include/core/SkImage.h - skia - 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 SkImage_DEFINED
 #define SkImage_DEFINED

 #include "SkFilterQuality.h"
 #include "SkImageInfo.h"
 #include "SkImageEncoder.h"
 #include "SkRefCnt.h"
 #include "SkScalar.h"
 #include "SkShader.h"

 class SkData;
 class SkCanvas;
 class SkColorTable;
 class SkImageGenerator;
 class SkPaint;
 class SkPicture;
 class SkPixelSerializer;
 class SkString;
 class SkSurface;
 class GrContext;
 class GrContextThreadSafeProxy;
 class GrTexture;

 /**
  *  SkImage is an abstraction for drawing a rectagle of pixels, though the
  *  particular type of image could be actually storing its data on the GPU, or
  *  as drawing commands (picture or PDF or otherwise), ready to be played back
  *  into another canvas.
  *
  *  The content of SkImage is always immutable, though the actual storage may
  *  change, if for example that image can be re-created via encoded data or
  *  other means.
  *
  *  SkImage always has a non-zero dimensions. If there is a request to create a new image, either
  *  directly or via SkSurface, and either of the requested dimensions are zero, then NULL will be
  *  returned.
  */
 class SK_API SkImage : public SkRefCnt {
 public:
     typedef SkImageInfo Info;
     typedef void* ReleaseContext;

     static sk_sp<SkImage> MakeRasterCopy(const SkPixmap&);
     static sk_sp<SkImage> MakeRasterData(const Info&, sk_sp<SkData> pixels, size_t rowBytes);

     typedef void (*RasterReleaseProc)(const void* pixels, ReleaseContext);

     /**
      *  Return a new Image referencing the specified pixels. These must remain valid and unchanged
      *  until the specified release-proc is called, indicating that Skia no longer has a reference
      *  to the pixels.
      *
      *  Returns NULL if the requested pixmap info is unsupported.
      */
     static sk_sp<SkImage> MakeFromRaster(const SkPixmap&, RasterReleaseProc, ReleaseContext);

     /**
      *  Construct a new image from the specified bitmap. If the bitmap is marked immutable, and
      *  its pixel memory is shareable, it may be shared instead of copied.
      */
     static sk_sp<SkImage> MakeFromBitmap(const SkBitmap&);

     /**
      *  Construct a new SkImage based on the given ImageGenerator. Returns NULL on error.
      *  This function will always take ownership of the passed generator.
      *
      *  If a subset is specified, it must be contained within the generator's bounds.
      */
     static sk_sp<SkImage> MakeFromGenerator(SkImageGenerator*, const SkIRect* subset = nullptr);

     /**
      *  Construct a new SkImage based on the specified encoded data. Returns NULL on failure,
      *  which can mean that the format of the encoded data was not recognized/supported.
      *
      *  If a subset is specified, it must be contained within the encoded data's bounds.
      */
     static sk_sp<SkImage> MakeFromEncoded(sk_sp<SkData> encoded, const SkIRect* subset = nullptr);

     /**
      *  Create a new image from the specified descriptor. Note - the caller is responsible for
      *  managing the lifetime of the underlying platform texture.
      *
      *  Will return NULL if the specified descriptor is unsupported.
      */
     static sk_sp<SkImage> MakeFromTexture(GrContext* ctx, const GrBackendTextureDesc& desc) {
         return MakeFromTexture(ctx, desc, kPremul_SkAlphaType, nullptr, nullptr, nullptr);
     }

     static sk_sp<SkImage> MakeFromTexture(GrContext* ctx, const GrBackendTextureDesc& de,
                                           SkAlphaType at) {
         return MakeFromTexture(ctx, de, at, nullptr, nullptr, nullptr);
     }

     typedef void (*TextureReleaseProc)(ReleaseContext);

     /**
      *  Create a new image from the specified descriptor. The underlying platform texture must stay
      *  valid and unaltered until the specified release-proc is invoked, indicating that Skia
      *  no longer is holding a reference to it.
      *
      *  Will return NULL if the specified descriptor is unsupported.
      */
     static sk_sp<SkImage> MakeFromTexture(GrContext* ctx, const GrBackendTextureDesc& desc,
                                           SkAlphaType at, TextureReleaseProc trp,
                                           ReleaseContext rc) {
         return MakeFromTexture(ctx, desc, at, nullptr, trp, rc);
     }

     /**
     *  Create a new image from the specified descriptor. The underlying platform texture must stay
     *  valid and unaltered until the specified release-proc is invoked, indicating that Skia
     *  no longer is holding a reference to it.
     *
     *  Will return NULL if the specified descriptor is unsupported.
     */
     static sk_sp<SkImage> MakeFromTexture(GrContext*, const GrBackendTextureDesc&, SkAlphaType,
                                           sk_sp<SkColorSpace>, TextureReleaseProc, ReleaseContext);

     /**
      *  Create a new image from the specified descriptor. Note - Skia will delete or recycle the
      *  texture when the image is released.
      *
      *  Will return NULL if the specified descriptor is unsupported.
      */
     static sk_sp<SkImage> MakeFromAdoptedTexture(GrContext*, const GrBackendTextureDesc&,
                                                  SkAlphaType = kPremul_SkAlphaType,
                                                  sk_sp<SkColorSpace> = nullptr);

