/* * 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 "SkSLHCodeGenerator.h" #include "SkSLParser.h" #include "SkSLUtil.h" #include "ir/SkSLEnum.h" #include "ir/SkSLFunctionDeclaration.h" #include "ir/SkSLFunctionDefinition.h" #include "ir/SkSLSection.h" #include "ir/SkSLVarDeclarations.h" namespace SkSL { HCodeGenerator::HCodeGenerator(const Context* context, const Program* program, ErrorReporter* errors, String name, OutputStream* out) : INHERITED(program, errors, out) , fContext(*context) , fName(std::move(name)) , fFullName(String::printf("Gr%s", fName.c_str())) , fSectionAndParameterHelper(*program, *errors) {} String HCodeGenerator::ParameterType(const Context& context, const Type& type, const Layout& layout) { if (layout.fCType != "") { return layout.fCType; } else if (type == *context.fFloat_Type || type == *context.fHalf_Type) { return "float"; } else if (type == *context.fFloat2_Type || type == *context.fHalf2_Type) { return "SkPoint"; } else if (type == *context.fInt4_Type || type == *context.fShort4_Type || type == *context.fByte4_Type) { return "SkIRect"; } else if (type == *context.fFloat4_Type || type == *context.fHalf4_Type) { return "SkRect"; } else if (type == *context.fFloat4x4_Type || type == *context.fHalf4x4_Type) { return "SkMatrix44"; } else if (type.kind() == Type::kSampler_Kind) { return "sk_sp"; } else if (type == *context.fFragmentProcessor_Type) { return "std::unique_ptr"; } return type.name(); } String HCodeGenerator::FieldType(const Context& context, const Type& type, const Layout& layout) { if (type.kind() == Type::kSampler_Kind) { return "TextureSampler"; } else if (type == *context.fFragmentProcessor_Type) { // we don't store fragment processors in fields, they get registered via // registerChildProcessor instead SkASSERT(false); return ""; } return ParameterType(context, type, layout); } void HCodeGenerator::writef(const char* s, va_list va) { static constexpr int BUFFER_SIZE = 1024; va_list copy; va_copy(copy, va); char buffer[BUFFER_SIZE]; int length = vsnprintf(buffer, BUFFER_SIZE, s, va); if (length < BUFFER_SIZE) { fOut->write(buffer, length); } else { std::unique_ptr heap(new char[length + 1]); vsprintf(heap.get(), s, copy); fOut->write(heap.get(), length); } } void HCodeGenerator::writef(const char* s, ...) { va_list va; va_start(va, s); this->writef(s, va); va_end(va); } bool HCodeGenerator::writeSection(const char* name, const char* prefix) { const Section* s = fSectionAndParameterHelper.getSection(name); if (s) { this->writef("%s%s", prefix, s->fText.c_str()); return true; } return false; } void HCodeGenerator::writeExtraConstructorParams(const char* separator) { // super-simple parse, just assume the last token before a comma is the name of a parameter // (which is true as long as there are no multi-parameter template types involved). Will replace // this with something more robust if the need arises. const Section* section = fSectionAndParameterHelper.getSection(CONSTRUCTOR_PARAMS_SECTION); if (section) { const char* s = section->fText.c_str(); #define BUFFER_SIZE 64 char lastIdentifier[BUFFER_SIZE]; int lastIdentifierLength = 0; bool foundBreak = false; while (*s) { char c = *s; ++s; if ((c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z') || (c >= '0' && c <= '9') || c == '_') { if (foundBreak) { lastIdentifierLength = 0; foundBreak = false; } SkASSERT(lastIdentifierLength < BUFFER_SIZE); lastIdentifier[lastIdentifierLength] = c; ++lastIdentifierLength; } else { foundBreak = true; if (c == ',') { SkASSERT(lastIdentifierLength < BUFFER_SIZE); lastIdentifier[lastIdentifierLength] = 0; this->writef("%s%s", separator, lastIdentifier); separator = ", "; } else if (c != ' ' && c != '\t' && c != '\n' && c != '\r') { lastIdentifierLength = 0; } } } if (lastIdentifierLength) { SkASSERT(lastIdentifierLength < BUFFER_SIZE); lastIdentifier[lastIdentifierLength] = 0; this->writef("%s%s", separator, lastIdentifier); } } } void HCodeGenerator::writeMake() { const char* separator; if (!this->writeSection(MAKE_SECTION)) { this->writef(" static std::unique_ptr Make("); separator = ""; for (const auto& param : fSectionAndParameterHelper.getParameters()) { this->writef("%s%s %s", separator, ParameterType(fContext, param->fType, param->fModifiers.fLayout).c_str(), String(param->fName).c_str()); separator = ", "; } this->writeSection(CONSTRUCTOR_PARAMS_SECTION, separator); this->writef(") {\n" " return std::unique_ptr(new %s(", fFullName.c_str()); separator = ""; for (const auto& param : fSectionAndParameterHelper.getParameters()) { if (param->fType == *fContext.fFragmentProcessor_Type) { this->writef("%sstd::move(%s)", separator, String(param->fName).c_str()); } else { this->writef("%s%s", separator, String(param->fName).c_str()); } separator = ", "; } this->writeExtraConstructorParams(separator); this->writef("));\n" " }\n"); } } void HCodeGenerator::failOnSection(const char* section, const char* msg) { std::vector s = fSectionAndParameterHelper.getSections(section); if (s.size()) { fErrors.error(s[0]->fOffset, String("@") + section + " " + msg); } } void HCodeGenerator::writeConstructor() { if (this->writeSection(CONSTRUCTOR_SECTION)) { const char* msg = "may not be present when constructor is overridden"; this->failOnSection(CONSTRUCTOR_CODE_SECTION, msg); this->failOnSection(CONSTRUCTOR_PARAMS_SECTION, msg); this->failOnSection(INITIALIZERS_SECTION, msg); this->failOnSection(OPTIMIZATION_FLAGS_SECTION, msg); return; } this->writef(" %s(", fFullName.c_str()); const char* separator = ""; for (const auto& param : fSectionAndParameterHelper.getParameters()) { this->writef("%s%s %s", separator, ParameterType(fContext, param->fType, param->fModifiers.fLayout).c_str(), String(param->fName).c_str()); separator = ", "; } this->writeSection(CONSTRUCTOR_PARAMS_SECTION, separator); this->writef(")\n" " : INHERITED(k%s_ClassID", fFullName.c_str()); if (!this->writeSection(OPTIMIZATION_FLAGS_SECTION, ", (OptimizationFlags) ")) { this->writef(", kNone_OptimizationFlags"); } this->writef(")"); this->writeSection(INITIALIZERS_SECTION, "\n , "); for (const auto& param : fSectionAndParameterHelper.getParameters()) { String nameString(param->fName); const char* name = nameString.c_str(); if (param->fType.kind() == Type::kSampler_Kind) { this->writef("\n , %s(std::move(%s)", FieldName(name).c_str(), name); for (const Section* s : fSectionAndParameterHelper.getSections( SAMPLER_PARAMS_SECTION)) { if (s->fArgument == name) { this->writef(", %s", s->fText.c_str()); } } this->writef(")"); } else if (param->fType == *fContext.fFragmentProcessor_Type) { // do nothing } else { this->writef("\n , %s(%s)", FieldName(name).c_str(), name); } } for (const Section* s : fSectionAndParameterHelper.getSections(COORD_TRANSFORM_SECTION)) { String field = FieldName(s->fArgument.c_str()); this->writef("\n , %sCoordTransform(%s, %s.proxy())", field.c_str(), s->fText.c_str(), field.c_str()); } this->writef(" {\n"); this->writeSection(CONSTRUCTOR_CODE_SECTION); int samplerCount = 0; for (const auto& param : fSectionAndParameterHelper.getParameters()) { if (param->fType.kind() == Type::kSampler_Kind) { ++samplerCount; } else