src/third_party/skia/src/gpu/gl/GrGLCaps.h - cobalt - Git at Google

 /*
  * Copyright 2012 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #ifndef GrGLCaps_DEFINED
 #define GrGLCaps_DEFINED

 #include <functional>

 #include "GrCaps.h"
 #include "GrGLStencilAttachment.h"
 #include "GrSwizzle.h"
 #include "SkChecksum.h"
 #include "SkTHash.h"
 #include "SkTArray.h"
 #include "../private/GrGLSL.h"

 class GrGLContextInfo;
 class GrGLRenderTarget;

 /**
  * Stores some capabilities of a GL context. Most are determined by the GL
  * version and the extensions string. It also tracks formats that have passed
  * the FBO completeness test.
  */
 class GrGLCaps : public GrCaps {
 public:
     typedef GrGLStencilAttachment::Format StencilFormat;

     /**
      * The type of MSAA for FBOs supported. Different extensions have different
      * semantics of how / when a resolve is performed.
      */
     enum MSFBOType {
         /**
          * no support for MSAA FBOs
          */
         kNone_MSFBOType = 0,
         /**
          * OpenGL 3.0+, OpenGL ES 3.0+, GL_ARB_framebuffer_object,
          * GL_CHROMIUM_framebuffer_multisample, GL_ANGLE_framebuffer_multisample,
          * or GL_EXT_framebuffer_multisample
          */
         kStandard_MSFBOType,
         /**
          * GL_APPLE_framebuffer_multisample ES extension
          */
         kES_Apple_MSFBOType,
         /**
          * GL_IMG_multisampled_render_to_texture. This variation does not have MSAA renderbuffers.
          * Instead the texture is multisampled when bound to the FBO and then resolved automatically
          * when read. It also defines an alternate value for GL_MAX_SAMPLES (which we call
          * GR_GL_MAX_SAMPLES_IMG).
          */
         kES_IMG_MsToTexture_MSFBOType,
         /**
          * GL_EXT_multisampled_render_to_texture. Same as the IMG one above but uses the standard
          * GL_MAX_SAMPLES value.
          */
         kES_EXT_MsToTexture_MSFBOType,
         /**
          * GL_NV_framebuffer_mixed_samples.
          */
         kMixedSamples_MSFBOType,

         kLast_MSFBOType = kMixedSamples_MSFBOType
     };

     enum BlitFramebufferFlags {
         kNoSupport_BlitFramebufferFlag                    = 1 << 0,
         kNoScalingOrMirroring_BlitFramebufferFlag         = 1 << 1,
         kResolveMustBeFull_BlitFrambufferFlag             = 1 << 2,
         kNoMSAADst_BlitFramebufferFlag                    = 1 << 3,
         kNoFormatConversion_BlitFramebufferFlag           = 1 << 4,
         kNoFormatConversionForMSAASrc_BlitFramebufferFlag = 1 << 5,
         kRectsMustMatchForMSAASrc_BlitFramebufferFlag     = 1 << 6,
     };

     enum InvalidateFBType {
         kNone_InvalidateFBType,
         kDiscard_InvalidateFBType,       //<! glDiscardFramebuffer()
         kInvalidate_InvalidateFBType,    //<! glInvalidateFramebuffer()

         kLast_InvalidateFBType = kInvalidate_InvalidateFBType
     };

     enum MapBufferType {
         kNone_MapBufferType,
         kMapBuffer_MapBufferType,         // glMapBuffer()
         kMapBufferRange_MapBufferType,    // glMapBufferRange()
         kChromium_MapBufferType,          // GL_CHROMIUM_map_sub

         kLast_MapBufferType = kChromium_MapBufferType,
     };

     enum TransferBufferType {
         kNone_TransferBufferType,
         kPBO_TransferBufferType,          // ARB_pixel_buffer_object
         kChromium_TransferBufferType,     // CHROMIUM_pixel_transfer_buffer_object

         kLast_TransferBufferType = kChromium_TransferBufferType,
     };

     /**
      * Initializes the GrGLCaps to the set of features supported in the current
      * OpenGL context accessible via ctxInfo.
      */
     GrGLCaps(const GrContextOptions& contextOptions, const GrGLContextInfo& ctxInfo,
              const GrGLInterface* glInterface);

     int getSampleCount(int requestedCount, GrPixelConfig config) const override;

     bool isConfigTexturable(GrPixelConfig config) const override {
         return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kTextureable_Flag);
     }

     bool isConfigRenderable(GrPixelConfig config, bool withMSAA) const override {
         if (withMSAA) {
             return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kRenderableWithMSAA_Flag);
         } else {
             return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kRenderable_Flag);
         }
     }
     bool canConfigBeImageStorage(GrPixelConfig config) const override {
         return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kCanUseAsImageStorage_Flag);
     }
     bool canConfigBeFBOColorAttachment(GrPixelConfig config) const {
         return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kFBOColorAttachment_Flag);
     }

     bool isConfigTexSupportEnabled(GrPixelConfig config) const {
         return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kCanUseTexStorage_Flag);
     }

     bool canUseConfigWithTexelBuffer(GrPixelConfig config) const {
         return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kCanUseWithTexelBuffer_Flag);
     }

     /** Returns the mapping between GrPixelConfig components and GL internal format components. */
     const GrSwizzle& configSwizzle(GrPixelConfig config) const {
         return fConfigTable[config].fSwizzle;
     }

     GrGLenum configSizedInternalFormat(GrPixelConfig config) const {
         return fConfigTable[config].fFormats.fSizedInternalFormat;
     }

     bool getTexImageFormats(GrPixelConfig surfaceConfig, GrPixelConfig externalConfig,
                             GrGLenum* internalFormat, GrGLenum* externalFormat,
                             GrGLenum* externalType) const;

     bool getReadPixelsFormat(GrPixelConfig surfaceConfig, GrPixelConfig externalConfig,
                              GrGLenum* externalFormat, GrGLenum* externalType) const;

     bool getRenderbufferFormat(GrPixelConfig config, GrGLenum* internalFormat) const;

