/*
* Copyright 2012 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "SkAddIntersections.h"
#include "SkOpCoincidence.h"
#include "SkPathOpsBounds.h"
#if DEBUG_ADD_INTERSECTING_TS
static void debugShowLineIntersection(int pts, const SkIntersectionHelper& wt,
const SkIntersectionHelper& wn, const SkIntersections& i) {
SkASSERT(i.used() == pts);
if (!pts) {
SkDebugf("%s no intersect " LINE_DEBUG_STR " " LINE_DEBUG_STR "\n",
__FUNCTION__, LINE_DEBUG_DATA(wt.pts()), LINE_DEBUG_DATA(wn.pts()));
return;
}
SkDebugf("%s " T_DEBUG_STR(wtTs, 0) " " LINE_DEBUG_STR " " PT_DEBUG_STR, __FUNCTION__,
i[0][0], LINE_DEBUG_DATA(wt.pts()), PT_DEBUG_DATA(i, 0));
if (pts == 2) {
SkDebugf(" " T_DEBUG_STR(wtTs, 1) " " PT_DEBUG_STR, i[0][1], PT_DEBUG_DATA(i, 1));
}
SkDebugf(" wnTs[0]=%g " LINE_DEBUG_STR, i[1][0], LINE_DEBUG_DATA(wn.pts()));
if (pts == 2) {
SkDebugf(" " T_DEBUG_STR(wnTs, 1), i[1][1]);
}
SkDebugf("\n");
}
static void debugShowQuadLineIntersection(int pts, const SkIntersectionHelper& wt,
const SkIntersectionHelper& wn,
const SkIntersections& i) {
SkASSERT(i.used() == pts);
if (!pts) {
SkDebugf("%s no intersect " QUAD_DEBUG_STR " " LINE_DEBUG_STR "\n",
__FUNCTION__, QUAD_DEBUG_DATA(wt.pts()), LINE_DEBUG_DATA(wn.pts()));
return;
}
SkDebugf("%s " T_DEBUG_STR(wtTs, 0) " " QUAD_DEBUG_STR " " PT_DEBUG_STR, __FUNCTION__,
i[0][0], QUAD_DEBUG_DATA(wt.pts()), PT_DEBUG_DATA(i, 0));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wtTs) " " PT_DEBUG_STR, n, i[0][n], PT_DEBUG_DATA(i, n));
}
SkDebugf(" wnTs[0]=%g " LINE_DEBUG_STR, i[1][0], LINE_DEBUG_DATA(wn.pts()));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wnTs), n, i[1][n]);
}
SkDebugf("\n");
}
static void debugShowQuadIntersection(int pts, const SkIntersectionHelper& wt,
const SkIntersectionHelper& wn, const SkIntersections& i) {
SkASSERT(i.used() == pts);
if (!pts) {
SkDebugf("%s no intersect " QUAD_DEBUG_STR " " QUAD_DEBUG_STR "\n",
__FUNCTION__, QUAD_DEBUG_DATA(wt.pts()), QUAD_DEBUG_DATA(wn.pts()));
return;
}
SkDebugf("%s " T_DEBUG_STR(wtTs, 0) " " QUAD_DEBUG_STR " " PT_DEBUG_STR, __FUNCTION__,
i[0][0], QUAD_DEBUG_DATA(wt.pts()), PT_DEBUG_DATA(i, 0));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wtTs) " " PT_DEBUG_STR, n, i[0][n], PT_DEBUG_DATA(i, n));
}
SkDebugf(" wnTs[0]=%g " QUAD_DEBUG_STR, i[1][0], QUAD_DEBUG_DATA(wn.pts()));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wnTs), n, i[1][n]);
}
SkDebugf("\n");
}
static void debugShowConicLineIntersection(int pts, const SkIntersectionHelper& wt,
const SkIntersectionHelper& wn, const SkIntersections& i) {
SkASSERT(i.used() == pts);
if (!pts) {
SkDebugf("%s no intersect " CONIC_DEBUG_STR " " LINE_DEBUG_STR "\n",
__FUNCTION__, CONIC_DEBUG_DATA(wt.pts(), wt.weight()), LINE_DEBUG_DATA(wn.pts()));
return;
}
SkDebugf("%s " T_DEBUG_STR(wtTs, 0) " " CONIC_DEBUG_STR " " PT_DEBUG_STR, __FUNCTION__,
i[0][0], CONIC_DEBUG_DATA(wt.pts(), wt.weight()), PT_DEBUG_DATA(i, 0));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wtTs) " " PT_DEBUG_STR, n, i[0][n], PT_DEBUG_DATA(i, n));
}
SkDebugf(" wnTs[0]=%g " LINE_DEBUG_STR, i[1][0], LINE_DEBUG_DATA(wn.pts()));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wnTs), n, i[1][n]);
