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

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• Hash : da572160
  Author :
  Date : 2024-07-23T16:36:10
  

  Reland: GL: Forward client-side arrays to the driver when possible
  
  The OpenGL driver can handle client-side arrays when the context is
  OpenGL ES or a desktop GL compatibility profile. When in these
  situations, use the driver default VAO for all frontend context VAOs
  and forward client-side data directly to the driver.
  
  Fix synchronizing the default VAO state for external contexts. There
  is no valid VertexArrayStateGL for external VAOs so make sure it's
  nulled and the VAO dirty bits are set so the correct VAO state is
  reapplied.
  
  Disable syncing to the default VAO for external contexts. The only
  VAO that they can share with ANGLE's internal state is the default
  VAO so avoid having to save and restore its state.
  
  Bug: angleproject:355034686
  Change-Id: I015bbbc854938fe4bc1e92d0ca8fe04628d0db16
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/5743284
  Reviewed-by: Shahbaz Youssefi <syoussefi@chromium.org>
  Commit-Queue: Geoff Lang <geofflang@chromium.org>
  

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• src/libANGLE/VertexArray.h

• //
  // Copyright 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.
  //
  // This class contains prototypes for representing GLES 3 Vertex Array Objects:
  //
  //   The buffer objects that are to be used by the vertex stage of the GL are collected
  //   together to form a vertex array object. All state related to the definition of data used
  //   by the vertex processor is encapsulated in a vertex array object.
  //
  
  #ifndef LIBANGLE_VERTEXARRAY_H_
  #define LIBANGLE_VERTEXARRAY_H_
  
  #include "common/Optional.h"
  #include "libANGLE/Constants.h"
  #include "libANGLE/Debug.h"
  #include "libANGLE/Observer.h"
  #include "libANGLE/RefCountObject.h"
  #include "libANGLE/VertexAttribute.h"
  
  #include <vector>
  
  namespace rx
  {
  class GLImplFactory;
  class VertexArrayImpl;
  }  // namespace rx
  
  namespace gl
  {
  class Buffer;
  
  constexpr uint32_t kElementArrayBufferIndex = MAX_VERTEX_ATTRIBS;
  
  class VertexArrayState final : angle::NonCopyable
  {
    public:
      VertexArrayState(VertexArray *vertexArray, size_t maxAttribs, size_t maxBindings);
      ~VertexArrayState();
  
      const std::string &getLabel() const { return mLabel; }
  
      Buffer *getElementArrayBuffer() const { return mElementArrayBuffer.get(); }
      size_t getMaxAttribs() const { return mVertexAttributes.size(); }
      size_t getMaxBindings() const { return mVertexBindings.size(); }
      const AttributesMask &getEnabledAttributesMask() const { return mEnabledAttributesMask; }
      const std::vector<VertexAttribute> &getVertexAttributes() const { return mVertexAttributes; }
      const VertexAttribute &getVertexAttribute(size_t attribIndex) const
      {
          return mVertexAttributes[attribIndex];
      }
      const std::vector<VertexBinding> &getVertexBindings() const { return mVertexBindings; }
      const VertexBinding &getVertexBinding(size_t bindingIndex) const
      {
          return mVertexBindings[bindingIndex];
      }
      const VertexBinding &getBindingFromAttribIndex(size_t attribIndex) const
      {
          return mVertexBindings[mVertexAttributes[attribIndex].bindingIndex];
      }
      size_t getBindingIndexFromAttribIndex(size_t attribIndex) const
      {
          return mVertexAttributes[attribIndex].bindingIndex;
      }
  
      void setAttribBinding(const Context *context, size_t attribIndex, GLuint newBindingIndex);
  
      // Extra validation performed on the Vertex Array.
      bool hasEnabledNullPointerClientArray() const;
  
      // Get all the attributes in an AttributesMask that are using the given binding.
      AttributesMask getBindingToAttributesMask(GLuint bindingIndex) const;
  
