kc3-lang/angle/src/libANGLE/renderer/wgpu/wgpu_utils.h

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• Hash : 03068e0c
  Author :
  Date : 2025-08-20T17:36:22
  

  [WebGPU] Implement direct copy for images.
  
  This CL implements CopyImage specifically in cases
  where the source is the same size and format as the
  destination.
  
  Bug: angleproject:438268609
  Change-Id: Icf5f3685bb2f49874d996883c839515314f1c189
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/6842317
  Commit-Queue: Liza Burakova <liza@chromium.org>
  Reviewed-by: Matthew Denton <mpdenton@chromium.org>
  Reviewed-by: Geoff Lang <geofflang@chromium.org>
  

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• src/libANGLE/renderer/wgpu/wgpu_utils.h

• //
  // Copyright 2024 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.
  //
  
  #ifndef LIBANGLE_RENDERER_WGPU_WGPU_UTILS_H_
  #define LIBANGLE_RENDERER_WGPU_WGPU_UTILS_H_
  
  #include <dawn/dawn_proc_table.h>
  #include <stdint.h>
  #include <webgpu/webgpu.h>
  #include <climits>
  
  #include "libANGLE/Caps.h"
  #include "libANGLE/Error.h"
  #include "libANGLE/angletypes.h"
  
  #define ANGLE_WGPU_TRY(context, command)                                                     \
      do                                                                                       \
      {                                                                                        \
          auto ANGLE_LOCAL_VAR = command;                                                      \
          if (ANGLE_UNLIKELY(::rx::webgpu::IsWgpuError(ANGLE_LOCAL_VAR)))                      \
          {                                                                                    \
              (context)->handleError(GL_INVALID_OPERATION, "Internal WebGPU error.", __FILE__, \
                                     ANGLE_FUNCTION, __LINE__);                                \
              return angle::Result::Stop;                                                      \
          }                                                                                    \
      } while (0)
  
  #define ANGLE_WGPU_BEGIN_DEBUG_ERROR_SCOPE(context)                            \
      ::rx::webgpu::DebugErrorScope(context->getProcs(), context->getInstance(), \
                                    context->getDevice(), WGPUErrorFilter_Validation)
  #define ANGLE_WGPU_END_DEBUG_ERROR_SCOPE(context, scope) \
      ANGLE_TRY(scope.PopScope(context, __FILE__, ANGLE_FUNCTION, __LINE__))
  
  #define ANGLE_WGPU_SCOPED_DEBUG_TRY(context, command)                                            \
      do                                                                                           \
      {                                                                                            \
          ::rx::webgpu::DebugErrorScope _errorScope = ANGLE_WGPU_BEGIN_DEBUG_ERROR_SCOPE(context); \
          (command);                                                                               \
          ANGLE_WGPU_END_DEBUG_ERROR_SCOPE(context, _errorScope);                                  \
      } while (0)
  
  #define ANGLE_GL_OBJECTS_X(PROC) \
      PROC(Buffer)                 \
      PROC(Context)                \
      PROC(Framebuffer)            \
      PROC(Query)                  \
      PROC(Program)                \
      PROC(ProgramExecutable)      \
      PROC(Renderbuffer)           \
      PROC(Sampler)                \
      PROC(Texture)                \
      PROC(TransformFeedback)      \
      PROC(VertexArray)
  
  #define ANGLE_EGL_OBJECTS_X(PROC) \
      PROC(Display)                 \
      PROC(ExternalImageSibling)    \
      PROC(Image)                   \
      PROC(Surface)                 \
      PROC(Sync)
  
  #define ANGLE_WGPU_OBJECTS_X(PROC)                 \
      PROC(Adapter, adapter)                         \
      PROC(BindGroup, bindGroup)                     \
      PROC(BindGroupLayout, bindGroupLayout)         \
      PROC(Buffer, buffer)                           \
      PROC(CommandBuffer, commandBuffer)             \
      PROC(CommandEncoder, commandEncoder)           \
      PROC(ComputePassEncoder, computePassEncoder)   \
      PROC(ComputePipeline, computePipeline)         \
      PROC(Device, device)                           \
      PROC(ExternalTexture, externalTexture)         \
      PROC(Instance, instance)                       \
      PROC(PipelineLayout, pipelineLayout)           \
      PROC(QuerySet, querySet)                       \
      PROC(Queue, queue)                             \
      PROC(RenderBundle, renderBundle)               \
      PROC(RenderBundleEncoder, renderBundleEncoder) \
      PROC(RenderPassEncoder, renderPassEncoder)     \
      PROC(RenderPipeline, renderPipeline)           \
      PROC(Sampler, sampler)                         \
      PROC(ShaderModule, shaderModule)               \
      PROC(SharedBufferMemory, sharedBufferMemory)   \
      PROC(SharedFence, sharedFence)                 \
      PROC(SharedTextureMemory, sharedTextureMemory) \
      PROC(Surface, surface)                         \
      PROC(Texture, texture)                         \
      PROC(TextureView, textureView)
  