}
SkDebugf("\n");
}
static void debugShowConicQuadIntersection(int pts, const SkIntersectionHelper& wt,
const SkIntersectionHelper& wn, const SkIntersections& i) {
SkASSERT(i.used() == pts);
if (!pts) {
SkDebugf("%s no intersect " CONIC_DEBUG_STR " " QUAD_DEBUG_STR "\n",
__FUNCTION__, CONIC_DEBUG_DATA(wt.pts(), wt.weight()), QUAD_DEBUG_DATA(wn.pts()));
return;
}
SkDebugf("%s " T_DEBUG_STR(wtTs, 0) " " CONIC_DEBUG_STR " " PT_DEBUG_STR, __FUNCTION__,
i[0][0], CONIC_DEBUG_DATA(wt.pts(), wt.weight()), PT_DEBUG_DATA(i, 0));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wtTs) " " PT_DEBUG_STR, n, i[0][n], PT_DEBUG_DATA(i, n));
}
SkDebugf(" wnTs[0]=%g " QUAD_DEBUG_STR, i[1][0], QUAD_DEBUG_DATA(wn.pts()));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wnTs), n, i[1][n]);
}
SkDebugf("\n");
}
static void debugShowConicIntersection(int pts, const SkIntersectionHelper& wt,
const SkIntersectionHelper& wn, const SkIntersections& i) {
SkASSERT(i.used() == pts);
if (!pts) {
SkDebugf("%s no intersect " CONIC_DEBUG_STR " " CONIC_DEBUG_STR "\n",
__FUNCTION__, CONIC_DEBUG_DATA(wt.pts(), wt.weight()),
CONIC_DEBUG_DATA(wn.pts(), wn.weight()));
return;
}
SkDebugf("%s " T_DEBUG_STR(wtTs, 0) " " CONIC_DEBUG_STR " " PT_DEBUG_STR, __FUNCTION__,
i[0][0], CONIC_DEBUG_DATA(wt.pts(), wt.weight()), PT_DEBUG_DATA(i, 0));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wtTs) " " PT_DEBUG_STR, n, i[0][n], PT_DEBUG_DATA(i, n));
}
SkDebugf(" wnTs[0]=%g " CONIC_DEBUG_STR, i[1][0], CONIC_DEBUG_DATA(wn.pts(), wn.weight()));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wnTs), n, i[1][n]);
}
SkDebugf("\n");
}
static void debugShowCubicLineIntersection(int pts, const SkIntersectionHelper& wt,
const SkIntersectionHelper& wn, const SkIntersections& i) {
SkASSERT(i.used() == pts);
if (!pts) {
SkDebugf("%s no intersect " CUBIC_DEBUG_STR " " LINE_DEBUG_STR "\n",
__FUNCTION__, CUBIC_DEBUG_DATA(wt.pts()), LINE_DEBUG_DATA(wn.pts()));
return;
}
SkDebugf("%s " T_DEBUG_STR(wtTs, 0) " " CUBIC_DEBUG_STR " " PT_DEBUG_STR, __FUNCTION__,
i[0][0], CUBIC_DEBUG_DATA(wt.pts()), PT_DEBUG_DATA(i, 0));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wtTs) " " PT_DEBUG_STR, n, i[0][n], PT_DEBUG_DATA(i, n));
}
SkDebugf(" wnTs[0]=%g " LINE_DEBUG_STR, i[1][0], LINE_DEBUG_DATA(wn.pts()));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wnTs), n, i[1][n]);
}
SkDebugf("\n");
}
static void debugShowCubicQuadIntersection(int pts, const SkIntersectionHelper& wt,
const SkIntersectionHelper& wn, const SkIntersections& i) {
SkASSERT(i.used() == pts);
if (!pts) {
SkDebugf("%s no intersect " CUBIC_DEBUG_STR " " QUAD_DEBUG_STR "\n",
__FUNCTION__, CUBIC_DEBUG_DATA(wt.pts()), QUAD_DEBUG_DATA(wn.pts()));
return;
}
SkDebugf("%s " T_DEBUG_STR(wtTs, 0) " " CUBIC_DEBUG_STR " " PT_DEBUG_STR, __FUNCTION__,
i[0][0], CUBIC_DEBUG_DATA(wt.pts()), PT_DEBUG_DATA(i, 0));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wtTs) " " PT_DEBUG_STR, n, i[0][n], PT_DEBUG_DATA(i, n));
}
SkDebugf(" wnTs[0]=%g " QUAD_DEBUG_STR, i[1][0], QUAD_DEBUG_DATA(wn.pts()));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wnTs), n, i[1][n]);
}
SkDebugf("\n");
}
