third_party/angle/src/libANGLE/renderer/gl/StateManagerGL.h - cobalt - Git at Google

 //
 // 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.
 //

 // StateManagerGL.h: Defines a class for caching applied OpenGL state

 #ifndef LIBANGLE_RENDERER_GL_STATEMANAGERGL_H_
 #define LIBANGLE_RENDERER_GL_STATEMANAGERGL_H_

 #include "common/debug.h"
 #include "libANGLE/Error.h"
 #include "libANGLE/State.h"
 #include "libANGLE/angletypes.h"
 #include "libANGLE/renderer/gl/functionsgl_typedefs.h"
 #include "platform/FeaturesGL.h"

 #include <map>

 namespace gl
 {
 struct Caps;
 class FramebufferState;
 class State;
 }  // namespace gl

 namespace rx
 {

 class FramebufferGL;
 class FunctionsGL;
 class TransformFeedbackGL;
 class VertexArrayGL;
 class QueryGL;

 class StateManagerGL final : angle::NonCopyable
 {
   public:
     StateManagerGL(const FunctionsGL *functions,
                    const gl::Caps &rendererCaps,
                    const gl::Extensions &extensions,
                    const angle::FeaturesGL &features);
     ~StateManagerGL();

     void deleteProgram(GLuint program);
     void deleteVertexArray(GLuint vao);
     void deleteTexture(GLuint texture);
     void deleteSampler(GLuint sampler);
     void deleteBuffer(GLuint buffer);
     void deleteFramebuffer(GLuint fbo);
     void deleteRenderbuffer(GLuint rbo);
     void deleteTransformFeedback(GLuint transformFeedback);

     void useProgram(GLuint program);
     void forceUseProgram(GLuint program);
     void bindVertexArray(GLuint vao, GLuint elementArrayBuffer);
     void bindBuffer(gl::BufferBinding target, GLuint buffer);
     void bindBufferBase(gl::BufferBinding target, size_t index, GLuint buffer);
     void bindBufferRange(gl::BufferBinding target,
                          size_t index,
                          GLuint buffer,
                          size_t offset,
                          size_t size);
     void activeTexture(size_t unit);
     void bindTexture(gl::TextureType type, GLuint texture);
     void invalidateTexture(gl::TextureType type);
     void bindSampler(size_t unit, GLuint sampler);
     void bindImageTexture(size_t unit,
                           GLuint texture,
                           GLint level,
                           GLboolean layered,
                           GLint layer,
                           GLenum access,
                           GLenum format);
     void bindFramebuffer(GLenum type, GLuint framebuffer);
     void bindRenderbuffer(GLenum type, GLuint renderbuffer);
     void bindTransformFeedback(GLenum type, GLuint transformFeedback);
     void onTransformFeedbackStateChange();
     void beginQuery(gl::QueryType type, QueryGL *queryObject, GLuint queryId);
     void endQuery(gl::QueryType type, QueryGL *queryObject, GLuint queryId);

     void setAttributeCurrentData(size_t index, const gl::VertexAttribCurrentValueData &data);

     void setScissorTestEnabled(bool enabled);
     void setScissor(const gl::Rectangle &scissor);

     void setViewport(const gl::Rectangle &viewport);
     void setDepthRange(float near, float far);

     void setBlendEnabled(bool enabled);
     void setBlendColor(const gl::ColorF &blendColor);
     void setBlendFuncs(GLenum sourceBlendRGB,
                        GLenum destBlendRGB,
                        GLenum sourceBlendAlpha,
                        GLenum destBlendAlpha);
     void setBlendEquations(GLenum blendEquationRGB, GLenum blendEquationAlpha);
     void setColorMask(bool red, bool green, bool blue, bool alpha);
     void setSampleAlphaToCoverageEnabled(bool enabled);
     void setSampleCoverageEnabled(bool enabled);
     void setSampleCoverage(float value, bool invert);
     void setSampleMaskEnabled(bool enabled);
     void setSampleMaski(GLuint maskNumber, GLbitfield mask);

