kc3-lang/angle/src/libANGLE/renderer/d3d/d3d11/renderer11_utils.h

• Show log

  Commit

• Hash : 7b62e4f5
  Author :
  Date : 2023-11-06T00:00:00
  

  D3D11: Avoid GLenum conversions in GetBlendStateKey
  
  Bug: b/300968773
  Change-Id: Ia41f77e686e0f1afc91381e29334f73859868129
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/5009815
  Commit-Queue: Alexey Knyazev <lexa.knyazev@gmail.com>
  Reviewed-by: Shahbaz Youssefi <syoussefi@chromium.org>
  

Download

• src/libANGLE/renderer/d3d/d3d11/renderer11_utils.h

• //
  // Copyright 2012 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.
  //
  
  // renderer11_utils.h: Conversion functions and other utility routines
  // specific to the D3D11 renderer.
  
  #ifndef LIBANGLE_RENDERER_D3D_D3D11_RENDERER11_UTILS_H_
  #define LIBANGLE_RENDERER_D3D_D3D11_RENDERER11_UTILS_H_
  
  #include <array>
  #include <functional>
  #include <vector>
  
  #include "common/Color.h"
  
  #include "libANGLE/Caps.h"
  #include "libANGLE/Error.h"
  #include "libANGLE/renderer/d3d/RendererD3D.h"
  #include "libANGLE/renderer/d3d/d3d11/ResourceManager11.h"
  #include "libANGLE/renderer/d3d/d3d11/texture_format_table.h"
  
  namespace gl
  {
  class FramebufferAttachment;
  }
  
  namespace rx
  {
  class Context11;
  class Renderer11;
  class RenderTarget11;
  struct Renderer11DeviceCaps;
  
  using RTVArray = std::array<ID3D11RenderTargetView *, gl::IMPLEMENTATION_MAX_DRAW_BUFFERS>;
  
  namespace gl_d3d11
  {
  
  D3D11_BLEND ConvertBlendFunc(gl::BlendFactorType glBlend, bool isAlpha);
  D3D11_BLEND_OP ConvertBlendOp(gl::BlendEquationType glBlendOp);
  UINT8 ConvertColorMask(bool maskRed, bool maskGreen, bool maskBlue, bool maskAlpha);
  
  D3D11_CULL_MODE ConvertCullMode(bool cullEnabled, gl::CullFaceMode cullMode);
  
  D3D11_COMPARISON_FUNC ConvertComparison(GLenum comparison);
  D3D11_DEPTH_WRITE_MASK ConvertDepthMask(bool depthWriteEnabled);
  UINT8 ConvertStencilMask(GLuint stencilmask);
  D3D11_STENCIL_OP ConvertStencilOp(GLenum stencilOp);
  
  D3D11_FILTER ConvertFilter(GLenum minFilter,
                             GLenum magFilter,
                             float maxAnisotropy,
                             GLenum comparisonMode);
  D3D11_TEXTURE_ADDRESS_MODE ConvertTextureWrap(GLenum wrap);
  UINT ConvertMaxAnisotropy(float maxAnisotropy, D3D_FEATURE_LEVEL featureLevel);
  
  D3D11_QUERY ConvertQueryType(gl::QueryType type);
  
  UINT8 GetColorMask(const gl::InternalFormat &formatInfo);
  
  }  // namespace gl_d3d11
  
  namespace d3d11_gl
  {
  
  unsigned int GetReservedVertexUniformVectors(D3D_FEATURE_LEVEL featureLevel);
  
  unsigned int GetReservedFragmentUniformVectors(D3D_FEATURE_LEVEL featureLevel);
  
  gl::Version GetMaximumClientVersion(const Renderer11DeviceCaps &caps);
  void GenerateCaps(ID3D11Device *device,
                    ID3D11DeviceContext *deviceContext,
                    const Renderer11DeviceCaps &renderer11DeviceCaps,
                    const angle::FeaturesD3D &features,
                    const char *description,
                    gl::Caps *caps,
                    gl::TextureCapsMap *textureCapsMap,
                    gl::Extensions *extensions,
                    gl::Limitations *limitations,
                    ShPixelLocalStorageOptions *);
  
  D3D_FEATURE_LEVEL GetMinimumFeatureLevelForES31();
  
