kc3-lang/angle/src/libANGLE/renderer/gl/QueryGL.cpp

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• Hash : acf2f3ad
  Author :
  Date : 2017-11-21T19:22:44
  

  Apply Chromium style fixes.
  
  This addresses several minor code quality issues that are validated
  in Chromium, but not yet applied to ANGLE:
  
  * constructors and destructors must be defined out-of-line
  * auto is not allowed for simple pointer types
  * use override everywhere instead of virtual
  * virtual functions must also be defined out-of-line
  
  Slightly reduces binary size for me (~2k on Win, 150k on Linux).
  
  Bug: angleproject:1569
  Change-Id: I073ca3365188caf5f29fb28d9eb207903c1843e6
  Reviewed-on: https://chromium-review.googlesource.com/779959
  Commit-Queue: Jamie Madill <jmadill@chromium.org>
  Reviewed-by: Jamie Madill <jmadill@chromium.org>
  

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• src/libANGLE/renderer/gl/QueryGL.cpp

• //
  // Copyright 2015 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.
  //
  
  // QueryGL.cpp: Implements the class methods for QueryGL.
  
  #include "libANGLE/renderer/gl/QueryGL.h"
  
  #include "common/debug.h"
  #include "libANGLE/renderer/gl/FunctionsGL.h"
  #include "libANGLE/renderer/gl/StateManagerGL.h"
  #include "libANGLE/renderer/gl/renderergl_utils.h"
  
  namespace
  {
  
  GLuint64 MergeQueryResults(GLenum type, GLuint64 currentResult, GLuint64 newResult)
  {
      switch (type)
      {
          case GL_ANY_SAMPLES_PASSED:
          case GL_ANY_SAMPLES_PASSED_CONSERVATIVE:
              return (currentResult == GL_TRUE || newResult == GL_TRUE) ? GL_TRUE : GL_FALSE;
  
          case GL_TRANSFORM_FEEDBACK_PRIMITIVES_WRITTEN:
              return currentResult + newResult;
  
          case GL_TIME_ELAPSED:
              return currentResult + newResult;
  
          case GL_TIMESTAMP:
              return newResult;
  
          default:
              UNREACHABLE();
              return 0;
      }
  }
  
  }  // anonymous namespace
  
  namespace rx
  {
  
  QueryGL::QueryGL(GLenum type) : QueryImpl(type)
  {
  }
  
  QueryGL::~QueryGL()
  {
  }
  
  StandardQueryGL::StandardQueryGL(GLenum type,
                                   const FunctionsGL *functions,
                                   StateManagerGL *stateManager)
      : QueryGL(type),
        mType(type),
        mFunctions(functions),
        mStateManager(stateManager),
        mActiveQuery(0),
        mPendingQueries(),
        mResultSum(0)
  {
  }
  
  StandardQueryGL::~StandardQueryGL()
  {
      mStateManager->deleteQuery(mActiveQuery);
      mStateManager->onDeleteQueryObject(this);
      while (!mPendingQueries.empty())
      {
          mStateManager->deleteQuery(mPendingQueries.front());
          mPendingQueries.pop_front();
      }
  }
  
  gl::Error StandardQueryGL::begin()
  {
      mResultSum = 0;
      mStateManager->onBeginQuery(this);
      return resume();
  }
  
  gl::Error StandardQueryGL::end()
  {
      return pause();
  }
  
  gl::Error StandardQueryGL::queryCounter()
  {
      ASSERT(mType == GL_TIMESTAMP);
  
      // Directly create a query for the timestamp and add it to the pending query queue, as timestamp
      // queries do not have the traditional begin/end block and never need to be paused/resumed
      GLuint query;
      mFunctions->genQueries(1, &query);
      mFunctions->queryCounter(query, GL_TIMESTAMP);
      mPendingQueries.push_back(query);
  
      return gl::NoError();
  }
  
  template <typename T>
  gl::Error StandardQueryGL::getResultBase(T *params)
  {
      ASSERT(mActiveQuery == 0);
  
      gl::Error error = flush(true);
      if (error.isError())
      {
          return error;
      }
  