      ComponentTypeMask getVertexAttributesTypeMask() const { return mVertexAttributesTypeMask; }
  
      AttributesMask getClientMemoryAttribsMask() const { return mClientMemoryAttribsMask; }
  
      AttributesMask getNullPointerClientMemoryAttribsMask() const
      {
          return mNullPointerClientMemoryAttribsMask;
      }
  
      VertexArrayBufferBindingMask getBufferBindingMask() const { return mBufferBindingMask; }
  
      VertexArrayID id() const { return mId; }
  
      bool isDefault() const;
  
    private:
      void updateCachedMutableOrNonPersistentArrayBuffers(size_t index);
  
      friend class VertexArray;
      VertexArrayID mId;
      std::string mLabel;
      std::vector<VertexAttribute> mVertexAttributes;
      SubjectBindingPointer<Buffer> mElementArrayBuffer;
      std::vector<VertexBinding> mVertexBindings;
      AttributesMask mEnabledAttributesMask;
      ComponentTypeMask mVertexAttributesTypeMask;
      AttributesMask mLastSyncedEnabledAttributesMask;
  
      // Track which binding index has a buffer bound
      VertexArrayBufferBindingMask mBufferBindingMask;
  
      // This is a performance optimization for buffer binding. Allows element array buffer updates.
      friend class State;
  
      // From the GLES 3.1 spec:
      // When a generic attribute array is sourced from client memory, the vertex attribute binding
      // state is ignored. Thus we don't have to worry about binding state when using client memory
      // attribs.
      AttributesMask mClientMemoryAttribsMask;
      AttributesMask mNullPointerClientMemoryAttribsMask;
  
      // Used for validation cache. Indexed by attribute.
      AttributesMask mCachedMappedArrayBuffers;
      AttributesMask mCachedMutableOrImpersistentArrayBuffers;
      AttributesMask mCachedInvalidMappedArrayBuffer;
  };
  
  class VertexArrayBufferContentsObservers final : angle::NonCopyable
  {
    public:
      VertexArrayBufferContentsObservers(VertexArray *vertexArray);
      void enableForBuffer(Buffer *buffer, uint32_t bufferIndex);
      void disableForBuffer(Buffer *buffer, uint32_t bufferIndex);
      bool any() const { return mBufferObserversBitMask.any(); }
  
    private:
      VertexArray *mVertexArray;
      // Bit is set when it is observing the buffer content change
      gl::AttributesMask mBufferObserversBitMask;
  };
  
  class VertexArray final : public angle::ObserverInterface,
                            public LabeledObject,
                            public angle::Subject
  {
    public:
      // Dirty bits for VertexArrays use a hierarchical design. At the top level, each attribute
      // has a single dirty bit. Then an array of MAX_ATTRIBS dirty bits each has a dirty bit for
      // enabled/pointer/format/binding. Bindings are handled similarly. Note that because the
      // total number of dirty bits is 33, it will not be as fast on a 32-bit machine, which
      // can't support the advanced 64-bit scanning intrinsics. We could consider packing the
      // binding and attribute bits together if this becomes a problem.
      //
      // Special note on "DIRTY_ATTRIB_POINTER_BUFFER": this is a special case when the app
      // calls glVertexAttribPointer but only changes a VBO and/or offset binding. This allows
      // the Vulkan back-end to skip performing a pipeline change for performance.
      enum DirtyBitType
      {
          // This vertex array has lost buffer observation. Check against actual buffer storage is
          // required.
          DIRTY_BIT_LOST_OBSERVATION,
  
          DIRTY_BIT_ELEMENT_ARRAY_BUFFER,
          DIRTY_BIT_ELEMENT_ARRAY_BUFFER_DATA,
  
          // Dirty bits for bindings.
          DIRTY_BIT_BINDING_0,
          DIRTY_BIT_BINDING_MAX = DIRTY_BIT_BINDING_0 + MAX_VERTEX_ATTRIB_BINDINGS,
  
