//--------------------------------------------------------------------------------- // // Little Color Management System // Copyright (c) 1998-2026 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 "utils.h" #ifndef _MSC_VER # include #endif #ifdef CMS_IS_WINDOWS_ # include #endif #define MAX_INPUT_BUFFER 4096 // Global options static cmsBool InHexa = FALSE; static cmsBool GamutCheck = FALSE; static cmsBool Width16 = FALSE; static cmsBool BlackPointCompensation = FALSE; static cmsBool lIsDeviceLink = FALSE; static cmsBool lQuantize = FALSE; static cmsBool lUnbounded = TRUE; static cmsBool lIsFloat = TRUE; static cmsUInt32Number Intent = INTENT_PERCEPTUAL; static cmsUInt32Number ProofingIntent = INTENT_PERCEPTUAL; static int PrecalcMode = 0; // -------------------------------------------------------------- static char *cInProf = NULL; static char *cOutProf = NULL; static char *cProofing = NULL; static char *IncludePart = NULL; static cmsHANDLE hIT8in = NULL; // CGATS input static cmsHANDLE hIT8out = NULL; // CGATS output static char CGATSPatch[1024]; // Actual Patch Name static char CGATSoutFilename[cmsMAX_PATH]; static int nMaxPatches; static cmsHTRANSFORM hTrans, hTransXYZ, hTransLab; static cmsBool InputNamedColor = FALSE; static cmsColorSpaceSignature InputColorSpace, OutputColorSpace; static cmsNAMEDCOLORLIST* InputColorant = NULL; static cmsNAMEDCOLORLIST* OutputColorant = NULL; static cmsFloat64Number InputRange, OutputRange; // isatty replacement #ifdef _MSC_VER #define xisatty(x) _isatty( _fileno( (x) ) ) #else #define xisatty(x) isatty( fileno( (x) ) ) #endif //--------------------------------------------------------------------------------------------------- // Print usage to stderr static void Help(void) { fprintf(stderr, "usage: transicc [flags] [CGATS input] [CGATS output]\n\n"); fprintf(stderr, "flags:\n\n"); fprintf(stderr, "-v<0..3> - Verbosity level\n"); fprintf(stderr, "-e[op] - Encoded representation of numbers\n"); fprintf(stderr, "\t-w - use 16 bits\n"); fprintf(stderr, "\t-x - Hexadecimal\n\n"); fprintf(stderr, "-s - bounded mode (clip negatives and highlights)\n"); fprintf(stderr, "-q - Quantize (round decimals)\n\n"); fprintf(stderr, "-i - Input profile (defaults to sRGB)\n"); fprintf(stderr, "-o - Output profile (defaults to sRGB)\n"); fprintf(stderr, "-l - Transform by device-link profile\n"); PrintBuiltins(); PrintRenderingIntents(); fprintf(stderr, "\n"); fprintf(stderr, "-d<0..1> - Observer adaptation state (abs.col. only)\n\n"); fprintf(stderr, "-b - Black point compensation\n"); fprintf(stderr, "-c<0,1,2,3> Precalculates transform (0=Off, 1=Normal, 2=Hi-res, 3=LoRes)\n\n"); fprintf(stderr, "-n - Terse output, intended for pipe usage\n"); fprintf(stderr, "-p - Soft proof profile\n"); fprintf(stderr, "-m<0,1,2,3> - Soft proof intent\n"); fprintf(stderr, "-g - Marks out-of-gamut colors on softproof\n\n"); fprintf(stderr, "This program is intended to be a demo of the Little CMS\n" "color engine. Both lcms and this program are open source.\n" "You can obtain both in source code at https://www.littlecms.com\n" "For suggestions, comments, bug reports etc. send mail to\n" "info@littlecms.com\n\n"); } // The toggles stuff static void HandleSwitches(int argc, char *argv[]) { int s; while ((s = xgetopt(argc, argv, "bBC:c:d:D:eEgGI:i:L:l:m:M:nNO:o:p:P:QqSsT:t:V:v:WwxX!:-:")) != EOF) { switch (s){ case '-': if (strcmp(xoptarg, "help") == 0) { Help(); exit(0); } else { FatalError("Unknown option - run without args to see valid ones.