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/*
 * Copyright 2010 Google Inc.
 *
 * Use of this source code is governed by a BSD-style license that can be
 * found in the LICENSE file.
 */



#ifndef GrTypes_DEFINED
#define GrTypes_DEFINED

#include "SkTypes.h"
#include "GrConfig.h"

////////////////////////////////////////////////////////////////////////////////

/**
 * Defines overloaded bitwise operators to make it easier to use an enum as a
 * bitfield.
 */
#define GR_MAKE_BITFIELD_OPS(X) \
    inline X operator | (X a, X b) { \
        return (X) (+a | +b); \
    } \
    \
    inline X operator & (X a, X b) { \
        return (X) (+a & +b); \
    } \
    template <typename T> \
    inline X operator & (T a, X b) { \
        return (X) (+a & +b); \
    } \
    template <typename T> \
    inline X operator & (X a, T b) { \
        return (X) (+a & +b); \
    } \

#define GR_DECL_BITFIELD_OPS_FRIENDS(X) \
    friend X operator | (X a, X b); \
    \
    friend X operator & (X a, X b); \
    \
    template <typename T> \
    friend X operator & (T a, X b); \
    \
    template <typename T> \
    friend X operator & (X a, T b); \
////////////////////////////////////////////////////////////////////////////////


/**
 *  Macro to round n up to the next multiple of 4, or return it unchanged if
 *  n is already a multiple of 4
 */
#define GrALIGN4(n)     SkAlign4(n)
#define GrIsALIGN4(n)   (((n) & 3) == 0)

template <typename T> const T& GrMin(const T& a, const T& b) {
	return (a < b) ? a : b;
}

template <typename T> const T& GrMax(const T& a, const T& b) {
	return (b < a) ? a : b;
}

// compile time versions of min/max
#define GR_CT_MAX(a, b) (((b) < (a)) ? (a) : (b))
#define GR_CT_MIN(a, b) (((b) < (a)) ? (b) : (a))

/**
 *  divide, rounding up
 */
static inline int32_t GrIDivRoundUp(int x, int y) {
    GrAssert(y > 0);
    return (x + (y-1)) / y;
}
static inline uint32_t GrUIDivRoundUp(uint32_t x, uint32_t y) {
    return (x + (y-1)) / y;
}
static inline size_t GrSizeDivRoundUp(size_t x, uint32_t y) {
    return (x + (y-1)) / y;
}

/**
 *  align up
 */
static inline uint32_t GrUIAlignUp(uint32_t x, uint32_t alignment) {
    return GrUIDivRoundUp(x, alignment) * alignment;
}
static inline uint32_t GrSizeAlignUp(size_t x, uint32_t alignment) {
    return GrSizeDivRoundUp(x, alignment) * alignment;
}

/**
 * amount of pad needed to align up
 */
static inline uint32_t GrUIAlignUpPad(uint32_t x, uint32_t alignment) {
    return (alignment - x % alignment) % alignment;
}
static inline size_t GrSizeAlignUpPad(size_t x, uint32_t alignment) {
    return (alignment - x % alignment) % alignment;
}

/**
 *  align down
 */
static inline uint32_t GrUIAlignDown(uint32_t x, uint32_t alignment) {
    return (x / alignment) * alignment;
}
static inline uint32_t GrSizeAlignDown(size_t x, uint32_t alignment) {
    return (x / alignment) * alignment;
}

/**
 *  Count elements in an array
 */
#define GR_ARRAY_COUNT(array)  SK_ARRAY_COUNT(array)

//!< allocate a block of memory, will never return NULL
extern void* GrMalloc(size_t bytes);

//!< free block allocated by GrMalloc. ptr may be NULL
extern void GrFree(void* ptr);

static inline void Gr_bzero(void* dst, size_t size) {
    memset(dst, 0, size);
}

///////////////////////////////////////////////////////////////////////////////

/**
 *  Return the number of leading zeros in n
 */
extern int Gr_clz(uint32_t n);

/**
 *  Return true if n is a power of 2
 */
static inline bool GrIsPow2(unsigned n) {
    return n && 0 == (n & (n - 1));
}

/**
 *  Return the next power of 2 >= n.
 */
static inline uint32_t GrNextPow2(uint32_t n) {
    return n ? (1 << (32 - Gr_clz(n - 1))) : 1;
}

static inline int GrNextPow2(int n) {
    GrAssert(n >= 0); // this impl only works for non-neg.
    return n ? (1 << (32 - Gr_clz(n - 1))) : 1;
}

