gpu/gl/GrGLInterface.h - platform/external/chromium_org/third_party/skia/include - Git at Google


 /*
  * Copyright 2011 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #ifndef GrGLInterface_DEFINED
 #define GrGLInterface_DEFINED

 #include "GrGLFunctions.h"
 #include "GrRefCnt.h"

 ////////////////////////////////////////////////////////////////////////////////

 /**
  * Classifies GL contexts (currently as Desktop vs. ES2). This is a bitfield.
  * A GrGLInterface (defined below) may support multiple bindings.
  */
 enum GrGLBinding {
     kNone_GrGLBinding = 0x0,

     kDesktop_GrGLBinding = 0x01,
     kES_GrGLBinding = 0x02,  // ES2+ only

     // for iteration of GrGLBindings
     kFirstGrGLBinding = kDesktop_GrGLBinding,
     kLastGrGLBinding = kES_GrGLBinding
 };

 ////////////////////////////////////////////////////////////////////////////////

 /**
  * Rather than depend on platform-specific GL headers and libraries, we require
  * the client to provide a struct of GL function pointers. This struct can be
  * specified per-GrContext as a parameter to GrContext::Create. If NULL is
  * passed to Create then the "default" GL interface is used. If the default is
  * also NULL GrContext creation will fail.
  *
  * The default interface is returned by GrGLDefaultInterface. This function's
  * implementation is platform-specific. Several have been provided, along with
  * an implementation that simply returns NULL. It is implementation-specific
  * whether the same GrGLInterface is returned or whether a new one is created
  * at each call. Some platforms may not be able to use a single GrGLInterface
  * because extension function ptrs vary across contexts. Note that GrGLInterface
  * is ref-counted. So if the same object is returned by multiple calls to
  * GrGLDefaultInterface, each should bump the ref count.
  *
  * By defining GR_GL_PER_GL_CALL_IFACE_CALLBACK to 1 the client can specify a
  * callback function that will be called prior to each GL function call. See
  * comments in GrGLConfig.h
  */

 struct GrGLInterface;

 const GrGLInterface* GrGLDefaultInterface();

 /**
  * Creates a GrGLInterface for a "native" GL context (e.g. WGL on windows,
  * GLX on linux, AGL on Mac). On platforms that have context-specific function
  * pointers for GL extensions (e.g. windows) the returned interface is only
  * valid for the context that was current at creation.
  */
 const GrGLInterface* GrGLCreateNativeInterface();

 #if SK_MESA
 /**
  * Creates a GrGLInterface for an OSMesa context.
  */
 const GrGLInterface* GrGLCreateMesaInterface();
 #endif

 #if SK_ANGLE
 /**
  * Creates a GrGLInterface for an ANGLE context.
  */
 const GrGLInterface* GrGLCreateANGLEInterface();
 #endif

 /**
  * Creates a null GrGLInterface that doesn't draw anything. Used for measuring
  * CPU overhead.
  */
 const GrGLInterface* GrGLCreateNullInterface();

 /**
  * Creates a debugging GrGLInterface that doesn't draw anything. Used for
  * finding memory leaks and invalid memory accesses.
  */
 const GrGLInterface* GrGLCreateDebugInterface();

 #if GR_GL_PER_GL_FUNC_CALLBACK
 typedef void (*GrGLInterfaceCallbackProc)(const GrGLInterface*);
 typedef intptr_t GrGLInterfaceCallbackData;
 #endif

 /*
  * GrContext uses the following interface to make all calls into OpenGL. When a
  * GrContext is created it is given a GrGLInterface. The interface's function
  * pointers must be valid for the OpenGL context associated with the GrContext.
  * On some platforms, such as Windows, function pointers for OpenGL extensions
  * may vary between OpenGL contexts. So the caller must be careful to use a
  * GrGLInterface initialized for the correct context. All functions that should
  * be available based on the OpenGL's version and extension string must be
  * non-NULL or GrContext creation will fail. This can be tested with the
  * validate() method when the OpenGL context has been made current.
  */
 struct GR_API GrGLInterface : public GrRefCnt {
 private:
     // simple wrapper class that exists only to initialize a pointer to NULL
     template <typename FNPTR_TYPE> class GLPtr {
     public:
         GLPtr() : fPtr(NULL) {}
         GLPtr operator =(FNPTR_TYPE ptr) { fPtr = ptr; return *this; }
         operator FNPTR_TYPE() const { return fPtr; }
     private:
         FNPTR_TYPE fPtr;
     };

     typedef GrRefCnt INHERITED;

 public:
     SK_DECLARE_INST_COUNT(GrGLInterface)

     GrGLInterface();

     // Validates that the GrGLInterface supports a binding. This means that
     // the GrGLinterface advertises the binding in fBindingsExported and all
     // the necessary function pointers have been initialized. The interface is
     // validated for the current OpenGL context.
     bool validate(GrGLBinding binding) const;