\n"); } break; case '!': IncludePart = xoptarg; break; case 'b': case 'B': BlackPointCompensation = TRUE; break; case 'c': case 'C': PrecalcMode = atoi(xoptarg); if (PrecalcMode < 0 || PrecalcMode > 3) FatalError("Unknown precalc mode '%d'", PrecalcMode); break; case 'd': case 'D': { cmsFloat64Number ObserverAdaptationState = atof(xoptarg); if (ObserverAdaptationState < 0 || ObserverAdaptationState > 1.0) FatalError("Adaptation states should be between 0 and 1"); cmsSetAdaptationState(ObserverAdaptationState); } break; case 'e': case 'E': lIsFloat = FALSE; break; case 'g': case 'G': GamutCheck = TRUE; break; case 'i': case 'I': if (lIsDeviceLink) FatalError("icctrans: Device-link already specified"); cInProf = xoptarg; break; case 'l': case 'L': cInProf = xoptarg; lIsDeviceLink = TRUE; break; // No extra intents for proofing case 'm': case 'M': ProofingIntent = atoi(xoptarg); if (ProofingIntent > 3) FatalError("Unknown Proofing Intent '%d'", ProofingIntent); break; // For compatibility case 'n': case 'N': Verbose = 0; break; // Output profile case 'o': case 'O': if (lIsDeviceLink) FatalError("icctrans: Device-link already specified"); cOutProf = xoptarg; break; // Proofing profile case 'p': case 'P': cProofing = xoptarg; break; // Quantize (get rid of decimals) case 'q': case 'Q': lQuantize = TRUE; break; // Inhibit unbounded mode case 's': case 'S': lUnbounded = FALSE; break; // The intent case 't': case 'T': Intent = atoi(xoptarg); break; // Verbosity level case 'V': case 'v': Verbose = atoi(xoptarg); if (Verbose < 0 || Verbose > 3) { FatalError("Unknown verbosity level '%d'", Verbose); } break; // Wide (16 bits) case 'W': case 'w': Width16 = TRUE; break; // Hexadecimal case 'x': case 'X': InHexa = TRUE; break; default: FatalError("Unknown option - run without args to see valid ones.\n"); } } // If output CGATS involved, switch to float if ((argc - xoptind) > 2) { lIsFloat = TRUE; } } static void SetRange(cmsFloat64Number range, cmsBool IsInput) { if (IsInput) InputRange = range; else OutputRange = range; } // Populate a named color list with usual component names. // I am using the first Colorant channel to store the range, but it works since // this space is not used anyway. static cmsNAMEDCOLORLIST* ComponentNames(cmsColorSpaceSignature space, cmsBool IsInput) { cmsNAMEDCOLORLIST* out; int i, n; char Buffer[cmsMAX_PATH]; out = cmsAllocNamedColorList(0, 12, cmsMAXCHANNELS, "", ""); if (out == NULL) return NULL; switch (space) { case cmsSigXYZData: SetRange(100, IsInput); cmsAppendNamedColor(out, "X", NULL, NULL); cmsAppendNamedColor(out, "Y", NULL, NULL); cmsAppendNamedColor(out, "Z", NULL, NULL); break; case cmsSigLabData: SetRange(1, IsInput); cmsAppendNamedColor(out, "L*", NULL, NULL); cmsAppendNamedColor(out, "a*", NULL, NULL); cmsAppendNamedColor(out, "b*", NULL, NULL); break; case cmsSigLuvData: SetRange(1, IsInput); cmsAppendNamedColor(out, "L", NULL, NULL); cmsAppendNamedColor(out, "u", NULL, NULL); cmsAppendNamedColor(out, "v", NULL, NULL); break; case cmsSigYCbCrData: SetRange(255, IsInput); cmsAppendNamedColor(out, "Y", NULL, NULL ); cmsAppendNamedColor(out, "Cb", NULL, NULL); cmsAppendNamedColor(out, "Cr", NULL, NULL); break; case cmsSigYxyData: