kc3-lang/angle/src/libANGLE/Shader.cpp

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• Hash : 4ddf5afb
  Author :
  Date : 2016-12-01T14:30:44
  

  Refactor ResourceManager into separate managers per resource type.
  
  BUG=angleproject:1639
  
  Change-Id: I943f553cfb0e0feb57953770784b48e22fccc875
  Reviewed-on: https://chromium-review.googlesource.com/423172
  Commit-Queue: Geoff Lang <geofflang@chromium.org>
  Reviewed-by: Jamie Madill <jmadill@chromium.org>
  

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• src/libANGLE/Shader.cpp

• //
  // Copyright (c) 2002-2014 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.
  //
  
  // Shader.cpp: Implements the gl::Shader class and its  derived classes
  // VertexShader and FragmentShader. Implements GL shader objects and related
  // functionality. [OpenGL ES 2.0.24] section 2.10 page 24 and section 3.8 page 84.
  
  #include "libANGLE/Shader.h"
  
  #include <sstream>
  
  #include "common/utilities.h"
  #include "GLSLANG/ShaderLang.h"
  #include "libANGLE/Caps.h"
  #include "libANGLE/Compiler.h"
  #include "libANGLE/Constants.h"
  #include "libANGLE/renderer/GLImplFactory.h"
  #include "libANGLE/renderer/ShaderImpl.h"
  #include "libANGLE/ResourceManager.h"
  #include "libANGLE/Context.h"
  
  namespace gl
  {
  
  namespace
  {
  template <typename VarT>
  std::vector<VarT> GetActiveShaderVariables(const std::vector<VarT> *variableList)
  {
      ASSERT(variableList);
      std::vector<VarT> result;
      for (size_t varIndex = 0; varIndex < variableList->size(); varIndex++)
      {
          const VarT &var = variableList->at(varIndex);
          if (var.staticUse)
          {
              result.push_back(var);
          }
      }
      return result;
  }
  
  template <typename VarT>
  const std::vector<VarT> &GetShaderVariables(const std::vector<VarT> *variableList)
  {
      ASSERT(variableList);
      return *variableList;
  }
  
  }  // anonymous namespace
  
  // true if varying x has a higher priority in packing than y
  bool CompareShaderVar(const sh::ShaderVariable &x, const sh::ShaderVariable &y)
  {
      if (x.type == y.type)
      {
          return x.arraySize > y.arraySize;
      }
  
      // Special case for handling structs: we sort these to the end of the list
      if (x.type == GL_STRUCT_ANGLEX)
      {
          return false;
      }
  
      if (y.type == GL_STRUCT_ANGLEX)
      {
          return true;
      }
  
      return gl::VariableSortOrder(x.type) < gl::VariableSortOrder(y.type);
  }
  
  ShaderState::ShaderState(GLenum shaderType) : mLabel(), mShaderType(shaderType), mShaderVersion(100)
  {
      mLocalSize.fill(-1);
  }
  
  ShaderState::~ShaderState()
  {
  }
  
  Shader::Shader(ShaderProgramManager *manager,
                 rx::GLImplFactory *implFactory,
                 const gl::Limitations &rendererLimitations,
                 GLenum type,
                 GLuint handle)
      : mState(type),
        mImplementation(implFactory->createShader(mState)),
        mRendererLimitations(rendererLimitations),
        mHandle(handle),
        mType(type),
        mRefCount(0),
        mDeleteStatus(false),
        mCompiled(false),
        mResourceManager(manager)
  {
      ASSERT(mImplementation);
  }
  
  Shader::~Shader()
  {
      SafeDelete(mImplementation);
  }
  
  void Shader::setLabel(const std::string &label)
  {
      mState.mLabel = label;
  }
  
  const std::string &Shader::getLabel() const
  {
      return mState.mLabel;
  }
  
  GLuint Shader::getHandle() const
  {
      return mHandle;
  }
  
  void Shader::setSource(GLsizei count, const char *const *string, const GLint *length)
  {
      std::ostringstream stream;
  
      for (int i = 0; i < count; i++)
      {
          if (length == nullptr || length[i] < 0)
          {
              stream.write(string[i], strlen(string[i]));
          }
          else
          {
              stream.write(string[i], length[i]);
          }
      }
  
      mState.mSource = stream.str();
  }
  
  int Shader::getInfoLogLength() const
  {
      if (mInfoLog.empty())
      {
          return 0;
      }
  
