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

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• Hash : 6de51858
  Author :
  Date : 2017-04-12T09:53:01
  

  Optimize angle::BitSetIterator.
  
  Adds a new custom bitset template to handle packing as many bits as
  possible into a single variable. Intelligently select the right class
  depending on platform features and bit sizes.
  
  For now, always use a packed 64-bit set on 64-bit, instead of using
  a 32-bit set for smaller bitsets.
  
  BUG=angleproject:1814
  
  Change-Id: I3ffef815c15515555833f6fc9302d8a4eee5423b
  Reviewed-on: https://chromium-review.googlesource.com/471827
  Reviewed-by: Geoff Lang <geofflang@chromium.org>
  Reviewed-by: Corentin Wallez <cwallez@chromium.org>
  Commit-Queue: Jamie Madill <jmadill@chromium.org>
  

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• src/libANGLE/VertexArray.cpp

• //
  // Copyright (c) 2013 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.
  //
  // Implementation of the state class for mananging GLES 3 Vertex Array Objects.
  //
  
  #include "libANGLE/VertexArray.h"
  #include "libANGLE/Buffer.h"
  #include "libANGLE/Context.h"
  #include "libANGLE/renderer/GLImplFactory.h"
  #include "libANGLE/renderer/VertexArrayImpl.h"
  
  namespace gl
  {
  
  VertexArrayState::VertexArrayState(size_t maxAttribs, size_t maxAttribBindings)
      : mLabel(), mVertexBindings(maxAttribBindings), mMaxEnabledAttribute(0)
  {
      ASSERT(maxAttribs <= maxAttribBindings);
  
      for (size_t i = 0; i < maxAttribs; i++)
      {
          mVertexAttributes.emplace_back(static_cast<GLuint>(i));
      }
  }
  
  VertexArrayState::~VertexArrayState()
  {
      for (auto &binding : mVertexBindings)
      {
          binding.buffer.set(nullptr);
      }
      mElementArrayBuffer.set(nullptr);
  }
  
  VertexArray::VertexArray(rx::GLImplFactory *factory,
                           GLuint id,
                           size_t maxAttribs,
                           size_t maxAttribBindings)
      : mId(id),
        mState(maxAttribs, maxAttribBindings),
        mVertexArray(factory->createVertexArray(mState))
  {
  }
  
  VertexArray::~VertexArray()
  {
      SafeDelete(mVertexArray);
  }
  
  GLuint VertexArray::id() const
  {
      return mId;
  }
  
  void VertexArray::setLabel(const std::string &label)
  {
      mState.mLabel = label;
  }
  
  const std::string &VertexArray::getLabel() const
  {
      return mState.mLabel;
  }
  
  void VertexArray::detachBuffer(GLuint bufferName)
  {
      for (auto &binding : mState.mVertexBindings)
      {
          if (binding.buffer.id() == bufferName)
          {
              binding.buffer.set(nullptr);
          }
      }
  
      if (mState.mElementArrayBuffer.id() == bufferName)
      {
          mState.mElementArrayBuffer.set(nullptr);
      }
  }
  
  const VertexAttribute &VertexArray::getVertexAttribute(size_t attribIndex) const
  {
      ASSERT(attribIndex < getMaxAttribs());
      return mState.mVertexAttributes[attribIndex];
  }
  
  const VertexBinding &VertexArray::getVertexBinding(size_t bindingIndex) const
  {
      ASSERT(bindingIndex < getMaxBindings());
      return mState.mVertexBindings[bindingIndex];
  }
  
  size_t VertexArray::GetAttribIndex(size_t dirtyBit)
  {
      static_assert(gl::MAX_VERTEX_ATTRIBS == gl::MAX_VERTEX_ATTRIB_BINDINGS,
                    "The stride of vertex attributes should equal to that of vertex bindings.");
      ASSERT(dirtyBit > DIRTY_BIT_ELEMENT_ARRAY_BUFFER);
      return (dirtyBit - DIRTY_BIT_ATTRIB_0_ENABLED) % gl::MAX_VERTEX_ATTRIBS;
  }
  
  void VertexArray::bindVertexBuffer(size_t bindingIndex,
                                     Buffer *boundBuffer,
                                     GLintptr offset,
                                     GLsizei stride)
  {
      ASSERT(bindingIndex < getMaxBindings());
  
