/* * Copyright 2015 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "src/core/SkBlendModePriv.h" #include "src/gpu/glsl/GrGLSLBlend.h" #include "src/gpu/glsl/GrGLSLFragmentShaderBuilder.h" #include "src/gpu/glsl/GrGLSLProgramBuilder.h" ////////////////////////////////////////////////////////////////////////////// // Advanced (non-coeff) blend helpers ////////////////////////////////////////////////////////////////////////////// static void hard_light(GrGLSLFragmentBuilder* fsBuilder, const char* final, const char* src, const char* dst) { static const char kComponents[] = { 'r', 'g', 'b' }; for (size_t i = 0; i < SK_ARRAY_COUNT(kComponents); ++i) { char component = kComponents[i]; fsBuilder->codeAppendf("if (2.0 * %s.%c <= %s.a) {", src, component, src); fsBuilder->codeAppendf("%s.%c = 2.0 * %s.%c * %s.%c;", final, component, src, component, dst, component); fsBuilder->codeAppend("} else {"); fsBuilder->codeAppendf("%s.%c = %s.a * %s.a - 2.0 * (%s.a - %s.%c) * (%s.a - %s.%c);", final, component, src, dst, dst, dst, component, src, src, component); fsBuilder->codeAppend("}"); } fsBuilder->codeAppendf("%s.rgb += %s.rgb * (1.0 - %s.a) + %s.rgb * (1.0 - %s.a);", final, src, dst, dst, src); } // Does one component of color-dodge static void color_dodge_component(GrGLSLFragmentBuilder* fsBuilder, const char* final, const char* src, const char* dst, const char component) { const char* divisorGuard = ""; const GrShaderCaps* shaderCaps = fsBuilder->getProgramBuilder()->shaderCaps(); if (shaderCaps->mustGuardDivisionEvenAfterExplicitZeroCheck()) { divisorGuard = "+ 0.00000001"; } fsBuilder->codeAppendf("if (0.0 == %s.%c) {", dst, component); fsBuilder->codeAppendf("%s.%c = %s.%c * (1.0 - %s.a);", final, component, src, component, dst); fsBuilder->codeAppend("} else {"); fsBuilder->codeAppendf("half d = %s.a - %s.%c;", src, src, component); fsBuilder->codeAppend("if (0.0 == d) {"); fsBuilder->codeAppendf("%s.%c = %s.a * %s.a + %s.%c * (1.0 - %s.a) + %s.%c * (1.0 - %s.a);", final, component, src, dst, src, component, dst, dst, component, src); fsBuilder->codeAppend("} else {"); fsBuilder->codeAppendf("d = min(%s.a, %s.%c * %s.a / (d %s));", dst, dst, component, src, divisorGuard); fsBuilder->codeAppendf("%s.%c = d * %s.a + %s.%c * (1.0 - %s.a) + %s.%c * (1.0 - %s.a);", final, component, src, src, component, dst, dst, component, src); fsBuilder->codeAppend("}"); fsBuilder->codeAppend("}"); } // Does one component of color-burn static void color_burn_component(GrGLSLFragmentBuilder* fsBuilder, const char* final, const char* src, const char* dst, const char component) { const char* divisorGuard = ""; const GrShaderCaps* shaderCaps = fsBuilder->getProgramBuilder()->shaderCaps(); if (shaderCaps->mustGuardDivisionEvenAfterExplicitZeroCheck()) { divisorGuard = "+ 0.00000001"; } fsBuilder->codeAppendf("if (%s.a == %s.%c) {", dst, dst, component); fsBuilder->codeAppendf("%s.%c = %s.a * %s.a + %s.%c * (1.0 - %s.a) + %s.%c * (1.0 - %s.a);", final, component, src, dst, src, component, dst, dst, component, src); fsBuilder->codeAppendf("} else if (0.0 == %s.%c) {", src, component); fsBuilder->codeAppendf("%s.