ppapi/c/ppb_graphics_2d.h - chromium/src - Git at Google

 /* Copyright (c) 2012 The Chromium Authors. All rights reserved.
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 /* From ppb_graphics_2d.idl modified Wed Apr 20 13:37:06 2016. */

 #ifndef PPAPI_C_PPB_GRAPHICS_2D_H_
 #define PPAPI_C_PPB_GRAPHICS_2D_H_

 #include "ppapi/c/pp_bool.h"
 #include "ppapi/c/pp_completion_callback.h"
 #include "ppapi/c/pp_instance.h"
 #include "ppapi/c/pp_macros.h"
 #include "ppapi/c/pp_point.h"
 #include "ppapi/c/pp_rect.h"
 #include "ppapi/c/pp_resource.h"
 #include "ppapi/c/pp_size.h"
 #include "ppapi/c/pp_stdint.h"

 #define PPB_GRAPHICS_2D_INTERFACE_1_0 "PPB_Graphics2D;1.0"
 #define PPB_GRAPHICS_2D_INTERFACE_1_1 "PPB_Graphics2D;1.1"
 #define PPB_GRAPHICS_2D_INTERFACE_1_2 "PPB_Graphics2D;1.2"
 #define PPB_GRAPHICS_2D_INTERFACE PPB_GRAPHICS_2D_INTERFACE_1_2

 /**
  * @file
  * Defines the <code>PPB_Graphics2D</code> struct representing a 2D graphics
  * context within the browser.
  */