     /**
      *  Create a new image by copying the pixels from the specified y, u, v textures. The data
      *  from the textures is immediately ingested into the image and the textures can be modified or
      *  deleted after the function returns. The image will have the dimensions of the y texture.
      */
     static sk_sp<SkImage> MakeFromYUVTexturesCopy(GrContext*, SkYUVColorSpace,
                                                   const GrBackendObject yuvTextureHandles[3],
                                                   const SkISize yuvSizes[3],
                                                   GrSurfaceOrigin,
                                                   sk_sp<SkColorSpace> = nullptr);

     /**
      *  Create a new image by copying the pixels from the specified y and uv textures. The data
      *  from the textures is immediately ingested into the image and the textures can be modified or
      *  deleted after the function returns. The image will have the dimensions of the y texture.
      */
     static sk_sp<SkImage> MakeFromNV12TexturesCopy(GrContext*, SkYUVColorSpace,
                                                    const GrBackendObject nv12TextureHandles[2],
                                                    const SkISize nv12Sizes[2], GrSurfaceOrigin,
                                                    sk_sp<SkColorSpace> = nullptr);

     static sk_sp<SkImage> MakeFromPicture(sk_sp<SkPicture>, const SkISize& dimensions,
                                           const SkMatrix*, const SkPaint*);

     static sk_sp<SkImage> MakeTextureFromPixmap(GrContext*, const SkPixmap&, SkBudgeted budgeted);

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

     int width() const { return fWidth; }
     int height() const { return fHeight; }
     SkISize dimensions() const { return SkISize::Make(fWidth, fHeight); }
     SkIRect bounds() const { return SkIRect::MakeWH(fWidth, fHeight); }
     uint32_t uniqueID() const { return fUniqueID; }
     SkAlphaType alphaType() const;
     bool isOpaque() const { return SkAlphaTypeIsOpaque(this->alphaType()); }

     /**
      * Extracts YUV planes from the SkImage and stores them in client-provided memory. The sizes
      * planes and rowBytes arrays are ordered [y, u, v].
      */
     bool readYUV8Planes(const SkISize[3], void* const planes[3], const size_t rowBytes[3],
                         SkYUVColorSpace) const;

 #ifdef SK_SUPPORT_LEGACY_CREATESHADER_PTR
     SkShader* newShader(SkShader::TileMode, SkShader::TileMode,
                         const SkMatrix* localMatrix = nullptr) const;
 #endif

     sk_sp<SkShader> makeShader(SkShader::TileMode, SkShader::TileMode,
                                const SkMatrix* localMatrix = nullptr) const;

     /**
      *  If the image has direct access to its pixels (i.e. they are in local RAM)
      *  return true, and if not null, return in the pixmap parameter the info about the
      *  images pixels.
      *
      *  On failure, return false and ignore the pixmap parameter.
      */
     bool peekPixels(SkPixmap* pixmap) const;

 #ifdef SK_SUPPORT_LEGACY_PEEKPIXELS_PARMS
     /**
      *  If the image has direct access to its pixels (i.e. they are in local
      *  RAM) return the (const) address of those pixels, and if not null, return
      *  the ImageInfo and rowBytes. The returned address is only valid while
      *  the image object is in scope.
      *
      *  On failure, returns NULL and the info and rowBytes parameters are
      *  ignored.
      *
      *  DEPRECATED -- use the SkPixmap variant instead
      */
     const void* peekPixels(SkImageInfo* info, size_t* rowBytes) const;
 #endif

     /**
      *  Some images have to perform preliminary work in preparation for drawing. This can be
      *  decoding, uploading to a GPU, or other tasks. These happen automatically when an image
      *  is drawn, and often they are cached so that the cost is only paid the first time.
      *
      *  Preroll() can be called before drawing to try to perform this prepatory work ahead of time.
      *  For images that have no such work, this returns instantly. Others may do some thing to
      *  prepare their cache and then return.
      *
      *  If the image will drawn to a GPU-backed canvas or surface, pass the associated GrContext.
      *  If the image will be drawn to any other type of canvas or surface, pass null.
      */
     void preroll(GrContext* = nullptr) const;

     // DEPRECATED - currently used by Canvas2DLayerBridge in Chromium.
     GrTexture* getTexture() const;

     /**
      *  Returns true if the image is texture backed.
      */
     bool isTextureBacked() const;

     /**
      *  Retrieves the backend API handle of the texture. If flushPendingGrContextIO then the
      *  GrContext will issue to the backend API any deferred IO operations on the texture before
      *  returning.
      */
     GrBackendObject getTextureHandle(bool flushPendingGrContextIO) const;

     /**
      *  Hints to image calls where the system might cache computed intermediates (e.g. the results
      *  of decoding or a read-back from the GPU. Passing kAllow signals that the system's default
      *  behavior is fine. Passing kDisallow signals that caching should be avoided.
      */
      enum CachingHint {
         kAllow_CachingHint,
         kDisallow_CachingHint,
     };