     void setDepthTestEnabled(bool enabled);
     void setDepthFunc(GLenum depthFunc);
     void setDepthMask(bool mask);
     void setStencilTestEnabled(bool enabled);
     void setStencilFrontWritemask(GLuint mask);
     void setStencilBackWritemask(GLuint mask);
     void setStencilFrontFuncs(GLenum func, GLint ref, GLuint mask);
     void setStencilBackFuncs(GLenum func, GLint ref, GLuint mask);
     void setStencilFrontOps(GLenum sfail, GLenum dpfail, GLenum dppass);
     void setStencilBackOps(GLenum sfail, GLenum dpfail, GLenum dppass);

     void setCullFaceEnabled(bool enabled);
     void setCullFace(gl::CullFaceMode cullFace);
     void setFrontFace(GLenum frontFace);
     void setPolygonOffsetFillEnabled(bool enabled);
     void setPolygonOffset(float factor, float units);
     void setRasterizerDiscardEnabled(bool enabled);
     void setLineWidth(float width);

     void setPrimitiveRestartEnabled(bool enabled);
     void setPrimitiveRestartIndex(GLuint index);

     void setClearColor(const gl::ColorF &clearColor);
     void setClearDepth(float clearDepth);
     void setClearStencil(GLint clearStencil);

     void setPixelUnpackState(const gl::PixelUnpackState &unpack);
     void setPixelUnpackBuffer(const gl::Buffer *pixelBuffer);
     void setPixelPackState(const gl::PixelPackState &pack);
     void setPixelPackBuffer(const gl::Buffer *pixelBuffer);

     void setFramebufferSRGBEnabled(const gl::Context *context, bool enabled);
     void setFramebufferSRGBEnabledForFramebuffer(const gl::Context *context,
                                                  bool enabled,
                                                  const FramebufferGL *framebuffer);
     void setColorMaskForFramebuffer(bool red,
                                     bool green,
                                     bool blue,
                                     bool alpha,
                                     const FramebufferGL *framebuffer);

     void setDitherEnabled(bool enabled);

     void setMultisamplingStateEnabled(bool enabled);
     void setSampleAlphaToOneStateEnabled(bool enabled);

     void setCoverageModulation(GLenum components);

     void setPathRenderingModelViewMatrix(const GLfloat *m);
     void setPathRenderingProjectionMatrix(const GLfloat *m);
     void setPathRenderingStencilState(GLenum func, GLint ref, GLuint mask);

     void setProvokingVertex(GLenum mode);

     void pauseTransformFeedback();
     angle::Result pauseAllQueries(const gl::Context *context);
     angle::Result pauseQuery(const gl::Context *context, gl::QueryType type);
     angle::Result resumeAllQueries(const gl::Context *context);
     angle::Result resumeQuery(const gl::Context *context, gl::QueryType type);
     angle::Result onMakeCurrent(const gl::Context *context);

     void syncState(const gl::Context *context,
                    const gl::State::DirtyBits &glDirtyBits,
                    const gl::State::DirtyBits &bitMask);

     ANGLE_INLINE void updateMultiviewBaseViewLayerIndexUniform(
         const gl::Program *program,
         const gl::FramebufferState &drawFramebufferState) const
     {
         if (mIsMultiviewEnabled && program && program->usesMultiview())
         {
             updateMultiviewBaseViewLayerIndexUniformImpl(program, drawFramebufferState);
         }
     }