 /**
  * @addtogroup Interfaces
  * @{
  */
 /**
  * <code>PPB_Graphics2D</code> defines the interface for a 2D graphics context.
  */
 struct PPB_Graphics2D_1_2 {
   /**
    * Create() creates a 2D graphics context. The returned graphics context will
    * not be bound to the module instance on creation (call BindGraphics() on
    * the module instance to bind the returned graphics context to the module
    * instance).
    *
    * @param[in] instance The module instance.
    * @param[in] size The size of the graphic context.
    * @param[in] is_always_opaque Set the <code>is_always_opaque</code> flag to
    * <code>PP_TRUE</code> if you know that you will be painting only opaque
    * data to this context. This option will disable blending when compositing
    * the module with the web page, which might give higher performance on some
    * computers.
    *
    * If you set <code>is_always_opaque</code>, your alpha channel should always
    * be set to 0xFF or there may be painting artifacts. The alpha values
    * overwrite the destination alpha values without blending when
    * <code>is_always_opaque</code> is true.
    *
    * @return A <code>PP_Resource</code> containing the 2D graphics context if
    * successful or 0 if unsuccessful.
    */
   PP_Resource (*Create)(PP_Instance instance,
                         const struct PP_Size* size,
                         PP_Bool is_always_opaque);
   /**
    * IsGraphics2D() determines if the given resource is a valid
    * <code>Graphics2D</code>.
    *
    * @param[in] resource A <code>Graphics2D</code> context resource.
    *
    * @return PP_TRUE if the given resource is a valid <code>Graphics2D</code>,
    * <code>PP_FALSE</code> if it is an invalid resource or is a resource of
    * another type.
    */
   PP_Bool (*IsGraphics2D)(PP_Resource resource);
   /**
    * Describe() retrieves the configuration for the given graphics context,
    * filling the given values (which must not be <code>NULL</code>).
    *
    * @param[in] resource The 2D Graphics resource.
    * @param[in,out] size The size of the 2D graphics context in the browser.
    * @param[in,out] is_always_opaque Identifies whether only opaque data
    * will be painted.
    *
    * @return Returns <code>PP_TRUE</code> on success or <code>PP_FALSE</code> if
    * the resource is invalid. The output parameters will be set to 0 on a
    * <code>PP_FALSE</code>.
    */
   PP_Bool (*Describe)(PP_Resource graphics_2d,
                       struct PP_Size* size,
                       PP_Bool* is_always_opaque);
   /**
    * PaintImageData() enqueues a paint of the given image into the context.
    * This function has no effect until you call Flush() As a result, what
    * counts is the contents of the bitmap when you call Flush(), not when
    * you call this function.
    *
    * The provided image will be placed at <code>top_left</code> from the top
    *  left of the context's internal backing store. Then the pixels contained
    * in <code>src_rect</code> will be copied into the backing store. This
    * means that the rectangle being painted will be at <code>src_rect</code>
    * offset by <code>top_left</code>.
    *
    * The <code>src_rect</code> is specified in the coordinate system of the
    * image being painted, not the context. For the common case of copying the
    * entire image, you may specify an empty <code>src_rect</code>.
    *
    * The painted area of the source bitmap must fall entirely within the
    * context. Attempting to paint outside of the context will result in an
    * error. However, the source bitmap may fall outside the context, as long
    * as the <code>src_rect</code> subset of it falls entirely within the
    * context.
    *
    * There are two methods most modules will use for painting. The first
    * method is to generate a new <code>ImageData</code> and then paint it. In
    * this case, you'll set the location of your painting to
    * <code>top_left</code> and set <code>src_rect</code> to <code>NULL</code>.
    * The second is that you're generating small invalid regions out of a larger
    * bitmap representing your entire instance. In this case, you would set the
    * location of your image to (0,0) and then set <code>src_rect</code> to the
    * pixels you changed.
    *
    * @param[in] resource The 2D Graphics resource.
    * @param[in] image The <code>ImageData</code> to be painted.
    * @param[in] top_left A <code>Point</code> representing the
    * <code>top_left</code> location where the <code>ImageData</code> will be
    * painted.
    * @param[in] src_rect The rectangular area where the <code>ImageData</code>
    * will be painted.
    */
   void (*PaintImageData)(PP_Resource graphics_2d,
                          PP_Resource image_data,
                          const struct PP_Point* top_left,
                          const struct PP_Rect* src_rect);
   /**
    * Scroll() enqueues a scroll of the context's backing store. This
    * function has no effect until you call Flush(). The data within the
    * provided clipping rectangle will be shifted by (dx, dy) pixels.
    *
    * This function will result in some exposed region which will have undefined
    * contents. The module should call PaintImageData() on these exposed regions
    * to give the correct contents.
    *
    * The scroll can be larger than the area of the clipping rectangle, which
    * means the current image will be scrolled out of the rectangle. This
    * scenario is not an error but will result in a no-op.
    *
    * @param[in] graphics_2d The 2D Graphics resource.
    * @param[in] clip The clipping rectangle.
    * @param[in] amount The amount the area in the clipping rectangle will
    * shifted.
    */
   void (*Scroll)(PP_Resource graphics_2d,
                  const struct PP_Rect* clip_rect,
                  const struct PP_Point* amount);
   /**
    * ReplaceContents() provides a slightly more efficient way to paint the
    * entire module's image. Normally, calling PaintImageData() requires that
    * the browser copy the pixels out of the image and into the graphics
    * context's backing store. This function replaces the graphics context's
    * backing store with the given image, avoiding the copy.
    *
    * The new image must be the exact same size as this graphics context. If the
    * new image uses a different image format than the browser's native bitmap
    * format (use <code>PPB_ImageData.GetNativeImageDataFormat()</code> to
    * retrieve the format), then a conversion will be done inside the browser
    * which may slow the performance a little bit.
    *
    * <strong>Note:</strong> The new image will not be painted until you call
