src/pathops/SkIntersections.h - platform/external/skia - Gitiles

 /*
  * Copyright 2012 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */
 #ifndef SkIntersections_DEFINE
 #define SkIntersections_DEFINE

 #include "SkPathOpsCubic.h"
 #include "SkPathOpsLine.h"
 #include "SkPathOpsPoint.h"
 #include "SkPathOpsQuad.h"

 class SkIntersections {
 public:
     SkIntersections()
         : fSwap(0)
 #ifdef SK_DEBUG
         , fDepth(0)
 #endif
     {
         sk_bzero(fPt, sizeof(fPt));
         sk_bzero(fT, sizeof(fT));
         sk_bzero(fIsCoincident, sizeof(fIsCoincident));
         reset();
     }

     class TArray {
     public:
         explicit TArray(const double ts[9]) : fTArray(ts) {}
         double operator[](int n) const {
             return fTArray[n];
         }
         const double* fTArray;
     };
     TArray operator[](int n) const { return TArray(fT[n]); }

     void set(const SkIntersections& i) {
         memcpy(fPt, i.fPt, sizeof(fPt));
         memcpy(fT, i.fT, sizeof(fT));
         memcpy(fIsCoincident, i.fIsCoincident, sizeof(fIsCoincident));
         fUsed = i.fUsed;
         fSwap = i.fSwap;
         SkDEBUGCODE(fDepth = i.fDepth);
     }

     int cubic(const SkPoint a[4]) {
         SkDCubic cubic;
         cubic.set(a);
         return intersect(cubic);
     }

     int cubicCubic(const SkPoint a[4], const SkPoint b[4]) {
         SkDCubic aCubic;
         aCubic.set(a);
         SkDCubic bCubic;
         bCubic.set(b);
         return intersect(aCubic, bCubic);
     }

     int cubicHorizontal(const SkPoint a[4], SkScalar left, SkScalar right, SkScalar y,
                         bool flipped) {
         SkDCubic cubic;
         cubic.set(a);
         return horizontal(cubic, left, right, y, flipped);
     }

     int cubicVertical(const SkPoint a[4], SkScalar top, SkScalar bottom, SkScalar x, bool flipped) {
         SkDCubic cubic;
         cubic.set(a);
         return vertical(cubic, top, bottom, x, flipped);
     }

     int cubicLine(const SkPoint a[4], const SkPoint b[2]) {
         SkDCubic cubic;
         cubic.set(a);
         SkDLine line;
         line.set(b);
         return intersect(cubic, line);
     }

     int cubicQuad(const SkPoint a[4], const SkPoint b[3]) {
         SkDCubic cubic;
         cubic.set(a);
         SkDQuad quad;
         quad.set(b);
         return intersect(cubic, quad);
     }

     int insertSwap(double one, double two, const SkDPoint& pt) {
         if (fSwap) {
             return insert(two, one, pt);
         } else {
             return insert(one, two, pt);
         }
     }

     bool isCoincident(int index) {
         return (fIsCoincident[0] & 1 << index) != 0;
     }

     int lineHorizontal(const SkPoint a[2], SkScalar left, SkScalar right, SkScalar y,
                        bool flipped) {
         SkDLine line;
         line.set(a);
         return horizontal(line, left, right, y, flipped);
     }

     int lineVertical(const SkPoint a[2], SkScalar top, SkScalar bottom, SkScalar x, bool flipped) {
         SkDLine line;
         line.set(a);
         return vertical(line, top, bottom, x, flipped);
     }

     int lineLine(const SkPoint a[2], const SkPoint b[2]) {
         SkDLine aLine, bLine;
         aLine.set(a);
         bLine.set(b);
         return intersect(aLine, bLine);
     }

     const SkDPoint& pt(int index) const {
         return fPt[index];
     }

     int quadHorizontal(const SkPoint a[3], SkScalar left, SkScalar right, SkScalar y,
                        bool flipped) {
         SkDQuad quad;
         quad.set(a);
         return horizontal(quad, left, right, y, flipped);
     }

     int quadVertical(const SkPoint a[3], SkScalar top, SkScalar bottom, SkScalar x, bool flipped) {
         SkDQuad quad;
         quad.set(a);
         return vertical(quad, top, bottom, x, flipped);
     }

     int quadLine(const SkPoint a[3], const SkPoint b[2]) {
         SkDQuad quad;
         quad.set(a);
         SkDLine line;
         line.set(b);
         return intersect(quad, line);
     }

     int quadQuad(const SkPoint a[3], const SkPoint b[3]) {
         SkDQuad aQuad;
         aQuad.set(a);
         SkDQuad bQuad;
         bQuad.set(b);
         return intersect(aQuad, bQuad);
     }

     int quadRay(const SkPoint pts[3], const SkDLine& line);
     void removeOne(int index);

