src/gpu/vk/GrVkRenderTarget.h - skia - Git at Google

 /*
  * Copyright 2015 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #ifndef GrVkRenderTarget_DEFINED
 #define GrVkRenderTarget_DEFINED

 #include "GrVkImage.h"
 #include "GrRenderTarget.h"

 #include "GrVkRenderPass.h"
 #include "GrVkResourceProvider.h"
 #include "vk/GrVkTypes.h"

 class GrVkCommandBuffer;
 class GrVkFramebuffer;
 class GrVkGpu;
 class GrVkImageView;
 class GrVkSecondaryCommandBuffer;
 class GrVkStencilAttachment;

 struct GrVkImageInfo;

 #ifdef SK_BUILD_FOR_WIN
 // Windows gives bogus warnings about inheriting asTexture/asRenderTarget via dominance.
 #pragma warning(push)
 #pragma warning(disable: 4250)
 #endif

 class GrVkRenderTarget: public GrRenderTarget, public virtual GrVkImage {
 public:
     static sk_sp<GrVkRenderTarget> MakeWrappedRenderTarget(GrVkGpu*, const GrSurfaceDesc&,
                                                            const GrVkImageInfo&,
                                                            sk_sp<GrVkImageLayout>);

     static sk_sp<GrVkRenderTarget> MakeSecondaryCBRenderTarget(GrVkGpu*, const GrSurfaceDesc&,
                                                                const GrVkDrawableInfo& vkInfo);

     ~GrVkRenderTarget() override;

     GrBackendFormat backendFormat() const override { return this->getBackendFormat(); }

     const GrVkFramebuffer* framebuffer() const { return fFramebuffer; }
     const GrVkImageView* colorAttachmentView() const { return fColorAttachmentView; }
     const GrVkResource* msaaImageResource() const {
         if (fMSAAImage) {
             return fMSAAImage->fResource;
         }
         return nullptr;
     }
     GrVkImage* msaaImage() { return fMSAAImage.get(); }
     const GrVkImageView* resolveAttachmentView() const { return fResolveAttachmentView; }
     const GrVkResource* stencilImageResource() const;
     const GrVkImageView* stencilAttachmentView() const;

     const GrVkRenderPass* simpleRenderPass() const { return fCachedSimpleRenderPass; }
     GrVkResourceProvider::CompatibleRPHandle compatibleRenderPassHandle() const {
         SkASSERT(!this->wrapsSecondaryCommandBuffer());
         return fCompatibleRPHandle;
     }
     const GrVkRenderPass* externalRenderPass() const {
         SkASSERT(this->wrapsSecondaryCommandBuffer());
         // We use the cached simple render pass to hold the external render pass.
         return fCachedSimpleRenderPass;
     }

     bool wrapsSecondaryCommandBuffer() const { return fSecondaryCommandBuffer != nullptr; }
     GrVkSecondaryCommandBuffer* getExternalSecondaryCommandBuffer() const {
         return fSecondaryCommandBuffer;
     }

     // override of GrRenderTarget
     ResolveType getResolveType() const override {
         if (this->numColorSamples() > 1) {
             return kCanResolve_ResolveType;
         }
         return kAutoResolves_ResolveType;
     }

     bool canAttemptStencilAttachment() const override {
         // We don't know the status of the stencil attachment for wrapped external secondary command
         // buffers so we just assume we don't have one.
         return !this->wrapsSecondaryCommandBuffer();
     }

     GrBackendRenderTarget getBackendRenderTarget() const override;

     void getAttachmentsDescriptor(GrVkRenderPass::AttachmentsDescriptor* desc,
                                   GrVkRenderPass::AttachmentFlags* flags) const;

     void addResources(GrVkCommandBuffer& commandBuffer) const;

 protected:
     GrVkRenderTarget(GrVkGpu* gpu,
                      const GrSurfaceDesc& desc,
                      const GrVkImageInfo& info,
                      sk_sp<GrVkImageLayout> layout,
                      const GrVkImageInfo& msaaInfo,
                      sk_sp<GrVkImageLayout> msaaLayout,
                      const GrVkImageView* colorAttachmentView,
                      const GrVkImageView* resolveAttachmentView,
                      GrBackendObjectOwnership);

     GrVkRenderTarget(GrVkGpu* gpu,
                      const GrSurfaceDesc& desc,
                      const GrVkImageInfo& info,
                      sk_sp<GrVkImageLayout> layout,
                      const GrVkImageView* colorAttachmentView,
                      GrBackendObjectOwnership);

     GrVkGpu* getVkGpu() const;

     void onAbandon() override;
     void onRelease() override;

