/* * Copyright 2016 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkColorData.h" #include "SkColorSpacePriv.h" #include "SkColorSpaceXformPriv.h" #include "SkColorSpaceXform_A2B.h" #include "SkColorSpaceXform_Base.h" #include "SkColorSpace_A2B.h" #include "SkColorSpace_Base.h" #include "SkColorSpace_XYZ.h" #include "SkHalf.h" #include "SkMakeUnique.h" #include "SkOpts.h" #include "SkPM4fPriv.h" #include "SkRasterPipeline.h" #include "SkSRGB.h" #include "../jumper/SkJumper.h" static constexpr float sk_linear_from_2dot2[256] = { 0.000000000000000000f, 0.000005077051900662f, 0.000023328004666099f, 0.000056921765712193f, 0.000107187362341244f, 0.000175123977503027f, 0.000261543754548491f, 0.000367136269815943f, 0.000492503787191433f, 0.000638182842167022f, 0.000804658499513058f, 0.000992374304074325f, 0.001201739522438400f, 0.001433134589671860f, 0.001686915316789280f, 0.001963416213396470f, 0.002262953160706430f, 0.002585825596234170f, 0.002932318323938360f, 0.003302703032003640f, 0.003697239578900130f, 0.004116177093282750f, 0.004559754922526020f, 0.005028203456855540f, 0.005521744850239660f, 0.006040593654849810f, 0.006584957382581690f, 0.007155037004573030f, 0.007751027397660610f, 0.008373117745148580f, 0.009021491898012130f, 0.009696328701658230f, 0.010397802292555300f, 0.011126082368383200f, 0.011881334434813700f, 0.012663720031582100f, 0.013473396940142600f, 0.014310519374884100f, 0.015175238159625200f, 0.016067700890886900f, 0.016988052089250000f, 0.017936433339950200f, 0.018912983423721500f, 0.019917838438785700f, 0.020951131914781100f, 0.022012994919336500f, 0.023103556157921400f, 0.024222942067534200f, 0.025371276904734600f, 0.026548682828472900f, 0.027755279978126000f, 0.028991186547107800f, 0.030256518852388700f, 0.031551391400226400f, 0.032875916948383800f, 0.034230206565082000f, 0.035614369684918800f, 0.037028514161960200f, 0.038472746320194600f, 0.039947171001525600f, 0.041451891611462500f, 0.042987010162657100f, 0.044552627316421400f, 0.046148842422351000f, 0.047775753556170600f, 0.049433457555908000f, 0.051122050056493400f, 0.052841625522879000f, 0.054592277281760300f, 0.056374097551979800f, 0.058187177473685400f, 0.060031607136313200f, 0.061907475605455800f, 0.063814870948677200f, 0.065753880260330100f, 0.067724589685424300f, 0.069727084442598800f, 0.071761448846239100f, 0.073827766327784600f, 0.075926119456264800f, 0.078056589958101900f, 0.080219258736215100f, 0.082414205888459200f, 0.084641510725429500f, 0.086901251787660300f, 0.089193506862247800f, 0.091518352998919500f, 0.093875866525577800f, 0.096266123063339700f, 0.098689197541094500f, 0.101145164209600000f, 0.103634096655137000f, 0.106156067812744000f, 0.108711149979039000f, 0.111299414824660000f, 0.113920933406333000f, 0.116575776178572000f, 0.119264013005047000f, 0.121985713169619000f, 0.124740945387051000f, 0.127529777813422000f, 0.130352278056244000f, 0.133208513184300000f, 0.136098549737202000f, 0.139022453734703000f, 0.141980290685736000f, 0.144972125597231000f, 0.147998022982685000f, 0.151058046870511000f, 0.154152260812165000f, 0.157280727890073000f, 0.160443510725344000f, 0.163640671485290000f, 0.166872271890766000f, 0.170138373223312000f, 0.173439036332135000f, 0.176774321640903000f, 0.180144289154390000f, 0.183548998464951000f, 0.186988508758844000f, 0.190462878822409000f, 0.193972167048093000f, 0.197516431440340000f, 0.201095729621346000f, 0.204710118836677000f, 0.208359655960767000f, 0.212044397502288000f, 0.215764399609395000f, 0.219519718074868000f, 0.223310408341127000f, 0.227136525505149000f, 0.230998124323267000f, 0.234895259215880000f, 