     // Indicator variable specifying the type of GL implementation
     // exported:  GLES2 and/or Desktop.
     GrGLBinding fBindingsExported;

     GLPtr<GrGLActiveTextureProc> fActiveTexture;
     GLPtr<GrGLAttachShaderProc> fAttachShader;
     GLPtr<GrGLBeginQueryProc> fBeginQuery;
     GLPtr<GrGLBindAttribLocationProc> fBindAttribLocation;
     GLPtr<GrGLBindBufferProc> fBindBuffer;
     GLPtr<GrGLBindFragDataLocationProc> fBindFragDataLocation;
     GLPtr<GrGLBindFragDataLocationIndexedProc> fBindFragDataLocationIndexed;
     GLPtr<GrGLBindFramebufferProc> fBindFramebuffer;
     GLPtr<GrGLBindRenderbufferProc> fBindRenderbuffer;
     GLPtr<GrGLBindTextureProc> fBindTexture;
     GLPtr<GrGLBindVertexArrayProc> fBindVertexArray;
     GLPtr<GrGLBlendColorProc> fBlendColor;
     GLPtr<GrGLBlendFuncProc> fBlendFunc;
     GLPtr<GrGLBlitFramebufferProc> fBlitFramebuffer;
     GLPtr<GrGLBufferDataProc> fBufferData;
     GLPtr<GrGLBufferSubDataProc> fBufferSubData;
     GLPtr<GrGLCheckFramebufferStatusProc> fCheckFramebufferStatus;
     GLPtr<GrGLClearProc> fClear;
     GLPtr<GrGLClearColorProc> fClearColor;
     GLPtr<GrGLClearStencilProc> fClearStencil;
     GLPtr<GrGLColorMaskProc> fColorMask;
     GLPtr<GrGLCompileShaderProc> fCompileShader;
     GLPtr<GrGLCompressedTexImage2DProc> fCompressedTexImage2D;
     GLPtr<GrGLCopyTexSubImage2DProc> fCopyTexSubImage2D;
     GLPtr<GrGLCreateProgramProc> fCreateProgram;
     GLPtr<GrGLCreateShaderProc> fCreateShader;
     GLPtr<GrGLCullFaceProc> fCullFace;
     GLPtr<GrGLDeleteBuffersProc> fDeleteBuffers;
     GLPtr<GrGLDeleteFramebuffersProc> fDeleteFramebuffers;
     GLPtr<GrGLDeleteProgramProc> fDeleteProgram;
     GLPtr<GrGLDeleteQueriesProc> fDeleteQueries;
     GLPtr<GrGLDeleteRenderbuffersProc> fDeleteRenderbuffers;
     GLPtr<GrGLDeleteShaderProc> fDeleteShader;
     GLPtr<GrGLDeleteTexturesProc> fDeleteTextures;
     GLPtr<GrGLDeleteVertexArraysProc> fDeleteVertexArrays;
     GLPtr<GrGLDepthMaskProc> fDepthMask;
     GLPtr<GrGLDisableProc> fDisable;
     GLPtr<GrGLDisableVertexAttribArrayProc> fDisableVertexAttribArray;
     GLPtr<GrGLDrawArraysProc> fDrawArrays;
     GLPtr<GrGLDrawBufferProc> fDrawBuffer;
     GLPtr<GrGLDrawBuffersProc> fDrawBuffers;
     GLPtr<GrGLDrawElementsProc> fDrawElements;
     GLPtr<GrGLEnableProc> fEnable;
     GLPtr<GrGLEnableVertexAttribArrayProc> fEnableVertexAttribArray;
     GLPtr<GrGLEndQueryProc> fEndQuery;
     GLPtr<GrGLFinishProc> fFinish;
     GLPtr<GrGLFlushProc> fFlush;
     GLPtr<GrGLFramebufferRenderbufferProc> fFramebufferRenderbuffer;
     GLPtr<GrGLFramebufferTexture2DProc> fFramebufferTexture2D;
     GLPtr<GrGLFramebufferTexture2DMultisampleProc> fFramebufferTexture2DMultisample;
     GLPtr<GrGLFrontFaceProc> fFrontFace;
     GLPtr<GrGLGenBuffersProc> fGenBuffers;
     GLPtr<GrGLGenFramebuffersProc> fGenFramebuffers;
     GLPtr<GrGLGenerateMipmapProc> fGenerateMipmap;
     GLPtr<GrGLGenQueriesProc> fGenQueries;
     GLPtr<GrGLGenRenderbuffersProc> fGenRenderbuffers;
     GLPtr<GrGLGenTexturesProc> fGenTextures;
     GLPtr<GrGLGenVertexArraysProc> fGenVertexArrays;
     GLPtr<GrGLGetBufferParameterivProc> fGetBufferParameteriv;
     GLPtr<GrGLGetErrorProc> fGetError;
     GLPtr<GrGLGetFramebufferAttachmentParameterivProc> fGetFramebufferAttachmentParameteriv;