     GLuint getProgramID() const { return mProgram; }
     GLuint getVertexArrayID() const { return mVAO; }
     GLuint getFramebufferID(angle::FramebufferBinding binding) const
     {
         return mFramebuffers[binding];
     }
     GLuint getBufferID(gl::BufferBinding binding) const { return mBuffers[binding]; }

     void validateState() const;

   private:
     void setTextureCubemapSeamlessEnabled(bool enabled);

     void propagateProgramToVAO(const gl::Program *program, VertexArrayGL *vao);

     void updateProgramTextureBindings(const gl::Context *context);
     void updateProgramStorageBufferBindings(const gl::Context *context);
     void updateProgramUniformBufferBindings(const gl::Context *context);
     void updateProgramAtomicCounterBufferBindings(const gl::Context *context);
     void updateProgramImageBindings(const gl::Context *context);

     void updateDispatchIndirectBufferBinding(const gl::Context *context);
     void updateDrawIndirectBufferBinding(const gl::Context *context);

     void syncSamplersState(const gl::Context *context);
     void syncTransformFeedbackState(const gl::Context *context);

     void updateMultiviewBaseViewLayerIndexUniformImpl(
         const gl::Program *program,
         const gl::FramebufferState &drawFramebufferState) const;

     const FunctionsGL *mFunctions;
     const angle::FeaturesGL &mFeatures;

     GLuint mProgram;

     GLuint mVAO;
     std::vector<gl::VertexAttribCurrentValueData> mVertexAttribCurrentValues;

     angle::PackedEnumMap<gl::BufferBinding, GLuint> mBuffers;

     struct IndexedBufferBinding
     {
         IndexedBufferBinding();

         size_t offset;
         size_t size;
         GLuint buffer;
     };
     angle::PackedEnumMap<gl::BufferBinding, std::vector<IndexedBufferBinding>> mIndexedBuffers;

     size_t mTextureUnitIndex;
     angle::PackedEnumMap<gl::TextureType, gl::ActiveTextureArray<GLuint>> mTextures;
     gl::ActiveTextureArray<GLuint> mSamplers;

     struct ImageUnitBinding
     {
         ImageUnitBinding()
             : texture(0), level(0), layered(false), layer(0), access(GL_READ_ONLY), format(GL_R32UI)
         {}

         GLuint texture;
         GLint level;
         GLboolean layered;
         GLint layer;
         GLenum access;
         GLenum format;
     };
     std::vector<ImageUnitBinding> mImages;

     GLuint mTransformFeedback;
     TransformFeedbackGL *mCurrentTransformFeedback;

     // Queries that are currently running on the driver
     angle::PackedEnumMap<gl::QueryType, QueryGL *> mQueries;

     // Queries that are temporarily in the paused state so that their results will not be affected
     // by other operations
     angle::PackedEnumMap<gl::QueryType, QueryGL *> mTemporaryPausedQueries;

     gl::ContextID mPrevDrawContext;

     GLint mUnpackAlignment;
     GLint mUnpackRowLength;
     GLint mUnpackSkipRows;
     GLint mUnpackSkipPixels;
     GLint mUnpackImageHeight;
     GLint mUnpackSkipImages;

     GLint mPackAlignment;
     GLint mPackRowLength;
     GLint mPackSkipRows;
     GLint mPackSkipPixels;

     // TODO(jmadill): Convert to std::array when available
     std::vector<GLenum> mFramebuffers;
     GLuint mRenderbuffer;

     bool mScissorTestEnabled;
     gl::Rectangle mScissor;
     gl::Rectangle mViewport;
     float mNear;
     float mFar;

     bool mBlendEnabled;
     gl::ColorF mBlendColor;
     GLenum mSourceBlendRGB;
     GLenum mDestBlendRGB;
     GLenum mSourceBlendAlpha;
     GLenum mDestBlendAlpha;
     GLenum mBlendEquationRGB;
     GLenum mBlendEquationAlpha;
     bool mColorMaskRed;
     bool mColorMaskGreen;
     bool mColorMaskBlue;
     bool mColorMaskAlpha;
     bool mSampleAlphaToCoverageEnabled;
     bool mSampleCoverageEnabled;
     float mSampleCoverageValue;
     bool mSampleCoverageInvert;
     bool mSampleMaskEnabled;
     std::array<GLbitfield, gl::MAX_SAMPLE_MASK_WORDS> mSampleMaskValues;

