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kc3-lang/angle/src/compiler/translator/SymbolTable.cpp
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Author :
Minmin Gong
Date : 2015-04-07 18:31:54
Hash : 794e0009
Message : Fix and enable warning C4244 (Conversion from 'type1' to 'type2', possible loss of data) Change-Id: Id0e06d7d6600344d858f00dabc219d79289bbc82 Reviewed-on: https://chromium-review.googlesource.com/265020 Tested-by: Minmin Gong <mgong@microsoft.com> Reviewed-by: Jamie Madill <jmadill@chromium.org> Reviewed-by: Geoff Lang <geofflang@chromium.org>
- src/compiler/translator/SymbolTable.cpp
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// // Copyright (c) 2002-2013 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. // // // Symbol table for parsing. Most functionaliy and main ideas // are documented in the header file. // #if defined(_MSC_VER) #pragma warning(disable: 4718) #endif #include "compiler/translator/SymbolTable.h" #include <stdio.h> #include <algorithm> int TSymbolTable::uniqueIdCounter = 0; // // Functions have buried pointers to delete. // TFunction::~TFunction() { for (TParamList::iterator i = parameters.begin(); i != parameters.end(); ++i) delete (*i).type; } // // Symbol table levels are a map of pointers to symbols that have to be deleted. // TSymbolTableLevel::~TSymbolTableLevel() { for (tLevel::iterator it = level.begin(); it != level.end(); ++it) delete (*it).second; } bool TSymbolTableLevel::insert(TSymbol *symbol) { symbol->setUniqueId(TSymbolTable::nextUniqueId()); // returning true means symbol was added to the table tInsertResult result = level.insert(tLevelPair(symbol->getMangledName(), symbol)); return result.second; } bool TSymbolTableLevel::insertUnmangled(TFunction *function) { function->setUniqueId(TSymbolTable::nextUniqueId()); // returning true means symbol was added to the table tInsertResult result = level.insert(tLevelPair(function->getName(), function)); return result.second; } TSymbol *TSymbolTableLevel::find(const TString &name) const { tLevel::const_iterator it = level.find(name); if (it == level.end()) return 0; else return (*it).second; } TSymbol *TSymbolTable::find(const TString &name, int shaderVersion, bool *builtIn, bool *sameScope) const { int level = currentLevel(); TSymbol *symbol; do { if (level == ESSL3_BUILTINS && shaderVersion != 300) level--; if (level == ESSL1_BUILTINS && shaderVersion != 100) level--; symbol = table[level]->find(name); } while (symbol == 0 && --level >= 0); if (builtIn) *builtIn = (level <= LAST_BUILTIN_LEVEL); if (sameScope) *sameScope = (level == currentLevel()); return symbol; } TSymbol *TSymbolTable::findBuiltIn( const TString &name, int shaderVersion) const { for (int level = LAST_BUILTIN_LEVEL; level >= 0; level--) { if (level == ESSL3_BUILTINS && shaderVersion != 300) level--; if (level == ESSL1_BUILTINS && shaderVersion != 100) level--; TSymbol *symbol = table[level]->find(name); if (symbol) return symbol; } return 0; } TSymbolTable::~TSymbolTable() { while (table.size() > 0) pop(); } bool IsGenType(const TType *type) { if (type) { TBasicType basicType = type->getBasicType(); return basicType == EbtGenType || basicType == EbtGenIType || basicType == EbtGenUType || basicType == EbtGenBType; } return false; } bool IsVecType(const TType *type) { if (type) { TBasicType basicType = type->getBasicType(); return basicType == EbtVec || basicType == EbtIVec || basicType == EbtUVec || basicType == EbtBVec; } return false; } TType *SpecificType(TType *type, int size) { ASSERT(size >= 1 && size <= 4); if (!type) { return nullptr; } ASSERT(!IsVecType(type)); switch(type->getBasicType()) { case EbtGenType: return new TType(EbtFloat, static_cast<unsigned char>(size)); case EbtGenIType: return new TType(EbtInt, static_cast<unsigned char>(size)); case EbtGenUType: return new TType(EbtUInt, static_cast<unsigned char>(size)); case EbtGenBType: return new TType(EbtBool, static_cast<unsigned char>(size)); default: return type; } } TType *VectorType(TType *type, int size) { ASSERT(size >= 2 && size <= 4); if (!type) { return nullptr; } ASSERT(!IsGenType(type)); switch(type->getBasicType()) { case EbtVec: return new TType(EbtFloat, static_cast<unsigned char>(size)); case EbtIVec: return new TType(EbtInt, static_cast<unsigned char>(size)); case EbtUVec: return new TType(EbtUInt, static_cast<unsigned char>(size)); case EbtBVec: return new TType(EbtBool, static_cast<unsigned char>(size)); default: return