include/gpu/GrRenderTarget.h - skia - Git at Google

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

 #ifndef GrRenderTarget_DEFINED
 #define GrRenderTarget_DEFINED

 #include "GrSurface.h"
 #include "SkRect.h"

 class GrCaps;
 class GrRenderTargetOpList;
 class GrRenderTargetPriv;
 class GrStencilAttachment;

 /**
  * GrRenderTarget represents a 2D buffer of pixels that can be rendered to.
  * A context's render target is set by setRenderTarget(). Render targets are
  * created by a createTexture with the kRenderTarget_SurfaceFlag flag.
  * Additionally, GrContext provides methods for creating GrRenderTargets
  * that wrap externally created render targets.
  */
 class GrRenderTarget : virtual public GrSurface {
 public:
     // GrSurface overrides
     GrRenderTarget* asRenderTarget() override { return this; }
     const GrRenderTarget* asRenderTarget() const  override { return this; }

     // GrRenderTarget
     bool isStencilBufferMultisampled() const { return fDesc.fSampleCnt > 0; }

     /**
      * For our purposes, "Mixed Sampled" means the stencil buffer is multisampled but the color
      * buffer is not.
      */
     bool isMixedSampled() const { return fFlags & Flags::kMixedSampled; }

     /**
      * "Unified Sampled" means the stencil and color buffers are both multisampled.
      */
     bool isUnifiedMultisampled() const { return fDesc.fSampleCnt > 0 && !this->isMixedSampled(); }

     /**
      * Returns the number of samples/pixel in the stencil buffer (Zero if non-MSAA).
      */
     int numStencilSamples() const { return fDesc.fSampleCnt; }

     /**
      * Returns the number of samples/pixel in the color buffer (Zero if non-MSAA or mixed sampled).
      */
     int numColorSamples() const { return this->isMixedSampled() ? 0 : fDesc.fSampleCnt; }

     /**
      * Call to indicate the multisample contents were modified such that the
      * render target needs to be resolved before it can be used as texture. Gr
      * tracks this for its own drawing and thus this only needs to be called
      * when the render target has been modified outside of Gr. This has no
      * effect on wrapped backend render targets.
      *
      * @param rect  a rect bounding the area needing resolve. NULL indicates
      *              the whole RT needs resolving.
      */
     void flagAsNeedingResolve(const SkIRect* rect = NULL);

     /**
      * Call to override the region that needs to be resolved.
      */
     void overrideResolveRect(const SkIRect rect);

     /**
      * Call to indicate that GrRenderTarget was externally resolved. This may
      * allow Gr to skip a redundant resolve step.
      */
     void flagAsResolved() { fResolveRect.setLargestInverted(); }

     /**
      * @return true if the GrRenderTarget requires MSAA resolving
      */
     bool needsResolve() const { return !fResolveRect.isEmpty(); }

     /**
      * Returns a rect bounding the region needing resolving.
      */
     const SkIRect& getResolveRect() const { return fResolveRect; }

     /**
      * Provide a performance hint that the render target's contents are allowed
      * to become undefined.
      */
     void discard();

     // a MSAA RT may require explicit resolving , it may auto-resolve (e.g. FBO
     // 0 in GL), or be unresolvable because the client didn't give us the
     // resolve destination.
     enum ResolveType {
         kCanResolve_ResolveType,
         kAutoResolves_ResolveType,
         kCantResolve_ResolveType,
     };
     virtual ResolveType getResolveType() const = 0;

     /**
      *  Return the native ID or handle to the rendertarget, depending on the
      *  platform. e.g. on OpenGL, return the FBO ID.
      */
     virtual GrBackendObject getRenderTargetHandle() const = 0;

     // Checked when this object is asked to attach a stencil buffer.
     virtual bool canAttemptStencilAttachment() const = 0;

     // Provides access to functions that aren't part of the public API.
     GrRenderTargetPriv renderTargetPriv();
     const GrRenderTargetPriv renderTargetPriv() const;

 protected:
     enum class Flags {
         kNone                = 0,
         kMixedSampled        = 1 << 0,
         kWindowRectsSupport  = 1 << 1
     };

     GR_DECL_BITFIELD_CLASS_OPS_FRIENDS(Flags);

     GrRenderTarget(GrGpu*, const GrSurfaceDesc&, Flags = Flags::kNone,
                    GrStencilAttachment* = nullptr);

     // override of GrResource
     void onAbandon() override;
     void onRelease() override;

 private:
     // Allows the backends to perform any additional work that is required for attaching a
     // GrStencilAttachment. When this is called, the GrStencilAttachment has already been put onto
     // the GrRenderTarget. This function must return false if any failures occur when completing the
     // stencil attachment.
     virtual bool completeStencilAttachment() = 0;

     friend class GrRenderTargetPriv;
     friend class GrRenderTargetProxy; // for Flags

     GrStencilAttachment*  fStencilAttachment;
     uint8_t               fMultisampleSpecsID;
     Flags                 fFlags;

     SkIRect               fResolveRect;

     typedef GrSurface INHERITED;
 };

 GR_MAKE_BITFIELD_CLASS_OPS(GrRenderTarget::Flags);

