diff options
| author |  caryclark@google.com <caryclark@google.com@2bbb7eff-a529-9590-31e7-b0007b416f81> | 2012-11-14 21:14:56 +0000 |
|---|---|---|
| committer | caryclark@google.com <caryclark@google.com@2bbb7eff-a529-9590-31e7-b0007b416f81> | 2012-11-14 21:14:56 +0000 |
| commit | 57cff8dbdfb32b3fea426519a4fdc05f13be69d9 (patch) | |
| tree | 45721a1469731bc8a82b5516d00fb8df3489124e /experimental | |
| parent | 459e6623f1c014136f2a8df34c4af80f994eccf0 (diff) | |
shape ops work in progress
binary ops work for simple coincident case
git-svn-id: http://skia.googlecode.com/svn/trunk@6422 2bbb7eff-a529-9590-31e7-b0007b416f81
Diffstat (limited to 'experimental')
| -rw-r--r-- | experimental/Intersection/ShapeOps.cpp | 36 | ||||
| -rw-r--r-- | experimental/Intersection/Simplify.cpp | 299 | ||||
| -rw-r--r-- | experimental/Intersection/SimplifyNew_Test.cpp | 100 |
3 files changed, 288 insertions, 147 deletions
diff --git a/experimental/Intersection/ShapeOps.cpp b/experimental/Intersection/ShapeOps.cpp index 5356ca6bb6..fa29ab769c 100644 --- a/experimental/Intersection/ShapeOps.cpp +++ b/experimental/Intersection/ShapeOps.cpp @@ -78,6 +78,7 @@ static Segment* findChaseOp(SkTDArray<Span*>& chase, int& tIndex, int& endIndex) segment->debugShowSort(__FUNCTION__, sorted, firstIndex, winding, oWinding); #endif winding -= segment->spanSign(angle); + oWinding -= segment->oppSign(angle); bool firstOperand = segment->operand(); do { SkASSERT(nextIndex != firstIndex); @@ -87,14 +88,17 @@ static Segment* findChaseOp(SkTDArray<Span*>& chase, int& tIndex, int& endIndex) angle = sorted[nextIndex]; segment = angle->segment(); int deltaSum = segment->spanSign(angle); + int deltaOppSum = segment->oppSign(angle); bool angleIsOp = segment->operand() ^ firstOperand; int maxWinding; if (angleIsOp) { maxWinding = oWinding; oWinding -= deltaSum; + winding -= deltaOppSum; } else { maxWinding = winding; winding -= deltaSum; + oWinding -= deltaOppSum; } #if DEBUG_SORT SkDebugf("%s id=%d maxWinding=%d winding=%d oWinding=%d sign=%d\n", __FUNCTION__, @@ -125,16 +129,31 @@ static Segment* findChaseOp(SkTDArray<Span*>& chase, int& tIndex, int& endIndex) return NULL; } -static bool windingIsActive(int winding, int oppWinding, int spanWinding, +static bool windingIsActive(int winding, int oppWinding, int spanWinding, int oppSpanWinding, bool windingIsOp, ShapeOp op) { bool active = windingIsActive(winding, spanWinding); if (!active) { return false; } + if (oppSpanWinding && windingIsActive(oppWinding, oppSpanWinding)) { + return op == kIntersect_Op || op == kUnion_Op; + } bool opActive = oppWinding != 0; return gOpLookup[op][opActive][windingIsOp]; } +static int updateWindings(const Segment* current, int index, int endIndex, + int& spanWinding, int& oppWinding, int& oppSpanWinding) { + int winding = updateWindings(current, index, endIndex, spanWinding); + int lesser = SkMin32(index, endIndex); + oppWinding = current->oppSum(lesser); + oppSpanWinding = current->oppSign(index, endIndex); + if (oppSpanWinding && useInnerWinding(oppWinding - oppSpanWinding, oppWinding)) { + oppWinding -= oppSpanWinding; + } + return winding; +} + static bool bridgeOp(SkTDArray<Contour*>& contourList, const ShapeOp op, const int aXorMask, const int bXorMask, PathWrapper& simple) { bool firstContour = true; @@ -188,14 +207,15 @@ static bool bridgeOp(SkTDArray<Contour*>& contourList, const ShapeOp op, int winding = contourWinding; int oppWinding = oppContourWinding; int spanWinding = current->spanSign(index, endIndex); + int oppSpanWinding = current->oppSign(index, endIndex); SkTDArray<Span*> chaseArray; do { - bool active = windingIsActive(winding, oppWinding, spanWinding, + bool active = windingIsActive(winding, oppWinding, spanWinding, oppSpanWinding, current->operand(), op); #if DEBUG_WINDING - SkDebugf("%s active=%s winding=%d oppWinding=%d spanWinding=%d\n", + SkDebugf("%s active=%s winding=%d oppWinding=%d spanWinding=%d oppSpanWinding=%d\n", __FUNCTION__, active ? "true" : "false", - winding, oppWinding, spanWinding); + winding, oppWinding, spanWinding, oppSpanWinding); #endif do { #if DEBUG_ACTIVE_SPANS @@ -207,7 +227,7 @@ static bool bridgeOp(SkTDArray<Contour*>& contourList, const ShapeOp op, int nextStart = index; int nextEnd = endIndex; Segment* next = current->findNextOp(chaseArray, active, - nextStart, nextEnd, winding, oppWinding, spanWinding, + nextStart, nextEnd, winding, oppWinding, spanWinding, oppSpanWinding, unsortable, op, aXorMask, bXorMask); if (!next) { SkASSERT(!unsortable); @@ -244,7 +264,8 @@ static bool bridgeOp(SkTDArray<Contour*>& contourList, const ShapeOp op, if (!current) { break; } - winding = updateWindings(current, index, endIndex, spanWinding, &oppWinding); + winding = updateWindings(current, index, endIndex, spanWinding, oppWinding, + oppSpanWinding); } while (true); } while (true); return closable; @@ -281,7 +302,8 @@ void operate(const SkPath& one, const SkPath& two, ShapeOp op, SkPath& result) { } while (addIntersectTs(current, next) && nextPtr != listEnd); } while (currentPtr != listEnd); // eat through coincident edges - coincidenceCheck(contourList); + coincidenceCheck(contourList, (aXorMask == kEvenOdd_Mask) + ^ (bXorMask == kEvenOdd_Mask)); fixOtherTIndex(contourList); sortSegments(contourList); #if DEBUG_ACTIVE_SPANS diff --git a/experimental/Intersection/Simplify.cpp b/experimental/Intersection/Simplify.cpp index 42610291e6..80c3566028 100644 --- a/experimental/Intersection/Simplify.cpp +++ b/experimental/Intersection/Simplify.cpp @@ -482,6 +482,7 @@ struct Span { int fWindSum; // accumulated from contours surrounding this one. int fOppSum; // for binary operators: the opposite winding sum int fWindValue; // 0 == canceled; 1 == normal; >1 == coincident + int fOppValue; // normally 0 -- when binary coincident edges combine, opp value goes here bool fDone; // if set, this span to next higher T has been processed bool fUnsortableStart; // set when start is part of an unsortable pair bool fUnsortableEnd; // set when end is part of an unsortable pair @@ -837,7 +838,10 @@ static const bool gOpLookup[][2][2] = { {{true , true }, {true , true }}, // a ^ b }; -static bool activeOp(bool angleIsOp, int otherNonZero, ShapeOp op) { +static bool activeOp(bool angleIsOp, int otherNonZero, int otherCoin, ShapeOp op) { + if (otherNonZero != otherCoin) { + return op == kIntersect_Op || op == kUnion_Op; + } return gOpLookup[op][otherNonZero][angleIsOp]; } @@ -1334,6 +1338,7 @@ public: span->fWindSum = SK_MinS32; span->fOppSum = SK_MinS32; span->fWindValue = 1; + span->fOppValue = 0; span->fTiny = false; if ((span->fDone = newT == 1)) { ++fDoneSpans; @@ -1460,14 +1465,105 @@ public: other.addCancelOutsides(tStart, oStart, *this, endT); } } + + int bumpCoincidentThis(const Span* oTest, const bool transfer, const bool decrementThis, + const bool thisXor, const bool opp, int index, SkTDArray<double>& outsideTs, + SkTDArray<double>& xOutsideTs) + { + Span* const test = &fTs[index]; + Span* end = test; + const int startIndex = index; + const double oStartT = oTest->fT; + do { + if (transfer) { + if (!decrementThis & !thisXor & !opp) { + #ifdef SK_DEBUG + SkASSERT(abs(end->fWindValue) < gDebugMaxWindValue); + #endif + ++(end->fWindValue); + } else if (decrementSpan(end)) { + TrackOutside(outsideTs, end->fT, oStartT); + } + } else if (opp) { + if (decrementThis) { + if (decrementSpan(end)) { + TrackOutside(outsideTs, end->fT, oStartT); + } + } else { + end->fOppValue += oTest->fWindValue; + } + } else if (oTest->fWindValue) { + SkASSERT(decrementThis); + if (startIndex > 0 && fTs[startIndex - 1].fWindValue) { + TrackOutside(xOutsideTs, end->fT, oStartT); + } + } + end = &fTs[++index]; + } while (approximately_negative(end->fT - test->fT)); + return index; + } + + // because of the order in which coincidences are resolved, this and other + // may not have the same intermediate points. Compute the corresponding + // intermediate T values (using this as the master, other as the follower) + // and walk other conditionally -- hoping that it catches up in the end + int bumpCoincidentOther(const Span* test, const bool transfer, const bool decrementThis, + const bool otherXor, const bool opp, const double tRatio, const double oEndT, + int& oIndex, SkTDArray<double>& oOutsideTs) + { + Span* const oTest = &fTs[oIndex]; + Span* oEnd = oTest; + const double startT = test->fT; + const int oStartIndex = oIndex; + const double oStartT = oTest->fT; + double otherTMatch = (test->fT - startT) * tRatio + oStartT; + while (!approximately_negative(oEndT - oEnd->fT) + && approximately_negative(oEnd->fT - otherTMatch)) { + if (transfer) { + if (decrementThis & !otherXor & !opp) { + #ifdef SK_DEBUG + SkASSERT(abs(oEnd->fWindValue) < gDebugMaxWindValue); + #endif + ++(oEnd->fWindValue); + } else if (decrementSpan(oEnd)) { + TrackOutside(oOutsideTs, oEnd->fT, startT); + } + } else if (opp) { + if (decrementThis) { + oEnd->fOppValue += test->fWindValue; + } else { + if (decrementSpan(oEnd)) { + TrackOutside(oOutsideTs, oEnd->fT, startT); + } + } + } else if (test->fWindValue) { + SkASSERT(decrementThis); + if (oStartIndex > 0 && fTs[oStartIndex - 1].fWindValue) { + SkASSERT(0); // track for later? + } + } + oEnd = &fTs[++oIndex]; + } + return oIndex; + } + + // FIXME: need to test this case: + // contourA has two segments that are coincident + // contourB has two segments that are coincident in the same place + // each ends up with +2/0 pairs for winding count + // since logic below doesn't transfer count (only increments/decrements) can this be + // resolved to +4/0 ? // set spans from start to end to increment the greater by one and decrement // the lesser - void addTCoincident(bool isXor, double startT, double endT, + void addTCoincident(bool thisXor, bool otherXor, double startT, double endT, Segment& other, double oStartT, double oEndT) { SkASSERT(!approximately_negative(endT - startT)); SkASSERT(!approximately_negative(oEndT - oStartT)); - isXor |= fOperand != other.fOperand; + bool opp = fOperand ^ other.fOperand; + if (!opp) { + otherXor = thisXor; + } int index = 0; while (!approximately_negative(startT - fTs[index].fT)) { ++index; @@ -1482,61 +1578,22 @@ public: SkTDArray<double> outsideTs; SkTDArray<double> xOutsideTs; SkTDArray<double> oOutsideTs; - SkTDArray<double> oxOutsideTs; do { - bool transfer = test->fWindValue && oTest->fWindValue; - bool decrementThis = (test->fWindValue < oTest->fWindValue) & !isXor; - bool decrementOther = (test->fWindValue >= oTest->fWindValue) & !isXor; - Span* end = test; - double startT = end->fT; - int startIndex = index; - double oStartT = oTest->fT; - int oStartIndex = oIndex; - do { - if (transfer) { - if (decrementOther) { - #ifdef SK_DEBUG - SkASSERT(abs(end->fWindValue) < gDebugMaxWindValue); - #endif - ++(end->fWindValue); - } else if (decrementSpan(end)) { - TrackOutside(outsideTs, end->fT, oStartT); - } - } else if (oTest->fWindValue) { - SkASSERT(!decrementOther); - if (startIndex > 0 && fTs[startIndex - 1].fWindValue) { - TrackOutside(xOutsideTs, end->fT, oStartT); - } - } - end = &fTs[++index]; - } while (approximately_negative(end->fT - test->fT)); - // because