static void debugShowCubicConicIntersection(int pts, const SkIntersectionHelper& wt,
const SkIntersectionHelper& wn, const SkIntersections& i) {
SkASSERT(i.used() == pts);
if (!pts) {
SkDebugf("%s no intersect " CUBIC_DEBUG_STR " " CONIC_DEBUG_STR "\n",
__FUNCTION__, CUBIC_DEBUG_DATA(wt.pts()), CONIC_DEBUG_DATA(wn.pts(), wn.weight()));
return;
}
SkDebugf("%s " T_DEBUG_STR(wtTs, 0) " " CUBIC_DEBUG_STR " " PT_DEBUG_STR, __FUNCTION__,
i[0][0], CUBIC_DEBUG_DATA(wt.pts()), PT_DEBUG_DATA(i, 0));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wtTs) " " PT_DEBUG_STR, n, i[0][n], PT_DEBUG_DATA(i, n));
}
SkDebugf(" wnTs[0]=%g " CONIC_DEBUG_STR, i[1][0], CONIC_DEBUG_DATA(wn.pts(), wn.weight()));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wnTs), n, i[1][n]);
}
SkDebugf("\n");
}
static void debugShowCubicIntersection(int pts, const SkIntersectionHelper& wt,
const SkIntersectionHelper& wn, const SkIntersections& i) {
SkASSERT(i.used() == pts);
if (!pts) {
SkDebugf("%s no intersect " CUBIC_DEBUG_STR " " CUBIC_DEBUG_STR "\n",
__FUNCTION__, CUBIC_DEBUG_DATA(wt.pts()), CUBIC_DEBUG_DATA(wn.pts()));
return;
}
SkDebugf("%s " T_DEBUG_STR(wtTs, 0) " " CUBIC_DEBUG_STR " " PT_DEBUG_STR, __FUNCTION__,
i[0][0], CUBIC_DEBUG_DATA(wt.pts()), PT_DEBUG_DATA(i, 0));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wtTs) " " PT_DEBUG_STR, n, i[0][n], PT_DEBUG_DATA(i, n));
}
SkDebugf(" wnTs[0]=%g " CUBIC_DEBUG_STR, i[1][0], CUBIC_DEBUG_DATA(wn.pts()));
for (int n = 1; n < pts; ++n) {
SkDebugf(" " TX_DEBUG_STR(wnTs), n, i[1][n]);
}
SkDebugf("\n");
}
#else
static void debugShowLineIntersection(int , const SkIntersectionHelper& ,
const SkIntersectionHelper& , const SkIntersections& ) {
}
static void debugShowQuadLineIntersection(int , const SkIntersectionHelper& ,
const SkIntersectionHelper& , const SkIntersections& ) {
}
static void debugShowQuadIntersection(int , const SkIntersectionHelper& ,
const SkIntersectionHelper& , const SkIntersections& ) {
}
static void debugShowConicLineIntersection(int , const SkIntersectionHelper& ,
const SkIntersectionHelper& , const SkIntersections& ) {
}
static void debugShowConicQuadIntersection(int , const SkIntersectionHelper& ,
const SkIntersectionHelper& , const SkIntersections& ) {
}
static void debugShowConicIntersection(int , const SkIntersectionHelper& ,
const SkIntersectionHelper& , const SkIntersections& ) {
}
static void debugShowCubicLineIntersection(int , const SkIntersectionHelper& ,
const SkIntersectionHelper& , const SkIntersections& ) {
}
static void debugShowCubicQuadIntersection(int , const SkIntersectionHelper& ,
const SkIntersectionHelper& , const SkIntersections& ) {
}
static void debugShowCubicConicIntersection(int , const SkIntersectionHelper& ,
const SkIntersectionHelper& , const SkIntersections& ) {
}
static void debugShowCubicIntersection(int , const SkIntersectionHelper& ,
const SkIntersectionHelper& , const SkIntersections& ) {
}
#endif
bool AddIntersectTs(SkOpContour* test, SkOpContour* next, SkOpCoincidence* coincidence,
SkChunkAlloc* allocator) {
if (test != next) {
if (AlmostLessUlps(test->bounds().fBottom, next->bounds().fTop)) {
return false;
}
// OPTIMIZATION: outset contour bounds a smidgen instead?
