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

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• Hash : b8353b01
  Author :
  Date : 2017-01-25T12:57:21
  

  Vulkan: Simple buffer creation.
  
  This is necessary to initialize vertex arrays.
  
  BUG=angleproject:1579
  
  Change-Id: Ic5a232d5cdfaa75b41241901de842e62ff3b173f
  Reviewed-on: https://chromium-review.googlesource.com/406645
  Commit-Queue: Jamie Madill <jmadill@chromium.org>
  Reviewed-by: Corentin Wallez <cwallez@chromium.org>
  

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• src/libANGLE/angletypes.h

• //
  // Copyright (c) 2012-2013 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.
  //
  
  // angletypes.h : Defines a variety of structures and enum types that are used throughout libGLESv2
  
  #ifndef LIBANGLE_ANGLETYPES_H_
  #define LIBANGLE_ANGLETYPES_H_
  
  #include "libANGLE/Constants.h"
  #include "libANGLE/RefCountObject.h"
  
  #include <stdint.h>
  
  #include <bitset>
  #include <unordered_map>
  
  namespace gl
  {
  class Buffer;
  class State;
  class Program;
  struct VertexAttribute;
  struct VertexAttribCurrentValueData;
  
  enum PrimitiveType
  {
      PRIMITIVE_POINTS,
      PRIMITIVE_LINES,
      PRIMITIVE_LINE_STRIP,
      PRIMITIVE_LINE_LOOP,
      PRIMITIVE_TRIANGLES,
      PRIMITIVE_TRIANGLE_STRIP,
      PRIMITIVE_TRIANGLE_FAN,
      PRIMITIVE_TYPE_MAX,
  };
  
  PrimitiveType GetPrimitiveType(GLenum drawMode);
  
  enum SamplerType
  {
      SAMPLER_PIXEL,
      SAMPLER_VERTEX,
      SAMPLER_COMPUTE
  };
  
  struct Rectangle
  {
      Rectangle() : x(0), y(0), width(0), height(0) {}
      Rectangle(int x_in, int y_in, int width_in, int height_in)
          : x(x_in), y(y_in), width(width_in), height(height_in)
      {
      }
  
      int x0() const { return x; }
      int y0() const { return y; }
      int x1() const { return x + width; }
      int y1() const { return y + height; }
  
      int x;
      int y;
      int width;
      int height;
  };
  
  bool operator==(const Rectangle &a, const Rectangle &b);
  bool operator!=(const Rectangle &a, const Rectangle &b);
  
  bool ClipRectangle(const Rectangle &source, const Rectangle &clip, Rectangle *intersection);
  
  struct Offset
  {
      int x;
      int y;
      int z;
  
      Offset() : x(0), y(0), z(0) { }
      Offset(int x_in, int y_in, int z_in) : x(x_in), y(y_in), z(z_in) { }
  };
  
  struct Extents
  {
      int width;
      int height;
      int depth;
  
      Extents() : width(0), height(0), depth(0) { }
      Extents(int width_, int height_, int depth_) : width(width_), height(height_), depth(depth_) { }
  
      Extents(const Extents &other) = default;
      Extents &operator=(const Extents &other) = default;
  
      bool empty() const { return (width * height * depth) == 0; }
  };
  
  bool operator==(const Extents &lhs, const Extents &rhs);
  bool operator!=(const Extents &lhs, const Extents &rhs);
  
  struct Box
  {
      int x;
      int y;
      int z;
      int width;
      int height;
      int depth;
  
