65535.0/65280.0, 0, + 0, 0, 65535.0/65280.0 + }; + + cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, V2ToV4, NULL); + + if (mpe == NULL) return mpe; + mpe ->Implements = cmsSigLabV2toV4; + return mpe; +} + + +// Reverse direction +cmsStage* _cmsStageAllocLabV4ToV2(cmsContext ContextID) +{ + static const cmsFloat64Number V4ToV2[] = { 65280.0/65535.0, 0, 0, + 0, 65280.0/65535.0, 0, + 0, 0, 65280.0/65535.0 + }; + + cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, V4ToV2, NULL); + + if (mpe == NULL) return mpe; + mpe ->Implements = cmsSigLabV4toV2; + return mpe; +} + + +// To Lab to float. Note that the MPE gives numbers in normal Lab range +// and we need 0..1.0 range for the formatters +// L* : 0...100 => 0...1.0 (L* / 100) +// ab* : -128..+127 to 0..1 ((ab* + 128) / 255) + +cmsStage* _cmsStageNormalizeFromLabFloat(cmsContext ContextID) +{ + static const cmsFloat64Number a1[] = { + 1.0/100.0, 0, 0, + 0, 1.0/255.0, 0, + 0, 0, 1.0/255.0 + }; + + static const cmsFloat64Number o1[] = { + 0, + 128.0/255.0, + 128.0/255.0 + }; + + cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, a1, o1); + + if (mpe == NULL) return mpe; + mpe ->Implements = cmsSigLab2FloatPCS; + return mpe; +} + +// Fom XYZ to floating point PCS +cmsStage* _cmsStageNormalizeFromXyzFloat(cmsContext ContextID) +{ +#define n (32768.0/65535.0) + static const cmsFloat64Number a1[] = { + n, 0, 0, + 0, n, 0, + 0, 0, n + }; +#undef n + + cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, a1, NULL); + + if (mpe == NULL) return mpe; + mpe ->Implements = cmsSigXYZ2FloatPCS; + return mpe; +} + +cmsStage* _cmsStageNormalizeToLabFloat(cmsContext ContextID) +{ + static const cmsFloat64Number a1[] = { + 100.0, 0, 0, + 0, 255.0, 0, + 0, 0, 255.0 + }; + + static const cmsFloat64Number o1[] = { + 0, + -128.0, + -128.0 + }; + + cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, a1, o1); + if (mpe == NULL) return mpe; + mpe ->Implements = cmsSigFloatPCS2Lab; + return mpe; +} + +cmsStage* _cmsStageNormalizeToXyzFloat(cmsContext ContextID) +{ +#define n (65535.0/32768.0) + + static const cmsFloat64Number a1[] = { + n, 0, 0, + 0, n, 0, + 0, 0, n + }; +#undef n + + cmsStage *mpe = cmsStageAllocMatrix(ContextID, 3, 3, a1, NULL); + if (mpe == NULL) return mpe; + mpe ->Implements = cmsSigFloatPCS2XYZ; + return mpe; +} + +// Clips values smaller than zero +static +void Clipper(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe) +{ + cmsUInt32Number i; + for (i = 0; i < mpe->InputChannels; i++) { + + cmsFloat32Number n = In[i]; + Out[i] = n < 0 ? 0 : n; + } +} + +cmsStage* _cmsStageClipNegatives(cmsContext ContextID, int nChannels) +{ + return _cmsStageAllocPlaceholder(ContextID, cmsSigClipNegativesElemType, + nChannels, nChannels, Clipper, NULL, NULL, NULL); +} + +// ******************************************************************************** +// Type cmsSigXYZ2LabElemType +// ******************************************************************************** + +static +void EvaluateXYZ2Lab(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe) +{ + cmsCIELab Lab; + cmsCIEXYZ XYZ; + const cmsFloat64Number XYZadj = MAX_ENCODEABLE_XYZ; + + // From 0..1.0 to XYZ + + XYZ.X = In[0] * XYZadj; + XYZ.Y = In[1] * XYZadj; + XYZ.Z = In[2] * XYZadj; + + cmsXYZ2Lab(NULL, &Lab, &XYZ); + + // From V4 Lab to 0..1.0 + + Out[0] = (cmsFloat32Number) (Lab.L / 100.0); + Out[1] = (cmsFloat32Number) ((Lab.a + 128.0) / 255.0); + Out[2] = (cmsFloat32Number) ((Lab.b + 128.0) / 255.0); + return; + + cmsUNUSED_PARAMETER(mpe); +} + +cmsStage* _cmsStageAllocXYZ2Lab(cmsContext ContextID) +{ + return _cmsStageAllocPlaceholder(ContextID, cmsSigXYZ2LabElemType, 3, 3, EvaluateXYZ2Lab, NULL, NULL, NULL); + +} + +// ******************************************************************************** + +// For v4, S-Shaped curves are placed in a/b axis to increase resolution near gray + +cmsStage* _cmsStageAllocLabPrelin(cmsContext ContextID) +{ + cmsToneCurve* LabTable[3]; + cmsFloat64Number Params[1] = {2.4} ; + + LabTable[0] = cmsBuildGamma(ContextID, 1.0); + LabTable[1] = cmsBuildParametricToneCurve(ContextID, 108, Params); + LabTable[2] = cmsBuildParametricToneCurve(ContextID, 108, Params); + + return cmsStageAllocToneCurves(ContextID, 3, LabTable); +} + + +// Free a single MPE +void CMSEXPORT cmsStageFree(cmsStage* mpe) +{ + if (mpe ->FreePtr) + mpe ->FreePtr(mpe); + + _cmsFree(mpe ->ContextID, mpe); +} + + +cmsUInt32Number CMSEXPORT cmsStageInputChannels(const cmsStage* mpe) +{ + return mpe ->InputChannels; +} + +cmsUInt32Number CMSEXPORT cmsStageOutputChannels(const cmsStage* mpe) +{ + return mpe ->OutputChannels; +} + +cmsStageSignature CMSEXPORT cmsStageType(const cmsStage* mpe) +{ + return mpe -> Type; +} + +void* CMSEXPORT cmsStageData(const cmsStage* mpe) +{ + return mpe -> Data; +} + +cmsStage* CMSEXPORT cmsStageNext(const cmsStage* mpe) +{ + return mpe -> Next; +} + + +// Duplicates an MPE +cmsStage* CMSEXPORT cmsStageDup(cmsStage* mpe) +{ + cmsStage* NewMPE; + + if (mpe == NULL) return NULL; + NewMPE = _cmsStageAllocPlaceholder(mpe ->ContextID, + mpe ->Type, + mpe ->InputChannels, + mpe ->OutputChannels, + mpe ->EvalPtr, + mpe ->DupElemPtr, + mpe ->FreePtr, + NULL); + if (NewMPE == NULL) return NULL; + + NewMPE ->Implements = mpe ->Implements; + + if (mpe ->DupElemPtr) { + + NewMPE ->Data = mpe ->DupElemPtr(mpe); + + if (NewMPE->Data == NULL) { + + cmsStageFree(NewMPE); + return NULL; + } + + } else { + + NewMPE ->Data = NULL; + } + + return NewMPE; +} + + +// *********************************************************************************************************** + +// This function sets up the channel count + +static +void BlessLUT(cmsPipeline* lut) +{ + // We can set the input/ouput channels only if we have elements. + if (lut ->Elements != NULL) { + + cmsStage *First, *Last; + + First = cmsPipelineGetPtrToFirstStage(lut); + Last = cmsPipelineGetPtrToLastStage(lut); + + if (First != NULL)lut ->InputChannels = First ->InputChannels; + if (Last != NULL) lut ->OutputChannels = Last ->OutputChannels; + } +} + + +// Default to evaluate the LUT on 16 bit-basis. Precision is retained. +static +void _LUTeval16(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register const void* D) +{ + cmsPipeline* lut = (cmsPipeline*) D; + cmsStage *mpe; + cmsFloat32Number Storage[2][MAX_STAGE_CHANNELS]; + int Phase = 0, NextPhase; + + From16ToFloat(In, &Storage[Phase][0], lut ->InputChannels); + + for (mpe = lut ->Elements; + mpe != NULL; + mpe = mpe ->Next) { + + NextPhase = Phase ^ 1; + mpe ->EvalPtr(&Storage[Phase][0], &Storage[NextPhase][0], mpe); + Phase = NextPhase; + } + + + FromFloatTo16(&Storage[Phase][0], Out, lut ->OutputChannels); +} + + + +// Does evaluate the LUT on cmsFloat32Number-basis. +static +void _LUTevalFloat(register const cmsFloat32Number In[], register cmsFloat32Number Out[], const void* D) +{ + cmsPipeline* lut = (cmsPipeline*) D; + cmsStage *mpe; + cmsFloat32Number Storage[2][MAX_STAGE_CHANNELS]; + int Phase = 0, NextPhase; + + memmove(&Storage[Phase][0], In, lut ->InputChannels * sizeof(cmsFloat32Number)); + + for (mpe = lut ->Elements; + mpe != NULL; + mpe = mpe ->Next) { + + NextPhase = Phase ^ 1; + mpe ->EvalPtr(&Storage[Phase][0], &Storage[NextPhase][0], mpe); + Phase = NextPhase; + } + + memmove(Out, &Storage[Phase][0], lut ->OutputChannels * sizeof(cmsFloat32Number)); +} + + + + +// LUT Creation & Destruction + +cmsPipeline* CMSEXPORT cmsPipelineAlloc(cmsContext ContextID, cmsUInt32Number InputChannels, cmsUInt32Number OutputChannels) +{ + cmsPipeline* NewLUT; + + if (InputChannels >= cmsMAXCHANNELS || + OutputChannels >= cmsMAXCHANNELS) return NULL; + + NewLUT = (cmsPipeline*) _cmsMallocZero(ContextID, sizeof(cmsPipeline)); + if (NewLUT == NULL) return NULL; + + + NewLUT -> InputChannels = InputChannels; + NewLUT -> OutputChannels = OutputChannels; + + NewLUT ->Eval16Fn = _LUTeval16; + NewLUT ->EvalFloatFn = _LUTevalFloat; + NewLUT ->DupDataFn = NULL; + NewLUT ->FreeDataFn = NULL; + NewLUT ->Data = NewLUT; + NewLUT ->ContextID = ContextID; + + BlessLUT(NewLUT); + + return NewLUT; +} + +cmsContext CMSEXPORT cmsGetPipelineContextID(const cmsPipeline* lut) +{ + _cmsAssert(lut != NULL); + return lut ->ContextID; +} + +cmsUInt32Number CMSEXPORT cmsPipelineInputChannels(const cmsPipeline* lut) +{ + _cmsAssert(lut != NULL); + return lut ->InputChannels; +} + +cmsUInt32Number CMSEXPORT cmsPipelineOutputChannels(const cmsPipeline* lut) +{ + _cmsAssert(lut != NULL); + return lut ->OutputChannels; +} + +// Free a profile elements LUT +void CMSEXPORT cmsPipelineFree(cmsPipeline* lut) +{ + cmsStage *mpe, *Next; + + if (lut == NULL) return; + + for (mpe = lut ->Elements; + mpe != NULL; + mpe = Next) { + + Next = mpe ->Next; + cmsStageFree(mpe); + } + + if (lut ->FreeDataFn) lut ->FreeDataFn(lut ->ContextID, lut ->Data); + + _cmsFree(lut ->ContextID, lut); +} + + +// Default to evaluate the LUT on 16 bit-basis. +void CMSEXPORT cmsPipelineEval16(const cmsUInt16Number In[], cmsUInt16Number Out[], const cmsPipeline* lut) +{ + _cmsAssert(lut != NULL); + lut ->Eval16Fn(In, Out, lut->Data); +} + + +// Does evaluate the LUT on cmsFloat32Number-basis. +void CMSEXPORT cmsPipelineEvalFloat(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsPipeline* lut) +{ + _cmsAssert(lut != NULL); + lut ->EvalFloatFn(In, Out, lut); +} + + + +// Duplicates a LUT +cmsPipeline* CMSEXPORT cmsPipelineDup(const cmsPipeline* lut) +{ + cmsPipeline* NewLUT; + cmsStage *NewMPE, *Anterior = NULL, *mpe; + cmsBool First = TRUE; + + if (lut == NULL) return NULL; + + NewLUT = cmsPipelineAlloc(lut ->ContextID, lut ->InputChannels, lut ->OutputChannels); + if (NewLUT == NULL) return NULL; + + for (mpe = lut ->Elements; + mpe != NULL; + mpe = mpe ->Next) { + + NewMPE = cmsStageDup(mpe); + + if (NewMPE == NULL) { + cmsPipelineFree(NewLUT); + return NULL; + } + + if (First) { + NewLUT ->Elements = NewMPE; + First = FALSE; + } + else { + if (Anterior != NULL) + Anterior ->Next = NewMPE; + } + + Anterior = NewMPE; + } + + NewLUT ->Eval16Fn = lut ->Eval16Fn; + NewLUT ->EvalFloatFn = lut ->EvalFloatFn; + NewLUT ->DupDataFn = lut ->DupDataFn; + NewLUT ->FreeDataFn = lut ->FreeDataFn; + + if (NewLUT ->DupDataFn != NULL) + NewLUT ->Data = NewLUT ->DupDataFn(lut ->ContextID, lut->Data); + + + NewLUT ->SaveAs8Bits = lut ->SaveAs8Bits; + + BlessLUT(NewLUT); + return NewLUT; +} + + +int CMSEXPORT cmsPipelineInsertStage(cmsPipeline* lut, cmsStageLoc loc, cmsStage* mpe) +{ + cmsStage* Anterior = NULL, *pt; + + if (lut == NULL || mpe == NULL) + return FALSE; + + switch (loc) { + + case cmsAT_BEGIN: + mpe ->Next = lut ->Elements; + lut ->Elements = mpe; + break; + + case cmsAT_END: + + if (lut ->Elements == NULL) + lut ->Elements = mpe; + else { + + for (pt = lut ->Elements; + pt != NULL; + pt = pt -> Next) Anterior = pt; + + Anterior ->Next = mpe; + mpe ->Next = NULL; + } + break; + default:; + return FALSE; + } + + BlessLUT(lut); + return TRUE; +} + +// Unlink an element and return the pointer to it +void CMSEXPORT cmsPipelineUnlinkStage(cmsPipeline* lut, cmsStageLoc loc, cmsStage** mpe) +{ + cmsStage *Anterior, *pt, *Last; + cmsStage *Unlinked = NULL; + + + // If empty LUT, there is nothing to remove + if (lut ->Elements == NULL) { + if (mpe) *mpe = NULL; + return; + } + + // On depending on the strategy... + switch (loc) { + + case cmsAT_BEGIN: + { + cmsStage* elem = lut ->Elements; + + lut ->Elements = elem -> Next; + elem ->Next = NULL; + Unlinked = elem; + + } + break; + + case cmsAT_END: + Anterior = Last = NULL; + for (pt = lut ->Elements; + pt != NULL; + pt = pt -> Next) { + Anterior = Last; + Last = pt; + } + + Unlinked = Last; // Next already points to NULL + + // Truncate the chain + if (Anterior) + Anterior ->Next = NULL; + else + lut ->Elements = NULL; + break; + default:; + } + + if (mpe) + *mpe = Unlinked; + else + cmsStageFree(Unlinked); + + BlessLUT(lut); +} + + +// Concatenate two LUT into a new single one +cmsBool CMSEXPORT cmsPipelineCat(cmsPipeline* l1, const cmsPipeline* l2) +{ + cmsStage* mpe; + + // If both LUTS does not have elements, we need to inherit + // the number of channels + if (l1 ->Elements == NULL && l2 ->Elements == NULL) { + l1 ->InputChannels = l2 ->InputChannels; + l1 ->OutputChannels = l2 ->OutputChannels; + } + + // Cat second + for (mpe = l2 ->Elements; + mpe != NULL; + mpe = mpe ->Next) { + + // We have to dup each element + if (!cmsPipelineInsertStage(l1, cmsAT_END, cmsStageDup(mpe))) + return FALSE; + } + + BlessLUT(l1); + return TRUE; +} + + +cmsBool CMSEXPORT cmsPipelineSetSaveAs8bitsFlag(cmsPipeline* lut, cmsBool On) +{ + cmsBool Anterior = lut ->SaveAs8Bits; + + lut ->SaveAs8Bits = On; + return Anterior; +} + + +cmsStage* CMSEXPORT cmsPipelineGetPtrToFirstStage(const cmsPipeline* lut) +{ + return lut ->Elements; +} + +cmsStage* CMSEXPORT cmsPipelineGetPtrToLastStage(const cmsPipeline* lut) +{ + cmsStage *mpe, *Anterior = NULL; + + for (mpe = lut ->Elements; mpe != NULL; mpe = mpe ->Next) + Anterior = mpe; + + return Anterior; +} + +cmsUInt32Number CMSEXPORT cmsPipelineStageCount(const cmsPipeline* lut) +{ + cmsStage *mpe; + cmsUInt32Number n; + + for (n=0, mpe = lut ->Elements; mpe != NULL; mpe = mpe ->Next) + n++; + + return n; +} + +// This function may be used to set the optional evaluator and a block of private data. If private data is being used, an optional +// duplicator and free functions should also be specified in order to duplicate the LUT construct. Use NULL to inhibit such functionality. +void CMSEXPORT _cmsPipelineSetOptimizationParameters(cmsPipeline* Lut, + _cmsOPTeval16Fn Eval16, + void* PrivateData, + _cmsFreeUserDataFn FreePrivateDataFn, + _cmsDupUserDataFn DupPrivateDataFn) +{ + + Lut ->Eval16Fn = Eval16; + Lut ->DupDataFn = DupPrivateDataFn; + Lut ->FreeDataFn = FreePrivateDataFn; + Lut ->Data = PrivateData; +} + + +// ----------------------------------------------------------- Reverse interpolation +// Here's how it goes. The derivative Df(x) of the function f is the linear +// transformation that best approximates f near the point x. It can be represented +// by a matrix A whose entries are the partial derivatives of the components of f +// with respect to all the coordinates. This is know as the Jacobian +// +// The best linear approximation to f is given by the matrix equation: +// +// y-y0 = A (x-x0) +// +// So, if x0 is a good "guess" for the zero of f, then solving for the zero of this +// linear approximation will give a "better guess" for the zero of f. Thus let y=0, +// and since y0=f(x0) one can solve the above equation for x. This leads to the +// Newton's method formula: +// +// xn+1 = xn - A-1 f(xn) +// +// where xn+1 denotes the (n+1)-st guess, obtained from the n-th guess xn in the +// fashion described above. Iterating this will give better and better approximations +// if you have a "good enough" initial guess. + + +#define JACOBIAN_EPSILON 0.001f +#define INVERSION_MAX_ITERATIONS 30 + +// Increment with reflexion on boundary +static +void IncDelta(cmsFloat32Number *Val) +{ + if (*Val < (1.0 - JACOBIAN_EPSILON)) + + *Val += JACOBIAN_EPSILON; + + else + *Val -= JACOBIAN_EPSILON; + +} + + + +// Euclidean distance between two vectors of n elements each one +static +cmsFloat32Number EuclideanDistance(cmsFloat32Number a[], cmsFloat32Number b[], int n) +{ + cmsFloat32Number sum = 0; + int i; + + for (i=0; i < n; i++) { + cmsFloat32Number dif = b[i] - a[i]; + sum += dif * dif; + } + + return sqrtf(sum); +} + + +// Evaluate a LUT in reverse direction. It only searches on 3->3 LUT. Uses Newton method +// +// x1 <- x - [J(x)]^-1 * f(x) +// +// lut: The LUT on where to do the search +// Target: LabK, 3 values of Lab plus destination K which is fixed +// Result: The obtained CMYK +// Hint: Location where begin the search + +cmsBool CMSEXPORT cmsPipelineEvalReverseFloat(cmsFloat32Number Target[], + cmsFloat32Number Result[], + cmsFloat32Number Hint[], + const cmsPipeline* lut) +{ + cmsUInt32Number i, j; + cmsFloat64Number error, LastError = 1E20; + cmsFloat32Number fx[4], x[4], xd[4], fxd[4]; + cmsVEC3 tmp, tmp2; + cmsMAT3 Jacobian; + + // Only 3->3 and 4->3 are supported + if (lut ->InputChannels != 3 && lut ->InputChannels != 4) return FALSE; + if (lut ->OutputChannels != 3) return FALSE; + + // Take the hint as starting point if specified + if (Hint == NULL) { + + // Begin at any point, we choose 1/3 of CMY axis + x[0] = x[1] = x[2] = 0.3f; + } + else { + + // Only copy 3 channels from hint... + for (j=0; j < 3; j++) + x[j] = Hint[j]; + } + + // If Lut is 4-dimensions, then grab target[3], which is fixed + if (lut ->InputChannels == 4) { + x[3] = Target[3]; + } + else x[3] = 0; // To keep lint happy + + + // Iterate + for (i = 0; i < INVERSION_MAX_ITERATIONS; i++) { + + // Get beginning fx + cmsPipelineEvalFloat(x, fx, lut); + + // Compute error + error = EuclideanDistance(fx, Target, 3); + + // If not convergent, return last safe value + if (error >= LastError) + break; + + // Keep latest values + LastError = error; + for (j=0; j < lut ->InputChannels; j++) + Result[j] = x[j]; + + // Found an exact match? + if (error <= 0) + break; + + // Obtain slope (the Jacobian) + for (j = 0; j < 3; j++) { + + xd[0] = x[0]; + xd[1] = x[1]; + xd[2] = x[2]; + xd[3] = x[3]; // Keep fixed channel + + IncDelta(&xd[j]); + + cmsPipelineEvalFloat(xd, fxd, lut); + + Jacobian.v[0].n[j] = ((fxd[0] - fx[0]) / JACOBIAN_EPSILON); + Jacobian.v[1].n[j] = ((fxd[1] - fx[1]) / JACOBIAN_EPSILON); + Jacobian.v[2].n[j] = ((fxd[2] - fx[2]) / JACOBIAN_EPSILON); + } + + // Solve system + tmp2.n[0] = fx[0] - Target[0]; + tmp2.n[1] = fx[1] - Target[1]; + tmp2.n[2] = fx[2] - Target[2]; + + if (!_cmsMAT3solve(&tmp, &Jacobian, &tmp2)) + return FALSE; + + // Move our guess + x[0] -= (cmsFloat32Number) tmp.n[0]; + x[1] -= (cmsFloat32Number) tmp.n[1]; + x[2] -= (cmsFloat32Number) tmp.n[2]; + + // Some clipping.... + for (j=0; j < 3; j++) { + if (x[j] < 0) x[j] = 0; + else + if (x[j] > 1.0) x[j] = 1.0; + } + } + + return TRUE; +} + + Index: sdk/lib/3rdparty/lcms2/cmsmd5.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsmd5.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsmd5.c (working copy) @@ -0,0 +1,317 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- + + +#include "lcms2_internal.h" + +#ifdef CMS_USE_BIG_ENDIAN + +static +void byteReverse(cmsUInt8Number * buf, cmsUInt32Number longs) +{ + do { + + cmsUInt32Number t = _cmsAdjustEndianess32(*(cmsUInt32Number *) buf); + *(cmsUInt32Number *) buf = t; + buf += sizeof(cmsUInt32Number); + + } while (--longs); + +} + +#else +#define byteReverse(buf, len) +#endif + + +typedef struct { + + cmsUInt32Number buf[4]; + cmsUInt32Number bits[2]; + cmsUInt8Number in[64]; + cmsContext ContextID; + +} _cmsMD5; + +#define F1(x, y, z) (z ^ (x & (y ^ z))) +#define F2(x, y, z) F1(z, x, y) +#define F3(x, y, z) (x ^ y ^ z) +#define F4(x, y, z) (y ^ (x | ~z)) + +#define STEP(f, w, x, y, z, data, s) \ + ( w += f(x, y, z) + data, w = w<>(32-s), w += x ) + + +static +void MD5_Transform(cmsUInt32Number buf[4], cmsUInt32Number in[16]) + +{ + register cmsUInt32Number a, b, c, d; + + a = buf[0]; + b = buf[1]; + c = buf[2]; + d = buf[3]; + + STEP(F1, a, b, c, d, in[0] + 0xd76aa478, 7); + STEP(F1, d, a, b, c, in[1] + 0xe8c7b756, 12); + STEP(F1, c, d, a, b, in[2] + 0x242070db, 17); + STEP(F1, b, c, d, a, in[3] + 0xc1bdceee, 22); + STEP(F1, a, b, c, d, in[4] + 0xf57c0faf, 7); + STEP(F1, d, a, b, c, in[5] + 0x4787c62a, 12); + STEP(F1, c, d, a, b, in[6] + 0xa8304613, 17); + STEP(F1, b, c, d, a, in[7] + 0xfd469501, 22); + STEP(F1, a, b, c, d, in[8] + 0x698098d8, 7); + STEP(F1, d, a, b, c, in[9] + 0x8b44f7af, 12); + STEP(F1, c, d, a, b, in[10] + 0xffff5bb1, 17); + STEP(F1, b, c, d, a, in[11] + 0x895cd7be, 22); + STEP(F1, a, b, c, d, in[12] + 0x6b901122, 7); + STEP(F1, d, a, b, c, in[13] + 0xfd987193, 12); + STEP(F1, c, d, a, b, in[14] + 0xa679438e, 17); + STEP(F1, b, c, d, a, in[15] + 0x49b40821, 22); + + STEP(F2, a, b, c, d, in[1] + 0xf61e2562, 5); + STEP(F2, d, a, b, c, in[6] + 0xc040b340, 9); + STEP(F2, c, d, a, b, in[11] + 0x265e5a51, 14); + STEP(F2, b, c, d, a, in[0] + 0xe9b6c7aa, 20); + STEP(F2, a, b, c, d, in[5] + 0xd62f105d, 5); + STEP(F2, d, a, b, c, in[10] + 0x02441453, 9); + STEP(F2, c, d, a, b, in[15] + 0xd8a1e681, 14); + STEP(F2, b, c, d, a, in[4] + 0xe7d3fbc8, 20); + STEP(F2, a, b, c, d, in[9] + 0x21e1cde6, 5); + STEP(F2, d, a, b, c, in[14] + 0xc33707d6, 9); + STEP(F2, c, d, a, b, in[3] + 0xf4d50d87, 14); + STEP(F2, b, c, d, a, in[8] + 0x455a14ed, 20); + STEP(F2, a, b, c, d, in[13] + 0xa9e3e905, 5); + STEP(F2, d, a, b, c, in[2] + 0xfcefa3f8, 9); + STEP(F2, c, d, a, b, in[7] + 0x676f02d9, 14); + STEP(F2, b, c, d, a, in[12] + 0x8d2a4c8a, 20); + + STEP(F3, a, b, c, d, in[5] + 0xfffa3942, 4); + STEP(F3, d, a, b, c, in[8] + 0x8771f681, 11); + STEP(F3, c, d, a, b, in[11] + 0x6d9d6122, 16); + STEP(F3, b, c, d, a, in[14] + 0xfde5380c, 23); + STEP(F3, a, b, c, d, in[1] + 0xa4beea44, 4); + STEP(F3, d, a, b, c, in[4] + 0x4bdecfa9, 11); + STEP(F3, c, d, a, b, in[7] + 0xf6bb4b60, 16); + STEP(F3, b, c, d, a, in[10] + 0xbebfbc70, 23); + STEP(F3, a, b, c, d, in[13] + 0x289b7ec6, 4); + STEP(F3, d, a, b, c, in[0] + 0xeaa127fa, 11); + STEP(F3, c, d, a, b, in[3] + 0xd4ef3085, 16); + STEP(F3, b, c, d, a, in[6] + 0x04881d05, 23); + STEP(F3, a, b, c, d, in[9] + 0xd9d4d039, 4); + STEP(F3, d, a, b, c, in[12] + 0xe6db99e5, 11); + STEP(F3, c, d, a, b, in[15] + 0x1fa27cf8, 16); + STEP(F3, b, c, d, a, in[2] + 0xc4ac5665, 23); + + STEP(F4, a, b, c, d, in[0] + 0xf4292244, 6); + STEP(F4, d, a, b, c, in[7] + 0x432aff97, 10); + STEP(F4, c, d, a, b, in[14] + 0xab9423a7, 15); + STEP(F4, b, c, d, a, in[5] + 0xfc93a039, 21); + STEP(F4, a, b, c, d, in[12] + 0x655b59c3, 6); + STEP(F4, d, a, b, c, in[3] + 0x8f0ccc92, 10); + STEP(F4, c, d, a, b, in[10] + 0xffeff47d, 15); + STEP(F4, b, c, d, a, in[1] + 0x85845dd1, 21); + STEP(F4, a, b, c, d, in[8] + 0x6fa87e4f, 6); + STEP(F4, d, a, b, c, in[15] + 0xfe2ce6e0, 10); + STEP(F4, c, d, a, b, in[6] + 0xa3014314, 15); + STEP(F4, b, c, d, a, in[13] + 0x4e0811a1, 21); + STEP(F4, a, b, c, d, in[4] + 0xf7537e82, 6); + STEP(F4, d, a, b, c, in[11] + 0xbd3af235, 10); + STEP(F4, c, d, a, b, in[2] + 0x2ad7d2bb, 15); + STEP(F4, b, c, d, a, in[9] + 0xeb86d391, 21); + + buf[0] += a; + buf[1] += b; + buf[2] += c; + buf[3] += d; +} + + +// Create a MD5 object +static +cmsHANDLE MD5alloc(cmsContext ContextID) +{ + _cmsMD5* ctx = (_cmsMD5*) _cmsMallocZero(ContextID, sizeof(_cmsMD5)); + if (ctx == NULL) return NULL; + + ctx ->ContextID = ContextID; + + ctx->buf[0] = 0x67452301; + ctx->buf[1] = 0xefcdab89; + ctx->buf[2] = 0x98badcfe; + ctx->buf[3] = 0x10325476; + + ctx->bits[0] = 0; + ctx->bits[1] = 0; + + return (cmsHANDLE) ctx; +} + + +static +void MD5add(cmsHANDLE Handle, cmsUInt8Number* buf, cmsUInt32Number len) +{ + _cmsMD5* ctx = (_cmsMD5*) Handle; + cmsUInt32Number t; + + t = ctx->bits[0]; + if ((ctx->bits[0] = t + (len << 3)) < t) + ctx->bits[1]++; + + ctx->bits[1] += len >> 29; + + t = (t >> 3) & 0x3f; + + if (t) { + + cmsUInt8Number *p = (cmsUInt8Number *) ctx->in + t; + + t = 64 - t; + if (len < t) { + memmove(p, buf, len); + return; + } + + memmove(p, buf, t); + byteReverse(ctx->in, 16); + + MD5_Transform(ctx->buf, (cmsUInt32Number *) ctx->in); + buf += t; + len -= t; + } + + while (len >= 64) { + memmove(ctx->in, buf, 64); + byteReverse(ctx->in, 16); + MD5_Transform(ctx->buf, (cmsUInt32Number *) ctx->in); + buf += 64; + len -= 64; + } + + memmove(ctx->in, buf, len); +} + +// Destroy the object and return the checksum +static +void MD5finish(cmsProfileID* ProfileID, cmsHANDLE Handle) +{ + _cmsMD5* ctx = (_cmsMD5*) Handle; + cmsUInt32Number count; + cmsUInt8Number *p; + + count = (ctx->bits[0] >> 3) & 0x3F; + + p = ctx->in + count; + *p++ = 0x80; + + count = 64 - 1 - count; + + if (count < 8) { + + memset(p, 0, count); + byteReverse(ctx->in, 16); + MD5_Transform(ctx->buf, (cmsUInt32Number *) ctx->in); + + memset(ctx->in, 0, 56); + } else { + memset(p, 0, count - 8); + } + byteReverse(ctx->in, 14); + + ((cmsUInt32Number *) ctx->in)[14] = ctx->bits[0]; + ((cmsUInt32Number *) ctx->in)[15] = ctx->bits[1]; + + MD5_Transform(ctx->buf, (cmsUInt32Number *) ctx->in); + + byteReverse((cmsUInt8Number *) ctx->buf, 4); + memmove(ProfileID ->ID8, ctx->buf, 16); + + _cmsFree(ctx ->ContextID, ctx); +} + + + +// Assuming io points to an ICC profile, compute and store MD5 checksum +// In the header, rendering intentent, attributes and ID should be set to zero +// before computing MD5 checksum (per 6.1.13 in ICC spec) + +cmsBool CMSEXPORT cmsMD5computeID(cmsHPROFILE hProfile) +{ + cmsContext ContextID; + cmsUInt32Number BytesNeeded; + cmsUInt8Number* Mem = NULL; + cmsHANDLE MD5 = NULL; + _cmsICCPROFILE* Icc = (_cmsICCPROFILE*) hProfile; + _cmsICCPROFILE Keep; + + _cmsAssert(hProfile != NULL); + + ContextID = cmsGetProfileContextID(hProfile); + + // Save a copy of the profile header + memmove(&Keep, Icc, sizeof(_cmsICCPROFILE)); + + // Set RI, attributes and ID + memset(&Icc ->attributes, 0, sizeof(Icc ->attributes)); + Icc ->RenderingIntent = 0; + memset(&Icc ->ProfileID, 0, sizeof(Icc ->ProfileID)); + + // Compute needed storage + if (!cmsSaveProfileToMem(hProfile, NULL, &BytesNeeded)) goto Error; + + // Allocate memory + Mem = (cmsUInt8Number*) _cmsMalloc(ContextID, BytesNeeded); + if (Mem == NULL) goto Error; + + // Save to temporary storage + if (!cmsSaveProfileToMem(hProfile, Mem, &BytesNeeded)) goto Error; + + // Create MD5 object + MD5 = MD5alloc(ContextID); + if (MD5 == NULL) goto Error; + + // Add all bytes + MD5add(MD5, Mem, BytesNeeded); + + // Temp storage is no longer needed + _cmsFree(ContextID, Mem); + + // Restore header + memmove(Icc, &Keep, sizeof(_cmsICCPROFILE)); + + // And store the ID + MD5finish(&Icc ->ProfileID, MD5); + return TRUE; + +Error: + + // Free resources as something went wrong + // "MD5" cannot be other than NULL here, so no need to free it + if (Mem != NULL) _cmsFree(ContextID, Mem); + memmove(Icc, &Keep, sizeof(_cmsICCPROFILE)); + return FALSE; +} + Index: sdk/lib/3rdparty/lcms2/cmsmtrx.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsmtrx.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsmtrx.c (working copy) @@ -0,0 +1,176 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +#define DSWAP(x, y) {cmsFloat64Number tmp = (x); (x)=(y); (y)=tmp;} + + +// Initiate a vector +void CMSEXPORT _cmsVEC3init(cmsVEC3* r, cmsFloat64Number x, cmsFloat64Number y, cmsFloat64Number z) +{ + r -> n[VX] = x; + r -> n[VY] = y; + r -> n[VZ] = z; +} + +// Vector subtraction +void CMSEXPORT _cmsVEC3minus(cmsVEC3* r, const cmsVEC3* a, const cmsVEC3* b) +{ + r -> n[VX] = a -> n[VX] - b -> n[VX]; + r -> n[VY] = a -> n[VY] - b -> n[VY]; + r -> n[VZ] = a -> n[VZ] - b -> n[VZ]; +} + +// Vector cross product +void CMSEXPORT _cmsVEC3cross(cmsVEC3* r, const cmsVEC3* u, const cmsVEC3* v) +{ + r ->n[VX] = u->n[VY] * v->n[VZ] - v->n[VY] * u->n[VZ]; + r ->n[VY] = u->n[VZ] * v->n[VX] - v->n[VZ] * u->n[VX]; + r ->n[VZ] = u->n[VX] * v->n[VY] - v->n[VX] * u->n[VY]; +} + +// Vector dot product +cmsFloat64Number CMSEXPORT _cmsVEC3dot(const cmsVEC3* u, const cmsVEC3* v) +{ + return u->n[VX] * v->n[VX] + u->n[VY] * v->n[VY] + u->n[VZ] * v->n[VZ]; +} + +// Euclidean length +cmsFloat64Number CMSEXPORT _cmsVEC3length(const cmsVEC3* a) +{ + return sqrt(a ->n[VX] * a ->n[VX] + + a ->n[VY] * a ->n[VY] + + a ->n[VZ] * a ->n[VZ]); +} + +// Euclidean distance +cmsFloat64Number CMSEXPORT _cmsVEC3distance(const cmsVEC3* a, const cmsVEC3* b) +{ + cmsFloat64Number d1 = a ->n[VX] - b ->n[VX]; + cmsFloat64Number d2 = a ->n[VY] - b ->n[VY]; + cmsFloat64Number d3 = a ->n[VZ] - b ->n[VZ]; + + return sqrt(d1*d1 + d2*d2 + d3*d3); +} + + + +// 3x3 Identity +void CMSEXPORT _cmsMAT3identity(cmsMAT3* a) +{ + _cmsVEC3init(&a-> v[0], 1.0, 0.0, 0.0); + _cmsVEC3init(&a-> v[1], 0.0, 1.0, 0.0); + _cmsVEC3init(&a-> v[2], 0.0, 0.0, 1.0); +} + +static +cmsBool CloseEnough(cmsFloat64Number a, cmsFloat64Number b) +{ + return fabs(b - a) < (1.0 / 65535.0); +} + + +cmsBool CMSEXPORT _cmsMAT3isIdentity(const cmsMAT3* a) +{ + cmsMAT3 Identity; + int i, j; + + _cmsMAT3identity(&Identity); + + for (i=0; i < 3; i++) + for (j=0; j < 3; j++) + if (!CloseEnough(a ->v[i].n[j], Identity.v[i].n[j])) return FALSE; + + return TRUE; +} + + +// Multiply two matrices +void CMSEXPORT _cmsMAT3per(cmsMAT3* r, const cmsMAT3* a, const cmsMAT3* b) +{ +#define ROWCOL(i, j) \ + a->v[i].n[0]*b->v[0].n[j] + a->v[i].n[1]*b->v[1].n[j] + a->v[i].n[2]*b->v[2].n[j] + + _cmsVEC3init(&r-> v[0], ROWCOL(0,0), ROWCOL(0,1), ROWCOL(0,2)); + _cmsVEC3init(&r-> v[1], ROWCOL(1,0), ROWCOL(1,1), ROWCOL(1,2)); + _cmsVEC3init(&r-> v[2], ROWCOL(2,0), ROWCOL(2,1), ROWCOL(2,2)); + +#undef ROWCOL //(i, j) +} + + + +// Inverse of a matrix b = a^(-1) +cmsBool CMSEXPORT _cmsMAT3inverse(const cmsMAT3* a, cmsMAT3* b) +{ + cmsFloat64Number det, c0, c1, c2; + + c0 = a -> v[1].n[1]*a -> v[2].n[2] - a -> v[1].n[2]*a -> v[2].n[1]; + c1 = -a -> v[1].n[0]*a -> v[2].n[2] + a -> v[1].n[2]*a -> v[2].n[0]; + c2 = a -> v[1].n[0]*a -> v[2].n[1] - a -> v[1].n[1]*a -> v[2].n[0]; + + det = a -> v[0].n[0]*c0 + a -> v[0].n[1]*c1 + a -> v[0].n[2]*c2; + + if (fabs(det) < MATRIX_DET_TOLERANCE) return FALSE; // singular matrix; can't invert + + b -> v[0].n[0] = c0/det; + b -> v[0].n[1] = (a -> v[0].n[2]*a -> v[2].n[1] - a -> v[0].n[1]*a -> v[2].n[2])/det; + b -> v[0].n[2] = (a -> v[0].n[1]*a -> v[1].n[2] - a -> v[0].n[2]*a -> v[1].n[1])/det; + b -> v[1].n[0] = c1/det; + b -> v[1].n[1] = (a -> v[0].n[0]*a -> v[2].n[2] - a -> v[0].n[2]*a -> v[2].n[0])/det; + b -> v[1].n[2] = (a -> v[0].n[2]*a -> v[1].n[0] - a -> v[0].n[0]*a -> v[1].n[2])/det; + b -> v[2].n[0] = c2/det; + b -> v[2].n[1] = (a -> v[0].n[1]*a -> v[2].n[0] - a -> v[0].n[0]*a -> v[2].n[1])/det; + b -> v[2].n[2] = (a -> v[0].n[0]*a -> v[1].n[1] - a -> v[0].n[1]*a -> v[1].n[0])/det; + + return TRUE; +} + + +// Solve a system in the form Ax = b +cmsBool CMSEXPORT _cmsMAT3solve(cmsVEC3* x, cmsMAT3* a, cmsVEC3* b) +{ + cmsMAT3 m, a_1; + + memmove(&m, a, sizeof(cmsMAT3)); + + if (!_cmsMAT3inverse(&m, &a_1)) return FALSE; // Singular matrix + + _cmsMAT3eval(x, &a_1, b); + return TRUE; +} + +// Evaluate a vector across a matrix +void CMSEXPORT _cmsMAT3eval(cmsVEC3* r, const cmsMAT3* a, const cmsVEC3* v) +{ + r->n[VX] = a->v[0].n[VX]*v->n[VX] + a->v[0].n[VY]*v->n[VY] + a->v[0].n[VZ]*v->n[VZ]; + r->n[VY] = a->v[1].n[VX]*v->n[VX] + a->v[1].n[VY]*v->n[VY] + a->v[1].n[VZ]*v->n[VZ]; + r->n[VZ] = a->v[2].n[VX]*v->n[VX] + a->v[2].n[VY]*v->n[VY] + a->v[2].n[VZ]*v->n[VZ]; +} + + Index: sdk/lib/3rdparty/lcms2/cmsnamed.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsnamed.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsnamed.c (working copy) @@ -0,0 +1,956 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Multilocalized unicode objects. That is an attempt to encapsulate i18n. + + +// Allocates an empty multi localizad unicode object +cmsMLU* CMSEXPORT cmsMLUalloc(cmsContext ContextID, cmsUInt32Number nItems) +{ + cmsMLU* mlu; + + // nItems should be positive if given + if (nItems <= 0) nItems = 2; + + // Create the container + mlu = (cmsMLU*) _cmsMallocZero(ContextID, sizeof(cmsMLU)); + if (mlu == NULL) return NULL; + + mlu ->ContextID = ContextID; + + // Create entry array + mlu ->Entries = (_cmsMLUentry*) _cmsCalloc(ContextID, nItems, sizeof(_cmsMLUentry)); + if (mlu ->Entries == NULL) { + _cmsFree(ContextID, mlu); + return NULL; + } + + // Ok, keep indexes up to date + mlu ->AllocatedEntries = nItems; + mlu ->UsedEntries = 0; + + return mlu; +} + + +// Grows a mempool table for a MLU. Each time this function is called, mempool size is multiplied times two. +static +cmsBool GrowMLUpool(cmsMLU* mlu) +{ + cmsUInt32Number size; + void *NewPtr; + + // Sanity check + if (mlu == NULL) return FALSE; + + if (mlu ->PoolSize == 0) + size = 256; + else + size = mlu ->PoolSize * 2; + + // Check for overflow + if (size < mlu ->PoolSize) return FALSE; + + // Reallocate the pool + NewPtr = _cmsRealloc(mlu ->ContextID, mlu ->MemPool, size); + if (NewPtr == NULL) return FALSE; + + + mlu ->MemPool = NewPtr; + mlu ->PoolSize = size; + + return TRUE; +} + + +// Grows a entry table for a MLU. Each time this function is called, table size is multiplied times two. +static +cmsBool GrowMLUtable(cmsMLU* mlu) +{ + cmsUInt32Number AllocatedEntries; + _cmsMLUentry *NewPtr; + + // Sanity check + if (mlu == NULL) return FALSE; + + AllocatedEntries = mlu ->AllocatedEntries * 2; + + // Check for overflow + if (AllocatedEntries / 2 != mlu ->AllocatedEntries) return FALSE; + + // Reallocate the memory + NewPtr = (_cmsMLUentry*)_cmsRealloc(mlu ->ContextID, mlu ->Entries, AllocatedEntries*sizeof(_cmsMLUentry)); + if (NewPtr == NULL) return FALSE; + + mlu ->Entries = NewPtr; + mlu ->AllocatedEntries = AllocatedEntries; + + return TRUE; +} + + +// Search for a specific entry in the structure. Language and Country are used. +static +int SearchMLUEntry(cmsMLU* mlu, cmsUInt16Number LanguageCode, cmsUInt16Number CountryCode) +{ + cmsUInt32Number i; + + // Sanity check + if (mlu == NULL) return -1; + + // Iterate whole table + for (i=0; i < mlu ->UsedEntries; i++) { + + if (mlu ->Entries[i].Country == CountryCode && + mlu ->Entries[i].Language == LanguageCode) return i; + } + + // Not found + return -1; +} + +// Add a block of characters to the intended MLU. Language and country are specified. +// Only one entry for Language/country pair is allowed. +static +cmsBool AddMLUBlock(cmsMLU* mlu, cmsUInt32Number size, const wchar_t *Block, + cmsUInt16Number LanguageCode, cmsUInt16Number CountryCode) +{ + cmsUInt32Number Offset; + cmsUInt8Number* Ptr; + + // Sanity check + if (mlu == NULL) return FALSE; + + // Is there any room available? + if (mlu ->UsedEntries >= mlu ->AllocatedEntries) { + if (!GrowMLUtable(mlu)) return FALSE; + } + + // Only one ASCII string + if (SearchMLUEntry(mlu, LanguageCode, CountryCode) >= 0) return FALSE; // Only one is allowed! + + // Check for size + while ((mlu ->PoolSize - mlu ->PoolUsed) < size) { + + if (!GrowMLUpool(mlu)) return FALSE; + } + + Offset = mlu ->PoolUsed; + + Ptr = (cmsUInt8Number*) mlu ->MemPool; + if (Ptr == NULL) return FALSE; + + // Set the entry + memmove(Ptr + Offset, Block, size); + mlu ->PoolUsed += size; + + mlu ->Entries[mlu ->UsedEntries].StrW = Offset; + mlu ->Entries[mlu ->UsedEntries].Len = size; + mlu ->Entries[mlu ->UsedEntries].Country = CountryCode; + mlu ->Entries[mlu ->UsedEntries].Language = LanguageCode; + mlu ->UsedEntries++; + + return TRUE; +} + +// Convert from a 3-char code to a cmsUInt16Number. It is done inthis way because some +// compilers don't properly align beginning of strings + +static +cmsUInt16Number strTo16(const char str[3]) +{ + cmsUInt16Number n = ((cmsUInt16Number) str[0] << 8) | str[1]; + + return n; // Always big endian in this case +} + +static +void strFrom16(char str[3], cmsUInt16Number n) +{ + // Assiming this would be aligned + union { + + cmsUInt16Number n; + char str[2]; + + } c; + + c.n = n; // Always big endian in this case + + str[0] = c.str[0]; str[1] = c.str[1]; str[2] = 0; + +} + +// Add an ASCII entry. Do not add any \0 termination (ICC1v43_2010-12.pdf page 61) +cmsBool CMSEXPORT cmsMLUsetASCII(cmsMLU* mlu, const char LanguageCode[3], const char CountryCode[3], const char* ASCIIString) +{ + cmsUInt32Number i, len = (cmsUInt32Number) strlen(ASCIIString); + wchar_t* WStr; + cmsBool rc; + cmsUInt16Number Lang = strTo16(LanguageCode); + cmsUInt16Number Cntry = strTo16(CountryCode); + + if (mlu == NULL) return FALSE; + + WStr = (wchar_t*) _cmsCalloc(mlu ->ContextID, len, sizeof(wchar_t)); + if (WStr == NULL) return FALSE; + + for (i=0; i < len; i++) + WStr[i] = (wchar_t) ASCIIString[i]; + + rc = AddMLUBlock(mlu, len * sizeof(wchar_t), WStr, Lang, Cntry); + + _cmsFree(mlu ->ContextID, WStr); + return rc; + +} + +// We don't need any wcs support library +static +cmsUInt32Number mywcslen(const wchar_t *s) +{ + const wchar_t *p; + + p = s; + while (*p) + p++; + + return (cmsUInt32Number)(p - s); +} + +// Add a wide entry. Do not add any \0 terminator (ICC1v43_2010-12.pdf page 61) +cmsBool CMSEXPORT cmsMLUsetWide(cmsMLU* mlu, const char Language[3], const char Country[3], const wchar_t* WideString) +{ + cmsUInt16Number Lang = strTo16(Language); + cmsUInt16Number Cntry = strTo16(Country); + cmsUInt32Number len; + + if (mlu == NULL) return FALSE; + if (WideString == NULL) return FALSE; + + len = (cmsUInt32Number) (mywcslen(WideString)) * sizeof(wchar_t); + return AddMLUBlock(mlu, len, WideString, Lang, Cntry); +} + +// Duplicating a MLU is as easy as copying all members +cmsMLU* CMSEXPORT cmsMLUdup(const cmsMLU* mlu) +{ + cmsMLU* NewMlu = NULL; + + // Duplicating a NULL obtains a NULL + if (mlu == NULL) return NULL; + + NewMlu = cmsMLUalloc(mlu ->ContextID, mlu ->UsedEntries); + if (NewMlu == NULL) return NULL; + + // Should never happen + if (NewMlu ->AllocatedEntries < mlu ->UsedEntries) + goto Error; + + // Sanitize... + if (NewMlu ->Entries == NULL || mlu ->Entries == NULL) goto Error; + + memmove(NewMlu ->Entries, mlu ->Entries, mlu ->UsedEntries * sizeof(_cmsMLUentry)); + NewMlu ->UsedEntries = mlu ->UsedEntries; + + // The MLU may be empty + if (mlu ->PoolUsed == 0) { + NewMlu ->MemPool = NULL; + } + else { + // It is not empty + NewMlu ->MemPool = _cmsMalloc(mlu ->ContextID, mlu ->PoolUsed); + if (NewMlu ->MemPool == NULL) goto Error; + } + + NewMlu ->PoolSize = mlu ->PoolUsed; + + if (NewMlu ->MemPool == NULL || mlu ->MemPool == NULL) goto Error; + + memmove(NewMlu ->MemPool, mlu->MemPool, mlu ->PoolUsed); + NewMlu ->PoolUsed = mlu ->PoolUsed; + + return NewMlu; + +Error: + + if (NewMlu != NULL) cmsMLUfree(NewMlu); + return NULL; +} + +// Free any used memory +void CMSEXPORT cmsMLUfree(cmsMLU* mlu) +{ + if (mlu) { + + if (mlu -> Entries) _cmsFree(mlu ->ContextID, mlu->Entries); + if (mlu -> MemPool) _cmsFree(mlu ->ContextID, mlu->MemPool); + + _cmsFree(mlu ->ContextID, mlu); + } +} + + +// The algorithm first searches for an exact match of country and language, if not found it uses +// the Language. If none is found, first entry is used instead. +static +const wchar_t* _cmsMLUgetWide(const cmsMLU* mlu, + cmsUInt32Number *len, + cmsUInt16Number LanguageCode, cmsUInt16Number CountryCode, + cmsUInt16Number* UsedLanguageCode, cmsUInt16Number* UsedCountryCode) +{ + cmsUInt32Number i; + cmsInt32Number Best = -1; + _cmsMLUentry* v; + + if (mlu == NULL) return NULL; + + if (mlu -> AllocatedEntries <= 0) return NULL; + + for (i=0; i < mlu ->UsedEntries; i++) { + + v = mlu ->Entries + i; + + if (v -> Language == LanguageCode) { + + if (Best == -1) Best = i; + + if (v -> Country == CountryCode) { + + if (UsedLanguageCode != NULL) *UsedLanguageCode = v ->Language; + if (UsedCountryCode != NULL) *UsedCountryCode = v ->Country; + + if (len != NULL) *len = v ->Len; + + return (wchar_t*) ((cmsUInt8Number*) mlu ->MemPool + v -> StrW); // Found exact match + } + } + } + + // No string found. Return First one + if (Best == -1) + Best = 0; + + v = mlu ->Entries + Best; + + if (UsedLanguageCode != NULL) *UsedLanguageCode = v ->Language; + if (UsedCountryCode != NULL) *UsedCountryCode = v ->Country; + + if (len != NULL) *len = v ->Len; + + return(wchar_t*) ((cmsUInt8Number*) mlu ->MemPool + v ->StrW); +} + + +// Obtain an ASCII representation of the wide string. Setting buffer to NULL returns the len +cmsUInt32Number CMSEXPORT cmsMLUgetASCII(const cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + char* Buffer, cmsUInt32Number BufferSize) +{ + const wchar_t *Wide; + cmsUInt32Number StrLen = 0; + cmsUInt32Number ASCIIlen, i; + + cmsUInt16Number Lang = strTo16(LanguageCode); + cmsUInt16Number Cntry = strTo16(CountryCode); + + // Sanitize + if (mlu == NULL) return 0; + + // Get WideChar + Wide = _cmsMLUgetWide(mlu, &StrLen, Lang, Cntry, NULL, NULL); + if (Wide == NULL) return 0; + + ASCIIlen = StrLen / sizeof(wchar_t); + + // Maybe we want only to know the len? + if (Buffer == NULL) return ASCIIlen + 1; // Note the zero at the end + + // No buffer size means no data + if (BufferSize <= 0) return 0; + + // Some clipping may be required + if (BufferSize < ASCIIlen + 1) + ASCIIlen = BufferSize - 1; + + // Precess each character + for (i=0; i < ASCIIlen; i++) { + + if (Wide[i] == 0) + Buffer[i] = 0; + else + Buffer[i] = (char) Wide[i]; + } + + // We put a termination "\0" + Buffer[ASCIIlen] = 0; + return ASCIIlen + 1; +} + +// Obtain a wide representation of the MLU, on depending on current locale settings +cmsUInt32Number CMSEXPORT cmsMLUgetWide(const cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + wchar_t* Buffer, cmsUInt32Number BufferSize) +{ + const wchar_t *Wide; + cmsUInt32Number StrLen = 0; + + cmsUInt16Number Lang = strTo16(LanguageCode); + cmsUInt16Number Cntry = strTo16(CountryCode); + + // Sanitize + if (mlu == NULL) return 0; + + Wide = _cmsMLUgetWide(mlu, &StrLen, Lang, Cntry, NULL, NULL); + if (Wide == NULL) return 0; + + // Maybe we want only to know the len? + if (Buffer == NULL) return StrLen + sizeof(wchar_t); + + // No buffer size means no data + if (BufferSize <= 0) return 0; + + // Some clipping may be required + if (BufferSize < StrLen + sizeof(wchar_t)) + StrLen = BufferSize - + sizeof(wchar_t); + + memmove(Buffer, Wide, StrLen); + Buffer[StrLen / sizeof(wchar_t)] = 0; + + return StrLen + sizeof(wchar_t); +} + + +// Get also the language and country +CMSAPI cmsBool CMSEXPORT cmsMLUgetTranslation(const cmsMLU* mlu, + const char LanguageCode[3], const char CountryCode[3], + char ObtainedLanguage[3], char ObtainedCountry[3]) +{ + const wchar_t *Wide; + + cmsUInt16Number Lang = strTo16(LanguageCode); + cmsUInt16Number Cntry = strTo16(CountryCode); + cmsUInt16Number ObtLang, ObtCode; + + // Sanitize + if (mlu == NULL) return FALSE; + + Wide = _cmsMLUgetWide(mlu, NULL, Lang, Cntry, &ObtLang, &ObtCode); + if (Wide == NULL) return FALSE; + + // Get used language and code + strFrom16(ObtainedLanguage, ObtLang); + strFrom16(ObtainedCountry, ObtCode); + + return TRUE; +} + + + +// Get the number of translations in the MLU object +cmsUInt32Number CMSEXPORT cmsMLUtranslationsCount(const cmsMLU* mlu) +{ + if (mlu == NULL) return 0; + return mlu->UsedEntries; +} + +// Get the language and country codes for a specific MLU index +cmsBool CMSEXPORT cmsMLUtranslationsCodes(const cmsMLU* mlu, + cmsUInt32Number idx, + char LanguageCode[3], + char CountryCode[3]) +{ + _cmsMLUentry *entry; + + if (mlu == NULL) return FALSE; + + if (idx >= mlu->UsedEntries) return FALSE; + + entry = &mlu->Entries[idx]; + + strFrom16(LanguageCode, entry->Language); + strFrom16(CountryCode, entry->Country); + + return TRUE; +} + + +// Named color lists -------------------------------------------------------------------------------------------- + +// Grow the list to keep at least NumElements +static +cmsBool GrowNamedColorList(cmsNAMEDCOLORLIST* v) +{ + cmsUInt32Number size; + _cmsNAMEDCOLOR * NewPtr; + + if (v == NULL) return FALSE; + + if (v ->Allocated == 0) + size = 64; // Initial guess + else + size = v ->Allocated * 2; + + // Keep a maximum color lists can grow, 100K entries seems reasonable + if (size > 1024*100) return FALSE; + + NewPtr = (_cmsNAMEDCOLOR*) _cmsRealloc(v ->ContextID, v ->List, size * sizeof(_cmsNAMEDCOLOR)); + if (NewPtr == NULL) + return FALSE; + + v ->List = NewPtr; + v ->Allocated = size; + return TRUE; +} + +// Allocate a list for n elements +cmsNAMEDCOLORLIST* CMSEXPORT cmsAllocNamedColorList(cmsContext ContextID, cmsUInt32Number n, cmsUInt32Number ColorantCount, const char* Prefix, const char* Suffix) +{ + cmsNAMEDCOLORLIST* v = (cmsNAMEDCOLORLIST*) _cmsMallocZero(ContextID, sizeof(cmsNAMEDCOLORLIST)); + + if (v == NULL) return NULL; + + v ->List = NULL; + v ->nColors = 0; + v ->ContextID = ContextID; + + while (v -> Allocated < n){ + if (!GrowNamedColorList(v)) return NULL; + } + + strncpy(v ->Prefix, Prefix, sizeof(v ->Prefix)-1); + strncpy(v ->Suffix, Suffix, sizeof(v ->Suffix)-1); + v->Prefix[32] = v->Suffix[32] = 0; + + v -> ColorantCount = ColorantCount; + + return v; +} + +// Free a list +void CMSEXPORT cmsFreeNamedColorList(cmsNAMEDCOLORLIST* v) +{ + if (v == NULL) return; + if (v ->List) _cmsFree(v ->ContextID, v ->List); + _cmsFree(v ->ContextID, v); +} + +cmsNAMEDCOLORLIST* CMSEXPORT cmsDupNamedColorList(const cmsNAMEDCOLORLIST* v) +{ + cmsNAMEDCOLORLIST* NewNC; + + if (v == NULL) return NULL; + + NewNC= cmsAllocNamedColorList(v ->ContextID, v -> nColors, v ->ColorantCount, v ->Prefix, v ->Suffix); + if (NewNC == NULL) return NULL; + + // For really large tables we need this + while (NewNC ->Allocated < v ->Allocated){ + if (!GrowNamedColorList(NewNC)) return NULL; + } + + memmove(NewNC ->Prefix, v ->Prefix, sizeof(v ->Prefix)); + memmove(NewNC ->Suffix, v ->Suffix, sizeof(v ->Suffix)); + NewNC ->ColorantCount = v ->ColorantCount; + memmove(NewNC->List, v ->List, v->nColors * sizeof(_cmsNAMEDCOLOR)); + NewNC ->nColors = v ->nColors; + return NewNC; +} + + +// Append a color to a list. List pointer may change if reallocated +cmsBool CMSEXPORT cmsAppendNamedColor(cmsNAMEDCOLORLIST* NamedColorList, + const char* Name, + cmsUInt16Number PCS[3], cmsUInt16Number Colorant[cmsMAXCHANNELS]) +{ + cmsUInt32Number i; + + if (NamedColorList == NULL) return FALSE; + + if (NamedColorList ->nColors + 1 > NamedColorList ->Allocated) { + if (!GrowNamedColorList(NamedColorList)) return FALSE; + } + + for (i=0; i < NamedColorList ->ColorantCount; i++) + NamedColorList ->List[NamedColorList ->nColors].DeviceColorant[i] = Colorant == NULL? 0 : Colorant[i]; + + for (i=0; i < 3; i++) + NamedColorList ->List[NamedColorList ->nColors].PCS[i] = PCS == NULL ? 0 : PCS[i]; + + if (Name != NULL) { + + strncpy(NamedColorList ->List[NamedColorList ->nColors].Name, Name, cmsMAX_PATH-1); + NamedColorList ->List[NamedColorList ->nColors].Name[cmsMAX_PATH-1] = 0; + + } + else + NamedColorList ->List[NamedColorList ->nColors].Name[0] = 0; + + + NamedColorList ->nColors++; + return TRUE; +} + +// Returns number of elements +cmsUInt32Number CMSEXPORT cmsNamedColorCount(const cmsNAMEDCOLORLIST* NamedColorList) +{ + if (NamedColorList == NULL) return 0; + return NamedColorList ->nColors; +} + +// Info aboout a given color +cmsBool CMSEXPORT cmsNamedColorInfo(const cmsNAMEDCOLORLIST* NamedColorList, cmsUInt32Number nColor, + char* Name, + char* Prefix, + char* Suffix, + cmsUInt16Number* PCS, + cmsUInt16Number* Colorant) +{ + if (NamedColorList == NULL) return FALSE; + + if (nColor >= cmsNamedColorCount(NamedColorList)) return FALSE; + + if (Name) strcpy(Name, NamedColorList->List[nColor].Name); + if (Prefix) strcpy(Prefix, NamedColorList->Prefix); + if (Suffix) strcpy(Suffix, NamedColorList->Suffix); + if (PCS) + memmove(PCS, NamedColorList ->List[nColor].PCS, 3*sizeof(cmsUInt16Number)); + + if (Colorant) + memmove(Colorant, NamedColorList ->List[nColor].DeviceColorant, + sizeof(cmsUInt16Number) * NamedColorList ->ColorantCount); + + + return TRUE; +} + +// Search for a given color name (no prefix or suffix) +cmsInt32Number CMSEXPORT cmsNamedColorIndex(const cmsNAMEDCOLORLIST* NamedColorList, const char* Name) +{ + int i, n; + + if (NamedColorList == NULL) return -1; + n = cmsNamedColorCount(NamedColorList); + for (i=0; i < n; i++) { + if (cmsstrcasecmp(Name, NamedColorList->List[i].Name) == 0) + return i; + } + + return -1; +} + +// MPE support ----------------------------------------------------------------------------------------------------------------- + +static +void FreeNamedColorList(cmsStage* mpe) +{ + cmsNAMEDCOLORLIST* List = (cmsNAMEDCOLORLIST*) mpe ->Data; + cmsFreeNamedColorList(List); +} + +static +void* DupNamedColorList(cmsStage* mpe) +{ + cmsNAMEDCOLORLIST* List = (cmsNAMEDCOLORLIST*) mpe ->Data; + return cmsDupNamedColorList(List); +} + +static +void EvalNamedColorPCS(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe) +{ + cmsNAMEDCOLORLIST* NamedColorList = (cmsNAMEDCOLORLIST*) mpe ->Data; + cmsUInt16Number index = (cmsUInt16Number) _cmsQuickSaturateWord(In[0] * 65535.0); + + if (index >= NamedColorList-> nColors) { + cmsSignalError(NamedColorList ->ContextID, cmsERROR_RANGE, "Color %d out of range; ignored", index); + } + else { + + // Named color always uses Lab + Out[0] = (cmsFloat32Number) (NamedColorList->List[index].PCS[0] / 65535.0); + Out[1] = (cmsFloat32Number) (NamedColorList->List[index].PCS[1] / 65535.0); + Out[2] = (cmsFloat32Number) (NamedColorList->List[index].PCS[2] / 65535.0); + } +} + +static +void EvalNamedColor(const cmsFloat32Number In[], cmsFloat32Number Out[], const cmsStage *mpe) +{ + cmsNAMEDCOLORLIST* NamedColorList = (cmsNAMEDCOLORLIST*) mpe ->Data; + cmsUInt16Number index = (cmsUInt16Number) _cmsQuickSaturateWord(In[0] * 65535.0); + cmsUInt32Number j; + + if (index >= NamedColorList-> nColors) { + cmsSignalError(NamedColorList ->ContextID, cmsERROR_RANGE, "Color %d out of range; ignored", index); + } + else { + for (j=0; j < NamedColorList ->ColorantCount; j++) + Out[j] = (cmsFloat32Number) (NamedColorList->List[index].DeviceColorant[j] / 65535.0); + } +} + + +// Named color lookup element +cmsStage* _cmsStageAllocNamedColor(cmsNAMEDCOLORLIST* NamedColorList, cmsBool UsePCS) +{ + return _cmsStageAllocPlaceholder(NamedColorList ->ContextID, + cmsSigNamedColorElemType, + 1, UsePCS ? 3 : NamedColorList ->ColorantCount, + UsePCS ? EvalNamedColorPCS : EvalNamedColor, + DupNamedColorList, + FreeNamedColorList, + cmsDupNamedColorList(NamedColorList)); + +} + + +// Retrieve the named color list from a transform. Should be first element in the LUT +cmsNAMEDCOLORLIST* CMSEXPORT cmsGetNamedColorList(cmsHTRANSFORM xform) +{ + _cmsTRANSFORM* v = (_cmsTRANSFORM*) xform; + cmsStage* mpe = v ->Lut->Elements; + + if (mpe ->Type != cmsSigNamedColorElemType) return NULL; + return (cmsNAMEDCOLORLIST*) mpe ->Data; +} + + +// Profile sequence description routines ------------------------------------------------------------------------------------- + +cmsSEQ* CMSEXPORT cmsAllocProfileSequenceDescription(cmsContext ContextID, cmsUInt32Number n) +{ + cmsSEQ* Seq; + cmsUInt32Number i; + + if (n == 0) return NULL; + + // In a absolutely arbitrary way, I hereby decide to allow a maxim of 255 profiles linked + // in a devicelink. It makes not sense anyway and may be used for exploits, so let's close the door! + if (n > 255) return NULL; + + Seq = (cmsSEQ*) _cmsMallocZero(ContextID, sizeof(cmsSEQ)); + if (Seq == NULL) return NULL; + + Seq -> ContextID = ContextID; + Seq -> seq = (cmsPSEQDESC*) _cmsCalloc(ContextID, n, sizeof(cmsPSEQDESC)); + Seq -> n = n; + + if (Seq -> seq == NULL) { + _cmsFree(ContextID, Seq); + return NULL; + } + + for (i=0; i < n; i++) { + Seq -> seq[i].Manufacturer = NULL; + Seq -> seq[i].Model = NULL; + Seq -> seq[i].Description = NULL; + } + + return Seq; +} + +void CMSEXPORT cmsFreeProfileSequenceDescription(cmsSEQ* pseq) +{ + cmsUInt32Number i; + + for (i=0; i < pseq ->n; i++) { + if (pseq ->seq[i].Manufacturer != NULL) cmsMLUfree(pseq ->seq[i].Manufacturer); + if (pseq ->seq[i].Model != NULL) cmsMLUfree(pseq ->seq[i].Model); + if (pseq ->seq[i].Description != NULL) cmsMLUfree(pseq ->seq[i].Description); + } + + if (pseq ->seq != NULL) _cmsFree(pseq ->ContextID, pseq ->seq); + _cmsFree(pseq -> ContextID, pseq); +} + +cmsSEQ* CMSEXPORT cmsDupProfileSequenceDescription(const cmsSEQ* pseq) +{ + cmsSEQ *NewSeq; + cmsUInt32Number i; + + if (pseq == NULL) + return NULL; + + NewSeq = (cmsSEQ*) _cmsMalloc(pseq -> ContextID, sizeof(cmsSEQ)); + if (NewSeq == NULL) return NULL; + + + NewSeq -> seq = (cmsPSEQDESC*) _cmsCalloc(pseq ->ContextID, pseq ->n, sizeof(cmsPSEQDESC)); + if (NewSeq ->seq == NULL) goto Error; + + NewSeq -> ContextID = pseq ->ContextID; + NewSeq -> n = pseq ->n; + + for (i=0; i < pseq->n; i++) { + + memmove(&NewSeq ->seq[i].attributes, &pseq ->seq[i].attributes, sizeof(cmsUInt64Number)); + + NewSeq ->seq[i].deviceMfg = pseq ->seq[i].deviceMfg; + NewSeq ->seq[i].deviceModel = pseq ->seq[i].deviceModel; + memmove(&NewSeq ->seq[i].ProfileID, &pseq ->seq[i].ProfileID, sizeof(cmsProfileID)); + NewSeq ->seq[i].technology = pseq ->seq[i].technology; + + NewSeq ->seq[i].Manufacturer = cmsMLUdup(pseq ->seq[i].Manufacturer); + NewSeq ->seq[i].Model = cmsMLUdup(pseq ->seq[i].Model); + NewSeq ->seq[i].Description = cmsMLUdup(pseq ->seq[i].Description); + + } + + return NewSeq; + +Error: + + cmsFreeProfileSequenceDescription(NewSeq); + return NULL; +} + +// Dictionaries -------------------------------------------------------------------------------------------------------- + +// Dictionaries are just very simple linked lists + + +typedef struct _cmsDICT_struct { + cmsDICTentry* head; + cmsContext ContextID; +} _cmsDICT; + + +// Allocate an empty dictionary +cmsHANDLE CMSEXPORT cmsDictAlloc(cmsContext ContextID) +{ + _cmsDICT* dict = (_cmsDICT*) _cmsMallocZero(ContextID, sizeof(_cmsDICT)); + if (dict == NULL) return NULL; + + dict ->ContextID = ContextID; + return (cmsHANDLE) dict; + +} + +// Dispose resources +void CMSEXPORT cmsDictFree(cmsHANDLE hDict) +{ + _cmsDICT* dict = (_cmsDICT*) hDict; + cmsDICTentry *entry, *next; + + _cmsAssert(dict != NULL); + + // Walk the list freeing all nodes + entry = dict ->head; + while (entry != NULL) { + + if (entry ->DisplayName != NULL) cmsMLUfree(entry ->DisplayName); + if (entry ->DisplayValue != NULL) cmsMLUfree(entry ->DisplayValue); + if (entry ->Name != NULL) _cmsFree(dict ->ContextID, entry -> Name); + if (entry ->Value != NULL) _cmsFree(dict ->ContextID, entry -> Value); + + // Don't fall in the habitual trap... + next = entry ->Next; + _cmsFree(dict ->ContextID, entry); + + entry = next; + } + + _cmsFree(dict ->ContextID, dict); +} + + +// Duplicate a wide char string +static +wchar_t* DupWcs(cmsContext ContextID, const wchar_t* ptr) +{ + if (ptr == NULL) return NULL; + return (wchar_t*) _cmsDupMem(ContextID, ptr, (mywcslen(ptr) + 1) * sizeof(wchar_t)); +} + +// Add a new entry to the linked list +cmsBool CMSEXPORT cmsDictAddEntry(cmsHANDLE hDict, const wchar_t* Name, const wchar_t* Value, const cmsMLU *DisplayName, const cmsMLU *DisplayValue) +{ + _cmsDICT* dict = (_cmsDICT*) hDict; + cmsDICTentry *entry; + + _cmsAssert(dict != NULL); + _cmsAssert(Name != NULL); + + entry = (cmsDICTentry*) _cmsMallocZero(dict ->ContextID, sizeof(cmsDICTentry)); + if (entry == NULL) return FALSE; + + entry ->DisplayName = cmsMLUdup(DisplayName); + entry ->DisplayValue = cmsMLUdup(DisplayValue); + entry ->Name = DupWcs(dict ->ContextID, Name); + entry ->Value = DupWcs(dict ->ContextID, Value); + + entry ->Next = dict ->head; + dict ->head = entry; + + return TRUE; +} + + +// Duplicates an existing dictionary +cmsHANDLE CMSEXPORT cmsDictDup(cmsHANDLE hDict) +{ + _cmsDICT* old_dict = (_cmsDICT*) hDict; + cmsHANDLE hNew; + cmsDICTentry *entry; + + _cmsAssert(old_dict != NULL); + + hNew = cmsDictAlloc(old_dict ->ContextID); + if (hNew == NULL) return NULL; + + // Walk the list freeing all nodes + entry = old_dict ->head; + while (entry != NULL) { + + if (!cmsDictAddEntry(hNew, entry ->Name, entry ->Value, entry ->DisplayName, entry ->DisplayValue)) { + + cmsDictFree(hNew); + return NULL; + } + + entry = entry -> Next; + } + + return hNew; +} + +// Get a pointer to the linked list +const cmsDICTentry* CMSEXPORT cmsDictGetEntryList(cmsHANDLE hDict) +{ + _cmsDICT* dict = (_cmsDICT*) hDict; + + if (dict == NULL) return NULL; + return dict ->head; +} + +// Helper For external languages +const cmsDICTentry* CMSEXPORT cmsDictNextEntry(const cmsDICTentry* e) +{ + if (e == NULL) return NULL; + return e ->Next; +} Index: sdk/lib/3rdparty/lcms2/cmsopt.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsopt.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsopt.c (working copy) @@ -0,0 +1,1938 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +//---------------------------------------------------------------------------------- + +// Optimization for 8 bits, Shaper-CLUT (3 inputs only) +typedef struct { + + cmsContext ContextID; + + const cmsInterpParams* p; // Tetrahedrical interpolation parameters. This is a not-owned pointer. + + cmsUInt16Number rx[256], ry[256], rz[256]; + cmsUInt32Number X0[256], Y0[256], Z0[256]; // Precomputed nodes and offsets for 8-bit input data + + +} Prelin8Data; + + +// Generic optimization for 16 bits Shaper-CLUT-Shaper (any inputs) +typedef struct { + + cmsContext ContextID; + + // Number of channels + int nInputs; + int nOutputs; + + _cmsInterpFn16 EvalCurveIn16[MAX_INPUT_DIMENSIONS]; // The maximum number of input channels is known in advance + cmsInterpParams* ParamsCurveIn16[MAX_INPUT_DIMENSIONS]; + + _cmsInterpFn16 EvalCLUT; // The evaluator for 3D grid + const cmsInterpParams* CLUTparams; // (not-owned pointer) + + + _cmsInterpFn16* EvalCurveOut16; // Points to an array of curve evaluators in 16 bits (not-owned pointer) + cmsInterpParams** ParamsCurveOut16; // Points to an array of references to interpolation params (not-owned pointer) + + +} Prelin16Data; + + +// Optimization for matrix-shaper in 8 bits. Numbers are operated in n.14 signed, tables are stored in 1.14 fixed + +typedef cmsInt32Number cmsS1Fixed14Number; // Note that this may hold more than 16 bits! + +#define DOUBLE_TO_1FIXED14(x) ((cmsS1Fixed14Number) floor((x) * 16384.0 + 0.5)) + +typedef struct { + + cmsContext ContextID; + + cmsS1Fixed14Number Shaper1R[256]; // from 0..255 to 1.14 (0.0...1.0) + cmsS1Fixed14Number Shaper1G[256]; + cmsS1Fixed14Number Shaper1B[256]; + + cmsS1Fixed14Number Mat[3][3]; // n.14 to n.14 (needs a saturation after that) + cmsS1Fixed14Number Off[3]; + + cmsUInt16Number Shaper2R[16385]; // 1.14 to 0..255 + cmsUInt16Number Shaper2G[16385]; + cmsUInt16Number Shaper2B[16385]; + +} MatShaper8Data; + +// Curves, optimization is shared between 8 and 16 bits +typedef struct { + + cmsContext ContextID; + + int nCurves; // Number of curves + int nElements; // Elements in curves + cmsUInt16Number** Curves; // Points to a dynamically allocated array + +} Curves16Data; + + +// Simple optimizations ---------------------------------------------------------------------------------------------------------- + + +// Remove an element in linked chain +static +void _RemoveElement(cmsStage** head) +{ + cmsStage* mpe = *head; + cmsStage* next = mpe ->Next; + *head = next; + cmsStageFree(mpe); +} + +// Remove all identities in chain. Note that pt actually is a double pointer to the element that holds the pointer. +static +cmsBool _Remove1Op(cmsPipeline* Lut, cmsStageSignature UnaryOp) +{ + cmsStage** pt = &Lut ->Elements; + cmsBool AnyOpt = FALSE; + + while (*pt != NULL) { + + if ((*pt) ->Implements == UnaryOp) { + _RemoveElement(pt); + AnyOpt = TRUE; + } + else + pt = &((*pt) -> Next); + } + + return AnyOpt; +} + +// Same, but only if two adjacent elements are found +static +cmsBool _Remove2Op(cmsPipeline* Lut, cmsStageSignature Op1, cmsStageSignature Op2) +{ + cmsStage** pt1; + cmsStage** pt2; + cmsBool AnyOpt = FALSE; + + pt1 = &Lut ->Elements; + if (*pt1 == NULL) return AnyOpt; + + while (*pt1 != NULL) { + + pt2 = &((*pt1) -> Next); + if (*pt2 == NULL) return AnyOpt; + + if ((*pt1) ->Implements == Op1 && (*pt2) ->Implements == Op2) { + _RemoveElement(pt2); + _RemoveElement(pt1); + AnyOpt = TRUE; + } + else + pt1 = &((*pt1) -> Next); + } + + return AnyOpt; +} + + +static +cmsBool CloseEnoughFloat(cmsFloat64Number a, cmsFloat64Number b) +{ + return fabs(b - a) < 0.00001f; +} + +static +cmsBool isFloatMatrixIdentity(const cmsMAT3* a) +{ + cmsMAT3 Identity; + int i, j; + + _cmsMAT3identity(&Identity); + + for (i = 0; i < 3; i++) + for (j = 0; j < 3; j++) + if (!CloseEnoughFloat(a->v[i].n[j], Identity.v[i].n[j])) return FALSE; + + return TRUE; +} +// if two adjacent matrices are found, multiply them. +static +cmsBool _MultiplyMatrix(cmsPipeline* Lut) +{ + cmsStage** pt1; + cmsStage** pt2; + cmsStage* chain; + cmsBool AnyOpt = FALSE; + + pt1 = &Lut->Elements; + if (*pt1 == NULL) return AnyOpt; + + while (*pt1 != NULL) { + + pt2 = &((*pt1)->Next); + if (*pt2 == NULL) return AnyOpt; + + if ((*pt1)->Implements == cmsSigMatrixElemType && (*pt2)->Implements == cmsSigMatrixElemType) { + + // Get both matrices + _cmsStageMatrixData* m1 = (_cmsStageMatrixData*) cmsStageData(*pt1); + _cmsStageMatrixData* m2 = (_cmsStageMatrixData*) cmsStageData(*pt2); + cmsMAT3 res; + + // Input offset and output offset should be zero to use this optimization + if (m1->Offset != NULL || m2 ->Offset != NULL || + cmsStageInputChannels(*pt1) != 3 || cmsStageOutputChannels(*pt1) != 3 || + cmsStageInputChannels(*pt2) != 3 || cmsStageOutputChannels(*pt2) != 3) + return FALSE; + + // Multiply both matrices to get the result + _cmsMAT3per(&res, (cmsMAT3*)m2->Double, (cmsMAT3*)m1->Double); + + // Get the next in chain afer the matrices + chain = (*pt2)->Next; + + // Remove both matrices + _RemoveElement(pt2); + _RemoveElement(pt1); + + // Now what if the result is a plain identity? + if (!isFloatMatrixIdentity(&res)) { + + // We can not get rid of full matrix + cmsStage* Multmat = cmsStageAllocMatrix(Lut->ContextID, 3, 3, (const cmsFloat64Number*) &res, NULL); + if (Multmat == NULL) return FALSE; // Should never happen + + // Recover the chain + Multmat->Next = chain; + *pt1 = Multmat; + } + + AnyOpt = TRUE; + } + else + pt1 = &((*pt1)->Next); + } + + return AnyOpt; +} + + +// Preoptimize just gets rif of no-ops coming paired. Conversion from v2 to v4 followed +// by a v4 to v2 and vice-versa. The elements are then discarded. +static +cmsBool PreOptimize(cmsPipeline* Lut) +{ + cmsBool AnyOpt = FALSE, Opt; + + do { + + Opt = FALSE; + + // Remove all identities + Opt |= _Remove1Op(Lut, cmsSigIdentityElemType); + + // Remove XYZ2Lab followed by Lab2XYZ + Opt |= _Remove2Op(Lut, cmsSigXYZ2LabElemType, cmsSigLab2XYZElemType); + + // Remove Lab2XYZ followed by XYZ2Lab + Opt |= _Remove2Op(Lut, cmsSigLab2XYZElemType, cmsSigXYZ2LabElemType); + + // Remove V4 to V2 followed by V2 to V4 + Opt |= _Remove2Op(Lut, cmsSigLabV4toV2, cmsSigLabV2toV4); + + // Remove V2 to V4 followed by V4 to V2 + Opt |= _Remove2Op(Lut, cmsSigLabV2toV4, cmsSigLabV4toV2); + + // Remove float pcs Lab conversions + Opt |= _Remove2Op(Lut, cmsSigLab2FloatPCS, cmsSigFloatPCS2Lab); + + // Remove float pcs Lab conversions + Opt |= _Remove2Op(Lut, cmsSigXYZ2FloatPCS, cmsSigFloatPCS2XYZ); + + // Simplify matrix. + Opt |= _MultiplyMatrix(Lut); + + if (Opt) AnyOpt = TRUE; + + } while (Opt); + + return AnyOpt; +} + +static +void Eval16nop1D(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const struct _cms_interp_struc* p) +{ + Output[0] = Input[0]; + + cmsUNUSED_PARAMETER(p); +} + +static +void PrelinEval16(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const void* D) +{ + Prelin16Data* p16 = (Prelin16Data*) D; + cmsUInt16Number StageABC[MAX_INPUT_DIMENSIONS]; + cmsUInt16Number StageDEF[cmsMAXCHANNELS]; + int i; + + for (i=0; i < p16 ->nInputs; i++) { + + p16 ->EvalCurveIn16[i](&Input[i], &StageABC[i], p16 ->ParamsCurveIn16[i]); + } + + p16 ->EvalCLUT(StageABC, StageDEF, p16 ->CLUTparams); + + for (i=0; i < p16 ->nOutputs; i++) { + + p16 ->EvalCurveOut16[i](&StageDEF[i], &Output[i], p16 ->ParamsCurveOut16[i]); + } +} + + +static +void PrelinOpt16free(cmsContext ContextID, void* ptr) +{ + Prelin16Data* p16 = (Prelin16Data*) ptr; + + _cmsFree(ContextID, p16 ->EvalCurveOut16); + _cmsFree(ContextID, p16 ->ParamsCurveOut16); + + _cmsFree(ContextID, p16); +} + +static +void* Prelin16dup(cmsContext ContextID, const void* ptr) +{ + Prelin16Data* p16 = (Prelin16Data*) ptr; + Prelin16Data* Duped = (Prelin16Data*) _cmsDupMem(ContextID, p16, sizeof(Prelin16Data)); + + if (Duped == NULL) return NULL; + + Duped->EvalCurveOut16 = (_cmsInterpFn16*) _cmsDupMem(ContextID, p16->EvalCurveOut16, p16->nOutputs * sizeof(_cmsInterpFn16)); + Duped->ParamsCurveOut16 = (cmsInterpParams**)_cmsDupMem(ContextID, p16->ParamsCurveOut16, p16->nOutputs * sizeof(cmsInterpParams*)); + + return Duped; +} + + +static +Prelin16Data* PrelinOpt16alloc(cmsContext ContextID, + const cmsInterpParams* ColorMap, + int nInputs, cmsToneCurve** In, + int nOutputs, cmsToneCurve** Out ) +{ + int i; + Prelin16Data* p16 = (Prelin16Data*)_cmsMallocZero(ContextID, sizeof(Prelin16Data)); + if (p16 == NULL) return NULL; + + p16 ->nInputs = nInputs; + p16 -> nOutputs = nOutputs; + + + for (i=0; i < nInputs; i++) { + + if (In == NULL) { + p16 -> ParamsCurveIn16[i] = NULL; + p16 -> EvalCurveIn16[i] = Eval16nop1D; + + } + else { + p16 -> ParamsCurveIn16[i] = In[i] ->InterpParams; + p16 -> EvalCurveIn16[i] = p16 ->ParamsCurveIn16[i]->Interpolation.Lerp16; + } + } + + p16 ->CLUTparams = ColorMap; + p16 ->EvalCLUT = ColorMap ->Interpolation.Lerp16; + + + p16 -> EvalCurveOut16 = (_cmsInterpFn16*) _cmsCalloc(ContextID, nOutputs, sizeof(_cmsInterpFn16)); + p16 -> ParamsCurveOut16 = (cmsInterpParams**) _cmsCalloc(ContextID, nOutputs, sizeof(cmsInterpParams* )); + + for (i=0; i < nOutputs; i++) { + + if (Out == NULL) { + p16 ->ParamsCurveOut16[i] = NULL; + p16 -> EvalCurveOut16[i] = Eval16nop1D; + } + else { + + p16 ->ParamsCurveOut16[i] = Out[i] ->InterpParams; + p16 -> EvalCurveOut16[i] = p16 ->ParamsCurveOut16[i]->Interpolation.Lerp16; + } + } + + return p16; +} + + + +// Resampling --------------------------------------------------------------------------------- + +#define PRELINEARIZATION_POINTS 4096 + +// Sampler implemented by another LUT. This is a clean way to precalculate the devicelink 3D CLUT for +// almost any transform. We use floating point precision and then convert from floating point to 16 bits. +static +int XFormSampler16(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + cmsPipeline* Lut = (cmsPipeline*) Cargo; + cmsFloat32Number InFloat[cmsMAXCHANNELS], OutFloat[cmsMAXCHANNELS]; + cmsUInt32Number i; + + _cmsAssert(Lut -> InputChannels < cmsMAXCHANNELS); + _cmsAssert(Lut -> OutputChannels < cmsMAXCHANNELS); + + // From 16 bit to floating point + for (i=0; i < Lut ->InputChannels; i++) + InFloat[i] = (cmsFloat32Number) (In[i] / 65535.0); + + // Evaluate in floating point + cmsPipelineEvalFloat(InFloat, OutFloat, Lut); + + // Back to 16 bits representation + for (i=0; i < Lut ->OutputChannels; i++) + Out[i] = _cmsQuickSaturateWord(OutFloat[i] * 65535.0); + + // Always succeed + return TRUE; +} + +// Try to see if the curves of a given MPE are linear +static +cmsBool AllCurvesAreLinear(cmsStage* mpe) +{ + cmsToneCurve** Curves; + cmsUInt32Number i, n; + + Curves = _cmsStageGetPtrToCurveSet(mpe); + if (Curves == NULL) return FALSE; + + n = cmsStageOutputChannels(mpe); + + for (i=0; i < n; i++) { + if (!cmsIsToneCurveLinear(Curves[i])) return FALSE; + } + + return TRUE; +} + +// This function replaces a specific node placed in "At" by the "Value" numbers. Its purpose +// is to fix scum dot on broken profiles/transforms. Works on 1, 3 and 4 channels +static +cmsBool PatchLUT(cmsStage* CLUT, cmsUInt16Number At[], cmsUInt16Number Value[], + int nChannelsOut, int nChannelsIn) +{ + _cmsStageCLutData* Grid = (_cmsStageCLutData*) CLUT ->Data; + cmsInterpParams* p16 = Grid ->Params; + cmsFloat64Number px, py, pz, pw; + int x0, y0, z0, w0; + int i, index; + + if (CLUT -> Type != cmsSigCLutElemType) { + cmsSignalError(CLUT->ContextID, cmsERROR_INTERNAL, "(internal) Attempt to PatchLUT on non-lut stage"); + return FALSE; + } + + if (nChannelsIn == 4) { + + px = ((cmsFloat64Number) At[0] * (p16->Domain[0])) / 65535.0; + py = ((cmsFloat64Number) At[1] * (p16->Domain[1])) / 65535.0; + pz = ((cmsFloat64Number) At[2] * (p16->Domain[2])) / 65535.0; + pw = ((cmsFloat64Number) At[3] * (p16->Domain[3])) / 65535.0; + + x0 = (int) floor(px); + y0 = (int) floor(py); + z0 = (int) floor(pz); + w0 = (int) floor(pw); + + if (((px - x0) != 0) || + ((py - y0) != 0) || + ((pz - z0) != 0) || + ((pw - w0) != 0)) return FALSE; // Not on exact node + + index = p16 -> opta[3] * x0 + + p16 -> opta[2] * y0 + + p16 -> opta[1] * z0 + + p16 -> opta[0] * w0; + } + else + if (nChannelsIn == 3) { + + px = ((cmsFloat64Number) At[0] * (p16->Domain[0])) / 65535.0; + py = ((cmsFloat64Number) At[1] * (p16->Domain[1])) / 65535.0; + pz = ((cmsFloat64Number) At[2] * (p16->Domain[2])) / 65535.0; + + x0 = (int) floor(px); + y0 = (int) floor(py); + z0 = (int) floor(pz); + + if (((px - x0) != 0) || + ((py - y0) != 0) || + ((pz - z0) != 0)) return FALSE; // Not on exact node + + index = p16 -> opta[2] * x0 + + p16 -> opta[1] * y0 + + p16 -> opta[0] * z0; + } + else + if (nChannelsIn == 1) { + + px = ((cmsFloat64Number) At[0] * (p16->Domain[0])) / 65535.0; + + x0 = (int) floor(px); + + if (((px - x0) != 0)) return FALSE; // Not on exact node + + index = p16 -> opta[0] * x0; + } + else { + cmsSignalError(CLUT->ContextID, cmsERROR_INTERNAL, "(internal) %d Channels are not supported on PatchLUT", nChannelsIn); + return FALSE; + } + + for (i=0; i < nChannelsOut; i++) + Grid -> Tab.T[index + i] = Value[i]; + + return TRUE; +} + +// Auxiliary, to see if two values are equal or very different +static +cmsBool WhitesAreEqual(int n, cmsUInt16Number White1[], cmsUInt16Number White2[] ) +{ + int i; + + for (i=0; i < n; i++) { + + if (abs(White1[i] - White2[i]) > 0xf000) return TRUE; // Values are so extremely different that the fixup should be avoided + if (White1[i] != White2[i]) return FALSE; + } + return TRUE; +} + + +// Locate the node for the white point and fix it to pure white in order to avoid scum dot. +static +cmsBool FixWhiteMisalignment(cmsPipeline* Lut, cmsColorSpaceSignature EntryColorSpace, cmsColorSpaceSignature ExitColorSpace) +{ + cmsUInt16Number *WhitePointIn, *WhitePointOut; + cmsUInt16Number WhiteIn[cmsMAXCHANNELS], WhiteOut[cmsMAXCHANNELS], ObtainedOut[cmsMAXCHANNELS]; + cmsUInt32Number i, nOuts, nIns; + cmsStage *PreLin = NULL, *CLUT = NULL, *PostLin = NULL; + + if (!_cmsEndPointsBySpace(EntryColorSpace, + &WhitePointIn, NULL, &nIns)) return FALSE; + + if (!