///////////////////////////////////////////////////////////////////////////////

/**
 *  16.16 fixed point type
 */
typedef int32_t GrFixed;

#if GR_DEBUG

static inline int16_t GrToS16(intptr_t x) {
    GrAssert((int16_t)x == x);
    return (int16_t)x;
}

#else

#define GrToS16(x)  x

#endif


///////////////////////////////////////////////////////////////////////////////

/**
 * Possible 3D APIs that may be used by Ganesh.
 */
enum GrEngine {
    kOpenGL_Shaders_GrEngine,
    kOpenGL_Fixed_GrEngine,
};

/**
 * Engine-specific 3D context handle
 *      GrGLInterface* for OpenGL. If NULL will use the default GL interface.
 */
typedef intptr_t GrPlatform3DContext;

///////////////////////////////////////////////////////////////////////////////

/**
 * Type used to describe format of vertices in arrays
 * Values are defined in GrDrawTarget
 */
typedef int GrVertexLayout;

/**
* Geometric primitives used for drawing.
*/
enum GrPrimitiveType {
    kTriangles_PrimitiveType,
    kTriangleStrip_PrimitiveType,
    kTriangleFan_PrimitiveType,
    kPoints_PrimitiveType,
    kLines_PrimitiveType,     // 1 pix wide only
    kLineStrip_PrimitiveType  // 1 pix wide only
};

static inline bool GrIsPrimTypeLines(GrPrimitiveType type) {
    return kLines_PrimitiveType == type || kLineStrip_PrimitiveType == type;
}

static inline bool GrIsPrimTypeTris(GrPrimitiveType type) {
    return kTriangles_PrimitiveType == type     ||
           kTriangleStrip_PrimitiveType == type ||
           kTriangleFan_PrimitiveType == type;
}

/**
 * Coeffecients for alpha-blending.
 */
enum GrBlendCoeff {
    kZero_BlendCoeff,    //<! 0
    kOne_BlendCoeff,     //<! 1
    kSC_BlendCoeff,      //<! src color
    kISC_BlendCoeff,     //<! one minus src color
    kDC_BlendCoeff,      //<! dst color
    kIDC_BlendCoeff,     //<! one minus dst color
    kSA_BlendCoeff,      //<! src alpha
    kISA_BlendCoeff,     //<! one minus src alpha
    kDA_BlendCoeff,      //<! dst alpha
    kIDA_BlendCoeff,     //<! one minus dst alpha
    kConstC_BlendCoeff,  //<! constant color
    kIConstC_BlendCoeff, //<! one minus constant color
    kConstA_BlendCoeff,  //<! constant color alpha
    kIConstA_BlendCoeff, //<! one minus constant color alpha

    kPublicBlendCoeffCount
};

/**
 *  Formats for masks, used by the font cache.
 *  Important that these are 0-based.
 */
enum GrMaskFormat {
    kA8_GrMaskFormat,    //!< 1-byte per pixel
    kA565_GrMaskFormat,  //!< 2-bytes per pixel
    kA888_GrMaskFormat,  //!< 4-bytes per pixel

    kCount_GrMaskFormats //!< used to allocate arrays sized for mask formats
};

/**
 *  Return the number of bytes-per-pixel for the specified mask format.
 */
static inline int GrMaskFormatBytesPerPixel(GrMaskFormat format) {
    GrAssert((unsigned)format <= 2);
    // kA8   (0) -> 1
    // kA565 (1) -> 2
    // kA888 (2) -> 4
    return 1 << (int)format;
}