      return (static_cast<int>(mInfoLog.length()) + 1);
  }
  
  void Shader::getInfoLog(GLsizei bufSize, GLsizei *length, char *infoLog) const
  {
      int index = 0;
  
      if (bufSize > 0)
      {
          index = std::min(bufSize - 1, static_cast<GLsizei>(mInfoLog.length()));
          memcpy(infoLog, mInfoLog.c_str(), index);
  
          infoLog[index] = '\0';
      }
  
      if (length)
      {
          *length = index;
      }
  }
  
  int Shader::getSourceLength() const
  {
      return mState.mSource.empty() ? 0 : (static_cast<int>(mState.mSource.length()) + 1);
  }
  
  int Shader::getTranslatedSourceLength() const
  {
      if (mState.mTranslatedSource.empty())
      {
          return 0;
      }
  
      return (static_cast<int>(mState.mTranslatedSource.length()) + 1);
  }
  
  int Shader::getTranslatedSourceWithDebugInfoLength() const
  {
      const std::string &debugInfo = mImplementation->getDebugInfo();
      if (debugInfo.empty())
      {
          return 0;
      }
  
      return (static_cast<int>(debugInfo.length()) + 1);
  }
  
  void Shader::getSourceImpl(const std::string &source, GLsizei bufSize, GLsizei *length, char *buffer)
  {
      int index = 0;
  
      if (bufSize > 0)
      {
          index = std::min(bufSize - 1, static_cast<GLsizei>(source.length()));
          memcpy(buffer, source.c_str(), index);
  
          buffer[index] = '\0';
      }
  
      if (length)
      {
          *length = index;
      }
  }
  
  void Shader::getSource(GLsizei bufSize, GLsizei *length, char *buffer) const
  {
      getSourceImpl(mState.mSource, bufSize, length, buffer);
  }
  
  void Shader::getTranslatedSource(GLsizei bufSize, GLsizei *length, char *buffer) const
  {
      getSourceImpl(mState.mTranslatedSource, bufSize, length, buffer);
  }
  
  void Shader::getTranslatedSourceWithDebugInfo(GLsizei bufSize, GLsizei *length, char *buffer) const
  {
      const std::string &debugInfo = mImplementation->getDebugInfo();
      getSourceImpl(debugInfo, bufSize, length, buffer);
  }
  
  void Shader::compile(const Context *context)
  {
      mState.mTranslatedSource.clear();
      mInfoLog.clear();
      mState.mShaderVersion = 100;
      mState.mVaryings.clear();
      mState.mUniforms.clear();
      mState.mInterfaceBlocks.clear();
      mState.mActiveAttributes.clear();
      mState.mActiveOutputVariables.clear();
  
      Compiler *compiler = context->getCompiler();
      ShHandle compilerHandle = compiler->getCompilerHandle(mState.mShaderType);
  
      std::stringstream sourceStream;
  
      std::string sourcePath;
      ShCompileOptions additionalOptions =
          mImplementation->prepareSourceAndReturnOptions(&sourceStream, &sourcePath);
      ShCompileOptions compileOptions = (SH_OBJECT_CODE | SH_VARIABLES | additionalOptions);
  
      // Add default options to WebGL shaders to prevent unexpected behavior during compilation.
      if (context->getExtensions().webglCompatibility)
      {
          compileOptions |= SH_LIMIT_CALL_STACK_DEPTH;
          compileOptions |= SH_LIMIT_EXPRESSION_COMPLEXITY;
          compileOptions |= SH_ENFORCE_PACKING_RESTRICTIONS;
      }
  
      // Some targets (eg D3D11 Feature Level 9_3 and below) do not support non-constant loop indexes
      // in fragment shaders. Shader compilation will fail. To provide a better error message we can
      // instruct the compiler to pre-validate.
      if (mRendererLimitations.shadersRequireIndexedLoopValidation)
      {
          compileOptions |= SH_VALIDATE_LOOP_INDEXING;
      }
  
      std::string sourceString  = sourceStream.str();
      std::vector<const char *> sourceCStrings;
  
      if (!sourcePath.empty())
      {
          sourceCStrings.push_back(sourcePath.c_str());
      }
  
      sourceCStrings.push_back(sourceString.c_str());
  
      bool result =
          sh::Compile(compilerHandle, &sourceCStrings[0], sourceCStrings.size(), compileOptions);
  
      if (!result)
      {
          mInfoLog = sh::GetInfoLog(compilerHandle);
          WARN() << std::endl << mInfoLog;
          mCompiled = false;
          return;
      }
  
      mState.mTranslatedSource = sh::GetObjectCode(compilerHandle);
  
