| /* |
| * 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 GrVkPipelineState_DEFINED |
| #define GrVkPipelineState_DEFINED |
| |
| #include "GrStencilSettings.h" |
| #include "GrVkImage.h" |
| #include "GrVkProgramDesc.h" |
| #include "GrVkPipelineStateDataManager.h" |
| #include "glsl/GrGLSLProgramBuilder.h" |
| |
| #include "vk/GrVkDefines.h" |
| |
| class GrPipeline; |
| class GrVkCommandBuffer; |
| class GrVkDescriptorPool; |
| class GrVkGpu; |
| class GrVkImageView; |
| class GrVkPipeline; |
| class GrVkSampler; |
| class GrVkUniformBuffer; |
| |
| /** |
| * This class holds onto a GrVkPipeline object that we use for draws. Besides storing the acutal |
| * GrVkPipeline object, this class is also responsible handling all uniforms, descriptors, samplers, |
| * and other similar objects that are used along with the VkPipeline in the draw. This includes both |
| * allocating and freeing these objects, as well as updating their values. |
| */ |
| class GrVkPipelineState : public SkRefCnt { |
| public: |
| typedef GrGLSLProgramBuilder::BuiltinUniformHandles BuiltinUniformHandles; |
| |
| ~GrVkPipelineState(); |
| |
| GrVkPipeline* vkPipeline() const { return fPipeline; } |
| |
| void setData(GrVkGpu*, const GrPrimitiveProcessor&, const GrPipeline&); |
| |
| void bind(const GrVkGpu* gpu, GrVkCommandBuffer* commandBuffer); |
| |
| void addUniformResources(GrVkCommandBuffer&); |
| |
| void freeGPUResources(const GrVkGpu* gpu); |
| |
| // This releases resources that only a given instance of a GrVkPipelineState needs to hold onto |
| // and don't need to survive across new uses of the GrVkPipelineState. |
| void freeTempResources(const GrVkGpu* gpu); |
| |
| void abandonGPUResources(); |
| |
| // The key is composed of two parts: |
| // 1. uint32_t for total key length |
| // 2. Pipeline state data |
| enum StateKeyOffsets { |
| // Part 1. |
| kLength_StateKeyOffset = 0, |
| // Part 2. |
| kData_StateKeyOffset = kLength_StateKeyOffset + sizeof(uint32_t), |
| }; |
| static void BuildStateKey(const GrPipeline&, GrPrimitiveType primitiveType, |
| SkTArray<unsigned char, true>* key); |
| |
| /** |
| * For Vulkan we want to cache the entire VkPipeline for reuse of draws. The Desc here holds all |
| * the information needed to differentiate one pipeline from another. |
| * |
| * The GrVkProgramDesc contains all the information need to create the actual shaders for the |
| * pipeline. |
| * |
| * The fStateKey is used to store all the inputs for the rest of the state stored on the |
| * pipeline. This includes stencil settings, blending information, render pass format, draw face |
| * information, and primitive type. Note that some state is set dynamically on the pipeline for |
| * each draw and thus is not included in this descriptor. This includes the viewport, scissor, |
| * and blend constant. |
| * |
| * A checksum which includes the fProgramDesc and fStateKey is included at the top of the Desc |
| * for caching purposes and faster equality checks. |
| */ |
| struct Desc { |
| uint32_t fChecksum; |
| GrVkProgramDesc fProgramDesc; |
| |
| enum { |
| kRenderPassKeyAlloc = 12, // This is typical color attachment with no stencil or msaa |
| kStencilKeyAlloc = sizeof(GrStencilSettings), |
| kDrawFaceKeyAlloc = 4, |
| kBlendingKeyAlloc = 4, |
| kPrimitiveTypeKeyAlloc = 4, |
| kPreAllocSize = kData_StateKeyOffset + kRenderPassKeyAlloc + kStencilKeyAlloc + |
