src/dawn_native/vulkan/TextureVk.h - dawn - Git at Google

 // Copyright 2018 The Dawn Authors
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #ifndef DAWNNATIVE_VULKAN_TEXTUREVK_H_
 #define DAWNNATIVE_VULKAN_TEXTUREVK_H_

 #include "dawn_native/Texture.h"

 #include "common/vulkan_platform.h"
 #include "dawn_native/PassResourceUsage.h"
 #include "dawn_native/ResourceMemoryAllocation.h"
 #include "dawn_native/vulkan/ExternalHandle.h"
 #include "dawn_native/vulkan/external_memory/MemoryService.h"

 namespace dawn_native { namespace vulkan {

     struct CommandRecordingContext;
     class Device;

     VkFormat VulkanImageFormat(const Device* device, wgpu::TextureFormat format);
     VkImageUsageFlags VulkanImageUsage(wgpu::TextureUsage usage, const Format& format);
     VkSampleCountFlagBits VulkanSampleCount(uint32_t sampleCount);

     MaybeError ValidateVulkanImageCanBeWrapped(const DeviceBase* device,
                                                const TextureDescriptor* descriptor);

     bool IsSampleCountSupported(const dawn_native::vulkan::Device* device,
                                 const VkImageCreateInfo& imageCreateInfo);

     class Texture final : public TextureBase {
       public:
         // Used to create a regular texture from a descriptor.
         static ResultOrError<Ref<Texture>> Create(Device* device,
                                                   const TextureDescriptor* descriptor,
                                                   VkImageUsageFlags extraUsages = 0);

         // Creates a texture and initializes it with a VkImage that references an external memory
         // object. Before the texture can be used, the VkDeviceMemory associated with the external
         // image must be bound via Texture::BindExternalMemory.
         static ResultOrError<Texture*> CreateFromExternal(
             Device* device,
             const ExternalImageDescriptorVk* descriptor,
             const TextureDescriptor* textureDescriptor,
             external_memory::Service* externalMemoryService);

         // Creates a texture that wraps a swapchain-allocated VkImage.
         static Ref<Texture> CreateForSwapChain(Device* device,
                                                const TextureDescriptor* descriptor,
                                                VkImage nativeImage);

         VkImage GetHandle() const;
         VkImageAspectFlags GetVkAspectMask(wgpu::TextureAspect aspect) const;

         // Transitions the texture to be used as `usage`, recording any necessary barrier in
         // `commands`.
         // TODO(cwallez@chromium.org): coalesce barriers and do them early when possible.
         void TransitionUsageNow(CommandRecordingContext* recordingContext,
                                 wgpu::TextureUsage usage,
                                 const SubresourceRange& range);
         // TODO(cwallez@chromium.org): This function should be an implementation detail of
         // vulkan::Texture but it is currently used by the barrier tracking for compute passes.
         void TransitionUsageAndGetResourceBarrier(wgpu::TextureUsage usage,
                                                   const SubresourceRange& range,
                                                   std::vector<VkImageMemoryBarrier>* imageBarriers,
                                                   VkPipelineStageFlags* srcStages,
                                                   VkPipelineStageFlags* dstStages);
         void TransitionUsageForPass(CommandRecordingContext* recordingContext,
                                     const PassTextureUsage& textureUsages,
                                     std::vector<VkImageMemoryBarrier>* imageBarriers,
                                     VkPipelineStageFlags* srcStages,
                                     VkPipelineStageFlags* dstStages);

         void EnsureSubresourceContentInitialized(CommandRecordingContext* recordingContext,
                                                  const SubresourceRange& range);

         VkImageLayout GetCurrentLayoutForSwapChain() const;

         // Binds externally allocated memory to the VkImage and on success, takes ownership of
         // semaphores.
         MaybeError BindExternalMemory(const ExternalImageDescriptorVk* descriptor,
                                       VkSemaphore signalSemaphore,
                                       VkDeviceMemory externalMemoryAllocation,
                                       std::vector<VkSemaphore> waitSemaphores);

         MaybeError ExportExternalTexture(VkImageLayout desiredLayout,
                                          VkSemaphore* signalSemaphore,
                                          VkImageLayout* releasedOldLayout,
                                          VkImageLayout* releasedNewLayout);

       private:
         ~Texture() override;
         Texture(Device* device, const TextureDescriptor* descriptor, TextureState state);

         MaybeError InitializeAsInternalTexture(VkImageUsageFlags extraUsages);
         MaybeError InitializeFromExternal(const ExternalImageDescriptorVk* descriptor,
                                           external_memory::Service* externalMemoryService);
         void InitializeForSwapChain(VkImage nativeImage);

         void DestroyImpl() override;
         MaybeError ClearTexture(CommandRecordingContext* recordingContext,
                                 const SubresourceRange& range,
                                 TextureBase::ClearValue);