_cmsEndPointsBySpace(ExitColorSpace, + &WhitePointOut, NULL, &nOuts)) return FALSE; + + // It needs to be fixed? + if (Lut ->InputChannels != nIns) return FALSE; + if (Lut ->OutputChannels != nOuts) return FALSE; + + cmsPipelineEval16(WhitePointIn, ObtainedOut, Lut); + + if (WhitesAreEqual(nOuts, WhitePointOut, ObtainedOut)) return TRUE; // whites already match + + // Check if the LUT comes as Prelin, CLUT or Postlin. We allow all combinations + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, &PreLin, &CLUT, &PostLin)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 2, cmsSigCurveSetElemType, cmsSigCLutElemType, &PreLin, &CLUT)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 2, cmsSigCLutElemType, cmsSigCurveSetElemType, &CLUT, &PostLin)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 1, cmsSigCLutElemType, &CLUT)) + return FALSE; + + // We need to interpolate white points of both, pre and post curves + if (PreLin) { + + cmsToneCurve** Curves = _cmsStageGetPtrToCurveSet(PreLin); + + for (i=0; i < nIns; i++) { + WhiteIn[i] = cmsEvalToneCurve16(Curves[i], WhitePointIn[i]); + } + } + else { + for (i=0; i < nIns; i++) + WhiteIn[i] = WhitePointIn[i]; + } + + // If any post-linearization, we need to find how is represented white before the curve, do + // a reverse interpolation in this case. + if (PostLin) { + + cmsToneCurve** Curves = _cmsStageGetPtrToCurveSet(PostLin); + + for (i=0; i < nOuts; i++) { + + cmsToneCurve* InversePostLin = cmsReverseToneCurve(Curves[i]); + if (InversePostLin == NULL) { + WhiteOut[i] = WhitePointOut[i]; + + } else { + + WhiteOut[i] = cmsEvalToneCurve16(InversePostLin, WhitePointOut[i]); + cmsFreeToneCurve(InversePostLin); + } + } + } + else { + for (i=0; i < nOuts; i++) + WhiteOut[i] = WhitePointOut[i]; + } + + // Ok, proceed with patching. May fail and we don't care if it fails + PatchLUT(CLUT, WhiteIn, WhiteOut, nOuts, nIns); + + return TRUE; +} + +// ----------------------------------------------------------------------------------------------------------------------------------------------- +// This function creates simple LUT from complex ones. The generated LUT has an optional set of +// prelinearization curves, a CLUT of nGridPoints and optional postlinearization tables. +// These curves have to exist in the original LUT in order to be used in the simplified output. +// Caller may also use the flags to allow this feature. +// LUTS with all curves will be simplified to a single curve. Parametric curves are lost. +// This function should be used on 16-bits LUTS only, as floating point losses precision when simplified +// ----------------------------------------------------------------------------------------------------------------------------------------------- + +static +cmsBool OptimizeByResampling(cmsPipeline** Lut, cmsUInt32Number Intent, cmsUInt32Number* InputFormat, cmsUInt32Number* OutputFormat, cmsUInt32Number* dwFlags) +{ + cmsPipeline* Src = NULL; + cmsPipeline* Dest = NULL; + cmsStage* mpe; + cmsStage* CLUT; + cmsStage *KeepPreLin = NULL, *KeepPostLin = NULL; + int nGridPoints; + cmsColorSpaceSignature ColorSpace, OutputColorSpace; + cmsStage *NewPreLin = NULL; + cmsStage *NewPostLin = NULL; + _cmsStageCLutData* DataCLUT; + cmsToneCurve** DataSetIn; + cmsToneCurve** DataSetOut; + Prelin16Data* p16; + + // This is a loosy optimization! does not apply in floating-point cases + if (_cmsFormatterIsFloat(*InputFormat) || _cmsFormatterIsFloat(*OutputFormat)) return FALSE; + + ColorSpace = _cmsICCcolorSpace(T_COLORSPACE(*InputFormat)); + OutputColorSpace = _cmsICCcolorSpace(T_COLORSPACE(*OutputFormat)); + nGridPoints = _cmsReasonableGridpointsByColorspace(ColorSpace, *dwFlags); + + // For empty LUTs, 2 points are enough + if (cmsPipelineStageCount(*Lut) == 0) + nGridPoints = 2; + + Src = *Lut; + + // Named color pipelines cannot be optimized either + for (mpe = cmsPipelineGetPtrToFirstStage(Src); + mpe != NULL; + mpe = cmsStageNext(mpe)) { + if (cmsStageType(mpe) == cmsSigNamedColorElemType) return FALSE; + } + + // Allocate an empty LUT + Dest = cmsPipelineAlloc(Src ->ContextID, Src ->InputChannels, Src ->OutputChannels); + if (!Dest) return FALSE; + + // Prelinearization tables are kept unless indicated by flags + if (*dwFlags & cmsFLAGS_CLUT_PRE_LINEARIZATION) { + + // Get a pointer to the prelinearization element + cmsStage* PreLin = cmsPipelineGetPtrToFirstStage(Src); + + // Check if suitable + if (PreLin && PreLin ->Type == cmsSigCurveSetElemType) { + + // Maybe this is a linear tram, so we can avoid the whole stuff + if (!AllCurvesAreLinear(PreLin)) { + + // All seems ok, proceed. + NewPreLin = cmsStageDup(PreLin); + if(!cmsPipelineInsertStage(Dest, cmsAT_BEGIN, NewPreLin)) + goto Error; + + // Remove prelinearization. Since we have duplicated the curve + // in destination LUT, the sampling shoud be applied after this stage. + cmsPipelineUnlinkStage(Src, cmsAT_BEGIN, &KeepPreLin); + } + } + } + + // Allocate the CLUT + CLUT = cmsStageAllocCLut16bit(Src ->ContextID, nGridPoints, Src ->InputChannels, Src->OutputChannels, NULL); + if (CLUT == NULL) return FALSE; + + // Add the CLUT to the destination LUT + if (!cmsPipelineInsertStage(Dest, cmsAT_END, CLUT)) { + goto Error; + } + + // Postlinearization tables are kept unless indicated by flags + if (*dwFlags & cmsFLAGS_CLUT_POST_LINEARIZATION) { + + // Get a pointer to the postlinearization if present + cmsStage* PostLin = cmsPipelineGetPtrToLastStage(Src); + + // Check if suitable + if (PostLin && cmsStageType(PostLin) == cmsSigCurveSetElemType) { + + // Maybe this is a linear tram, so we can avoid the whole stuff + if (!AllCurvesAreLinear(PostLin)) { + + // All seems ok, proceed. + NewPostLin = cmsStageDup(PostLin); + if (!cmsPipelineInsertStage(Dest, cmsAT_END, NewPostLin)) + goto Error; + + // In destination LUT, the sampling shoud be applied after this stage. + cmsPipelineUnlinkStage(Src, cmsAT_END, &KeepPostLin); + } + } + } + + // Now its time to do the sampling. We have to ignore pre/post linearization + // The source LUT whithout pre/post curves is passed as parameter. + if (!cmsStageSampleCLut16bit(CLUT, XFormSampler16, (void*) Src, 0)) { +Error: + // Ops, something went wrong, Restore stages + if (KeepPreLin != NULL) { + if (!cmsPipelineInsertStage(Src, cmsAT_BEGIN, KeepPreLin)) { + _cmsAssert(0); // This never happens + } + } + if (KeepPostLin != NULL) { + if (!cmsPipelineInsertStage(Src, cmsAT_END, KeepPostLin)) { + _cmsAssert(0); // This never happens + } + } + cmsPipelineFree(Dest); + return FALSE; + } + + // Done. + + if (KeepPreLin != NULL) cmsStageFree(KeepPreLin); + if (KeepPostLin != NULL) cmsStageFree(KeepPostLin); + cmsPipelineFree(Src); + + DataCLUT = (_cmsStageCLutData*) CLUT ->Data; + + if (NewPreLin == NULL) DataSetIn = NULL; + else DataSetIn = ((_cmsStageToneCurvesData*) NewPreLin ->Data) ->TheCurves; + + if (NewPostLin == NULL) DataSetOut = NULL; + else DataSetOut = ((_cmsStageToneCurvesData*) NewPostLin ->Data) ->TheCurves; + + + if (DataSetIn == NULL && DataSetOut == NULL) { + + _cmsPipelineSetOptimizationParameters(Dest, (_cmsOPTeval16Fn) DataCLUT->Params->Interpolation.Lerp16, DataCLUT->Params, NULL, NULL); + } + else { + + p16 = PrelinOpt16alloc(Dest ->ContextID, + DataCLUT ->Params, + Dest ->InputChannels, + DataSetIn, + Dest ->OutputChannels, + DataSetOut); + + _cmsPipelineSetOptimizationParameters(Dest, PrelinEval16, (void*) p16, PrelinOpt16free, Prelin16dup); + } + + + // Don't fix white on absolute colorimetric + if (Intent == INTENT_ABSOLUTE_COLORIMETRIC) + *dwFlags |= cmsFLAGS_NOWHITEONWHITEFIXUP; + + if (!(*dwFlags & cmsFLAGS_NOWHITEONWHITEFIXUP)) { + + FixWhiteMisalignment(Dest, ColorSpace, OutputColorSpace); + } + + *Lut = Dest; + return TRUE; + + cmsUNUSED_PARAMETER(Intent); +} + + +// ----------------------------------------------------------------------------------------------------------------------------------------------- +// Fixes the gamma balancing of transform. This is described in my paper "Prelinearization Stages on +// Color-Management Application-Specific Integrated Circuits (ASICs)" presented at NIP24. It only works +// for RGB transforms. See the paper for more details +// ----------------------------------------------------------------------------------------------------------------------------------------------- + + +// Normalize endpoints by slope limiting max and min. This assures endpoints as well. +// Descending curves are handled as well. +static +void SlopeLimiting(cmsToneCurve* g) +{ + int BeginVal, EndVal; + int AtBegin = (int) floor((cmsFloat64Number) g ->nEntries * 0.02 + 0.5); // Cutoff at 2% + int AtEnd = g ->nEntries - AtBegin - 1; // And 98% + cmsFloat64Number Val, Slope, beta; + int i; + + if (cmsIsToneCurveDescending(g)) { + BeginVal = 0xffff; EndVal = 0; + } + else { + BeginVal = 0; EndVal = 0xffff; + } + + // Compute slope and offset for begin of curve + Val = g ->Table16[AtBegin]; + Slope = (Val - BeginVal) / AtBegin; + beta = Val - Slope * AtBegin; + + for (i=0; i < AtBegin; i++) + g ->Table16[i] = _cmsQuickSaturateWord(i * Slope + beta); + + // Compute slope and offset for the end + Val = g ->Table16[AtEnd]; + Slope = (EndVal - Val) / AtBegin; // AtBegin holds the X interval, which is same in both cases + beta = Val - Slope * AtEnd; + + for (i = AtEnd; i < (int) g ->nEntries; i++) + g ->Table16[i] = _cmsQuickSaturateWord(i * Slope + beta); +} + + +// Precomputes tables for 8-bit on input devicelink. +static +Prelin8Data* PrelinOpt8alloc(cmsContext ContextID, const cmsInterpParams* p, cmsToneCurve* G[3]) +{ + int i; + cmsUInt16Number Input[3]; + cmsS15Fixed16Number v1, v2, v3; + Prelin8Data* p8; + + p8 = (Prelin8Data*)_cmsMallocZero(ContextID, sizeof(Prelin8Data)); + if (p8 == NULL) return NULL; + + // Since this only works for 8 bit input, values comes always as x * 257, + // we can safely take msb byte (x << 8 + x) + + for (i=0; i < 256; i++) { + + if (G != NULL) { + + // Get 16-bit representation + Input[0] = cmsEvalToneCurve16(G[0], FROM_8_TO_16(i)); + Input[1] = cmsEvalToneCurve16(G[1], FROM_8_TO_16(i)); + Input[2] = cmsEvalToneCurve16(G[2], FROM_8_TO_16(i)); + } + else { + Input[0] = FROM_8_TO_16(i); + Input[1] = FROM_8_TO_16(i); + Input[2] = FROM_8_TO_16(i); + } + + + // Move to 0..1.0 in fixed domain + v1 = _cmsToFixedDomain(Input[0] * p -> Domain[0]); + v2 = _cmsToFixedDomain(Input[1] * p -> Domain[1]); + v3 = _cmsToFixedDomain(Input[2] * p -> Domain[2]); + + // Store the precalculated table of nodes + p8 ->X0[i] = (p->opta[2] * FIXED_TO_INT(v1)); + p8 ->Y0[i] = (p->opta[1] * FIXED_TO_INT(v2)); + p8 ->Z0[i] = (p->opta[0] * FIXED_TO_INT(v3)); + + // Store the precalculated table of offsets + p8 ->rx[i] = (cmsUInt16Number) FIXED_REST_TO_INT(v1); + p8 ->ry[i] = (cmsUInt16Number) FIXED_REST_TO_INT(v2); + p8 ->rz[i] = (cmsUInt16Number) FIXED_REST_TO_INT(v3); + } + + p8 ->ContextID = ContextID; + p8 ->p = p; + + return p8; +} + +static +void Prelin8free(cmsContext ContextID, void* ptr) +{ + _cmsFree(ContextID, ptr); +} + +static +void* Prelin8dup(cmsContext ContextID, const void* ptr) +{ + return _cmsDupMem(ContextID, ptr, sizeof(Prelin8Data)); +} + + + +// A optimized interpolation for 8-bit input. +#define DENS(i,j,k) (LutTable[(i)+(j)+(k)+OutChan]) +static +void PrelinEval8(register const cmsUInt16Number Input[], + register cmsUInt16Number Output[], + register const void* D) +{ + + cmsUInt8Number r, g, b; + cmsS15Fixed16Number rx, ry, rz; + cmsS15Fixed16Number c0, c1, c2, c3, Rest; + int OutChan; + register cmsS15Fixed16Number X0, X1, Y0, Y1, Z0, Z1; + Prelin8Data* p8 = (Prelin8Data*) D; + register const cmsInterpParams* p = p8 ->p; + int TotalOut = p -> nOutputs; + const cmsUInt16Number* LutTable = (const cmsUInt16Number*) p->Table; + + r = Input[0] >> 8; + g = Input[1] >> 8; + b = Input[2] >> 8; + + X0 = X1 = p8->X0[r]; + Y0 = Y1 = p8->Y0[g]; + Z0 = Z1 = p8->Z0[b]; + + rx = p8 ->rx[r]; + ry = p8 ->ry[g]; + rz = p8 ->rz[b]; + + X1 = X0 + ((rx == 0) ? 0 : p ->opta[2]); + Y1 = Y0 + ((ry == 0) ? 0 : p ->opta[1]); + Z1 = Z0 + ((rz == 0) ? 0 : p ->opta[0]); + + + // These are the 6 Tetrahedral + for (OutChan=0; OutChan < TotalOut; OutChan++) { + + c0 = DENS(X0, Y0, Z0); + + if (rx >= ry && ry >= rz) + { + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z0) - DENS(X1, Y0, Z0); + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + } + else + if (rx >= rz && rz >= ry) + { + c1 = DENS(X1, Y0, Z0) - c0; + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X1, Y0, Z1) - DENS(X1, Y0, Z0); + } + else + if (rz >= rx && rx >= ry) + { + c1 = DENS(X1, Y0, Z1) - DENS(X0, Y0, Z1); + c2 = DENS(X1, Y1, Z1) - DENS(X1, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + } + else + if (ry >= rx && rx >= rz) + { + c1 = DENS(X1, Y1, Z0) - DENS(X0, Y1, Z0); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X1, Y1, Z1) - DENS(X1, Y1, Z0); + } + else + if (ry >= rz && rz >= rx) + { + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z0) - c0; + c3 = DENS(X0, Y1, Z1) - DENS(X0, Y1, Z0); + } + else + if (rz >= ry && ry >= rx) + { + c1 = DENS(X1, Y1, Z1) - DENS(X0, Y1, Z1); + c2 = DENS(X0, Y1, Z1) - DENS(X0, Y0, Z1); + c3 = DENS(X0, Y0, Z1) - c0; + } + else { + c1 = c2 = c3 = 0; + } + + + Rest = c1 * rx + c2 * ry + c3 * rz + 0x8001; + Output[OutChan] = (cmsUInt16Number)c0 + ((Rest + (Rest>>16))>>16); + + } +} + +#undef DENS + + +// Curves that contain wide empty areas are not optimizeable +static +cmsBool IsDegenerated(const cmsToneCurve* g) +{ + int i, Zeros = 0, Poles = 0; + int nEntries = g ->nEntries; + + for (i=0; i < nEntries; i++) { + + if (g ->Table16[i] == 0x0000) Zeros++; + if (g ->Table16[i] == 0xffff) Poles++; + } + + if (Zeros == 1 && Poles == 1) return FALSE; // For linear tables + if (Zeros > (nEntries / 20)) return TRUE; // Degenerated, many zeros + if (Poles > (nEntries / 20)) return TRUE; // Degenerated, many poles + + return FALSE; +} + +// -------------------------------------------------------------------------------------------------------------- +// We need xput over here + +static +cmsBool OptimizeByComputingLinearization(cmsPipeline** Lut, cmsUInt32Number Intent, cmsUInt32Number* InputFormat, cmsUInt32Number* OutputFormat, cmsUInt32Number* dwFlags) +{ + cmsPipeline* OriginalLut; + int nGridPoints; + cmsToneCurve *Trans[cmsMAXCHANNELS], *TransReverse[cmsMAXCHANNELS]; + cmsUInt32Number t, i; + cmsFloat32Number v, In[cmsMAXCHANNELS], Out[cmsMAXCHANNELS]; + cmsBool lIsSuitable, lIsLinear; + cmsPipeline* OptimizedLUT = NULL, *LutPlusCurves = NULL; + cmsStage* OptimizedCLUTmpe; + cmsColorSpaceSignature ColorSpace, OutputColorSpace; + cmsStage* OptimizedPrelinMpe; + cmsStage* mpe; + cmsToneCurve** OptimizedPrelinCurves; + _cmsStageCLutData* OptimizedPrelinCLUT; + + + // This is a loosy optimization! does not apply in floating-point cases + if (_cmsFormatterIsFloat(*InputFormat) || _cmsFormatterIsFloat(*OutputFormat)) return FALSE; + + // Only on chunky RGB + if (T_COLORSPACE(*InputFormat) != PT_RGB) return FALSE; + if (T_PLANAR(*InputFormat)) return FALSE; + + if (T_COLORSPACE(*OutputFormat) != PT_RGB) return FALSE; + if (T_PLANAR(*OutputFormat)) return FALSE; + + // On 16 bits, user has to specify the feature + if (!_cmsFormatterIs8bit(*InputFormat)) { + if (!(*dwFlags & cmsFLAGS_CLUT_PRE_LINEARIZATION)) return FALSE; + } + + OriginalLut = *Lut; + + // Named color pipelines cannot be optimized either + for (mpe = cmsPipelineGetPtrToFirstStage(OriginalLut); + mpe != NULL; + mpe = cmsStageNext(mpe)) { + if (cmsStageType(mpe) == cmsSigNamedColorElemType) return FALSE; + } + + ColorSpace = _cmsICCcolorSpace(T_COLORSPACE(*InputFormat)); + OutputColorSpace = _cmsICCcolorSpace(T_COLORSPACE(*OutputFormat)); + nGridPoints = _cmsReasonableGridpointsByColorspace(ColorSpace, *dwFlags); + + // Empty gamma containers + memset(Trans, 0, sizeof(Trans)); + memset(TransReverse, 0, sizeof(TransReverse)); + + // If the last stage of the original lut are curves, and those curves are + // degenerated, it is likely the transform is squeezing and clipping + // the output from previous CLUT. We cannot optimize this case + { + cmsStage* last = cmsPipelineGetPtrToLastStage(OriginalLut); + + if (cmsStageType(last) == cmsSigCurveSetElemType) { + + _cmsStageToneCurvesData* Data = (_cmsStageToneCurvesData*)cmsStageData(last); + for (i = 0; i < Data->nCurves; i++) { + if (IsDegenerated(Data->TheCurves[i])) + goto Error; + } + } + } + + for (t = 0; t < OriginalLut ->InputChannels; t++) { + Trans[t] = cmsBuildTabulatedToneCurve16(OriginalLut ->ContextID, PRELINEARIZATION_POINTS, NULL); + if (Trans[t] == NULL) goto Error; + } + + // Populate the curves + for (i=0; i < PRELINEARIZATION_POINTS; i++) { + + v = (cmsFloat32Number) ((cmsFloat64Number) i / (PRELINEARIZATION_POINTS - 1)); + + // Feed input with a gray ramp + for (t=0; t < OriginalLut ->InputChannels; t++) + In[t] = v; + + // Evaluate the gray value + cmsPipelineEvalFloat(In, Out, OriginalLut); + + // Store result in curve + for (t=0; t < OriginalLut ->InputChannels; t++) + Trans[t] ->Table16[i] = _cmsQuickSaturateWord(Out[t] * 65535.0); + } + + // Slope-limit the obtained curves + for (t = 0; t < OriginalLut ->InputChannels; t++) + SlopeLimiting(Trans[t]); + + // Check for validity + lIsSuitable = TRUE; + lIsLinear = TRUE; + for (t=0; (lIsSuitable && (t < OriginalLut ->InputChannels)); t++) { + + // Exclude if already linear + if (!cmsIsToneCurveLinear(Trans[t])) + lIsLinear = FALSE; + + // Exclude if non-monotonic + if (!cmsIsToneCurveMonotonic(Trans[t])) + lIsSuitable = FALSE; + + if (IsDegenerated(Trans[t])) + lIsSuitable = FALSE; + } + + // If it is not suitable, just quit + if (!lIsSuitable) goto Error; + + // Invert curves if possible + for (t = 0; t < OriginalLut ->InputChannels; t++) { + TransReverse[t] = cmsReverseToneCurveEx(PRELINEARIZATION_POINTS, Trans[t]); + if (TransReverse[t] == NULL) goto Error; + } + + // Now inset the reversed curves at the begin of transform + LutPlusCurves = cmsPipelineDup(OriginalLut); + if (LutPlusCurves == NULL) goto Error; + + if (!cmsPipelineInsertStage(LutPlusCurves, cmsAT_BEGIN, cmsStageAllocToneCurves(OriginalLut ->ContextID, OriginalLut ->InputChannels, TransReverse))) + goto Error; + + // Create the result LUT + OptimizedLUT = cmsPipelineAlloc(OriginalLut ->ContextID, OriginalLut ->InputChannels, OriginalLut ->OutputChannels); + if (OptimizedLUT == NULL) goto Error; + + OptimizedPrelinMpe = cmsStageAllocToneCurves(OriginalLut ->ContextID, OriginalLut ->InputChannels, Trans); + + // Create and insert the curves at the beginning + if (!cmsPipelineInsertStage(OptimizedLUT, cmsAT_BEGIN, OptimizedPrelinMpe)) + goto Error; + + // Allocate the CLUT for result + OptimizedCLUTmpe = cmsStageAllocCLut16bit(OriginalLut ->ContextID, nGridPoints, OriginalLut ->InputChannels, OriginalLut ->OutputChannels, NULL); + + // Add the CLUT to the destination LUT + if (!cmsPipelineInsertStage(OptimizedLUT, cmsAT_END, OptimizedCLUTmpe)) + goto Error; + + // Resample the LUT + if (!cmsStageSampleCLut16bit(OptimizedCLUTmpe, XFormSampler16, (void*) LutPlusCurves, 0)) goto Error; + + // Free resources + for (t = 0; t < OriginalLut ->InputChannels; t++) { + + if (Trans[t]) cmsFreeToneCurve(Trans[t]); + if (TransReverse[t]) cmsFreeToneCurve(TransReverse[t]); + } + + cmsPipelineFree(LutPlusCurves); + + + OptimizedPrelinCurves = _cmsStageGetPtrToCurveSet(OptimizedPrelinMpe); + OptimizedPrelinCLUT = (_cmsStageCLutData*) OptimizedCLUTmpe ->Data; + + // Set the evaluator if 8-bit + if (_cmsFormatterIs8bit(*InputFormat)) { + + Prelin8Data* p8 = PrelinOpt8alloc(OptimizedLUT ->ContextID, + OptimizedPrelinCLUT ->Params, + OptimizedPrelinCurves); + if (p8 == NULL) return FALSE; + + _cmsPipelineSetOptimizationParameters(OptimizedLUT, PrelinEval8, (void*) p8, Prelin8free, Prelin8dup); + + } + else + { + Prelin16Data* p16 = PrelinOpt16alloc(OptimizedLUT ->ContextID, + OptimizedPrelinCLUT ->Params, + 3, OptimizedPrelinCurves, 3, NULL); + if (p16 == NULL) return FALSE; + + _cmsPipelineSetOptimizationParameters(OptimizedLUT, PrelinEval16, (void*) p16, PrelinOpt16free, Prelin16dup); + + } + + // Don't fix white on absolute colorimetric + if (Intent == INTENT_ABSOLUTE_COLORIMETRIC) + *dwFlags |= cmsFLAGS_NOWHITEONWHITEFIXUP; + + if (!(*dwFlags & cmsFLAGS_NOWHITEONWHITEFIXUP)) { + + if (!FixWhiteMisalignment(OptimizedLUT, ColorSpace, OutputColorSpace)) { + + return FALSE; + } + } + + // And return the obtained LUT + + cmsPipelineFree(OriginalLut); + *Lut = OptimizedLUT; + return TRUE; + +Error: + + for (t = 0; t < OriginalLut ->InputChannels; t++) { + + if (Trans[t]) cmsFreeToneCurve(Trans[t]); + if (TransReverse[t]) cmsFreeToneCurve(TransReverse[t]); + } + + if (LutPlusCurves != NULL) cmsPipelineFree(LutPlusCurves); + if (OptimizedLUT != NULL) cmsPipelineFree(OptimizedLUT); + + return FALSE; + + cmsUNUSED_PARAMETER(Intent); +} + + +// Curves optimizer ------------------------------------------------------------------------------------------------------------------ + +static +void CurvesFree(cmsContext ContextID, void* ptr) +{ + Curves16Data* Data = (Curves16Data*) ptr; + int i; + + for (i=0; i < Data -> nCurves; i++) { + + _cmsFree(ContextID, Data ->Curves[i]); + } + + _cmsFree(ContextID, Data ->Curves); + _cmsFree(ContextID, ptr); +} + +static +void* CurvesDup(cmsContext ContextID, const void* ptr) +{ + Curves16Data* Data = (Curves16Data*)_cmsDupMem(ContextID, ptr, sizeof(Curves16Data)); + int i; + + if (Data == NULL) return NULL; + + Data->Curves = (cmsUInt16Number**) _cmsDupMem(ContextID, Data->Curves, Data->nCurves * sizeof(cmsUInt16Number*)); + + for (i=0; i < Data -> nCurves; i++) { + Data->Curves[i] = (cmsUInt16Number*) _cmsDupMem(ContextID, Data->Curves[i], Data->nElements * sizeof(cmsUInt16Number)); + } + + return (void*) Data; +} + +// Precomputes tables for 8-bit on input devicelink. +static +Curves16Data* CurvesAlloc(cmsContext ContextID, int nCurves, int nElements, cmsToneCurve** G) +{ + int i, j; + Curves16Data* c16; + + c16 = (Curves16Data*)_cmsMallocZero(ContextID, sizeof(Curves16Data)); + if (c16 == NULL) return NULL; + + c16 ->nCurves = nCurves; + c16 ->nElements = nElements; + + c16->Curves = (cmsUInt16Number**) _cmsCalloc(ContextID, nCurves, sizeof(cmsUInt16Number*)); + if (c16 ->Curves == NULL) return NULL; + + for (i=0; i < nCurves; i++) { + + c16->Curves[i] = (cmsUInt16Number*) _cmsCalloc(ContextID, nElements, sizeof(cmsUInt16Number)); + + if (c16->Curves[i] == NULL) { + + for (j=0; j < i; j++) { + _cmsFree(ContextID, c16->Curves[j]); + } + _cmsFree(ContextID, c16->Curves); + _cmsFree(ContextID, c16); + return NULL; + } + + if (nElements == 256) { + + for (j=0; j < nElements; j++) { + + c16 ->Curves[i][j] = cmsEvalToneCurve16(G[i], FROM_8_TO_16(j)); + } + } + else { + + for (j=0; j < nElements; j++) { + c16 ->Curves[i][j] = cmsEvalToneCurve16(G[i], (cmsUInt16Number) j); + } + } + } + + return c16; +} + +static +void FastEvaluateCurves8(register const cmsUInt16Number In[], + register cmsUInt16Number Out[], + register const void* D) +{ + Curves16Data* Data = (Curves16Data*) D; + cmsUInt8Number x; + int i; + + for (i=0; i < Data ->nCurves; i++) { + + x = (In[i] >> 8); + Out[i] = Data -> Curves[i][x]; + } +} + + +static +void FastEvaluateCurves16(register const cmsUInt16Number In[], + register cmsUInt16Number Out[], + register const void* D) +{ + Curves16Data* Data = (Curves16Data*) D; + int i; + + for (i=0; i < Data ->nCurves; i++) { + Out[i] = Data -> Curves[i][In[i]]; + } +} + + +static +void FastIdentity16(register const cmsUInt16Number In[], + register cmsUInt16Number Out[], + register const void* D) +{ + cmsPipeline* Lut = (cmsPipeline*) D; + cmsUInt32Number i; + + for (i=0; i < Lut ->InputChannels; i++) { + Out[i] = In[i]; + } +} + + +// If the target LUT holds only curves, the optimization procedure is to join all those +// curves together. That only works on curves and does not work on matrices. +static +cmsBool OptimizeByJoiningCurves(cmsPipeline** Lut, cmsUInt32Number Intent, cmsUInt32Number* InputFormat, cmsUInt32Number* OutputFormat, cmsUInt32Number* dwFlags) +{ + cmsToneCurve** GammaTables = NULL; + cmsFloat32Number InFloat[cmsMAXCHANNELS], OutFloat[cmsMAXCHANNELS]; + cmsUInt32Number i, j; + cmsPipeline* Src = *Lut; + cmsPipeline* Dest = NULL; + cmsStage* mpe; + cmsStage* ObtainedCurves = NULL; + + + // This is a loosy optimization! does not apply in floating-point cases + if (_cmsFormatterIsFloat(*InputFormat) || _cmsFormatterIsFloat(*OutputFormat)) return FALSE; + + // Only curves in this LUT? + for (mpe = cmsPipelineGetPtrToFirstStage(Src); + mpe != NULL; + mpe = cmsStageNext(mpe)) { + if (cmsStageType(mpe) != cmsSigCurveSetElemType) return FALSE; + } + + // Allocate an empty LUT + Dest = cmsPipelineAlloc(Src ->ContextID, Src ->InputChannels, Src ->OutputChannels); + if (Dest == NULL) return FALSE; + + // Create target curves + GammaTables = (cmsToneCurve**) _cmsCalloc(Src ->ContextID, Src ->InputChannels, sizeof(cmsToneCurve*)); + if (GammaTables == NULL) goto Error; + + for (i=0; i < Src ->InputChannels; i++) { + GammaTables[i] = cmsBuildTabulatedToneCurve16(Src ->ContextID, PRELINEARIZATION_POINTS, NULL); + if (GammaTables[i] == NULL) goto Error; + } + + // Compute 16 bit result by using floating point + for (i=0; i < PRELINEARIZATION_POINTS; i++) { + + for (j=0; j < Src ->InputChannels; j++) + InFloat[j] = (cmsFloat32Number) ((cmsFloat64Number) i / (PRELINEARIZATION_POINTS - 1)); + + cmsPipelineEvalFloat(InFloat, OutFloat, Src); + + for (j=0; j < Src ->InputChannels; j++) + GammaTables[j] -> Table16[i] = _cmsQuickSaturateWord(OutFloat[j] * 65535.0); + } + + ObtainedCurves = cmsStageAllocToneCurves(Src ->ContextID, Src ->InputChannels, GammaTables); + if (ObtainedCurves == NULL) goto Error; + + for (i=0; i < Src ->InputChannels; i++) { + cmsFreeToneCurve(GammaTables[i]); + GammaTables[i] = NULL; + } + + if (GammaTables != NULL) { + _cmsFree(Src->ContextID, GammaTables); + GammaTables = NULL; + } + + // Maybe the curves are linear at the end + if (!AllCurvesAreLinear(ObtainedCurves)) { + + if (!cmsPipelineInsertStage(Dest, cmsAT_BEGIN, ObtainedCurves)) + goto Error; + + // If the curves are to be applied in 8 bits, we can save memory + if (_cmsFormatterIs8bit(*InputFormat)) { + + _cmsStageToneCurvesData* Data = (_cmsStageToneCurvesData*) ObtainedCurves ->Data; + Curves16Data* c16 = CurvesAlloc(Dest ->ContextID, Data ->nCurves, 256, Data ->TheCurves); + + if (c16 == NULL) goto Error; + *dwFlags |= cmsFLAGS_NOCACHE; + _cmsPipelineSetOptimizationParameters(Dest, FastEvaluateCurves8, c16, CurvesFree, CurvesDup); + + } + else { + + _cmsStageToneCurvesData* Data = (_cmsStageToneCurvesData*) cmsStageData(ObtainedCurves); + Curves16Data* c16 = CurvesAlloc(Dest ->ContextID, Data ->nCurves, 65536, Data ->TheCurves); + + if (c16 == NULL) goto Error; + *dwFlags |= cmsFLAGS_NOCACHE; + _cmsPipelineSetOptimizationParameters(Dest, FastEvaluateCurves16, c16, CurvesFree, CurvesDup); + } + } + else { + + // LUT optimizes to nothing. Set the identity LUT + cmsStageFree(ObtainedCurves); + + if (!cmsPipelineInsertStage(Dest, cmsAT_BEGIN, cmsStageAllocIdentity(Dest ->ContextID, Src ->InputChannels))) + goto Error; + + *dwFlags |= cmsFLAGS_NOCACHE; + _cmsPipelineSetOptimizationParameters(Dest, FastIdentity16, (void*) Dest, NULL, NULL); + } + + // We are done. + cmsPipelineFree(Src); + *Lut = Dest; + return TRUE; + +Error: + + if (ObtainedCurves != NULL) cmsStageFree(ObtainedCurves); + if (GammaTables != NULL) { + for (i=0; i < Src ->InputChannels; i++) { + if (GammaTables[i] != NULL) cmsFreeToneCurve(GammaTables[i]); + } + + _cmsFree(Src ->ContextID, GammaTables); + } + + if (Dest != NULL) cmsPipelineFree(Dest); + return FALSE; + + cmsUNUSED_PARAMETER(Intent); + cmsUNUSED_PARAMETER(InputFormat); + cmsUNUSED_PARAMETER(OutputFormat); + cmsUNUSED_PARAMETER(dwFlags); +} + +// ------------------------------------------------------------------------------------------------------------------------------------- +// LUT is Shaper - Matrix - Matrix - Shaper, which is very frequent when combining two matrix-shaper profiles + + +static +void FreeMatShaper(cmsContext ContextID, void* Data) +{ + if (Data != NULL) _cmsFree(ContextID, Data); +} + +static +void* DupMatShaper(cmsContext ContextID, const void* Data) +{ + return _cmsDupMem(ContextID, Data, sizeof(MatShaper8Data)); +} + + +// A fast matrix-shaper evaluator for 8 bits. This is a bit ticky since I'm using 1.14 signed fixed point +// to accomplish some performance. Actually it takes 256x3 16 bits tables and 16385 x 3 tables of 8 bits, +// in total about 50K, and the performance boost is huge! +static +void MatShaperEval16(register const cmsUInt16Number In[], + register cmsUInt16Number Out[], + register const void* D) +{ + MatShaper8Data* p = (MatShaper8Data*) D; + cmsS1Fixed14Number l1, l2, l3, r, g, b; + cmsUInt32Number ri, gi, bi; + + // In this case (and only in this case!) we can use this simplification since + // In[] is assured to come from a 8 bit number. (a << 8 | a) + ri = In[0] & 0xFF; + gi = In[1] & 0xFF; + bi = In[2] & 0xFF; + + // Across first shaper, which also converts to 1.14 fixed point + r = p->Shaper1R[ri]; + g = p->Shaper1G[gi]; + b = p->Shaper1B[bi]; + + // Evaluate the matrix in 1.14 fixed point + l1 = (p->Mat[0][0] * r + p->Mat[0][1] * g + p->Mat[0][2] * b + p->Off[0] + 0x2000) >> 14; + l2 = (p->Mat[1][0] * r + p->Mat[1][1] * g + p->Mat[1][2] * b + p->Off[1] + 0x2000) >> 14; + l3 = (p->Mat[2][0] * r + p->Mat[2][1] * g + p->Mat[2][2] * b + p->Off[2] + 0x2000) >> 14; + + // Now we have to clip to 0..1.0 range + ri = (l1 < 0) ? 0 : ((l1 > 16384) ? 16384 : l1); + gi = (l2 < 0) ? 0 : ((l2 > 16384) ? 16384 : l2); + bi = (l3 < 0) ? 0 : ((l3 > 16384) ? 16384 : l3); + + // And across second shaper, + Out[0] = p->Shaper2R[ri]; + Out[1] = p->Shaper2G[gi]; + Out[2] = p->Shaper2B[bi]; + +} + +// This table converts from 8 bits to 1.14 after applying the curve +static +void FillFirstShaper(cmsS1Fixed14Number* Table, cmsToneCurve* Curve) +{ + int i; + cmsFloat32Number R, y; + + for (i=0; i < 256; i++) { + + R = (cmsFloat32Number) (i / 255.0); + y = cmsEvalToneCurveFloat(Curve, R); + + Table[i] = DOUBLE_TO_1FIXED14(y); + } +} + +// This table converts form 1.14 (being 0x4000 the last entry) to 8 bits after applying the curve +static +void FillSecondShaper(cmsUInt16Number* Table, cmsToneCurve* Curve, cmsBool Is8BitsOutput) +{ + int i; + cmsFloat32Number R, Val; + + for (i=0; i < 16385; i++) { + + R = (cmsFloat32Number) (i / 16384.0); + Val = cmsEvalToneCurveFloat(Curve, R); // Val comes 0..1.0 + + if (Is8BitsOutput) { + + // If 8 bits output, we can optimize further by computing the / 257 part. + // first we compute the resulting byte and then we store the byte times + // 257. This quantization allows to round very quick by doing a >> 8, but + // since the low byte is always equal to msb, we can do a & 0xff and this works! + cmsUInt16Number w = _cmsQuickSaturateWord(Val * 65535.0); + cmsUInt8Number b = FROM_16_TO_8(w); + + Table[i] = FROM_8_TO_16(b); + } + else Table[i] = _cmsQuickSaturateWord(Val * 65535.0); + } +} + +// Compute the matrix-shaper structure +static +cmsBool SetMatShaper(cmsPipeline* Dest, cmsToneCurve* Curve1[3], cmsMAT3* Mat, cmsVEC3* Off, cmsToneCurve* Curve2[3], cmsUInt32Number* OutputFormat) +{ + MatShaper8Data* p; + int i, j; + cmsBool Is8Bits = _cmsFormatterIs8bit(*OutputFormat); + + // Allocate a big chuck of memory to store precomputed tables + p = (MatShaper8Data*) _cmsMalloc(Dest ->ContextID, sizeof(MatShaper8Data)); + if (p == NULL) return FALSE; + + p -> ContextID = Dest -> ContextID; + + // Precompute tables + FillFirstShaper(p ->Shaper1R, Curve1[0]); + FillFirstShaper(p ->Shaper1G, Curve1[1]); + FillFirstShaper(p ->Shaper1B, Curve1[2]); + + FillSecondShaper(p ->Shaper2R, Curve2[0], Is8Bits); + FillSecondShaper(p ->Shaper2G, Curve2[1], Is8Bits); + FillSecondShaper(p ->Shaper2B, Curve2[2], Is8Bits); + + // Convert matrix to nFixed14. Note that those values may take more than 16 bits as + for (i=0; i < 3; i++) { + for (j=0; j < 3; j++) { + p ->Mat[i][j] = DOUBLE_TO_1FIXED14(Mat->v[i].n[j]); + } + } + + for (i=0; i < 3; i++) { + + if (Off == NULL) { + p ->Off[i] = 0; + } + else { + p ->Off[i] = DOUBLE_TO_1FIXED14(Off->n[i]); + } + } + + // Mark as optimized for faster formatter + if (Is8Bits) + *OutputFormat |= OPTIMIZED_SH(1); + + // Fill function pointers + _cmsPipelineSetOptimizationParameters(Dest, MatShaperEval16, (void*) p, FreeMatShaper, DupMatShaper); + return TRUE; +} + +// 8 bits on input allows matrix-shaper boot up to 25 Mpixels per second on RGB. That's fast! +static +cmsBool OptimizeMatrixShaper(cmsPipeline** Lut, cmsUInt32Number Intent, cmsUInt32Number* InputFormat, cmsUInt32Number* OutputFormat, cmsUInt32Number* dwFlags) +{ + cmsStage* Curve1, *Curve2; + cmsStage* Matrix1, *Matrix2; + cmsMAT3 res; + cmsBool IdentityMat; + cmsPipeline* Dest, *Src; + cmsFloat64Number* Offset; + + // Only works on RGB to RGB + if (T_CHANNELS(*InputFormat) != 3 || T_CHANNELS(*OutputFormat) != 3) return FALSE; + + // Only works on 8 bit input + if (!_cmsFormatterIs8bit(*InputFormat)) return FALSE; + + // Seems suitable, proceed + Src = *Lut; + + // Check for: + // + // shaper-matrix-matrix-shaper + // shaper-matrix-shaper + // + // Both of those constructs are possible (first because abs. colorimetric). + // additionally, In the first case, the input matrix offset should be zero. + + IdentityMat = FALSE; + if (cmsPipelineCheckAndRetreiveStages(Src, 4, + cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, + &Curve1, &Matrix1, &Matrix2, &Curve2)) { + + // Get both matrices + _cmsStageMatrixData* Data1 = (_cmsStageMatrixData*)cmsStageData(Matrix1); + _cmsStageMatrixData* Data2 = (_cmsStageMatrixData*)cmsStageData(Matrix2); + + // Input offset should be zero + if (Data1->Offset != NULL) return FALSE; + + // Multiply both matrices to get the result + _cmsMAT3per(&res, (cmsMAT3*)Data2->Double, (cmsMAT3*)Data1->Double); + + // Only 2nd matrix has offset, or it is zero + Offset = Data2->Offset; + + // Now the result is in res + Data2 -> Offset. Maybe is a plain identity? + if (_cmsMAT3isIdentity(&res) && Offset == NULL) { + + // We can get rid of full matrix + IdentityMat = TRUE; + } + + } + else { + + if (cmsPipelineCheckAndRetreiveStages(Src, 3, + cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, + &Curve1, &Matrix1, &Curve2)) { + + _cmsStageMatrixData* Data = (_cmsStageMatrixData*)cmsStageData(Matrix1); + + // Copy the matrix to our result + memcpy(&res, Data->Double, sizeof(res)); + + // Preserve the Odffset (may be NULL as a zero offset) + Offset = Data->Offset; + + if (_cmsMAT3isIdentity(&res) && Offset == NULL) { + + // We can get rid of full matrix + IdentityMat = TRUE; + } + } + else + return FALSE; // Not optimizeable this time + + } + + // Allocate an empty LUT + Dest = cmsPipelineAlloc(Src ->ContextID, Src ->InputChannels, Src ->OutputChannels); + if (!Dest) return FALSE; + + // Assamble the new LUT + if (!cmsPipelineInsertStage(Dest, cmsAT_BEGIN, cmsStageDup(Curve1))) + goto Error; + + if (!IdentityMat) { + + if (!cmsPipelineInsertStage(Dest, cmsAT_END, cmsStageAllocMatrix(Dest->ContextID, 3, 3, (const cmsFloat64Number*)&res, Offset))) + goto Error; + } + + if (!cmsPipelineInsertStage(Dest, cmsAT_END, cmsStageDup(Curve2))) + goto Error; + + // If identity on matrix, we can further optimize the curves, so call the join curves routine + if (IdentityMat) { + + OptimizeByJoiningCurves(&Dest, Intent, InputFormat, OutputFormat, dwFlags); + } + else { + _cmsStageToneCurvesData* mpeC1 = (_cmsStageToneCurvesData*) cmsStageData(Curve1); + _cmsStageToneCurvesData* mpeC2 = (_cmsStageToneCurvesData*) cmsStageData(Curve2); + + // In this particular optimization, caché does not help as it takes more time to deal with + // the caché that with the pixel handling + *dwFlags |= cmsFLAGS_NOCACHE; + + // Setup the optimizarion routines + SetMatShaper(Dest, mpeC1 ->TheCurves, &res, (cmsVEC3*) Offset, mpeC2->TheCurves, OutputFormat); + } + + cmsPipelineFree(Src); + *Lut = Dest; + return TRUE; +Error: + // Leave Src unchanged + cmsPipelineFree(Dest); + return FALSE; +} + + +// ------------------------------------------------------------------------------------------------------------------------------------- +// Optimization plug-ins + +// List of optimizations +typedef struct _cmsOptimizationCollection_st { + + _cmsOPToptimizeFn OptimizePtr; + + struct _cmsOptimizationCollection_st *Next; + +} _cmsOptimizationCollection; + + +// The built-in list. We currently implement 4 types of optimizations. Joining of curves, matrix-shaper, linearization and resampling +static _cmsOptimizationCollection DefaultOptimization[] = { + + { OptimizeByJoiningCurves, &DefaultOptimization[1] }, + { OptimizeMatrixShaper, &DefaultOptimization[2] }, + { OptimizeByComputingLinearization, &DefaultOptimization[3] }, + { OptimizeByResampling, NULL } +}; + +// The linked list head +_cmsOptimizationPluginChunkType _cmsOptimizationPluginChunk = { NULL }; + + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupPluginOptimizationList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsOptimizationPluginChunkType newHead = { NULL }; + _cmsOptimizationCollection* entry; + _cmsOptimizationCollection* Anterior = NULL; + _cmsOptimizationPluginChunkType* head = (_cmsOptimizationPluginChunkType*) src->chunks[OptimizationPlugin]; + + _cmsAssert(ctx != NULL); + _cmsAssert(head != NULL); + + // Walk the list copying all nodes + for (entry = head->OptimizationCollection; + entry != NULL; + entry = entry ->Next) { + + _cmsOptimizationCollection *newEntry = ( _cmsOptimizationCollection *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(_cmsOptimizationCollection)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.OptimizationCollection == NULL) + newHead.OptimizationCollection = newEntry; + } + + ctx ->chunks[OptimizationPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsOptimizationPluginChunkType)); +} + +void _cmsAllocOptimizationPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + // Copy all linked list + DupPluginOptimizationList(ctx, src); + } + else { + static _cmsOptimizationPluginChunkType OptimizationPluginChunkType = { NULL }; + ctx ->chunks[OptimizationPlugin] = _cmsSubAllocDup(ctx ->MemPool, &OptimizationPluginChunkType, sizeof(_cmsOptimizationPluginChunkType)); + } +} + + +// Register new ways to optimize +cmsBool _cmsRegisterOptimizationPlugin(cmsContext ContextID, cmsPluginBase* Data) +{ + cmsPluginOptimization* Plugin = (cmsPluginOptimization*) Data; + _cmsOptimizationPluginChunkType* ctx = ( _cmsOptimizationPluginChunkType*) _cmsContextGetClientChunk(ContextID, OptimizationPlugin); + _cmsOptimizationCollection* fl; + + if (Data == NULL) { + + ctx->OptimizationCollection = NULL; + return TRUE; + } + + // Optimizer callback is required + if (Plugin ->OptimizePtr == NULL) return FALSE; + + fl = (_cmsOptimizationCollection*) _cmsPluginMalloc(ContextID, sizeof(_cmsOptimizationCollection)); + if (fl == NULL) return FALSE; + + // Copy the parameters + fl ->OptimizePtr = Plugin ->OptimizePtr; + + // Keep linked list + fl ->Next = ctx->OptimizationCollection; + + // Set the head + ctx ->OptimizationCollection = fl; + + // All is ok + return TRUE; +} + +// The entry point for LUT optimization +cmsBool _cmsOptimizePipeline(cmsContext ContextID, + cmsPipeline** PtrLut, + int Intent, + cmsUInt32Number* InputFormat, + cmsUInt32Number* OutputFormat, + cmsUInt32Number* dwFlags) +{ + _cmsOptimizationPluginChunkType* ctx = ( _cmsOptimizationPluginChunkType*) _cmsContextGetClientChunk(ContextID, OptimizationPlugin); + _cmsOptimizationCollection* Opts; + cmsBool AnySuccess = FALSE; + + // A CLUT is being asked, so force this specific optimization + if (*dwFlags & cmsFLAGS_FORCE_CLUT) { + + PreOptimize(*PtrLut); + return OptimizeByResampling(PtrLut, Intent, InputFormat, OutputFormat, dwFlags); + } + + // Anything to optimize? + if ((*PtrLut) ->Elements == NULL) { + _cmsPipelineSetOptimizationParameters(*PtrLut, FastIdentity16, (void*) *PtrLut, NULL, NULL); + return TRUE; + } + + // Try to get rid of identities and trivial conversions. + AnySuccess = PreOptimize(*PtrLut); + + // After removal do we end with an identity? + if ((*PtrLut) ->Elements == NULL) { + _cmsPipelineSetOptimizationParameters(*PtrLut, FastIdentity16, (void*) *PtrLut, NULL, NULL); + return TRUE; + } + + // Do not optimize, keep all precision + if (*dwFlags & cmsFLAGS_NOOPTIMIZE) + return FALSE; + + // Try plug-in optimizations + for (Opts = ctx->OptimizationCollection; + Opts != NULL; + Opts = Opts ->Next) { + + // If one schema succeeded, we are done + if (Opts ->OptimizePtr(PtrLut, Intent, InputFormat, OutputFormat, dwFlags)) { + + return TRUE; // Optimized! + } + } + + // Try built-in optimizations + for (Opts = DefaultOptimization; + Opts != NULL; + Opts = Opts ->Next) { + + if (Opts ->OptimizePtr(PtrLut, Intent, InputFormat, OutputFormat, dwFlags)) { + + return TRUE; + } + } + + // Only simple optimizations succeeded + return AnySuccess; +} + + + Index: sdk/lib/3rdparty/lcms2/cmspack.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmspack.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmspack.c (working copy) @@ -0,0 +1,3354 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// This module handles all formats supported by lcms. There are two flavors, 16 bits and +// floating point. Floating point is supported only in a subset, those formats holding +// cmsFloat32Number (4 bytes per component) and double (marked as 0 bytes per component +// as special case) + +// --------------------------------------------------------------------------- + + +// This macro return words stored as big endian +#define CHANGE_ENDIAN(w) (cmsUInt16Number) ((cmsUInt16Number) ((w)<<8)|((w)>>8)) + +// These macros handles reversing (negative) +#define REVERSE_FLAVOR_8(x) ((cmsUInt8Number) (0xff-(x))) +#define REVERSE_FLAVOR_16(x) ((cmsUInt16Number)(0xffff-(x))) + +// * 0xffff / 0xff00 = (255 * 257) / (255 * 256) = 257 / 256 +cmsINLINE cmsUInt16Number FomLabV2ToLabV4(cmsUInt16Number x) +{ + int a = (x << 8 | x) >> 8; // * 257 / 256 + if ( a > 0xffff) return 0xffff; + return (cmsUInt16Number) a; +} + +// * 0xf00 / 0xffff = * 256 / 257 +cmsINLINE cmsUInt16Number FomLabV4ToLabV2(cmsUInt16Number x) +{ + return (cmsUInt16Number) (((x << 8) + 0x80) / 257); +} + + +typedef struct { + cmsUInt32Number Type; + cmsUInt32Number Mask; + cmsFormatter16 Frm; + +} cmsFormatters16; + +typedef struct { + cmsUInt32Number Type; + cmsUInt32Number Mask; + cmsFormatterFloat Frm; + +} cmsFormattersFloat; + + +#define ANYSPACE COLORSPACE_SH(31) +#define ANYCHANNELS CHANNELS_SH(15) +#define ANYEXTRA EXTRA_SH(7) +#define ANYPLANAR PLANAR_SH(1) +#define ANYENDIAN ENDIAN16_SH(1) +#define ANYSWAP DOSWAP_SH(1) +#define ANYSWAPFIRST SWAPFIRST_SH(1) +#define ANYFLAVOR FLAVOR_SH(1) + + +// Suppress waning about info never being used + +#ifdef _MSC_VER +#pragma warning(disable : 4100) +#endif + +// Unpacking routines (16 bits) ---------------------------------------------------------------------------------------- + + +// Does almost everything but is slow +static +cmsUInt8Number* UnrollChunkyBytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsUInt16Number v; + int i; + + if (ExtraFirst) { + accum += Extra; + } + + for (i=0; i < nChan; i++) { + int index = DoSwap ? (nChan - i - 1) : i; + + v = FROM_8_TO_16(*accum); + v = Reverse ? REVERSE_FLAVOR_16(v) : v; + wIn[index] = v; + accum++; + } + + if (!ExtraFirst) { + accum += Extra; + } + + if (Extra == 0 && SwapFirst) { + cmsUInt16Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsUInt16Number)); + wIn[nChan-1] = tmp; + } + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); + +} + +// Extra channels are just ignored because come in the next planes +static +cmsUInt8Number* UnrollPlanarBytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int i; + cmsUInt8Number* Init = accum; + + if (DoSwap ^ SwapFirst) { + accum += T_EXTRA(info -> InputFormat) * Stride; + } + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + cmsUInt16Number v = FROM_8_TO_16(*accum); + + wIn[index] = Reverse ? REVERSE_FLAVOR_16(v) : v; + accum += Stride; + } + + return (Init + 1); +} + +// Special cases, provided for performance +static +cmsUInt8Number* Unroll4Bytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = FROM_8_TO_16(*accum); accum++; // C + wIn[1] = FROM_8_TO_16(*accum); accum++; // M + wIn[2] = FROM_8_TO_16(*accum); accum++; // Y + wIn[3] = FROM_8_TO_16(*accum); accum++; // K + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll4BytesReverse(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = FROM_8_TO_16(REVERSE_FLAVOR_8(*accum)); accum++; // C + wIn[1] = FROM_8_TO_16(REVERSE_FLAVOR_8(*accum)); accum++; // M + wIn[2] = FROM_8_TO_16(REVERSE_FLAVOR_8(*accum)); accum++; // Y + wIn[3] = FROM_8_TO_16(REVERSE_FLAVOR_8(*accum)); accum++; // K + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll4BytesSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[3] = FROM_8_TO_16(*accum); accum++; // K + wIn[0] = FROM_8_TO_16(*accum); accum++; // C + wIn[1] = FROM_8_TO_16(*accum); accum++; // M + wIn[2] = FROM_8_TO_16(*accum); accum++; // Y + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// KYMC +static +cmsUInt8Number* Unroll4BytesSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[3] = FROM_8_TO_16(*accum); accum++; // K + wIn[2] = FROM_8_TO_16(*accum); accum++; // Y + wIn[1] = FROM_8_TO_16(*accum); accum++; // M + wIn[0] = FROM_8_TO_16(*accum); accum++; // C + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll4BytesSwapSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[2] = FROM_8_TO_16(*accum); accum++; // K + wIn[1] = FROM_8_TO_16(*accum); accum++; // Y + wIn[0] = FROM_8_TO_16(*accum); accum++; // M + wIn[3] = FROM_8_TO_16(*accum); accum++; // C + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3Bytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = FROM_8_TO_16(*accum); accum++; // R + wIn[1] = FROM_8_TO_16(*accum); accum++; // G + wIn[2] = FROM_8_TO_16(*accum); accum++; // B + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3BytesSkip1Swap(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + accum++; // A + wIn[2] = FROM_8_TO_16(*accum); accum++; // B + wIn[1] = FROM_8_TO_16(*accum); accum++; // G + wIn[0] = FROM_8_TO_16(*accum); accum++; // R + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3BytesSkip1SwapSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[2] = FROM_8_TO_16(*accum); accum++; // B + wIn[1] = FROM_8_TO_16(*accum); accum++; // G + wIn[0] = FROM_8_TO_16(*accum); accum++; // R + accum++; // A + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3BytesSkip1SwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + accum++; // A + wIn[0] = FROM_8_TO_16(*accum); accum++; // R + wIn[1] = FROM_8_TO_16(*accum); accum++; // G + wIn[2] = FROM_8_TO_16(*accum); accum++; // B + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +// BRG +static +cmsUInt8Number* Unroll3BytesSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[2] = FROM_8_TO_16(*accum); accum++; // B + wIn[1] = FROM_8_TO_16(*accum); accum++; // G + wIn[0] = FROM_8_TO_16(*accum); accum++; // R + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* UnrollLabV2_8(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = FomLabV2ToLabV4(FROM_8_TO_16(*accum)); accum++; // L + wIn[1] = FomLabV2ToLabV4(FROM_8_TO_16(*accum)); accum++; // a + wIn[2] = FomLabV2ToLabV4(FROM_8_TO_16(*accum)); accum++; // b + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* UnrollALabV2_8(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + accum++; // A + wIn[0] = FomLabV2ToLabV4(FROM_8_TO_16(*accum)); accum++; // L + wIn[1] = FomLabV2ToLabV4(FROM_8_TO_16(*accum)); accum++; // a + wIn[2] = FomLabV2ToLabV4(FROM_8_TO_16(*accum)); accum++; // b + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* UnrollLabV2_16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = FomLabV2ToLabV4(*(cmsUInt16Number*) accum); accum += 2; // L + wIn[1] = FomLabV2ToLabV4(*(cmsUInt16Number*) accum); accum += 2; // a + wIn[2] = FomLabV2ToLabV4(*(cmsUInt16Number*) accum); accum += 2; // b + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// for duplex +static +cmsUInt8Number* Unroll2Bytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = FROM_8_TO_16(*accum); accum++; // ch1 + wIn[1] = FROM_8_TO_16(*accum); accum++; // ch2 + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + + + +// Monochrome duplicates L into RGB for null-transforms +static +cmsUInt8Number* Unroll1Byte(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = FROM_8_TO_16(*accum); accum++; // L + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Unroll1ByteSkip1(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = FROM_8_TO_16(*accum); accum++; // L + accum += 1; + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll1ByteSkip2(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = FROM_8_TO_16(*accum); accum++; // L + accum += 2; + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll1ByteReversed(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = REVERSE_FLAVOR_16(FROM_8_TO_16(*accum)); accum++; // L + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* UnrollAnyWords(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> InputFormat); + int SwapEndian = T_ENDIAN16(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int i; + + if (ExtraFirst) { + accum += Extra * sizeof(cmsUInt16Number); + } + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + cmsUInt16Number v = *(cmsUInt16Number*) accum; + + if (SwapEndian) + v = CHANGE_ENDIAN(v); + + wIn[index] = Reverse ? REVERSE_FLAVOR_16(v) : v; + + accum += sizeof(cmsUInt16Number); + } + + if (!ExtraFirst) { + accum += Extra * sizeof(cmsUInt16Number); + } + + if (Extra == 0 && SwapFirst) { + + cmsUInt16Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsUInt16Number)); + wIn[nChan-1] = tmp; + } + + return accum; + + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* UnrollPlanarWords(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap= T_DOSWAP(info ->InputFormat); + int Reverse= T_FLAVOR(info ->InputFormat); + int SwapEndian = T_ENDIAN16(info -> InputFormat); + int i; + cmsUInt8Number* Init = accum; + + if (DoSwap) { + accum += T_EXTRA(info -> InputFormat) * Stride * sizeof(cmsUInt16Number); + } + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + cmsUInt16Number v = *(cmsUInt16Number*) accum; + + if (SwapEndian) + v = CHANGE_ENDIAN(v); + + wIn[index] = Reverse ? REVERSE_FLAVOR_16(v) : v; + + accum += Stride * sizeof(cmsUInt16Number); + } + + return (Init + sizeof(cmsUInt16Number)); +} + + +static +cmsUInt8Number* Unroll4Words(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = *(cmsUInt16Number*) accum; accum+= 2; // C + wIn[1] = *(cmsUInt16Number*) accum; accum+= 2; // M + wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // Y + wIn[3] = *(cmsUInt16Number*) accum; accum+= 2; // K + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll4WordsReverse(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = REVERSE_FLAVOR_16(*(cmsUInt16Number*) accum); accum+= 2; // C + wIn[1] = REVERSE_FLAVOR_16(*(cmsUInt16Number*) accum); accum+= 2; // M + wIn[2] = REVERSE_FLAVOR_16(*(cmsUInt16Number*) accum); accum+= 2; // Y + wIn[3] = REVERSE_FLAVOR_16(*(cmsUInt16Number*) accum); accum+= 2; // K + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll4WordsSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[3] = *(cmsUInt16Number*) accum; accum+= 2; // K + wIn[0] = *(cmsUInt16Number*) accum; accum+= 2; // C + wIn[1] = *(cmsUInt16Number*) accum; accum+= 2; // M + wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // Y + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// KYMC +static +cmsUInt8Number* Unroll4WordsSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[3] = *(cmsUInt16Number*) accum; accum+= 2; // K + wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // Y + wIn[1] = *(cmsUInt16Number*) accum; accum+= 2; // M + wIn[0] = *(cmsUInt16Number*) accum; accum+= 2; // C + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll4WordsSwapSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // K + wIn[1] = *(cmsUInt16Number*) accum; accum+= 2; // Y + wIn[0] = *(cmsUInt16Number*) accum; accum+= 2; // M + wIn[3] = *(cmsUInt16Number*) accum; accum+= 2; // C + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3Words(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = *(cmsUInt16Number*) accum; accum+= 2; // C R + wIn[1] = *(cmsUInt16Number*) accum; accum+= 2; // M G + wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // Y B + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3WordsSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // C R + wIn[1] = *(cmsUInt16Number*) accum; accum+= 2; // M G + wIn[0] = *(cmsUInt16Number*) accum; accum+= 2; // Y B + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3WordsSkip1Swap(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + accum += 2; // A + wIn[2] = *(cmsUInt16Number*) accum; accum += 2; // R + wIn[1] = *(cmsUInt16Number*) accum; accum += 2; // G + wIn[0] = *(cmsUInt16Number*) accum; accum += 2; // B + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll3WordsSkip1SwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + accum += 2; // A + wIn[0] = *(cmsUInt16Number*) accum; accum += 2; // R + wIn[1] = *(cmsUInt16Number*) accum; accum += 2; // G + wIn[2] = *(cmsUInt16Number*) accum; accum += 2; // B + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll1Word(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = *(cmsUInt16Number*) accum; accum+= 2; // L + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll1WordReversed(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = REVERSE_FLAVOR_16(*(cmsUInt16Number*) accum); accum+= 2; + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll1WordSkip3(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = wIn[1] = wIn[2] = *(cmsUInt16Number*) accum; + + accum += 8; + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Unroll2Words(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + wIn[0] = *(cmsUInt16Number*) accum; accum += 2; // ch1 + wIn[1] = *(cmsUInt16Number*) accum; accum += 2; // ch2 + + return accum; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +// This is a conversion of Lab double to 16 bits +static +cmsUInt8Number* UnrollLabDoubleTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + if (T_PLANAR(info -> InputFormat)) { + + cmsFloat64Number* Pt = (cmsFloat64Number*) accum; + + cmsCIELab Lab; + + Lab.L = Pt[0]; + Lab.a = Pt[Stride]; + Lab.b = Pt[Stride*2]; + + cmsFloat2LabEncoded(wIn, &Lab); + return accum + sizeof(cmsFloat64Number); + } + else { + + cmsFloat2LabEncoded(wIn, (cmsCIELab*) accum); + accum += sizeof(cmsCIELab) + T_EXTRA(info ->InputFormat) * sizeof(cmsFloat64Number); + return accum; + } +} + + +// This is a conversion of Lab float to 16 bits +static +cmsUInt8Number* UnrollLabFloatTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + cmsCIELab Lab; + + if (T_PLANAR(info -> InputFormat)) { + + cmsFloat32Number* Pt = (cmsFloat32Number*) accum; + + + Lab.L = Pt[0]; + Lab.a = Pt[Stride]; + Lab.b = Pt[Stride*2]; + + cmsFloat2LabEncoded(wIn, &Lab); + return accum + sizeof(cmsFloat32Number); + } + else { + + Lab.L = ((cmsFloat32Number*) accum)[0]; + Lab.a = ((cmsFloat32Number*) accum)[1]; + Lab.b = ((cmsFloat32Number*) accum)[2]; + + cmsFloat2LabEncoded(wIn, &Lab); + accum += (3 + T_EXTRA(info ->InputFormat)) * sizeof(cmsFloat32Number); + return accum; + } +} + +// This is a conversion of XYZ double to 16 bits +static +cmsUInt8Number* UnrollXYZDoubleTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + if (T_PLANAR(info -> InputFormat)) { + + cmsFloat64Number* Pt = (cmsFloat64Number*) accum; + cmsCIEXYZ XYZ; + + XYZ.X = Pt[0]; + XYZ.Y = Pt[Stride]; + XYZ.Z = Pt[Stride*2]; + cmsFloat2XYZEncoded(wIn, &XYZ); + + return accum + sizeof(cmsFloat64Number); + + } + + else { + cmsFloat2XYZEncoded(wIn, (cmsCIEXYZ*) accum); + accum += sizeof(cmsCIEXYZ) + T_EXTRA(info ->InputFormat) * sizeof(cmsFloat64Number); + + return accum; + } +} + +// This is a conversion of XYZ float to 16 bits +static +cmsUInt8Number* UnrollXYZFloatTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + if (T_PLANAR(info -> InputFormat)) { + + cmsFloat32Number* Pt = (cmsFloat32Number*) accum; + cmsCIEXYZ XYZ; + + XYZ.X = Pt[0]; + XYZ.Y = Pt[Stride]; + XYZ.Z = Pt[Stride*2]; + cmsFloat2XYZEncoded(wIn, &XYZ); + + return accum + sizeof(cmsFloat32Number); + + } + + else { + cmsFloat32Number* Pt = (cmsFloat32Number*) accum; + cmsCIEXYZ XYZ; + + XYZ.X = Pt[0]; + XYZ.Y = Pt[1]; + XYZ.Z = Pt[2]; + cmsFloat2XYZEncoded(wIn, &XYZ); + + accum += 3 * sizeof(cmsFloat32Number) + T_EXTRA(info ->InputFormat) * sizeof(cmsFloat32Number); + + return accum; + } +} + +// Check if space is marked as ink +cmsINLINE cmsBool IsInkSpace(cmsUInt32Number Type) +{ + switch (T_COLORSPACE(Type)) { + + case PT_CMY: + case PT_CMYK: + case PT_MCH5: + case PT_MCH6: + case PT_MCH7: + case PT_MCH8: + case PT_MCH9: + case PT_MCH10: + case PT_MCH11: + case PT_MCH12: + case PT_MCH13: + case PT_MCH14: + case PT_MCH15: return TRUE; + + default: return FALSE; + } +} + +// Inks does come in percentage, remaining cases are between 0..1.0, again to 16 bits +static +cmsUInt8Number* UnrollDoubleTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int Planar = T_PLANAR(info -> InputFormat); + cmsFloat64Number v; + cmsUInt16Number vi; + int i, start = 0; + cmsFloat64Number maximum = IsInkSpace(info ->InputFormat) ? 655.35 : 65535.0; + + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + if (Planar) + v = (cmsFloat32Number) ((cmsFloat64Number*) accum)[(i + start) * Stride]; + else + v = (cmsFloat32Number) ((cmsFloat64Number*) accum)[i + start]; + + vi = _cmsQuickSaturateWord(v * maximum); + + if (Reverse) + vi = REVERSE_FLAVOR_16(vi); + + wIn[index] = vi; + } + + + if (Extra == 0 && SwapFirst) { + cmsUInt16Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsUInt16Number)); + wIn[nChan-1] = tmp; + } + + if (T_PLANAR(info -> InputFormat)) + return accum + sizeof(cmsFloat64Number); + else + return accum + (nChan + Extra) * sizeof(cmsFloat64Number); +} + + + +static +cmsUInt8Number* UnrollFloatTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int Planar = T_PLANAR(info -> InputFormat); + cmsFloat32Number v; + cmsUInt16Number vi; + int i, start = 0; + cmsFloat64Number maximum = IsInkSpace(info ->InputFormat) ? 655.35 : 65535.0; + + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + if (Planar) + v = (cmsFloat32Number) ((cmsFloat32Number*) accum)[(i + start) * Stride]; + else + v = (cmsFloat32Number) ((cmsFloat32Number*) accum)[i + start]; + + vi = _cmsQuickSaturateWord(v * maximum); + + if (Reverse) + vi = REVERSE_FLAVOR_16(vi); + + wIn[index] = vi; + } + + + if (Extra == 0 && SwapFirst) { + cmsUInt16Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsUInt16Number)); + wIn[nChan-1] = tmp; + } + + if (T_PLANAR(info -> InputFormat)) + return accum + sizeof(cmsFloat32Number); + else + return accum + (nChan + Extra) * sizeof(cmsFloat32Number); +} + + + + +// For 1 channel, we need to duplicate data (it comes in 0..1.0 range) +static +cmsUInt8Number* UnrollDouble1Chan(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + cmsFloat64Number* Inks = (cmsFloat64Number*) accum; + + wIn[0] = wIn[1] = wIn[2] = _cmsQuickSaturateWord(Inks[0] * 65535.0); + + return accum + sizeof(cmsFloat64Number); + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +//------------------------------------------------------------------------------------------------------------------- + +// For anything going from cmsFloat32Number +static +cmsUInt8Number* UnrollFloatsToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int Planar = T_PLANAR(info -> InputFormat); + cmsFloat32Number v; + int i, start = 0; + cmsFloat32Number maximum = IsInkSpace(info ->InputFormat) ? 100.0F : 1.0F; + + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + if (Planar) + v = (cmsFloat32Number) ((cmsFloat32Number*) accum)[(i + start) * Stride]; + else + v = (cmsFloat32Number) ((cmsFloat32Number*) accum)[i + start]; + + v /= maximum; + + wIn[index] = Reverse ? 1 - v : v; + } + + + if (Extra == 0 && SwapFirst) { + cmsFloat32Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsFloat32Number)); + wIn[nChan-1] = tmp; + } + + if (T_PLANAR(info -> InputFormat)) + return accum + sizeof(cmsFloat32Number); + else + return accum + (nChan + Extra) * sizeof(cmsFloat32Number); +} + +// For anything going from double + +static +cmsUInt8Number* UnrollDoublesToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int Planar = T_PLANAR(info -> InputFormat); + cmsFloat64Number v; + int i, start = 0; + cmsFloat64Number maximum = IsInkSpace(info ->InputFormat) ? 100.0 : 1.0; + + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + if (Planar) + v = (cmsFloat64Number) ((cmsFloat64Number*) accum)[(i + start) * Stride]; + else + v = (cmsFloat64Number) ((cmsFloat64Number*) accum)[i + start]; + + v /= maximum; + + wIn[index] = (cmsFloat32Number) (Reverse ? 1.0 - v : v); + } + + + if (Extra == 0 && SwapFirst) { + cmsFloat32Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsFloat32Number)); + wIn[nChan-1] = tmp; + } + + if (T_PLANAR(info -> InputFormat)) + return accum + sizeof(cmsFloat64Number); + else + return accum + (nChan + Extra) * sizeof(cmsFloat64Number); +} + + + +// From Lab double to cmsFloat32Number +static +cmsUInt8Number* UnrollLabDoubleToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + cmsFloat64Number* Pt = (cmsFloat64Number*) accum; + + if (T_PLANAR(info -> InputFormat)) { + + wIn[0] = (cmsFloat32Number) (Pt[0] / 100.0); // from 0..100 to 0..1 + wIn[1] = (cmsFloat32Number) ((Pt[Stride] + 128) / 255.0); // form -128..+127 to 0..1 + wIn[2] = (cmsFloat32Number) ((Pt[Stride*2] + 128) / 255.0); + + return accum + sizeof(cmsFloat64Number); + } + else { + + wIn[0] = (cmsFloat32Number) (Pt[0] / 100.0); // from 0..100 to 0..1 + wIn[1] = (cmsFloat32Number) ((Pt[1] + 128) / 255.0); // form -128..+127 to 0..1 + wIn[2] = (cmsFloat32Number) ((Pt[2] + 128) / 255.0); + + accum += sizeof(cmsFloat64Number)*(3 + T_EXTRA(info ->InputFormat)); + return accum; + } +} + +// From Lab double to cmsFloat32Number +static +cmsUInt8Number* UnrollLabFloatToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + cmsFloat32Number* Pt = (cmsFloat32Number*) accum; + + if (T_PLANAR(info -> InputFormat)) { + + wIn[0] = (cmsFloat32Number) (Pt[0] / 100.0); // from 0..100 to 0..1 + wIn[1] = (cmsFloat32Number) ((Pt[Stride] + 128) / 255.0); // form -128..+127 to 0..1 + wIn[2] = (cmsFloat32Number) ((Pt[Stride*2] + 128) / 255.0); + + return accum + sizeof(cmsFloat32Number); + } + else { + + wIn[0] = (cmsFloat32Number) (Pt[0] / 100.0); // from 0..100 to 0..1 + wIn[1] = (cmsFloat32Number) ((Pt[1] + 128) / 255.0); // form -128..+127 to 0..1 + wIn[2] = (cmsFloat32Number) ((Pt[2] + 128) / 255.0); + + accum += sizeof(cmsFloat32Number)*(3 + T_EXTRA(info ->InputFormat)); + return accum; + } +} + + + +// 1.15 fixed point, that means maximum value is MAX_ENCODEABLE_XYZ (0xFFFF) +static +cmsUInt8Number* UnrollXYZDoubleToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + cmsFloat64Number* Pt = (cmsFloat64Number*) accum; + + if (T_PLANAR(info -> InputFormat)) { + + wIn[0] = (cmsFloat32Number) (Pt[0] / MAX_ENCODEABLE_XYZ); + wIn[1] = (cmsFloat32Number) (Pt[Stride] / MAX_ENCODEABLE_XYZ); + wIn[2] = (cmsFloat32Number) (Pt[Stride*2] / MAX_ENCODEABLE_XYZ); + + return accum + sizeof(cmsFloat64Number); + } + else { + + wIn[0] = (cmsFloat32Number) (Pt[0] / MAX_ENCODEABLE_XYZ); + wIn[1] = (cmsFloat32Number) (Pt[1] / MAX_ENCODEABLE_XYZ); + wIn[2] = (cmsFloat32Number) (Pt[2] / MAX_ENCODEABLE_XYZ); + + accum += sizeof(cmsFloat64Number)*(3 + T_EXTRA(info ->InputFormat)); + return accum; + } +} + +static +cmsUInt8Number* UnrollXYZFloatToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + cmsFloat32Number* Pt = (cmsFloat32Number*) accum; + + if (T_PLANAR(info -> InputFormat)) { + + wIn[0] = (cmsFloat32Number) (Pt[0] / MAX_ENCODEABLE_XYZ); + wIn[1] = (cmsFloat32Number) (Pt[Stride] / MAX_ENCODEABLE_XYZ); + wIn[2] = (cmsFloat32Number) (Pt[Stride*2] / MAX_ENCODEABLE_XYZ); + + return accum + sizeof(cmsFloat32Number); + } + else { + + wIn[0] = (cmsFloat32Number) (Pt[0] / MAX_ENCODEABLE_XYZ); + wIn[1] = (cmsFloat32Number) (Pt[1] / MAX_ENCODEABLE_XYZ); + wIn[2] = (cmsFloat32Number) (Pt[2] / MAX_ENCODEABLE_XYZ); + + accum += sizeof(cmsFloat32Number)*(3 + T_EXTRA(info ->InputFormat)); + return accum; + } +} + + + +// Packing routines ----------------------------------------------------------------------------------------------------------- + + +// Generic chunky for byte + +static +cmsUInt8Number* PackAnyBytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> OutputFormat); + int DoSwap = T_DOSWAP(info ->OutputFormat); + int Reverse = T_FLAVOR(info ->OutputFormat); + int Extra = T_EXTRA(info -> OutputFormat); + int SwapFirst = T_SWAPFIRST(info -> OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsUInt8Number* swap1; + cmsUInt8Number v = 0; + int i; + + swap1 = output; + + if (ExtraFirst) { + output += Extra; + } + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = FROM_16_TO_8(wOut[index]); + + if (Reverse) + v = REVERSE_FLAVOR_8(v); + + *output++ = v; + } + + if (!ExtraFirst) { + output += Extra; + } + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, nChan-1); + *swap1 = v; + } + + + return output; + + cmsUNUSED_PARAMETER(Stride); +} + + + +static +cmsUInt8Number* PackAnyWords(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> OutputFormat); + int SwapEndian = T_ENDIAN16(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->OutputFormat); + int Reverse = T_FLAVOR(info ->OutputFormat); + int Extra = T_EXTRA(info -> OutputFormat); + int SwapFirst = T_SWAPFIRST(info -> OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsUInt16Number* swap1; + cmsUInt16Number v = 0; + int i; + + swap1 = (cmsUInt16Number*) output; + + if (ExtraFirst) { + output += Extra * sizeof(cmsUInt16Number); + } + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = wOut[index]; + + if (SwapEndian) + v = CHANGE_ENDIAN(v); + + if (Reverse) + v = REVERSE_FLAVOR_16(v); + + *(cmsUInt16Number*) output = v; + + output += sizeof(cmsUInt16Number); + } + + if (!ExtraFirst) { + output += Extra * sizeof(cmsUInt16Number); + } + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan-1)* sizeof(cmsUInt16Number)); + *swap1 = v; + } + + + return output; + + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* PackPlanarBytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> OutputFormat); + int DoSwap = T_DOSWAP(info ->OutputFormat); + int SwapFirst = T_SWAPFIRST(info ->OutputFormat); + int Reverse = T_FLAVOR(info ->OutputFormat); + int i; + cmsUInt8Number* Init = output; + + + if (DoSwap ^ SwapFirst) { + output += T_EXTRA(info -> OutputFormat) * Stride; + } + + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + cmsUInt8Number v = FROM_16_TO_8(wOut[index]); + + *(cmsUInt8Number*) output = (cmsUInt8Number) (Reverse ? REVERSE_FLAVOR_8(v) : v); + output += Stride; + } + + return (Init + 1); + + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* PackPlanarWords(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> OutputFormat); + int DoSwap = T_DOSWAP(info ->OutputFormat); + int Reverse= T_FLAVOR(info ->OutputFormat); + int SwapEndian = T_ENDIAN16(info -> OutputFormat); + int i; + cmsUInt8Number* Init = output; + cmsUInt16Number v; + + if (DoSwap) { + output += T_EXTRA(info -> OutputFormat) * Stride * sizeof(cmsUInt16Number); + } + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = wOut[index]; + + if (SwapEndian) + v = CHANGE_ENDIAN(v); + + if (Reverse) + v = REVERSE_FLAVOR_16(v); + + *(cmsUInt16Number*) output = v; + output += (Stride * sizeof(cmsUInt16Number)); + } + + return (Init + sizeof(cmsUInt16Number)); +} + +// CMYKcm (unrolled for speed) + +static +cmsUInt8Number* Pack6Bytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[3]); + *output++ = FROM_16_TO_8(wOut[4]); + *output++ = FROM_16_TO_8(wOut[5]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// KCMYcm + +static +cmsUInt8Number* Pack6BytesSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[5]); + *output++ = FROM_16_TO_8(wOut[4]); + *output++ = FROM_16_TO_8(wOut[3]); + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[0]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// CMYKcm +static +cmsUInt8Number* Pack6Words(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[3]; + output+= 2; + *(cmsUInt16Number*) output = wOut[4]; + output+= 2; + *(cmsUInt16Number*) output = wOut[5]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// KCMYcm +static +cmsUInt8Number* Pack6WordsSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[5]; + output+= 2; + *(cmsUInt16Number*) output = wOut[4]; + output+= 2; + *(cmsUInt16Number*) output = wOut[3]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack4Bytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[3]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack4BytesReverse(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = REVERSE_FLAVOR_8(FROM_16_TO_8(wOut[0])); + *output++ = REVERSE_FLAVOR_8(FROM_16_TO_8(wOut[1])); + *output++ = REVERSE_FLAVOR_8(FROM_16_TO_8(wOut[2])); + *output++ = REVERSE_FLAVOR_8(FROM_16_TO_8(wOut[3])); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack4BytesSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[3]); + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[2]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// ABGR +static +cmsUInt8Number* Pack4BytesSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[3]); + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[0]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack4BytesSwapSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[3]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack4Words(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[3]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack4WordsReverse(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = REVERSE_FLAVOR_16(wOut[0]); + output+= 2; + *(cmsUInt16Number*) output = REVERSE_FLAVOR_16(wOut[1]); + output+= 2; + *(cmsUInt16Number*) output = REVERSE_FLAVOR_16(wOut[2]); + output+= 2; + *(cmsUInt16Number*) output = REVERSE_FLAVOR_16(wOut[3]); + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// ABGR +static +cmsUInt8Number* Pack4WordsSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[3]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +// CMYK +static +cmsUInt8Number* Pack4WordsBigEndian(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[0]); + output+= 2; + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[1]); + output+= 2; + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[2]); + output+= 2; + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[3]); + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* PackLabV2_8(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(FomLabV4ToLabV2(wOut[0])); + *output++ = FROM_16_TO_8(FomLabV4ToLabV2(wOut[1])); + *output++ = FROM_16_TO_8(FomLabV4ToLabV2(wOut[2])); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* PackALabV2_8(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output++; + *output++ = FROM_16_TO_8(FomLabV4ToLabV2(wOut[0])); + *output++ = FROM_16_TO_8(FomLabV4ToLabV2(wOut[1])); + *output++ = FROM_16_TO_8(FomLabV4ToLabV2(wOut[2])); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* PackLabV2_16(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = FomLabV4ToLabV2(wOut[0]); + output += 2; + *(cmsUInt16Number*) output = FomLabV4ToLabV2(wOut[1]); + output += 2; + *(cmsUInt16Number*) output = FomLabV4ToLabV2(wOut[2]); + output += 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3Bytes(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[2]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesOptimized(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = (wOut[0] & 0xFF); + *output++ = (wOut[1] & 0xFF); + *output++ = (wOut[2] & 0xFF); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[0]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesSwapOptimized(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = (wOut[2] & 0xFF); + *output++ = (wOut[1] & 0xFF); + *output++ = (wOut[0] & 0xFF); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack3Words(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3WordsSwap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3WordsBigEndian(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[0]); + output+= 2; + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[1]); + output+= 2; + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[2]); + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesAndSkip1(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[2]); + output++; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesAndSkip1Optimized(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = (wOut[0] & 0xFF); + *output++ = (wOut[1] & 0xFF); + *output++ = (wOut[2] & 0xFF); + output++; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack3BytesAndSkip1SwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output++; + *output++ = FROM_16_TO_8(wOut[0]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[2]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesAndSkip1SwapFirstOptimized(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output++; + *output++ = (wOut[0] & 0xFF); + *output++ = (wOut[1] & 0xFF); + *output++ = (wOut[2] & 0xFF); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesAndSkip1Swap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output++; + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[0]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesAndSkip1SwapOptimized(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output++; + *output++ = (wOut[2] & 0xFF); + *output++ = (wOut[1] & 0xFF); + *output++ = (wOut[0] & 0xFF); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack3BytesAndSkip1SwapSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[2]); + *output++ = FROM_16_TO_8(wOut[1]); + *output++ = FROM_16_TO_8(wOut[0]); + output++; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3BytesAndSkip1SwapSwapFirstOptimized(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = (wOut[2] & 0xFF); + *output++ = (wOut[1] & 0xFF); + *output++ = (wOut[0] & 0xFF); + output++; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3WordsAndSkip1(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack3WordsAndSkip1Swap(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack3WordsAndSkip1SwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output+= 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack3WordsAndSkip1SwapSwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[2]; + output+= 2; + *(cmsUInt16Number*) output = wOut[1]; + output+= 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + + +static +cmsUInt8Number* Pack1Byte(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[0]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack1ByteReversed(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(REVERSE_FLAVOR_16(wOut[0])); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack1ByteSkip1(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *output++ = FROM_16_TO_8(wOut[0]); + output++; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack1ByteSkip1SwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output++; + *output++ = FROM_16_TO_8(wOut[0]); + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack1Word(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack1WordReversed(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = REVERSE_FLAVOR_16(wOut[0]); + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack1WordBigEndian(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = CHANGE_ENDIAN(wOut[0]); + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +static +cmsUInt8Number* Pack1WordSkip1(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + *(cmsUInt16Number*) output = wOut[0]; + output+= 4; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + +static +cmsUInt8Number* Pack1WordSkip1SwapFirst(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + output += 2; + *(cmsUInt16Number*) output = wOut[0]; + output+= 2; + + return output; + + cmsUNUSED_PARAMETER(info); + cmsUNUSED_PARAMETER(Stride); +} + + +// Unencoded Float values -- don't try optimize speed +static +cmsUInt8Number* PackLabDoubleFrom16(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + + if (T_PLANAR(info -> OutputFormat)) { + + cmsCIELab Lab; + cmsFloat64Number* Out = (cmsFloat64Number*) output; + cmsLabEncoded2Float(&Lab, wOut); + + Out[0] = Lab.L; + Out[Stride] = Lab.a; + Out[Stride*2] = Lab.b; + + return output + sizeof(cmsFloat64Number); + } + else { + + cmsLabEncoded2Float((cmsCIELab*) output, wOut); + return output + (sizeof(cmsCIELab) + T_EXTRA(info ->OutputFormat) * sizeof(cmsFloat64Number)); + } +} + + +static +cmsUInt8Number* PackLabFloatFrom16(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + cmsCIELab Lab; + cmsLabEncoded2Float(&Lab, wOut); + + if (T_PLANAR(info -> OutputFormat)) { + + cmsFloat32Number* Out = (cmsFloat32Number*) output; + + Out[0] = (cmsFloat32Number)Lab.L; + Out[Stride] = (cmsFloat32Number)Lab.a; + Out[Stride*2] = (cmsFloat32Number)Lab.b; + + return output + sizeof(cmsFloat32Number); + } + else { + + ((cmsFloat32Number*) output)[0] = (cmsFloat32Number) Lab.L; + ((cmsFloat32Number*) output)[1] = (cmsFloat32Number) Lab.a; + ((cmsFloat32Number*) output)[2] = (cmsFloat32Number) Lab.b; + + return output + (3 + T_EXTRA(info ->OutputFormat)) * sizeof(cmsFloat32Number); + } +} + +static +cmsUInt8Number* PackXYZDoubleFrom16(register _cmsTRANSFORM* Info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + if (T_PLANAR(Info -> OutputFormat)) { + + cmsCIEXYZ XYZ; + cmsFloat64Number* Out = (cmsFloat64Number*) output; + cmsXYZEncoded2Float(&XYZ, wOut); + + Out[0] = XYZ.X; + Out[Stride] = XYZ.Y; + Out[Stride*2] = XYZ.Z; + + return output + sizeof(cmsFloat64Number); + + } + else { + + cmsXYZEncoded2Float((cmsCIEXYZ*) output, wOut); + + return output + (sizeof(cmsCIEXYZ) + T_EXTRA(Info ->OutputFormat) * sizeof(cmsFloat64Number)); + } +} + +static +cmsUInt8Number* PackXYZFloatFrom16(register _cmsTRANSFORM* Info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + if (T_PLANAR(Info -> OutputFormat)) { + + cmsCIEXYZ XYZ; + cmsFloat32Number* Out = (cmsFloat32Number*) output; + cmsXYZEncoded2Float(&XYZ, wOut); + + Out[0] = (cmsFloat32Number) XYZ.X; + Out[Stride] = (cmsFloat32Number) XYZ.Y; + Out[Stride*2] = (cmsFloat32Number) XYZ.Z; + + return output + sizeof(cmsFloat32Number); + + } + else { + + cmsCIEXYZ XYZ; + cmsFloat32Number* Out = (cmsFloat32Number*) output; + cmsXYZEncoded2Float(&XYZ, wOut); + + Out[0] = (cmsFloat32Number) XYZ.X; + Out[1] = (cmsFloat32Number) XYZ.Y; + Out[2] = (cmsFloat32Number) XYZ.Z; + + return output + (3 * sizeof(cmsFloat32Number) + T_EXTRA(Info ->OutputFormat) * sizeof(cmsFloat32Number)); + } +} + +static +cmsUInt8Number* PackDoubleFrom16(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info -> OutputFormat); + int DoSwap = T_DOSWAP(info ->OutputFormat); + int Reverse = T_FLAVOR(info ->OutputFormat); + int Extra = T_EXTRA(info -> OutputFormat); + int SwapFirst = T_SWAPFIRST(info -> OutputFormat); + int Planar = T_PLANAR(info -> OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsFloat64Number maximum = IsInkSpace(info ->OutputFormat) ? 