kc3-lang/angle/src/libANGLE/formatutils.h

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• Hash : ff7aa214
  Author :
  Date : 2022-09-29T19:56:28
  

  GL_PALETTE* sampling
  
  Implement GL_PALETTE* formats by decoding them into
  a R8G8B8A8_UNORM image at load time.
  
  Test: angle_end2end_tests --gtest_filter="PalettedTextureTest.*"
  Bug: angleproject:7599
  Bug: angleproject:7688
  Bug: angleproject:7710
  Change-Id: I94d51e2c480fcdd39f1a0ad241b311d3b4de1579
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/3863251
  Reviewed-by: Cody Northrop <cnorthrop@google.com>
  Reviewed-by: Shahbaz Youssefi <syoussefi@chromium.org>
  Commit-Queue: Constantine Shablya <constantine.shablya@collabora.com>
  

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• src/libANGLE/formatutils.h

• //
  // Copyright 2013 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.
  //
  
  // formatutils.h: Queries for GL image formats.
  
  #ifndef LIBANGLE_FORMATUTILS_H_
  #define LIBANGLE_FORMATUTILS_H_
  
  #include <stdint.h>
  #include <cstddef>
  #include <ostream>
  
  #include "angle_gl.h"
  #include "common/android_util.h"
  #include "libANGLE/Caps.h"
  #include "libANGLE/Config.h"
  #include "libANGLE/Error.h"
  #include "libANGLE/Version.h"
  #include "libANGLE/VertexAttribute.h"
  #include "libANGLE/angletypes.h"
  
  namespace gl
  {
  struct VertexAttribute;
  
  struct FormatType final
  {
      FormatType();
      FormatType(GLenum format_, GLenum type_);
      FormatType(const FormatType &other)            = default;
      FormatType &operator=(const FormatType &other) = default;
  
      bool operator<(const FormatType &other) const;
  
      GLenum format;
      GLenum type;
  };
  
  struct Type
  {
      Type() : bytes(0), bytesShift(0), specialInterpretation(0) {}
  
      explicit Type(uint32_t packedTypeInfo)
          : bytes(packedTypeInfo & 0xff),
            bytesShift((packedTypeInfo >> 8) & 0xff),
            specialInterpretation((packedTypeInfo >> 16) & 1)
      {}
  
      GLuint bytes;
      GLuint bytesShift;  // Bit shift by this value to effectively divide/multiply by "bytes" in a
                          // more optimal way
      bool specialInterpretation;
  };
  
  uint32_t GetPackedTypeInfo(GLenum type);
  
  ANGLE_INLINE GLenum GetNonLinearFormat(const GLenum format)
  {
      switch (format)
      {
          case GL_BGRA8_EXT:
              return GL_BGRA8_SRGB_ANGLEX;
          case GL_RGBA8:
              return GL_SRGB8_ALPHA8;
          case GL_RGB8:
          case GL_BGRX8_ANGLEX:
          case GL_RGBX8_ANGLE:
              return GL_SRGB8;
          case GL_RGBA16F:
              return GL_RGBA16F;
          default:
              return GL_NONE;
      }
  }
  
  ANGLE_INLINE bool ColorspaceFormatOverride(const EGLenum colorspace, GLenum *rendertargetformat)
  {
      // Override the rendertargetformat based on colorpsace
      switch (colorspace)
      {
          case EGL_GL_COLORSPACE_LINEAR:                 // linear colorspace no translation needed
          case EGL_GL_COLORSPACE_SCRGB_LINEAR_EXT:       // linear colorspace no translation needed
          case EGL_GL_COLORSPACE_DISPLAY_P3_LINEAR_EXT:  // linear colorspace no translation needed
          case EGL_GL_COLORSPACE_DISPLAY_P3_PASSTHROUGH_EXT:  // App, not the HW, will specify the
                                                              // transfer function
          case EGL_GL_COLORSPACE_SCRGB_EXT:  // App, not the HW, will specify the transfer function
              // No translation
              return true;
          case EGL_GL_COLORSPACE_SRGB_KHR:
          case EGL_GL_COLORSPACE_DISPLAY_P3_EXT:
          {
              GLenum nonLinearFormat = GetNonLinearFormat(*rendertargetformat);
              if (nonLinearFormat != GL_NONE)
              {
                  *rendertargetformat = nonLinearFormat;
                  return true;
              }
              else
              {
                  return false;
              }
          }
          break;
          default:
              UNREACHABLE();
              return false;
      }
  }
  