| kDrawFaceKeyAlloc + kBlendingKeyAlloc + kPrimitiveTypeKeyAlloc, |
| }; |
| SkSTArray<kPreAllocSize, uint8_t, true> fStateKey; |
| |
| bool operator== (const Desc& that) const { |
| if (fChecksum != that.fChecksum || fProgramDesc != that.fProgramDesc) { |
| return false; |
| } |
| // We store the keyLength at the start of fVkKey. Thus we don't have to worry about |
| // different length keys since we will fail on the comparison immediately. Therefore we |
| // just use this PipelineDesc to get the length to iterate over. |
| int keyLength = fStateKey.count(); |
| SkASSERT(SkIsAlign4(keyLength)); |
| int l = keyLength >> 2; |
| const uint32_t* aKey = reinterpret_cast<const uint32_t*>(fStateKey.begin()); |
| const uint32_t* bKey = reinterpret_cast<const uint32_t*>(that.fStateKey.begin()); |
| for (int i = 0; i < l; ++i) { |
| if (aKey[i] != bKey[i]) { |
| return false; |
| } |
| } |
| return true; |
| } |
| |
| static bool Less(const Desc& a, const Desc& b) { |
| if (a.fChecksum != b.fChecksum) { |
| return a.fChecksum < b.fChecksum ? true : false; |
| } |
| bool progDescLess = GrProgramDesc::Less(a.fProgramDesc, b.fProgramDesc); |
| if (progDescLess || a.fProgramDesc != b.fProgramDesc) { |
| return progDescLess; |
| } |
| |
| int keyLength = a.fStateKey.count(); |
| SkASSERT(SkIsAlign4(keyLength)); |
| int l = keyLength >> 2; |
| const uint32_t* aKey = reinterpret_cast<const uint32_t*>(a.fStateKey.begin()); |
| const uint32_t* bKey = reinterpret_cast<const uint32_t*>(b.fStateKey.begin()); |
| for (int i = 0; i < l; ++i) { |
| if (aKey[i] != bKey[i]) { |
| return aKey[i] < bKey[i] ? true : false; |
| } |
| } |
| return false; |
| } |
| }; |
| |
| const Desc& getDesc() { return fDesc; } |
| |
| private: |
| typedef GrVkPipelineStateDataManager::UniformInfoArray UniformInfoArray; |
| typedef GrGLSLProgramDataManager::UniformHandle UniformHandle; |
| |
| GrVkPipelineState(GrVkGpu* gpu, |
| const GrVkPipelineState::Desc&, |
| GrVkPipeline* pipeline, |
| VkPipelineLayout layout, |
| VkDescriptorSetLayout dsSamplerLayout, |
| const BuiltinUniformHandles& builtinUniformHandles, |
| const UniformInfoArray& uniforms, |
| uint32_t vertexUniformSize, |
| uint32_t fragmentUniformSize, |
| uint32_t numSamplers, |
| GrGLSLPrimitiveProcessor* geometryProcessor, |
| GrGLSLXferProcessor* xferProcessor, |
| const GrGLSLFragProcs& fragmentProcessors); |
| |
| // Each pool will manage one type of descriptor. Thus each descriptor set we use will all be of |
| // one VkDescriptorType. |
| struct DescriptorPoolManager { |
| DescriptorPoolManager(VkDescriptorSetLayout layout, VkDescriptorType type, |
| uint32_t descCount, GrVkGpu* gpu) |
| : fDescLayout(layout) |
| , fDescType(type) |
| , fDescCountPerSet(descCount) |
| , fCurrentDescriptorCount(0) |
| , fPool(nullptr) { |
| SkASSERT(descCount < kMaxDescLimit >> 2); |
| fMaxDescriptors = fDescCountPerSet << 2; |
| this->getNewPool(gpu); |
| } |
| |
| ~DescriptorPoolManager() { |
| SkASSERT(!fDescLayout); |
| SkASSERT(!fPool); |
| } |
| |
| void getNewDescriptorSet(GrVkGpu* gpu, VkDescriptorSet* ds); |
| |
| void freeGPUResources(const GrVkGpu* gpu); |
| void abandonGPUResources(); |
| |
| VkDescriptorSetLayout fDescLayout; |
| VkDescriptorType fDescType; |
| uint32_t fDescCountPerSet; |
| uint32_t fMaxDescriptors; |
| uint32_t fCurrentDescriptorCount; |
| GrVkDescriptorPool* fPool; |
| |
| private: |
| static const uint32_t kMaxDescLimit = 1 << 10; |