of the order in which coincidences are resolved, this and other - // may not have the same intermediate points. Compute the corresponding - // intermediate T values (using this as the master, other as the follower) - // and walk other conditionally -- hoping that it catches up in the end - double otherTMatch = (test->fT - startT) * tRatio + oStartT; - Span* oEnd = oTest; - while (!approximately_negative(oEndT - oEnd->fT) - && approximately_negative(oEnd->fT - otherTMatch)) { - if (transfer) { - if (decrementThis) { - #ifdef SK_DEBUG - SkASSERT(abs(oEnd->fWindValue) < gDebugMaxWindValue); - #endif - ++(oEnd->fWindValue); - } else if (other.decrementSpan(oEnd)) { - TrackOutside(oOutsideTs, oEnd->fT, startT); - } - } else if (test->fWindValue) { - SkASSERT(!decrementOther); - if (oStartIndex > 0 && other.fTs[oStartIndex - 1].fWindValue) { - SkASSERT(0); // track for later? - } - } - oEnd = &other.fTs[++oIndex]; + bool transfer = test->fWindValue && oTest->fWindValue && !opp; + bool decrementThis = test->fWindValue < oTest->fWindValue; + if (decrementThis) { + oIndex = other.bumpCoincidentOther(test, transfer, decrementThis, otherXor, opp, + tRatio, oEndT, oIndex, oOutsideTs); + index = bumpCoincidentThis(oTest, transfer, decrementThis, thisXor, opp, + index, outsideTs, xOutsideTs); + } else { + index = bumpCoincidentThis(oTest, transfer, decrementThis, thisXor, opp, + index, outsideTs, xOutsideTs); + oIndex = other.bumpCoincidentOther(test, transfer, decrementThis, otherXor, opp, + tRatio, oEndT, oIndex, oOutsideTs); } - test = end; - oTest = oEnd; + test = &fTs[index]; + oTest = &other.fTs[oIndex]; } while (!approximately_negative(endT - test->fT)); SkASSERT(approximately_negative(oTest->fT - oEndT)); SkASSERT(approximately_negative(oEndT - oTest->fT)); @@ -1811,7 +1868,7 @@ public: Segment* findNextOp(SkTDArray<Span*>& chase, bool active, int& nextStart, int& nextEnd, int& winding, int& oppWinding, - int& spanWinding, bool& unsortable, ShapeOp op, + int& spanWinding, int& oppSpanWinding, bool& unsortable, ShapeOp op, const int aXorMask, const int bXorMask) { const int startIndex = nextStart; const int endIndex = nextEnd; @@ -1824,6 +1881,13 @@ public: if (useInnerWinding(outerWinding, innerWinding)) { outerWinding = innerWinding; } + int outerOppWinding = oppWinding; + if (oppSpanWinding) { + int innerOppWinding = oppWinding + oppSpanWinding; + if (useInnerWinding(oppWinding, innerOppWinding)) { + outerOppWinding = innerOppWinding; + } + } SkASSERT(startIndex != endIndex); int count = fTs.count(); SkASSERT(startIndex < endIndex ? startIndex < count - 1 @@ -1839,7 +1903,7 @@ public: #if DEBUG_WINDING SkDebugf("%s simple\n", __FUNCTION__); #endif - markDone(SkMin32(startIndex, endIndex), outerWinding, oppWinding); + markDone(SkMin32(startIndex, endIndex), outerWinding, outerOppWinding); other = endSpan->fOther; nextStart = endSpan->fOtherIndex; double startT = other->fTs[nextStart].fT; @@ -1871,16 +1935,21 @@ public: } SkASSERT(sorted[firstIndex]->segment() == this); #if DEBUG_WINDING - SkDebugf("%s [%d] sign=%d\n", __FUNCTION__, firstIndex, sorted[firstIndex]->sign()); + SkDebugf("%s firstIndex=[%d] sign=%d\n", __FUNCTION__, firstIndex, + sorted[firstIndex]->sign()); #endif int aSumWinding = winding; int bSumWinding = oppWinding; bool angleIsOp = sorted[firstIndex]->segment()->operand() ^ operand(); - int angleSpan = spanSign(sorted[firstIndex]); + const Angle* firstAngle = sorted[firstIndex]; + int angleSpan = spanSign(firstAngle); + int oppoSign = oppSign(firstAngle); if (angleIsOp) { bSumWinding -= angleSpan; + aSumWinding -= oppoSign; } else { aSumWinding -= angleSpan; + bSumWinding -= oppoSign; } int nextIndex = firstIndex + 1; int lastIndex = firstIndex != 0 ? firstIndex : angleCount; @@ -1913,8 +1982,9 @@ public: bool nextTiny = nextSegment->tiny(*nextAngle); angleIsOp = nextSegment->operand() ^ operand(); int deltaSum = nextSegment->spanSign(nextAngle); + int oppDeltaSum = nextSegment->oppSign(nextAngle); int maxWinding, xorMask, sumWinding; - bool otherNonZero, altFlipped; + bool otherNonZero, altFlipped, otherCoin; if (angleIsOp) { maxWinding = bSumWinding; if (bSumWinding) { @@ -1926,6 +1996,8 @@ public: xorMask = bXorMask; bAltFlipped ^= bLastNonZeroSum * bSumWinding < 0; // flip if different signs altFlipped = bAltFlipped; + aSumWinding -= oppDeltaSum; + otherCoin = aSumWinding & aXorMask; } else { maxWinding = aSumWinding; if (aSumWinding) { @@ -1937,12 +2009,14 @@ public: xorMask = aXorMask; aAltFlipped ^= aLastNonZeroSum * aSumWinding < 0; // flip if different signs altFlipped = aAltFlipped; + bSumWinding -= oppDeltaSum; + otherCoin = bSumWinding & bXorMask; } - bool opIsActive = activeOp(nextSegment->operand(), otherNonZero, op); + bool opIsActive = activeOp(nextSegment->operand(), otherNonZero, otherCoin, op); int oWinding = angleIsOp ? aSumWinding : bSumWinding; if (!(sumWinding & xorMask)) { if (!active) { - markAndChaseDone(startIndex, endIndex, outerWinding, oppWinding); + markAndChaseDone(startIndex, endIndex, outerWinding, outerOppWinding); nextSegment->markAndChaseWinding(nextAngle, maxWinding, oWinding); #if DEBUG_WINDING SkDebugf("%s [%d] inactive\n", __FUNCTION__, nextIndex); @@ -1994,7 +2068,7 @@ public: } } } while (++nextIndex != lastIndex); - markDone(SkMin32(startIndex, endIndex), outerWinding, oppWinding); + markDone(SkMin32(startIndex, endIndex), outerWinding, outerOppWinding); if (!foundAngle) { return NULL; } @@ -2005,14 +2079,17 @@ public: nextEnd = foundAngle->end(); nextSegment = foundAngle->segment(); int flipped = foundFlipped ? -1 : 1; - spanWinding = SkSign32(spanWinding) * flipped * nextSegment->windValue( - SkMin32(nextStart, nextEnd)); + int minStartEnd = SkMin32(nextStart, nextEnd); + spanWinding = SkSign32(spanWinding) * flipped * nextSegment->windValue(minStartEnd); + oppSpanWinding = SkSign32(oppSpanWinding) * flipped * nextSegment->oppValue(minStartEnd); + #if DEBUG_WINDING SkDebugf("%s foundFlipped=%d spanWinding=%d oldSpanSign=%d spanSign=%d\n", __FUNCTION__, foundFlipped, spanWinding, oldSpanSign, nextSegment->spanSign(foundAngle)); - SkDebugf("%s foundOpp=%d oppWinding=%d foundOppWinding=%d winding=%d foundSum=", - __FUNCTION__, foundOpp, oppWinding, foundOppWinding, winding); + SkDebugf("%s foundOpp=%d oppWinding=%d oppSpanWinding=%d foundOppWinding=%d winding=%d" + " foundSum=", __FUNCTION__, foundOpp, oppWinding, oppSpanWinding, foundOppWinding, + winding); if (foundSum == SK_MinS32) { SkDebugf("?"); } else { @@ -2026,6 +2103,7 @@ public: SkASSERT(foundSum != SK_MinS32); winding = foundSum; spanWinding = nextSegment->spanSign(foundAngle); + oppSpanWinding = nextSegment->oppSign(foundAngle); } } return nextSegment; @@ -2333,7 +2411,7 @@ public: } // FIXME: this is tricky code; needs its own unit test - void findTooCloseToCall(bool isXor) { + void findTooCloseToCall(bool thisXor, bool otherXor) { int count = fTs.count(); if (count < 3) { // require t=0, x, 1 at minimum return; @@ -2459,7 +2537,8 @@ public: // FIXME: this is bogus for multiple ops // the xorMask needs to be accumulated from the union of the two // edges -- which means that the segment must have its own copy of the mask - mOther->addTCoincident(isXor, moStartT, moEndT, *tOther, toStartT, toEndT); + mOther->addTCoincident(thisXor, otherXor, + moStartT, moEndT, *tOther, toStartT, toEndT); } } } @@ -2965,6 +3044,20 @@ public: return fOperand; } + int oppSign(const