  namespace gl
  {
  #define ANGLE_PRE_DECLARE_GL_OBJECT(OBJ) class OBJ;
  ANGLE_GL_OBJECTS_X(ANGLE_PRE_DECLARE_GL_OBJECT)
  }  // namespace gl
  
  namespace egl
  {
  #define ANGLE_PRE_DECLARE_EGL_OBJECT(OBJ) class OBJ;
  ANGLE_EGL_OBJECTS_X(ANGLE_PRE_DECLARE_EGL_OBJECT)
  }  // namespace egl
  
  namespace angle
  {
  struct FeaturesWgpu;
  }
  
  namespace rx
  {
  
  class ContextWgpu;
  class DisplayWgpu;
  
  #define ANGLE_PRE_DECLARE_WGPU_OBJECT(OBJ) class OBJ##Wgpu;
  
  ANGLE_GL_OBJECTS_X(ANGLE_PRE_DECLARE_WGPU_OBJECT)
  ANGLE_EGL_OBJECTS_X(ANGLE_PRE_DECLARE_WGPU_OBJECT)
  
  namespace webgpu
  {
  #define ANGLE_DECLARE_WGPU_HANDLE_REF_FUNCS(OBJ, obj)                           \
      inline void AddRefWGPUCHandle(const DawnProcTable *wgpu, WGPU##OBJ handle)  \
      {                                                                           \
          if (handle)                                                             \
          {                                                                       \
              ASSERT(wgpu != nullptr);                                            \
              wgpu->obj##AddRef(handle);                                          \
          }                                                                       \
      }                                                                           \
                                                                                  \
      inline void ReleaseWGPUCHandle(const DawnProcTable *wgpu, WGPU##OBJ handle) \
      {                                                                           \
          if (handle)                                                             \
          {                                                                       \
              ASSERT(wgpu != nullptr);                                            \
              wgpu->obj##Release(handle);                                         \
          }                                                                       \
      }
  
  ANGLE_WGPU_OBJECTS_X(ANGLE_DECLARE_WGPU_HANDLE_REF_FUNCS)
  #undef ANGLE_DECLARE_WGPU_HANDLE_REF_FUNCS
  
  template <typename CType>
  class WrapperBase
  {
    public:
      using ObjectType = CType;
  
      WrapperBase() = default;
      WrapperBase(const WrapperBase<CType> &other)
          : mProcTable(other.mProcTable), mHandle(other.mHandle)
      {
          AddRefWGPUCHandle(mProcTable, mHandle);
      }
  
      ~WrapperBase() { ReleaseWGPUCHandle(mProcTable, mHandle); }
  
      WrapperBase<CType> &operator=(const WrapperBase<CType> &other)
      {
          if (&other != this)
          {
              ReleaseWGPUCHandle(mProcTable, mHandle);
              mProcTable = other.mProcTable;
              mHandle    = other.mHandle;
              AddRefWGPUCHandle(mProcTable, mHandle);
          }
          return *this;
      }
  
      WrapperBase(WrapperBase<CType> &&other)
      {
          mProcTable       = other.mProcTable;
          mHandle          = other.mHandle;
          other.mProcTable = nullptr;
          other.mHandle    = nullptr;
      }
  
      WrapperBase &operator=(WrapperBase<CType> &&other)
      {
          if (&other != this)
          {
              ReleaseWGPUCHandle(mProcTable, mHandle);
              mProcTable       = other.mProcTable;
              mHandle          = other.mHandle;
              other.mProcTable = nullptr;
              other.mHandle    = nullptr;
          }
          return *this;
      }
  
