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

 /*
  * Copyright 2013 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */
 #ifndef SkOpCoincidence_DEFINED
 #define SkOpCoincidence_DEFINED

 #include "include/private/SkTDArray.h"
 #include "src/core/SkArenaAlloc.h"
 #include "src/pathops/SkOpSpan.h"
 #include "src/pathops/SkPathOpsTypes.h"

 class SkOpPtT;
 class SkOpSpanBase;

 class SkCoincidentSpans {
 public:
     const SkOpPtT* coinPtTEnd() const;
     const SkOpPtT* coinPtTStart() const;

     // These return non-const pointers so that, as copies, they can be added
     // to a new span pair
     SkOpPtT* coinPtTEndWritable() const { return const_cast<SkOpPtT*>(fCoinPtTEnd); }
     SkOpPtT* coinPtTStartWritable() const { return const_cast<SkOpPtT*>(fCoinPtTStart); }

     bool collapsed(const SkOpPtT* ) const;
     bool contains(const SkOpPtT* s, const SkOpPtT* e) const;
     void correctEnds();
     void correctOneEnd(const SkOpPtT* (SkCoincidentSpans::* getEnd)() const,
                        void (SkCoincidentSpans::* setEnd)(const SkOpPtT* ptT) );

 #if DEBUG_COIN
     void debugCorrectEnds(SkPathOpsDebug::GlitchLog* log) const;
     void debugCorrectOneEnd(SkPathOpsDebug::GlitchLog* log,
                             const SkOpPtT* (SkCoincidentSpans::* getEnd)() const,
                             void (SkCoincidentSpans::* setEnd)(const SkOpPtT* ptT) const) const;
     bool debugExpand(SkPathOpsDebug::GlitchLog* log) const;
 #endif

     const char* debugID() const {
 #if DEBUG_COIN
         return fGlobalState->debugCoinDictEntry().fFunctionName;
 #else
         return nullptr;
 #endif
     }

     void debugShow() const;
 #ifdef SK_DEBUG
     void debugStartCheck(const SkOpSpanBase* outer, const SkOpSpanBase* over,
             const SkOpGlobalState* debugState) const;
 #endif
     void dump() const;
     bool expand();
     bool extend(const SkOpPtT* coinPtTStart, const SkOpPtT* coinPtTEnd,
                 const SkOpPtT* oppPtTStart, const SkOpPtT* oppPtTEnd);
     bool flipped() const { return fOppPtTStart->fT > fOppPtTEnd->fT; }
     SkDEBUGCODE(SkOpGlobalState* globalState() { return fGlobalState; })

     void init(SkDEBUGCODE(SkOpGlobalState* globalState)) {
         sk_bzero(this, sizeof(*this));
         SkDEBUGCODE(fGlobalState = globalState);
     }

     SkCoincidentSpans* next() { return fNext; }
     const SkCoincidentSpans* next() const { return fNext; }
     SkCoincidentSpans** nextPtr() { return &fNext; }
     const SkOpPtT* oppPtTStart() const;
     const SkOpPtT* oppPtTEnd() const;
     // These return non-const pointers so that, as copies, they can be added
     // to a new span pair
     SkOpPtT* oppPtTStartWritable() const { return const_cast<SkOpPtT*>(fOppPtTStart); }
     SkOpPtT* oppPtTEndWritable() const { return const_cast<SkOpPtT*>(fOppPtTEnd); }
     bool ordered(bool* result) const;

     void set(SkCoincidentSpans* next, const SkOpPtT* coinPtTStart, const SkOpPtT* coinPtTEnd,
             const SkOpPtT* oppPtTStart, const SkOpPtT* oppPtTEnd);

     void setCoinPtTEnd(const SkOpPtT* ptT) {
         SkOPASSERT(ptT == ptT->span()->ptT());
         SkOPASSERT(!fCoinPtTStart || ptT->fT != fCoinPtTStart->fT);
         SkASSERT(!fCoinPtTStart || fCoinPtTStart->segment() == ptT->segment());
         fCoinPtTEnd = ptT;
         ptT->setCoincident();
     }

     void setCoinPtTStart(const SkOpPtT* ptT) {
         SkOPASSERT(ptT == ptT->span()->ptT());
         SkOPASSERT(!fCoinPtTEnd || ptT->fT != fCoinPtTEnd->fT);
         SkASSERT(!fCoinPtTEnd || fCoinPtTEnd->segment() == ptT->segment());
         fCoinPtTStart = ptT;
         ptT->setCoincident();
     }