     // leaves flip, swap alone
     void reset() {
         fUsed = 0;
     }

     void swap() {
         fSwap ^= true;
     }

     void swapPts();

     bool swapped() const {
         return fSwap;
     }

     int used() const {
         return fUsed;
     }

     void downDepth() {
         SkASSERT(--fDepth >= 0);
     }

     void upDepth() {
         SkASSERT(++fDepth < 16);
     }

     static double Axial(const SkDQuad& , const SkDPoint& , bool vertical);
     int coincidentUsed() const;
     int cubicRay(const SkPoint pts[4], const SkDLine& line);
     void flip();
     int horizontal(const SkDLine&, double y);
     int horizontal(const SkDLine&, double left, double right, double y, bool flipped);
     int horizontal(const SkDQuad&, double left, double right, double y, bool flipped);
     int horizontal(const SkDQuad&, double left, double right, double y, double tRange[2]);
     int horizontal(const SkDCubic&, double y, double tRange[3]);
     int horizontal(const SkDCubic&, double left, double right, double y, bool flipped);
     int horizontal(const SkDCubic&, double left, double right, double y, double tRange[3]);
     // FIXME : does not respect swap
     int insert(double one, double two, const SkDPoint& pt);
     // start if index == 0 : end if index == 1
     void insertCoincident(double one, double two, const SkDPoint& pt);
     void insertCoincidentPair(double s1, double e1, double s2, double e2,
             const SkDPoint& startPt, const SkDPoint& endPt);
     int intersect(const SkDLine&, const SkDLine&);
     int intersect(const SkDQuad&, const SkDLine&);
     int intersect(const SkDQuad&, const SkDQuad&);
     int intersect(const SkDCubic&);  // return true if cubic self-intersects
     int intersect(const SkDCubic&, const SkDLine&);
     int intersect(const SkDCubic&, const SkDQuad&);
     int intersect(const SkDCubic&, const SkDCubic&);
     int intersectRay(const SkDCubic& , const SkDLine&);
     int intersectRay(const SkDQuad& , const SkDLine&);
     static SkDPoint Line(const SkDLine& , const SkDLine&);
     void offset(int base, double start, double end);
     void quickRemoveOne(int index, int replace);
     static bool Test(const SkDLine& , const SkDLine&);
     int vertical(const SkDLine&, double x);
     int vertical(const SkDLine&, double top, double bottom, double x, bool flipped);
     int vertical(const SkDQuad&, double top, double bottom, double x, bool flipped);
     int vertical(const SkDCubic&, double top, double bottom, double x, bool flipped);
     int verticalCubic(const SkPoint a[4], SkScalar top, SkScalar bottom, SkScalar x, bool flipped);
     int verticalLine(const SkPoint a[2], SkScalar top, SkScalar bottom, SkScalar x, bool flipped);
     int verticalQuad(const SkPoint a[3], SkScalar top, SkScalar bottom, SkScalar x, bool flipped);

     int depth() const {
 #ifdef SK_DEBUG
         return fDepth;
 #else
         return 0;
 #endif
     }

 private:
     int computePoints(const SkDLine& line, int used);
     // used by addCoincident to remove ordinary intersections in range
     void remove(double one, double two, const SkDPoint& startPt, const SkDPoint& endPt);

     SkDPoint fPt[9];
     double fT[2][9];
     uint16_t fIsCoincident[2];  // bit arrays, one bit set for each coincident T
     unsigned char fUsed;
     bool fSwap;
 #ifdef SK_DEBUG
     int fDepth;
 #endif
 };

 extern int (SkIntersections::*CurveRay[])(const SkPoint[], const SkDLine& );
 extern int (SkIntersections::*CurveVertical[])(const SkPoint[], SkScalar top, SkScalar bottom,
             SkScalar x, bool flipped);

