kc3-lang/angle/src/libANGLE/renderer/vulkan/ProgramExecutableVk.h

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• Hash : fea19567
  Author :
  Date : 2022-05-17T17:44:06
  

  Vulkan: Remove removeEarlyFragmentTestsOpt flag
  
  * Removed removeEarlyFragmentTestsOptimization and the related
  SPIRV transformation and variables.
  * Removed mUsesEarlyFragmentTestsOptimization.
  * Removed SH_EARLY_FRAGMENT_TESTS_OPTIMIZATION.
  * Merged updateUsesEarlyFragmentTestsOptimization() into
  updateFragmentInoutRange().
  
  Bug: angleproject:7347
  Change-Id: I7299bd4e8ab5363e5cf06eb48419d4f469106e12
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/3648217
  Reviewed-by: Shahbaz Youssefi <syoussefi@chromium.org>
  Commit-Queue: Amirali Abdolrashidi <abdolrashidi@google.com>
  Reviewed-by: Jamie Madill <jmadill@chromium.org>
  Reviewed-by: Charlie Lao <cclao@google.com>
  

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• src/libANGLE/renderer/vulkan/ProgramExecutableVk.h

• //
  // Copyright 2020 The ANGLE Project Authors. All rights reserved.
  // Use of this source code is governed by a BSD-style license that can be
  // found in the LICENSE file.
  //
  
  // ProgramExecutableVk.h: Collects the information and interfaces common to both ProgramVks and
  // ProgramPipelineVks in order to execute/draw with either.
  
  #ifndef LIBANGLE_RENDERER_VULKAN_PROGRAMEXECUTABLEVK_H_
  #define LIBANGLE_RENDERER_VULKAN_PROGRAMEXECUTABLEVK_H_
  
  #include "common/bitset_utils.h"
  #include "common/mathutil.h"
  #include "common/utilities.h"
  #include "libANGLE/Context.h"
  #include "libANGLE/InfoLog.h"
  #include "libANGLE/renderer/ShaderInterfaceVariableInfoMap.h"
  #include "libANGLE/renderer/glslang_wrapper_utils.h"
  #include "libANGLE/renderer/vulkan/ContextVk.h"
  #include "libANGLE/renderer/vulkan/vk_cache_utils.h"
  #include "libANGLE/renderer/vulkan/vk_helpers.h"
  
  namespace rx
  {
  
  class ShaderInfo final : angle::NonCopyable
  {
    public:
      ShaderInfo();
      ~ShaderInfo();
  
      angle::Result initShaders(const gl::ShaderBitSet &linkedShaderStages,
                                const gl::ShaderMap<const angle::spirv::Blob *> &spirvBlobs,
                                const ShaderInterfaceVariableInfoMap &variableInfoMap);
      void initShaderFromProgram(gl::ShaderType shaderType, const ShaderInfo &programShaderInfo);
      void clear();
  
      ANGLE_INLINE bool valid() const { return mIsInitialized; }
  
      const gl::ShaderMap<angle::spirv::Blob> &getSpirvBlobs() const { return mSpirvBlobs; }
  
      // Save and load implementation for GLES Program Binary support.
      void load(gl::BinaryInputStream *stream);
      void save(gl::BinaryOutputStream *stream);
  
    private:
      gl::ShaderMap<angle::spirv::Blob> mSpirvBlobs;
      bool mIsInitialized = false;
  };
  
  struct ProgramTransformOptions final
  {
      uint8_t enableLineRasterEmulation : 1;
      uint8_t surfaceRotation : 3;
      uint8_t enableDepthCorrection : 1;
      uint8_t removeTransformFeedbackEmulation : 1;
      uint8_t reserved : 2;  // must initialize to zero
      static constexpr uint32_t kPermutationCount = 0x1 << 6;
  };
  static_assert(sizeof(ProgramTransformOptions) == 1, "Size check failed");
  static_assert(static_cast<int>(SurfaceRotation::EnumCount) <= 8, "Size check failed");
  
  class ProgramInfo final : angle::NonCopyable
  {
    public:
      ProgramInfo();
      ~ProgramInfo();
  
      angle::Result initProgram(ContextVk *contextVk,
                                gl::ShaderType shaderType,
                                bool isLastPreFragmentStage,
                                bool isTransformFeedbackProgram,
                                const ShaderInfo &shaderInfo,
                                ProgramTransformOptions optionBits,
                                const ShaderInterfaceVariableInfoMap &variableInfoMap);
      void release(ContextVk *contextVk);
  