     /** The format to use read/write a texture as an image in a shader */
     GrGLenum getImageFormat(GrPixelConfig config) const {
         return fConfigTable[config].fFormats.fSizedInternalFormat;
     }

     /**
     * Gets an array of legal stencil formats. These formats are not guaranteed
     * to be supported by the driver but are legal GLenum names given the GL
     * version and extensions supported.
     */
     const SkTArray<StencilFormat, true>& stencilFormats() const {
         return fStencilFormats;
     }

     /**
      * Has a stencil format index been found for the config (or we've found that no format works).
      */
     bool hasStencilFormatBeenDeterminedForConfig(GrPixelConfig config) const {
         return fConfigTable[config].fStencilFormatIndex != ConfigInfo::kUnknown_StencilIndex;
     }

     /**
      * Gets the stencil format index for the config. This assumes
      * hasStencilFormatBeenDeterminedForConfig has already been checked. Returns a value < 0 if
      * no stencil format is supported with the config. Otherwise, returned index refers to the array
      * returned by stencilFormats().
      */
     int getStencilFormatIndexForConfig(GrPixelConfig config) const {
         SkASSERT(this->hasStencilFormatBeenDeterminedForConfig(config));
         return fConfigTable[config].fStencilFormatIndex;
     }

     /**
      * If index is >= 0 this records an index into stencilFormats() as the best stencil format for
      * the config. If < 0 it records that the config has no supported stencil format index.
      */
     void setStencilFormatIndexForConfig(GrPixelConfig config, int index) {
         SkASSERT(!this->hasStencilFormatBeenDeterminedForConfig(config));
         if (index < 0) {
             fConfigTable[config].fStencilFormatIndex = ConfigInfo::kUnsupported_StencilFormatIndex;
         } else {
             fConfigTable[config].fStencilFormatIndex = index;
         }
     }

     /**
      * Call to note that a color config has been verified as a valid color
      * attachment. This may save future calls to glCheckFramebufferStatus
      * using isConfigVerifiedColorAttachment().
      */
     void markConfigAsValidColorAttachment(GrPixelConfig config) {
         fConfigTable[config].fFlags |= ConfigInfo::kVerifiedColorAttachment_Flag;
     }

     /**
      * Call to check whether a config has been verified as a valid color
      * attachment.
      */
     bool isConfigVerifiedColorAttachment(GrPixelConfig config) const {
         return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kVerifiedColorAttachment_Flag);
     }

     /**
      * Reports the type of MSAA FBO support.
      */
     MSFBOType msFBOType() const { return fMSFBOType; }

     /**
      * Does the preferred MSAA FBO extension have MSAA renderbuffers?
      */
     bool usesMSAARenderBuffers() const {
         return kNone_MSFBOType != fMSFBOType &&
                kES_IMG_MsToTexture_MSFBOType != fMSFBOType &&
                kES_EXT_MsToTexture_MSFBOType != fMSFBOType &&
                kMixedSamples_MSFBOType != fMSFBOType;
     }

     /**
      * What functionality is supported by glBlitFramebuffer.
      */
     uint32_t blitFramebufferSupportFlags() const { return fBlitFramebufferFlags; }

     /**
      * Is the MSAA FBO extension one where the texture is multisampled when bound to an FBO and
      * then implicitly resolved when read.
      */
     bool usesImplicitMSAAResolve() const {
         return kES_IMG_MsToTexture_MSFBOType == fMSFBOType ||
                kES_EXT_MsToTexture_MSFBOType == fMSFBOType;
     }

     InvalidateFBType invalidateFBType() const { return fInvalidateFBType; }

     /// What type of buffer mapping is supported?
     MapBufferType mapBufferType() const { return fMapBufferType; }

     /// What type of transfer buffer is supported?
     TransferBufferType transferBufferType() const { return fTransferBufferType; }

     /// The maximum number of fragment uniform vectors (GLES has min. 16).
     int maxFragmentUniformVectors() const { return fMaxFragmentUniformVectors; }

     /**
      * Depending on the ES extensions present the BGRA external format may
      * correspond to either a BGRA or RGBA internalFormat. On desktop GL it is
      * RGBA.
      */
     bool bgraIsInternalFormat() const;

     /// Is there support for GL_UNPACK_ROW_LENGTH
     bool unpackRowLengthSupport() const { return fUnpackRowLengthSupport; }

     /// Is there support for GL_UNPACK_FLIP_Y
     bool unpackFlipYSupport() const { return fUnpackFlipYSupport; }

     /// Is there support for GL_PACK_ROW_LENGTH
     bool packRowLengthSupport() const { return fPackRowLengthSupport; }

     /// Is there support for GL_PACK_REVERSE_ROW_ORDER
     bool packFlipYSupport() const { return fPackFlipYSupport; }

     /// Is there support for texture parameter GL_TEXTURE_USAGE
     bool textureUsageSupport() const { return fTextureUsageSupport; }

     /// Is there support for GL_RED and GL_R8
     bool textureRedSupport() const { return fTextureRedSupport; }

     /// Is GL_ALPHA8 renderable
     bool alpha8IsRenderable() const { return fAlpha8IsRenderable; }

     /// Is GL_ARB_IMAGING supported
     bool imagingSupport() const { return fImagingSupport; }

     /// Is there support for Vertex Array Objects?
     bool vertexArrayObjectSupport() const { return fVertexArrayObjectSupport; }

     /// Is there support for GL_EXT_direct_state_access?
     bool directStateAccessSupport() const { return fDirectStateAccessSupport; }

     /// Is there support for GL_KHR_debug?
     bool debugSupport() const { return fDebugSupport; }

