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view mupdf-source/thirdparty/lcms2/src/cmssamp.c @ 40:aa33339d6b8a upstream
ADD: MuPDF v1.26.10: the MuPDF source as downloaded by a default build of PyMuPDF 1.26.5.
| author | Franz Glasner <fzglas.hg@dom66.de> |
|---|---|
| date | Sat, 11 Oct 2025 11:31:38 +0200 |
| parents | b50eed0cc0ef |
| children |
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//--------------------------------------------------------------------------------- // // Little Color Management System // Copyright (c) 1998-2023 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(cmsContext ContextID, cmsHPROFILE hProfile, cmsUInt32Number nIntent) { cmsHPROFILE hLab = cmsCreateLab4Profile(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(ContextID, 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(cmsContext ContextID, cmsHPROFILE hInput, cmsUInt32Number Intent, cmsCIEXYZ* BlackPoint, cmsUInt32Number dwFlags) { cmsUInt16Number *Black; cmsHTRANSFORM xform; cmsColorSpaceSignature Space; cmsUInt32Number nChannels; cmsUInt32Number dwFormat; cmsHPROFILE hLab; cmsCIELab Lab; cmsCIEXYZ BlackXYZ; // If the profile does not support input direction, assume Black point 0 if (!cmsIsIntentSupported(ContextID, hInput, Intent, LCMS_USED_AS_INPUT)) { BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; return FALSE; } // Create a formatter which has n channels and no floating point dwFormat = cmsFormatterForColorspaceOfProfile(ContextID, hInput, 2, FALSE); // Try to get black by using black colorant Space = cmsGetColorSpace(ContextID, 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 = cmsCreateLab2Profile(ContextID, NULL); if (hLab == NULL) { BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; return FALSE; } // Create the transform xform = cmsCreateTransform(ContextID, hInput, dwFormat, hLab, TYPE_Lab_DBL, Intent, cmsFLAGS_NOOPTIMIZE|cmsFLAGS_NOCACHE); cmsCloseProfile(ContextID, 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(ContextID, xform, Black, &Lab, 1); // Force it to be neutral, check for inconsistencies if (Lab.L > 95) Lab.L = 0; // Synthetic negative profiles else if (Lab.L > 50) Lab.L = 50; else if (Lab.L < 0) Lab.L = 0; Lab.a = Lab.b = 0; // Free the resources cmsDeleteTransform(ContextID, xform); // Convert from Lab (which is now clipped) to XYZ. cmsLab2XYZ(ContextID, 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(cmsContext ContextID, cmsCIEXYZ* BlackPoint, cmsHPROFILE hProfile) { cmsHTRANSFORM hRoundTrip; cmsCIELab LabIn, LabOut; cmsCIEXYZ BlackXYZ; // Is the intent supported by the profile? if (!cmsIsIntentSupported(ContextID, hProfile, INTENT_PERCEPTUAL, LCMS_USED_AS_INPUT)) { BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; return TRUE; } hRoundTrip = CreateRoundtripXForm(ContextID, hProfile, INTENT_PERCEPTUAL); if (hRoundTrip == NULL) { BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; return FALSE; } LabIn.L = LabIn.a = LabIn.b = 0; cmsDoTransform(ContextID, hRoundTrip, &LabIn, &LabOut, 1); // Clip Lab to reasonable limits if (LabOut.L > 50) LabOut.L = 50; LabOut.a = LabOut.b = 0; cmsDeleteTransform(ContextID, hRoundTrip); // Convert it to XYZ cmsLab2XYZ(ContextID, 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(cmsContext ContextID, cmsCIEXYZ* BlackPoint, cmsHPROFILE hProfile, cmsUInt32Number Intent, cmsUInt32Number dwFlags) { cmsProfileClassSignature devClass; // Make sure the device class is adequate devClass = cmsGetDeviceClass(ContextID, 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(ContextID, hProfile) >= 0x4000000) && (Intent == INTENT_PERCEPTUAL || Intent == INTENT_SATURATION)) { // Matrix shaper share MRC & perceptual intents if (cmsIsMatrixShaper(ContextID, hProfile)) return BlackPointAsDarkerColorant(ContextID, 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(ContextID, hProfile, cmsSigMediaBlackPointTag) && Intent == INTENT_RELATIVE_COLORIMETRIC) { cmsCIEXYZ *BlackPtr, BlackXYZ, UntrustedBlackPoint, TrustedBlackPoint, MediaWhite; cmsCIELab Lab; // If black point is specified, then use it, BlackPtr = cmsReadTag(ContextID, hProfile, cmsSigMediaBlackPointTag); if (BlackPtr != NULL) { BlackXYZ = *BlackPtr; _cmsReadMediaWhitePoint(ContextID, &MediaWhite, hProfile); // Black point is absolute XYZ, so adapt to D50 to get PCS value cmsAdaptToIlluminant(ContextID, &UntrustedBlackPoint, &MediaWhite, cmsD50_XYZ(ContextID), &BlackXYZ); // Force a=b=0 to get rid of any chroma cmsXYZ2Lab(ContextID, NULL, &Lab, &UntrustedBlackPoint); Lab.a = Lab.b = 0; if (Lab.L > 50) Lab.L = 50; // Clip to L* <= 50 cmsLab2XYZ(ContextID, 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(ContextID, hProfile) == cmsSigOutputClass) && (cmsGetColorSpace(ContextID, hProfile) == cmsSigCmykData)) return BlackPointUsingPerceptualBlack(ContextID, BlackPoint, hProfile); // Nope, compute BP using current intent. return BlackPointAsDarkerColorant(ContextID, 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(cmsContext ContextID, 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(ContextID, &m.v[0], n, sum_x, sum_x2); _cmsVEC3init(ContextID, &m.v[1], sum_x, sum_x2, sum_x3); _cmsVEC3init(ContextID, &m.v[2], sum_x2, sum_x3, sum_x4); _cmsVEC3init(ContextID, &v, sum_y, sum_yx, sum_yx2); if (!_cmsMAT3solve(ContextID, &res, &m, &v)) return 0; a = res.n[2]; b = res.n[1]; c = res.n[0]; if (fabs(a) < 1.0E-10) { if (fabs(b) < 1.0E-10) return 0; return cmsmin(0, cmsmax(50, -c/b )); } else { d = b*b - 4.0 * a * c; if (d <= 0) { return 0; } else { double rt; if (fabs(a) < 1.0E-10) return 0; 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(cmsContext ContextID, 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(ContextID, 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(ContextID, hProfile) >= 0x4000000) && (Intent == INTENT_PERCEPTUAL || Intent == INTENT_SATURATION)) { // Matrix shaper share MRC & perceptual intents if (cmsIsMatrixShaper(ContextID, hProfile)) return BlackPointAsDarkerColorant(ContextID, 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(ContextID, hProfile); if (!cmsIsCLUT(ContextID, hProfile, Intent, LCMS_USED_AS_OUTPUT ) || (ColorSpace != cmsSigGrayData && ColorSpace != cmsSigRgbData && ColorSpace != cmsSigCmykData)) { // In this case, handle as input case return cmsDetectBlackPoint(ContextID, 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(ContextID, &IniXYZ, hProfile, Intent, dwFlags)) { return FALSE; } // convert the XYZ to lab cmsXYZ2Lab(ContextID, 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(ContextID, 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(ContextID, 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(ContextID, 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(ContextID, NULL, BlackPoint, &InitialLab); cmsDeleteTransform(ContextID, 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(ContextID, hRoundTrip); BlackPoint -> X = BlackPoint ->Y = BlackPoint -> Z = 0.0; return FALSE; } // fit and get the vertex of quadratic curve Lab.L = RootOfLeastSquaresFitQuadraticCurve(ContextID, 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(ContextID, NULL, BlackPoint, &Lab); cmsDeleteTransform(ContextID, hRoundTrip); return TRUE; }