  ANGLE_INLINE const Type GetTypeInfo(GLenum type)
  {
      return Type(GetPackedTypeInfo(type));
  }
  
  // This helpers use tricks based on the assumption that the type has certain values.
  static_assert(static_cast<GLuint>(DrawElementsType::UnsignedByte) == 0, "Please update this code.");
  static_assert(static_cast<GLuint>(DrawElementsType::UnsignedShort) == 1,
                "Please update this code.");
  static_assert(static_cast<GLuint>(DrawElementsType::UnsignedInt) == 2, "Please update this code.");
  ANGLE_INLINE GLuint GetDrawElementsTypeSize(DrawElementsType type)
  {
      return (1 << static_cast<GLuint>(type));
  }
  
  ANGLE_INLINE GLuint GetDrawElementsTypeShift(DrawElementsType type)
  {
      return static_cast<GLuint>(type);
  }
  
  // Information about an OpenGL internal format.  Can be keyed on the internalFormat and type
  // members.
  struct InternalFormat
  {
      InternalFormat();
      InternalFormat(const InternalFormat &other);
      InternalFormat &operator=(const InternalFormat &other);
  
      GLuint computePixelBytes(GLenum formatType) const;
  
      [[nodiscard]] bool computeBufferRowLength(uint32_t width, uint32_t *resultOut) const;
      [[nodiscard]] bool computeBufferImageHeight(uint32_t height, uint32_t *resultOut) const;
  
      [[nodiscard]] bool computeRowPitch(GLenum formatType,
                                         GLsizei width,
                                         GLint alignment,
                                         GLint rowLength,
                                         GLuint *resultOut) const;
      [[nodiscard]] bool computeDepthPitch(GLsizei height,
                                           GLint imageHeight,
                                           GLuint rowPitch,
                                           GLuint *resultOut) const;
      [[nodiscard]] bool computeDepthPitch(GLenum formatType,
                                           GLsizei width,
                                           GLsizei height,
                                           GLint alignment,
                                           GLint rowLength,
                                           GLint imageHeight,
                                           GLuint *resultOut) const;
  
      [[nodiscard]] bool computePalettedImageRowPitch(GLsizei width, GLuint *resultOut) const;
  
      [[nodiscard]] bool computeCompressedImageSize(const Extents &size, GLuint *resultOut) const;
  
      [[nodiscard]] std::pair<GLuint, GLuint> getCompressedImageMinBlocks() const;
  
      [[nodiscard]] bool computeSkipBytes(GLenum formatType,
                                          GLuint rowPitch,
                                          GLuint depthPitch,
                                          const PixelStoreStateBase &state,
                                          bool is3D,
                                          GLuint *resultOut) const;
  
      [[nodiscard]] bool computePackUnpackEndByte(GLenum formatType,
                                                  const Extents &size,
                                                  const PixelStoreStateBase &state,
                                                  bool is3D,
                                                  GLuint *resultOut) const;
  
      bool isLUMA() const;
      GLenum getReadPixelsFormat(const Extensions &extensions) const;
      GLenum getReadPixelsType(const Version &version) const;
  
      // Support upload a portion of image?
      bool supportSubImage() const;
  
      ANGLE_INLINE bool isChannelSizeCompatible(GLuint redSize,
                                                GLuint greenSize,
                                                GLuint blueSize,
                                                GLuint alphaSize) const
      {
          // We only check for equality in all channel sizes
          return ((redSize == redBits) && (greenSize == greenBits) && (blueSize == blueBits) &&
                  (alphaSize == alphaBits));
      }
  
      // Return true if the format is a required renderbuffer format in the given version of the core
      // spec. Note that it isn't always clear whether all the rules that apply to core required
      // renderbuffer formats also apply to additional formats added by extensions. Because of this
      // extension formats are conservatively not included.
      bool isRequiredRenderbufferFormat(const Version &version) const;
  
      bool isInt() const;
      bool isDepthOrStencil() const;
  
      bool operator==(const InternalFormat &other) const;
      bool operator!=(const InternalFormat &other) const;
  
      GLenum internalFormat;
  
      bool sized;
      GLenum sizedInternalFormat;
  
      GLuint redBits;
      GLuint greenBits;
      GLuint blueBits;
  
      GLuint luminanceBits;
  
      GLuint alphaBits;
      GLuint sharedBits;
  
      GLuint depthBits;
      GLuint stencilBits;
  
      GLuint pixelBytes;
  