     // This accounts for the texture's memory and any MSAA renderbuffer's memory.
     size_t onGpuMemorySize() const override {
         int numColorSamples = this->numColorSamples();
         if (numColorSamples > 1) {
             // Add one to account for the resolved VkImage.
             numColorSamples += 1;
         }
         return GrSurface::ComputeSize(this->config(), this->width(), this->height(),
                                       numColorSamples, GrMipMapped::kNo);
     }

     void createFramebuffer(GrVkGpu* gpu);

     const GrVkImageView*       fColorAttachmentView;
     std::unique_ptr<GrVkImage> fMSAAImage;
     const GrVkImageView*       fResolveAttachmentView;

 private:
     GrVkRenderTarget(GrVkGpu* gpu,
                      const GrSurfaceDesc& desc,
                      const GrVkImageInfo& info,
                      sk_sp<GrVkImageLayout> layout,
                      const GrVkImageInfo& msaaInfo,
                      sk_sp<GrVkImageLayout> msaaLayout,
                      const GrVkImageView* colorAttachmentView,
                      const GrVkImageView* resolveAttachmentView);

     GrVkRenderTarget(GrVkGpu* gpu,
                      const GrSurfaceDesc& desc,
                      const GrVkImageInfo& info,
                      sk_sp<GrVkImageLayout> layout,
                      const GrVkImageView* colorAttachmentView);


     GrVkRenderTarget(GrVkGpu* gpu,
                      const GrSurfaceDesc& desc,
                      const GrVkImageInfo& info,
                      sk_sp<GrVkImageLayout> layout,
                      const GrVkRenderPass* renderPass,
                      GrVkSecondaryCommandBuffer* secondaryCommandBuffer);

     bool completeStencilAttachment() override;

     // In Vulkan we call the release proc after we are finished with the underlying
     // GrVkImage::Resource object (which occurs after the GPU has finished all work on it).
     void onSetRelease(sk_sp<GrRefCntedCallback> releaseHelper) override {
         // Forward the release proc on to GrVkImage
         this->setResourceRelease(std::move(releaseHelper));
     }

     void releaseInternalObjects();
     void abandonInternalObjects();

     const GrVkFramebuffer*     fFramebuffer;

     // This is a cached pointer to a simple render pass. The render target should unref it
     // once it is done with it.
     const GrVkRenderPass*      fCachedSimpleRenderPass;
     // This is a handle to be used to quickly get compatible GrVkRenderPasses for this render target
     GrVkResourceProvider::CompatibleRPHandle fCompatibleRPHandle;

     // If this render target wraps an external VkCommandBuffer, then this pointer will be non-null
     // and will point to the GrVk object that, in turn, wraps the external VkCommandBuffer. In this
     // case the render target will not be backed by an actual VkImage and will thus be limited in
     // terms of what it can be used for.
     GrVkSecondaryCommandBuffer* fSecondaryCommandBuffer = nullptr;
 };

 #endif
	/*
	* Copyright 2015 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/


	#ifndef GrVkRenderTarget_DEFINED
	#define GrVkRenderTarget_DEFINED

	#include "GrVkImage.h"
	#include "GrRenderTarget.h"

	#include "GrVkRenderPass.h"
	#include "GrVkResourceProvider.h"
	#include "vk/GrVkTypes.h"

	class GrVkCommandBuffer;
	class GrVkFramebuffer;
	class GrVkGpu;
	class GrVkImageView;
	class GrVkSecondaryCommandBuffer;
	class GrVkStencilAttachment;

	struct GrVkImageInfo;

	#ifdef SK_BUILD_FOR_WIN
	// Windows gives bogus warnings about inheriting asTexture/asRenderTarget via dominance.
	#pragma warning(push)
	#pragma warning(disable: 4250)
	#endif

	class GrVkRenderTarget: public GrRenderTarget, public virtual GrVkImage {
	public:
	static sk_sp<GrVkRenderTarget> MakeWrappedRenderTarget(GrVkGpu*, const GrSurfaceDesc&,
	const GrVkImageInfo&,
	sk_sp<GrVkImageLayout>);

	static sk_sp<GrVkRenderTarget> MakeSecondaryCBRenderTarget(GrVkGpu*, const GrSurfaceDesc&,
	const GrVkDrawableInfo& vkInfo);

	~GrVkRenderTarget() override;

	GrBackendFormat backendFormat() const override { return this->getBackendFormat(); }

	const GrVkFramebuffer* framebuffer() const { return fFramebuffer; }
	const GrVkImageView* colorAttachmentView() const { return fColorAttachmentView; }
	const GrVkResource* msaaImageResource() const {
	if (fMSAAImage) {
	return fMSAAImage->fResource;
	}
	return nullptr;
	}
	GrVkImage* msaaImage() { return fMSAAImage.get(); }
	const GrVkImageView* resolveAttachmentView() const { return fResolveAttachmentView; }
	const GrVkResource* stencilImageResource() const;
	const GrVkImageView* stencilAttachmentView() const;

	const GrVkRenderPass* simpleRenderPass() const { return fCachedSimpleRenderPass; }
	GrVkResourceProvider::CompatibleRPHandle compatibleRenderPassHandle() const {
	SkASSERT(!this->wrapsSecondaryCommandBuffer());
	return fCompatibleRPHandle;
	}
	const GrVkRenderPass* externalRenderPass() const {
	SkASSERT(this->wrapsSecondaryCommandBuffer());
	// We use the cached simple render pass to hold the external render pass.
	return fCachedSimpleRenderPass;
	}

	bool wrapsSecondaryCommandBuffer() const { return fSecondaryCommandBuffer != nullptr; }
	GrVkSecondaryCommandBuffer* getExternalSecondaryCommandBuffer() const {
	return fSecondaryCommandBuffer;
	}