Angle* angle) const { + SkASSERT(angle->segment() == this); + return oppSign(angle->start(), angle->end()); + } + + int oppSign(int startIndex, int endIndex) const { + int result = startIndex < endIndex ? -fTs[startIndex].fOppValue + : fTs[endIndex].fOppValue; +#if DEBUG_WIND_BUMP + SkDebugf("%s oppSign=%d\n", __FUNCTION__, result); +#endif + return result; + } + int oppSum(int tIndex) const { return fTs[tIndex].fOppSum; } @@ -2974,6 +3067,10 @@ public: return fTs[lesser].fOppSum; } + int oppValue(int tIndex) const { + return fTs[tIndex].fOppValue; + } + const SkPoint* pts() const { return fPts; } @@ -3320,8 +3417,10 @@ public: SkASSERT(angles.count() > 1); int lastSum = contourWinding; int oppLastSum = oppContourWinding; - int windSum = lastSum - spanSign(angles[first]); - int oppWindSum = oppLastSum; + const Angle* firstAngle = angles[first]; + int windSum = lastSum - spanSign(firstAngle); + int oppoSign = oppSign(firstAngle); + int oppWindSum = oppLastSum - oppoSign; SkDebugf("%s %s contourWinding=%d oppContourWinding=%d sign=%d\n", fun, __FUNCTION__, contourWinding, oppContourWinding, spanSign(angles[first])); int index = first; @@ -3336,12 +3435,21 @@ public: const Span& mSpan = segment.fTs[SkMin32(start, end)]; bool opp = segment.fOperand ^ fOperand; if (!firstTime) { + oppoSign = segment.oppSign(&angle); if (opp) { oppLastSum = oppWindSum; oppWindSum -= segment.spanSign(&angle); + if (oppoSign) { + lastSum = windSum; + windSum -= oppoSign; + } } else { lastSum = windSum; windSum -= segment.spanSign(&angle); + if (oppoSign) { + oppLastSum = oppWindSum; + oppWindSum -= oppoSign; + } } } SkDebugf("%s [%d] %sid=%d %s start=%d (%1.9g,%,1.9g) end=%d (%1.9g,%,1.9g)" @@ -3364,8 +3472,13 @@ public: last = lastSum; wind = windSum; } - SkDebugf(" winding: %d->%d (max=%d) ", last, wind, - useInnerWinding(last, wind) ? wind : last); + if (!oppoSign) { + SkDebugf(" %d->%d (max=%d)", last, wind, + useInnerWinding(last, wind) ? wind : last); + } else { + SkDebugf(" %d->%d (%d->%d)", last, wind, opp ? lastSum : oppLastSum, + opp ? windSum : oppWindSum); + } SkDebugf(" done=%d tiny=%d opp=%d\n", mSpan.fDone, mSpan.fTiny, opp); #if false && DEBUG_ANGLE angle.debugShow(segment.xyAtT(&sSpan)); @@ -3415,7 +3528,6 @@ struct Coincidence { Contour* fContours[2]; int fSegments[2]; double fTs[2][2]; - bool fXor; }; class Contour { @@ -3436,7 +3548,7 @@ public: void addCoincident(int index, Contour* other, int otherIndex, const Intersections& ts, bool swap) { Coincidence& coincidence = *fCoincidences.append(); - coincidence.fContours[0] = this; + coincidence.fContours[0] = this; // FIXME: no need to store coincidence.fContours[1] = other; coincidence.fSegments[0] = index; coincidence.fSegments[1] = otherIndex; @@ -3454,7 +3566,6 @@ public: coincidence.fTs[!swap][0] = ts.fCoincidentT[1][0]; coincidence.fTs[!swap][1] = ts.fCoincidentT[1][1]; } - coincidence.fXor = fOperand == other->fOperand ? fXor : true; } void addCross(const Contour* crosser) { @@ -3559,10 +3670,11 @@ public: return segment.pts()[segment.verb()]; } - void findTooCloseToCall() { + void findTooCloseToCall(bool otherXor) { int segmentCount = fSegments.count(); + otherXor ^= fXor; for (int sIndex = 0; sIndex < segmentCount; ++sIndex) { - fSegments[sIndex].findTooCloseToCall(fXor); + fSegments[sIndex].findTooCloseToCall(fXor, otherXor); } } @@ -3601,22 +3713,22 @@ public: #endif double startT = coincidence.fTs[0][0]; double endT = coincidence.fTs[0][1]; - bool opposite = false; + bool cancelers = false; if (startT > endT) { SkTSwap<double>(startT, endT); - opposite ^= true; + cancelers ^= true; // FIXME: just assign true } SkASSERT(!approximately_negative(endT - startT)); double oStartT = coincidence.fTs[1][0]; double