      Box() : x(0), y(0), z(0), width(0), height(0), depth(0) { }
      Box(int x_in, int y_in, int z_in, int width_in, int height_in, int depth_in) : x(x_in), y(y_in), z(z_in), width(width_in), height(height_in), depth(depth_in) { }
      Box(const Offset &offset, const Extents &size) : x(offset.x), y(offset.y), z(offset.z), width(size.width), height(size.height), depth(size.depth) { }
      bool operator==(const Box &other) const;
      bool operator!=(const Box &other) const;
  };
  
  
  struct RasterizerState
  {
      bool cullFace;
      GLenum cullMode;
      GLenum frontFace;
  
      bool polygonOffsetFill;
      GLfloat polygonOffsetFactor;
      GLfloat polygonOffsetUnits;
  
      bool pointDrawMode;
      bool multiSample;
  
      bool rasterizerDiscard;
  };
  
  struct BlendState
  {
      bool blend;
      GLenum sourceBlendRGB;
      GLenum destBlendRGB;
      GLenum sourceBlendAlpha;
      GLenum destBlendAlpha;
      GLenum blendEquationRGB;
      GLenum blendEquationAlpha;
  
      bool colorMaskRed;
      bool colorMaskGreen;
      bool colorMaskBlue;
      bool colorMaskAlpha;
  
      bool sampleAlphaToCoverage;
  
      bool dither;
  };
  
  struct DepthStencilState
  {
      bool depthTest;
      GLenum depthFunc;
      bool depthMask;
  
      bool stencilTest;
      GLenum stencilFunc;
      GLuint stencilMask;
      GLenum stencilFail;
      GLenum stencilPassDepthFail;
      GLenum stencilPassDepthPass;
      GLuint stencilWritemask;
      GLenum stencilBackFunc;
      GLuint stencilBackMask;
      GLenum stencilBackFail;
      GLenum stencilBackPassDepthFail;
      GLenum stencilBackPassDepthPass;
      GLuint stencilBackWritemask;
  };
  
  // State from Table 6.10 (state per sampler object)
  struct SamplerState
  {
      SamplerState();
      static SamplerState CreateDefaultForTarget(GLenum target);
  
      GLenum minFilter;
      GLenum magFilter;
  
      GLenum wrapS;
      GLenum wrapT;
      GLenum wrapR;
  
      // From EXT_texture_filter_anisotropic
      float maxAnisotropy;
  
      GLfloat minLod;
      GLfloat maxLod;
  
      GLenum compareMode;
      GLenum compareFunc;
  
      GLenum sRGBDecode;
  };
  
  bool operator==(const SamplerState &a, const SamplerState &b);
  bool operator!=(const SamplerState &a, const SamplerState &b);
  
  struct PixelStoreStateBase
  {
      BindingPointer<Buffer> pixelBuffer;
      GLint alignment   = 4;
      GLint rowLength   = 0;
      GLint skipRows    = 0;
      GLint skipPixels  = 0;
      GLint imageHeight = 0;
      GLint skipImages  = 0;
  };
  
  struct PixelUnpackState : PixelStoreStateBase
  {
      PixelUnpackState() {}
  
      PixelUnpackState(GLint alignmentIn, GLint rowLengthIn)
      {
          alignment = alignmentIn;
          rowLength = rowLengthIn;
      }
  };
  
  struct PixelPackState : PixelStoreStateBase
  {
      PixelPackState() {}
  
      PixelPackState(GLint alignmentIn, bool reverseRowOrderIn)
          : reverseRowOrder(reverseRowOrderIn)
      {
          alignment = alignmentIn;
      }
  
      bool reverseRowOrder = false;
  };
  
  // Used in Program and VertexArray.
  typedef std::bitset<MAX_VERTEX_ATTRIBS> AttributesMask;
  
  // Use in Program
  typedef std::bitset<IMPLEMENTATION_MAX_COMBINED_SHADER_UNIFORM_BUFFERS> UniformBlockBindingMask;
  