     GLPtr<GrGLGetIntegervProc> fGetIntegerv;
     GLPtr<GrGLGetQueryObjecti64vProc> fGetQueryObjecti64v;
     GLPtr<GrGLGetQueryObjectivProc> fGetQueryObjectiv;
     GLPtr<GrGLGetQueryObjectui64vProc> fGetQueryObjectui64v;
     GLPtr<GrGLGetQueryObjectuivProc> fGetQueryObjectuiv;
     GLPtr<GrGLGetQueryivProc> fGetQueryiv;
     GLPtr<GrGLGetProgramInfoLogProc> fGetProgramInfoLog;
     GLPtr<GrGLGetProgramivProc> fGetProgramiv;
     GLPtr<GrGLGetRenderbufferParameterivProc> fGetRenderbufferParameteriv;
     GLPtr<GrGLGetShaderInfoLogProc> fGetShaderInfoLog;
     GLPtr<GrGLGetShaderivProc> fGetShaderiv;
     GLPtr<GrGLGetStringProc> fGetString;
     GLPtr<GrGLGetStringiProc> fGetStringi;
     GLPtr<GrGLGetTexLevelParameterivProc> fGetTexLevelParameteriv;
     GLPtr<GrGLGetUniformLocationProc> fGetUniformLocation;
     GLPtr<GrGLLineWidthProc> fLineWidth;
     GLPtr<GrGLLinkProgramProc> fLinkProgram;
     GLPtr<GrGLMapBufferProc> fMapBuffer;
     GLPtr<GrGLPixelStoreiProc> fPixelStorei;
     GLPtr<GrGLQueryCounterProc> fQueryCounter;
     GLPtr<GrGLReadBufferProc> fReadBuffer;
     GLPtr<GrGLReadPixelsProc> fReadPixels;
     GLPtr<GrGLRenderbufferStorageProc> fRenderbufferStorage;
     GLPtr<GrGLRenderbufferStorageMultisampleProc> fRenderbufferStorageMultisample;
     GLPtr<GrGLRenderbufferStorageMultisampleCoverageProc> fRenderbufferStorageMultisampleCoverage;
     GLPtr<GrGLResolveMultisampleFramebufferProc> fResolveMultisampleFramebuffer;
     GLPtr<GrGLScissorProc> fScissor;
     GLPtr<GrGLShaderSourceProc> fShaderSource;
     GLPtr<GrGLStencilFuncProc> fStencilFunc;
     GLPtr<GrGLStencilFuncSeparateProc> fStencilFuncSeparate;
     GLPtr<GrGLStencilMaskProc> fStencilMask;
     GLPtr<GrGLStencilMaskSeparateProc> fStencilMaskSeparate;
     GLPtr<GrGLStencilOpProc> fStencilOp;
     GLPtr<GrGLStencilOpSeparateProc> fStencilOpSeparate;
     GLPtr<GrGLTexImage2DProc> fTexImage2D;
     GLPtr<GrGLTexParameteriProc> fTexParameteri;
     GLPtr<GrGLTexParameterivProc> fTexParameteriv;
     GLPtr<GrGLTexSubImage2DProc> fTexSubImage2D;
     GLPtr<GrGLTexStorage2DProc> fTexStorage2D;
     GLPtr<GrGLDiscardFramebufferProc> fDiscardFramebuffer;
     GLPtr<GrGLUniform1fProc> fUniform1f;
     GLPtr<GrGLUniform1iProc> fUniform1i;
     GLPtr<GrGLUniform1fvProc> fUniform1fv;
     GLPtr<GrGLUniform1ivProc> fUniform1iv;
     GLPtr<GrGLUniform2fProc> fUniform2f;
     GLPtr<GrGLUniform2iProc> fUniform2i;
     GLPtr<GrGLUniform2fvProc> fUniform2fv;
     GLPtr<GrGLUniform2ivProc> fUniform2iv;
     GLPtr<GrGLUniform3fProc> fUniform3f;
     GLPtr<GrGLUniform3iProc> fUniform3i;
     GLPtr<GrGLUniform3fvProc> fUniform3fv;
     GLPtr<GrGLUniform3ivProc> fUniform3iv;
     GLPtr<GrGLUniform4fProc> fUniform4f;
     GLPtr<GrGLUniform4iProc> fUniform4i;
     GLPtr<GrGLUniform4fvProc> fUniform4fv;
     GLPtr<GrGLUniform4ivProc> fUniform4iv;
     GLPtr<GrGLUniformMatrix2fvProc> fUniformMatrix2fv;
     GLPtr<GrGLUniformMatrix3fvProc> fUniformMatrix3fv;
     GLPtr<GrGLUniformMatrix4fvProc> fUniformMatrix4fv;
     GLPtr<GrGLUnmapBufferProc> fUnmapBuffer;
     GLPtr<GrGLUseProgramProc> fUseProgram;
     GLPtr<GrGLVertexAttrib4fvProc> fVertexAttrib4fv;
     GLPtr<GrGLVertexAttribPointerProc> fVertexAttribPointer;
     GLPtr<GrGLViewportProc> fViewport;