     void setEnds(const SkOpPtT* coinPtTEnd, const SkOpPtT* oppPtTEnd) {
         this->setCoinPtTEnd(coinPtTEnd);
         this->setOppPtTEnd(oppPtTEnd);
     }

     void setOppPtTEnd(const SkOpPtT* ptT) {
         SkOPASSERT(ptT == ptT->span()->ptT());
         SkOPASSERT(!fOppPtTStart || ptT->fT != fOppPtTStart->fT);
         SkASSERT(!fOppPtTStart || fOppPtTStart->segment() == ptT->segment());
         fOppPtTEnd = ptT;
         ptT->setCoincident();
     }

     void setOppPtTStart(const SkOpPtT* ptT) {
         SkOPASSERT(ptT == ptT->span()->ptT());
         SkOPASSERT(!fOppPtTEnd || ptT->fT != fOppPtTEnd->fT);
         SkASSERT(!fOppPtTEnd || fOppPtTEnd->segment() == ptT->segment());
         fOppPtTStart = ptT;
         ptT->setCoincident();
     }

     void setStarts(const SkOpPtT* coinPtTStart, const SkOpPtT* oppPtTStart) {
         this->setCoinPtTStart(coinPtTStart);
         this->setOppPtTStart(oppPtTStart);
     }

     void setNext(SkCoincidentSpans* next) { fNext = next; }

 private:
     SkCoincidentSpans* fNext;
     const SkOpPtT* fCoinPtTStart;
     const SkOpPtT* fCoinPtTEnd;
     const SkOpPtT* fOppPtTStart;
     const SkOpPtT* fOppPtTEnd;
     SkDEBUGCODE(SkOpGlobalState* fGlobalState);
 };

 class SkOpCoincidence {
 public:
     SkOpCoincidence(SkOpGlobalState* globalState)
         : fHead(nullptr)
         , fTop(nullptr)
         , fGlobalState(globalState)
         , fContinue(false)
         , fSpanDeleted(false)
         , fPtAllocated(false)
         , fCoinExtended(false)
         , fSpanMerged(false) {
         globalState->setCoincidence(this);
     }

     void add(SkOpPtT* coinPtTStart, SkOpPtT* coinPtTEnd, SkOpPtT* oppPtTStart,
              SkOpPtT* oppPtTEnd);
     bool addEndMovedSpans(DEBUG_COIN_DECLARE_ONLY_PARAMS());
     bool addExpanded(DEBUG_COIN_DECLARE_ONLY_PARAMS());
     bool addMissing(bool* added  DEBUG_COIN_DECLARE_PARAMS());
     bool apply(DEBUG_COIN_DECLARE_ONLY_PARAMS());
     bool contains(const SkOpPtT* coinPtTStart, const SkOpPtT* coinPtTEnd,
                   const SkOpPtT* oppPtTStart, const SkOpPtT* oppPtTEnd) const;
     void correctEnds(DEBUG_COIN_DECLARE_ONLY_PARAMS());

 #if DEBUG_COIN
     void debugAddEndMovedSpans(SkPathOpsDebug::GlitchLog* log) const;
     void debugAddExpanded(SkPathOpsDebug::GlitchLog* ) const;
     void debugAddMissing(SkPathOpsDebug::GlitchLog* , bool* added) const;
     void debugAddOrOverlap(SkPathOpsDebug::GlitchLog* log,
                            const SkOpSegment* coinSeg, const SkOpSegment* oppSeg,
                            double coinTs, double coinTe, double oppTs, double oppTe,
                            bool* added) const;
 #endif

     const SkOpAngle* debugAngle(int id) const {
         return SkDEBUGRELEASE(fGlobalState->debugAngle(id), nullptr);
     }

     void debugCheckBetween() const;

 #if DEBUG_COIN
     void debugCheckValid(SkPathOpsDebug::GlitchLog* log) const;
 #endif

     SkOpContour* debugContour(int id) const {
         return SkDEBUGRELEASE(fGlobalState->debugContour(id), nullptr);
     }