%c = %s.%c * (1.0 - %s.a);", final, component, dst, component, src); fsBuilder->codeAppend("} else {"); fsBuilder->codeAppendf("half d = max(0.0, %s.a - (%s.a - %s.%c) * %s.a / (%s.%c %s));", dst, dst, dst, component, src, src, component, divisorGuard); fsBuilder->codeAppendf("%s.%c = %s.a * d + %s.%c * (1.0 - %s.a) + %s.%c * (1.0 - %s.a);", final, component, src, src, component, dst, dst, component, src); fsBuilder->codeAppend("}"); } // Does one component of soft-light. Caller should have already checked that dst alpha > 0. static void soft_light_component_pos_dst_alpha(GrGLSLFragmentBuilder* fsBuilder, const char* final, const char* src, const char* dst, const char component) { const char* divisorGuard = ""; const GrShaderCaps* shaderCaps = fsBuilder->getProgramBuilder()->shaderCaps(); if (shaderCaps->mustGuardDivisionEvenAfterExplicitZeroCheck()) { divisorGuard = "+ 0.00000001"; } // if (2S < Sa) fsBuilder->codeAppendf("if (2.0 * %s.%c <= %s.a) {", src, component, src); // (D^2 (Sa-2 S))/Da+(1-Da) S+D (-Sa+2 S+1) fsBuilder->codeAppendf("%s.%c = (%s.%c*%s.%c*(%s.a - 2.0*%s.%c)) / (%s.a %s) +" "(1.0 - %s.a) * %s.%c + %s.%c*(-%s.a + 2.0*%s.%c + 1.0);", final, component, dst, component, dst, component, src, src, component, dst, divisorGuard, dst, src, component, dst, component, src, src, component); // else if (4D < Da) fsBuilder->codeAppendf("} else if (4.0 * %s.%c <= %s.a) {", dst, component, dst); fsBuilder->codeAppendf("half DSqd = %s.%c * %s.%c;", dst, component, dst, component); fsBuilder->codeAppendf("half DCub = DSqd * %s.%c;", dst, component); fsBuilder->codeAppendf("half DaSqd = %s.a * %s.a;", dst, dst); fsBuilder->codeAppendf("half DaCub = DaSqd * %s.a;", dst); // (Da^3 (-S)+Da^2 (S-D (3 Sa-6 S-1))+12 Da D^2 (Sa-2 S)-16 D^3 (Sa-2 S))/Da^2 fsBuilder->codeAppendf("%s.%c =" "(DaSqd*(%s.%c - %s.%c * (3.0*%s.a - 6.0*%s.%c - 1.0)) +" " 12.0*%s.a*DSqd*(%s.a - 2.0*%s.%c) - 16.0*DCub * (%s.a - 2.0*%s.%c) -" " DaCub*%s.%c) / (DaSqd %s);", final, component, src, component, dst, component, src, src, component, dst, src, src, component, src, src, component, src, component, divisorGuard); fsBuilder->codeAppendf("} else {"); // -sqrt(Da * D) (Sa-2 S)-Da S+D (Sa-2 S+1)+S fsBuilder->codeAppendf("%s.%c = %s.%c*(%s.a - 2.0*%s.%c + 1.0) + %s.%c -" " sqrt(%s.a*%s.%c)*(%s.a - 2.0*%s.%c) - %s.a*%s.%c;", final, component, dst, component, src, src, component, src, component, dst, dst, component, src, src, component, dst, src, component); fsBuilder->codeAppendf("}"); } // Adds a function that takes two colors and an alpha as input. It produces a color with the // hue and saturation of the first color, the luminosity of the second color, and the input // alpha. It has this signature: // float3 set_luminance(float3 hueSatColor, float alpha, float3 lumColor). static void add_lum_function(GrGLSLFragmentBuilder* fsBuilder, SkString* setLumFunction) { // Emit a helper that gets the luminance of a color. SkString getFunction; GrShaderVar getLumArgs[] = { GrShaderVar("color", kHalf3_GrSLType), }; SkString getLumBody("return dot(half3(0.3, 0.59, 