          // We keep separate dirty bits for bound buffers whose data changed since last update.
          DIRTY_BIT_BUFFER_DATA_0   = DIRTY_BIT_BINDING_MAX,
          DIRTY_BIT_BUFFER_DATA_MAX = DIRTY_BIT_BUFFER_DATA_0 + MAX_VERTEX_ATTRIB_BINDINGS,
  
          // Dirty bits for attributes.
          DIRTY_BIT_ATTRIB_0   = DIRTY_BIT_BUFFER_DATA_MAX,
          DIRTY_BIT_ATTRIB_MAX = DIRTY_BIT_ATTRIB_0 + MAX_VERTEX_ATTRIBS,
  
          DIRTY_BIT_UNKNOWN = DIRTY_BIT_ATTRIB_MAX,
          DIRTY_BIT_MAX     = DIRTY_BIT_UNKNOWN,
      };
  
      // We want to keep the number of dirty bits within 64 to keep iteration times fast.
      static_assert(DIRTY_BIT_MAX <= 64, "Too many vertex array dirty bits.");
      // The dirty bit processing has the logic to avoid redundant processing by removing other dirty
      // bits when it processes dirtyBits. This assertion ensures these dirty bit order matches what
      // VertexArrayVk::syncState expects.
      static_assert(DIRTY_BIT_BINDING_0 < DIRTY_BIT_BUFFER_DATA_0,
                    "BINDING dirty bits should come before DATA.");
      static_assert(DIRTY_BIT_BUFFER_DATA_0 < DIRTY_BIT_ATTRIB_0,
                    "DATA dirty bits should come before ATTRIB.");
      static_assert(DIRTY_BIT_LOST_OBSERVATION < DIRTY_BIT_BINDING_0,
                    "LOST_OBSERVATION dirty bits should come before BINDING.");
  
      enum DirtyAttribBitType
      {
          DIRTY_ATTRIB_ENABLED,
          DIRTY_ATTRIB_POINTER,
          DIRTY_ATTRIB_FORMAT,
          DIRTY_ATTRIB_BINDING,
          DIRTY_ATTRIB_POINTER_BUFFER,
          DIRTY_ATTRIB_MAX,
      };
  
      enum DirtyBindingBitType
      {
          DIRTY_BINDING_BUFFER,
          DIRTY_BINDING_DIVISOR,
          DIRTY_BINDING_STRIDE,
          DIRTY_BINDING_OFFSET,
          DIRTY_BINDING_MAX,
      };
  
      using DirtyBits                = angle::BitSet<DIRTY_BIT_MAX>;
      using DirtyAttribBits          = angle::BitSet<DIRTY_ATTRIB_MAX>;
      using DirtyBindingBits         = angle::BitSet<DIRTY_BINDING_MAX>;
      using DirtyAttribBitsArray     = std::array<DirtyAttribBits, MAX_VERTEX_ATTRIBS>;
      using DirtyBindingBitsArray    = std::array<DirtyBindingBits, MAX_VERTEX_ATTRIB_BINDINGS>;
      using DirtyObserverBindingBits = angle::BitSet<MAX_VERTEX_ATTRIB_BINDINGS>;
  
      VertexArray(rx::GLImplFactory *factory,
                  VertexArrayID id,
                  size_t maxAttribs,
                  size_t maxAttribBindings);
  
      void onDestroy(const Context *context);
  
      VertexArrayID id() const { return mId; }
  
      angle::Result setLabel(const Context *context, const std::string &label) override;
      const std::string &getLabel() const override;
  
      const VertexBinding &getVertexBinding(size_t bindingIndex) const;
      const VertexAttribute &getVertexAttribute(size_t attribIndex) const;
      const VertexBinding &getBindingFromAttribIndex(size_t attribIndex) const
      {
          return mState.getBindingFromAttribIndex(attribIndex);
      }
  