if (!SkPathOpsBounds::Intersects(test->bounds(), next->bounds())) {
return true;
}
}
SkIntersectionHelper wt;
wt.init(test);
do {
SkIntersectionHelper wn;
wn.init(next);
test->debugValidate();
next->debugValidate();
if (test == next && !wn.startAfter(wt)) {
continue;
}
do {
if (!SkPathOpsBounds::Intersects(wt.bounds(), wn.bounds())) {
continue;
}
int pts = 0;
SkIntersections ts;
bool swap = false;
SkDQuad quad1, quad2;
SkDConic conic1, conic2;
SkDCubic cubic1, cubic2;
switch (wt.segmentType()) {
case SkIntersectionHelper::kHorizontalLine_Segment:
swap = true;
switch (wn.segmentType()) {
case SkIntersectionHelper::kHorizontalLine_Segment:
case SkIntersectionHelper::kVerticalLine_Segment:
case SkIntersectionHelper::kLine_Segment:
pts = ts.lineHorizontal(wn.pts(), wt.left(),
wt.right(), wt.y(), wt.xFlipped());
debugShowLineIntersection(pts, wn, wt, ts);
break;
case SkIntersectionHelper::kQuad_Segment:
pts = ts.quadHorizontal(wn.pts(), wt.left(),
wt.right(), wt.y(), wt.xFlipped());
debugShowQuadLineIntersection(pts, wn, wt, ts);
break;
case SkIntersectionHelper::kConic_Segment:
pts = ts.conicHorizontal(wn.pts(), wn.weight(), wt.left(),
wt.right(), wt.y(), wt.xFlipped());
debugShowConicLineIntersection(pts, wn, wt, ts);
break;
case SkIntersectionHelper::kCubic_Segment:
pts = ts.cubicHorizontal(wn.pts(), wt.left(),
wt.right(), wt.y(), wt.xFlipped());
debugShowCubicLineIntersection(pts, wn, wt, ts);
break;
default:
SkASSERT(0);
}
break;
case SkIntersectionHelper::kVerticalLine_Segment:
swap = true;
switch (wn.segmentType()) {
case SkIntersectionHelper::kHorizontalLine_Segment:
case SkIntersectionHelper::kVerticalLine_Segment:
case SkIntersectionHelper::kLine_Segment: {
pts = ts.lineVertical(wn.pts(), wt.top(),
wt.bottom(), wt.x(), wt.yFlipped());
debugShowLineIntersection(pts, wn, wt, ts);
break;
}
case SkIntersectionHelper::kQuad_Segment: {
pts = ts.quadVertical(wn.pts(), wt.top(),
wt.bottom(), wt.x(), wt.yFlipped());
debugShowQuadLineIntersection(pts, wn, wt, ts);
break;
}
case SkIntersectionHelper::kConic_Segment: {
pts = ts.conicVertical(wn.pts(), wn.weight(), wt.top(),
wt.bottom(), wt.x(), wt.yFlipped());
debugShowConicLineIntersection(pts, wn, wt, ts);
break;
}
case SkIntersectionHelper::kCubic_Segment: {
pts = ts.cubicVertical(wn.pts(), wt.top(),
wt.bottom(), wt.x(), wt.yFlipped());
debugShowCubicLineIntersection(pts, wn, wt, ts);
break;
}
default:
SkASSERT(0);
}
break;
case SkIntersectionHelper::kLine_Segment:
switch (wn.segmentType()) {
case SkIntersectionHelper::kHorizontalLine_Segment:
pts = ts.lineHorizontal(wt.pts(), wn.left(),
wn.right(), wn.y(), wn.xFlipped());
debugShowLineIntersection(pts, wt, wn, ts);
break;
case SkIntersectionHelper::kVerticalLine_Segment:
pts = ts.lineVertical(wt.pts(), wn.top(),
