src/gpu/GrRenderTargetProxy.h - skia - Git at Google

 /*
  * Copyright 2016 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef GrRenderTargetProxy_DEFINED
 #define GrRenderTargetProxy_DEFINED

 #include "include/private/GrTypesPriv.h"
 #include "src/gpu/GrCaps.h"
 #include "src/gpu/GrNativeRect.h"
 #include "src/gpu/GrSurfaceProxy.h"
 #include "src/gpu/GrSwizzle.h"

 class GrResourceProvider;
 class GrRenderTargetProxyPriv;

 // This class delays the acquisition of RenderTargets until they are actually
 // required
 // Beware: the uniqueID of the RenderTargetProxy will usually be different than
 // the uniqueID of the RenderTarget it represents!
 class GrRenderTargetProxy : virtual public GrSurfaceProxy {
 public:
     GrRenderTargetProxy* asRenderTargetProxy() override { return this; }
     const GrRenderTargetProxy* asRenderTargetProxy() const override { return this; }

     // Actually instantiate the backing rendertarget, if necessary.
     bool instantiate(GrResourceProvider*) override;

     bool canUseMixedSamples(const GrCaps& caps) const {
         return caps.mixedSamplesSupport() && !this->glRTFBOIDIs0() &&
                caps.internalMultisampleCount(this->backendFormat()) > 0 &&
                this->canChangeStencilAttachment();
     }

     /*
      * Indicate that a draw to this proxy requires stencil, and how many stencil samples it needs.
      * The number of stencil samples on this proxy will be equal to the largest sample count passed
      * to this method.
      */
     void setNeedsStencil(int8_t numStencilSamples) {
         SkASSERT(numStencilSamples >= fSampleCnt);
         fNumStencilSamples = std::max(numStencilSamples, fNumStencilSamples);
     }

     /**
      * Returns the number of stencil samples this proxy will use, or 0 if it does not use stencil.
      */
     int numStencilSamples() const { return fNumStencilSamples; }

     /**
      * Returns the number of samples/pixel in the color buffer (One if non-MSAA).
      */
     int numSamples() const { return fSampleCnt; }

     int maxWindowRectangles(const GrCaps& caps) const;

     bool wrapsVkSecondaryCB() const { return fWrapsVkSecondaryCB == WrapsVkSecondaryCB::kYes; }

     void markMSAADirty(const SkIRect& dirtyRect, GrSurfaceOrigin origin) {
         SkASSERT(SkIRect::MakeSize(this->dimensions()).contains(dirtyRect));
         SkASSERT(this->requiresManualMSAAResolve());
         auto nativeRect = GrNativeRect::MakeRelativeTo(
                 origin, this->backingStoreDimensions().height(), dirtyRect);
         fMSAADirtyRect.join(nativeRect.asSkIRect());
     }
     void markMSAAResolved() {
         SkASSERT(this->requiresManualMSAAResolve());
         fMSAADirtyRect.setEmpty();
     }
     bool isMSAADirty() const {
         SkASSERT(fMSAADirtyRect.isEmpty() || this->requiresManualMSAAResolve());
         return this->requiresManualMSAAResolve() && !fMSAADirtyRect.isEmpty();
     }
     const SkIRect& msaaDirtyRect() const {
         SkASSERT(this->requiresManualMSAAResolve());
         return fMSAADirtyRect;
     }

     // TODO: move this to a priv class!
     bool refsWrappedObjects() const;

     // Provides access to special purpose functions.
     GrRenderTargetProxyPriv rtPriv();
     const GrRenderTargetProxyPriv rtPriv() const;

 protected:
     friend class GrProxyProvider;  // for ctors
     friend class GrRenderTargetProxyPriv;

     // Deferred version
     GrRenderTargetProxy(const GrCaps&,
                         const GrBackendFormat&,
                         SkISize,
                         int sampleCount,
                         GrSurfaceOrigin,
                         const GrSwizzle& textureSwizzle,
                         SkBackingFit,
                         SkBudgeted,
                         GrProtected,
                         GrInternalSurfaceFlags,
                         UseAllocator);

     enum class WrapsVkSecondaryCB : bool { kNo = false, kYes = true };

     // Lazy-callback version
     // There are two main use cases for lazily-instantiated proxies:
     //   basic knowledge - width, height, config, samples, origin are known
     //   minimal knowledge - only config is known.
     //
     // The basic knowledge version is used for DDL where we know the type of proxy we are going to
     // use, but we don't have access to the GPU yet to instantiate it.
     //
     // The minimal knowledge version is used for CCPR where we are generating an atlas but we do not
     // know the final size until flush time.
     GrRenderTargetProxy(LazyInstantiateCallback&&,
                         const GrBackendFormat&,
                         SkISize,
                         int sampleCount,
                         GrSurfaceOrigin,
                         const GrSwizzle& textureSwizzle,
                         SkBackingFit,
                         SkBudgeted,
                         GrProtected,
                         GrInternalSurfaceFlags,
                         UseAllocator,
                         WrapsVkSecondaryCB);