      GLuint componentCount;
  
      bool compressed;
      GLuint compressedBlockWidth;
      GLuint compressedBlockHeight;
      GLuint compressedBlockDepth;
  
      bool paletted;
      GLuint paletteBits;
  
      GLenum format;
      GLenum type;
  
      GLenum componentType;
      GLenum colorEncoding;
  
      typedef bool (*SupportCheckFunction)(const Version &, const Extensions &);
      SupportCheckFunction textureSupport;
      SupportCheckFunction filterSupport;
      SupportCheckFunction textureAttachmentSupport;  // glFramebufferTexture2D
      SupportCheckFunction renderbufferSupport;       // glFramebufferRenderbuffer
      SupportCheckFunction blendSupport;
  };
  
  // A "Format" wraps an InternalFormat struct, querying it from either a sized internal format or
  // unsized internal format and type.
  // TODO(geofflang): Remove this, it doesn't add any more information than the InternalFormat object.
  struct Format
  {
      // Sized types only.
      explicit Format(GLenum internalFormat);
  
      // Sized or unsized types.
      explicit Format(const InternalFormat &internalFormat);
      Format(GLenum internalFormat, GLenum type);
  
      Format(const Format &other);
      Format &operator=(const Format &other);
  
      bool valid() const;
  
      static Format Invalid();
      static bool SameSized(const Format &a, const Format &b);
      static bool EquivalentForBlit(const Format &a, const Format &b);
  
      friend std::ostream &operator<<(std::ostream &os, const Format &fmt);
  
      // This is the sized info.
      const InternalFormat *info;
  };
  
  const InternalFormat &GetSizedInternalFormatInfo(GLenum internalFormat);
  const InternalFormat &GetInternalFormatInfo(GLenum internalFormat, GLenum type);
  
  // Strip sizing information from an internal format.  Doesn't necessarily validate that the internal
  // format is valid.
  GLenum GetUnsizedFormat(GLenum internalFormat);
  
  // Return whether the compressed format requires whole image/mip level to be uploaded to texture.
  bool CompressedFormatRequiresWholeImage(GLenum internalFormat);
  
  // In support of GetImage, check for LUMA formats and override with real format
  void MaybeOverrideLuminance(GLenum &format, GLenum &type, GLenum actualFormat, GLenum actualType);
  
  typedef std::set<GLenum> FormatSet;
  const FormatSet &GetAllSizedInternalFormats();
  
  typedef angle::HashMap<GLenum, angle::HashMap<GLenum, InternalFormat>> InternalFormatInfoMap;
  const InternalFormatInfoMap &GetInternalFormatMap();
  
  int GetAndroidHardwareBufferFormatFromChannelSizes(const egl::AttributeMap &attribMap);
  
  GLenum GetConfigColorBufferFormat(const egl::Config *config);
  GLenum GetConfigDepthStencilBufferFormat(const egl::Config *config);
  
  ANGLE_INLINE int GetNativeVisualID(const InternalFormat &internalFormat)
  {
      int nativeVisualId = 0;
  #if defined(ANGLE_PLATFORM_ANDROID)
      nativeVisualId =
          angle::android::GLInternalFormatToNativePixelFormat(internalFormat.internalFormat);
  #endif
  #if defined(ANGLE_PLATFORM_LINUX) && defined(ANGLE_USES_GBM)
      nativeVisualId = angle::GLInternalFormatToGbmFourCCFormat(internalFormat.internalFormat);
  #endif
  
      return nativeVisualId;
  }
  
  // From the ESSL 3.00.4 spec:
  // Vertex shader inputs can only be float, floating-point vectors, matrices, signed and unsigned
  // integers and integer vectors. Vertex shader inputs cannot be arrays or structures.
  
  enum AttributeType
  {
      ATTRIBUTE_FLOAT,
      ATTRIBUTE_VEC2,
      ATTRIBUTE_VEC3,
      ATTRIBUTE_VEC4,
      ATTRIBUTE_INT,
      ATTRIBUTE_IVEC2,
      ATTRIBUTE_IVEC3,
      ATTRIBUTE_IVEC4,
      ATTRIBUTE_UINT,
      ATTRIBUTE_UVEC2,
      ATTRIBUTE_UVEC3,
      ATTRIBUTE_UVEC4,
      ATTRIBUTE_MAT2,
      ATTRIBUTE_MAT3,
      ATTRIBUTE_MAT4,
      ATTRIBUTE_MAT2x3,
      ATTRIBUTE_MAT2x4,
      ATTRIBUTE_MAT3x2,
      ATTRIBUTE_MAT3x4,
      ATTRIBUTE_MAT4x2,
      ATTRIBUTE_MAT4x3,
  };
  