     bool mDepthTestEnabled;
     GLenum mDepthFunc;
     bool mDepthMask;
     bool mStencilTestEnabled;
     GLenum mStencilFrontFunc;
     GLint mStencilFrontRef;
     GLuint mStencilFrontValueMask;
     GLenum mStencilFrontStencilFailOp;
     GLenum mStencilFrontStencilPassDepthFailOp;
     GLenum mStencilFrontStencilPassDepthPassOp;
     GLuint mStencilFrontWritemask;
     GLenum mStencilBackFunc;
     GLint mStencilBackRef;
     GLuint mStencilBackValueMask;
     GLenum mStencilBackStencilFailOp;
     GLenum mStencilBackStencilPassDepthFailOp;
     GLenum mStencilBackStencilPassDepthPassOp;
     GLuint mStencilBackWritemask;

     bool mCullFaceEnabled;
     gl::CullFaceMode mCullFace;
     GLenum mFrontFace;
     bool mPolygonOffsetFillEnabled;
     GLfloat mPolygonOffsetFactor;
     GLfloat mPolygonOffsetUnits;
     bool mRasterizerDiscardEnabled;
     float mLineWidth;

     bool mPrimitiveRestartEnabled;
     GLuint mPrimitiveRestartIndex;

     gl::ColorF mClearColor;
     float mClearDepth;
     GLint mClearStencil;

     bool mFramebufferSRGBEnabled;
     bool mDitherEnabled;
     bool mTextureCubemapSeamlessEnabled;

     bool mMultisamplingEnabled;
     bool mSampleAlphaToOneEnabled;

     GLenum mCoverageModulation;

     GLfloat mPathMatrixMV[16];
     GLfloat mPathMatrixProj[16];
     GLenum mPathStencilFunc;
     GLint mPathStencilRef;
     GLuint mPathStencilMask;

     const bool mIsMultiviewEnabled;

     GLenum mProvokingVertex;

     gl::State::DirtyBits mLocalDirtyBits;
     gl::AttributesMask mLocalDirtyCurrentValues;
 };
 }  // namespace rx

 #endif  // LIBANGLE_RENDERER_GL_STATEMANAGERGL_H_
	//
	// 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.
	//

	// StateManagerGL.h: Defines a class for caching applied OpenGL state

	#ifndef LIBANGLE_RENDERER_GL_STATEMANAGERGL_H_
	#define LIBANGLE_RENDERER_GL_STATEMANAGERGL_H_

	#include "common/debug.h"
	#include "libANGLE/Error.h"
	#include "libANGLE/State.h"
	#include "libANGLE/angletypes.h"
	#include "libANGLE/renderer/gl/functionsgl_typedefs.h"
	#include "platform/FeaturesGL.h"

	#include <map>

	namespace gl
	{
	struct Caps;
	class FramebufferState;
	class State;
	} // namespace gl

	namespace rx
	{

	class FramebufferGL;
	class FunctionsGL;
	class TransformFeedbackGL;
	class VertexArrayGL;
	class QueryGL;

	class StateManagerGL final : angle::NonCopyable
	{
	public:
	StateManagerGL(const FunctionsGL *functions,
	const gl::Caps &rendererCaps,
	const gl::Extensions &extensions,
	const angle::FeaturesGL &features);
	~StateManagerGL();

	void deleteProgram(GLuint program);
	void deleteVertexArray(GLuint vao);
	void deleteTexture(GLuint texture);
	void deleteSampler(GLuint sampler);
	void deleteBuffer(GLuint buffer);
	void deleteFramebuffer(GLuint fbo);
	void deleteRenderbuffer(GLuint rbo);
	void deleteTransformFeedback(GLuint transformFeedback);

