/* * Copyright 2014 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "GrGLShaderBuilder.h" #include "GrGLProgramBuilder.h" #include "GrGLShaderStringBuilder.h" #include "../GrGLGpu.h" #include "../GrGLShaderVar.h" namespace { inline const char* sample_function_name(GrSLType type, GrGLSLGeneration glslGen) { if (kVec2f_GrSLType == type) { return glslGen >= k130_GrGLSLGeneration ? "texture" : "texture2D"; } else { SkASSERT(kVec3f_GrSLType == type); return glslGen >= k130_GrGLSLGeneration ? "textureProj" : "texture2DProj"; } } void append_texture_lookup(SkString* out, GrGLGpu* gpu, const char* samplerName, const char* coordName, uint32_t configComponentMask, const char* swizzle, GrSLType varyingType = kVec2f_GrSLType) { SkASSERT(coordName); out->appendf("%s(%s, %s)", sample_function_name(varyingType, gpu->glslGeneration()), samplerName, coordName); char mangledSwizzle[5]; // The swizzling occurs using texture params instead of shader-mangling if ARB_texture_swizzle // is available. if (!gpu->glCaps().textureSwizzleSupport() && (kA_GrColorComponentFlag == configComponentMask)) { char alphaChar = gpu->glCaps().textureRedSupport() ? 'r' : 'a'; int i; for (i = 0; '\0' != swizzle[i]; ++i) { mangledSwizzle[i] = alphaChar; } mangledSwizzle[i] ='\0'; swizzle = mangledSwizzle; } // For shader prettiness we omit the swizzle rather than appending ".rgba". if (memcmp(swizzle, "rgba", 4)) { out->appendf(".%s", swizzle); } } } GrGLShaderBuilder::GrGLShaderBuilder(GrGLProgramBuilder* program) : fProgramBuilder(program) , fInputs(GrGLProgramBuilder::kVarsPerBlock) , fOutputs(GrGLProgramBuilder::kVarsPerBlock) , fFeaturesAddedMask(0) , fCodeIndex(kCode) , fFinalized(false) { // We push back some dummy pointers which will later become our header for (int i = 0; i <= kCode; i++) { fShaderStrings.push_back(); fCompilerStrings.push_back(NULL); fCompilerStringLengths.push_back(0); } this->main() = "void main() {"; } void GrGLShaderBuilder::declAppend(const GrGLShaderVar& var) { SkString tempDecl; var.appendDecl(fProgramBuilder->ctxInfo(), &tempDecl); this->codeAppendf("%s;", tempDecl.c_str()); } void GrGLShaderBuilder::emitFunction(GrSLType returnType, const char* name, int argCnt, const GrGLShaderVar* args, const char* body, SkString* outName) { this->functions().append(GrGLSLTypeString(returnType)); fProgramBuilder->nameVariable(outName, '\0', name); this->functions().appendf(" %s", outName->c_str()); this->functions().append("("); const GrGLContextInfo& ctxInfo = fProgramBuilder->gpu()->ctxInfo(); for (int i = 0; i < argCnt; ++i) { args[i].appendDecl(ctxInfo, &this->functions()); if (i < argCnt - 1) { this->functions().append(", "); } } this->functions().append(") {\n"); this->functions().append(body); this->functions().append("}\n\n"); } void GrGLShaderBuilder::appendTextureLookup(SkString* out, const TextureSampler& sampler, const char* coordName, GrSLType varyingType) const { append_texture_lookup(out, fProgramBuilder->gpu(), fProgramBuilder->getUniformCStr(sampler.fSamplerUniform), coordName, sampler.configComponentMask(), sampler.swizzle(), varyingType); } void GrGLShaderBuilder::appendTextureLookup(const TextureSampler& sampler, const char* coordName, GrSLType varyingType) { this->appendTextureLookup(&this->code(), sampler, coordName, varyingType); } void