src/compiler/SymbolTable.cpp - platform/external/chromium_org/third_party/angle - Git at Google

 //
 // Copyright (c) 2002-2010 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/SymbolTable.h"

 #include <stdio.h>

 #include <algorithm>

 //
 // TType helper function needs a place to live.
 //

 //
 // Recursively generate mangled names.
 //
 void TType::buildMangledName(TString& mangledName)
 {
     if (isMatrix())
         mangledName += 'm';
     else if (isVector())
         mangledName += 'v';

     switch (type) {
     case EbtFloat:              mangledName += 'f';      break;
     case EbtInt:                mangledName += 'i';      break;
     case EbtBool:               mangledName += 'b';      break;
     case EbtSampler2D:          mangledName += "s2";     break;
     case EbtSamplerCube:        mangledName += "sC";     break;
     case EbtStruct:
         mangledName += "struct-";
         if (typeName)
             mangledName += *typeName;
         {// support MSVC++6.0
             for (unsigned int i = 0; i < structure->size(); ++i) {
                 mangledName += '-';
                 (*structure)[i].type->buildMangledName(mangledName);
             }
         }
     default:
         break;
     }

     mangledName += static_cast<char>('0' + getNominalSize());
     if (isArray()) {
         char buf[20];
         snprintf(buf, sizeof(buf), "%d", arraySize);
         mangledName += '[';
         mangledName += buf;
         mangledName += ']';
     }
 }

 int TType::getStructSize() const
 {
     if (!getStruct()) {
         assert(false && "Not a struct");
         return 0;
     }

     if (structureSize == 0)
         for (TTypeList::const_iterator tl = getStruct()->begin(); tl != getStruct()->end(); tl++)
             structureSize += ((*tl).type)->getObjectSize();

     return structureSize;
 }

 void TType::computeDeepestStructNesting()
 {
     if (!getStruct()) {
         return;
     }

     int maxNesting = 0;
     for (TTypeList::const_iterator tl = getStruct()->begin(); tl != getStruct()->end(); ++tl) {
         maxNesting = std::max(maxNesting, ((*tl).type)->getDeepestStructNesting());
     }

     deepestStructNesting = 1 + maxNesting;
 }

 //
 // Dump functions.
 //

 void TVariable::dump(TInfoSink& infoSink) const
 {
     infoSink.debug << getName().c_str() << ": " << type.getQualifierString() << " " << type.getPrecisionString() << " " << type.getBasicString();
     if (type.isArray()) {
         infoSink.debug << "[0]";
     }
     infoSink.debug << "\n";
 }

 void TFunction::dump(TInfoSink &infoSink) const
 {
     infoSink.debug << getName().c_str() << ": " <<  returnType.getBasicString() << " " << getMangledName().c_str() << "\n";
 }

 void TSymbolTableLevel::dump(TInfoSink &infoSink) const
 {
     tLevel::const_iterator it;
     for (it = level.begin(); it != level.end(); ++it)
         (*it).second->dump(infoSink);
 }

 void TSymbolTable::dump(TInfoSink &infoSink) const
 {
     for (int level = currentLevel(); level >= 0; --level) {
         infoSink.debug << "LEVEL " << level << "\n";
         table[level]->dump(infoSink);
     }
 }

 //
 // 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;
 }

 //
 // Change all function entries in the table with the non-mangled name
 // to be related to the provided built-in operation.  This is a low
 // performance operation, and only intended for symbol tables that
 // live across a large number of compiles.
 //
 void TSymbolTableLevel::relateToOperator(const char* name, TOperator op)
 {
     tLevel::iterator it;
     for (it = level.begin(); it != level.end(); ++it) {
         if ((*it).second->isFunction()) {
             TFunction* function = static_cast<TFunction*>((*it).second);
             if (function->getName() == name)
                 function->relateToOperator(op);
         }
     }
 }

 //
 // Change all function entries in the table with the non-mangled name
 // to be related to the provided built-in extension. This is a low
 // performance operation, and only intended for symbol tables that
 // live across a large number of compiles.
 //
 void TSymbolTableLevel::relateToExtension(const char* name, const TString& ext)
 {
     for (tLevel::iterator it = level.begin(); it != level.end(); ++it) {
         if (it->second->isFunction()) {
             TFunction* function = static_cast<TFunction*>(it->second);
             if (function->getName() == name)
                 function->relateToExtension(ext);
         }
     }
 }

 TSymbol::TSymbol(const TSymbol& copyOf)
 {
     name = NewPoolTString(copyOf.name->c_str());
     uniqueId = copyOf.uniqueId;
 }