 #if DEBUG_COIN
     void debugCorrectEnds(SkPathOpsDebug::GlitchLog* log) const;
     bool debugExpand(SkPathOpsDebug::GlitchLog* ) const;
     void debugMark(SkPathOpsDebug::GlitchLog* ) const;
     void debugMarkCollapsed(SkPathOpsDebug::GlitchLog* ,
                             const SkCoincidentSpans* coin, const SkOpPtT* test) const;
     void debugMarkCollapsed(SkPathOpsDebug::GlitchLog* , const SkOpPtT* test) const;
 #endif

     const SkOpPtT* debugPtT(int id) const {
         return SkDEBUGRELEASE(fGlobalState->debugPtT(id), nullptr);
     }

     const SkOpSegment* debugSegment(int id) const {
         return SkDEBUGRELEASE(fGlobalState->debugSegment(id), nullptr);
     }

 #if DEBUG_COIN
     void debugRelease(SkPathOpsDebug::GlitchLog* , const SkCoincidentSpans* ,
                       const SkCoincidentSpans* ) const;
     void debugRelease(SkPathOpsDebug::GlitchLog* , const SkOpSegment* ) const;
 #endif
     void debugShowCoincidence() const;

     const SkOpSpanBase* debugSpan(int id) const {
         return SkDEBUGRELEASE(fGlobalState->debugSpan(id), nullptr);
     }

     void debugValidate() const;
     void dump() const;
     bool expand(DEBUG_COIN_DECLARE_ONLY_PARAMS());
     bool extend(const SkOpPtT* coinPtTStart, const SkOpPtT* coinPtTEnd, const SkOpPtT* oppPtTStart,
                 const SkOpPtT* oppPtTEnd);
     bool findOverlaps(SkOpCoincidence*  DEBUG_COIN_DECLARE_PARAMS()) const;
     void fixUp(SkOpPtT* deleted, const SkOpPtT* kept);

     SkOpGlobalState* globalState() {
         return fGlobalState;
     }

     const SkOpGlobalState* globalState() const {
         return fGlobalState;
     }

     bool isEmpty() const {
         return !fHead && !fTop;
     }

     bool mark(DEBUG_COIN_DECLARE_ONLY_PARAMS());
     void markCollapsed(SkOpPtT* );

     static bool Ordered(const SkOpPtT* coinPtTStart, const SkOpPtT* oppPtTStart) {
       return Ordered(coinPtTStart->segment(), oppPtTStart->segment());
     }

     static bool Ordered(const SkOpSegment* coin, const SkOpSegment* opp);
     void release(const SkOpSegment* );
     void releaseDeleted();

 private:
     void add(const SkOpPtT* coinPtTStart, const SkOpPtT* coinPtTEnd, const SkOpPtT* oppPtTStart,
              const SkOpPtT* oppPtTEnd) {
         this->add(const_cast<SkOpPtT*>(coinPtTStart), const_cast<SkOpPtT*>(coinPtTEnd),
             const_cast<SkOpPtT*>(oppPtTStart), const_cast<SkOpPtT*>(oppPtTEnd));
     }

     bool addEndMovedSpans(const SkOpSpan* base, const SkOpSpanBase* testSpan);
     bool addEndMovedSpans(const SkOpPtT* ptT);