     /**
      *  Copy the pixels from the image into the specified buffer (pixels + rowBytes),
      *  converting them into the requested format (dstInfo). The image pixels are read
      *  starting at the specified (srcX,srcY) location.
      *
      *  The specified ImageInfo and (srcX,srcY) offset specifies a source rectangle
      *
      *      srcR.setXYWH(srcX, srcY, dstInfo.width(), dstInfo.height());
      *
      *  srcR is intersected with the bounds of the image. If this intersection is not empty,
      *  then we have two sets of pixels (of equal size). Replace the dst pixels with the
      *  corresponding src pixels, performing any colortype/alphatype transformations needed
      *  (in the case where the src and dst have different colortypes or alphatypes).
      *
      *  This call can fail, returning false, for several reasons:
      *  - If srcR does not intersect the image bounds.
      *  - If the requested colortype/alphatype cannot be converted from the image's types.
      */
     bool readPixels(const SkImageInfo& dstInfo, void* dstPixels, size_t dstRowBytes,
                     int srcX, int srcY, CachingHint = kAllow_CachingHint) const;

     bool readPixels(const SkPixmap& dst, int srcX, int srcY,
                     CachingHint = kAllow_CachingHint) const;

     /**
      *  Copy the pixels from this image into the dst pixmap, converting as needed into dst's
      *  colortype/alphatype. If the conversion cannot be performed, false is returned.
      *
      *  If dst's dimensions differ from the src dimension, the image will be scaled, applying the
      *  specified filter-quality.
      */
     bool scalePixels(const SkPixmap& dst, SkFilterQuality, CachingHint = kAllow_CachingHint) const;

     /**
      *  Encode the image's pixels and return the result as a new SkData, which
      *  the caller must manage (i.e. call unref() when they are done).
      *
      *  If the image type cannot be encoded, or the requested encoder type is
      *  not supported, this will return NULL.
      *
      *  Note: this will attempt to encode the image's pixels in the specified format,
      *  even if the image returns a data from refEncoded(). That data will be ignored.
      */
     SkData* encode(SkImageEncoder::Type, int quality) const;

     /**
      *  Encode the image and return the result as a caller-managed SkData.  This will
      *  attempt to reuse existing encoded data (as returned by refEncoded).
      *
      *  We defer to the SkPixelSerializer both for vetting existing encoded data
      *  (useEncodedData) and for encoding the image (encode) when no such data is
      *  present or is rejected by the serializer.
      *
      *  If not specified, we use a default serializer which 1) always accepts existing data
      *  (in any format) and 2) encodes to PNG.
      *
      *  If no compatible encoded data exists and encoding fails, this method will also
      *  fail (return NULL).
      */
     SkData* encode(SkPixelSerializer* = nullptr) const;

     /**
      *  If the image already has its contents in encoded form (e.g. PNG or JPEG), return a ref
      *  to that data (which the caller must call unref() on). The caller is responsible for calling
      *  unref on the data when they are done.
      *
      *  If the image does not already has its contents in encoded form, return NULL.
      *
      *  Note: to force the image to return its contents as encoded data, try calling encode(...).
      */
     SkData* refEncoded() const;

     const char* toString(SkString*) const;

     /**
      *  Return a new image that is a subset of this image. The underlying implementation may
      *  share the pixels, or it may make a copy.
      *
      *  If subset does not intersect the bounds of this image, or the copy/share cannot be made,
      *  NULL will be returned.
      */
     sk_sp<SkImage> makeSubset(const SkIRect& subset) const;

     /**
      *  Ensures that an image is backed by a texture (when GrContext is non-null). If no
      *  transformation is required, the returned image may be the same as this image. If the this
      *  image is from a different GrContext, this will fail.
      */
     sk_sp<SkImage> makeTextureImage(GrContext*) const;

     /**
      * If the image is texture-backed this will make a raster copy of it (or nullptr if reading back
      * the pixels fails). Otherwise, it returns the original image.
      */
     sk_sp<SkImage> makeNonTextureImage() const;
     /**
      *  Apply a given image filter to this image, and return the filtered result.
      *
      *  The subset represents the active portion of this image. The return value is similarly an
      *  SkImage, with an active subset (outSubset). This is usually used with texture-backed
      *  images, where the texture may be approx-match and thus larger than the required size.
      *
      *  clipBounds constrains the device-space extent of the image which may be produced to the
      *  given rect.
      *
      *  offset is the amount to translate the resulting image relative to the src when it is drawn.
      *  This is an out-param.
      *
      *  If the result image cannot be created, or the result would be transparent black, null
      *  is returned, in which case the offset and outSubset parameters should be ignored by the
      *  caller.
      */
     sk_sp<SkImage> makeWithFilter(const SkImageFilter* filter, const SkIRect& subset,
                                   const SkIRect& clipBounds, SkIRect* outSubset,
                                   SkIPoint* offset) const;

     /** Drawing params for which a deferred texture image data should be optimized. */
     struct DeferredTextureImageUsageParams {
         DeferredTextureImageUsageParams(const SkMatrix matrix, const SkFilterQuality quality,
                                         int preScaleMipLevel)
             : fMatrix(matrix), fQuality(quality), fPreScaleMipLevel(preScaleMipLevel) {}
         SkMatrix        fMatrix;
         SkFilterQuality fQuality;
         int             fPreScaleMipLevel;
     };