655.35 : 65535.0; + cmsFloat64Number v = 0; + cmsFloat64Number* swap1 = (cmsFloat64Number*) output; + int i, start = 0; + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = (cmsFloat64Number) wOut[index] / maximum; + + if (Reverse) + v = maximum - v; + + if (Planar) + ((cmsFloat64Number*) output)[(i + start) * Stride]= v; + else + ((cmsFloat64Number*) output)[i + start] = v; + } + + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan-1)* sizeof(cmsFloat64Number)); + *swap1 = v; + } + + if (T_PLANAR(info -> OutputFormat)) + return output + sizeof(cmsFloat64Number); + else + return output + (nChan + Extra) * sizeof(cmsFloat64Number); + +} + + +static +cmsUInt8Number* PackFloatFrom16(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info->OutputFormat); + int DoSwap = T_DOSWAP(info->OutputFormat); + int Reverse = T_FLAVOR(info->OutputFormat); + int Extra = T_EXTRA(info->OutputFormat); + int SwapFirst = T_SWAPFIRST(info->OutputFormat); + int Planar = T_PLANAR(info->OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsFloat64Number maximum = IsInkSpace(info->OutputFormat) ? 655.35 : 65535.0; + cmsFloat64Number v = 0; + cmsFloat32Number* swap1 = (cmsFloat32Number*)output; + int i, start = 0; + + if (ExtraFirst) + start = Extra; + + for (i = 0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = (cmsFloat64Number)wOut[index] / maximum; + + if (Reverse) + v = maximum - v; + + if (Planar) + ((cmsFloat32Number*)output)[(i + start) * Stride] = (cmsFloat32Number)v; + else + ((cmsFloat32Number*)output)[i + start] = (cmsFloat32Number)v; + } + + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan - 1)* sizeof(cmsFloat32Number)); + *swap1 = (cmsFloat32Number)v; + } + + if (T_PLANAR(info->OutputFormat)) + return output + sizeof(cmsFloat32Number); + else + return output + (nChan + Extra) * sizeof(cmsFloat32Number); +} + + + +// -------------------------------------------------------------------------------------------------------- + +static +cmsUInt8Number* PackFloatsFromFloat(_cmsTRANSFORM* info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info->OutputFormat); + int DoSwap = T_DOSWAP(info->OutputFormat); + int Reverse = T_FLAVOR(info->OutputFormat); + int Extra = T_EXTRA(info->OutputFormat); + int SwapFirst = T_SWAPFIRST(info->OutputFormat); + int Planar = T_PLANAR(info->OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsFloat64Number maximum = IsInkSpace(info->OutputFormat) ? 100.0 : 1.0; + cmsFloat32Number* swap1 = (cmsFloat32Number*)output; + cmsFloat64Number v = 0; + int i, start = 0; + + if (ExtraFirst) + start = Extra; + + for (i = 0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = wOut[index] * maximum; + + if (Reverse) + v = maximum - v; + + if (Planar) + ((cmsFloat32Number*)output)[(i + start)* Stride] = (cmsFloat32Number)v; + else + ((cmsFloat32Number*)output)[i + start] = (cmsFloat32Number)v; + } + + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan - 1)* sizeof(cmsFloat32Number)); + *swap1 = (cmsFloat32Number)v; + } + + if (T_PLANAR(info->OutputFormat)) + return output + sizeof(cmsFloat32Number); + else + return output + (nChan + Extra) * sizeof(cmsFloat32Number); +} + +static +cmsUInt8Number* PackDoublesFromFloat(_cmsTRANSFORM* info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info->OutputFormat); + int DoSwap = T_DOSWAP(info->OutputFormat); + int Reverse = T_FLAVOR(info->OutputFormat); + int Extra = T_EXTRA(info->OutputFormat); + int SwapFirst = T_SWAPFIRST(info->OutputFormat); + int Planar = T_PLANAR(info->OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsFloat64Number maximum = IsInkSpace(info->OutputFormat) ? 100.0 : 1.0; + cmsFloat64Number v = 0; + cmsFloat64Number* swap1 = (cmsFloat64Number*)output; + int i, start = 0; + + if (ExtraFirst) + start = Extra; + + for (i = 0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = wOut[index] * maximum; + + if (Reverse) + v = maximum - v; + + if (Planar) + ((cmsFloat64Number*)output)[(i + start) * Stride] = v; + else + ((cmsFloat64Number*)output)[i + start] = v; + } + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan - 1)* sizeof(cmsFloat64Number)); + *swap1 = v; + } + + + if (T_PLANAR(info->OutputFormat)) + return output + sizeof(cmsFloat64Number); + else + return output + (nChan + Extra) * sizeof(cmsFloat64Number); + +} + + + + + +static +cmsUInt8Number* PackLabFloatFromFloat(_cmsTRANSFORM* Info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + cmsFloat32Number* Out = (cmsFloat32Number*) output; + + if (T_PLANAR(Info -> OutputFormat)) { + + Out[0] = (cmsFloat32Number) (wOut[0] * 100.0); + Out[Stride] = (cmsFloat32Number) (wOut[1] * 255.0 - 128.0); + Out[Stride*2] = (cmsFloat32Number) (wOut[2] * 255.0 - 128.0); + + return output + sizeof(cmsFloat32Number); + } + else { + + Out[0] = (cmsFloat32Number) (wOut[0] * 100.0); + Out[1] = (cmsFloat32Number) (wOut[1] * 255.0 - 128.0); + Out[2] = (cmsFloat32Number) (wOut[2] * 255.0 - 128.0); + + return output + (sizeof(cmsFloat32Number)*3 + T_EXTRA(Info ->OutputFormat) * sizeof(cmsFloat32Number)); + } + +} + + +static +cmsUInt8Number* PackLabDoubleFromFloat(_cmsTRANSFORM* Info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + cmsFloat64Number* Out = (cmsFloat64Number*) output; + + if (T_PLANAR(Info -> OutputFormat)) { + + Out[0] = (cmsFloat64Number) (wOut[0] * 100.0); + Out[Stride] = (cmsFloat64Number) (wOut[1] * 255.0 - 128.0); + Out[Stride*2] = (cmsFloat64Number) (wOut[2] * 255.0 - 128.0); + + return output + sizeof(cmsFloat64Number); + } + else { + + Out[0] = (cmsFloat64Number) (wOut[0] * 100.0); + Out[1] = (cmsFloat64Number) (wOut[1] * 255.0 - 128.0); + Out[2] = (cmsFloat64Number) (wOut[2] * 255.0 - 128.0); + + return output + (sizeof(cmsFloat64Number)*3 + T_EXTRA(Info ->OutputFormat) * sizeof(cmsFloat64Number)); + } + +} + + +// From 0..1 range to 0..MAX_ENCODEABLE_XYZ +static +cmsUInt8Number* PackXYZFloatFromFloat(_cmsTRANSFORM* Info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + cmsFloat32Number* Out = (cmsFloat32Number*) output; + + if (T_PLANAR(Info -> OutputFormat)) { + + Out[0] = (cmsFloat32Number) (wOut[0] * MAX_ENCODEABLE_XYZ); + Out[Stride] = (cmsFloat32Number) (wOut[1] * MAX_ENCODEABLE_XYZ); + Out[Stride*2] = (cmsFloat32Number) (wOut[2] * MAX_ENCODEABLE_XYZ); + + return output + sizeof(cmsFloat32Number); + } + else { + + Out[0] = (cmsFloat32Number) (wOut[0] * MAX_ENCODEABLE_XYZ); + Out[1] = (cmsFloat32Number) (wOut[1] * MAX_ENCODEABLE_XYZ); + Out[2] = (cmsFloat32Number) (wOut[2] * MAX_ENCODEABLE_XYZ); + + return output + (sizeof(cmsFloat32Number)*3 + T_EXTRA(Info ->OutputFormat) * sizeof(cmsFloat32Number)); + } + +} + +// Same, but convert to double +static +cmsUInt8Number* PackXYZDoubleFromFloat(_cmsTRANSFORM* Info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + cmsFloat64Number* Out = (cmsFloat64Number*) output; + + if (T_PLANAR(Info -> OutputFormat)) { + + Out[0] = (cmsFloat64Number) (wOut[0] * MAX_ENCODEABLE_XYZ); + Out[Stride] = (cmsFloat64Number) (wOut[1] * MAX_ENCODEABLE_XYZ); + Out[Stride*2] = (cmsFloat64Number) (wOut[2] * MAX_ENCODEABLE_XYZ); + + return output + sizeof(cmsFloat64Number); + } + else { + + Out[0] = (cmsFloat64Number) (wOut[0] * MAX_ENCODEABLE_XYZ); + Out[1] = (cmsFloat64Number) (wOut[1] * MAX_ENCODEABLE_XYZ); + Out[2] = (cmsFloat64Number) (wOut[2] * MAX_ENCODEABLE_XYZ); + + return output + (sizeof(cmsFloat64Number)*3 + T_EXTRA(Info ->OutputFormat) * sizeof(cmsFloat64Number)); + } + +} + + +// ---------------------------------------------------------------------------------------------------------------- + +#ifndef CMS_NO_HALF_SUPPORT + +// Decodes an stream of half floats to wIn[] described by input format + +static +cmsUInt8Number* UnrollHalfTo16(register _cmsTRANSFORM* info, + register cmsUInt16Number wIn[], + register cmsUInt8Number* accum, + register cmsUInt32Number Stride) +{ + + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int Planar = T_PLANAR(info -> InputFormat); + cmsFloat32Number v; + int i, start = 0; + cmsFloat32Number maximum = IsInkSpace(info ->InputFormat) ? 655.35F : 65535.0F; + + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + if (Planar) + v = _cmsHalf2Float ( ((cmsUInt16Number*) accum)[(i + start) * Stride] ); + else + v = _cmsHalf2Float ( ((cmsUInt16Number*) accum)[i + start] ) ; + + if (Reverse) v = maximum - v; + + wIn[index] = _cmsQuickSaturateWord(v * maximum); + } + + + if (Extra == 0 && SwapFirst) { + cmsUInt16Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsUInt16Number)); + wIn[nChan-1] = tmp; + } + + if (T_PLANAR(info -> InputFormat)) + return accum + sizeof(cmsUInt16Number); + else + return accum + (nChan + Extra) * sizeof(cmsUInt16Number); +} + +// Decodes an stream of half floats to wIn[] described by input format + +static +cmsUInt8Number* UnrollHalfToFloat(_cmsTRANSFORM* info, + cmsFloat32Number wIn[], + cmsUInt8Number* accum, + cmsUInt32Number Stride) +{ + + int nChan = T_CHANNELS(info -> InputFormat); + int DoSwap = T_DOSWAP(info ->InputFormat); + int Reverse = T_FLAVOR(info ->InputFormat); + int SwapFirst = T_SWAPFIRST(info -> InputFormat); + int Extra = T_EXTRA(info -> InputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + int Planar = T_PLANAR(info -> InputFormat); + cmsFloat32Number v; + int i, start = 0; + cmsFloat32Number maximum = IsInkSpace(info ->InputFormat) ? 100.0F : 1.0F; + + + if (ExtraFirst) + start = Extra; + + for (i=0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + if (Planar) + v = _cmsHalf2Float ( ((cmsUInt16Number*) accum)[(i + start) * Stride] ); + else + v = _cmsHalf2Float ( ((cmsUInt16Number*) accum)[i + start] ) ; + + v /= maximum; + + wIn[index] = Reverse ? 1 - v : v; + } + + + if (Extra == 0 && SwapFirst) { + cmsFloat32Number tmp = wIn[0]; + + memmove(&wIn[0], &wIn[1], (nChan-1) * sizeof(cmsFloat32Number)); + wIn[nChan-1] = tmp; + } + + if (T_PLANAR(info -> InputFormat)) + return accum + sizeof(cmsUInt16Number); + else + return accum + (nChan + Extra) * sizeof(cmsUInt16Number); +} + + +static +cmsUInt8Number* PackHalfFrom16(register _cmsTRANSFORM* info, + register cmsUInt16Number wOut[], + register cmsUInt8Number* output, + register cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info->OutputFormat); + int DoSwap = T_DOSWAP(info->OutputFormat); + int Reverse = T_FLAVOR(info->OutputFormat); + int Extra = T_EXTRA(info->OutputFormat); + int SwapFirst = T_SWAPFIRST(info->OutputFormat); + int Planar = T_PLANAR(info->OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsFloat32Number maximum = IsInkSpace(info->OutputFormat) ? 655.35F : 65535.0F; + cmsFloat32Number v = 0; + cmsUInt16Number* swap1 = (cmsUInt16Number*)output; + int i, start = 0; + + if (ExtraFirst) + start = Extra; + + for (i = 0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = (cmsFloat32Number)wOut[index] / maximum; + + if (Reverse) + v = maximum - v; + + if (Planar) + ((cmsUInt16Number*)output)[(i + start) * Stride] = _cmsFloat2Half(v); + else + ((cmsUInt16Number*)output)[i + start] = _cmsFloat2Half(v); + } + + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan - 1)* sizeof(cmsUInt16Number)); + *swap1 = _cmsFloat2Half(v); + } + + if (T_PLANAR(info->OutputFormat)) + return output + sizeof(cmsUInt16Number); + else + return output + (nChan + Extra) * sizeof(cmsUInt16Number); +} + + + +static +cmsUInt8Number* PackHalfFromFloat(_cmsTRANSFORM* info, + cmsFloat32Number wOut[], + cmsUInt8Number* output, + cmsUInt32Number Stride) +{ + int nChan = T_CHANNELS(info->OutputFormat); + int DoSwap = T_DOSWAP(info->OutputFormat); + int Reverse = T_FLAVOR(info->OutputFormat); + int Extra = T_EXTRA(info->OutputFormat); + int SwapFirst = T_SWAPFIRST(info->OutputFormat); + int Planar = T_PLANAR(info->OutputFormat); + int ExtraFirst = DoSwap ^ SwapFirst; + cmsFloat32Number maximum = IsInkSpace(info->OutputFormat) ? 100.0F : 1.0F; + cmsUInt16Number* swap1 = (cmsUInt16Number*)output; + cmsFloat32Number v = 0; + int i, start = 0; + + if (ExtraFirst) + start = Extra; + + for (i = 0; i < nChan; i++) { + + int index = DoSwap ? (nChan - i - 1) : i; + + v = wOut[index] * maximum; + + if (Reverse) + v = maximum - v; + + if (Planar) + ((cmsUInt16Number*)output)[(i + start)* Stride] = _cmsFloat2Half(v); + else + ((cmsUInt16Number*)output)[i + start] = _cmsFloat2Half(v); + } + + + if (Extra == 0 && SwapFirst) { + + memmove(swap1 + 1, swap1, (nChan - 1)* sizeof(cmsUInt16Number)); + *swap1 = (cmsUInt16Number)_cmsFloat2Half(v); + } + + if (T_PLANAR(info->OutputFormat)) + return output + sizeof(cmsUInt16Number); + else + return output + (nChan + Extra)* sizeof(cmsUInt16Number); +} + +#endif + +// ---------------------------------------------------------------------------------------------------------------- + + +static cmsFormatters16 InputFormatters16[] = { + + // Type Mask Function + // ---------------------------- ------------------------------------ ---------------------------- + { TYPE_Lab_DBL, ANYPLANAR|ANYEXTRA, UnrollLabDoubleTo16}, + { TYPE_XYZ_DBL, ANYPLANAR|ANYEXTRA, UnrollXYZDoubleTo16}, + { TYPE_Lab_FLT, ANYPLANAR|ANYEXTRA, UnrollLabFloatTo16}, + { TYPE_XYZ_FLT, ANYPLANAR|ANYEXTRA, UnrollXYZFloatTo16}, + { TYPE_GRAY_DBL, 0, UnrollDouble1Chan}, + { FLOAT_SH(1)|BYTES_SH(0), ANYCHANNELS|ANYPLANAR|ANYSWAPFIRST|ANYFLAVOR| + ANYSWAP|ANYEXTRA|ANYSPACE, UnrollDoubleTo16}, + { FLOAT_SH(1)|BYTES_SH(4), ANYCHANNELS|ANYPLANAR|ANYSWAPFIRST|ANYFLAVOR| + ANYSWAP|ANYEXTRA|ANYSPACE, UnrollFloatTo16}, +#ifndef CMS_NO_HALF_SUPPORT + { FLOAT_SH(1)|BYTES_SH(2), ANYCHANNELS|ANYPLANAR|ANYSWAPFIRST|ANYFLAVOR| + ANYEXTRA|ANYSWAP|ANYSPACE, UnrollHalfTo16}, +#endif + + { CHANNELS_SH(1)|BYTES_SH(1), ANYSPACE, Unroll1Byte}, + { CHANNELS_SH(1)|BYTES_SH(1)|EXTRA_SH(1), ANYSPACE, Unroll1ByteSkip1}, + { CHANNELS_SH(1)|BYTES_SH(1)|EXTRA_SH(2), ANYSPACE, Unroll1ByteSkip2}, + { CHANNELS_SH(1)|BYTES_SH(1)|FLAVOR_SH(1), ANYSPACE, Unroll1ByteReversed}, + { COLORSPACE_SH(PT_MCH2)|CHANNELS_SH(2)|BYTES_SH(1), 0, Unroll2Bytes}, + + { TYPE_LabV2_8, 0, UnrollLabV2_8 }, + { TYPE_ALabV2_8, 0, UnrollALabV2_8 }, + { TYPE_LabV2_16, 0, UnrollLabV2_16 }, + + { CHANNELS_SH(3)|BYTES_SH(1), ANYSPACE, Unroll3Bytes}, + { CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1), ANYSPACE, Unroll3BytesSwap}, + { CHANNELS_SH(3)|EXTRA_SH(1)|BYTES_SH(1)|DOSWAP_SH(1), ANYSPACE, Unroll3BytesSkip1Swap}, + { CHANNELS_SH(3)|EXTRA_SH(1)|BYTES_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Unroll3BytesSkip1SwapFirst}, + + { CHANNELS_SH(3)|EXTRA_SH(1)|BYTES_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1), + ANYSPACE, Unroll3BytesSkip1SwapSwapFirst}, + + { CHANNELS_SH(4)|BYTES_SH(1), ANYSPACE, Unroll4Bytes}, + { CHANNELS_SH(4)|BYTES_SH(1)|FLAVOR_SH(1), ANYSPACE, Unroll4BytesReverse}, + { CHANNELS_SH(4)|BYTES_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Unroll4BytesSwapFirst}, + { CHANNELS_SH(4)|BYTES_SH(1)|DOSWAP_SH(1), ANYSPACE, Unroll4BytesSwap}, + { CHANNELS_SH(4)|BYTES_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Unroll4BytesSwapSwapFirst}, + + { BYTES_SH(1)|PLANAR_SH(1), ANYFLAVOR|ANYSWAPFIRST| + ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, UnrollPlanarBytes}, + + { BYTES_SH(1), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP| + ANYEXTRA|ANYCHANNELS|ANYSPACE, UnrollChunkyBytes}, + + { CHANNELS_SH(1)|BYTES_SH(2), ANYSPACE, Unroll1Word}, + { CHANNELS_SH(1)|BYTES_SH(2)|FLAVOR_SH(1), ANYSPACE, Unroll1WordReversed}, + { CHANNELS_SH(1)|BYTES_SH(2)|EXTRA_SH(3), ANYSPACE, Unroll1WordSkip3}, + + { CHANNELS_SH(2)|BYTES_SH(2), ANYSPACE, Unroll2Words}, + { CHANNELS_SH(3)|BYTES_SH(2), ANYSPACE, Unroll3Words}, + { CHANNELS_SH(4)|BYTES_SH(2), ANYSPACE, Unroll4Words}, + + { CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1), ANYSPACE, Unroll3WordsSwap}, + { CHANNELS_SH(3)|BYTES_SH(2)|EXTRA_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Unroll3WordsSkip1SwapFirst}, + { CHANNELS_SH(3)|BYTES_SH(2)|EXTRA_SH(1)|DOSWAP_SH(1), ANYSPACE, Unroll3WordsSkip1Swap}, + { CHANNELS_SH(4)|BYTES_SH(2)|FLAVOR_SH(1), ANYSPACE, Unroll4WordsReverse}, + { CHANNELS_SH(4)|BYTES_SH(2)|SWAPFIRST_SH(1), ANYSPACE, Unroll4WordsSwapFirst}, + { CHANNELS_SH(4)|BYTES_SH(2)|DOSWAP_SH(1), ANYSPACE, Unroll4WordsSwap}, + { CHANNELS_SH(4)|BYTES_SH(2)|DOSWAP_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Unroll4WordsSwapSwapFirst}, + + + { BYTES_SH(2)|PLANAR_SH(1), ANYFLAVOR|ANYSWAP|ANYENDIAN|ANYEXTRA|ANYCHANNELS|ANYSPACE, UnrollPlanarWords}, + { BYTES_SH(2), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYENDIAN|ANYEXTRA|ANYCHANNELS|ANYSPACE, UnrollAnyWords}, +}; + + + +static cmsFormattersFloat InputFormattersFloat[] = { + + // Type Mask Function + // ---------------------------- ------------------------------------ ---------------------------- + { TYPE_Lab_DBL, ANYPLANAR|ANYEXTRA, UnrollLabDoubleToFloat}, + { TYPE_Lab_FLT, ANYPLANAR|ANYEXTRA, UnrollLabFloatToFloat}, + + { TYPE_XYZ_DBL, ANYPLANAR|ANYEXTRA, UnrollXYZDoubleToFloat}, + { TYPE_XYZ_FLT, ANYPLANAR|ANYEXTRA, UnrollXYZFloatToFloat}, + + { FLOAT_SH(1)|BYTES_SH(4), ANYPLANAR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA| + ANYCHANNELS|ANYSPACE, UnrollFloatsToFloat}, + + { FLOAT_SH(1)|BYTES_SH(0), ANYPLANAR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA| + ANYCHANNELS|ANYSPACE, UnrollDoublesToFloat}, +#ifndef CMS_NO_HALF_SUPPORT + { FLOAT_SH(1)|BYTES_SH(2), ANYPLANAR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA| + ANYCHANNELS|ANYSPACE, UnrollHalfToFloat}, +#endif +}; + + +// Bit fields set to one in the mask are not compared +static +cmsFormatter _cmsGetStockInputFormatter(cmsUInt32Number dwInput, cmsUInt32Number dwFlags) +{ + cmsUInt32Number i; + cmsFormatter fr; + + switch (dwFlags) { + + case CMS_PACK_FLAGS_16BITS: { + for (i=0; i < sizeof(InputFormatters16) / sizeof(cmsFormatters16); i++) { + cmsFormatters16* f = InputFormatters16 + i; + + if ((dwInput & ~f ->Mask) == f ->Type) { + fr.Fmt16 = f ->Frm; + return fr; + } + } + } + break; + + case CMS_PACK_FLAGS_FLOAT: { + for (i=0; i < sizeof(InputFormattersFloat) / sizeof(cmsFormattersFloat); i++) { + cmsFormattersFloat* f = InputFormattersFloat + i; + + if ((dwInput & ~f ->Mask) == f ->Type) { + fr.FmtFloat = f ->Frm; + return fr; + } + } + } + break; + + default:; + + } + + fr.Fmt16 = NULL; + return fr; +} + +static cmsFormatters16 OutputFormatters16[] = { + // Type Mask Function + // ---------------------------- ------------------------------------ ---------------------------- + + { TYPE_Lab_DBL, ANYPLANAR|ANYEXTRA, PackLabDoubleFrom16}, + { TYPE_XYZ_DBL, ANYPLANAR|ANYEXTRA, PackXYZDoubleFrom16}, + + { TYPE_Lab_FLT, ANYPLANAR|ANYEXTRA, PackLabFloatFrom16}, + { TYPE_XYZ_FLT, ANYPLANAR|ANYEXTRA, PackXYZFloatFrom16}, + + { FLOAT_SH(1)|BYTES_SH(0), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP| + ANYCHANNELS|ANYPLANAR|ANYEXTRA|ANYSPACE, PackDoubleFrom16}, + { FLOAT_SH(1)|BYTES_SH(4), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP| + ANYCHANNELS|ANYPLANAR|ANYEXTRA|ANYSPACE, PackFloatFrom16}, +#ifndef CMS_NO_HALF_SUPPORT + { FLOAT_SH(1)|BYTES_SH(2), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP| + ANYCHANNELS|ANYPLANAR|ANYEXTRA|ANYSPACE, PackHalfFrom16}, +#endif + + { CHANNELS_SH(1)|BYTES_SH(1), ANYSPACE, Pack1Byte}, + { CHANNELS_SH(1)|BYTES_SH(1)|EXTRA_SH(1), ANYSPACE, Pack1ByteSkip1}, + { CHANNELS_SH(1)|BYTES_SH(1)|EXTRA_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Pack1ByteSkip1SwapFirst}, + + { CHANNELS_SH(1)|BYTES_SH(1)|FLAVOR_SH(1), ANYSPACE, Pack1ByteReversed}, + + { TYPE_LabV2_8, 0, PackLabV2_8 }, + { TYPE_ALabV2_8, 0, PackALabV2_8 }, + { TYPE_LabV2_16, 0, PackLabV2_16 }, + + { CHANNELS_SH(3)|BYTES_SH(1)|OPTIMIZED_SH(1), ANYSPACE, Pack3BytesOptimized}, + { CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|OPTIMIZED_SH(1), ANYSPACE, Pack3BytesAndSkip1Optimized}, + { CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|SWAPFIRST_SH(1)|OPTIMIZED_SH(1), + ANYSPACE, Pack3BytesAndSkip1SwapFirstOptimized}, + { CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1)|OPTIMIZED_SH(1), + ANYSPACE, Pack3BytesAndSkip1SwapSwapFirstOptimized}, + { CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|EXTRA_SH(1)|OPTIMIZED_SH(1), + ANYSPACE, Pack3BytesAndSkip1SwapOptimized}, + { CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|OPTIMIZED_SH(1), ANYSPACE, Pack3BytesSwapOptimized}, + + + + { CHANNELS_SH(3)|BYTES_SH(1), ANYSPACE, Pack3Bytes}, + { CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1), ANYSPACE, Pack3BytesAndSkip1}, + { CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Pack3BytesAndSkip1SwapFirst}, + { CHANNELS_SH(3)|BYTES_SH(1)|EXTRA_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1), + ANYSPACE, Pack3BytesAndSkip1SwapSwapFirst}, + { CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1)|EXTRA_SH(1), ANYSPACE, Pack3BytesAndSkip1Swap}, + { CHANNELS_SH(3)|BYTES_SH(1)|DOSWAP_SH(1), ANYSPACE, Pack3BytesSwap}, + { CHANNELS_SH(6)|BYTES_SH(1), ANYSPACE, Pack6Bytes}, + { CHANNELS_SH(6)|BYTES_SH(1)|DOSWAP_SH(1), ANYSPACE, Pack6BytesSwap}, + { CHANNELS_SH(4)|BYTES_SH(1), ANYSPACE, Pack4Bytes}, + { CHANNELS_SH(4)|BYTES_SH(1)|FLAVOR_SH(1), ANYSPACE, Pack4BytesReverse}, + { CHANNELS_SH(4)|BYTES_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Pack4BytesSwapFirst}, + { CHANNELS_SH(4)|BYTES_SH(1)|DOSWAP_SH(1), ANYSPACE, Pack4BytesSwap}, + { CHANNELS_SH(4)|BYTES_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Pack4BytesSwapSwapFirst}, + + { BYTES_SH(1), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackAnyBytes}, + { BYTES_SH(1)|PLANAR_SH(1), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackPlanarBytes}, + + { CHANNELS_SH(1)|BYTES_SH(2), ANYSPACE, Pack1Word}, + { CHANNELS_SH(1)|BYTES_SH(2)|EXTRA_SH(1), ANYSPACE, Pack1WordSkip1}, + { CHANNELS_SH(1)|BYTES_SH(2)|EXTRA_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Pack1WordSkip1SwapFirst}, + { CHANNELS_SH(1)|BYTES_SH(2)|FLAVOR_SH(1), ANYSPACE, Pack1WordReversed}, + { CHANNELS_SH(1)|BYTES_SH(2)|ENDIAN16_SH(1), ANYSPACE, Pack1WordBigEndian}, + { CHANNELS_SH(3)|BYTES_SH(2), ANYSPACE, Pack3Words}, + { CHANNELS_SH(3)|BYTES_SH(2)|DOSWAP_SH(1), ANYSPACE, Pack3WordsSwap}, + { CHANNELS_SH(3)|BYTES_SH(2)|ENDIAN16_SH(1), ANYSPACE, Pack3WordsBigEndian}, + { CHANNELS_SH(3)|BYTES_SH(2)|EXTRA_SH(1), ANYSPACE, Pack3WordsAndSkip1}, + { CHANNELS_SH(3)|BYTES_SH(2)|EXTRA_SH(1)|DOSWAP_SH(1), ANYSPACE, Pack3WordsAndSkip1Swap}, + { CHANNELS_SH(3)|BYTES_SH(2)|EXTRA_SH(1)|SWAPFIRST_SH(1), ANYSPACE, Pack3WordsAndSkip1SwapFirst}, + + { CHANNELS_SH(3)|BYTES_SH(2)|EXTRA_SH(1)|DOSWAP_SH(1)|SWAPFIRST_SH(1), + ANYSPACE, Pack3WordsAndSkip1SwapSwapFirst}, + + { CHANNELS_SH(4)|BYTES_SH(2), ANYSPACE, Pack4Words}, + { CHANNELS_SH(4)|BYTES_SH(2)|FLAVOR_SH(1), ANYSPACE, Pack4WordsReverse}, + { CHANNELS_SH(4)|BYTES_SH(2)|DOSWAP_SH(1), ANYSPACE, Pack4WordsSwap}, + { CHANNELS_SH(4)|BYTES_SH(2)|ENDIAN16_SH(1), ANYSPACE, Pack4WordsBigEndian}, + + { CHANNELS_SH(6)|BYTES_SH(2), ANYSPACE, Pack6Words}, + { CHANNELS_SH(6)|BYTES_SH(2)|DOSWAP_SH(1), ANYSPACE, Pack6WordsSwap}, + + { BYTES_SH(2)|PLANAR_SH(1), ANYFLAVOR|ANYENDIAN|ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackPlanarWords}, + { BYTES_SH(2), ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYENDIAN|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackAnyWords} + +}; + + +static cmsFormattersFloat OutputFormattersFloat[] = { + // Type Mask Function + // ---------------------------- --------------------------------------------------- ---------------------------- + { TYPE_Lab_FLT, ANYPLANAR|ANYEXTRA, PackLabFloatFromFloat}, + { TYPE_XYZ_FLT, ANYPLANAR|ANYEXTRA, PackXYZFloatFromFloat}, + + { TYPE_Lab_DBL, ANYPLANAR|ANYEXTRA, PackLabDoubleFromFloat}, + { TYPE_XYZ_DBL, ANYPLANAR|ANYEXTRA, PackXYZDoubleFromFloat}, + + { FLOAT_SH(1)|BYTES_SH(4), ANYPLANAR| + ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackFloatsFromFloat }, + { FLOAT_SH(1)|BYTES_SH(0), ANYPLANAR| + ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackDoublesFromFloat }, +#ifndef CMS_NO_HALF_SUPPORT + { FLOAT_SH(1)|BYTES_SH(2), + ANYFLAVOR|ANYSWAPFIRST|ANYSWAP|ANYEXTRA|ANYCHANNELS|ANYSPACE, PackHalfFromFloat }, +#endif + + + +}; + + +// Bit fields set to one in the mask are not compared +static +cmsFormatter _cmsGetStockOutputFormatter(cmsUInt32Number dwInput, cmsUInt32Number dwFlags) +{ + cmsUInt32Number i; + cmsFormatter fr; + + // Optimization is only a hint + dwInput &= ~OPTIMIZED_SH(1); + + switch (dwFlags) + { + + case CMS_PACK_FLAGS_16BITS: { + + for (i=0; i < sizeof(OutputFormatters16) / sizeof(cmsFormatters16); i++) { + cmsFormatters16* f = OutputFormatters16 + i; + + if ((dwInput & ~f ->Mask) == f ->Type) { + fr.Fmt16 = f ->Frm; + return fr; + } + } + } + break; + + case CMS_PACK_FLAGS_FLOAT: { + + for (i=0; i < sizeof(OutputFormattersFloat) / sizeof(cmsFormattersFloat); i++) { + cmsFormattersFloat* f = OutputFormattersFloat + i; + + if ((dwInput & ~f ->Mask) == f ->Type) { + fr.FmtFloat = f ->Frm; + return fr; + } + } + } + break; + + default:; + + } + + fr.Fmt16 = NULL; + return fr; +} + + +typedef struct _cms_formatters_factory_list { + + cmsFormatterFactory Factory; + struct _cms_formatters_factory_list *Next; + +} cmsFormattersFactoryList; + +_cmsFormattersPluginChunkType _cmsFormattersPluginChunk = { NULL }; + + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupFormatterFactoryList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsFormattersPluginChunkType newHead = { NULL }; + cmsFormattersFactoryList* entry; + cmsFormattersFactoryList* Anterior = NULL; + _cmsFormattersPluginChunkType* head = (_cmsFormattersPluginChunkType*) src->chunks[FormattersPlugin]; + + _cmsAssert(head != NULL); + + // Walk the list copying all nodes + for (entry = head->FactoryList; + entry != NULL; + entry = entry ->Next) { + + cmsFormattersFactoryList *newEntry = ( cmsFormattersFactoryList *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(cmsFormattersFactoryList)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.FactoryList == NULL) + newHead.FactoryList = newEntry; + } + + ctx ->chunks[FormattersPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsFormattersPluginChunkType)); +} + +// The interpolation plug-in memory chunk allocator/dup +void _cmsAllocFormattersPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsAssert(ctx != NULL); + + if (src != NULL) { + + // Duplicate the LIST + DupFormatterFactoryList(ctx, src); + } + else { + static _cmsFormattersPluginChunkType FormattersPluginChunk = { NULL }; + ctx ->chunks[FormattersPlugin] = _cmsSubAllocDup(ctx ->MemPool, &FormattersPluginChunk, sizeof(_cmsFormattersPluginChunkType)); + } +} + + + +// Formatters management +cmsBool _cmsRegisterFormattersPlugin(cmsContext ContextID, cmsPluginBase* Data) +{ + _cmsFormattersPluginChunkType* ctx = ( _cmsFormattersPluginChunkType*) _cmsContextGetClientChunk(ContextID, FormattersPlugin); + cmsPluginFormatters* Plugin = (cmsPluginFormatters*) Data; + cmsFormattersFactoryList* fl ; + + // Reset to built-in defaults + if (Data == NULL) { + + ctx ->FactoryList = NULL; + return TRUE; + } + + fl = (cmsFormattersFactoryList*) _cmsPluginMalloc(ContextID, sizeof(cmsFormattersFactoryList)); + if (fl == NULL) return FALSE; + + fl ->Factory = Plugin ->FormattersFactory; + + fl ->Next = ctx -> FactoryList; + ctx ->FactoryList = fl; + + return TRUE; +} + +cmsFormatter _cmsGetFormatter(cmsContext ContextID, + cmsUInt32Number Type, // Specific type, i.e. TYPE_RGB_8 + cmsFormatterDirection Dir, + cmsUInt32Number dwFlags) +{ + _cmsFormattersPluginChunkType* ctx = ( _cmsFormattersPluginChunkType*) _cmsContextGetClientChunk(ContextID, FormattersPlugin); + cmsFormattersFactoryList* f; + + for (f =ctx->FactoryList; f != NULL; f = f ->Next) { + + cmsFormatter fn = f ->Factory(Type, Dir, dwFlags); + if (fn.Fmt16 != NULL) return fn; + } + + // Revert to default + if (Dir == cmsFormatterInput) + return _cmsGetStockInputFormatter(Type, dwFlags); + else + return _cmsGetStockOutputFormatter(Type, dwFlags); +} + + +// Return whatever given formatter refers to float values +cmsBool _cmsFormatterIsFloat(cmsUInt32Number Type) +{ + return T_FLOAT(Type) ? TRUE : FALSE; +} + +// Return whatever given formatter refers to 8 bits +cmsBool _cmsFormatterIs8bit(cmsUInt32Number Type) +{ + int Bytes = T_BYTES(Type); + + return (Bytes == 1); +} + +// Build a suitable formatter for the colorspace of this profile +cmsUInt32Number CMSEXPORT cmsFormatterForColorspaceOfProfile(cmsHPROFILE hProfile, cmsUInt32Number nBytes, cmsBool lIsFloat) +{ + + cmsColorSpaceSignature ColorSpace = cmsGetColorSpace(hProfile); + cmsUInt32Number ColorSpaceBits = _cmsLCMScolorSpace(ColorSpace); + cmsUInt32Number nOutputChans = cmsChannelsOf(ColorSpace); + cmsUInt32Number Float = lIsFloat ? 1 : 0; + + // Create a fake formatter for result + return FLOAT_SH(Float) | COLORSPACE_SH(ColorSpaceBits) | BYTES_SH(nBytes) | CHANNELS_SH(nOutputChans); +} + +// Build a suitable formatter for the colorspace of this profile +cmsUInt32Number CMSEXPORT cmsFormatterForPCSOfProfile(cmsHPROFILE hProfile, cmsUInt32Number nBytes, cmsBool lIsFloat) +{ + + cmsColorSpaceSignature ColorSpace = cmsGetPCS(hProfile); + int ColorSpaceBits = _cmsLCMScolorSpace(ColorSpace); + cmsUInt32Number nOutputChans = cmsChannelsOf(ColorSpace); + cmsUInt32Number Float = lIsFloat ? 1 : 0; + + // Create a fake formatter for result + return FLOAT_SH(Float) | COLORSPACE_SH(ColorSpaceBits) | BYTES_SH(nBytes) | CHANNELS_SH(nOutputChans); +} + Index: sdk/lib/3rdparty/lcms2/cmspcs.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmspcs.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmspcs.c (working copy) @@ -0,0 +1,940 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// inter PCS conversions XYZ <-> CIE L* a* b* +/* + + + CIE 15:2004 CIELab is defined as: + + L* = 116*f(Y/Yn) - 16 0 <= L* <= 100 + a* = 500*[f(X/Xn) - f(Y/Yn)] + b* = 200*[f(Y/Yn) - f(Z/Zn)] + + and + + f(t) = t^(1/3) 1 >= t > (24/116)^3 + (841/108)*t + (16/116) 0 <= t <= (24/116)^3 + + + Reverse transform is: + + X = Xn*[a* / 500 + (L* + 16) / 116] ^ 3 if (X/Xn) > (24/116) + = Xn*(a* / 500 + L* / 116) / 7.787 if (X/Xn) <= (24/116) + + + + PCS in Lab2 is encoded as: + + 8 bit Lab PCS: + + L* 0..100 into a 0..ff byte. + a* t + 128 range is -128.0 +127.0 + b* + + 16 bit Lab PCS: + + L* 0..100 into a 0..ff00 word. + a* t + 128 range is -128.0 +127.9961 + b* + + + +Interchange Space Component Actual Range Encoded Range +CIE XYZ X 0 -> 1.99997 0x0000 -> 0xffff +CIE XYZ Y 0 -> 1.99997 0x0000 -> 0xffff +CIE XYZ Z 0 -> 1.99997 0x0000 -> 0xffff + +Version 2,3 +----------- + +CIELAB (16 bit) L* 0 -> 100.0 0x0000 -> 0xff00 +CIELAB (16 bit) a* -128.0 -> +127.996 0x0000 -> 0x8000 -> 0xffff +CIELAB (16 bit) b* -128.0 -> +127.996 0x0000 -> 0x8000 -> 0xffff + + +Version 4 +--------- + +CIELAB (16 bit) L* 0 -> 100.0 0x0000 -> 0xffff +CIELAB (16 bit) a* -128.0 -> +127 0x0000 -> 0x8080 -> 0xffff +CIELAB (16 bit) b* -128.0 -> +127 0x0000 -> 0x8080 -> 0xffff + +*/ + +// Conversions +void CMSEXPORT cmsXYZ2xyY(cmsCIExyY* Dest, const cmsCIEXYZ* Source) +{ + cmsFloat64Number ISum; + + ISum = 1./(Source -> X + Source -> Y + Source -> Z); + + Dest -> x = (Source -> X) * ISum; + Dest -> y = (Source -> Y) * ISum; + Dest -> Y = Source -> Y; +} + +void CMSEXPORT cmsxyY2XYZ(cmsCIEXYZ* Dest, const cmsCIExyY* Source) +{ + Dest -> X = (Source -> x / Source -> y) * Source -> Y; + Dest -> Y = Source -> Y; + Dest -> Z = ((1 - Source -> x - Source -> y) / Source -> y) * Source -> Y; +} + +/* + The break point (24/116)^3 = (6/29)^3 is a very small amount of tristimulus + primary (0.008856). Generally, this only happens for + nearly ideal blacks and for some orange / amber colors in transmission mode. + For example, the Z value of the orange turn indicator lamp lens on an + automobile will often be below this value. But the Z does not + contribute to the perceived color directly. +*/ + +static +cmsFloat64Number f(cmsFloat64Number t) +{ + const cmsFloat64Number Limit = (24.0/116.0) * (24.0/116.0) * (24.0/116.0); + + if (t <= Limit) + return (841.0/108.0) * t + (16.0/116.0); + else + return pow(t, 1.0/3.0); +} + +static +cmsFloat64Number f_1(cmsFloat64Number t) +{ + const cmsFloat64Number Limit = (24.0/116.0); + + if (t <= Limit) { + return (108.0/841.0) * (t - (16.0/116.0)); + } + + return t * t * t; +} + + +// Standard XYZ to Lab. it can handle negative XZY numbers in some cases +void CMSEXPORT cmsXYZ2Lab(const cmsCIEXYZ* WhitePoint, cmsCIELab* Lab, const cmsCIEXYZ* xyz) +{ + cmsFloat64Number fx, fy, fz; + + if (WhitePoint == NULL) + WhitePoint = cmsD50_XYZ(); + + fx = f(xyz->X / WhitePoint->X); + fy = f(xyz->Y / WhitePoint->Y); + fz = f(xyz->Z / WhitePoint->Z); + + Lab->L = 116.0*fy - 16.0; + Lab->a = 500.0*(fx - fy); + Lab->b = 200.0*(fy - fz); +} + + +// Standard XYZ to Lab. It can return negative XYZ in some cases +void CMSEXPORT cmsLab2XYZ(const cmsCIEXYZ* WhitePoint, cmsCIEXYZ* xyz, const cmsCIELab* Lab) +{ + cmsFloat64Number x, y, z; + + if (WhitePoint == NULL) + WhitePoint = cmsD50_XYZ(); + + y = (Lab-> L + 16.0) / 116.0; + x = y + 0.002 * Lab -> a; + z = y - 0.005 * Lab -> b; + + xyz -> X = f_1(x) * WhitePoint -> X; + xyz -> Y = f_1(y) * WhitePoint -> Y; + xyz -> Z = f_1(z) * WhitePoint -> Z; + +} + +static +cmsFloat64Number L2float2(cmsUInt16Number v) +{ + return (cmsFloat64Number) v / 652.800; +} + +// the a/b part +static +cmsFloat64Number ab2float2(cmsUInt16Number v) +{ + return ((cmsFloat64Number) v / 256.0) - 128.0; +} + +static +cmsUInt16Number L2Fix2(cmsFloat64Number L) +{ + return _cmsQuickSaturateWord(L * 652.8); +} + +static +cmsUInt16Number ab2Fix2(cmsFloat64Number ab) +{ + return _cmsQuickSaturateWord((ab + 128.0) * 256.0); +} + + +static +cmsFloat64Number L2float4(cmsUInt16Number v) +{ + return (cmsFloat64Number) v / 655.35; +} + +// the a/b part +static +cmsFloat64Number ab2float4(cmsUInt16Number v) +{ + return ((cmsFloat64Number) v / 257.0) - 128.0; +} + + +void CMSEXPORT cmsLabEncoded2FloatV2(cmsCIELab* Lab, const cmsUInt16Number wLab[3]) +{ + Lab->L = L2float2(wLab[0]); + Lab->a = ab2float2(wLab[1]); + Lab->b = ab2float2(wLab[2]); +} + + +void CMSEXPORT cmsLabEncoded2Float(cmsCIELab* Lab, const cmsUInt16Number wLab[3]) +{ + Lab->L = L2float4(wLab[0]); + Lab->a = ab2float4(wLab[1]); + Lab->b = ab2float4(wLab[2]); +} + +static +cmsFloat64Number Clamp_L_doubleV2(cmsFloat64Number L) +{ + const cmsFloat64Number L_max = (cmsFloat64Number) (0xFFFF * 100.0) / 0xFF00; + + if (L < 0) L = 0; + if (L > L_max) L = L_max; + + return L; +} + + +static +cmsFloat64Number Clamp_ab_doubleV2(cmsFloat64Number ab) +{ + if (ab < MIN_ENCODEABLE_ab2) ab = MIN_ENCODEABLE_ab2; + if (ab > MAX_ENCODEABLE_ab2) ab = MAX_ENCODEABLE_ab2; + + return ab; +} + +void CMSEXPORT cmsFloat2LabEncodedV2(cmsUInt16Number wLab[3], const cmsCIELab* fLab) +{ + cmsCIELab Lab; + + Lab.L = Clamp_L_doubleV2(fLab ->L); + Lab.a = Clamp_ab_doubleV2(fLab ->a); + Lab.b = Clamp_ab_doubleV2(fLab ->b); + + wLab[0] = L2Fix2(Lab.L); + wLab[1] = ab2Fix2(Lab.a); + wLab[2] = ab2Fix2(Lab.b); +} + + +static +cmsFloat64Number Clamp_L_doubleV4(cmsFloat64Number L) +{ + if (L < 0) L = 0; + if (L > 100.0) L = 100.0; + + return L; +} + +static +cmsFloat64Number Clamp_ab_doubleV4(cmsFloat64Number ab) +{ + if (ab < MIN_ENCODEABLE_ab4) ab = MIN_ENCODEABLE_ab4; + if (ab > MAX_ENCODEABLE_ab4) ab = MAX_ENCODEABLE_ab4; + + return ab; +} + +static +cmsUInt16Number L2Fix4(cmsFloat64Number L) +{ + return _cmsQuickSaturateWord(L * 655.35); +} + +static +cmsUInt16Number ab2Fix4(cmsFloat64Number ab) +{ + return _cmsQuickSaturateWord((ab + 128.0) * 257.0); +} + +void CMSEXPORT cmsFloat2LabEncoded(cmsUInt16Number wLab[3], const cmsCIELab* fLab) +{ + cmsCIELab Lab; + + Lab.L = Clamp_L_doubleV4(fLab ->L); + Lab.a = Clamp_ab_doubleV4(fLab ->a); + Lab.b = Clamp_ab_doubleV4(fLab ->b); + + wLab[0] = L2Fix4(Lab.L); + wLab[1] = ab2Fix4(Lab.a); + wLab[2] = ab2Fix4(Lab.b); +} + +// Auxiliary: convert to Radians +static +cmsFloat64Number RADIANS(cmsFloat64Number deg) +{ + return (deg * M_PI) / 180.; +} + + +// Auxiliary: atan2 but operating in degrees and returning 0 if a==b==0 +static +cmsFloat64Number atan2deg(cmsFloat64Number a, cmsFloat64Number b) +{ + cmsFloat64Number h; + + if (a == 0 && b == 0) + h = 0; + else + h = atan2(a, b); + + h *= (180. / M_PI); + + while (h > 360.) + h -= 360.; + + while ( h < 0) + h += 360.; + + return h; +} + + +// Auxiliary: Square +static +cmsFloat64Number Sqr(cmsFloat64Number v) +{ + return v * v; +} +// From cylindrical coordinates. No check is performed, then negative values are allowed +void CMSEXPORT cmsLab2LCh(cmsCIELCh* LCh, const cmsCIELab* Lab) +{ + LCh -> L = Lab -> L; + LCh -> C = pow(Sqr(Lab ->a) + Sqr(Lab ->b), 0.5); + LCh -> h = atan2deg(Lab ->b, Lab ->a); +} + + +// To cylindrical coordinates. No check is performed, then negative values are allowed +void CMSEXPORT cmsLCh2Lab(cmsCIELab* Lab, const cmsCIELCh* LCh) +{ + cmsFloat64Number h = (LCh -> h * M_PI) / 180.0; + + Lab -> L = LCh -> L; + Lab -> a = LCh -> C * cos(h); + Lab -> b = LCh -> C * sin(h); +} + +// In XYZ All 3 components are encoded using 1.15 fixed point +static +cmsUInt16Number XYZ2Fix(cmsFloat64Number d) +{ + return _cmsQuickSaturateWord(d * 32768.0); +} + +void CMSEXPORT cmsFloat2XYZEncoded(cmsUInt16Number XYZ[3], const cmsCIEXYZ* fXYZ) +{ + cmsCIEXYZ xyz; + + xyz.X = fXYZ -> X; + xyz.Y = fXYZ -> Y; + xyz.Z = fXYZ -> Z; + + // Clamp to encodeable values. + if (xyz.Y <= 0) { + + xyz.X = 0; + xyz.Y = 0; + xyz.Z = 0; + } + + if (xyz.X > MAX_ENCODEABLE_XYZ) + xyz.X = MAX_ENCODEABLE_XYZ; + + if (xyz.X < 0) + xyz.X = 0; + + if (xyz.Y > MAX_ENCODEABLE_XYZ) + xyz.Y = MAX_ENCODEABLE_XYZ; + + if (xyz.Y < 0) + xyz.Y = 0; + + if (xyz.Z > MAX_ENCODEABLE_XYZ) + xyz.Z = MAX_ENCODEABLE_XYZ; + + if (xyz.Z < 0) + xyz.Z = 0; + + + XYZ[0] = XYZ2Fix(xyz.X); + XYZ[1] = XYZ2Fix(xyz.Y); + XYZ[2] = XYZ2Fix(xyz.Z); +} + + +// To convert from Fixed 1.15 point to cmsFloat64Number +static +cmsFloat64Number XYZ2float(cmsUInt16Number v) +{ + cmsS15Fixed16Number fix32; + + // From 1.15 to 15.16 + fix32 = v << 1; + + // From fixed 15.16 to cmsFloat64Number + return _cms15Fixed16toDouble(fix32); +} + + +void CMSEXPORT cmsXYZEncoded2Float(cmsCIEXYZ* fXYZ, const cmsUInt16Number XYZ[3]) +{ + fXYZ -> X = XYZ2float(XYZ[0]); + fXYZ -> Y = XYZ2float(XYZ[1]); + fXYZ -> Z = XYZ2float(XYZ[2]); +} + + +// Returns dE on two Lab values +cmsFloat64Number CMSEXPORT cmsDeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2) +{ + cmsFloat64Number dL, da, db; + + dL = fabs(Lab1 -> L - Lab2 -> L); + da = fabs(Lab1 -> a - Lab2 -> a); + db = fabs(Lab1 -> b - Lab2 -> b); + + return pow(Sqr(dL) + Sqr(da) + Sqr(db), 0.5); +} + + +// Return the CIE94 Delta E +cmsFloat64Number CMSEXPORT cmsCIE94DeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2) +{ + cmsCIELCh LCh1, LCh2; + cmsFloat64Number dE, dL, dC, dh, dhsq; + cmsFloat64Number c12, sc, sh; + + dL = fabs(Lab1 ->L - Lab2 ->L); + + cmsLab2LCh(&LCh1, Lab1); + cmsLab2LCh(&LCh2, Lab2); + + dC = fabs(LCh1.C - LCh2.C); + dE = cmsDeltaE(Lab1, Lab2); + + dhsq = Sqr(dE) - Sqr(dL) - Sqr(dC); + if (dhsq < 0) + dh = 0; + else + dh = pow(dhsq, 0.5); + + c12 = sqrt(LCh1.C * LCh2.C); + + sc = 1.0 + (0.048 * c12); + sh = 1.0 + (0.014 * c12); + + return sqrt(Sqr(dL) + Sqr(dC) / Sqr(sc) + Sqr(dh) / Sqr(sh)); +} + + +// Auxiliary +static +cmsFloat64Number ComputeLBFD(const cmsCIELab* Lab) +{ + cmsFloat64Number yt; + + if (Lab->L > 7.996969) + yt = (Sqr((Lab->L+16)/116)*((Lab->L+16)/116))*100; + else + yt = 100 * (Lab->L / 903.3); + + return (54.6 * (M_LOG10E * (log(yt + 1.5))) - 9.6); +} + + + +// bfd - gets BFD(1:1) difference between Lab1, Lab2 +cmsFloat64Number CMSEXPORT cmsBFDdeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2) +{ + cmsFloat64Number lbfd1,lbfd2,AveC,Aveh,dE,deltaL, + deltaC,deltah,dc,t,g,dh,rh,rc,rt,bfd; + cmsCIELCh LCh1, LCh2; + + + lbfd1 = ComputeLBFD(Lab1); + lbfd2 = ComputeLBFD(Lab2); + deltaL = lbfd2 - lbfd1; + + cmsLab2LCh(&LCh1, Lab1); + cmsLab2LCh(&LCh2, Lab2); + + deltaC = LCh2.C - LCh1.C; + AveC = (LCh1.C+LCh2.C)/2; + Aveh = (LCh1.h+LCh2.h)/2; + + dE = cmsDeltaE(Lab1, Lab2); + + if (Sqr(dE)>(Sqr(Lab2->L-Lab1->L)+Sqr(deltaC))) + deltah = sqrt(Sqr(dE)-Sqr(Lab2->L-Lab1->L)-Sqr(deltaC)); + else + deltah =0; + + + dc = 0.035 * AveC / (1 + 0.00365 * AveC)+0.521; + g = sqrt(Sqr(Sqr(AveC))/(Sqr(Sqr(AveC))+14000)); + t = 0.627+(0.055*cos((Aveh-254)/(180/M_PI))- + 0.040*cos((2*Aveh-136)/(180/M_PI))+ + 0.070*cos((3*Aveh-31)/(180/M_PI))+ + 0.049*cos((4*Aveh+114)/(180/M_PI))- + 0.015*cos((5*Aveh-103)/(180/M_PI))); + + dh = dc*(g*t+1-g); + rh = -0.260*cos((Aveh-308)/(180/M_PI))- + 0.379*cos((2*Aveh-160)/(180/M_PI))- + 0.636*cos((3*Aveh+254)/(180/M_PI))+ + 0.226*cos((4*Aveh+140)/(180/M_PI))- + 0.194*cos((5*Aveh+280)/(180/M_PI)); + + rc = sqrt((AveC*AveC*AveC*AveC*AveC*AveC)/((AveC*AveC*AveC*AveC*AveC*AveC)+70000000)); + rt = rh*rc; + + bfd = sqrt(Sqr(deltaL)+Sqr(deltaC/dc)+Sqr(deltah/dh)+(rt*(deltaC/dc)*(deltah/dh))); + + return bfd; +} + + +// cmc - CMC(l:c) difference between Lab1, Lab2 +cmsFloat64Number CMSEXPORT cmsCMCdeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2, cmsFloat64Number l, cmsFloat64Number c) +{ + cmsFloat64Number dE,dL,dC,dh,sl,sc,sh,t,f,cmc; + cmsCIELCh LCh1, LCh2; + + if (Lab1 ->L == 0 && Lab2 ->L == 0) return 0; + + cmsLab2LCh(&LCh1, Lab1); + cmsLab2LCh(&LCh2, Lab2); + + + dL = Lab2->L-Lab1->L; + dC = LCh2.C-LCh1.C; + + dE = cmsDeltaE(Lab1, Lab2); + + if (Sqr(dE)>(Sqr(dL)+Sqr(dC))) + dh = sqrt(Sqr(dE)-Sqr(dL)-Sqr(dC)); + else + dh =0; + + if ((LCh1.h > 164) && (LCh1.h < 345)) + t = 0.56 + fabs(0.2 * cos(((LCh1.h + 168)/(180/M_PI)))); + else + t = 0.36 + fabs(0.4 * cos(((LCh1.h + 35 )/(180/M_PI)))); + + sc = 0.0638 * LCh1.C / (1 + 0.0131 * LCh1.C) + 0.638; + sl = 0.040975 * Lab1->L /(1 + 0.01765 * Lab1->L); + + if (Lab1->L<16) + sl = 0.511; + + f = sqrt((LCh1.C * LCh1.C * LCh1.C * LCh1.C)/((LCh1.C * LCh1.C * LCh1.C * LCh1.C)+1900)); + sh = sc*(t*f+1-f); + cmc = sqrt(Sqr(dL/(l*sl))+Sqr(dC/(c*sc))+Sqr(dh/sh)); + + return cmc; +} + +// dE2000 The weightings KL, KC and KH can be modified to reflect the relative +// importance of lightness, chroma and hue in different industrial applications +cmsFloat64Number CMSEXPORT cmsCIE2000DeltaE(const cmsCIELab* Lab1, const cmsCIELab* Lab2, + cmsFloat64Number Kl, cmsFloat64Number Kc, cmsFloat64Number Kh) +{ + cmsFloat64Number L1 = Lab1->L; + cmsFloat64Number a1 = Lab1->a; + cmsFloat64Number b1 = Lab1->b; + cmsFloat64Number C = sqrt( Sqr(a1) + Sqr(b1) ); + + cmsFloat64Number Ls = Lab2 ->L; + cmsFloat64Number as = Lab2 ->a; + cmsFloat64Number bs = Lab2 ->b; + cmsFloat64Number Cs = sqrt( Sqr(as) + Sqr(bs) ); + + cmsFloat64Number G = 0.5 * ( 1 - sqrt(pow((C + Cs) / 2 , 7.0) / (pow((C + Cs) / 2, 7.0) + pow(25.0, 7.0) ) )); + + cmsFloat64Number a_p = (1 + G ) * a1; + cmsFloat64Number b_p = b1; + cmsFloat64Number C_p = sqrt( Sqr(a_p) + Sqr(b_p)); + cmsFloat64Number h_p = atan2deg(b_p, a_p); + + + cmsFloat64Number a_ps = (1 + G) * as; + cmsFloat64Number b_ps = bs; + cmsFloat64Number C_ps = sqrt(Sqr(a_ps) + Sqr(b_ps)); + cmsFloat64Number h_ps = atan2deg(b_ps, a_ps); + + cmsFloat64Number meanC_p =(C_p + C_ps) / 2; + + cmsFloat64Number hps_plus_hp = h_ps + h_p; + cmsFloat64Number hps_minus_hp = h_ps - h_p; + + cmsFloat64Number meanh_p = fabs(hps_minus_hp) <= 180.000001 ? (hps_plus_hp)/2 : + (hps_plus_hp) < 360 ? (hps_plus_hp + 360)/2 : + (hps_plus_hp - 360)/2; + + cmsFloat64Number delta_h = (hps_minus_hp) <= -180.000001 ? (hps_minus_hp + 360) : + (hps_minus_hp) > 180 ? (hps_minus_hp - 360) : + (hps_minus_hp); + cmsFloat64Number delta_L = (Ls - L1); + cmsFloat64Number delta_C = (C_ps - C_p ); + + + cmsFloat64Number delta_H =2 * sqrt(C_ps*C_p) * sin(RADIANS(delta_h) / 2); + + cmsFloat64Number T = 1 - 0.17 * cos(RADIANS(meanh_p-30)) + + 0.24 * cos(RADIANS(2*meanh_p)) + + 0.32 * cos(RADIANS(3*meanh_p + 6)) + - 0.2 * cos(RADIANS(4*meanh_p - 63)); + + cmsFloat64Number Sl = 1 + (0.015 * Sqr((Ls + L1) /2- 50) )/ sqrt(20 + Sqr( (Ls+L1)/2 - 50) ); + + cmsFloat64Number Sc = 1 + 0.045 * (C_p + C_ps)/2; + cmsFloat64Number Sh = 1 + 0.015 * ((C_ps + C_p)/2) * T; + + cmsFloat64Number delta_ro = 30 * exp( -Sqr(((meanh_p - 275 ) / 25))); + + cmsFloat64Number Rc = 2 * sqrt(( pow(meanC_p, 7.0) )/( pow(meanC_p, 7.0) + pow(25.0, 7.0))); + + cmsFloat64Number Rt = -sin(2 * RADIANS(delta_ro)) * Rc; + + cmsFloat64Number deltaE00 = sqrt( Sqr(delta_L /(Sl * Kl)) + + Sqr(delta_C/(Sc * Kc)) + + Sqr(delta_H/(Sh * Kh)) + + Rt*(delta_C/(Sc * Kc)) * (delta_H / (Sh * Kh))); + + return deltaE00; +} + +// This function returns a number of gridpoints to be used as LUT table. It assumes same number +// of gripdpoints in all dimensions. Flags may override the choice. +int _cmsReasonableGridpointsByColorspace(cmsColorSpaceSignature Colorspace, cmsUInt32Number dwFlags) +{ + int nChannels; + + // Already specified? + if (dwFlags & 0x00FF0000) { + // Yes, grab'em + return (dwFlags >> 16) & 0xFF; + } + + nChannels = cmsChannelsOf(Colorspace); + + // HighResPrecalc is maximum resolution + if (dwFlags & cmsFLAGS_HIGHRESPRECALC) { + + if (nChannels > 4) + return 7; // 7 for Hifi + + if (nChannels == 4) // 23 for CMYK + return 23; + + return 49; // 49 for RGB and others + } + + + // LowResPrecal is lower resolution + if (dwFlags & cmsFLAGS_LOWRESPRECALC) { + + if (nChannels > 4) + return 6; // 6 for more than 4 channels + + if (nChannels == 1) + return 33; // For monochrome + + return 17; // 17 for remaining + } + + // Default values + if (nChannels > 4) + return 7; // 7 for Hifi + + if (nChannels == 4) + return 17; // 17 for CMYK + + return 33; // 33 for RGB +} + + +cmsBool _cmsEndPointsBySpace(cmsColorSpaceSignature Space, + cmsUInt16Number **White, + cmsUInt16Number **Black, + cmsUInt32Number *nOutputs) +{ + // Only most common spaces + + static cmsUInt16Number RGBblack[4] = { 0, 0, 0 }; + static cmsUInt16Number RGBwhite[4] = { 0xffff, 0xffff, 0xffff }; + static cmsUInt16Number CMYKblack[4] = { 0xffff, 0xffff, 0xffff, 0xffff }; // 400% of ink + static cmsUInt16Number CMYKwhite[4] = { 0, 0, 0, 0 }; + static cmsUInt16Number LABblack[4] = { 0, 0x8080, 0x8080 }; // V4 Lab encoding + static cmsUInt16Number LABwhite[4] = { 0xFFFF, 0x8080, 0x8080 }; + static cmsUInt16Number CMYblack[4] = { 0xffff, 0xffff, 0xffff }; + static cmsUInt16Number CMYwhite[4] = { 0, 0, 0 }; + static cmsUInt16Number Grayblack[4] = { 0 }; + static cmsUInt16Number GrayWhite[4] = { 0xffff }; + + switch (Space) { + + case cmsSigGrayData: if (White) *White = GrayWhite; + if (Black) *Black = Grayblack; + if (nOutputs) *nOutputs = 1; + return TRUE; + + case cmsSigRgbData: if (White) *White = RGBwhite; + if (Black) *Black = RGBblack; + if (nOutputs) *nOutputs = 3; + return TRUE; + + case cmsSigLabData: if (White) *White = LABwhite; + if (Black) *Black = LABblack; + if (nOutputs) *nOutputs = 3; + return TRUE; + + case cmsSigCmykData: if (White) *White = CMYKwhite; + if (Black) *Black = CMYKblack; + if (nOutputs) *nOutputs = 4; + return TRUE; + + case cmsSigCmyData: if (White) *White = CMYwhite; + if (Black) *Black = CMYblack; + if (nOutputs) *nOutputs = 3; + return TRUE; + + default:; + } + + return FALSE; +} + + + +// Several utilities ------------------------------------------------------- + +// Translate from our colorspace to ICC representation + +cmsColorSpaceSignature CMSEXPORT _cmsICCcolorSpace(int OurNotation) +{ + switch (OurNotation) { + + case 1: + case PT_GRAY: return cmsSigGrayData; + + case 2: + case PT_RGB: return cmsSigRgbData; + + case PT_CMY: return cmsSigCmyData; + case PT_CMYK: return cmsSigCmykData; + case PT_YCbCr:return cmsSigYCbCrData; + case PT_YUV: return cmsSigLuvData; + case PT_XYZ: return cmsSigXYZData; + + case PT_LabV2: + case PT_Lab: return cmsSigLabData; + + case PT_YUVK: return cmsSigLuvKData; + case PT_HSV: return cmsSigHsvData; + case PT_HLS: return cmsSigHlsData; + case PT_Yxy: return cmsSigYxyData; + + case PT_MCH1: return cmsSigMCH1Data; + case PT_MCH2: return cmsSigMCH2Data; + case PT_MCH3: return cmsSigMCH3Data; + case PT_MCH4: return cmsSigMCH4Data; + case PT_MCH5: return cmsSigMCH5Data; + case PT_MCH6: return cmsSigMCH6Data; + case PT_MCH7: return cmsSigMCH7Data; + case PT_MCH8: return cmsSigMCH8Data; + + case PT_MCH9: return cmsSigMCH9Data; + case PT_MCH10: return cmsSigMCHAData; + case PT_MCH11: return cmsSigMCHBData; + case PT_MCH12: return cmsSigMCHCData; + case PT_MCH13: return cmsSigMCHDData; + case PT_MCH14: return cmsSigMCHEData; + case PT_MCH15: return cmsSigMCHFData; + + default: return (cmsColorSpaceSignature) (-1); + } +} + + +int CMSEXPORT _cmsLCMScolorSpace(cmsColorSpaceSignature ProfileSpace) +{ + switch (ProfileSpace) { + + case cmsSigGrayData: return PT_GRAY; + case cmsSigRgbData: return PT_RGB; + case cmsSigCmyData: return PT_CMY; + case cmsSigCmykData: return PT_CMYK; + case cmsSigYCbCrData:return PT_YCbCr; + case cmsSigLuvData: return PT_YUV; + case cmsSigXYZData: return PT_XYZ; + case cmsSigLabData: return PT_Lab; + case cmsSigLuvKData: return PT_YUVK; + case cmsSigHsvData: return PT_HSV; + case cmsSigHlsData: return PT_HLS; + case cmsSigYxyData: return PT_Yxy; + + case cmsSig1colorData: + case cmsSigMCH1Data: return PT_MCH1; + + case cmsSig2colorData: + case cmsSigMCH2Data: return PT_MCH2; + + case cmsSig3colorData: + case cmsSigMCH3Data: return PT_MCH3; + + case cmsSig4colorData: + case cmsSigMCH4Data: return PT_MCH4; + + case cmsSig5colorData: + case cmsSigMCH5Data: return PT_MCH5; + + case cmsSig6colorData: + case cmsSigMCH6Data: return PT_MCH6; + + case cmsSigMCH7Data: + case cmsSig7colorData:return PT_MCH7; + + case cmsSigMCH8Data: + case cmsSig8colorData:return PT_MCH8; + + case cmsSigMCH9Data: + case cmsSig9colorData:return PT_MCH9; + + case cmsSigMCHAData: + case cmsSig10colorData:return PT_MCH10; + + case cmsSigMCHBData: + case cmsSig11colorData:return PT_MCH11; + + case cmsSigMCHCData: + case cmsSig12colorData:return PT_MCH12; + + case cmsSigMCHDData: + case cmsSig13colorData:return PT_MCH13; + + case cmsSigMCHEData: + case cmsSig14colorData:return PT_MCH14; + + case cmsSigMCHFData: + case cmsSig15colorData:return PT_MCH15; + + default: return (cmsColorSpaceSignature) (-1); + } +} + + +cmsUInt32Number CMSEXPORT cmsChannelsOf(cmsColorSpaceSignature ColorSpace) +{ + switch (ColorSpace) { + + case cmsSigMCH1Data: + case cmsSig1colorData: + case cmsSigGrayData: return 1; + + case cmsSigMCH2Data: + case cmsSig2colorData: return 2; + + case cmsSigXYZData: + case cmsSigLabData: + case cmsSigLuvData: + case cmsSigYCbCrData: + case cmsSigYxyData: + case cmsSigRgbData: + case cmsSigHsvData: + case cmsSigHlsData: + case cmsSigCmyData: + case cmsSigMCH3Data: + case cmsSig3colorData: return 3; + + case cmsSigLuvKData: + case cmsSigCmykData: + case cmsSigMCH4Data: + case cmsSig4colorData: return 4; + + case cmsSigMCH5Data: + case cmsSig5colorData: return 5; + + case cmsSigMCH6Data: + case cmsSig6colorData: return 6; + + case cmsSigMCH7Data: + case cmsSig7colorData: return 7; + + case cmsSigMCH8Data: + case cmsSig8colorData: return 8; + + case cmsSigMCH9Data: + case cmsSig9colorData: return 9; + + case cmsSigMCHAData: + case cmsSig10colorData: return 10; + + case cmsSigMCHBData: + case cmsSig11colorData: return 11; + + case cmsSigMCHCData: + case cmsSig12colorData: return 12; + + case cmsSigMCHDData: + case cmsSig13colorData: return 13; + + case cmsSigMCHEData: + case cmsSig14colorData: return 14; + + case cmsSigMCHFData: + case cmsSig15colorData: return 15; + + default: return 3; + } +} Index: sdk/lib/3rdparty/lcms2/cmsplugin.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsplugin.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsplugin.c (working copy) @@ -0,0 +1,950 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// ---------------------------------------------------------------------------------- +// Encoding & Decoding support functions +// ---------------------------------------------------------------------------------- + +// Little-Endian to Big-Endian + +// Adjust a word value after being readed/ before being written from/to an ICC profile +cmsUInt16Number CMSEXPORT _cmsAdjustEndianess16(cmsUInt16Number Word) +{ +#ifndef CMS_USE_BIG_ENDIAN + + cmsUInt8Number* pByte = (cmsUInt8Number*) &Word; + cmsUInt8Number tmp; + + tmp = pByte[0]; + pByte[0] = pByte[1]; + pByte[1] = tmp; +#endif + + return Word; +} + + +// Transports to properly encoded values - note that icc profiles does use big endian notation. + +// 1 2 3 4 +// 4 3 2 1 + +cmsUInt32Number CMSEXPORT _cmsAdjustEndianess32(cmsUInt32Number DWord) +{ +#ifndef CMS_USE_BIG_ENDIAN + + cmsUInt8Number* pByte = (cmsUInt8Number*) &DWord; + cmsUInt8Number temp1; + cmsUInt8Number temp2; + + temp1 = *pByte++; + temp2 = *pByte++; + *(pByte-1) = *pByte; + *pByte++ = temp2; + *(pByte-3) = *pByte; + *pByte = temp1; +#endif + return DWord; +} + +// 1 2 3 4 5 6 7 8 +// 8 7 6 5 4 3 2 1 + +void CMSEXPORT _cmsAdjustEndianess64(cmsUInt64Number* Result, cmsUInt64Number* QWord) +{ + +#ifndef CMS_USE_BIG_ENDIAN + + cmsUInt8Number* pIn = (cmsUInt8Number*) QWord; + cmsUInt8Number* pOut = (cmsUInt8Number*) Result; + + _cmsAssert(Result != NULL); + + pOut[7] = pIn[0]; + pOut[6] = pIn[1]; + pOut[5] = pIn[2]; + pOut[4] = pIn[3]; + pOut[3] = pIn[4]; + pOut[2] = pIn[5]; + pOut[1] = pIn[6]; + pOut[0] = pIn[7]; + +#else + _cmsAssert(Result != NULL); + +# ifdef CMS_DONT_USE_INT64 + (*Result)[0] = QWord[0]; + (*Result)[1] = QWord[1]; +# else + *Result = *QWord; +# endif +#endif +} + +// Auxiliary -- read 8, 16 and 32-bit numbers +cmsBool CMSEXPORT _cmsReadUInt8Number(cmsIOHANDLER* io, cmsUInt8Number* n) +{ + cmsUInt8Number tmp; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &tmp, sizeof(cmsUInt8Number), 1) != 1) + return FALSE; + + if (n != NULL) *n = tmp; + return TRUE; +} + +cmsBool CMSEXPORT _cmsReadUInt16Number(cmsIOHANDLER* io, cmsUInt16Number* n) +{ + cmsUInt16Number tmp; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &tmp, sizeof(cmsUInt16Number), 1) != 1) + return FALSE; + + if (n != NULL) *n = _cmsAdjustEndianess16(tmp); + return TRUE; +} + +cmsBool CMSEXPORT _cmsReadUInt16Array(cmsIOHANDLER* io, cmsUInt32Number n, cmsUInt16Number* Array) +{ + cmsUInt32Number i; + + _cmsAssert(io != NULL); + + for (i=0; i < n; i++) { + + if (Array != NULL) { + if (!_cmsReadUInt16Number(io, Array + i)) return FALSE; + } + else { + if (!_cmsReadUInt16Number(io, NULL)) return FALSE; + } + + } + return TRUE; +} + +cmsBool CMSEXPORT _cmsReadUInt32Number(cmsIOHANDLER* io, cmsUInt32Number* n) +{ + cmsUInt32Number tmp; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &tmp, sizeof(cmsUInt32Number), 1) != 1) + return FALSE; + + if (n != NULL) *n = _cmsAdjustEndianess32(tmp); + return TRUE; +} + +cmsBool CMSEXPORT _cmsReadFloat32Number(cmsIOHANDLER* io, cmsFloat32Number* n) +{ + cmsUInt32Number tmp; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &tmp, sizeof(cmsUInt32Number), 1) != 1) + return FALSE; + + if (n != NULL) { + + tmp = _cmsAdjustEndianess32(tmp); + *n = *(cmsFloat32Number*) (void*) &tmp; + } + return TRUE; +} + + +cmsBool CMSEXPORT _cmsReadUInt64Number(cmsIOHANDLER* io, cmsUInt64Number* n) +{ + cmsUInt64Number tmp; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &tmp, sizeof(cmsUInt64Number), 1) != 1) + return FALSE; + + if (n != NULL) _cmsAdjustEndianess64(n, &tmp); + return TRUE; +} + + +cmsBool CMSEXPORT _cmsRead15Fixed16Number(cmsIOHANDLER* io, cmsFloat64Number* n) +{ + cmsUInt32Number tmp; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &tmp, sizeof(cmsUInt32Number), 1) != 1) + return FALSE; + + if (n != NULL) { + *n = _cms15Fixed16toDouble(_cmsAdjustEndianess32(tmp)); + } + + return TRUE; +} + + +cmsBool CMSEXPORT _cmsReadXYZNumber(cmsIOHANDLER* io, cmsCIEXYZ* XYZ) +{ + cmsEncodedXYZNumber xyz; + + _cmsAssert(io != NULL); + + if (io ->Read(io, &xyz, sizeof(cmsEncodedXYZNumber), 1) != 1) return FALSE; + + if (XYZ != NULL) { + + XYZ->X = _cms15Fixed16toDouble(_cmsAdjustEndianess32(xyz.X)); + XYZ->Y = _cms15Fixed16toDouble(_cmsAdjustEndianess32(xyz.Y)); + XYZ->Z = _cms15Fixed16toDouble(_cmsAdjustEndianess32(xyz.Z)); + } + return TRUE; +} + +cmsBool CMSEXPORT _cmsWriteUInt8Number(cmsIOHANDLER* io, cmsUInt8Number n) +{ + _cmsAssert(io != NULL); + + if (io -> Write(io, sizeof(cmsUInt8Number), &n) != 1) + return FALSE; + + return TRUE; +} + +cmsBool CMSEXPORT _cmsWriteUInt16Number(cmsIOHANDLER* io, cmsUInt16Number n) +{ + cmsUInt16Number tmp; + + _cmsAssert(io != NULL); + + tmp = _cmsAdjustEndianess16(n); + if (io -> Write(io, sizeof(cmsUInt16Number), &tmp) != 1) + return FALSE; + + return TRUE; +} + +cmsBool CMSEXPORT _cmsWriteUInt16Array(cmsIOHANDLER* io, cmsUInt32Number n, const cmsUInt16Number* Array) +{ + cmsUInt32Number i; + + _cmsAssert(io != NULL); + _cmsAssert(Array != NULL); + + for (i=0; i < n; i++) { + if (!_cmsWriteUInt16Number(io, Array[i])) return FALSE; + } + + return TRUE; +} + +cmsBool CMSEXPORT _cmsWriteUInt32Number(cmsIOHANDLER* io, cmsUInt32Number n) +{ + cmsUInt32Number tmp; + + _cmsAssert(io != NULL); + + tmp = _cmsAdjustEndianess32(n); + if (io -> Write(io, sizeof(cmsUInt32Number), &tmp) != 1) + return FALSE; + + return TRUE; +} + + +cmsBool CMSEXPORT _cmsWriteFloat32Number(cmsIOHANDLER* io, cmsFloat32Number n) +{ + cmsUInt32Number tmp; + + _cmsAssert(io != NULL); + + tmp = *(cmsUInt32Number*) (void*) &n; + tmp = _cmsAdjustEndianess32(tmp); + if (io -> Write(io, sizeof(cmsUInt32Number), &tmp) != 1) + return FALSE; + + return TRUE; +} + +cmsBool CMSEXPORT _cmsWriteUInt64Number(cmsIOHANDLER* io, cmsUInt64Number* n) +{ + cmsUInt64Number tmp; + + _cmsAssert(io != NULL); + + _cmsAdjustEndianess64(&tmp, n); + if (io -> Write(io, sizeof(cmsUInt64Number), &tmp) != 1) + return FALSE; + + return TRUE; +} + +cmsBool CMSEXPORT _cmsWrite15Fixed16Number(cmsIOHANDLER* io, cmsFloat64Number n) +{ + cmsUInt32Number tmp; + + _cmsAssert(io != NULL); + + tmp = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(n)); + if (io -> Write(io, sizeof(cmsUInt32Number), &tmp) != 1) + return FALSE; + + return TRUE; +} + +cmsBool CMSEXPORT _cmsWriteXYZNumber(cmsIOHANDLER* io, const cmsCIEXYZ* XYZ) +{ + cmsEncodedXYZNumber xyz; + + _cmsAssert(io != NULL); + _cmsAssert(XYZ != NULL); + + xyz.X = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(XYZ->X)); + xyz.Y = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(XYZ->Y)); + xyz.Z = _cmsAdjustEndianess32(_cmsDoubleTo15Fixed16(XYZ->Z)); + + return io -> Write(io, sizeof(cmsEncodedXYZNumber), &xyz); +} + +// from Fixed point 8.8 to double +cmsFloat64Number CMSEXPORT _cms8Fixed8toDouble(cmsUInt16Number fixed8) +{ + cmsUInt8Number msb, lsb; + + lsb = (cmsUInt8Number) (fixed8 & 0xff); + msb = (cmsUInt8Number) (((cmsUInt16Number) fixed8 >> 8) & 0xff); + + return (cmsFloat64Number) ((cmsFloat64Number) msb + ((cmsFloat64Number) lsb / 256.0)); +} + +cmsUInt16Number CMSEXPORT _cmsDoubleTo8Fixed8(cmsFloat64Number val) +{ + cmsS15Fixed16Number GammaFixed32 = _cmsDoubleTo15Fixed16(val); + return (cmsUInt16Number) ((GammaFixed32 >> 8) & 0xFFFF); +} + +// from Fixed point 15.16 to double +cmsFloat64Number CMSEXPORT _cms15Fixed16toDouble(cmsS15Fixed16Number fix32) +{ + cmsFloat64Number floater, sign, mid; + int Whole, FracPart; + + sign = (fix32 < 0 ? -1 : 1); + fix32 = abs(fix32); + + Whole = (cmsUInt16Number)(fix32 >> 16) & 0xffff; + FracPart = (cmsUInt16Number)(fix32 & 0xffff); + + mid = (cmsFloat64Number) FracPart / 65536.0; + floater = (cmsFloat64Number) Whole + mid; + + return sign * floater; +} + +// from double to Fixed point 15.16 +cmsS15Fixed16Number CMSEXPORT _cmsDoubleTo15Fixed16(cmsFloat64Number v) +{ + return ((cmsS15Fixed16Number) floor((v)*65536.0 + 0.5)); +} + +// Date/Time functions + +void CMSEXPORT _cmsDecodeDateTimeNumber(const cmsDateTimeNumber *Source, struct tm *Dest) +{ + + _cmsAssert(Dest != NULL); + _cmsAssert(Source != NULL); + + Dest->tm_sec = _cmsAdjustEndianess16(Source->seconds); + Dest->tm_min = _cmsAdjustEndianess16(Source->minutes); + Dest->tm_hour = _cmsAdjustEndianess16(Source->hours); + Dest->tm_mday = _cmsAdjustEndianess16(Source->day); + Dest->tm_mon = _cmsAdjustEndianess16(Source->month) - 1; + Dest->tm_year = _cmsAdjustEndianess16(Source->year) - 1900; + Dest->tm_wday = -1; + Dest->tm_yday = -1; + Dest->tm_isdst = 0; +} + +void CMSEXPORT _cmsEncodeDateTimeNumber(cmsDateTimeNumber *Dest, const struct tm *Source) +{ + _cmsAssert(Dest != NULL); + _cmsAssert(Source != NULL); + + Dest->seconds = _cmsAdjustEndianess16((cmsUInt16Number) Source->tm_sec); + Dest->minutes = _cmsAdjustEndianess16((cmsUInt16Number) Source->tm_min); + Dest->hours = _cmsAdjustEndianess16((cmsUInt16Number) Source->tm_hour); + Dest->day = _cmsAdjustEndianess16((cmsUInt16Number) Source->tm_mday); + Dest->month = _cmsAdjustEndianess16((cmsUInt16Number) (Source->tm_mon + 1)); + Dest->year = _cmsAdjustEndianess16((cmsUInt16Number) (Source->tm_year + 1900)); +} + +// Read base and return type base +cmsTagTypeSignature CMSEXPORT _cmsReadTypeBase(cmsIOHANDLER* io) +{ + _cmsTagBase Base; + + _cmsAssert(io != NULL); + + if (io -> Read(io, &Base, sizeof(_cmsTagBase), 1) != 1) + return (cmsTagTypeSignature) 0; + + return (cmsTagTypeSignature) _cmsAdjustEndianess32(Base.sig); +} + +// Setup base marker +cmsBool CMSEXPORT _cmsWriteTypeBase(cmsIOHANDLER* io, cmsTagTypeSignature sig) +{ + _cmsTagBase Base; + + _cmsAssert(io != NULL); + + Base.sig = (cmsTagTypeSignature) _cmsAdjustEndianess32(sig); + memset(&Base.reserved, 0, sizeof(Base.reserved)); + return io -> Write(io, sizeof(_cmsTagBase), &Base); +} + +cmsBool CMSEXPORT _cmsReadAlignment(cmsIOHANDLER* io) +{ + cmsUInt8Number Buffer[4]; + cmsUInt32Number NextAligned, At; + cmsUInt32Number BytesToNextAlignedPos; + + _cmsAssert(io != NULL); + + At = io -> Tell(io); + NextAligned = _cmsALIGNLONG(At); + BytesToNextAlignedPos = NextAligned - At; + if (BytesToNextAlignedPos == 0) return TRUE; + if (BytesToNextAlignedPos > 4) return FALSE; + + return (io ->Read(io, Buffer, BytesToNextAlignedPos, 1) == 1); +} + +cmsBool CMSEXPORT _cmsWriteAlignment(cmsIOHANDLER* io) +{ + cmsUInt8Number Buffer[4]; + cmsUInt32Number NextAligned, At; + cmsUInt32Number BytesToNextAlignedPos; + + _cmsAssert(io != NULL); + + At = io -> Tell(io); + NextAligned = _cmsALIGNLONG(At); + BytesToNextAlignedPos = NextAligned - At; + if (BytesToNextAlignedPos == 0) return TRUE; + if (BytesToNextAlignedPos > 4) return FALSE; + + memset(Buffer, 0, BytesToNextAlignedPos); + return io -> Write(io, BytesToNextAlignedPos, Buffer); +} + + +// To deal with text streams. 2K at most +cmsBool CMSEXPORT _cmsIOPrintf(cmsIOHANDLER* io, const char* frm, ...) +{ + va_list args; + int len; + cmsUInt8Number Buffer[2048]; + cmsBool rc; + + _cmsAssert(io != NULL); + _cmsAssert(frm != NULL); + + va_start(args, frm); + + len = vsnprintf((char*) Buffer, 2047, frm, args); + if (len < 0) { + va_end(args); + return FALSE; // Truncated, which is a fatal error for us + } + + rc = io ->Write(io, len, Buffer); + + va_end(args); + + return rc; +} + + +// Plugin memory management ------------------------------------------------------------------------------------------------- + +// Specialized malloc for plug-ins, that is freed upon exit. +void* _cmsPluginMalloc(cmsContext ContextID, cmsUInt32Number size) +{ + struct _cmsContext_struct* ctx = _cmsGetContext(ContextID); + + if (ctx ->MemPool == NULL) { + + if (ContextID == NULL) { + + ctx->MemPool = _cmsCreateSubAlloc(0, 2*1024); + if (ctx->MemPool == NULL) return NULL; + } + else { + cmsSignalError(ContextID, cmsERROR_CORRUPTION_DETECTED, "NULL memory pool on context"); + return NULL; + } + } + + return _cmsSubAlloc(ctx->MemPool, size); +} + + +// Main plug-in dispatcher +cmsBool CMSEXPORT cmsPlugin(void* Plug_in) +{ + return cmsPluginTHR(NULL, Plug_in); +} + +cmsBool CMSEXPORT cmsPluginTHR(cmsContext id, void* Plug_in) +{ + cmsPluginBase* Plugin; + + for (Plugin = (cmsPluginBase*) Plug_in; + Plugin != NULL; + Plugin = Plugin -> Next) { + + if (Plugin -> Magic != cmsPluginMagicNumber) { + cmsSignalError(id, cmsERROR_UNKNOWN_EXTENSION, "Unrecognized plugin"); + return FALSE; + } + + if (Plugin ->ExpectedVersion > LCMS_VERSION) { + cmsSignalError(id, cmsERROR_UNKNOWN_EXTENSION, "plugin needs Little CMS %d, current version is %d", + Plugin ->ExpectedVersion, LCMS_VERSION); + return FALSE; + } + + switch (Plugin -> Type) { + + case cmsPluginMemHandlerSig: + if (!_cmsRegisterMemHandlerPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginInterpolationSig: + if (!_cmsRegisterInterpPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginTagTypeSig: + if (!_cmsRegisterTagTypePlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginTagSig: + if (!_cmsRegisterTagPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginFormattersSig: + if (!_cmsRegisterFormattersPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginRenderingIntentSig: + if (!_cmsRegisterRenderingIntentPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginParametricCurveSig: + if (!_cmsRegisterParametricCurvesPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginMultiProcessElementSig: + if (!_cmsRegisterMultiProcessElementPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginOptimizationSig: + if (!_cmsRegisterOptimizationPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginTransformSig: + if (!_cmsRegisterTransformPlugin(id, Plugin)) return FALSE; + break; + + case cmsPluginMutexSig: + if (!