 #endif
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/
	#ifndef SkIntersections_DEFINE
	#define SkIntersections_DEFINE

	#include "SkPathOpsCubic.h"
	#include "SkPathOpsLine.h"
	#include "SkPathOpsPoint.h"
	#include "SkPathOpsQuad.h"

	class SkIntersections {
	public:
	SkIntersections()
	: fSwap(0)
	#ifdef SK_DEBUG
	, fDepth(0)
	#endif
	{
	sk_bzero(fPt, sizeof(fPt));
	sk_bzero(fT, sizeof(fT));
	sk_bzero(fIsCoincident, sizeof(fIsCoincident));
	reset();
	}

	class TArray {
	public:
	explicit TArray(const double ts[9]) : fTArray(ts) {}
	double operator[](int n) const {
	return fTArray[n];
	}
	const double* fTArray;
	};
	TArray operator[](int n) const { return TArray(fT[n]); }

	void set(const SkIntersections& i) {
	memcpy(fPt, i.fPt, sizeof(fPt));
	memcpy(fT, i.fT, sizeof(fT));
	memcpy(fIsCoincident, i.fIsCoincident, sizeof(fIsCoincident));
	fUsed = i.fUsed;
	fSwap = i.fSwap;
	SkDEBUGCODE(fDepth = i.fDepth);
	}

	int cubic(const SkPoint a[4]) {
	SkDCubic cubic;
	cubic.set(a);
	return intersect(cubic);
	}

	int cubicCubic(const SkPoint a[4], const SkPoint b[4]) {
	SkDCubic aCubic;
	aCubic.set(a);
	SkDCubic bCubic;
	bCubic.set(b);
	return intersect(aCubic, bCubic);
	}

	int cubicHorizontal(const SkPoint a[4], SkScalar left, SkScalar right, SkScalar y,
	bool flipped) {
	SkDCubic cubic;
	cubic.set(a);
	return horizontal(cubic, left, right, y, flipped);
	}

	int cubicVertical(const SkPoint a[4], SkScalar top, SkScalar bottom, SkScalar x, bool flipped) {
	SkDCubic cubic;
	cubic.set(a);
	return vertical(cubic, top, bottom, x, flipped);
	}

	int cubicLine(const SkPoint a[4], const SkPoint b[2]) {
	SkDCubic cubic;
	cubic.set(a);
	SkDLine line;
	line.set(b);
	return intersect(cubic, line);
	}

	int cubicQuad(const SkPoint a[4], const SkPoint b[3]) {
	SkDCubic cubic;
	cubic.set(a);
	SkDQuad quad;
	quad.set(b);
	return intersect(cubic, quad);
	}

	int insertSwap(double one, double two, const SkDPoint& pt) {
	if (fSwap) {
	return insert(two, one, pt);
	} else {
	return insert(one, two, pt);
	}
	}

	bool isCoincident(int index) {
	return (fIsCoincident[0] & 1 << index) != 0;
	}

	int lineHorizontal(const SkPoint a[2], SkScalar left, SkScalar right, SkScalar y,
	bool flipped) {
	SkDLine line;
	line.set(a);
	return horizontal(line, left, right, y, flipped);
	}

	int lineVertical(const SkPoint a[2], SkScalar top, SkScalar bottom, SkScalar x, bool flipped) {
	SkDLine line;
	line.set(a);
	return vertical(line, top, bottom, x, flipped);
	}

	int lineLine(const SkPoint a[2], const SkPoint b[2]) {
	SkDLine aLine, bLine;
	aLine.set(a);
	bLine.set(b);
	return intersect(aLine, bLine);
	}

	const SkDPoint& pt(int index) const {
	return fPt[index];
	}

	int quadHorizontal(const SkPoint a[3], SkScalar left, SkScalar right, SkScalar y,
	bool flipped) {
	SkDQuad quad;
	quad.set(a);
	return horizontal(quad, left, right, y, flipped);
	}

	int quadVertical(const SkPoint a[3], SkScalar top, SkScalar bottom, SkScalar x, bool flipped) {
	SkDQuad quad;
	quad.set(a);
	return vertical(quad, top, bottom, x, flipped);
	}

	int quadLine(const SkPoint a[3], const SkPoint b[2]) {
	SkDQuad quad;
	quad.set(a);
	SkDLine line;
	line.set(b);
	return intersect(quad, line);
	}

	int quadQuad(const SkPoint a[3], const SkPoint b[3]) {
	SkDQuad aQuad;
	aQuad.set(a);
	SkDQuad bQuad;
	bQuad.set(b);
	return intersect(aQuad, bQuad);
	}

	int quadRay(const SkPoint pts[3], const SkDLine& line);
	void removeOne(int index);