     /**
      * This method allows clients to capture the data necessary to turn a SkImage into a texture-
      * backed image. If the original image is codec-backed this will decode into a format optimized
      * for the context represented by the proxy. This method is thread safe with respect to the
      * GrContext whence the proxy came. Clients allocate and manage the storage of the deferred
      * texture data and control its lifetime. No cleanup is required, thus it is safe to simply free
      * the memory out from under the data.
      *
      * The same method is used both for getting the size necessary for pre-uploaded texture data
      * and for retrieving the data. The params array represents the set of draws over which to
      * optimize the pre-upload data.
      *
      * When called with a null buffer this returns the size that the client must allocate in order
      * to create deferred texture data for this image (or zero if this is an inappropriate
      * candidate). The buffer allocated by the client should be 8 byte aligned.
      *
      * When buffer is not null this fills in the deferred texture data for this image in the
      * provided buffer (assuming this is an appropriate candidate image and the buffer is
      * appropriately aligned). Upon success the size written is returned, otherwise 0.
      */
     size_t getDeferredTextureImageData(const GrContextThreadSafeProxy&,
                                        const DeferredTextureImageUsageParams[],
                                        int paramCnt,
                                        void* buffer,
                                        SkSourceGammaTreatment treatment =
                                        SkSourceGammaTreatment::kIgnore) const;

     /**
      * Returns a texture-backed image from data produced in SkImage::getDeferredTextureImageData.
      * The context must be the context that provided the proxy passed to
      * getDeferredTextureImageData.
      */
     static sk_sp<SkImage> MakeFromDeferredTextureImageData(GrContext*, const void*, SkBudgeted);

     // Helper functions to convert to SkBitmap

     enum LegacyBitmapMode {
         kRO_LegacyBitmapMode,
         kRW_LegacyBitmapMode,
     };

     /**
      *  Attempt to create a bitmap with the same pixels as the image. The result will always be
      *  a raster-backed bitmap (texture-backed bitmaps are DEPRECATED, and not supported here).
      *
      *  If the mode is kRO (read-only), the resulting bitmap will be marked as immutable.
      *
      *  On succcess, returns true. On failure, returns false and the bitmap parameter will be reset
      *  to empty.
      */
     bool asLegacyBitmap(SkBitmap*, LegacyBitmapMode) const;

     /**
      *  Returns true if the image is backed by an image-generator or other src that creates
      *  (and caches) its pixels / texture on-demand.
      */
     bool isLazyGenerated() const;


 #ifdef SK_SUPPORT_LEGACY_IMAGEFACTORY
     static SkImage* NewRasterCopy(const Info&, const void* pixels, size_t rowBytes,
                                   SkColorTable* ctable = nullptr);
     static SkImage* NewRasterData(const Info&, SkData* pixels, size_t rowBytes);
     static SkImage* NewFromRaster(const Info&, const void* pixels, size_t rowBytes,
                                   RasterReleaseProc, ReleaseContext);
     static SkImage* NewFromBitmap(const SkBitmap&);
     static SkImage* NewFromGenerator(SkImageGenerator*, const SkIRect* subset = nullptr);
     static SkImage* NewFromEncoded(SkData* encoded, const SkIRect* subset = nullptr);
     static SkImage* NewFromTexture(GrContext* ctx, const GrBackendTextureDesc& desc) {
         return NewFromTexture(ctx, desc, kPremul_SkAlphaType, nullptr, nullptr);
     }

     static SkImage* NewFromTexture(GrContext* ctx, const GrBackendTextureDesc& de, SkAlphaType at) {
         return NewFromTexture(ctx, de, at, nullptr, nullptr);
     }
     static SkImage* NewFromTexture(GrContext*, const GrBackendTextureDesc&, SkAlphaType,
                                    TextureReleaseProc, ReleaseContext);
     static SkImage* NewFromAdoptedTexture(GrContext*, const GrBackendTextureDesc&,
                                           SkAlphaType = kPremul_SkAlphaType);
     static SkImage* NewFromYUVTexturesCopy(GrContext*, SkYUVColorSpace,
                                            const GrBackendObject yuvTextureHandles[3],
                                            const SkISize yuvSizes[3],
                                            GrSurfaceOrigin);
     static SkImage* NewFromPicture(const SkPicture*, const SkISize& dimensions,
                                    const SkMatrix*, const SkPaint*);
     static SkImage* NewTextureFromPixmap(GrContext*, const SkPixmap&, SkBudgeted budgeted);
     static SkImage* NewFromDeferredTextureImageData(GrContext*, const void*, SkBudgeted);

     SkImage* newSubset(const SkIRect& subset) const { return this->makeSubset(subset).release(); }
     SkImage* newTextureImage(GrContext* ctx) const { return this->makeTextureImage(ctx).release(); }
 #endif

 protected:
     SkImage(int width, int height, uint32_t uniqueID);

 private:
     static sk_sp<SkImage> MakeTextureFromMipMap(GrContext*, const SkImageInfo&,
                                                 const GrMipLevel* texels, int mipLevelCount,
                                                 SkBudgeted, SkSourceGammaTreatment);

     const int       fWidth;
     const int       fHeight;
     const uint32_t  fUniqueID;

     typedef SkRefCnt 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 SkImage_DEFINED
	#define SkImage_DEFINED