     /// Is there support for ES2 compatability?
     bool ES2CompatibilitySupport() const { return fES2CompatibilitySupport; }

     /// Is there support for glDraw*Instanced?
     bool drawInstancedSupport() const { return fDrawInstancedSupport; }

     /// Is there support for glDraw*Indirect? Note that the baseInstance fields of indirect draw
     /// commands cannot be used unless we have base instance support.
     bool drawIndirectSupport() const { return fDrawIndirectSupport; }

     /// Is there support for glMultiDraw*Indirect? Note that the baseInstance fields of indirect
     /// draw commands cannot be used unless we have base instance support.
     bool multiDrawIndirectSupport() const { return fMultiDrawIndirectSupport; }

     /// Is there support for glDrawRangeElements?
     bool drawRangeElementsSupport() const { return fDrawRangeElementsSupport; }

     /// Are the baseInstance fields supported in indirect draw commands?
     bool baseInstanceSupport() const { return fBaseInstanceSupport; }

     /// Use indices or vertices in CPU arrays rather than VBOs for dynamic content.
     bool useNonVBOVertexAndIndexDynamicData() const { return fUseNonVBOVertexAndIndexDynamicData; }

     /// Does ReadPixels support reading readConfig pixels from a FBO that is surfaceConfig?
     bool readPixelsSupported(GrPixelConfig surfaceConfig,
                              GrPixelConfig readConfig,
                              std::function<void (GrGLenum, GrGLint*)> getIntegerv,
                              std::function<bool ()> bindRenderTarget,
                              std::function<void ()> unbindRenderTarget) const;

     bool isCoreProfile() const { return fIsCoreProfile; }

     bool bindFragDataLocationSupport() const { return fBindFragDataLocationSupport; }

     bool bindUniformLocationSupport() const { return fBindUniformLocationSupport; }

     /// Are textures with GL_TEXTURE_RECTANGLE type supported.
     bool rectangleTextureSupport() const { return fRectangleTextureSupport; }

     /// GL_ARB_texture_swizzle
     bool textureSwizzleSupport() const { return fTextureSwizzleSupport; }

     bool mipMapLevelAndLodControlSupport() const { return fMipMapLevelAndLodControlSupport; }

     bool doManualMipmapping() const { return fDoManualMipmapping; }

     bool srgbDecodeDisableSupport() const { return fSRGBDecodeDisableSupport; }
     bool srgbDecodeDisableAffectsMipmaps() const { return fSRGBDecodeDisableAffectsMipmaps; }

     /**
      * Returns a string containing the caps info.
      */
     SkString dump() const override;

     bool rgba8888PixelsOpsAreSlow() const { return fRGBA8888PixelsOpsAreSlow; }
     bool partialFBOReadIsSlow() const { return fPartialFBOReadIsSlow; }
     bool rgbaToBgraReadbackConversionsAreSlow() const {
         return fRGBAToBGRAReadbackConversionsAreSlow;
     }

     // Certain Intel GPUs on Mac fail to clear if the glClearColor is made up of only 1s and 0s.
     bool clearToBoundaryValuesIsBroken() const { return fClearToBoundaryValuesIsBroken; }

     /// glClearTex(Sub)Image support
     bool clearTextureSupport() const { return fClearTextureSupport; }

     // Adreno/MSAA drops a draw on the imagefiltersbase GM if the base vertex param to
     // glDrawArrays is nonzero.
     // https://bugs.chromium.org/p/skia/issues/detail?id=6650
     bool drawArraysBaseVertexIsBroken() const { return fDrawArraysBaseVertexIsBroken; }

     /// Adreno 4xx devices experience an issue when there are a large number of stencil clip bit
     /// clears. The minimal repro steps are not precisely known but drawing a rect with a stencil
     /// op instead of using glClear seems to resolve the issue.
     bool useDrawToClearStencilClip() const { return fUseDrawToClearStencilClip; }

     // If true then we must use an intermediate surface to perform partial updates to unorm textures
     // that have ever been bound to a FBO.
     bool disallowTexSubImageForUnormConfigTexturesEverBoundToFBO() const {
         return fDisallowTexSubImageForUnormConfigTexturesEverBoundToFBO;
     }

     // Use an intermediate surface to write pixels (full or partial overwrite) to into a texture
     // that is bound to an FBO.
     bool useDrawInsteadOfAllRenderTargetWrites() const {
         return fUseDrawInsteadOfAllRenderTargetWrites;
     }

     // At least some Adreno 3xx drivers draw lines incorrectly after drawing non-lines. Toggling
     // face culling on and off seems to resolve this.
     bool requiresCullFaceEnableDisableWhenDrawingLinesAfterNonLines() const {
         return fRequiresCullFaceEnableDisableWhenDrawingLinesAfterNonLines;
     }

     bool initDescForDstCopy(const GrRenderTargetProxy* src, GrSurfaceDesc* desc,
                             bool* rectsMustMatch, bool* disallowSubrect) const override;

 private:
     enum ExternalFormatUsage {
         kTexImage_ExternalFormatUsage,
         kOther_ExternalFormatUsage,

         kLast_ExternalFormatUsage = kOther_ExternalFormatUsage
     };
     static const int kExternalFormatUsageCnt = kLast_ExternalFormatUsage + 1;
     bool getExternalFormat(GrPixelConfig surfaceConfig, GrPixelConfig memoryConfig,
                            ExternalFormatUsage usage, GrGLenum* externalFormat,
                            GrGLenum* externalType) const;

     void init(const GrContextOptions&, const GrGLContextInfo&, const GrGLInterface*);
     void initGLSL(const GrGLContextInfo&);
     bool hasPathRenderingSupport(const GrGLContextInfo&, const GrGLInterface*);

     void onApplyOptionsOverrides(const GrContextOptions& options) override;

     void initFSAASupport(const GrContextOptions& contextOptions, const GrGLContextInfo&,
                          const GrGLInterface*);
     void initBlendEqationSupport(const GrGLContextInfo&);
     void initStencilSupport(const GrGLContextInfo&);
     // This must be called after initFSAASupport().
     void initConfigTable(const GrContextOptions&, const GrGLContextInfo&, const GrGLInterface*,
                          GrShaderCaps*);

     void initShaderPrecisionTable(const GrGLContextInfo&, const GrGLInterface*, GrShaderCaps*);