0.238827984272048000f, 0.242796353254002000f, 0.246800419601550000f, 0.250840236436400000f, 0.254915856566385000f, 0.259027332489606000f, 0.263174716398492000f, 0.267358060183772000f, 0.271577415438375000f, 0.275832833461245000f, 0.280124365261085000f, 0.284452061560024000f, 0.288815972797219000f, 0.293216149132375000f, 0.297652640449211000f, 0.302125496358853000f, 0.306634766203158000f, 0.311180499057984000f, 0.315762743736397000f, 0.320381548791810000f, 0.325036962521076000f, 0.329729032967515000f, 0.334457807923889000f, 0.339223334935327000f, 0.344025661302187000f, 0.348864834082879000f, 0.353740900096629000f, 0.358653905926199000f, 0.363603897920553000f, 0.368590922197487000f, 0.373615024646202000f, 0.378676250929840000f, 0.383774646487975000f, 0.388910256539059000f, 0.394083126082829000f, 0.399293299902674000f, 0.404540822567962000f, 0.409825738436323000f, 0.415148091655907000f, 0.420507926167587000f, 0.425905285707146000f, 0.431340213807410000f, 0.436812753800359000f, 0.442322948819202000f, 0.447870841800410000f, 0.453456475485731000f, 0.459079892424160000f, 0.464741134973889000f, 0.470440245304218000f, 0.476177265397440000f, 0.481952237050698000f, 0.487765201877811000f, 0.493616201311074000f, 0.499505276603030000f, 0.505432468828216000f, 0.511397818884880000f, 0.517401367496673000f, 0.523443155214325000f, 0.529523222417277000f, 0.535641609315311000f, 0.541798355950137000f, 0.547993502196972000f, 0.554227087766085000f, 0.560499152204328000f, 0.566809734896638000f, 0.573158875067523000f, 0.579546611782525000f, 0.585972983949661000f, 0.592438030320847000f, 0.598941789493296000f, 0.605484299910907000f, 0.612065599865624000f, 0.618685727498780000f, 0.625344720802427000f, 0.632042617620641000f, 0.638779455650817000f, 0.645555272444935000f, 0.652370105410821000f, 0.659223991813387000f, 0.666116968775851000f, 0.673049073280942000f, 0.680020342172095000f, 0.687030812154625000f, 0.694080519796882000f, 0.701169501531402000f, 0.708297793656032000f, 0.715465432335048000f, 0.722672453600255000f, 0.729918893352071000f, 0.737204787360605000f, 0.744530171266715000f, 0.751895080583051000f, 0.759299550695091000f, 0.766743616862161000f, 0.774227314218442000f, 0.781750677773962000f, 0.789313742415586000f, 0.796916542907978000f, 0.804559113894567000f, 0.812241489898490000f, 0.819963705323528000f, 0.827725794455034000f, 0.835527791460841000f, 0.843369730392169000f, 0.851251645184515000f, 0.859173569658532000f, 0.867135537520905000f, 0.875137582365205000f, 0.883179737672745000f, 0.891262036813419000f, 0.899384513046529000f, 0.907547199521614000f, 0.915750129279253000f, 0.923993335251873000f, 0.932276850264543000f, 0.940600707035753000f, 0.948964938178195000f, 0.957369576199527000f, 0.965814653503130000f, 0.974300202388861000f, 0.982826255053791000f, 0.991392843592940000f, 1.000000000000000000f, }; /////////////////////////////////////////////////////////////////////////////////////////////////// static void build_table_linear_from_gamma(float* outTable, float exponent) { for (float x = 0.0f; x <= 1.0f; x += (1.0f/255.0f)) { *outTable++ = powf(x, exponent); } } // outTable is always 256 entries, inTable may be larger or smaller. static void build_table_linear_from_gamma(float* outTable, const float* inTable, int inTableSize) { if (256 == inTableSize) { memcpy(outTable, inTable, sizeof(float) * 256); return; } for (float x = 0.0f; x <= 1.0f; x += (1.0f/255.0f)) { *outTable++ = interp_lut(x, inTable, inTableSize); } } static void build_table_linear_from_gamma(float* outTable, float g, float a, float b, float c, float d, float e, float