	#include "SkFilterQuality.h"
	#include "SkImageInfo.h"
	#include "SkImageEncoder.h"
	#include "SkRefCnt.h"
	#include "SkScalar.h"
	#include "SkShader.h"

	class SkData;
	class SkCanvas;
	class SkColorTable;
	class SkImageGenerator;
	class SkPaint;
	class SkPicture;
	class SkPixelSerializer;
	class SkString;
	class SkSurface;
	class GrContext;
	class GrContextThreadSafeProxy;
	class GrTexture;

	/**
	* SkImage is an abstraction for drawing a rectagle of pixels, though the
	* particular type of image could be actually storing its data on the GPU, or
	* as drawing commands (picture or PDF or otherwise), ready to be played back
	* into another canvas.
	*
	* The content of SkImage is always immutable, though the actual storage may
	* change, if for example that image can be re-created via encoded data or
	* other means.
	*
	* SkImage always has a non-zero dimensions. If there is a request to create a new image, either
	* directly or via SkSurface, and either of the requested dimensions are zero, then NULL will be
	* returned.
	*/
	class SK_API SkImage : public SkRefCnt {
	public:
	typedef SkImageInfo Info;
	typedef void* ReleaseContext;

	static sk_sp<SkImage> MakeRasterCopy(const SkPixmap&);
	static sk_sp<SkImage> MakeRasterData(const Info&, sk_sp<SkData> pixels, size_t rowBytes);

	typedef void (RasterReleaseProc)(const void pixels, ReleaseContext);

	/**
	* Return a new Image referencing the specified pixels. These must remain valid and unchanged
	* until the specified release-proc is called, indicating that Skia no longer has a reference
	* to the pixels.
	*
	* Returns NULL if the requested pixmap info is unsupported.
	*/
	static sk_sp<SkImage> MakeFromRaster(const SkPixmap&, RasterReleaseProc, ReleaseContext);

	/**
	* Construct a new image from the specified bitmap. If the bitmap is marked immutable, and
	* its pixel memory is shareable, it may be shared instead of copied.
	*/
	static sk_sp<SkImage> MakeFromBitmap(const SkBitmap&);

	/**
	* Construct a new SkImage based on the given ImageGenerator. Returns NULL on error.
	* This function will always take ownership of the passed generator.
	*
	* If a subset is specified, it must be contained within the generator's bounds.
	*/
	static sk_sp<SkImage> MakeFromGenerator(SkImageGenerator, const SkIRect subset = nullptr);

	/**
	* Construct a new SkImage based on the specified encoded data. Returns NULL on failure,
	* which can mean that the format of the encoded data was not recognized/supported.
	*
	* If a subset is specified, it must be contained within the encoded data's bounds.
	*/
	static sk_sp<SkImage> MakeFromEncoded(sk_sp<SkData> encoded, const SkIRect* subset = nullptr);

	/**
	* Create a new image from the specified descriptor. Note - the caller is responsible for
	* managing the lifetime of the underlying platform texture.
	*
	* Will return NULL if the specified descriptor is unsupported.
	*/
	static sk_sp<SkImage> MakeFromTexture(GrContext* ctx, const GrBackendTextureDesc& desc) {
	return MakeFromTexture(ctx, desc, kPremul_SkAlphaType, nullptr, nullptr, nullptr);
	}

	static sk_sp<SkImage> MakeFromTexture(GrContext* ctx, const GrBackendTextureDesc& de,
	SkAlphaType at) {
	return MakeFromTexture(ctx, de, at, nullptr, nullptr, nullptr);
	}

	typedef void (*TextureReleaseProc)(ReleaseContext);

	/**
	* Create a new image from the specified descriptor. The underlying platform texture must stay
	* valid and unaltered until the specified release-proc is invoked, indicating that Skia
	* no longer is holding a reference to it.
	*
	* Will return NULL if the specified descriptor is unsupported.
	*/
	static sk_sp<SkImage> MakeFromTexture(GrContext* ctx, const GrBackendTextureDesc& desc,
	SkAlphaType at, TextureReleaseProc trp,
	ReleaseContext rc) {
	return MakeFromTexture(ctx, desc, at, nullptr, trp, rc);
	}

	/**
	* Create a new image from the specified descriptor. The underlying platform texture must stay
	* valid and unaltered until the specified release-proc is invoked, indicating that Skia
	* no longer is holding a reference to it.
	*
	* Will return NULL if the specified descriptor is unsupported.
	*/
	static sk_sp<SkImage> MakeFromTexture(GrContext*, const GrBackendTextureDesc&, SkAlphaType,
	sk_sp<SkColorSpace>, TextureReleaseProc, ReleaseContext);