     GrGLStandard fStandard;

     SkTArray<StencilFormat, true> fStencilFormats;

     int fMaxFragmentUniformVectors;

     MSFBOType           fMSFBOType;
     InvalidateFBType    fInvalidateFBType;
     MapBufferType       fMapBufferType;
     TransferBufferType  fTransferBufferType;

     bool fUnpackRowLengthSupport : 1;
     bool fUnpackFlipYSupport : 1;
     bool fPackRowLengthSupport : 1;
     bool fPackFlipYSupport : 1;
     bool fTextureUsageSupport : 1;
     bool fTextureRedSupport : 1;
     bool fAlpha8IsRenderable: 1;
     bool fImagingSupport  : 1;
     bool fVertexArrayObjectSupport : 1;
     bool fDirectStateAccessSupport : 1;
     bool fDebugSupport : 1;
     bool fES2CompatibilitySupport : 1;
     bool fDrawInstancedSupport : 1;
     bool fDrawIndirectSupport : 1;
     bool fDrawRangeElementsSupport : 1;
     bool fMultiDrawIndirectSupport : 1;
     bool fBaseInstanceSupport : 1;
     bool fUseNonVBOVertexAndIndexDynamicData : 1;
     bool fIsCoreProfile : 1;
     bool fBindFragDataLocationSupport : 1;
     bool fRGBA8888PixelsOpsAreSlow : 1;
     bool fPartialFBOReadIsSlow : 1;
     bool fBindUniformLocationSupport : 1;
     bool fRectangleTextureSupport : 1;
     bool fTextureSwizzleSupport : 1;
     bool fMipMapLevelAndLodControlSupport : 1;
     bool fRGBAToBGRAReadbackConversionsAreSlow : 1;
     bool fDoManualMipmapping : 1;
     bool fSRGBDecodeDisableSupport : 1;
     bool fSRGBDecodeDisableAffectsMipmaps : 1;
     bool fClearToBoundaryValuesIsBroken : 1;
     bool fClearTextureSupport : 1;
     bool fDrawArraysBaseVertexIsBroken : 1;
     bool fUseDrawToClearStencilClip : 1;
     bool fDisallowTexSubImageForUnormConfigTexturesEverBoundToFBO : 1;
     bool fUseDrawInsteadOfAllRenderTargetWrites : 1;
     bool fRequiresCullFaceEnableDisableWhenDrawingLinesAfterNonLines : 1;

     uint32_t fBlitFramebufferFlags;

     /** Number type of the components (with out considering number of bits.) */
     enum FormatType {
         kNormalizedFixedPoint_FormatType,
         kFloat_FormatType,
         kInteger_FormatType,
     };

     struct ReadPixelsFormat {
         ReadPixelsFormat() : fFormat(0), fType(0) {}
         GrGLenum fFormat;
         GrGLenum fType;
     };

     struct ConfigFormats {
         ConfigFormats() {
             // Inits to known bad GL enum values.
             memset(this, 0xAB, sizeof(ConfigFormats));
         }
         GrGLenum fBaseInternalFormat;
         GrGLenum fSizedInternalFormat;

         /** The external format and type are to be used when uploading/downloading data using this
             config where both the CPU data and GrSurface are the same config. To get the external
             format and type when converting between configs while copying to/from memory use
             getExternalFormat().
             The kTexImage external format is usually the same as kOther except for kSRGBA on some
             GL contexts. */
         GrGLenum fExternalFormat[kExternalFormatUsageCnt];
         GrGLenum fExternalType;

         // Either the base or sized internal format depending on the GL and config.
         GrGLenum fInternalFormatTexImage;
         GrGLenum fInternalFormatRenderbuffer;
     };

     struct ConfigInfo {
         ConfigInfo() : fStencilFormatIndex(kUnknown_StencilIndex), fFlags(0) {}

         ConfigFormats fFormats;

         FormatType fFormatType;

         // On ES contexts there are restrictions on type type/format that may be used for
         // ReadPixels. One is implicitly specified by the current FBO's format. The other is
         // queryable. This stores the queried option (lazily).
         ReadPixelsFormat fSecondReadPixelsFormat;

         enum {
             // This indicates that a stencil format has not yet been determined for the config.
             kUnknown_StencilIndex = -1,
             // This indicates that there is no supported stencil format for the config.
             kUnsupported_StencilFormatIndex = -2
         };

         // Index fStencilFormats.
         int fStencilFormatIndex;

         SkTDArray<int> fColorSampleCounts;

         enum {
             kVerifiedColorAttachment_Flag = 0x1,
             kTextureable_Flag             = 0x2,
             kRenderable_Flag              = 0x4,
             kRenderableWithMSAA_Flag      = 0x8,
             /** kFBOColorAttachment means that even if the config cannot be a GrRenderTarget, we can
                 still attach it to a FBO for blitting or reading pixels. */
             kFBOColorAttachment_Flag      = 0x10,
             kCanUseTexStorage_Flag        = 0x20,
             kCanUseWithTexelBuffer_Flag   = 0x40,
             kCanUseAsImageStorage_Flag    = 0x80,
         };
         uint32_t fFlags;

         GrSwizzle fSwizzle;
     };

     ConfigInfo fConfigTable[kGrPixelConfigCnt];

     typedef GrCaps INHERITED;
 };