  AttributeType GetAttributeType(GLenum enumValue);
  
  typedef std::vector<angle::FormatID> InputLayout;
  
  struct VertexFormat : private angle::NonCopyable
  {
      VertexFormat(GLenum typeIn, GLboolean normalizedIn, GLuint componentsIn, bool pureIntegerIn);
  
      GLenum type;
      GLboolean normalized;
      GLuint components;
      bool pureInteger;
  };
  
  angle::FormatID GetVertexFormatID(VertexAttribType type,
                                    GLboolean normalized,
                                    GLuint components,
                                    bool pureInteger);
  
  angle::FormatID GetVertexFormatID(const VertexAttribute &attrib, VertexAttribType currentValueType);
  angle::FormatID GetCurrentValueFormatID(VertexAttribType currentValueType);
  const VertexFormat &GetVertexFormatFromID(angle::FormatID vertexFormatID);
  size_t GetVertexFormatSize(angle::FormatID vertexFormatID);
  angle::FormatID ConvertFormatSignedness(const angle::Format &format);
  
  ANGLE_INLINE bool IsS3TCFormat(const GLenum format)
  {
      switch (format)
      {
          case GL_COMPRESSED_RGB_S3TC_DXT1_EXT:
          case GL_COMPRESSED_RGBA_S3TC_DXT1_EXT:
          case GL_COMPRESSED_RGBA_S3TC_DXT3_EXT:
          case GL_COMPRESSED_RGBA_S3TC_DXT5_EXT:
          case GL_COMPRESSED_SRGB_S3TC_DXT1_EXT:
          case GL_COMPRESSED_SRGB_ALPHA_S3TC_DXT1_EXT:
          case GL_COMPRESSED_SRGB_ALPHA_S3TC_DXT3_EXT:
          case GL_COMPRESSED_SRGB_ALPHA_S3TC_DXT5_EXT:
              return true;
  
          default:
              return false;
      }
  }
  
  ANGLE_INLINE bool IsRGTCFormat(const GLenum format)
  {
      switch (format)
      {
          case GL_COMPRESSED_RED_RGTC1_EXT:
          case GL_COMPRESSED_SIGNED_RED_RGTC1_EXT:
          case GL_COMPRESSED_RED_GREEN_RGTC2_EXT:
          case GL_COMPRESSED_SIGNED_RED_GREEN_RGTC2_EXT:
              return true;
  
          default:
              return false;
      }
  }
  
  ANGLE_INLINE bool IsBPTCFormat(const GLenum format)
  {
      switch (format)
      {
          case GL_COMPRESSED_RGBA_BPTC_UNORM_EXT:
          case GL_COMPRESSED_SRGB_ALPHA_BPTC_UNORM_EXT:
          case GL_COMPRESSED_RGB_BPTC_SIGNED_FLOAT_EXT:
          case GL_COMPRESSED_RGB_BPTC_UNSIGNED_FLOAT_EXT:
              return true;
  
          default:
              return false;
      }
  }
  
  ANGLE_INLINE bool IsASTC2DFormat(const GLenum format)
  {
      if ((format >= GL_COMPRESSED_RGBA_ASTC_4x4_KHR &&
           format <= GL_COMPRESSED_RGBA_ASTC_12x12_KHR) ||
          (format >= GL_COMPRESSED_SRGB8_ALPHA8_ASTC_4x4_KHR &&
           format <= GL_COMPRESSED_SRGB8_ALPHA8_ASTC_12x12_KHR))
      {
          return true;
      }
      return false;
  }
  
  ANGLE_INLINE bool IsETC1Format(const GLenum format)
  {
      switch (format)
      {
          case GL_ETC1_RGB8_OES:
              return true;
  
          default:
              return false;
      }
  }
  
  ANGLE_INLINE bool IsETC2EACFormat(const GLenum format)
  {
      // ES 3.1, Table 8.19
      switch (format)
      {
          case GL_COMPRESSED_R11_EAC:
          case GL_COMPRESSED_SIGNED_R11_EAC:
          case GL_COMPRESSED_RG11_EAC:
          case GL_COMPRESSED_SIGNED_RG11_EAC:
          case GL_COMPRESSED_RGB8_ETC2:
          case GL_COMPRESSED_SRGB8_ETC2:
          case GL_COMPRESSED_RGB8_PUNCHTHROUGH_ALPHA1_ETC2:
          case GL_COMPRESSED_SRGB8_PUNCHTHROUGH_ALPHA1_ETC2:
          case GL_COMPRESSED_RGBA8_ETC2_EAC:
          case GL_COMPRESSED_SRGB8_ALPHA8_ETC2_EAC:
              return true;
  
