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//
// 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.
//
// 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;
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;
private:
friend class VertexArray;
std::string mLabel;
std::vector<VertexAttribute> mVertexAttributes;
SubjectBindingPointer<Buffer> mElementArrayBuffer;
std::vector<VertexBinding> mVertexBindings;
AttributesMask mEnabledAttributesMask;
ComponentTypeMask mVertexAttributesTypeMask;
// 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.
gl::AttributesMask mClientMemoryAttribsMask;
gl::AttributesMask mNullPointerClientMemoryAttribsMask;
// Used for validation cache. Indexed by attribute.
AttributesMask mCachedMappedArrayBuffers;
AttributesMask mCachedEnabledMappedArrayBuffers;
};
class VertexArray final : public angle::ObserverInterface,
public LabeledObject,
public angle::Subject
{
public:
// Dirty bits for VertexArrays use a heirarchical 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
{
DIRTY_BIT_ELEMENT_ARRAY_BUFFER,
DIRTY_BIT_ELEMENT_ARRAY_BUFFER_DATA,
// Dirty bits for attributes.
DIRTY_BIT_ATTRIB_0,
DIRTY_BIT_ATTRIB_MAX = DIRTY_BIT_ATTRIB_0 + gl::MAX_VERTEX_ATTRIBS,
// Dirty bits for bindings.
DIRTY_BIT_BINDING_0 = DIRTY_BIT_ATTRIB_MAX,
DIRTY_BIT_BINDING_MAX = DIRTY_BIT_BINDING_0 + gl::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 + gl::MAX_VERTEX_ATTRIB_BINDINGS,
DIRTY_BIT_UNKNOWN = DIRTY_BIT_BUFFER_DATA_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.");
enum DirtyAttribBitType
{
DIRTY_ATTRIB_ENABLED,
DIRTY_ATTRIB_POINTER,
DIRTY_ATTRIB_FORMAT,
DIRTY_ATTRIB_BINDING,
DIRTY_ATTRIB_POINTER_BUFFER,
DIRTY_ATTRIB_UNKNOWN,
DIRTY_ATTRIB_MAX = DIRTY_ATTRIB_UNKNOWN,
};
enum DirtyBindingBitType
{
DIRTY_BINDING_BUFFER,
DIRTY_BINDING_DIVISOR,
DIRTY_BINDING_UNKNOWN,
DIRTY_BINDING_MAX = DIRTY_BINDING_UNKNOWN,
};
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, gl::MAX_VERTEX_ATTRIBS>;
using DirtyBindingBitsArray = std::array<DirtyBindingBits, gl::MAX_VERTEX_ATTRIB_BINDINGS>;
VertexArray(rx::GLImplFactory *factory, GLuint id, size_t maxAttribs, size_t maxAttribBindings);
void onDestroy(const Context *context);
GLuint id() const { return mId; }
void 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, GLuint bufferName);
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(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();
}
gl::AttributesMask getClientAttribsMask() const { return mState.mClientMemoryAttribsMask; }
bool hasEnabledNullPointerClientArray() const
{
return mState.hasEnabledNullPointerClientArray();
}
bool hasMappedEnabledArrayBuffer() const
{
return mState.mCachedEnabledMappedArrayBuffers.any();
}
// Observer implementation
void onSubjectStateChange(angle::SubjectIndex index, angle::SubjectMessage message) override;
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 gl::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);
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 updateCachedMappedArrayBuffers(bool isMapped, 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);
bool bindVertexBufferImpl(const Context *context,
size_t bindingIndex,
Buffer *boundBuffer,
GLintptr offset,
GLsizei stride);
GLuint 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;
};
} // namespace gl
#endif // LIBANGLE_VERTEXARRAY_H_
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