     bool addIfMissing(const SkOpPtT* over1s, const SkOpPtT* over2s,
                       double tStart, double tEnd, SkOpSegment* coinSeg, SkOpSegment* oppSeg,
                       bool* added
                       SkDEBUGPARAMS(const SkOpPtT* over1e) SkDEBUGPARAMS(const SkOpPtT* over2e));
     bool addOrOverlap(SkOpSegment* coinSeg, SkOpSegment* oppSeg,
                       double coinTs, double coinTe, double oppTs, double oppTe, bool* added);
     bool addOverlap(const SkOpSegment* seg1, const SkOpSegment* seg1o,
                     const SkOpSegment* seg2, const SkOpSegment* seg2o,
                     const SkOpPtT* overS, const SkOpPtT* overE);
     bool checkOverlap(SkCoincidentSpans* check,
                       const SkOpSegment* coinSeg, const SkOpSegment* oppSeg,
                       double coinTs, double coinTe, double oppTs, double oppTe,
                       SkTDArray<SkCoincidentSpans*>* overlaps) const;
     bool contains(const SkOpSegment* seg, const SkOpSegment* opp, double oppT) const;
     bool contains(const SkCoincidentSpans* coin, const SkOpSegment* seg,
                   const SkOpSegment* opp, double oppT) const;
 #if DEBUG_COIN
     void debugAddIfMissing(SkPathOpsDebug::GlitchLog* ,
                            const SkCoincidentSpans* outer, const SkOpPtT* over1s,
                            const SkOpPtT* over1e) const;
     void debugAddIfMissing(SkPathOpsDebug::GlitchLog* ,
                            const SkOpPtT* over1s, const SkOpPtT* over2s,
                            double tStart, double tEnd,
                            const SkOpSegment* coinSeg, const SkOpSegment* oppSeg, bool* added,
                            const SkOpPtT* over1e, const SkOpPtT* over2e) const;
     void debugAddEndMovedSpans(SkPathOpsDebug::GlitchLog* ,
                                const SkOpSpan* base, const SkOpSpanBase* testSpan) const;
     void debugAddEndMovedSpans(SkPathOpsDebug::GlitchLog* ,
                                const SkOpPtT* ptT) const;
 #endif
     void fixUp(SkCoincidentSpans* coin, SkOpPtT* deleted, const SkOpPtT* kept);
     void markCollapsed(SkCoincidentSpans* head, SkOpPtT* test);
     bool overlap(const SkOpPtT* coinStart1, const SkOpPtT* coinEnd1,
                  const SkOpPtT* coinStart2, const SkOpPtT* coinEnd2,
                  double* overS, double* overE) const;
     bool release(SkCoincidentSpans* coin, SkCoincidentSpans* );
     void releaseDeleted(SkCoincidentSpans* );
     void restoreHead();
     // return coinPtT->segment()->t mapped from overS->fT <= t <= overE->fT
     static double TRange(const SkOpPtT* overS, double t, const SkOpSegment* coinPtT
                          SkDEBUGPARAMS(const SkOpPtT* overE));

     SkCoincidentSpans* fHead;
     SkCoincidentSpans* fTop;
     SkOpGlobalState* fGlobalState;
     bool fContinue;
     bool fSpanDeleted;
     bool fPtAllocated;
     bool fCoinExtended;
     bool fSpanMerged;
 };

 #endif
	/*
	* Copyright 2013 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/
	#ifndef SkOpCoincidence_DEFINED
	#define SkOpCoincidence_DEFINED

	#include "include/private/SkTDArray.h"
	#include "src/core/SkArenaAlloc.h"
	#include "src/pathops/SkOpSpan.h"
	#include "src/pathops/SkPathOpsTypes.h"

	class SkOpPtT;
	class SkOpSpanBase;

	class SkCoincidentSpans {
	public:
	const SkOpPtT* coinPtTEnd() const;
	const SkOpPtT* coinPtTStart() const;

	// These return non-const pointers so that, as copies, they can be added
	// to a new span pair
	SkOpPtT* coinPtTEndWritable() const { return const_cast<SkOpPtT*>(fCoinPtTEnd); }
	SkOpPtT* coinPtTStartWritable() const { return const_cast<SkOpPtT*>(fCoinPtTStart); }

	bool collapsed(const SkOpPtT* ) const;
	bool contains(const SkOpPtT* s, const SkOpPtT* e) const;
	void correctEnds();
	void correctOneEnd(const SkOpPtT* (SkCoincidentSpans::* getEnd)() const,
	void (SkCoincidentSpans::* setEnd)(const SkOpPtT* ptT) );

	#if DEBUG_COIN
	void debugCorrectEnds(SkPathOpsDebug::GlitchLog* log) const;
	void debugCorrectOneEnd(SkPathOpsDebug::GlitchLog* log,
	const SkOpPtT* (SkCoincidentSpans::* getEnd)() const,
	void (SkCoincidentSpans::* setEnd)(const SkOpPtT* ptT) const) const;
	bool debugExpand(SkPathOpsDebug::GlitchLog* log) const;
	#endif

	const char* debugID() const {
	#if DEBUG_COIN
	return fGlobalState->debugCoinDictEntry().fFunctionName;
	#else
	return nullptr;
	#endif
	}

	void debugShow() const;
	#ifdef SK_DEBUG
	void debugStartCheck(const SkOpSpanBase* outer, const SkOpSpanBase* over,
	const SkOpGlobalState* debugState) const;
	#endif
	void dump() const;
	bool expand();
	bool extend(const SkOpPtT* coinPtTStart, const SkOpPtT* coinPtTEnd,
	const SkOpPtT* oppPtTStart, const SkOpPtT* oppPtTEnd);
	bool flipped() const { return fOppPtTStart->fT > fOppPtTEnd->fT; }
	SkDEBUGCODE(SkOpGlobalState* globalState() { return fGlobalState; })

	void init(SkDEBUGCODE(SkOpGlobalState* globalState)) {
	sk_bzero(this, sizeof(*this));
	SkDEBUGCODE(fGlobalState = globalState);
	}