 #endif
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/


	#ifndef GrGLCaps_DEFINED
	#define GrGLCaps_DEFINED

	#include <functional>

	#include "GrCaps.h"
	#include "GrGLStencilAttachment.h"
	#include "GrSwizzle.h"
	#include "SkChecksum.h"
	#include "SkTHash.h"
	#include "SkTArray.h"
	#include "../private/GrGLSL.h"

	class GrGLContextInfo;
	class GrGLRenderTarget;

	/**
	* Stores some capabilities of a GL context. Most are determined by the GL
	* version and the extensions string. It also tracks formats that have passed
	* the FBO completeness test.
	*/
	class GrGLCaps : public GrCaps {
	public:
	typedef GrGLStencilAttachment::Format StencilFormat;

	/**
	* The type of MSAA for FBOs supported. Different extensions have different
	* semantics of how / when a resolve is performed.
	*/
	enum MSFBOType {
	/**
	* no support for MSAA FBOs
	*/
	kNone_MSFBOType = 0,
	/**
	* OpenGL 3.0+, OpenGL ES 3.0+, GL_ARB_framebuffer_object,
	* GL_CHROMIUM_framebuffer_multisample, GL_ANGLE_framebuffer_multisample,
	* or GL_EXT_framebuffer_multisample
	*/
	kStandard_MSFBOType,
	/**
	* GL_APPLE_framebuffer_multisample ES extension
	*/
	kES_Apple_MSFBOType,
	/**
	* GL_IMG_multisampled_render_to_texture. This variation does not have MSAA renderbuffers.
	* Instead the texture is multisampled when bound to the FBO and then resolved automatically
	* when read. It also defines an alternate value for GL_MAX_SAMPLES (which we call
	* GR_GL_MAX_SAMPLES_IMG).
	*/
	kES_IMG_MsToTexture_MSFBOType,
	/**
	* GL_EXT_multisampled_render_to_texture. Same as the IMG one above but uses the standard
	* GL_MAX_SAMPLES value.
	*/
	kES_EXT_MsToTexture_MSFBOType,
	/**
	* GL_NV_framebuffer_mixed_samples.
	*/
	kMixedSamples_MSFBOType,

	kLast_MSFBOType = kMixedSamples_MSFBOType
	};

	enum BlitFramebufferFlags {
	kNoSupport_BlitFramebufferFlag = 1 << 0,
	kNoScalingOrMirroring_BlitFramebufferFlag = 1 << 1,
	kResolveMustBeFull_BlitFrambufferFlag = 1 << 2,
	kNoMSAADst_BlitFramebufferFlag = 1 << 3,
	kNoFormatConversion_BlitFramebufferFlag = 1 << 4,
	kNoFormatConversionForMSAASrc_BlitFramebufferFlag = 1 << 5,
	kRectsMustMatchForMSAASrc_BlitFramebufferFlag = 1 << 6,
	};

	enum InvalidateFBType {
	kNone_InvalidateFBType,
	kDiscard_InvalidateFBType, //<! glDiscardFramebuffer()
	kInvalidate_InvalidateFBType, //<! glInvalidateFramebuffer()

	kLast_InvalidateFBType = kInvalidate_InvalidateFBType
	};

	enum MapBufferType {
	kNone_MapBufferType,
	kMapBuffer_MapBufferType, // glMapBuffer()
	kMapBufferRange_MapBufferType, // glMapBufferRange()
	kChromium_MapBufferType, // GL_CHROMIUM_map_sub

	kLast_MapBufferType = kChromium_MapBufferType,
	};

	enum TransferBufferType {
	kNone_TransferBufferType,
	kPBO_TransferBufferType, // ARB_pixel_buffer_object
	kChromium_TransferBufferType, // CHROMIUM_pixel_transfer_buffer_object

	kLast_TransferBufferType = kChromium_TransferBufferType,
	};

	/**
	* Initializes the GrGLCaps to the set of features supported in the current
	* OpenGL context accessible via ctxInfo.
	*/
	GrGLCaps(const GrContextOptions& contextOptions, const GrGLContextInfo& ctxInfo,
	const GrGLInterface* glInterface);

	int getSampleCount(int requestedCount, GrPixelConfig config) const override;

	bool isConfigTexturable(GrPixelConfig config) const override {
	return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kTextureable_Flag);
	}

	bool isConfigRenderable(GrPixelConfig config, bool withMSAA) const override {
	if (withMSAA) {
	return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kRenderableWithMSAA_Flag);
	} else {
	return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kRenderable_Flag);
	}
	}
	bool canConfigBeImageStorage(GrPixelConfig config) const override {
	return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kCanUseAsImageStorage_Flag);
	}
	bool canConfigBeFBOColorAttachment(GrPixelConfig config) const {
	return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kFBOColorAttachment_Flag);
	}

	bool isConfigTexSupportEnabled(GrPixelConfig config) const {
	return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kCanUseTexStorage_Flag);
	}

	bool canUseConfigWithTexelBuffer(GrPixelConfig config) const {
	return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kCanUseWithTexelBuffer_Flag);
	}

	/** Returns the mapping between GrPixelConfig components and GL internal format components. */
	const GrSwizzle& configSwizzle(GrPixelConfig config) const {
	return fConfigTable[config].fSwizzle;
	}

	GrGLenum configSizedInternalFormat(GrPixelConfig config) const {
	return fConfigTable[config].fFormats.fSizedInternalFormat;
	}

	bool getTexImageFormats(GrPixelConfig surfaceConfig, GrPixelConfig externalConfig,
	GrGLenum* internalFormat, GrGLenum* externalFormat,
	GrGLenum* externalType) const;

	bool getReadPixelsFormat(GrPixelConfig surfaceConfig, GrPixelConfig externalConfig,
	GrGLenum* externalFormat, GrGLenum* externalType) const;

	bool getRenderbufferFormat(GrPixelConfig config, GrGLenum* internalFormat) const;