     // Experimental: Functions for GL_NV_path_rendering. These will be
     // alphabetized with the above functions once this is fully supported
     // (and functions we are unlikely to use will possibly be omitted).
     GLPtr<GrGLMatrixModeProc> fMatrixMode;
     GLPtr<GrGLLoadIdentityProc> fLoadIdentity;
     GLPtr<GrGLLoadMatrixfProc> fLoadMatrixf;
     GLPtr<GrGLPathCommandsProc> fPathCommands;
     GLPtr<GrGLPathCoordsProc> fPathCoords;
     GLPtr<GrGLPathSubCommandsProc> fPathSubCommands;
     GLPtr<GrGLPathSubCoordsProc> fPathSubCoords;
     GLPtr<GrGLPathStringProc> fPathString;
     GLPtr<GrGLPathGlyphsProc> fPathGlyphs;
     GLPtr<GrGLPathGlyphRangeProc> fPathGlyphRange;
     GLPtr<GrGLWeightPathsProc> fWeightPaths;
     GLPtr<GrGLCopyPathProc> fCopyPath;
     GLPtr<GrGLInterpolatePathsProc> fInterpolatePaths;
     GLPtr<GrGLTransformPathProc> fTransformPath;
     GLPtr<GrGLPathParameterivProc> fPathParameteriv;
     GLPtr<GrGLPathParameteriProc> fPathParameteri;
     GLPtr<GrGLPathParameterfvProc> fPathParameterfv;
     GLPtr<GrGLPathParameterfProc> fPathParameterf;
     GLPtr<GrGLPathDashArrayProc> fPathDashArray;
     GLPtr<GrGLGenPathsProc> fGenPaths;
     GLPtr<GrGLDeletePathsProc> fDeletePaths;
     GLPtr<GrGLIsPathProc> fIsPath;
     GLPtr<GrGLPathStencilFuncProc> fPathStencilFunc;
     GLPtr<GrGLPathStencilDepthOffsetProc> fPathStencilDepthOffset;
     GLPtr<GrGLStencilFillPathProc> fStencilFillPath;
     GLPtr<GrGLStencilStrokePathProc> fStencilStrokePath;
     GLPtr<GrGLStencilFillPathInstancedProc> fStencilFillPathInstanced;
     GLPtr<GrGLStencilStrokePathInstancedProc> fStencilStrokePathInstanced;
     GLPtr<GrGLPathCoverDepthFuncProc> fPathCoverDepthFunc;
     GLPtr<GrGLPathColorGenProc> fPathColorGen;
     GLPtr<GrGLPathTexGenProc> fPathTexGen;
     GLPtr<GrGLPathFogGenProc> fPathFogGen;
     GLPtr<GrGLCoverFillPathProc> fCoverFillPath;
     GLPtr<GrGLCoverStrokePathProc> fCoverStrokePath;
     GLPtr<GrGLCoverFillPathInstancedProc> fCoverFillPathInstanced;
     GLPtr<GrGLCoverStrokePathInstancedProc> fCoverStrokePathInstanced;
     GLPtr<GrGLGetPathParameterivProc> fGetPathParameteriv;
     GLPtr<GrGLGetPathParameterfvProc> fGetPathParameterfv;
     GLPtr<GrGLGetPathCommandsProc> fGetPathCommands;
     GLPtr<GrGLGetPathCoordsProc> fGetPathCoords;
     GLPtr<GrGLGetPathDashArrayProc> fGetPathDashArray;
     GLPtr<GrGLGetPathMetricsProc> fGetPathMetrics;
     GLPtr<GrGLGetPathMetricRangeProc> fGetPathMetricRange;
     GLPtr<GrGLGetPathSpacingProc> fGetPathSpacing;
     GLPtr<GrGLGetPathColorGenivProc> fGetPathColorGeniv;
     GLPtr<GrGLGetPathColorGenfvProc> fGetPathColorGenfv;
     GLPtr<GrGLGetPathTexGenivProc> fGetPathTexGeniv;
     GLPtr<GrGLGetPathTexGenfvProc> fGetPathTexGenfv;
     GLPtr<GrGLIsPointInFillPathProc> fIsPointInFillPath;
     GLPtr<GrGLIsPointInStrokePathProc> fIsPointInStrokePath;
     GLPtr<GrGLGetPathLengthProc> fGetPathLength;
     GLPtr<GrGLPointAlongPathProc> fPointAlongPath;

     // Per-GL func callback
 #if GR_GL_PER_GL_FUNC_CALLBACK
     GrGLInterfaceCallbackProc fCallback;
     GrGLInterfaceCallbackData fCallbackData;
 #endif