     // Wrapped version
     GrRenderTargetProxy(sk_sp<GrSurface>,
                         GrSurfaceOrigin,
                         const GrSwizzle& textureSwizzle,
                         UseAllocator,
                         WrapsVkSecondaryCB = WrapsVkSecondaryCB::kNo);

     sk_sp<GrSurface> createSurface(GrResourceProvider*) const override;

 private:
     void setGLRTFBOIDIs0() {
         fSurfaceFlags |= GrInternalSurfaceFlags::kGLRTFBOIDIs0;
     }
     bool glRTFBOIDIs0() const {
         return fSurfaceFlags & GrInternalSurfaceFlags::kGLRTFBOIDIs0;
     }
     bool canChangeStencilAttachment() const;

     size_t onUninstantiatedGpuMemorySize(const GrCaps&) const override;
     SkDEBUGCODE(void onValidateSurface(const GrSurface*) override;)

     // WARNING: Be careful when adding or removing fields here. ASAN is likely to trigger warnings
     // when instantiating GrTextureRenderTargetProxy. The std::function in GrSurfaceProxy makes
     // each class in the diamond require 16 byte alignment. Clang appears to layout the fields for
     // each class to achieve the necessary alignment. However, ASAN checks the alignment of 'this'
     // in the constructors, and always looks for the full 16 byte alignment, even if the fields in
     // that particular class don't require it. Changing the size of this object can move the start
     // address of other types, leading to this problem.
     int8_t             fSampleCnt;
     int8_t             fNumStencilSamples = 0;
     WrapsVkSecondaryCB fWrapsVkSecondaryCB;
     SkIRect            fMSAADirtyRect = SkIRect::MakeEmpty();
     // This is to fix issue in large comment above. Without the padding we can end up with the
     // GrTextureProxy starting 8 byte aligned by not 16. This happens when the RT ends at bytes 1-8.
     // Note: with the virtual inheritance an 8 byte pointer is at the start of GrRenderTargetProxy.
     //
     // In the current world we end the RT proxy at 12 bytes. Technically any padding between 0-4
     // will work, but we use 4 to be more explicit about getting it to 16 byte alignment.
     char               fDummyPadding[4];

     typedef GrSurfaceProxy INHERITED;
 };

 #endif
	/*
	* Copyright 2016 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef GrRenderTargetProxy_DEFINED
	#define GrRenderTargetProxy_DEFINED

	#include "include/private/GrTypesPriv.h"
	#include "src/gpu/GrCaps.h"
	#include "src/gpu/GrNativeRect.h"
	#include "src/gpu/GrSurfaceProxy.h"
	#include "src/gpu/GrSwizzle.h"

	class GrResourceProvider;
	class GrRenderTargetProxyPriv;

	// This class delays the acquisition of RenderTargets until they are actually
	// required
	// Beware: the uniqueID of the RenderTargetProxy will usually be different than
	// the uniqueID of the RenderTarget it represents!
	class GrRenderTargetProxy : virtual public GrSurfaceProxy {
	public:
	GrRenderTargetProxy* asRenderTargetProxy() override { return this; }
	const GrRenderTargetProxy* asRenderTargetProxy() const override { return this; }

	// Actually instantiate the backing rendertarget, if necessary.
	bool instantiate(GrResourceProvider*) override;

	bool canUseMixedSamples(const GrCaps& caps) const {
	return caps.mixedSamplesSupport() && !this->glRTFBOIDIs0() &&
	caps.internalMultisampleCount(this->backendFormat()) > 0 &&
	this->canChangeStencilAttachment();
	}

	/*
	* Indicate that a draw to this proxy requires stencil, and how many stencil samples it needs.
	* The number of stencil samples on this proxy will be equal to the largest sample count passed
	* to this method.
	*/
	void setNeedsStencil(int8_t numStencilSamples) {
	SkASSERT(numStencilSamples >= fSampleCnt);
	fNumStencilSamples = std::max(numStencilSamples, fNumStencilSamples);
	}

	/**
	* Returns the number of stencil samples this proxy will use, or 0 if it does not use stencil.
	*/
	int numStencilSamples() const { return fNumStencilSamples; }