	/** The format to use read/write a texture as an image in a shader */
	GrGLenum getImageFormat(GrPixelConfig config) const {
	return fConfigTable[config].fFormats.fSizedInternalFormat;
	}

	/**
	* Gets an array of legal stencil formats. These formats are not guaranteed
	* to be supported by the driver but are legal GLenum names given the GL
	* version and extensions supported.
	*/
	const SkTArray<StencilFormat, true>& stencilFormats() const {
	return fStencilFormats;
	}

	/**
	* Has a stencil format index been found for the config (or we've found that no format works).
	*/
	bool hasStencilFormatBeenDeterminedForConfig(GrPixelConfig config) const {
	return fConfigTable[config].fStencilFormatIndex != ConfigInfo::kUnknown_StencilIndex;
	}

	/**
	* Gets the stencil format index for the config. This assumes
	* hasStencilFormatBeenDeterminedForConfig has already been checked. Returns a value < 0 if
	* no stencil format is supported with the config. Otherwise, returned index refers to the array
	* returned by stencilFormats().
	*/
	int getStencilFormatIndexForConfig(GrPixelConfig config) const {
	SkASSERT(this->hasStencilFormatBeenDeterminedForConfig(config));
	return fConfigTable[config].fStencilFormatIndex;
	}

	/**
	* If index is >= 0 this records an index into stencilFormats() as the best stencil format for
	* the config. If < 0 it records that the config has no supported stencil format index.
	*/
	void setStencilFormatIndexForConfig(GrPixelConfig config, int index) {
	SkASSERT(!this->hasStencilFormatBeenDeterminedForConfig(config));
	if (index < 0) {
	fConfigTable[config].fStencilFormatIndex = ConfigInfo::kUnsupported_StencilFormatIndex;
	} else {
	fConfigTable[config].fStencilFormatIndex = index;
	}
	}

	/**
	* Call to note that a color config has been verified as a valid color
	* attachment. This may save future calls to glCheckFramebufferStatus
	* using isConfigVerifiedColorAttachment().
	*/
	void markConfigAsValidColorAttachment(GrPixelConfig config) {
	fConfigTable[config].fFlags \|= ConfigInfo::kVerifiedColorAttachment_Flag;
	}

	/**
	* Call to check whether a config has been verified as a valid color
	* attachment.
	*/
	bool isConfigVerifiedColorAttachment(GrPixelConfig config) const {
	return SkToBool(fConfigTable[config].fFlags & ConfigInfo::kVerifiedColorAttachment_Flag);
	}

	/**
	* Reports the type of MSAA FBO support.
	*/
	MSFBOType msFBOType() const { return fMSFBOType; }

	/**
	* Does the preferred MSAA FBO extension have MSAA renderbuffers?
	*/
	bool usesMSAARenderBuffers() const {
	return kNone_MSFBOType != fMSFBOType &&
	kES_IMG_MsToTexture_MSFBOType != fMSFBOType &&
	kES_EXT_MsToTexture_MSFBOType != fMSFBOType &&
	kMixedSamples_MSFBOType != fMSFBOType;
	}

	/**
	* What functionality is supported by glBlitFramebuffer.
	*/
	uint32_t blitFramebufferSupportFlags() const { return fBlitFramebufferFlags; }

	/**
	* Is the MSAA FBO extension one where the texture is multisampled when bound to an FBO and
	* then implicitly resolved when read.
	*/
	bool usesImplicitMSAAResolve() const {
	return kES_IMG_MsToTexture_MSFBOType == fMSFBOType \|\|
	kES_EXT_MsToTexture_MSFBOType == fMSFBOType;
	}

	InvalidateFBType invalidateFBType() const { return fInvalidateFBType; }

	/// What type of buffer mapping is supported?
	MapBufferType mapBufferType() const { return fMapBufferType; }

	/// What type of transfer buffer is supported?
	TransferBufferType transferBufferType() const { return fTransferBufferType; }

	/// The maximum number of fragment uniform vectors (GLES has min. 16).
	int maxFragmentUniformVectors() const { return fMaxFragmentUniformVectors; }

	/**
	* Depending on the ES extensions present the BGRA external format may
	* correspond to either a BGRA or RGBA internalFormat. On desktop GL it is
	* RGBA.
	*/
	bool bgraIsInternalFormat() const;

	/// Is there support for GL_UNPACK_ROW_LENGTH
	bool unpackRowLengthSupport() const { return fUnpackRowLengthSupport; }

	/// Is there support for GL_UNPACK_FLIP_Y
	bool unpackFlipYSupport() const { return fUnpackFlipYSupport; }

	/// Is there support for GL_PACK_ROW_LENGTH
	bool packRowLengthSupport() const { return fPackRowLengthSupport; }

	/// Is there support for GL_PACK_REVERSE_ROW_ORDER
	bool packFlipYSupport() const { return fPackFlipYSupport; }

	/// Is there support for texture parameter GL_TEXTURE_USAGE
	bool textureUsageSupport() const { return fTextureUsageSupport; }

	/// Is there support for GL_RED and GL_R8
	bool textureRedSupport() const { return fTextureRedSupport; }

	/// Is GL_ALPHA8 renderable
	bool alpha8IsRenderable() const { return fAlpha8IsRenderable; }

	/// Is GL_ARB_IMAGING supported
	bool imagingSupport() const { return fImagingSupport; }

	/// Is there support for Vertex Array Objects?
	bool vertexArrayObjectSupport() const { return fVertexArrayObjectSupport; }

	/// Is there support for GL_EXT_direct_state_access?
	bool directStateAccessSupport() const { return fDirectStateAccessSupport; }

