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/*
* 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 SkOpSegment_DEFINE
#define SkOpSegment_DEFINE
#include "SkOpAngle.h"
#include "SkOpSpan.h"
#include "SkOpTAllocator.h"
#include "SkPathOpsBounds.h"
#include "SkPathOpsCubic.h"
#include "SkPathOpsCurve.h"
struct SkDCurve;
class SkOpCoincidence;
class SkOpContour;
enum class SkOpRayDir;
struct SkOpRayHit;
class SkPathWriter;
class SkOpSegment {
public:
bool operator<(const SkOpSegment& rh) const {
return fBounds.fTop < rh.fBounds.fTop;
}
SkOpAngle* activeAngle(SkOpSpanBase* start, SkOpSpanBase** startPtr, SkOpSpanBase** endPtr,
bool* done);
SkOpAngle* activeAngleInner(SkOpSpanBase* start, SkOpSpanBase** startPtr,
SkOpSpanBase** endPtr, bool* done);
SkOpAngle* activeAngleOther(SkOpSpanBase* start, SkOpSpanBase** startPtr,
SkOpSpanBase** endPtr, bool* done);
bool activeOp(SkOpSpanBase* start, SkOpSpanBase* end, int xorMiMask, int xorSuMask,
SkPathOp op);
bool activeOp(int xorMiMask, int xorSuMask, SkOpSpanBase* start, SkOpSpanBase* end, SkPathOp op,
int* sumMiWinding, int* sumSuWinding);
bool activeWinding(SkOpSpanBase* start, SkOpSpanBase* end);
bool activeWinding(SkOpSpanBase* start, SkOpSpanBase* end, int* sumWinding);
SkOpSegment* addConic(SkPoint pts[3], SkScalar weight, SkOpContour* parent) {
init(pts, weight, parent, SkPath::kConic_Verb);
SkDCurve curve;
curve.fConic.set(pts, weight);
curve.setConicBounds(pts, weight, 0, 1, &fBounds);
return this;
}
SkOpSegment* addCubic(SkPoint pts[4], SkOpContour* parent) {
init(pts, 1, parent, SkPath::kCubic_Verb);
SkDCurve curve;
curve.fCubic.set(pts);
curve.setCubicBounds(pts, 1, 0, 1, &fBounds);
return this;
}
bool addCurveTo(const SkOpSpanBase* start, const SkOpSpanBase* end, SkPathWriter* path) const;
SkOpAngle* addEndSpan() {
SkOpAngle* angle = SkOpTAllocator<SkOpAngle>::Allocate(this->globalState()->allocator());
angle->set(&fTail, fTail.prev());
fTail.setFromAngle(angle);
return angle;
}
bool addExpanded(double newT, const SkOpSpanBase* test, bool* startOver);
SkOpSegment* addLine(SkPoint pts[2], SkOpContour* parent) {
SkASSERT(pts[0] != pts[1]);
init(pts, 1, parent, SkPath::kLine_Verb);
fBounds.set(pts, 2);
return this;
}
SkOpPtT* addMissing(double t, SkOpSegment* opp, bool* allExist);
SkOpAngle* addStartSpan() {
SkOpAngle* angle = SkOpTAllocator<SkOpAngle>::Allocate(this->globalState()->allocator());
angle->set(&fHead, fHead.next());
fHead.setToAngle(angle);
return angle;
}
SkOpSegment* addQuad(SkPoint pts[3], SkOpContour* parent) {
init(pts, 1, parent, SkPath::kQuad_Verb);
SkDCurve curve;
curve.fQuad.set(pts);
curve.setQuadBounds(pts, 1, 0, 1, &fBounds);
return this;
}
SkOpPtT* addT(double t);
template<typename T> T* allocateArray(int count) {
return SkOpTAllocator<T>::AllocateArray(this->globalState()->allocator(), count);
}
const SkPathOpsBounds& bounds() const {
return fBounds;
}
void bumpCount() {
++fCount;
}
void calcAngles();
bool collapsed() const;
bool collapsed(double startT, double endT) const;
static void ComputeOneSum(const SkOpAngle* baseAngle, SkOpAngle* nextAngle,
SkOpAngle::IncludeType );
static void ComputeOneSumReverse(SkOpAngle* baseAngle, SkOpAngle* nextAngle,
SkOpAngle::IncludeType );
int computeSum(SkOpSpanBase* start, SkOpSpanBase* end, SkOpAngle::IncludeType includeType);
void clearAll();