SetRange(1, IsInput); cmsAppendNamedColor(out, "Y", NULL, NULL); cmsAppendNamedColor(out, "x", NULL, NULL); cmsAppendNamedColor(out, "y", NULL, NULL); break; case cmsSigRgbData: SetRange(255, IsInput); cmsAppendNamedColor(out, "R", NULL, NULL); cmsAppendNamedColor(out, "G", NULL, NULL); cmsAppendNamedColor(out, "B", NULL, NULL); break; case cmsSigGrayData: SetRange(255, IsInput); cmsAppendNamedColor(out, "G", NULL, NULL); break; case cmsSigHsvData: SetRange(255, IsInput); cmsAppendNamedColor(out, "H", NULL, NULL); cmsAppendNamedColor(out, "s", NULL, NULL); cmsAppendNamedColor(out, "v", NULL, NULL); break; case cmsSigHlsData: SetRange(255, IsInput); cmsAppendNamedColor(out, "H", NULL, NULL); cmsAppendNamedColor(out, "l", NULL, NULL); cmsAppendNamedColor(out, "s", NULL, NULL); break; case cmsSigCmykData: SetRange(1, IsInput); cmsAppendNamedColor(out, "C", NULL, NULL); cmsAppendNamedColor(out, "M", NULL, NULL); cmsAppendNamedColor(out, "Y", NULL, NULL); cmsAppendNamedColor(out, "K", NULL, NULL); break; case cmsSigCmyData: SetRange(1, IsInput); cmsAppendNamedColor(out, "C", NULL, NULL); cmsAppendNamedColor(out, "M", NULL, NULL); cmsAppendNamedColor(out, "Y", NULL, NULL); break; default: SetRange(1, IsInput); n = cmsChannelsOfColorSpace(space); for (i=0; i < n; i++) { sprintf(Buffer, "Channel #%d", i + 1); cmsAppendNamedColor(out, Buffer, NULL, NULL); } } return out; } // Creates all needed color transforms static cmsBool OpenTransforms(void) { cmsHPROFILE hInput, hOutput, hProof; cmsUInt32Number dwIn, dwOut, dwFlags; cmsNAMEDCOLORLIST* List; int i; // We don't need cache dwFlags = cmsFLAGS_NOCACHE; if (lIsDeviceLink) { hInput = OpenStockProfile(0, cInProf); if (hInput == NULL) return FALSE; hOutput = NULL; hProof = NULL; if (cmsGetDeviceClass(hInput) == cmsSigNamedColorClass) { OutputColorSpace = cmsGetColorSpace(hInput); InputColorSpace = cmsGetPCS(hInput); } else { InputColorSpace = cmsGetColorSpace(hInput); OutputColorSpace = cmsGetPCS(hInput); } // Read colorant tables if present if (cmsIsTag(hInput, cmsSigColorantTableTag)) { List = cmsReadTag(hInput, cmsSigColorantTableTag); InputColorant = cmsDupNamedColorList(List); InputRange = 1; } else InputColorant = ComponentNames(InputColorSpace, TRUE); if (cmsIsTag(hInput, cmsSigColorantTableOutTag)){ List = cmsReadTag(hInput, cmsSigColorantTableOutTag); OutputColorant = cmsDupNamedColorList(List); OutputRange = 1; } else OutputColorant = ComponentNames(OutputColorSpace, FALSE); } else { hInput = OpenStockProfile(0, cInProf); if (hInput == NULL) return FALSE; hOutput = OpenStockProfile(0, cOutProf); if (hOutput == NULL) return FALSE; hProof = NULL; if (cmsGetDeviceClass(hInput) == cmsSigLinkClass || cmsGetDeviceClass(hOutput) == cmsSigLinkClass) FatalError("Use -l flag for devicelink profiles!\n"); InputColorSpace = cmsGetColorSpace(hInput); OutputColorSpace = cmsGetColorSpace(hOutput); // Read colorant tables if present if (cmsIsTag(hInput, cmsSigColorantTableTag)) { List = cmsReadTag(hInput, cmsSigColorantTableTag); InputColorant = cmsDupNamedColorList(List); if (cmsNamedColorCount(InputColorant) <= 3) SetRange(255, TRUE); else SetRange(1, TRUE); // Inks are already divided by 100 in the formatter } else InputColorant = ComponentNames(InputColorSpace, TRUE); if (cmsIsTag(hOutput, cmsSigColorantTableTag)){ List = cmsReadTag(hOutput, cmsSigColorantTableTag); OutputColorant = cmsDupNamedColorList(List); if (cmsNamedColorCount(OutputColorant) <= 3) SetRange(255, FALSE); else SetRange(1, FALSE); // Inks are already divided by 100 in the formatter } else OutputColorant = ComponentNames(OutputColorSpace, FALSE); if (cProofing != NULL) { hProof = OpenStockProfile(0, cProofing); if (hProof == NULL) return FALSE; dwFlags |= cmsFLAGS_SOFTPROOFING; } } // Print information on profiles if (Verbose > 2) { printf("Profile:\n"); PrintProfileInformation(hInput); if (hOutput) { printf("Output profile:\n"); PrintProfileInformation(hOutput); } if (hProof != NULL) { printf("Proofing profile:\n"); PrintProfileInformation(hProof); } } // Input is always in floating point dwIn = cmsFormatterForColorspaceOfProfile(hInput, 0, TRUE); if (lIsDeviceLink) { dwOut = cmsFormatterForPCSOfProfile(hInput, lIsFloat ? 0 : 2, lIsFloat); } else { // 16 bits or floating point (only on output) dwOut = cmsFormatterForColorspaceOfProfile(hOutput, lIsFloat ? 0 : 2, lIsFloat); } // For named color, there is a specialized formatter if (cmsGetDeviceClass(hInput) == cmsSigNamedColorClass) { dwIn = TYPE_NAMED_COLOR_INDEX; InputNamedColor = TRUE; } // Precision mode switch (PrecalcMode) { case 0: dwFlags |= cmsFLAGS_NOOPTIMIZE; break; case 2: dwFlags |= cmsFLAGS_HIGHRESPRECALC; break; case 3: dwFlags |= cmsFLAGS_LOWRESPRECALC; break; case 1: break; default: FatalError("Unknown precalculation mode '%d'", PrecalcMode); } if (BlackPointCompensation) dwFlags |= cmsFLAGS_BLACKPOINTCOMPENSATION; if (GamutCheck) { cmsUInt16Number Alarm[cmsMAXCHANNELS]; if (hProof == NULL) FatalError("I need proofing profile -p for gamut checking!"); for (i=0; i < cmsMAXCHANNELS; i++) Alarm[i] = 0xFFFF; cmsSetAlarmCodes(Alarm); dwFlags |= cmsFLAGS_GAMUTCHECK; } // The main transform hTrans = cmsCreateProofingTransform(hInput, dwIn, hOutput, dwOut, hProof, Intent, ProofingIntent, dwFlags); if (hProof) cmsCloseProfile(hProof); if (hTrans == NULL) return FALSE; // PCS Dump if requested hTransXYZ = NULL; hTransLab = NULL; if (hOutput && Verbose > 1) { cmsHPROFILE hXYZ = cmsCreateXYZProfile(); cmsHPROFILE hLab = cmsCreateLab4Profile(NULL); hTransXYZ = cmsCreateTransform(hInput, dwIn, hXYZ, lIsFloat ? TYPE_XYZ_DBL : TYPE_XYZ_16, Intent, cmsFLAGS_NOCACHE); if (hTransXYZ == NULL) return FALSE; hTransLab = cmsCreateTransform(hInput, dwIn, hLab, lIsFloat? TYPE_Lab_DBL : TYPE_Lab_16, Intent, cmsFLAGS_NOCACHE); if (hTransLab == NULL) return FALSE; cmsCloseProfile(hXYZ); cmsCloseProfile(hLab); } if (hInput) cmsCloseProfile(hInput); if (hOutput) cmsCloseProfile(hOutput); return TRUE; } // Free open resources static void CloseTransforms(void) { if (InputColorant) cmsFreeNamedColorList(InputColorant); if (OutputColorant) cmsFreeNamedColorList(OutputColorant); if (hTrans) cmsDeleteTransform(hTrans); if (hTransLab) cmsDeleteTransform(hTransLab); if (hTransXYZ) cmsDeleteTransform(hTransXYZ); } // --------------------------------------------------------------------------------------------------- // Get input from user static void GetLine(char* Buffer, const char* frm, ...) { int res; va_list args; va_start(args, frm); do { if (xisatty(stdin)) vfprintf(stderr, frm, args); res = scanf("%4095s", Buffer); // Reported codeQL bug: 'The result of scanf is only checked against 0, but it can also return EOF.' // It is not obviously "only checked against 0", but it happens that C99 requires EOF to be negative if (res < 0 || toupper(Buffer[0]) == 'Q') { // Quit? CloseTransforms(); if (xisatty(stdin)) fprintf(stderr, "Done.