         // Implementation details of the barrier computations for the texture.
         void TransitionUsageForPassImpl(
             CommandRecordingContext* recordingContext,
             const SubresourceStorage<wgpu::TextureUsage>& subresourceUsages,
             std::vector<VkImageMemoryBarrier>* imageBarriers,
             VkPipelineStageFlags* srcStages,
             VkPipelineStageFlags* dstStages);
         void TransitionUsageAndGetResourceBarrierImpl(
             wgpu::TextureUsage usage,
             const SubresourceRange& range,
             std::vector<VkImageMemoryBarrier>* imageBarriers,
             VkPipelineStageFlags* srcStages,
             VkPipelineStageFlags* dstStages);
         void TweakTransitionForExternalUsage(CommandRecordingContext* recordingContext,
                                              std::vector<VkImageMemoryBarrier>* barriers,
                                              size_t transitionBarrierStart);
         bool CanReuseWithoutBarrier(wgpu::TextureUsage lastUsage, wgpu::TextureUsage usage);

         // In base Vulkan, Depth and stencil can only be transitioned together. This function
         // indicates whether we should combine depth and stencil barriers to accommodate this
         // limitation.
         bool ShouldCombineDepthStencilBarriers() const;
         // Compute the Aspects of the SubresourceStoage for this texture depending on whether we're
         // doing the workaround for combined depth and stencil barriers.
         Aspect ComputeAspectsForSubresourceStorage() const;

         VkImage mHandle = VK_NULL_HANDLE;
         ResourceMemoryAllocation mMemoryAllocation;
         VkDeviceMemory mExternalAllocation = VK_NULL_HANDLE;

         enum class ExternalState {
             InternalOnly,
             PendingAcquire,
             Acquired,
             Released
         };
         ExternalState mExternalState = ExternalState::InternalOnly;
         ExternalState mLastExternalState = ExternalState::InternalOnly;

         VkImageLayout mPendingAcquireOldLayout;
         VkImageLayout mPendingAcquireNewLayout;

         VkSemaphore mSignalSemaphore = VK_NULL_HANDLE;
         std::vector<VkSemaphore> mWaitRequirements;

         // Note that in early Vulkan versions it is not possible to transition depth and stencil
         // separately so textures with Depth|Stencil aspects will have a single Depth aspect in the
         // storage.
         SubresourceStorage<wgpu::TextureUsage> mSubresourceLastUsages;
     };

     class TextureView final : public TextureViewBase {
       public:
         static ResultOrError<TextureView*> Create(TextureBase* texture,
                                                   const TextureViewDescriptor* descriptor);
         VkImageView GetHandle() const;

       private:
         ~TextureView() override;
         using TextureViewBase::TextureViewBase;
         MaybeError Initialize(const TextureViewDescriptor* descriptor);

         VkImageView mHandle = VK_NULL_HANDLE;
     };

 }}  // namespace dawn_native::vulkan

 #endif  // DAWNNATIVE_VULKAN_TEXTUREVK_H_
	// Copyright 2018 The Dawn Authors
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#ifndef DAWNNATIVE_VULKAN_TEXTUREVK_H_
	#define DAWNNATIVE_VULKAN_TEXTUREVK_H_

	#include "dawn_native/Texture.h"

	#include "common/vulkan_platform.h"
	#include "dawn_native/PassResourceUsage.h"
	#include "dawn_native/ResourceMemoryAllocation.h"
	#include "dawn_native/vulkan/ExternalHandle.h"
	#include "dawn_native/vulkan/external_memory/MemoryService.h"

	namespace dawn_native { namespace vulkan {

	struct CommandRecordingContext;
	class Device;

	VkFormat VulkanImageFormat(const Device* device, wgpu::TextureFormat format);
	VkImageUsageFlags VulkanImageUsage(wgpu::TextureUsage usage, const Format& format);
	VkSampleCountFlagBits VulkanSampleCount(uint32_t sampleCount);

	MaybeError ValidateVulkanImageCanBeWrapped(const DeviceBase* device,
	const TextureDescriptor* descriptor);

	bool IsSampleCountSupported(const dawn_native::vulkan::Device* device,
	const VkImageCreateInfo& imageCreateInfo);

	class Texture final : public TextureBase {
	public:
	// Used to create a regular texture from a descriptor.
	static ResultOrError<Ref<Texture>> Create(Device* device,
	const TextureDescriptor* descriptor,
	VkImageUsageFlags extraUsages = 0);

	// Creates a texture and initializes it with a VkImage that references an external memory
	// object. Before the texture can be used, the VkDeviceMemory associated with the external
	// image must be bound via Texture::BindExternalMemory.
	static ResultOrError<Texture*> CreateFromExternal(
	Device* device,
	const ExternalImageDescriptorVk* descriptor,
	const TextureDescriptor* textureDescriptor,
	external_memory::Service* externalMemoryService);

	// Creates a texture that wraps a swapchain-allocated VkImage.
	static Ref<Texture> CreateForSwapChain(Device* device,
	const TextureDescriptor* descriptor,
	VkImage nativeImage);

	VkImage GetHandle() const;
	VkImageAspectFlags GetVkAspectMask(wgpu::TextureAspect aspect) const;