f) { // Y = (aX + b)^g + e for X >= d // Y = cX + f otherwise for (float x = 0.0f; x <= 1.0f; x += (1.0f/255.0f)) { if (x >= d) { *outTable++ = clamp_0_1(powf(a * x + b, g) + e); } else { *outTable++ = clamp_0_1(c * x + f); } } } /////////////////////////////////////////////////////////////////////////////////////////////////// static const int kDstGammaTableSize = SkColorSpaceXform_Base::kDstGammaTableSize; static void build_table_linear_to_gamma(uint8_t* outTable, float exponent) { float toGammaExp = 1.0f / exponent; for (int i = 0; i < kDstGammaTableSize; i++) { float x = ((float) i) * (1.0f / ((float) (kDstGammaTableSize - 1))); outTable[i] = clamp_normalized_float_to_byte(powf(x, toGammaExp)); } } static void build_table_linear_to_gamma(uint8_t* outTable, const float* inTable, int inTableSize) { invert_table_gamma(nullptr, outTable, kDstGammaTableSize, inTable, inTableSize); } static float inverse_parametric(float x, float g, float a, float b, float c, float d, float e, float f) { // We need to take the inverse of the following piecewise function. // Y = (aX + b)^g + e for X >= d // Y = cX + f otherwise // Assume that the gamma function is continuous, or this won't make much sense anyway. // Plug in |d| to the second equation to calculate the new piecewise interval. // Then simply use the inverse of the original functions. float interval = c * d + f; if (x < interval) { // X = (Y - F) / C if (0.0f == c) { // The gamma curve for this segment is constant, so the inverse is undefined. // Since this is the lower segment, guess zero. return 0.0f; } return (x - f) / c; } // X = ((Y - E)^(1 / G) - B) / A if (0.0f == a || 0.0f == g) { // The gamma curve for this segment is constant, so the inverse is undefined. // Since this is the upper segment, guess one. return 1.0f; } return (powf(x - e, 1.0f / g) - b) / a; } static void build_table_linear_to_gamma(uint8_t* outTable, float g, float a, float b, float c, float d, float e, float f) { for (int i = 0; i < kDstGammaTableSize; i++) { float x = ((float) i) * (1.0f / ((float) (kDstGammaTableSize - 1))); float y = inverse_parametric(x, g, a, b, c, d, e, f); outTable[i] = clamp_normalized_float_to_byte(y); } } /////////////////////////////////////////////////////////////////////////////////////////////////// template struct GammaFns { const T* fSRGBTable; const T* f2Dot2Table; void (*fBuildFromValue)(T*, float); void (*fBuildFromTable)(T*, const float*, int); void (*fBuildFromParam)(T*, float, float, float, float, float, float, float); }; static const GammaFns kToLinear { sk_linear_from_srgb, sk_linear_from_2dot2, &build_table_linear_from_gamma, &build_table_linear_from_gamma, &build_table_linear_from_gamma, }; static const GammaFns kFromLinear { nullptr, nullptr, &build_table_linear_to_gamma, &build_table_linear_to_gamma, &build_table_linear_to_gamma, }; // Build tables to transform src gamma to linear. template static void build_gamma_tables(const T* outGammaTables[3], T* gammaTableStorage, int gammaTableSize, const SkColorSpace_XYZ* space, const GammaFns& fns, bool gammasAreMatching) { switch (space->gammaNamed()) { case kSRGB_SkGammaNamed: outGammaTables[0] = outGammaTables[1] = outGammaTables[2] = fns.fSRGBTable; break; case k2Dot2Curve_SkGammaNamed: outGammaTables[0] = outGammaTables[1] = outGammaTables[2] = fns.f2Dot2Table; break; case kLinear_SkGammaNamed: outGammaTables[0] = outGammaTables[1] = outGammaTables[2] = nullptr; break; default: { const SkGammas* gammas = space->gammas(); SkASSERT(gammas); auto build_table = [=](int i) { if (gammas->isNamed(i)) { switch (gammas->data(i).fNamed) { case