	/// Is there support for GL_KHR_debug?
	bool debugSupport() const { return fDebugSupport; }

	/// Is there support for ES2 compatability?
	bool ES2CompatibilitySupport() const { return fES2CompatibilitySupport; }

	/// Is there support for glDraw*Instanced?
	bool drawInstancedSupport() const { return fDrawInstancedSupport; }

	/// Is there support for glDraw*Indirect? Note that the baseInstance fields of indirect draw
	/// commands cannot be used unless we have base instance support.
	bool drawIndirectSupport() const { return fDrawIndirectSupport; }

	/// Is there support for glMultiDraw*Indirect? Note that the baseInstance fields of indirect
	/// draw commands cannot be used unless we have base instance support.
	bool multiDrawIndirectSupport() const { return fMultiDrawIndirectSupport; }

	/// Is there support for glDrawRangeElements?
	bool drawRangeElementsSupport() const { return fDrawRangeElementsSupport; }

	/// Are the baseInstance fields supported in indirect draw commands?
	bool baseInstanceSupport() const { return fBaseInstanceSupport; }

	/// Use indices or vertices in CPU arrays rather than VBOs for dynamic content.
	bool useNonVBOVertexAndIndexDynamicData() const { return fUseNonVBOVertexAndIndexDynamicData; }

	/// Does ReadPixels support reading readConfig pixels from a FBO that is surfaceConfig?
	bool readPixelsSupported(GrPixelConfig surfaceConfig,
	GrPixelConfig readConfig,
	std::function<void (GrGLenum, GrGLint*)> getIntegerv,
	std::function<bool ()> bindRenderTarget,
	std::function<void ()> unbindRenderTarget) const;

	bool isCoreProfile() const { return fIsCoreProfile; }

	bool bindFragDataLocationSupport() const { return fBindFragDataLocationSupport; }

	bool bindUniformLocationSupport() const { return fBindUniformLocationSupport; }

	/// Are textures with GL_TEXTURE_RECTANGLE type supported.
	bool rectangleTextureSupport() const { return fRectangleTextureSupport; }

	/// GL_ARB_texture_swizzle
	bool textureSwizzleSupport() const { return fTextureSwizzleSupport; }

	bool mipMapLevelAndLodControlSupport() const { return fMipMapLevelAndLodControlSupport; }

	bool doManualMipmapping() const { return fDoManualMipmapping; }

	bool srgbDecodeDisableSupport() const { return fSRGBDecodeDisableSupport; }
	bool srgbDecodeDisableAffectsMipmaps() const { return fSRGBDecodeDisableAffectsMipmaps; }

	/**
	* Returns a string containing the caps info.
	*/
	SkString dump() const override;

	bool rgba8888PixelsOpsAreSlow() const { return fRGBA8888PixelsOpsAreSlow; }
	bool partialFBOReadIsSlow() const { return fPartialFBOReadIsSlow; }
	bool rgbaToBgraReadbackConversionsAreSlow() const {
	return fRGBAToBGRAReadbackConversionsAreSlow;
	}

	// Certain Intel GPUs on Mac fail to clear if the glClearColor is made up of only 1s and 0s.
	bool clearToBoundaryValuesIsBroken() const { return fClearToBoundaryValuesIsBroken; }

	/// glClearTex(Sub)Image support
	bool clearTextureSupport() const { return fClearTextureSupport; }

	// Adreno/MSAA drops a draw on the imagefiltersbase GM if the base vertex param to
	// glDrawArrays is nonzero.
	// https://bugs.chromium.org/p/skia/issues/detail?id=6650
	bool drawArraysBaseVertexIsBroken() const { return fDrawArraysBaseVertexIsBroken; }

	/// Adreno 4xx devices experience an issue when there are a large number of stencil clip bit
	/// clears. The minimal repro steps are not precisely known but drawing a rect with a stencil
	/// op instead of using glClear seems to resolve the issue.
	bool useDrawToClearStencilClip() const { return fUseDrawToClearStencilClip; }

	// If true then we must use an intermediate surface to perform partial updates to unorm textures
	// that have ever been bound to a FBO.
	bool disallowTexSubImageForUnormConfigTexturesEverBoundToFBO() const {
	return fDisallowTexSubImageForUnormConfigTexturesEverBoundToFBO;
	}

	// Use an intermediate surface to write pixels (full or partial overwrite) to into a texture
	// that is bound to an FBO.
	bool useDrawInsteadOfAllRenderTargetWrites() const {
	return fUseDrawInsteadOfAllRenderTargetWrites;
	}

	// At least some Adreno 3xx drivers draw lines incorrectly after drawing non-lines. Toggling
	// face culling on and off seems to resolve this.
	bool requiresCullFaceEnableDisableWhenDrawingLinesAfterNonLines() const {
	return fRequiresCullFaceEnableDisableWhenDrawingLinesAfterNonLines;
	}

	bool initDescForDstCopy(const GrRenderTargetProxy* src, GrSurfaceDesc* desc,
	bool* rectsMustMatch, bool* disallowSubrect) const override;

	private:
	enum ExternalFormatUsage {
	kTexImage_ExternalFormatUsage,
	kOther_ExternalFormatUsage,

	kLast_ExternalFormatUsage = kOther_ExternalFormatUsage
	};
	static const int kExternalFormatUsageCnt = kLast_ExternalFormatUsage + 1;
	bool getExternalFormat(GrPixelConfig surfaceConfig, GrPixelConfig memoryConfig,
	ExternalFormatUsage usage, GrGLenum* externalFormat,
	GrGLenum* externalType) const;

	void init(const GrContextOptions&, const GrGLContextInfo&, const GrGLInterface*);
	void initGLSL(const GrGLContextInfo&);
	bool hasPathRenderingSupport(const GrGLContextInfo&, const GrGLInterface*);

	void onApplyOptionsOverrides(const GrContextOptions& options) override;

	void initFSAASupport(const GrContextOptions& contextOptions, const GrGLContextInfo&,
	const GrGLInterface*);
	void initBlendEqationSupport(const GrGLContextInfo&);
	void initStencilSupport(const GrGLContextInfo&);
	// This must be called after initFSAASupport().
	void initConfigTable(const GrContextOptions&, const GrGLContextInfo&, const GrGLInterface*,
	GrShaderCaps*);

	void initShaderPrecisionTable(const GrGLContextInfo&, const GrGLInterface, GrShaderCaps);