wn.bottom(), wn.x(), wn.yFlipped());
debugShowLineIntersection(pts, wt, wn, ts);
break;
case SkIntersectionHelper::kLine_Segment:
pts = ts.lineLine(wt.pts(), wn.pts());
debugShowLineIntersection(pts, wt, wn, ts);
break;
case SkIntersectionHelper::kQuad_Segment:
swap = true;
pts = ts.quadLine(wn.pts(), wt.pts());
debugShowQuadLineIntersection(pts, wn, wt, ts);
break;
case SkIntersectionHelper::kConic_Segment:
swap = true;
pts = ts.conicLine(wn.pts(), wn.weight(), wt.pts());
debugShowConicLineIntersection(pts, wn, wt, ts);
break;
case SkIntersectionHelper::kCubic_Segment:
swap = true;
pts = ts.cubicLine(wn.pts(), wt.pts());
debugShowCubicLineIntersection(pts, wn, wt, ts);
break;
default:
SkASSERT(0);
}
break;
case SkIntersectionHelper::kQuad_Segment:
switch (wn.segmentType()) {
case SkIntersectionHelper::kHorizontalLine_Segment:
pts = ts.quadHorizontal(wt.pts(), wn.left(),
wn.right(), wn.y(), wn.xFlipped());
debugShowQuadLineIntersection(pts, wt, wn, ts);
break;
case SkIntersectionHelper::kVerticalLine_Segment:
pts = ts.quadVertical(wt.pts(), wn.top(),
wn.bottom(), wn.x(), wn.yFlipped());
debugShowQuadLineIntersection(pts, wt, wn, ts);
break;
case SkIntersectionHelper::kLine_Segment:
pts = ts.quadLine(wt.pts(), wn.pts());
debugShowQuadLineIntersection(pts, wt, wn, ts);
break;
case SkIntersectionHelper::kQuad_Segment: {
pts = ts.intersect(quad1.set(wt.pts()), quad2.set(wn.pts()));
debugShowQuadIntersection(pts, wt, wn, ts);
break;
}
case SkIntersectionHelper::kConic_Segment: {
swap = true;
pts = ts.intersect(conic2.set(wn.pts(), wn.weight()),
quad1.set(wt.pts()));
debugShowConicQuadIntersection(pts, wn, wt, ts);
break;
}
case SkIntersectionHelper::kCubic_Segment: {
swap = true;
pts = ts.intersect(cubic2.set(wn.pts()), quad1.set(wt.pts()));
debugShowCubicQuadIntersection(pts, wn, wt, ts);
break;
}
default:
SkASSERT(0);
}
break;
case SkIntersectionHelper::kConic_Segment:
switch (wn.segmentType()) {
case SkIntersectionHelper::kHorizontalLine_Segment:
pts = ts.conicHorizontal(wt.pts(), wt.weight(), wn.left(),
wn.right(), wn.y(), wn.xFlipped());
debugShowConicLineIntersection(pts, wt, wn, ts);
break;
case SkIntersectionHelper::kVerticalLine_Segment:
pts = ts.conicVertical(wt.pts(), wt.weight(), wn.top(),
wn.bottom(), wn.x(), wn.yFlipped());
debugShowConicLineIntersection(pts, wt, wn, ts);
break;
case SkIntersectionHelper::kLine_Segment:
pts = ts.conicLine(wt.pts(), wt.weight(), wn.pts());
debugShowConicLineIntersection(pts, wt, wn, ts);
break;
case SkIntersectionHelper::kQuad_Segment: {
pts = ts.intersect(conic1.set(wt.pts(), wt.weight()),
quad2.set(wn.pts()));
debugShowConicQuadIntersection(pts, wt, wn, ts);
break;
}
case SkIntersectionHelper::kConic_Segment: {
pts = ts.intersect(conic1.set(wt.pts(), wt.weight()),