  #ifndef NDEBUG
      // Prefix translated shader with commented out un-translated shader.
      // Useful in diagnostics tools which capture the shader source.
      std::ostringstream shaderStream;
      shaderStream << "// GLSL\n";
      shaderStream << "//\n";
  
      size_t curPos = 0;
      while (curPos != std::string::npos)
      {
          size_t nextLine = mState.mSource.find("\n", curPos);
          size_t len      = (nextLine == std::string::npos) ? std::string::npos : (nextLine - curPos + 1);
  
          shaderStream << "// " << mState.mSource.substr(curPos, len);
  
          curPos = (nextLine == std::string::npos) ? std::string::npos : (nextLine + 1);
      }
      shaderStream << "\n\n";
      shaderStream << mState.mTranslatedSource;
      mState.mTranslatedSource = shaderStream.str();
  #endif
  
      // Gather the shader information
      mState.mShaderVersion = sh::GetShaderVersion(compilerHandle);
  
      mState.mVaryings        = GetShaderVariables(sh::GetVaryings(compilerHandle));
      mState.mUniforms        = GetShaderVariables(sh::GetUniforms(compilerHandle));
      mState.mInterfaceBlocks = GetShaderVariables(sh::GetInterfaceBlocks(compilerHandle));
  
      switch (mState.mShaderType)
      {
          case GL_COMPUTE_SHADER:
          {
              mState.mLocalSize = sh::GetComputeShaderLocalGroupSize(compilerHandle);
              break;
          }
          case GL_VERTEX_SHADER:
          {
              mState.mActiveAttributes = GetActiveShaderVariables(sh::GetAttributes(compilerHandle));
              break;
          }
          case GL_FRAGMENT_SHADER:
          {
              // TODO(jmadill): Figure out why we only sort in the FS, and if we need to.
              std::sort(mState.mVaryings.begin(), mState.mVaryings.end(), CompareShaderVar);
              mState.mActiveOutputVariables =
                  GetActiveShaderVariables(sh::GetOutputVariables(compilerHandle));
              break;
          }
          default:
              UNREACHABLE();
      }
  
      ASSERT(!mState.mTranslatedSource.empty());
  
      mCompiled = mImplementation->postTranslateCompile(compiler, &mInfoLog);
  }
  
  void Shader::addRef()
  {
      mRefCount++;
  }
  
  void Shader::release()
  {
      mRefCount--;
  
      if (mRefCount == 0 && mDeleteStatus)
      {
          mResourceManager->deleteShader(mHandle);
      }
  }
  
  unsigned int Shader::getRefCount() const
  {
      return mRefCount;
  }
  
  bool Shader::isFlaggedForDeletion() const
  {
      return mDeleteStatus;
  }
  
  void Shader::flagForDeletion()
  {
      mDeleteStatus = true;
  }
  
  int Shader::getShaderVersion() const
  {
      return mState.mShaderVersion;
  }
  
  const std::vector<sh::Varying> &Shader::getVaryings() const
  {
      return mState.getVaryings();
  }
  
  const std::vector<sh::Uniform> &Shader::getUniforms() const
  {
      return mState.getUniforms();
  }
  
  const std::vector<sh::InterfaceBlock> &Shader::getInterfaceBlocks() const
  {
      return mState.getInterfaceBlocks();
  }
  
  const std::vector<sh::Attribute> &Shader::getActiveAttributes() const
  {
      return mState.getActiveAttributes();
  }
  
  const std::vector<sh::OutputVariable> &Shader::getActiveOutputVariables() const
  {
      return mState.getActiveOutputVariables();
  }
  
  int Shader::getSemanticIndex(const std::string &attributeName) const
  {
      if (!attributeName.empty())
      {
          const auto &activeAttributes = mState.getActiveAttributes();
  
          int semanticIndex = 0;
          for (size_t attributeIndex = 0; attributeIndex < activeAttributes.size(); attributeIndex++)
          {
              const sh::ShaderVariable &attribute = activeAttributes[attributeIndex];
  
              if (attribute.name == attributeName)
              {
                  return semanticIndex;
              }
  
              semanticIndex += gl::VariableRegisterCount(attribute.type);
          }
      }
  
      return -1;
  }
  
  }
  

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