	SkCoincidentSpans* next() { return fNext; }
	const SkCoincidentSpans* next() const { return fNext; }
	SkCoincidentSpans** nextPtr() { return &fNext; }
	const SkOpPtT* oppPtTStart() const;
	const SkOpPtT* oppPtTEnd() const;
	// These return non-const pointers so that, as copies, they can be added
	// to a new span pair
	SkOpPtT* oppPtTStartWritable() const { return const_cast<SkOpPtT*>(fOppPtTStart); }
	SkOpPtT* oppPtTEndWritable() const { return const_cast<SkOpPtT*>(fOppPtTEnd); }
	bool ordered(bool* result) const;

	void set(SkCoincidentSpans* next, const SkOpPtT* coinPtTStart, const SkOpPtT* coinPtTEnd,
	const SkOpPtT* oppPtTStart, const SkOpPtT* oppPtTEnd);

	void setCoinPtTEnd(const SkOpPtT* ptT) {
	SkOPASSERT(ptT == ptT->span()->ptT());
	SkOPASSERT(!fCoinPtTStart \|\| ptT->fT != fCoinPtTStart->fT);
	SkASSERT(!fCoinPtTStart \|\| fCoinPtTStart->segment() == ptT->segment());
	fCoinPtTEnd = ptT;
	ptT->setCoincident();
	}

	void setCoinPtTStart(const SkOpPtT* ptT) {
	SkOPASSERT(ptT == ptT->span()->ptT());
	SkOPASSERT(!fCoinPtTEnd \|\| ptT->fT != fCoinPtTEnd->fT);
	SkASSERT(!fCoinPtTEnd \|\| fCoinPtTEnd->segment() == ptT->segment());
	fCoinPtTStart = ptT;
	ptT->setCoincident();
	}

	void setEnds(const SkOpPtT* coinPtTEnd, const SkOpPtT* oppPtTEnd) {
	this->setCoinPtTEnd(coinPtTEnd);
	this->setOppPtTEnd(oppPtTEnd);
	}

	void setOppPtTEnd(const SkOpPtT* ptT) {
	SkOPASSERT(ptT == ptT->span()->ptT());
	SkOPASSERT(!fOppPtTStart \|\| ptT->fT != fOppPtTStart->fT);
	SkASSERT(!fOppPtTStart \|\| fOppPtTStart->segment() == ptT->segment());
	fOppPtTEnd = ptT;
	ptT->setCoincident();
	}

	void setOppPtTStart(const SkOpPtT* ptT) {
	SkOPASSERT(ptT == ptT->span()->ptT());
	SkOPASSERT(!fOppPtTEnd \|\| ptT->fT != fOppPtTEnd->fT);
	SkASSERT(!fOppPtTEnd \|\| fOppPtTEnd->segment() == ptT->segment());
	fOppPtTStart = ptT;
	ptT->setCoincident();
	}

	void setStarts(const SkOpPtT* coinPtTStart, const SkOpPtT* oppPtTStart) {
	this->setCoinPtTStart(coinPtTStart);
	this->setOppPtTStart(oppPtTStart);
	}

	void setNext(SkCoincidentSpans* next) { fNext = next; }

	private:
	SkCoincidentSpans* fNext;
	const SkOpPtT* fCoinPtTStart;
	const SkOpPtT* fCoinPtTEnd;
	const SkOpPtT* fOppPtTStart;
	const SkOpPtT* fOppPtTEnd;
	SkDEBUGCODE(SkOpGlobalState* fGlobalState);
	};