	// override of GrRenderTarget
	ResolveType getResolveType() const override {
	if (this->numColorSamples() > 1) {
	return kCanResolve_ResolveType;
	}
	return kAutoResolves_ResolveType;
	}

	bool canAttemptStencilAttachment() const override {
	// We don't know the status of the stencil attachment for wrapped external secondary command
	// buffers so we just assume we don't have one.
	return !this->wrapsSecondaryCommandBuffer();
	}

	GrBackendRenderTarget getBackendRenderTarget() const override;

	void getAttachmentsDescriptor(GrVkRenderPass::AttachmentsDescriptor* desc,
	GrVkRenderPass::AttachmentFlags* flags) const;

	void addResources(GrVkCommandBuffer& commandBuffer) const;

	protected:
	GrVkRenderTarget(GrVkGpu* gpu,
	const GrSurfaceDesc& desc,
	const GrVkImageInfo& info,
	sk_sp<GrVkImageLayout> layout,
	const GrVkImageInfo& msaaInfo,
	sk_sp<GrVkImageLayout> msaaLayout,
	const GrVkImageView* colorAttachmentView,
	const GrVkImageView* resolveAttachmentView,
	GrBackendObjectOwnership);

	GrVkRenderTarget(GrVkGpu* gpu,
	const GrSurfaceDesc& desc,
	const GrVkImageInfo& info,
	sk_sp<GrVkImageLayout> layout,
	const GrVkImageView* colorAttachmentView,
	GrBackendObjectOwnership);

	GrVkGpu* getVkGpu() const;

	void onAbandon() override;
	void onRelease() override;

	// This accounts for the texture's memory and any MSAA renderbuffer's memory.
	size_t onGpuMemorySize() const override {
	int numColorSamples = this->numColorSamples();
	if (numColorSamples > 1) {
	// Add one to account for the resolved VkImage.
	numColorSamples += 1;
	}
	return GrSurface::ComputeSize(this->config(), this->width(), this->height(),
	numColorSamples, GrMipMapped::kNo);
	}

	void createFramebuffer(GrVkGpu* gpu);

	const GrVkImageView* fColorAttachmentView;
	std::unique_ptr<GrVkImage> fMSAAImage;
	const GrVkImageView* fResolveAttachmentView;

	private:
	GrVkRenderTarget(GrVkGpu* gpu,
	const GrSurfaceDesc& desc,
	const GrVkImageInfo& info,
	sk_sp<GrVkImageLayout> layout,
	const GrVkImageInfo& msaaInfo,
	sk_sp<GrVkImageLayout> msaaLayout,
	const GrVkImageView* colorAttachmentView,
	const GrVkImageView* resolveAttachmentView);

	GrVkRenderTarget(GrVkGpu* gpu,
	const GrSurfaceDesc& desc,
	const GrVkImageInfo& info,
	sk_sp<GrVkImageLayout> layout,
	const GrVkImageView* colorAttachmentView);


	GrVkRenderTarget(GrVkGpu* gpu,
	const GrSurfaceDesc& desc,
	const GrVkImageInfo& info,
	sk_sp<GrVkImageLayout> layout,
	const GrVkRenderPass* renderPass,
	GrVkSecondaryCommandBuffer* secondaryCommandBuffer);

	bool completeStencilAttachment() override;

	// In Vulkan we call the release proc after we are finished with the underlying
	// GrVkImage::Resource object (which occurs after the GPU has finished all work on it).
	void onSetRelease(sk_sp<GrRefCntedCallback> releaseHelper) override {
	// Forward the release proc on to GrVkImage
	this->setResourceRelease(std::move(releaseHelper));
	}

	void releaseInternalObjects();
	void abandonInternalObjects();

	const GrVkFramebuffer* fFramebuffer;

	// This is a cached pointer to a simple render pass. The render target should unref it
	// once it is done with it.
	const GrVkRenderPass* fCachedSimpleRenderPass;
	// This is a handle to be used to quickly get compatible GrVkRenderPasses for this render target
	GrVkResourceProvider::CompatibleRPHandle fCompatibleRPHandle;

	// If this render target wraps an external VkCommandBuffer, then this pointer will be non-null
	// and will point to the GrVk object that, in turn, wraps the external VkCommandBuffer. In this
	// case the render target will not be backed by an actual VkImage and will thus be limited in
	// terms of what it can be used for.
	GrVkSecondaryCommandBuffer* fSecondaryCommandBuffer = nullptr;
	};

	#endif