\n"); exit(0); } } while (res == 0); va_end(args); } // Print a value which is given in double floating point static void PrintFloatResults(cmsFloat64Number Value[]) { cmsUInt32Number i, n; char ChannelName[cmsMAX_PATH]; cmsFloat64Number v; n = cmsChannelsOfColorSpace(OutputColorSpace); for (i=0; i < n; i++) { if (OutputColorant != NULL) { cmsNamedColorInfo(OutputColorant, i, ChannelName, NULL, NULL, NULL, NULL); } else { OutputRange = 1; sprintf(ChannelName, "Channel #%u", i + 1); } v = (cmsFloat64Number) Value[i]* OutputRange; if (lQuantize) v = floor(v + 0.5); if (!lUnbounded) { if (v < 0) v = 0; if (v > OutputRange) v = OutputRange; } if (Verbose <= 0) printf("%.4f ", v); else printf("%s=%.4f ", ChannelName, v); } printf("\n"); } // Get a named-color index static cmsUInt16Number GetIndex(void) { char Buffer[4096], Name[cmsMAX_PATH], Prefix[40], Suffix[40]; int index, max; const cmsNAMEDCOLORLIST* NamedColorList; NamedColorList = cmsGetNamedColorList(hTrans); if (NamedColorList == NULL) return 0; max = cmsNamedColorCount(NamedColorList)-1; GetLine(Buffer, "Color index (0..%d)? ", max); index = atoi(Buffer); if (index > max) FatalError("Named color %d out of range!", index); cmsNamedColorInfo(NamedColorList, index, Name, Prefix, Suffix, NULL, NULL); printf("\n%s %s %s\n", Prefix, Name, Suffix); return (cmsUInt16Number) index; } // Read values from a text file or terminal static void TakeFloatValues(cmsFloat64Number Float[]) { cmsUInt32Number i, n; char ChannelName[cmsMAX_PATH]; char Buffer[4096]; if (xisatty(stdin)) fprintf(stderr, "\nEnter values, 'q' to quit\n"); if (InputNamedColor) { // This is named color index, which is always cmsUInt16Number cmsUInt16Number index = GetIndex(); memcpy(Float, &index, sizeof(cmsUInt16Number)); return; } n = cmsChannelsOfColorSpace(InputColorSpace); for (i=0; i < n; i++) { if (InputColorant) { cmsNamedColorInfo(InputColorant, i, ChannelName, NULL, NULL, NULL, NULL); } else { InputRange = 1; sprintf(ChannelName, "Channel #%u", i+1); } GetLine(Buffer, "%s? ", ChannelName); Float[i] = (cmsFloat64Number) atof(Buffer) / InputRange; } if (xisatty(stdin)) fprintf(stderr, "\n"); } static void PrintPCSFloat(cmsFloat64Number Input[]) { if (Verbose > 1 && hTransXYZ && hTransLab) { cmsCIEXYZ XYZ = { 0, 0, 0 }; cmsCIELab Lab = { 0, 0, 0 }; if (hTransXYZ) cmsDoTransform(hTransXYZ, Input, &XYZ, 1); if (hTransLab) cmsDoTransform(hTransLab, Input, &Lab, 1); printf("[PCS] Lab=(%.4f,%.4f,%.4f) XYZ=(%.4f,%.4f,%.4f)\n", Lab.L, Lab.a, Lab.b, XYZ.X * 100.0, XYZ.Y * 100.0, XYZ.Z * 100.0); } } // ----------------------------------------------------------------------------------------------- static void PrintEncodedResults(cmsUInt16Number Encoded[]) { cmsUInt32Number i, n; char ChannelName[cmsMAX_PATH]; cmsUInt32Number v; n = cmsChannelsOfColorSpace(OutputColorSpace); for (i=0; i < n; i++) { if (OutputColorant != NULL) { cmsNamedColorInfo(OutputColorant, i, ChannelName, NULL, NULL, NULL, NULL); } else { sprintf(ChannelName, "Channel #%u", i + 1); } if (Verbose > 0) printf("%s=", ChannelName); v = Encoded[i]; if (InHexa) { if (Width16) printf("0x%04X ", (int) floor(v + .5)); else printf("0x%02X ", (int) floor(v / 257. + .5)); } else { if (Width16) printf("%d ", (int) floor(v + .5)); else printf("%d ", (int) floor(v / 257. + .5)); } } printf("\n"); } // Print XYZ/Lab values on verbose mode static void PrintPCSEncoded(cmsFloat64Number Input[]) { if (Verbose > 1 && hTransXYZ && hTransLab) { cmsUInt16Number XYZ[3], Lab[3]; if (hTransXYZ) cmsDoTransform(hTransXYZ, Input, XYZ, 1); if (hTransLab) cmsDoTransform(hTransLab, Input, Lab, 1); printf("[PCS] Lab=(0x%04X,0x%04X,0x%04X) XYZ=(0x%04X,0x%04X,0x%04X)\n", Lab[0], Lab[1], Lab[2], XYZ[0], XYZ[1], XYZ[2]); } } // -------------------------------------------------------------------------------------- // Take a value from IT8 and scale it accordly to fill a cmsUInt16Number (0..FFFF) static cmsFloat64Number GetIT8Val(const char* Name, cmsFloat64Number Max) { const char* Val = cmsIT8GetData(hIT8in, CGATSPatch, Name); if (Val == NULL) FatalError("Field '%s' not found", Name); return atof(Val) / Max; } // Read input values from CGATS file. static void TakeCGATSValues(int nPatch, cmsFloat64Number Float[]) { // At first take the name if SAMPLE_ID is present if (cmsIT8GetPatchName(hIT8in, nPatch, CGATSPatch) == NULL) { FatalError("Sorry, I need 'SAMPLE_ID' on input CGATS to operate."); } // Special handling for named color profiles. // Lookup the name in the names database (the transform) if (InputNamedColor) { const cmsNAMEDCOLORLIST* NamedColorList; int index; NamedColorList = cmsGetNamedColorList(hTrans); if (NamedColorList == NULL) FatalError("Malformed named color profile"); index = cmsNamedColorIndex(NamedColorList, CGATSPatch); if (index < 0) FatalError("Named color '%s' not found in the profile", CGATSPatch); Float[0] = index; return; } // Color is not a spot color, proceed. switch (InputColorSpace) { // Encoding should follow CGATS specification. case cmsSigXYZData: Float[0] = cmsIT8GetDataDbl(hIT8in, CGATSPatch, "XYZ_X") / 100.0; Float[1] = cmsIT8GetDataDbl(hIT8in, CGATSPatch, "XYZ_Y") / 100.0; Float[2] = cmsIT8GetDataDbl(hIT8in, CGATSPatch, "XYZ_Z") / 100.0; break; case cmsSigLabData: Float[0] = cmsIT8GetDataDbl(hIT8in, CGATSPatch, "LAB_L"); Float[1] = cmsIT8GetDataDbl(hIT8in, CGATSPatch, "LAB_A"); Float[2] = cmsIT8GetDataDbl(hIT8in, CGATSPatch, "LAB_B"); break; case cmsSigRgbData: Float[0] = GetIT8Val("RGB_R", 255.0); Float[1] = GetIT8Val("RGB_G", 255.0); Float[2] = GetIT8Val("RGB_B", 255.0); break; case cmsSigGrayData: Float[0] = GetIT8Val("GRAY", 255.0); break; case cmsSigCmykData: Float[0] = GetIT8Val("CMYK_C", 1.0); Float[1] = GetIT8Val("CMYK_M", 1.0); Float[2] = GetIT8Val("CMYK_Y", 1.0); Float[3] = GetIT8Val("CMYK_K", 1.0); break; case cmsSigCmyData: Float[0] = GetIT8Val("CMY_C", 1.0); Float[1] = GetIT8Val("CMY_M", 1.0); Float[2] = GetIT8Val("CMY_Y", 1.0); break; case cmsSig1colorData: case cmsSig2colorData: case cmsSig3colorData: case cmsSig4colorData: case cmsSig5colorData: case cmsSig6colorData: case cmsSig7colorData: case cmsSig8colorData: case cmsSig9colorData: case cmsSig10colorData: case cmsSig11colorData: case cmsSig12colorData: case cmsSig13colorData: case cmsSig14colorData: case cmsSig15colorData: { cmsUInt32Number i, n; n = cmsChannelsOfColorSpace(InputColorSpace); for (i=0; i < n; i++) { char Buffer[255]; sprintf(Buffer, "%uCLR_%u", n, i+1); Float[i] = GetIT8Val(Buffer, 100.0); } } break; default: { cmsUInt32Number i, n; n = cmsChannelsOfColorSpace(InputColorSpace); for (i=0; i < n; i++) { char