_cmsRegisterMutexPlugin(id, Plugin)) return FALSE; + break; + + default: + cmsSignalError(id, cmsERROR_UNKNOWN_EXTENSION, "Unrecognized plugin type '%X'", Plugin -> Type); + return FALSE; + } + } + + // Keep a reference to the plug-in + return TRUE; +} + + +// Revert all plug-ins to default +void CMSEXPORT cmsUnregisterPlugins(void) +{ + cmsUnregisterPluginsTHR(NULL); +} + + +// The Global storage for system context. This is the one and only global variable +// pointers structure. All global vars are referenced here. +static struct _cmsContext_struct globalContext = { + + NULL, // Not in the linked list + NULL, // No suballocator + { + NULL, // UserPtr, + &_cmsLogErrorChunk, // Logger, + &_cmsAlarmCodesChunk, // AlarmCodes, + &_cmsAdaptationStateChunk, // AdaptationState, + &_cmsMemPluginChunk, // MemPlugin, + &_cmsInterpPluginChunk, // InterpPlugin, + &_cmsCurvesPluginChunk, // CurvesPlugin, + &_cmsFormattersPluginChunk, // FormattersPlugin, + &_cmsTagTypePluginChunk, // TagTypePlugin, + &_cmsTagPluginChunk, // TagPlugin, + &_cmsIntentsPluginChunk, // IntentPlugin, + &_cmsMPETypePluginChunk, // MPEPlugin, + &_cmsOptimizationPluginChunk, // OptimizationPlugin, + &_cmsTransformPluginChunk, // TransformPlugin, + &_cmsMutexPluginChunk // MutexPlugin + }, + + { NULL, NULL, NULL, NULL, NULL, NULL } // The default memory allocator is not used for context 0 +}; + + +// The context pool (linked list head) +static _cmsMutex _cmsContextPoolHeadMutex = CMS_MUTEX_INITIALIZER; +static struct _cmsContext_struct* _cmsContextPoolHead = NULL; + +// Internal, get associated pointer, with guessing. Never returns NULL. +struct _cmsContext_struct* _cmsGetContext(cmsContext ContextID) +{ + struct _cmsContext_struct* id = (struct _cmsContext_struct*) ContextID; + struct _cmsContext_struct* ctx; + + + // On 0, use global settings + if (id == NULL) + return &globalContext; + + // Search + for (ctx = _cmsContextPoolHead; + ctx != NULL; + ctx = ctx ->Next) { + + // Found it? + if (id == ctx) + return ctx; // New-style context, + } + + return &globalContext; +} + + +// Internal: get the memory area associanted with each context client +// Returns the block assigned to the specific zone. Never return NULL. +void* _cmsContextGetClientChunk(cmsContext ContextID, _cmsMemoryClient mc) +{ + struct _cmsContext_struct* ctx; + void *ptr; + + if ((int) mc < 0 || mc >= MemoryClientMax) { + + cmsSignalError(ContextID, cmsERROR_INTERNAL, "Bad context client -- possible corruption"); + + // This is catastrophic. Should never reach here + _cmsAssert(0); + + // Reverts to global context + return globalContext.chunks[UserPtr]; + } + + ctx = _cmsGetContext(ContextID); + ptr = ctx ->chunks[mc]; + + if (ptr != NULL) + return ptr; + + // A null ptr means no special settings for that context, and this + // reverts to Context0 globals + return globalContext.chunks[mc]; +} + + +// This function returns the given context its default pristine state, +// as no plug-ins were declared. There is no way to unregister a single +// plug-in, as a single call to cmsPluginTHR() function may register +// many different plug-ins simultaneously, then there is no way to +// identify which plug-in to unregister. +void CMSEXPORT cmsUnregisterPluginsTHR(cmsContext ContextID) +{ + _cmsRegisterMemHandlerPlugin(ContextID, NULL); + _cmsRegisterInterpPlugin(ContextID, NULL); + _cmsRegisterTagTypePlugin(ContextID, NULL); + _cmsRegisterTagPlugin(ContextID, NULL); + _cmsRegisterFormattersPlugin(ContextID, NULL); + _cmsRegisterRenderingIntentPlugin(ContextID, NULL); + _cmsRegisterParametricCurvesPlugin(ContextID, NULL); + _cmsRegisterMultiProcessElementPlugin(ContextID, NULL); + _cmsRegisterOptimizationPlugin(ContextID, NULL); + _cmsRegisterTransformPlugin(ContextID, NULL); + _cmsRegisterMutexPlugin(ContextID, NULL); +} + + +// Returns the memory manager plug-in, if any, from the Plug-in bundle +static +cmsPluginMemHandler* _cmsFindMemoryPlugin(void* PluginBundle) +{ + cmsPluginBase* Plugin; + + for (Plugin = (cmsPluginBase*) PluginBundle; + Plugin != NULL; + Plugin = Plugin -> Next) { + + if (Plugin -> Magic == cmsPluginMagicNumber && + Plugin -> ExpectedVersion <= LCMS_VERSION && + Plugin -> Type == cmsPluginMemHandlerSig) { + + // Found! + return (cmsPluginMemHandler*) Plugin; + } + } + + // Nope, revert to defaults + return NULL; +} + + +// Creates a new context with optional associated plug-ins. Caller may also specify an optional pointer to user-defined +// data that will be forwarded to plug-ins and logger. +cmsContext CMSEXPORT cmsCreateContext(void* Plugin, void* UserData) +{ + struct _cmsContext_struct* ctx; + struct _cmsContext_struct fakeContext; + + _cmsInstallAllocFunctions(_cmsFindMemoryPlugin(Plugin), &fakeContext.DefaultMemoryManager); + + fakeContext.chunks[UserPtr] = UserData; + fakeContext.chunks[MemPlugin] = &fakeContext.DefaultMemoryManager; + + // Create the context structure. + ctx = (struct _cmsContext_struct*) _cmsMalloc(&fakeContext, sizeof(struct _cmsContext_struct)); + if (ctx == NULL) + return NULL; // Something very wrong happened! + + // Init the structure and the memory manager + memset(ctx, 0, sizeof(struct _cmsContext_struct)); + + // Keep memory manager + memcpy(&ctx->DefaultMemoryManager, &fakeContext.DefaultMemoryManager, sizeof(_cmsMemPluginChunk)); + + // Maintain the linked list (with proper locking) + _cmsEnterCriticalSectionPrimitive(&_cmsContextPoolHeadMutex); + ctx ->Next = _cmsContextPoolHead; + _cmsContextPoolHead = ctx; + _cmsLeaveCriticalSectionPrimitive(&_cmsContextPoolHeadMutex); + + ctx ->chunks[UserPtr] = UserData; + ctx ->chunks[MemPlugin] = &ctx->DefaultMemoryManager; + + // Now we can allocate the pool by using default memory manager + ctx ->MemPool = _cmsCreateSubAlloc(ctx, 22 * sizeof(void*)); // default size about 32 pointers + if (ctx ->MemPool == NULL) { + + cmsDeleteContext(ctx); + return NULL; + } + + _cmsAllocLogErrorChunk(ctx, NULL); + _cmsAllocAlarmCodesChunk(ctx, NULL); + _cmsAllocAdaptationStateChunk(ctx, NULL); + _cmsAllocMemPluginChunk(ctx, NULL); + _cmsAllocInterpPluginChunk(ctx, NULL); + _cmsAllocCurvesPluginChunk(ctx, NULL); + _cmsAllocFormattersPluginChunk(ctx, NULL); + _cmsAllocTagTypePluginChunk(ctx, NULL); + _cmsAllocMPETypePluginChunk(ctx, NULL); + _cmsAllocTagPluginChunk(ctx, NULL); + _cmsAllocIntentsPluginChunk(ctx, NULL); + _cmsAllocOptimizationPluginChunk(ctx, NULL); + _cmsAllocTransformPluginChunk(ctx, NULL); + _cmsAllocMutexPluginChunk(ctx, NULL); + + // Setup the plug-ins + if (!cmsPluginTHR(ctx, Plugin)) { + + cmsDeleteContext(ctx); + return NULL; + } + + return (cmsContext) ctx; +} + +// Duplicates a context with all associated plug-ins. +// Caller may specify an optional pointer to user-defined +// data that will be forwarded to plug-ins and logger. +cmsContext CMSEXPORT cmsDupContext(cmsContext ContextID, void* NewUserData) +{ + int i; + struct _cmsContext_struct* ctx; + const struct _cmsContext_struct* src = _cmsGetContext(ContextID); + + void* userData = (NewUserData != NULL) ? NewUserData : src -> chunks[UserPtr]; + + + ctx = (struct _cmsContext_struct*) _cmsMalloc(ContextID, sizeof(struct _cmsContext_struct)); + if (ctx == NULL) + return NULL; // Something very wrong happened + + // Setup default memory allocators + memcpy(&ctx->DefaultMemoryManager, &src->DefaultMemoryManager, sizeof(ctx->DefaultMemoryManager)); + + // Maintain the linked list + _cmsEnterCriticalSectionPrimitive(&_cmsContextPoolHeadMutex); + ctx ->Next = _cmsContextPoolHead; + _cmsContextPoolHead = ctx; + _cmsLeaveCriticalSectionPrimitive(&_cmsContextPoolHeadMutex); + + ctx ->chunks[UserPtr] = userData; + ctx ->chunks[MemPlugin] = &ctx->DefaultMemoryManager; + + ctx ->MemPool = _cmsCreateSubAlloc(ctx, 22 * sizeof(void*)); + if (ctx ->MemPool == NULL) { + + cmsDeleteContext(ctx); + return NULL; + } + + // Allocate all required chunks. + _cmsAllocLogErrorChunk(ctx, src); + _cmsAllocAlarmCodesChunk(ctx, src); + _cmsAllocAdaptationStateChunk(ctx, src); + _cmsAllocMemPluginChunk(ctx, src); + _cmsAllocInterpPluginChunk(ctx, src); + _cmsAllocCurvesPluginChunk(ctx, src); + _cmsAllocFormattersPluginChunk(ctx, src); + _cmsAllocTagTypePluginChunk(ctx, src); + _cmsAllocMPETypePluginChunk(ctx, src); + _cmsAllocTagPluginChunk(ctx, src); + _cmsAllocIntentsPluginChunk(ctx, src); + _cmsAllocOptimizationPluginChunk(ctx, src); + _cmsAllocTransformPluginChunk(ctx, src); + _cmsAllocMutexPluginChunk(ctx, src); + + // Make sure no one failed + for (i=Logger; i < MemoryClientMax; i++) { + + if (src ->chunks[i] == NULL) { + cmsDeleteContext((cmsContext) ctx); + return NULL; + } + } + + return (cmsContext) ctx; +} + + +/* +static +struct _cmsContext_struct* FindPrev(struct _cmsContext_struct* id) +{ + struct _cmsContext_struct* prev; + + // Search for previous + for (prev = _cmsContextPoolHead; + prev != NULL; + prev = prev ->Next) + { + if (prev ->Next == id) + return prev; + } + + return NULL; // List is empty or only one element! +} +*/ + +// Frees any resources associated with the given context, +// and destroys the context placeholder. +// The ContextID can no longer be used in any THR operation. +void CMSEXPORT cmsDeleteContext(cmsContext ContextID) +{ + if (ContextID != NULL) { + + struct _cmsContext_struct* ctx = (struct _cmsContext_struct*) ContextID; + struct _cmsContext_struct fakeContext; + struct _cmsContext_struct* prev; + + memcpy(&fakeContext.DefaultMemoryManager, &ctx->DefaultMemoryManager, sizeof(ctx->DefaultMemoryManager)); + + fakeContext.chunks[UserPtr] = ctx ->chunks[UserPtr]; + fakeContext.chunks[MemPlugin] = &fakeContext.DefaultMemoryManager; + + // Get rid of plugins + cmsUnregisterPluginsTHR(ContextID); + + // Since all memory is allocated in the private pool, all what we need to do is destroy the pool + if (ctx -> MemPool != NULL) + _cmsSubAllocDestroy(ctx ->MemPool); + ctx -> MemPool = NULL; + + // Maintain list + _cmsEnterCriticalSectionPrimitive(&_cmsContextPoolHeadMutex); + if (_cmsContextPoolHead == ctx) { + + _cmsContextPoolHead = ctx->Next; + } + else { + + // Search for previous + for (prev = _cmsContextPoolHead; + prev != NULL; + prev = prev ->Next) + { + if (prev -> Next == ctx) { + prev -> Next = ctx ->Next; + break; + } + } + } + _cmsLeaveCriticalSectionPrimitive(&_cmsContextPoolHeadMutex); + + // free the memory block itself + _cmsFree(&fakeContext, ctx); + } +} + +// Returns the user data associated to the given ContextID, or NULL if no user data was attached on context creation +void* CMSEXPORT cmsGetContextUserData(cmsContext ContextID) +{ + return _cmsContextGetClientChunk(ContextID, UserPtr); +} + + Index: sdk/lib/3rdparty/lcms2/cmsps2.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsps2.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsps2.c (working copy) @@ -0,0 +1,1598 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// PostScript ColorRenderingDictionary and ColorSpaceArray + + +#define MAXPSCOLS 60 // Columns on tables + +/* + Implementation + -------------- + + PostScript does use XYZ as its internal PCS. But since PostScript + interpolation tables are limited to 8 bits, I use Lab as a way to + improve the accuracy, favoring perceptual results. So, for the creation + of each CRD, CSA the profiles are converted to Lab via a device + link between profile -> Lab or Lab -> profile. The PS code necessary to + convert Lab <-> XYZ is also included. + + + + Color Space Arrays (CSA) + ================================================================================== + + In order to obtain precision, code chooses between three ways to implement + the device -> XYZ transform. These cases identifies monochrome profiles (often + implemented as a set of curves), matrix-shaper and Pipeline-based. + + Monochrome + ----------- + + This is implemented as /CIEBasedA CSA. The prelinearization curve is + placed into /DecodeA section, and matrix equals to D50. Since here is + no interpolation tables, I do the conversion directly to XYZ + + NOTE: CLUT-based monochrome profiles are NOT supported. So, cmsFLAGS_MATRIXINPUT + flag is forced on such profiles. + + [ /CIEBasedA + << + /DecodeA { transfer function } bind + /MatrixA [D50] + /RangeLMN [ 0.0 cmsD50X 0.0 cmsD50Y 0.0 cmsD50Z ] + /WhitePoint [D50] + /BlackPoint [BP] + /RenderingIntent (intent) + >> + ] + + On simpler profiles, the PCS is already XYZ, so no conversion is required. + + + Matrix-shaper based + ------------------- + + This is implemented both with /CIEBasedABC or /CIEBasedDEF on dependig + of profile implementation. Since here there are no interpolation tables, I do + the conversion directly to XYZ + + + + [ /CIEBasedABC + << + /DecodeABC [ {transfer1} {transfer2} {transfer3} ] + /MatrixABC [Matrix] + /RangeLMN [ 0.0 cmsD50X 0.0 cmsD50Y 0.0 cmsD50Z ] + /DecodeLMN [ { / 2} dup dup ] + /WhitePoint [D50] + /BlackPoint [BP] + /RenderingIntent (intent) + >> + ] + + + CLUT based + ---------- + + Lab is used in such cases. + + [ /CIEBasedDEF + << + /DecodeDEF [ ] + /Table [ p p p [<...>]] + /RangeABC [ 0 1 0 1 0 1] + /DecodeABC[ ] + /RangeLMN [ -0.236 1.254 0 1 -0.635 1.640 ] + % -128/500 1+127/500 0 1 -127/200 1+128/200 + /MatrixABC [ 1 1 1 1 0 0 0 0 -1] + /WhitePoint [D50] + /BlackPoint [BP] + /RenderingIntent (intent) + ] + + + Color Rendering Dictionaries (CRD) + ================================== + These are always implemented as CLUT, and always are using Lab. Since CRD are expected to + be used as resources, the code adds the definition as well. + + << + /ColorRenderingType 1 + /WhitePoint [ D50 ] + /BlackPoint [BP] + /MatrixPQR [ Bradford ] + /RangePQR [-0.125 1.375 -0.125 1.375 -0.125 1.375 ] + /TransformPQR [ + {4 index 3 get div 2 index 3 get mul exch pop exch pop exch pop exch pop } bind + {4 index 4 get div 2 index 4 get mul exch pop exch pop exch pop exch pop } bind + {4 index 5 get div 2 index 5 get mul exch pop exch pop exch pop exch pop } bind + ] + /MatrixABC <...> + /EncodeABC <...> + /RangeABC <.. used for XYZ -> Lab> + /EncodeLMN + /RenderTable [ p p p [<...>]] + + /RenderingIntent (Perceptual) + >> + /Current exch /ColorRendering defineresource pop + + + The following stages are used to convert from XYZ to Lab + -------------------------------------------------------- + + Input is given at LMN stage on X, Y, Z + + Encode LMN gives us f(X/Xn), f(Y/Yn), f(Z/Zn) + + /EncodeLMN [ + + { 0.964200 div dup 0.008856 le {7.787 mul 16 116 div add}{1 3 div exp} ifelse } bind + { 1.000000 div dup 0.008856 le {7.787 mul 16 116 div add}{1 3 div exp} ifelse } bind + { 0.824900 div dup 0.008856 le {7.787 mul 16 116 div add}{1 3 div exp} ifelse } bind + + ] + + + MatrixABC is used to compute f(Y/Yn), f(X/Xn) - f(Y/Yn), f(Y/Yn) - f(Z/Zn) + + | 0 1 0| + | 1 -1 0| + | 0 1 -1| + + /MatrixABC [ 0 1 0 1 -1 1 0 0 -1 ] + + EncodeABC finally gives Lab values. + + /EncodeABC [ + { 116 mul 16 sub 100 div } bind + { 500 mul 128 add 255 div } bind + { 200 mul 128 add 255 div } bind + ] + + The following stages are used to convert Lab to XYZ + ---------------------------------------------------- + + /RangeABC [ 0 1 0 1 0 1] + /DecodeABC [ { 100 mul 16 add 116 div } bind + { 255 mul 128 sub 500 div } bind + { 255 mul 128 sub 200 div } bind + ] + + /MatrixABC [ 1 1 1 1 0 0 0 0 -1] + /DecodeLMN [ + {dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse 0.964200 mul} bind + {dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse } bind + {dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse 0.824900 mul} bind + ] + + +*/ + +/* + + PostScript algorithms discussion. + ========================================================================================================= + + 1D interpolation algorithm + + + 1D interpolation (float) + ------------------------ + + val2 = Domain * Value; + + cell0 = (int) floor(val2); + cell1 = (int) ceil(val2); + + rest = val2 - cell0; + + y0 = LutTable[cell0] ; + y1 = LutTable[cell1] ; + + y = y0 + (y1 - y0) * rest; + + + + PostScript code Stack + ================================================ + + { % v + + [array] % v tab + dup % v tab tab + length 1 sub % v tab dom + + 3 -1 roll % tab dom v + + mul % tab val2 + dup % tab val2 val2 + dup % tab val2 val2 val2 + floor cvi % tab val2 val2 cell0 + exch % tab val2 cell0 val2 + ceiling cvi % tab val2 cell0 cell1 + + 3 index % tab val2 cell0 cell1 tab + exch % tab val2 cell0 tab cell1 + get % tab val2 cell0 y1 + + 4 -1 roll % val2 cell0 y1 tab + 3 -1 roll % val2 y1 tab cell0 + get % val2 y1 y0 + + dup % val2 y1 y0 y0 + 3 1 roll % val2 y0 y1 y0 + + sub % val2 y0 (y1-y0) + 3 -1 roll % y0 (y1-y0) val2 + dup % y0 (y1-y0) val2 val2 + floor cvi % y0 (y1-y0) val2 floor(val2) + sub % y0 (y1-y0) rest + mul % y0 t1 + add % y + 65535 div % result + + } bind + + +*/ + + +// This struct holds the memory block currently being write +typedef struct { + _cmsStageCLutData* Pipeline; + cmsIOHANDLER* m; + + int FirstComponent; + int SecondComponent; + + const char* PreMaj; + const char* PostMaj; + const char* PreMin; + const char* PostMin; + + int FixWhite; // Force mapping of pure white + + cmsColorSpaceSignature ColorSpace; // ColorSpace of profile + + +} cmsPsSamplerCargo; + +static int _cmsPSActualColumn = 0; + + +// Convert to byte +static +cmsUInt8Number Word2Byte(cmsUInt16Number w) +{ + return (cmsUInt8Number) floor((cmsFloat64Number) w / 257.0 + 0.5); +} + + +// Convert to byte (using ICC2 notation) +/* +static +cmsUInt8Number L2Byte(cmsUInt16Number w) +{ + int ww = w + 0x0080; + + if (ww > 0xFFFF) return 0xFF; + + return (cmsUInt8Number) ((cmsUInt16Number) (ww >> 8) & 0xFF); +} +*/ + +// Write a cooked byte + +static +void WriteByte(cmsIOHANDLER* m, cmsUInt8Number b) +{ + _cmsIOPrintf(m, "%02x", b); + _cmsPSActualColumn += 2; + + if (_cmsPSActualColumn > MAXPSCOLS) { + + _cmsIOPrintf(m, "\n"); + _cmsPSActualColumn = 0; + } +} + +// ----------------------------------------------------------------- PostScript generation + + +// Removes offending Carriage returns +static +char* RemoveCR(const char* txt) +{ + static char Buffer[2048]; + char* pt; + + strncpy(Buffer, txt, 2047); + Buffer[2047] = 0; + for (pt = Buffer; *pt; pt++) + if (*pt == '\n' || *pt == '\r') *pt = ' '; + + return Buffer; + +} + +static +void EmitHeader(cmsIOHANDLER* m, const char* Title, cmsHPROFILE hProfile) +{ + time_t timer; + cmsMLU *Description, *Copyright; + char DescASCII[256], CopyrightASCII[256]; + + time(&timer); + + Description = (cmsMLU*) cmsReadTag(hProfile, cmsSigProfileDescriptionTag); + Copyright = (cmsMLU*) cmsReadTag(hProfile, cmsSigCopyrightTag); + + DescASCII[0] = DescASCII[255] = 0; + CopyrightASCII[0] = CopyrightASCII[255] = 0; + + if (Description != NULL) cmsMLUgetASCII(Description, cmsNoLanguage, cmsNoCountry, DescASCII, 255); + if (Copyright != NULL) cmsMLUgetASCII(Copyright, cmsNoLanguage, cmsNoCountry, CopyrightASCII, 255); + + _cmsIOPrintf(m, "%%!PS-Adobe-3.0\n"); + _cmsIOPrintf(m, "%%\n"); + _cmsIOPrintf(m, "%% %s\n", Title); + _cmsIOPrintf(m, "%% Source: %s\n", RemoveCR(DescASCII)); + _cmsIOPrintf(m, "%% %s\n", RemoveCR(CopyrightASCII)); + _cmsIOPrintf(m, "%% Created: %s", ctime(&timer)); // ctime appends a \n!!! + _cmsIOPrintf(m, "%%\n"); + _cmsIOPrintf(m, "%%%%BeginResource\n"); + +} + + +// Emits White & Black point. White point is always D50, Black point is the device +// Black point adapted to D50. + +static +void EmitWhiteBlackD50(cmsIOHANDLER* m, cmsCIEXYZ* BlackPoint) +{ + + _cmsIOPrintf(m, "/BlackPoint [%f %f %f]\n", BlackPoint -> X, + BlackPoint -> Y, + BlackPoint -> Z); + + _cmsIOPrintf(m, "/WhitePoint [%f %f %f]\n", cmsD50_XYZ()->X, + cmsD50_XYZ()->Y, + cmsD50_XYZ()->Z); +} + + +static +void EmitRangeCheck(cmsIOHANDLER* m) +{ + _cmsIOPrintf(m, "dup 0.0 lt { pop 0.0 } if " + "dup 1.0 gt { pop 1.0 } if "); + +} + +// Does write the intent + +static +void EmitIntent(cmsIOHANDLER* m, int RenderingIntent) +{ + const char *intent; + + switch (RenderingIntent) { + + case INTENT_PERCEPTUAL: intent = "Perceptual"; break; + case INTENT_RELATIVE_COLORIMETRIC: intent = "RelativeColorimetric"; break; + case INTENT_ABSOLUTE_COLORIMETRIC: intent = "AbsoluteColorimetric"; break; + case INTENT_SATURATION: intent = "Saturation"; break; + + default: intent = "Undefined"; break; + } + + _cmsIOPrintf(m, "/RenderingIntent (%s)\n", intent ); +} + +// +// Convert L* to Y +// +// Y = Yn*[ (L* + 16) / 116] ^ 3 if (L*) >= 6 / 29 +// = Yn*( L* / 116) / 7.787 if (L*) < 6 / 29 +// + +/* +static +void EmitL2Y(cmsIOHANDLER* m) +{ + _cmsIOPrintf(m, + "{ " + "100 mul 16 add 116 div " // (L * 100 + 16) / 116 + "dup 6 29 div ge " // >= 6 / 29 ? + "{ dup dup mul mul } " // yes, ^3 and done + "{ 4 29 div sub 108 841 div mul } " // no, slope limiting + "ifelse } bind "); +} +*/ + + +// Lab -> XYZ, see the discussion above + +static +void EmitLab2XYZ(cmsIOHANDLER* m) +{ + _cmsIOPrintf(m, "/RangeABC [ 0 1 0 1 0 1]\n"); + _cmsIOPrintf(m, "/DecodeABC [\n"); + _cmsIOPrintf(m, "{100 mul 16 add 116 div } bind\n"); + _cmsIOPrintf(m, "{255 mul 128 sub 500 div } bind\n"); + _cmsIOPrintf(m, "{255 mul 128 sub 200 div } bind\n"); + _cmsIOPrintf(m, "]\n"); + _cmsIOPrintf(m, "/MatrixABC [ 1 1 1 1 0 0 0 0 -1]\n"); + _cmsIOPrintf(m, "/RangeLMN [ -0.236 1.254 0 1 -0.635 1.640 ]\n"); + _cmsIOPrintf(m, "/DecodeLMN [\n"); + _cmsIOPrintf(m, "{dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse 0.964200 mul} bind\n"); + _cmsIOPrintf(m, "{dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse } bind\n"); + _cmsIOPrintf(m, "{dup 6 29 div ge {dup dup mul mul} {4 29 div sub 108 841 div mul} ifelse 0.824900 mul} bind\n"); + _cmsIOPrintf(m, "]\n"); +} + + + +// Outputs a table of words. It does use 16 bits + +static +void Emit1Gamma(cmsIOHANDLER* m, cmsToneCurve* Table) +{ + cmsUInt32Number i; + cmsFloat64Number gamma; + + if (Table == NULL) return; // Error + + if (Table ->nEntries <= 0) return; // Empty table + + // Suppress whole if identity + if (cmsIsToneCurveLinear(Table)) return; + + // Check if is really an exponential. If so, emit "exp" + gamma = cmsEstimateGamma(Table, 0.001); + if (gamma > 0) { + _cmsIOPrintf(m, "{ %g exp } bind ", gamma); + return; + } + + _cmsIOPrintf(m, "{ "); + + // Bounds check + EmitRangeCheck(m); + + // Emit intepolation code + + // PostScript code Stack + // =============== ======================== + // v + _cmsIOPrintf(m, " ["); + + for (i=0; i < Table->nEntries; i++) { + _cmsIOPrintf(m, "%d ", Table->Table16[i]); + } + + _cmsIOPrintf(m, "] "); // v tab + + _cmsIOPrintf(m, "dup "); // v tab tab + _cmsIOPrintf(m, "length 1 sub "); // v tab dom + _cmsIOPrintf(m, "3 -1 roll "); // tab dom v + _cmsIOPrintf(m, "mul "); // tab val2 + _cmsIOPrintf(m, "dup "); // tab val2 val2 + _cmsIOPrintf(m, "dup "); // tab val2 val2 val2 + _cmsIOPrintf(m, "floor cvi "); // tab val2 val2 cell0 + _cmsIOPrintf(m, "exch "); // tab val2 cell0 val2 + _cmsIOPrintf(m, "ceiling cvi "); // tab val2 cell0 cell1 + _cmsIOPrintf(m, "3 index "); // tab val2 cell0 cell1 tab + _cmsIOPrintf(m, "exch "); // tab val2 cell0 tab cell1 + _cmsIOPrintf(m, "get "); // tab val2 cell0 y1 + _cmsIOPrintf(m, "4 -1 roll "); // val2 cell0 y1 tab + _cmsIOPrintf(m, "3 -1 roll "); // val2 y1 tab cell0 + _cmsIOPrintf(m, "get "); // val2 y1 y0 + _cmsIOPrintf(m, "dup "); // val2 y1 y0 y0 + _cmsIOPrintf(m, "3 1 roll "); // val2 y0 y1 y0 + _cmsIOPrintf(m, "sub "); // val2 y0 (y1-y0) + _cmsIOPrintf(m, "3 -1 roll "); // y0 (y1-y0) val2 + _cmsIOPrintf(m, "dup "); // y0 (y1-y0) val2 val2 + _cmsIOPrintf(m, "floor cvi "); // y0 (y1-y0) val2 floor(val2) + _cmsIOPrintf(m, "sub "); // y0 (y1-y0) rest + _cmsIOPrintf(m, "mul "); // y0 t1 + _cmsIOPrintf(m, "add "); // y + _cmsIOPrintf(m, "65535 div "); // result + + _cmsIOPrintf(m, " } bind "); +} + + +// Compare gamma table + +static +cmsBool GammaTableEquals(cmsUInt16Number* g1, cmsUInt16Number* g2, int nEntries) +{ + return memcmp(g1, g2, nEntries* sizeof(cmsUInt16Number)) == 0; +} + + +// Does write a set of gamma curves + +static +void EmitNGamma(cmsIOHANDLER* m, int n, cmsToneCurve* g[]) +{ + int i; + + for( i=0; i < n; i++ ) + { + if (g[i] == NULL) return; // Error + + if (i > 0 && GammaTableEquals(g[i-1]->Table16, g[i]->Table16, g[i]->nEntries)) { + + _cmsIOPrintf(m, "dup "); + } + else { + Emit1Gamma(m, g[i]); + } + } + +} + + + + + +// Following code dumps a LUT onto memory stream + + +// This is the sampler. Intended to work in SAMPLER_INSPECT mode, +// that is, the callback will be called for each knot with +// +// In[] The grid location coordinates, normalized to 0..ffff +// Out[] The Pipeline values, normalized to 0..ffff +// +// Returning a value other than 0 does terminate the sampling process +// +// Each row contains Pipeline values for all but first component. So, I +// detect row changing by keeping a copy of last value of first +// component. -1 is used to mark beginning of whole block. + +static +int OutputValueSampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + cmsPsSamplerCargo* sc = (cmsPsSamplerCargo*) Cargo; + cmsUInt32Number i; + + + if (sc -> FixWhite) { + + if (In[0] == 0xFFFF) { // Only in L* = 100, ab = [-8..8] + + if ((In[1] >= 0x7800 && In[1] <= 0x8800) && + (In[2] >= 0x7800 && In[2] <= 0x8800)) { + + cmsUInt16Number* Black; + cmsUInt16Number* White; + cmsUInt32Number nOutputs; + + if (!_cmsEndPointsBySpace(sc ->ColorSpace, &White, &Black, &nOutputs)) + return 0; + + for (i=0; i < nOutputs; i++) + Out[i] = White[i]; + } + + + } + } + + + // Hadle the parenthesis on rows + + if (In[0] != sc ->FirstComponent) { + + if (sc ->FirstComponent != -1) { + + _cmsIOPrintf(sc ->m, sc ->PostMin); + sc ->SecondComponent = -1; + _cmsIOPrintf(sc ->m, sc ->PostMaj); + } + + // Begin block + _cmsPSActualColumn = 0; + + _cmsIOPrintf(sc ->m, sc ->PreMaj); + sc ->FirstComponent = In[0]; + } + + + if (In[1] != sc ->SecondComponent) { + + if (sc ->SecondComponent != -1) { + + _cmsIOPrintf(sc ->m, sc ->PostMin); + } + + _cmsIOPrintf(sc ->m, sc ->PreMin); + sc ->SecondComponent = In[1]; + } + + // Dump table. + + for (i=0; i < sc -> Pipeline ->Params->nOutputs; i++) { + + cmsUInt16Number wWordOut = Out[i]; + cmsUInt8Number wByteOut; // Value as byte + + + // We always deal with Lab4 + + wByteOut = Word2Byte(wWordOut); + WriteByte(sc -> m, wByteOut); + } + + return 1; +} + +// Writes a Pipeline on memstream. Could be 8 or 16 bits based + +static +void WriteCLUT(cmsIOHANDLER* m, cmsStage* mpe, const char* PreMaj, + const char* PostMaj, + const char* PreMin, + const char* PostMin, + int FixWhite, + cmsColorSpaceSignature ColorSpace) +{ + cmsUInt32Number i; + cmsPsSamplerCargo sc; + + sc.FirstComponent = -1; + sc.SecondComponent = -1; + sc.Pipeline = (_cmsStageCLutData *) mpe ->Data; + sc.m = m; + sc.PreMaj = PreMaj; + sc.PostMaj= PostMaj; + + sc.PreMin = PreMin; + sc.PostMin = PostMin; + sc.FixWhite = FixWhite; + sc.ColorSpace = ColorSpace; + + _cmsIOPrintf(m, "["); + + for (i=0; i < sc.Pipeline->Params->nInputs; i++) + _cmsIOPrintf(m, " %d ", sc.Pipeline->Params->nSamples[i]); + + _cmsIOPrintf(m, " [\n"); + + cmsStageSampleCLut16bit(mpe, OutputValueSampler, (void*) &sc, SAMPLER_INSPECT); + + _cmsIOPrintf(m, PostMin); + _cmsIOPrintf(m, PostMaj); + _cmsIOPrintf(m, "] "); + +} + + +// Dumps CIEBasedA Color Space Array + +static +int EmitCIEBasedA(cmsIOHANDLER* m, cmsToneCurve* Curve, cmsCIEXYZ* BlackPoint) +{ + + _cmsIOPrintf(m, "[ /CIEBasedA\n"); + _cmsIOPrintf(m, " <<\n"); + + _cmsIOPrintf(m, "/DecodeA "); + + Emit1Gamma(m, Curve); + + _cmsIOPrintf(m, " \n"); + + _cmsIOPrintf(m, "/MatrixA [ 0.9642 1.0000 0.8249 ]\n"); + _cmsIOPrintf(m, "/RangeLMN [ 0.0 0.9642 0.0 1.0000 0.0 0.8249 ]\n"); + + EmitWhiteBlackD50(m, BlackPoint); + EmitIntent(m, INTENT_PERCEPTUAL); + + _cmsIOPrintf(m, ">>\n"); + _cmsIOPrintf(m, "]\n"); + + return 1; +} + + +// Dumps CIEBasedABC Color Space Array + +static +int EmitCIEBasedABC(cmsIOHANDLER* m, cmsFloat64Number* Matrix, cmsToneCurve** CurveSet, cmsCIEXYZ* BlackPoint) +{ + int i; + + _cmsIOPrintf(m, "[ /CIEBasedABC\n"); + _cmsIOPrintf(m, "<<\n"); + _cmsIOPrintf(m, "/DecodeABC [ "); + + EmitNGamma(m, 3, CurveSet); + + _cmsIOPrintf(m, "]\n"); + + _cmsIOPrintf(m, "/MatrixABC [ " ); + + for( i=0; i < 3; i++ ) { + + _cmsIOPrintf(m, "%.6f %.6f %.6f ", Matrix[i + 3*0], + Matrix[i + 3*1], + Matrix[i + 3*2]); + } + + + _cmsIOPrintf(m, "]\n"); + + _cmsIOPrintf(m, "/RangeLMN [ 0.0 0.9642 0.0 1.0000 0.0 0.8249 ]\n"); + + EmitWhiteBlackD50(m, BlackPoint); + EmitIntent(m, INTENT_PERCEPTUAL); + + _cmsIOPrintf(m, ">>\n"); + _cmsIOPrintf(m, "]\n"); + + + return 1; +} + + +static +int EmitCIEBasedDEF(cmsIOHANDLER* m, cmsPipeline* Pipeline, int Intent, cmsCIEXYZ* BlackPoint) +{ + const char* PreMaj; + const char* PostMaj; + const char* PreMin, *PostMin; + cmsStage* mpe; + + mpe = Pipeline ->Elements; + + switch (cmsStageInputChannels(mpe)) { + case 3: + + _cmsIOPrintf(m, "[ /CIEBasedDEF\n"); + PreMaj ="<"; + PostMaj= ">\n"; + PreMin = PostMin = ""; + break; + case 4: + _cmsIOPrintf(m, "[ /CIEBasedDEFG\n"); + PreMaj = "["; + PostMaj = "]\n"; + PreMin = "<"; + PostMin = ">\n"; + break; + default: + return 0; + + } + + _cmsIOPrintf(m, "<<\n"); + + if (cmsStageType(mpe) == cmsSigCurveSetElemType) { + + _cmsIOPrintf(m, "/DecodeDEF [ "); + EmitNGamma(m, cmsStageOutputChannels(mpe), _cmsStageGetPtrToCurveSet(mpe)); + _cmsIOPrintf(m, "]\n"); + + mpe = mpe ->Next; + } + + if (cmsStageType(mpe) == cmsSigCLutElemType) { + + _cmsIOPrintf(m, "/Table "); + WriteCLUT(m, mpe, PreMaj, PostMaj, PreMin, PostMin, FALSE, (cmsColorSpaceSignature) 0); + _cmsIOPrintf(m, "]\n"); + } + + EmitLab2XYZ(m); + EmitWhiteBlackD50(m, BlackPoint); + EmitIntent(m, Intent); + + _cmsIOPrintf(m, " >>\n"); + _cmsIOPrintf(m, "]\n"); + + return 1; +} + +// Generates a curve from a gray profile + +static + cmsToneCurve* ExtractGray2Y(cmsContext ContextID, cmsHPROFILE hProfile, int Intent) +{ + cmsToneCurve* Out = cmsBuildTabulatedToneCurve16(ContextID, 256, NULL); + cmsHPROFILE hXYZ = cmsCreateXYZProfile(); + cmsHTRANSFORM xform = cmsCreateTransformTHR(ContextID, hProfile, TYPE_GRAY_8, hXYZ, TYPE_XYZ_DBL, Intent, cmsFLAGS_NOOPTIMIZE); + int i; + + if (Out != NULL) { + for (i=0; i < 256; i++) { + + cmsUInt8Number Gray = (cmsUInt8Number) i; + cmsCIEXYZ XYZ; + + cmsDoTransform(xform, &Gray, &XYZ, 1); + + Out ->Table16[i] =_cmsQuickSaturateWord(XYZ.Y * 65535.0); + } + } + + cmsDeleteTransform(xform); + cmsCloseProfile(hXYZ); + return Out; +} + + + +// Because PostScript has only 8 bits in /Table, we should use +// a more perceptually uniform space... I do choose Lab. + +static +int WriteInputLUT(cmsIOHANDLER* m, cmsHPROFILE hProfile, int Intent, cmsUInt32Number dwFlags) +{ + cmsHPROFILE hLab; + cmsHTRANSFORM xform; + cmsUInt32Number nChannels; + cmsUInt32Number InputFormat; + int rc; + cmsHPROFILE Profiles[2]; + cmsCIEXYZ BlackPointAdaptedToD50; + + // Does create a device-link based transform. + // The DeviceLink is next dumped as working CSA. + + InputFormat = cmsFormatterForColorspaceOfProfile(hProfile, 2, FALSE); + nChannels = T_CHANNELS(InputFormat); + + + cmsDetectBlackPoint(&BlackPointAdaptedToD50, hProfile, Intent, 0); + + // Adjust output to Lab4 + hLab = cmsCreateLab4ProfileTHR(m ->ContextID, NULL); + + Profiles[0] = hProfile; + Profiles[1] = hLab; + + xform = cmsCreateMultiprofileTransform(Profiles, 2, InputFormat, TYPE_Lab_DBL, Intent, 0); + cmsCloseProfile(hLab); + + if (xform == NULL) { + + cmsSignalError(m ->ContextID, cmsERROR_COLORSPACE_CHECK, "Cannot create transform Profile -> Lab"); + return 0; + } + + // Only 1, 3 and 4 channels are allowed + + switch (nChannels) { + + case 1: { + cmsToneCurve* Gray2Y = ExtractGray2Y(m ->ContextID, hProfile, Intent); + EmitCIEBasedA(m, Gray2Y, &BlackPointAdaptedToD50); + cmsFreeToneCurve(Gray2Y); + } + break; + + case 3: + case 4: { + cmsUInt32Number OutFrm = TYPE_Lab_16; + cmsPipeline* DeviceLink; + _cmsTRANSFORM* v = (_cmsTRANSFORM*) xform; + + DeviceLink = cmsPipelineDup(v ->Lut); + if (DeviceLink == NULL) return 0; + + dwFlags |= cmsFLAGS_FORCE_CLUT; + _cmsOptimizePipeline(m->ContextID, &DeviceLink, Intent, &InputFormat, &OutFrm, &dwFlags); + + rc = EmitCIEBasedDEF(m, DeviceLink, Intent, &BlackPointAdaptedToD50); + cmsPipelineFree(DeviceLink); + if (rc == 0) return 0; + } + break; + + default: + + cmsSignalError(m ->ContextID, cmsERROR_COLORSPACE_CHECK, "Only 3, 4 channels supported for CSA. This profile has %d channels.", nChannels); + return 0; + } + + + cmsDeleteTransform(xform); + + return 1; +} + +static +cmsFloat64Number* GetPtrToMatrix(const cmsStage* mpe) +{ + _cmsStageMatrixData* Data = (_cmsStageMatrixData*) mpe ->Data; + + return Data -> Double; +} + + +// Does create CSA based on matrix-shaper. Allowed types are gray and RGB based + +static +int WriteInputMatrixShaper(cmsIOHANDLER* m, cmsHPROFILE hProfile, cmsStage* Matrix, cmsStage* Shaper) +{ + cmsColorSpaceSignature ColorSpace; + int rc; + cmsCIEXYZ BlackPointAdaptedToD50; + + ColorSpace = cmsGetColorSpace(hProfile); + + cmsDetectBlackPoint(&BlackPointAdaptedToD50, hProfile, INTENT_RELATIVE_COLORIMETRIC, 0); + + if (ColorSpace == cmsSigGrayData) { + + cmsToneCurve** ShaperCurve = _cmsStageGetPtrToCurveSet(Shaper); + rc = EmitCIEBasedA(m, ShaperCurve[0], &BlackPointAdaptedToD50); + + } + else + if (ColorSpace == cmsSigRgbData) { + + cmsMAT3 Mat; + int i, j; + + memmove(&Mat, GetPtrToMatrix(Matrix), sizeof(Mat)); + + for (i=0; i < 3; i++) + for (j=0; j < 3; j++) + Mat.v[i].n[j] *= MAX_ENCODEABLE_XYZ; + + rc = EmitCIEBasedABC(m, (cmsFloat64Number *) &Mat, + _cmsStageGetPtrToCurveSet(Shaper), + &BlackPointAdaptedToD50); + } + else { + + cmsSignalError(m ->ContextID, cmsERROR_COLORSPACE_CHECK, "Profile is not suitable for CSA. Unsupported colorspace."); + return 0; + } + + return rc; +} + + + +// Creates a PostScript color list from a named profile data. +// This is a HP extension, and it works in Lab instead of XYZ + +static +int WriteNamedColorCSA(cmsIOHANDLER* m, cmsHPROFILE hNamedColor, int Intent) +{ + cmsHTRANSFORM xform; + cmsHPROFILE hLab; + int i, nColors; + char ColorName[32]; + cmsNAMEDCOLORLIST* NamedColorList; + + hLab = cmsCreateLab4ProfileTHR(m ->ContextID, NULL); + xform = cmsCreateTransform(hNamedColor, TYPE_NAMED_COLOR_INDEX, hLab, TYPE_Lab_DBL, Intent, 0); + if (xform == NULL) return 0; + + NamedColorList = cmsGetNamedColorList(xform); + if (NamedColorList == NULL) return 0; + + _cmsIOPrintf(m, "<<\n"); + _cmsIOPrintf(m, "(colorlistcomment) (%s)\n", "Named color CSA"); + _cmsIOPrintf(m, "(Prefix) [ (Pantone ) (PANTONE ) ]\n"); + _cmsIOPrintf(m, "(Suffix) [ ( CV) ( CVC) ( C) ]\n"); + + nColors = cmsNamedColorCount(NamedColorList); + + + for (i=0; i < nColors; i++) { + + cmsUInt16Number In[1]; + cmsCIELab Lab; + + In[0] = (cmsUInt16Number) i; + + if (!cmsNamedColorInfo(NamedColorList, i, ColorName, NULL, NULL, NULL, NULL)) + continue; + + cmsDoTransform(xform, In, &Lab, 1); + _cmsIOPrintf(m, " (%s) [ %.3f %.3f %.3f ]\n", ColorName, Lab.L, Lab.a, Lab.b); + } + + + + _cmsIOPrintf(m, ">>\n"); + + cmsDeleteTransform(xform); + cmsCloseProfile(hLab); + return 1; +} + + +// Does create a Color Space Array on XYZ colorspace for PostScript usage +static +cmsUInt32Number GenerateCSA(cmsContext ContextID, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags, + cmsIOHANDLER* mem) +{ + cmsUInt32Number dwBytesUsed; + cmsPipeline* lut = NULL; + cmsStage* Matrix, *Shaper; + + + // Is a named color profile? + if (cmsGetDeviceClass(hProfile) == cmsSigNamedColorClass) { + + if (!WriteNamedColorCSA(mem, hProfile, Intent)) goto Error; + } + else { + + + // Any profile class are allowed (including devicelink), but + // output (PCS) colorspace must be XYZ or Lab + cmsColorSpaceSignature ColorSpace = cmsGetPCS(hProfile); + + if (ColorSpace != cmsSigXYZData && + ColorSpace != cmsSigLabData) { + + cmsSignalError(ContextID, cmsERROR_COLORSPACE_CHECK, "Invalid output color space"); + goto Error; + } + + + // Read the lut with all necessary conversion stages + lut = _cmsReadInputLUT(hProfile, Intent); + if (lut == NULL) goto Error; + + + // Tone curves + matrix can be implemented without any LUT + if (cmsPipelineCheckAndRetreiveStages(lut, 2, cmsSigCurveSetElemType, cmsSigMatrixElemType, &Shaper, &Matrix)) { + + if (!WriteInputMatrixShaper(mem, hProfile, Matrix, Shaper)) goto Error; + + } + else { + // We need a LUT for the rest + if (!WriteInputLUT(mem, hProfile, Intent, dwFlags)) goto Error; + } + } + + + // Done, keep memory usage + dwBytesUsed = mem ->UsedSpace; + + // Get rid of LUT + if (lut != NULL) cmsPipelineFree(lut); + + // Finally, return used byte count + return dwBytesUsed; + +Error: + if (lut != NULL) cmsPipelineFree(lut); + return 0; +} + +// ------------------------------------------------------ Color Rendering Dictionary (CRD) + + + +/* + + Black point compensation plus chromatic adaptation: + + Step 1 - Chromatic adaptation + ============================= + + WPout + X = ------- PQR + Wpin + + Step 2 - Black point compensation + ================================= + + (WPout - BPout)*X - WPout*(BPin - BPout) + out = --------------------------------------- + WPout - BPin + + + Algorithm discussion + ==================== + + TransformPQR(WPin, BPin, WPout, BPout, PQR) + + Wpin,etc= { Xws Yws Zws Pws Qws Rws } + + + Algorithm Stack 0...n + =========================================================== + PQR BPout WPout BPin WPin + 4 index 3 get WPin PQR BPout WPout BPin WPin + div (PQR/WPin) BPout WPout BPin WPin + 2 index 3 get WPout (PQR/WPin) BPout WPout BPin WPin + mult WPout*(PQR/WPin) BPout WPout BPin WPin + + 2 index 3 get WPout WPout*(PQR/WPin) BPout WPout BPin WPin + 2 index 3 get BPout WPout WPout*(PQR/WPin) BPout WPout BPin WPin + sub (WPout-BPout) WPout*(PQR/WPin) BPout WPout BPin WPin + mult (WPout-BPout)* WPout*(PQR/WPin) BPout WPout BPin WPin + + 2 index 3 get WPout (BPout-WPout)* WPout*(PQR/WPin) BPout WPout BPin WPin + 4 index 3 get BPin WPout (BPout-WPout)* WPout*(PQR/WPin) BPout WPout BPin WPin + 3 index 3 get BPout BPin WPout (BPout-WPout)* WPout*(PQR/WPin) BPout WPout BPin WPin + + sub (BPin-BPout) WPout (BPout-WPout)* WPout*(PQR/WPin) BPout WPout BPin WPin + mult (BPin-BPout)*WPout (BPout-WPout)* WPout*(PQR/WPin) BPout WPout BPin WPin + sub (BPout-WPout)* WPout*(PQR/WPin)-(BPin-BPout)*WPout BPout WPout BPin WPin + + 3 index 3 get BPin (BPout-WPout)* WPout*(PQR/WPin)-(BPin-BPout)*WPout BPout WPout BPin WPin + 3 index 3 get WPout BPin (BPout-WPout)* WPout*(PQR/WPin)-(BPin-BPout)*WPout BPout WPout BPin WPin + exch + sub (WPout-BPin) (BPout-WPout)* WPout*(PQR/WPin)-(BPin-BPout)*WPout BPout WPout BPin WPin + div + + exch pop + exch pop + exch pop + exch pop + +*/ + + +static +void EmitPQRStage(cmsIOHANDLER* m, cmsHPROFILE hProfile, int DoBPC, int lIsAbsolute) +{ + + + if (lIsAbsolute) { + + // For absolute colorimetric intent, encode back to relative + // and generate a relative Pipeline + + // Relative encoding is obtained across XYZpcs*(D50/WhitePoint) + + cmsCIEXYZ White; + + _cmsReadMediaWhitePoint(&White, hProfile); + + _cmsIOPrintf(m,"/MatrixPQR [1 0 0 0 1 0 0 0 1 ]\n"); + _cmsIOPrintf(m,"/RangePQR [ -0.5 2 -0.5 2 -0.5 2 ]\n"); + + _cmsIOPrintf(m, "%% Absolute colorimetric -- encode to relative to maximize LUT usage\n" + "/TransformPQR [\n" + "{0.9642 mul %g div exch pop exch pop exch pop exch pop} bind\n" + "{1.0000 mul %g div exch pop exch pop exch pop exch pop} bind\n" + "{0.8249 mul %g div exch pop exch pop exch pop exch pop} bind\n]\n", + White.X, White.Y, White.Z); + return; + } + + + _cmsIOPrintf(m,"%% Bradford Cone Space\n" + "/MatrixPQR [0.8951 -0.7502 0.0389 0.2664 1.7135 -0.0685 -0.1614 0.0367 1.0296 ] \n"); + + _cmsIOPrintf(m, "/RangePQR [ -0.5 2 -0.5 2 -0.5 2 ]\n"); + + + // No BPC + + if (!DoBPC) { + + _cmsIOPrintf(m, "%% VonKries-like transform in Bradford Cone Space\n" + "/TransformPQR [\n" + "{exch pop exch 3 get mul exch pop exch 3 get div} bind\n" + "{exch pop exch 4 get mul exch pop exch 4 get div} bind\n" + "{exch pop exch 5 get mul exch pop exch 5 get div} bind\n]\n"); + } else { + + // BPC + + _cmsIOPrintf(m, "%% VonKries-like transform in Bradford Cone Space plus BPC\n" + "/TransformPQR [\n"); + + _cmsIOPrintf(m, "{4 index 3 get div 2 index 3 get mul " + "2 index 3 get 2 index 3 get sub mul " + "2 index 3 get 4 index 3 get 3 index 3 get sub mul sub " + "3 index 3 get 3 index 3 get exch sub div " + "exch pop exch pop exch pop exch pop } bind\n"); + + _cmsIOPrintf(m, "{4 index 4 get div 2 index 4 get mul " + "2 index 4 get 2 index 4 get sub mul " + "2 index 4 get 4 index 4 get 3 index 4 get sub mul sub " + "3 index 4 get 3 index 4 get exch sub div " + "exch pop exch pop exch pop exch pop } bind\n"); + + _cmsIOPrintf(m, "{4 index 5 get div 2 index 5 get mul " + "2 index 5 get 2 index 5 get sub mul " + "2 index 5 get 4 index 5 get 3 index 5 get sub mul sub " + "3 index 5 get 3 index 5 get exch sub div " + "exch pop exch pop exch pop exch pop } bind\n]\n"); + + } + + +} + + +static +void EmitXYZ2Lab(cmsIOHANDLER* m) +{ + _cmsIOPrintf(m, "/RangeLMN [ -0.635 2.0 0 2 -0.635 2.0 ]\n"); + _cmsIOPrintf(m, "/EncodeLMN [\n"); + _cmsIOPrintf(m, "{ 0.964200 div dup 0.008856 le {7.787 mul 16 116 div add}{1 3 div exp} ifelse } bind\n"); + _cmsIOPrintf(m, "{ 1.000000 div dup 0.008856 le {7.787 mul 16 116 div add}{1 3 div exp} ifelse } bind\n"); + _cmsIOPrintf(m, "{ 0.824900 div dup 0.008856 le {7.787 mul 16 116 div add}{1 3 div exp} ifelse } bind\n"); + _cmsIOPrintf(m, "]\n"); + _cmsIOPrintf(m, "/MatrixABC [ 0 1 0 1 -1 1 0 0 -1 ]\n"); + _cmsIOPrintf(m, "/EncodeABC [\n"); + + + _cmsIOPrintf(m, "{ 116 mul 16 sub 100 div } bind\n"); + _cmsIOPrintf(m, "{ 500 mul 128 add 256 div } bind\n"); + _cmsIOPrintf(m, "{ 200 mul 128 add 256 div } bind\n"); + + + _cmsIOPrintf(m, "]\n"); + + +} + +// Due to impedance mismatch between XYZ and almost all RGB and CMYK spaces +// I choose to dump LUTS in Lab instead of XYZ. There is still a lot of wasted +// space on 3D CLUT, but since space seems not to be a problem here, 33 points +// would give a reasonable accurancy. Note also that CRD tables must operate in +// 8 bits. + +static +int WriteOutputLUT(cmsIOHANDLER* m, cmsHPROFILE hProfile, int Intent, cmsUInt32Number dwFlags) +{ + cmsHPROFILE hLab; + cmsHTRANSFORM xform; + int i, nChannels; + cmsUInt32Number OutputFormat; + _cmsTRANSFORM* v; + cmsPipeline* DeviceLink; + cmsHPROFILE Profiles[3]; + cmsCIEXYZ BlackPointAdaptedToD50; + cmsBool lDoBPC = (dwFlags & cmsFLAGS_BLACKPOINTCOMPENSATION); + cmsBool lFixWhite = !(dwFlags & cmsFLAGS_NOWHITEONWHITEFIXUP); + cmsUInt32Number InFrm = TYPE_Lab_16; + int RelativeEncodingIntent; + cmsColorSpaceSignature ColorSpace; + + + hLab = cmsCreateLab4ProfileTHR(m ->ContextID, NULL); + if (hLab == NULL) return 0; + + OutputFormat = cmsFormatterForColorspaceOfProfile(hProfile, 2, FALSE); + nChannels = T_CHANNELS(OutputFormat); + + ColorSpace = cmsGetColorSpace(hProfile); + + // For absolute colorimetric, the LUT is encoded as relative in order to preserve precision. + + RelativeEncodingIntent = Intent; + if (RelativeEncodingIntent == INTENT_ABSOLUTE_COLORIMETRIC) + RelativeEncodingIntent = INTENT_RELATIVE_COLORIMETRIC; + + + // Use V4 Lab always + Profiles[0] = hLab; + Profiles[1] = hProfile; + + xform = cmsCreateMultiprofileTransformTHR(m ->ContextID, + Profiles, 2, TYPE_Lab_DBL, + OutputFormat, RelativeEncodingIntent, 0); + cmsCloseProfile(hLab); + + if (xform == NULL) { + + cmsSignalError(m ->ContextID, cmsERROR_COLORSPACE_CHECK, "Cannot create transform Lab -> Profile in CRD creation"); + return 0; + } + + // Get a copy of the internal devicelink + v = (_cmsTRANSFORM*) xform; + DeviceLink = cmsPipelineDup(v ->Lut); + if (DeviceLink == NULL) return 0; + + + // We need a CLUT + dwFlags |= cmsFLAGS_FORCE_CLUT; + _cmsOptimizePipeline(m->ContextID, &DeviceLink, RelativeEncodingIntent, &InFrm, &OutputFormat, &dwFlags); + + _cmsIOPrintf(m, "<<\n"); + _cmsIOPrintf(m, "/ColorRenderingType 1\n"); + + + cmsDetectBlackPoint(&BlackPointAdaptedToD50, hProfile, Intent, 0); + + // Emit headers, etc. + EmitWhiteBlackD50(m, &BlackPointAdaptedToD50); + EmitPQRStage(m, hProfile, lDoBPC, Intent == INTENT_ABSOLUTE_COLORIMETRIC); + EmitXYZ2Lab(m); + + + // FIXUP: map Lab (100, 0, 0) to perfect white, because the particular encoding for Lab + // does map a=b=0 not falling into any specific node. Since range a,b goes -128..127, + // zero is slightly moved towards right, so assure next node (in L=100 slice) is mapped to + // zero. This would sacrifice a bit of highlights, but failure to do so would cause + // scum dot. Ouch. + + if (Intent == INTENT_ABSOLUTE_COLORIMETRIC) + lFixWhite = FALSE; + + _cmsIOPrintf(m, "/RenderTable "); + + + WriteCLUT(m, cmsPipelineGetPtrToFirstStage(DeviceLink), "<", ">\n", "", "", lFixWhite, ColorSpace); + + _cmsIOPrintf(m, " %d {} bind ", nChannels); + + for (i=1; i < nChannels; i++) + _cmsIOPrintf(m, "dup "); + + _cmsIOPrintf(m, "]\n"); + + + EmitIntent(m, Intent); + + _cmsIOPrintf(m, ">>\n"); + + if (!(dwFlags & cmsFLAGS_NODEFAULTRESOURCEDEF)) { + + _cmsIOPrintf(m, "/Current exch /ColorRendering defineresource pop\n"); + } + + cmsPipelineFree(DeviceLink); + cmsDeleteTransform(xform); + + return 1; +} + + +// Builds a ASCII string containing colorant list in 0..1.0 range +static +void BuildColorantList(char *Colorant, int nColorant, cmsUInt16Number Out[]) +{ + char Buff[32]; + int j; + + Colorant[0] = 0; + if (nColorant > cmsMAXCHANNELS) + nColorant = cmsMAXCHANNELS; + + for (j = 0; j < nColorant; j++) { + + snprintf(Buff, 31, "%.3f", Out[j] / 65535.0); + Buff[31] = 0; + strcat(Colorant, Buff); + if (j < nColorant - 1) + strcat(Colorant, " "); + + } +} + + +// Creates a PostScript color list from a named profile data. +// This is a HP extension. + +static +int WriteNamedColorCRD(cmsIOHANDLER* m, cmsHPROFILE hNamedColor, int Intent, cmsUInt32Number dwFlags) +{ + cmsHTRANSFORM xform; + int i, nColors, nColorant; + cmsUInt32Number OutputFormat; + char ColorName[32]; + char Colorant[128]; + cmsNAMEDCOLORLIST* NamedColorList; + + + OutputFormat = cmsFormatterForColorspaceOfProfile(hNamedColor, 2, FALSE); + nColorant = T_CHANNELS(OutputFormat); + + + xform = cmsCreateTransform(hNamedColor, TYPE_NAMED_COLOR_INDEX, NULL, OutputFormat, Intent, dwFlags); + if (xform == NULL) return 0; + + + NamedColorList = cmsGetNamedColorList(xform); + if (NamedColorList == NULL) return 0; + + _cmsIOPrintf(m, "<<\n"); + _cmsIOPrintf(m, "(colorlistcomment) (%s) \n", "Named profile"); + _cmsIOPrintf(m, "(Prefix) [ (Pantone ) (PANTONE ) ]\n"); + _cmsIOPrintf(m, "(Suffix) [ ( CV) ( CVC) ( C) ]\n"); + + nColors = cmsNamedColorCount(NamedColorList); + + for (i=0; i < nColors; i++) { + + cmsUInt16Number In[1]; + cmsUInt16Number Out[cmsMAXCHANNELS]; + + In[0] = (cmsUInt16Number) i; + + if (!cmsNamedColorInfo(NamedColorList, i, ColorName, NULL, NULL, NULL, NULL)) + continue; + + cmsDoTransform(xform, In, Out, 1); + BuildColorantList(Colorant, nColorant, Out); + _cmsIOPrintf(m, " (%s) [ %s ]\n", ColorName, Colorant); + } + + _cmsIOPrintf(m, " >>"); + + if (!(dwFlags & cmsFLAGS_NODEFAULTRESOURCEDEF)) { + + _cmsIOPrintf(m, " /Current exch /HPSpotTable defineresource pop\n"); + } + + cmsDeleteTransform(xform); + return 1; +} + + + +// This one does create a Color Rendering Dictionary. +// CRD are always LUT-Based, no matter if profile is +// implemented as matrix-shaper. + +static +cmsUInt32Number GenerateCRD(cmsContext ContextID, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, cmsUInt32Number dwFlags, + cmsIOHANDLER* mem) +{ + cmsUInt32Number dwBytesUsed; + + if (!(dwFlags & cmsFLAGS_NODEFAULTRESOURCEDEF)) { + + EmitHeader(mem, "Color Rendering Dictionary (CRD)", hProfile); + } + + + // Is a named color profile? + if (cmsGetDeviceClass(hProfile) == cmsSigNamedColorClass) { + + if (!WriteNamedColorCRD(mem, hProfile, Intent, dwFlags)) { + return 0; + } + } + else { + + // CRD are always implemented as LUT + + if (!WriteOutputLUT(mem, hProfile, Intent, dwFlags)) { + return 0; + } + } + + if (!(dwFlags & cmsFLAGS_NODEFAULTRESOURCEDEF)) { + + _cmsIOPrintf(mem, "%%%%EndResource\n"); + _cmsIOPrintf(mem, "\n%% CRD End\n"); + } + + // Done, keep memory usage + dwBytesUsed = mem ->UsedSpace; + + // Finally, return used byte count + return dwBytesUsed; + + cmsUNUSED_PARAMETER(ContextID); +} + + + + +cmsUInt32Number CMSEXPORT cmsGetPostScriptColorResource(cmsContext ContextID, + cmsPSResourceType Type, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags, + cmsIOHANDLER* io) +{ + cmsUInt32Number rc; + + + switch (Type) { + + case cmsPS_RESOURCE_CSA: + rc = GenerateCSA(ContextID, hProfile, Intent, dwFlags, io); + break; + + default: + case cmsPS_RESOURCE_CRD: + rc = GenerateCRD(ContextID, hProfile, Intent, dwFlags, io); + break; + } + + return rc; +} + + + +cmsUInt32Number CMSEXPORT cmsGetPostScriptCRD(cmsContext ContextID, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, cmsUInt32Number dwFlags, + void* Buffer, cmsUInt32Number dwBufferLen) +{ + cmsIOHANDLER* mem; + cmsUInt32Number dwBytesUsed; + + // Set up the serialization engine + if (Buffer == NULL) + mem = cmsOpenIOhandlerFromNULL(ContextID); + else + mem = cmsOpenIOhandlerFromMem(ContextID, Buffer, dwBufferLen, "w"); + + if (!mem) return 0; + + dwBytesUsed = cmsGetPostScriptColorResource(ContextID, cmsPS_RESOURCE_CRD, hProfile, Intent, dwFlags, mem); + + // Get rid of memory stream + cmsCloseIOhandler(mem); + + return dwBytesUsed; +} + + + +// Does create a Color Space Array on XYZ colorspace for PostScript usage +cmsUInt32Number CMSEXPORT cmsGetPostScriptCSA(cmsContext ContextID, + cmsHPROFILE hProfile, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags, + void* Buffer, + cmsUInt32Number dwBufferLen) +{ + cmsIOHANDLER* mem; + cmsUInt32Number dwBytesUsed; + + if (Buffer == NULL) + mem = cmsOpenIOhandlerFromNULL(ContextID); + else + mem = cmsOpenIOhandlerFromMem(ContextID, Buffer, dwBufferLen, "w"); + + if (!mem) return 0; + + dwBytesUsed = cmsGetPostScriptColorResource(ContextID, cmsPS_RESOURCE_CSA, hProfile, Intent, dwFlags, mem); + + // Get rid of memory stream + cmsCloseIOhandler(mem); + + return dwBytesUsed; + +} Index: sdk/lib/3rdparty/lcms2/cmssamp.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmssamp.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmssamp.c (working copy) @@ -0,0 +1,547 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +#define cmsmin(a, b) (((a) < (b)) ? (a) : (b)) +#define cmsmax(a, b) (((a) > (b)) ? (a) : (b)) + +// This file contains routines for resampling and LUT optimization, black point detection +// and black preservation. + +// Black point detection ------------------------------------------------------------------------- + + +// PCS -> PCS round trip transform, always uses relative intent on the device -> pcs +static +cmsHTRANSFORM CreateRoundtripXForm(cmsHPROFILE hProfile, cmsUInt32Number nIntent) +{ + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsHPROFILE hLab = cmsCreateLab4ProfileTHR(ContextID, NULL); + cmsHTRANSFORM xform; + cmsBool BPC[4] = { FALSE, FALSE, FALSE, FALSE }; + cmsFloat64Number States[4] = { 1.0, 1.0, 1.0, 1.0 }; + cmsHPROFILE hProfiles[4]; + cmsUInt32Number Intents[4]; + + hProfiles[0] = hLab; hProfiles[1] = hProfile; hProfiles[2] = hProfile; hProfiles[3] = hLab; + Intents[0] = INTENT_RELATIVE_COLORIMETRIC; Intents[1] = nIntent; Intents[2] = INTENT_RELATIVE_COLORIMETRIC; Intents[3] = INTENT_RELATIVE_COLORIMETRIC; + + xform = cmsCreateExtendedTransform(ContextID, 4, hProfiles, BPC, Intents, + States, NULL, 0, TYPE_Lab_DBL, TYPE_Lab_DBL, cmsFLAGS_NOCACHE|cmsFLAGS_NOOPTIMIZE); + + cmsCloseProfile(hLab); + return xform; +} + +// Use darker colorants to obtain black point. This works in the relative colorimetric intent and +// assumes more ink results in darker colors. No ink limit is assumed. +static +cmsBool BlackPointAsDarkerColorant(cmsHPROFILE hInput, + cmsUInt32Number Intent, + cmsCIEXYZ* BlackPoint, + cmsUInt32Number dwFlags) +{ + cmsUInt16Number *Black; + cmsHTRANSFORM xform; + cmsColorSpaceSignature Space; + cmsUInt32Number nChannels; + cmsUInt32Number dwFormat; + cmsHPROFILE hLab; + cmsCIELab Lab; + cmsCIEXYZ BlackXYZ; + cmsContext ContextID = cmsGetProfileContextID(hInput); + + // If the profile does not support input direction, assume Black point 0 + if (!cmsIsIntentSupported(hInput, Intent, LCMS_USED_AS_INPUT)) { + + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // Create a formatter which has n channels and floating point + dwFormat = cmsFormatterForColorspaceOfProfile(hInput, 2, FALSE); + + // Try to get black by using black colorant + Space = cmsGetColorSpace(hInput); + + // This function returns darker colorant in 16 bits for several spaces + if (!_cmsEndPointsBySpace(Space, NULL, &Black, &nChannels)) { + + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + if (nChannels != T_CHANNELS(dwFormat)) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // Lab will be used as the output space, but lab2 will avoid recursion + hLab = cmsCreateLab2ProfileTHR(ContextID, NULL); + if (hLab == NULL) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // Create the transform + xform = cmsCreateTransformTHR(ContextID, hInput, dwFormat, + hLab, TYPE_Lab_DBL, Intent, cmsFLAGS_NOOPTIMIZE|cmsFLAGS_NOCACHE); + cmsCloseProfile(hLab); + + if (xform == NULL) { + + // Something went wrong. Get rid of open resources and return zero as black + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // Convert black to Lab + cmsDoTransform(xform, Black, &Lab, 1); + + // Force it to be neutral, clip to max. L* of 50 + Lab.a = Lab.b = 0; + if (Lab.L > 50) Lab.L = 50; + + // Free the resources + cmsDeleteTransform(xform); + + // Convert from Lab (which is now clipped) to XYZ. + cmsLab2XYZ(NULL, &BlackXYZ, &Lab); + + if (BlackPoint != NULL) + *BlackPoint = BlackXYZ; + + return TRUE; + + cmsUNUSED_PARAMETER(dwFlags); +} + +// Get a black point of output CMYK profile, discounting any ink-limiting embedded +// in the profile. For doing that, we use perceptual intent in input direction: +// Lab (0, 0, 0) -> [Perceptual] Profile -> CMYK -> [Rel. colorimetric] Profile -> Lab +static +cmsBool BlackPointUsingPerceptualBlack(cmsCIEXYZ* BlackPoint, cmsHPROFILE hProfile) +{ + cmsHTRANSFORM hRoundTrip; + cmsCIELab LabIn, LabOut; + cmsCIEXYZ BlackXYZ; + + // Is the intent supported by the profile? + if (!cmsIsIntentSupported(hProfile, INTENT_PERCEPTUAL, LCMS_USED_AS_INPUT)) { + + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return TRUE; + } + + hRoundTrip = CreateRoundtripXForm(hProfile, INTENT_PERCEPTUAL); + if (hRoundTrip == NULL) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + LabIn.L = LabIn.a = LabIn.b = 0; + cmsDoTransform(hRoundTrip, &LabIn, &LabOut, 1); + + // Clip Lab to reasonable limits + if (LabOut.L > 50) LabOut.L = 50; + LabOut.a = LabOut.b = 0; + + cmsDeleteTransform(hRoundTrip); + + // Convert it to XYZ + cmsLab2XYZ(NULL, &BlackXYZ, &LabOut); + + if (BlackPoint != NULL) + *BlackPoint = BlackXYZ; + + return TRUE; +} + +// This function shouldn't exist at all -- there is such quantity of broken +// profiles on black point tag, that we must somehow fix chromaticity to +// avoid huge tint when doing Black point compensation. This function does +// just that. There is a special flag for using black point tag, but turned +// off by default because it is bogus on most profiles. The detection algorithm +// involves to turn BP to neutral and to use only L component. +cmsBool CMSEXPORT cmsDetectBlackPoint(cmsCIEXYZ* BlackPoint, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags) +{ + cmsProfileClassSignature devClass; + + // Make sure the device class is adequate + devClass = cmsGetDeviceClass(hProfile); + if (devClass == cmsSigLinkClass || + devClass == cmsSigAbstractClass || + devClass == cmsSigNamedColorClass) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // Make sure intent is adequate + if (Intent != INTENT_PERCEPTUAL && + Intent != INTENT_RELATIVE_COLORIMETRIC && + Intent != INTENT_SATURATION) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // v4 + perceptual & saturation intents does have its own black point, and it is + // well specified enough to use it. Black point tag is deprecated in V4. + if ((cmsGetEncodedICCversion(hProfile) >= 0x4000000) && + (Intent == INTENT_PERCEPTUAL || Intent == INTENT_SATURATION)) { + + // Matrix shaper share MRC & perceptual intents + if (cmsIsMatrixShaper(hProfile)) + return BlackPointAsDarkerColorant(hProfile, INTENT_RELATIVE_COLORIMETRIC, BlackPoint, 0); + + // Get Perceptual black out of v4 profiles. That is fixed for perceptual & saturation intents + BlackPoint -> X = cmsPERCEPTUAL_BLACK_X; + BlackPoint -> Y = cmsPERCEPTUAL_BLACK_Y; + BlackPoint -> Z = cmsPERCEPTUAL_BLACK_Z; + + return TRUE; + } + + +#ifdef CMS_USE_PROFILE_BLACK_POINT_TAG + + // v2, v4 rel/abs colorimetric + if (cmsIsTag(hProfile, cmsSigMediaBlackPointTag) && + Intent == INTENT_RELATIVE_COLORIMETRIC) { + + cmsCIEXYZ *BlackPtr, BlackXYZ, UntrustedBlackPoint, TrustedBlackPoint, MediaWhite; + cmsCIELab Lab; + + // If black point is specified, then use it, + + BlackPtr = cmsReadTag(hProfile, cmsSigMediaBlackPointTag); + if (BlackPtr != NULL) { + + BlackXYZ = *BlackPtr; + _cmsReadMediaWhitePoint(&MediaWhite, hProfile); + + // Black point is absolute XYZ, so adapt to D50 to get PCS value + cmsAdaptToIlluminant(&UntrustedBlackPoint, &MediaWhite, cmsD50_XYZ(), &BlackXYZ); + + // Force a=b=0 to get rid of any chroma + cmsXYZ2Lab(NULL, &Lab, &UntrustedBlackPoint); + Lab.a = Lab.b = 0; + if (Lab.L > 50) Lab.L = 50; // Clip to L* <= 50 + cmsLab2XYZ(NULL, &TrustedBlackPoint, &Lab); + + if (BlackPoint != NULL) + *BlackPoint = TrustedBlackPoint; + + return TRUE; + } + } +#endif + + // That is about v2 profiles. + + // If output profile, discount ink-limiting and that's all + if (Intent == INTENT_RELATIVE_COLORIMETRIC && + (cmsGetDeviceClass(hProfile) == cmsSigOutputClass) && + (cmsGetColorSpace(hProfile) == cmsSigCmykData)) + return BlackPointUsingPerceptualBlack(BlackPoint, hProfile); + + // Nope, compute BP using current intent. + return BlackPointAsDarkerColorant(hProfile, Intent, BlackPoint, dwFlags); +} + + + +// --------------------------------------------------------------------------------------------------------- + +// Least Squares Fit of a Quadratic Curve to Data +// http://www.personal.psu.edu/jhm/f90/lectures/lsq2.html + +static +cmsFloat64Number RootOfLeastSquaresFitQuadraticCurve(int n, cmsFloat64Number x[], cmsFloat64Number y[]) +{ + double sum_x = 0, sum_x2 = 0, sum_x3 = 0, sum_x4 = 0; + double sum_y = 0, sum_yx = 0, sum_yx2 = 0; + double d, a, b, c; + int i; + cmsMAT3 m; + cmsVEC3 v, res; + + if (n < 4) return 0; + + for (i=0; i < n; i++) { + + double xn = x[i]; + double yn = y[i]; + + sum_x += xn; + sum_x2 += xn*xn; + sum_x3 += xn*xn*xn; + sum_x4 += xn*xn*xn*xn; + + sum_y += yn; + sum_yx += yn*xn; + sum_yx2 += yn*xn*xn; + } + + _cmsVEC3init(&m.v[0], n, sum_x, sum_x2); + _cmsVEC3init(&m.v[1], sum_x, sum_x2, sum_x3); + _cmsVEC3init(&m.v[2], sum_x2, sum_x3, sum_x4); + + _cmsVEC3init(&v, sum_y, sum_yx, sum_yx2); + + if (!_cmsMAT3solve(&res, &m, &v)) return 0; + + + a = res.n[2]; + b = res.n[1]; + c = res.n[0]; + + if (fabs(a) < 1.0E-10) { + + return cmsmin(0, cmsmax(50, -c/b )); + } + else { + + d = b*b - 4.0 * a * c; + if (d <= 0) { + return 0; + } + else { + + double rt = (-b + sqrt(d)) / (2.0 * a); + + return cmsmax(0, cmsmin(50, rt)); + } + } + +} + + + +// Calculates the black point of a destination profile. +// This algorithm comes from the Adobe paper disclosing its black point compensation method. +cmsBool CMSEXPORT cmsDetectDestinationBlackPoint(cmsCIEXYZ* BlackPoint, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags) +{ + cmsColorSpaceSignature ColorSpace; + cmsHTRANSFORM hRoundTrip = NULL; + cmsCIELab InitialLab, destLab, Lab; + cmsFloat64Number inRamp[256], outRamp[256]; + cmsFloat64Number MinL, MaxL; + cmsBool NearlyStraightMidrange = TRUE; + cmsFloat64Number yRamp[256]; + cmsFloat64Number x[256], y[256]; + cmsFloat64Number lo, hi; + int n, l; + cmsProfileClassSignature devClass; + + // Make sure the device class is adequate + devClass = cmsGetDeviceClass(hProfile); + if (devClass == cmsSigLinkClass || + devClass == cmsSigAbstractClass || + devClass == cmsSigNamedColorClass) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + // Make sure intent is adequate + if (Intent != INTENT_PERCEPTUAL && + Intent != INTENT_RELATIVE_COLORIMETRIC && + Intent != INTENT_SATURATION) { + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + + // v4 + perceptual & saturation intents does have its own black point, and it is + // well specified enough to use it. Black point tag is deprecated in V4. + if ((cmsGetEncodedICCversion(hProfile) >= 0x4000000) && + (Intent == INTENT_PERCEPTUAL || Intent == INTENT_SATURATION)) { + + // Matrix shaper share MRC & perceptual intents + if (cmsIsMatrixShaper(hProfile)) + return BlackPointAsDarkerColorant(hProfile, INTENT_RELATIVE_COLORIMETRIC, BlackPoint, 0); + + // Get Perceptual black out of v4 profiles. That is fixed for perceptual & saturation intents + BlackPoint -> X = cmsPERCEPTUAL_BLACK_X; + BlackPoint -> Y = cmsPERCEPTUAL_BLACK_Y; + BlackPoint -> Z = cmsPERCEPTUAL_BLACK_Z; + return TRUE; + } + + + // Check if the profile is lut based and gray, rgb or cmyk (7.2 in Adobe's document) + ColorSpace = cmsGetColorSpace(hProfile); + if (!cmsIsCLUT(hProfile, Intent, LCMS_USED_AS_OUTPUT ) || + (ColorSpace != cmsSigGrayData && + ColorSpace != cmsSigRgbData && + ColorSpace != cmsSigCmykData)) { + + // In this case, handle as input case + return cmsDetectBlackPoint(BlackPoint, hProfile, Intent, dwFlags); + } + + // It is one of the valid cases!, use Adobe algorithm + + + // Set a first guess, that should work on good profiles. + if (Intent == INTENT_RELATIVE_COLORIMETRIC) { + + cmsCIEXYZ IniXYZ; + + // calculate initial Lab as source black point + if (!cmsDetectBlackPoint(&IniXYZ, hProfile, Intent, dwFlags)) { + return FALSE; + } + + // convert the XYZ to lab + cmsXYZ2Lab(NULL, &InitialLab, &IniXYZ); + + } else { + + // set the initial Lab to zero, that should be the black point for perceptual and saturation + InitialLab.L = 0; + InitialLab.a = 0; + InitialLab.b = 0; + } + + + // Step 2 + // ====== + + // Create a roundtrip. Define a Transform BT for all x in L*a*b* + hRoundTrip = CreateRoundtripXForm(hProfile, Intent); + if (hRoundTrip == NULL) return FALSE; + + // Compute ramps + + for (l=0; l < 256; l++) { + + Lab.L = (cmsFloat64Number) (l * 100.0) / 255.0; + Lab.a = cmsmin(50, cmsmax(-50, InitialLab.a)); + Lab.b = cmsmin(50, cmsmax(-50, InitialLab.b)); + + cmsDoTransform(hRoundTrip, &Lab, &destLab, 1); + + inRamp[l] = Lab.L; + outRamp[l] = destLab.L; + } + + // Make monotonic + for (l = 254; l > 0; --l) { + outRamp[l] = cmsmin(outRamp[l], outRamp[l+1]); + } + + // Check + if (! (outRamp[0] < outRamp[255])) { + + cmsDeleteTransform(hRoundTrip); + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + + // Test for mid range straight (only on relative colorimetric) + NearlyStraightMidrange = TRUE; + MinL = outRamp[0]; MaxL = outRamp[255]; + if (Intent == INTENT_RELATIVE_COLORIMETRIC) { + + for (l=0; l < 256; l++) { + + if (! ((inRamp[l] <= MinL + 0.2 * (MaxL - MinL) ) || + (fabs(inRamp[l] - outRamp[l]) < 4.0 ))) + NearlyStraightMidrange = FALSE; + } + + // If the mid range is straight (as determined above) then the + // DestinationBlackPoint shall be the same as initialLab. + // Otherwise, the DestinationBlackPoint shall be determined + // using curve fitting. + if (NearlyStraightMidrange) { + + cmsLab2XYZ(NULL, BlackPoint, &InitialLab); + cmsDeleteTransform(hRoundTrip); + return TRUE; + } + } + + + // curve fitting: The round-trip curve normally looks like a nearly constant section at the black point, + // with a corner and a nearly straight line to the white point. + for (l=0; l < 256; l++) { + + yRamp[l] = (outRamp[l] - MinL) / (MaxL - MinL); + } + + // find the black point using the least squares error quadratic curve fitting + if (Intent == INTENT_RELATIVE_COLORIMETRIC) { + lo = 0.1; + hi = 0.5; + } + else { + + // Perceptual and saturation + lo = 0.03; + hi = 0.25; + } + + // Capture shadow points for the fitting. + n = 0; + for (l=0; l < 256; l++) { + + cmsFloat64Number ff = yRamp[l]; + + if (ff >= lo && ff < hi) { + x[n] = inRamp[l]; + y[n] = yRamp[l]; + n++; + } + } + + + // No suitable points + if (n < 3 ) { + cmsDeleteTransform(hRoundTrip); + BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; + return FALSE; + } + + + // fit and get the vertex of quadratic curve + Lab.L = RootOfLeastSquaresFitQuadraticCurve(n, x, y); + + if (Lab.L < 0.0) { // clip to zero L* if the vertex is negative + Lab.L = 0; + } + + Lab.a = InitialLab.a; + Lab.b = InitialLab.b; + + cmsLab2XYZ(NULL, BlackPoint, &Lab); + + cmsDeleteTransform(hRoundTrip); + return TRUE; +} Index: sdk/lib/3rdparty/lcms2/cmssm.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmssm.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmssm.c (working copy) @@ -0,0 +1,736 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// ------------------------------------------------------------------------ + +// Gamut boundary description by using Jan Morovic's Segment maxima method +// Many thanks to Jan for allowing me to use his algorithm. + +// r = C* +// alpha = Hab +// theta = L* + +#define SECTORS 16 // number of divisions in alpha and theta + +// Spherical coordinates +typedef struct { + + cmsFloat64Number r; + cmsFloat64Number alpha; + cmsFloat64Number theta; + +} cmsSpherical; + +typedef enum { + GP_EMPTY, + GP_SPECIFIED, + GP_MODELED + + } GDBPointType; + + +typedef struct { + + GDBPointType Type; + cmsSpherical p; // Keep also alpha & theta of maximum + +} cmsGDBPoint; + + +typedef struct { + + cmsContext ContextID; + cmsGDBPoint Gamut[SECTORS][SECTORS]; + +} cmsGDB; + + +// A line using the parametric form +// P = a + t*u +typedef struct { + + cmsVEC3 a; + cmsVEC3 u; + +} cmsLine; + + +// A plane using the parametric form +// Q = b + r*v + s*w +typedef struct { + + cmsVEC3 b; + cmsVEC3 v; + cmsVEC3 w; + +} cmsPlane; + + + +// -------------------------------------------------------------------------------------------- + +// ATAN2() which always returns degree positive numbers + +static +cmsFloat64Number _cmsAtan2(cmsFloat64Number y, cmsFloat64Number x) +{ + cmsFloat64Number a; + + // Deal with undefined case + if (x == 0.0 && y == 0.0) return 0; + + a = (atan2(y, x) * 180.0) / M_PI; + + while (a < 0) { + a += 360; + } + + return a; +} + +// Convert to spherical coordinates +static +void ToSpherical(cmsSpherical* sp, const cmsVEC3* v) +{ + + cmsFloat64Number L, a, b; + + L = v ->n[VX]; + a = v ->n[VY]; + b = v ->n[VZ]; + + sp ->r = sqrt( L*L + a*a + b*b ); + + if (sp ->r == 0) { + sp ->alpha = sp ->theta = 0; + return; + } + + sp ->alpha = _cmsAtan2(a, b); + sp ->theta = _cmsAtan2(sqrt(a*a + b*b), L); +} + + +// Convert to cartesian from spherical +static +void ToCartesian(cmsVEC3* v, const cmsSpherical* sp) +{ + cmsFloat64Number sin_alpha; + cmsFloat64Number cos_alpha; + cmsFloat64Number sin_theta; + cmsFloat64Number cos_theta; + cmsFloat64Number L, a, b; + + sin_alpha = sin((M_PI * sp ->alpha) / 180.0); + cos_alpha = cos((M_PI * sp ->alpha) / 180.0); + sin_theta = sin((M_PI * sp ->theta) / 180.0); + cos_theta = cos((M_PI * sp ->theta) / 180.0); + + a = sp ->r * sin_theta * sin_alpha; + b = sp ->r * sin_theta * cos_alpha; + L = sp ->r * cos_theta; + + v ->n[VX] = L; + v ->n[VY] = a; + v ->n[VZ] = b; +} + + +// Quantize sector of a spherical coordinate. Saturate 360, 180 to last sector +// The limits are the centers of each sector, so +static +void QuantizeToSector(const cmsSpherical* sp, int* alpha, int* theta) +{ + *alpha = (int) floor(((sp->alpha * (SECTORS)) / 360.0) ); + *theta = (int) floor(((sp->theta * (SECTORS)) / 180.0) ); + + if (*alpha >= SECTORS) + *alpha = SECTORS-1; + if (*theta >= SECTORS) + *theta = SECTORS-1; +} + + +// Line determined by 2 points +static +void LineOf2Points(cmsLine* line, cmsVEC3* a, cmsVEC3* b) +{ + + _cmsVEC3init(&line ->a, a ->n[VX], a ->n[VY], a ->n[VZ]); + _cmsVEC3init(&line ->u, b ->n[VX] - a ->n[VX], + b ->n[VY] - a ->n[VY], + b ->n[VZ] - a ->n[VZ]); +} + + +// Evaluate parametric line +static +void GetPointOfLine(cmsVEC3* p, const cmsLine* line, cmsFloat64Number t) +{ + p ->n[VX] = line ->a.n[VX] + t * line->u.n[VX]; + p ->n[VY] = line ->a.n[VY] + t * line->u.n[VY]; + p ->n[VZ] = line ->a.n[VZ] + t * line->u.n[VZ]; +} + + + +/* + Closest point in sector line1 to sector line2 (both are defined as 0 <=t <= 1) + http://softsurfer.com/Archive/algorithm_0106/algorithm_0106.htm + + Copyright 2001, softSurfer (www.softsurfer.com) + This code may be freely used and modified for any purpose + providing that this copyright notice is included with it. + SoftSurfer makes no warranty for this code, and cannot be held + liable for any real or imagined damage resulting from its use. + Users of this code must verify correctness for their application. + +*/ + +static +cmsBool ClosestLineToLine(cmsVEC3* r, const cmsLine* line1, const cmsLine* line2) +{ + cmsFloat64Number a, b, c, d, e, D; + cmsFloat64Number sc, sN, sD; + //cmsFloat64Number tc; // left for future use + cmsFloat64Number tN, tD; + cmsVEC3 w0; + + _cmsVEC3minus(&w0, &line1 ->a, &line2 ->a); + + a = _cmsVEC3dot(&line1 ->u, &line1 ->u); + b = _cmsVEC3dot(&line1 ->u, &line2 ->u); + c = _cmsVEC3dot(&line2 ->u, &line2 ->u); + d = _cmsVEC3dot(&line1 ->u, &w0); + e = _cmsVEC3dot(&line2 ->u, &w0); + + D = a*c - b * b; // Denominator + sD = tD = D; // default sD = D >= 0 + + if (D < MATRIX_DET_TOLERANCE) { // the lines are almost parallel + + sN = 0.0; // force using point P0 on segment S1 + sD = 1.0; // to prevent possible division by 0.0 later + tN = e; + tD = c; + } + else { // get the closest points on the infinite lines + + sN = (b*e - c*d); + tN = (a*e - b*d); + + if (sN < 0.0) { // sc < 0 => the s=0 edge is visible + + sN = 0.0; + tN = e; + tD = c; + } + else if (sN > sD) { // sc > 1 => the s=1 edge is visible + sN = sD; + tN = e + b; + tD = c; + } + } + + if (tN < 0.0) { // tc < 0 => the t=0 edge is visible + + tN = 0.0; + // recompute sc for this edge + if (-d < 0.0) + sN = 0.0; + else if (-d > a) + sN = sD; + else { + sN = -d; + sD = a; + } + } + else if (tN > tD) { // tc > 1 => the t=1 edge is visible + + tN = tD; + + // recompute sc for this edge + if ((-d + b) < 0.0) + sN = 0; + else if ((-d + b) > a) + sN = sD; + else { + sN = (-d + b); + sD = a; + } + } + // finally do the division to get sc and tc + sc = (fabs(sN) < MATRIX_DET_TOLERANCE ? 0.0 : sN / sD); + //tc = (fabs(tN) < MATRIX_DET_TOLERANCE ? 