      VertexBinding *binding = &mState.mVertexBindings[bindingIndex];
  
      binding->buffer.set(boundBuffer);
      binding->offset = offset;
      binding->stride = stride;
      mDirtyBits.set(DIRTY_BIT_BINDING_0_BUFFER + bindingIndex);
  }
  
  void VertexArray::setVertexAttribBinding(size_t attribIndex, size_t bindingIndex)
  {
      ASSERT(attribIndex < getMaxAttribs() && bindingIndex < getMaxBindings());
  
      mState.mVertexAttributes[attribIndex].bindingIndex = static_cast<GLuint>(bindingIndex);
      mDirtyBits.set(DIRTY_BIT_ATTRIB_0_BINDING + attribIndex);
  }
  
  void VertexArray::setVertexBindingDivisor(size_t bindingIndex, GLuint divisor)
  {
      ASSERT(bindingIndex < getMaxBindings());
  
      mState.mVertexBindings[bindingIndex].divisor = divisor;
      mDirtyBits.set(DIRTY_BIT_BINDING_0_DIVISOR + bindingIndex);
  }
  
  void VertexArray::setVertexAttribFormat(size_t attribIndex,
                                          GLint size,
                                          GLenum type,
                                          bool normalized,
                                          bool pureInteger,
                                          GLintptr relativeOffset)
  {
      ASSERT(attribIndex < getMaxAttribs());
  
      VertexAttribute *attrib = &mState.mVertexAttributes[attribIndex];
  
      attrib->size           = size;
      attrib->type           = type;
      attrib->normalized     = normalized;
      attrib->pureInteger    = pureInteger;
      attrib->relativeOffset = relativeOffset;
      mDirtyBits.set(DIRTY_BIT_ATTRIB_0_FORMAT + attribIndex);
  }
  
  void VertexArray::setVertexAttribDivisor(size_t index, GLuint divisor)
  {
      ASSERT(index < getMaxAttribs());
  
      setVertexAttribBinding(index, index);
      setVertexBindingDivisor(index, divisor);
  }
  
  void VertexArray::enableAttribute(size_t attribIndex, bool enabledState)
  {
      ASSERT(attribIndex < getMaxAttribs());
  
      mState.mVertexAttributes[attribIndex].enabled = enabledState;
      mDirtyBits.set(DIRTY_BIT_ATTRIB_0_ENABLED + attribIndex);
  
      // Update state cache
      if (enabledState)
      {
          mState.mMaxEnabledAttribute = std::max(attribIndex + 1, mState.mMaxEnabledAttribute);
      }
      else if (mState.mMaxEnabledAttribute == attribIndex + 1)
      {
          while (mState.mMaxEnabledAttribute > 0 &&
                 !mState.mVertexAttributes[mState.mMaxEnabledAttribute - 1].enabled)
          {
              --mState.mMaxEnabledAttribute;
          }
      }
  }
  
  void VertexArray::setAttributeState(size_t attribIndex,
                                      gl::Buffer *boundBuffer,
                                      GLint size,
                                      GLenum type,
                                      bool normalized,
                                      bool pureInteger,
                                      GLsizei stride,
                                      const void *pointer)
  {
      ASSERT(attribIndex < getMaxAttribs());
  
      GLintptr offset = boundBuffer ? reinterpret_cast<GLintptr>(pointer) : 0;
  
      setVertexAttribFormat(attribIndex, size, type, normalized, pureInteger, 0);
      setVertexAttribBinding(attribIndex, attribIndex);
  
      VertexAttribute &attrib = mState.mVertexAttributes[attribIndex];
      GLsizei effectiveStride =
          stride != 0 ? stride : static_cast<GLsizei>(ComputeVertexAttributeTypeSize(attrib));
      attrib.pointer                 = pointer;
      attrib.vertexAttribArrayStride = stride;
  
      bindVertexBuffer(attribIndex, boundBuffer, offset, effectiveStride);
  
      mDirtyBits.set(DIRTY_BIT_ATTRIB_0_POINTER + attribIndex);
  }
  
  void VertexArray::setElementArrayBuffer(Buffer *buffer)
  {
      mState.mElementArrayBuffer.set(buffer);
      mDirtyBits.set(DIRTY_BIT_ELEMENT_ARRAY_BUFFER);
  }
  
  void VertexArray::syncImplState(const Context *context)
  {
      if (mDirtyBits.any())
      {
          mVertexArray->syncState(rx::SafeGetImpl(context), mDirtyBits);
          mDirtyBits.reset();
      }
  }
  
  }  // namespace gl
  

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