oEndT = coincidence.fTs[1][1]; if (oStartT > oEndT) { SkTSwap<double>(oStartT, oEndT); - opposite ^= true; + cancelers ^= true; } SkASSERT(!approximately_negative(oEndT - oStartT)); - if (opposite) { - // make sure startT and endT have t entries - SkASSERT(opposite); + bool opp = thisContour->fOperand ^ otherContour->fOperand; + if (cancelers && !opp) { + // make sure startT and endT have t entries if (startT > 0 || oEndT < 1 || thisOne.isMissing(startT) || other.isMissing(oEndT)) { thisOne.addTPair(startT, other, oEndT, true); @@ -3635,7 +3747,8 @@ public: || thisOne.isMissing(endT) || other.isMissing(oEndT)) { other.addTPair(oEndT, thisOne, endT, true); } - thisOne.addTCoincident(coincidence.fXor, startT, endT, other, oStartT, oEndT); + thisOne.addTCoincident(thisContour->fXor, otherContour->fXor, + startT, endT, other, oStartT, oEndT); } #if DEBUG_CONCIDENT thisOne.debugShowTs(); @@ -4502,7 +4615,7 @@ static bool addIntersectTs(Contour* test, Contour* next) { // resolve any coincident pairs found while intersecting, and // see if coincidence is formed by clipping non-concident segments -static void coincidenceCheck(SkTDArray<Contour*>& contourList) { +static void coincidenceCheck(SkTDArray<Contour*>& contourList, bool otherXor) { int contourCount = contourList.count(); for (int cIndex = 0; cIndex < contourCount; ++cIndex) { Contour* contour = contourList[cIndex]; @@ -4510,7 +4623,7 @@ static void coincidenceCheck(SkTDArray<Contour*>& contourList) { } for (int cIndex = 0; cIndex < contourCount; ++cIndex) { Contour* contour = contourList[cIndex]; - contour->findTooCloseToCall(); + contour->findTooCloseToCall(otherXor); } } @@ -4828,8 +4941,7 @@ static Segment* findSortableTop(SkTDArray<Contour*>& contourList, int& index, return result; } -static int updateWindings(const Segment* current, int index, int endIndex, - int& spanWinding, int* oppWinding) { +static int updateWindings(const Segment* current, int index, int endIndex, int& spanWinding) { int lesser = SkMin32(index, endIndex); spanWinding = current->spanSign(index, endIndex); int winding = current->windSum(lesser); @@ -4845,9 +4957,6 @@ static int updateWindings(const Segment* current, int index, int endIndex, if (inner) { winding -= spanWinding; } - if (oppWinding) { - *oppWinding = current->oppSum(lesser); - } return winding; } @@ -4961,7 +5070,7 @@ static bool bridgeWinding(SkTDArray<Contour*>& contourList, PathWrapper& simple) if (!current) { break; } - winding = updateWindings(current, index, endIndex, spanWinding, NULL); + winding = updateWindings(current, index, endIndex, spanWinding); } while (true); } while (true); return closable; @@ -5234,7 +5343,7 @@ void simplifyx(const SkPath& path, SkPath& result) { } while (addIntersectTs(current, next) && nextPtr != listEnd); } while (currentPtr != listEnd); // eat through coincident edges - coincidenceCheck(contourList); + coincidenceCheck(contourList, false); fixOtherTIndex(contourList); sortSegments(contourList); #if DEBUG_ACTIVE_SPANS diff --git a/experimental/Intersection/SimplifyNew_Test.cpp b/experimental/Intersection/SimplifyNew_Test.cpp index 6a805415c6..f190ec13e6 100644 --- a/experimental/Intersection/SimplifyNew_Test.cpp +++ b/experimental/Intersection/SimplifyNew_Test.cpp @@ -2552,62 +2552,58 @@ static void testQuadratic21() { } static void testIntersect1() { - SkPath one, two, result; - one.addRect(0, 0, 6, 6, (SkPath::Direction) 0); - two.addRect(3, 3, 9, 9, (SkPath::Direction) 0); - operate(one, two, kIntersect_Op, result); - SkASSERT(result.countPoints() == 5); - SkASSERT(result.countVerbs() == 6); // move, 4 lines, close - SkRect bounds = result.getBounds(); - SkASSERT(bounds.fLeft == 3); - SkASSERT(bounds.fTop == 