/// Initializize the symbol table
/// \param BuiltInStrings
/// Pointer to built in strings.
/// \param language
/// Shading language to initialize symbol table for
/// \param infoSink
/// Information sink (for errors/warnings)
/// \param symbolTables
/// Array of symbol tables (one for each language)
/// \param bUseGlobalSymbolTable
/// Whether to use the global symbol table or the per-language symbol table
/// \return
/// True if succesfully initialized, false otherwise
bool InitializeSymbolTable( TBuiltInStrings* BuiltInStrings, EShLanguage language, TInfoSink& infoSink,
TSymbolTable* symbolTables, bool bUseGlobalSymbolTable )
{
TIntermediate intermediate(infoSink);
TSymbolTable* symbolTable;
if ( bUseGlobalSymbolTable )
symbolTable = symbolTables;
else
symbolTable = &symbolTables[language];
TParseContext parseContext(*symbolTable, intermediate, language, infoSink);
GlobalParseContext = &parseContext;
setInitialState();
assert(symbolTable->isEmpty() || symbolTable->atSharedBuiltInLevel());
//
// Parse the built-ins. This should only happen once per
// language symbol table.
//
// Push the symbol table to give it an initial scope. This
// push should not have a corresponding pop, so that built-ins
// are preserved, and the test for an empty table fails.
//
symbolTable->push();
//Initialize the Preprocessor
int ret = InitPreprocessor();
if (ret)
{
infoSink.info.message(EPrefixInternalError, "Unable to intialize the Preprocessor");
return false;
}
for (TBuiltInStrings::iterator i = BuiltInStrings[parseContext.language].begin();
i != BuiltInStrings[parseContext.language].end();
++i)
{
const char* builtInShaders = (*i).c_str();
if (PaParseString(const_cast<char*>(builtInShaders), parseContext) != 0)
{
infoSink.info.message(EPrefixInternalError, "Unable to parse built-ins");
return false;
}
}
if ( !bUseGlobalSymbolTable )
{
IdentifyBuiltIns(parseContext.language, *symbolTable);
}
FinalizePreprocessor();
return true;
}
/// Initializize the symbol table
/// \param BuiltInStrings
/// Pointer to built in strings.
/// \param language
/// Shading language to initialize symbol table for
/// \param infoSink
/// Information sink (for errors/warnings)
/// \param symbolTables
/// Array of symbol tables (one for each language)
/// \param bUseGlobalSymbolTable
/// Whether to use the global symbol table or the per-language symbol table
/// \return
/// True if succesfully initialized, false otherwise
static bool InitializeSymbolTable( TBuiltInStrings* BuiltInStrings, EShLanguage language, TInfoSink& infoSink,
TSymbolTable* symbolTables, bool bUseGlobalSymbolTable )
{
TSymbolTable* symbolTable;
if ( bUseGlobalSymbolTable )
symbolTable = symbolTables;
else
symbolTable = &symbolTables[language];
//@TODO: for now, we use same global symbol table for all target language versions.
// This is wrong and will have to be changed at some point.
TParseContext parseContext(*symbolTable, language, ETargetVersionCount, 0, infoSink);
GlobalParseContext = &parseContext;
setInitialState();
assert(symbolTable->isEmpty() || symbolTable->atSharedBuiltInLevel());
//
// Parse the built-ins. This should only happen once per
// language symbol table.
//
// Push the symbol table to give it an initial scope. This
// push should not have a corresponding pop, so that built-ins
// are preserved, and the test for an empty table fails.
//
symbolTable->push();
for (TBuiltInStrings::iterator i = BuiltInStrings[parseContext.language].begin();
i != BuiltInStrings[parseContext.language].end();
++i)
{
const char* builtInShaders = (*i).c_str();
if (PaParseString(const_cast<char*>(builtInShaders), parseContext, NULL) != 0)
{
infoSink.info.message(EPrefixInternalError, "Unable to parse built-ins");
return false;
}
}
if ( !bUseGlobalSymbolTable )
{
IdentifyBuiltIns(parseContext.language, *symbolTable);
}
return true;
}
int C_DECL Hlsl2Glsl_Parse(
const ShHandle handle,
const char* shaderString,
ETargetVersion targetVersion,
Hlsl2Glsl_ParseCallbacks* callbacks,
unsigned options)
{
if (!InitThread())
return 0;
if (handle == 0)
return 0;
HlslCrossCompiler* compiler = handle;
GlobalPoolAllocator.push();
compiler->infoSink.info.erase();
compiler->infoSink.debug.erase();
if (!shaderString)
return 1;
TSymbolTable symbolTable(SymbolTables[compiler->getLanguage()]);
GenerateBuiltInSymbolTable(compiler->infoSink, &symbolTable, compiler->getLanguage());
TParseContext parseContext(symbolTable, compiler->getLanguage(), targetVersion, options, compiler->infoSink);
GlobalParseContext = &parseContext;
setInitialState();
//
// Parse the application's shaders. All the following symbol table
// work will be throw-away, so push a new allocation scope that can
// be thrown away, then push a scope for the current shader's globals.