Buffer[255]; sprintf(Buffer, "CHAN_%u", i+1); Float[i] = GetIT8Val(Buffer, 1.0); } } } } static void SetCGATSfld(const char* Col, cmsFloat64Number Val) { if (lQuantize) Val = floor(Val + 0.5); if (!cmsIT8SetDataDbl(hIT8out, CGATSPatch, Col, Val)) { FatalError("couldn't set '%s' on output cgats '%s'", Col, CGATSoutFilename); } } static void PutCGATSValues(cmsFloat64Number Float[]) { cmsIT8SetData(hIT8out, CGATSPatch, "SAMPLE_ID", CGATSPatch); switch (OutputColorSpace) { // Encoding should follow CGATS specification. case cmsSigXYZData: SetCGATSfld("XYZ_X", Float[0] * 100.0); SetCGATSfld("XYZ_Y", Float[1] * 100.0); SetCGATSfld("XYZ_Z", Float[2] * 100.0); break; case cmsSigLabData: SetCGATSfld("LAB_L", Float[0]); SetCGATSfld("LAB_A", Float[1]); SetCGATSfld("LAB_B", Float[2]); break; case cmsSigRgbData: SetCGATSfld("RGB_R", Float[0] * 255.0); SetCGATSfld("RGB_G", Float[1] * 255.0); SetCGATSfld("RGB_B", Float[2] * 255.0); break; case cmsSigGrayData: SetCGATSfld("GRAY", Float[0] * 255.0); break; case cmsSigCmykData: SetCGATSfld("CMYK_C", Float[0]); SetCGATSfld("CMYK_M", Float[1]); SetCGATSfld("CMYK_Y", Float[2]); SetCGATSfld("CMYK_K", Float[3]); break; case cmsSigCmyData: SetCGATSfld("CMY_C", Float[0]); SetCGATSfld("CMY_M", Float[1]); SetCGATSfld("CMY_Y", Float[2]); break; case cmsSig1colorData: case cmsSig2colorData: case cmsSig3colorData: case cmsSig4colorData: case cmsSig5colorData: case cmsSig6colorData: case cmsSig7colorData: case cmsSig8colorData: case cmsSig9colorData: case cmsSig10colorData: case cmsSig11colorData: case cmsSig12colorData: case cmsSig13colorData: case cmsSig14colorData: case cmsSig15colorData: { cmsInt32Number i, n; n = cmsChannelsOfColorSpace(InputColorSpace); for (i=0; i < n; i++) { char Buffer[255]; sprintf(Buffer, "%uCLR_%u", n, i+1); SetCGATSfld(Buffer, Float[i] * 100.0); } } break; default: { cmsInt32Number i, n; n = cmsChannelsOfColorSpace(InputColorSpace); for (i=0; i < n; i++) { char Buffer[255]; sprintf(Buffer, "CHAN_%u", i+1); SetCGATSfld(Buffer, Float[i]); } } } } // Create data format static void SetOutputDataFormat(void) { cmsIT8DefineDblFormat(hIT8out, "%.4g"); cmsIT8SetPropertyStr(hIT8out, "ORIGINATOR", "icctrans"); if (IncludePart != NULL) cmsIT8SetPropertyStr(hIT8out, ".INCLUDE", IncludePart); cmsIT8SetComment(hIT8out, "Data follows"); cmsIT8SetPropertyDbl(hIT8out, "NUMBER_OF_SETS", nMaxPatches); switch (OutputColorSpace) { // Encoding should follow CGATS specification. case cmsSigXYZData: cmsIT8SetPropertyDbl(hIT8out, "NUMBER_OF_FIELDS", 4); cmsIT8SetDataFormat(hIT8out, 0, "SAMPLE_ID"); cmsIT8SetDataFormat(hIT8out, 1, "XYZ_X"); cmsIT8SetDataFormat(hIT8out, 2, "XYZ_Y"); cmsIT8SetDataFormat(hIT8out, 3, "XYZ_Z"); break; case cmsSigLabData: cmsIT8SetPropertyDbl(hIT8out, "NUMBER_OF_FIELDS", 4); cmsIT8SetDataFormat(hIT8out, 0, "SAMPLE_ID"); cmsIT8SetDataFormat(hIT8out, 1, "LAB_L"); cmsIT8SetDataFormat(hIT8out, 2, "LAB_A"); cmsIT8SetDataFormat(hIT8out, 3, "LAB_B"); break; case cmsSigRgbData: cmsIT8SetPropertyDbl(hIT8out, "NUMBER_OF_FIELDS", 4); cmsIT8SetDataFormat(hIT8out, 0, "SAMPLE_ID"); cmsIT8SetDataFormat(hIT8out, 1, "RGB_R"); cmsIT8SetDataFormat(hIT8out, 2, "RGB_G"); cmsIT8SetDataFormat(hIT8out, 3, "RGB_B"); break; case cmsSigGrayData: cmsIT8SetPropertyDbl(hIT8out, "NUMBER_OF_FIELDS", 2); cmsIT8SetDataFormat(hIT8out, 0, "SAMPLE_ID"); cmsIT8SetDataFormat(hIT8out, 1, "GRAY"); break; case cmsSigCmykData: cmsIT8SetPropertyDbl(hIT8out, "NUMBER_OF_FIELDS", 5); cmsIT8SetDataFormat(hIT8out, 0, "SAMPLE_ID"); cmsIT8SetDataFormat(hIT8out, 1, "CMYK_C"); cmsIT8SetDataFormat(hIT8out, 2, "CMYK_M"); cmsIT8SetDataFormat(hIT8out, 3, "CMYK_Y"); cmsIT8SetDataFormat(hIT8out, 4, "CMYK_K"); break; case cmsSigCmyData: cmsIT8SetPropertyDbl(hIT8out, "NUMBER_OF_FIELDS", 4); cmsIT8SetDataFormat(hIT8out, 0, "SAMPLE_ID"); cmsIT8SetDataFormat(hIT8out, 1, "CMY_C"); cmsIT8SetDataFormat(hIT8out, 2, "CMY_M"); cmsIT8SetDataFormat(hIT8out, 3, "CMY_Y"); break; case cmsSig1colorData: case cmsSig2colorData: case cmsSig3colorData: case cmsSig4colorData: case cmsSig5colorData: case cmsSig6colorData: case cmsSig7colorData: case cmsSig8colorData: case cmsSig9colorData: case cmsSig10colorData: case cmsSig11colorData: case cmsSig12colorData: case cmsSig13colorData: case cmsSig14colorData: case cmsSig15colorData: { int i, n; char Buffer[255]; n = cmsChannelsOfColorSpace(OutputColorSpace); cmsIT8SetPropertyDbl(hIT8out, "NUMBER_OF_FIELDS", n+1); cmsIT8SetDataFormat(hIT8out, 0, "SAMPLE_ID"); for (i=1; i <= n; i++) { sprintf(Buffer, "%dCLR_%d", n, i); cmsIT8SetDataFormat(hIT8out, i, Buffer); } } break; default: { int i, n; char Buffer[255]; n = cmsChannelsOfColorSpace(OutputColorSpace); cmsIT8SetPropertyDbl(hIT8out, "NUMBER_OF_FIELDS", n+1); cmsIT8SetDataFormat(hIT8out, 0, "SAMPLE_ID"); for (i=1; i <= n; i++) { sprintf(Buffer, "CHAN_%d", i); cmsIT8SetDataFormat(hIT8out, i, Buffer); } } } } // Open CGATS if specified static void OpenCGATSFiles(int argc, char *argv[]) { int nParams = argc - xoptind; if (nParams >= 1) { hIT8in = cmsIT8LoadFromFile(0, argv[xoptind]); if (hIT8in == NULL) FatalError("'%s' is not recognized as a CGATS file", argv[xoptind]); nMaxPatches = (int) cmsIT8GetPropertyDbl(hIT8in, "NUMBER_OF_SETS"); } if (nParams == 2) { hIT8out = cmsIT8Alloc(NULL); SetOutputDataFormat(); strncpy(CGATSoutFilename, argv[xoptind+1], cmsMAX_PATH-1); } if (nParams > 2) FatalError("Too many CGATS files"); } // The main sink int main(int argc, char *argv[]) { cmsUInt16Number Output[cmsMAXCHANNELS]; cmsFloat64Number OutputFloat[cmsMAXCHANNELS]; cmsFloat64Number InputFloat[cmsMAXCHANNELS]; int nPatch = 0; fprintf(stderr, "LittleCMS ColorSpace conversion calculator - 5.1 [LittleCMS %2.2f]\n", cmsGetEncodedCMMversion() / 1000.0); fprintf(stderr, "Copyright (c) 1998-2026 Marti Maria Saguer. See COPYING file for details.\n"); fflush(stderr); InitUtils("transicc"); Verbose = 1; if (argc == 1) { Help(); return 0; } HandleSwitches(argc, argv); // Open profiles, create transforms if (!OpenTransforms()) return 1; // Open CGATS input if specified OpenCGATSFiles(argc, argv); // Main loop: read all values and convert them for(;;) { if (hIT8in != NULL) { if (nPatch >= nMaxPatches) break; TakeCGATSValues(nPatch++, InputFloat); } else { if (feof(stdin)) break; TakeFloatValues(InputFloat); } if (lIsFloat) cmsDoTransform(hTrans, InputFloat, OutputFloat, 1); else cmsDoTransform(hTrans, InputFloat, Output, 1); if (hIT8out != NULL) { PutCGATSValues(OutputFloat); } else { if (lIsFloat) { PrintFloatResults(OutputFloat); PrintPCSFloat(InputFloat); } else { PrintEncodedResults(Output); PrintPCSEncoded(InputFloat); } } } // Cleanup CloseTransforms(); if (hIT8in) cmsIT8Free(hIT8in); if (hIT8out) { cmsIT8SaveToFile(hIT8out, CGATSoutFilename); cmsIT8Free(hIT8out); } // All is ok return 0; }