    * Flush().
    *
    * After this call, you should take care to release your references to the
    * image. If you paint to the image after ReplaceContents(), there is the
    * possibility of significant painting artifacts because the page might use
    * partially-rendered data when copying out of the backing store.
    *
    * In the case of an animation, you will want to allocate a new image for the
    * next frame. It is best if you wait until the flush callback has executed
    * before allocating this bitmap. This gives the browser the option of
    * caching the previous backing store and handing it back to you (assuming
    * the sizes match). In the optimal case, this means no bitmaps are allocated
    * during the animation, and the backing store and "front buffer" (which the
    * plugin is painting into) are just being swapped back and forth.
    *
    * @param[in] graphics_2d The 2D Graphics resource.
    * @param[in] image The <code>ImageData</code> to be painted.
    */
   void (*ReplaceContents)(PP_Resource graphics_2d, PP_Resource image_data);
   /**
    * Flush() flushes any enqueued paint, scroll, and replace commands to the
    * backing store. This function actually executes the updates, and causes a
    * repaint of the webpage, assuming this graphics context is bound to a module
    * instance.
    *
    * Flush() runs in asynchronous mode. Specify a callback function and the
    * argument for that callback function. The callback function will be
    * executed on the calling thread when the image has been painted to the
    * screen. While you are waiting for a flush callback, additional calls to
    * Flush() will fail.
    *
    * Because the callback is executed (or thread unblocked) only when the
    * instance's image is actually on the screen, this function provides
    * a way to rate limit animations. By waiting until the image is on the
    * screen before painting the next frame, you can ensure you're not
    * flushing 2D graphics faster than the screen can be updated.
    *
    * <strong>Unbound contexts</strong>
    * If the context is not bound to a module instance, you will
    * still get a callback. The callback will execute after Flush() returns
    * to avoid reentrancy. The callback will not wait until anything is
    * painted to the screen because there will be nothing on the screen. The
    * timing of this callback is not guaranteed and may be deprioritized by
    * the browser because it is not affecting the user experience.
    *
    * <strong>Off-screen instances</strong>
    * If the context is bound to an instance that is currently not visible (for
    * example, scrolled out of view) it will behave like the "unbound context"
    * case.
    *
    * <strong>Detaching a context</strong>
    * If you detach a context from a module instance, any pending flush
    * callbacks will be converted into the "unbound context" case.
    *
    * <strong>Released contexts</strong>
    * A callback may or may not get called even if you have released all
    * of your references to the context. This scenario can occur if there are
    * internal references to the context suggesting it has not been internally
    * destroyed (for example, if it is still bound to an instance) or due to
    * other implementation details. As a result, you should be careful to
    * check that flush callbacks are for the context you expect and that
    * you're capable of handling callbacks for unreferenced contexts.
    *
    * <strong>Shutdown</strong>
    * If a module instance is removed when a flush is pending, the
    * callback will not be executed.
    *
    * @param[in] graphics_2d The 2D Graphics resource.
    * @param[in] callback A <code>CompletionCallback</code> to be called when
    * the image has been painted on the screen.
    *
    * @return Returns <code>PP_OK</code> on success or
    * <code>PP_ERROR_BADRESOURCE</code> if the graphics context is invalid,
    * <code>PP_ERROR_BADARGUMENT</code> if the callback is null and flush is
    * being called from the main thread of the module, or
    * <code>PP_ERROR_INPROGRESS</code> if a flush is already pending that has
    * not issued its callback yet.  In the failure case, nothing will be updated
    * and no callback will be scheduled.
    */
   int32_t (*Flush)(PP_Resource graphics_2d,
                    struct PP_CompletionCallback callback);
   /**
    * SetScale() sets the scale factor that will be applied when painting the
    * graphics context onto the output device. Typically, if rendering at device
    * resolution is desired, the context would be created with the width and
    * height scaled up by the view's GetDeviceScale and SetScale called with a
    * scale of 1.0 / GetDeviceScale(). For example, if the view resource passed
    * to DidChangeView has a rectangle of (w=200, h=100) and a device scale of
    * 2.0, one would call Create with a size of (w=400, h=200) and then call
    * SetScale with 0.5. One would then treat each pixel in the context as a
    * single device pixel.
    *
    * @param[in] resource A <code>Graphics2D</code> context resource.
    * @param[in] scale The scale to apply when painting.
    *
    * @return Returns <code>PP_TRUE</code> on success or <code>PP_FALSE</code> if
    * the resource is invalid or the scale factor is 0 or less.
    */
   PP_Bool (*SetScale)(PP_Resource resource, float scale);
   /***
    * GetScale() gets the scale factor that will be applied when painting the
    * graphics context onto the output device.
    *
    * @param[in] resource A <code>Graphics2D</code> context resource.
    *
    * @return Returns the scale factor for the graphics context. If the resource
    * is not a valid <code>Graphics2D</code> context, this will return 0.0.
    */
   float (*GetScale)(PP_Resource resource);
   /**
    * SetLayerTransform() sets a transformation factor that will be applied for
    * the current graphics context displayed on the output device.  If both
    * SetScale and SetLayerTransform will be used, they are going to get combined
    * for the final result.
    *
    * This function has no effect until you call Flush().
    *
    * @param[in] scale The scale to be applied.
    * @param[in] origin The origin of the scale.
    * @param[in] translate The translation to be applied.
    *
    * @return Returns <code>PP_TRUE</code> on success or <code>PP_FALSE</code>
    * if the resource is invalid or the scale factor is 0 or less.
    */
   PP_Bool (*SetLayerTransform)(PP_Resource resource,
                                float scale,
                                const struct PP_Point* origin,
                                const struct PP_Point* translate);
 };