  }  // namespace d3d11_gl
  
  namespace d3d11
  {
  
  enum ANGLED3D11DeviceType
  {
      ANGLE_D3D11_DEVICE_TYPE_UNKNOWN,
      ANGLE_D3D11_DEVICE_TYPE_HARDWARE,
      ANGLE_D3D11_DEVICE_TYPE_SOFTWARE_REF_OR_NULL,
      ANGLE_D3D11_DEVICE_TYPE_WARP,
  };
  
  ANGLED3D11DeviceType GetDeviceType(ID3D11Device *device);
  
  void MakeValidSize(bool isImage,
                     DXGI_FORMAT format,
                     GLsizei *requestWidth,
                     GLsizei *requestHeight,
                     int *levelOffset);
  
  angle::Result GenerateInitialTextureData(
      const gl::Context *context,
      GLint internalFormat,
      const Renderer11DeviceCaps &renderer11DeviceCaps,
      GLuint width,
      GLuint height,
      GLuint depth,
      GLuint mipLevels,
      gl::TexLevelArray<D3D11_SUBRESOURCE_DATA> *outSubresourceData);
  
  UINT GetPrimitiveRestartIndex();
  
  struct PositionTexCoordVertex
  {
      float x, y;
      float u, v;
  };
  void SetPositionTexCoordVertex(PositionTexCoordVertex *vertex, float x, float y, float u, float v);
  
  struct PositionLayerTexCoord3DVertex
  {
      float x, y;
      unsigned int l;
      float u, v, s;
  };
  void SetPositionLayerTexCoord3DVertex(PositionLayerTexCoord3DVertex *vertex,
                                        float x,
                                        float y,
                                        unsigned int layer,
                                        float u,
                                        float v,
                                        float s);
  
  struct PositionVertex
  {
      float x, y, z, w;
  };
  
  struct BlendStateKey final
  {
      // This will zero-initialize the struct, including padding.
      BlendStateKey();
      BlendStateKey(const BlendStateKey &other);
  
      gl::BlendStateExt blendStateExt;
  
      // Use two 16-bit ints to round the struct nicely.
      uint16_t rtvMax;
      uint16_t sampleAlphaToCoverage;
  };
  
  bool operator==(const BlendStateKey &a, const BlendStateKey &b);
  bool operator!=(const BlendStateKey &a, const BlendStateKey &b);
  
  struct RasterizerStateKey final
  {
      // This will zero-initialize the struct, including padding.
      RasterizerStateKey();
  
      gl::RasterizerState rasterizerState;
  
      // Use a 32-bit int to round the struct nicely.
      uint32_t scissorEnabled;
  };
  
  bool operator==(const RasterizerStateKey &a, const RasterizerStateKey &b);
  bool operator!=(const RasterizerStateKey &a, const RasterizerStateKey &b);
  
  template <typename outType>
  outType *DynamicCastComObject(IUnknown *object)
  {
      outType *outObject = nullptr;
      HRESULT result =
          object->QueryInterface(__uuidof(outType), reinterpret_cast<void **>(&outObject));
      if (SUCCEEDED(result))
      {
          return outObject;
      }
      else
      {
          SafeRelease(outObject);
          return nullptr;
      }
  }
  
  inline bool isDeviceLostError(HRESULT errorCode)
  {
      switch (errorCode)
      {
          case DXGI_ERROR_DEVICE_HUNG:
          case DXGI_ERROR_DEVICE_REMOVED:
          case DXGI_ERROR_DEVICE_RESET:
          case DXGI_ERROR_DRIVER_INTERNAL_ERROR:
          case DXGI_ERROR_NOT_CURRENTLY_AVAILABLE:
              return true;
          default:
              return false;
      }
  }
  
  template <ResourceType ResourceT>
  class LazyResource : angle::NonCopyable
  {
    public:
      constexpr LazyResource() : mResource() {}
      virtual ~LazyResource() {}
  
      virtual angle::Result resolve(d3d::Context *context, Renderer11 *renderer) = 0;
      void reset() { mResource.reset(); }
      GetD3D11Type<ResourceT> *get() const
      {
          ASSERT(mResource.valid());
          return mResource.get();
      }
  
      const Resource11<GetD3D11Type<ResourceT>> &getObj() const { return mResource; }
  
    protected:
      LazyResource(LazyResource &&other) : mResource(std::move(other.mResource)) {}
  