	/**
	* Create a new image from the specified descriptor. Note - Skia will delete or recycle the
	* texture when the image is released.
	*
	* Will return NULL if the specified descriptor is unsupported.
	*/
	static sk_sp<SkImage> MakeFromAdoptedTexture(GrContext*, const GrBackendTextureDesc&,
	SkAlphaType = kPremul_SkAlphaType,
	sk_sp<SkColorSpace> = nullptr);

	/**
	* Create a new image by copying the pixels from the specified y, u, v textures. The data
	* from the textures is immediately ingested into the image and the textures can be modified or
	* deleted after the function returns. The image will have the dimensions of the y texture.
	*/
	static sk_sp<SkImage> MakeFromYUVTexturesCopy(GrContext*, SkYUVColorSpace,
	const GrBackendObject yuvTextureHandles[3],
	const SkISize yuvSizes[3],
	GrSurfaceOrigin,
	sk_sp<SkColorSpace> = nullptr);

	/**
	* Create a new image by copying the pixels from the specified y and uv textures. The data
	* from the textures is immediately ingested into the image and the textures can be modified or
	* deleted after the function returns. The image will have the dimensions of the y texture.
	*/
	static sk_sp<SkImage> MakeFromNV12TexturesCopy(GrContext*, SkYUVColorSpace,
	const GrBackendObject nv12TextureHandles[2],
	const SkISize nv12Sizes[2], GrSurfaceOrigin,
	sk_sp<SkColorSpace> = nullptr);

	static sk_sp<SkImage> MakeFromPicture(sk_sp<SkPicture>, const SkISize& dimensions,
	const SkMatrix, const SkPaint);

	static sk_sp<SkImage> MakeTextureFromPixmap(GrContext*, const SkPixmap&, SkBudgeted budgeted);

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

	int width() const { return fWidth; }
	int height() const { return fHeight; }
	SkISize dimensions() const { return SkISize::Make(fWidth, fHeight); }
	SkIRect bounds() const { return SkIRect::MakeWH(fWidth, fHeight); }
	uint32_t uniqueID() const { return fUniqueID; }
	SkAlphaType alphaType() const;
	bool isOpaque() const { return SkAlphaTypeIsOpaque(this->alphaType()); }

	/**
	* Extracts YUV planes from the SkImage and stores them in client-provided memory. The sizes
	* planes and rowBytes arrays are ordered [y, u, v].
	*/
	bool readYUV8Planes(const SkISize[3], void* const planes[3], const size_t rowBytes[3],
	SkYUVColorSpace) const;

	#ifdef SK_SUPPORT_LEGACY_CREATESHADER_PTR
	SkShader* newShader(SkShader::TileMode, SkShader::TileMode,
	const SkMatrix* localMatrix = nullptr) const;
	#endif

	sk_sp<SkShader> makeShader(SkShader::TileMode, SkShader::TileMode,
	const SkMatrix* localMatrix = nullptr) const;

	/**
	* If the image has direct access to its pixels (i.e. they are in local RAM)
	* return true, and if not null, return in the pixmap parameter the info about the
	* images pixels.
	*
	* On failure, return false and ignore the pixmap parameter.
	*/
	bool peekPixels(SkPixmap* pixmap) const;

	#ifdef SK_SUPPORT_LEGACY_PEEKPIXELS_PARMS
	/**
	* If the image has direct access to its pixels (i.e. they are in local
	* RAM) return the (const) address of those pixels, and if not null, return
	* the ImageInfo and rowBytes. The returned address is only valid while
	* the image object is in scope.
	*
	* On failure, returns NULL and the info and rowBytes parameters are
	* ignored.
	*
	* DEPRECATED -- use the SkPixmap variant instead
	*/
	const void* peekPixels(SkImageInfo* info, size_t* rowBytes) const;
	#endif

	/**
	* Some images have to perform preliminary work in preparation for drawing. This can be
	* decoding, uploading to a GPU, or other tasks. These happen automatically when an image
	* is drawn, and often they are cached so that the cost is only paid the first time.
	*
	* Preroll() can be called before drawing to try to perform this prepatory work ahead of time.
	* For images that have no such work, this returns instantly. Others may do some thing to
	* prepare their cache and then return.
	*
	* If the image will drawn to a GPU-backed canvas or surface, pass the associated GrContext.
	* If the image will be drawn to any other type of canvas or surface, pass null.
	*/
	void preroll(GrContext* = nullptr) const;

	// DEPRECATED - currently used by Canvas2DLayerBridge in Chromium.
	GrTexture* getTexture() const;

	/**
	* Returns true if the image is texture backed.
	*/
	bool isTextureBacked() const;

	/**
	* Retrieves the backend API handle of the texture. If flushPendingGrContextIO then the
	* GrContext will issue to the backend API any deferred IO operations on the texture before
	* returning.
	*/
	GrBackendObject getTextureHandle(bool flushPendingGrContextIO) const;

	/**
	* Hints to image calls where the system might cache computed intermediates (e.g. the results
	* of decoding or a read-back from the GPU. Passing kAllow signals that the system's default
	* behavior is fine. Passing kDisallow signals that caching should be avoided.
	*/
	enum CachingHint {
	kAllow_CachingHint,
	kDisallow_CachingHint,
	};