0.0 : tN / tD); // left for future use. + + GetPointOfLine(r, line1, sc); + return TRUE; +} + + + +// ------------------------------------------------------------------ Wrapper + + +// Allocate & free structure +cmsHANDLE CMSEXPORT cmsGBDAlloc(cmsContext ContextID) +{ + cmsGDB* gbd = (cmsGDB*) _cmsMallocZero(ContextID, sizeof(cmsGDB)); + if (gbd == NULL) return NULL; + + gbd -> ContextID = ContextID; + + return (cmsHANDLE) gbd; +} + + +void CMSEXPORT cmsGBDFree(cmsHANDLE hGBD) +{ + cmsGDB* gbd = (cmsGDB*) hGBD; + if (hGBD != NULL) + _cmsFree(gbd->ContextID, (void*) gbd); +} + + +// Auxiliary to retrieve a pointer to the segmentr containing the Lab value +static +cmsGDBPoint* GetPoint(cmsGDB* gbd, const cmsCIELab* Lab, cmsSpherical* sp) +{ + cmsVEC3 v; + int alpha, theta; + + // Housekeeping + _cmsAssert(gbd != NULL); + _cmsAssert(Lab != NULL); + _cmsAssert(sp != NULL); + + // Center L* by subtracting half of its domain, that's 50 + _cmsVEC3init(&v, Lab ->L - 50.0, Lab ->a, Lab ->b); + + // Convert to spherical coordinates + ToSpherical(sp, &v); + + if (sp ->r < 0 || sp ->alpha < 0 || sp->theta < 0) { + cmsSignalError(gbd ->ContextID, cmsERROR_RANGE, "spherical value out of range"); + return NULL; + } + + // On which sector it falls? + QuantizeToSector(sp, &alpha, &theta); + + if (alpha < 0 || theta < 0 || alpha >= SECTORS || theta >= SECTORS) { + cmsSignalError(gbd ->ContextID, cmsERROR_RANGE, " quadrant out of range"); + return NULL; + } + + // Get pointer to the sector + return &gbd ->Gamut[theta][alpha]; +} + +// Add a point to gamut descriptor. Point to add is in Lab color space. +// GBD is centered on a=b=0 and L*=50 +cmsBool CMSEXPORT cmsGDBAddPoint(cmsHANDLE hGBD, const cmsCIELab* Lab) +{ + cmsGDB* gbd = (cmsGDB*) hGBD; + cmsGDBPoint* ptr; + cmsSpherical sp; + + + // Get pointer to the sector + ptr = GetPoint(gbd, Lab, &sp); + if (ptr == NULL) return FALSE; + + // If no samples at this sector, add it + if (ptr ->Type == GP_EMPTY) { + + ptr -> Type = GP_SPECIFIED; + ptr -> p = sp; + } + else { + + + // Substitute only if radius is greater + if (sp.r > ptr -> p.r) { + + ptr -> Type = GP_SPECIFIED; + ptr -> p = sp; + } + } + + return TRUE; +} + +// Check if a given point falls inside gamut +cmsBool CMSEXPORT cmsGDBCheckPoint(cmsHANDLE hGBD, const cmsCIELab* Lab) +{ + cmsGDB* gbd = (cmsGDB*) hGBD; + cmsGDBPoint* ptr; + cmsSpherical sp; + + // Get pointer to the sector + ptr = GetPoint(gbd, Lab, &sp); + if (ptr == NULL) return FALSE; + + // If no samples at this sector, return no data + if (ptr ->Type == GP_EMPTY) return FALSE; + + // In gamut only if radius is greater + + return (sp.r <= ptr -> p.r); +} + +// ----------------------------------------------------------------------------------------------------------------------- + +// Find near sectors. The list of sectors found is returned on Close[]. +// The function returns the number of sectors as well. + +// 24 9 10 11 12 +// 23 8 1 2 13 +// 22 7 * 3 14 +// 21 6 5 4 15 +// 20 19 18 17 16 +// +// Those are the relative movements +// {-2,-2}, {-1, -2}, {0, -2}, {+1, -2}, {+2, -2}, +// {-2,-1}, {-1, -1}, {0, -1}, {+1, -1}, {+2, -1}, +// {-2, 0}, {-1, 0}, {0, 0}, {+1, 0}, {+2, 0}, +// {-2,+1}, {-1, +1}, {0, +1}, {+1, +1}, {+2, +1}, +// {-2,+2}, {-1, +2}, {0, +2}, {+1, +2}, {+2, +2}}; + + +static +const struct _spiral { + + int AdvX, AdvY; + + } Spiral[] = { {0, -1}, {+1, -1}, {+1, 0}, {+1, +1}, {0, +1}, {-1, +1}, + {-1, 0}, {-1, -1}, {-1, -2}, {0, -2}, {+1, -2}, {+2, -2}, + {+2, -1}, {+2, 0}, {+2, +1}, {+2, +2}, {+1, +2}, {0, +2}, + {-1, +2}, {-2, +2}, {-2, +1}, {-2, 0}, {-2, -1}, {-2, -2} }; + +#define NSTEPS (sizeof(Spiral) / sizeof(struct _spiral)) + +static +int FindNearSectors(cmsGDB* gbd, int alpha, int theta, cmsGDBPoint* Close[]) +{ + int nSectors = 0; + int a, t; + cmsUInt32Number i; + cmsGDBPoint* pt; + + for (i=0; i < NSTEPS; i++) { + + a = alpha + Spiral[i].AdvX; + t = theta + Spiral[i].AdvY; + + // Cycle at the end + a %= SECTORS; + t %= SECTORS; + + // Cycle at the begin + if (a < 0) a = SECTORS + a; + if (t < 0) t = SECTORS + t; + + pt = &gbd ->Gamut[t][a]; + + if (pt -> Type != GP_EMPTY) { + + Close[nSectors++] = pt; + } + } + + return nSectors; +} + + +// Interpolate a missing sector. Method identifies whatever this is top, bottom or mid +static +cmsBool InterpolateMissingSector(cmsGDB* gbd, int alpha, int theta) +{ + cmsSpherical sp; + cmsVEC3 Lab; + cmsVEC3 Centre; + cmsLine ray; + int nCloseSectors; + cmsGDBPoint* Close[NSTEPS + 1]; + cmsSpherical closel, templ; + cmsLine edge; + int k, m; + + // Is that point already specified? + if (gbd ->Gamut[theta][alpha].Type != GP_EMPTY) return TRUE; + + // Fill close points + nCloseSectors = FindNearSectors(gbd, alpha, theta, Close); + + + // Find a central point on the sector + sp.alpha = (cmsFloat64Number) ((alpha + 0.5) * 360.0) / (SECTORS); + sp.theta = (cmsFloat64Number) ((theta + 0.5) * 180.0) / (SECTORS); + sp.r = 50.0; + + // Convert to Cartesian + ToCartesian(&Lab, &sp); + + // Create a ray line from centre to this point + _cmsVEC3init(&Centre, 50.0, 0, 0); + LineOf2Points(&ray, &Lab, &Centre); + + // For all close sectors + closel.r = 0.0; + closel.alpha = 0; + closel.theta = 0; + + for (k=0; k < nCloseSectors; k++) { + + for(m = k+1; m < nCloseSectors; m++) { + + cmsVEC3 temp, a1, a2; + + // A line from sector to sector + ToCartesian(&a1, &Close[k]->p); + ToCartesian(&a2, &Close[m]->p); + + LineOf2Points(&edge, &a1, &a2); + + // Find a line + ClosestLineToLine(&temp, &ray, &edge); + + // Convert to spherical + ToSpherical(&templ, &temp); + + + if ( templ.r > closel.r && + templ.theta >= (theta*180.0/SECTORS) && + templ.theta <= ((theta+1)*180.0/SECTORS) && + templ.alpha >= (alpha*360.0/SECTORS) && + templ.alpha <= ((alpha+1)*360.0/SECTORS)) { + + closel = templ; + } + } + } + + gbd ->Gamut[theta][alpha].p = closel; + gbd ->Gamut[theta][alpha].Type = GP_MODELED; + + return TRUE; + +} + + +// Interpolate missing parts. The algorithm fist computes slices at +// theta=0 and theta=Max. +cmsBool CMSEXPORT cmsGDBCompute(cmsHANDLE hGBD, cmsUInt32Number dwFlags) +{ + int alpha, theta; + cmsGDB* gbd = (cmsGDB*) hGBD; + + _cmsAssert(hGBD != NULL); + + // Interpolate black + for (alpha = 0; alpha < SECTORS; alpha++) { + + if (!InterpolateMissingSector(gbd, alpha, 0)) return FALSE; + } + + // Interpolate white + for (alpha = 0; alpha < SECTORS; alpha++) { + + if (!InterpolateMissingSector(gbd, alpha, SECTORS-1)) return FALSE; + } + + + // Interpolate Mid + for (theta = 1; theta < SECTORS; theta++) { + for (alpha = 0; alpha < SECTORS; alpha++) { + + if (!InterpolateMissingSector(gbd, alpha, theta)) return FALSE; + } + } + + // Done + return TRUE; + + cmsUNUSED_PARAMETER(dwFlags); +} + + + + +// -------------------------------------------------------------------------------------------------------- + +// Great for debug, but not suitable for real use + +#if 0 +cmsBool cmsGBDdumpVRML(cmsHANDLE hGBD, const char* fname) +{ + FILE* fp; + int i, j; + cmsGDB* gbd = (cmsGDB*) hGBD; + cmsGDBPoint* pt; + + fp = fopen (fname, "wt"); + if (fp == NULL) + return FALSE; + + fprintf (fp, "#VRML V2.0 utf8\n"); + + // set the viewing orientation and distance + fprintf (fp, "DEF CamTest Group {\n"); + fprintf (fp, "\tchildren [\n"); + fprintf (fp, "\t\tDEF Cameras Group {\n"); + fprintf (fp, "\t\t\tchildren [\n"); + fprintf (fp, "\t\t\t\tDEF DefaultView Viewpoint {\n"); + fprintf (fp, "\t\t\t\t\tposition 0 0 340\n"); + fprintf (fp, "\t\t\t\t\torientation 0 0 1 0\n"); + fprintf (fp, "\t\t\t\t\tdescription \"default view\"\n"); + fprintf (fp, "\t\t\t\t}\n"); + fprintf (fp, "\t\t\t]\n"); + fprintf (fp, "\t\t},\n"); + fprintf (fp, "\t]\n"); + fprintf (fp, "}\n"); + + // Output the background stuff + fprintf (fp, "Background {\n"); + fprintf (fp, "\tskyColor [\n"); + fprintf (fp, "\t\t.5 .5 .5\n"); + fprintf (fp, "\t]\n"); + fprintf (fp, "}\n"); + + // Output the shape stuff + fprintf (fp, "Transform {\n"); + fprintf (fp, "\tscale .3 .3 .3\n"); + fprintf (fp, "\tchildren [\n"); + + // Draw the axes as a shape: + fprintf (fp, "\t\tShape {\n"); + fprintf (fp, "\t\t\tappearance Appearance {\n"); + fprintf (fp, "\t\t\t\tmaterial Material {\n"); + fprintf (fp, "\t\t\t\t\tdiffuseColor 0 0.8 0\n"); + fprintf (fp, "\t\t\t\t\temissiveColor 1.0 1.0 1.0\n"); + fprintf (fp, "\t\t\t\t\tshininess 0.8\n"); + fprintf (fp, "\t\t\t\t}\n"); + fprintf (fp, "\t\t\t}\n"); + fprintf (fp, "\t\t\tgeometry IndexedLineSet {\n"); + fprintf (fp, "\t\t\t\tcoord Coordinate {\n"); + fprintf (fp, "\t\t\t\t\tpoint [\n"); + fprintf (fp, "\t\t\t\t\t0.0 0.0 0.0,\n"); + fprintf (fp, "\t\t\t\t\t%f 0.0 0.0,\n", 255.0); + fprintf (fp, "\t\t\t\t\t0.0 %f 0.0,\n", 255.0); + fprintf (fp, "\t\t\t\t\t0.0 0.0 %f]\n", 255.0); + fprintf (fp, "\t\t\t\t}\n"); + fprintf (fp, "\t\t\t\tcoordIndex [\n"); + fprintf (fp, "\t\t\t\t\t0, 1, -1\n"); + fprintf (fp, "\t\t\t\t\t0, 2, -1\n"); + fprintf (fp, "\t\t\t\t\t0, 3, -1]\n"); + fprintf (fp, "\t\t\t}\n"); + fprintf (fp, "\t\t}\n"); + + + fprintf (fp, "\t\tShape {\n"); + fprintf (fp, "\t\t\tappearance Appearance {\n"); + fprintf (fp, "\t\t\t\tmaterial Material {\n"); + fprintf (fp, "\t\t\t\t\tdiffuseColor 0 0.8 0\n"); + fprintf (fp, "\t\t\t\t\temissiveColor 1 1 1\n"); + fprintf (fp, "\t\t\t\t\tshininess 0.8\n"); + fprintf (fp, "\t\t\t\t}\n"); + fprintf (fp, "\t\t\t}\n"); + fprintf (fp, "\t\t\tgeometry PointSet {\n"); + + // fill in the points here + fprintf (fp, "\t\t\t\tcoord Coordinate {\n"); + fprintf (fp, "\t\t\t\t\tpoint [\n"); + + // We need to transverse all gamut hull. + for (i=0; i < SECTORS; i++) + for (j=0; j < SECTORS; j++) { + + cmsVEC3 v; + + pt = &gbd ->Gamut[i][j]; + ToCartesian(&v, &pt ->p); + + fprintf (fp, "\t\t\t\t\t%g %g %g", v.n[0]+50, v.n[1], v.n[2]); + + if ((j == SECTORS - 1) && (i == SECTORS - 1)) + fprintf (fp, "]\n"); + else + fprintf (fp, ",\n"); + + } + + fprintf (fp, "\t\t\t\t}\n"); + + + + // fill in the face colors + fprintf (fp, "\t\t\t\tcolor Color {\n"); + fprintf (fp, "\t\t\t\t\tcolor [\n"); + + for (i=0; i < SECTORS; i++) + for (j=0; j < SECTORS; j++) { + + cmsVEC3 v; + + pt = &gbd ->Gamut[i][j]; + + + ToCartesian(&v, &pt ->p); + + + if (pt ->Type == GP_EMPTY) + fprintf (fp, "\t\t\t\t\t%g %g %g", 0.0, 0.0, 0.0); + else + if (pt ->Type == GP_MODELED) + fprintf (fp, "\t\t\t\t\t%g %g %g", 1.0, .5, .5); + else { + fprintf (fp, "\t\t\t\t\t%g %g %g", 1.0, 1.0, 1.0); + + } + + if ((j == SECTORS - 1) && (i == SECTORS - 1)) + fprintf (fp, "]\n"); + else + fprintf (fp, ",\n"); + } + fprintf (fp, "\t\t\t}\n"); + + + fprintf (fp, "\t\t\t}\n"); + fprintf (fp, "\t\t}\n"); + fprintf (fp, "\t]\n"); + fprintf (fp, "}\n"); + + fclose (fp); + + return TRUE; +} +#endif + Index: sdk/lib/3rdparty/lcms2/cmstypes.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmstypes.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmstypes.c (working copy) @@ -0,0 +1,5573 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Tag Serialization ----------------------------------------------------------------------------- +// This file implements every single tag and tag type as described in the ICC spec. Some types +// have been deprecated, like ncl and Data. There is no implementation for those types as there +// are no profiles holding them. The programmer can also extend this list by defining his own types +// by using the appropriate plug-in. There are three types of plug ins regarding that. First type +// allows to define new tags using any existing type. Next plug-in type allows to define new types +// and the third one is very specific: allows to extend the number of elements in the multiprocessing +// elements special type. +//-------------------------------------------------------------------------------------------------- + +// Some broken types +#define cmsCorbisBrokenXYZtype ((cmsTagTypeSignature) 0x17A505B8) +#define cmsMonacoBrokenCurveType ((cmsTagTypeSignature) 0x9478ee00) + +// This is the linked list that keeps track of the defined types +typedef struct _cmsTagTypeLinkedList_st { + + cmsTagTypeHandler Handler; + struct _cmsTagTypeLinkedList_st* Next; + +} _cmsTagTypeLinkedList; + +// Some macros to define callbacks. +#define READ_FN(x) Type_##x##_Read +#define WRITE_FN(x) Type_##x##_Write +#define FREE_FN(x) Type_##x##_Free +#define DUP_FN(x) Type_##x##_Dup + +// Helper macro to define a handler. Callbacks do have a fixed naming convention. +#define TYPE_HANDLER(t, x) { (t), READ_FN(x), WRITE_FN(x), DUP_FN(x), FREE_FN(x), NULL, 0 } + +// Helper macro to define a MPE handler. Callbacks do have a fixed naming convention +#define TYPE_MPE_HANDLER(t, x) { (t), READ_FN(x), WRITE_FN(x), GenericMPEdup, GenericMPEfree, NULL, 0 } + +// Register a new type handler. This routine is shared between normal types and MPE. LinkedList points to the optional list head +static +cmsBool RegisterTypesPlugin(cmsContext id, cmsPluginBase* Data, _cmsMemoryClient pos) +{ + cmsPluginTagType* Plugin = (cmsPluginTagType*) Data; + _cmsTagTypePluginChunkType* ctx = ( _cmsTagTypePluginChunkType*) _cmsContextGetClientChunk(id, pos); + _cmsTagTypeLinkedList *pt; + + // Calling the function with NULL as plug-in would unregister the plug in. + if (Data == NULL) { + + // There is no need to set free the memory, as pool is destroyed as a whole. + ctx ->TagTypes = NULL; + return TRUE; + } + + // Registering happens in plug-in memory pool. + pt = (_cmsTagTypeLinkedList*) _cmsPluginMalloc(id, sizeof(_cmsTagTypeLinkedList)); + if (pt == NULL) return FALSE; + + pt ->Handler = Plugin ->Handler; + pt ->Next = ctx ->TagTypes; + + ctx ->TagTypes = pt; + + return TRUE; +} + +// Return handler for a given type or NULL if not found. Shared between normal types and MPE. It first tries the additons +// made by plug-ins and then the built-in defaults. +static +cmsTagTypeHandler* GetHandler(cmsTagTypeSignature sig, _cmsTagTypeLinkedList* PluginLinkedList, _cmsTagTypeLinkedList* DefaultLinkedList) +{ + _cmsTagTypeLinkedList* pt; + + for (pt = PluginLinkedList; + pt != NULL; + pt = pt ->Next) { + + if (sig == pt -> Handler.Signature) return &pt ->Handler; + } + + for (pt = DefaultLinkedList; + pt != NULL; + pt = pt ->Next) { + + if (sig == pt -> Handler.Signature) return &pt ->Handler; + } + + return NULL; +} + + +// Auxiliary to convert UTF-32 to UTF-16 in some cases +static +cmsBool _cmsWriteWCharArray(cmsIOHANDLER* io, cmsUInt32Number n, const wchar_t* Array) +{ + cmsUInt32Number i; + + _cmsAssert(io != NULL); + _cmsAssert(!(Array == NULL && n > 0)); + + for (i=0; i < n; i++) { + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) Array[i])) return FALSE; + } + + return TRUE; +} + +// Auxiliary to read an array of wchar_t +static +cmsBool _cmsReadWCharArray(cmsIOHANDLER* io, cmsUInt32Number n, wchar_t* Array) +{ + cmsUInt32Number i; + cmsUInt16Number tmp; + + _cmsAssert(io != NULL); + + for (i=0; i < n; i++) { + + if (Array != NULL) { + + if (!_cmsReadUInt16Number(io, &tmp)) return FALSE; + Array[i] = (wchar_t) tmp; + } + else { + if (!_cmsReadUInt16Number(io, NULL)) return FALSE; + } + + } + return TRUE; +} + +// To deal with position tables +typedef cmsBool (* PositionTableEntryFn)(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag); + +// Helper function to deal with position tables as described in ICC spec 4.3 +// A table of n elements is readed, where first comes n records containing offsets and sizes and +// then a block containing the data itself. This allows to reuse same data in more than one entry +static +cmsBool ReadPositionTable(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + cmsUInt32Number Count, + cmsUInt32Number BaseOffset, + void *Cargo, + PositionTableEntryFn ElementFn) +{ + cmsUInt32Number i; + cmsUInt32Number *ElementOffsets = NULL, *ElementSizes = NULL; + + // Let's take the offsets to each element + ElementOffsets = (cmsUInt32Number *) _cmsCalloc(io ->ContextID, Count, sizeof(cmsUInt32Number)); + if (ElementOffsets == NULL) goto Error; + + ElementSizes = (cmsUInt32Number *) _cmsCalloc(io ->ContextID, Count, sizeof(cmsUInt32Number)); + if (ElementSizes == NULL) goto Error; + + for (i=0; i < Count; i++) { + + if (!_cmsReadUInt32Number(io, &ElementOffsets[i])) goto Error; + if (!_cmsReadUInt32Number(io, &ElementSizes[i])) goto Error; + + ElementOffsets[i] += BaseOffset; + } + + // Seek to each element and read it + for (i=0; i < Count; i++) { + + if (!io -> Seek(io, ElementOffsets[i])) goto Error; + + // This is the reader callback + if (!ElementFn(self, io, Cargo, i, ElementSizes[i])) goto Error; + } + + // Success + if (ElementOffsets != NULL) _cmsFree(io ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(io ->ContextID, ElementSizes); + return TRUE; + +Error: + if (ElementOffsets != NULL) _cmsFree(io ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(io ->ContextID, ElementSizes); + return FALSE; +} + +// Same as anterior, but for write position tables +static +cmsBool WritePositionTable(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + cmsUInt32Number SizeOfTag, + cmsUInt32Number Count, + cmsUInt32Number BaseOffset, + void *Cargo, + PositionTableEntryFn ElementFn) +{ + cmsUInt32Number i; + cmsUInt32Number DirectoryPos, CurrentPos, Before; + cmsUInt32Number *ElementOffsets = NULL, *ElementSizes = NULL; + + // Create table + ElementOffsets = (cmsUInt32Number *) _cmsCalloc(io ->ContextID, Count, sizeof(cmsUInt32Number)); + if (ElementOffsets == NULL) goto Error; + + ElementSizes = (cmsUInt32Number *) _cmsCalloc(io ->ContextID, Count, sizeof(cmsUInt32Number)); + if (ElementSizes == NULL) goto Error; + + // Keep starting position of curve offsets + DirectoryPos = io ->Tell(io); + + // Write a fake directory to be filled latter on + for (i=0; i < Count; i++) { + + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // Offset + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // size + } + + // Write each element. Keep track of the size as well. + for (i=0; i < Count; i++) { + + Before = io ->Tell(io); + ElementOffsets[i] = Before - BaseOffset; + + // Callback to write... + if (!ElementFn(self, io, Cargo, i, SizeOfTag)) goto Error; + + // Now the size + ElementSizes[i] = io ->Tell(io) - Before; + } + + // Write the directory + CurrentPos = io ->Tell(io); + if (!io ->Seek(io, DirectoryPos)) goto Error; + + for (i=0; i < Count; i++) { + if (!_cmsWriteUInt32Number(io, ElementOffsets[i])) goto Error; + if (!_cmsWriteUInt32Number(io, ElementSizes[i])) goto Error; + } + + if (!io ->Seek(io, CurrentPos)) goto Error; + + if (ElementOffsets != NULL) _cmsFree(io ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(io ->ContextID, ElementSizes); + return TRUE; + +Error: + if (ElementOffsets != NULL) _cmsFree(io ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(io ->ContextID, ElementSizes); + return FALSE; +} + + +// ******************************************************************************** +// Type XYZ. Only one value is allowed +// ******************************************************************************** + +//The XYZType contains an array of three encoded values for the XYZ tristimulus +//values. Tristimulus values must be non-negative. The signed encoding allows for +//implementation optimizations by minimizing the number of fixed formats. + + +static +void *Type_XYZ_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsCIEXYZ* xyz; + + *nItems = 0; + xyz = (cmsCIEXYZ*) _cmsMallocZero(self ->ContextID, sizeof(cmsCIEXYZ)); + if (xyz == NULL) return NULL; + + if (!_cmsReadXYZNumber(io, xyz)) { + _cmsFree(self ->ContextID, xyz); + return NULL; + } + + *nItems = 1; + return (void*) xyz; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_XYZ_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + return _cmsWriteXYZNumber(io, (cmsCIEXYZ*) Ptr); + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_XYZ_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsCIEXYZ)); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_XYZ_Free(struct _cms_typehandler_struct* self, void *Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +static +cmsTagTypeSignature DecideXYZtype(cmsFloat64Number ICCVersion, const void *Data) +{ + return cmsSigXYZType; + + cmsUNUSED_PARAMETER(ICCVersion); + cmsUNUSED_PARAMETER(Data); +} + + +// ******************************************************************************** +// Type chromaticity. Only one value is allowed +// ******************************************************************************** +// The chromaticity tag type provides basic chromaticity data and type of +// phosphors or colorants of a monitor to applications and utilities. + +static +void *Type_Chromaticity_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsCIExyYTRIPLE* chrm; + cmsUInt16Number nChans, Table; + + *nItems = 0; + chrm = (cmsCIExyYTRIPLE*) _cmsMallocZero(self ->ContextID, sizeof(cmsCIExyYTRIPLE)); + if (chrm == NULL) return NULL; + + if (!_cmsReadUInt16Number(io, &nChans)) goto Error; + + // Let's recover from a bug introduced in early versions of lcms1 + if (nChans == 0 && SizeOfTag == 32) { + + if (!_cmsReadUInt16Number(io, NULL)) goto Error; + if (!_cmsReadUInt16Number(io, &nChans)) goto Error; + } + + if (nChans != 3) goto Error; + + if (!_cmsReadUInt16Number(io, &Table)) goto Error; + + if (!_cmsRead15Fixed16Number(io, &chrm ->Red.x)) goto Error; + if (!_cmsRead15Fixed16Number(io, &chrm ->Red.y)) goto Error; + + chrm ->Red.Y = 1.0; + + if (!_cmsRead15Fixed16Number(io, &chrm ->Green.x)) goto Error; + if (!_cmsRead15Fixed16Number(io, &chrm ->Green.y)) goto Error; + + chrm ->Green.Y = 1.0; + + if (!_cmsRead15Fixed16Number(io, &chrm ->Blue.x)) goto Error; + if (!_cmsRead15Fixed16Number(io, &chrm ->Blue.y)) goto Error; + + chrm ->Blue.Y = 1.0; + + *nItems = 1; + return (void*) chrm; + +Error: + _cmsFree(self ->ContextID, (void*) chrm); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool SaveOneChromaticity(cmsFloat64Number x, cmsFloat64Number y, cmsIOHANDLER* io) +{ + if (!_cmsWriteUInt32Number(io, _cmsDoubleTo15Fixed16(x))) return FALSE; + if (!_cmsWriteUInt32Number(io, _cmsDoubleTo15Fixed16(y))) return FALSE; + + return TRUE; +} + +static +cmsBool Type_Chromaticity_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsCIExyYTRIPLE* chrm = (cmsCIExyYTRIPLE*) Ptr; + + if (!_cmsWriteUInt16Number(io, 3)) return FALSE; // nChannels + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; // Table + + if (!SaveOneChromaticity(chrm -> Red.x, chrm -> Red.y, io)) return FALSE; + if (!SaveOneChromaticity(chrm -> Green.x, chrm -> Green.y, io)) return FALSE; + if (!SaveOneChromaticity(chrm -> Blue.x, chrm -> Blue.y, io)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_Chromaticity_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsCIExyYTRIPLE)); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_Chromaticity_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigColorantOrderType +// ******************************************************************************** + +// This is an optional tag which specifies the laydown order in which colorants will +// be printed on an n-colorant device. The laydown order may be the same as the +// channel generation order listed in the colorantTableTag or the channel order of a +// colour space such as CMYK, in which case this tag is not needed. When this is not +// the case (for example, ink-towers sometimes use the order KCMY), this tag may be +// used to specify the laydown order of the colorants. + + +static +void *Type_ColorantOrderType_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt8Number* ColorantOrder; + cmsUInt32Number Count; + + *nItems = 0; + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + if (Count > cmsMAXCHANNELS) return NULL; + + ColorantOrder = (cmsUInt8Number*) _cmsCalloc(self ->ContextID, cmsMAXCHANNELS, sizeof(cmsUInt8Number)); + if (ColorantOrder == NULL) return NULL; + + // We use FF as end marker + memset(ColorantOrder, 0xFF, cmsMAXCHANNELS * sizeof(cmsUInt8Number)); + + if (io ->Read(io, ColorantOrder, sizeof(cmsUInt8Number), Count) != Count) { + + _cmsFree(self ->ContextID, (void*) ColorantOrder); + return NULL; + } + + *nItems = 1; + return (void*) ColorantOrder; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_ColorantOrderType_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt8Number* ColorantOrder = (cmsUInt8Number*) Ptr; + cmsUInt32Number i, sz, Count; + + // Get the length + for (Count=i=0; i < cmsMAXCHANNELS; i++) { + if (ColorantOrder[i] != 0xFF) Count++; + } + + if (!_cmsWriteUInt32Number(io, Count)) return FALSE; + + sz = Count * sizeof(cmsUInt8Number); + if (!io -> Write(io, sz, ColorantOrder)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_ColorantOrderType_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, cmsMAXCHANNELS * sizeof(cmsUInt8Number)); + + cmsUNUSED_PARAMETER(n); +} + + +static +void Type_ColorantOrderType_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigS15Fixed16ArrayType +// ******************************************************************************** +// This type represents an array of generic 4-byte/32-bit fixed point quantity. +// The number of values is determined from the size of the tag. + +static +void *Type_S15Fixed16_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsFloat64Number* array_double; + cmsUInt32Number i, n; + + *nItems = 0; + n = SizeOfTag / sizeof(cmsUInt32Number); + array_double = (cmsFloat64Number*) _cmsCalloc(self ->ContextID, n, sizeof(cmsFloat64Number)); + if (array_double == NULL) return NULL; + + for (i=0; i < n; i++) { + + if (!_cmsRead15Fixed16Number(io, &array_double[i])) { + + _cmsFree(self ->ContextID, array_double); + return NULL; + } + } + + *nItems = n; + return (void*) array_double; +} + +static +cmsBool Type_S15Fixed16_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsFloat64Number* Value = (cmsFloat64Number*) Ptr; + cmsUInt32Number i; + + for (i=0; i < nItems; i++) { + + if (!_cmsWrite15Fixed16Number(io, Value[i])) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_S15Fixed16_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, n * sizeof(cmsFloat64Number)); +} + + +static +void Type_S15Fixed16_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigU16Fixed16ArrayType +// ******************************************************************************** +// This type represents an array of generic 4-byte/32-bit quantity. +// The number of values is determined from the size of the tag. + + +static +void *Type_U16Fixed16_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsFloat64Number* array_double; + cmsUInt32Number v; + cmsUInt32Number i, n; + + *nItems = 0; + n = SizeOfTag / sizeof(cmsUInt32Number); + array_double = (cmsFloat64Number*) _cmsCalloc(self ->ContextID, n, sizeof(cmsFloat64Number)); + if (array_double == NULL) return NULL; + + for (i=0; i < n; i++) { + + if (!_cmsReadUInt32Number(io, &v)) { + _cmsFree(self ->ContextID, (void*) array_double); + return NULL; + } + + // Convert to cmsFloat64Number + array_double[i] = (cmsFloat64Number) (v / 65536.0); + } + + *nItems = n; + return (void*) array_double; +} + +static +cmsBool Type_U16Fixed16_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsFloat64Number* Value = (cmsFloat64Number*) Ptr; + cmsUInt32Number i; + + for (i=0; i < nItems; i++) { + + cmsUInt32Number v = (cmsUInt32Number) floor(Value[i]*65536.0 + 0.5); + + if (!_cmsWriteUInt32Number(io, v)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_U16Fixed16_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, n * sizeof(cmsFloat64Number)); +} + +static +void Type_U16Fixed16_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigSignatureType +// ******************************************************************************** +// +// The signatureType contains a four-byte sequence, Sequences of less than four +// characters are padded at the end with spaces, 20h. +// Typically this type is used for registered tags that can be displayed on many +// development systems as a sequence of four characters. + +static +void *Type_Signature_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsSignature* SigPtr = (cmsSignature*) _cmsMalloc(self ->ContextID, sizeof(cmsSignature)); + if (SigPtr == NULL) return NULL; + + if (!_cmsReadUInt32Number(io, SigPtr)) return NULL; + *nItems = 1; + + return SigPtr; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_Signature_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsSignature* SigPtr = (cmsSignature*) Ptr; + + return _cmsWriteUInt32Number(io, *SigPtr); + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_Signature_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, n * sizeof(cmsSignature)); +} + +static +void Type_Signature_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigTextType +// ******************************************************************************** +// +// The textType is a simple text structure that contains a 7-bit ASCII text string. +// The length of the string is obtained by subtracting 8 from the element size portion +// of the tag itself. This string must be terminated with a 00h byte. + +static +void *Type_Text_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + char* Text = NULL; + cmsMLU* mlu = NULL; + + // Create a container + mlu = cmsMLUalloc(self ->ContextID, 1); + if (mlu == NULL) return NULL; + + *nItems = 0; + + // We need to store the "\0" at the end, so +1 + if (SizeOfTag == UINT_MAX) goto Error; + + Text = (char*) _cmsMalloc(self ->ContextID, SizeOfTag + 1); + if (Text == NULL) goto Error; + + if (io -> Read(io, Text, sizeof(char), SizeOfTag) != SizeOfTag) goto Error; + + // Make sure text is properly ended + Text[SizeOfTag] = 0; + *nItems = 1; + + // Keep the result + if (!cmsMLUsetASCII(mlu, cmsNoLanguage, cmsNoCountry, Text)) goto Error; + + _cmsFree(self ->ContextID, Text); + return (void*) mlu; + +Error: + if (mlu != NULL) + cmsMLUfree(mlu); + if (Text != NULL) + _cmsFree(self ->ContextID, Text); + + return NULL; +} + +// The conversion implies to choose a language. So, we choose the actual language. +static +cmsBool Type_Text_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsMLU* mlu = (cmsMLU*) Ptr; + cmsUInt32Number size; + cmsBool rc; + char* Text; + + // Get the size of the string. Note there is an extra "\0" at the end + size = cmsMLUgetASCII(mlu, cmsNoLanguage, cmsNoCountry, NULL, 0); + if (size == 0) return FALSE; // Cannot be zero! + + // Create memory + Text = (char*) _cmsMalloc(self ->ContextID, size); + if (Text == NULL) return FALSE; + + cmsMLUgetASCII(mlu, cmsNoLanguage, cmsNoCountry, Text, size); + + // Write it, including separator + rc = io ->Write(io, size, Text); + + _cmsFree(self ->ContextID, Text); + return rc; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_Text_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsMLUdup((cmsMLU*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + + +static +void Type_Text_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsMLU* mlu = (cmsMLU*) Ptr; + cmsMLUfree(mlu); + return; + + cmsUNUSED_PARAMETER(self); +} + +static +cmsTagTypeSignature DecideTextType(cmsFloat64Number ICCVersion, const void *Data) +{ + if (ICCVersion >= 4.0) + return cmsSigMultiLocalizedUnicodeType; + + return cmsSigTextType; + + cmsUNUSED_PARAMETER(Data); +} + + +// ******************************************************************************** +// Type cmsSigDataType +// ******************************************************************************** + +// General purpose data type +static +void *Type_Data_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsICCData* BinData; + cmsUInt32Number LenOfData; + + *nItems = 0; + + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + + LenOfData = SizeOfTag - sizeof(cmsUInt32Number); + if (LenOfData > INT_MAX) return NULL; + + BinData = (cmsICCData*) _cmsMalloc(self ->ContextID, sizeof(cmsICCData) + LenOfData - 1); + if (BinData == NULL) return NULL; + + BinData ->len = LenOfData; + if (!_cmsReadUInt32Number(io, &BinData->flag)) { + _cmsFree(self ->ContextID, BinData); + return NULL; + } + + if (io -> Read(io, BinData ->data, sizeof(cmsUInt8Number), LenOfData) != LenOfData) { + + _cmsFree(self ->ContextID, BinData); + return NULL; + } + + *nItems = 1; + + return (void*) BinData; +} + + +static +cmsBool Type_Data_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsICCData* BinData = (cmsICCData*) Ptr; + + if (!_cmsWriteUInt32Number(io, BinData ->flag)) return FALSE; + + return io ->Write(io, BinData ->len, BinData ->data); + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_Data_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + cmsICCData* BinData = (cmsICCData*) Ptr; + + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsICCData) + BinData ->len - 1); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_Data_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigTextDescriptionType +// ******************************************************************************** + +static +void *Type_Text_Description_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + char* Text = NULL; + cmsMLU* mlu = NULL; + cmsUInt32Number AsciiCount; + cmsUInt32Number i, UnicodeCode, UnicodeCount; + cmsUInt16Number ScriptCodeCode, Dummy; + cmsUInt8Number ScriptCodeCount; + + *nItems = 0; + + // One dword should be there + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + + // Read len of ASCII + if (!_cmsReadUInt32Number(io, &AsciiCount)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + // Check for size + if (SizeOfTag < AsciiCount) return NULL; + + // All seems Ok, allocate the container + mlu = cmsMLUalloc(self ->ContextID, 1); + if (mlu == NULL) return NULL; + + // As many memory as size of tag + Text = (char*) _cmsMalloc(self ->ContextID, AsciiCount + 1); + if (Text == NULL) goto Error; + + // Read it + if (io ->Read(io, Text, sizeof(char), AsciiCount) != AsciiCount) goto Error; + SizeOfTag -= AsciiCount; + + // Make sure there is a terminator + Text[AsciiCount] = 0; + + // Set the MLU entry. From here we can be tolerant to wrong types + if (!cmsMLUsetASCII(mlu, cmsNoLanguage, cmsNoCountry, Text)) goto Error; + _cmsFree(self ->ContextID, (void*) Text); + Text = NULL; + + // Skip Unicode code + if (SizeOfTag < 2* sizeof(cmsUInt32Number)) goto Done; + if (!_cmsReadUInt32Number(io, &UnicodeCode)) goto Done; + if (!_cmsReadUInt32Number(io, &UnicodeCount)) goto Done; + SizeOfTag -= 2* sizeof(cmsUInt32Number); + + if (SizeOfTag < UnicodeCount*sizeof(cmsUInt16Number)) goto Done; + + for (i=0; i < UnicodeCount; i++) { + if (!io ->Read(io, &Dummy, sizeof(cmsUInt16Number), 1)) goto Done; + } + SizeOfTag -= UnicodeCount*sizeof(cmsUInt16Number); + + // Skip ScriptCode code if present. Some buggy profiles does have less + // data that stricttly required. We need to skip it as this type may come + // embedded in other types. + + if (SizeOfTag >= sizeof(cmsUInt16Number) + sizeof(cmsUInt8Number) + 67) { + + if (!_cmsReadUInt16Number(io, &ScriptCodeCode)) goto Done; + if (!_cmsReadUInt8Number(io, &ScriptCodeCount)) goto Done; + + // Skip rest of tag + for (i=0; i < 67; i++) { + if (!io ->Read(io, &Dummy, sizeof(cmsUInt8Number), 1)) goto Error; + } + } + +Done: + + *nItems = 1; + return mlu; + +Error: + if (Text) _cmsFree(self ->ContextID, (void*) Text); + if (mlu) cmsMLUfree(mlu); + return NULL; +} + + +// This tag can come IN UNALIGNED SIZE. In order to prevent issues, we force zeros on description to align it +static +cmsBool Type_Text_Description_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsMLU* mlu = (cmsMLU*) Ptr; + char *Text = NULL; + wchar_t *Wide = NULL; + cmsUInt32Number len, len_text, len_tag_requirement, len_aligned; + cmsBool rc = FALSE; + char Filler[68]; + + // Used below for writting zeroes + memset(Filler, 0, sizeof(Filler)); + + // Get the len of string + len = cmsMLUgetASCII(mlu, cmsNoLanguage, cmsNoCountry, NULL, 0); + + // Specification ICC.1:2001-04 (v2.4.0): It has been found that textDescriptionType can contain misaligned data + //(see clause 4.1 for the definition of “aligned”). Because the Unicode language + // code and Unicode count immediately follow the ASCII description, their + // alignment is not correct if the ASCII count is not a multiple of four. The + // ScriptCode code is misaligned when the ASCII count is odd. Profile reading and + // writing software must be written carefully in order to handle these alignment + // problems. + // + // The above last sentence suggest to handle alignment issues in the + // parser. The provided example (Table 69 on Page 60) makes this clear. + // The padding only in the ASCII count is not sufficient for a aligned tag + // size, with the same text size in ASCII and Unicode. + + // Null strings + if (len <= 0) { + + Text = (char*) _cmsDupMem(self ->ContextID, "", sizeof(char)); + Wide = (wchar_t*) _cmsDupMem(self ->ContextID, L"", sizeof(wchar_t)); + } + else { + // Create independent buffers + Text = (char*) _cmsCalloc(self ->ContextID, len, sizeof(char)); + if (Text == NULL) goto Error; + + Wide = (wchar_t*) _cmsCalloc(self ->ContextID, len, sizeof(wchar_t)); + if (Wide == NULL) goto Error; + + // Get both representations. + cmsMLUgetASCII(mlu, cmsNoLanguage, cmsNoCountry, Text, len * sizeof(char)); + cmsMLUgetWide(mlu, cmsNoLanguage, cmsNoCountry, Wide, len * sizeof(wchar_t)); + } + + // Tell the real text len including the null terminator and padding + len_text = (cmsUInt32Number) strlen(Text) + 1; + // Compute an total tag size requirement + len_tag_requirement = (8+4+len_text+4+4+2*len_text+2+1+67); + len_aligned = _cmsALIGNLONG(len_tag_requirement); + + // * cmsUInt32Number count; * Description length + // * cmsInt8Number desc[count] * NULL terminated ascii string + // * cmsUInt32Number ucLangCode; * UniCode language code + // * cmsUInt32Number ucCount; * UniCode description length + // * cmsInt16Number ucDesc[ucCount];* The UniCode description + // * cmsUInt16Number scCode; * ScriptCode code + // * cmsUInt8Number scCount; * ScriptCode count + // * cmsInt8Number scDesc[67]; * ScriptCode Description + + if (!_cmsWriteUInt32Number(io, len_text)) goto Error; + if (!io ->Write(io, len_text, Text)) goto Error; + + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // ucLanguageCode + + if (!_cmsWriteUInt32Number(io, len_text)) goto Error; + // Note that in some compilers sizeof(cmsUInt16Number) != sizeof(wchar_t) + if (!_cmsWriteWCharArray(io, len_text, Wide)) goto Error; + + // ScriptCode Code & count (unused) + if (!_cmsWriteUInt16Number(io, 0)) goto Error; + if (!_cmsWriteUInt8Number(io, 0)) goto Error; + + if (!io ->Write(io, 67, Filler)) goto Error; + + // possibly add pad at the end of tag + if(len_aligned - len_tag_requirement > 0) + if (!io ->Write(io, len_aligned - len_tag_requirement, Filler)) goto Error; + + rc = TRUE; + +Error: + if (Text) _cmsFree(self ->ContextID, Text); + if (Wide) _cmsFree(self ->ContextID, Wide); + + return rc; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_Text_Description_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsMLUdup((cmsMLU*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_Text_Description_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsMLU* mlu = (cmsMLU*) Ptr; + + cmsMLUfree(mlu); + return; + + cmsUNUSED_PARAMETER(self); +} + + +static +cmsTagTypeSignature DecideTextDescType(cmsFloat64Number ICCVersion, const void *Data) +{ + if (ICCVersion >= 4.0) + return cmsSigMultiLocalizedUnicodeType; + + return cmsSigTextDescriptionType; + + cmsUNUSED_PARAMETER(Data); +} + + +// ******************************************************************************** +// Type cmsSigCurveType +// ******************************************************************************** + +static +void *Type_Curve_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt32Number Count; + cmsToneCurve* NewGamma; + + *nItems = 0; + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + + switch (Count) { + + case 0: // Linear. + { + cmsFloat64Number SingleGamma = 1.0; + + NewGamma = cmsBuildParametricToneCurve(self ->ContextID, 1, &SingleGamma); + if (!NewGamma) return NULL; + *nItems = 1; + return NewGamma; + } + + case 1: // Specified as the exponent of gamma function + { + cmsUInt16Number SingleGammaFixed; + cmsFloat64Number SingleGamma; + + if (!_cmsReadUInt16Number(io, &SingleGammaFixed)) return NULL; + SingleGamma = _cms8Fixed8toDouble(SingleGammaFixed); + + *nItems = 1; + return cmsBuildParametricToneCurve(self ->ContextID, 1, &SingleGamma); + } + + default: // Curve + + if (Count > 0x7FFF) + return NULL; // This is to prevent bad guys for doing bad things + + NewGamma = cmsBuildTabulatedToneCurve16(self ->ContextID, Count, NULL); + if (!NewGamma) return NULL; + + if (!_cmsReadUInt16Array(io, Count, NewGamma -> Table16)) return NULL; + + *nItems = 1; + return NewGamma; + } + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_Curve_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsToneCurve* Curve = (cmsToneCurve*) Ptr; + + if (Curve ->nSegments == 1 && Curve ->Segments[0].Type == 1) { + + // Single gamma, preserve number + cmsUInt16Number SingleGammaFixed = _cmsDoubleTo8Fixed8(Curve ->Segments[0].Params[0]); + + if (!_cmsWriteUInt32Number(io, 1)) return FALSE; + if (!_cmsWriteUInt16Number(io, SingleGammaFixed)) return FALSE; + return TRUE; + + } + + if (!_cmsWriteUInt32Number(io, Curve ->nEntries)) return FALSE; + return _cmsWriteUInt16Array(io, Curve ->nEntries, Curve ->Table16); + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_Curve_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsDupToneCurve((cmsToneCurve*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_Curve_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsToneCurve* gamma = (cmsToneCurve*) Ptr; + + cmsFreeToneCurve(gamma); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigParametricCurveType +// ******************************************************************************** + + +// Decide which curve type to use on writting +static +cmsTagTypeSignature DecideCurveType(cmsFloat64Number ICCVersion, const void *Data) +{ + cmsToneCurve* Curve = (cmsToneCurve*) Data; + + if (ICCVersion < 4.0) return cmsSigCurveType; + if (Curve ->nSegments != 1) return cmsSigCurveType; // Only 1-segment curves can be saved as parametric + if (Curve ->Segments[0].Type < 0) return cmsSigCurveType; // Only non-inverted curves + if (Curve ->Segments[0].Type > 5) return cmsSigCurveType; // Only ICC parametric curves + + return cmsSigParametricCurveType; +} + +static +void *Type_ParametricCurve_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + static const int ParamsByType[] = { 1, 3, 4, 5, 7 }; + cmsFloat64Number Params[10]; + cmsUInt16Number Type; + int i, n; + cmsToneCurve* NewGamma; + + if (!_cmsReadUInt16Number(io, &Type)) return NULL; + if (!_cmsReadUInt16Number(io, NULL)) return NULL; // Reserved + + if (Type > 4) { + + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown parametric curve type '%d'", Type); + return NULL; + } + + memset(Params, 0, sizeof(Params)); + n = ParamsByType[Type]; + + for (i=0; i < n; i++) { + + if (!_cmsRead15Fixed16Number(io, &Params[i])) return NULL; + } + + NewGamma = cmsBuildParametricToneCurve(self ->ContextID, Type+1, Params); + + *nItems = 1; + return NewGamma; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_ParametricCurve_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsToneCurve* Curve = (cmsToneCurve*) Ptr; + int i, nParams, typen; + static const int ParamsByType[] = { 0, 1, 3, 4, 5, 7 }; + + typen = Curve -> Segments[0].Type; + + if (Curve ->nSegments > 1 || typen < 1) { + + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Multisegment or Inverted parametric curves cannot be written"); + return FALSE; + } + + if (typen > 5) { + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported parametric curve"); + return FALSE; + } + + nParams = ParamsByType[typen]; + + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) (Curve ->Segments[0].Type - 1))) return FALSE; + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; // Reserved + + for (i=0; i < nParams; i++) { + + if (!_cmsWrite15Fixed16Number(io, Curve -> Segments[0].Params[i])) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_ParametricCurve_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsDupToneCurve((cmsToneCurve*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_ParametricCurve_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsToneCurve* gamma = (cmsToneCurve*) Ptr; + + cmsFreeToneCurve(gamma); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigDateTimeType +// ******************************************************************************** + +// A 12-byte value representation of the time and date, where the byte usage is assigned +// as specified in table 1. The actual values are encoded as 16-bit unsigned integers +// (uInt16Number - see 5.1.6). +// +// All the dateTimeNumber values in a profile shall be in Coordinated Universal Time +// (UTC, also known as GMT or ZULU Time). Profile writers are required to convert local +// time to UTC when setting these values. Programmes that display these values may show +// the dateTimeNumber as UTC, show the equivalent local time (at current locale), or +// display both UTC and local versions of the dateTimeNumber. + +static +void *Type_DateTime_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsDateTimeNumber timestamp; + struct tm * NewDateTime; + + *nItems = 0; + NewDateTime = (struct tm*) _cmsMalloc(self ->ContextID, sizeof(struct tm)); + if (NewDateTime == NULL) return NULL; + + if (io->Read(io, ×tamp, sizeof(cmsDateTimeNumber), 1) != 1) return NULL; + + _cmsDecodeDateTimeNumber(×tamp, NewDateTime); + + *nItems = 1; + return NewDateTime; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_DateTime_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + struct tm * DateTime = (struct tm*) Ptr; + cmsDateTimeNumber timestamp; + + _cmsEncodeDateTimeNumber(×tamp, DateTime); + if (!io ->Write(io, sizeof(cmsDateTimeNumber), ×tamp)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_DateTime_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(struct tm)); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_DateTime_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + + +// ******************************************************************************** +// Type icMeasurementType +// ******************************************************************************** + +/* +The measurementType information refers only to the internal profile data and is +meant to provide profile makers an alternative to the default measurement +specifications. +*/ + +static +void *Type_Measurement_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsICCMeasurementConditions mc; + + + memset(&mc, 0, sizeof(mc)); + + if (!_cmsReadUInt32Number(io, &mc.Observer)) return NULL; + if (!_cmsReadXYZNumber(io, &mc.Backing)) return NULL; + if (!_cmsReadUInt32Number(io, &mc.Geometry)) return NULL; + if (!_cmsRead15Fixed16Number(io, &mc.Flare)) return NULL; + if (!_cmsReadUInt32Number(io, &mc.IlluminantType)) return NULL; + + *nItems = 1; + return _cmsDupMem(self ->ContextID, &mc, sizeof(cmsICCMeasurementConditions)); + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_Measurement_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsICCMeasurementConditions* mc =(cmsICCMeasurementConditions*) Ptr; + + if (!_cmsWriteUInt32Number(io, mc->Observer)) return FALSE; + if (!_cmsWriteXYZNumber(io, &mc->Backing)) return FALSE; + if (!_cmsWriteUInt32Number(io, mc->Geometry)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, mc->Flare)) return FALSE; + if (!_cmsWriteUInt32Number(io, mc->IlluminantType)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_Measurement_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsICCMeasurementConditions)); + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_Measurement_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigMultiLocalizedUnicodeType +// ******************************************************************************** +// +// Do NOT trust SizeOfTag as there is an issue on the definition of profileSequenceDescTag. See the TechNote from +// Max Derhak and Rohit Patil about this: basically the size of the string table should be guessed and cannot be +// taken from the size of tag if this tag is embedded as part of bigger structures (profileSequenceDescTag, for instance) +// + +static +void *Type_MLU_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsMLU* mlu; + cmsUInt32Number Count, RecLen, NumOfWchar; + cmsUInt32Number SizeOfHeader; + cmsUInt32Number Len, Offset; + cmsUInt32Number i; + wchar_t* Block; + cmsUInt32Number BeginOfThisString, EndOfThisString, LargestPosition; + + *nItems = 0; + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + if (!_cmsReadUInt32Number(io, &RecLen)) return NULL; + + if (RecLen != 12) { + + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "multiLocalizedUnicodeType of len != 12 is not supported."); + return NULL; + } + + mlu = cmsMLUalloc(self ->ContextID, Count); + if (mlu == NULL) return NULL; + + mlu ->UsedEntries = Count; + + SizeOfHeader = 12 * Count + sizeof(_cmsTagBase); + LargestPosition = 0; + + for (i=0; i < Count; i++) { + + if (!_cmsReadUInt16Number(io, &mlu ->Entries[i].Language)) goto Error; + if (!_cmsReadUInt16Number(io, &mlu ->Entries[i].Country)) goto Error; + + // Now deal with Len and offset. + if (!_cmsReadUInt32Number(io, &Len)) goto Error; + if (!_cmsReadUInt32Number(io, &Offset)) goto Error; + + // Check for overflow + if (Offset < (SizeOfHeader + 8)) goto Error; + + // True begin of the string + BeginOfThisString = Offset - SizeOfHeader - 8; + + // Ajust to wchar_t elements + mlu ->Entries[i].Len = (Len * sizeof(wchar_t)) / sizeof(cmsUInt16Number); + mlu ->Entries[i].StrW = (BeginOfThisString * sizeof(wchar_t)) / sizeof(cmsUInt16Number); + + // To guess maximum size, add offset + len + EndOfThisString = BeginOfThisString + Len; + if (EndOfThisString > LargestPosition) + LargestPosition = EndOfThisString; + } + + // Now read the remaining of tag and fill all strings. Subtract the directory + SizeOfTag = (LargestPosition * sizeof(wchar_t)) / sizeof(cmsUInt16Number); + if (SizeOfTag == 0) + { + Block = NULL; + NumOfWchar = 0; + + } + else + { + Block = (wchar_t*) _cmsMalloc(self ->ContextID, SizeOfTag); + if (Block == NULL) goto Error; + NumOfWchar = SizeOfTag / sizeof(wchar_t); + if (!_cmsReadWCharArray(io, NumOfWchar, Block)) goto Error; + } + + mlu ->MemPool = Block; + mlu ->PoolSize = SizeOfTag; + mlu ->PoolUsed = SizeOfTag; + + *nItems = 1; + return (void*) mlu; + +Error: + if (mlu) cmsMLUfree(mlu); + return NULL; +} + +static +cmsBool Type_MLU_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsMLU* mlu =(cmsMLU*) Ptr; + cmsUInt32Number HeaderSize; + cmsUInt32Number Len, Offset; + cmsUInt32Number i; + + if (Ptr == NULL) { + + // Empty placeholder + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 12)) return FALSE; + return TRUE; + } + + if (!_cmsWriteUInt32Number(io, mlu ->UsedEntries)) return FALSE; + if (!_cmsWriteUInt32Number(io, 12)) return FALSE; + + HeaderSize = 12 * mlu ->UsedEntries + sizeof(_cmsTagBase); + + for (i=0; i < mlu ->UsedEntries; i++) { + + Len = mlu ->Entries[i].Len; + Offset = mlu ->Entries[i].StrW; + + Len = (Len * sizeof(cmsUInt16Number)) / sizeof(wchar_t); + Offset = (Offset * sizeof(cmsUInt16Number)) / sizeof(wchar_t) + HeaderSize + 8; + + if (!_cmsWriteUInt16Number(io, mlu ->Entries[i].Language)) return FALSE; + if (!_cmsWriteUInt16Number(io, mlu ->Entries[i].Country)) return FALSE; + if (!_cmsWriteUInt32Number(io, Len)) return FALSE; + if (!_cmsWriteUInt32Number(io, Offset)) return FALSE; + } + + if (!_cmsWriteWCharArray(io, mlu ->PoolUsed / sizeof(wchar_t), (wchar_t*) mlu ->MemPool)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_MLU_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsMLUdup((cmsMLU*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_MLU_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsMLUfree((cmsMLU*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigLut8Type +// ******************************************************************************** + +// Decide which LUT type to use on writting +static +cmsTagTypeSignature DecideLUTtypeA2B(cmsFloat64Number ICCVersion, const void *Data) +{ + cmsPipeline* Lut = (cmsPipeline*) Data; + + if (ICCVersion < 4.0) { + if (Lut ->SaveAs8Bits) return cmsSigLut8Type; + return cmsSigLut16Type; + } + else { + return cmsSigLutAtoBType; + } +} + +static +cmsTagTypeSignature DecideLUTtypeB2A(cmsFloat64Number ICCVersion, const void *Data) +{ + cmsPipeline* Lut = (cmsPipeline*) Data; + + if (ICCVersion < 4.0) { + if (Lut ->SaveAs8Bits) return cmsSigLut8Type; + return cmsSigLut16Type; + } + else { + return cmsSigLutBtoAType; + } +} + +/* +This structure represents a colour transform using tables of 8-bit precision. +This type contains four processing elements: a 3 by 3 matrix (which shall be +the identity matrix unless the input colour space is XYZ), a set of one dimensional +input tables, a multidimensional lookup table, and a set of one dimensional output +tables. Data is processed using these elements via the following sequence: +(matrix) -> (1d input tables) -> (multidimensional lookup table - CLUT) -> (1d output tables) + +Byte Position Field Length (bytes) Content Encoded as... +8 1 Number of Input Channels (i) uInt8Number +9 1 Number of Output Channels (o) uInt8Number +10 1 Number of CLUT grid points (identical for each side) (g) uInt8Number +11 1 Reserved for padding (fill with 00h) + +12..15 4 Encoded e00 parameter s15Fixed16Number +*/ + + +// Read 8 bit tables as gamma functions +static +cmsBool Read8bitTables(cmsContext ContextID, cmsIOHANDLER* io, cmsPipeline* lut, int nChannels) +{ + cmsUInt8Number* Temp = NULL; + int i, j; + cmsToneCurve* Tables[cmsMAXCHANNELS]; + + if (nChannels > cmsMAXCHANNELS) return FALSE; + if (nChannels <= 0) return FALSE; + + memset(Tables, 0, sizeof(Tables)); + + Temp = (cmsUInt8Number*) _cmsMalloc(ContextID, 256); + if (Temp == NULL) return FALSE; + + for (i=0; i < nChannels; i++) { + Tables[i] = cmsBuildTabulatedToneCurve16(ContextID, 256, NULL); + if (Tables[i] == NULL) goto Error; + } + + for (i=0; i < nChannels; i++) { + + if (io ->Read(io, Temp, 256, 1) != 1) goto Error; + + for (j=0; j < 256; j++) + Tables[i]->Table16[j] = (cmsUInt16Number) FROM_8_TO_16(Temp[j]); + } + + _cmsFree(ContextID, Temp); + Temp = NULL; + + if (!cmsPipelineInsertStage(lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, nChannels, Tables))) + goto Error; + + for (i=0; i < nChannels; i++) + cmsFreeToneCurve(Tables[i]); + + return TRUE; + +Error: + for (i=0; i < nChannels; i++) { + if (Tables[i]) cmsFreeToneCurve(Tables[i]); + } + + if (Temp) _cmsFree(ContextID, Temp); + return FALSE; +} + + +static +cmsBool Write8bitTables(cmsContext ContextID, cmsIOHANDLER* io, cmsUInt32Number n, _cmsStageToneCurvesData* Tables) +{ + int j; + cmsUInt32Number i; + cmsUInt8Number val; + + for (i=0; i < n; i++) { + + if (Tables) { + + // Usual case of identity curves + if ((Tables ->TheCurves[i]->nEntries == 2) && + (Tables->TheCurves[i]->Table16[0] == 0) && + (Tables->TheCurves[i]->Table16[1] == 65535)) { + + for (j=0; j < 256; j++) { + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) j)) return FALSE; + } + } + else + if (Tables ->TheCurves[i]->nEntries != 256) { + cmsSignalError(ContextID, cmsERROR_RANGE, "LUT8 needs 256 entries on prelinearization"); + return FALSE; + } + else + for (j=0; j < 256; j++) { + + val = (cmsUInt8Number) FROM_16_TO_8(Tables->TheCurves[i]->Table16[j]); + + if (!_cmsWriteUInt8Number(io, val)) return FALSE; + } + } + } + return TRUE; +} + + +// Check overflow +static +cmsUInt32Number uipow(cmsUInt32Number n, cmsUInt32Number a, cmsUInt32Number b) +{ + cmsUInt32Number rv = 1, rc; + + if (a == 0) return 0; + if (n == 0) return 0; + + for (; b > 0; b--) { + + rv *= a; + + // Check for overflow + if (rv > UINT_MAX / a) return (cmsUInt32Number) -1; + + } + + rc = rv * n; + + if (rv != rc / n) return (cmsUInt32Number) -1; + return rc; +} + + +// That will create a MPE LUT with Matrix, pre tables, CLUT and post tables. +// 8 bit lut may be scaled easely to v4 PCS, but we need also to properly adjust +// PCS on BToAxx tags and AtoB if abstract. We need to fix input direction. + +static +void *Type_LUT8_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt8Number InputChannels, OutputChannels, CLUTpoints; + cmsUInt8Number* Temp = NULL; + cmsPipeline* NewLUT = NULL; + cmsUInt32Number nTabSize, i; + cmsFloat64Number Matrix[3*3]; + + *nItems = 0; + + if (!_cmsReadUInt8Number(io, &InputChannels)) goto Error; + if (!_cmsReadUInt8Number(io, &OutputChannels)) goto Error; + if (!_cmsReadUInt8Number(io, &CLUTpoints)) goto Error; + + if (CLUTpoints == 1) goto Error; // Impossible value, 0 for no CLUT and then 2 at least + + // Padding + if (!_cmsReadUInt8Number(io, NULL)) goto Error; + + // Do some checking + if (InputChannels > cmsMAXCHANNELS) goto Error; + if (OutputChannels > cmsMAXCHANNELS) goto Error; + + // Allocates an empty Pipeline + NewLUT = cmsPipelineAlloc(self ->ContextID, InputChannels, OutputChannels); + if (NewLUT == NULL) goto Error; + + // Read the Matrix + if (!_cmsRead15Fixed16Number(io, &Matrix[0])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[1])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[2])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[3])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[4])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[5])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[6])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[7])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[8])) goto Error; + + + // Only operates if not identity... + if ((InputChannels == 3) && !_cmsMAT3isIdentity((cmsMAT3*) Matrix)) { + + if (!cmsPipelineInsertStage(NewLUT, cmsAT_BEGIN, cmsStageAllocMatrix(self ->ContextID, 3, 3, Matrix, NULL))) + goto Error; + } + + // Get input tables + if (!Read8bitTables(self ->ContextID, io, NewLUT, InputChannels)) goto Error; + + // Get 3D CLUT. Check the overflow.... + nTabSize = uipow(OutputChannels, CLUTpoints, InputChannels); + if (nTabSize == (cmsUInt32Number) -1) goto Error; + if (nTabSize > 0) { + + cmsUInt16Number *PtrW, *T; + + PtrW = T = (cmsUInt16Number*) _cmsCalloc(self ->ContextID, nTabSize, sizeof(cmsUInt16Number)); + if (T == NULL) goto Error; + + Temp = (cmsUInt8Number*) _cmsMalloc(self ->ContextID, nTabSize); + if (Temp == NULL) { + _cmsFree(self ->ContextID, T); + goto Error; + } + + if (io ->Read(io, Temp, nTabSize, 1) != 1) { + _cmsFree(self ->ContextID, T); + _cmsFree(self ->ContextID, Temp); + goto Error; + } + + for (i = 0; i < nTabSize; i++) { + + *PtrW++ = FROM_8_TO_16(Temp[i]); + } + _cmsFree(self ->ContextID, Temp); + Temp = NULL; + + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, cmsStageAllocCLut16bit(self ->ContextID, CLUTpoints, InputChannels, OutputChannels, T))) + goto Error; + _cmsFree(self ->ContextID, T); + } + + + // Get output tables + if (!Read8bitTables(self ->ContextID, io, NewLUT, OutputChannels)) goto Error; + + *nItems = 1; + return NewLUT; + +Error: + if (NewLUT != NULL) cmsPipelineFree(NewLUT); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +// We only allow a specific MPE structure: Matrix plus prelin, plus clut, plus post-lin. +static +cmsBool Type_LUT8_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number j, nTabSize; + cmsUInt8Number val; + cmsPipeline* NewLUT = (cmsPipeline*) Ptr; + cmsStage* mpe; + _cmsStageToneCurvesData* PreMPE = NULL, *PostMPE = NULL; + _cmsStageMatrixData* MatMPE = NULL; + _cmsStageCLutData* clut = NULL; + int clutPoints; + + // Disassemble the LUT into components. + mpe = NewLUT -> Elements; + if (mpe ->Type == cmsSigMatrixElemType) { + + MatMPE = (_cmsStageMatrixData*) mpe ->Data; + mpe = mpe -> Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCurveSetElemType) { + PreMPE = (_cmsStageToneCurvesData*) mpe ->Data; + mpe = mpe -> Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCLutElemType) { + clut = (_cmsStageCLutData*) mpe -> Data; + mpe = mpe ->Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCurveSetElemType) { + PostMPE = (_cmsStageToneCurvesData*) mpe ->Data; + mpe = mpe -> Next; + } + + // That should be all + if (mpe != NULL) { + cmsSignalError(mpe->ContextID, cmsERROR_UNKNOWN_EXTENSION, "LUT is not suitable to be saved as LUT8"); + return FALSE; + } + + + if (clut == NULL) + clutPoints = 0; + else + clutPoints = clut->Params->nSamples[0]; + + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) NewLUT ->InputChannels)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) NewLUT ->OutputChannels)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) clutPoints)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; // Padding + + + if (MatMPE != NULL) { + + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[0])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[1])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[2])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[3])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[4])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[5])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[6])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[7])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[8])) return FALSE; + + } + else { + + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + } + + // The prelinearization table + if (!Write8bitTables(self ->ContextID, io, NewLUT ->InputChannels, PreMPE)) return FALSE; + + nTabSize = uipow(NewLUT->OutputChannels, clutPoints, NewLUT ->InputChannels); + if (nTabSize == (cmsUInt32Number) -1) return FALSE; + if (nTabSize > 0) { + + // The 3D CLUT. + if (clut != NULL) { + + for (j=0; j < nTabSize; j++) { + + val = (cmsUInt8Number) FROM_16_TO_8(clut ->Tab.T[j]); + if (!_cmsWriteUInt8Number(io, val)) return FALSE; + } + } + } + + // The postlinearization table + if (!Write8bitTables(self ->ContextID, io, NewLUT ->OutputChannels, PostMPE)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_LUT8_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_LUT8_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + +// ******************************************************************************** +// Type cmsSigLut16Type +// ******************************************************************************** + +// Read 16 bit tables as gamma functions +static +cmsBool Read16bitTables(cmsContext ContextID, cmsIOHANDLER* io, cmsPipeline* lut, int nChannels, int nEntries) +{ + int i; + cmsToneCurve* Tables[cmsMAXCHANNELS]; + + // Maybe an empty table? (this is a lcms extension) + if (nEntries <= 0) return TRUE; + + // Check for malicious profiles + if (nEntries < 2) return FALSE; + if (nChannels > cmsMAXCHANNELS) return FALSE; + + // Init table to zero + memset(Tables, 0, sizeof(Tables)); + + for (i=0; i < nChannels; i++) { + + Tables[i] = cmsBuildTabulatedToneCurve16(ContextID, nEntries, NULL); + if (Tables[i] == NULL) goto Error; + + if (!_cmsReadUInt16Array(io, nEntries, Tables[i]->Table16)) goto Error; + } + + + // Add the table (which may certainly be an identity, but this is up to the optimizer, not the reading code) + if (!cmsPipelineInsertStage(lut, cmsAT_END, cmsStageAllocToneCurves(ContextID, nChannels, Tables))) + goto Error; + + for (i=0; i < nChannels; i++) + cmsFreeToneCurve(Tables[i]); + + return TRUE; + +Error: + for (i=0; i < nChannels; i++) { + if (Tables[i]) cmsFreeToneCurve(Tables[i]); + } + + return FALSE; +} + +static +cmsBool Write16bitTables(cmsContext ContextID, cmsIOHANDLER* io, _cmsStageToneCurvesData* Tables) +{ + int j; + cmsUInt32Number i; + cmsUInt16Number val; + int nEntries; + + _cmsAssert(Tables != NULL); + + nEntries = Tables->TheCurves[0]->nEntries; + + for (i=0; i < Tables ->nCurves; i++) { + + for (j=0; j < nEntries; j++) { + + val = Tables->TheCurves[i]->Table16[j]; + if (!_cmsWriteUInt16Number(io, val)) return FALSE; + } + } + return TRUE; + + cmsUNUSED_PARAMETER(ContextID); +} + +static +void *Type_LUT16_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt8Number InputChannels, OutputChannels, CLUTpoints; + cmsPipeline* NewLUT = NULL; + cmsUInt32Number nTabSize; + cmsFloat64Number Matrix[3*3]; + cmsUInt16Number InputEntries, OutputEntries; + + *nItems = 0; + + if (!_cmsReadUInt8Number(io, &InputChannels)) return NULL; + if (!_cmsReadUInt8Number(io, &OutputChannels)) return NULL; + if (!_cmsReadUInt8Number(io, &CLUTpoints)) return NULL; // 255 maximum + + // Padding + if (!_cmsReadUInt8Number(io, NULL)) return NULL; + + // Do some checking + if (InputChannels > cmsMAXCHANNELS) goto Error; + if (OutputChannels > cmsMAXCHANNELS) goto Error; + + // Allocates an empty LUT + NewLUT = cmsPipelineAlloc(self ->ContextID, InputChannels, OutputChannels); + if (NewLUT == NULL) goto Error; + + // Read the Matrix + if (!_cmsRead15Fixed16Number(io, &Matrix[0])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[1])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[2])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[3])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[4])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[5])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[6])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[7])) goto Error; + if (!_cmsRead15Fixed16Number(io, &Matrix[8])) goto Error; + + + // Only operates on 3 channels + if ((InputChannels == 3) && !_cmsMAT3isIdentity((cmsMAT3*) Matrix)) { + + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, cmsStageAllocMatrix(self ->ContextID, 3, 3, Matrix, NULL))) + goto Error; + } + + if (!_cmsReadUInt16Number(io, &InputEntries)) goto Error; + if (!_cmsReadUInt16Number(io, &OutputEntries)) goto Error; + + if (InputEntries > 0x7FFF || OutputEntries > 0x7FFF) goto Error; + if (CLUTpoints == 1) goto Error; // Impossible value, 0 for no CLUT and then 2 at least + + // Get input tables + if (!Read16bitTables(self ->ContextID, io, NewLUT, InputChannels, InputEntries)) goto Error; + + // Get 3D CLUT + nTabSize = uipow(OutputChannels, CLUTpoints, InputChannels); + if (nTabSize == (cmsUInt32Number) -1) goto Error; + if (nTabSize > 0) { + + cmsUInt16Number *T; + + T = (cmsUInt16Number*) _cmsCalloc(self ->ContextID, nTabSize, sizeof(cmsUInt16Number)); + if (T == NULL) goto Error; + + if (!_cmsReadUInt16Array(io, nTabSize, T)) { + _cmsFree(self ->ContextID, T); + goto Error; + } + + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, cmsStageAllocCLut16bit(self ->ContextID, CLUTpoints, InputChannels, OutputChannels, T))) { + _cmsFree(self ->ContextID, T); + goto Error; + } + _cmsFree(self ->ContextID, T); + } + + + // Get output tables + if (!Read16bitTables(self ->ContextID, io, NewLUT, OutputChannels, OutputEntries)) goto Error; + + *nItems = 1; + return NewLUT; + +Error: + if (NewLUT != NULL) cmsPipelineFree(NewLUT); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +// We only allow some specific MPE structures: Matrix plus prelin, plus clut, plus post-lin. +// Some empty defaults are created for missing parts + +static +cmsBool Type_LUT16_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number nTabSize; + cmsPipeline* NewLUT = (cmsPipeline*) Ptr; + cmsStage* mpe; + _cmsStageToneCurvesData* PreMPE = NULL, *PostMPE = NULL; + _cmsStageMatrixData* MatMPE = NULL; + _cmsStageCLutData* clut = NULL; + int i, InputChannels, OutputChannels, clutPoints; + + // Disassemble the LUT into components. + mpe = NewLUT -> Elements; + if (mpe != NULL && mpe ->Type == cmsSigMatrixElemType) { + + MatMPE = (_cmsStageMatrixData*) mpe ->Data; + mpe = mpe -> Next; + } + + + if (mpe != NULL && mpe ->Type == cmsSigCurveSetElemType) { + PreMPE = (_cmsStageToneCurvesData*) mpe ->Data; + mpe = mpe -> Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCLutElemType) { + clut = (_cmsStageCLutData*) mpe -> Data; + mpe = mpe ->Next; + } + + if (mpe != NULL && mpe ->Type == cmsSigCurveSetElemType) { + PostMPE = (_cmsStageToneCurvesData*) mpe ->Data; + mpe = mpe -> Next; + } + + // That should be all + if (mpe != NULL) { + cmsSignalError(mpe->ContextID, cmsERROR_UNKNOWN_EXTENSION, "LUT is not suitable to be saved as LUT16"); + return FALSE; + } + + InputChannels = cmsPipelineInputChannels(NewLUT); + OutputChannels = cmsPipelineOutputChannels(NewLUT); + + if (clut == NULL) + clutPoints = 0; + else + clutPoints = clut->Params->nSamples[0]; + + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) InputChannels)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) OutputChannels)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) clutPoints)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; // Padding + + + if (MatMPE != NULL) { + + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[0])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[1])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[2])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[3])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[4])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[5])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[6])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[7])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, MatMPE -> Double[8])) return FALSE; + } + else { + + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 1)) return FALSE; + } + + + if (PreMPE != NULL) { + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) PreMPE ->TheCurves[0]->nEntries)) return FALSE; + } else { + if (!_cmsWriteUInt16Number(io, 2)) return FALSE; + } + + if (PostMPE != NULL) { + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) PostMPE ->TheCurves[0]->nEntries)) return FALSE; + } else { + if (!_cmsWriteUInt16Number(io, 2)) return FALSE; + + } + + // The prelinearization table + + if (PreMPE != NULL) { + if (!Write16bitTables(self ->ContextID, io, PreMPE)) return FALSE; + } + else { + for (i=0; i < InputChannels; i++) { + + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; + if (!_cmsWriteUInt16Number(io, 0xffff)) return FALSE; + } + } + + nTabSize = uipow(OutputChannels, clutPoints, InputChannels); + if (nTabSize == (cmsUInt32Number) -1) return FALSE; + if (nTabSize > 0) { + // The 3D CLUT. + if (clut != NULL) { + if (!_cmsWriteUInt16Array(io, nTabSize, clut->Tab.T)) return FALSE; + } + } + + // The postlinearization table + if (PostMPE != NULL) { + if (!Write16bitTables(self ->ContextID, io, PostMPE)) return FALSE; + } + else { + for (i=0; i < OutputChannels; i++) { + + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; + if (!_cmsWriteUInt16Number(io, 0xffff)) return FALSE; + } + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_LUT16_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_LUT16_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigLutAToBType +// ******************************************************************************** + + +// V4 stuff. Read matrix for LutAtoB and LutBtoA + +static +cmsStage* ReadMatrix(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number Offset) +{ + cmsFloat64Number dMat[3*3]; + cmsFloat64Number dOff[3]; + cmsStage* Mat; + + // Go to address + if (!io -> Seek(io, Offset)) return NULL; + + // Read the Matrix + if (!_cmsRead15Fixed16Number(io, &dMat[0])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[1])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[2])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[3])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[4])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[5])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[6])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[7])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dMat[8])) return NULL; + + if (!_cmsRead15Fixed16Number(io, &dOff[0])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dOff[1])) return NULL; + if (!_cmsRead15Fixed16Number(io, &dOff[2])) return NULL; + + Mat = cmsStageAllocMatrix(self ->ContextID, 3, 3, dMat, dOff); + + return Mat; +} + + + + +// V4 stuff. Read CLUT part for LutAtoB and LutBtoA + +static +cmsStage* ReadCLUT(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number Offset, int InputChannels, int OutputChannels) +{ + cmsUInt8Number gridPoints8[cmsMAXCHANNELS]; // Number of grid points in each dimension. + cmsUInt32Number GridPoints[cmsMAXCHANNELS], i; + cmsUInt8Number Precision; + cmsStage* CLUT; + _cmsStageCLutData* Data; + + if (!io -> Seek(io, Offset)) return NULL; + if (io -> Read(io, gridPoints8, cmsMAXCHANNELS, 1) != 1) return NULL; + + + for (i=0; i < cmsMAXCHANNELS; i++) { + + if (gridPoints8[i] == 1) return NULL; // Impossible value, 0 for no CLUT and then 2 at least + GridPoints[i] = gridPoints8[i]; + } + + if (!_cmsReadUInt8Number(io, &Precision)) return NULL; + + if (!_cmsReadUInt8Number(io, NULL)) return NULL; + if (!_cmsReadUInt8Number(io, NULL)) return NULL; + if (!_cmsReadUInt8Number(io, NULL)) return NULL; + + CLUT = cmsStageAllocCLut16bitGranular(self ->ContextID, GridPoints, InputChannels, OutputChannels, NULL); + if (CLUT == NULL) return NULL; + + Data = (_cmsStageCLutData*) CLUT ->Data; + + // Precision can be 1 or 2 bytes + if (Precision == 1) { + + cmsUInt8Number v; + + for (i=0; i < Data ->nEntries; i++) { + + if (io ->Read(io, &v, sizeof(cmsUInt8Number), 1) != 1) return NULL; + Data ->Tab.T[i] = FROM_8_TO_16(v); + } + + } + else + if (Precision == 2) { + + if (!_cmsReadUInt16Array(io, Data->nEntries, Data ->Tab.T)) { + cmsStageFree(CLUT); + return NULL; + } + } + else { + cmsStageFree(CLUT); + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown precision of '%d'", Precision); + return NULL; + } + + return CLUT; +} + +static +cmsToneCurve* ReadEmbeddedCurve(struct _cms_typehandler_struct* self, cmsIOHANDLER* io) +{ + cmsTagTypeSignature BaseType; + cmsUInt32Number nItems; + + BaseType = _cmsReadTypeBase(io); + switch (BaseType) { + + case cmsSigCurveType: + return (cmsToneCurve*) Type_Curve_Read(self, io, &nItems, 0); + + case cmsSigParametricCurveType: + return (cmsToneCurve*) Type_ParametricCurve_Read(self, io, &nItems, 0); + + default: + { + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) BaseType); + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown curve type '%s'", String); + } + return NULL; + } +} + + +// Read a set of curves from specific offset +static +cmsStage* ReadSetOfCurves(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number Offset, cmsUInt32Number nCurves) +{ + cmsToneCurve* Curves[cmsMAXCHANNELS]; + cmsUInt32Number i; + cmsStage* Lin = NULL; + + if (nCurves > cmsMAXCHANNELS) return FALSE; + + if (!io -> Seek(io, Offset)) return FALSE; + + for (i=0; i < nCurves; i++) + Curves[i] = NULL; + + for (i=0; i < nCurves; i++) { + + Curves[i] = ReadEmbeddedCurve(self, io); + if (Curves[i] == NULL) goto Error; + if (!