kc3-lang/angle/src/compiler/ShaderLang.cpp

• Show log

  Commit

• Hash : 94a86ad8
  Author :
  Date : 2010-08-25T20:02:11
  

  Adding support for OES_standard_derivatives extension. This is not the complete implementation. Sending it to get feedback on the API. Is it OK to add extension support into TBuiltInResource? I could create a new struct for extensions but that would lead to API change.
  BUG=25
  Review URL: http://codereview.appspot.com/1953047
  
  git-svn-id: https://angleproject.googlecode.com/svn/trunk@402 736b8ea6-26fd-11df-bfd4-992fa37f6226
  

Download

• src/compiler/ShaderLang.cpp

• //
  // 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.
  //
  
  //
  // Implement the top-level of interface to the compiler,
  // as defined in ShaderLang.h
  //
  
  #include "GLSLANG/ShaderLang.h"
  
  #include "compiler/Initialize.h"
  #include "compiler/InitializeDll.h"
  #include "compiler/ParseHelper.h"
  #include "compiler/ShHandle.h"
  #include "compiler/SymbolTable.h"
  
  static bool InitializeSymbolTable(
          const TBuiltInStrings& builtInStrings,
          EShLanguage language, EShSpec spec, const TBuiltInResource& resources,
          TInfoSink& infoSink, TSymbolTable& symbolTable)
  {
      TIntermediate intermediate(infoSink);
      TParseContext parseContext(symbolTable, intermediate, language, spec, infoSink);
  
      GlobalParseContext = &parseContext;
  
      setInitialState();
  
      assert(symbolTable.isEmpty());       
      //
      // 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
      if (InitPreprocessor())
      {
          infoSink.info.message(EPrefixInternalError,  "Unable to intialize the Preprocessor");
          return false;
      }
  
      for (TBuiltInStrings::const_iterator i = builtInStrings.begin(); i != builtInStrings.end(); ++i)
      {
          const char* builtInShaders[1];
          int builtInLengths[1];
  
          builtInShaders[0] = (*i).c_str();
          builtInLengths[0] = (int) (*i).size();
  
          if (PaParseStrings(const_cast<char**>(builtInShaders), builtInLengths, 1, parseContext) != 0)
          {
              infoSink.info.message(EPrefixInternalError, "Unable to parse built-ins");
              return false;
          }
      }
  
      IdentifyBuiltIns(language, spec, resources, symbolTable);
  
      FinalizePreprocessor();
  
      return true;
  }
  
  static bool GenerateBuiltInSymbolTable(
          EShLanguage language, EShSpec spec, const TBuiltInResource& resources,
          TInfoSink& infoSink, TSymbolTable& symbolTable)
  {
      TBuiltIns builtIns;
  
      builtIns.initialize(language, spec, resources);
      return InitializeSymbolTable(builtIns.getBuiltInStrings(), language, spec, resources, infoSink, symbolTable);
  }
  
  //
  // This is the platform independent interface between an OGL driver
  // and the shading language compiler.
  //
  
  //
  // Driver must call this first, once, before doing any other
  // compiler operations.
  //
  int ShInitialize()
  {
      if (!InitProcess())
          return 0;
  
      return 1;
  }
  
  //
  // Cleanup symbol tables
  //
  int ShFinalize()
  {
      if (!DetachProcess())
          return 0;
  
      return 1;
  }
  
  //
  // Initialize built-in resources with minimum expected values.
  //
  void ShInitBuiltInResource(TBuiltInResource* resources)
  {
      // Constants.
      resources->MaxVertexAttribs = 8;
      resources->MaxVertexUniformVectors = 128;
      resources->MaxVaryingVectors = 8;
      resources->MaxVertexTextureImageUnits = 0;
      resources->MaxCombinedTextureImageUnits = 8;
      resources->MaxTextureImageUnits = 8;
      resources->MaxFragmentUniformVectors = 16;
      resources->MaxDrawBuffers = 1;
  
      // Extensions.
      resources->OES_standard_derivatives = 0;
  }
  
  //
  // Driver calls these to create and destroy compiler objects.
  //
  ShHandle ShConstructCompiler(EShLanguage language, EShSpec spec, const TBuiltInResource* resources)
  {
      if (!InitThread())
          return 0;
  
      TShHandleBase* base = static_cast<TShHandleBase*>(ConstructCompiler(language, spec));
      TCompiler* compiler = base->getAsCompiler();
      if (compiler == 0)
          return 0;
  