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

	#ifndef GrRenderTarget_DEFINED
	#define GrRenderTarget_DEFINED

	#include "GrSurface.h"
	#include "SkRect.h"

	class GrCaps;
	class GrRenderTargetOpList;
	class GrRenderTargetPriv;
	class GrStencilAttachment;

	/**
	* GrRenderTarget represents a 2D buffer of pixels that can be rendered to.
	* A context's render target is set by setRenderTarget(). Render targets are
	* created by a createTexture with the kRenderTarget_SurfaceFlag flag.
	* Additionally, GrContext provides methods for creating GrRenderTargets
	* that wrap externally created render targets.
	*/
	class GrRenderTarget : virtual public GrSurface {
	public:
	// GrSurface overrides
	GrRenderTarget* asRenderTarget() override { return this; }
	const GrRenderTarget* asRenderTarget() const override { return this; }

	// GrRenderTarget
	bool isStencilBufferMultisampled() const { return fDesc.fSampleCnt > 0; }

	/**
	* For our purposes, "Mixed Sampled" means the stencil buffer is multisampled but the color
	* buffer is not.
	*/
	bool isMixedSampled() const { return fFlags & Flags::kMixedSampled; }

	/**
	* "Unified Sampled" means the stencil and color buffers are both multisampled.
	*/
	bool isUnifiedMultisampled() const { return fDesc.fSampleCnt > 0 && !this->isMixedSampled(); }

	/**
	* Returns the number of samples/pixel in the stencil buffer (Zero if non-MSAA).
	*/
	int numStencilSamples() const { return fDesc.fSampleCnt; }

	/**
	* Returns the number of samples/pixel in the color buffer (Zero if non-MSAA or mixed sampled).
	*/
	int numColorSamples() const { return this->isMixedSampled() ? 0 : fDesc.fSampleCnt; }

	/**
	* Call to indicate the multisample contents were modified such that the
	* render target needs to be resolved before it can be used as texture. Gr
	* tracks this for its own drawing and thus this only needs to be called
	* when the render target has been modified outside of Gr. This has no
	* effect on wrapped backend render targets.
	*
	* @param rect a rect bounding the area needing resolve. NULL indicates
	* the whole RT needs resolving.
	*/
	void flagAsNeedingResolve(const SkIRect* rect = NULL);

	/**
	* Call to override the region that needs to be resolved.
	*/
	void overrideResolveRect(const SkIRect rect);

	/**
	* Call to indicate that GrRenderTarget was externally resolved. This may
	* allow Gr to skip a redundant resolve step.
	*/
	void flagAsResolved() { fResolveRect.setLargestInverted(); }

	/**
	* @return true if the GrRenderTarget requires MSAA resolving
	*/
	bool needsResolve() const { return !fResolveRect.isEmpty(); }

	/**
	* Returns a rect bounding the region needing resolving.
	*/
	const SkIRect& getResolveRect() const { return fResolveRect; }

	/**
	* Provide a performance hint that the render target's contents are allowed
	* to become undefined.
	*/
	void discard();

	// a MSAA RT may require explicit resolving , it may auto-resolve (e.g. FBO
	// 0 in GL), or be unresolvable because the client didn't give us the
	// resolve destination.
	enum ResolveType {
	kCanResolve_ResolveType,
	kAutoResolves_ResolveType,
	kCantResolve_ResolveType,
	};
	virtual ResolveType getResolveType() const = 0;

	/**
	* Return the native ID or handle to the rendertarget, depending on the
	* platform. e.g. on OpenGL, return the FBO ID.
	*/
	virtual GrBackendObject getRenderTargetHandle() const = 0;

	// Checked when this object is asked to attach a stencil buffer.
	virtual bool canAttemptStencilAttachment() const = 0;

	// Provides access to functions that aren't part of the public API.
	GrRenderTargetPriv renderTargetPriv();
	const GrRenderTargetPriv renderTargetPriv() const;

	protected:
	enum class Flags {
	kNone = 0,
	kMixedSampled = 1 << 0,
	kWindowRectsSupport = 1 << 1
	};

	GR_DECL_BITFIELD_CLASS_OPS_FRIENDS(Flags);

	GrRenderTarget(GrGpu*, const GrSurfaceDesc&, Flags = Flags::kNone,
	GrStencilAttachment* = nullptr);

	// override of GrResource
	void onAbandon() override;
	void onRelease() override;

	private:
	// Allows the backends to perform any additional work that is required for attaching a
	// GrStencilAttachment. When this is called, the GrStencilAttachment has already been put onto
	// the GrRenderTarget. This function must return false if any failures occur when completing the
	// stencil attachment.
	virtual bool completeStencilAttachment() = 0;

	friend class GrRenderTargetPriv;
	friend class GrRenderTargetProxy; // for Flags

	GrStencilAttachment* fStencilAttachment;
	uint8_t fMultisampleSpecsID;
	Flags fFlags;

	SkIRect fResolveRect;

	typedef GrSurface INHERITED;
	};

	GR_MAKE_BITFIELD_CLASS_OPS(GrRenderTarget::Flags);

	#endif