_cmsReadAlignment(io)) goto Error; + + } + + Lin = cmsStageAllocToneCurves(self ->ContextID, nCurves, Curves); + +Error: + for (i=0; i < nCurves; i++) + cmsFreeToneCurve(Curves[i]); + + return Lin; +} + + +// LutAtoB type + +// This structure represents a colour transform. The type contains up to five processing +// elements which are stored in the AtoBTag tag in the following order: a set of one +// dimensional curves, a 3 by 3 matrix with offset terms, a set of one dimensional curves, +// a multidimensional lookup table, and a set of one dimensional output curves. +// Data are processed using these elements via the following sequence: +// +//("A" curves) -> (multidimensional lookup table - CLUT) -> ("M" curves) -> (matrix) -> ("B" curves). +// +/* +It is possible to use any or all of these processing elements. At least one processing element +must be included.Only the following combinations are allowed: + +B +M - Matrix - B +A - CLUT - B +A - CLUT - M - Matrix - B + +*/ + +static +void* Type_LUTA2B_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt32Number BaseOffset; + cmsUInt8Number inputChan; // Number of input channels + cmsUInt8Number outputChan; // Number of output channels + cmsUInt32Number offsetB; // Offset to first "B" curve + cmsUInt32Number offsetMat; // Offset to matrix + cmsUInt32Number offsetM; // Offset to first "M" curve + cmsUInt32Number offsetC; // Offset to CLUT + cmsUInt32Number offsetA; // Offset to first "A" curve + cmsPipeline* NewLUT = NULL; + + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (!_cmsReadUInt8Number(io, &inputChan)) return NULL; + if (!_cmsReadUInt8Number(io, &outputChan)) return NULL; + + if (!_cmsReadUInt16Number(io, NULL)) return NULL; + + if (!_cmsReadUInt32Number(io, &offsetB)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetMat)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetM)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetC)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetA)) return NULL; + + // Allocates an empty LUT + NewLUT = cmsPipelineAlloc(self ->ContextID, inputChan, outputChan); + if (NewLUT == NULL) return NULL; + + if (offsetA!= 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetA, inputChan))) + goto Error; + } + + if (offsetC != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadCLUT(self, io, BaseOffset + offsetC, inputChan, outputChan))) + goto Error; + } + + if (offsetM != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetM, outputChan))) + goto Error; + } + + if (offsetMat != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadMatrix(self, io, BaseOffset + offsetMat))) + goto Error; + } + + if (offsetB != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetB, outputChan))) + goto Error; + } + + *nItems = 1; + return NewLUT; +Error: + cmsPipelineFree(NewLUT); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +// Write a set of curves +static +cmsBool WriteMatrix(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsStage* mpe) +{ + _cmsStageMatrixData* m = (_cmsStageMatrixData*) mpe -> Data; + + // Write the Matrix + if (!_cmsWrite15Fixed16Number(io, m -> Double[0])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[1])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[2])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[3])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[4])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[5])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[6])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[7])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Double[8])) return FALSE; + + if (m ->Offset != NULL) { + + if (!_cmsWrite15Fixed16Number(io, m -> Offset[0])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Offset[1])) return FALSE; + if (!_cmsWrite15Fixed16Number(io, m -> Offset[2])) return FALSE; + } + else { + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, 0)) return FALSE; + + } + + + return TRUE; + + cmsUNUSED_PARAMETER(self); +} + + +// Write a set of curves +static +cmsBool WriteSetOfCurves(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsTagTypeSignature Type, cmsStage* mpe) +{ + cmsUInt32Number i, n; + cmsTagTypeSignature CurrentType; + cmsToneCurve** Curves; + + + n = cmsStageOutputChannels(mpe); + Curves = _cmsStageGetPtrToCurveSet(mpe); + + for (i=0; i < n; i++) { + + // If this is a table-based curve, use curve type even on V4 + CurrentType = Type; + + if ((Curves[i] ->nSegments == 0)|| + ((Curves[i]->nSegments == 2) && (Curves[i] ->Segments[1].Type == 0)) ) + CurrentType = cmsSigCurveType; + else + if (Curves[i] ->Segments[0].Type < 0) + CurrentType = cmsSigCurveType; + + if (!_cmsWriteTypeBase(io, CurrentType)) return FALSE; + + switch (CurrentType) { + + case cmsSigCurveType: + if (!Type_Curve_Write(self, io, Curves[i], 1)) return FALSE; + break; + + case cmsSigParametricCurveType: + if (!Type_ParametricCurve_Write(self, io, Curves[i], 1)) return FALSE; + break; + + default: + { + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) Type); + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown curve type '%s'", String); + } + return FALSE; + } + + if (!_cmsWriteAlignment(io)) return FALSE; + } + + + return TRUE; +} + + +static +cmsBool WriteCLUT(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt8Number Precision, cmsStage* mpe) +{ + cmsUInt8Number gridPoints[cmsMAXCHANNELS]; // Number of grid points in each dimension. + cmsUInt32Number i; + _cmsStageCLutData* CLUT = ( _cmsStageCLutData*) mpe -> Data; + + if (CLUT ->HasFloatValues) { + cmsSignalError(self ->ContextID, cmsERROR_NOT_SUITABLE, "Cannot save floating point data, CLUT are 8 or 16 bit only"); + return FALSE; + } + + memset(gridPoints, 0, sizeof(gridPoints)); + for (i=0; i < (cmsUInt32Number) CLUT ->Params ->nInputs; i++) + gridPoints[i] = (cmsUInt8Number) CLUT ->Params ->nSamples[i]; + + if (!io -> Write(io, cmsMAXCHANNELS*sizeof(cmsUInt8Number), gridPoints)) return FALSE; + + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) Precision)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; + if (!_cmsWriteUInt8Number(io, 0)) return FALSE; + + // Precision can be 1 or 2 bytes + if (Precision == 1) { + + for (i=0; i < CLUT->nEntries; i++) { + + if (!_cmsWriteUInt8Number(io, FROM_16_TO_8(CLUT->Tab.T[i]))) return FALSE; + } + } + else + if (Precision == 2) { + + if (!_cmsWriteUInt16Array(io, CLUT->nEntries, CLUT ->Tab.T)) return FALSE; + } + else { + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown precision of '%d'", Precision); + return FALSE; + } + + if (!_cmsWriteAlignment(io)) return FALSE; + + return TRUE; +} + + + + +static +cmsBool Type_LUTA2B_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsPipeline* Lut = (cmsPipeline*) Ptr; + int inputChan, outputChan; + cmsStage *A = NULL, *B = NULL, *M = NULL; + cmsStage * Matrix = NULL; + cmsStage * CLUT = NULL; + cmsUInt32Number offsetB = 0, offsetMat = 0, offsetM = 0, offsetC = 0, offsetA = 0; + cmsUInt32Number BaseOffset, DirectoryPos, CurrentPos; + + // Get the base for all offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (Lut ->Elements != NULL) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 1, cmsSigCurveSetElemType, &B)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, &M, &Matrix, &B)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, &A, &CLUT, &B)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 5, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, + cmsSigMatrixElemType, cmsSigCurveSetElemType, &A, &CLUT, &M, &Matrix, &B)) { + + cmsSignalError(self->ContextID, cmsERROR_NOT_SUITABLE, "LUT is not suitable to be saved as LutAToB"); + return FALSE; + } + + // Get input, output channels + inputChan = cmsPipelineInputChannels(Lut); + outputChan = cmsPipelineOutputChannels(Lut); + + // Write channel count + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) inputChan)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) outputChan)) return FALSE; + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; + + // Keep directory to be filled latter + DirectoryPos = io ->Tell(io); + + // Write the directory + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + + if (A != NULL) { + + offsetA = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, A)) return FALSE; + } + + if (CLUT != NULL) { + offsetC = io ->Tell(io) - BaseOffset; + if (!WriteCLUT(self, io, Lut ->SaveAs8Bits ? 1 : 2, CLUT)) return FALSE; + + } + if (M != NULL) { + + offsetM = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, M)) return FALSE; + } + + if (Matrix != NULL) { + offsetMat = io ->Tell(io) - BaseOffset; + if (!WriteMatrix(self, io, Matrix)) return FALSE; + } + + if (B != NULL) { + + offsetB = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, B)) return FALSE; + } + + CurrentPos = io ->Tell(io); + + if (!io ->Seek(io, DirectoryPos)) return FALSE; + + if (!_cmsWriteUInt32Number(io, offsetB)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetMat)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetM)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetC)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetA)) return FALSE; + + if (!io ->Seek(io, CurrentPos)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_LUTA2B_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_LUTA2B_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// LutBToA type + +static +void* Type_LUTB2A_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt8Number inputChan; // Number of input channels + cmsUInt8Number outputChan; // Number of output channels + cmsUInt32Number BaseOffset; // Actual position in file + cmsUInt32Number offsetB; // Offset to first "B" curve + cmsUInt32Number offsetMat; // Offset to matrix + cmsUInt32Number offsetM; // Offset to first "M" curve + cmsUInt32Number offsetC; // Offset to CLUT + cmsUInt32Number offsetA; // Offset to first "A" curve + cmsPipeline* NewLUT = NULL; + + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (!_cmsReadUInt8Number(io, &inputChan)) return NULL; + if (!_cmsReadUInt8Number(io, &outputChan)) return NULL; + + // Padding + if (!_cmsReadUInt16Number(io, NULL)) return NULL; + + if (!_cmsReadUInt32Number(io, &offsetB)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetMat)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetM)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetC)) return NULL; + if (!_cmsReadUInt32Number(io, &offsetA)) return NULL; + + // Allocates an empty LUT + NewLUT = cmsPipelineAlloc(self ->ContextID, inputChan, outputChan); + if (NewLUT == NULL) return NULL; + + if (offsetB != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetB, inputChan))) + goto Error; + } + + if (offsetMat != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadMatrix(self, io, BaseOffset + offsetMat))) + goto Error; + } + + if (offsetM != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetM, inputChan))) + goto Error; + } + + if (offsetC != 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadCLUT(self, io, BaseOffset + offsetC, inputChan, outputChan))) + goto Error; + } + + if (offsetA!= 0) { + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, ReadSetOfCurves(self, io, BaseOffset + offsetA, outputChan))) + goto Error; + } + + *nItems = 1; + return NewLUT; +Error: + cmsPipelineFree(NewLUT); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +/* +B +B - Matrix - M +B - CLUT - A +B - Matrix - M - CLUT - A +*/ + +static +cmsBool Type_LUTB2A_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsPipeline* Lut = (cmsPipeline*) Ptr; + int inputChan, outputChan; + cmsStage *A = NULL, *B = NULL, *M = NULL; + cmsStage *Matrix = NULL; + cmsStage *CLUT = NULL; + cmsUInt32Number offsetB = 0, offsetMat = 0, offsetM = 0, offsetC = 0, offsetA = 0; + cmsUInt32Number BaseOffset, DirectoryPos, CurrentPos; + + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (!cmsPipelineCheckAndRetreiveStages(Lut, 1, cmsSigCurveSetElemType, &B)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, &B, &Matrix, &M)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 3, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, &B, &CLUT, &A)) + if (!cmsPipelineCheckAndRetreiveStages(Lut, 5, cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, + cmsSigCLutElemType, cmsSigCurveSetElemType, &B, &Matrix, &M, &CLUT, &A)) { + cmsSignalError(self->ContextID, cmsERROR_NOT_SUITABLE, "LUT is not suitable to be saved as LutBToA"); + return FALSE; + } + + inputChan = cmsPipelineInputChannels(Lut); + outputChan = cmsPipelineOutputChannels(Lut); + + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) inputChan)) return FALSE; + if (!_cmsWriteUInt8Number(io, (cmsUInt8Number) outputChan)) return FALSE; + if (!_cmsWriteUInt16Number(io, 0)) return FALSE; + + DirectoryPos = io ->Tell(io); + + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + + if (A != NULL) { + + offsetA = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, A)) return FALSE; + } + + if (CLUT != NULL) { + offsetC = io ->Tell(io) - BaseOffset; + if (!WriteCLUT(self, io, Lut ->SaveAs8Bits ? 1 : 2, CLUT)) return FALSE; + + } + if (M != NULL) { + + offsetM = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, M)) return FALSE; + } + + if (Matrix != NULL) { + offsetMat = io ->Tell(io) - BaseOffset; + if (!WriteMatrix(self, io, Matrix)) return FALSE; + } + + if (B != NULL) { + + offsetB = io ->Tell(io) - BaseOffset; + if (!WriteSetOfCurves(self, io, cmsSigParametricCurveType, B)) return FALSE; + } + + CurrentPos = io ->Tell(io); + + if (!io ->Seek(io, DirectoryPos)) return FALSE; + + if (!_cmsWriteUInt32Number(io, offsetB)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetMat)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetM)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetC)) return FALSE; + if (!_cmsWriteUInt32Number(io, offsetA)) return FALSE; + + if (!io ->Seek(io, CurrentPos)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + + +static +void* Type_LUTB2A_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_LUTB2A_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + + +// ******************************************************************************** +// Type cmsSigColorantTableType +// ******************************************************************************** +/* +The purpose of this tag is to identify the colorants used in the profile by a +unique name and set of XYZ or L*a*b* values to give the colorant an unambiguous +value. The first colorant listed is the colorant of the first device channel of +a lut tag. The second colorant listed is the colorant of the second device channel +of a lut tag, and so on. +*/ + +static +void *Type_ColorantTable_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt32Number i, Count; + cmsNAMEDCOLORLIST* List; + char Name[34]; + cmsUInt16Number PCS[3]; + + + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + + if (Count > cmsMAXCHANNELS) { + cmsSignalError(self->ContextID, cmsERROR_RANGE, "Too many colorants '%d'", Count); + return NULL; + } + + List = cmsAllocNamedColorList(self ->ContextID, Count, 0, "", ""); + for (i=0; i < Count; i++) { + + if (io ->Read(io, Name, 32, 1) != 1) goto Error; + Name[33] = 0; + + if (!_cmsReadUInt16Array(io, 3, PCS)) goto Error; + + if (!cmsAppendNamedColor(List, Name, PCS, NULL)) goto Error; + + } + + *nItems = 1; + return List; + +Error: + *nItems = 0; + cmsFreeNamedColorList(List); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + + +// Saves a colorant table. It is using the named color structure for simplicity sake +static +cmsBool Type_ColorantTable_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsNAMEDCOLORLIST* NamedColorList = (cmsNAMEDCOLORLIST*) Ptr; + int i, nColors; + + nColors = cmsNamedColorCount(NamedColorList); + + if (!_cmsWriteUInt32Number(io, nColors)) return FALSE; + + for (i=0; i < nColors; i++) { + + char root[33]; + cmsUInt16Number PCS[3]; + + if (!cmsNamedColorInfo(NamedColorList, i, root, NULL, NULL, PCS, NULL)) return 0; + root[32] = 0; + + if (!io ->Write(io, 32, root)) return FALSE; + if (!_cmsWriteUInt16Array(io, 3, PCS)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_ColorantTable_Dup(struct _cms_typehandler_struct* self, const void* Ptr, cmsUInt32Number n) +{ + cmsNAMEDCOLORLIST* nc = (cmsNAMEDCOLORLIST*) Ptr; + return (void*) cmsDupNamedColorList(nc); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + + +static +void Type_ColorantTable_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeNamedColorList((cmsNAMEDCOLORLIST*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigNamedColor2Type +// ******************************************************************************** +// +//The namedColor2Type is a count value and array of structures that provide color +//coordinates for 7-bit ASCII color names. For each named color, a PCS and optional +//device representation of the color are given. Both representations are 16-bit values. +//The device representation corresponds to the header’s “color space of data” field. +//This representation should be consistent with the “number of device components” +//field in the namedColor2Type. If this field is 0, device coordinates are not provided. +//The PCS representation corresponds to the header’s PCS field. The PCS representation +//is always provided. Color names are fixed-length, 32-byte fields including null +//termination. In order to maintain maximum portability, it is strongly recommended +//that special characters of the 7-bit ASCII set not be used. + +static +void *Type_NamedColor_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + + cmsUInt32Number vendorFlag; // Bottom 16 bits for ICC use + cmsUInt32Number count; // Count of named colors + cmsUInt32Number nDeviceCoords; // Num of device coordinates + char prefix[32]; // Prefix for each color name + char suffix[32]; // Suffix for each color name + cmsNAMEDCOLORLIST* v; + cmsUInt32Number i; + + + *nItems = 0; + if (!_cmsReadUInt32Number(io, &vendorFlag)) return NULL; + if (!_cmsReadUInt32Number(io, &count)) return NULL; + if (!_cmsReadUInt32Number(io, &nDeviceCoords)) return NULL; + + if (io -> Read(io, prefix, 32, 1) != 1) return NULL; + if (io -> Read(io, suffix, 32, 1) != 1) return NULL; + + prefix[31] = suffix[31] = 0; + + v = cmsAllocNamedColorList(self ->ContextID, count, nDeviceCoords, prefix, suffix); + if (v == NULL) { + cmsSignalError(self->ContextID, cmsERROR_RANGE, "Too many named colors '%d'", count); + return NULL; + } + + if (nDeviceCoords > cmsMAXCHANNELS) { + cmsSignalError(self->ContextID, cmsERROR_RANGE, "Too many device coordinates '%d'", nDeviceCoords); + return 0; + } + for (i=0; i < count; i++) { + + cmsUInt16Number PCS[3]; + cmsUInt16Number Colorant[cmsMAXCHANNELS]; + char Root[33]; + + memset(Colorant, 0, sizeof(Colorant)); + if (io -> Read(io, Root, 32, 1) != 1) return NULL; + Root[32] = 0; // To prevent exploits + + if (!_cmsReadUInt16Array(io, 3, PCS)) goto Error; + if (!_cmsReadUInt16Array(io, nDeviceCoords, Colorant)) goto Error; + + if (!cmsAppendNamedColor(v, Root, PCS, Colorant)) goto Error; + } + + *nItems = 1; + return (void*) v ; + +Error: + cmsFreeNamedColorList(v); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +// Saves a named color list into a named color profile +static +cmsBool Type_NamedColor_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsNAMEDCOLORLIST* NamedColorList = (cmsNAMEDCOLORLIST*) Ptr; + char prefix[33]; // Prefix for each color name + char suffix[33]; // Suffix for each color name + int i, nColors; + + nColors = cmsNamedColorCount(NamedColorList); + + if (!_cmsWriteUInt32Number(io, 0)) return FALSE; + if (!_cmsWriteUInt32Number(io, nColors)) return FALSE; + if (!_cmsWriteUInt32Number(io, NamedColorList ->ColorantCount)) return FALSE; + + strncpy(prefix, (const char*) NamedColorList->Prefix, 32); + strncpy(suffix, (const char*) NamedColorList->Suffix, 32); + + suffix[32] = prefix[32] = 0; + + if (!io ->Write(io, 32, prefix)) return FALSE; + if (!io ->Write(io, 32, suffix)) return FALSE; + + for (i=0; i < nColors; i++) { + + cmsUInt16Number PCS[3]; + cmsUInt16Number Colorant[cmsMAXCHANNELS]; + char Root[33]; + + if (!cmsNamedColorInfo(NamedColorList, i, Root, NULL, NULL, PCS, Colorant)) return 0; + Root[32] = 0; + if (!io ->Write(io, 32 , Root)) return FALSE; + if (!_cmsWriteUInt16Array(io, 3, PCS)) return FALSE; + if (!_cmsWriteUInt16Array(io, NamedColorList ->ColorantCount, Colorant)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + +static +void* Type_NamedColor_Dup(struct _cms_typehandler_struct* self, const void* Ptr, cmsUInt32Number n) +{ + cmsNAMEDCOLORLIST* nc = (cmsNAMEDCOLORLIST*) Ptr; + + return (void*) cmsDupNamedColorList(nc); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + + +static +void Type_NamedColor_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeNamedColorList((cmsNAMEDCOLORLIST*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigProfileSequenceDescType +// ******************************************************************************** + +// This type is an array of structures, each of which contains information from the +// header fields and tags from the original profiles which were combined to create +// the final profile. The order of the structures is the order in which the profiles +// were combined and includes a structure for the final profile. This provides a +// description of the profile sequence from source to destination, +// typically used with the DeviceLink profile. + +static +cmsBool ReadEmbeddedText(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsMLU** mlu, cmsUInt32Number SizeOfTag) +{ + cmsTagTypeSignature BaseType; + cmsUInt32Number nItems; + + BaseType = _cmsReadTypeBase(io); + + switch (BaseType) { + + case cmsSigTextType: + if (*mlu) cmsMLUfree(*mlu); + *mlu = (cmsMLU*)Type_Text_Read(self, io, &nItems, SizeOfTag); + return (*mlu != NULL); + + case cmsSigTextDescriptionType: + if (*mlu) cmsMLUfree(*mlu); + *mlu = (cmsMLU*) Type_Text_Description_Read(self, io, &nItems, SizeOfTag); + return (*mlu != NULL); + + /* + TBD: Size is needed for MLU, and we have no idea on which is the available size + */ + + case cmsSigMultiLocalizedUnicodeType: + if (*mlu) cmsMLUfree(*mlu); + *mlu = (cmsMLU*) Type_MLU_Read(self, io, &nItems, SizeOfTag); + return (*mlu != NULL); + + default: return FALSE; + } +} + + +static +void *Type_ProfileSequenceDesc_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsSEQ* OutSeq; + cmsUInt32Number i, Count; + + *nItems = 0; + + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + + OutSeq = cmsAllocProfileSequenceDescription(self ->ContextID, Count); + if (OutSeq == NULL) return NULL; + + OutSeq ->n = Count; + + // Get structures as well + + for (i=0; i < Count; i++) { + + cmsPSEQDESC* sec = &OutSeq -> seq[i]; + + if (!_cmsReadUInt32Number(io, &sec ->deviceMfg)) goto Error; + if (SizeOfTag < sizeof(cmsUInt32Number)) goto Error; + SizeOfTag -= sizeof(cmsUInt32Number); + + if (!_cmsReadUInt32Number(io, &sec ->deviceModel)) goto Error; + if (SizeOfTag < sizeof(cmsUInt32Number)) goto Error; + SizeOfTag -= sizeof(cmsUInt32Number); + + if (!_cmsReadUInt64Number(io, &sec ->attributes)) goto Error; + if (SizeOfTag < sizeof(cmsUInt64Number)) goto Error; + SizeOfTag -= sizeof(cmsUInt64Number); + + if (!_cmsReadUInt32Number(io, (cmsUInt32Number *)&sec ->technology)) goto Error; + if (SizeOfTag < sizeof(cmsUInt32Number)) goto Error; + SizeOfTag -= sizeof(cmsUInt32Number); + + if (!ReadEmbeddedText(self, io, &sec ->Manufacturer, SizeOfTag)) goto Error; + if (!ReadEmbeddedText(self, io, &sec ->Model, SizeOfTag)) goto Error; + } + + *nItems = 1; + return OutSeq; + +Error: + cmsFreeProfileSequenceDescription(OutSeq); + return NULL; +} + + +// Aux--Embed a text description type. It can be of type text description or multilocalized unicode +// and it depends of the version number passed on cmsTagDescriptor structure instead of stack +static +cmsBool SaveDescription(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsMLU* Text) +{ + if (self ->ICCVersion < 0x4000000) { + + if (!_cmsWriteTypeBase(io, cmsSigTextDescriptionType)) return FALSE; + return Type_Text_Description_Write(self, io, Text, 1); + } + else { + if (!_cmsWriteTypeBase(io, cmsSigMultiLocalizedUnicodeType)) return FALSE; + return Type_MLU_Write(self, io, Text, 1); + } +} + + +static +cmsBool Type_ProfileSequenceDesc_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsSEQ* Seq = (cmsSEQ*) Ptr; + cmsUInt32Number i; + + if (!_cmsWriteUInt32Number(io, Seq->n)) return FALSE; + + for (i=0; i < Seq ->n; i++) { + + cmsPSEQDESC* sec = &Seq -> seq[i]; + + if (!_cmsWriteUInt32Number(io, sec ->deviceMfg)) return FALSE; + if (!_cmsWriteUInt32Number(io, sec ->deviceModel)) return FALSE; + if (!_cmsWriteUInt64Number(io, &sec ->attributes)) return FALSE; + if (!_cmsWriteUInt32Number(io, sec ->technology)) return FALSE; + + if (!SaveDescription(self, io, sec ->Manufacturer)) return FALSE; + if (!SaveDescription(self, io, sec ->Model)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_ProfileSequenceDesc_Dup(struct _cms_typehandler_struct* self, const void* Ptr, cmsUInt32Number n) +{ + return (void*) cmsDupProfileSequenceDescription((cmsSEQ*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_ProfileSequenceDesc_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeProfileSequenceDescription((cmsSEQ*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigProfileSequenceIdType +// ******************************************************************************** +/* +In certain workflows using ICC Device Link Profiles, it is necessary to identify the +original profiles that were combined to create the Device Link Profile. +This type is an array of structures, each of which contains information for +identification of a profile used in a sequence +*/ + + +static +cmsBool ReadSeqID(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + cmsSEQ* OutSeq = (cmsSEQ*) Cargo; + cmsPSEQDESC* seq = &OutSeq ->seq[n]; + + if (io -> Read(io, seq ->ProfileID.ID8, 16, 1) != 1) return FALSE; + if (!ReadEmbeddedText(self, io, &seq ->Description, SizeOfTag)) return FALSE; + + return TRUE; +} + + + +static +void *Type_ProfileSequenceId_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsSEQ* OutSeq; + cmsUInt32Number Count; + cmsUInt32Number BaseOffset; + + *nItems = 0; + + // Get actual position as a basis for element offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Get table count + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + // Allocate an empty structure + OutSeq = cmsAllocProfileSequenceDescription(self ->ContextID, Count); + if (OutSeq == NULL) return NULL; + + + // Read the position table + if (!ReadPositionTable(self, io, Count, BaseOffset, OutSeq, ReadSeqID)) { + + cmsFreeProfileSequenceDescription(OutSeq); + return NULL; + } + + // Success + *nItems = 1; + return OutSeq; + +} + + +static +cmsBool WriteSeqID(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + cmsSEQ* Seq = (cmsSEQ*) Cargo; + + if (!io ->Write(io, 16, Seq ->seq[n].ProfileID.ID8)) return FALSE; + + // Store here the MLU + if (!SaveDescription(self, io, Seq ->seq[n].Description)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_ProfileSequenceId_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsSEQ* Seq = (cmsSEQ*) Ptr; + cmsUInt32Number BaseOffset; + + // Keep the base offset + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // This is the table count + if (!_cmsWriteUInt32Number(io, Seq ->n)) return FALSE; + + // This is the position table and content + if (!WritePositionTable(self, io, 0, Seq ->n, BaseOffset, Seq, WriteSeqID)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_ProfileSequenceId_Dup(struct _cms_typehandler_struct* self, const void* Ptr, cmsUInt32Number n) +{ + return (void*) cmsDupProfileSequenceDescription((cmsSEQ*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_ProfileSequenceId_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeProfileSequenceDescription((cmsSEQ*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigUcrBgType +// ******************************************************************************** +/* +This type contains curves representing the under color removal and black +generation and a text string which is a general description of the method used +for the ucr/bg. +*/ + +static +void *Type_UcrBg_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUcrBg* n = (cmsUcrBg*) _cmsMallocZero(self ->ContextID, sizeof(cmsUcrBg)); + cmsUInt32Number CountUcr, CountBg; + char* ASCIIString; + + *nItems = 0; + if (n == NULL) return NULL; + + // First curve is Under color removal + if (!_cmsReadUInt32Number(io, &CountUcr)) return NULL; + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + n ->Ucr = cmsBuildTabulatedToneCurve16(self ->ContextID, CountUcr, NULL); + if (n ->Ucr == NULL) return NULL; + + if (!_cmsReadUInt16Array(io, CountUcr, n ->Ucr->Table16)) return NULL; + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + SizeOfTag -= CountUcr * sizeof(cmsUInt16Number); + + // Second curve is Black generation + if (!_cmsReadUInt32Number(io, &CountBg)) return NULL; + if (SizeOfTag < sizeof(cmsUInt32Number)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + n ->Bg = cmsBuildTabulatedToneCurve16(self ->ContextID, CountBg, NULL); + if (n ->Bg == NULL) return NULL; + if (!_cmsReadUInt16Array(io, CountBg, n ->Bg->Table16)) return NULL; + if (SizeOfTag < CountBg * sizeof(cmsUInt16Number)) return NULL; + SizeOfTag -= CountBg * sizeof(cmsUInt16Number); + if (SizeOfTag == UINT_MAX) return NULL; + + // Now comes the text. The length is specified by the tag size + n ->Desc = cmsMLUalloc(self ->ContextID, 1); + if (n ->Desc == NULL) return NULL; + + ASCIIString = (char*) _cmsMalloc(self ->ContextID, SizeOfTag + 1); + if (io ->Read(io, ASCIIString, sizeof(char), SizeOfTag) != SizeOfTag) return NULL; + ASCIIString[SizeOfTag] = 0; + cmsMLUsetASCII(n ->Desc, cmsNoLanguage, cmsNoCountry, ASCIIString); + _cmsFree(self ->ContextID, ASCIIString); + + *nItems = 1; + return (void*) n; +} + +static +cmsBool Type_UcrBg_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUcrBg* Value = (cmsUcrBg*) Ptr; + cmsUInt32Number TextSize; + char* Text; + + // First curve is Under color removal + if (!_cmsWriteUInt32Number(io, Value ->Ucr ->nEntries)) return FALSE; + if (!_cmsWriteUInt16Array(io, Value ->Ucr ->nEntries, Value ->Ucr ->Table16)) return FALSE; + + // Then black generation + if (!_cmsWriteUInt32Number(io, Value ->Bg ->nEntries)) return FALSE; + if (!_cmsWriteUInt16Array(io, Value ->Bg ->nEntries, Value ->Bg ->Table16)) return FALSE; + + // Now comes the text. The length is specified by the tag size + TextSize = cmsMLUgetASCII(Value ->Desc, cmsNoLanguage, cmsNoCountry, NULL, 0); + Text = (char*) _cmsMalloc(self ->ContextID, TextSize); + if (cmsMLUgetASCII(Value ->Desc, cmsNoLanguage, cmsNoCountry, Text, TextSize) != TextSize) return FALSE; + + if (!io ->Write(io, TextSize, Text)) return FALSE; + _cmsFree(self ->ContextID, Text); + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_UcrBg_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + cmsUcrBg* Src = (cmsUcrBg*) Ptr; + cmsUcrBg* NewUcrBg = (cmsUcrBg*) _cmsMallocZero(self ->ContextID, sizeof(cmsUcrBg)); + + if (NewUcrBg == NULL) return NULL; + + NewUcrBg ->Bg = cmsDupToneCurve(Src ->Bg); + NewUcrBg ->Ucr = cmsDupToneCurve(Src ->Ucr); + NewUcrBg ->Desc = cmsMLUdup(Src ->Desc); + + return (void*) NewUcrBg; + + cmsUNUSED_PARAMETER(n); +} + +static +void Type_UcrBg_Free(struct _cms_typehandler_struct* self, void *Ptr) +{ + cmsUcrBg* Src = (cmsUcrBg*) Ptr; + + if (Src ->Ucr) cmsFreeToneCurve(Src ->Ucr); + if (Src ->Bg) cmsFreeToneCurve(Src ->Bg); + if (Src ->Desc) cmsMLUfree(Src ->Desc); + + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigCrdInfoType +// ******************************************************************************** + +/* +This type contains the PostScript product name to which this profile corresponds +and the names of the companion CRDs. Recall that a single profile can generate +multiple CRDs. It is implemented as a MLU being the language code "PS" and then +country varies for each element: + + nm: PostScript product name + #0: Rendering intent 0 CRD name + #1: Rendering intent 1 CRD name + #2: Rendering intent 2 CRD name + #3: Rendering intent 3 CRD name +*/ + + + +// Auxiliary, read an string specified as count + string +static +cmsBool ReadCountAndSting(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsMLU* mlu, cmsUInt32Number* SizeOfTag, const char* Section) +{ + cmsUInt32Number Count; + char* Text; + + if (*SizeOfTag < sizeof(cmsUInt32Number)) return FALSE; + + if (!_cmsReadUInt32Number(io, &Count)) return FALSE; + + if (Count > UINT_MAX - sizeof(cmsUInt32Number)) return FALSE; + if (*SizeOfTag < Count + sizeof(cmsUInt32Number)) return FALSE; + + Text = (char*) _cmsMalloc(self ->ContextID, Count+1); + if (Text == NULL) return FALSE; + + if (io ->Read(io, Text, sizeof(cmsUInt8Number), Count) != Count) { + _cmsFree(self ->ContextID, Text); + return FALSE; + } + + Text[Count] = 0; + + cmsMLUsetASCII(mlu, "PS", Section, Text); + _cmsFree(self ->ContextID, Text); + + *SizeOfTag -= (Count + sizeof(cmsUInt32Number)); + return TRUE; +} + +static +cmsBool WriteCountAndSting(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsMLU* mlu, const char* Section) +{ + cmsUInt32Number TextSize; + char* Text; + + TextSize = cmsMLUgetASCII(mlu, "PS", Section, NULL, 0); + Text = (char*) _cmsMalloc(self ->ContextID, TextSize); + + if (!_cmsWriteUInt32Number(io, TextSize)) return FALSE; + + if (cmsMLUgetASCII(mlu, "PS", Section, Text, TextSize) == 0) return FALSE; + + if (!io ->Write(io, TextSize, Text)) return FALSE; + _cmsFree(self ->ContextID, Text); + + return TRUE; +} + +static +void *Type_CrdInfo_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsMLU* mlu = cmsMLUalloc(self ->ContextID, 5); + + *nItems = 0; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "nm")) goto Error; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "#0")) goto Error; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "#1")) goto Error; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "#2")) goto Error; + if (!ReadCountAndSting(self, io, mlu, &SizeOfTag, "#3")) goto Error; + + *nItems = 1; + return (void*) mlu; + +Error: + cmsMLUfree(mlu); + return NULL; + +} + +static +cmsBool Type_CrdInfo_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + + cmsMLU* mlu = (cmsMLU*) Ptr; + + if (!WriteCountAndSting(self, io, mlu, "nm")) goto Error; + if (!WriteCountAndSting(self, io, mlu, "#0")) goto Error; + if (!WriteCountAndSting(self, io, mlu, "#1")) goto Error; + if (!WriteCountAndSting(self, io, mlu, "#2")) goto Error; + if (!WriteCountAndSting(self, io, mlu, "#3")) goto Error; + + return TRUE; + +Error: + return FALSE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_CrdInfo_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsMLUdup((cmsMLU*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_CrdInfo_Free(struct _cms_typehandler_struct* self, void *Ptr) +{ + cmsMLUfree((cmsMLU*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + +// ******************************************************************************** +// Type cmsSigScreeningType +// ******************************************************************************** +// +//The screeningType describes various screening parameters including screen +//frequency, screening angle, and spot shape. + +static +void *Type_Screening_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsScreening* sc = NULL; + cmsUInt32Number i; + + sc = (cmsScreening*) _cmsMallocZero(self ->ContextID, sizeof(cmsScreening)); + if (sc == NULL) return NULL; + + *nItems = 0; + + if (!_cmsReadUInt32Number(io, &sc ->Flag)) goto Error; + if (!_cmsReadUInt32Number(io, &sc ->nChannels)) goto Error; + + if (sc ->nChannels > cmsMAXCHANNELS - 1) + sc ->nChannels = cmsMAXCHANNELS - 1; + + for (i=0; i < sc ->nChannels; i++) { + + if (!_cmsRead15Fixed16Number(io, &sc ->Channels[i].Frequency)) goto Error; + if (!_cmsRead15Fixed16Number(io, &sc ->Channels[i].ScreenAngle)) goto Error; + if (!_cmsReadUInt32Number(io, &sc ->Channels[i].SpotShape)) goto Error; + } + + + *nItems = 1; + + return (void*) sc; + +Error: + if (sc != NULL) + _cmsFree(self ->ContextID, sc); + + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_Screening_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsScreening* sc = (cmsScreening* ) Ptr; + cmsUInt32Number i; + + if (!_cmsWriteUInt32Number(io, sc ->Flag)) return FALSE; + if (!_cmsWriteUInt32Number(io, sc ->nChannels)) return FALSE; + + for (i=0; i < sc ->nChannels; i++) { + + if (!_cmsWrite15Fixed16Number(io, sc ->Channels[i].Frequency)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, sc ->Channels[i].ScreenAngle)) return FALSE; + if (!_cmsWriteUInt32Number(io, sc ->Channels[i].SpotShape)) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_Screening_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self ->ContextID, Ptr, sizeof(cmsScreening)); + + cmsUNUSED_PARAMETER(n); +} + + +static +void Type_Screening_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + +// ******************************************************************************** +// Type cmsSigViewingConditionsType +// ******************************************************************************** +// +//This type represents a set of viewing condition parameters including: +//CIE ’absolute’ illuminant white point tristimulus values and CIE ’absolute’ +//surround tristimulus values. + +static +void *Type_ViewingConditions_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsICCViewingConditions* vc = NULL; + + vc = (cmsICCViewingConditions*) _cmsMallocZero(self ->ContextID, sizeof(cmsICCViewingConditions)); + if (vc == NULL) return NULL; + + *nItems = 0; + + if (!_cmsReadXYZNumber(io, &vc ->IlluminantXYZ)) goto Error; + if (!_cmsReadXYZNumber(io, &vc ->SurroundXYZ)) goto Error; + if (!_cmsReadUInt32Number(io, &vc ->IlluminantType)) goto Error; + + *nItems = 1; + + return (void*) vc; + +Error: + if (vc != NULL) + _cmsFree(self ->ContextID, vc); + + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +static +cmsBool Type_ViewingConditions_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsICCViewingConditions* sc = (cmsICCViewingConditions* ) Ptr; + + if (!_cmsWriteXYZNumber(io, &sc ->IlluminantXYZ)) return FALSE; + if (!_cmsWriteXYZNumber(io, &sc ->SurroundXYZ)) return FALSE; + if (!_cmsWriteUInt32Number(io, sc ->IlluminantType)) return FALSE; + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + +static +void* Type_ViewingConditions_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return _cmsDupMem(self->ContextID, Ptr, sizeof(cmsICCViewingConditions)); + + cmsUNUSED_PARAMETER(n); +} + + +static +void Type_ViewingConditions_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigMultiProcessElementType +// ******************************************************************************** + + +static +void* GenericMPEdup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsStageDup((cmsStage*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void GenericMPEfree(struct _cms_typehandler_struct* self, void *Ptr) +{ + cmsStageFree((cmsStage*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + +// Each curve is stored in one or more curve segments, with break-points specified between curve segments. +// The first curve segment always starts at –Infinity, and the last curve segment always ends at +Infinity. The +// first and last curve segments shall be specified in terms of a formula, whereas the other segments shall be +// specified either in terms of a formula, or by a sampled curve. + + +// Read an embedded segmented curve +static +cmsToneCurve* ReadSegmentedCurve(struct _cms_typehandler_struct* self, cmsIOHANDLER* io) +{ + cmsCurveSegSignature ElementSig; + cmsUInt32Number i, j; + cmsUInt16Number nSegments; + cmsCurveSegment* Segments; + cmsToneCurve* Curve; + cmsFloat32Number PrevBreak = -1E22F; // - infinite + + // Take signature and channels for each element. + if (!_cmsReadUInt32Number(io, (cmsUInt32Number*) &ElementSig)) return NULL; + + // That should be a segmented curve + if (ElementSig != cmsSigSegmentedCurve) return NULL; + + if (!_cmsReadUInt32Number(io, NULL)) return NULL; + if (!_cmsReadUInt16Number(io, &nSegments)) return NULL; + if (!_cmsReadUInt16Number(io, NULL)) return NULL; + + if (nSegments < 1) return NULL; + Segments = (cmsCurveSegment*) _cmsCalloc(self ->ContextID, nSegments, sizeof(cmsCurveSegment)); + if (Segments == NULL) return NULL; + + // Read breakpoints + for (i=0; i < (cmsUInt32Number) nSegments - 1; i++) { + + Segments[i].x0 = PrevBreak; + if (!_cmsReadFloat32Number(io, &Segments[i].x1)) goto Error; + PrevBreak = Segments[i].x1; + } + + Segments[nSegments-1].x0 = PrevBreak; + Segments[nSegments-1].x1 = 1E22F; // A big cmsFloat32Number number + + // Read segments + for (i=0; i < nSegments; i++) { + + if (!_cmsReadUInt32Number(io, (cmsUInt32Number*) &ElementSig)) goto Error; + if (!_cmsReadUInt32Number(io, NULL)) goto Error; + + switch (ElementSig) { + + case cmsSigFormulaCurveSeg: { + + cmsUInt16Number Type; + cmsUInt32Number ParamsByType[] = {4, 5, 5 }; + + if (!_cmsReadUInt16Number(io, &Type)) goto Error; + if (!_cmsReadUInt16Number(io, NULL)) goto Error; + + Segments[i].Type = Type + 6; + if (Type > 2) goto Error; + + for (j=0; j < ParamsByType[Type]; j++) { + + cmsFloat32Number f; + if (!_cmsReadFloat32Number(io, &f)) goto Error; + Segments[i].Params[j] = f; + } + } + break; + + + case cmsSigSampledCurveSeg: { + cmsUInt32Number Count; + + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + + Segments[i].nGridPoints = Count; + Segments[i].SampledPoints = (cmsFloat32Number*) _cmsCalloc(self ->ContextID, Count, sizeof(cmsFloat32Number)); + if (Segments[i].SampledPoints == NULL) goto Error; + + for (j=0; j < Count; j++) { + if (!_cmsReadFloat32Number(io, &Segments[i].SampledPoints[j])) goto Error; + } + } + break; + + default: + { + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) ElementSig); + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown curve element type '%s' found.", String); + } + return NULL; + + } + } + + Curve = cmsBuildSegmentedToneCurve(self ->ContextID, nSegments, Segments); + + for (i=0; i < nSegments; i++) { + if (Segments[i].SampledPoints) _cmsFree(self ->ContextID, Segments[i].SampledPoints); + } + _cmsFree(self ->ContextID, Segments); + return Curve; + +Error: + if (Segments) _cmsFree(self ->ContextID, Segments); + return NULL; +} + + +static +cmsBool ReadMPECurve(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + cmsToneCurve** GammaTables = ( cmsToneCurve**) Cargo; + + GammaTables[n] = ReadSegmentedCurve(self, io); + return (GammaTables[n] != NULL); + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +void *Type_MPEcurve_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsStage* mpe = NULL; + cmsUInt16Number InputChans, OutputChans; + cmsUInt32Number i, BaseOffset; + cmsToneCurve** GammaTables; + + *nItems = 0; + + // Get actual position as a basis for element offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + if (!_cmsReadUInt16Number(io, &InputChans)) return NULL; + if (!_cmsReadUInt16Number(io, &OutputChans)) return NULL; + + if (InputChans != OutputChans) return NULL; + + GammaTables = (cmsToneCurve**) _cmsCalloc(self ->ContextID, InputChans, sizeof(cmsToneCurve*)); + if (GammaTables == NULL) return NULL; + + if (ReadPositionTable(self, io, InputChans, BaseOffset, GammaTables, ReadMPECurve)) { + + mpe = cmsStageAllocToneCurves(self ->ContextID, InputChans, GammaTables); + } + else { + mpe = NULL; + } + + for (i=0; i < InputChans; i++) { + if (GammaTables[i]) cmsFreeToneCurve(GammaTables[i]); + } + + _cmsFree(self ->ContextID, GammaTables); + *nItems = (mpe != NULL) ? 1 : 0; + return mpe; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +// Write a single segmented curve. NO CHECK IS PERFORMED ON VALIDITY +static +cmsBool WriteSegmentedCurve(cmsIOHANDLER* io, cmsToneCurve* g) +{ + cmsUInt32Number i, j; + cmsCurveSegment* Segments = g ->Segments; + cmsUInt32Number nSegments = g ->nSegments; + + if (!_cmsWriteUInt32Number(io, cmsSigSegmentedCurve)) goto Error; + if (!_cmsWriteUInt32Number(io, 0)) goto Error; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) nSegments)) goto Error; + if (!_cmsWriteUInt16Number(io, 0)) goto Error; + + // Write the break-points + for (i=0; i < nSegments - 1; i++) { + if (!_cmsWriteFloat32Number(io, Segments[i].x1)) goto Error; + } + + // Write the segments + for (i=0; i < g ->nSegments; i++) { + + cmsCurveSegment* ActualSeg = Segments + i; + + if (ActualSeg -> Type == 0) { + + // This is a sampled curve + if (!_cmsWriteUInt32Number(io, (cmsUInt32Number) cmsSigSampledCurveSeg)) goto Error; + if (!_cmsWriteUInt32Number(io, 0)) goto Error; + if (!_cmsWriteUInt32Number(io, ActualSeg -> nGridPoints)) goto Error; + + for (j=0; j < g ->Segments[i].nGridPoints; j++) { + if (!_cmsWriteFloat32Number(io, ActualSeg -> SampledPoints[j])) goto Error; + } + + } + else { + int Type; + cmsUInt32Number ParamsByType[] = { 4, 5, 5 }; + + // This is a formula-based + if (!_cmsWriteUInt32Number(io, (cmsUInt32Number) cmsSigFormulaCurveSeg)) goto Error; + if (!_cmsWriteUInt32Number(io, 0)) goto Error; + + // We only allow 1, 2 and 3 as types + Type = ActualSeg ->Type - 6; + if (Type > 2 || Type < 0) goto Error; + + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) Type)) goto Error; + if (!_cmsWriteUInt16Number(io, 0)) goto Error; + + for (j=0; j < ParamsByType[Type]; j++) { + if (!_cmsWriteFloat32Number(io, (cmsFloat32Number) ActualSeg ->Params[j])) goto Error; + } + } + + // It seems there is no need to align. Code is here, and for safety commented out + // if (!_cmsWriteAlignment(io)) goto Error; + } + + return TRUE; + +Error: + return FALSE; +} + + +static +cmsBool WriteMPECurve(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + _cmsStageToneCurvesData* Curves = (_cmsStageToneCurvesData*) Cargo; + + return WriteSegmentedCurve(io, Curves ->TheCurves[n]); + + cmsUNUSED_PARAMETER(SizeOfTag); + cmsUNUSED_PARAMETER(self); +} + +// Write a curve, checking first for validity +static +cmsBool Type_MPEcurve_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number BaseOffset; + cmsStage* mpe = (cmsStage*) Ptr; + _cmsStageToneCurvesData* Curves = (_cmsStageToneCurvesData*) mpe ->Data; + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Write the header. Since those are curves, input and output channels are same + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->InputChannels)) return FALSE; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->InputChannels)) return FALSE; + + if (!WritePositionTable(self, io, 0, + mpe ->InputChannels, BaseOffset, Curves, WriteMPECurve)) return FALSE; + + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); +} + + + +// The matrix is organized as an array of PxQ+Q elements, where P is the number of input channels to the +// matrix, and Q is the number of output channels. The matrix elements are each float32Numbers. The array +// is organized as follows: +// array = [e11, e12, …, e1P, e21, e22, …, e2P, …, eQ1, eQ2, …, eQP, e1, e2, …, eQ] + +static +void *Type_MPEmatrix_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsStage* mpe; + cmsUInt16Number InputChans, OutputChans; + cmsUInt32Number nElems, i; + cmsFloat64Number* Matrix; + cmsFloat64Number* Offsets; + + if (!_cmsReadUInt16Number(io, &InputChans)) return NULL; + if (!_cmsReadUInt16Number(io, &OutputChans)) return NULL; + + + nElems = InputChans * OutputChans; + + // Input and output chans may be ANY (up to 0xffff) + Matrix = (cmsFloat64Number*) _cmsCalloc(self ->ContextID, nElems, sizeof(cmsFloat64Number)); + if (Matrix == NULL) return NULL; + + Offsets = (cmsFloat64Number*) _cmsCalloc(self ->ContextID, OutputChans, sizeof(cmsFloat64Number)); + if (Offsets == NULL) { + + _cmsFree(self ->ContextID, Matrix); + return NULL; + } + + for (i=0; i < nElems; i++) { + + cmsFloat32Number v; + + if (!_cmsReadFloat32Number(io, &v)) return NULL; + Matrix[i] = v; + } + + + for (i=0; i < OutputChans; i++) { + + cmsFloat32Number v; + + if (!_cmsReadFloat32Number(io, &v)) return NULL; + Offsets[i] = v; + } + + + mpe = cmsStageAllocMatrix(self ->ContextID, OutputChans, InputChans, Matrix, Offsets); + _cmsFree(self ->ContextID, Matrix); + _cmsFree(self ->ContextID, Offsets); + + *nItems = 1; + + return mpe; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +static +cmsBool Type_MPEmatrix_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number i, nElems; + cmsStage* mpe = (cmsStage*) Ptr; + _cmsStageMatrixData* Matrix = (_cmsStageMatrixData*) mpe ->Data; + + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->InputChannels)) return FALSE; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->OutputChannels)) return FALSE; + + nElems = mpe ->InputChannels * mpe ->OutputChannels; + + for (i=0; i < nElems; i++) { + if (!_cmsWriteFloat32Number(io, (cmsFloat32Number) Matrix->Double[i])) return FALSE; + } + + + for (i=0; i < mpe ->OutputChannels; i++) { + + if (Matrix ->Offset == NULL) { + + if (!_cmsWriteFloat32Number(io, 0)) return FALSE; + } + else { + if (!_cmsWriteFloat32Number(io, (cmsFloat32Number) Matrix->Offset[i])) return FALSE; + } + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + + +static +void *Type_MPEclut_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsStage* mpe = NULL; + cmsUInt16Number InputChans, OutputChans; + cmsUInt8Number Dimensions8[16]; + cmsUInt32Number i, nMaxGrids, GridPoints[MAX_INPUT_DIMENSIONS]; + _cmsStageCLutData* clut; + + if (!_cmsReadUInt16Number(io, &InputChans)) return NULL; + if (!_cmsReadUInt16Number(io, &OutputChans)) return NULL; + + if (InputChans == 0) goto Error; + if (OutputChans == 0) goto Error; + + if (io ->Read(io, Dimensions8, sizeof(cmsUInt8Number), 16) != 16) + goto Error; + + // Copy MAX_INPUT_DIMENSIONS at most. Expand to cmsUInt32Number + nMaxGrids = InputChans > MAX_INPUT_DIMENSIONS ? MAX_INPUT_DIMENSIONS : InputChans; + for (i=0; i < nMaxGrids; i++) GridPoints[i] = (cmsUInt32Number) Dimensions8[i]; + + // Allocate the true CLUT + mpe = cmsStageAllocCLutFloatGranular(self ->ContextID, GridPoints, InputChans, OutputChans, NULL); + if (mpe == NULL) goto Error; + + // Read the data + clut = (_cmsStageCLutData*) mpe ->Data; + for (i=0; i < clut ->nEntries; i++) { + + if (!_cmsReadFloat32Number(io, &clut ->Tab.TFloat[i])) goto Error; + } + + *nItems = 1; + return mpe; + +Error: + *nItems = 0; + if (mpe != NULL) cmsStageFree(mpe); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + +// Write a CLUT in floating point +static +cmsBool Type_MPEclut_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt8Number Dimensions8[16]; // 16 because the spec says 16 and not max number of channels + cmsUInt32Number i; + cmsStage* mpe = (cmsStage*) Ptr; + _cmsStageCLutData* clut = (_cmsStageCLutData*) mpe ->Data; + + // Check for maximum number of channels supported by lcms + if (mpe -> InputChannels > MAX_INPUT_DIMENSIONS) return FALSE; + + // Only floats are supported in MPE + if (clut ->HasFloatValues == FALSE) return FALSE; + + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->InputChannels)) return FALSE; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) mpe ->OutputChannels)) return FALSE; + + memset(Dimensions8, 0, sizeof(Dimensions8)); + + for (i=0; i < mpe ->InputChannels; i++) + Dimensions8[i] = (cmsUInt8Number) clut ->Params ->nSamples[i]; + + if (!io ->Write(io, 16, Dimensions8)) return FALSE; + + for (i=0; i < clut ->nEntries; i++) { + + if (!_cmsWriteFloat32Number(io, clut ->Tab.TFloat[i])) return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(nItems); + cmsUNUSED_PARAMETER(self); +} + + + +// This is the list of built-in MPE types +static _cmsTagTypeLinkedList SupportedMPEtypes[] = { + +{{ (cmsTagTypeSignature) cmsSigBAcsElemType, NULL, NULL, NULL, NULL, NULL, 0 }, &SupportedMPEtypes[1] }, // Ignore those elements for now +{{ (cmsTagTypeSignature) cmsSigEAcsElemType, NULL, NULL, NULL, NULL, NULL, 0 }, &SupportedMPEtypes[2] }, // (That's what the spec says) + +{TYPE_MPE_HANDLER((cmsTagTypeSignature) cmsSigCurveSetElemType, MPEcurve), &SupportedMPEtypes[3] }, +{TYPE_MPE_HANDLER((cmsTagTypeSignature) cmsSigMatrixElemType, MPEmatrix), &SupportedMPEtypes[4] }, +{TYPE_MPE_HANDLER((cmsTagTypeSignature) cmsSigCLutElemType, MPEclut), NULL }, +}; + +_cmsTagTypePluginChunkType _cmsMPETypePluginChunk = { NULL }; + +static +cmsBool ReadMPEElem(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + void* Cargo, + cmsUInt32Number n, + cmsUInt32Number SizeOfTag) +{ + cmsStageSignature ElementSig; + cmsTagTypeHandler* TypeHandler; + cmsUInt32Number nItems; + cmsPipeline *NewLUT = (cmsPipeline *) Cargo; + _cmsTagTypePluginChunkType* MPETypePluginChunk = ( _cmsTagTypePluginChunkType*) _cmsContextGetClientChunk(self->ContextID, MPEPlugin); + + + // Take signature and channels for each element. + if (!_cmsReadUInt32Number(io, (cmsUInt32Number*) &ElementSig)) return FALSE; + + // The reserved placeholder + if (!_cmsReadUInt32Number(io, NULL)) return FALSE; + + // Read diverse MPE types + TypeHandler = GetHandler((cmsTagTypeSignature) ElementSig, MPETypePluginChunk ->TagTypes, SupportedMPEtypes); + if (TypeHandler == NULL) { + + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) ElementSig); + + // An unknown element was found. + cmsSignalError(self ->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown MPE type '%s' found.", String); + return FALSE; + } + + // If no read method, just ignore the element (valid for cmsSigBAcsElemType and cmsSigEAcsElemType) + // Read the MPE. No size is given + if (TypeHandler ->ReadPtr != NULL) { + + // This is a real element which should be read and processed + if (!cmsPipelineInsertStage(NewLUT, cmsAT_END, (cmsStage*) TypeHandler ->ReadPtr(self, io, &nItems, SizeOfTag))) + return FALSE; + } + + return TRUE; + + cmsUNUSED_PARAMETER(SizeOfTag); + cmsUNUSED_PARAMETER(n); +} + + +// This is the main dispatcher for MPE +static +void *Type_MPE_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsUInt16Number InputChans, OutputChans; + cmsUInt32Number ElementCount; + cmsPipeline *NewLUT = NULL; + cmsUInt32Number BaseOffset; + + // Get actual position as a basis for element offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Read channels and element count + if (!_cmsReadUInt16Number(io, &InputChans)) return NULL; + if (!_cmsReadUInt16Number(io, &OutputChans)) return NULL; + + // Allocates an empty LUT + NewLUT = cmsPipelineAlloc(self ->ContextID, InputChans, OutputChans); + if (NewLUT == NULL) return NULL; + + if (!_cmsReadUInt32Number(io, &ElementCount)) return NULL; + + if (!ReadPositionTable(self, io, ElementCount, BaseOffset, NewLUT, ReadMPEElem)) { + if (NewLUT != NULL) cmsPipelineFree(NewLUT); + *nItems = 0; + return NULL; + } + + // Success + *nItems = 1; + return NewLUT; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + + +// This one is a liitle bit more complex, so we don't use position tables this time. +static +cmsBool Type_MPE_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsUInt32Number i, BaseOffset, DirectoryPos, CurrentPos; + int inputChan, outputChan; + cmsUInt32Number ElemCount; + cmsUInt32Number *ElementOffsets = NULL, *ElementSizes = NULL, Before; + cmsStageSignature ElementSig; + cmsPipeline* Lut = (cmsPipeline*) Ptr; + cmsStage* Elem = Lut ->Elements; + cmsTagTypeHandler* TypeHandler; + _cmsTagTypePluginChunkType* MPETypePluginChunk = ( _cmsTagTypePluginChunkType*) _cmsContextGetClientChunk(self->ContextID, MPEPlugin); + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + inputChan = cmsPipelineInputChannels(Lut); + outputChan = cmsPipelineOutputChannels(Lut); + ElemCount = cmsPipelineStageCount(Lut); + + ElementOffsets = (cmsUInt32Number *) _cmsCalloc(self ->ContextID, ElemCount, sizeof(cmsUInt32Number)); + if (ElementOffsets == NULL) goto Error; + + ElementSizes = (cmsUInt32Number *) _cmsCalloc(self ->ContextID, ElemCount, sizeof(cmsUInt32Number)); + if (ElementSizes == NULL) goto Error; + + // Write the head + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) inputChan)) goto Error; + if (!_cmsWriteUInt16Number(io, (cmsUInt16Number) outputChan)) goto Error; + if (!_cmsWriteUInt32Number(io, (cmsUInt16Number) ElemCount)) goto Error; + + DirectoryPos = io ->Tell(io); + + // Write a fake directory to be filled latter on + for (i=0; i < ElemCount; i++) { + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // Offset + if (!_cmsWriteUInt32Number(io, 0)) goto Error; // size + } + + // Write each single tag. Keep track of the size as well. + for (i=0; i < ElemCount; i++) { + + ElementOffsets[i] = io ->Tell(io) - BaseOffset; + + ElementSig = Elem ->Type; + + TypeHandler = GetHandler((cmsTagTypeSignature) ElementSig, MPETypePluginChunk->TagTypes, SupportedMPEtypes); + if (TypeHandler == NULL) { + + char String[5]; + + _cmsTagSignature2String(String, (cmsTagSignature) ElementSig); + + // An unknow element was found. + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Found unknown MPE type '%s'", String); + goto Error; + } + + if (!_cmsWriteUInt32Number(io, ElementSig)) goto Error; + if (!_cmsWriteUInt32Number(io, 0)) goto Error; + Before = io ->Tell(io); + if (!TypeHandler ->WritePtr(self, io, Elem, 1)) goto Error; + if (!_cmsWriteAlignment(io)) goto Error; + + ElementSizes[i] = io ->Tell(io) - Before; + + Elem = Elem ->Next; + } + + // Write the directory + CurrentPos = io ->Tell(io); + + if (!io ->Seek(io, DirectoryPos)) goto Error; + + for (i=0; i < ElemCount; i++) { + if (!_cmsWriteUInt32Number(io, ElementOffsets[i])) goto Error; + if (!_cmsWriteUInt32Number(io, ElementSizes[i])) goto Error; + } + + if (!io ->Seek(io, CurrentPos)) goto Error; + + if (ElementOffsets != NULL) _cmsFree(self ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(self ->ContextID, ElementSizes); + return TRUE; + +Error: + if (ElementOffsets != NULL) _cmsFree(self ->ContextID, ElementOffsets); + if (ElementSizes != NULL) _cmsFree(self ->ContextID, ElementSizes); + return FALSE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_MPE_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsPipelineDup((cmsPipeline*) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + +static +void Type_MPE_Free(struct _cms_typehandler_struct* self, void *Ptr) +{ + cmsPipelineFree((cmsPipeline*) Ptr); + return; + + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type cmsSigVcgtType +// ******************************************************************************** + + +#define cmsVideoCardGammaTableType 0 +#define cmsVideoCardGammaFormulaType 1 + +// Used internally +typedef struct { + double Gamma; + double Min; + double Max; +} _cmsVCGTGAMMA; + + +static +void *Type_vcgt_Read(struct _cms_typehandler_struct* self, + cmsIOHANDLER* io, + cmsUInt32Number* nItems, + cmsUInt32Number SizeOfTag) +{ + cmsUInt32Number TagType, n, i; + cmsToneCurve** Curves; + + *nItems = 0; + + // Read tag type + if (!_cmsReadUInt32Number(io, &TagType)) return NULL; + + // Allocate space for the array + Curves = ( cmsToneCurve**) _cmsCalloc(self ->ContextID, 3, sizeof(cmsToneCurve*)); + if (Curves == NULL) return NULL; + + // There are two possible flavors + switch (TagType) { + + // Gamma is stored as a table + case cmsVideoCardGammaTableType: + { + cmsUInt16Number nChannels, nElems, nBytes; + + // Check channel count, which should be 3 (we don't support monochrome this time) + if (!_cmsReadUInt16Number(io, &nChannels)) goto Error; + + if (nChannels != 3) { + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported number of channels for VCGT '%d'", nChannels); + goto Error; + } + + // Get Table element count and bytes per element + if (!_cmsReadUInt16Number(io, &nElems)) goto Error; + if (!_cmsReadUInt16Number(io, &nBytes)) goto Error; + + // Adobe's quirk fixup. Fixing broken profiles... + if (nElems == 256 && nBytes == 1 && SizeOfTag == 1576) + nBytes = 2; + + + // Populate tone curves + for (n=0; n < 3; n++) { + + Curves[n] = cmsBuildTabulatedToneCurve16(self ->ContextID, nElems, NULL); + if (Curves[n] == NULL) goto Error; + + // On depending on byte depth + switch (nBytes) { + + // One byte, 0..255 + case 1: + for (i=0; i < nElems; i++) { + + cmsUInt8Number v; + + if (!_cmsReadUInt8Number(io, &v)) goto Error; + Curves[n] ->Table16[i] = FROM_8_TO_16(v); + } + break; + + // One word 0..65535 + case 2: + if (!_cmsReadUInt16Array(io, nElems, Curves[n]->Table16)) goto Error; + break; + + // Unsupported + default: + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported bit depth for VCGT '%d'", nBytes * 8); + goto Error; + } + } // For all 3 channels + } + break; + + // In this case, gamma is stored as a formula + case cmsVideoCardGammaFormulaType: + { + _cmsVCGTGAMMA Colorant[3]; + + // Populate tone curves + for (n=0; n < 3; n++) { + + double Params[10]; + + if (!_cmsRead15Fixed16Number(io, &Colorant[n].Gamma)) goto Error; + if (!_cmsRead15Fixed16Number(io, &Colorant[n].Min)) goto Error; + if (!_cmsRead15Fixed16Number(io, &Colorant[n].Max)) goto Error; + + // Parametric curve type 5 is: + // Y = (aX + b)^Gamma + e | X >= d + // Y = cX + f | X < d + + // vcgt formula is: + // Y = (Max – Min) * (X ^ Gamma) + Min + + // So, the translation is + // a = (Max – Min) ^ ( 1 / Gamma) + // e = Min + // b=c=d=f=0 + + Params[0] = Colorant[n].Gamma; + Params[1] = pow((Colorant[n].Max - Colorant[n].Min), (1.0 / Colorant[n].Gamma)); + Params[2] = 0; + Params[3] = 0; + Params[4] = 0; + Params[5] = Colorant[n].Min; + Params[6] = 0; + + Curves[n] = cmsBuildParametricToneCurve(self ->ContextID, 5, Params); + if (Curves[n] == NULL) goto Error; + } + } + break; + + // Unsupported + default: + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported tag type for VCGT '%d'", TagType); + goto Error; + } + + *nItems = 1; + return (void*) Curves; + +// Regret, free all resources +Error: + + cmsFreeToneCurveTriple(Curves); + _cmsFree(self ->ContextID, Curves); + return NULL; + + cmsUNUSED_PARAMETER(SizeOfTag); +} + + +// We don't support all flavors, only 16bits tables and formula +static +cmsBool Type_vcgt_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsToneCurve** Curves = (cmsToneCurve**) Ptr; + cmsUInt32Number i, j; + + if (cmsGetToneCurveParametricType(Curves[0]) == 5 && + cmsGetToneCurveParametricType(Curves[1]) == 5 && + cmsGetToneCurveParametricType(Curves[2]) == 5) { + + if (!_cmsWriteUInt32Number(io, cmsVideoCardGammaFormulaType)) return FALSE; + + // Save parameters + for (i=0; i < 3; i++) { + + _cmsVCGTGAMMA v; + + v.Gamma = Curves[i] ->Segments[0].Params[0]; + v.Min = Curves[i] ->Segments[0].Params[5]; + v.Max = pow(Curves[i] ->Segments[0].Params[1], v.Gamma) + v.Min; + + if (!_cmsWrite15Fixed16Number(io, v.Gamma)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, v.Min)) return FALSE; + if (!_cmsWrite15Fixed16Number(io, v.Max)) return FALSE; + } + } + + else { + + // Always store as a table of 256 words + if (!_cmsWriteUInt32Number(io, cmsVideoCardGammaTableType)) return FALSE; + if (!_cmsWriteUInt16Number(io, 3)) return FALSE; + if (!_cmsWriteUInt16Number(io, 256)) return FALSE; + if (!_cmsWriteUInt16Number(io, 2)) return FALSE; + + for (i=0; i < 3; i++) { + for (j=0; j < 256; j++) { + + cmsFloat32Number v = cmsEvalToneCurveFloat(Curves[i], (cmsFloat32Number) (j / 255.0)); + cmsUInt16Number n = _cmsQuickSaturateWord(v * 65535.0); + + if (!_cmsWriteUInt16Number(io, n)) return FALSE; + } + } + } + + return TRUE; + + cmsUNUSED_PARAMETER(self); + cmsUNUSED_PARAMETER(nItems); +} + +static +void* Type_vcgt_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + cmsToneCurve** OldCurves = (cmsToneCurve**) Ptr; + cmsToneCurve** NewCurves; + + NewCurves = ( cmsToneCurve**) _cmsCalloc(self ->ContextID, 3, sizeof(cmsToneCurve*)); + if (NewCurves == NULL) return NULL; + + NewCurves[0] = cmsDupToneCurve(OldCurves[0]); + NewCurves[1] = cmsDupToneCurve(OldCurves[1]); + NewCurves[2] = cmsDupToneCurve(OldCurves[2]); + + return (void*) NewCurves; + + cmsUNUSED_PARAMETER(n); +} + + +static +void Type_vcgt_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsFreeToneCurveTriple((cmsToneCurve**) Ptr); + _cmsFree(self ->ContextID, Ptr); +} + + +// ******************************************************************************** +// Type cmsSigDictType +// ******************************************************************************** + +// Single column of the table can point to wchar or MLUC elements. Holds arrays of data +typedef struct { + cmsContext ContextID; + cmsUInt32Number *Offsets; + cmsUInt32Number *Sizes; +} _cmsDICelem; + +typedef struct { + _cmsDICelem Name, Value, DisplayName, DisplayValue; + +} _cmsDICarray; + +// Allocate an empty array element +static +cmsBool AllocElem(cmsContext ContextID, _cmsDICelem* e, cmsUInt32Number Count) +{ + e->Offsets = (cmsUInt32Number *) _cmsCalloc(ContextID, Count, sizeof(cmsUInt32Number)); + if (e->Offsets == NULL) return FALSE; + + e->Sizes = (cmsUInt32Number *) _cmsCalloc(ContextID, Count, sizeof(cmsUInt32Number)); + if (e->Sizes == NULL) { + + _cmsFree(ContextID, e -> Offsets); + return FALSE; + } + + e ->ContextID = ContextID; + return TRUE; +} + +// Free an array element +static +void FreeElem(_cmsDICelem* e) +{ + if (e ->Offsets != NULL) _cmsFree(e -> ContextID, e -> Offsets); + if (e ->Sizes != NULL) _cmsFree(e -> ContextID, e -> Sizes); + e->Offsets = e ->Sizes = NULL; +} + +// Get rid of whole array +static +void FreeArray( _cmsDICarray* a) +{ + if (a ->Name.Offsets != NULL) FreeElem(&a->Name); + if (a ->Value.Offsets != NULL) FreeElem(&a ->Value); + if (a ->DisplayName.Offsets != NULL) FreeElem(&a->DisplayName); + if (a ->DisplayValue.Offsets != NULL) FreeElem(&a ->DisplayValue); +} + + +// Allocate whole array +static +cmsBool AllocArray(cmsContext ContextID, _cmsDICarray* a, cmsUInt32Number Count, cmsUInt32Number Length) +{ + // Empty values + memset(a, 0, sizeof(_cmsDICarray)); + + // On depending on record size, create column arrays + if (!AllocElem(ContextID, &a ->Name, Count)) goto Error; + if (!AllocElem(ContextID, &a ->Value, Count)) goto Error; + + if (Length > 16) { + if (!AllocElem(ContextID, &a -> DisplayName, Count)) goto Error; + + } + if (Length > 24) { + if (!AllocElem(ContextID, &a ->DisplayValue, Count)) goto Error; + } + return TRUE; + +Error: + FreeArray(a); + return FALSE; +} + +// Read one element +static +cmsBool ReadOneElem(cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, cmsUInt32Number BaseOffset) +{ + if (!_cmsReadUInt32Number(io, &e->Offsets[i])) return FALSE; + if (!_cmsReadUInt32Number(io, &e ->Sizes[i])) return FALSE; + + // An offset of zero has special meaning and shal be preserved + if (e ->Offsets[i] > 0) + e ->Offsets[i] += BaseOffset; + return TRUE; +} + + +static +cmsBool ReadOffsetArray(cmsIOHANDLER* io, _cmsDICarray* a, cmsUInt32Number Count, cmsUInt32Number Length, cmsUInt32Number BaseOffset) +{ + cmsUInt32Number i; + + // Read column arrays + for (i=0; i < Count; i++) { + + if (!ReadOneElem(io, &a -> Name, i, BaseOffset)) return FALSE; + if (!ReadOneElem(io, &a -> Value, i, BaseOffset)) return FALSE; + + if (Length > 16) { + + if (!ReadOneElem(io, &a ->DisplayName, i, BaseOffset)) return FALSE; + + } + + if (Length > 24) { + + if (!ReadOneElem(io, & a -> DisplayValue, i, BaseOffset)) return FALSE; + } + } + return TRUE; +} + + +// Write one element +static +cmsBool WriteOneElem(cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i) +{ + if (!_cmsWriteUInt32Number(io, e->Offsets[i])) return FALSE; + if (!_cmsWriteUInt32Number(io, e ->Sizes[i])) return FALSE; + + return TRUE; +} + +static +cmsBool WriteOffsetArray(cmsIOHANDLER* io, _cmsDICarray* a, cmsUInt32Number Count, cmsUInt32Number Length) +{ + cmsUInt32Number i; + + for (i=0; i < Count; i++) { + + if (!WriteOneElem(io, &a -> Name, i)) return FALSE; + if (!WriteOneElem(io, &a -> Value, i)) return FALSE; + + if (Length > 16) { + + if (!WriteOneElem(io, &a -> DisplayName, i)) return FALSE; + } + + if (Length > 24) { + + if (!WriteOneElem(io, &a -> DisplayValue, i)) return FALSE; + } + } + + return TRUE; +} + +static +cmsBool ReadOneWChar(cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, wchar_t ** wcstr) +{ + + cmsUInt32Number nChars; + + // Special case for undefined strings (see ICC Votable + // Proposal Submission, Dictionary Type and Metadata TAG Definition) + if (e -> Offsets[i] == 0) { + + *wcstr = NULL; + return TRUE; + } + + if (!io -> Seek(io, e -> Offsets[i])) return FALSE; + + nChars = e ->Sizes[i] / sizeof(cmsUInt16Number); + + + *wcstr = (wchar_t*) _cmsMallocZero(e ->ContextID, (nChars + 1) * sizeof(wchar_t)); + if (*wcstr == NULL) return FALSE; + + if (!_cmsReadWCharArray(io, nChars, *wcstr)) { + _cmsFree(e ->ContextID, *wcstr); + return FALSE; + } + + // End of string marker + (*wcstr)[nChars] = 0; + return TRUE; +} + +static +cmsUInt32Number mywcslen(const wchar_t *s) +{ + const wchar_t *p; + + p = s; + while (*p) + p++; + + return (cmsUInt32Number)(p - s); +} + +static +cmsBool WriteOneWChar(cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, const wchar_t * wcstr, cmsUInt32Number BaseOffset) +{ + cmsUInt32Number Before = io ->Tell(io); + cmsUInt32Number n; + + e ->Offsets[i] = Before - BaseOffset; + + if (wcstr == NULL) { + e ->Sizes[i] = 0; + e ->Offsets[i] = 0; + return TRUE; + } + + n = mywcslen(wcstr); + if (!_cmsWriteWCharArray(io, n, wcstr)) return FALSE; + + e ->Sizes[i] = io ->Tell(io) - Before; + return TRUE; +} + +static +cmsBool ReadOneMLUC(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, cmsMLU** mlu) +{ + cmsUInt32Number nItems = 0; + + // A way to get null MLUCs + if (e -> Offsets[i] == 0 || e ->Sizes[i] == 0) { + + *mlu = NULL; + return TRUE; + } + + if (!io -> Seek(io, e -> Offsets[i])) return FALSE; + + *mlu = (cmsMLU*) Type_MLU_Read(self, io, &nItems, e ->Sizes[i]); + return *mlu != NULL; +} + +static +cmsBool WriteOneMLUC(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, _cmsDICelem* e, cmsUInt32Number i, const cmsMLU* mlu, cmsUInt32Number BaseOffset) +{ + cmsUInt32Number Before; + + // Special case for undefined strings (see ICC Votable + // Proposal Submission, Dictionary Type and Metadata TAG Definition) + if (mlu == NULL) { + e ->Sizes[i] = 0; + e ->Offsets[i] = 0; + return TRUE; + } + + Before = io ->Tell(io); + e ->Offsets[i] = Before - BaseOffset; + + if (!Type_MLU_Write(self, io, (void*) mlu, 1)) return FALSE; + + e ->Sizes[i] = io ->Tell(io) - Before; + return TRUE; +} + + +static +void *Type_Dictionary_Read(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, cmsUInt32Number* nItems, cmsUInt32Number SizeOfTag) +{ + cmsHANDLE hDict; + cmsUInt32Number i, Count, Length; + cmsUInt32Number BaseOffset; + _cmsDICarray a; + wchar_t *NameWCS = NULL, *ValueWCS = NULL; + cmsMLU *DisplayNameMLU = NULL, *DisplayValueMLU=NULL; + cmsBool rc; + + *nItems = 0; + + // Get actual position as a basis for element offsets + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Get name-value record count + if (!_cmsReadUInt32Number(io, &Count)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + // Get rec length + if (!