void clearOne(SkOpSpan* span);
static void ClearVisited(SkOpSpanBase* span);
bool contains(double t) const;
SkOpContour* contour() const {
return fContour;
}
int count() const {
return fCount;
}
void debugAddAngle(double startT, double endT);
#if DEBUG_COINCIDENCE_VERBOSE
const SkOpPtT* debugAddT(double t, const char* id, SkPathOpsDebug::GlitchLog* ) const;
#endif
const SkOpAngle* debugAngle(int id) const;
#if DEBUG_ANGLE
void debugCheckAngleCoin() const;
#endif
#if DEBUG_COINCIDENCE_VERBOSE
void debugCheckHealth(const char* id, SkPathOpsDebug::GlitchLog* ) const;
void debugClearAll(const char* id, SkPathOpsDebug::GlitchLog* glitches) const;
void debugClearOne(const SkOpSpan* span, const char* id, SkPathOpsDebug::GlitchLog* glitches) const;
#endif
const SkOpCoincidence* debugCoincidence() const;
SkOpContour* debugContour(int id) const;
int debugID() const {
return SkDEBUGRELEASE(fID, -1);
}
SkOpAngle* debugLastAngle();
#if DEBUG_COINCIDENCE_VERBOSE
void debugMissingCoincidence(const char* id, SkPathOpsDebug::GlitchLog* glitches) const;
void debugMoveMultiples(const char* id, SkPathOpsDebug::GlitchLog* glitches) const;
void debugMoveNearby(const char* id, SkPathOpsDebug::GlitchLog* glitches) const;
#endif
const SkOpPtT* debugPtT(int id) const;
void debugReset();
const SkOpSegment* debugSegment(int id) const;
#if DEBUG_ACTIVE_SPANS
void debugShowActiveSpans() const;
#endif
#if DEBUG_MARK_DONE
void debugShowNewWinding(const char* fun, const SkOpSpan* span, int winding);
void debugShowNewWinding(const char* fun, const SkOpSpan* span, int winding, int oppWinding);
#endif
const SkOpSpanBase* debugSpan(int id) const;
void debugValidate() const;
#if DEBUG_COINCIDENCE_ORDER
void debugResetCoinT() const;
void debugSetCoinT(int, SkScalar ) const;
#endif
#if DEBUG_COINCIDENCE
static void DebugClearVisited(const SkOpSpanBase* span);
bool debugVisited() const {
if (!fDebugVisited) {
fDebugVisited = true;
return false;
}
return true;
}
#endif
void release(const SkOpSpan* );
double distSq(double t, const SkOpAngle* opp) const;
bool done() const {
SkOPASSERT(fDoneCount <= fCount);
return fDoneCount == fCount;
}
bool done(const SkOpAngle* angle) const {
return angle->start()->starter(angle->end())->done();
}
SkDPoint dPtAtT(double mid) const {
return (*CurveDPointAtT[fVerb])(fPts, fWeight, mid);
}
SkDVector dSlopeAtT(double mid) const {
return (*CurveDSlopeAtT[fVerb])(fPts, fWeight, mid);
}
void dump() const;
void dumpAll() const;
void dumpAngles() const;
void dumpCoin() const;
void dumpPts(const char* prefix = "seg") const;
void dumpPtsInner(const char* prefix = "seg") const;
const SkOpPtT* existing(double t, const SkOpSegment* opp) const;
SkOpSegment* findNextOp(SkTDArray<SkOpSpanBase*>* chase, SkOpSpanBase** nextStart,
SkOpSpanBase** nextEnd, bool* unsortable, SkPathOp op,
int xorMiMask, int xorSuMask);
SkOpSegment* findNextWinding(SkTDArray<SkOpSpanBase*>* chase, SkOpSpanBase** nextStart,
SkOpSpanBase** nextEnd, bool* unsortable);
SkOpSegment* findNextXor(SkOpSpanBase** nextStart, SkOpSpanBase** nextEnd, bool* unsortable);
SkOpSpan* findSortableTop(SkOpContour* );
SkOpGlobalState* globalState() const;
const SkOpSpan* head() const {
return &fHead;
}
SkOpSpan* head() {
return &fHead;
}
void init(SkPoint pts[], SkScalar weight, SkOpContour* parent, SkPath::Verb verb);
SkOpSpan* insert(SkOpSpan* prev) {