	// leaves flip, swap alone
	void reset() {
	fUsed = 0;
	}

	void swap() {
	fSwap ^= true;
	}

	void swapPts();

	bool swapped() const {
	return fSwap;
	}

	int used() const {
	return fUsed;
	}

	void downDepth() {
	SkASSERT(--fDepth >= 0);
	}

	void upDepth() {
	SkASSERT(++fDepth < 16);
	}

	static double Axial(const SkDQuad& , const SkDPoint& , bool vertical);
	int coincidentUsed() const;
	int cubicRay(const SkPoint pts[4], const SkDLine& line);
	void flip();
	int horizontal(const SkDLine&, double y);
	int horizontal(const SkDLine&, double left, double right, double y, bool flipped);
	int horizontal(const SkDQuad&, double left, double right, double y, bool flipped);
	int horizontal(const SkDQuad&, double left, double right, double y, double tRange[2]);
	int horizontal(const SkDCubic&, double y, double tRange[3]);
	int horizontal(const SkDCubic&, double left, double right, double y, bool flipped);
	int horizontal(const SkDCubic&, double left, double right, double y, double tRange[3]);
	// FIXME : does not respect swap
	int insert(double one, double two, const SkDPoint& pt);
	// start if index == 0 : end if index == 1
	void insertCoincident(double one, double two, const SkDPoint& pt);
	void insertCoincidentPair(double s1, double e1, double s2, double e2,
	const SkDPoint& startPt, const SkDPoint& endPt);
	int intersect(const SkDLine&, const SkDLine&);
	int intersect(const SkDQuad&, const SkDLine&);
	int intersect(const SkDQuad&, const SkDQuad&);
	int intersect(const SkDCubic&); // return true if cubic self-intersects
	int intersect(const SkDCubic&, const SkDLine&);
	int intersect(const SkDCubic&, const SkDQuad&);
	int intersect(const SkDCubic&, const SkDCubic&);
	int intersectRay(const SkDCubic& , const SkDLine&);
	int intersectRay(const SkDQuad& , const SkDLine&);
	static SkDPoint Line(const SkDLine& , const SkDLine&);
	void offset(int base, double start, double end);
	void quickRemoveOne(int index, int replace);
	static bool Test(const SkDLine& , const SkDLine&);
	int vertical(const SkDLine&, double x);
	int vertical(const SkDLine&, double top, double bottom, double x, bool flipped);
	int vertical(const SkDQuad&, double top, double bottom, double x, bool flipped);
	int vertical(const SkDCubic&, double top, double bottom, double x, bool flipped);
	int verticalCubic(const SkPoint a[4], SkScalar top, SkScalar bottom, SkScalar x, bool flipped);
	int verticalLine(const SkPoint a[2], SkScalar top, SkScalar bottom, SkScalar x, bool flipped);
	int verticalQuad(const SkPoint a[3], SkScalar top, SkScalar bottom, SkScalar x, bool flipped);

	int depth() const {
	#ifdef SK_DEBUG
	return fDepth;
	#else
	return 0;
	#endif
	}

	private:
	int computePoints(const SkDLine& line, int used);
	// used by addCoincident to remove ordinary intersections in range
	void remove(double one, double two, const SkDPoint& startPt, const SkDPoint& endPt);

	SkDPoint fPt[9];
	double fT[2][9];
	uint16_t fIsCoincident[2]; // bit arrays, one bit set for each coincident T
	unsigned char fUsed;
	bool fSwap;
	#ifdef SK_DEBUG
	int fDepth;
	#endif
	};

	extern int (SkIntersections::*CurveRay[])(const SkPoint[], const SkDLine& );
	extern int (SkIntersections::*CurveVertical[])(const SkPoint[], SkScalar top, SkScalar bottom,
	SkScalar x, bool flipped);

	#endif