conic2.set(wn.pts(), wn.weight()));
debugShowConicIntersection(pts, wt, wn, ts);
break;
}
case SkIntersectionHelper::kCubic_Segment: {
swap = true;
pts = ts.intersect(cubic2.set(wn.pts()),
conic1.set(wt.pts(), wt.weight()));
debugShowCubicConicIntersection(pts, wn, wt, ts);
break;
}
}
break;
case SkIntersectionHelper::kCubic_Segment:
switch (wn.segmentType()) {
case SkIntersectionHelper::kHorizontalLine_Segment:
pts = ts.cubicHorizontal(wt.pts(), wn.left(),
wn.right(), wn.y(), wn.xFlipped());
debugShowCubicLineIntersection(pts, wt, wn, ts);
break;
case SkIntersectionHelper::kVerticalLine_Segment:
pts = ts.cubicVertical(wt.pts(), wn.top(),
wn.bottom(), wn.x(), wn.yFlipped());
debugShowCubicLineIntersection(pts, wt, wn, ts);
break;
case SkIntersectionHelper::kLine_Segment:
pts = ts.cubicLine(wt.pts(), wn.pts());
debugShowCubicLineIntersection(pts, wt, wn, ts);
break;
case SkIntersectionHelper::kQuad_Segment: {
pts = ts.intersect(cubic1.set(wt.pts()), quad2.set(wn.pts()));
debugShowCubicQuadIntersection(pts, wt, wn, ts);
break;
}
case SkIntersectionHelper::kConic_Segment: {
pts = ts.intersect(cubic1.set(wt.pts()),
conic2.set(wn.pts(), wn.weight()));
debugShowCubicConicIntersection(pts, wt, wn, ts);
break;
}
case SkIntersectionHelper::kCubic_Segment: {
pts = ts.intersect(cubic1.set(wt.pts()), cubic2.set(wn.pts()));
debugShowCubicIntersection(pts, wt, wn, ts);
break;
}
default:
SkASSERT(0);
}
break;
default:
SkASSERT(0);
}
int coinIndex = -1;
SkOpPtT* coinPtT[2];
for (int pt = 0; pt < pts; ++pt) {
SkASSERT(ts[0][pt] >= 0 && ts[0][pt] <= 1);
SkASSERT(ts[1][pt] >= 0 && ts[1][pt] <= 1);
wt.segment()->debugValidate();
SkOpPtT* testTAt = wt.segment()->addT(ts[swap][pt], SkOpSegment::kAllowAlias,
allocator);
wn.segment()->debugValidate();
SkOpPtT* nextTAt = wn.segment()->addT(ts[!swap][pt], SkOpSegment::kAllowAlias,
allocator);
testTAt->addOpp(nextTAt);
if (testTAt->fPt != nextTAt->fPt) {
testTAt->span()->unaligned();
nextTAt->span()->unaligned();
}
wt.segment()->debugValidate();
wn.segment()->debugValidate();
if (!ts.isCoincident(pt)) {
continue;
}
if (coinIndex < 0) {
coinPtT[0] = testTAt;
coinPtT[1] = nextTAt;
coinIndex = pt;
continue;
}
if (coinPtT[0]->span() == testTAt->span()) {
coinIndex = -1;
continue;
}
if (coinPtT[1]->span() == nextTAt->span()) {
coinIndex = -1; // coincidence span collapsed
continue;
}
if (swap) {
SkTSwap(coinPtT[0], coinPtT[1]);
SkTSwap(testTAt, nextTAt);
}
SkASSERT(coinPtT[0]->span()->t() < testTAt->span()->t());
coincidence->add(coinPtT[0], testTAt, coinPtT[1], nextTAt, allocator);
wt.segment()->debugValidate();
wn.segment()->debugValidate();
coinIndex = -1;
}
SkASSERT(coinIndex < 0); // expect coincidence to be paired
} while (wn.advance());
} while (wt.advance());
return true;
}