      // Returns true if the function finds and detaches a bound buffer.
      bool detachBuffer(const Context *context, BufferID bufferID);
  
      void setVertexAttribDivisor(const Context *context, size_t index, GLuint divisor);
      void enableAttribute(size_t attribIndex, bool enabledState);
  
      void setVertexAttribPointer(const Context *context,
                                  size_t attribIndex,
                                  Buffer *boundBuffer,
                                  GLint size,
                                  VertexAttribType type,
                                  bool normalized,
                                  GLsizei stride,
                                  const void *pointer);
  
      void setVertexAttribIPointer(const Context *context,
                                   size_t attribIndex,
                                   Buffer *boundBuffer,
                                   GLint size,
                                   VertexAttribType type,
                                   GLsizei stride,
                                   const void *pointer);
  
      void setVertexAttribFormat(size_t attribIndex,
                                 GLint size,
                                 VertexAttribType type,
                                 bool normalized,
                                 bool pureInteger,
                                 GLuint relativeOffset);
      void bindVertexBuffer(const Context *context,
                            size_t bindingIndex,
                            Buffer *boundBuffer,
                            GLintptr offset,
                            GLsizei stride);
      void setVertexAttribBinding(const Context *context, size_t attribIndex, GLuint bindingIndex);
      void setVertexBindingDivisor(const Context *context, size_t bindingIndex, GLuint divisor);
  
      Buffer *getElementArrayBuffer() const { return mState.getElementArrayBuffer(); }
      size_t getMaxAttribs() const { return mState.getMaxAttribs(); }
      size_t getMaxBindings() const { return mState.getMaxBindings(); }
  
      const std::vector<VertexAttribute> &getVertexAttributes() const
      {
          return mState.getVertexAttributes();
      }
      const std::vector<VertexBinding> &getVertexBindings() const
      {
          return mState.getVertexBindings();
      }
  
      rx::VertexArrayImpl *getImplementation() const { return mVertexArray; }
  
      const AttributesMask &getEnabledAttributesMask() const
      {
          return mState.getEnabledAttributesMask();
      }
  
      AttributesMask getClientAttribsMask() const { return mState.mClientMemoryAttribsMask; }
  
      bool hasEnabledNullPointerClientArray() const
      {
          return mState.hasEnabledNullPointerClientArray();
      }
  
      bool hasInvalidMappedArrayBuffer() const
      {
          return mState.mCachedInvalidMappedArrayBuffer.any();
      }
  
      const VertexArrayState &getState() const { return mState; }
  
      bool isBufferAccessValidationEnabled() const { return mBufferAccessValidationEnabled; }
  
      // Observer implementation
      void onSubjectStateChange(angle::SubjectIndex index, angle::SubjectMessage message) override;
      void onBufferContentsChange(uint32_t bufferIndex);
  
      static size_t GetVertexIndexFromDirtyBit(size_t dirtyBit);
  
      angle::Result syncState(const Context *context);
      bool hasAnyDirtyBit() const { return mDirtyBits.any(); }
  
      ComponentTypeMask getAttributesTypeMask() const { return mState.mVertexAttributesTypeMask; }
      AttributesMask getAttributesMask() const { return mState.mEnabledAttributesMask; }
  
      void onBindingChanged(const Context *context, int incr);
      bool hasTransformFeedbackBindingConflict(const Context *context) const;
  
      ANGLE_INLINE angle::Result getIndexRange(const Context *context,
                                               DrawElementsType type,
                                               GLsizei indexCount,
                                               const void *indices,
                                               IndexRange *indexRangeOut) const
      {
          Buffer *elementArrayBuffer = mState.mElementArrayBuffer.get();
          if (elementArrayBuffer && mIndexRangeCache.get(type, indexCount, indices, indexRangeOut))
          {
              return angle::Result::Continue;
          }
  
          return getIndexRangeImpl(context, type, indexCount, indices, indexRangeOut);
      }
  
      void setBufferAccessValidationEnabled(bool enabled)
      {
          mBufferAccessValidationEnabled = enabled;
      }
  
    private:
      ~VertexArray() override;
  