kSRGB_SkGammaNamed: (*fns.fBuildFromParam)(&gammaTableStorage[i * gammaTableSize], gSRGB_TransferFn.fG, gSRGB_TransferFn.fA, gSRGB_TransferFn.fB, gSRGB_TransferFn.fC, gSRGB_TransferFn.fD, gSRGB_TransferFn.fE, gSRGB_TransferFn.fF); outGammaTables[i] = &gammaTableStorage[i * gammaTableSize]; break; case k2Dot2Curve_SkGammaNamed: (*fns.fBuildFromValue)(&gammaTableStorage[i * gammaTableSize], 2.2f); outGammaTables[i] = &gammaTableStorage[i * gammaTableSize]; break; case kLinear_SkGammaNamed: (*fns.fBuildFromValue)(&gammaTableStorage[i * gammaTableSize], 1.0f); outGammaTables[i] = &gammaTableStorage[i * gammaTableSize]; break; default: SkASSERT(false); break; } } else if (gammas->isValue(i)) { (*fns.fBuildFromValue)(&gammaTableStorage[i * gammaTableSize], gammas->data(i).fValue); outGammaTables[i] = &gammaTableStorage[i * gammaTableSize]; } else if (gammas->isTable(i)) { (*fns.fBuildFromTable)(&gammaTableStorage[i * gammaTableSize], gammas->table(i), gammas->data(i).fTable.fSize); outGammaTables[i] = &gammaTableStorage[i * gammaTableSize]; } else { SkASSERT(gammas->isParametric(i)); const SkColorSpaceTransferFn& params = gammas->params(i); (*fns.fBuildFromParam)(&gammaTableStorage[i * gammaTableSize], params.fG, params.fA, params.fB, params.fC, params.fD, params.fE, params.fF); outGammaTables[i] = &gammaTableStorage[i * gammaTableSize]; } }; if (gammasAreMatching) { build_table(0); outGammaTables[1] = outGammaTables[0]; outGammaTables[2] = outGammaTables[0]; } else { build_table(0); build_table(1); build_table(2); } break; } } } void SkColorSpaceXform_Base::BuildDstGammaTables(const uint8_t* dstGammaTables[3], uint8_t* dstStorage, const SkColorSpace_XYZ* space, bool gammasAreMatching) { build_gamma_tables(dstGammaTables, dstStorage, kDstGammaTableSize, space, kFromLinear, gammasAreMatching); } /////////////////////////////////////////////////////////////////////////////////////////////////// std::unique_ptr SkColorSpaceXform::New(SkColorSpace* src, SkColorSpace* dst) { return SkColorSpaceXform_Base::New(src, dst, SkTransferFunctionBehavior::kRespect); } std::unique_ptr SkColorSpaceXform_Base::New( SkColorSpace* src, SkColorSpace* dst, SkTransferFunctionBehavior premulBehavior) { if (!src || !dst) { // Invalid input return nullptr; } if (SkColorSpace_Base::Type::kA2B == as_CSB(dst)->type()) { SkCSXformPrintf("A2B destinations not supported\n"); return nullptr; } if (SkColorSpace_Base::Type::kA2B == as_CSB(src)->type()) { return skstd::make_unique(static_cast(src), static_cast(dst)); } return skstd::make_unique(static_cast(src), static_cast(dst), premulBehavior); } /////////////////////////////////////////////////////////////////////////////////////////////////// static inline int num_tables(SkColorSpace_XYZ* space) { switch (space->gammaNamed()) { case kSRGB_SkGammaNamed: case k2Dot2Curve_SkGammaNamed: case kLinear_SkGammaNamed: return 0; default: { const SkGammas* gammas = space->gammas(); SkASSERT(gammas); bool gammasAreMatching = (gammas->type(0) == gammas->type(1)) && (gammas->data(0) == gammas->data(1)) && (gammas->type(0) == gammas->type(2)) && (gammas->data(0) == gammas->data(2)); // It's likely that each component will have the same gamma. In this case, // we only need to build one table. return gammasAreMatching ? 