SkOpGlobalState* globalState = this->globalState();
globalState->setAllocatedOpSpan();
SkOpSpan* result = SkOpTAllocator<SkOpSpan>::Allocate(globalState->allocator());
SkOpSpanBase* next = prev->next();
result->setPrev(prev);
prev->setNext(result);
SkDEBUGCODE(result->ptT()->fT = 0);
result->setNext(next);
if (next) {
next->setPrev(result);
}
return result;
}
bool isClose(double t, const SkOpSegment* opp) const;
bool isHorizontal() const {
return fBounds.fTop == fBounds.fBottom;
}
SkOpSegment* isSimple(SkOpSpanBase** end, int* step) {
return nextChase(end, step, nullptr, nullptr);
}
bool isVertical() const {
return fBounds.fLeft == fBounds.fRight;
}
bool isVertical(SkOpSpanBase* start, SkOpSpanBase* end) const {
return (*CurveIsVertical[fVerb])(fPts, fWeight, start->t(), end->t());
}
bool isXor() const;
void joinEnds(SkOpSegment* start) {
fTail.ptT()->addOpp(start->fHead.ptT(), start->fHead.ptT());
}
const SkPoint& lastPt() const {
return fPts[SkPathOpsVerbToPoints(fVerb)];
}
void markAllDone();
SkOpSpanBase* markAndChaseDone(SkOpSpanBase* start, SkOpSpanBase* end);
bool markAndChaseWinding(SkOpSpanBase* start, SkOpSpanBase* end, int winding,
SkOpSpanBase** lastPtr);
bool markAndChaseWinding(SkOpSpanBase* start, SkOpSpanBase* end, int winding,
int oppWinding, SkOpSpanBase** lastPtr);
SkOpSpanBase* markAngle(int maxWinding, int sumWinding, const SkOpAngle* angle);
SkOpSpanBase* markAngle(int maxWinding, int sumWinding, int oppMaxWinding, int oppSumWinding,
const SkOpAngle* angle);
void markDone(SkOpSpan* );
bool markWinding(SkOpSpan* , int winding);
bool markWinding(SkOpSpan* , int winding, int oppWinding);
bool match(const SkOpPtT* span, const SkOpSegment* parent, double t, const SkPoint& pt) const;
bool missingCoincidence();
bool moveMultiples();
void moveNearby();
SkOpSegment* next() const {
return fNext;
}
SkOpSegment* nextChase(SkOpSpanBase** , int* step, SkOpSpan** , SkOpSpanBase** last) const;
bool operand() const;
static int OppSign(const SkOpSpanBase* start, const SkOpSpanBase* end) {
int result = start->t() < end->t() ? -start->upCast()->oppValue()
: end->upCast()->oppValue();
return result;
}
bool oppXor() const;
const SkOpSegment* prev() const {
return fPrev;
}
SkPoint ptAtT(double mid) const {
return (*CurvePointAtT[fVerb])(fPts, fWeight, mid);
}
const SkPoint* pts() const {
return fPts;
}
bool ptsDisjoint(const SkOpPtT& span, const SkOpPtT& test) const {
SkASSERT(this == span.segment());
SkASSERT(this == test.segment());
return ptsDisjoint(span.fT, span.fPt, test.fT, test.fPt);
}
bool ptsDisjoint(const SkOpPtT& span, double t, const SkPoint& pt) const {
SkASSERT(this == span.segment());
return ptsDisjoint(span.fT, span.fPt, t, pt);
}
bool ptsDisjoint(const SkOpSpanBase* span, const SkOpSpanBase* test) const {
SkASSERT(this == span->segment());
SkASSERT(this == test->segment());
return ptsDisjoint(span->t(), span->pt(), test->t(), test->pt());
}
bool ptsDisjoint(double t1, const SkPoint& pt1, double t2, const SkPoint& pt2) const;
void rayCheck(const SkOpRayHit& base, SkOpRayDir dir, SkOpRayHit** hits, SkChunkAlloc*);
#if DEBUG_COINCIDENCE
void resetDebugVisited() const {
fDebugVisited = false;
}
#endif
void resetVisited() {
fVisited = false;
}
void setContour(SkOpContour* contour) {
fContour = contour;
}
void setNext(SkOpSegment* next) {
fNext = next;
}
void setPrev(SkOpSegment* prev) {