0.11), color);"); fsBuilder->emitFunction(kHalf_GrSLType, "luminance", SK_ARRAY_COUNT(getLumArgs), getLumArgs, getLumBody.c_str(), &getFunction); // Emit the set luminance function. GrShaderVar setLumArgs[] = { GrShaderVar("hueSat", kHalf3_GrSLType), GrShaderVar("alpha", kHalf_GrSLType), GrShaderVar("lumColor", kHalf3_GrSLType), }; SkString setLumBody; setLumBody.printf("half outLum = %s(lumColor);", getFunction.c_str()); setLumBody.appendf("half3 outColor = outLum - %s(hueSat) + hueSat;", getFunction.c_str()); setLumBody.append("half minComp = min(min(outColor.r, outColor.g), outColor.b);" "half maxComp = max(max(outColor.r, outColor.g), outColor.b);" "if (minComp < 0.0 && outLum != minComp) {" "outColor = outLum + ((outColor - half3(outLum, outLum, outLum)) * outLum) /" "(outLum - minComp);" "}" "if (maxComp > alpha && maxComp != outLum) {" "outColor = outLum +" "((outColor - half3(outLum, outLum, outLum)) * (alpha - outLum)) /" "(maxComp - outLum);" "}" "return outColor;"); fsBuilder->emitFunction(kHalf3_GrSLType, "set_luminance", SK_ARRAY_COUNT(setLumArgs), setLumArgs, setLumBody.c_str(), setLumFunction); } // Adds a function that creates a color with the hue and luminosity of one input color and // the saturation of another color. It will have this signature: // float set_saturation(float3 hueLumColor, float3 satColor) static void add_sat_function(GrGLSLFragmentBuilder* fsBuilder, SkString* setSatFunction) { // Emit a helper that gets the saturation of a color SkString getFunction; GrShaderVar getSatArgs[] = { GrShaderVar("color", kHalf3_GrSLType) }; SkString getSatBody; getSatBody.printf("return max(max(color.r, color.g), color.b) - " "min(min(color.r, color.g), color.b);"); fsBuilder->emitFunction(kHalf_GrSLType, "saturation", SK_ARRAY_COUNT(getSatArgs), getSatArgs, getSatBody.c_str(), &getFunction); // Emit a helper that sets the saturation given sorted input channels. This used // to use inout params for min, mid, and max components but that seems to cause // problems on PowerVR drivers. So instead it returns a float3 where r, g ,b are the // adjusted min, mid, and max inputs, respectively. SkString helperFunction; GrShaderVar helperArgs[] = { GrShaderVar("minComp", kHalf_GrSLType), GrShaderVar("midComp", kHalf_GrSLType), GrShaderVar("maxComp", kHalf_GrSLType), GrShaderVar("sat", kHalf_GrSLType), }; static const char kHelperBody[] = "if (minComp < maxComp) {" "half3 result;" "result.r = 0.0;" "result.g = sat * (midComp - minComp) / (maxComp - minComp);" "result.b = sat;" "return result;" "} else {" "return half3(0, 0, 0);" "}"; fsBuilder->emitFunction(kHalf3_GrSLType, "set_saturation_helper", SK_ARRAY_COUNT(helperArgs), helperArgs, kHelperBody, &helperFunction); GrShaderVar setSatArgs[] = { GrShaderVar("hueLumColor", kHalf3_GrSLType), GrShaderVar("satColor", kHalf3_GrSLType), }; const char* helpFunc = helperFunction.c_str(); SkString setSatBody; setSatBody.appendf("half sat = %s(satColor);" "if (hueLumColor.r <= hueLumColor.g) {" "if (hueLumColor.g <= hueLumColor.b) {" "hueLumColor.rgb = %s(hueLumColor.r, hueLumColor.g, hueLumColor.b, sat);" "} else if (hueLumColor.r <= hueLumColor.b) {" "hueLumColor.rbg = %s(hueLumColor.r, hueLumColor.b, hueLumColor.g, sat);" "} else {" "hueLumColor.brg = %s(hueLumColor.b, hueLumColor.r, hueLumColor.g, sat);" "}" "} else if (hueLumColor.r <= hueLumColor.b) {" "hueLumColor.grb = %s(hueLumColor.g, hueLumColor.r, hueLumColor.b, sat);" "} else if (hueLumColor.g <= hueLumColor.b) {" "hueLumColor.gbr = %s(hueLumColor.g, hueLumColor.b, hueLumColor.r, sat);" "} else {" "hueLumColor.bgr = %s(hueLumColor.b, hueLumColor.g, hueLumColor.r, sat);" "}" "return hueLumColor;", getFunction.c_str(), helpFunc, helpFunc, helpFunc, helpFunc, helpFunc, helpFunc); fsBuilder->emitFunction(kHalf3_GrSLType, "set_saturation", SK_ARRAY_COUNT(setSatArgs), setSatArgs, setSatBody.c_str(), setSatFunction); } static void emit_advanced_xfermode_code(GrGLSLFragmentBuilder* fsBuilder, const char* srcColor, const char* dstColor, const char* outputColor, SkBlendMode mode) { SkASSERT(srcColor); SkASSERT(dstColor); SkASSERT(outputColor); // These all perform src-over on the alpha channel. fsBuilder->codeAppendf("%s.a = %s.a + (1.0 - %s.a) * %s.a;", outputColor, srcColor, srcColor, dstColor); switch (mode) { case SkBlendMode::kOverlay: // Overlay is Hard-Light with the src and dst reversed hard_light(fsBuilder, outputColor, dstColor, srcColor); break; case SkBlendMode::kDarken: fsBuilder->codeAppendf("%s.rgb = min((1.0 - %s.a) * %s.rgb + %s.rgb, " "(1.0 - %s.a) * %s.rgb + %s.rgb);", outputColor, srcColor, dstColor, srcColor, dstColor, srcColor, dstColor); break; case SkBlendMode::kLighten: fsBuilder->codeAppendf("%s.rgb = max((1.0 - %s.a) * %s.rgb + %s.rgb, " "(1.0 - %s.a) * %s.rgb + %s.rgb);", outputColor, srcColor, dstColor, srcColor, dstColor, srcColor, dstColor); break; case SkBlendMode::kColorDodge: color_dodge_component(fsBuilder, outputColor, srcColor, dstColor, 'r'); color_dodge_component(fsBuilder, outputColor, srcColor, dstColor, 'g'); color_dodge_component(fsBuilder, outputColor, srcColor, dstColor, 'b'); break; case SkBlendMode::kColorBurn: color_burn_component(fsBuilder, outputColor, srcColor, dstColor, 'r'); color_burn_component(fsBuilder, outputColor, srcColor, dstColor, 'g'); color_burn_component(fsBuilder, outputColor, srcColor, dstColor, 'b'); break; case SkBlendMode::kHardLight: hard_light(fsBuilder, outputColor, srcColor, dstColor); break; case SkBlendMode::kSoftLight: fsBuilder->codeAppendf("if (0.0 == %s.a) {", dstColor); fsBuilder->codeAppendf("%s.rgba = %s;", outputColor, srcColor); fsBuilder->codeAppendf("} else {"); soft_light_component_pos_dst_alpha(fsBuilder, outputColor, srcColor, dstColor, 'r'); soft_light_component_pos_dst_alpha(fsBuilder, outputColor, srcColor, dstColor, 'g'); soft_light_component_pos_dst_alpha(fsBuilder, outputColor, srcColor, dstColor, 'b'); fsBuilder->codeAppendf("}"); break; case SkBlendMode::kDifference: fsBuilder->codeAppendf("%s.rgb = %s.rgb + %s.rgb -" "2.0 * min(%s.rgb * %s.a, %s.rgb * %s.a);", outputColor, srcColor, dstColor, srcColor, dstColor, dstColor, srcColor); break; case SkBlendMode::kExclusion: fsBuilder->codeAppendf("%s.rgb = %s.rgb + %s.rgb - " "2.0 * %s.rgb * %s.rgb;", outputColor, dstColor, srcColor, dstColor, srcColor); break; case SkBlendMode::kMultiply: fsBuilder->codeAppendf("%s.rgb = (1.0 - %s.a) * %s.rgb + " "(1.0 - %s.a) * %s.rgb + " "%s.rgb * %s.rgb;", outputColor, srcColor, dstColor, dstColor, srcColor, srcColor, dstColor); break; case SkBlendMode::kHue: { // SetLum(SetSat(S * Da, Sat(D * Sa)), Sa*Da, D*Sa) + (1 - Sa) * D + (1 - Da) * S SkString setSat, setLum; add_sat_function(fsBuilder, &setSat); add_lum_function(fsBuilder, &setLum); fsBuilder->codeAppendf("half4 dstSrcAlpha = %s * %s.a;", dstColor, srcColor); fsBuilder->codeAppendf("%s.rgb = %s(%s(%s.rgb * %s.a, dstSrcAlpha.rgb)," "dstSrcAlpha.a, dstSrcAlpha.rgb);", outputColor, setLum.c_str(), setSat.c_str(), srcColor, dstColor); fsBuilder->codeAppendf("%s.rgb += (1.0 - %s.a) * %s.rgb + (1.0 - %s.a) * %s.rgb;", outputColor, srcColor, dstColor, dstColor, srcColor); break; } case SkBlendMode::kSaturation: { // SetLum(SetSat(D * Sa, Sat(S * Da)), Sa*Da, D*Sa)) + (1 - Sa) * D + (1 - Da) * S SkString setSat, setLum; add_sat_function(fsBuilder, &setSat); add_lum_function(fsBuilder, &setLum); fsBuilder->codeAppendf("half4 dstSrcAlpha = %s * %s.a;", dstColor, srcColor); fsBuilder->codeAppendf("%s.rgb = %s(%s(dstSrcAlpha.rgb, %s.rgb * %s.a)," "dstSrcAlpha.a, dstSrcAlpha.rgb);", outputColor, setLum.c_str(), setSat.c_str(), srcColor, dstColor); fsBuilder->codeAppendf("%s.rgb += (1.0 - %s.a) * %s.rgb + (1.0 - %s.a) * %s.rgb;", outputColor, srcColor, dstColor, dstColor, srcColor); break; } case SkBlendMode::kColor: { // SetLum(S * Da, Sa* Da, D * Sa) + (1 - Sa) * D + (1 - Da) * S SkString setLum; add_lum_function(fsBuilder, &setLum); fsBuilder->codeAppendf("half4 srcDstAlpha = %s * %s.a;", srcColor, dstColor); fsBuilder->codeAppendf("%s.rgb = %s(srcDstAlpha.rgb, srcDstAlpha.a, %s.rgb * %s.a);", outputColor, setLum.c_str(), dstColor, srcColor); fsBuilder->codeAppendf("%s.rgb += (1.0 - %s.a) * %s.rgb + (1.0 - %s.a) * %s.rgb;", outputColor, srcColor, dstColor, dstColor, srcColor); break; } case SkBlendMode::kLuminosity: { // SetLum(D * Sa, Sa* Da, S * Da) + (1 - Sa) * D + (1 - Da) * S SkString setLum; add_lum_function(fsBuilder, &setLum); fsBuilder->codeAppendf("half4 srcDstAlpha = %s * %s.a;", srcColor, dstColor); fsBuilder->codeAppendf("%s.rgb = %s(%s.rgb * %s.a, srcDstAlpha.a, srcDstAlpha.rgb);", outputColor, setLum.c_str(), dstColor, srcColor); fsBuilder->codeAppendf("%s.rgb += (1.0 - %s.a) * %s.rgb + (1.0 - %s.a) * %s.rgb;", outputColor, srcColor, dstColor, dstColor, srcColor); break; } default: SK_ABORT("Unknown Custom Xfer mode."); break; } } ////////////////////////////////////////////////////////////////////////////// // Porter-Duff blend helper ////////////////////////////////////////////////////////////////////////////// static bool append_porterduff_term(GrGLSLFragmentBuilder* fsBuilder, SkBlendModeCoeff coeff, const char* colorName, const char* srcColorName, const char* dstColorName, bool hasPrevious) { if (SkBlendModeCoeff::kZero == coeff) { return hasPrevious; } else { if (hasPrevious) { fsBuilder->codeAppend(" + "); } fsBuilder->codeAppendf("%s", colorName); switch (coeff) { case