      WrapperBase(std::nullptr_t) {}
  
      WrapperBase &operator=(std::nullptr_t)
      {
          ReleaseWGPUCHandle(mProcTable, mHandle);
          mProcTable = nullptr;
          mHandle    = nullptr;
          return *this;
      }
  
      bool operator==(const WrapperBase<CType> &other) const { return mHandle == other.mHandle; }
  
      bool operator!=(const WrapperBase<CType> &other) const { return !(*this == other); }
  
      bool operator==(std::nullptr_t) const { return mHandle == nullptr; }
  
      bool operator!=(std::nullptr_t) const { return mHandle != nullptr; }
  
      explicit operator bool() const { return mHandle != nullptr; }
  
      const CType &get() const { return mHandle; }
  
      static WrapperBase<CType> Acquire(const DawnProcTable *procTable, CType handle)
      {
          WrapperBase<CType> result;
          result.mHandle    = handle;
          result.mProcTable = procTable;
          return result;
      }
  
      size_t hash() const
      {
          std::hash<CType> hasher;
          return hasher(mHandle);
      }
  
    private:
      const DawnProcTable *mProcTable = nullptr;
      CType mHandle                   = nullptr;
  };
  
  #define ANGLE_DECLARE_WGPU_OBJECT_WRAPPER(OBJ, obj) using OBJ##Handle = WrapperBase<WGPU##OBJ>;
  
  ANGLE_WGPU_OBJECTS_X(ANGLE_DECLARE_WGPU_OBJECT_WRAPPER)
  #undef ANGLE_DECLARE_WGPU_OBJECT_WRAPPER
  
  template <typename T>
  struct ImplTypeHelper;
  
  #define ANGLE_IMPL_TYPE_HELPER(frontendNamespace, OBJ) \
      template <>                                        \
      struct ImplTypeHelper<frontendNamespace::OBJ>      \
      {                                                  \
          using ImplType = rx::OBJ##Wgpu;                \
      };
  #define ANGLE_IMPL_TYPE_HELPER_GL(OBJ) ANGLE_IMPL_TYPE_HELPER(gl, OBJ)
  #define ANGLE_IMPL_TYPE_HELPER_EGL(OBJ) ANGLE_IMPL_TYPE_HELPER(egl, OBJ)
  
  ANGLE_GL_OBJECTS_X(ANGLE_IMPL_TYPE_HELPER_GL)
  ANGLE_EGL_OBJECTS_X(ANGLE_IMPL_TYPE_HELPER_EGL)
  
  #undef ANGLE_IMPL_TYPE_HELPER_GL
  #undef ANGLE_IMPL_TYPE_HELPER_EGL
  
  template <typename T>
  using GetImplType = typename ImplTypeHelper<T>::ImplType;
  
  template <typename T>
  GetImplType<T> *GetImpl(const T *glObject)
  {
      return GetImplAs<GetImplType<T>>(glObject);
  }
  
  constexpr size_t kUnpackedDepthIndex   = gl::IMPLEMENTATION_MAX_DRAW_BUFFERS;
  constexpr size_t kUnpackedStencilIndex = gl::IMPLEMENTATION_MAX_DRAW_BUFFERS + 1;
  constexpr uint32_t kUnpackedColorBuffersMask =
      angle::BitMask<uint32_t>(gl::IMPLEMENTATION_MAX_DRAW_BUFFERS);
  // WebGPU image level index.
  using LevelIndex = gl::LevelIndexWrapper<uint32_t>;
  
  class ErrorScope : public angle::NonCopyable
  {
    public:
      ErrorScope(const DawnProcTable *procTable,
                 webgpu::InstanceHandle instance,
                 webgpu::DeviceHandle device,
                 WGPUErrorFilter errorType);
      ~ErrorScope();
  
      angle::Result PopScope(ContextWgpu *context,
                             const char *file,
                             const char *function,
                             unsigned int line);
  
    private:
      const DawnProcTable *mProcTable = nullptr;
      webgpu::InstanceHandle mInstance;
      webgpu::DeviceHandle mDevice;
      bool mActive = false;
  };
  
  class NoOpErrorScope : public angle::NonCopyable
  {
    public:
      NoOpErrorScope(const DawnProcTable *procTable,
                     webgpu::InstanceHandle instance,
                     webgpu::DeviceHandle device,
                     WGPUErrorFilter errorType)
      {}
      ~NoOpErrorScope() {}
  
      angle::Result PopScope(ContextWgpu *context,
                             const char *file,
                             const char *function,
                             unsigned int line)
      {
          return angle::Result::Continue;
      }
  };
  
  #if defined(ANGLE_ENABLE_ASSERTS)
  using DebugErrorScope = ErrorScope;
  #else
  using DebugErrorScope = NoOpErrorScope;
  #endif
  
  enum class RenderPassClosureReason
  {
      NewRenderPass,
      FramebufferBindingChange,
      FramebufferInternalChange,
      GLFlush,
      GLFinish,
      EGLSwapBuffers,
      GLReadPixels,
      IndexRangeReadback,
      VertexArrayStreaming,
      VertexArrayLineLoop,
      CopyBufferToTexture,
      CopyTextureToTexture,
  