fPrev = prev;
}
void setUpWinding(SkOpSpanBase* start, SkOpSpanBase* end, int* maxWinding, int* sumWinding) {
int deltaSum = SpanSign(start, end);
*maxWinding = *sumWinding;
if (*sumWinding == SK_MinS32) {
return;
}
*sumWinding -= deltaSum;
}
void setUpWindings(SkOpSpanBase* start, SkOpSpanBase* end, int* sumMiWinding,
int* maxWinding, int* sumWinding);
void setUpWindings(SkOpSpanBase* start, SkOpSpanBase* end, int* sumMiWinding, int* sumSuWinding,
int* maxWinding, int* sumWinding, int* oppMaxWinding, int* oppSumWinding);
void sortAngles();
bool spansNearby(const SkOpSpanBase* ref, const SkOpSpanBase* check) const;
static int SpanSign(const SkOpSpanBase* start, const SkOpSpanBase* end) {
int result = start->t() < end->t() ? -start->upCast()->windValue()
: end->upCast()->windValue();
return result;
}
SkOpAngle* spanToAngle(SkOpSpanBase* start, SkOpSpanBase* end) {
SkASSERT(start != end);
return start->t() < end->t() ? start->upCast()->toAngle() : start->fromAngle();
}
bool subDivide(const SkOpSpanBase* start, const SkOpSpanBase* end, SkDCurve* result) const;
bool subDivide(const SkOpSpanBase* start, const SkOpSpanBase* end, SkOpCurve* result) const;
const SkOpSpanBase* tail() const {
return &fTail;
}
SkOpSpanBase* tail() {
return &fTail;
}
bool testForCoincidence(const SkOpPtT* priorPtT, const SkOpPtT* ptT, const SkOpSpanBase* prior,
const SkOpSpanBase* spanBase, const SkOpSegment* opp) const;
void undoneSpan(SkOpSpanBase** start, SkOpSpanBase** end);
int updateOppWinding(const SkOpSpanBase* start, const SkOpSpanBase* end) const;
int updateOppWinding(const SkOpAngle* angle) const;
int updateOppWindingReverse(const SkOpAngle* angle) const;
int updateWinding(SkOpSpanBase* start, SkOpSpanBase* end);
int updateWinding(SkOpAngle* angle);
int updateWindingReverse(const SkOpAngle* angle);
static bool UseInnerWinding(int outerWinding, int innerWinding);
SkPath::Verb verb() const {
return fVerb;
}
// look for two different spans that point to the same opposite segment
bool visited() {
if (!fVisited) {
fVisited = true;
return false;
}
return true;
}
SkScalar weight() const {
return fWeight;
}
SkOpSpan* windingSpanAtT(double tHit);
int windSum(const SkOpAngle* angle) const;
private:
SkOpSpan fHead; // the head span always has its t set to zero
SkOpSpanBase fTail; // the tail span always has its t set to one
SkOpContour* fContour;
SkOpSegment* fNext; // forward-only linked list used by contour to walk the segments
const SkOpSegment* fPrev;
SkPoint* fPts; // pointer into array of points owned by edge builder that may be tweaked
SkPathOpsBounds fBounds; // tight bounds
SkScalar fWeight;
int fCount; // number of spans (one for a non-intersecting segment)
int fDoneCount; // number of processed spans (zero initially)
SkPath::Verb fVerb;
bool fVisited; // used by missing coincidence check
#if DEBUG_COINCIDENCE
mutable bool fDebugVisited; // used by debug missing coincidence check
#endif
#if DEBUG_COINCIDENCE_ORDER
mutable int fDebugBaseIndex;
mutable SkScalar fDebugBaseMin; // if > 0, the 1st t value in this seg vis-a-vis the ref seg
mutable SkScalar fDebugBaseMax;
mutable int fDebugLastIndex;
mutable SkScalar fDebugLastMin; // if > 0, the last t -- next t val - base has same sign
mutable SkScalar fDebugLastMax;
#endif
SkDEBUGCODE(int fID);
};
#endif
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