/**
 * Pixel configurations.
 */
enum GrPixelConfig {
    kUnknown_GrPixelConfig,
    kAlpha_8_GrPixelConfig,
    kIndex_8_GrPixelConfig,
    kRGB_565_GrPixelConfig,
    kRGBA_4444_GrPixelConfig, //!< premultiplied
    kRGBA_8888_GrPixelConfig, //!< premultiplied
    kRGBX_8888_GrPixelConfig, //!< treat the alpha channel as opaque
};

static inline size_t GrBytesPerPixel(GrPixelConfig config) {
    switch (config) {
        case kAlpha_8_GrPixelConfig:
        case kIndex_8_GrPixelConfig:
            return 1;
        case kRGB_565_GrPixelConfig:
        case kRGBA_4444_GrPixelConfig:
            return 2;
        case kRGBA_8888_GrPixelConfig:
        case kRGBX_8888_GrPixelConfig:
            return 4;
        default:
            return 0;
    }
}

static inline bool GrPixelConfigIsOpaque(GrPixelConfig config) {
    switch (config) {
        case kRGB_565_GrPixelConfig:
        case kRGBX_8888_GrPixelConfig:
            return true;
        default:
            return false;
    }
}

static inline bool GrPixelConfigIsAlphaOnly(GrPixelConfig config) {
    switch (config) {
        case kAlpha_8_GrPixelConfig:
            return true;
        default:
            return false;
    }
}

/**
    * Used to control the level of antialiasing available for a rendertarget.
    * Anti-alias quality levels depend on the underlying API/GPU capabilities.
    */
enum GrAALevels {
    kNone_GrAALevel, //<! No antialiasing available.
    kLow_GrAALevel,  //<! Low quality antialiased rendering. Actual
                     //   interpretation is platform-dependent.
    kMed_GrAALevel,  //<! Medium quality antialiased rendering. Actual
                     //   interpretation is platform-dependent.
    kHigh_GrAALevel, //<! High quality antialiased rendering. Actual
                     //   interpretation is platform-dependent.
};

/**
 * Optional bitfield flags that can be passed to createTexture.
 */
enum GrTextureFlags {
    kNone_GrTextureFlags            = 0x0,
    /**
     * Creates a texture that can be rendered to as a GrRenderTarget. Use
     * GrTexture::asRenderTarget() to access.
     */
    kRenderTarget_GrTextureFlagBit  = 0x1,  
    /**
     * By default all render targets have an associated stencil buffer that
     * may be required for path filling. This flag overrides stencil buffer
     * creation.
     * MAKE THIS PRIVATE?
     */
    kNoStencil_GrTextureFlagBit     = 0x2,
    /**
     * Hint that the CPU may modify this texture after creation.
     */
    kDynamicUpdate_GrTextureFlagBit = 0x4,
};

GR_MAKE_BITFIELD_OPS(GrTextureFlags)

enum {
   /**
    *  For Index8 pixel config, the colortable must be 256 entries
    */
    kGrColorTableSize = 256 * 4 //sizeof(GrColor)
};

/**
 * Describes a texture to be created.
 */
struct GrTextureDesc {
    GrTextureFlags         fFlags;  //!< bitfield of TextureFlags
    /**
     * The level of antialiasing available for a rendertarget texture. Only used
     * fFlags contains kRenderTarget_GrTextureFlag.
     */
    GrAALevels             fAALevel;
    int                    fWidth;  //!< Width of the texture
    int                    fHeight; //!< Height of the texture
    /**
     * Format of source data of the texture. Not guaraunteed to be the same as
     * internal format used by 3D API.
     */
    GrPixelConfig          fFormat; 
};

/**
 * Set Operations used to construct clips.
 */
enum GrSetOp {
    kReplace_SetOp,
    kIntersect_SetOp,
    kUnion_SetOp,
    kXor_SetOp,
    kDifference_SetOp,
    kReverseDifference_SetOp,
};

/**
 * Clips are composed from these objects.
 */
enum GrClipType {
    kRect_ClipType,
    kPath_ClipType
};

/**
 * Commands used to describe a path. Each command
 * is accompanied by some number of points.
 */
enum GrPathCmd {
    kMove_PathCmd,      //!< Starts a new subpath at
                        //   at the returned point
                        // 1 point
    kLine_PathCmd,      //!< Adds a line segment
                        // 2 points
    kQuadratic_PathCmd, //!< Adds a quadratic segment
                        // 3 points
    kCubic_PathCmd,     //!< Adds a cubic segment
                        // 4 points
    kClose_PathCmd,     //!< Closes the current subpath
                        //   by connecting a line to the
                        //   starting point.
                        // 0 points
    kEnd_PathCmd        //!< Indicates the end of the last subpath
                        //   when iterating
                        // 0 points.
};

/**
 * Gets the number of points associated with a path command.
 */
static int inline NumPathCmdPoints(GrPathCmd cmd) {
    static const int gNumPoints[] = {
        1, 2, 3, 4, 0, 0
    };
    return gNumPoints[cmd];
}