      InvalidEnum,
      EnumCount = InvalidEnum,
  };
  
  struct ClearValues
  {
      gl::ColorF clearColor;
      uint32_t depthSlice;
      float depthValue;
      uint32_t stencilValue;
  };
  
  class ClearValuesArray final
  {
    public:
      ClearValuesArray();
      ~ClearValuesArray();
  
      ClearValuesArray(const ClearValuesArray &other);
      ClearValuesArray &operator=(const ClearValuesArray &rhs);
  
      void store(uint32_t index, const ClearValues &clearValues);
  
      gl::DrawBufferMask getColorMask() const;
      void reset()
      {
          mValues.fill({});
          mEnabled.reset();
      }
      void reset(size_t index)
      {
          mValues[index] = {};
          mEnabled.reset(index);
      }
      void resetDepth()
      {
          mValues[kUnpackedDepthIndex] = {};
          mEnabled.reset(kUnpackedDepthIndex);
      }
      void resetStencil()
      {
          mValues[kUnpackedStencilIndex] = {};
          mEnabled.reset(kUnpackedStencilIndex);
      }
      const ClearValues &operator[](size_t index) const { return mValues[index]; }
  
      bool empty() const { return mEnabled.none(); }
      bool any() const { return mEnabled.any(); }
  
      bool test(size_t index) const { return mEnabled.test(index); }
  
      float getDepthValue() const { return mValues[kUnpackedDepthIndex].depthValue; }
      uint32_t getStencilValue() const { return mValues[kUnpackedStencilIndex].stencilValue; }
      bool hasDepth() const { return mEnabled.test(kUnpackedDepthIndex); }
      bool hasStencil() const { return mEnabled.test(kUnpackedStencilIndex); }
  
    private:
      gl::AttachmentArray<ClearValues> mValues;
      gl::AttachmentsMask mEnabled;
  };
  
  struct PackedRenderPassColorAttachment
  {
      TextureViewHandle view;
      uint32_t depthSlice = WGPU_DEPTH_SLICE_UNDEFINED;
      WGPULoadOp loadOp   = WGPULoadOp_Undefined;
      WGPUStoreOp storeOp = WGPUStoreOp_Undefined;
      gl::ColorF clearValue;
  };
  
  bool operator==(const PackedRenderPassColorAttachment &a, const PackedRenderPassColorAttachment &b);
  
  struct PackedRenderPassDepthStencilAttachment
  {
      TextureViewHandle view;
      WGPULoadOp depthLoadOp     = WGPULoadOp_Undefined;
      WGPUStoreOp depthStoreOp   = WGPUStoreOp_Undefined;
      bool depthReadOnly         = false;
      float depthClearValue      = NAN;
      WGPULoadOp stencilLoadOp   = WGPULoadOp_Undefined;
      WGPUStoreOp stencilStoreOp = WGPUStoreOp_Undefined;
      bool stencilReadOnly       = false;
      uint32_t stencilClearValue = 0;
  };
  
  bool operator==(const PackedRenderPassDepthStencilAttachment &a,
                  const PackedRenderPassDepthStencilAttachment &b);
  
  struct PackedRenderPassDescriptor
  {
      angle::FixedVector<PackedRenderPassColorAttachment, gl::IMPLEMENTATION_MAX_DRAW_BUFFERS>
          colorAttachments;
      std::optional<PackedRenderPassDepthStencilAttachment> depthStencilAttachment;
  };
  
  bool operator==(const PackedRenderPassDescriptor &a, const PackedRenderPassDescriptor &b);
  bool operator!=(const PackedRenderPassDescriptor &a, const PackedRenderPassDescriptor &b);
  
  RenderPassEncoderHandle CreateRenderPass(const DawnProcTable *wgpu,
                                           webgpu::CommandEncoderHandle commandEncoder,
                                           const webgpu::PackedRenderPassDescriptor &desc);
  
  void GenerateCaps(const WGPULimits &limitWgpu,
                    gl::Caps *glCaps,
                    gl::TextureCapsMap *glTextureCapsMap,
                    gl::Extensions *glExtensions,
                    gl::Limitations *glLimitations,
                    egl::Caps *eglCaps,
                    egl::DisplayExtensions *eglExtensions,
                    gl::Version *maxSupportedESVersion);
  