//
bool success = true;
symbolTable.push();
if (!symbolTable.atGlobalLevel())
parseContext.infoSink.info.message(EPrefixInternalError, "Wrong symbol table level");
int ret = PaParseString(const_cast<char*>(shaderString), parseContext, callbacks);
if (ret)
success = false;
if (success && parseContext.treeRoot)
{
TIntermAggregate* aggRoot = parseContext.treeRoot->getAsAggregate();
if (aggRoot && aggRoot->getOp() == EOpNull)
aggRoot->setOperator(EOpSequence);
if (options & ETranslateOpIntermediate)
ir_output_tree(parseContext.treeRoot, parseContext.infoSink);
compiler->TransformAST (parseContext.treeRoot);
compiler->ProduceGLSL (parseContext.treeRoot, targetVersion, options);
}
else if (!success)
{
// only add "X compilation errors" message if somehow there are no other errors whatsoever, yet
// we still failed. for some reason.
if (parseContext.infoSink.info.IsEmpty())
{
parseContext.infoSink.info.prefix(EPrefixError);
parseContext.infoSink.info << parseContext.numErrors << " compilation errors. No code generated.\n\n";
}
success = false;
if (options & ETranslateOpIntermediate)
ir_output_tree(parseContext.treeRoot, parseContext.infoSink);
}
ir_remove_tree(parseContext.treeRoot);
//
// Ensure symbol table is returned to the built-in level,
// throwing away all but the built-ins.
//
while (! symbolTable.atSharedBuiltInLevel())
symbolTable.pop();
//
// Throw away all the temporary memory used by the compilation process.
//
GlobalPoolAllocator.pop();
return success ? 1 : 0;
}
int C_DECL Hlsl2Glsl_Parse( const ShHandle handle,
const char* shaderString,
int options )
{
if (!InitThread())
return 0;
if (handle == 0)
return 0;
HlslCrossCompiler* compiler = handle;
GlobalPoolAllocator.push();
compiler->infoSink.info.erase();
compiler->infoSink.debug.erase();
if (!shaderString)
return 1;
TIntermediate intermediate(compiler->infoSink);
TSymbolTable symbolTable(SymbolTables[compiler->getLanguage()]);
GenerateBuiltInSymbolTable(compiler->infoSink, &symbolTable, compiler->getLanguage());
TParseContext parseContext(symbolTable, intermediate, compiler->getLanguage(), compiler->infoSink);
GlobalParseContext = &parseContext;
setInitialState();
InitPreprocessor();
//
// Parse the application's shaders. All the following symbol table
// work will be throw-away, so push a new allocation scope that can
// be thrown away, then push a scope for the current shader's globals.
//
bool success = true;
symbolTable.push();
if (!symbolTable.atGlobalLevel())
parseContext.infoSink.info.message(EPrefixInternalError, "Wrong symbol table level");
int ret = PaParseString(const_cast<char*>(shaderString), parseContext);
if (ret)
success = false;
if (success && parseContext.treeRoot)
{
TIntermAggregate* aggRoot = parseContext.treeRoot->getAsAggregate();
if (aggRoot && aggRoot->getOp() == EOpNull)
aggRoot->setOperator(EOpSequence);
if (options & ETranslateOpIntermediate)
intermediate.outputTree(parseContext.treeRoot);
compiler->TransformAST (parseContext.treeRoot);
compiler->ProduceGLSL (parseContext.treeRoot, (options & ETranslateOpUsePrecision) ? true : false);
}
else if (!success)
{
parseContext.infoSink.info.prefix(EPrefixError);
parseContext.infoSink.info << parseContext.numErrors << " compilation errors. No code generated.\n\n";
success = false;
if (options & ETranslateOpIntermediate)
intermediate.outputTree(parseContext.treeRoot);
}
intermediate.remove(parseContext.treeRoot);
//
// Ensure symbol table is returned to the built-in level,
// throwing away all but the built-ins.
//
while (! symbolTable.atSharedBuiltInLevel())
symbolTable.pop();
FinalizePreprocessor();
//
// Throw away all the temporary memory used by the compilation process.
//
GlobalPoolAllocator.pop();
return success ? 1 : 0;
}