GrGLShaderBuilder::appendTextureLookupAndModulate(const char* modulation, const TextureSampler& sampler, const char* coordName, GrSLType varyingType) { SkString lookup; this->appendTextureLookup(&lookup, sampler, coordName, varyingType); this->codeAppend((GrGLSLExpr4(modulation) * GrGLSLExpr4(lookup)).c_str()); } const GrGLenum* GrGLShaderBuilder::GetTexParamSwizzle(GrPixelConfig config, const GrGLCaps& caps) { if (caps.textureSwizzleSupport() && GrPixelConfigIsAlphaOnly(config)) { if (caps.textureRedSupport()) { static const GrGLenum gRedSmear[] = { GR_GL_RED, GR_GL_RED, GR_GL_RED, GR_GL_RED }; return gRedSmear; } else { static const GrGLenum gAlphaSmear[] = { GR_GL_ALPHA, GR_GL_ALPHA, GR_GL_ALPHA, GR_GL_ALPHA }; return gAlphaSmear; } } else { static const GrGLenum gStraight[] = { GR_GL_RED, GR_GL_GREEN, GR_GL_BLUE, GR_GL_ALPHA }; return gStraight; } } void GrGLShaderBuilder::addFeature(uint32_t featureBit, const char* extensionName) { if (!(featureBit & fFeaturesAddedMask)) { this->extensions().appendf("#extension %s: require\n", extensionName); fFeaturesAddedMask |= featureBit; } } void GrGLShaderBuilder::appendDecls(const VarArray& vars, SkString* out) const { for (int i = 0; i < vars.count(); ++i) { vars[i].appendDecl(fProgramBuilder->ctxInfo(), out); out->append(";\n"); } } void GrGLShaderBuilder::appendTextureLookup(const char* samplerName, const char* coordName, uint32_t configComponentMask, const char* swizzle) { append_texture_lookup(&this->code(), fProgramBuilder->gpu(), samplerName, coordName, configComponentMask, swizzle, kVec2f_GrSLType); } void GrGLShaderBuilder::addLayoutQualifier(const char* param, InterfaceQualifier interface) { SkASSERT(fProgramBuilder->gpu()->glslGeneration() >= k330_GrGLSLGeneration || fProgramBuilder->gpu()->glCaps().glslCaps()->mustEnableAdvBlendEqs()); fLayoutParams[interface].push_back() = param; } void GrGLShaderBuilder::compileAndAppendLayoutQualifiers() { static const char* interfaceQualifierNames[] = { "out" }; for (int interface = 0; interface <= kLastInterfaceQualifier; ++interface) { const SkTArray& params = fLayoutParams[interface]; if (params.empty()) { continue; } this->layoutQualifiers().appendf("layout(%s", params[0].c_str()); for (int i = 1; i < params.count(); ++i) { this->layoutQualifiers().appendf(", %s", params[i].c_str()); } this->layoutQualifiers().appendf(") %s;\n", interfaceQualifierNames[interface]); } GR_STATIC_ASSERT(0 == GrGLShaderBuilder::kOut_InterfaceQualifier); GR_STATIC_ASSERT(SK_ARRAY_COUNT(interfaceQualifierNames) == kLastInterfaceQualifier + 1); } bool GrGLShaderBuilder::finalize(GrGLuint programId, GrGLenum type, SkTDArray* shaderIds) { SkASSERT(!fFinalized); // append the 'footer' to code this->code().append("}"); for (int i = 0; i <= fCodeIndex; i++) { fCompilerStrings[i] = fShaderStrings[i].c_str(); fCompilerStringLengths[i] = (int)fShaderStrings[i].size(); } GrGLGpu* gpu = fProgramBuilder->gpu(); GrGLuint shaderId = GrGLCompileAndAttachShader(gpu->glContext(), programId, type, fCompilerStrings.begin(), fCompilerStringLengths.begin(), fCompilerStrings.count(), gpu->stats()); fFinalized = true; if (!shaderId) { return false; } *shaderIds->append() = shaderId; return true; }