      ASSERT(mPendingQueries.empty());
      *params = static_cast<T>(mResultSum);
  
      return gl::NoError();
  }
  
  gl::Error StandardQueryGL::getResult(GLint *params)
  {
      return getResultBase(params);
  }
  
  gl::Error StandardQueryGL::getResult(GLuint *params)
  {
      return getResultBase(params);
  }
  
  gl::Error StandardQueryGL::getResult(GLint64 *params)
  {
      return getResultBase(params);
  }
  
  gl::Error StandardQueryGL::getResult(GLuint64 *params)
  {
      return getResultBase(params);
  }
  
  gl::Error StandardQueryGL::isResultAvailable(bool *available)
  {
      ASSERT(mActiveQuery == 0);
  
      gl::Error error = flush(false);
      if (error.isError())
      {
          return error;
      }
  
      *available = mPendingQueries.empty();
      return gl::NoError();
  }
  
  gl::Error StandardQueryGL::pause()
  {
      if (mActiveQuery != 0)
      {
          mStateManager->endQuery(mType, mActiveQuery);
  
          mPendingQueries.push_back(mActiveQuery);
          mActiveQuery = 0;
      }
  
      // Flush to make sure the pending queries don't add up too much.
      gl::Error error = flush(false);
      if (error.isError())
      {
          return error;
      }
  
      return gl::NoError();
  }
  
  gl::Error StandardQueryGL::resume()
  {
      if (mActiveQuery == 0)
      {
          // Flush to make sure the pending queries don't add up too much.
          gl::Error error = flush(false);
          if (error.isError())
          {
              return error;
          }
  
          mFunctions->genQueries(1, &mActiveQuery);
          mStateManager->beginQuery(mType, mActiveQuery);
      }
  
      return gl::NoError();
  }
  
  gl::Error StandardQueryGL::flush(bool force)
  {
      while (!mPendingQueries.empty())
      {
          GLuint id = mPendingQueries.front();
          if (!force)
          {
              GLuint resultAvailable = 0;
              mFunctions->getQueryObjectuiv(id, GL_QUERY_RESULT_AVAILABLE, &resultAvailable);
              if (resultAvailable == GL_FALSE)
              {
                  return gl::NoError();
              }
          }
  
          // Even though getQueryObjectui64v was introduced for timer queries, there is nothing in the
          // standard that says that it doesn't work for any other queries. It also passes on all the
          // trybots, so we use it if it is available
          if (mFunctions->getQueryObjectui64v != nullptr)
          {
              GLuint64 result = 0;
              mFunctions->getQueryObjectui64v(id, GL_QUERY_RESULT, &result);
              mResultSum = MergeQueryResults(mType, mResultSum, result);
          }
          else
          {
              GLuint result = 0;
              mFunctions->getQueryObjectuiv(id, GL_QUERY_RESULT, &result);
              mResultSum = MergeQueryResults(mType, mResultSum, static_cast<GLuint64>(result));
          }
  
          mStateManager->deleteQuery(id);
  
          mPendingQueries.pop_front();
      }
  
      return gl::NoError();
  }
  
  class SyncProviderGL
  {
    public:
      virtual ~SyncProviderGL() {}
      virtual gl::Error flush(bool force, bool *finished) = 0;
  };
  
  class SyncProviderGLSync : public SyncProviderGL
  {
    public:
      SyncProviderGLSync(const FunctionsGL *functions) : mFunctions(functions), mSync(nullptr)
      {
          mSync = mFunctions->fenceSync(GL_SYNC_GPU_COMMANDS_COMPLETE, 0);
      }
  
      ~SyncProviderGLSync() override { mFunctions->deleteSync(mSync); }
  
      gl::Error flush(bool force, bool *finished) override
      {
          if (force)
          {
              mFunctions->clientWaitSync(mSync, 0, 0);
              *finished = true;
          }
          else
          {
              GLint value = 0;
              mFunctions->getSynciv(mSync, GL_SYNC_STATUS, 1, nullptr, &value);
              *finished = (value == GL_SIGNALED);
          }
  
          return gl::NoError();
      }
  
    private:
      const FunctionsGL *mFunctions;
      GLsync mSync;
  };
  
  class SyncProviderGLQuery : public SyncProviderGL
  {
    public:
      SyncProviderGLQuery(const FunctionsGL *functions,
                          StateManagerGL *stateManager,
                          GLenum queryType)
          : mFunctions(functions), mQuery(0)
      {
          mFunctions->genQueries(1, &mQuery);
          ANGLE_SWALLOW_ERR(stateManager->pauseQuery(queryType));
          mFunctions->beginQuery(queryType, mQuery);
          mFunctions->endQuery(queryType);
          ANGLE_SWALLOW_ERR(stateManager->resumeQuery(queryType));
      }
  