      // Specialized in the cpp file to avoid MSVS/Clang specific code.
      angle::Result resolveImpl(d3d::Context *context,
                                Renderer11 *renderer,
                                const GetDescType<ResourceT> &desc,
                                GetInitDataType<ResourceT> *initData,
                                const char *name);
  
      Resource11<GetD3D11Type<ResourceT>> mResource;
  };
  
  template <typename D3D11ShaderType>
  class LazyShader final : public LazyResource<GetResourceTypeFromD3D11<D3D11ShaderType>()>
  {
    public:
      // All parameters must be constexpr. Not supported in VS2013.
      constexpr LazyShader(const BYTE *byteCode, size_t byteCodeSize, const char *name)
          : mByteCode(byteCode, byteCodeSize), mName(name)
      {}
  
      constexpr LazyShader(LazyShader &&shader)
          : LazyResource<GetResourceTypeFromD3D11<D3D11ShaderType>()>(std::move(shader)),
            mByteCode(std::move(shader.mByteCode)),
            mName(shader.mName)
      {}
  
      angle::Result resolve(d3d::Context *context, Renderer11 *renderer) override
      {
          return this->resolveImpl(context, renderer, mByteCode, nullptr, mName);
      }
  
    private:
      ShaderData mByteCode;
      const char *mName;
  };
  
  class LazyInputLayout final : public LazyResource<ResourceType::InputLayout>
  {
    public:
      LazyInputLayout(const D3D11_INPUT_ELEMENT_DESC *inputDesc,
                      size_t inputDescLen,
                      const BYTE *byteCode,
                      size_t byteCodeLen,
                      const char *debugName);
      ~LazyInputLayout() override;
  
      angle::Result resolve(d3d::Context *context, Renderer11 *renderer) override;
  
    private:
      InputElementArray mInputDesc;
      ShaderData mByteCode;
      const char *mDebugName;
  };
  
  class LazyBlendState final : public LazyResource<ResourceType::BlendState>
  {
    public:
      LazyBlendState(const D3D11_BLEND_DESC &desc, const char *debugName);
  
      angle::Result resolve(d3d::Context *context, Renderer11 *renderer) override;
  
    private:
      D3D11_BLEND_DESC mDesc;
      const char *mDebugName;
  };
  
  // Copy data to small D3D11 buffers, such as for small constant buffers, which use one struct to
  // represent an entire buffer.
  template <class T>
  void SetBufferData(ID3D11DeviceContext *context, ID3D11Buffer *constantBuffer, const T &value)
  {
      D3D11_MAPPED_SUBRESOURCE mappedResource = {};
      HRESULT result = context->Map(constantBuffer, 0, D3D11_MAP_WRITE_DISCARD, 0, &mappedResource);
      ASSERT(SUCCEEDED(result));
      if (SUCCEEDED(result))
      {
          memcpy(mappedResource.pData, &value, sizeof(T));
          context->Unmap(constantBuffer, 0);
      }
  }
  
  void InitializeFeatures(const Renderer11DeviceCaps &deviceCaps,
                          const DXGI_ADAPTER_DESC &adapterDesc,
                          angle::FeaturesD3D *features);
  
  void InitializeFrontendFeatures(const DXGI_ADAPTER_DESC &adapterDesc,
                                  angle::FrontendFeatures *features);
  
  enum ReservedConstantBufferSlot
  {
      RESERVED_CONSTANT_BUFFER_SLOT_DEFAULT_UNIFORM_BLOCK = 0,
      RESERVED_CONSTANT_BUFFER_SLOT_DRIVER                = 1,
  
      RESERVED_CONSTANT_BUFFER_SLOT_COUNT = 2
  };
  
  void InitConstantBufferDesc(D3D11_BUFFER_DESC *constantBufferDescription, size_t byteWidth);
  
  // Helper class for RAII patterning.
  template <typename T>
  class [[nodiscard]] ScopedUnmapper final : angle::NonCopyable
  {
    public:
      ScopedUnmapper(T *object) : mObject(object) {}
      ~ScopedUnmapper() { mObject->unmap(); }
  
    private:
      T *mObject;
  };
  }  // namespace d3d11
  
  struct GenericData
  {
      GenericData() {}
      ~GenericData()
      {
          if (object)
          {
              // We can have a nullptr factory when holding passed-in resources.
              if (manager)
              {
                  manager->onReleaseGeneric(resourceType, object);
                  manager = nullptr;
              }
              object->Release();
              object = nullptr;
          }
      }
  