 typedef struct PPB_Graphics2D_1_2 PPB_Graphics2D;

 struct PPB_Graphics2D_1_0 {
   PP_Resource (*Create)(PP_Instance instance,
                         const struct PP_Size* size,
                         PP_Bool is_always_opaque);
   PP_Bool (*IsGraphics2D)(PP_Resource resource);
   PP_Bool (*Describe)(PP_Resource graphics_2d,
                       struct PP_Size* size,
                       PP_Bool* is_always_opaque);
   void (*PaintImageData)(PP_Resource graphics_2d,
                          PP_Resource image_data,
                          const struct PP_Point* top_left,
                          const struct PP_Rect* src_rect);
   void (*Scroll)(PP_Resource graphics_2d,
                  const struct PP_Rect* clip_rect,
                  const struct PP_Point* amount);
   void (*ReplaceContents)(PP_Resource graphics_2d, PP_Resource image_data);
   int32_t (*Flush)(PP_Resource graphics_2d,
                    struct PP_CompletionCallback callback);
 };

 struct PPB_Graphics2D_1_1 {
   PP_Resource (*Create)(PP_Instance instance,
                         const struct PP_Size* size,
                         PP_Bool is_always_opaque);
   PP_Bool (*IsGraphics2D)(PP_Resource resource);
   PP_Bool (*Describe)(PP_Resource graphics_2d,
                       struct PP_Size* size,
                       PP_Bool* is_always_opaque);
   void (*PaintImageData)(PP_Resource graphics_2d,
                          PP_Resource image_data,
                          const struct PP_Point* top_left,
                          const struct PP_Rect* src_rect);
   void (*Scroll)(PP_Resource graphics_2d,
                  const struct PP_Rect* clip_rect,
                  const struct PP_Point* amount);
   void (*ReplaceContents)(PP_Resource graphics_2d, PP_Resource image_data);
   int32_t (*Flush)(PP_Resource graphics_2d,
                    struct PP_CompletionCallback callback);
   PP_Bool (*SetScale)(PP_Resource resource, float scale);
   float (*GetScale)(PP_Resource resource);
 };
 /**
  * @}
  */

 #endif  /* PPAPI_C_PPB_GRAPHICS_2D_H_ */
	/* Copyright (c) 2012 The Chromium Authors. All rights reserved.
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	/* From ppb_graphics_2d.idl modified Wed Apr 20 13:37:06 2016. */

	#ifndef PPAPI_C_PPB_GRAPHICS_2D_H_
	#define PPAPI_C_PPB_GRAPHICS_2D_H_

	#include "ppapi/c/pp_bool.h"
	#include "ppapi/c/pp_completion_callback.h"
	#include "ppapi/c/pp_instance.h"
	#include "ppapi/c/pp_macros.h"
	#include "ppapi/c/pp_point.h"
	#include "ppapi/c/pp_rect.h"
	#include "ppapi/c/pp_resource.h"
	#include "ppapi/c/pp_size.h"
	#include "ppapi/c/pp_stdint.h"

	#define PPB_GRAPHICS_2D_INTERFACE_1_0 "PPB_Graphics2D;1.0"
	#define PPB_GRAPHICS_2D_INTERFACE_1_1 "PPB_Graphics2D;1.1"
	#define PPB_GRAPHICS_2D_INTERFACE_1_2 "PPB_Graphics2D;1.2"
	#define PPB_GRAPHICS_2D_INTERFACE PPB_GRAPHICS_2D_INTERFACE_1_2

	/**
	* @file
	* Defines the <code>PPB_Graphics2D</code> struct representing a 2D graphics
	* context within the browser.
	*/