	/**
	* Returns the number of samples/pixel in the color buffer (One if non-MSAA).
	*/
	int numSamples() const { return fSampleCnt; }

	int maxWindowRectangles(const GrCaps& caps) const;

	bool wrapsVkSecondaryCB() const { return fWrapsVkSecondaryCB == WrapsVkSecondaryCB::kYes; }

	void markMSAADirty(const SkIRect& dirtyRect, GrSurfaceOrigin origin) {
	SkASSERT(SkIRect::MakeSize(this->dimensions()).contains(dirtyRect));
	SkASSERT(this->requiresManualMSAAResolve());
	auto nativeRect = GrNativeRect::MakeRelativeTo(
	origin, this->backingStoreDimensions().height(), dirtyRect);
	fMSAADirtyRect.join(nativeRect.asSkIRect());
	}
	void markMSAAResolved() {
	SkASSERT(this->requiresManualMSAAResolve());
	fMSAADirtyRect.setEmpty();
	}
	bool isMSAADirty() const {
	SkASSERT(fMSAADirtyRect.isEmpty() \|\| this->requiresManualMSAAResolve());
	return this->requiresManualMSAAResolve() && !fMSAADirtyRect.isEmpty();
	}
	const SkIRect& msaaDirtyRect() const {
	SkASSERT(this->requiresManualMSAAResolve());
	return fMSAADirtyRect;
	}

	// TODO: move this to a priv class!
	bool refsWrappedObjects() const;

	// Provides access to special purpose functions.
	GrRenderTargetProxyPriv rtPriv();
	const GrRenderTargetProxyPriv rtPriv() const;

	protected:
	friend class GrProxyProvider; // for ctors
	friend class GrRenderTargetProxyPriv;

	// Deferred version
	GrRenderTargetProxy(const GrCaps&,
	const GrBackendFormat&,
	SkISize,
	int sampleCount,
	GrSurfaceOrigin,
	const GrSwizzle& textureSwizzle,
	SkBackingFit,
	SkBudgeted,
	GrProtected,
	GrInternalSurfaceFlags,
	UseAllocator);

	enum class WrapsVkSecondaryCB : bool { kNo = false, kYes = true };

	// Lazy-callback version
	// There are two main use cases for lazily-instantiated proxies:
	// basic knowledge - width, height, config, samples, origin are known
	// minimal knowledge - only config is known.
	//
	// The basic knowledge version is used for DDL where we know the type of proxy we are going to
	// use, but we don't have access to the GPU yet to instantiate it.
	//
	// The minimal knowledge version is used for CCPR where we are generating an atlas but we do not
	// know the final size until flush time.
	GrRenderTargetProxy(LazyInstantiateCallback&&,
	const GrBackendFormat&,
	SkISize,
	int sampleCount,
	GrSurfaceOrigin,
	const GrSwizzle& textureSwizzle,
	SkBackingFit,
	SkBudgeted,
	GrProtected,
	GrInternalSurfaceFlags,
	UseAllocator,
	WrapsVkSecondaryCB);

	// Wrapped version
	GrRenderTargetProxy(sk_sp<GrSurface>,
	GrSurfaceOrigin,
	const GrSwizzle& textureSwizzle,
	UseAllocator,
	WrapsVkSecondaryCB = WrapsVkSecondaryCB::kNo);

	sk_sp<GrSurface> createSurface(GrResourceProvider*) const override;

	private:
	void setGLRTFBOIDIs0() {
	fSurfaceFlags \|= GrInternalSurfaceFlags::kGLRTFBOIDIs0;
	}
	bool glRTFBOIDIs0() const {
	return fSurfaceFlags & GrInternalSurfaceFlags::kGLRTFBOIDIs0;
	}
	bool canChangeStencilAttachment() const;

	size_t onUninstantiatedGpuMemorySize(const GrCaps&) const override;
	SkDEBUGCODE(void onValidateSurface(const GrSurface*) override;)

	// WARNING: Be careful when adding or removing fields here. ASAN is likely to trigger warnings
	// when instantiating GrTextureRenderTargetProxy. The std::function in GrSurfaceProxy makes
	// each class in the diamond require 16 byte alignment. Clang appears to layout the fields for
	// each class to achieve the necessary alignment. However, ASAN checks the alignment of 'this'
	// in the constructors, and always looks for the full 16 byte alignment, even if the fields in
	// that particular class don't require it. Changing the size of this object can move the start
	// address of other types, leading to this problem.
	int8_t fSampleCnt;
	int8_t fNumStencilSamples = 0;
	WrapsVkSecondaryCB fWrapsVkSecondaryCB;
	SkIRect fMSAADirtyRect = SkIRect::MakeEmpty();
	// This is to fix issue in large comment above. Without the padding we can end up with the
	// GrTextureProxy starting 8 byte aligned by not 16. This happens when the RT ends at bytes 1-8.
	// Note: with the virtual inheritance an 8 byte pointer is at the start of GrRenderTargetProxy.
	//
	// In the current world we end the RT proxy at 12 bytes. Technically any padding between 0-4
	// will work, but we use 4 to be more explicit about getting it to 16 byte alignment.
	char fDummyPadding[4];

	typedef GrSurfaceProxy INHERITED;
	};

	#endif