 };

 #endif

	/*
	* Copyright 2011 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/


	#ifndef GrGLInterface_DEFINED
	#define GrGLInterface_DEFINED

	#include "GrGLFunctions.h"
	#include "GrRefCnt.h"

	////////////////////////////////////////////////////////////////////////////////

	/**
	* Classifies GL contexts (currently as Desktop vs. ES2). This is a bitfield.
	* A GrGLInterface (defined below) may support multiple bindings.
	*/
	enum GrGLBinding {
	kNone_GrGLBinding = 0x0,

	kDesktop_GrGLBinding = 0x01,
	kES_GrGLBinding = 0x02, // ES2+ only

	// for iteration of GrGLBindings
	kFirstGrGLBinding = kDesktop_GrGLBinding,
	kLastGrGLBinding = kES_GrGLBinding
	};

	////////////////////////////////////////////////////////////////////////////////

	/**
	* Rather than depend on platform-specific GL headers and libraries, we require
	* the client to provide a struct of GL function pointers. This struct can be
	* specified per-GrContext as a parameter to GrContext::Create. If NULL is
	* passed to Create then the "default" GL interface is used. If the default is
	* also NULL GrContext creation will fail.
	*
	* The default interface is returned by GrGLDefaultInterface. This function's
	* implementation is platform-specific. Several have been provided, along with
	* an implementation that simply returns NULL. It is implementation-specific
	* whether the same GrGLInterface is returned or whether a new one is created
	* at each call. Some platforms may not be able to use a single GrGLInterface
	* because extension function ptrs vary across contexts. Note that GrGLInterface
	* is ref-counted. So if the same object is returned by multiple calls to
	* GrGLDefaultInterface, each should bump the ref count.
	*
	* By defining GR_GL_PER_GL_CALL_IFACE_CALLBACK to 1 the client can specify a
	* callback function that will be called prior to each GL function call. See
	* comments in GrGLConfig.h
	*/

	struct GrGLInterface;

	const GrGLInterface* GrGLDefaultInterface();

	/**
	* Creates a GrGLInterface for a "native" GL context (e.g. WGL on windows,
	* GLX on linux, AGL on Mac). On platforms that have context-specific function
	* pointers for GL extensions (e.g. windows) the returned interface is only
	* valid for the context that was current at creation.
	*/
	const GrGLInterface* GrGLCreateNativeInterface();

	#if SK_MESA
	/**
	* Creates a GrGLInterface for an OSMesa context.
	*/
	const GrGLInterface* GrGLCreateMesaInterface();
	#endif

	#if SK_ANGLE
	/**
	* Creates a GrGLInterface for an ANGLE context.
	*/
	const GrGLInterface* GrGLCreateANGLEInterface();
	#endif

	/**
	* Creates a null GrGLInterface that doesn't draw anything. Used for measuring
	* CPU overhead.
	*/
	const GrGLInterface* GrGLCreateNullInterface();

	/**
	* Creates a debugging GrGLInterface that doesn't draw anything. Used for
	* finding memory leaks and invalid memory accesses.
	*/
	const GrGLInterface* GrGLCreateDebugInterface();

	#if GR_GL_PER_GL_FUNC_CALLBACK
	typedef void (GrGLInterfaceCallbackProc)(const GrGLInterface);
	typedef intptr_t GrGLInterfaceCallbackData;
	#endif

	/*
	* GrContext uses the following interface to make all calls into OpenGL. When a
	* GrContext is created it is given a GrGLInterface. The interface's function
	* pointers must be valid for the OpenGL context associated with the GrContext.
	* On some platforms, such as Windows, function pointers for OpenGL extensions
	* may vary between OpenGL contexts. So the caller must be careful to use a
	* GrGLInterface initialized for the correct context. All functions that should
	* be available based on the OpenGL's version and extension string must be
	* non-NULL or GrContext creation will fail. This can be tested with the
	* validate() method when the OpenGL context has been made current.
	*/
	struct GR_API GrGLInterface : public GrRefCnt {
	private:
	// simple wrapper class that exists only to initialize a pointer to NULL
	template <typename FNPTR_TYPE> class GLPtr {
	public:
	GLPtr() : fPtr(NULL) {}
	GLPtr operator =(FNPTR_TYPE ptr) { fPtr = ptr; return *this; }
	operator FNPTR_TYPE() const { return fPtr; }
	private:
	FNPTR_TYPE fPtr;
	};

	typedef GrRefCnt INHERITED;

	public:
	SK_DECLARE_INST_COUNT(GrGLInterface)

	GrGLInterface();

	// Validates that the GrGLInterface supports a binding. This means that
	// the GrGLinterface advertises the binding in fBindingsExported and all
	// the necessary function pointers have been initialized. The interface is
	// validated for the current OpenGL context.
	bool validate(GrGLBinding binding) const;

