src/core/SkEdge.h - skia - Git at Google

 /*
  * Copyright 2006 The Android Open Source Project
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #ifndef SkEdge_DEFINED
 #define SkEdge_DEFINED

 #include "SkRect.h"
 #include "SkFDot6.h"
 #include "SkMath.h"

 // This correctly favors the lower-pixel when y0 is on a 1/2 pixel boundary
 #define SkEdge_Compute_DY(top, y0)  (SkLeftShift(top, 6) + 32 - (y0))

 struct SkEdge {
     enum Type {
         kLine_Type,
         kQuad_Type,
         kCubic_Type
     };

     SkEdge* fNext;
     SkEdge* fPrev;

     SkFixed fX;
     SkFixed fDX;
     int32_t fFirstY;
     int32_t fLastY;
     int8_t fCurveCount;    // only used by kQuad(+) and kCubic(-)
     uint8_t fCurveShift;    // appled to all Dx/DDx/DDDx except for fCubicDShift exception
     uint8_t fCubicDShift;   // applied to fCDx and fCDy only in cubic
     int8_t  fWinding;       // 1 or -1

     int setLine(const SkPoint& p0, const SkPoint& p1, const SkIRect* clip, int shiftUp);
     // call this version if you know you don't have a clip
     inline int setLine(const SkPoint& p0, const SkPoint& p1, int shiftUp);
     inline int updateLine(SkFixed ax, SkFixed ay, SkFixed bx, SkFixed by);
     void chopLineWithClip(const SkIRect& clip);

     inline bool intersectsClip(const SkIRect& clip) const {
         SkASSERT(fFirstY < clip.fBottom);
         return fLastY >= clip.fTop;
     }

 #ifdef SK_DEBUG
     void dump() const {
         SkDebugf("edge: firstY:%d lastY:%d x:%g dx:%g w:%d\n", fFirstY, fLastY, SkFixedToFloat(fX), SkFixedToFloat(fDX), fWinding);
     }

     void validate() const {
         SkASSERT(fPrev && fNext);
         SkASSERT(fPrev->fNext == this);
         SkASSERT(fNext->fPrev == this);

         SkASSERT(fFirstY <= fLastY);
         SkASSERT(SkAbs32(fWinding) == 1);
     }
 #endif
 };

 struct SkQuadraticEdge : public SkEdge {
     SkFixed fQx, fQy;
     SkFixed fQDx, fQDy;
     SkFixed fQDDx, fQDDy;
     SkFixed fQLastX, fQLastY;

     bool setQuadraticWithoutUpdate(const SkPoint pts[3], int shiftUp);
     int setQuadratic(const SkPoint pts[3], int shiftUp);
     int updateQuadratic();
 };

 struct SkCubicEdge : public SkEdge {
     SkFixed fCx, fCy;
     SkFixed fCDx, fCDy;
     SkFixed fCDDx, fCDDy;
     SkFixed fCDDDx, fCDDDy;
     SkFixed fCLastX, fCLastY;

     bool setCubicWithoutUpdate(const SkPoint pts[4], int shiftUp, bool sortY = true);
     int setCubic(const SkPoint pts[4], int shiftUp);
     int updateCubic();
 };

 int SkEdge::setLine(const SkPoint& p0, const SkPoint& p1, int shift) {
     SkFDot6 x0, y0, x1, y1;

     {
 #ifdef SK_RASTERIZE_EVEN_ROUNDING
         x0 = SkScalarRoundToFDot6(p0.fX, shift);
         y0 = SkScalarRoundToFDot6(p0.fY, shift);
         x1 = SkScalarRoundToFDot6(p1.fX, shift);
         y1 = SkScalarRoundToFDot6(p1.fY, shift);
 #else
         float scale = float(1 << (shift + 6));
         x0 = int(p0.fX * scale);
         y0 = int(p0.fY * scale);
         x1 = int(p1.fX * scale);
         y1 = int(p1.fY * scale);
 #endif
     }

     int winding = 1;

     if (y0 > y1) {
         SkTSwap(x0, x1);
         SkTSwap(y0, y1);
         winding = -1;
     }

     int top = SkFDot6Round(y0);
     int bot = SkFDot6Round(y1);

     // are we a zero-height line?
     if (top == bot) {
         return 0;
     }

     SkFixed slope = SkFDot6Div(x1 - x0, y1 - y0);
     const SkFDot6 dy  = SkEdge_Compute_DY(top, y0);

     fX          = SkFDot6ToFixed(x0 + SkFixedMul(slope, dy));   // + SK_Fixed1/2
     fDX         = slope;
     fFirstY     = top;
     fLastY      = bot - 1;
     fCurveCount = 0;
     fWinding    = SkToS8(winding);
     fCurveShift = 0;
     return 1;
 }

