// // Copyright 2018 The ANGLE Project Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // NameEmbeddedUniformStructsMetal: Gives nameless uniform struct internal names. // #include "compiler/translator/TranslatorMetalDirect/NameEmbeddedUniformStructsMetal.h" #include "compiler/translator/SymbolTable.h" #include "compiler/translator/tree_util/IntermTraverse.h" namespace sh { namespace { // This traverser translates embedded uniform structs into a specifier and declaration. // This makes the declarations easier to move into uniform blocks. class Traverser : public TIntermTraverser { public: std::unordered_map replacements; explicit Traverser(TSymbolTable *symbolTable) : TIntermTraverser(true, false, false, symbolTable) {} bool visitDeclaration(Visit visit, TIntermDeclaration *decl) override { ASSERT(visit == PreVisit); if (!mInGlobalScope) { return false; } const TIntermSequence &sequence = *(decl->getSequence()); ASSERT(sequence.size() == 1); TIntermTyped *declarator = sequence.front()->getAsTyped(); const TType &type = declarator->getType(); if (type.isStructSpecifier() && type.getQualifier() == EvqUniform) { const TStructure *structure = type.getStruct(); if (structure->symbolType() == SymbolType::Empty) { doReplacement(decl, declarator, structure); } } return false; } void visitSymbol(TIntermSymbol *decl) override { auto symbol = replacements.find(decl->uniqueId().get()); if (symbol != replacements.end()) { queueReplacement(symbol->second->deepCopy(), OriginalNode::IS_DROPPED); } } private: void doReplacement(TIntermDeclaration *decl, TIntermTyped *declarator, const TStructure *oldStructure) { // struct { ... }; TStructure *structure = new TStructure(mSymbolTable, kEmptyImmutableString, &oldStructure->fields(), SymbolType::AngleInternal); TType *namedType = new TType(structure, true); namedType->setQualifier(EvqGlobal); TVariable *structVariable = new TVariable(mSymbolTable, kEmptyImmutableString, namedType, SymbolType::Empty); TIntermSymbol *structDeclarator = new TIntermSymbol(structVariable); TIntermDeclaration *structDeclaration = new TIntermDeclaration; structDeclaration->appendDeclarator(structDeclarator); TIntermSequence *newSequence = new TIntermSequence; newSequence->push_back(structDeclaration); // uniform ; TIntermSymbol *asSymbol = declarator->getAsSymbolNode(); if (asSymbol && asSymbol->variable().symbolType() != SymbolType::Empty) { TIntermDeclaration *namedDecl = new TIntermDeclaration; TType *uniformType = new TType(structure, false); uniformType->setQualifier(EvqUniform); TVariable *newVar = new TVariable(mSymbolTable, asSymbol->getName(), uniformType, asSymbol->variable().symbolType()); TIntermSymbol *newSymbol = new TIntermSymbol(newVar); replacements[asSymbol->uniqueId().get()] = newSymbol; namedDecl->appendDeclarator(newSymbol); newSequence->push_back(namedDecl); } mMultiReplacements.emplace_back(getParentNode()->getAsBlock(), decl, std::move(*newSequence)); } }; } // anonymous namespace bool NameEmbeddedStructUniformsMetal(TCompiler *compiler, TIntermBlock *root, TSymbolTable *symbolTable) { Traverser nameStructs(symbolTable); root->traverse(&nameStructs); return nameStructs.updateTree(compiler, root); } } // namespace sh