SkBlendModeCoeff::kOne: break; case SkBlendModeCoeff::kSC: fsBuilder->codeAppendf(" * %s", srcColorName); break; case SkBlendModeCoeff::kISC: fsBuilder->codeAppendf(" * (half4(1.0) - %s)", srcColorName); break; case SkBlendModeCoeff::kDC: fsBuilder->codeAppendf(" * %s", dstColorName); break; case SkBlendModeCoeff::kIDC: fsBuilder->codeAppendf(" * (half4(1.0) - %s)", dstColorName); break; case SkBlendModeCoeff::kSA: fsBuilder->codeAppendf(" * %s.a", srcColorName); break; case SkBlendModeCoeff::kISA: fsBuilder->codeAppendf(" * (1.0 - %s.a)", srcColorName); break; case SkBlendModeCoeff::kDA: fsBuilder->codeAppendf(" * %s.a", dstColorName); break; case SkBlendModeCoeff::kIDA: fsBuilder->codeAppendf(" * (1.0 - %s.a)", dstColorName); break; default: SK_ABORT("Unsupported Blend Coeff"); } return true; } } ////////////////////////////////////////////////////////////////////////////// void GrGLSLBlend::AppendMode(GrGLSLFragmentBuilder* fsBuilder, const char* srcColor, const char* dstColor, const char* outColor, SkBlendMode mode) { SkBlendModeCoeff srcCoeff, dstCoeff; if (SkBlendMode_AsCoeff(mode, &srcCoeff, &dstCoeff)) { // The only coeff mode that can go out of range is plus. bool clamp = mode == SkBlendMode::kPlus; fsBuilder->codeAppendf("%s = ", outColor); if (clamp) { fsBuilder->codeAppend("clamp("); } // append src blend bool didAppend = append_porterduff_term(fsBuilder, srcCoeff, srcColor, srcColor, dstColor, false); // append dst blend if(!append_porterduff_term(fsBuilder, dstCoeff, dstColor, srcColor, dstColor, didAppend)) { fsBuilder->codeAppend("half4(0, 0, 0, 0)"); } if (clamp) { fsBuilder->codeAppend(", 0, 1);"); } fsBuilder->codeAppend(";"); } else { emit_advanced_xfermode_code(fsBuilder, srcColor, dstColor, outColor, mode); } } void GrGLSLBlend::AppendRegionOp(GrGLSLFragmentBuilder* fsBuilder, const char* srcColor, const char* dstColor, const char* outColor, SkRegion::Op regionOp) { SkBlendModeCoeff srcCoeff, dstCoeff; switch (regionOp) { case SkRegion::kReplace_Op: srcCoeff = SkBlendModeCoeff::kOne; dstCoeff = SkBlendModeCoeff::kZero; break; case SkRegion::kIntersect_Op: srcCoeff = SkBlendModeCoeff::kDC; dstCoeff = SkBlendModeCoeff::kZero; break; case SkRegion::kUnion_Op: srcCoeff = SkBlendModeCoeff::kOne; dstCoeff = SkBlendModeCoeff::kISC; break; case SkRegion::kXOR_Op: srcCoeff = SkBlendModeCoeff::kIDC; dstCoeff = SkBlendModeCoeff::kISC; break; case SkRegion::kDifference_Op: srcCoeff = SkBlendModeCoeff::kZero; dstCoeff = SkBlendModeCoeff::kISC; break; case SkRegion::kReverseDifference_Op: srcCoeff = SkBlendModeCoeff::kIDC; dstCoeff = SkBlendModeCoeff::kZero; break; default: SK_ABORT("Unsupported Op"); // We should never get here but to make compiler happy srcCoeff = SkBlendModeCoeff::kZero; dstCoeff = SkBlendModeCoeff::kZero; } fsBuilder->codeAppendf("%s = ", outColor); // append src blend bool didAppend = append_porterduff_term(fsBuilder, srcCoeff, srcColor, srcColor, dstColor, false); // append dst blend if(!append_porterduff_term(fsBuilder, dstCoeff, dstColor, srcColor, dstColor, didAppend)) { fsBuilder->codeAppend("half4(0, 0, 0, 0)"); } fsBuilder->codeAppend(";"); }