 #endif
	/*
	* Copyright 2006 The Android Open Source Project
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/


	#ifndef SkEdge_DEFINED
	#define SkEdge_DEFINED

	#include "SkRect.h"
	#include "SkFDot6.h"
	#include "SkMath.h"

	// This correctly favors the lower-pixel when y0 is on a 1/2 pixel boundary
	#define SkEdge_Compute_DY(top, y0) (SkLeftShift(top, 6) + 32 - (y0))

	struct SkEdge {
	enum Type {
	kLine_Type,
	kQuad_Type,
	kCubic_Type
	};

	SkEdge* fNext;
	SkEdge* fPrev;

	SkFixed fX;
	SkFixed fDX;
	int32_t fFirstY;
	int32_t fLastY;
	int8_t fCurveCount; // only used by kQuad(+) and kCubic(-)
	uint8_t fCurveShift; // appled to all Dx/DDx/DDDx except for fCubicDShift exception
	uint8_t fCubicDShift; // applied to fCDx and fCDy only in cubic
	int8_t fWinding; // 1 or -1

	int setLine(const SkPoint& p0, const SkPoint& p1, const SkIRect* clip, int shiftUp);
	// call this version if you know you don't have a clip
	inline int setLine(const SkPoint& p0, const SkPoint& p1, int shiftUp);
	inline int updateLine(SkFixed ax, SkFixed ay, SkFixed bx, SkFixed by);
	void chopLineWithClip(const SkIRect& clip);

	inline bool intersectsClip(const SkIRect& clip) const {
	SkASSERT(fFirstY < clip.fBottom);
	return fLastY >= clip.fTop;
	}

	#ifdef SK_DEBUG
	void dump() const {
	SkDebugf("edge: firstY:%d lastY:%d x:%g dx:%g w:%d\n", fFirstY, fLastY, SkFixedToFloat(fX), SkFixedToFloat(fDX), fWinding);
	}

	void validate() const {
	SkASSERT(fPrev && fNext);
	SkASSERT(fPrev->fNext == this);
	SkASSERT(fNext->fPrev == this);

	SkASSERT(fFirstY <= fLastY);
	SkASSERT(SkAbs32(fWinding) == 1);
	}
	#endif
	};

	struct SkQuadraticEdge : public SkEdge {
	SkFixed fQx, fQy;
	SkFixed fQDx, fQDy;
	SkFixed fQDDx, fQDDy;
	SkFixed fQLastX, fQLastY;

	bool setQuadraticWithoutUpdate(const SkPoint pts[3], int shiftUp);
	int setQuadratic(const SkPoint pts[3], int shiftUp);
	int updateQuadratic();
	};

	struct SkCubicEdge : public SkEdge {
	SkFixed fCx, fCy;
	SkFixed fCDx, fCDy;
	SkFixed fCDDx, fCDDy;
	SkFixed fCDDDx, fCDDDy;
	SkFixed fCLastX, fCLastY;

	bool setCubicWithoutUpdate(const SkPoint pts[4], int shiftUp, bool sortY = true);
	int setCubic(const SkPoint pts[4], int shiftUp);
	int updateCubic();
	};

	int SkEdge::setLine(const SkPoint& p0, const SkPoint& p1, int shift) {
	SkFDot6 x0, y0, x1, y1;

	{
	#ifdef SK_RASTERIZE_EVEN_ROUNDING
	x0 = SkScalarRoundToFDot6(p0.fX, shift);
	y0 = SkScalarRoundToFDot6(p0.fY, shift);
	x1 = SkScalarRoundToFDot6(p1.fX, shift);
	y1 = SkScalarRoundToFDot6(p1.fY, shift);
	#else
	float scale = float(1 << (shift + 6));
	x0 = int(p0.fX * scale);
	y0 = int(p0.fY * scale);
	x1 = int(p1.fX * scale);
	y1 = int(p1.fY * scale);
	#endif
	}

	int winding = 1;

	if (y0 > y1) {
	SkTSwap(x0, x1);
	SkTSwap(y0, y1);
	winding = -1;
	}

	int top = SkFDot6Round(y0);
	int bot = SkFDot6Round(y1);

	// are we a zero-height line?
	if (top == bot) {
	return 0;
	}

	SkFixed slope = SkFDot6Div(x1 - x0, y1 - y0);
	const SkFDot6 dy = SkEdge_Compute_DY(top, y0);

	fX = SkFDot6ToFixed(x0 + SkFixedMul(slope, dy)); // + SK_Fixed1/2
	fDX = slope;
	fFirstY = top;
	fLastY = bot - 1;
	fCurveCount = 0;
	fWinding = SkToS8(winding);
	fCurveShift = 0;
	return 1;
	}

	#endif