      ANGLE_INLINE bool valid(gl::ShaderType shaderType) const
      {
          return mProgramHelper.valid(shaderType);
      }
  
      vk::ShaderProgramHelper *getShaderProgram() { return &mProgramHelper; }
  
    private:
      vk::ShaderProgramHelper mProgramHelper;
      gl::ShaderMap<vk::RefCounted<vk::ShaderAndSerial>> mShaders;
  };
  
  // State for the default uniform blocks.
  struct DefaultUniformBlock final : private angle::NonCopyable
  {
      DefaultUniformBlock();
      ~DefaultUniformBlock();
  
      // Shadow copies of the shader uniform data.
      angle::MemoryBuffer uniformData;
  
      // Since the default blocks are laid out in std140, this tells us where to write on a call
      // to a setUniform method. They are arranged in uniform location order.
      std::vector<sh::BlockMemberInfo> uniformLayout;
  };
  
  // Performance and resource counters.
  using DescriptorSetCountList   = angle::PackedEnumMap<DescriptorSetIndex, uint32_t>;
  using ImmutableSamplerIndexMap = angle::HashMap<vk::YcbcrConversionDesc, uint32_t>;
  
  using DefaultUniformBlockMap = gl::ShaderMap<std::shared_ptr<DefaultUniformBlock>>;
  
  class ProgramExecutableVk
  {
    public:
      ProgramExecutableVk();
      virtual ~ProgramExecutableVk();
  
      void reset(ContextVk *contextVk);
  
      void save(gl::BinaryOutputStream *stream);
      std::unique_ptr<rx::LinkEvent> load(ContextVk *contextVk,
                                          const gl::ProgramExecutable &glExecutable,
                                          gl::BinaryInputStream *stream);
  
      void clearVariableInfoMap();
  
      ProgramInfo &getGraphicsProgramInfo()
      {
          uint8_t index = gl::bitCast<uint8_t, ProgramTransformOptions>(mTransformOptions);
          return mGraphicsProgramInfos[index];
      }
      ProgramInfo &getComputeProgramInfo() { return mComputeProgramInfo; }
      vk::BufferSerial getCurrentDefaultUniformBufferSerial() const
      {
          return mCurrentDefaultUniformBufferSerial;
      }
  
      angle::Result getGraphicsPipeline(ContextVk *contextVk,
                                        gl::PrimitiveMode mode,
                                        const vk::GraphicsPipelineDesc &desc,
                                        const gl::ProgramExecutable &glExecutable,
                                        const vk::GraphicsPipelineDesc **descPtrOut,
                                        vk::PipelineHelper **pipelineOut);
  
      angle::Result getComputePipeline(ContextVk *contextVk, vk::PipelineHelper **pipelineOut);
  
      const vk::PipelineLayout &getPipelineLayout() const { return mPipelineLayout.get(); }
      angle::Result createPipelineLayout(ContextVk *contextVk,
                                         const gl::ProgramExecutable &glExecutable,
                                         gl::ActiveTextureArray<TextureVk *> *activeTextures);
  
      angle::Result updateTexturesDescriptorSet(vk::Context *context,
                                                const gl::ProgramExecutable &executable,
                                                const gl::ActiveTextureArray<TextureVk *> &textures,
                                                const gl::SamplerBindingVector &samplers,
                                                bool emulateSeamfulCubeMapSampling,
                                                PipelineType pipelineType,
                                                UpdateDescriptorSetsBuilder *updateBuilder,
                                                vk::ResourceUseList *resourceUseList,
                                                const vk::DescriptorSetDesc &texturesDesc);
      angle::Result updateShaderResourcesDescriptorSet(
          ContextVk *contextVk,
          UpdateDescriptorSetsBuilder *updateBuilder,
          vk::ResourceUseList *resourceUseList,
          const vk::DescriptorSetDescBuilder &shaderResourcesDesc);
      angle::Result updateUniformsAndXfbDescriptorSet(
          vk::Context *context,
          UpdateDescriptorSetsBuilder *updateBuilder,
          vk::ResourceUseList *resourceUseList,
          vk::BufferHelper *defaultUniformBuffer,
          const vk::DescriptorSetDescBuilder &uniformsAndXfbDesc);
  