if (param->fType == *fContext.fFragmentProcessor_Type) { this->writef(" this->registerChildProcessor(std::move(%s));", String(param->fName).c_str()); } } if (samplerCount) { this->writef(" this->setTextureSamplerCnt(%d);", samplerCount); } for (const Section* s : fSectionAndParameterHelper.getSections(COORD_TRANSFORM_SECTION)) { String field = FieldName(s->fArgument.c_str()); this->writef(" this->addCoordTransform(&%sCoordTransform);\n", field.c_str()); } this->writef(" }\n"); } void HCodeGenerator::writeFields() { this->writeSection(FIELDS_SECTION); for (const auto& param : fSectionAndParameterHelper.getParameters()) { if (param->fType == *fContext.fFragmentProcessor_Type) { continue; } this->writef(" %s %s;\n", FieldType(fContext, param->fType, param->fModifiers.fLayout).c_str(), FieldName(String(param->fName).c_str()).c_str()); } for (const Section* s : fSectionAndParameterHelper.getSections(COORD_TRANSFORM_SECTION)) { this->writef(" GrCoordTransform %sCoordTransform;\n", FieldName(s->fArgument.c_str()).c_str()); } } String HCodeGenerator::GetHeader(const Program& program, ErrorReporter& errors) { SymbolTable types(&errors); Parser parser(program.fSource->c_str(), program.fSource->length(), types, errors); for (;;) { Token header = parser.nextRawToken(); switch (header.fKind) { case Token::WHITESPACE: break; case Token::BLOCK_COMMENT: return String(program.fSource->c_str() + header.fOffset, header.fLength); default: return ""; } } } bool HCodeGenerator::generateCode() { this->writef("%s\n", GetHeader(fProgram, fErrors).c_str()); this->writef(kFragmentProcessorHeader, fFullName.c_str()); this->writef("#ifndef %s_DEFINED\n" "#define %s_DEFINED\n", fFullName.c_str(), fFullName.c_str()); this->writef("#include \"SkTypes.h\"\n"); this->writeSection(HEADER_SECTION); this->writef("#include \"GrFragmentProcessor.h\"\n" "#include \"GrCoordTransform.h\"\n"); this->writef("class %s : public GrFragmentProcessor {\n" "public:\n", fFullName.c_str()); for (const auto& p : fProgram) { if (ProgramElement::kEnum_Kind == p.fKind && !((Enum&) p).fBuiltin) { this->writef("%s\n", p.description().c_str()); } } this->writeSection(CLASS_SECTION); for (const auto& param : fSectionAndParameterHelper.getParameters()) { if (param->fType.kind() == Type::kSampler_Kind || param->fType.kind() == Type::kOther_Kind) { continue; } String nameString(param->fName); const char* name = nameString.c_str(); this->writef(" %s %s() const { return %s; }\n", FieldType(fContext, param->fType, param->fModifiers.fLayout).c_str(), name, FieldName(name).c_str()); } this->writeMake(); this->writef(" %s(const %s& src);\n" " std::unique_ptr clone() const override;\n" " const char* name() const override { return \"%s\"; }\n" "private:\n", fFullName.c_str(), fFullName.c_str(), fName.c_str()); this->writeConstructor(); this->writef(" GrGLSLFragmentProcessor* onCreateGLSLInstance() const override;\n" " void onGetGLSLProcessorKey(const GrShaderCaps&," "GrProcessorKeyBuilder*) const override;\n" " bool onIsEqual(const GrFragmentProcessor&) const override;\n"); for (const auto& param : fSectionAndParameterHelper.getParameters()) { if (param->fType.kind() == Type::kSampler_Kind) { this->writef(" const TextureSampler& onTextureSampler(int) const override;"); break; } } this->writef(" GR_DECLARE_FRAGMENT_PROCESSOR_TEST\n"); this->writeFields(); this->writef(" typedef GrFragmentProcessor INHERITED;\n" "};\n"); this->writeSection(HEADER_END_SECTION); this->writef("#endif\n"); return 0 == fErrors.errorCount(); } } // namespace