_cmsReadUInt32Number(io, &Length)) return NULL; + SizeOfTag -= sizeof(cmsUInt32Number); + + // Check for valid lengths + if (Length != 16 && Length != 24 && Length != 32) { + cmsSignalError(self->ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unknown record length in dictionary '%d'", Length); + return NULL; + } + + // Creates an empty dictionary + hDict = cmsDictAlloc(self -> ContextID); + if (hDict == NULL) return NULL; + + // On depending on record size, create column arrays + if (!AllocArray(self -> ContextID, &a, Count, Length)) goto Error; + + // Read column arrays + if (!ReadOffsetArray(io, &a, Count, Length, BaseOffset)) goto Error; + + // Seek to each element and read it + for (i=0; i < Count; i++) { + + if (!ReadOneWChar(io, &a.Name, i, &NameWCS)) goto Error; + if (!ReadOneWChar(io, &a.Value, i, &ValueWCS)) goto Error; + + if (Length > 16) { + if (!ReadOneMLUC(self, io, &a.DisplayName, i, &DisplayNameMLU)) goto Error; + } + + if (Length > 24) { + if (!ReadOneMLUC(self, io, &a.DisplayValue, i, &DisplayValueMLU)) goto Error; + } + + if (NameWCS == NULL || ValueWCS == NULL) { + + cmsSignalError(self->ContextID, cmsERROR_CORRUPTION_DETECTED, "Bad dictionary Name/Value"); + rc = FALSE; + } + else { + + rc = cmsDictAddEntry(hDict, NameWCS, ValueWCS, DisplayNameMLU, DisplayValueMLU); + } + + if (NameWCS != NULL) _cmsFree(self ->ContextID, NameWCS); + if (ValueWCS != NULL) _cmsFree(self ->ContextID, ValueWCS); + if (DisplayNameMLU != NULL) cmsMLUfree(DisplayNameMLU); + if (DisplayValueMLU != NULL) cmsMLUfree(DisplayValueMLU); + + if (!rc) goto Error; + } + + FreeArray(&a); + *nItems = 1; + return (void*) hDict; + +Error: + FreeArray(&a); + cmsDictFree(hDict); + return NULL; +} + + +static +cmsBool Type_Dictionary_Write(struct _cms_typehandler_struct* self, cmsIOHANDLER* io, void* Ptr, cmsUInt32Number nItems) +{ + cmsHANDLE hDict = (cmsHANDLE) Ptr; + const cmsDICTentry* p; + cmsBool AnyName, AnyValue; + cmsUInt32Number i, Count, Length; + cmsUInt32Number DirectoryPos, CurrentPos, BaseOffset; + _cmsDICarray a; + + if (hDict == NULL) return FALSE; + + BaseOffset = io ->Tell(io) - sizeof(_cmsTagBase); + + // Let's inspect the dictionary + Count = 0; AnyName = FALSE; AnyValue = FALSE; + for (p = cmsDictGetEntryList(hDict); p != NULL; p = cmsDictNextEntry(p)) { + + if (p ->DisplayName != NULL) AnyName = TRUE; + if (p ->DisplayValue != NULL) AnyValue = TRUE; + Count++; + } + + Length = 16; + if (AnyName) Length += 8; + if (AnyValue) Length += 8; + + if (!_cmsWriteUInt32Number(io, Count)) return FALSE; + if (!_cmsWriteUInt32Number(io, Length)) return FALSE; + + // Keep starting position of offsets table + DirectoryPos = io ->Tell(io); + + // Allocate offsets array + if (!AllocArray(self ->ContextID, &a, Count, Length)) goto Error; + + // Write a fake directory to be filled latter on + if (!WriteOffsetArray(io, &a, Count, Length)) goto Error; + + // Write each element. Keep track of the size as well. + p = cmsDictGetEntryList(hDict); + for (i=0; i < Count; i++) { + + if (!WriteOneWChar(io, &a.Name, i, p ->Name, BaseOffset)) goto Error; + if (!WriteOneWChar(io, &a.Value, i, p ->Value, BaseOffset)) goto Error; + + if (p ->DisplayName != NULL) { + if (!WriteOneMLUC(self, io, &a.DisplayName, i, p ->DisplayName, BaseOffset)) goto Error; + } + + if (p ->DisplayValue != NULL) { + if (!WriteOneMLUC(self, io, &a.DisplayValue, i, p ->DisplayValue, BaseOffset)) goto Error; + } + + p = cmsDictNextEntry(p); + } + + // Write the directory + CurrentPos = io ->Tell(io); + if (!io ->Seek(io, DirectoryPos)) goto Error; + + if (!WriteOffsetArray(io, &a, Count, Length)) goto Error; + + if (!io ->Seek(io, CurrentPos)) goto Error; + + FreeArray(&a); + return TRUE; + +Error: + FreeArray(&a); + return FALSE; + + cmsUNUSED_PARAMETER(nItems); +} + + +static +void* Type_Dictionary_Dup(struct _cms_typehandler_struct* self, const void *Ptr, cmsUInt32Number n) +{ + return (void*) cmsDictDup((cmsHANDLE) Ptr); + + cmsUNUSED_PARAMETER(n); + cmsUNUSED_PARAMETER(self); +} + + +static +void Type_Dictionary_Free(struct _cms_typehandler_struct* self, void* Ptr) +{ + cmsDictFree((cmsHANDLE) Ptr); + cmsUNUSED_PARAMETER(self); +} + + +// ******************************************************************************** +// Type support main routines +// ******************************************************************************** + + +// This is the list of built-in types +static _cmsTagTypeLinkedList SupportedTagTypes[] = { + +{TYPE_HANDLER(cmsSigChromaticityType, Chromaticity), &SupportedTagTypes[1] }, +{TYPE_HANDLER(cmsSigColorantOrderType, ColorantOrderType), &SupportedTagTypes[2] }, +{TYPE_HANDLER(cmsSigS15Fixed16ArrayType, S15Fixed16), &SupportedTagTypes[3] }, +{TYPE_HANDLER(cmsSigU16Fixed16ArrayType, U16Fixed16), &SupportedTagTypes[4] }, +{TYPE_HANDLER(cmsSigTextType, Text), &SupportedTagTypes[5] }, +{TYPE_HANDLER(cmsSigTextDescriptionType, Text_Description), &SupportedTagTypes[6] }, +{TYPE_HANDLER(cmsSigCurveType, Curve), &SupportedTagTypes[7] }, +{TYPE_HANDLER(cmsSigParametricCurveType, ParametricCurve), &SupportedTagTypes[8] }, +{TYPE_HANDLER(cmsSigDateTimeType, DateTime), &SupportedTagTypes[9] }, +{TYPE_HANDLER(cmsSigLut8Type, LUT8), &SupportedTagTypes[10] }, +{TYPE_HANDLER(cmsSigLut16Type, LUT16), &SupportedTagTypes[11] }, +{TYPE_HANDLER(cmsSigColorantTableType, ColorantTable), &SupportedTagTypes[12] }, +{TYPE_HANDLER(cmsSigNamedColor2Type, NamedColor), &SupportedTagTypes[13] }, +{TYPE_HANDLER(cmsSigMultiLocalizedUnicodeType, MLU), &SupportedTagTypes[14] }, +{TYPE_HANDLER(cmsSigProfileSequenceDescType, ProfileSequenceDesc), &SupportedTagTypes[15] }, +{TYPE_HANDLER(cmsSigSignatureType, Signature), &SupportedTagTypes[16] }, +{TYPE_HANDLER(cmsSigMeasurementType, Measurement), &SupportedTagTypes[17] }, +{TYPE_HANDLER(cmsSigDataType, Data), &SupportedTagTypes[18] }, +{TYPE_HANDLER(cmsSigLutAtoBType, LUTA2B), &SupportedTagTypes[19] }, +{TYPE_HANDLER(cmsSigLutBtoAType, LUTB2A), &SupportedTagTypes[20] }, +{TYPE_HANDLER(cmsSigUcrBgType, UcrBg), &SupportedTagTypes[21] }, +{TYPE_HANDLER(cmsSigCrdInfoType, CrdInfo), &SupportedTagTypes[22] }, +{TYPE_HANDLER(cmsSigMultiProcessElementType, MPE), &SupportedTagTypes[23] }, +{TYPE_HANDLER(cmsSigScreeningType, Screening), &SupportedTagTypes[24] }, +{TYPE_HANDLER(cmsSigViewingConditionsType, ViewingConditions), &SupportedTagTypes[25] }, +{TYPE_HANDLER(cmsSigXYZType, XYZ), &SupportedTagTypes[26] }, +{TYPE_HANDLER(cmsCorbisBrokenXYZtype, XYZ), &SupportedTagTypes[27] }, +{TYPE_HANDLER(cmsMonacoBrokenCurveType, Curve), &SupportedTagTypes[28] }, +{TYPE_HANDLER(cmsSigProfileSequenceIdType, ProfileSequenceId), &SupportedTagTypes[29] }, +{TYPE_HANDLER(cmsSigDictType, Dictionary), &SupportedTagTypes[30] }, +{TYPE_HANDLER(cmsSigVcgtType, vcgt), NULL } +}; + + +_cmsTagTypePluginChunkType _cmsTagTypePluginChunk = { NULL }; + + + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupTagTypeList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src, + int loc) +{ + _cmsTagTypePluginChunkType newHead = { NULL }; + _cmsTagTypeLinkedList* entry; + _cmsTagTypeLinkedList* Anterior = NULL; + _cmsTagTypePluginChunkType* head = (_cmsTagTypePluginChunkType*) src->chunks[loc]; + + // Walk the list copying all nodes + for (entry = head->TagTypes; + entry != NULL; + entry = entry ->Next) { + + _cmsTagTypeLinkedList *newEntry = ( _cmsTagTypeLinkedList *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(_cmsTagTypeLinkedList)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.TagTypes == NULL) + newHead.TagTypes = newEntry; + } + + ctx ->chunks[loc] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsTagTypePluginChunkType)); +} + + +void _cmsAllocTagTypePluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + // Duplicate the LIST + DupTagTypeList(ctx, src, TagTypePlugin); + } + else { + static _cmsTagTypePluginChunkType TagTypePluginChunk = { NULL }; + ctx ->chunks[TagTypePlugin] = _cmsSubAllocDup(ctx ->MemPool, &TagTypePluginChunk, sizeof(_cmsTagTypePluginChunkType)); + } +} + +void _cmsAllocMPETypePluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + // Duplicate the LIST + DupTagTypeList(ctx, src, MPEPlugin); + } + else { + static _cmsTagTypePluginChunkType TagTypePluginChunk = { NULL }; + ctx ->chunks[MPEPlugin] = _cmsSubAllocDup(ctx ->MemPool, &TagTypePluginChunk, sizeof(_cmsTagTypePluginChunkType)); + } + +} + + +// Both kind of plug-ins share same structure +cmsBool _cmsRegisterTagTypePlugin(cmsContext id, cmsPluginBase* Data) +{ + return RegisterTypesPlugin(id, Data, TagTypePlugin); +} + +cmsBool _cmsRegisterMultiProcessElementPlugin(cmsContext id, cmsPluginBase* Data) +{ + return RegisterTypesPlugin(id, Data,MPEPlugin); +} + + +// Wrapper for tag types +cmsTagTypeHandler* _cmsGetTagTypeHandler(cmsContext ContextID, cmsTagTypeSignature sig) +{ + _cmsTagTypePluginChunkType* ctx = ( _cmsTagTypePluginChunkType*) _cmsContextGetClientChunk(ContextID, TagTypePlugin); + + return GetHandler(sig, ctx->TagTypes, SupportedTagTypes); +} + +// ******************************************************************************** +// Tag support main routines +// ******************************************************************************** + +typedef struct _cmsTagLinkedList_st { + + cmsTagSignature Signature; + cmsTagDescriptor Descriptor; + struct _cmsTagLinkedList_st* Next; + +} _cmsTagLinkedList; + +// This is the list of built-in tags +static _cmsTagLinkedList SupportedTags[] = { + + { cmsSigAToB0Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutAtoBType, cmsSigLut8Type}, DecideLUTtypeA2B}, &SupportedTags[1]}, + { cmsSigAToB1Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutAtoBType, cmsSigLut8Type}, DecideLUTtypeA2B}, &SupportedTags[2]}, + { cmsSigAToB2Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutAtoBType, cmsSigLut8Type}, DecideLUTtypeA2B}, &SupportedTags[3]}, + { cmsSigBToA0Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type}, DecideLUTtypeB2A}, &SupportedTags[4]}, + { cmsSigBToA1Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type}, DecideLUTtypeB2A}, &SupportedTags[5]}, + { cmsSigBToA2Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type}, DecideLUTtypeB2A}, &SupportedTags[6]}, + + // Allow corbis and its broken XYZ type + { cmsSigRedColorantTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, DecideXYZtype}, &SupportedTags[7]}, + { cmsSigGreenColorantTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, DecideXYZtype}, &SupportedTags[8]}, + { cmsSigBlueColorantTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, DecideXYZtype}, &SupportedTags[9]}, + + { cmsSigRedTRCTag, { 1, 3, { cmsSigCurveType, cmsSigParametricCurveType, cmsMonacoBrokenCurveType }, DecideCurveType}, &SupportedTags[10]}, + { cmsSigGreenTRCTag, { 1, 3, { cmsSigCurveType, cmsSigParametricCurveType, cmsMonacoBrokenCurveType }, DecideCurveType}, &SupportedTags[11]}, + { cmsSigBlueTRCTag, { 1, 3, { cmsSigCurveType, cmsSigParametricCurveType, cmsMonacoBrokenCurveType }, DecideCurveType}, &SupportedTags[12]}, + + { cmsSigCalibrationDateTimeTag, { 1, 1, { cmsSigDateTimeType }, NULL}, &SupportedTags[13]}, + { cmsSigCharTargetTag, { 1, 1, { cmsSigTextType }, NULL}, &SupportedTags[14]}, + + { cmsSigChromaticAdaptationTag, { 9, 1, { cmsSigS15Fixed16ArrayType }, NULL}, &SupportedTags[15]}, + { cmsSigChromaticityTag, { 1, 1, { cmsSigChromaticityType }, NULL}, &SupportedTags[16]}, + { cmsSigColorantOrderTag, { 1, 1, { cmsSigColorantOrderType }, NULL}, &SupportedTags[17]}, + { cmsSigColorantTableTag, { 1, 1, { cmsSigColorantTableType }, NULL}, &SupportedTags[18]}, + { cmsSigColorantTableOutTag, { 1, 1, { cmsSigColorantTableType }, NULL}, &SupportedTags[19]}, + + { cmsSigCopyrightTag, { 1, 3, { cmsSigTextType, cmsSigMultiLocalizedUnicodeType, cmsSigTextDescriptionType}, DecideTextType}, &SupportedTags[20]}, + { cmsSigDateTimeTag, { 1, 1, { cmsSigDateTimeType }, NULL}, &SupportedTags[21]}, + + { cmsSigDeviceMfgDescTag, { 1, 3, { cmsSigTextDescriptionType, cmsSigMultiLocalizedUnicodeType, cmsSigTextType}, DecideTextDescType}, &SupportedTags[22]}, + { cmsSigDeviceModelDescTag, { 1, 3, { cmsSigTextDescriptionType, cmsSigMultiLocalizedUnicodeType, cmsSigTextType}, DecideTextDescType}, &SupportedTags[23]}, + + { cmsSigGamutTag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type }, DecideLUTtypeB2A}, &SupportedTags[24]}, + + { cmsSigGrayTRCTag, { 1, 2, { cmsSigCurveType, cmsSigParametricCurveType }, DecideCurveType}, &SupportedTags[25]}, + { cmsSigLuminanceTag, { 1, 1, { cmsSigXYZType }, NULL}, &SupportedTags[26]}, + + { cmsSigMediaBlackPointTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, NULL}, &SupportedTags[27]}, + { cmsSigMediaWhitePointTag, { 1, 2, { cmsSigXYZType, cmsCorbisBrokenXYZtype }, NULL}, &SupportedTags[28]}, + + { cmsSigNamedColor2Tag, { 1, 1, { cmsSigNamedColor2Type }, NULL}, &SupportedTags[29]}, + + { cmsSigPreview0Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type }, DecideLUTtypeB2A}, &SupportedTags[30]}, + { cmsSigPreview1Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type }, DecideLUTtypeB2A}, &SupportedTags[31]}, + { cmsSigPreview2Tag, { 1, 3, { cmsSigLut16Type, cmsSigLutBtoAType, cmsSigLut8Type }, DecideLUTtypeB2A}, &SupportedTags[32]}, + + { cmsSigProfileDescriptionTag, { 1, 3, { cmsSigTextDescriptionType, cmsSigMultiLocalizedUnicodeType, cmsSigTextType}, DecideTextDescType}, &SupportedTags[33]}, + { cmsSigProfileSequenceDescTag, { 1, 1, { cmsSigProfileSequenceDescType }, NULL}, &SupportedTags[34]}, + { cmsSigTechnologyTag, { 1, 1, { cmsSigSignatureType }, NULL}, &SupportedTags[35]}, + + { cmsSigColorimetricIntentImageStateTag, { 1, 1, { cmsSigSignatureType }, NULL}, &SupportedTags[36]}, + { cmsSigPerceptualRenderingIntentGamutTag, { 1, 1, { cmsSigSignatureType }, NULL}, &SupportedTags[37]}, + { cmsSigSaturationRenderingIntentGamutTag, { 1, 1, { cmsSigSignatureType }, NULL}, &SupportedTags[38]}, + + { cmsSigMeasurementTag, { 1, 1, { cmsSigMeasurementType }, NULL}, &SupportedTags[39]}, + + { cmsSigPs2CRD0Tag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[40]}, + { cmsSigPs2CRD1Tag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[41]}, + { cmsSigPs2CRD2Tag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[42]}, + { cmsSigPs2CRD3Tag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[43]}, + { cmsSigPs2CSATag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[44]}, + { cmsSigPs2RenderingIntentTag, { 1, 1, { cmsSigDataType }, NULL}, &SupportedTags[45]}, + + { cmsSigViewingCondDescTag, { 1, 3, { cmsSigTextDescriptionType, cmsSigMultiLocalizedUnicodeType, cmsSigTextType}, DecideTextDescType}, &SupportedTags[46]}, + + { cmsSigUcrBgTag, { 1, 1, { cmsSigUcrBgType}, NULL}, &SupportedTags[47]}, + { cmsSigCrdInfoTag, { 1, 1, { cmsSigCrdInfoType}, NULL}, &SupportedTags[48]}, + + { cmsSigDToB0Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[49]}, + { cmsSigDToB1Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[50]}, + { cmsSigDToB2Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[51]}, + { cmsSigDToB3Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[52]}, + { cmsSigBToD0Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[53]}, + { cmsSigBToD1Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[54]}, + { cmsSigBToD2Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[55]}, + { cmsSigBToD3Tag, { 1, 1, { cmsSigMultiProcessElementType}, NULL}, &SupportedTags[56]}, + + { cmsSigScreeningDescTag, { 1, 1, { cmsSigTextDescriptionType }, NULL}, &SupportedTags[57]}, + { cmsSigViewingConditionsTag, { 1, 1, { cmsSigViewingConditionsType }, NULL}, &SupportedTags[58]}, + + { cmsSigScreeningTag, { 1, 1, { cmsSigScreeningType}, NULL }, &SupportedTags[59]}, + { cmsSigVcgtTag, { 1, 1, { cmsSigVcgtType}, NULL }, &SupportedTags[60]}, + { cmsSigMetaTag, { 1, 1, { cmsSigDictType}, NULL }, &SupportedTags[61]}, + { cmsSigProfileSequenceIdTag, { 1, 1, { cmsSigProfileSequenceIdType}, NULL }, &SupportedTags[62]}, + { cmsSigProfileDescriptionMLTag,{ 1, 1, { cmsSigMultiLocalizedUnicodeType}, NULL}, &SupportedTags[63]}, + { cmsSigArgyllArtsTag, { 9, 1, { cmsSigS15Fixed16ArrayType}, NULL}, NULL} + + +}; + +/* + Not supported Why + ======================= ========================================= + cmsSigOutputResponseTag ==> WARNING, POSSIBLE PATENT ON THIS SUBJECT! + cmsSigNamedColorTag ==> Deprecated + cmsSigDataTag ==> Ancient, unused + cmsSigDeviceSettingsTag ==> Deprecated, useless +*/ + + +_cmsTagPluginChunkType _cmsTagPluginChunk = { NULL }; + + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupTagList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsTagPluginChunkType newHead = { NULL }; + _cmsTagLinkedList* entry; + _cmsTagLinkedList* Anterior = NULL; + _cmsTagPluginChunkType* head = (_cmsTagPluginChunkType*) src->chunks[TagPlugin]; + + // Walk the list copying all nodes + for (entry = head->Tag; + entry != NULL; + entry = entry ->Next) { + + _cmsTagLinkedList *newEntry = ( _cmsTagLinkedList *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(_cmsTagLinkedList)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.Tag == NULL) + newHead.Tag = newEntry; + } + + ctx ->chunks[TagPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsTagPluginChunkType)); +} + +void _cmsAllocTagPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + DupTagList(ctx, src); + } + else { + static _cmsTagPluginChunkType TagPluginChunk = { NULL }; + ctx ->chunks[TagPlugin] = _cmsSubAllocDup(ctx ->MemPool, &TagPluginChunk, sizeof(_cmsTagPluginChunkType)); + } + +} + +cmsBool _cmsRegisterTagPlugin(cmsContext id, cmsPluginBase* Data) +{ + cmsPluginTag* Plugin = (cmsPluginTag*) Data; + _cmsTagLinkedList *pt; + _cmsTagPluginChunkType* TagPluginChunk = ( _cmsTagPluginChunkType*) _cmsContextGetClientChunk(id, TagPlugin); + + if (Data == NULL) { + + TagPluginChunk->Tag = NULL; + return TRUE; + } + + pt = (_cmsTagLinkedList*) _cmsPluginMalloc(id, sizeof(_cmsTagLinkedList)); + if (pt == NULL) return FALSE; + + pt ->Signature = Plugin ->Signature; + pt ->Descriptor = Plugin ->Descriptor; + pt ->Next = TagPluginChunk ->Tag; + + TagPluginChunk ->Tag = pt; + + return TRUE; +} + +// Return a descriptor for a given tag or NULL +cmsTagDescriptor* _cmsGetTagDescriptor(cmsContext ContextID, cmsTagSignature sig) +{ + _cmsTagLinkedList* pt; + _cmsTagPluginChunkType* TagPluginChunk = ( _cmsTagPluginChunkType*) _cmsContextGetClientChunk(ContextID, TagPlugin); + + for (pt = TagPluginChunk->Tag; + pt != NULL; + pt = pt ->Next) { + + if (sig == pt -> Signature) return &pt ->Descriptor; + } + + for (pt = SupportedTags; + pt != NULL; + pt = pt ->Next) { + + if (sig == pt -> Signature) return &pt ->Descriptor; + } + + return NULL; +} + Index: sdk/lib/3rdparty/lcms2/cmsvirt.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsvirt.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsvirt.c (working copy) @@ -0,0 +1,1208 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Virtual (built-in) profiles +// ----------------------------------------------------------------------------------- + +static +cmsBool SetTextTags(cmsHPROFILE hProfile, const wchar_t* Description) +{ + cmsMLU *DescriptionMLU, *CopyrightMLU; + cmsBool rc = FALSE; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + + DescriptionMLU = cmsMLUalloc(ContextID, 1); + CopyrightMLU = cmsMLUalloc(ContextID, 1); + + if (DescriptionMLU == NULL || CopyrightMLU == NULL) goto Error; + + if (!cmsMLUsetWide(DescriptionMLU, "en", "US", Description)) goto Error; + if (!cmsMLUsetWide(CopyrightMLU, "en", "US", L"No copyright, use freely")) goto Error; + + if (!cmsWriteTag(hProfile, cmsSigProfileDescriptionTag, DescriptionMLU)) goto Error; + if (!cmsWriteTag(hProfile, cmsSigCopyrightTag, CopyrightMLU)) goto Error; + + rc = TRUE; + +Error: + + if (DescriptionMLU) + cmsMLUfree(DescriptionMLU); + if (CopyrightMLU) + cmsMLUfree(CopyrightMLU); + return rc; +} + + +static +cmsBool SetSeqDescTag(cmsHPROFILE hProfile, const char* Model) +{ + cmsBool rc = FALSE; + cmsContext ContextID = cmsGetProfileContextID(hProfile); + cmsSEQ* Seq = cmsAllocProfileSequenceDescription(ContextID, 1); + + if (Seq == NULL) return FALSE; + + Seq->seq[0].deviceMfg = (cmsSignature) 0; + Seq->seq[0].deviceModel = (cmsSignature) 0; + +#ifdef CMS_DONT_USE_INT64 + Seq->seq[0].attributes[0] = 0; + Seq->seq[0].attributes[1] = 0; +#else + Seq->seq[0].attributes = 0; +#endif + + Seq->seq[0].technology = (cmsTechnologySignature) 0; + + cmsMLUsetASCII( Seq->seq[0].Manufacturer, cmsNoLanguage, cmsNoCountry, "Little CMS"); + cmsMLUsetASCII( Seq->seq[0].Model, cmsNoLanguage, cmsNoCountry, Model); + + if (!_cmsWriteProfileSequence(hProfile, Seq)) goto Error; + + rc = TRUE; + +Error: + if (Seq) + cmsFreeProfileSequenceDescription(Seq); + + return rc; +} + + + +// This function creates a profile based on White point, primaries and +// transfer functions. +cmsHPROFILE CMSEXPORT cmsCreateRGBProfileTHR(cmsContext ContextID, + const cmsCIExyY* WhitePoint, + const cmsCIExyYTRIPLE* Primaries, + cmsToneCurve* const TransferFunction[3]) +{ + cmsHPROFILE hICC; + cmsMAT3 MColorants; + cmsCIEXYZTRIPLE Colorants; + cmsCIExyY MaxWhite; + cmsMAT3 CHAD; + cmsCIEXYZ WhitePointXYZ; + + hICC = cmsCreateProfilePlaceholder(ContextID); + if (!hICC) // can't allocate + return NULL; + + cmsSetProfileVersion(hICC, 4.3); + + cmsSetDeviceClass(hICC, cmsSigDisplayClass); + cmsSetColorSpace(hICC, cmsSigRgbData); + cmsSetPCS(hICC, cmsSigXYZData); + + cmsSetHeaderRenderingIntent(hICC, INTENT_PERCEPTUAL); + + + // Implement profile using following tags: + // + // 1 cmsSigProfileDescriptionTag + // 2 cmsSigMediaWhitePointTag + // 3 cmsSigRedColorantTag + // 4 cmsSigGreenColorantTag + // 5 cmsSigBlueColorantTag + // 6 cmsSigRedTRCTag + // 7 cmsSigGreenTRCTag + // 8 cmsSigBlueTRCTag + // 9 Chromatic adaptation Tag + // This conforms a standard RGB DisplayProfile as says ICC, and then I add (As per addendum II) + // 10 cmsSigChromaticityTag + + + if (!SetTextTags(hICC, L"RGB built-in")) goto Error; + + if (WhitePoint) { + + if (!cmsWriteTag(hICC, cmsSigMediaWhitePointTag, cmsD50_XYZ())) goto Error; + + cmsxyY2XYZ(&WhitePointXYZ, WhitePoint); + _cmsAdaptationMatrix(&CHAD, NULL, &WhitePointXYZ, cmsD50_XYZ()); + + // This is a V4 tag, but many CMM does read and understand it no matter which version + if (!cmsWriteTag(hICC, cmsSigChromaticAdaptationTag, (void*) &CHAD)) goto Error; + } + + if (WhitePoint && Primaries) { + + MaxWhite.x = WhitePoint -> x; + MaxWhite.y = WhitePoint -> y; + MaxWhite.Y = 1.0; + + if (!_cmsBuildRGB2XYZtransferMatrix(&MColorants, &MaxWhite, Primaries)) goto Error; + + Colorants.Red.X = MColorants.v[0].n[0]; + Colorants.Red.Y = MColorants.v[1].n[0]; + Colorants.Red.Z = MColorants.v[2].n[0]; + + Colorants.Green.X = MColorants.v[0].n[1]; + Colorants.Green.Y = MColorants.v[1].n[1]; + Colorants.Green.Z = MColorants.v[2].n[1]; + + Colorants.Blue.X = MColorants.v[0].n[2]; + Colorants.Blue.Y = MColorants.v[1].n[2]; + Colorants.Blue.Z = MColorants.v[2].n[2]; + + if (!cmsWriteTag(hICC, cmsSigRedColorantTag, (void*) &Colorants.Red)) goto Error; + if (!cmsWriteTag(hICC, cmsSigBlueColorantTag, (void*) &Colorants.Blue)) goto Error; + if (!cmsWriteTag(hICC, cmsSigGreenColorantTag, (void*) &Colorants.Green)) goto Error; + } + + + if (TransferFunction) { + + // Tries to minimize space. Thanks to Richard Hughes for this nice idea + if (!cmsWriteTag(hICC, cmsSigRedTRCTag, (void*) TransferFunction[0])) goto Error; + + if (TransferFunction[1] == TransferFunction[0]) { + + if (!cmsLinkTag (hICC, cmsSigGreenTRCTag, cmsSigRedTRCTag)) goto Error; + + } else { + + if (!cmsWriteTag(hICC, cmsSigGreenTRCTag, (void*) TransferFunction[1])) goto Error; + } + + if (TransferFunction[2] == TransferFunction[0]) { + + if (!cmsLinkTag (hICC, cmsSigBlueTRCTag, cmsSigRedTRCTag)) goto Error; + + } else { + + if (!cmsWriteTag(hICC, cmsSigBlueTRCTag, (void*) TransferFunction[2])) goto Error; + } + } + + if (Primaries) { + if (!cmsWriteTag(hICC, cmsSigChromaticityTag, (void*) Primaries)) goto Error; + } + + + return hICC; + +Error: + if (hICC) + cmsCloseProfile(hICC); + return NULL; +} + +cmsHPROFILE CMSEXPORT cmsCreateRGBProfile(const cmsCIExyY* WhitePoint, + const cmsCIExyYTRIPLE* Primaries, + cmsToneCurve* const TransferFunction[3]) +{ + return cmsCreateRGBProfileTHR(NULL, WhitePoint, Primaries, TransferFunction); +} + + + +// This function creates a profile based on White point and transfer function. +cmsHPROFILE CMSEXPORT cmsCreateGrayProfileTHR(cmsContext ContextID, + const cmsCIExyY* WhitePoint, + const cmsToneCurve* TransferFunction) +{ + cmsHPROFILE hICC; + cmsCIEXYZ tmp; + + hICC = cmsCreateProfilePlaceholder(ContextID); + if (!hICC) // can't allocate + return NULL; + + cmsSetProfileVersion(hICC, 4.3); + + cmsSetDeviceClass(hICC, cmsSigDisplayClass); + cmsSetColorSpace(hICC, cmsSigGrayData); + cmsSetPCS(hICC, cmsSigXYZData); + cmsSetHeaderRenderingIntent(hICC, INTENT_PERCEPTUAL); + + + // Implement profile using following tags: + // + // 1 cmsSigProfileDescriptionTag + // 2 cmsSigMediaWhitePointTag + // 3 cmsSigGrayTRCTag + + // This conforms a standard Gray DisplayProfile + + // Fill-in the tags + + if (!SetTextTags(hICC, L"gray built-in")) goto Error; + + + if (WhitePoint) { + + cmsxyY2XYZ(&tmp, WhitePoint); + if (!cmsWriteTag(hICC, cmsSigMediaWhitePointTag, (void*) &tmp)) goto Error; + } + + if (TransferFunction) { + + if (!cmsWriteTag(hICC, cmsSigGrayTRCTag, (void*) TransferFunction)) goto Error; + } + + return hICC; + +Error: + if (hICC) + cmsCloseProfile(hICC); + return NULL; +} + + + +cmsHPROFILE CMSEXPORT cmsCreateGrayProfile(const cmsCIExyY* WhitePoint, + const cmsToneCurve* TransferFunction) +{ + return cmsCreateGrayProfileTHR(NULL, WhitePoint, TransferFunction); +} + +// This is a devicelink operating in the target colorspace with as many transfer functions as components + +cmsHPROFILE CMSEXPORT cmsCreateLinearizationDeviceLinkTHR(cmsContext ContextID, + cmsColorSpaceSignature ColorSpace, + cmsToneCurve* const TransferFunctions[]) +{ + cmsHPROFILE hICC; + cmsPipeline* Pipeline; + int nChannels; + + hICC = cmsCreateProfilePlaceholder(ContextID); + if (!hICC) + return NULL; + + cmsSetProfileVersion(hICC, 4.3); + + cmsSetDeviceClass(hICC, cmsSigLinkClass); + cmsSetColorSpace(hICC, ColorSpace); + cmsSetPCS(hICC, ColorSpace); + + cmsSetHeaderRenderingIntent(hICC, INTENT_PERCEPTUAL); + + // Set up channels + nChannels = cmsChannelsOf(ColorSpace); + + // Creates a Pipeline with prelinearization step only + Pipeline = cmsPipelineAlloc(ContextID, nChannels, nChannels); + if (Pipeline == NULL) goto Error; + + + // Copy tables to Pipeline + if (!cmsPipelineInsertStage(Pipeline, cmsAT_BEGIN, cmsStageAllocToneCurves(ContextID, nChannels, TransferFunctions))) + goto Error; + + // Create tags + if (!SetTextTags(hICC, L"Linearization built-in")) goto Error; + if (!cmsWriteTag(hICC, cmsSigAToB0Tag, (void*) Pipeline)) goto Error; + if (!SetSeqDescTag(hICC, "Linearization built-in")) goto Error; + + // Pipeline is already on virtual profile + cmsPipelineFree(Pipeline); + + // Ok, done + return hICC; + +Error: + cmsPipelineFree(Pipeline); + if (hICC) + cmsCloseProfile(hICC); + + + return NULL; +} + +cmsHPROFILE CMSEXPORT cmsCreateLinearizationDeviceLink(cmsColorSpaceSignature ColorSpace, + cmsToneCurve* const TransferFunctions[]) +{ + return cmsCreateLinearizationDeviceLinkTHR(NULL, ColorSpace, TransferFunctions); +} + +// Ink-limiting algorithm +// +// Sum = C + M + Y + K +// If Sum > InkLimit +// Ratio= 1 - (Sum - InkLimit) / (C + M + Y) +// if Ratio <0 +// Ratio=0 +// endif +// Else +// Ratio=1 +// endif +// +// C = Ratio * C +// M = Ratio * M +// Y = Ratio * Y +// K: Does not change + +static +int InkLimitingSampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + cmsFloat64Number InkLimit = *(cmsFloat64Number *) Cargo; + cmsFloat64Number SumCMY, SumCMYK, Ratio; + + InkLimit = (InkLimit * 655.35); + + SumCMY = In[0] + In[1] + In[2]; + SumCMYK = SumCMY + In[3]; + + if (SumCMYK > InkLimit) { + + Ratio = 1 - ((SumCMYK - InkLimit) / SumCMY); + if (Ratio < 0) + Ratio = 0; + } + else Ratio = 1; + + Out[0] = _cmsQuickSaturateWord(In[0] * Ratio); // C + Out[1] = _cmsQuickSaturateWord(In[1] * Ratio); // M + Out[2] = _cmsQuickSaturateWord(In[2] * Ratio); // Y + + Out[3] = In[3]; // K (untouched) + + return TRUE; +} + +// This is a devicelink operating in CMYK for ink-limiting + +cmsHPROFILE CMSEXPORT cmsCreateInkLimitingDeviceLinkTHR(cmsContext ContextID, + cmsColorSpaceSignature ColorSpace, + cmsFloat64Number Limit) +{ + cmsHPROFILE hICC; + cmsPipeline* LUT; + cmsStage* CLUT; + int nChannels; + + if (ColorSpace != cmsSigCmykData) { + cmsSignalError(ContextID, cmsERROR_COLORSPACE_CHECK, "InkLimiting: Only CMYK currently supported"); + return NULL; + } + + if (Limit < 0.0 || Limit > 400) { + + cmsSignalError(ContextID, cmsERROR_RANGE, "InkLimiting: Limit should be between 0..400"); + if (Limit < 0) Limit = 0; + if (Limit > 400) Limit = 400; + + } + + hICC = cmsCreateProfilePlaceholder(ContextID); + if (!hICC) // can't allocate + return NULL; + + cmsSetProfileVersion(hICC, 4.3); + + cmsSetDeviceClass(hICC, cmsSigLinkClass); + cmsSetColorSpace(hICC, ColorSpace); + cmsSetPCS(hICC, ColorSpace); + + cmsSetHeaderRenderingIntent(hICC, INTENT_PERCEPTUAL); + + + // Creates a Pipeline with 3D grid only + LUT = cmsPipelineAlloc(ContextID, 4, 4); + if (LUT == NULL) goto Error; + + + nChannels = cmsChannelsOf(ColorSpace); + + CLUT = cmsStageAllocCLut16bit(ContextID, 17, nChannels, nChannels, NULL); + if (CLUT == NULL) goto Error; + + if (!cmsStageSampleCLut16bit(CLUT, InkLimitingSampler, (void*) &Limit, 0)) goto Error; + + if (!cmsPipelineInsertStage(LUT, cmsAT_BEGIN, _cmsStageAllocIdentityCurves(ContextID, nChannels)) || + !cmsPipelineInsertStage(LUT, cmsAT_END, CLUT) || + !cmsPipelineInsertStage(LUT, cmsAT_END, _cmsStageAllocIdentityCurves(ContextID, nChannels))) + goto Error; + + // Create tags + if (!SetTextTags(hICC, L"ink-limiting built-in")) goto Error; + + if (!cmsWriteTag(hICC, cmsSigAToB0Tag, (void*) LUT)) goto Error; + if (!SetSeqDescTag(hICC, "ink-limiting built-in")) goto Error; + + // cmsPipeline is already on virtual profile + cmsPipelineFree(LUT); + + // Ok, done + return hICC; + +Error: + if (LUT != NULL) + cmsPipelineFree(LUT); + + if (hICC != NULL) + cmsCloseProfile(hICC); + + return NULL; +} + +cmsHPROFILE CMSEXPORT cmsCreateInkLimitingDeviceLink(cmsColorSpaceSignature ColorSpace, cmsFloat64Number Limit) +{ + return cmsCreateInkLimitingDeviceLinkTHR(NULL, ColorSpace, Limit); +} + + +// Creates a fake Lab identity. +cmsHPROFILE CMSEXPORT cmsCreateLab2ProfileTHR(cmsContext ContextID, const cmsCIExyY* WhitePoint) +{ + cmsHPROFILE hProfile; + cmsPipeline* LUT = NULL; + + hProfile = cmsCreateRGBProfileTHR(ContextID, WhitePoint == NULL ? cmsD50_xyY() : WhitePoint, NULL, NULL); + if (hProfile == NULL) return NULL; + + cmsSetProfileVersion(hProfile, 2.1); + + cmsSetDeviceClass(hProfile, cmsSigAbstractClass); + cmsSetColorSpace(hProfile, cmsSigLabData); + cmsSetPCS(hProfile, cmsSigLabData); + + if (!SetTextTags(hProfile, L"Lab identity built-in")) return NULL; + + // An identity LUT is all we need + LUT = cmsPipelineAlloc(ContextID, 3, 3); + if (LUT == NULL) goto Error; + + if (!cmsPipelineInsertStage(LUT, cmsAT_BEGIN, _cmsStageAllocIdentityCLut(ContextID, 3))) + goto Error; + + if (!cmsWriteTag(hProfile, cmsSigAToB0Tag, LUT)) goto Error; + cmsPipelineFree(LUT); + + return hProfile; + +Error: + + if (LUT != NULL) + cmsPipelineFree(LUT); + + if (hProfile != NULL) + cmsCloseProfile(hProfile); + + return NULL; +} + + +cmsHPROFILE CMSEXPORT cmsCreateLab2Profile(const cmsCIExyY* WhitePoint) +{ + return cmsCreateLab2ProfileTHR(NULL, WhitePoint); +} + + +// Creates a fake Lab V4 identity. +cmsHPROFILE CMSEXPORT cmsCreateLab4ProfileTHR(cmsContext ContextID, const cmsCIExyY* WhitePoint) +{ + cmsHPROFILE hProfile; + cmsPipeline* LUT = NULL; + + hProfile = cmsCreateRGBProfileTHR(ContextID, WhitePoint == NULL ? cmsD50_xyY() : WhitePoint, NULL, NULL); + if (hProfile == NULL) return NULL; + + cmsSetProfileVersion(hProfile, 4.3); + + cmsSetDeviceClass(hProfile, cmsSigAbstractClass); + cmsSetColorSpace(hProfile, cmsSigLabData); + cmsSetPCS(hProfile, cmsSigLabData); + + if (!SetTextTags(hProfile, L"Lab identity built-in")) goto Error; + + // An empty LUTs is all we need + LUT = cmsPipelineAlloc(ContextID, 3, 3); + if (LUT == NULL) goto Error; + + if (!cmsPipelineInsertStage(LUT, cmsAT_BEGIN, _cmsStageAllocIdentityCurves(ContextID, 3))) + goto Error; + + if (!cmsWriteTag(hProfile, cmsSigAToB0Tag, LUT)) goto Error; + cmsPipelineFree(LUT); + + return hProfile; + +Error: + + if (LUT != NULL) + cmsPipelineFree(LUT); + + if (hProfile != NULL) + cmsCloseProfile(hProfile); + + return NULL; +} + +cmsHPROFILE CMSEXPORT cmsCreateLab4Profile(const cmsCIExyY* WhitePoint) +{ + return cmsCreateLab4ProfileTHR(NULL, WhitePoint); +} + + +// Creates a fake XYZ identity +cmsHPROFILE CMSEXPORT cmsCreateXYZProfileTHR(cmsContext ContextID) +{ + cmsHPROFILE hProfile; + cmsPipeline* LUT = NULL; + + hProfile = cmsCreateRGBProfileTHR(ContextID, cmsD50_xyY(), NULL, NULL); + if (hProfile == NULL) return NULL; + + cmsSetProfileVersion(hProfile, 4.3); + + cmsSetDeviceClass(hProfile, cmsSigAbstractClass); + cmsSetColorSpace(hProfile, cmsSigXYZData); + cmsSetPCS(hProfile, cmsSigXYZData); + + if (!SetTextTags(hProfile, L"XYZ identity built-in")) goto Error; + + // An identity LUT is all we need + LUT = cmsPipelineAlloc(ContextID, 3, 3); + if (LUT == NULL) goto Error; + + if (!cmsPipelineInsertStage(LUT, cmsAT_BEGIN, _cmsStageAllocIdentityCurves(ContextID, 3))) + goto Error; + + if (!cmsWriteTag(hProfile, cmsSigAToB0Tag, LUT)) goto Error; + cmsPipelineFree(LUT); + + return hProfile; + +Error: + + if (LUT != NULL) + cmsPipelineFree(LUT); + + if (hProfile != NULL) + cmsCloseProfile(hProfile); + + return NULL; +} + + +cmsHPROFILE CMSEXPORT cmsCreateXYZProfile(void) +{ + return cmsCreateXYZProfileTHR(NULL); +} + + +//sRGB Curves are defined by: +// +//If R’sRGB,G’sRGB, B’sRGB < 0.04045 +// +// R = R’sRGB / 12.92 +// G = G’sRGB / 12.92 +// B = B’sRGB / 12.92 +// +// +//else if R’sRGB,G’sRGB, B’sRGB >= 0.04045 +// +// R = ((R’sRGB + 0.055) / 1.055)^2.4 +// G = ((G’sRGB + 0.055) / 1.055)^2.4 +// B = ((B’sRGB + 0.055) / 1.055)^2.4 + +static +cmsToneCurve* Build_sRGBGamma(cmsContext ContextID) +{ + cmsFloat64Number Parameters[5]; + + Parameters[0] = 2.4; + Parameters[1] = 1. / 1.055; + Parameters[2] = 0.055 / 1.055; + Parameters[3] = 1. / 12.92; + Parameters[4] = 0.04045; + + return cmsBuildParametricToneCurve(ContextID, 4, Parameters); +} + +// Create the ICC virtual profile for sRGB space +cmsHPROFILE CMSEXPORT cmsCreate_sRGBProfileTHR(cmsContext ContextID) +{ + cmsCIExyY D65 = { 0.3127, 0.3290, 1.0 }; + cmsCIExyYTRIPLE Rec709Primaries = { + {0.6400, 0.3300, 1.0}, + {0.3000, 0.6000, 1.0}, + {0.1500, 0.0600, 1.0} + }; + cmsToneCurve* Gamma22[3]; + cmsHPROFILE hsRGB; + + // cmsWhitePointFromTemp(&D65, 6504); + Gamma22[0] = Gamma22[1] = Gamma22[2] = Build_sRGBGamma(ContextID); + if (Gamma22[0] == NULL) return NULL; + + hsRGB = cmsCreateRGBProfileTHR(ContextID, &D65, &Rec709Primaries, Gamma22); + cmsFreeToneCurve(Gamma22[0]); + if (hsRGB == NULL) return NULL; + + if (!SetTextTags(hsRGB, L"sRGB built-in")) { + cmsCloseProfile(hsRGB); + return NULL; + } + + return hsRGB; +} + +cmsHPROFILE CMSEXPORT cmsCreate_sRGBProfile(void) +{ + return cmsCreate_sRGBProfileTHR(NULL); +} + + + +typedef struct { + cmsFloat64Number Brightness; + cmsFloat64Number Contrast; + cmsFloat64Number Hue; + cmsFloat64Number Saturation; + cmsBool lAdjustWP; + cmsCIEXYZ WPsrc, WPdest; + +} BCHSWADJUSTS, *LPBCHSWADJUSTS; + + +static +int bchswSampler(register const cmsUInt16Number In[], register cmsUInt16Number Out[], register void* Cargo) +{ + cmsCIELab LabIn, LabOut; + cmsCIELCh LChIn, LChOut; + cmsCIEXYZ XYZ; + LPBCHSWADJUSTS bchsw = (LPBCHSWADJUSTS) Cargo; + + + cmsLabEncoded2Float(&LabIn, In); + + + cmsLab2LCh(&LChIn, &LabIn); + + // Do some adjusts on LCh + + LChOut.L = LChIn.L * bchsw ->Contrast + bchsw ->Brightness; + LChOut.C = LChIn.C + bchsw -> Saturation; + LChOut.h = LChIn.h + bchsw -> Hue; + + + cmsLCh2Lab(&LabOut, &LChOut); + + // Move white point in Lab + if (bchsw->lAdjustWP) { + cmsLab2XYZ(&bchsw->WPsrc, &XYZ, &LabOut); + cmsXYZ2Lab(&bchsw->WPdest, &LabOut, &XYZ); + } + + // Back to encoded + + cmsFloat2LabEncoded(Out, &LabOut); + + return TRUE; +} + + +// Creates an abstract profile operating in Lab space for Brightness, +// contrast, Saturation and white point displacement + +cmsHPROFILE CMSEXPORT cmsCreateBCHSWabstractProfileTHR(cmsContext ContextID, + int nLUTPoints, + cmsFloat64Number Bright, + cmsFloat64Number Contrast, + cmsFloat64Number Hue, + cmsFloat64Number Saturation, + int TempSrc, + int TempDest) +{ + cmsHPROFILE hICC; + cmsPipeline* Pipeline; + BCHSWADJUSTS bchsw; + cmsCIExyY WhitePnt; + cmsStage* CLUT; + cmsUInt32Number Dimensions[MAX_INPUT_DIMENSIONS]; + int i; + + bchsw.Brightness = Bright; + bchsw.Contrast = Contrast; + bchsw.Hue = Hue; + bchsw.Saturation = Saturation; + if (TempSrc == TempDest) { + + bchsw.lAdjustWP = FALSE; + } + else { + bchsw.lAdjustWP = TRUE; + cmsWhitePointFromTemp(&WhitePnt, TempSrc); + cmsxyY2XYZ(&bchsw.WPsrc, &WhitePnt); + cmsWhitePointFromTemp(&WhitePnt, TempDest); + cmsxyY2XYZ(&bchsw.WPdest, &WhitePnt); + + } + + hICC = cmsCreateProfilePlaceholder(ContextID); + if (!hICC) // can't allocate + return NULL; + + cmsSetDeviceClass(hICC, cmsSigAbstractClass); + cmsSetColorSpace(hICC, cmsSigLabData); + cmsSetPCS(hICC, cmsSigLabData); + + cmsSetHeaderRenderingIntent(hICC, INTENT_PERCEPTUAL); + + // Creates a Pipeline with 3D grid only + Pipeline = cmsPipelineAlloc(ContextID, 3, 3); + if (Pipeline == NULL) { + cmsCloseProfile(hICC); + return NULL; + } + + for (i=0; i < MAX_INPUT_DIMENSIONS; i++) Dimensions[i] = nLUTPoints; + CLUT = cmsStageAllocCLut16bitGranular(ContextID, Dimensions, 3, 3, NULL); + if (CLUT == NULL) return NULL; + + + if (!cmsStageSampleCLut16bit(CLUT, bchswSampler, (void*) &bchsw, 0)) { + + // Shouldn't reach here + goto Error; + } + + if (!cmsPipelineInsertStage(Pipeline, cmsAT_END, CLUT)) { + goto Error; + } + + // Create tags + if (!SetTextTags(hICC, L"BCHS built-in")) return NULL; + + cmsWriteTag(hICC, cmsSigMediaWhitePointTag, (void*) cmsD50_XYZ()); + + cmsWriteTag(hICC, cmsSigAToB0Tag, (void*) Pipeline); + + // Pipeline is already on virtual profile + cmsPipelineFree(Pipeline); + + // Ok, done + return hICC; + +Error: + cmsPipelineFree(Pipeline); + cmsCloseProfile(hICC); + return NULL; +} + + +CMSAPI cmsHPROFILE CMSEXPORT cmsCreateBCHSWabstractProfile(int nLUTPoints, + cmsFloat64Number Bright, + cmsFloat64Number Contrast, + cmsFloat64Number Hue, + cmsFloat64Number Saturation, + int TempSrc, + int TempDest) +{ + return cmsCreateBCHSWabstractProfileTHR(NULL, nLUTPoints, Bright, Contrast, Hue, Saturation, TempSrc, TempDest); +} + + +// Creates a fake NULL profile. This profile return 1 channel as always 0. +// Is useful only for gamut checking tricks +cmsHPROFILE CMSEXPORT cmsCreateNULLProfileTHR(cmsContext ContextID) +{ + cmsHPROFILE hProfile; + cmsPipeline* LUT = NULL; + cmsStage* PostLin; + cmsToneCurve* EmptyTab; + cmsUInt16Number Zero[2] = { 0, 0 }; + + hProfile = cmsCreateProfilePlaceholder(ContextID); + if (!hProfile) // can't allocate + return NULL; + + cmsSetProfileVersion(hProfile, 4.3); + + if (!SetTextTags(hProfile, L"NULL profile built-in")) goto Error; + + + + cmsSetDeviceClass(hProfile, cmsSigOutputClass); + cmsSetColorSpace(hProfile, cmsSigGrayData); + cmsSetPCS(hProfile, cmsSigLabData); + + // An empty LUTs is all we need + LUT = cmsPipelineAlloc(ContextID, 1, 1); + if (LUT == NULL) goto Error; + + EmptyTab = cmsBuildTabulatedToneCurve16(ContextID, 2, Zero); + PostLin = cmsStageAllocToneCurves(ContextID, 1, &EmptyTab); + cmsFreeToneCurve(EmptyTab); + + if (!cmsPipelineInsertStage(LUT, cmsAT_END, PostLin)) + goto Error; + + if (!cmsWriteTag(hProfile, cmsSigBToA0Tag, (void*) LUT)) goto Error; + if (!cmsWriteTag(hProfile, cmsSigMediaWhitePointTag, cmsD50_XYZ())) goto Error; + + cmsPipelineFree(LUT); + return hProfile; + +Error: + + if (LUT != NULL) + cmsPipelineFree(LUT); + + if (hProfile != NULL) + cmsCloseProfile(hProfile); + + return NULL; +} + +cmsHPROFILE CMSEXPORT cmsCreateNULLProfile(void) +{ + return cmsCreateNULLProfileTHR(NULL); +} + + +static +int IsPCS(cmsColorSpaceSignature ColorSpace) +{ + return (ColorSpace == cmsSigXYZData || + ColorSpace == cmsSigLabData); +} + + +static +void FixColorSpaces(cmsHPROFILE hProfile, + cmsColorSpaceSignature ColorSpace, + cmsColorSpaceSignature PCS, + cmsUInt32Number dwFlags) +{ + if (dwFlags & cmsFLAGS_GUESSDEVICECLASS) { + + if (IsPCS(ColorSpace) && IsPCS(PCS)) { + + cmsSetDeviceClass(hProfile, cmsSigAbstractClass); + cmsSetColorSpace(hProfile, ColorSpace); + cmsSetPCS(hProfile, PCS); + return; + } + + if (IsPCS(ColorSpace) && !IsPCS(PCS)) { + + cmsSetDeviceClass(hProfile, cmsSigOutputClass); + cmsSetPCS(hProfile, ColorSpace); + cmsSetColorSpace(hProfile, PCS); + return; + } + + if (IsPCS(PCS) && !IsPCS(ColorSpace)) { + + cmsSetDeviceClass(hProfile, cmsSigInputClass); + cmsSetColorSpace(hProfile, ColorSpace); + cmsSetPCS(hProfile, PCS); + return; + } + } + + cmsSetDeviceClass(hProfile, cmsSigLinkClass); + cmsSetColorSpace(hProfile, ColorSpace); + cmsSetPCS(hProfile, PCS); +} + + + +// This function creates a named color profile dumping all the contents of transform to a single profile +// In this way, LittleCMS may be used to "group" several named color databases into a single profile. +// It has, however, several minor limitations. PCS is always Lab, which is not very critic since this +// is the normal PCS for named color profiles. +static +cmsHPROFILE CreateNamedColorDevicelink(cmsHTRANSFORM xform) +{ + _cmsTRANSFORM* v = (_cmsTRANSFORM*) xform; + cmsHPROFILE hICC = NULL; + int i, nColors; + cmsNAMEDCOLORLIST *nc2 = NULL, *Original = NULL; + + // Create an empty placeholder + hICC = cmsCreateProfilePlaceholder(v->ContextID); + if (hICC == NULL) return NULL; + + // Critical information + cmsSetDeviceClass(hICC, cmsSigNamedColorClass); + cmsSetColorSpace(hICC, v ->ExitColorSpace); + cmsSetPCS(hICC, cmsSigLabData); + + // Tag profile with information + if (!SetTextTags(hICC, L"Named color devicelink")) goto Error; + + Original = cmsGetNamedColorList(xform); + if (Original == NULL) goto Error; + + nColors = cmsNamedColorCount(Original); + nc2 = cmsDupNamedColorList(Original); + if (nc2 == NULL) goto Error; + + // Colorant count now depends on the output space + nc2 ->ColorantCount = cmsPipelineOutputChannels(v ->Lut); + + // Make sure we have proper formatters + cmsChangeBuffersFormat(xform, TYPE_NAMED_COLOR_INDEX, + FLOAT_SH(0) | COLORSPACE_SH(_cmsLCMScolorSpace(v ->ExitColorSpace)) + | BYTES_SH(2) | CHANNELS_SH(cmsChannelsOf(v ->ExitColorSpace))); + + // Apply the transfor to colorants. + for (i=0; i < nColors; i++) { + cmsDoTransform(xform, &i, nc2 ->List[i].DeviceColorant, 1); + } + + if (!cmsWriteTag(hICC, cmsSigNamedColor2Tag, (void*) nc2)) goto Error; + cmsFreeNamedColorList(nc2); + + return hICC; + +Error: + if (hICC != NULL) cmsCloseProfile(hICC); + return NULL; +} + + +// This structure holds information about which MPU can be stored on a profile based on the version + +typedef struct { + cmsBool IsV4; // Is a V4 tag? + cmsTagSignature RequiredTag; // Set to 0 for both types + cmsTagTypeSignature LutType; // The LUT type + int nTypes; // Number of types (up to 5) + cmsStageSignature MpeTypes[5]; // 5 is the maximum number + +} cmsAllowedLUT; + +#define cmsSig0 ((cmsTagSignature) 0) + +static const cmsAllowedLUT AllowedLUTTypes[] = { + + { FALSE, cmsSig0, cmsSigLut16Type, 4, { cmsSigMatrixElemType, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType } }, + { FALSE, cmsSig0, cmsSigLut16Type, 3, { cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType } }, + { FALSE, cmsSig0, cmsSigLut16Type, 2, { cmsSigCurveSetElemType, cmsSigCLutElemType } }, + { TRUE, cmsSig0, cmsSigLutAtoBType, 1, { cmsSigCurveSetElemType } }, + { TRUE , cmsSigAToB0Tag, cmsSigLutAtoBType, 3, { cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType } }, + { TRUE , cmsSigAToB0Tag, cmsSigLutAtoBType, 3, { cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType } }, + { TRUE , cmsSigAToB0Tag, cmsSigLutAtoBType, 5, { cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType }}, + { TRUE , cmsSigBToA0Tag, cmsSigLutBtoAType, 1, { cmsSigCurveSetElemType }}, + { TRUE , cmsSigBToA0Tag, cmsSigLutBtoAType, 3, { cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType }}, + { TRUE , cmsSigBToA0Tag, cmsSigLutBtoAType, 3, { cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType }}, + { TRUE , cmsSigBToA0Tag, cmsSigLutBtoAType, 5, { cmsSigCurveSetElemType, cmsSigMatrixElemType, cmsSigCurveSetElemType, cmsSigCLutElemType, cmsSigCurveSetElemType }} +}; + +#define SIZE_OF_ALLOWED_LUT (sizeof(AllowedLUTTypes)/sizeof(cmsAllowedLUT)) + +// Check a single entry +static +cmsBool CheckOne(const cmsAllowedLUT* Tab, const cmsPipeline* Lut) +{ + cmsStage* mpe; + int n; + + for (n=0, mpe = Lut ->Elements; mpe != NULL; mpe = mpe ->Next, n++) { + + if (n > Tab ->nTypes) return FALSE; + if (cmsStageType(mpe) != Tab ->MpeTypes[n]) return FALSE; + } + + return (n == Tab ->nTypes); +} + + +static +const cmsAllowedLUT* FindCombination(const cmsPipeline* Lut, cmsBool IsV4, cmsTagSignature DestinationTag) +{ + cmsUInt32Number n; + + for (n=0; n < SIZE_OF_ALLOWED_LUT; n++) { + + const cmsAllowedLUT* Tab = AllowedLUTTypes + n; + + if (IsV4 ^ Tab -> IsV4) continue; + if ((Tab ->RequiredTag != 0) && (Tab ->RequiredTag != DestinationTag)) continue; + + if (CheckOne(Tab, Lut)) return Tab; + } + + return NULL; +} + + +// Does convert a transform into a device link profile +cmsHPROFILE CMSEXPORT cmsTransform2DeviceLink(cmsHTRANSFORM hTransform, cmsFloat64Number Version, cmsUInt32Number dwFlags) +{ + cmsHPROFILE hProfile = NULL; + cmsUInt32Number FrmIn, FrmOut, ChansIn, ChansOut; + cmsUInt32Number ColorSpaceBitsIn, ColorSpaceBitsOut; + _cmsTRANSFORM* xform = (_cmsTRANSFORM*) hTransform; + cmsPipeline* LUT = NULL; + cmsStage* mpe; + cmsContext ContextID = cmsGetTransformContextID(hTransform); + const cmsAllowedLUT* AllowedLUT; + cmsTagSignature DestinationTag; + cmsProfileClassSignature deviceClass; + + _cmsAssert(hTransform != NULL); + + // Get the first mpe to check for named color + mpe = cmsPipelineGetPtrToFirstStage(xform ->Lut); + + // Check if is a named color transform + if (mpe != NULL) { + + if (cmsStageType(mpe) == cmsSigNamedColorElemType) { + return CreateNamedColorDevicelink(hTransform); + } + } + + // First thing to do is to get a copy of the transformation + LUT = cmsPipelineDup(xform ->Lut); + if (LUT == NULL) return NULL; + + // Time to fix the Lab2/Lab4 issue. + if ((xform ->EntryColorSpace == cmsSigLabData) && (Version < 4.0)) { + + if (!cmsPipelineInsertStage(LUT, cmsAT_BEGIN, _cmsStageAllocLabV2ToV4curves(ContextID))) + goto Error; + } + + // On the output side too + if ((xform ->ExitColorSpace) == cmsSigLabData && (Version < 4.0)) { + + if (!cmsPipelineInsertStage(LUT, cmsAT_END, _cmsStageAllocLabV4ToV2(ContextID))) + goto Error; + } + + + hProfile = cmsCreateProfilePlaceholder(ContextID); + if (!hProfile) goto Error; // can't allocate + + cmsSetProfileVersion(hProfile, Version); + + FixColorSpaces(hProfile, xform -> EntryColorSpace, xform -> ExitColorSpace, dwFlags); + + // Optimize the LUT and precalculate a devicelink + + ChansIn = cmsChannelsOf(xform -> EntryColorSpace); + ChansOut = cmsChannelsOf(xform -> ExitColorSpace); + + ColorSpaceBitsIn = _cmsLCMScolorSpace(xform -> EntryColorSpace); + ColorSpaceBitsOut = _cmsLCMScolorSpace(xform -> ExitColorSpace); + + FrmIn = COLORSPACE_SH(ColorSpaceBitsIn) | CHANNELS_SH(ChansIn)|BYTES_SH(2); + FrmOut = COLORSPACE_SH(ColorSpaceBitsOut) | CHANNELS_SH(ChansOut)|BYTES_SH(2); + + deviceClass = cmsGetDeviceClass(hProfile); + + if (deviceClass == cmsSigOutputClass) + DestinationTag = cmsSigBToA0Tag; + else + DestinationTag = cmsSigAToB0Tag; + + // Check if the profile/version can store the result + if (dwFlags & cmsFLAGS_FORCE_CLUT) + AllowedLUT = NULL; + else + AllowedLUT = FindCombination(LUT, Version >= 4.0, DestinationTag); + + if (AllowedLUT == NULL) { + + // Try to optimize + _cmsOptimizePipeline(ContextID, &LUT, xform ->RenderingIntent, &FrmIn, &FrmOut, &dwFlags); + AllowedLUT = FindCombination(LUT, Version >= 4.0, DestinationTag); + + } + + // If no way, then force CLUT that for sure can be written + if (AllowedLUT == NULL) { + + cmsStage* FirstStage; + cmsStage* LastStage; + + dwFlags |= cmsFLAGS_FORCE_CLUT; + _cmsOptimizePipeline(ContextID, &LUT, xform ->RenderingIntent, &FrmIn, &FrmOut, &dwFlags); + + // Put identity curves if needed + FirstStage = cmsPipelineGetPtrToFirstStage(LUT); + if (FirstStage != NULL && FirstStage ->Type != cmsSigCurveSetElemType) + if (!cmsPipelineInsertStage(LUT, cmsAT_BEGIN, _cmsStageAllocIdentityCurves(ContextID, ChansIn))) + goto Error; + + LastStage = cmsPipelineGetPtrToLastStage(LUT); + if (LastStage != NULL && LastStage ->Type != cmsSigCurveSetElemType) + if (!cmsPipelineInsertStage(LUT, cmsAT_END, _cmsStageAllocIdentityCurves(ContextID, ChansOut))) + goto Error; + + AllowedLUT = FindCombination(LUT, Version >= 4.0, DestinationTag); + } + + // Somethings is wrong... + if (AllowedLUT == NULL) { + goto Error; + } + + + if (dwFlags & cmsFLAGS_8BITS_DEVICELINK) + cmsPipelineSetSaveAs8bitsFlag(LUT, TRUE); + + // Tag profile with information + if (!SetTextTags(hProfile, L"devicelink")) goto Error; + + // Store result + if (!cmsWriteTag(hProfile, DestinationTag, LUT)) goto Error; + + + if (xform -> InputColorant != NULL) { + if (!cmsWriteTag(hProfile, cmsSigColorantTableTag, xform->InputColorant)) goto Error; + } + + if (xform -> OutputColorant != NULL) { + if (!cmsWriteTag(hProfile, cmsSigColorantTableOutTag, xform->OutputColorant)) goto Error; + } + + if ((deviceClass == cmsSigLinkClass) && (xform ->Sequence != NULL)) { + if (!_cmsWriteProfileSequence(hProfile, xform ->Sequence)) goto Error; + } + + // Set the white point + if (deviceClass == cmsSigInputClass) { + if (!cmsWriteTag(hProfile, cmsSigMediaWhitePointTag, &xform ->EntryWhitePoint)) goto Error; + } + else { + if (!cmsWriteTag(hProfile, cmsSigMediaWhitePointTag, &xform ->ExitWhitePoint)) goto Error; + } + + + // Per 7.2.15 in spec 4.3 + cmsSetHeaderRenderingIntent(hProfile, xform ->RenderingIntent); + + cmsPipelineFree(LUT); + return hProfile; + +Error: + if (LUT != NULL) cmsPipelineFree(LUT); + cmsCloseProfile(hProfile); + return NULL; +} Index: sdk/lib/3rdparty/lcms2/cmswtpnt.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmswtpnt.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmswtpnt.c (working copy) @@ -0,0 +1,351 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + + +// D50 - Widely used +const cmsCIEXYZ* CMSEXPORT cmsD50_XYZ(void) +{ + static cmsCIEXYZ D50XYZ = {cmsD50X, cmsD50Y, cmsD50Z}; + + return &D50XYZ; +} + +const cmsCIExyY* CMSEXPORT cmsD50_xyY(void) +{ + static cmsCIExyY D50xyY; + + cmsXYZ2xyY(&D50xyY, cmsD50_XYZ()); + + return &D50xyY; +} + +// Obtains WhitePoint from Temperature +cmsBool CMSEXPORT cmsWhitePointFromTemp(cmsCIExyY* WhitePoint, cmsFloat64Number TempK) +{ + cmsFloat64Number x, y; + cmsFloat64Number T, T2, T3; + // cmsFloat64Number M1, M2; + + _cmsAssert(WhitePoint != NULL); + + T = TempK; + T2 = T*T; // Square + T3 = T2*T; // Cube + + // For correlated color temperature (T) between 4000K and 7000K: + + if (T >= 4000. && T <= 7000.) + { + x = -4.6070*(1E9/T3) + 2.9678*(1E6/T2) + 0.09911*(1E3/T) + 0.244063; + } + else + // or for correlated color temperature (T) between 7000K and 25000K: + + if (T > 7000.0 && T <= 25000.0) + { + x = -2.0064*(1E9/T3) + 1.9018*(1E6/T2) + 0.24748*(1E3/T) + 0.237040; + } + else { + cmsSignalError(0, cmsERROR_RANGE, "cmsWhitePointFromTemp: invalid temp"); + return FALSE; + } + + // Obtain y(x) + + y = -3.000*(x*x) + 2.870*x - 0.275; + + // wave factors (not used, but here for futures extensions) + + // M1 = (-1.3515 - 1.7703*x + 5.9114 *y)/(0.0241 + 0.2562*x - 0.7341*y); + // M2 = (0.0300 - 31.4424*x + 30.0717*y)/(0.0241 + 0.2562*x - 0.7341*y); + + WhitePoint -> x = x; + WhitePoint -> y = y; + WhitePoint -> Y = 1.0; + + return TRUE; +} + + + +typedef struct { + + cmsFloat64Number mirek; // temp (in microreciprocal kelvin) + cmsFloat64Number ut; // u coord of intersection w/ blackbody locus + cmsFloat64Number vt; // v coord of intersection w/ blackbody locus + cmsFloat64Number tt; // slope of ISOTEMPERATURE. line + + } ISOTEMPERATURE; + +static ISOTEMPERATURE isotempdata[] = { +// {Mirek, Ut, Vt, Tt } + {0, 0.18006, 0.26352, -0.24341}, + {10, 0.18066, 0.26589, -0.25479}, + {20, 0.18133, 0.26846, -0.26876}, + {30, 0.18208, 0.27119, -0.28539}, + {40, 0.18293, 0.27407, -0.30470}, + {50, 0.18388, 0.27709, -0.32675}, + {60, 0.18494, 0.28021, -0.35156}, + {70, 0.18611, 0.28342, -0.37915}, + {80, 0.18740, 0.28668, -0.40955}, + {90, 0.18880, 0.28997, -0.44278}, + {100, 0.19032, 0.29326, -0.47888}, + {125, 0.19462, 0.30141, -0.58204}, + {150, 0.19962, 0.30921, -0.70471}, + {175, 0.20525, 0.31647, -0.84901}, + {200, 0.21142, 0.32312, -1.0182 }, + {225, 0.21807, 0.32909, -1.2168 }, + {250, 0.22511, 0.33439, -1.4512 }, + {275, 0.23247, 0.33904, -1.7298 }, + {300, 0.24010, 0.34308, -2.0637 }, + {325, 0.24702, 0.34655, -2.4681 }, + {350, 0.25591, 0.34951, -2.9641 }, + {375, 0.26400, 0.35200, -3.5814 }, + {400, 0.27218, 0.35407, -4.3633 }, + {425, 0.28039, 0.35577, -5.3762 }, + {450, 0.28863, 0.35714, -6.7262 }, + {475, 0.29685, 0.35823, -8.5955 }, + {500, 0.30505, 0.35907, -11.324 }, + {525, 0.31320, 0.35968, -15.628 }, + {550, 0.32129, 0.36011, -23.325 }, + {575, 0.32931, 0.36038, -40.770 }, + {600, 0.33724, 0.36051, -116.45 } +}; + +#define NISO sizeof(isotempdata)/sizeof(ISOTEMPERATURE) + + +// Robertson's method +cmsBool CMSEXPORT cmsTempFromWhitePoint(cmsFloat64Number* TempK, const cmsCIExyY* WhitePoint) +{ + cmsUInt32Number j; + cmsFloat64Number us,vs; + cmsFloat64Number uj,vj,tj,di,dj,mi,mj; + cmsFloat64Number xs, ys; + + _cmsAssert(WhitePoint != NULL); + _cmsAssert(TempK != NULL); + + di = mi = 0; + xs = WhitePoint -> x; + ys = WhitePoint -> y; + + // convert (x,y) to CIE 1960 (u,WhitePoint) + + us = (2*xs) / (-xs + 6*ys + 1.5); + vs = (3*ys) / (-xs + 6*ys + 1.5); + + + for (j=0; j < NISO; j++) { + + uj = isotempdata[j].ut; + vj = isotempdata[j].vt; + tj = isotempdata[j].tt; + mj = isotempdata[j].mirek; + + dj = ((vs - vj) - tj * (us - uj)) / sqrt(1.0 + tj * tj); + + if ((j != 0) && (di/dj < 0.0)) { + + // Found a match + *TempK = 1000000.0 / (mi + (di / (di - dj)) * (mj - mi)); + return TRUE; + } + + di = dj; + mi = mj; + } + + // Not found + return FALSE; +} + + +// Compute chromatic adaptation matrix using Chad as cone matrix + +static +cmsBool ComputeChromaticAdaptation(cmsMAT3* Conversion, + const cmsCIEXYZ* SourceWhitePoint, + const cmsCIEXYZ* DestWhitePoint, + const cmsMAT3* Chad) + +{ + + cmsMAT3 Chad_Inv; + cmsVEC3 ConeSourceXYZ, ConeSourceRGB; + cmsVEC3 ConeDestXYZ, ConeDestRGB; + cmsMAT3 Cone, Tmp; + + + Tmp = *Chad; + if (!_cmsMAT3inverse(&Tmp, &Chad_Inv)) return FALSE; + + _cmsVEC3init(&ConeSourceXYZ, SourceWhitePoint -> X, + SourceWhitePoint -> Y, + SourceWhitePoint -> Z); + + _cmsVEC3init(&ConeDestXYZ, DestWhitePoint -> X, + DestWhitePoint -> Y, + DestWhitePoint -> Z); + + _cmsMAT3eval(&ConeSourceRGB, Chad, &ConeSourceXYZ); + _cmsMAT3eval(&ConeDestRGB, Chad, &ConeDestXYZ); + + // Build matrix + _cmsVEC3init(&Cone.v[0], ConeDestRGB.n[0]/ConeSourceRGB.n[0], 0.0, 0.0); + _cmsVEC3init(&Cone.v[1], 0.0, ConeDestRGB.n[1]/ConeSourceRGB.n[1], 0.0); + _cmsVEC3init(&Cone.v[2], 0.0, 0.0, ConeDestRGB.n[2]/ConeSourceRGB.n[2]); + + + // Normalize + _cmsMAT3per(&Tmp, &Cone, Chad); + _cmsMAT3per(Conversion, &Chad_Inv, &Tmp); + + return TRUE; +} + +// Returns the final chrmatic adaptation from illuminant FromIll to Illuminant ToIll +// The cone matrix can be specified in ConeMatrix. If NULL, Bradford is assumed +cmsBool _cmsAdaptationMatrix(cmsMAT3* r, const cmsMAT3* ConeMatrix, const cmsCIEXYZ* FromIll, const cmsCIEXYZ* ToIll) +{ + cmsMAT3 LamRigg = {{ // Bradford matrix + {{ 0.8951, 0.2664, -0.1614 }}, + {{ -0.7502, 1.7135, 0.0367 }}, + {{ 0.0389, -0.0685, 1.0296 }} + }}; + + if (ConeMatrix == NULL) + ConeMatrix = &LamRigg; + + return ComputeChromaticAdaptation(r, FromIll, ToIll, ConeMatrix); +} + +// Same as anterior, but assuming D50 destination. White point is given in xyY +static +cmsBool _cmsAdaptMatrixToD50(cmsMAT3* r, const cmsCIExyY* SourceWhitePt) +{ + cmsCIEXYZ Dn; + cmsMAT3 Bradford; + cmsMAT3 Tmp; + + cmsxyY2XYZ(&Dn, SourceWhitePt); + + if (!_cmsAdaptationMatrix(&Bradford, NULL, &Dn, cmsD50_XYZ())) return FALSE; + + Tmp = *r; + _cmsMAT3per(r, &Bradford, &Tmp); + + return TRUE; +} + +// Build a White point, primary chromas transfer matrix from RGB to CIE XYZ +// This is just an approximation, I am not handling all the non-linear +// aspects of the RGB to XYZ process, and assumming that the gamma correction +// has transitive property in the tranformation chain. +// +// the alghoritm: +// +// - First I build the absolute conversion matrix using +// primaries in XYZ. This matrix is next inverted +// - Then I eval the source white point across this matrix +// obtaining the coeficients of the transformation +// - Then, I apply these coeficients to the original matrix +// +cmsBool _cmsBuildRGB2XYZtransferMatrix(cmsMAT3* r, const cmsCIExyY* WhitePt, const cmsCIExyYTRIPLE* Primrs) +{ + cmsVEC3 WhitePoint, Coef; + cmsMAT3 Result, Primaries; + cmsFloat64Number xn, yn; + cmsFloat64Number xr, yr; + cmsFloat64Number xg, yg; + cmsFloat64Number xb, yb; + + xn = WhitePt -> x; + yn = WhitePt -> y; + xr = Primrs -> Red.x; + yr = Primrs -> Red.y; + xg = Primrs -> Green.x; + yg = Primrs -> Green.y; + xb = Primrs -> Blue.x; + yb = Primrs -> Blue.y; + + // Build Primaries matrix + _cmsVEC3init(&Primaries.v[0], xr, xg, xb); + _cmsVEC3init(&Primaries.v[1], yr, yg, yb); + _cmsVEC3init(&Primaries.v[2], (1-xr-yr), (1-xg-yg), (1-xb-yb)); + + + // Result = Primaries ^ (-1) inverse matrix + if (!_cmsMAT3inverse(&Primaries, &Result)) + return FALSE; + + + _cmsVEC3init(&WhitePoint, xn/yn, 1.0, (1.0-xn-yn)/yn); + + // Across inverse primaries ... + _cmsMAT3eval(&Coef, &Result, &WhitePoint); + + // Give us the Coefs, then I build transformation matrix + _cmsVEC3init(&r -> v[0], Coef.n[VX]*xr, Coef.n[VY]*xg, Coef.n[VZ]*xb); + _cmsVEC3init(&r -> v[1], Coef.n[VX]*yr, Coef.n[VY]*yg, Coef.n[VZ]*yb); + _cmsVEC3init(&r -> v[2], Coef.n[VX]*(1.0-xr-yr), Coef.n[VY]*(1.0-xg-yg), Coef.n[VZ]*(1.0-xb-yb)); + + + return _cmsAdaptMatrixToD50(r, WhitePt); + +} + + +// Adapts a color to a given illuminant. Original color is expected to have +// a SourceWhitePt white point. +cmsBool CMSEXPORT cmsAdaptToIlluminant(cmsCIEXYZ* Result, + const cmsCIEXYZ* SourceWhitePt, + const cmsCIEXYZ* Illuminant, + const cmsCIEXYZ* Value) +{ + cmsMAT3 Bradford; + cmsVEC3 In, Out; + + _cmsAssert(Result != NULL); + _cmsAssert(SourceWhitePt != NULL); + _cmsAssert(Illuminant != NULL); + _cmsAssert(Value != NULL); + + if (!_cmsAdaptationMatrix(&Bradford, NULL, SourceWhitePt, Illuminant)) return FALSE; + + _cmsVEC3init(&In, Value -> X, Value -> Y, Value -> Z); + _cmsMAT3eval(&Out, &Bradford, &In); + + Result -> X = Out.n[0]; + Result -> Y = Out.n[1]; + Result -> Z = Out.n[2]; + + return TRUE; +} + + Index: sdk/lib/3rdparty/lcms2/cmsxform.c =================================================================== --- sdk/lib/3rdparty/lcms2/cmsxform.c (nonexistent) +++ sdk/lib/3rdparty/lcms2/cmsxform.c (working copy) @@ -0,0 +1,1328 @@ +//--------------------------------------------------------------------------------- +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#include "lcms2_internal.h" + +// Transformations stuff +// ----------------------------------------------------------------------- + +#define DEFAULT_OBSERVER_ADAPTATION_STATE 1.0 + +// The Context0 observer adaptation state. +_cmsAdaptationStateChunkType _cmsAdaptationStateChunk = { DEFAULT_OBSERVER_ADAPTATION_STATE }; + +// Init and duplicate observer adaptation state +void _cmsAllocAdaptationStateChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + static _cmsAdaptationStateChunkType AdaptationStateChunk = { DEFAULT_OBSERVER_ADAPTATION_STATE }; + void* from; + + if (src != NULL) { + from = src ->chunks[AdaptationStateContext]; + } + else { + from = &AdaptationStateChunk; + } + + ctx ->chunks[AdaptationStateContext] = _cmsSubAllocDup(ctx ->MemPool, from, sizeof(_cmsAdaptationStateChunkType)); +} + + +// Sets adaptation state for absolute colorimetric intent in the given context. Adaptation state applies on all +// but cmsCreateExtendedTransformTHR(). Little CMS can handle incomplete adaptation states. +cmsFloat64Number CMSEXPORT cmsSetAdaptationStateTHR(cmsContext ContextID, cmsFloat64Number d) +{ + cmsFloat64Number prev; + _cmsAdaptationStateChunkType* ptr = (_cmsAdaptationStateChunkType*) _cmsContextGetClientChunk(ContextID, AdaptationStateContext); + + // Get previous value for return + prev = ptr ->AdaptationState; + + // Set the value if d is positive or zero + if (d >= 0.0) { + + ptr ->AdaptationState = d; + } + + // Always return previous value + return prev; +} + + +// The adaptation state may be defaulted by this function. If you don't like it, use the extended transform routine +cmsFloat64Number CMSEXPORT cmsSetAdaptationState(cmsFloat64Number d) +{ + return cmsSetAdaptationStateTHR(NULL, d); +} + +// ----------------------------------------------------------------------- + +// Alarm codes for 16-bit transformations, because the fixed range of containers there are +// no values left to mark out of gamut. + +#define DEFAULT_ALARM_CODES_VALUE {0x7F00, 0x7F00, 0x7F00, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0} + +_cmsAlarmCodesChunkType _cmsAlarmCodesChunk = { DEFAULT_ALARM_CODES_VALUE }; + +// Sets the codes used to mark out-out-gamut on Proofing transforms for a given context. Values are meant to be +// encoded in 16 bits. +void CMSEXPORT cmsSetAlarmCodesTHR(cmsContext ContextID, const cmsUInt16Number AlarmCodesP[cmsMAXCHANNELS]) +{ + _cmsAlarmCodesChunkType* ContextAlarmCodes = (_cmsAlarmCodesChunkType*) _cmsContextGetClientChunk(ContextID, AlarmCodesContext); + + _cmsAssert(ContextAlarmCodes != NULL); // Can't happen + + memcpy(ContextAlarmCodes->AlarmCodes, AlarmCodesP, sizeof(ContextAlarmCodes->AlarmCodes)); +} + +// Gets the current codes used to mark out-out-gamut on Proofing transforms for the given context. +// Values are meant to be encoded in 16 bits. +void CMSEXPORT cmsGetAlarmCodesTHR(cmsContext ContextID, cmsUInt16Number AlarmCodesP[cmsMAXCHANNELS]) +{ + _cmsAlarmCodesChunkType* ContextAlarmCodes = (_cmsAlarmCodesChunkType*) _cmsContextGetClientChunk(ContextID, AlarmCodesContext); + + _cmsAssert(ContextAlarmCodes != NULL); // Can't happen + + memcpy(AlarmCodesP, ContextAlarmCodes->AlarmCodes, sizeof(ContextAlarmCodes->AlarmCodes)); +} + +void CMSEXPORT cmsSetAlarmCodes(const cmsUInt16Number NewAlarm[cmsMAXCHANNELS]) +{ + _cmsAssert(NewAlarm != NULL); + + cmsSetAlarmCodesTHR(NULL, NewAlarm); +} + +void CMSEXPORT cmsGetAlarmCodes(cmsUInt16Number OldAlarm[cmsMAXCHANNELS]) +{ + _cmsAssert(OldAlarm != NULL); + cmsGetAlarmCodesTHR(NULL, OldAlarm); +} + + +// Init and duplicate alarm codes +void _cmsAllocAlarmCodesChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + static _cmsAlarmCodesChunkType AlarmCodesChunk = { DEFAULT_ALARM_CODES_VALUE }; + void* from; + + if (src != NULL) { + from = src ->chunks[AlarmCodesContext]; + } + else { + from = &AlarmCodesChunk; + } + + ctx ->chunks[AlarmCodesContext] = _cmsSubAllocDup(ctx ->MemPool, from, sizeof(_cmsAlarmCodesChunkType)); +} + +// ----------------------------------------------------------------------- + +// Get rid of transform resources +void CMSEXPORT cmsDeleteTransform(cmsHTRANSFORM hTransform) +{ + _cmsTRANSFORM* p = (_cmsTRANSFORM*) hTransform; + + _cmsAssert(p != NULL); + + if (p -> GamutCheck) + cmsPipelineFree(p -> GamutCheck); + + if (p -> Lut) + cmsPipelineFree(p -> Lut); + + if (p ->InputColorant) + cmsFreeNamedColorList(p ->InputColorant); + + if (p -> OutputColorant) + cmsFreeNamedColorList(p ->OutputColorant); + + if (p ->Sequence) + cmsFreeProfileSequenceDescription(p ->Sequence); + + if (p ->UserData) + p ->FreeUserData(p ->ContextID, p ->UserData); + + _cmsFree(p ->ContextID, (void *) p); +} + +// Apply transform. +void CMSEXPORT cmsDoTransform(cmsHTRANSFORM Transform, + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number Size) + +{ + _cmsTRANSFORM* p = (_cmsTRANSFORM*) Transform; + cmsStride stride; + + stride.BytesPerLineIn = 0; // Not used + stride.BytesPerLineOut = 0; + stride.BytesPerPlaneIn = Size; + stride.BytesPerPlaneOut = Size; + + p -> xform(p, InputBuffer, OutputBuffer, Size, 1, &stride); +} + + +// This is a legacy stride for planar +void CMSEXPORT cmsDoTransformStride(cmsHTRANSFORM Transform, + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number Size, cmsUInt32Number Stride) + +{ + _cmsTRANSFORM* p = (_cmsTRANSFORM*) Transform; + cmsStride stride; + + stride.BytesPerLineIn = 0; + stride.BytesPerLineOut = 0; + stride.BytesPerPlaneIn = Stride; + stride.BytesPerPlaneOut = Stride; + + p -> xform(p, InputBuffer, OutputBuffer, Size, 1, &stride); +} + +// This is the "fast" function for plugins +void CMSEXPORT cmsDoTransformLineStride(cmsHTRANSFORM Transform, + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + cmsUInt32Number BytesPerLineIn, + cmsUInt32Number BytesPerLineOut, + cmsUInt32Number BytesPerPlaneIn, + cmsUInt32Number BytesPerPlaneOut) + +{ + _cmsTRANSFORM* p = (_cmsTRANSFORM*) Transform; + cmsStride stride; + + stride.BytesPerLineIn = BytesPerLineIn; + stride.BytesPerLineOut = BytesPerLineOut; + stride.BytesPerPlaneIn = BytesPerPlaneIn; + stride.BytesPerPlaneOut = BytesPerPlaneOut; + + p->xform(p, InputBuffer, OutputBuffer, PixelsPerLine, LineCount, &stride); +} + + + +// Transform routines ---------------------------------------------------------------------------------------------------------- + +// Float xform converts floats. Since there are no performance issues, one routine does all job, including gamut check. +// Note that because extended range, we can use a -1.0 value for out of gamut in this case. +static +void FloatXFORM(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + cmsUInt8Number* accum; + cmsUInt8Number* output; + cmsFloat32Number fIn[cmsMAXCHANNELS], fOut[cmsMAXCHANNELS]; + cmsFloat32Number OutOfGamut; + cmsUInt32Number i, j, c, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*)in + strideIn; + output = (cmsUInt8Number*)out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInputFloat(p, fIn, accum, Stride->BytesPerPlaneIn); + + // Any gamut chack to do? + if (p->GamutCheck != NULL) { + + // Evaluate gamut marker. + cmsPipelineEvalFloat(fIn, &OutOfGamut, p->GamutCheck); + + // Is current color out of gamut? + if (OutOfGamut > 0.0) { + + // Certainly, out of gamut + for (c = 0; c < cmsMAXCHANNELS; c++) + fOut[c] = -1.0; + + } + else { + // No, proceed normally + cmsPipelineEvalFloat(fIn, fOut, p->Lut); + } + } + else { + + // No gamut check at all + cmsPipelineEvalFloat(fIn, fOut, p->Lut); + } + + + output = p->ToOutputFloat(p, fOut, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } + +} + + +static +void NullFloatXFORM(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) + +{ + cmsUInt8Number* accum; + cmsUInt8Number* output; + cmsFloat32Number fIn[cmsMAXCHANNELS]; + cmsUInt32Number i, j, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*) in + strideIn; + output = (cmsUInt8Number*) out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInputFloat(p, fIn, accum, Stride ->BytesPerPlaneIn); + output = p->ToOutputFloat(p, fIn, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } +} + +// 16 bit precision ----------------------------------------------------------------------------------------------------------- + +// Null transformation, only applies formatters. No caché +static +void NullXFORM(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + cmsUInt8Number* accum; + cmsUInt8Number* output; + cmsUInt16Number wIn[cmsMAXCHANNELS]; + cmsUInt32Number i, j, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*)in + strideIn; + output = (cmsUInt8Number*)out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInput(p, wIn, accum, Stride->BytesPerPlaneIn); + output = p->ToOutput(p, wIn, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } + +} + + +// No gamut check, no cache, 16 bits +static +void PrecalculatedXFORM(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + register cmsUInt8Number* accum; + register cmsUInt8Number* output; + cmsUInt16Number wIn[cmsMAXCHANNELS], wOut[cmsMAXCHANNELS]; + cmsUInt32Number i, j, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*)in + strideIn; + output = (cmsUInt8Number*)out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInput(p, wIn, accum, Stride->BytesPerPlaneIn); + p->Lut->Eval16Fn(wIn, wOut, p->Lut->Data); + output = p->ToOutput(p, wOut, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } + +} + + +// Auxiliary: Handle precalculated gamut check. The retrieval of context may be alittle bit slow, but this function is not critical. +static +void TransformOnePixelWithGamutCheck(_cmsTRANSFORM* p, + const cmsUInt16Number wIn[], + cmsUInt16Number wOut[]) +{ + cmsUInt16Number wOutOfGamut; + + p ->GamutCheck ->Eval16Fn(wIn, &wOutOfGamut, p ->GamutCheck ->Data); + if (wOutOfGamut >= 1) { + + cmsUInt16Number i; + _cmsAlarmCodesChunkType* ContextAlarmCodes = (_cmsAlarmCodesChunkType*) _cmsContextGetClientChunk(p->ContextID, AlarmCodesContext); + + for (i=0; i < p ->Lut->OutputChannels; i++) { + + wOut[i] = ContextAlarmCodes ->AlarmCodes[i]; + } + } + else + p ->Lut ->Eval16Fn(wIn, wOut, p -> Lut->Data); +} + +// Gamut check, No caché, 16 bits. +static +void PrecalculatedXFORMGamutCheck(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + cmsUInt8Number* accum; + cmsUInt8Number* output; + cmsUInt16Number wIn[cmsMAXCHANNELS], wOut[cmsMAXCHANNELS]; + cmsUInt32Number i, j, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*)in + strideIn; + output = (cmsUInt8Number*)out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInput(p, wIn, accum, Stride->BytesPerPlaneIn); + TransformOnePixelWithGamutCheck(p, wIn, wOut); + output = p->ToOutput(p, wOut, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } +} + + +// No gamut check, Caché, 16 bits, +static +void CachedXFORM(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + cmsUInt8Number* accum; + cmsUInt8Number* output; + cmsUInt16Number wIn[cmsMAXCHANNELS], wOut[cmsMAXCHANNELS]; + _cmsCACHE Cache; + cmsUInt32Number i, j, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + // Empty buffers for quick memcmp + memset(wIn, 0, sizeof(wIn)); + memset(wOut, 0, sizeof(wOut)); + + // Get copy of zero cache + memcpy(&Cache, &p->Cache, sizeof(Cache)); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*)in + strideIn; + output = (cmsUInt8Number*)out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInput(p, wIn, accum, Stride->BytesPerPlaneIn); + + if (memcmp(wIn, Cache.CacheIn, sizeof(Cache.CacheIn)) == 0) { + + memcpy(wOut, Cache.CacheOut, sizeof(Cache.CacheOut)); + } + else { + p->Lut->Eval16Fn(wIn, wOut, p->Lut->Data); + + memcpy(Cache.CacheIn, wIn, sizeof(Cache.CacheIn)); + memcpy(Cache.CacheOut, wOut, sizeof(Cache.CacheOut)); + } + + output = p->ToOutput(p, wOut, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } +} + +// All those nice features together +static +void CachedXFORMGamutCheck(_cmsTRANSFORM* p, + const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + cmsUInt8Number* accum; + cmsUInt8Number* output; + cmsUInt16Number wIn[cmsMAXCHANNELS], wOut[cmsMAXCHANNELS]; + _cmsCACHE Cache; + cmsUInt32Number i, j, strideIn, strideOut; + + _cmsHandleExtraChannels(p, in, out, PixelsPerLine, LineCount, Stride); + + // Empty buffers for quick memcmp + memset(wIn, 0, sizeof(wIn)); + memset(wOut, 0, sizeof(wOut)); + + // Get copy of zero cache + memcpy(&Cache, &p->Cache, sizeof(Cache)); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + accum = (cmsUInt8Number*)in + strideIn; + output = (cmsUInt8Number*)out + strideOut; + + for (j = 0; j < PixelsPerLine; j++) { + + accum = p->FromInput(p, wIn, accum, Stride->BytesPerPlaneIn); + + if (memcmp(wIn, Cache.CacheIn, sizeof(Cache.CacheIn)) == 0) { + + memcpy(wOut, Cache.CacheOut, sizeof(Cache.CacheOut)); + } + else { + TransformOnePixelWithGamutCheck(p, wIn, wOut); + + memcpy(Cache.CacheIn, wIn, sizeof(Cache.CacheIn)); + memcpy(Cache.CacheOut, wOut, sizeof(Cache.CacheOut)); + } + + output = p->ToOutput(p, wOut, output, Stride->BytesPerPlaneOut); + } + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } +} + +// Transform plug-ins ---------------------------------------------------------------------------------------------------- + +// List of used-defined transform factories +typedef