type; } } void TSymbolTable::insertBuiltIn(ESymbolLevel level, TOperator op, const char *ext, TType *rvalue, const char *name, TType *ptype1, TType *ptype2, TType *ptype3, TType *ptype4, TType *ptype5) { if (ptype1->getBasicType() == EbtGSampler2D) { bool gvec4 = (rvalue->getBasicType() == EbtGVec4); insertBuiltIn(level, gvec4 ? new TType(EbtFloat, 4) : rvalue, name, new TType(EbtSampler2D), ptype2, ptype3, ptype4, ptype5); insertBuiltIn(level, gvec4 ? new TType(EbtInt, 4) : rvalue, name, new TType(EbtISampler2D), ptype2, ptype3, ptype4, ptype5); insertBuiltIn(level, gvec4 ? new TType(EbtUInt, 4) : rvalue, name, new TType(EbtUSampler2D), ptype2, ptype3, ptype4, ptype5); } else if (ptype1->getBasicType() == EbtGSampler3D) { bool gvec4 = (rvalue->getBasicType() == EbtGVec4); insertBuiltIn(level, gvec4 ? new TType(EbtFloat, 4) : rvalue, name, new TType(EbtSampler3D), ptype2, ptype3, ptype4, ptype5); insertBuiltIn(level, gvec4 ? new TType(EbtInt, 4) : rvalue, name, new TType(EbtISampler3D), ptype2, ptype3, ptype4, ptype5); insertBuiltIn(level, gvec4 ? new TType(EbtUInt, 4) : rvalue, name, new TType(EbtUSampler3D), ptype2, ptype3, ptype4, ptype5); } else if (ptype1->getBasicType() == EbtGSamplerCube) { bool gvec4 = (rvalue->getBasicType() == EbtGVec4); insertBuiltIn(level, gvec4 ? new TType(EbtFloat, 4) : rvalue, name, new TType(EbtSamplerCube), ptype2, ptype3, ptype4, ptype5); insertBuiltIn(level, gvec4 ? new TType(EbtInt, 4) : rvalue, name, new TType(EbtISamplerCube), ptype2, ptype3, ptype4, ptype5); insertBuiltIn(level, gvec4 ? new TType(EbtUInt, 4) : rvalue, name, new TType(EbtUSamplerCube), ptype2, ptype3, ptype4, ptype5); } else if (ptype1->getBasicType() == EbtGSampler2DArray) { bool gvec4 = (rvalue->getBasicType() == EbtGVec4); insertBuiltIn(level, gvec4 ? new TType(EbtFloat, 4) : rvalue, name, new TType(EbtSampler2DArray), ptype2, ptype3, ptype4, ptype5); insertBuiltIn(level, gvec4 ? new TType(EbtInt, 4) : rvalue, name, new TType(EbtISampler2DArray), ptype2, ptype3, ptype4, ptype5); insertBuiltIn(level, gvec4 ? new TType(EbtUInt, 4) : rvalue, name, new TType(EbtUSampler2DArray), ptype2, ptype3, ptype4, ptype5); } else if (IsGenType(rvalue) || IsGenType(ptype1) || IsGenType(ptype2) || IsGenType(ptype3)) { ASSERT(!ptype4 && !ptype5); insertBuiltIn(level, op, ext, SpecificType(rvalue, 1), name, SpecificType(ptype1, 1), SpecificType(ptype2, 1), SpecificType(ptype3, 1)); insertBuiltIn(level, op, ext, SpecificType(rvalue, 2), name, SpecificType(ptype1, 2), SpecificType(ptype2, 2), SpecificType(ptype3, 2)); insertBuiltIn(level, op, ext, SpecificType(rvalue, 3), name, SpecificType(ptype1, 3), SpecificType(ptype2, 3), SpecificType(ptype3, 3)); insertBuiltIn(level, op, ext, SpecificType(rvalue, 4), name, SpecificType(ptype1, 4), SpecificType(ptype2, 4), SpecificType(ptype3, 4)); } else if (IsVecType(rvalue) || IsVecType(ptype1) || IsVecType(ptype2) || IsVecType(ptype3)) { ASSERT(!ptype4 && !ptype5); insertBuiltIn(level, op, ext, VectorType(rvalue, 2), name, VectorType(ptype1, 2), VectorType(ptype2, 2), VectorType(ptype3, 2)); insertBuiltIn(level, op, ext, VectorType(rvalue, 3), name, VectorType(ptype1, 3), VectorType(ptype2, 3), VectorType(ptype3, 3)); insertBuiltIn(level, op, ext, VectorType(rvalue, 4), name, VectorType(ptype1, 4), VectorType(ptype2, 4), VectorType(ptype3, 4)); } else { TFunction *function = new TFunction(NewPoolTString(name), *rvalue, op, ext); TParameter param1 = {0, ptype1}; function->addParameter(param1); if (ptype2) { TParameter param2 = {0, ptype2}; function->addParameter(param2); } if (ptype3) { TParameter param3 = {0, ptype3}; function->addParameter(param3); } if (ptype4) { TParameter param4 = {0, ptype4}; function->addParameter(param4); } if (ptype5) { TParameter param5 = {0, ptype5}; function->addParameter(param5); } insert(level, function); } } TPrecision TSymbolTable::getDefaultPrecision(TBasicType type) const { if (!SupportsPrecision(type)) return EbpUndefined; // unsigned integers use the same precision as signed TBasicType baseType = (type == EbtUInt) ? EbtInt : type; int level = static_cast<int>(precisionStack.size()) - 1; assert(level >= 0); // Just to be safe. Should not happen. // If we dont find anything we return this. Should we error check this? TPrecision prec = EbpUndefined; while (level >= 0) { PrecisionStackLevel::iterator it = precisionStack[level]->find(baseType); if (it != precisionStack[level]->end()) { prec = (*it).second; break; } level--; } return prec; }