/**
 * Path filling rules
 */
enum GrPathFill {
    kWinding_PathFill,
    kEvenOdd_PathFill,
    kInverseWinding_PathFill,
    kInverseEvenOdd_PathFill,
    kHairLine_PathFill,

    kPathFillCount
};

static inline GrPathFill GrNonInvertedFill(GrPathFill fill) {
    static const GrPathFill gNonInvertedFills[] = {
        kWinding_PathFill, // kWinding_PathFill
        kEvenOdd_PathFill, // kEvenOdd_PathFill
        kWinding_PathFill, // kInverseWinding_PathFill
        kEvenOdd_PathFill, // kInverseEvenOdd_PathFill
        kHairLine_PathFill,// kHairLine_PathFill
    };
    GR_STATIC_ASSERT(0 == kWinding_PathFill);
    GR_STATIC_ASSERT(1 == kEvenOdd_PathFill);
    GR_STATIC_ASSERT(2 == kInverseWinding_PathFill);
    GR_STATIC_ASSERT(3 == kInverseEvenOdd_PathFill);
    GR_STATIC_ASSERT(4 == kHairLine_PathFill);
    GR_STATIC_ASSERT(5 == kPathFillCount);
    return gNonInvertedFills[fill];
}

static inline bool GrIsFillInverted(GrPathFill fill) {
    static const bool gIsFillInverted[] = {
        false, // kWinding_PathFill
        false, // kEvenOdd_PathFill
        true,  // kInverseWinding_PathFill
        true,  // kInverseEvenOdd_PathFill
        false, // kHairLine_PathFill
    };
    GR_STATIC_ASSERT(0 == kWinding_PathFill);
    GR_STATIC_ASSERT(1 == kEvenOdd_PathFill);
    GR_STATIC_ASSERT(2 == kInverseWinding_PathFill);
    GR_STATIC_ASSERT(3 == kInverseEvenOdd_PathFill);
    GR_STATIC_ASSERT(4 == kHairLine_PathFill);
    GR_STATIC_ASSERT(5 == kPathFillCount);
    return gIsFillInverted[fill];
}

/**
 * Hints provided about a path's convexity (or lack thereof).
 */
enum GrConvexHint {
    kNone_ConvexHint,                         //<! No hint about convexity
                                              //   of the path
    kConvex_ConvexHint,                       //<! Path is one convex piece
    kNonOverlappingConvexPieces_ConvexHint,   //<! Multiple convex pieces,
                                              //   pieces are known to be
                                              //   disjoint
    kSameWindingConvexPieces_ConvexHint,      //<! Multiple convex pieces,
                                              //   may or may not intersect,
                                              //   either all wind cw or all
                                              //   wind ccw.
    kConcave_ConvexHint                       //<! Path is known to be
                                              //   concave
};

///////////////////////////////////////////////////////////////////////////////

enum GrPlatformSurfaceType {
    /**
     * Specifies that the object being created is a render target.
     */
    kRenderTarget_GrPlatformSurfaceType,
    /**
     * Specifies that the object being created is a texture.
     */
    kTexture_GrPlatformSurfaceType,
    /**
     * Specifies that the object being created is a texture and a render
     * target.
     */
    kTextureRenderTarget_GrPlatformSurfaceType,
};

enum GrPlatformRenderTargetFlags {
    kNone_GrPlatformRenderTargetFlagBit             = 0x0,

    /**
     * Gives permission to Gr to perform the downsample-resolve of a
     * multisampled render target. If this is not set then read pixel
     * operations may fail. If the object is both a texture and render target
     * then this *must* be set. Otherwise, if the client wants do its own
     * resolves it must create separate GrRenderTarget and GrTexture objects
     * and insert appropriate flushes and resolves betweeen data hazards.
     * GrRenderTarget has a flagForResolve()
     */
    kGrCanResolve_GrPlatformRenderTargetFlagBit     = 0x2,
};

GR_MAKE_BITFIELD_OPS(GrPlatformRenderTargetFlags)

// opaque type for 3D API object handles
typedef intptr_t GrPlatform3DObject;