	// Indicator variable specifying the type of GL implementation
	// exported: GLES2 and/or Desktop.
	GrGLBinding fBindingsExported;

	GLPtr<GrGLActiveTextureProc> fActiveTexture;
	GLPtr<GrGLAttachShaderProc> fAttachShader;
	GLPtr<GrGLBeginQueryProc> fBeginQuery;
	GLPtr<GrGLBindAttribLocationProc> fBindAttribLocation;
	GLPtr<GrGLBindBufferProc> fBindBuffer;
	GLPtr<GrGLBindFragDataLocationProc> fBindFragDataLocation;
	GLPtr<GrGLBindFragDataLocationIndexedProc> fBindFragDataLocationIndexed;
	GLPtr<GrGLBindFramebufferProc> fBindFramebuffer;
	GLPtr<GrGLBindRenderbufferProc> fBindRenderbuffer;
	GLPtr<GrGLBindTextureProc> fBindTexture;
	GLPtr<GrGLBindVertexArrayProc> fBindVertexArray;
	GLPtr<GrGLBlendColorProc> fBlendColor;
	GLPtr<GrGLBlendFuncProc> fBlendFunc;
	GLPtr<GrGLBlitFramebufferProc> fBlitFramebuffer;
	GLPtr<GrGLBufferDataProc> fBufferData;
	GLPtr<GrGLBufferSubDataProc> fBufferSubData;
	GLPtr<GrGLCheckFramebufferStatusProc> fCheckFramebufferStatus;
	GLPtr<GrGLClearProc> fClear;
	GLPtr<GrGLClearColorProc> fClearColor;
	GLPtr<GrGLClearStencilProc> fClearStencil;
	GLPtr<GrGLColorMaskProc> fColorMask;
	GLPtr<GrGLCompileShaderProc> fCompileShader;
	GLPtr<GrGLCompressedTexImage2DProc> fCompressedTexImage2D;
	GLPtr<GrGLCopyTexSubImage2DProc> fCopyTexSubImage2D;
	GLPtr<GrGLCreateProgramProc> fCreateProgram;
	GLPtr<GrGLCreateShaderProc> fCreateShader;
	GLPtr<GrGLCullFaceProc> fCullFace;
	GLPtr<GrGLDeleteBuffersProc> fDeleteBuffers;
	GLPtr<GrGLDeleteFramebuffersProc> fDeleteFramebuffers;
	GLPtr<GrGLDeleteProgramProc> fDeleteProgram;
	GLPtr<GrGLDeleteQueriesProc> fDeleteQueries;
	GLPtr<GrGLDeleteRenderbuffersProc> fDeleteRenderbuffers;
	GLPtr<GrGLDeleteShaderProc> fDeleteShader;
	GLPtr<GrGLDeleteTexturesProc> fDeleteTextures;
	GLPtr<GrGLDeleteVertexArraysProc> fDeleteVertexArrays;
	GLPtr<GrGLDepthMaskProc> fDepthMask;
	GLPtr<GrGLDisableProc> fDisable;
	GLPtr<GrGLDisableVertexAttribArrayProc> fDisableVertexAttribArray;
	GLPtr<GrGLDrawArraysProc> fDrawArrays;
	GLPtr<GrGLDrawBufferProc> fDrawBuffer;
	GLPtr<GrGLDrawBuffersProc> fDrawBuffers;
	GLPtr<GrGLDrawElementsProc> fDrawElements;
	GLPtr<GrGLEnableProc> fEnable;
	GLPtr<GrGLEnableVertexAttribArrayProc> fEnableVertexAttribArray;
	GLPtr<GrGLEndQueryProc> fEndQuery;
	GLPtr<GrGLFinishProc> fFinish;
	GLPtr<GrGLFlushProc> fFlush;
	GLPtr<GrGLFramebufferRenderbufferProc> fFramebufferRenderbuffer;
	GLPtr<GrGLFramebufferTexture2DProc> fFramebufferTexture2D;
	GLPtr<GrGLFramebufferTexture2DMultisampleProc> fFramebufferTexture2DMultisample;
	GLPtr<GrGLFrontFaceProc> fFrontFace;
	GLPtr<GrGLGenBuffersProc> fGenBuffers;
	GLPtr<GrGLGenFramebuffersProc> fGenFramebuffers;
	GLPtr<GrGLGenerateMipmapProc> fGenerateMipmap;
	GLPtr<GrGLGenQueriesProc> fGenQueries;
	GLPtr<GrGLGenRenderbuffersProc> fGenRenderbuffers;
	GLPtr<GrGLGenTexturesProc> fGenTextures;
	GLPtr<GrGLGenVertexArraysProc> fGenVertexArrays;
	GLPtr<GrGLGetBufferParameterivProc> fGetBufferParameteriv;
	GLPtr<GrGLGetErrorProc> fGetError;
	GLPtr<GrGLGetFramebufferAttachmentParameterivProc> fGetFramebufferAttachmentParameteriv;