  // A map of GL objects indexed by object ID. The specific map implementation may change.
  // Client code should treat it as a std::map.
  template <class ResourceT>
  using ResourceMap = std::unordered_map<GLuint, ResourceT *>;
  }
  
  namespace rx
  {
  // A macro that determines whether an object has a given runtime type.
  #if defined(__clang__)
  #if __has_feature(cxx_rtti)
  #define ANGLE_HAS_DYNAMIC_CAST 1
  #endif
  #elif !defined(NDEBUG) && (!defined(_MSC_VER) || defined(_CPPRTTI)) && (!defined(__GNUC__) || __GNUC__ < 4 || (__GNUC__ == 4 && __GNUC_MINOR__ < 3) || defined(__GXX_RTTI))
  #define ANGLE_HAS_DYNAMIC_CAST 1
  #endif
  
  #ifdef ANGLE_HAS_DYNAMIC_CAST
  #define ANGLE_HAS_DYNAMIC_TYPE(type, obj) (dynamic_cast<type >(obj) != nullptr)
  #undef ANGLE_HAS_DYNAMIC_CAST
  #else
  #define ANGLE_HAS_DYNAMIC_TYPE(type, obj) (obj != nullptr)
  #endif
  
  // Downcast a base implementation object (EG TextureImpl to TextureD3D)
  template <typename DestT, typename SrcT>
  inline DestT *GetAs(SrcT *src)
  {
      ASSERT(ANGLE_HAS_DYNAMIC_TYPE(DestT*, src));
      return static_cast<DestT*>(src);
  }
  
  template <typename DestT, typename SrcT>
  inline const DestT *GetAs(const SrcT *src)
  {
      ASSERT(ANGLE_HAS_DYNAMIC_TYPE(const DestT*, src));
      return static_cast<const DestT*>(src);
  }
  
  #undef ANGLE_HAS_DYNAMIC_TYPE
  
  // Downcast a GL object to an Impl (EG gl::Texture to rx::TextureD3D)
  template <typename DestT, typename SrcT>
  inline DestT *GetImplAs(SrcT *src)
  {
      return GetAs<DestT>(src->getImplementation());
  }
  
  template <typename DestT, typename SrcT>
  inline DestT *SafeGetImplAs(SrcT *src)
  {
      return src != nullptr ? GetAs<DestT>(src->getImplementation()) : nullptr;
  }
  
  // In some cases we want to retrieve an Impl object, while handling nullptr cases trivially.
  template <typename ObjT>
  auto SafeGetImpl(ObjT *src) -> decltype(src->getImplementation())
  {
      return src ? src->getImplementation() : nullptr;
  }
  
  }  // namespace rx
  
  #include "angletypes.inl"
  
  namespace angle
  {
  // Zero-based for better array indexing
  enum FramebufferBinding
  {
      FramebufferBindingRead = 0,
      FramebufferBindingDraw,
      FramebufferBindingSingletonMax,
      FramebufferBindingBoth = FramebufferBindingSingletonMax,
      FramebufferBindingMax,
      FramebufferBindingUnknown = FramebufferBindingMax,
  };
  
  inline FramebufferBinding EnumToFramebufferBinding(GLenum enumValue)
  {
      switch (enumValue)
      {
          case GL_READ_FRAMEBUFFER:
              return FramebufferBindingRead;
          case GL_DRAW_FRAMEBUFFER:
              return FramebufferBindingDraw;
          case GL_FRAMEBUFFER:
              return FramebufferBindingBoth;
          default:
              UNREACHABLE();
              return FramebufferBindingUnknown;
      }
  }
  
  inline GLenum FramebufferBindingToEnum(FramebufferBinding binding)
  {
      switch (binding)
      {
          case FramebufferBindingRead:
              return GL_READ_FRAMEBUFFER;
          case FramebufferBindingDraw:
              return GL_DRAW_FRAMEBUFFER;
          case FramebufferBindingBoth:
              return GL_FRAMEBUFFER;
          default:
              UNREACHABLE();
              return GL_NONE;
      }
  }
  }  // namespace angle
  
  namespace gl
  {
  class ContextState;
  }  // namespace gl
  
  #endif // LIBANGLE_ANGLETYPES_H_
  

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