          default:
              return false;
      }
  }
  
  ANGLE_INLINE bool IsPVRTC1Format(const GLenum format)
  {
      switch (format)
      {
          case GL_COMPRESSED_RGB_PVRTC_4BPPV1_IMG:
          case GL_COMPRESSED_RGB_PVRTC_2BPPV1_IMG:
          case GL_COMPRESSED_RGBA_PVRTC_4BPPV1_IMG:
          case GL_COMPRESSED_RGBA_PVRTC_2BPPV1_IMG:
          case GL_COMPRESSED_SRGB_PVRTC_2BPPV1_EXT:
          case GL_COMPRESSED_SRGB_PVRTC_4BPPV1_EXT:
          case GL_COMPRESSED_SRGB_ALPHA_PVRTC_2BPPV1_EXT:
          case GL_COMPRESSED_SRGB_ALPHA_PVRTC_4BPPV1_EXT:
              return true;
  
          default:
              return false;
      }
  }
  
  ANGLE_INLINE bool IsBGRAFormat(const GLenum internalFormat)
  {
      switch (internalFormat)
      {
          case GL_BGRA8_EXT:
          case GL_BGRA4_ANGLEX:
          case GL_BGR5_A1_ANGLEX:
          case GL_BGRA8_SRGB_ANGLEX:
          case GL_BGRX8_ANGLEX:
          case GL_RGBX8_ANGLE:
          case GL_BGR565_ANGLEX:
          case GL_BGR10_A2_ANGLEX:
              return true;
  
          default:
              return false;
      }
  }
  
  // Check if an internal format is ever valid in ES3.  Makes no checks about support for a specific
  // context.
  bool ValidES3InternalFormat(GLenum internalFormat);
  
  // Implemented in format_map_autogen.cpp
  bool ValidES3Format(GLenum format);
  bool ValidES3Type(GLenum type);
  bool ValidES3FormatCombination(GLenum format, GLenum type, GLenum internalFormat);
  
  // Implemented in format_map_desktop.cpp
  bool ValidDesktopFormat(GLenum format);
  bool ValidDesktopType(GLenum type);
  bool ValidDesktopFormatCombination(GLenum format, GLenum type, GLenum internalFormat);
  
  // Implemented in es3_copy_conversion_table_autogen.cpp
  bool ValidES3CopyConversion(GLenum textureFormat, GLenum framebufferFormat);
  
  ANGLE_INLINE ComponentType GetVertexAttributeComponentType(bool pureInteger, VertexAttribType type)
  {
      if (pureInteger)
      {
          switch (type)
          {
              case VertexAttribType::Byte:
              case VertexAttribType::Short:
              case VertexAttribType::Int:
                  return ComponentType::Int;
  
              case VertexAttribType::UnsignedByte:
              case VertexAttribType::UnsignedShort:
              case VertexAttribType::UnsignedInt:
                  return ComponentType::UnsignedInt;
  
              default:
                  UNREACHABLE();
                  return ComponentType::NoType;
          }
      }
      else
      {
          return ComponentType::Float;
      }
  }
  
  constexpr std::size_t kMaxYuvPlaneCount = 3;
  template <typename T>
  using YuvPlaneArray = std::array<T, kMaxYuvPlaneCount>;
  
  struct YuvFormatInfo
  {
      // Sized types only.
      YuvFormatInfo(GLenum internalFormat, const Extents &yPlaneExtent);
  
      GLenum glInternalFormat;
      uint32_t planeCount;
      YuvPlaneArray<uint32_t> planeBpp;
      YuvPlaneArray<Extents> planeExtent;
      YuvPlaneArray<uint32_t> planePitch;
      YuvPlaneArray<uint32_t> planeSize;
      YuvPlaneArray<uint32_t> planeOffset;
  };
  
  bool IsYuvFormat(GLenum format);
  uint32_t GetPlaneCount(GLenum format);
  uint32_t GetYPlaneBpp(GLenum format);
  uint32_t GetChromaPlaneBpp(GLenum format);
  void GetSubSampleFactor(GLenum format,
                          int *horizontalSubsampleFactor,
                          int *verticalSubsampleFactor);
  }  // namespace gl
  
  #endif  // LIBANGLE_FORMATUTILS_H_
  

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