3); - SkASSERT(bounds.fRight == 6); - SkASSERT(bounds.fBottom == 6); + SkPath one, two; + one.addRect(0, 0, 6, 6, SkPath::kCW_Direction); + two.addRect(3, 3, 9, 9, SkPath::kCW_Direction); testShapeOp(one, two, kIntersect_Op); } static void testUnion1() { - SkPath one, two, result; - one.addRect(0, 0, 6, 6, (SkPath::Direction) 0); - two.addRect(3, 3, 9, 9, (SkPath::Direction) 0); - operate(one, two, kUnion_Op, result); - SkASSERT(result.countPoints() == 9); - SkASSERT(result.countVerbs() == 10); // move, 8 lines, close - SkRect bounds = result.getBounds(); - SkASSERT(bounds.fLeft == 0); - SkASSERT(bounds.fTop == 0); - SkASSERT(bounds.fRight == 9); - SkASSERT(bounds.fBottom == 9); + SkPath one, two; + one.addRect(0, 0, 6, 6, SkPath::kCW_Direction); + two.addRect(3, 3, 9, 9, SkPath::kCW_Direction); testShapeOp(one, two, kUnion_Op); } static void testDiff1() { - SkPath one, two, result; - one.addRect(0, 0, 6, 6, (SkPath::Direction) 0); - two.addRect(3, 3, 9, 9, (SkPath::Direction) 0); - operate(one, two, kDifference_Op, result); - SkASSERT(result.countPoints() == 7); - SkASSERT(result.countVerbs() == 8); // move, 6 lines, close - SkRect bounds = result.getBounds(); - SkASSERT(bounds.fLeft == 0); - SkASSERT(bounds.fTop == 0); - SkASSERT(bounds.fRight == 6); - SkASSERT(bounds.fBottom == 6); + SkPath one, two; + one.addRect(0, 0, 6, 6, SkPath::kCW_Direction); + two.addRect(3, 3, 9, 9, SkPath::kCW_Direction); testShapeOp(one, two, kDifference_Op); } static void testXor1() { - SkPath one, two, result; - one.addRect(0, 0, 6, 6, (SkPath::Direction) 0); - two.addRect(3, 3, 9, 9, (SkPath::Direction) 0); - operate(one, two, kXor_Op, result); - SkASSERT(result.countPoints() == 14); - SkASSERT(result.countVerbs() == 16); // move, 6 lines, close, move, 6 lines, close - SkRect bounds = result.getBounds(); - SkASSERT(bounds.fLeft == 0); - SkASSERT(bounds.fTop == 0); - SkASSERT(bounds.fRight == 9); - SkASSERT(bounds.fBottom == 9); + SkPath one, two; + one.addRect(0, 0, 6, 6, SkPath::kCW_Direction); + two.addRect(3, 3, 9, 9, SkPath::kCW_Direction); + testShapeOp(one, two, kXor_Op); +} + +static void testIntersect2() { + SkPath one, two; + one.addRect(0, 0, 6, 6, SkPath::kCW_Direction); + two.addRect(0, 3, 9, 9, SkPath::kCW_Direction); + testShapeOp(one, two, kIntersect_Op); +} + +static void testUnion2() { + SkPath one, two; + one.addRect(0, 0, 6, 6, SkPath::kCW_Direction); + two.addRect(0, 3, 9, 9, SkPath::kCW_Direction); + testShapeOp(one, two, kUnion_Op); +} + +static void testDiff2() { + SkPath one, two; + one.addRect(0, 0, 6, 6, SkPath::kCW_Direction); + two.addRect(0, 3, 9, 9, SkPath::kCW_Direction); + testShapeOp(one, two, kDifference_Op); +} + +static void testXor2() { + SkPath one, two; + one.addRect(0, 0, 6, 6, SkPath::kCW_Direction); + two.addRect(0, 3, 9, 9, SkPath::kCW_Direction); testShapeOp(one, two, kXor_Op); } @@ -3215,14 +3211,20 @@ static struct { void (*fun)(); const char* str; } subTests[] = { - TEST(testXor1), TEST(testDiff1), TEST(testIntersect1), TEST(testUnion1), + TEST(testXor1), + TEST(testDiff2), + TEST(testIntersect2), + TEST(testUnion2), + TEST(testXor2), }; static const size_t subTestCount = sizeof(subTests) / sizeof(subTests[0]); +static void (*firstBinaryTest)() = testUnion2; + static bool skipAll = false; static bool runBinaryTestsFirst = true; static bool runReverse = false; @@ -3236,6 +3238,14 @@ void SimplifyNew_Test() { gDebugMaxWindValue = 4; size_t index; #endif + if (firstBinaryTest) { + index = subTestCount - 1; + while (index > 0 && subTests[index].fun != firstBinaryTest) { + --index; + } + SkDebugf(" %s [%s]\n", __FUNCTION__, subTests[index].str); + (*subTests[index].fun)(); + } if (runBinaryTestsFirst) { index = subTestCount - 1; do { |