| |
| void getNewPool(GrVkGpu* gpu); |
| }; |
| |
| void writeUniformBuffers(const GrVkGpu* gpu); |
| |
| void writeSamplers(GrVkGpu* gpu, const SkTArray<const GrTextureAccess*>& textureBindings, |
| bool allowSRGBInputs); |
| |
| /** |
| * We use the RT's size and origin to adjust from Skia device space to vulkan normalized device |
| * space and to make device space positions have the correct origin for processors that require |
| * them. |
| */ |
| struct RenderTargetState { |
| SkISize fRenderTargetSize; |
| GrSurfaceOrigin fRenderTargetOrigin; |
| |
| RenderTargetState() { this->invalidate(); } |
| void invalidate() { |
| fRenderTargetSize.fWidth = -1; |
| fRenderTargetSize.fHeight = -1; |
| fRenderTargetOrigin = (GrSurfaceOrigin)-1; |
| } |
| |
| /** |
| * Gets a vec4 that adjusts the position from Skia device coords to Vulkans normalized device |
| * coords. Assuming the transformed position, pos, is a homogeneous vec3, the vec, v, is |
| * applied as such: |
| * pos.x = dot(v.xy, pos.xz) |
| * pos.y = dot(v.zw, pos.yz) |
| */ |
| void getRTAdjustmentVec(float* destVec) { |
| destVec[0] = 2.f / fRenderTargetSize.fWidth; |
| destVec[1] = -1.f; |
| if (kBottomLeft_GrSurfaceOrigin == fRenderTargetOrigin) { |
| destVec[2] = -2.f / fRenderTargetSize.fHeight; |
| destVec[3] = 1.f; |
| } else { |
| destVec[2] = 2.f / fRenderTargetSize.fHeight; |
| destVec[3] = -1.f; |
| } |
| } |
| }; |
| |
| // Helper for setData() that sets the view matrix and loads the render target height uniform |
| void setRenderTargetState(const GrPipeline&); |
| |
| // GrVkResources |
| GrVkPipeline* fPipeline; |
| |
| // Used for binding DescriptorSets to the command buffer but does not need to survive during |
| // command buffer execution. Thus this is not need to be a GrVkResource. |
| VkPipelineLayout fPipelineLayout; |
| |
| // The DescriptorSets need to survive until the gpu has finished all draws that use them. |
| // However, they will only be freed by the descriptor pool. Thus by simply keeping the |
| // descriptor pool alive through the draw, the descritor sets will also stay alive. Thus we do |
| // not need a GrVkResource versions of VkDescriptorSet. We hold on to these in the |
| // GrVkPipelineState since we update the descriptor sets and bind them at separate times; |
| VkDescriptorSet fDescriptorSets[2]; |
| |
| // Meta data so we know which descriptor sets we are using and need to bind. |
| int fStartDS; |
| int fDSCount; |
| |
| SkAutoTDelete<GrVkUniformBuffer> fVertexUniformBuffer; |
| SkAutoTDelete<GrVkUniformBuffer> fFragmentUniformBuffer; |
| |
| // GrVkResources used for sampling textures |
| SkTDArray<GrVkSampler*> fSamplers; |
| SkTDArray<const GrVkImageView*> fTextureViews; |
| SkTDArray<const GrVkResource*> fTextures; |
| |
| // Tracks the current render target uniforms stored in the vertex buffer. |
| RenderTargetState fRenderTargetState; |
| BuiltinUniformHandles fBuiltinUniformHandles; |
| |
| // Processors in the GrVkPipelineState |
| SkAutoTDelete<GrGLSLPrimitiveProcessor> fGeometryProcessor; |
| SkAutoTDelete<GrGLSLXferProcessor> fXferProcessor; |
| GrGLSLFragProcs fFragmentProcessors; |
| |
| Desc fDesc; |
| |
| GrVkPipelineStateDataManager fDataManager; |
| |
| DescriptorPoolManager fSamplerPoolManager; |
| const GrVkDescriptorPool* fCurrentUniformDescPool; |
| |
| int fNumSamplers; |
| |
| friend class GrVkPipelineStateBuilder; |
| }; |
| |
| #endif |