	GLPtr<GrGLGetIntegervProc> fGetIntegerv;
	GLPtr<GrGLGetQueryObjecti64vProc> fGetQueryObjecti64v;
	GLPtr<GrGLGetQueryObjectivProc> fGetQueryObjectiv;
	GLPtr<GrGLGetQueryObjectui64vProc> fGetQueryObjectui64v;
	GLPtr<GrGLGetQueryObjectuivProc> fGetQueryObjectuiv;
	GLPtr<GrGLGetQueryivProc> fGetQueryiv;
	GLPtr<GrGLGetProgramInfoLogProc> fGetProgramInfoLog;
	GLPtr<GrGLGetProgramivProc> fGetProgramiv;
	GLPtr<GrGLGetRenderbufferParameterivProc> fGetRenderbufferParameteriv;
	GLPtr<GrGLGetShaderInfoLogProc> fGetShaderInfoLog;
	GLPtr<GrGLGetShaderivProc> fGetShaderiv;
	GLPtr<GrGLGetStringProc> fGetString;
	GLPtr<GrGLGetStringiProc> fGetStringi;
	GLPtr<GrGLGetTexLevelParameterivProc> fGetTexLevelParameteriv;
	GLPtr<GrGLGetUniformLocationProc> fGetUniformLocation;
	GLPtr<GrGLLineWidthProc> fLineWidth;
	GLPtr<GrGLLinkProgramProc> fLinkProgram;
	GLPtr<GrGLMapBufferProc> fMapBuffer;
	GLPtr<GrGLPixelStoreiProc> fPixelStorei;
	GLPtr<GrGLQueryCounterProc> fQueryCounter;
	GLPtr<GrGLReadBufferProc> fReadBuffer;
	GLPtr<GrGLReadPixelsProc> fReadPixels;
	GLPtr<GrGLRenderbufferStorageProc> fRenderbufferStorage;
	GLPtr<GrGLRenderbufferStorageMultisampleProc> fRenderbufferStorageMultisample;
	GLPtr<GrGLRenderbufferStorageMultisampleCoverageProc> fRenderbufferStorageMultisampleCoverage;
	GLPtr<GrGLResolveMultisampleFramebufferProc> fResolveMultisampleFramebuffer;
	GLPtr<GrGLScissorProc> fScissor;
	GLPtr<GrGLShaderSourceProc> fShaderSource;
	GLPtr<GrGLStencilFuncProc> fStencilFunc;
	GLPtr<GrGLStencilFuncSeparateProc> fStencilFuncSeparate;
	GLPtr<GrGLStencilMaskProc> fStencilMask;
	GLPtr<GrGLStencilMaskSeparateProc> fStencilMaskSeparate;
	GLPtr<GrGLStencilOpProc> fStencilOp;
	GLPtr<GrGLStencilOpSeparateProc> fStencilOpSeparate;
	GLPtr<GrGLTexImage2DProc> fTexImage2D;
	GLPtr<GrGLTexParameteriProc> fTexParameteri;
	GLPtr<GrGLTexParameterivProc> fTexParameteriv;
	GLPtr<GrGLTexSubImage2DProc> fTexSubImage2D;
	GLPtr<GrGLTexStorage2DProc> fTexStorage2D;
	GLPtr<GrGLDiscardFramebufferProc> fDiscardFramebuffer;
	GLPtr<GrGLUniform1fProc> fUniform1f;
	GLPtr<GrGLUniform1iProc> fUniform1i;
	GLPtr<GrGLUniform1fvProc> fUniform1fv;
	GLPtr<GrGLUniform1ivProc> fUniform1iv;
	GLPtr<GrGLUniform2fProc> fUniform2f;
	GLPtr<GrGLUniform2iProc> fUniform2i;
	GLPtr<GrGLUniform2fvProc> fUniform2fv;
	GLPtr<GrGLUniform2ivProc> fUniform2iv;
	GLPtr<GrGLUniform3fProc> fUniform3f;
	GLPtr<GrGLUniform3iProc> fUniform3i;
	GLPtr<GrGLUniform3fvProc> fUniform3fv;
	GLPtr<GrGLUniform3ivProc> fUniform3iv;
	GLPtr<GrGLUniform4fProc> fUniform4f;
	GLPtr<GrGLUniform4iProc> fUniform4i;
	GLPtr<GrGLUniform4fvProc> fUniform4fv;
	GLPtr<GrGLUniform4ivProc> fUniform4iv;
	GLPtr<GrGLUniformMatrix2fvProc> fUniformMatrix2fv;
	GLPtr<GrGLUniformMatrix3fvProc> fUniformMatrix3fv;
	GLPtr<GrGLUniformMatrix4fvProc> fUniformMatrix4fv;
	GLPtr<GrGLUnmapBufferProc> fUnmapBuffer;
	GLPtr<GrGLUseProgramProc> fUseProgram;
	GLPtr<GrGLVertexAttrib4fvProc> fVertexAttrib4fv;
	GLPtr<GrGLVertexAttribPointerProc> fVertexAttribPointer;
	GLPtr<GrGLViewportProc> fViewport;