	/**
	* @addtogroup Interfaces
	* @{
	*/
	/**
	* <code>PPB_Graphics2D</code> defines the interface for a 2D graphics context.
	*/
	struct PPB_Graphics2D_1_2 {
	/**
	* Create() creates a 2D graphics context. The returned graphics context will
	* not be bound to the module instance on creation (call BindGraphics() on
	* the module instance to bind the returned graphics context to the module
	* instance).
	*
	* @param[in] instance The module instance.
	* @param[in] size The size of the graphic context.
	* @param[in] is_always_opaque Set the <code>is_always_opaque</code> flag to
	* <code>PP_TRUE</code> if you know that you will be painting only opaque
	* data to this context. This option will disable blending when compositing
	* the module with the web page, which might give higher performance on some
	* computers.
	*
	* If you set <code>is_always_opaque</code>, your alpha channel should always
	* be set to 0xFF or there may be painting artifacts. The alpha values
	* overwrite the destination alpha values without blending when
	* <code>is_always_opaque</code> is true.
	*
	* @return A <code>PP_Resource</code> containing the 2D graphics context if
	* successful or 0 if unsuccessful.
	*/
	PP_Resource (*Create)(PP_Instance instance,
	const struct PP_Size* size,
	PP_Bool is_always_opaque);
	/**
	* IsGraphics2D() determines if the given resource is a valid
	* <code>Graphics2D</code>.
	*
	* @param[in] resource A <code>Graphics2D</code> context resource.
	*
	* @return PP_TRUE if the given resource is a valid <code>Graphics2D</code>,
	* <code>PP_FALSE</code> if it is an invalid resource or is a resource of
	* another type.
	*/
	PP_Bool (*IsGraphics2D)(PP_Resource resource);
	/**
	* Describe() retrieves the configuration for the given graphics context,
	* filling the given values (which must not be <code>NULL</code>).
	*
	* @param[in] resource The 2D Graphics resource.
	* @param[in,out] size The size of the 2D graphics context in the browser.
	* @param[in,out] is_always_opaque Identifies whether only opaque data
	* will be painted.
	*
	* @return Returns <code>PP_TRUE</code> on success or <code>PP_FALSE</code> if
	* the resource is invalid. The output parameters will be set to 0 on a
	* <code>PP_FALSE</code>.
	*/
	PP_Bool (*Describe)(PP_Resource graphics_2d,
	struct PP_Size* size,
	PP_Bool* is_always_opaque);
	/**
	* PaintImageData() enqueues a paint of the given image into the context.
	* This function has no effect until you call Flush() As a result, what
	* counts is the contents of the bitmap when you call Flush(), not when
	* you call this function.
	*
	* The provided image will be placed at <code>top_left</code> from the top
	* left of the context's internal backing store. Then the pixels contained
	* in <code>src_rect</code> will be copied into the backing store. This
	* means that the rectangle being painted will be at <code>src_rect</code>
	* offset by <code>top_left</code>.
	*
	* The <code>src_rect</code> is specified in the coordinate system of the
	* image being painted, not the context. For the common case of copying the
	* entire image, you may specify an empty <code>src_rect</code>.
	*
	* The painted area of the source bitmap must fall entirely within the
	* context. Attempting to paint outside of the context will result in an
	* error. However, the source bitmap may fall outside the context, as long
	* as the <code>src_rect</code> subset of it falls entirely within the
	* context.
	*
	* There are two methods most modules will use for painting. The first
	* method is to generate a new <code>ImageData</code> and then paint it. In
	* this case, you'll set the location of your painting to
	* <code>top_left</code> and set <code>src_rect</code> to <code>NULL</code>.
	* The second is that you're generating small invalid regions out of a larger
	* bitmap representing your entire instance. In this case, you would set the
	* location of your image to (0,0) and then set <code>src_rect</code> to the
	* pixels you changed.
	*
	* @param[in] resource The 2D Graphics resource.
	* @param[in] image The <code>ImageData</code> to be painted.
	* @param[in] top_left A <code>Point</code> representing the
	* <code>top_left</code> location where the <code>ImageData</code> will be
	* painted.
	* @param[in] src_rect The rectangular area where the <code>ImageData</code>
	* will be painted.
	*/
	void (*PaintImageData)(PP_Resource graphics_2d,
	PP_Resource image_data,
	const struct PP_Point* top_left,
	const struct PP_Rect* src_rect);
	/**
	* Scroll() enqueues a scroll of the context's backing store. This
	* function has no effect until you call Flush(). The data within the
	* provided clipping rectangle will be shifted by (dx, dy) pixels.
	*
	* This function will result in some exposed region which will have undefined
	* contents. The module should call PaintImageData() on these exposed regions
	* to give the correct contents.
	*
	* The scroll can be larger than the area of the clipping rectangle, which
	* means the current image will be scrolled out of the rectangle. This
	* scenario is not an error but will result in a no-op.
	*
	* @param[in] graphics_2d The 2D Graphics resource.
	* @param[in] clip The clipping rectangle.
	* @param[in] amount The amount the area in the clipping rectangle will
	* shifted.
	*/
	void (*Scroll)(PP_Resource graphics_2d,
	const struct PP_Rect* clip_rect,
	const struct PP_Point* amount);
	/**
	* ReplaceContents() provides a slightly more efficient way to paint the
	* entire module's image. Normally, calling PaintImageData() requires that
	* the browser copy the pixels out of the image and into the graphics
	* context's backing store. This function replaces the graphics context's
	* backing store with the given image, avoiding the copy.
	*
	* The new image must be the exact same size as this graphics context. If the
	* new image uses a different image format than the browser's native bitmap
	* format (use <code>PPB_ImageData.GetNativeImageDataFormat()</code> to
	* retrieve the format), then a conversion will be done inside the browser
	* which may slow the performance a little bit.
	*
	* <strong>Note:</strong> The new image will not be painted until you call
	* Flush().
	*
