/* * Copyright 2018 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkSLVariableReference.h" #include "SkSLConstructor.h" #include "SkSLFloatLiteral.h" #include "SkSLIRGenerator.h" #include "SkSLSetting.h" namespace SkSL { VariableReference::VariableReference(int offset, const Variable& variable, RefKind refKind) : INHERITED(offset, kVariableReference_Kind, variable.fType) , fVariable(variable) , fRefKind(refKind) { if (refKind != kRead_RefKind) { fVariable.fWriteCount++; } if (refKind != kWrite_RefKind) { fVariable.fReadCount++; } } VariableReference::~VariableReference() { if (fRefKind != kRead_RefKind) { fVariable.fWriteCount--; } if (fRefKind != kWrite_RefKind) { fVariable.fReadCount--; } } void VariableReference::setRefKind(RefKind refKind) { if (fRefKind != kRead_RefKind) { fVariable.fWriteCount--; } if (fRefKind != kWrite_RefKind) { fVariable.fReadCount--; } if (refKind != kRead_RefKind) { fVariable.fWriteCount++; } if (refKind != kWrite_RefKind) { fVariable.fReadCount++; } fRefKind = refKind; } std::unique_ptr<Expression> VariableReference::copy_constant(const IRGenerator& irGenerator, const Expression* expr) { SkASSERT(expr->isConstant()); switch (expr->fKind) { case Expression::kIntLiteral_Kind: return std::unique_ptr<Expression>(new IntLiteral(irGenerator.fContext, -1, ((IntLiteral*) expr)->fValue)); case Expression::kFloatLiteral_Kind: return std::unique_ptr<Expression>(new FloatLiteral( irGenerator.fContext, -1, ((FloatLiteral*) expr)->fValue)); case Expression::kBoolLiteral_Kind: return std::unique_ptr<Expression>(new BoolLiteral(irGenerator.fContext, -1, ((BoolLiteral*) expr)->fValue)); case Expression::kConstructor_Kind: { const Constructor* c = (const Constructor*) expr; std::vector<std::unique_ptr<Expression>> args; for (const auto& arg : c->fArguments) { args.push_back(copy_constant(irGenerator, arg.get())); } return std::unique_ptr<Expression>(new Constructor(-1, c->fType, std::move(args))); } case Expression::kSetting_Kind: { const Setting* s = (const Setting*) expr; return std::unique_ptr<Expression>(new Setting(-1, s->fName, copy_constant(irGenerator, s->fValue.get()))); } default: ABORT("unsupported constant\n"); } } std::unique_ptr<Expression> VariableReference::constantPropagate(const IRGenerator& irGenerator, const DefinitionMap& definitions) { if (fRefKind != kRead_RefKind) { return nullptr; } if (irGenerator.fKind == Program::kPipelineStage_Kind && fVariable.fStorage == Variable::kGlobal_Storage && (fVariable.fModifiers.fFlags & Modifiers::kIn_Flag)) { return irGenerator.getArg(fOffset, fVariable.fName); } if ((fVariable.fModifiers.fFlags & Modifiers::kConst_Flag) && fVariable.fInitialValue && fVariable.fInitialValue->isConstant()) { return copy_constant(irGenerator, fVariable.fInitialValue); } auto exprIter = definitions.find(&fVariable); if (exprIter != definitions.end() && exprIter->second && (*exprIter->second)->isConstant()) { return copy_constant(irGenerator, exprIter->second->get()); } return nullptr; } } // namespace