 TVariable::TVariable(const TVariable& copyOf, TStructureMap& remapper) : TSymbol(copyOf)
 {
     type.copyType(copyOf.type, remapper);
     userType = copyOf.userType;
     // for builtIn symbol table level, unionArray and arrayInformation pointers should be NULL
     assert(copyOf.arrayInformationType == 0);
     arrayInformationType = 0;

     if (copyOf.unionArray) {
         assert(!copyOf.type.getStruct());
         assert(copyOf.type.getObjectSize() == 1);
         unionArray = new ConstantUnion[1];
         unionArray[0] = copyOf.unionArray[0];
     } else
         unionArray = 0;
 }

 TVariable* TVariable::clone(TStructureMap& remapper)
 {
     TVariable *variable = new TVariable(*this, remapper);

     return variable;
 }

 TFunction::TFunction(const TFunction& copyOf, TStructureMap& remapper) : TSymbol(copyOf)
 {
     for (unsigned int i = 0; i < copyOf.parameters.size(); ++i) {
         TParameter param;
         parameters.push_back(param);
         parameters.back().copyParam(copyOf.parameters[i], remapper);
     }

     returnType.copyType(copyOf.returnType, remapper);
     mangledName = copyOf.mangledName;
     op = copyOf.op;
     defined = copyOf.defined;
 }

 TFunction* TFunction::clone(TStructureMap& remapper)
 {
     TFunction *function = new TFunction(*this, remapper);

     return function;
 }

 TSymbolTableLevel* TSymbolTableLevel::clone(TStructureMap& remapper)
 {
     TSymbolTableLevel *symTableLevel = new TSymbolTableLevel();
     tLevel::iterator iter;
     for (iter = level.begin(); iter != level.end(); ++iter) {
         symTableLevel->insert(*iter->second->clone(remapper));
     }

     return symTableLevel;
 }

 void TSymbolTable::copyTable(const TSymbolTable& copyOf)
 {
     TStructureMap remapper;
     uniqueId = copyOf.uniqueId;
     for (unsigned int i = 0; i < copyOf.table.size(); ++i) {
         table.push_back(copyOf.table[i]->clone(remapper));
     }
     for( unsigned int i = 0; i < copyOf.precisionStack.size(); i++) {
         precisionStack.push_back( copyOf.precisionStack[i] );
     }
 }
	//
	// Copyright (c) 2002-2010 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/SymbolTable.h"

	#include <stdio.h>

	#include <algorithm>

	//
	// TType helper function needs a place to live.
	//

	//
	// Recursively generate mangled names.
	//
	void TType::buildMangledName(TString& mangledName)
	{
	if (isMatrix())
	mangledName += 'm';
	else if (isVector())
	mangledName += 'v';

	switch (type) {
	case EbtFloat: mangledName += 'f'; break;
	case EbtInt: mangledName += 'i'; break;
	case EbtBool: mangledName += 'b'; break;
	case EbtSampler2D: mangledName += "s2"; break;
	case EbtSamplerCube: mangledName += "sC"; break;
	case EbtStruct:
	mangledName += "struct-";
	if (typeName)
	mangledName += *typeName;
	{// support MSVC++6.0
	for (unsigned int i = 0; i < structure->size(); ++i) {
	mangledName += '-';
	(*structure)[i].type->buildMangledName(mangledName);
	}
	}
	default:
	break;
	}

	mangledName += static_cast<char>('0' + getNominalSize());
	if (isArray()) {
	char buf[20];
	snprintf(buf, sizeof(buf), "%d", arraySize);
	mangledName += '[';
	mangledName += buf;
	mangledName += ']';
	}
	}

	int TType::getStructSize() const
	{
	if (!getStruct()) {
	assert(false && "Not a struct");
	return 0;
	}

	if (structureSize == 0)
	for (TTypeList::const_iterator tl = getStruct()->begin(); tl != getStruct()->end(); tl++)
	structureSize += ((*tl).type)->getObjectSize();

	return structureSize;
	}

	void TType::computeDeepestStructNesting()
	{
	if (!getStruct()) {
	return;
	}

	int maxNesting = 0;
	for (TTypeList::const_iterator tl = getStruct()->begin(); tl != getStruct()->end(); ++tl) {
	maxNesting = std::max(maxNesting, ((*tl).type)->getDeepestStructNesting());
	}