      ~SyncProviderGLQuery() override { mFunctions->deleteQueries(1, &mQuery); }
  
      gl::Error flush(bool force, bool *finished) override
      {
          if (force)
          {
              GLint result = 0;
              mFunctions->getQueryObjectiv(mQuery, GL_QUERY_RESULT, &result);
              *finished = true;
          }
          else
          {
              GLint available = 0;
              mFunctions->getQueryObjectiv(mQuery, GL_QUERY_RESULT_AVAILABLE, &available);
              *finished = (available == GL_TRUE);
          }
  
          return gl::NoError();
      }
  
    private:
      const FunctionsGL *mFunctions;
      GLuint mQuery;
  };
  
  SyncQueryGL::SyncQueryGL(GLenum type, const FunctionsGL *functions, StateManagerGL *stateManager)
      : QueryGL(type),
        mFunctions(functions),
        mStateManager(stateManager),
        mSyncProvider(nullptr),
        mFinished(false)
  {
      ASSERT(IsSupported(mFunctions));
      ASSERT(type == GL_COMMANDS_COMPLETED_CHROMIUM);
  }
  
  SyncQueryGL::~SyncQueryGL()
  {
  }
  
  bool SyncQueryGL::IsSupported(const FunctionsGL *functions)
  {
      return nativegl::SupportsFenceSync(functions) || nativegl::SupportsOcclusionQueries(functions);
  }
  
  gl::Error SyncQueryGL::begin()
  {
      return gl::NoError();
  }
  
  gl::Error SyncQueryGL::end()
  {
      if (nativegl::SupportsFenceSync(mFunctions))
      {
          mSyncProvider.reset(new SyncProviderGLSync(mFunctions));
      }
      else if (nativegl::SupportsOcclusionQueries(mFunctions))
      {
          mSyncProvider.reset(
              new SyncProviderGLQuery(mFunctions, mStateManager, GL_ANY_SAMPLES_PASSED));
      }
      else
      {
          ASSERT(false);
          return gl::InternalError() << "No native support for sync queries.";
      }
      return gl::NoError();
  }
  
  gl::Error SyncQueryGL::queryCounter()
  {
      UNREACHABLE();
      return gl::NoError();
  }
  
  gl::Error SyncQueryGL::getResult(GLint *params)
  {
      return getResultBase(params);
  }
  
  gl::Error SyncQueryGL::getResult(GLuint *params)
  {
      return getResultBase(params);
  }
  
  gl::Error SyncQueryGL::getResult(GLint64 *params)
  {
      return getResultBase(params);
  }
  
  gl::Error SyncQueryGL::getResult(GLuint64 *params)
  {
      return getResultBase(params);
  }
  
  gl::Error SyncQueryGL::isResultAvailable(bool *available)
  {
      ANGLE_TRY(flush(false));
      *available = mFinished;
      return gl::NoError();
  }
  
  gl::Error SyncQueryGL::pause()
  {
      return gl::NoError();
  }
  
  gl::Error SyncQueryGL::resume()
  {
      return gl::NoError();
  }
  
  gl::Error SyncQueryGL::flush(bool force)
  {
      if (mSyncProvider == nullptr)
      {
          ASSERT(mFinished);
          return gl::NoError();
      }
  
      ANGLE_TRY(mSyncProvider->flush(force, &mFinished));
      if (mFinished)
      {
          mSyncProvider.reset();
      }
  
      return gl::NoError();
  }
  
  template <typename T>
  gl::Error SyncQueryGL::getResultBase(T *params)
  {
      ANGLE_TRY(flush(true));
      *params = static_cast<T>(mFinished ? GL_TRUE : GL_FALSE);
      return gl::NoError();
  }
  }
  

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