src/pathops/SkOpAngle.h - skia - Git at Google

 /*
  * 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 SkOpAngle_DEFINED
 #define SkOpAngle_DEFINED

 #include "src/pathops/SkLineParameters.h"
 #include "src/pathops/SkPathOpsCurve.h"
 #if DEBUG_ANGLE
 #include "include/core/SkString.h"
 #endif

 class SkOpContour;
 class SkOpPtT;
 class SkOpSegment;
 class SkOpSpanBase;
 class SkOpSpan;

 class SkOpAngle {
 public:
     enum IncludeType {
         kUnaryWinding,
         kUnaryXor,
         kBinarySingle,
         kBinaryOpp,
     };

     const SkOpAngle* debugAngle(int id) const;
     const SkOpCoincidence* debugCoincidence() const;
     SkOpContour* debugContour(int id) const;

     int debugID() const {
         return SkDEBUGRELEASE(fID, -1);
     }

 #if DEBUG_SORT
     void debugLoop() const;
 #endif

 #if DEBUG_ANGLE
     bool debugCheckCoincidence() const { return fCheckCoincidence; }
     void debugCheckNearCoincidence() const;
     SkString debugPart() const;
 #endif
     const SkOpPtT* debugPtT(int id) const;
     const SkOpSegment* debugSegment(int id) const;
     int debugSign() const;
     const SkOpSpanBase* debugSpan(int id) const;
     void debugValidate() const;
     void debugValidateNext() const;  // in debug builds, verify that angle loop is uncorrupted
     double distEndRatio(double dist) const;
     // available to testing only
     void dump() const;
     void dumpCurves() const;
     void dumpLoop() const;
     void dumpOne(bool functionHeader) const;
     void dumpTo(const SkOpSegment* fromSeg, const SkOpAngle* ) const;
     void dumpTest() const;

     SkOpSpanBase* end() const {
         return fEnd;
     }

     bool insert(SkOpAngle* );
     SkOpSpanBase* lastMarked() const;
     bool loopContains(const SkOpAngle* ) const;
     int loopCount() const;

     SkOpAngle* next() const {
         return fNext;
     }

     SkOpAngle* previous() const;
     SkOpSegment* segment() const;
     void set(SkOpSpanBase* start, SkOpSpanBase* end);

     void setLastMarked(SkOpSpanBase* marked) {
         fLastMarked = marked;
     }

     SkOpSpanBase* start() const {
         return fStart;
     }

     SkOpSpan* starter();

     bool tangentsAmbiguous() const {
         return fTangentsAmbiguous;
     }

     bool unorderable() const {
         return fUnorderable;
     }

 private:
     bool after(SkOpAngle* test);
     void alignmentSameSide(const SkOpAngle* test, int* order) const;
     bool checkCrossesZero() const;
     bool checkParallel(SkOpAngle* );
     bool computeSector();
     int convexHullOverlaps(const SkOpAngle* );
     bool endToSide(const SkOpAngle* rh, bool* inside) const;
     bool endsIntersect(SkOpAngle* );
     int findSector(SkPath::Verb verb, double x, double y) const;
     SkOpGlobalState* globalState() const;
     int lineOnOneSide(const SkDPoint& origin, const SkDVector& line, const SkOpAngle* test,
                       bool useOriginal) const;
     int lineOnOneSide(const SkOpAngle* test, bool useOriginal);
     int linesOnOriginalSide(const SkOpAngle* test);
     bool merge(SkOpAngle* );
     double midT() const;
     bool midToSide(const SkOpAngle* rh, bool* inside) const;
     bool oppositePlanes(const SkOpAngle* rh) const;
     int orderable(SkOpAngle* rh);  // false == this < rh ; true == this > rh; -1 == unorderable
     void setSector();
     void setSpans();
     bool tangentsDiverge(const SkOpAngle* rh, double s0xt0);

     SkDCurve fOriginalCurvePart;  // the curve from start to end
     SkDCurveSweep fPart;  // the curve from start to end offset as needed
     double fSide;
     SkLineParameters fTangentHalf;  // used only to sort a pair of lines or line-like sections
     SkOpAngle* fNext;
     SkOpSpanBase* fLastMarked;
     SkOpSpanBase* fStart;
     SkOpSpanBase* fEnd;
     SkOpSpanBase* fComputedEnd;
     int fSectorMask;
     int8_t fSectorStart;  // in 32nds of a circle
     int8_t fSectorEnd;
     bool fUnorderable;
     bool fComputeSector;
     bool fComputedSector;
     bool fCheckCoincidence;
     bool fTangentsAmbiguous;
     SkDEBUGCODE(int fID);

     friend class PathOpsAngleTester;
 };