      // Generate built-in symbol table.
      if (!GenerateBuiltInSymbolTable(language, spec, *resources, compiler->getInfoSink(), compiler->getSymbolTable())) {
          ShDestruct(base);
          return 0;
      }
  
      return reinterpret_cast<void*>(base);
  }
  
  void ShDestruct(ShHandle handle)
  {
      if (handle == 0)
          return;
  
      TShHandleBase* base = static_cast<TShHandleBase*>(handle);
  
      if (base->getAsCompiler())
          DeleteCompiler(base->getAsCompiler());
  }
  
  //
  // Do an actual compile on the given strings.  The result is left 
  // in the given compile object.
  //
  // Return:  The return value of ShCompile is really boolean, indicating
  // success or failure.
  //
  int ShCompile(
      const ShHandle handle,
      const char* const shaderStrings[],
      const int numStrings,
      const EShOptimizationLevel optLevel,
      int debugOptions
      )
  {
      if (!InitThread())
          return 0;
  
      if (handle == 0)
          return 0;
  
      TShHandleBase* base = reinterpret_cast<TShHandleBase*>(handle);
      TCompiler* compiler = base->getAsCompiler();
      if (compiler == 0)
          return 0;
      
      GlobalPoolAllocator.push();
      TInfoSink& infoSink = compiler->getInfoSink();
      infoSink.info.erase();
      infoSink.debug.erase();
      infoSink.obj.erase();
  
      if (numStrings == 0)
          return 1;
  
      TIntermediate intermediate(infoSink);
      TSymbolTable& symbolTable = compiler->getSymbolTable();
  
      TParseContext parseContext(symbolTable, intermediate, compiler->getLanguage(), compiler->getSpec(), infoSink);
      parseContext.initializeExtensionBehavior();
      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 = PaParseStrings(const_cast<char**>(shaderStrings), 0, numStrings, parseContext);
      if (ret)
          success = false;
  
      if (success && parseContext.treeRoot) {
          if (optLevel == EShOptNoGeneration)
              parseContext.infoSink.info.message(EPrefixNone, "No errors.  No code generation was requested.");
          else {
              success = intermediate.postProcess(parseContext.treeRoot, parseContext.language);
  
              if (success) {
  
                  if (debugOptions & EDebugOpIntermediate)
                      intermediate.outputTree(parseContext.treeRoot);
  
                  //
                  // Call the machine dependent compiler
                  //
                  if (!compiler->compile(parseContext.treeRoot))
                      success = false;
              }
          }
      } else if (!success) {
          parseContext.infoSink.info.prefix(EPrefixError);
          parseContext.infoSink.info << parseContext.numErrors << " compilation errors.  No code generated.\n\n";
          success = false;
          if (debugOptions & EDebugOpIntermediate)
              intermediate.outputTree(parseContext.treeRoot);
      } else if (!parseContext.treeRoot) {
          parseContext.error(1, "Unexpected end of file.", "", "");
          parseContext.infoSink.info << parseContext.numErrors << " compilation errors.  No code generated.\n\n";
          success = false;
          if (debugOptions & EDebugOpIntermediate)
              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.atBuiltInLevel())
          symbolTable.pop();
  
      FinalizePreprocessor();
      //
      // Throw away all the temporary memory used by the compilation process.
      //
      GlobalPoolAllocator.pop();
  
      return success ? 1 : 0;
  }
  
  //
  // Return any compiler log of messages for the application.
  //
  const char* ShGetInfoLog(const ShHandle handle)
  {
      if (!InitThread())
          return 0;
  
      if (handle == 0)
          return 0;
  
      TShHandleBase* base = static_cast<TShHandleBase*>(handle);
      TInfoSink* infoSink = 0;
  
      if (base->getAsCompiler())
          infoSink = &(base->getAsCompiler()->getInfoSink());
  
      infoSink->info << infoSink->debug.c_str();
      return infoSink->info.c_str();
  }
  
  //
  // Return any object code.
  //
  const char* ShGetObjectCode(const ShHandle handle)
  {
      if (!InitThread())
          return 0;
  
      if (handle == 0)
          return 0;
  
      TShHandleBase* base = static_cast<TShHandleBase*>(handle);
      TInfoSink* infoSink;
  
      if (base->getAsCompiler())
          infoSink = &(base->getAsCompiler()->getInfoSink());
  
      return infoSink->obj.c_str();
  }
  

Download