      template <typename CommandBufferT>
      angle::Result bindDescriptorSets(vk::Context *context,
                                       vk::ResourceUseList *resourceUseList,
                                       CommandBufferT *commandBuffer,
                                       PipelineType pipelineType);
  
      bool usesDynamicUniformBufferDescriptors() const
      {
          return mUniformBufferDescriptorType == VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER_DYNAMIC;
      }
      VkDescriptorType getUniformBufferDescriptorType() const { return mUniformBufferDescriptorType; }
      bool usesDynamicShaderStorageBufferDescriptors() const { return false; }
      VkDescriptorType getStorageBufferDescriptorType() const
      {
          return VK_DESCRIPTOR_TYPE_STORAGE_BUFFER;
      }
      bool usesDynamicAtomicCounterBufferDescriptors() const { return false; }
  
      bool areImmutableSamplersCompatible(
          const ImmutableSamplerIndexMap &immutableSamplerIndexMap) const
      {
          return (mImmutableSamplerIndexMap == immutableSamplerIndexMap);
      }
  
      size_t getDefaultUniformAlignedSize(vk::Context *context, gl::ShaderType shaderType) const
      {
          RendererVk *renderer = context->getRenderer();
          size_t alignment     = static_cast<size_t>(
              renderer->getPhysicalDeviceProperties().limits.minUniformBufferOffsetAlignment);
          return roundUp(mDefaultUniformBlocks[shaderType]->uniformData.size(), alignment);
      }
  
      std::shared_ptr<DefaultUniformBlock> &getSharedDefaultUniformBlock(gl::ShaderType shaderType)
      {
          return mDefaultUniformBlocks[shaderType];
      }
  
      bool hasDirtyUniforms() const { return mDefaultUniformBlocksDirty.any(); }
  
      void setAllDefaultUniformsDirty(const gl::ProgramExecutable &executable);
      angle::Result updateUniforms(vk::Context *context,
                                   UpdateDescriptorSetsBuilder *updateBuilder,
                                   vk::ResourceUseList *resourceUseList,
                                   vk::BufferHelper *emptyBuffer,
                                   const gl::ProgramExecutable &glExecutable,
                                   vk::DynamicBuffer *defaultUniformStorage,
                                   bool isTransformFeedbackActiveUnpaused,
                                   TransformFeedbackVk *transformFeedbackVk);
      void onProgramBind(const gl::ProgramExecutable &glExecutable);
  
      const ShaderInterfaceVariableInfoMap &getVariableInfoMap() const { return mVariableInfoMap; }
  
    private:
      friend class ProgramVk;
      friend class ProgramPipelineVk;
  
      void addInterfaceBlockDescriptorSetDesc(const std::vector<gl::InterfaceBlock> &blocks,
                                              gl::ShaderType shaderType,
                                              ShaderVariableType variableType,
                                              VkDescriptorType descType,
                                              vk::DescriptorSetLayoutDesc *descOut);
      void addAtomicCounterBufferDescriptorSetDesc(
          const std::vector<gl::AtomicCounterBuffer> &atomicCounterBuffers,
          gl::ShaderType shaderType,
          vk::DescriptorSetLayoutDesc *descOut);
      void addImageDescriptorSetDesc(const gl::ProgramExecutable &executable,
                                     vk::DescriptorSetLayoutDesc *descOut);
      void addInputAttachmentDescriptorSetDesc(const gl::ProgramExecutable &executable,
                                               gl::ShaderType shaderType,
                                               vk::DescriptorSetLayoutDesc *descOut);
      angle::Result addTextureDescriptorSetDesc(
          ContextVk *contextVk,
          const gl::ProgramExecutable &executable,
          const gl::ActiveTextureArray<TextureVk *> *activeTextures,
          vk::DescriptorSetLayoutDesc *descOut);
  
      void resolvePrecisionMismatch(const gl::ProgramMergedVaryings &mergedVaryings);
  
      size_t calcUniformUpdateRequiredSpace(vk::Context *context,
                                            const gl::ProgramExecutable &glExecutable,
                                            gl::ShaderMap<VkDeviceSize> *uniformOffsets) const;
  
      ANGLE_INLINE angle::Result initProgram(ContextVk *contextVk,
                                             gl::ShaderType shaderType,
                                             bool isLastPreFragmentStage,
                                             bool isTransformFeedbackProgram,
                                             ProgramTransformOptions optionBits,
                                             ProgramInfo *programInfo,
                                             const ShaderInterfaceVariableInfoMap &variableInfoMap)
      {
          ASSERT(mOriginalShaderInfo.valid());
  