	/**
	* Copy the pixels from the image into the specified buffer (pixels + rowBytes),
	* converting them into the requested format (dstInfo). The image pixels are read
	* starting at the specified (srcX,srcY) location.
	*
	* The specified ImageInfo and (srcX,srcY) offset specifies a source rectangle
	*
	* srcR.setXYWH(srcX, srcY, dstInfo.width(), dstInfo.height());
	*
	* srcR is intersected with the bounds of the image. If this intersection is not empty,
	* then we have two sets of pixels (of equal size). Replace the dst pixels with the
	* corresponding src pixels, performing any colortype/alphatype transformations needed
	* (in the case where the src and dst have different colortypes or alphatypes).
	*
	* This call can fail, returning false, for several reasons:
	* - If srcR does not intersect the image bounds.
	* - If the requested colortype/alphatype cannot be converted from the image's types.
	*/
	bool readPixels(const SkImageInfo& dstInfo, void* dstPixels, size_t dstRowBytes,
	int srcX, int srcY, CachingHint = kAllow_CachingHint) const;

	bool readPixels(const SkPixmap& dst, int srcX, int srcY,
	CachingHint = kAllow_CachingHint) const;

	/**
	* Copy the pixels from this image into the dst pixmap, converting as needed into dst's
	* colortype/alphatype. If the conversion cannot be performed, false is returned.
	*
	* If dst's dimensions differ from the src dimension, the image will be scaled, applying the
	* specified filter-quality.
	*/
	bool scalePixels(const SkPixmap& dst, SkFilterQuality, CachingHint = kAllow_CachingHint) const;

	/**
	* Encode the image's pixels and return the result as a new SkData, which
	* the caller must manage (i.e. call unref() when they are done).
	*
	* If the image type cannot be encoded, or the requested encoder type is
	* not supported, this will return NULL.
	*
	* Note: this will attempt to encode the image's pixels in the specified format,
	* even if the image returns a data from refEncoded(). That data will be ignored.
	*/
	SkData* encode(SkImageEncoder::Type, int quality) const;

	/**
	* Encode the image and return the result as a caller-managed SkData. This will
	* attempt to reuse existing encoded data (as returned by refEncoded).
	*
	* We defer to the SkPixelSerializer both for vetting existing encoded data
	* (useEncodedData) and for encoding the image (encode) when no such data is
	* present or is rejected by the serializer.
	*
	* If not specified, we use a default serializer which 1) always accepts existing data
	* (in any format) and 2) encodes to PNG.
	*
	* If no compatible encoded data exists and encoding fails, this method will also
	* fail (return NULL).
	*/
	SkData* encode(SkPixelSerializer* = nullptr) const;

	/**
	* If the image already has its contents in encoded form (e.g. PNG or JPEG), return a ref
	* to that data (which the caller must call unref() on). The caller is responsible for calling
	* unref on the data when they are done.
	*
	* If the image does not already has its contents in encoded form, return NULL.
	*
	* Note: to force the image to return its contents as encoded data, try calling encode(...).
	*/
	SkData* refEncoded() const;

	const char* toString(SkString*) const;

	/**
	* Return a new image that is a subset of this image. The underlying implementation may
	* share the pixels, or it may make a copy.
	*
	* If subset does not intersect the bounds of this image, or the copy/share cannot be made,
	* NULL will be returned.
	*/
	sk_sp<SkImage> makeSubset(const SkIRect& subset) const;

	/**
	* Ensures that an image is backed by a texture (when GrContext is non-null). If no
	* transformation is required, the returned image may be the same as this image. If the this
	* image is from a different GrContext, this will fail.
	*/
	sk_sp<SkImage> makeTextureImage(GrContext*) const;

	/**
	* If the image is texture-backed this will make a raster copy of it (or nullptr if reading back
	* the pixels fails). Otherwise, it returns the original image.
	*/
	sk_sp<SkImage> makeNonTextureImage() const;
	/**
	* Apply a given image filter to this image, and return the filtered result.
	*
	* The subset represents the active portion of this image. The return value is similarly an
	* SkImage, with an active subset (outSubset). This is usually used with texture-backed
	* images, where the texture may be approx-match and thus larger than the required size.
	*
	* clipBounds constrains the device-space extent of the image which may be produced to the
	* given rect.
	*
	* offset is the amount to translate the resulting image relative to the src when it is drawn.
	* This is an out-param.
	*
	* If the result image cannot be created, or the result would be transparent black, null
	* is returned, in which case the offset and outSubset parameters should be ignored by the
	* caller.
	*/
	sk_sp<SkImage> makeWithFilter(const SkImageFilter* filter, const SkIRect& subset,
	const SkIRect& clipBounds, SkIRect* outSubset,
	SkIPoint* offset) const;

	/** Drawing params for which a deferred texture image data should be optimized. */
	struct DeferredTextureImageUsageParams {
	DeferredTextureImageUsageParams(const SkMatrix matrix, const SkFilterQuality quality,
	int preScaleMipLevel)
	: fMatrix(matrix), fQuality(quality), fPreScaleMipLevel(preScaleMipLevel) {}
	SkMatrix fMatrix;
	SkFilterQuality fQuality;
	int fPreScaleMipLevel;
	};