	// Transitions the texture to be used as `usage`, recording any necessary barrier in
	// `commands`.
	// TODO(cwallez@chromium.org): coalesce barriers and do them early when possible.
	void TransitionUsageNow(CommandRecordingContext* recordingContext,
	wgpu::TextureUsage usage,
	const SubresourceRange& range);
	// TODO(cwallez@chromium.org): This function should be an implementation detail of
	// vulkan::Texture but it is currently used by the barrier tracking for compute passes.
	void TransitionUsageAndGetResourceBarrier(wgpu::TextureUsage usage,
	const SubresourceRange& range,
	std::vector<VkImageMemoryBarrier>* imageBarriers,
	VkPipelineStageFlags* srcStages,
	VkPipelineStageFlags* dstStages);
	void TransitionUsageForPass(CommandRecordingContext* recordingContext,
	const PassTextureUsage& textureUsages,
	std::vector<VkImageMemoryBarrier>* imageBarriers,
	VkPipelineStageFlags* srcStages,
	VkPipelineStageFlags* dstStages);

	void EnsureSubresourceContentInitialized(CommandRecordingContext* recordingContext,
	const SubresourceRange& range);

	VkImageLayout GetCurrentLayoutForSwapChain() const;

	// Binds externally allocated memory to the VkImage and on success, takes ownership of
	// semaphores.
	MaybeError BindExternalMemory(const ExternalImageDescriptorVk* descriptor,
	VkSemaphore signalSemaphore,
	VkDeviceMemory externalMemoryAllocation,
	std::vector<VkSemaphore> waitSemaphores);

	MaybeError ExportExternalTexture(VkImageLayout desiredLayout,
	VkSemaphore* signalSemaphore,
	VkImageLayout* releasedOldLayout,
	VkImageLayout* releasedNewLayout);

	private:
	~Texture() override;
	Texture(Device* device, const TextureDescriptor* descriptor, TextureState state);

	MaybeError InitializeAsInternalTexture(VkImageUsageFlags extraUsages);
	MaybeError InitializeFromExternal(const ExternalImageDescriptorVk* descriptor,
	external_memory::Service* externalMemoryService);
	void InitializeForSwapChain(VkImage nativeImage);

	void DestroyImpl() override;
	MaybeError ClearTexture(CommandRecordingContext* recordingContext,
	const SubresourceRange& range,
	TextureBase::ClearValue);

	// Implementation details of the barrier computations for the texture.
	void TransitionUsageForPassImpl(
	CommandRecordingContext* recordingContext,
	const SubresourceStorage<wgpu::TextureUsage>& subresourceUsages,
	std::vector<VkImageMemoryBarrier>* imageBarriers,
	VkPipelineStageFlags* srcStages,
	VkPipelineStageFlags* dstStages);
	void TransitionUsageAndGetResourceBarrierImpl(
	wgpu::TextureUsage usage,
	const SubresourceRange& range,
	std::vector<VkImageMemoryBarrier>* imageBarriers,
	VkPipelineStageFlags* srcStages,
	VkPipelineStageFlags* dstStages);
	void TweakTransitionForExternalUsage(CommandRecordingContext* recordingContext,
	std::vector<VkImageMemoryBarrier>* barriers,
	size_t transitionBarrierStart);
	bool CanReuseWithoutBarrier(wgpu::TextureUsage lastUsage, wgpu::TextureUsage usage);

	// In base Vulkan, Depth and stencil can only be transitioned together. This function
	// indicates whether we should combine depth and stencil barriers to accommodate this
	// limitation.
	bool ShouldCombineDepthStencilBarriers() const;
	// Compute the Aspects of the SubresourceStoage for this texture depending on whether we're
	// doing the workaround for combined depth and stencil barriers.
	Aspect ComputeAspectsForSubresourceStorage() const;

	VkImage mHandle = VK_NULL_HANDLE;
	ResourceMemoryAllocation mMemoryAllocation;
	VkDeviceMemory mExternalAllocation = VK_NULL_HANDLE;

	enum class ExternalState {
	InternalOnly,
	PendingAcquire,
	Acquired,
	Released
	};
	ExternalState mExternalState = ExternalState::InternalOnly;
	ExternalState mLastExternalState = ExternalState::InternalOnly;

	VkImageLayout mPendingAcquireOldLayout;
	VkImageLayout mPendingAcquireNewLayout;

	VkSemaphore mSignalSemaphore = VK_NULL_HANDLE;
	std::vector<VkSemaphore> mWaitRequirements;

	// Note that in early Vulkan versions it is not possible to transition depth and stencil
	// separately so textures with Depth\|Stencil aspects will have a single Depth aspect in the
	// storage.
	SubresourceStorage<wgpu::TextureUsage> mSubresourceLastUsages;
	};

	class TextureView final : public TextureViewBase {
	public:
	static ResultOrError<TextureView> Create(TextureBase texture,
	const TextureViewDescriptor* descriptor);
	VkImageView GetHandle() const;

	private:
	~TextureView() override;
	using TextureViewBase::TextureViewBase;
	MaybeError Initialize(const TextureViewDescriptor* descriptor);

	VkImageView mHandle = VK_NULL_HANDLE;
	};

	}} // namespace dawn_native::vulkan

	#endif // DAWNNATIVE_VULKAN_TEXTUREVK_H_