	GrGLStandard fStandard;

	SkTArray<StencilFormat, true> fStencilFormats;

	int fMaxFragmentUniformVectors;

	MSFBOType fMSFBOType;
	InvalidateFBType fInvalidateFBType;
	MapBufferType fMapBufferType;
	TransferBufferType fTransferBufferType;

	bool fUnpackRowLengthSupport : 1;
	bool fUnpackFlipYSupport : 1;
	bool fPackRowLengthSupport : 1;
	bool fPackFlipYSupport : 1;
	bool fTextureUsageSupport : 1;
	bool fTextureRedSupport : 1;
	bool fAlpha8IsRenderable: 1;
	bool fImagingSupport : 1;
	bool fVertexArrayObjectSupport : 1;
	bool fDirectStateAccessSupport : 1;
	bool fDebugSupport : 1;
	bool fES2CompatibilitySupport : 1;
	bool fDrawInstancedSupport : 1;
	bool fDrawIndirectSupport : 1;
	bool fDrawRangeElementsSupport : 1;
	bool fMultiDrawIndirectSupport : 1;
	bool fBaseInstanceSupport : 1;
	bool fUseNonVBOVertexAndIndexDynamicData : 1;
	bool fIsCoreProfile : 1;
	bool fBindFragDataLocationSupport : 1;
	bool fRGBA8888PixelsOpsAreSlow : 1;
	bool fPartialFBOReadIsSlow : 1;
	bool fBindUniformLocationSupport : 1;
	bool fRectangleTextureSupport : 1;
	bool fTextureSwizzleSupport : 1;
	bool fMipMapLevelAndLodControlSupport : 1;
	bool fRGBAToBGRAReadbackConversionsAreSlow : 1;
	bool fDoManualMipmapping : 1;
	bool fSRGBDecodeDisableSupport : 1;
	bool fSRGBDecodeDisableAffectsMipmaps : 1;
	bool fClearToBoundaryValuesIsBroken : 1;
	bool fClearTextureSupport : 1;
	bool fDrawArraysBaseVertexIsBroken : 1;
	bool fUseDrawToClearStencilClip : 1;
	bool fDisallowTexSubImageForUnormConfigTexturesEverBoundToFBO : 1;
	bool fUseDrawInsteadOfAllRenderTargetWrites : 1;
	bool fRequiresCullFaceEnableDisableWhenDrawingLinesAfterNonLines : 1;

	uint32_t fBlitFramebufferFlags;

	/** Number type of the components (with out considering number of bits.) */
	enum FormatType {
	kNormalizedFixedPoint_FormatType,
	kFloat_FormatType,
	kInteger_FormatType,
	};

	struct ReadPixelsFormat {
	ReadPixelsFormat() : fFormat(0), fType(0) {}
	GrGLenum fFormat;
	GrGLenum fType;
	};

	struct ConfigFormats {
	ConfigFormats() {
	// Inits to known bad GL enum values.
	memset(this, 0xAB, sizeof(ConfigFormats));
	}
	GrGLenum fBaseInternalFormat;
	GrGLenum fSizedInternalFormat;

	/** The external format and type are to be used when uploading/downloading data using this
	config where both the CPU data and GrSurface are the same config. To get the external
	format and type when converting between configs while copying to/from memory use
	getExternalFormat().
	The kTexImage external format is usually the same as kOther except for kSRGBA on some
	GL contexts. */
	GrGLenum fExternalFormat[kExternalFormatUsageCnt];
	GrGLenum fExternalType;

	// Either the base or sized internal format depending on the GL and config.
	GrGLenum fInternalFormatTexImage;
	GrGLenum fInternalFormatRenderbuffer;
	};

	struct ConfigInfo {
	ConfigInfo() : fStencilFormatIndex(kUnknown_StencilIndex), fFlags(0) {}

	ConfigFormats fFormats;

	FormatType fFormatType;

	// On ES contexts there are restrictions on type type/format that may be used for
	// ReadPixels. One is implicitly specified by the current FBO's format. The other is
	// queryable. This stores the queried option (lazily).
	ReadPixelsFormat fSecondReadPixelsFormat;

	enum {
	// This indicates that a stencil format has not yet been determined for the config.
	kUnknown_StencilIndex = -1,
	// This indicates that there is no supported stencil format for the config.
	kUnsupported_StencilFormatIndex = -2
	};

	// Index fStencilFormats.
	int fStencilFormatIndex;

	SkTDArray<int> fColorSampleCounts;

	enum {
	kVerifiedColorAttachment_Flag = 0x1,
	kTextureable_Flag = 0x2,
	kRenderable_Flag = 0x4,
	kRenderableWithMSAA_Flag = 0x8,
	/** kFBOColorAttachment means that even if the config cannot be a GrRenderTarget, we can
	still attach it to a FBO for blitting or reading pixels. */
	kFBOColorAttachment_Flag = 0x10,
	kCanUseTexStorage_Flag = 0x20,
	kCanUseWithTexelBuffer_Flag = 0x40,
	kCanUseAsImageStorage_Flag = 0x80,
	};
	uint32_t fFlags;

	GrSwizzle fSwizzle;
	};

	ConfigInfo fConfigTable[kGrPixelConfigCnt];

	typedef GrCaps INHERITED;
	};

	#endif