	deepestStructNesting = 1 + maxNesting;
	}

	//
	// Dump functions.
	//

	void TVariable::dump(TInfoSink& infoSink) const
	{
	infoSink.debug << getName().c_str() << ": " << type.getQualifierString() << " " << type.getPrecisionString() << " " << type.getBasicString();
	if (type.isArray()) {
	infoSink.debug << "[0]";
	}
	infoSink.debug << "\n";
	}

	void TFunction::dump(TInfoSink &infoSink) const
	{
	infoSink.debug << getName().c_str() << ": " << returnType.getBasicString() << " " << getMangledName().c_str() << "\n";
	}

	void TSymbolTableLevel::dump(TInfoSink &infoSink) const
	{
	tLevel::const_iterator it;
	for (it = level.begin(); it != level.end(); ++it)
	(*it).second->dump(infoSink);
	}

	void TSymbolTable::dump(TInfoSink &infoSink) const
	{
	for (int level = currentLevel(); level >= 0; --level) {
	infoSink.debug << "LEVEL " << level << "\n";
	table[level]->dump(infoSink);
	}
	}

	//
	// 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;
	}

	//
	// Change all function entries in the table with the non-mangled name
	// to be related to the provided built-in operation. This is a low
	// performance operation, and only intended for symbol tables that
	// live across a large number of compiles.
	//
	void TSymbolTableLevel::relateToOperator(const char* name, TOperator op)
	{
	tLevel::iterator it;
	for (it = level.begin(); it != level.end(); ++it) {
	if ((*it).second->isFunction()) {
	TFunction* function = static_cast<TFunction>((it).second);
	if (function->getName() == name)
	function->relateToOperator(op);
	}
	}
	}

	//
	// Change all function entries in the table with the non-mangled name
	// to be related to the provided built-in extension. This is a low
	// performance operation, and only intended for symbol tables that
	// live across a large number of compiles.
	//
	void TSymbolTableLevel::relateToExtension(const char* name, const TString& ext)
	{
	for (tLevel::iterator it = level.begin(); it != level.end(); ++it) {
	if (it->second->isFunction()) {
	TFunction* function = static_cast<TFunction*>(it->second);
	if (function->getName() == name)
	function->relateToExtension(ext);
	}
	}
	}

	TSymbol::TSymbol(const TSymbol& copyOf)
	{
	name = NewPoolTString(copyOf.name->c_str());
	uniqueId = copyOf.uniqueId;
	}

	TVariable::TVariable(const TVariable& copyOf, TStructureMap& remapper) : TSymbol(copyOf)
	{
	type.copyType(copyOf.type, remapper);
	userType = copyOf.userType;
	// for builtIn symbol table level, unionArray and arrayInformation pointers should be NULL
	assert(copyOf.arrayInformationType == 0);
	arrayInformationType = 0;

	if (copyOf.unionArray) {
	assert(!copyOf.type.getStruct());
	assert(copyOf.type.getObjectSize() == 1);
	unionArray = new ConstantUnion[1];
	unionArray[0] = copyOf.unionArray[0];
	} else
	unionArray = 0;
	}

	TVariable* TVariable::clone(TStructureMap& remapper)
	{
	TVariable variable = new TVariable(this, remapper);

	return variable;
	}

	TFunction::TFunction(const TFunction& copyOf, TStructureMap& remapper) : TSymbol(copyOf)
	{
	for (unsigned int i = 0; i < copyOf.parameters.size(); ++i) {
	TParameter param;
	parameters.push_back(param);
	parameters.back().copyParam(copyOf.parameters[i], remapper);
	}

	returnType.copyType(copyOf.returnType, remapper);
	mangledName = copyOf.mangledName;
	op = copyOf.op;
	defined = copyOf.defined;
	}

	TFunction* TFunction::clone(TStructureMap& remapper)
	{
	TFunction function = new TFunction(this, remapper);

	return function;
	}

	TSymbolTableLevel* TSymbolTableLevel::clone(TStructureMap& remapper)
	{
	TSymbolTableLevel *symTableLevel = new TSymbolTableLevel();
	tLevel::iterator iter;
	for (iter = level.begin(); iter != level.end(); ++iter) {
	symTableLevel->insert(*iter->second->clone(remapper));
	}

	return symTableLevel;
	}

	void TSymbolTable::copyTable(const TSymbolTable& copyOf)
	{
	TStructureMap remapper;
	uniqueId = copyOf.uniqueId;
	for (unsigned int i = 0; i < copyOf.table.size(); ++i) {
	table.push_back(copyOf.table[i]->clone(remapper));
	}
	for( unsigned int i = 0; i < copyOf.precisionStack.size(); i++) {
	precisionStack.push_back( copyOf.precisionStack[i] );
	}
	}