1 : 3; } } } SkColorSpaceXform_XYZ::SkColorSpaceXform_XYZ(SkColorSpace_XYZ* src, SkColorSpace_XYZ* dst, SkTransferFunctionBehavior premulBehavior) : fPremulBehavior(premulBehavior) { fColorSpacesAreIdentical = SkColorSpace::Equals(src, dst); SkMatrix44 srcToDst(SkMatrix44::kIdentity_Constructor); if (!fColorSpacesAreIdentical && *src->toXYZD50() != *dst->toXYZD50()) { srcToDst.setConcat(*dst->fromXYZD50(), *src->toXYZD50()); } fSrcToDst[ 0] = srcToDst.get(0, 0); fSrcToDst[ 1] = srcToDst.get(1, 0); fSrcToDst[ 2] = srcToDst.get(2, 0); fSrcToDst[ 3] = srcToDst.get(0, 1); fSrcToDst[ 4] = srcToDst.get(1, 1); fSrcToDst[ 5] = srcToDst.get(2, 1); fSrcToDst[ 6] = srcToDst.get(0, 2); fSrcToDst[ 7] = srcToDst.get(1, 2); fSrcToDst[ 8] = srcToDst.get(2, 2); fSrcToDst[ 9] = srcToDst.get(0, 3); fSrcToDst[10] = srcToDst.get(1, 3); fSrcToDst[11] = srcToDst.get(2, 3); fSrcToDstIsIdentity = srcToDst.isIdentity(); const int numSrcTables = num_tables(src); const size_t srcEntries = numSrcTables * 256; const bool srcGammasAreMatching = (1 >= numSrcTables); fSrcStorage.reset(srcEntries); build_gamma_tables(fSrcGammaTables, fSrcStorage.get(), 256, src, kToLinear, srcGammasAreMatching); const int numDstTables = num_tables(dst); dst->toDstGammaTables(fDstGammaTables, &fDstStorage, numDstTables); if (src->gammaIsLinear()) { fSrcGamma = kLinear_SrcGamma; } else if (kSRGB_SkGammaNamed == src->gammaNamed()) { fSrcGamma = kSRGB_SrcGamma; } else { fSrcGamma = kTable_SrcGamma; } switch (dst->gammaNamed()) { case kSRGB_SkGammaNamed: fDstGamma = kSRGB_DstGamma; break; case k2Dot2Curve_SkGammaNamed: fDstGamma = k2Dot2_DstGamma; break; case kLinear_SkGammaNamed: fDstGamma = kLinear_DstGamma; break; default: fDstGamma = kTable_DstGamma; break; } } bool SkColorSpaceXform_XYZ::onApply(ColorFormat dstColorFormat, void* dst, ColorFormat srcColorFormat, const void* src, int len, SkAlphaType alphaType) const { if (fColorSpacesAreIdentical && kPremul_SkAlphaType != alphaType) { if ((kRGBA_8888_ColorFormat == dstColorFormat && kRGBA_8888_ColorFormat == srcColorFormat) || (kBGRA_8888_ColorFormat == dstColorFormat && kBGRA_8888_ColorFormat == srcColorFormat)) { memcpy(dst, src, len * sizeof(uint32_t)); return true; } if ((kRGBA_8888_ColorFormat == dstColorFormat && kBGRA_8888_ColorFormat == srcColorFormat) || (kBGRA_8888_ColorFormat == dstColorFormat && kRGBA_8888_ColorFormat == srcColorFormat)) { SkOpts::RGBA_to_BGRA((uint32_t*)dst, src, len); return true; } } SkRasterPipeline_<256> pipeline; SkJumper_MemoryCtx src_ctx = { (void*)src, 0 }, dst_ctx = { (void*)dst, 0 }; LoadTablesContext loadTables; switch (srcColorFormat) { case kRGBA_8888_ColorFormat: if (kLinear_SrcGamma == fSrcGamma) { pipeline.append(SkRasterPipeline::load_8888, &src_ctx); } else { loadTables.fSrc = src; loadTables.fR = fSrcGammaTables[0]; loadTables.fG = fSrcGammaTables[1]; loadTables.fB = fSrcGammaTables[2]; pipeline.append(SkRasterPipeline::load_tables, &loadTables); } break; case kBGRA_8888_ColorFormat: if (kLinear_SrcGamma == fSrcGamma) { pipeline.append(SkRasterPipeline::load_bgra, &src_ctx); } else { loadTables.fSrc = src; loadTables.fR = fSrcGammaTables[2]; loadTables.fG = fSrcGammaTables[1]; loadTables.fB = fSrcGammaTables[0]; pipeline.append(SkRasterPipeline::load_tables, &loadTables); pipeline.append(SkRasterPipeline::swap_rb); } break; case kRGBA_F16_ColorFormat: if (kLinear_SrcGamma != fSrcGamma) { return false; } pipeline.append(SkRasterPipeline::load_f16, &src_ctx); break; case kRGBA_F32_ColorFormat: if (kLinear_SrcGamma != fSrcGamma) { return false; } pipeline.append(SkRasterPipeline::load_f32, &src_ctx); break; case kRGBA_U16_BE_ColorFormat: switch (fSrcGamma) { case kLinear_SrcGamma: pipeline.append(SkRasterPipeline::load_u16_be, &src_ctx); break; case kSRGB_SrcGamma: pipeline.append(SkRasterPipeline::load_u16_be, &src_ctx); pipeline.append(SkRasterPipeline::from_srgb); break; case