	class SkOpCoincidence {
	public:
	SkOpCoincidence(SkOpGlobalState* globalState)
	: fHead(nullptr)
	, fTop(nullptr)
	, fGlobalState(globalState)
	, fContinue(false)
	, fSpanDeleted(false)
	, fPtAllocated(false)
	, fCoinExtended(false)
	, fSpanMerged(false) {
	globalState->setCoincidence(this);
	}

	void add(SkOpPtT* coinPtTStart, SkOpPtT* coinPtTEnd, SkOpPtT* oppPtTStart,
	SkOpPtT* oppPtTEnd);
	bool addEndMovedSpans(DEBUG_COIN_DECLARE_ONLY_PARAMS());
	bool addExpanded(DEBUG_COIN_DECLARE_ONLY_PARAMS());
	bool addMissing(bool* added DEBUG_COIN_DECLARE_PARAMS());
	bool apply(DEBUG_COIN_DECLARE_ONLY_PARAMS());
	bool contains(const SkOpPtT* coinPtTStart, const SkOpPtT* coinPtTEnd,
	const SkOpPtT* oppPtTStart, const SkOpPtT* oppPtTEnd) const;
	void correctEnds(DEBUG_COIN_DECLARE_ONLY_PARAMS());

	#if DEBUG_COIN
	void debugAddEndMovedSpans(SkPathOpsDebug::GlitchLog* log) const;
	void debugAddExpanded(SkPathOpsDebug::GlitchLog* ) const;
	void debugAddMissing(SkPathOpsDebug::GlitchLog* , bool* added) const;
	void debugAddOrOverlap(SkPathOpsDebug::GlitchLog* log,
	const SkOpSegment* coinSeg, const SkOpSegment* oppSeg,
	double coinTs, double coinTe, double oppTs, double oppTe,
	bool* added) const;
	#endif

	const SkOpAngle* debugAngle(int id) const {
	return SkDEBUGRELEASE(fGlobalState->debugAngle(id), nullptr);
	}

	void debugCheckBetween() const;

	#if DEBUG_COIN
	void debugCheckValid(SkPathOpsDebug::GlitchLog* log) const;
	#endif

	SkOpContour* debugContour(int id) const {
	return SkDEBUGRELEASE(fGlobalState->debugContour(id), nullptr);
	}

	#if DEBUG_COIN
	void debugCorrectEnds(SkPathOpsDebug::GlitchLog* log) const;
	bool debugExpand(SkPathOpsDebug::GlitchLog* ) const;
	void debugMark(SkPathOpsDebug::GlitchLog* ) const;
	void debugMarkCollapsed(SkPathOpsDebug::GlitchLog* ,
	const SkCoincidentSpans* coin, const SkOpPtT* test) const;
	void debugMarkCollapsed(SkPathOpsDebug::GlitchLog* , const SkOpPtT* test) const;
	#endif

	const SkOpPtT* debugPtT(int id) const {
	return SkDEBUGRELEASE(fGlobalState->debugPtT(id), nullptr);
	}

	const SkOpSegment* debugSegment(int id) const {
	return SkDEBUGRELEASE(fGlobalState->debugSegment(id), nullptr);
	}

	#if DEBUG_COIN
	void debugRelease(SkPathOpsDebug::GlitchLog* , const SkCoincidentSpans* ,
	const SkCoincidentSpans* ) const;
	void debugRelease(SkPathOpsDebug::GlitchLog* , const SkOpSegment* ) const;
	#endif
	void debugShowCoincidence() const;

	const SkOpSpanBase* debugSpan(int id) const {
	return SkDEBUGRELEASE(fGlobalState->debugSpan(id), nullptr);
	}

	void debugValidate() const;
	void dump() const;
	bool expand(DEBUG_COIN_DECLARE_ONLY_PARAMS());
	bool extend(const SkOpPtT* coinPtTStart, const SkOpPtT* coinPtTEnd, const SkOpPtT* oppPtTStart,
	const SkOpPtT* oppPtTEnd);
	bool findOverlaps(SkOpCoincidence* DEBUG_COIN_DECLARE_PARAMS()) const;
	void fixUp(SkOpPtT* deleted, const SkOpPtT* kept);