	/**
	* This method allows clients to capture the data necessary to turn a SkImage into a texture-
	* backed image. If the original image is codec-backed this will decode into a format optimized
	* for the context represented by the proxy. This method is thread safe with respect to the
	* GrContext whence the proxy came. Clients allocate and manage the storage of the deferred
	* texture data and control its lifetime. No cleanup is required, thus it is safe to simply free
	* the memory out from under the data.
	*
	* The same method is used both for getting the size necessary for pre-uploaded texture data
	* and for retrieving the data. The params array represents the set of draws over which to
	* optimize the pre-upload data.
	*
	* When called with a null buffer this returns the size that the client must allocate in order
	* to create deferred texture data for this image (or zero if this is an inappropriate
	* candidate). The buffer allocated by the client should be 8 byte aligned.
	*
	* When buffer is not null this fills in the deferred texture data for this image in the
	* provided buffer (assuming this is an appropriate candidate image and the buffer is
	* appropriately aligned). Upon success the size written is returned, otherwise 0.
	*/
	size_t getDeferredTextureImageData(const GrContextThreadSafeProxy&,
	const DeferredTextureImageUsageParams[],
	int paramCnt,
	void* buffer,
	SkSourceGammaTreatment treatment =
	SkSourceGammaTreatment::kIgnore) const;

	/**
	* Returns a texture-backed image from data produced in SkImage::getDeferredTextureImageData.
	* The context must be the context that provided the proxy passed to
	* getDeferredTextureImageData.
	*/
	static sk_sp<SkImage> MakeFromDeferredTextureImageData(GrContext, const void, SkBudgeted);

	// Helper functions to convert to SkBitmap

	enum LegacyBitmapMode {
	kRO_LegacyBitmapMode,
	kRW_LegacyBitmapMode,
	};

	/**
	* Attempt to create a bitmap with the same pixels as the image. The result will always be
	* a raster-backed bitmap (texture-backed bitmaps are DEPRECATED, and not supported here).
	*
	* If the mode is kRO (read-only), the resulting bitmap will be marked as immutable.
	*
	* On succcess, returns true. On failure, returns false and the bitmap parameter will be reset
	* to empty.
	*/
	bool asLegacyBitmap(SkBitmap*, LegacyBitmapMode) const;

	/**
	* Returns true if the image is backed by an image-generator or other src that creates
	* (and caches) its pixels / texture on-demand.
	*/
	bool isLazyGenerated() const;


	#ifdef SK_SUPPORT_LEGACY_IMAGEFACTORY
	static SkImage* NewRasterCopy(const Info&, const void* pixels, size_t rowBytes,
	SkColorTable* ctable = nullptr);
	static SkImage* NewRasterData(const Info&, SkData* pixels, size_t rowBytes);
	static SkImage* NewFromRaster(const Info&, const void* pixels, size_t rowBytes,
	RasterReleaseProc, ReleaseContext);
	static SkImage* NewFromBitmap(const SkBitmap&);
	static SkImage* NewFromGenerator(SkImageGenerator, const SkIRect subset = nullptr);
	static SkImage* NewFromEncoded(SkData* encoded, const SkIRect* subset = nullptr);
	static SkImage* NewFromTexture(GrContext* ctx, const GrBackendTextureDesc& desc) {
	return NewFromTexture(ctx, desc, kPremul_SkAlphaType, nullptr, nullptr);
	}

	static SkImage* NewFromTexture(GrContext* ctx, const GrBackendTextureDesc& de, SkAlphaType at) {
	return NewFromTexture(ctx, de, at, nullptr, nullptr);
	}
	static SkImage* NewFromTexture(GrContext*, const GrBackendTextureDesc&, SkAlphaType,
	TextureReleaseProc, ReleaseContext);
	static SkImage* NewFromAdoptedTexture(GrContext*, const GrBackendTextureDesc&,
	SkAlphaType = kPremul_SkAlphaType);
	static SkImage* NewFromYUVTexturesCopy(GrContext*, SkYUVColorSpace,
	const GrBackendObject yuvTextureHandles[3],
	const SkISize yuvSizes[3],
	GrSurfaceOrigin);
	static SkImage* NewFromPicture(const SkPicture*, const SkISize& dimensions,
	const SkMatrix, const SkPaint);
	static SkImage* NewTextureFromPixmap(GrContext*, const SkPixmap&, SkBudgeted budgeted);
	static SkImage* NewFromDeferredTextureImageData(GrContext, const void, SkBudgeted);

	SkImage* newSubset(const SkIRect& subset) const { return this->makeSubset(subset).release(); }
	SkImage* newTextureImage(GrContext* ctx) const { return this->makeTextureImage(ctx).release(); }
	#endif

	protected:
	SkImage(int width, int height, uint32_t uniqueID);

	private:
	static sk_sp<SkImage> MakeTextureFromMipMap(GrContext*, const SkImageInfo&,
	const GrMipLevel* texels, int mipLevelCount,
	SkBudgeted, SkSourceGammaTreatment);

	const int fWidth;
	const int fHeight;
	const uint32_t fUniqueID;

	typedef SkRefCnt INHERITED;
	};

	#endif