kTable_SrcGamma: loadTables.fSrc = src; loadTables.fR = fSrcGammaTables[0]; loadTables.fG = fSrcGammaTables[1]; loadTables.fB = fSrcGammaTables[2]; pipeline.append(SkRasterPipeline::load_tables_u16_be, &loadTables); break; } break; case kRGB_U16_BE_ColorFormat: switch (fSrcGamma) { case kLinear_SrcGamma: pipeline.append(SkRasterPipeline::load_rgb_u16_be, &src_ctx); break; case kSRGB_SrcGamma: pipeline.append(SkRasterPipeline::load_rgb_u16_be, &src_ctx); pipeline.append(SkRasterPipeline::from_srgb); break; case kTable_SrcGamma: loadTables.fSrc = src; loadTables.fR = fSrcGammaTables[0]; loadTables.fG = fSrcGammaTables[1]; loadTables.fB = fSrcGammaTables[2]; pipeline.append(SkRasterPipeline::load_tables_rgb_u16_be, &loadTables); break; } break; default: return false; } if (!fSrcToDstIsIdentity) { pipeline.append(SkRasterPipeline::matrix_3x4, fSrcToDst); if (kRGBA_F16_ColorFormat != dstColorFormat && kRGBA_F32_ColorFormat != dstColorFormat) { bool need_clamp_0, need_clamp_1; analyze_3x4_matrix(fSrcToDst, &need_clamp_0, &need_clamp_1); if (need_clamp_0) { pipeline.append(SkRasterPipeline::clamp_0); } if (need_clamp_1) { pipeline.append(SkRasterPipeline::clamp_1); } } } if (kPremul_SkAlphaType == alphaType && SkTransferFunctionBehavior::kRespect == fPremulBehavior) { pipeline.append(SkRasterPipeline::premul); } TablesContext tables; float to_2dot2 = 1/2.2f; switch (fDstGamma) { case kSRGB_DstGamma: pipeline.append(SkRasterPipeline::to_srgb); break; case k2Dot2_DstGamma: pipeline.append(SkRasterPipeline::gamma, &to_2dot2); break; case kTable_DstGamma: tables.fR = fDstGammaTables[0]; tables.fG = fDstGammaTables[1]; tables.fB = fDstGammaTables[2]; tables.fCount = SkColorSpaceXform_Base::kDstGammaTableSize; pipeline.append(SkRasterPipeline::byte_tables_rgb, &tables); default: break; } if (kPremul_SkAlphaType == alphaType && SkTransferFunctionBehavior::kIgnore == fPremulBehavior) { pipeline.append(SkRasterPipeline::premul); } switch (dstColorFormat) { case kRGBA_8888_ColorFormat: pipeline.append(SkRasterPipeline::store_8888, &dst_ctx); break; case kBGRA_8888_ColorFormat: pipeline.append(SkRasterPipeline::store_bgra, &dst_ctx); break; case kRGBA_F16_ColorFormat: if (kLinear_DstGamma != fDstGamma) { return false; } pipeline.append(SkRasterPipeline::store_f16, &dst_ctx); break; case kRGBA_F32_ColorFormat: if (kLinear_DstGamma != fDstGamma) { return false; } pipeline.append(SkRasterPipeline::store_f32, &dst_ctx); break; case kBGR_565_ColorFormat: if (kOpaque_SkAlphaType != alphaType) { return false; } pipeline.append(SkRasterPipeline::store_565, &dst_ctx); break; default: return false; } pipeline.run(0,0, len,1); return true; } std::unique_ptr SlowIdentityXform(SkColorSpace_XYZ* space) { auto xform = skstd::make_unique(space, space, SkTransferFunctionBehavior::kRespect); xform->pretendNotToBeIdentityForTesting(); return std::move(xform); } bool SkColorSpaceXform::apply(ColorFormat dstColorFormat, void* dst, ColorFormat srcColorFormat, const void* src, int len, SkAlphaType alphaType) const { return ((SkColorSpaceXform_Base*) this)->onApply(dstColorFormat, dst, srcColorFormat, src, len, alphaType); } bool SkColorSpaceXform::Apply(SkColorSpace* dstCS, ColorFormat dstFormat, void* dst, SkColorSpace* srcCS, ColorFormat srcFormat, const void* src, int len, AlphaOp op) { SkAlphaType at; switch (op) { case kPreserve_AlphaOp: at = kUnpremul_SkAlphaType; break; case kPremul_AlphaOp: at = kPremul_SkAlphaType; break; case kSrcIsOpaque_AlphaOp: at = kOpaque_SkAlphaType; break; } return New(srcCS, dstCS)->apply(dstFormat, dst, srcFormat, src, len, at); }