/**
 * Description of platform surface to create. See below for GL example.
 */
struct GrPlatformSurfaceDesc {
    GrPlatformSurfaceType           fSurfaceType;   // type of surface to create
    /**
     * Flags for kRenderTarget and kTextureRenderTarget surface types
     */
    GrPlatformRenderTargetFlags     fRenderTargetFlags;

    int                             fWidth;         // width in pixels
    int                             fHeight;        // height in pixels
    GrPixelConfig                   fConfig;        // color format
    /**
     * Number of per sample stencil buffer. Only relevant if kIsRenderTarget is
     * set in fFlags.
     */
    int                             fStencilBits;

    /**
     * Number of samples per-pixel. Only relevant if kIsRenderTarget is set in
     * fFlags.
     */
    int                             fSampleCnt;

    /**
     * Texture object in 3D API. Only relevant if fSurfaceType is kTexture or
     * kTextureRenderTarget.
     * GL: this is a texture object (glGenTextures)
     */
    GrPlatform3DObject              fPlatformTexture;
    /**
     * Render target object in 3D API. Only relevant if fSurfaceType is
     * kRenderTarget or kTextureRenderTarget
     * GL: this is a FBO object (glGenFramebuffers)
     */
    GrPlatform3DObject              fPlatformRenderTarget;
    /**
     * 3D API object used as destination of resolve. Only relevant if
     * fSurfaceType is kRenderTarget or kTextureRenderTarget and
     * kGrCanResolve is set in fRenderTargetFlags.
     * fFlags.
     * GL: this is a FBO object (glGenFramebuffers)
     */
    GrPlatform3DObject              fPlatformResolveDestination;

    void reset() { memset(this, 0, sizeof(GrPlatformSurfaceDesc)); }
};

/**
 * Example of how to wrap render-to-texture-with-MSAA GL objects with a GrPlatformSurace
 *
 * GLint colorBufferID;
 * glGenRenderbuffers(1, &colorID);
 * glBindRenderbuffer(GL_RENDERBUFFER, colorBufferID);
 * glRenderbufferStorageMultisample(GL_RENDERBUFFER, S, GL_RGBA, W, H);
 *
 * GLint stencilBufferID;
 * glGenRenderBuffers(1, &stencilBufferID);
 * glBindRenderbuffer(GL_RENDERBUFFER, stencilBufferID);
 * glRenderbufferStorageMultisample(GL_RENDERBUFFER, S, GL_STENCIL_INDEX8, W, H);
 *
 * GLint drawFBOID;
 * glGenFramebuffers(1, &drawFBOID);
 * glBindFramebuffer(GL_FRAMEBUFFER, drawFBOID);
 * glFramebufferRenderbuffer(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_RENDERBUFFER, colorBufferID);
 * glFramebufferRenderbuffer(GL_FRAMEBUFFER, GL_STENCIL_ATTACHMENT, GL_RENDERBUFFER, stencilBufferID);
 *
 * GLint textureID;
 * glGenTextures(1, &textureID);
 * glBindTexture(GL_TEXTURE_2D, textureID);
 * glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA, W, H, ...);
 *
 * GLint readFBOID;
 * glGenFramebuffers(1, &readFBOID);
 * glBindFramebuffer(GL_FRAMEBUFFER, readFBOID);
 * glFramebufferTexture(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, textureID, 0);
 *
 * GrPlatformSurfaceDesc renderTargetTextureDesc;
 * renderTargetTextureDesc.fSurfaceType       = kTextureRenderTarget_GrPlatformSurfaceType;
 * renderTargetTextureDesc.fRenderTargetFlags = kGrCanResolve_GrPlatformRenderTargetFlagBit;
 * renderTargetTextureDesc.fWidth = W;
 * renderTargetTextureDesc.fHeight = H;
 * renderTargetTextureDesc.fConfig = kRGBA_8888_GrPixelConfig
 * renderTargetTextureDesc.fStencilBits = 8;
 * renderTargetTextureDesc.fSampleCnt = S;
 * renderTargetTextureDesc.fPlatformTexture = textureID;
 * renderTargetTextureDesc.fPlatformRenderTarget = drawFBOID;
 * renderTargetTextureDesc.fPlatformResolveDestination = readFBOID;
 *
 * GrTexture* texture = static_cast<GrTexture*>(grContext->createPlatrformSurface(renderTargetTextureDesc));
 */


///////////////////////////////////////////////////////////////////////////////

// this is included only to make it easy to use this debugging facility
#include "GrInstanceCounter.h"

#endif