  DisplayWgpu *GetDisplay(const gl::Context *context);
  const DawnProcTable *GetProcs(const gl::Context *context);
  const DawnProcTable *GetProcs(const ContextWgpu *context);
  const angle::FeaturesWgpu &GetFeatures(const gl::Context *context);
  const angle::FeaturesWgpu &GetFeatures(const ContextWgpu *context);
  webgpu::DeviceHandle GetDevice(const gl::Context *context);
  webgpu::InstanceHandle GetInstance(const gl::Context *context);
  PackedRenderPassColorAttachment CreateNewClearColorAttachment(const gl::ColorF &clearValue,
                                                                uint32_t depthSlice,
                                                                TextureViewHandle textureView);
  PackedRenderPassDepthStencilAttachment CreateNewDepthStencilAttachment(
      float depthClearValue,
      uint32_t stencilClearValue,
      TextureViewHandle textureView,
      bool hasDepthValue   = false,
      bool hasStencilValue = false);
  
  bool IsWgpuError(WGPUWaitStatus waitStatus);
  bool IsWgpuError(WGPUMapAsyncStatus mapAsyncStatus);
  
  bool IsStripPrimitiveTopology(WGPUPrimitiveTopology topology);
  
  // Required alignments for buffer sizes and mapping
  constexpr size_t kBufferSizeAlignment         = 4;
  constexpr size_t kBufferCopyToBufferAlignment = 4;
  constexpr size_t kBufferMapSizeAlignment   = kBufferSizeAlignment;
  constexpr size_t kBufferMapOffsetAlignment = 8;
  
  // Required alignments for texture row uploads
  constexpr size_t kTextureRowSizeAlignment = 256;
  
  // Structs in WGPU's uniform address space are always aligned to 16. I.e. RequiredAlignOf(struct S,
  // uniform) = roundUp(16, AlignOf(S)) and AlignOf(S) is at most 16.
  constexpr size_t kUniformStructAlignment = 16;
  
  // min and max LOD clamp values.
  constexpr float kWGPUMinLod = 0.0;
  constexpr float kWGPUMaxLod = 32.0;
  
  }  // namespace webgpu
  
  namespace wgpu_gl
  {
  gl::LevelIndex GetLevelIndex(webgpu::LevelIndex levelWgpu, gl::LevelIndex baseLevel);
  gl::Extents GetExtents(WGPUExtent3D wgpuExtent);
  }  // namespace wgpu_gl
  
  namespace gl_wgpu
  {
  webgpu::LevelIndex getLevelIndex(gl::LevelIndex levelGl, gl::LevelIndex baseLevel);
  WGPUTextureViewDimension GetWgpuTextureViewDimension(gl::TextureType textureType);
  WGPUTextureDimension GetWgpuTextureDimension(gl::TextureType glTextureType);
  WGPUExtent3D GetExtent3D(const gl::Extents &glExtent);
  
  WGPUPrimitiveTopology GetPrimitiveTopology(gl::PrimitiveMode mode);
  
  WGPUIndexFormat GetIndexFormat(gl::DrawElementsType drawElementsTYpe);
  WGPUFrontFace GetFrontFace(GLenum frontFace);
  WGPUCullMode GetCullMode(gl::CullFaceMode mode, bool cullFaceEnabled);
  WGPUColorWriteMask GetColorWriteMask(bool r, bool g, bool b, bool a);
  
  WGPUBlendFactor GetBlendFactor(gl::BlendFactorType blendFactor);
  WGPUBlendOperation GetBlendEquation(gl::BlendEquationType blendEquation);
  
  WGPUCompareFunction GetCompareFunc(const GLenum glCompareFunc, bool testEnabled);
  WGPUTextureSampleType GetTextureSampleType(gl::SamplerFormat samplerFormat);
  WGPUStencilOperation GetStencilOp(const GLenum glStencilOp);
  WGPUFilterMode GetFilter(const GLenum filter);
  WGPUMipmapFilterMode GetSamplerMipmapMode(const GLenum filter);
  WGPUAddressMode GetSamplerAddressMode(const GLenum wrap);
  
  WGPUSamplerDescriptor GetWgpuSamplerDesc(const gl::SamplerState *samplerState);
  
  uint32_t GetFirstIndexForDrawCall(gl::DrawElementsType indexType, const void *indices);
  }  // namespace gl_wgpu
  
  // Number of reserved binding slots to implement the default uniform block
  constexpr uint32_t kReservedPerStageDefaultUniformSlotCount = 0;
  
  }  // namespace rx
  
  namespace std
  {
  template <typename CType>
  struct hash<rx::webgpu::WrapperBase<CType>>
  {
      size_t operator()(const rx::webgpu::WrapperBase<CType> &obj) const { return obj.hash(); }
  };
  }  // namespace std
  
  #endif  // LIBANGLE_RENDERER_WGPU_WGPU_UTILS_H_
  

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