struct _cmsTransformCollection_st { + + _cmsTransform2Factory Factory; + cmsBool OldXform; // Factory returns xform function in the old style + + struct _cmsTransformCollection_st *Next; + +} _cmsTransformCollection; + +// The linked list head +_cmsTransformPluginChunkType _cmsTransformPluginChunk = { NULL }; + + +// Duplicates the zone of memory used by the plug-in in the new context +static +void DupPluginTransformList(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + _cmsTransformPluginChunkType newHead = { NULL }; + _cmsTransformCollection* entry; + _cmsTransformCollection* Anterior = NULL; + _cmsTransformPluginChunkType* head = (_cmsTransformPluginChunkType*) src->chunks[TransformPlugin]; + + // Walk the list copying all nodes + for (entry = head->TransformCollection; + entry != NULL; + entry = entry ->Next) { + + _cmsTransformCollection *newEntry = ( _cmsTransformCollection *) _cmsSubAllocDup(ctx ->MemPool, entry, sizeof(_cmsTransformCollection)); + + if (newEntry == NULL) + return; + + // We want to keep the linked list order, so this is a little bit tricky + newEntry -> Next = NULL; + if (Anterior) + Anterior -> Next = newEntry; + + Anterior = newEntry; + + if (newHead.TransformCollection == NULL) + newHead.TransformCollection = newEntry; + } + + ctx ->chunks[TransformPlugin] = _cmsSubAllocDup(ctx->MemPool, &newHead, sizeof(_cmsTransformPluginChunkType)); +} + +// Allocates memory for transform plugin factory +void _cmsAllocTransformPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src) +{ + if (src != NULL) { + + // Copy all linked list + DupPluginTransformList(ctx, src); + } + else { + static _cmsTransformPluginChunkType TransformPluginChunkType = { NULL }; + ctx ->chunks[TransformPlugin] = _cmsSubAllocDup(ctx ->MemPool, &TransformPluginChunkType, sizeof(_cmsTransformPluginChunkType)); + } +} + +// Adaptor for old versions of plug-in +static +void _cmsTransform2toTransformAdaptor(struct _cmstransform_struct *CMMcargo, + const void* InputBuffer, + void* OutputBuffer, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride) +{ + + cmsUInt32Number i, strideIn, strideOut; + + _cmsHandleExtraChannels(CMMcargo, InputBuffer, OutputBuffer, PixelsPerLine, LineCount, Stride); + + strideIn = 0; + strideOut = 0; + + for (i = 0; i < LineCount; i++) { + + void *accum = (cmsUInt8Number*)InputBuffer + strideIn; + void *output = (cmsUInt8Number*)OutputBuffer + strideOut; + + CMMcargo->OldXform(CMMcargo, accum, output, PixelsPerLine, Stride->BytesPerPlaneIn); + + strideIn += Stride->BytesPerLineIn; + strideOut += Stride->BytesPerLineOut; + } +} + + + +// Register new ways to transform +cmsBool _cmsRegisterTransformPlugin(cmsContext ContextID, cmsPluginBase* Data) +{ + cmsPluginTransform* Plugin = (cmsPluginTransform*) Data; + _cmsTransformCollection* fl; + _cmsTransformPluginChunkType* ctx = ( _cmsTransformPluginChunkType*) _cmsContextGetClientChunk(ContextID,TransformPlugin); + + if (Data == NULL) { + + // Free the chain. Memory is safely freed at exit + ctx->TransformCollection = NULL; + return TRUE; + } + + // Factory callback is required + if (Plugin->factories.xform == NULL) return FALSE; + + + fl = (_cmsTransformCollection*) _cmsPluginMalloc(ContextID, sizeof(_cmsTransformCollection)); + if (fl == NULL) return FALSE; + + // Check for full xform plug-ins previous to 2.8, we would need an adapter in that case + if (Plugin->base.ExpectedVersion < 2080) { + + fl->OldXform = TRUE; + } + else + fl->OldXform = FALSE; + + // Copy the parameters + fl->Factory = Plugin->factories.xform; + + // Keep linked list + fl ->Next = ctx->TransformCollection; + ctx->TransformCollection = fl; + + // All is ok + return TRUE; +} + + +void CMSEXPORT _cmsSetTransformUserData(struct _cmstransform_struct *CMMcargo, void* ptr, _cmsFreeUserDataFn FreePrivateDataFn) +{ + _cmsAssert(CMMcargo != NULL); + CMMcargo ->UserData = ptr; + CMMcargo ->FreeUserData = FreePrivateDataFn; +} + +// returns the pointer defined by the plug-in to store private data +void * CMSEXPORT _cmsGetTransformUserData(struct _cmstransform_struct *CMMcargo) +{ + _cmsAssert(CMMcargo != NULL); + return CMMcargo ->UserData; +} + +// returns the current formatters +void CMSEXPORT _cmsGetTransformFormatters16(struct _cmstransform_struct *CMMcargo, cmsFormatter16* FromInput, cmsFormatter16* ToOutput) +{ + _cmsAssert(CMMcargo != NULL); + if (FromInput) *FromInput = CMMcargo ->FromInput; + if (ToOutput) *ToOutput = CMMcargo ->ToOutput; +} + +void CMSEXPORT _cmsGetTransformFormattersFloat(struct _cmstransform_struct *CMMcargo, cmsFormatterFloat* FromInput, cmsFormatterFloat* ToOutput) +{ + _cmsAssert(CMMcargo != NULL); + if (FromInput) *FromInput = CMMcargo ->FromInputFloat; + if (ToOutput) *ToOutput = CMMcargo ->ToOutputFloat; +} + + +// Allocate transform struct and set it to defaults. Ask the optimization plug-in about if those formats are proper +// for separated transforms. If this is the case, +static +_cmsTRANSFORM* AllocEmptyTransform(cmsContext ContextID, cmsPipeline* lut, + cmsUInt32Number Intent, cmsUInt32Number* InputFormat, cmsUInt32Number* OutputFormat, cmsUInt32Number* dwFlags) +{ + _cmsTransformPluginChunkType* ctx = ( _cmsTransformPluginChunkType*) _cmsContextGetClientChunk(ContextID, TransformPlugin); + _cmsTransformCollection* Plugin; + + // Allocate needed memory + _cmsTRANSFORM* p = (_cmsTRANSFORM*)_cmsMallocZero(ContextID, sizeof(_cmsTRANSFORM)); + if (!p) return NULL; + + // Store the proposed pipeline + p->Lut = lut; + + // Let's see if any plug-in want to do the transform by itself + if (p->Lut != NULL) { + + for (Plugin = ctx->TransformCollection; + Plugin != NULL; + Plugin = Plugin->Next) { + + if (Plugin->Factory(&p->xform, &p->UserData, &p->FreeUserData, &p->Lut, InputFormat, OutputFormat, dwFlags)) { + + // Last plugin in the declaration order takes control. We just keep + // the original parameters as a logging. + // Note that cmsFLAGS_CAN_CHANGE_FORMATTER is not set, so by default + // an optimized transform is not reusable. The plug-in can, however, change + // the flags and make it suitable. + + p->ContextID = ContextID; + p->InputFormat = *InputFormat; + p->OutputFormat = *OutputFormat; + p->dwOriginalFlags = *dwFlags; + + // Fill the formatters just in case the optimized routine is interested. + // No error is thrown if the formatter doesn't exist. It is up to the optimization + // factory to decide what to do in those cases. + p->FromInput = _cmsGetFormatter(ContextID, *InputFormat, cmsFormatterInput, CMS_PACK_FLAGS_16BITS).Fmt16; + p->ToOutput = _cmsGetFormatter(ContextID, *OutputFormat, cmsFormatterOutput, CMS_PACK_FLAGS_16BITS).Fmt16; + p->FromInputFloat = _cmsGetFormatter(ContextID, *InputFormat, cmsFormatterInput, CMS_PACK_FLAGS_FLOAT).FmtFloat; + p->ToOutputFloat = _cmsGetFormatter(ContextID, *OutputFormat, cmsFormatterOutput, CMS_PACK_FLAGS_FLOAT).FmtFloat; + + // Save the day? + if (Plugin->OldXform) { + p->OldXform = (_cmsTransformFn) p->xform; + p->xform = _cmsTransform2toTransformAdaptor; + } + + return p; + } + } + + // Not suitable for the transform plug-in, let's check the pipeline plug-in + _cmsOptimizePipeline(ContextID, &p->Lut, Intent, InputFormat, OutputFormat, dwFlags); + } + + // Check whatever this is a true floating point transform + if (_cmsFormatterIsFloat(*InputFormat) && _cmsFormatterIsFloat(*OutputFormat)) { + + // Get formatter function always return a valid union, but the contents of this union may be NULL. + p ->FromInputFloat = _cmsGetFormatter(ContextID, *InputFormat, cmsFormatterInput, CMS_PACK_FLAGS_FLOAT).FmtFloat; + p ->ToOutputFloat = _cmsGetFormatter(ContextID, *OutputFormat, cmsFormatterOutput, CMS_PACK_FLAGS_FLOAT).FmtFloat; + *dwFlags |= cmsFLAGS_CAN_CHANGE_FORMATTER; + + if (p ->FromInputFloat == NULL || p ->ToOutputFloat == NULL) { + + cmsSignalError(ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported raster format"); + _cmsFree(ContextID, p); + return NULL; + } + + if (*dwFlags & cmsFLAGS_NULLTRANSFORM) { + + p ->xform = NullFloatXFORM; + } + else { + // Float transforms don't use caché, always are non-NULL + p ->xform = FloatXFORM; + } + + } + else { + + if (*InputFormat == 0 && *OutputFormat == 0) { + p ->FromInput = p ->ToOutput = NULL; + *dwFlags |= cmsFLAGS_CAN_CHANGE_FORMATTER; + } + else { + + int BytesPerPixelInput; + + p ->FromInput = _cmsGetFormatter(ContextID, *InputFormat, cmsFormatterInput, CMS_PACK_FLAGS_16BITS).Fmt16; + p ->ToOutput = _cmsGetFormatter(ContextID, *OutputFormat, cmsFormatterOutput, CMS_PACK_FLAGS_16BITS).Fmt16; + + if (p ->FromInput == NULL || p ->ToOutput == NULL) { + + cmsSignalError(ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported raster format"); + _cmsFree(ContextID, p); + return NULL; + } + + BytesPerPixelInput = T_BYTES(p ->InputFormat); + if (BytesPerPixelInput == 0 || BytesPerPixelInput >= 2) + *dwFlags |= cmsFLAGS_CAN_CHANGE_FORMATTER; + + } + + if (*dwFlags & cmsFLAGS_NULLTRANSFORM) { + + p ->xform = NullXFORM; + } + else { + if (*dwFlags & cmsFLAGS_NOCACHE) { + + if (*dwFlags & cmsFLAGS_GAMUTCHECK) + p ->xform = PrecalculatedXFORMGamutCheck; // Gamut check, no caché + else + p ->xform = PrecalculatedXFORM; // No caché, no gamut check + } + else { + + if (*dwFlags & cmsFLAGS_GAMUTCHECK) + p ->xform = CachedXFORMGamutCheck; // Gamut check, caché + else + p ->xform = CachedXFORM; // No gamut check, caché + + } + } + } + + p ->InputFormat = *InputFormat; + p ->OutputFormat = *OutputFormat; + p ->dwOriginalFlags = *dwFlags; + p ->ContextID = ContextID; + p ->UserData = NULL; + return p; +} + +static +cmsBool GetXFormColorSpaces(int nProfiles, cmsHPROFILE hProfiles[], cmsColorSpaceSignature* Input, cmsColorSpaceSignature* Output) +{ + cmsColorSpaceSignature ColorSpaceIn, ColorSpaceOut; + cmsColorSpaceSignature PostColorSpace; + int i; + + if (nProfiles <= 0) return FALSE; + if (hProfiles[0] == NULL) return FALSE; + + *Input = PostColorSpace = cmsGetColorSpace(hProfiles[0]); + + for (i=0; i < nProfiles; i++) { + + cmsProfileClassSignature cls; + cmsHPROFILE hProfile = hProfiles[i]; + + int lIsInput = (PostColorSpace != cmsSigXYZData) && + (PostColorSpace != cmsSigLabData); + + if (hProfile == NULL) return FALSE; + + cls = cmsGetDeviceClass(hProfile); + + if (cls == cmsSigNamedColorClass) { + + ColorSpaceIn = cmsSig1colorData; + ColorSpaceOut = (nProfiles > 1) ? cmsGetPCS(hProfile) : cmsGetColorSpace(hProfile); + } + else + if (lIsInput || (cls == cmsSigLinkClass)) { + + ColorSpaceIn = cmsGetColorSpace(hProfile); + ColorSpaceOut = cmsGetPCS(hProfile); + } + else + { + ColorSpaceIn = cmsGetPCS(hProfile); + ColorSpaceOut = cmsGetColorSpace(hProfile); + } + + if (i==0) + *Input = ColorSpaceIn; + + PostColorSpace = ColorSpaceOut; + } + + *Output = PostColorSpace; + + return TRUE; +} + +// Check colorspace +static +cmsBool IsProperColorSpace(cmsColorSpaceSignature Check, cmsUInt32Number dwFormat) +{ + int Space1 = T_COLORSPACE(dwFormat); + int Space2 = _cmsLCMScolorSpace(Check); + + if (Space1 == PT_ANY) return TRUE; + if (Space1 == Space2) return TRUE; + + if (Space1 == PT_LabV2 && Space2 == PT_Lab) return TRUE; + if (Space1 == PT_Lab && Space2 == PT_LabV2) return TRUE; + + return FALSE; +} + +// ---------------------------------------------------------------------------------------------------------------- + +// Jun-21-2000: Some profiles (those that comes with W2K) comes +// with the media white (media black?) x 100. Add a sanity check + +static +void NormalizeXYZ(cmsCIEXYZ* Dest) +{ + while (Dest -> X > 2. && + Dest -> Y > 2. && + Dest -> Z > 2.) { + + Dest -> X /= 10.; + Dest -> Y /= 10.; + Dest -> Z /= 10.; + } +} + +static +void SetWhitePoint(cmsCIEXYZ* wtPt, const cmsCIEXYZ* src) +{ + if (src == NULL) { + wtPt ->X = cmsD50X; + wtPt ->Y = cmsD50Y; + wtPt ->Z = cmsD50Z; + } + else { + wtPt ->X = src->X; + wtPt ->Y = src->Y; + wtPt ->Z = src->Z; + + NormalizeXYZ(wtPt); + } + +} + +// New to lcms 2.0 -- have all parameters available. +cmsHTRANSFORM CMSEXPORT cmsCreateExtendedTransform(cmsContext ContextID, + cmsUInt32Number nProfiles, cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsUInt32Number Intents[], + cmsFloat64Number AdaptationStates[], + cmsHPROFILE hGamutProfile, + cmsUInt32Number nGamutPCSposition, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + cmsUInt32Number dwFlags) +{ + _cmsTRANSFORM* xform; + cmsColorSpaceSignature EntryColorSpace; + cmsColorSpaceSignature ExitColorSpace; + cmsPipeline* Lut; + cmsUInt32Number LastIntent = Intents[nProfiles-1]; + + // If it is a fake transform + if (dwFlags & cmsFLAGS_NULLTRANSFORM) + { + return AllocEmptyTransform(ContextID, NULL, INTENT_PERCEPTUAL, &InputFormat, &OutputFormat, &dwFlags); + } + + // If gamut check is requested, make sure we have a gamut profile + if (dwFlags & cmsFLAGS_GAMUTCHECK) { + if (hGamutProfile == NULL) dwFlags &= ~cmsFLAGS_GAMUTCHECK; + } + + // On floating point transforms, inhibit cache + if (_cmsFormatterIsFloat(InputFormat) || _cmsFormatterIsFloat(OutputFormat)) + dwFlags |= cmsFLAGS_NOCACHE; + + // Mark entry/exit spaces + if (!GetXFormColorSpaces(nProfiles, hProfiles, &EntryColorSpace, &ExitColorSpace)) { + cmsSignalError(ContextID, cmsERROR_NULL, "NULL input profiles on transform"); + return NULL; + } + + // Check if proper colorspaces + if (!IsProperColorSpace(EntryColorSpace, InputFormat)) { + cmsSignalError(ContextID, cmsERROR_COLORSPACE_CHECK, "Wrong input color space on transform"); + return NULL; + } + + if (!IsProperColorSpace(ExitColorSpace, OutputFormat)) { + cmsSignalError(ContextID, cmsERROR_COLORSPACE_CHECK, "Wrong output color space on transform"); + return NULL; + } + + // Create a pipeline with all transformations + Lut = _cmsLinkProfiles(ContextID, nProfiles, Intents, hProfiles, BPC, AdaptationStates, dwFlags); + if (Lut == NULL) { + cmsSignalError(ContextID, cmsERROR_NOT_SUITABLE, "Couldn't link the profiles"); + return NULL; + } + + // Check channel count + if ((cmsChannelsOf(EntryColorSpace) != cmsPipelineInputChannels(Lut)) || + (cmsChannelsOf(ExitColorSpace) != cmsPipelineOutputChannels(Lut))) { + cmsPipelineFree(Lut); + cmsSignalError(ContextID, cmsERROR_NOT_SUITABLE, "Channel count doesn't match. Profile is corrupted"); + return NULL; + } + + + // All seems ok + xform = AllocEmptyTransform(ContextID, Lut, LastIntent, &InputFormat, &OutputFormat, &dwFlags); + if (xform == NULL) { + return NULL; + } + + // Keep values + xform ->EntryColorSpace = EntryColorSpace; + xform ->ExitColorSpace = ExitColorSpace; + xform ->RenderingIntent = Intents[nProfiles-1]; + + // Take white points + SetWhitePoint(&xform->EntryWhitePoint, (cmsCIEXYZ*) cmsReadTag(hProfiles[0], cmsSigMediaWhitePointTag)); + SetWhitePoint(&xform->ExitWhitePoint, (cmsCIEXYZ*) cmsReadTag(hProfiles[nProfiles-1], cmsSigMediaWhitePointTag)); + + + // Create a gamut check LUT if requested + if (hGamutProfile != NULL && (dwFlags & cmsFLAGS_GAMUTCHECK)) + xform ->GamutCheck = _cmsCreateGamutCheckPipeline(ContextID, hProfiles, + BPC, Intents, + AdaptationStates, + nGamutPCSposition, + hGamutProfile); + + + // Try to read input and output colorant table + if (cmsIsTag(hProfiles[0], cmsSigColorantTableTag)) { + + // Input table can only come in this way. + xform ->InputColorant = cmsDupNamedColorList((cmsNAMEDCOLORLIST*) cmsReadTag(hProfiles[0], cmsSigColorantTableTag)); + } + + // Output is a little bit more complex. + if (cmsGetDeviceClass(hProfiles[nProfiles-1]) == cmsSigLinkClass) { + + // This tag may exist only on devicelink profiles. + if (cmsIsTag(hProfiles[nProfiles-1], cmsSigColorantTableOutTag)) { + + // It may be NULL if error + xform ->OutputColorant = cmsDupNamedColorList((cmsNAMEDCOLORLIST*) cmsReadTag(hProfiles[nProfiles-1], cmsSigColorantTableOutTag)); + } + + } else { + + if (cmsIsTag(hProfiles[nProfiles-1], cmsSigColorantTableTag)) { + + xform -> OutputColorant = cmsDupNamedColorList((cmsNAMEDCOLORLIST*) cmsReadTag(hProfiles[nProfiles-1], cmsSigColorantTableTag)); + } + } + + // Store the sequence of profiles + if (dwFlags & cmsFLAGS_KEEP_SEQUENCE) { + xform ->Sequence = _cmsCompileProfileSequence(ContextID, nProfiles, hProfiles); + } + else + xform ->Sequence = NULL; + + // If this is a cached transform, init first value, which is zero (16 bits only) + if (!(dwFlags & cmsFLAGS_NOCACHE)) { + + memset(&xform ->Cache.CacheIn, 0, sizeof(xform ->Cache.CacheIn)); + + if (xform ->GamutCheck != NULL) { + TransformOnePixelWithGamutCheck(xform, xform ->Cache.CacheIn, xform->Cache.CacheOut); + } + else { + + xform ->Lut ->Eval16Fn(xform ->Cache.CacheIn, xform->Cache.CacheOut, xform -> Lut->Data); + } + + } + + return (cmsHTRANSFORM) xform; +} + +// Multiprofile transforms: Gamut check is not available here, as it is unclear from which profile the gamut comes. +cmsHTRANSFORM CMSEXPORT cmsCreateMultiprofileTransformTHR(cmsContext ContextID, + cmsHPROFILE hProfiles[], + cmsUInt32Number nProfiles, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags) +{ + cmsUInt32Number i; + cmsBool BPC[256]; + cmsUInt32Number Intents[256]; + cmsFloat64Number AdaptationStates[256]; + + if (nProfiles <= 0 || nProfiles > 255) { + cmsSignalError(ContextID, cmsERROR_RANGE, "Wrong number of profiles. 1..255 expected, %d found.", nProfiles); + return NULL; + } + + for (i=0; i < nProfiles; i++) { + BPC[i] = dwFlags & cmsFLAGS_BLACKPOINTCOMPENSATION ? TRUE : FALSE; + Intents[i] = Intent; + AdaptationStates[i] = cmsSetAdaptationStateTHR(ContextID, -1); + } + + + return cmsCreateExtendedTransform(ContextID, nProfiles, hProfiles, BPC, Intents, AdaptationStates, NULL, 0, InputFormat, OutputFormat, dwFlags); +} + + + +cmsHTRANSFORM CMSEXPORT cmsCreateMultiprofileTransform(cmsHPROFILE hProfiles[], + cmsUInt32Number nProfiles, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags) +{ + + if (nProfiles <= 0 || nProfiles > 255) { + cmsSignalError(NULL, cmsERROR_RANGE, "Wrong number of profiles. 1..255 expected, %d found.", nProfiles); + return NULL; + } + + return cmsCreateMultiprofileTransformTHR(cmsGetProfileContextID(hProfiles[0]), + hProfiles, + nProfiles, + InputFormat, + OutputFormat, + Intent, + dwFlags); +} + +cmsHTRANSFORM CMSEXPORT cmsCreateTransformTHR(cmsContext ContextID, + cmsHPROFILE Input, + cmsUInt32Number InputFormat, + cmsHPROFILE Output, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags) +{ + + cmsHPROFILE hArray[2]; + + hArray[0] = Input; + hArray[1] = Output; + + return cmsCreateMultiprofileTransformTHR(ContextID, hArray, Output == NULL ? 1 : 2, InputFormat, OutputFormat, Intent, dwFlags); +} + +CMSAPI cmsHTRANSFORM CMSEXPORT cmsCreateTransform(cmsHPROFILE Input, + cmsUInt32Number InputFormat, + cmsHPROFILE Output, + cmsUInt32Number OutputFormat, + cmsUInt32Number Intent, + cmsUInt32Number dwFlags) +{ + return cmsCreateTransformTHR(cmsGetProfileContextID(Input), Input, InputFormat, Output, OutputFormat, Intent, dwFlags); +} + + +cmsHTRANSFORM CMSEXPORT cmsCreateProofingTransformTHR(cmsContext ContextID, + cmsHPROFILE InputProfile, + cmsUInt32Number InputFormat, + cmsHPROFILE OutputProfile, + cmsUInt32Number OutputFormat, + cmsHPROFILE ProofingProfile, + cmsUInt32Number nIntent, + cmsUInt32Number ProofingIntent, + cmsUInt32Number dwFlags) +{ + cmsHPROFILE hArray[4]; + cmsUInt32Number Intents[4]; + cmsBool BPC[4]; + cmsFloat64Number Adaptation[4]; + cmsBool DoBPC = (dwFlags & cmsFLAGS_BLACKPOINTCOMPENSATION) ? TRUE : FALSE; + + + hArray[0] = InputProfile; hArray[1] = ProofingProfile; hArray[2] = ProofingProfile; hArray[3] = OutputProfile; + Intents[0] = nIntent; Intents[1] = nIntent; Intents[2] = INTENT_RELATIVE_COLORIMETRIC; Intents[3] = ProofingIntent; + BPC[0] = DoBPC; BPC[1] = DoBPC; BPC[2] = 0; BPC[3] = 0; + + Adaptation[0] = Adaptation[1] = Adaptation[2] = Adaptation[3] = cmsSetAdaptationStateTHR(ContextID, -1); + + if (!(dwFlags & (cmsFLAGS_SOFTPROOFING|cmsFLAGS_GAMUTCHECK))) + return cmsCreateTransformTHR(ContextID, InputProfile, InputFormat, OutputProfile, OutputFormat, nIntent, dwFlags); + + return cmsCreateExtendedTransform(ContextID, 4, hArray, BPC, Intents, Adaptation, + ProofingProfile, 1, InputFormat, OutputFormat, dwFlags); + +} + + +cmsHTRANSFORM CMSEXPORT cmsCreateProofingTransform(cmsHPROFILE InputProfile, + cmsUInt32Number InputFormat, + cmsHPROFILE OutputProfile, + cmsUInt32Number OutputFormat, + cmsHPROFILE ProofingProfile, + cmsUInt32Number nIntent, + cmsUInt32Number ProofingIntent, + cmsUInt32Number dwFlags) +{ + return cmsCreateProofingTransformTHR(cmsGetProfileContextID(InputProfile), + InputProfile, + InputFormat, + OutputProfile, + OutputFormat, + ProofingProfile, + nIntent, + ProofingIntent, + dwFlags); +} + + +// Grab the ContextID from an open transform. Returns NULL if a NULL transform is passed +cmsContext CMSEXPORT cmsGetTransformContextID(cmsHTRANSFORM hTransform) +{ + _cmsTRANSFORM* xform = (_cmsTRANSFORM*) hTransform; + + if (xform == NULL) return NULL; + return xform -> ContextID; +} + +// Grab the input/output formats +cmsUInt32Number CMSEXPORT cmsGetTransformInputFormat(cmsHTRANSFORM hTransform) +{ + _cmsTRANSFORM* xform = (_cmsTRANSFORM*) hTransform; + + if (xform == NULL) return 0; + return xform->InputFormat; +} + +cmsUInt32Number CMSEXPORT cmsGetTransformOutputFormat(cmsHTRANSFORM hTransform) +{ + _cmsTRANSFORM* xform = (_cmsTRANSFORM*) hTransform; + + if (xform == NULL) return 0; + return xform->OutputFormat; +} + +// For backwards compatibility +cmsBool CMSEXPORT cmsChangeBuffersFormat(cmsHTRANSFORM hTransform, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat) +{ + _cmsTRANSFORM* xform = (_cmsTRANSFORM*) hTransform; + cmsFormatter16 FromInput, ToOutput; + + + // We only can afford to change formatters if previous transform is at least 16 bits + if (!(xform ->dwOriginalFlags & cmsFLAGS_CAN_CHANGE_FORMATTER)) { + + cmsSignalError(xform ->ContextID, cmsERROR_NOT_SUITABLE, "cmsChangeBuffersFormat works only on transforms created originally with at least 16 bits of precision"); + return FALSE; + } + + FromInput = _cmsGetFormatter(xform->ContextID, InputFormat, cmsFormatterInput, CMS_PACK_FLAGS_16BITS).Fmt16; + ToOutput = _cmsGetFormatter(xform->ContextID, OutputFormat, cmsFormatterOutput, CMS_PACK_FLAGS_16BITS).Fmt16; + + if (FromInput == NULL || ToOutput == NULL) { + + cmsSignalError(xform -> ContextID, cmsERROR_UNKNOWN_EXTENSION, "Unsupported raster format"); + return FALSE; + } + + xform ->InputFormat = InputFormat; + xform ->OutputFormat = OutputFormat; + xform ->FromInput = FromInput; + xform ->ToOutput = ToOutput; + return TRUE; +} Index: sdk/lib/3rdparty/lcms2/lcms2.def =================================================================== --- sdk/lib/3rdparty/lcms2/lcms2.def (nonexistent) +++ sdk/lib/3rdparty/lcms2/lcms2.def (working copy) @@ -0,0 +1,343 @@ +LIBRARY LCMS2.DLL + +EXPORTS + +_cms15Fixed16toDouble = _cms15Fixed16toDouble +_cms8Fixed8toDouble = _cms8Fixed8toDouble +cmsAdaptToIlluminant = cmsAdaptToIlluminant +_cmsAdjustEndianess16 = _cmsAdjustEndianess16 +_cmsAdjustEndianess32 = _cmsAdjustEndianess32 +_cmsAdjustEndianess64 = _cmsAdjustEndianess64 +cmsAllocNamedColorList = cmsAllocNamedColorList +cmsAllocProfileSequenceDescription = cmsAllocProfileSequenceDescription +cmsAppendNamedColor = cmsAppendNamedColor +cmsBFDdeltaE = cmsBFDdeltaE +cmsBuildGamma = cmsBuildGamma +cmsBuildParametricToneCurve = cmsBuildParametricToneCurve +cmsBuildSegmentedToneCurve = cmsBuildSegmentedToneCurve +cmsBuildTabulatedToneCurve16 = cmsBuildTabulatedToneCurve16 +cmsBuildTabulatedToneCurveFloat = cmsBuildTabulatedToneCurveFloat +_cmsCalloc = _cmsCalloc +cmsChannelsOf = cmsChannelsOf +cmsCIE2000DeltaE = cmsCIE2000DeltaE +cmsCIE94DeltaE = cmsCIE94DeltaE +cmsCIECAM02Done = cmsCIECAM02Done +cmsCIECAM02Forward = cmsCIECAM02Forward +cmsCIECAM02Init = cmsCIECAM02Init +cmsCIECAM02Reverse = cmsCIECAM02Reverse +cmsCloseIOhandler = cmsCloseIOhandler +cmsCloseProfile = cmsCloseProfile +cmsCMCdeltaE = cmsCMCdeltaE +cmsCreate_sRGBProfile = cmsCreate_sRGBProfile +cmsCreate_sRGBProfileTHR = cmsCreate_sRGBProfileTHR +cmsCreateBCHSWabstractProfile = cmsCreateBCHSWabstractProfile +cmsCreateBCHSWabstractProfileTHR = cmsCreateBCHSWabstractProfileTHR +cmsCreateExtendedTransform = cmsCreateExtendedTransform +cmsCreateGrayProfile = cmsCreateGrayProfile +cmsCreateGrayProfileTHR = cmsCreateGrayProfileTHR +cmsCreateInkLimitingDeviceLink = cmsCreateInkLimitingDeviceLink +cmsCreateInkLimitingDeviceLinkTHR = cmsCreateInkLimitingDeviceLinkTHR +cmsCreateLab2Profile = cmsCreateLab2Profile +cmsCreateLab2ProfileTHR = cmsCreateLab2ProfileTHR +cmsCreateLab4Profile = cmsCreateLab4Profile +cmsCreateLab4ProfileTHR = cmsCreateLab4ProfileTHR +cmsCreateLinearizationDeviceLink = cmsCreateLinearizationDeviceLink +cmsCreateLinearizationDeviceLinkTHR = cmsCreateLinearizationDeviceLinkTHR +cmsCreateMultiprofileTransform = cmsCreateMultiprofileTransform +cmsCreateMultiprofileTransformTHR = cmsCreateMultiprofileTransformTHR +cmsCreateNULLProfile = cmsCreateNULLProfile +cmsCreateNULLProfileTHR = cmsCreateNULLProfileTHR +cmsCreateProfilePlaceholder = cmsCreateProfilePlaceholder +cmsCreateProofingTransform = cmsCreateProofingTransform +cmsCreateProofingTransformTHR = cmsCreateProofingTransformTHR +cmsCreateRGBProfile = cmsCreateRGBProfile +cmsCreateRGBProfileTHR = cmsCreateRGBProfileTHR +cmsCreateTransform = cmsCreateTransform +cmsCreateTransformTHR = cmsCreateTransformTHR +cmsCreateXYZProfile = cmsCreateXYZProfile +cmsCreateXYZProfileTHR = cmsCreateXYZProfileTHR +cmsD50_xyY = cmsD50_xyY +cmsD50_XYZ = cmsD50_XYZ +_cmsDecodeDateTimeNumber = _cmsDecodeDateTimeNumber +_cmsDefaultICCintents = _cmsDefaultICCintents +cmsDeleteTransform = cmsDeleteTransform +cmsDeltaE = cmsDeltaE +cmsDetectBlackPoint = cmsDetectBlackPoint +cmsDetectDestinationBlackPoint = cmsDetectDestinationBlackPoint +cmsDetectTAC = cmsDetectTAC +cmsDesaturateLab = cmsDesaturateLab +cmsDoTransform = cmsDoTransform +cmsDoTransformStride = cmsDoTransformStride +_cmsDoubleTo15Fixed16 = _cmsDoubleTo15Fixed16 +_cmsDoubleTo8Fixed8 = _cmsDoubleTo8Fixed8 +_cmsDupMem = _cmsDupMem +cmsDupNamedColorList = cmsDupNamedColorList +cmsDupProfileSequenceDescription = cmsDupProfileSequenceDescription +cmsDupToneCurve = cmsDupToneCurve +_cmsEncodeDateTimeNumber = _cmsEncodeDateTimeNumber +cmsEstimateGamma = cmsEstimateGamma +cmsGetToneCurveEstimatedTableEntries = cmsGetToneCurveEstimatedTableEntries +cmsGetToneCurveEstimatedTable = cmsGetToneCurveEstimatedTable +cmsEvalToneCurve16 = cmsEvalToneCurve16 +cmsEvalToneCurveFloat = cmsEvalToneCurveFloat +cmsfilelength = cmsfilelength +cmsFloat2LabEncoded = cmsFloat2LabEncoded +cmsFloat2LabEncodedV2 = cmsFloat2LabEncodedV2 +cmsFloat2XYZEncoded = cmsFloat2XYZEncoded +cmsFormatterForColorspaceOfProfile = cmsFormatterForColorspaceOfProfile +cmsFormatterForPCSOfProfile = cmsFormatterForPCSOfProfile +_cmsFree = _cmsFree +cmsFreeNamedColorList = cmsFreeNamedColorList +cmsFreeProfileSequenceDescription = cmsFreeProfileSequenceDescription +cmsFreeToneCurve = cmsFreeToneCurve +cmsFreeToneCurveTriple = cmsFreeToneCurveTriple +cmsGBDAlloc = cmsGBDAlloc +cmsGBDFree = cmsGBDFree +cmsGDBAddPoint = cmsGDBAddPoint +cmsGDBCheckPoint = cmsGDBCheckPoint +cmsGDBCompute = cmsGDBCompute +cmsGetAlarmCodes = cmsGetAlarmCodes +cmsGetColorSpace = cmsGetColorSpace +cmsGetDeviceClass = cmsGetDeviceClass +cmsGetEncodedICCversion = cmsGetEncodedICCversion +cmsGetHeaderAttributes = cmsGetHeaderAttributes +cmsGetHeaderCreationDateTime = cmsGetHeaderCreationDateTime +cmsGetHeaderFlags = cmsGetHeaderFlags +cmsGetHeaderManufacturer = cmsGetHeaderManufacturer +cmsGetHeaderModel = cmsGetHeaderModel +cmsGetHeaderProfileID = cmsGetHeaderProfileID +cmsGetHeaderRenderingIntent = cmsGetHeaderRenderingIntent +cmsGetNamedColorList = cmsGetNamedColorList +cmsGetPCS = cmsGetPCS +cmsGetPostScriptColorResource = cmsGetPostScriptColorResource +cmsGetPostScriptCRD = cmsGetPostScriptCRD +cmsGetPostScriptCSA = cmsGetPostScriptCSA +cmsGetProfileInfo = cmsGetProfileInfo +cmsGetProfileInfoASCII = cmsGetProfileInfoASCII +cmsGetProfileContextID = cmsGetProfileContextID +cmsGetProfileVersion = cmsGetProfileVersion +cmsGetSupportedIntents = cmsGetSupportedIntents +cmsGetTagCount = cmsGetTagCount +cmsGetTagSignature = cmsGetTagSignature +cmsGetTransformContextID = cmsGetTransformContextID +_cmsICCcolorSpace = _cmsICCcolorSpace +_cmsIOPrintf = _cmsIOPrintf +cmsIsCLUT = cmsIsCLUT +cmsIsIntentSupported = cmsIsIntentSupported +cmsIsMatrixShaper = cmsIsMatrixShaper +cmsIsTag = cmsIsTag +cmsIsToneCurveDescending = cmsIsToneCurveDescending +cmsIsToneCurveLinear = cmsIsToneCurveLinear +cmsIsToneCurveMonotonic = cmsIsToneCurveMonotonic +cmsIsToneCurveMultisegment = cmsIsToneCurveMultisegment +cmsGetToneCurveParametricType = cmsGetToneCurveParametricType +cmsIT8Alloc = cmsIT8Alloc +cmsIT8DefineDblFormat = cmsIT8DefineDblFormat +cmsIT8EnumDataFormat = cmsIT8EnumDataFormat +cmsIT8EnumProperties = cmsIT8EnumProperties +cmsIT8EnumPropertyMulti = cmsIT8EnumPropertyMulti +cmsIT8Free = cmsIT8Free +cmsIT8GetData = cmsIT8GetData +cmsIT8GetDataDbl = cmsIT8GetDataDbl +cmsIT8FindDataFormat = cmsIT8FindDataFormat +cmsIT8GetDataRowCol = cmsIT8GetDataRowCol +cmsIT8GetDataRowColDbl = cmsIT8GetDataRowColDbl +cmsIT8GetPatchName = cmsIT8GetPatchName +cmsIT8GetPatchByName = cmsIT8GetPatchByName +cmsIT8GetProperty = cmsIT8GetProperty +cmsIT8GetPropertyDbl = cmsIT8GetPropertyDbl +cmsIT8GetPropertyMulti = cmsIT8GetPropertyMulti +cmsIT8GetSheetType = cmsIT8GetSheetType +cmsIT8LoadFromFile = cmsIT8LoadFromFile +cmsIT8LoadFromMem = cmsIT8LoadFromMem +cmsIT8SaveToFile = cmsIT8SaveToFile +cmsIT8SaveToMem = cmsIT8SaveToMem +cmsIT8SetComment = cmsIT8SetComment +cmsIT8SetData = cmsIT8SetData +cmsIT8SetDataDbl = cmsIT8SetDataDbl +cmsIT8SetDataFormat = cmsIT8SetDataFormat +cmsIT8SetDataRowCol = cmsIT8SetDataRowCol +cmsIT8SetDataRowColDbl = cmsIT8SetDataRowColDbl +cmsIT8SetPropertyDbl = cmsIT8SetPropertyDbl +cmsIT8SetPropertyHex = cmsIT8SetPropertyHex +cmsIT8SetPropertyStr = cmsIT8SetPropertyStr +cmsIT8SetPropertyMulti = cmsIT8SetPropertyMulti +cmsIT8SetPropertyUncooked = cmsIT8SetPropertyUncooked +cmsIT8SetSheetType = cmsIT8SetSheetType +cmsIT8SetTable = cmsIT8SetTable +cmsIT8SetTableByLabel = cmsIT8SetTableByLabel +cmsIT8SetIndexColumn = cmsIT8SetIndexColumn +cmsIT8TableCount = cmsIT8TableCount +cmsJoinToneCurve = cmsJoinToneCurve +cmsLab2LCh = cmsLab2LCh +cmsLab2XYZ = cmsLab2XYZ +cmsLabEncoded2Float = cmsLabEncoded2Float +cmsLabEncoded2FloatV2 = cmsLabEncoded2FloatV2 +cmsLCh2Lab = cmsLCh2Lab +_cmsLCMScolorSpace = _cmsLCMScolorSpace +cmsLinkTag = cmsLinkTag +cmsTagLinkedTo = cmsTagLinkedTo +cmsPipelineAlloc = cmsPipelineAlloc +cmsPipelineCat = cmsPipelineCat +cmsPipelineCheckAndRetreiveStages = cmsPipelineCheckAndRetreiveStages +cmsPipelineDup = cmsPipelineDup +cmsPipelineStageCount = cmsPipelineStageCount +cmsPipelineEval16 = cmsPipelineEval16 +cmsPipelineEvalFloat = cmsPipelineEvalFloat +cmsPipelineEvalReverseFloat = cmsPipelineEvalReverseFloat +cmsPipelineFree = cmsPipelineFree +cmsPipelineGetPtrToFirstStage = cmsPipelineGetPtrToFirstStage +cmsPipelineGetPtrToLastStage = cmsPipelineGetPtrToLastStage +cmsPipelineInputChannels = cmsPipelineInputChannels +cmsPipelineInsertStage = cmsPipelineInsertStage +cmsPipelineOutputChannels = cmsPipelineOutputChannels +cmsPipelineSetSaveAs8bitsFlag = cmsPipelineSetSaveAs8bitsFlag +_cmsPipelineSetOptimizationParameters = _cmsPipelineSetOptimizationParameters +cmsPipelineUnlinkStage = cmsPipelineUnlinkStage +_cmsMalloc = _cmsMalloc +_cmsMallocZero = _cmsMallocZero +_cmsMAT3eval = _cmsMAT3eval +_cmsMAT3identity = _cmsMAT3identity +_cmsMAT3inverse = _cmsMAT3inverse +_cmsMAT3isIdentity = _cmsMAT3isIdentity +_cmsMAT3per = _cmsMAT3per +_cmsMAT3solve = _cmsMAT3solve +cmsMD5computeID = cmsMD5computeID +cmsMLUalloc = cmsMLUalloc +cmsMLUdup = cmsMLUdup +cmsMLUfree = cmsMLUfree +cmsMLUgetASCII = cmsMLUgetASCII +cmsMLUgetTranslation = cmsMLUgetTranslation +cmsMLUgetWide = cmsMLUgetWide +cmsMLUsetASCII = cmsMLUsetASCII +cmsMLUsetWide = cmsMLUsetWide +cmsStageAllocCLut16bit = cmsStageAllocCLut16bit +cmsStageAllocCLut16bitGranular = cmsStageAllocCLut16bitGranular +cmsStageAllocCLutFloat = cmsStageAllocCLutFloat +cmsStageAllocCLutFloatGranular = cmsStageAllocCLutFloatGranular +cmsStageAllocToneCurves = cmsStageAllocToneCurves +cmsStageAllocIdentity = cmsStageAllocIdentity +cmsStageAllocMatrix = cmsStageAllocMatrix +_cmsStageAllocPlaceholder = _cmsStageAllocPlaceholder +cmsStageDup = cmsStageDup +cmsStageFree = cmsStageFree +cmsStageNext = cmsStageNext +cmsStageInputChannels = cmsStageInputChannels +cmsStageOutputChannels = cmsStageOutputChannels +cmsStageSampleCLut16bit = cmsStageSampleCLut16bit +cmsStageSampleCLutFloat = cmsStageSampleCLutFloat +cmsStageType = cmsStageType +cmsStageData = cmsStageData +cmsNamedColorCount = cmsNamedColorCount +cmsNamedColorIndex = cmsNamedColorIndex +cmsNamedColorInfo = cmsNamedColorInfo +cmsOpenIOhandlerFromFile = cmsOpenIOhandlerFromFile +cmsOpenIOhandlerFromMem = cmsOpenIOhandlerFromMem +cmsOpenIOhandlerFromNULL = cmsOpenIOhandlerFromNULL +cmsOpenIOhandlerFromStream = cmsOpenIOhandlerFromStream +cmsOpenProfileFromFile = cmsOpenProfileFromFile +cmsOpenProfileFromFileTHR = cmsOpenProfileFromFileTHR +cmsOpenProfileFromIOhandlerTHR = cmsOpenProfileFromIOhandlerTHR +cmsOpenProfileFromMem = cmsOpenProfileFromMem +cmsOpenProfileFromMemTHR = cmsOpenProfileFromMemTHR +cmsOpenProfileFromStream = cmsOpenProfileFromStream +cmsOpenProfileFromStreamTHR = cmsOpenProfileFromStreamTHR +cmsPlugin = cmsPlugin +_cmsRead15Fixed16Number = _cmsRead15Fixed16Number +_cmsReadAlignment = _cmsReadAlignment +_cmsReadFloat32Number = _cmsReadFloat32Number +cmsReadRawTag = cmsReadRawTag +cmsReadTag = cmsReadTag +_cmsReadTypeBase = _cmsReadTypeBase +_cmsReadUInt16Array = _cmsReadUInt16Array +_cmsReadUInt16Number = _cmsReadUInt16Number +_cmsReadUInt32Number = _cmsReadUInt32Number +_cmsReadUInt64Number = _cmsReadUInt64Number +_cmsReadUInt8Number = _cmsReadUInt8Number +_cmsReadXYZNumber = _cmsReadXYZNumber +_cmsRealloc = _cmsRealloc +cmsReverseToneCurve = cmsReverseToneCurve +cmsReverseToneCurveEx = cmsReverseToneCurveEx +cmsSaveProfileToFile = cmsSaveProfileToFile +cmsSaveProfileToIOhandler = cmsSaveProfileToIOhandler +cmsSaveProfileToMem = cmsSaveProfileToMem +cmsSaveProfileToStream = cmsSaveProfileToStream +cmsSetAdaptationState = cmsSetAdaptationState +cmsSetAlarmCodes = cmsSetAlarmCodes +cmsSetColorSpace = cmsSetColorSpace +cmsSetDeviceClass = cmsSetDeviceClass +cmsSetEncodedICCversion = cmsSetEncodedICCversion +cmsSetHeaderAttributes = cmsSetHeaderAttributes +cmsSetHeaderFlags = cmsSetHeaderFlags +cmsSetHeaderManufacturer = cmsSetHeaderManufacturer +cmsSetHeaderModel = cmsSetHeaderModel +cmsSetHeaderProfileID = cmsSetHeaderProfileID +cmsSetHeaderRenderingIntent = cmsSetHeaderRenderingIntent +cmsSetLogErrorHandler = cmsSetLogErrorHandler +cmsSetPCS = cmsSetPCS +cmsSetProfileVersion = cmsSetProfileVersion +cmsSignalError = cmsSignalError +cmsSmoothToneCurve = cmsSmoothToneCurve +cmsstrcasecmp = cmsstrcasecmp +cmsTempFromWhitePoint = cmsTempFromWhitePoint +cmsTransform2DeviceLink = cmsTransform2DeviceLink +cmsUnregisterPlugins = cmsUnregisterPlugins +_cmsVEC3cross = _cmsVEC3cross +_cmsVEC3distance = _cmsVEC3distance +_cmsVEC3dot = _cmsVEC3dot +_cmsVEC3init = _cmsVEC3init +_cmsVEC3length = _cmsVEC3length +_cmsVEC3minus = _cmsVEC3minus +cmsWhitePointFromTemp = cmsWhitePointFromTemp +_cmsWrite15Fixed16Number = _cmsWrite15Fixed16Number +_cmsWriteAlignment = _cmsWriteAlignment +_cmsWriteFloat32Number = _cmsWriteFloat32Number +cmsWriteRawTag = cmsWriteRawTag +cmsWriteTag = cmsWriteTag +_cmsWriteTypeBase = _cmsWriteTypeBase +_cmsWriteUInt16Array = _cmsWriteUInt16Array +_cmsWriteUInt16Number = _cmsWriteUInt16Number +_cmsWriteUInt32Number = _cmsWriteUInt32Number +_cmsWriteUInt64Number = _cmsWriteUInt64Number +_cmsWriteUInt8Number = _cmsWriteUInt8Number +_cmsWriteXYZNumber = _cmsWriteXYZNumber +cmsxyY2XYZ = cmsxyY2XYZ +cmsXYZ2Lab = cmsXYZ2Lab +cmsXYZ2xyY = cmsXYZ2xyY +cmsXYZEncoded2Float = cmsXYZEncoded2Float +cmsSliceSpace16 = cmsSliceSpace16 +cmsSliceSpaceFloat = cmsSliceSpaceFloat +cmsChangeBuffersFormat = cmsChangeBuffersFormat +cmsDictAlloc = cmsDictAlloc +cmsDictFree = cmsDictFree +cmsDictDup = cmsDictDup +cmsDictAddEntry = cmsDictAddEntry +cmsDictGetEntryList = cmsDictGetEntryList +cmsDictNextEntry = cmsDictNextEntry +_cmsGetTransformUserData = _cmsGetTransformUserData +_cmsSetTransformUserData = _cmsSetTransformUserData +_cmsGetTransformFormatters16 = _cmsGetTransformFormatters16 +_cmsGetTransformFormattersFloat = _cmsGetTransformFormattersFloat +cmsGetHeaderCreator = cmsGetHeaderCreator +cmsPluginTHR = cmsPluginTHR +cmsGetPipelineContextID = cmsGetPipelineContextID +cmsGetTransformInputFormat = cmsGetTransformInputFormat +cmsGetTransformOutputFormat = cmsGetTransformOutputFormat +cmsCreateContext = cmsCreateContext +cmsDupContext = cmsDupContext +cmsDeleteContext = cmsDeleteContext +cmsGetContextUserData = cmsGetContextUserData +cmsUnregisterPluginsTHR = cmsUnregisterPluginsTHR +cmsSetAlarmCodesTHR = cmsSetAlarmCodesTHR +cmsGetAlarmCodesTHR = cmsGetAlarmCodesTHR +cmsSetAdaptationStateTHR = cmsSetAdaptationStateTHR +cmsSetLogErrorHandlerTHR = cmsSetLogErrorHandlerTHR +cmsGetSupportedIntentsTHR = cmsGetSupportedIntentsTHR +cmsMLUtranslationsCount = cmsMLUtranslationsCount +cmsMLUtranslationsCodes = cmsMLUtranslationsCodes +_cmsCreateMutex = _cmsCreateMutex +_cmsDestroyMutex = _cmsDestroyMutex +_cmsLockMutex = _cmsLockMutex +_cmsUnlockMutex = _cmsUnlockMutex +cmsGetProfileIOhandler = cmsGetProfileIOhandler +cmsGetEncodedCMMversion = cmsGetEncodedCMMversion Index: sdk/lib/3rdparty/lcms2/lcms2_internal.h =================================================================== --- sdk/lib/3rdparty/lcms2/lcms2_internal.h (nonexistent) +++ sdk/lib/3rdparty/lcms2/lcms2_internal.h (working copy) @@ -0,0 +1,1057 @@ + +// +// Little Color Management System +// Copyright (c) 1998-2016 Marti Maria Saguer +// +// Permission is hereby granted, free of charge, to any person obtaining +// a copy of this software and associated documentation files (the "Software"), +// to deal in the Software without restriction, including without limitation +// the rights to use, copy, modify, merge, publish, distribute, sublicense, +// and/or sell copies of the Software, and to permit persons to whom the Software +// is furnished to do so, subject to the following conditions: +// +// The above copyright notice and this permission notice shall be included in +// all copies or substantial portions of the Software. +// +// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, +// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO +// THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND +// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE +// LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION +// OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION +// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. +// +//--------------------------------------------------------------------------------- +// + +#ifndef _lcms_internal_H + +// Include plug-in foundation +#ifndef _lcms_plugin_H +# include "lcms2_plugin.h" +#endif + +// ctype is part of C99 as per 7.1.2 +#include + +// assert macro is part of C99 as per 7.2 +#include + +// Some needed constants +#ifndef M_PI +# define M_PI 3.14159265358979323846 +#endif + +#ifndef M_LOG10E +# define M_LOG10E 0.434294481903251827651 +#endif + +// BorlandC 5.5, VC2003 are broken on that +#if defined(__BORLANDC__) || (_MSC_VER < 1400) // 1400 == VC++ 8.0 +#define sinf(x) (float)sin((float)x) +#define sqrtf(x) (float)sqrt((float)x) +#endif + + +// Alignment of ICC file format uses 4 bytes (cmsUInt32Number) +#define _cmsALIGNLONG(x) (((x)+(sizeof(cmsUInt32Number)-1)) & ~(sizeof(cmsUInt32Number)-1)) + +// Alignment to memory pointer + +// (Ultra)SPARC with gcc requires ptr alignment of 8 bytes +// even though sizeof(void *) is only four: for greatest flexibility +// allow the build to specify ptr alignment. +#ifndef CMS_PTR_ALIGNMENT +# define CMS_PTR_ALIGNMENT sizeof(void *) +#endif + +#define _cmsALIGNMEM(x) (((x)+(CMS_PTR_ALIGNMENT - 1)) & ~(CMS_PTR_ALIGNMENT - 1)) + +// Maximum encodeable values in floating point +#define MAX_ENCODEABLE_XYZ (1.0 + 32767.0/32768.0) +#define MIN_ENCODEABLE_ab2 (-128.0) +#define MAX_ENCODEABLE_ab2 ((65535.0/256.0) - 128.0) +#define MIN_ENCODEABLE_ab4 (-128.0) +#define MAX_ENCODEABLE_ab4 (127.0) + +// Maximum of channels for internal pipeline evaluation +#define MAX_STAGE_CHANNELS 128 + +// Unused parameter warning supression +#define cmsUNUSED_PARAMETER(x) ((void)x) + +// The specification for "inline" is section 6.7.4 of the C99 standard (ISO/IEC 9899:1999). +// unfortunately VisualC++ does not conform that +#if defined(_MSC_VER) || defined(__BORLANDC__) +# define cmsINLINE __inline +#else +# define cmsINLINE static inline +#endif + +// Other replacement functions +#ifdef _MSC_VER +# ifndef snprintf +# define snprintf _snprintf +# endif +# ifndef vsnprintf +# define vsnprintf _vsnprintf +# endif +#endif + + +// A fast way to convert from/to 16 <-> 8 bits +#define FROM_8_TO_16(rgb) (cmsUInt16Number) ((((cmsUInt16Number) (rgb)) << 8)|(rgb)) +#define FROM_16_TO_8(rgb) (cmsUInt8Number) ((((cmsUInt32Number)(rgb) * 65281U + 8388608U) >> 24) & 0xFFU) + +// Code analysis is broken on asserts +#ifdef _MSC_VER +# if (_MSC_VER >= 1500) +# define _cmsAssert(a) { assert((a)); __analysis_assume((a)); } +# else +# define _cmsAssert(a) assert((a)) +# endif +#else +# define _cmsAssert(a) assert((a)) +#endif + +//--------------------------------------------------------------------------------- + +// Determinant lower than that are assumed zero (used on matrix invert) +#define MATRIX_DET_TOLERANCE 0.0001 + +//--------------------------------------------------------------------------------- + +// Fixed point +#define FIXED_TO_INT(x) ((x)>>16) +#define FIXED_REST_TO_INT(x) ((x)&0xFFFFU) +#define ROUND_FIXED_TO_INT(x) (((x)+0x8000)>>16) + +cmsINLINE cmsS15Fixed16Number _cmsToFixedDomain(int a) { return a + ((a + 0x7fff) / 0xffff); } +cmsINLINE int _cmsFromFixedDomain(cmsS15Fixed16Number a) { return a - ((a + 0x7fff) >> 16); } + +// ----------------------------------------------------------------------------------------------------------- + +// Fast floor conversion logic. Thanks to Sree Kotay and Stuart Nixon +// note than this only works in the range ..-32767...+32767 because +// mantissa is interpreted as 15.16 fixed point. +// The union is to avoid pointer aliasing overoptimization. +cmsINLINE int _cmsQuickFloor(cmsFloat64Number val) +{ +#ifdef CMS_DONT_USE_FAST_FLOOR + return (int) floor(val); +#else + const cmsFloat64Number _lcms_double2fixmagic = 68719476736.0 * 1.5; // 2^36 * 1.5, (52-16=36) uses limited precision to floor + union { + cmsFloat64Number val; + int halves[2]; + } temp; + + temp.val = val + _lcms_double2fixmagic; + +#ifdef CMS_USE_BIG_ENDIAN + return temp.halves[1] >> 16; +#else + return temp.halves[0] >> 16; +#endif +#endif +} + +// Fast floor restricted to 0..65535.0 +cmsINLINE cmsUInt16Number _cmsQuickFloorWord(cmsFloat64Number d) +{ + return (cmsUInt16Number) _cmsQuickFloor(d - 32767.0) + 32767U; +} + +// Floor to word, taking care of saturation +cmsINLINE cmsUInt16Number _cmsQuickSaturateWord(cmsFloat64Number d) +{ + d += 0.5; + if (d <= 0) return 0; + if (d >= 65535.0) return 0xffff; + + return _cmsQuickFloorWord(d); +} + + +// Pthread support -------------------------------------------------------------------- +#ifndef CMS_NO_PTHREADS + +// This is the threading support. Unfortunately, it has to be platform-dependent because +// windows does not support pthreads. + +#ifdef CMS_IS_WINDOWS_ + +#define WIN32_LEAN_AND_MEAN 1 +#include + + +// From: http://locklessinc.com/articles/pthreads_on_windows/ +// The pthreads API has an initialization macro that has no correspondence to anything in +// the windows API. By investigating the internal definition of the critical section type, +// one may work out how to initialize one without calling InitializeCriticalSection(). +// The trick here is that InitializeCriticalSection() is not allowed to fail. It tries +// to allocate a critical section debug object, but if no memory is available, it sets +// the pointer to a specific value. (One would expect that value to be NULL, but it is +// actually (void *)-1 for some reason.) Thus we can use this special value for that +// pointer, and the critical section code will work. + +// The other important part of the critical section type to initialize is the number +// of waiters. This controls whether or not the mutex is locked. Fortunately, this +// part of the critical section is unlikely to change. Apparently, many programs +// already test critical sections to see if they are locked using this value, so +// Microsoft felt that it was necessary to keep it set at -1 for an unlocked critical +// section, even when they changed the underlying algorithm to be more scalable. +// The final parts of the critical section object are unimportant, and can be set +// to zero for their defaults. This yields to an initialization macro: + +typedef CRITICAL_SECTION _cmsMutex; + +#define CMS_MUTEX_INITIALIZER {(PRTL_CRITICAL_SECTION_DEBUG) -1,-1,0,0,0,0} + +#ifdef _MSC_VER +# if (_MSC_VER >= 1800) +# pragma warning(disable : 26135) +# endif +#endif + +cmsINLINE int _cmsLockPrimitive(_cmsMutex *m) +{ + EnterCriticalSection(m); + return 0; +} + +cmsINLINE int _cmsUnlockPrimitive(_cmsMutex *m) +{ + LeaveCriticalSection(m); + return 0; +} + +cmsINLINE int _cmsInitMutexPrimitive(_cmsMutex *m) +{ + InitializeCriticalSection(m); + return 0; +} + +cmsINLINE int _cmsDestroyMutexPrimitive(_cmsMutex *m) +{ + DeleteCriticalSection(m); + return 0; +} + +cmsINLINE int _cmsEnterCriticalSectionPrimitive(_cmsMutex *m) +{ + EnterCriticalSection(m); + return 0; +} + +cmsINLINE int _cmsLeaveCriticalSectionPrimitive(_cmsMutex *m) +{ + LeaveCriticalSection(m); + return 0; +} + +#else + +// Rest of the wide world +#include + +#define CMS_MUTEX_INITIALIZER PTHREAD_MUTEX_INITIALIZER +typedef pthread_mutex_t _cmsMutex; + + +cmsINLINE int _cmsLockPrimitive(_cmsMutex *m) +{ + return pthread_mutex_lock(m); +} + +cmsINLINE int _cmsUnlockPrimitive(_cmsMutex *m) +{ + return pthread_mutex_unlock(m); +} + +cmsINLINE int _cmsInitMutexPrimitive(_cmsMutex *m) +{ + return pthread_mutex_init(m, NULL); +} + +cmsINLINE int _cmsDestroyMutexPrimitive(_cmsMutex *m) +{ + return pthread_mutex_destroy(m); +} + +cmsINLINE int _cmsEnterCriticalSectionPrimitive(_cmsMutex *m) +{ + return pthread_mutex_lock(m); +} + +cmsINLINE int _cmsLeaveCriticalSectionPrimitive(_cmsMutex *m) +{ + return pthread_mutex_unlock(m); +} + +#endif +#else + +#define CMS_MUTEX_INITIALIZER 0 +typedef int _cmsMutex; + + +cmsINLINE int _cmsLockPrimitive(_cmsMutex *m) +{ + cmsUNUSED_PARAMETER(m); + return 0; +} + +cmsINLINE int _cmsUnlockPrimitive(_cmsMutex *m) +{ + cmsUNUSED_PARAMETER(m); + return 0; +} + +cmsINLINE int _cmsInitMutexPrimitive(_cmsMutex *m) +{ + cmsUNUSED_PARAMETER(m); + return 0; +} + +cmsINLINE int _cmsDestroyMutexPrimitive(_cmsMutex *m) +{ + cmsUNUSED_PARAMETER(m); + return 0; +} + +cmsINLINE int _cmsEnterCriticalSectionPrimitive(_cmsMutex *m) +{ + cmsUNUSED_PARAMETER(m); + return 0; +} + +cmsINLINE int _cmsLeaveCriticalSectionPrimitive(_cmsMutex *m) +{ + cmsUNUSED_PARAMETER(m); + return 0; +} +#endif + +// Plug-In registration --------------------------------------------------------------- + +// Specialized function for plug-in memory management. No pairing free() since whole pool is freed at once. +void* _cmsPluginMalloc(cmsContext ContextID, cmsUInt32Number size); + +// Memory management +cmsBool _cmsRegisterMemHandlerPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Interpolation +cmsBool _cmsRegisterInterpPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Parametric curves +cmsBool _cmsRegisterParametricCurvesPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Formatters management +cmsBool _cmsRegisterFormattersPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Tag type management +cmsBool _cmsRegisterTagTypePlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Tag management +cmsBool _cmsRegisterTagPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Intent management +cmsBool _cmsRegisterRenderingIntentPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Multi Process elements +cmsBool _cmsRegisterMultiProcessElementPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Optimization +cmsBool _cmsRegisterOptimizationPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Transform +cmsBool _cmsRegisterTransformPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// Mutex +cmsBool _cmsRegisterMutexPlugin(cmsContext ContextID, cmsPluginBase* Plugin); + +// --------------------------------------------------------------------------------------------------------- + +// Suballocators. +typedef struct _cmsSubAllocator_chunk_st { + + cmsUInt8Number* Block; + cmsUInt32Number BlockSize; + cmsUInt32Number Used; + + struct _cmsSubAllocator_chunk_st* next; + +} _cmsSubAllocator_chunk; + + +typedef struct { + + cmsContext ContextID; + _cmsSubAllocator_chunk* h; + +} _cmsSubAllocator; + + +_cmsSubAllocator* _cmsCreateSubAlloc(cmsContext ContextID, cmsUInt32Number Initial); +void _cmsSubAllocDestroy(_cmsSubAllocator* s); +void* _cmsSubAlloc(_cmsSubAllocator* s, cmsUInt32Number size); +void* _cmsSubAllocDup(_cmsSubAllocator* s, const void *ptr, cmsUInt32Number size); + +// ---------------------------------------------------------------------------------- + +// The context clients. +typedef enum { + + UserPtr, // User-defined pointer + Logger, + AlarmCodesContext, + AdaptationStateContext, + MemPlugin, + InterpPlugin, + CurvesPlugin, + FormattersPlugin, + TagTypePlugin, + TagPlugin, + IntentPlugin, + MPEPlugin, + OptimizationPlugin, + TransformPlugin, + MutexPlugin, + + // Last in list + MemoryClientMax + +} _cmsMemoryClient; + + +// Container for memory management plug-in. +typedef struct { + + _cmsMallocFnPtrType MallocPtr; + _cmsMalloZerocFnPtrType MallocZeroPtr; + _cmsFreeFnPtrType FreePtr; + _cmsReallocFnPtrType ReallocPtr; + _cmsCallocFnPtrType CallocPtr; + _cmsDupFnPtrType DupPtr; + +} _cmsMemPluginChunkType; + +// Copy memory management function pointers from plug-in to chunk, taking care of missing routines +void _cmsInstallAllocFunctions(cmsPluginMemHandler* Plugin, _cmsMemPluginChunkType* ptr); + +// Internal structure for context +struct _cmsContext_struct { + + struct _cmsContext_struct* Next; // Points to next context in the new style + _cmsSubAllocator* MemPool; // The memory pool that stores context data + + void* chunks[MemoryClientMax]; // array of pointers to client chunks. Memory itself is hold in the suballocator. + // If NULL, then it reverts to global Context0 + + _cmsMemPluginChunkType DefaultMemoryManager; // The allocators used for creating the context itself. Cannot be overriden +}; + +// Returns a pointer to a valid context structure, including the global one if id is zero. +// Verifies the magic number. +struct _cmsContext_struct* _cmsGetContext(cmsContext ContextID); + +// Returns the block assigned to the specific zone. +void* _cmsContextGetClientChunk(cmsContext id, _cmsMemoryClient mc); + + +// Chunks of context memory by plug-in client ------------------------------------------------------- + +// Those structures encapsulates all variables needed by the several context clients (mostly plug-ins) + +// Container for error logger -- not a plug-in +typedef struct { + + cmsLogErrorHandlerFunction LogErrorHandler; // Set to NULL for Context0 fallback + +} _cmsLogErrorChunkType; + +// The global Context0 storage for error logger +extern _cmsLogErrorChunkType _cmsLogErrorChunk; + +// Allocate and init error logger container. +void _cmsAllocLogErrorChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for alarm codes -- not a plug-in +typedef struct { + + cmsUInt16Number AlarmCodes[cmsMAXCHANNELS]; + +} _cmsAlarmCodesChunkType; + +// The global Context0 storage for alarm codes +extern _cmsAlarmCodesChunkType _cmsAlarmCodesChunk; + +// Allocate and init alarm codes container. +void _cmsAllocAlarmCodesChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for adaptation state -- not a plug-in +typedef struct { + + cmsFloat64Number AdaptationState; + +} _cmsAdaptationStateChunkType; + +// The global Context0 storage for adaptation state +extern _cmsAdaptationStateChunkType _cmsAdaptationStateChunk; + +// Allocate and init adaptation state container. +void _cmsAllocAdaptationStateChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + + +// The global Context0 storage for memory management +extern _cmsMemPluginChunkType _cmsMemPluginChunk; + +// Allocate and init memory management container. +void _cmsAllocMemPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for interpolation plug-in +typedef struct { + + cmsInterpFnFactory Interpolators; + +} _cmsInterpPluginChunkType; + +// The global Context0 storage for interpolation plug-in +extern _cmsInterpPluginChunkType _cmsInterpPluginChunk; + +// Allocate and init interpolation container. +void _cmsAllocInterpPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for parametric curves plug-in +typedef struct { + + struct _cmsParametricCurvesCollection_st* ParametricCurves; + +} _cmsCurvesPluginChunkType; + +// The global Context0 storage for tone curves plug-in +extern _cmsCurvesPluginChunkType _cmsCurvesPluginChunk; + +// Allocate and init parametric curves container. +void _cmsAllocCurvesPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for formatters plug-in +typedef struct { + + struct _cms_formatters_factory_list* FactoryList; + +} _cmsFormattersPluginChunkType; + +// The global Context0 storage for formatters plug-in +extern _cmsFormattersPluginChunkType _cmsFormattersPluginChunk; + +// Allocate and init formatters container. +void _cmsAllocFormattersPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// This chunk type is shared by TagType plug-in and MPE Plug-in +typedef struct { + + struct _cmsTagTypeLinkedList_st* TagTypes; + +} _cmsTagTypePluginChunkType; + + +// The global Context0 storage for tag types plug-in +extern _cmsTagTypePluginChunkType _cmsTagTypePluginChunk; + + +// The global Context0 storage for mult process elements plug-in +extern _cmsTagTypePluginChunkType _cmsMPETypePluginChunk; + +// Allocate and init Tag types container. +void _cmsAllocTagTypePluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); +// Allocate and init MPE container. +void _cmsAllocMPETypePluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); +// Container for tag plug-in +typedef struct { + + struct _cmsTagLinkedList_st* Tag; + +} _cmsTagPluginChunkType; + + +// The global Context0 storage for tag plug-in +extern _cmsTagPluginChunkType _cmsTagPluginChunk; + +// Allocate and init Tag container. +void _cmsAllocTagPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for intents plug-in +typedef struct { + + struct _cms_intents_list* Intents; + +} _cmsIntentsPluginChunkType; + + +// The global Context0 storage for intents plug-in +extern _cmsIntentsPluginChunkType _cmsIntentsPluginChunk; + +// Allocate and init intents container. +void _cmsAllocIntentsPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for optimization plug-in +typedef struct { + + struct _cmsOptimizationCollection_st* OptimizationCollection; + +} _cmsOptimizationPluginChunkType; + + +// The global Context0 storage for optimizers plug-in +extern _cmsOptimizationPluginChunkType _cmsOptimizationPluginChunk; + +// Allocate and init optimizers container. +void _cmsAllocOptimizationPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for transform plug-in +typedef struct { + + struct _cmsTransformCollection_st* TransformCollection; + +} _cmsTransformPluginChunkType; + +// The global Context0 storage for full-transform replacement plug-in +extern _cmsTransformPluginChunkType _cmsTransformPluginChunk; + +// Allocate and init transform container. +void _cmsAllocTransformPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// Container for mutex plug-in +typedef struct { + + _cmsCreateMutexFnPtrType CreateMutexPtr; + _cmsDestroyMutexFnPtrType DestroyMutexPtr; + _cmsLockMutexFnPtrType LockMutexPtr; + _cmsUnlockMutexFnPtrType UnlockMutexPtr; + +} _cmsMutexPluginChunkType; + +// The global Context0 storage for mutex plug-in +extern _cmsMutexPluginChunkType _cmsMutexPluginChunk; + +// Allocate and init mutex container. +void _cmsAllocMutexPluginChunk(struct _cmsContext_struct* ctx, + const struct _cmsContext_struct* src); + +// ---------------------------------------------------------------------------------- +// MLU internal representation +typedef struct { + + cmsUInt16Number Language; + cmsUInt16Number Country; + + cmsUInt32Number StrW; // Offset to current unicode string + cmsUInt32Number Len; // Length in bytes + +} _cmsMLUentry; + +struct _cms_MLU_struct { + + cmsContext ContextID; + + // The directory + cmsUInt32Number AllocatedEntries; + cmsUInt32Number UsedEntries; + _cmsMLUentry* Entries; // Array of pointers to strings allocated in MemPool + + // The Pool + cmsUInt32Number PoolSize; // The maximum allocated size + cmsUInt32Number PoolUsed; // The used size + void* MemPool; // Pointer to begin of memory pool +}; + +// Named color list internal representation +typedef struct { + + char Name[cmsMAX_PATH]; + cmsUInt16Number PCS[3]; + cmsUInt16Number DeviceColorant[cmsMAXCHANNELS]; + +} _cmsNAMEDCOLOR; + +struct _cms_NAMEDCOLORLIST_struct { + + cmsUInt32Number nColors; + cmsUInt32Number Allocated; + cmsUInt32Number ColorantCount; + + char Prefix[33]; // Prefix and suffix are defined to be 32 characters at most + char Suffix[33]; + + _cmsNAMEDCOLOR* List; + + cmsContext ContextID; +}; + + +// ---------------------------------------------------------------------------------- + +// This is the internal struct holding profile details. + +// Maximum supported tags in a profile +#define MAX_TABLE_TAG 100 + +typedef struct _cms_iccprofile_struct { + + // I/O handler + cmsIOHANDLER* IOhandler; + + // The thread ID + cmsContext ContextID; + + // Creation time + struct tm Created; + + // Only most important items found in ICC profiles + cmsUInt32Number Version; + cmsProfileClassSignature DeviceClass; + cmsColorSpaceSignature ColorSpace; + cmsColorSpaceSignature PCS; + cmsUInt32Number RenderingIntent; + + cmsUInt32Number flags; + cmsUInt32Number manufacturer, model; + cmsUInt64Number attributes; + cmsUInt32Number creator; + + cmsProfileID ProfileID; + + // Dictionary + cmsUInt32Number TagCount; + cmsTagSignature TagNames[MAX_TABLE_TAG]; + cmsTagSignature TagLinked[MAX_TABLE_TAG]; // The tag to which is linked (0=none) + cmsUInt32Number TagSizes[MAX_TABLE_TAG]; // Size on disk + cmsUInt32Number TagOffsets[MAX_TABLE_TAG]; + cmsBool TagSaveAsRaw[MAX_TABLE_TAG]; // True to write uncooked + void * TagPtrs[MAX_TABLE_TAG]; + cmsTagTypeHandler* TagTypeHandlers[MAX_TABLE_TAG]; // Same structure may be serialized on different types + // depending on profile version, so we keep track of the + // type handler for each tag in the list. + // Special + cmsBool IsWrite; + + // Keep a mutex for cmsReadTag -- Note that this only works if the user includes a mutex plugin + void * UsrMutex; + +} _cmsICCPROFILE; + +// IO helpers for profiles +cmsBool _cmsReadHeader(_cmsICCPROFILE* Icc); +cmsBool _cmsWriteHeader(_cmsICCPROFILE* Icc, cmsUInt32Number UsedSpace); +int _cmsSearchTag(_cmsICCPROFILE* Icc, cmsTagSignature sig, cmsBool lFollowLinks); + +// Tag types +cmsTagTypeHandler* _cmsGetTagTypeHandler(cmsContext ContextID, cmsTagTypeSignature sig); +cmsTagTypeSignature _cmsGetTagTrueType(cmsHPROFILE hProfile, cmsTagSignature sig); +cmsTagDescriptor* _cmsGetTagDescriptor(cmsContext ContextID, cmsTagSignature sig); + +// Error logging --------------------------------------------------------------------------------------------------------- + +void _cmsTagSignature2String(char String[5], cmsTagSignature sig); + +// Interpolation --------------------------------------------------------------------------------------------------------- + +cmsInterpParams* _cmsComputeInterpParams(cmsContext ContextID, int nSamples, int InputChan, int OutputChan, const void* Table, cmsUInt32Number dwFlags); +cmsInterpParams* _cmsComputeInterpParamsEx(cmsContext ContextID, const cmsUInt32Number nSamples[], int InputChan, int OutputChan, const void* Table, cmsUInt32Number dwFlags); +void _cmsFreeInterpParams(cmsInterpParams* p); +cmsBool _cmsSetInterpolationRoutine(cmsContext ContextID, cmsInterpParams* p); + +// Curves ---------------------------------------------------------------------------------------------------------------- + +// This struct holds information about a segment, plus a pointer to the function that implements the evaluation. +// In the case of table-based, Eval pointer is set to NULL + +// The gamma function main structure +struct _cms_curve_struct { + + cmsInterpParams* InterpParams; // Private optimizations for interpolation + + cmsUInt32Number nSegments; // Number of segments in the curve. Zero for a 16-bit based tables + cmsCurveSegment* Segments; // The segments + cmsInterpParams** SegInterp; // Array of private optimizations for interpolation in table-based segments + + cmsParametricCurveEvaluator* Evals; // Evaluators (one per segment) + + // 16 bit Table-based representation follows + cmsUInt32Number nEntries; // Number of table elements + cmsUInt16Number* Table16; // The table itself. +}; + + +// Pipelines & Stages --------------------------------------------------------------------------------------------- + +// A single stage +struct _cmsStage_struct { + + cmsContext ContextID; + + cmsStageSignature Type; // Identifies the stage + cmsStageSignature Implements; // Identifies the *function* of the stage (for optimizations) + + cmsUInt32Number InputChannels; // Input channels -- for optimization purposes + cmsUInt32Number OutputChannels; // Output channels -- for optimization purposes + + _cmsStageEvalFn EvalPtr; // Points to fn that evaluates the stage (always in floating point) + _cmsStageDupElemFn DupElemPtr; // Points to a fn that duplicates the *data* of the stage + _cmsStageFreeElemFn FreePtr; // Points to a fn that sets the *data* of the stage free + + // A generic pointer to whatever memory needed by the stage + void* Data; + + // Maintains linked list (used internally) + struct _cmsStage_struct* Next; +}; + + +// Special Stages (cannot be saved) +cmsStage* _cmsStageAllocLab2XYZ(cmsContext ContextID); +cmsStage* _cmsStageAllocXYZ2Lab(cmsContext ContextID); +cmsStage* _cmsStageAllocLabPrelin(cmsContext ContextID); +cmsStage* _cmsStageAllocLabV2ToV4(cmsContext ContextID); +cmsStage* _cmsStageAllocLabV2ToV4curves(cmsContext ContextID); +cmsStage* _cmsStageAllocLabV4ToV2(cmsContext ContextID); +cmsStage* _cmsStageAllocNamedColor(cmsNAMEDCOLORLIST* NamedColorList, cmsBool UsePCS); +cmsStage* _cmsStageAllocIdentityCurves(cmsContext ContextID, int nChannels); +cmsStage* _cmsStageAllocIdentityCLut(cmsContext ContextID, int nChan); +cmsStage* _cmsStageNormalizeFromLabFloat(cmsContext ContextID); +cmsStage* _cmsStageNormalizeFromXyzFloat(cmsContext ContextID); +cmsStage* _cmsStageNormalizeToLabFloat(cmsContext ContextID); +cmsStage* _cmsStageNormalizeToXyzFloat(cmsContext ContextID); +cmsStage* _cmsStageClipNegatives(cmsContext ContextID, int nChannels); + + +// For curve set only +cmsToneCurve** _cmsStageGetPtrToCurveSet(const cmsStage* mpe); + + +// Pipeline Evaluator (in floating point) +typedef void (* _cmsPipelineEvalFloatFn)(const cmsFloat32Number In[], + cmsFloat32Number Out[], + const void* Data); + +struct _cmsPipeline_struct { + + cmsStage* Elements; // Points to elements chain + cmsUInt32Number InputChannels, OutputChannels; + + // Data & evaluators + void *Data; + + _cmsOPTeval16Fn Eval16Fn; + _cmsPipelineEvalFloatFn EvalFloatFn; + _cmsFreeUserDataFn FreeDataFn; + _cmsDupUserDataFn DupDataFn; + + cmsContext ContextID; // Environment + + cmsBool SaveAs8Bits; // Implementation-specific: save as 8 bits if possible +}; + +// LUT reading & creation ------------------------------------------------------------------------------------------- + +// Read tags using low-level function, provide necessary glue code to adapt versions, etc. All those return a brand new copy +// of the LUTS, since ownership of original is up to the profile. The user should free allocated resources. + +cmsPipeline* _cmsReadInputLUT(cmsHPROFILE hProfile, int Intent); +cmsPipeline* _cmsReadOutputLUT(cmsHPROFILE hProfile, int Intent); +cmsPipeline* _cmsReadDevicelinkLUT(cmsHPROFILE hProfile, int Intent); + +// Special values +cmsBool _cmsReadMediaWhitePoint(cmsCIEXYZ* Dest, cmsHPROFILE hProfile); +cmsBool _cmsReadCHAD(cmsMAT3* Dest, cmsHPROFILE hProfile); + +// Profile linker -------------------------------------------------------------------------------------------------- + +cmsPipeline* _cmsLinkProfiles(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number TheIntents[], + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + +// Sequence -------------------------------------------------------------------------------------------------------- + +cmsSEQ* _cmsReadProfileSequence(cmsHPROFILE hProfile); +cmsBool _cmsWriteProfileSequence(cmsHPROFILE hProfile, const cmsSEQ* seq); +cmsSEQ* _cmsCompileProfileSequence(cmsContext ContextID, cmsUInt32Number nProfiles, cmsHPROFILE hProfiles[]); + + +// LUT optimization ------------------------------------------------------------------------------------------------ + +cmsUInt16Number _cmsQuantizeVal(cmsFloat64Number i, int MaxSamples); +int _cmsReasonableGridpointsByColorspace(cmsColorSpaceSignature Colorspace, cmsUInt32Number dwFlags); + +cmsBool _cmsEndPointsBySpace(cmsColorSpaceSignature Space, + cmsUInt16Number **White, + cmsUInt16Number **Black, + cmsUInt32Number *nOutputs); + +cmsBool _cmsOptimizePipeline(cmsContext ContextID, + cmsPipeline** Lut, + int Intent, + cmsUInt32Number* InputFormat, + cmsUInt32Number* OutputFormat, + cmsUInt32Number* dwFlags ); + + +// Hi level LUT building ---------------------------------------------------------------------------------------------- + +cmsPipeline* _cmsCreateGamutCheckPipeline(cmsContext ContextID, + cmsHPROFILE hProfiles[], + cmsBool BPC[], + cmsUInt32Number Intents[], + cmsFloat64Number AdaptationStates[], + cmsUInt32Number nGamutPCSposition, + cmsHPROFILE hGamut); + + +// Formatters ------------------------------------------------------------------------------------------------------------ + +#define cmsFLAGS_CAN_CHANGE_FORMATTER 0x02000000 // Allow change buffer format + +cmsBool _cmsFormatterIsFloat(cmsUInt32Number Type); +cmsBool _cmsFormatterIs8bit(cmsUInt32Number Type); + +cmsFormatter _cmsGetFormatter(cmsContext ContextID, + cmsUInt32Number Type, // Specific type, i.e. TYPE_RGB_8 + cmsFormatterDirection Dir, + cmsUInt32Number dwFlags); + + +#ifndef CMS_NO_HALF_SUPPORT + +// Half float +cmsFloat32Number _cmsHalf2Float(cmsUInt16Number h); +cmsUInt16Number _cmsFloat2Half(cmsFloat32Number flt); + +#endif + +// Transform logic ------------------------------------------------------------------------------------------------------ + +struct _cmstransform_struct; + +typedef struct { + + // 1-pixel cache (16 bits only) + cmsUInt16Number CacheIn[cmsMAXCHANNELS]; + cmsUInt16Number CacheOut[cmsMAXCHANNELS]; + +} _cmsCACHE; + + + +// Transformation +typedef struct _cmstransform_struct { + + cmsUInt32Number InputFormat, OutputFormat; // Keep formats for further reference + + // Points to transform code + _cmsTransform2Fn xform; + + // Formatters, cannot be embedded into LUT because cache + cmsFormatter16 FromInput; + cmsFormatter16 ToOutput; + + cmsFormatterFloat FromInputFloat; + cmsFormatterFloat ToOutputFloat; + + // 1-pixel cache seed for zero as input (16 bits, read only) + _cmsCACHE Cache; + + // A Pipeline holding the full (optimized) transform + cmsPipeline* Lut; + + // A Pipeline holding the gamut check. It goes from the input space to bilevel + cmsPipeline* GamutCheck; + + // Colorant tables + cmsNAMEDCOLORLIST* InputColorant; // Input Colorant table + cmsNAMEDCOLORLIST* OutputColorant; // Colorant table (for n chans > CMYK) + + // Informational only + cmsColorSpaceSignature EntryColorSpace; + cmsColorSpaceSignature ExitColorSpace; + + // White points (informative only) + cmsCIEXYZ EntryWhitePoint; + cmsCIEXYZ ExitWhitePoint; + + // Profiles used to create the transform + cmsSEQ* Sequence; + + cmsUInt32Number dwOriginalFlags; + cmsFloat64Number AdaptationState; + + // The intent of this transform. That is usually the last intent in the profilechain, but may differ + cmsUInt32Number RenderingIntent; + + // An id that uniquely identifies the running context. May be null. + cmsContext ContextID; + + // A user-defined pointer that can be used to store data for transform plug-ins + void* UserData; + _cmsFreeUserDataFn FreeUserData; + + // A way to provide backwards compatibility with full xform plugins + _cmsTransformFn OldXform; + +} _cmsTRANSFORM; + +// Copies extra channels from input to output if the original flags in the transform structure +// instructs to do so. This function is called on all standard transform functions. +void _cmsHandleExtraChannels(_cmsTRANSFORM* p, const void* in, + void* out, + cmsUInt32Number PixelsPerLine, + cmsUInt32Number LineCount, + const cmsStride* Stride); + +// ----------------------------------------------------------------------------------------------------------------------- + +cmsHTRANSFORM _cmsChain2Lab(cmsContext ContextID, + cmsUInt32Number nProfiles, + cmsUInt32Number InputFormat, + cmsUInt32Number OutputFormat, + const cmsUInt32Number Intents[], + const cmsHPROFILE hProfiles[], + const cmsBool BPC[], + const cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + + +cmsToneCurve* _cmsBuildKToneCurve(cmsContext ContextID, + cmsUInt32Number nPoints, + cmsUInt32Number nProfiles, + const cmsUInt32Number Intents[], + const cmsHPROFILE hProfiles[], + const cmsBool BPC[], + const cmsFloat64Number AdaptationStates[], + cmsUInt32Number dwFlags); + +cmsBool _cmsAdaptationMatrix(cmsMAT3* r, const cmsMAT3* ConeMatrix, const cmsCIEXYZ* FromIll, const cmsCIEXYZ* ToIll); + +cmsBool _cmsBuildRGB2XYZtransferMatrix(cmsMAT3* r, const cmsCIExyY* WhitePoint, const cmsCIExyYTRIPLE* Primaries); + + +#define _lcms_internal_H +#endif Index: sdk/lib/3rdparty/lcms2/Makefile.am =================================================================== --- sdk/lib/3rdparty/lcms2/Makefile.am (nonexistent) +++ sdk/lib/3rdparty/lcms2/Makefile.am (working copy) @@ -0,0 +1,31 @@ +# +# Makefile for building lcms 2 library +# + +# Don't require all the GNU mandated files +AUTOMAKE_OPTIONS = 1.7 foreign + +# CFLAGS = -pedantic -Wall -std=c99 -O3 + +includedir = ${prefix}/include + +# Shared libraries built in this directory +lib_LTLIBRARIES = liblcms2.la + +LIBRARY_CURRENT = @LIBRARY_CURRENT@ +LIBRARY_REVISION = @LIBRARY_REVISION@ +LIBRARY_AGE = @LIBRARY_AGE@ + +AM_CPPFLAGS = -I$(top_builddir)/include -I$(top_srcdir)/include + +liblcms2_la_LDFLAGS = -no-undefined \ + -version-info $(LIBRARY_CURRENT):$(LIBRARY_REVISION):$(LIBRARY_AGE) + +liblcms2_la_LIBADD = $(LCMS_LIB_DEPLIBS) + +liblcms2_la_SOURCES = \ + cmscnvrt.c cmserr.c cmsgamma.c cmsgmt.c cmsintrp.c cmsio0.c cmsio1.c cmslut.c \ + cmsplugin.c cmssm.c cmsmd5.c cmsmtrx.c cmspack.c cmspcs.c cmswtpnt.c cmsxform.c \ + cmssamp.c cmsnamed.c cmscam02.c cmsvirt.c cmstypes.c cmscgats.c cmsps2.c cmsopt.c \ + cmshalf.c cmsalpha.c lcms2_internal.h + Index: sdk/lib/3rdparty/lcms2/Makefile.in =================================================================== --- sdk/lib/3rdparty/lcms2/Makefile.in (nonexistent) +++ sdk/lib/3rdparty/lcms2/Makefile.in (working copy) @@ -0,0 +1,707 @@ +# Makefile.in generated by automake 1.14.1 from Makefile.am. +# @configure_input@ + +# Copyright (C) 1994-2013 Free Software Foundation, Inc. + +# This Makefile.in is free software; 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