 #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 SkOpAngle_DEFINED
	#define SkOpAngle_DEFINED

	#include "src/pathops/SkLineParameters.h"
	#include "src/pathops/SkPathOpsCurve.h"
	#if DEBUG_ANGLE
	#include "include/core/SkString.h"
	#endif

	class SkOpContour;
	class SkOpPtT;
	class SkOpSegment;
	class SkOpSpanBase;
	class SkOpSpan;

	class SkOpAngle {
	public:
	enum IncludeType {
	kUnaryWinding,
	kUnaryXor,
	kBinarySingle,
	kBinaryOpp,
	};

	const SkOpAngle* debugAngle(int id) const;
	const SkOpCoincidence* debugCoincidence() const;
	SkOpContour* debugContour(int id) const;

	int debugID() const {
	return SkDEBUGRELEASE(fID, -1);
	}

	#if DEBUG_SORT
	void debugLoop() const;
	#endif

	#if DEBUG_ANGLE
	bool debugCheckCoincidence() const { return fCheckCoincidence; }
	void debugCheckNearCoincidence() const;
	SkString debugPart() const;
	#endif
	const SkOpPtT* debugPtT(int id) const;
	const SkOpSegment* debugSegment(int id) const;
	int debugSign() const;
	const SkOpSpanBase* debugSpan(int id) const;
	void debugValidate() const;
	void debugValidateNext() const; // in debug builds, verify that angle loop is uncorrupted
	double distEndRatio(double dist) const;
	// available to testing only
	void dump() const;
	void dumpCurves() const;
	void dumpLoop() const;
	void dumpOne(bool functionHeader) const;
	void dumpTo(const SkOpSegment* fromSeg, const SkOpAngle* ) const;
	void dumpTest() const;

	SkOpSpanBase* end() const {
	return fEnd;
	}

	bool insert(SkOpAngle* );
	SkOpSpanBase* lastMarked() const;
	bool loopContains(const SkOpAngle* ) const;
	int loopCount() const;

	SkOpAngle* next() const {
	return fNext;
	}

	SkOpAngle* previous() const;
	SkOpSegment* segment() const;
	void set(SkOpSpanBase* start, SkOpSpanBase* end);

	void setLastMarked(SkOpSpanBase* marked) {
	fLastMarked = marked;
	}

	SkOpSpanBase* start() const {
	return fStart;
	}

	SkOpSpan* starter();

	bool tangentsAmbiguous() const {
	return fTangentsAmbiguous;
	}

	bool unorderable() const {
	return fUnorderable;
	}

	private:
	bool after(SkOpAngle* test);
	void alignmentSameSide(const SkOpAngle* test, int* order) const;
	bool checkCrossesZero() const;
	bool checkParallel(SkOpAngle* );
	bool computeSector();
	int convexHullOverlaps(const SkOpAngle* );
	bool endToSide(const SkOpAngle* rh, bool* inside) const;
	bool endsIntersect(SkOpAngle* );
	int findSector(SkPath::Verb verb, double x, double y) const;
	SkOpGlobalState* globalState() const;
	int lineOnOneSide(const SkDPoint& origin, const SkDVector& line, const SkOpAngle* test,
	bool useOriginal) const;
	int lineOnOneSide(const SkOpAngle* test, bool useOriginal);
	int linesOnOriginalSide(const SkOpAngle* test);
	bool merge(SkOpAngle* );
	double midT() const;
	bool midToSide(const SkOpAngle* rh, bool* inside) const;
	bool oppositePlanes(const SkOpAngle* rh) const;
	int orderable(SkOpAngle* rh); // false == this < rh ; true == this > rh; -1 == unorderable
	void setSector();
	void setSpans();
	bool tangentsDiverge(const SkOpAngle* rh, double s0xt0);

	SkDCurve fOriginalCurvePart; // the curve from start to end
	SkDCurveSweep fPart; // the curve from start to end offset as needed
	double fSide;
	SkLineParameters fTangentHalf; // used only to sort a pair of lines or line-like sections
	SkOpAngle* fNext;
	SkOpSpanBase* fLastMarked;
	SkOpSpanBase* fStart;
	SkOpSpanBase* fEnd;
	SkOpSpanBase* fComputedEnd;
	int fSectorMask;
	int8_t fSectorStart; // in 32nds of a circle
	int8_t fSectorEnd;
	bool fUnorderable;
	bool fComputeSector;
	bool fComputedSector;
	bool fCheckCoincidence;
	bool fTangentsAmbiguous;
	SkDEBUGCODE(int fID);

	friend class PathOpsAngleTester;
	};



	#endif