	* After this call, you should take care to release your references to the
	* image. If you paint to the image after ReplaceContents(), there is the
	* possibility of significant painting artifacts because the page might use
	* partially-rendered data when copying out of the backing store.
	*
	* In the case of an animation, you will want to allocate a new image for the
	* next frame. It is best if you wait until the flush callback has executed
	* before allocating this bitmap. This gives the browser the option of
	* caching the previous backing store and handing it back to you (assuming
	* the sizes match). In the optimal case, this means no bitmaps are allocated
	* during the animation, and the backing store and "front buffer" (which the
	* plugin is painting into) are just being swapped back and forth.
	*
	* @param[in] graphics_2d The 2D Graphics resource.
	* @param[in] image The <code>ImageData</code> to be painted.
	*/
	void (*ReplaceContents)(PP_Resource graphics_2d, PP_Resource image_data);
	/**
	* Flush() flushes any enqueued paint, scroll, and replace commands to the
	* backing store. This function actually executes the updates, and causes a
	* repaint of the webpage, assuming this graphics context is bound to a module
	* instance.
	*
	* Flush() runs in asynchronous mode. Specify a callback function and the
	* argument for that callback function. The callback function will be
	* executed on the calling thread when the image has been painted to the
	* screen. While you are waiting for a flush callback, additional calls to
	* Flush() will fail.
	*
	* Because the callback is executed (or thread unblocked) only when the
	* instance's image is actually on the screen, this function provides
	* a way to rate limit animations. By waiting until the image is on the
	* screen before painting the next frame, you can ensure you're not
	* flushing 2D graphics faster than the screen can be updated.
	*
	* <strong>Unbound contexts</strong>
	* If the context is not bound to a module instance, you will
	* still get a callback. The callback will execute after Flush() returns
	* to avoid reentrancy. The callback will not wait until anything is
	* painted to the screen because there will be nothing on the screen. The
	* timing of this callback is not guaranteed and may be deprioritized by
	* the browser because it is not affecting the user experience.
	*
	* <strong>Off-screen instances</strong>
	* If the context is bound to an instance that is currently not visible (for
	* example, scrolled out of view) it will behave like the "unbound context"
	* case.
	*
	* <strong>Detaching a context</strong>
	* If you detach a context from a module instance, any pending flush
	* callbacks will be converted into the "unbound context" case.
	*
	* <strong>Released contexts</strong>
	* A callback may or may not get called even if you have released all
	* of your references to the context. This scenario can occur if there are
	* internal references to the context suggesting it has not been internally
	* destroyed (for example, if it is still bound to an instance) or due to
	* other implementation details. As a result, you should be careful to
	* check that flush callbacks are for the context you expect and that
	* you're capable of handling callbacks for unreferenced contexts.
	*
	* <strong>Shutdown</strong>
	* If a module instance is removed when a flush is pending, the
	* callback will not be executed.
	*
	* @param[in] graphics_2d The 2D Graphics resource.
	* @param[in] callback A <code>CompletionCallback</code> to be called when
	* the image has been painted on the screen.
	*
	* @return Returns <code>PP_OK</code> on success or
	* <code>PP_ERROR_BADRESOURCE</code> if the graphics context is invalid,
	* <code>PP_ERROR_BADARGUMENT</code> if the callback is null and flush is
	* being called from the main thread of the module, or
	* <code>PP_ERROR_INPROGRESS</code> if a flush is already pending that has
	* not issued its callback yet. In the failure case, nothing will be updated
	* and no callback will be scheduled.
	*/
	int32_t (*Flush)(PP_Resource graphics_2d,
	struct PP_CompletionCallback callback);
	/**
	* SetScale() sets the scale factor that will be applied when painting the
	* graphics context onto the output device. Typically, if rendering at device
	* resolution is desired, the context would be created with the width and
	* height scaled up by the view's GetDeviceScale and SetScale called with a
	* scale of 1.0 / GetDeviceScale(). For example, if the view resource passed
	* to DidChangeView has a rectangle of (w=200, h=100) and a device scale of
	* 2.0, one would call Create with a size of (w=400, h=200) and then call
	* SetScale with 0.5. One would then treat each pixel in the context as a
	* single device pixel.
	*
	* @param[in] resource A <code>Graphics2D</code> context resource.
	* @param[in] scale The scale to apply when painting.
	*
	* @return Returns <code>PP_TRUE</code> on success or <code>PP_FALSE</code> if
	* the resource is invalid or the scale factor is 0 or less.
	*/
	PP_Bool (*SetScale)(PP_Resource resource, float scale);
	/***
	* GetScale() gets the scale factor that will be applied when painting the
	* graphics context onto the output device.
	*
	* @param[in] resource A <code>Graphics2D</code> context resource.
	*
	* @return Returns the scale factor for the graphics context. If the resource
	* is not a valid <code>Graphics2D</code> context, this will return 0.0.
	*/
	float (*GetScale)(PP_Resource resource);
	/**
	* SetLayerTransform() sets a transformation factor that will be applied for
	* the current graphics context displayed on the output device. If both
	* SetScale and SetLayerTransform will be used, they are going to get combined
	* for the final result.
	*
	* This function has no effect until you call Flush().
	*
	* @param[in] scale The scale to be applied.
	* @param[in] origin The origin of the scale.
	* @param[in] translate The translation to be applied.
	*
	* @return Returns <code>PP_TRUE</code> on success or <code>PP_FALSE</code>
	* if the resource is invalid or the scale factor is 0 or less.
	*/
	PP_Bool (*SetLayerTransform)(PP_Resource resource,
	float scale,
	const struct PP_Point* origin,
	const struct PP_Point* translate);
	};