	void useProgram(GLuint program);
	void forceUseProgram(GLuint program);
	void bindVertexArray(GLuint vao, GLuint elementArrayBuffer);
	void bindBuffer(gl::BufferBinding target, GLuint buffer);
	void bindBufferBase(gl::BufferBinding target, size_t index, GLuint buffer);
	void bindBufferRange(gl::BufferBinding target,
	size_t index,
	GLuint buffer,
	size_t offset,
	size_t size);
	void activeTexture(size_t unit);
	void bindTexture(gl::TextureType type, GLuint texture);
	void invalidateTexture(gl::TextureType type);
	void bindSampler(size_t unit, GLuint sampler);
	void bindImageTexture(size_t unit,
	GLuint texture,
	GLint level,
	GLboolean layered,
	GLint layer,
	GLenum access,
	GLenum format);
	void bindFramebuffer(GLenum type, GLuint framebuffer);
	void bindRenderbuffer(GLenum type, GLuint renderbuffer);
	void bindTransformFeedback(GLenum type, GLuint transformFeedback);
	void onTransformFeedbackStateChange();
	void beginQuery(gl::QueryType type, QueryGL *queryObject, GLuint queryId);
	void endQuery(gl::QueryType type, QueryGL *queryObject, GLuint queryId);

	void setAttributeCurrentData(size_t index, const gl::VertexAttribCurrentValueData &data);

	void setScissorTestEnabled(bool enabled);
	void setScissor(const gl::Rectangle &scissor);

	void setViewport(const gl::Rectangle &viewport);
	void setDepthRange(float near, float far);

	void setBlendEnabled(bool enabled);
	void setBlendColor(const gl::ColorF &blendColor);
	void setBlendFuncs(GLenum sourceBlendRGB,
	GLenum destBlendRGB,
	GLenum sourceBlendAlpha,
	GLenum destBlendAlpha);
	void setBlendEquations(GLenum blendEquationRGB, GLenum blendEquationAlpha);
	void setColorMask(bool red, bool green, bool blue, bool alpha);
	void setSampleAlphaToCoverageEnabled(bool enabled);
	void setSampleCoverageEnabled(bool enabled);
	void setSampleCoverage(float value, bool invert);
	void setSampleMaskEnabled(bool enabled);
	void setSampleMaski(GLuint maskNumber, GLbitfield mask);

	void setDepthTestEnabled(bool enabled);
	void setDepthFunc(GLenum depthFunc);
	void setDepthMask(bool mask);
	void setStencilTestEnabled(bool enabled);
	void setStencilFrontWritemask(GLuint mask);
	void setStencilBackWritemask(GLuint mask);
	void setStencilFrontFuncs(GLenum func, GLint ref, GLuint mask);
	void setStencilBackFuncs(GLenum func, GLint ref, GLuint mask);
	void setStencilFrontOps(GLenum sfail, GLenum dpfail, GLenum dppass);
	void setStencilBackOps(GLenum sfail, GLenum dpfail, GLenum dppass);

	void setCullFaceEnabled(bool enabled);
	void setCullFace(gl::CullFaceMode cullFace);
	void setFrontFace(GLenum frontFace);
	void setPolygonOffsetFillEnabled(bool enabled);
	void setPolygonOffset(float factor, float units);
	void setRasterizerDiscardEnabled(bool enabled);
	void setLineWidth(float width);

	void setPrimitiveRestartEnabled(bool enabled);
	void setPrimitiveRestartIndex(GLuint index);

	void setClearColor(const gl::ColorF &clearColor);
	void setClearDepth(float clearDepth);
	void setClearStencil(GLint clearStencil);

	void setPixelUnpackState(const gl::PixelUnpackState &unpack);
	void setPixelUnpackBuffer(const gl::Buffer *pixelBuffer);
	void setPixelPackState(const gl::PixelPackState &pack);
	void setPixelPackBuffer(const gl::Buffer *pixelBuffer);

	void setFramebufferSRGBEnabled(const gl::Context *context, bool enabled);
	void setFramebufferSRGBEnabledForFramebuffer(const gl::Context *context,
	bool enabled,
	const FramebufferGL *framebuffer);
	void setColorMaskForFramebuffer(bool red,
	bool green,
	bool blue,
	bool alpha,
	const FramebufferGL *framebuffer);

	void setDitherEnabled(bool enabled);