	SkOpGlobalState* globalState() {
	return fGlobalState;
	}

	const SkOpGlobalState* globalState() const {
	return fGlobalState;
	}

	bool isEmpty() const {
	return !fHead && !fTop;
	}

	bool mark(DEBUG_COIN_DECLARE_ONLY_PARAMS());
	void markCollapsed(SkOpPtT* );

	static bool Ordered(const SkOpPtT* coinPtTStart, const SkOpPtT* oppPtTStart) {
	return Ordered(coinPtTStart->segment(), oppPtTStart->segment());
	}

	static bool Ordered(const SkOpSegment* coin, const SkOpSegment* opp);
	void release(const SkOpSegment* );
	void releaseDeleted();

	private:
	void add(const SkOpPtT* coinPtTStart, const SkOpPtT* coinPtTEnd, const SkOpPtT* oppPtTStart,
	const SkOpPtT* oppPtTEnd) {
	this->add(const_cast<SkOpPtT>(coinPtTStart), const_cast<SkOpPtT>(coinPtTEnd),
	const_cast<SkOpPtT>(oppPtTStart), const_cast<SkOpPtT>(oppPtTEnd));
	}

	bool addEndMovedSpans(const SkOpSpan* base, const SkOpSpanBase* testSpan);
	bool addEndMovedSpans(const SkOpPtT* ptT);

	bool addIfMissing(const SkOpPtT* over1s, const SkOpPtT* over2s,
	double tStart, double tEnd, SkOpSegment* coinSeg, SkOpSegment* oppSeg,
	bool* added
	SkDEBUGPARAMS(const SkOpPtT* over1e) SkDEBUGPARAMS(const SkOpPtT* over2e));
	bool addOrOverlap(SkOpSegment* coinSeg, SkOpSegment* oppSeg,
	double coinTs, double coinTe, double oppTs, double oppTe, bool* added);
	bool addOverlap(const SkOpSegment* seg1, const SkOpSegment* seg1o,
	const SkOpSegment* seg2, const SkOpSegment* seg2o,
	const SkOpPtT* overS, const SkOpPtT* overE);
	bool checkOverlap(SkCoincidentSpans* check,
	const SkOpSegment* coinSeg, const SkOpSegment* oppSeg,
	double coinTs, double coinTe, double oppTs, double oppTe,
	SkTDArray<SkCoincidentSpans> overlaps) const;
	bool contains(const SkOpSegment* seg, const SkOpSegment* opp, double oppT) const;
	bool contains(const SkCoincidentSpans* coin, const SkOpSegment* seg,
	const SkOpSegment* opp, double oppT) const;
	#if DEBUG_COIN
	void debugAddIfMissing(SkPathOpsDebug::GlitchLog* ,
	const SkCoincidentSpans* outer, const SkOpPtT* over1s,
	const SkOpPtT* over1e) const;
	void debugAddIfMissing(SkPathOpsDebug::GlitchLog* ,
	const SkOpPtT* over1s, const SkOpPtT* over2s,
	double tStart, double tEnd,
	const SkOpSegment* coinSeg, const SkOpSegment* oppSeg, bool* added,
	const SkOpPtT* over1e, const SkOpPtT* over2e) const;
	void debugAddEndMovedSpans(SkPathOpsDebug::GlitchLog* ,
	const SkOpSpan* base, const SkOpSpanBase* testSpan) const;
	void debugAddEndMovedSpans(SkPathOpsDebug::GlitchLog* ,
	const SkOpPtT* ptT) const;
	#endif
	void fixUp(SkCoincidentSpans* coin, SkOpPtT* deleted, const SkOpPtT* kept);
	void markCollapsed(SkCoincidentSpans* head, SkOpPtT* test);
	bool overlap(const SkOpPtT* coinStart1, const SkOpPtT* coinEnd1,
	const SkOpPtT* coinStart2, const SkOpPtT* coinEnd2,
	double* overS, double* overE) const;
	bool release(SkCoincidentSpans* coin, SkCoincidentSpans* );
	void releaseDeleted(SkCoincidentSpans* );
	void restoreHead();
	// return coinPtT->segment()->t mapped from overS->fT <= t <= overE->fT
	static double TRange(const SkOpPtT* overS, double t, const SkOpSegment* coinPtT
	SkDEBUGPARAMS(const SkOpPtT* overE));

	SkCoincidentSpans* fHead;
	SkCoincidentSpans* fTop;
	SkOpGlobalState* fGlobalState;
	bool fContinue;
	bool fSpanDeleted;
	bool fPtAllocated;
	bool fCoinExtended;
	bool fSpanMerged;
	};

	#endif