      // This is a performance optimization for buffer binding. Allows element array buffer updates.
      friend class State;
  
      void setDirtyAttribBit(size_t attribIndex, DirtyAttribBitType dirtyAttribBit);
      void setDirtyBindingBit(size_t bindingIndex, DirtyBindingBitType dirtyBindingBit);
      void clearDirtyAttribBit(size_t attribIndex, DirtyAttribBitType dirtyAttribBit);
  
      DirtyBitType getDirtyBitFromIndex(bool contentsChanged, angle::SubjectIndex index) const;
      void setDependentDirtyBit(bool contentsChanged, angle::SubjectIndex index);
  
      // These are used to optimize draw call validation.
      void updateCachedBufferBindingSize(VertexBinding *binding);
      void updateCachedTransformFeedbackBindingValidation(size_t bindingIndex, const Buffer *buffer);
      void updateCachedArrayBuffersMasks(bool isMapped,
                                         bool isImmutable,
                                         bool isPersistent,
                                         const AttributesMask &boundAttributesMask);
      void updateCachedMappedArrayBuffersBinding(const VertexBinding &binding);
  
      angle::Result getIndexRangeImpl(const Context *context,
                                      DrawElementsType type,
                                      GLsizei indexCount,
                                      const void *indices,
                                      IndexRange *indexRangeOut) const;
  
      void setVertexAttribPointerImpl(const Context *context,
                                      ComponentType componentType,
                                      bool pureInteger,
                                      size_t attribIndex,
                                      Buffer *boundBuffer,
                                      GLint size,
                                      VertexAttribType type,
                                      bool normalized,
                                      GLsizei stride,
                                      const void *pointer);
  
      // These two functions return true if the state was dirty.
      bool setVertexAttribFormatImpl(VertexAttribute *attrib,
                                     GLint size,
                                     VertexAttribType type,
                                     bool normalized,
                                     bool pureInteger,
                                     GLuint relativeOffset);
  
      DirtyBindingBits bindVertexBufferImpl(const Context *context,
                                            size_t bindingIndex,
                                            Buffer *boundBuffer,
                                            GLintptr offset,
                                            GLsizei stride);
  
      void onBind(const Context *context);
      void onUnbind(const Context *context);
  
      VertexArrayID mId;
  
      VertexArrayState mState;
      DirtyBits mDirtyBits;
      DirtyAttribBitsArray mDirtyAttribBits;
      DirtyBindingBitsArray mDirtyBindingBits;
      Optional<DirtyBits> mDirtyBitsGuard;
  
      rx::VertexArrayImpl *mVertexArray;
  
      std::vector<angle::ObserverBinding> mArrayBufferObserverBindings;
  
      AttributesMask mCachedTransformFeedbackConflictedBindingsMask;
  
      class IndexRangeCache final : angle::NonCopyable
      {
        public:
          IndexRangeCache();
  
          void invalidate() { mTypeKey = DrawElementsType::InvalidEnum; }
  
          bool get(DrawElementsType type,
                   GLsizei indexCount,
                   const void *indices,
                   IndexRange *indexRangeOut)
          {
              size_t offset = reinterpret_cast<uintptr_t>(indices);
              if (mTypeKey == type && mIndexCountKey == indexCount && mOffsetKey == offset)
              {
                  *indexRangeOut = mPayload;
                  return true;
              }
  
              return false;
          }
  
          void put(DrawElementsType type,
                   GLsizei indexCount,
                   size_t offset,
                   const IndexRange &indexRange);
  
        private:
          DrawElementsType mTypeKey;
          GLsizei mIndexCountKey;
          size_t mOffsetKey;
          IndexRange mPayload;
      };
  
      mutable IndexRangeCache mIndexRangeCache;
      bool mBufferAccessValidationEnabled;
      VertexArrayBufferContentsObservers mContentsObservers;
  };
  
  }  // namespace gl
  
  #endif  // LIBANGLE_VERTEXARRAY_H_
  

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