	typedef struct PPB_Graphics2D_1_2 PPB_Graphics2D;

	struct PPB_Graphics2D_1_0 {
	PP_Resource (*Create)(PP_Instance instance,
	const struct PP_Size* size,
	PP_Bool is_always_opaque);
	PP_Bool (*IsGraphics2D)(PP_Resource resource);
	PP_Bool (*Describe)(PP_Resource graphics_2d,
	struct PP_Size* size,
	PP_Bool* is_always_opaque);
	void (*PaintImageData)(PP_Resource graphics_2d,
	PP_Resource image_data,
	const struct PP_Point* top_left,
	const struct PP_Rect* src_rect);
	void (*Scroll)(PP_Resource graphics_2d,
	const struct PP_Rect* clip_rect,
	const struct PP_Point* amount);
	void (*ReplaceContents)(PP_Resource graphics_2d, PP_Resource image_data);
	int32_t (*Flush)(PP_Resource graphics_2d,
	struct PP_CompletionCallback callback);
	};

	struct PPB_Graphics2D_1_1 {
	PP_Resource (*Create)(PP_Instance instance,
	const struct PP_Size* size,
	PP_Bool is_always_opaque);
	PP_Bool (*IsGraphics2D)(PP_Resource resource);
	PP_Bool (*Describe)(PP_Resource graphics_2d,
	struct PP_Size* size,
	PP_Bool* is_always_opaque);
	void (*PaintImageData)(PP_Resource graphics_2d,
	PP_Resource image_data,
	const struct PP_Point* top_left,
	const struct PP_Rect* src_rect);
	void (*Scroll)(PP_Resource graphics_2d,
	const struct PP_Rect* clip_rect,
	const struct PP_Point* amount);
	void (*ReplaceContents)(PP_Resource graphics_2d, PP_Resource image_data);
	int32_t (*Flush)(PP_Resource graphics_2d,
	struct PP_CompletionCallback callback);
	PP_Bool (*SetScale)(PP_Resource resource, float scale);
	float (*GetScale)(PP_Resource resource);
	};
	/**
	* @}
	*/

	#endif /* PPAPI_C_PPB_GRAPHICS_2D_H_ */