      ResourceType resourceType  = ResourceType::Last;
      ID3D11Resource *object     = nullptr;
      ResourceManager11 *manager = nullptr;
  };
  
  // A helper class which wraps a 2D or 3D texture.
  class TextureHelper11 : public Resource11Base<ID3D11Resource, std::shared_ptr, GenericData>
  {
    public:
      TextureHelper11();
      TextureHelper11(TextureHelper11 &&other);
      TextureHelper11(const TextureHelper11 &other);
      ~TextureHelper11() override;
      TextureHelper11 &operator=(TextureHelper11 &&other);
      TextureHelper11 &operator=(const TextureHelper11 &other);
  
      bool isBuffer() const { return mData->resourceType == ResourceType::Buffer; }
      bool is2D() const { return mData->resourceType == ResourceType::Texture2D; }
      bool is3D() const { return mData->resourceType == ResourceType::Texture3D; }
      ResourceType getTextureType() const { return mData->resourceType; }
      gl::Extents getExtents() const { return mExtents; }
      DXGI_FORMAT getFormat() const { return mFormatSet->texFormat; }
      const d3d11::Format &getFormatSet() const { return *mFormatSet; }
      int getSampleCount() const { return mSampleCount; }
  
      template <typename DescT, typename ResourceT>
      void init(Resource11<ResourceT> &&texture, const DescT &desc, const d3d11::Format &format)
      {
          std::swap(mData->manager, texture.mData->manager);
  
          // Can't use std::swap because texture is typed, and here we use ID3D11Resource.
          ID3D11Resource *temp  = mData->object;
          mData->object         = texture.mData->object;
          texture.mData->object = static_cast<ResourceT *>(temp);
  
          mFormatSet = &format;
          initDesc(desc);
      }
  
      template <typename ResourceT>
      void set(ResourceT *object, const d3d11::Format &format)
      {
          ASSERT(!valid());
  
          mFormatSet     = &format;
          mData->object  = object;
          mData->manager = nullptr;
  
          GetDescFromD3D11<ResourceT> desc;
          getDesc(&desc);
          initDesc(desc);
      }
  
      bool operator==(const TextureHelper11 &other) const;
      bool operator!=(const TextureHelper11 &other) const;
  
      void getDesc(D3D11_TEXTURE2D_DESC *desc) const;
      void getDesc(D3D11_TEXTURE3D_DESC *desc) const;
      void getDesc(D3D11_BUFFER_DESC *desc) const;
  
    private:
      void initDesc(const D3D11_TEXTURE2D_DESC &desc2D);
      void initDesc(const D3D11_TEXTURE3D_DESC &desc3D);
      void initDesc(const D3D11_BUFFER_DESC &descBuffer);
  
      const d3d11::Format *mFormatSet;
      gl::Extents mExtents;
      int mSampleCount;
  };
  
  enum class StagingAccess
  {
      READ,
      READ_WRITE,
  };
  
  bool UsePresentPathFast(const Renderer11 *renderer, const gl::FramebufferAttachment *colorbuffer);
  bool UsePrimitiveRestartWorkaround(bool primitiveRestartFixedIndexEnabled,
                                     gl::DrawElementsType type);
  
  enum class IndexStorageType
  {
      // Dynamic indexes are re-streamed every frame. They come from a client data pointer or
      // from buffers that are updated frequently.
      Dynamic,
  
      // Static indexes are translated from the original storage once, and re-used multiple times.
      Static,
  
      // Direct indexes are never transated and are used directly from the source buffer. They are
      // the fastest available path.
      Direct,
  
      // Not a real storage type.
      Invalid,
  };
  
  IndexStorageType ClassifyIndexStorage(const gl::State &glState,
                                        const gl::Buffer *elementArrayBuffer,
                                        gl::DrawElementsType elementType,
                                        gl::DrawElementsType destElementType,
                                        unsigned int offset);
  
  bool SwizzleRequired(const gl::TextureState &textureState);
  gl::SwizzleState GetEffectiveSwizzle(const gl::TextureState &textureState);
  
  }  // namespace rx
  
  #endif  // LIBANGLE_RENDERER_D3D_D3D11_RENDERER11_UTILS_H_
  

Download