	void setMultisamplingStateEnabled(bool enabled);
	void setSampleAlphaToOneStateEnabled(bool enabled);

	void setCoverageModulation(GLenum components);

	void setPathRenderingModelViewMatrix(const GLfloat *m);
	void setPathRenderingProjectionMatrix(const GLfloat *m);
	void setPathRenderingStencilState(GLenum func, GLint ref, GLuint mask);

	void setProvokingVertex(GLenum mode);

	void pauseTransformFeedback();
	angle::Result pauseAllQueries(const gl::Context *context);
	angle::Result pauseQuery(const gl::Context *context, gl::QueryType type);
	angle::Result resumeAllQueries(const gl::Context *context);
	angle::Result resumeQuery(const gl::Context *context, gl::QueryType type);
	angle::Result onMakeCurrent(const gl::Context *context);

	void syncState(const gl::Context *context,
	const gl::State::DirtyBits &glDirtyBits,
	const gl::State::DirtyBits &bitMask);

	ANGLE_INLINE void updateMultiviewBaseViewLayerIndexUniform(
	const gl::Program *program,
	const gl::FramebufferState &drawFramebufferState) const
	{
	if (mIsMultiviewEnabled && program && program->usesMultiview())
	{
	updateMultiviewBaseViewLayerIndexUniformImpl(program, drawFramebufferState);
	}
	}

	GLuint getProgramID() const { return mProgram; }
	GLuint getVertexArrayID() const { return mVAO; }
	GLuint getFramebufferID(angle::FramebufferBinding binding) const
	{
	return mFramebuffers[binding];
	}
	GLuint getBufferID(gl::BufferBinding binding) const { return mBuffers[binding]; }

	void validateState() const;

	private:
	void setTextureCubemapSeamlessEnabled(bool enabled);

	void propagateProgramToVAO(const gl::Program program, VertexArrayGL vao);

	void updateProgramTextureBindings(const gl::Context *context);
	void updateProgramStorageBufferBindings(const gl::Context *context);
	void updateProgramUniformBufferBindings(const gl::Context *context);
	void updateProgramAtomicCounterBufferBindings(const gl::Context *context);
	void updateProgramImageBindings(const gl::Context *context);

	void updateDispatchIndirectBufferBinding(const gl::Context *context);
	void updateDrawIndirectBufferBinding(const gl::Context *context);

	void syncSamplersState(const gl::Context *context);
	void syncTransformFeedbackState(const gl::Context *context);

	void updateMultiviewBaseViewLayerIndexUniformImpl(
	const gl::Program *program,
	const gl::FramebufferState &drawFramebufferState) const;

	const FunctionsGL *mFunctions;
	const angle::FeaturesGL &mFeatures;

	GLuint mProgram;

	GLuint mVAO;
	std::vector<gl::VertexAttribCurrentValueData> mVertexAttribCurrentValues;

	angle::PackedEnumMap<gl::BufferBinding, GLuint> mBuffers;

	struct IndexedBufferBinding
	{
	IndexedBufferBinding();

	size_t offset;
	size_t size;
	GLuint buffer;
	};
	angle::PackedEnumMap<gl::BufferBinding, std::vector<IndexedBufferBinding>> mIndexedBuffers;

	size_t mTextureUnitIndex;
	angle::PackedEnumMap<gl::TextureType, gl::ActiveTextureArray<GLuint>> mTextures;
	gl::ActiveTextureArray<GLuint> mSamplers;

	struct ImageUnitBinding
	{
	ImageUnitBinding()
	: texture(0), level(0), layered(false), layer(0), access(GL_READ_ONLY), format(GL_R32UI)
	{}

	GLuint texture;
	GLint level;
	GLboolean layered;
	GLint layer;
	GLenum access;
	GLenum format;
	};
	std::vector<ImageUnitBinding> mImages;

	GLuint mTransformFeedback;
	TransformFeedbackGL *mCurrentTransformFeedback;