	// Experimental: Functions for GL_NV_path_rendering. These will be
	// alphabetized with the above functions once this is fully supported
	// (and functions we are unlikely to use will possibly be omitted).
	GLPtr<GrGLMatrixModeProc> fMatrixMode;
	GLPtr<GrGLLoadIdentityProc> fLoadIdentity;
	GLPtr<GrGLLoadMatrixfProc> fLoadMatrixf;
	GLPtr<GrGLPathCommandsProc> fPathCommands;
	GLPtr<GrGLPathCoordsProc> fPathCoords;
	GLPtr<GrGLPathSubCommandsProc> fPathSubCommands;
	GLPtr<GrGLPathSubCoordsProc> fPathSubCoords;
	GLPtr<GrGLPathStringProc> fPathString;
	GLPtr<GrGLPathGlyphsProc> fPathGlyphs;
	GLPtr<GrGLPathGlyphRangeProc> fPathGlyphRange;
	GLPtr<GrGLWeightPathsProc> fWeightPaths;
	GLPtr<GrGLCopyPathProc> fCopyPath;
	GLPtr<GrGLInterpolatePathsProc> fInterpolatePaths;
	GLPtr<GrGLTransformPathProc> fTransformPath;
	GLPtr<GrGLPathParameterivProc> fPathParameteriv;
	GLPtr<GrGLPathParameteriProc> fPathParameteri;
	GLPtr<GrGLPathParameterfvProc> fPathParameterfv;
	GLPtr<GrGLPathParameterfProc> fPathParameterf;
	GLPtr<GrGLPathDashArrayProc> fPathDashArray;
	GLPtr<GrGLGenPathsProc> fGenPaths;
	GLPtr<GrGLDeletePathsProc> fDeletePaths;
	GLPtr<GrGLIsPathProc> fIsPath;
	GLPtr<GrGLPathStencilFuncProc> fPathStencilFunc;
	GLPtr<GrGLPathStencilDepthOffsetProc> fPathStencilDepthOffset;
	GLPtr<GrGLStencilFillPathProc> fStencilFillPath;
	GLPtr<GrGLStencilStrokePathProc> fStencilStrokePath;
	GLPtr<GrGLStencilFillPathInstancedProc> fStencilFillPathInstanced;
	GLPtr<GrGLStencilStrokePathInstancedProc> fStencilStrokePathInstanced;
	GLPtr<GrGLPathCoverDepthFuncProc> fPathCoverDepthFunc;
	GLPtr<GrGLPathColorGenProc> fPathColorGen;
	GLPtr<GrGLPathTexGenProc> fPathTexGen;
	GLPtr<GrGLPathFogGenProc> fPathFogGen;
	GLPtr<GrGLCoverFillPathProc> fCoverFillPath;
	GLPtr<GrGLCoverStrokePathProc> fCoverStrokePath;
	GLPtr<GrGLCoverFillPathInstancedProc> fCoverFillPathInstanced;
	GLPtr<GrGLCoverStrokePathInstancedProc> fCoverStrokePathInstanced;
	GLPtr<GrGLGetPathParameterivProc> fGetPathParameteriv;
	GLPtr<GrGLGetPathParameterfvProc> fGetPathParameterfv;
	GLPtr<GrGLGetPathCommandsProc> fGetPathCommands;
	GLPtr<GrGLGetPathCoordsProc> fGetPathCoords;
	GLPtr<GrGLGetPathDashArrayProc> fGetPathDashArray;
	GLPtr<GrGLGetPathMetricsProc> fGetPathMetrics;
	GLPtr<GrGLGetPathMetricRangeProc> fGetPathMetricRange;
	GLPtr<GrGLGetPathSpacingProc> fGetPathSpacing;
	GLPtr<GrGLGetPathColorGenivProc> fGetPathColorGeniv;
	GLPtr<GrGLGetPathColorGenfvProc> fGetPathColorGenfv;
	GLPtr<GrGLGetPathTexGenivProc> fGetPathTexGeniv;
	GLPtr<GrGLGetPathTexGenfvProc> fGetPathTexGenfv;
	GLPtr<GrGLIsPointInFillPathProc> fIsPointInFillPath;
	GLPtr<GrGLIsPointInStrokePathProc> fIsPointInStrokePath;
	GLPtr<GrGLGetPathLengthProc> fGetPathLength;
	GLPtr<GrGLPointAlongPathProc> fPointAlongPath;

	// Per-GL func callback
	#if GR_GL_PER_GL_FUNC_CALLBACK
	GrGLInterfaceCallbackProc fCallback;
	GrGLInterfaceCallbackData fCallbackData;
	#endif

	};

	#endif