          // Create the program pipeline.  This is done lazily and once per combination of
          // specialization constants.
          if (!programInfo->valid(shaderType))
          {
              ANGLE_TRY(programInfo->initProgram(contextVk, shaderType, isLastPreFragmentStage,
                                                 isTransformFeedbackProgram, mOriginalShaderInfo,
                                                 optionBits, variableInfoMap));
          }
          ASSERT(programInfo->valid(shaderType));
  
          return angle::Result::Continue;
      }
  
      ANGLE_INLINE angle::Result initGraphicsShaderProgram(
          ContextVk *contextVk,
          gl::ShaderType shaderType,
          bool isLastPreFragmentStage,
          bool isTransformFeedbackProgram,
          ProgramTransformOptions optionBits,
          ProgramInfo *programInfo,
          const ShaderInterfaceVariableInfoMap &variableInfoMap)
      {
          return initProgram(contextVk, shaderType, isLastPreFragmentStage,
                             isTransformFeedbackProgram, optionBits, programInfo, variableInfoMap);
      }
  
      ANGLE_INLINE angle::Result initComputeProgram(
          ContextVk *contextVk,
          ProgramInfo *programInfo,
          const ShaderInterfaceVariableInfoMap &variableInfoMap)
      {
          ProgramTransformOptions optionBits = {};
          return initProgram(contextVk, gl::ShaderType::Compute, false, false, optionBits,
                             programInfo, variableInfoMap);
      }
  
      angle::Result resizeUniformBlockMemory(ContextVk *contextVk,
                                             const gl::ProgramExecutable &glExecutable,
                                             const gl::ShaderMap<size_t> &requiredBufferSize);
  
      angle::Result getOrAllocateDescriptorSet(vk::Context *context,
                                               UpdateDescriptorSetsBuilder *updateBuilder,
                                               vk::ResourceUseList *resourceUseList,
                                               const vk::DescriptorSetDescBuilder &descriptorSetDesc,
                                               DescriptorSetIndex setIndex);
  
      // Descriptor sets and pools for shader resources for this program.
      vk::DescriptorSetArray<VkDescriptorSet> mDescriptorSets;
      vk::DescriptorSetArray<VkDescriptorSet> mEmptyDescriptorSets;
      vk::DescriptorSetArray<vk::DescriptorPoolPointer> mDescriptorPools;
      vk::DescriptorSetArray<vk::RefCountedDescriptorPoolBinding> mDescriptorPoolBindings;
      uint32_t mNumDefaultUniformDescriptors;
      vk::BufferSerial mCurrentDefaultUniformBufferSerial;
  
      // We keep a reference to the pipeline and descriptor set layouts. This ensures they don't get
      // deleted while this program is in use.
      uint32_t mImmutableSamplersMaxDescriptorCount;
      ImmutableSamplerIndexMap mImmutableSamplerIndexMap;
      vk::BindingPointer<vk::PipelineLayout> mPipelineLayout;
      vk::DescriptorSetLayoutPointerArray mDescriptorSetLayouts;
  
      // A set of dynamic offsets used with vkCmdBindDescriptorSets for the default uniform buffers.
      VkDescriptorType mUniformBufferDescriptorType;
      gl::ShaderVector<uint32_t> mDynamicUniformDescriptorOffsets;
      std::vector<uint32_t> mDynamicShaderResourceDescriptorOffsets;
  
      ShaderInterfaceVariableInfoMap mVariableInfoMap;
  
      // We store all permutations of surface rotation and transformed SPIR-V programs here. We may
      // need some LRU algorithm to free least used programs to reduce the number of programs.
      ProgramInfo mGraphicsProgramInfos[ProgramTransformOptions::kPermutationCount];
      ProgramInfo mComputeProgramInfo;
  
      ProgramTransformOptions mTransformOptions;
  
      DefaultUniformBlockMap mDefaultUniformBlocks;
      gl::ShaderBitSet mDefaultUniformBlocksDirty;
  
      ShaderInfo mOriginalShaderInfo;
  };
  
  }  // namespace rx
  
  #endif  // LIBANGLE_RENDERER_VULKAN_PROGRAMEXECUTABLEVK_H_
  

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