	// Queries that are currently running on the driver
	angle::PackedEnumMap<gl::QueryType, QueryGL *> mQueries;

	// Queries that are temporarily in the paused state so that their results will not be affected
	// by other operations
	angle::PackedEnumMap<gl::QueryType, QueryGL *> mTemporaryPausedQueries;

	gl::ContextID mPrevDrawContext;

	GLint mUnpackAlignment;
	GLint mUnpackRowLength;
	GLint mUnpackSkipRows;
	GLint mUnpackSkipPixels;
	GLint mUnpackImageHeight;
	GLint mUnpackSkipImages;

	GLint mPackAlignment;
	GLint mPackRowLength;
	GLint mPackSkipRows;
	GLint mPackSkipPixels;

	// TODO(jmadill): Convert to std::array when available
	std::vector<GLenum> mFramebuffers;
	GLuint mRenderbuffer;

	bool mScissorTestEnabled;
	gl::Rectangle mScissor;
	gl::Rectangle mViewport;
	float mNear;
	float mFar;

	bool mBlendEnabled;
	gl::ColorF mBlendColor;
	GLenum mSourceBlendRGB;
	GLenum mDestBlendRGB;
	GLenum mSourceBlendAlpha;
	GLenum mDestBlendAlpha;
	GLenum mBlendEquationRGB;
	GLenum mBlendEquationAlpha;
	bool mColorMaskRed;
	bool mColorMaskGreen;
	bool mColorMaskBlue;
	bool mColorMaskAlpha;
	bool mSampleAlphaToCoverageEnabled;
	bool mSampleCoverageEnabled;
	float mSampleCoverageValue;
	bool mSampleCoverageInvert;
	bool mSampleMaskEnabled;
	std::array<GLbitfield, gl::MAX_SAMPLE_MASK_WORDS> mSampleMaskValues;

	bool mDepthTestEnabled;
	GLenum mDepthFunc;
	bool mDepthMask;
	bool mStencilTestEnabled;
	GLenum mStencilFrontFunc;
	GLint mStencilFrontRef;
	GLuint mStencilFrontValueMask;
	GLenum mStencilFrontStencilFailOp;
	GLenum mStencilFrontStencilPassDepthFailOp;
	GLenum mStencilFrontStencilPassDepthPassOp;
	GLuint mStencilFrontWritemask;
	GLenum mStencilBackFunc;
	GLint mStencilBackRef;
	GLuint mStencilBackValueMask;
	GLenum mStencilBackStencilFailOp;
	GLenum mStencilBackStencilPassDepthFailOp;
	GLenum mStencilBackStencilPassDepthPassOp;
	GLuint mStencilBackWritemask;

	bool mCullFaceEnabled;
	gl::CullFaceMode mCullFace;
	GLenum mFrontFace;
	bool mPolygonOffsetFillEnabled;
	GLfloat mPolygonOffsetFactor;
	GLfloat mPolygonOffsetUnits;
	bool mRasterizerDiscardEnabled;
	float mLineWidth;

	bool mPrimitiveRestartEnabled;
	GLuint mPrimitiveRestartIndex;

	gl::ColorF mClearColor;
	float mClearDepth;
	GLint mClearStencil;

	bool mFramebufferSRGBEnabled;
	bool mDitherEnabled;
	bool mTextureCubemapSeamlessEnabled;

	bool mMultisamplingEnabled;
	bool mSampleAlphaToOneEnabled;

	GLenum mCoverageModulation;

	GLfloat mPathMatrixMV[16];
	GLfloat mPathMatrixProj[16];
	GLenum mPathStencilFunc;
	GLint mPathStencilRef;
	GLuint mPathStencilMask;

	const bool mIsMultiviewEnabled;

	GLenum mProvokingVertex;

	gl::State::DirtyBits mLocalDirtyBits;
	gl::AttributesMask mLocalDirtyCurrentValues;
	};
	} // namespace rx

	#endif // LIBANGLE_RENDERER_GL_STATEMANAGERGL_H_