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244 lines
9.8 KiB
244 lines
9.8 KiB
/*
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* Copyright 2012 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#include "src/pathops/SkIntersections.h"
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#include "src/pathops/SkPathOpsLine.h"
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#include "tests/PathOpsTestCommon.h"
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#include "tests/Test.h"
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// FIXME: add tests for intersecting, non-intersecting, degenerate, coincident
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static const SkDLine tests[][2] = {
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{{{{0.00010360032320022583, 1.0172703415155411}, {0.00014114845544099808, 1.0200891587883234}}},
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{{{0.00010259449481964111, 1.017270140349865}, {0.00018215179443359375, 1.022890567779541}}}},
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#if 0
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// these do intersect at a pair of points, but not close enough for check results liking
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{{{{365.848175,5081.15186}, {368,5103}}}, {{{367.967712,5102.61084}, {368.278717,5105.71045}}}},
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#endif
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{{{{30,20}, {30,50}}}, {{{24,30}, {36,30}}}},
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{{{{323,193}, {-317,193}}}, {{{0,994}, {0,0}}}},
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{{{{90,230}, {160,60}}}, {{{60,120}, {260,120}}}},
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{{{{90,230}, {160,60}}}, {{{181.176468,120}, {135.294128,120}}}},
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{{{{181.1764678955078125f, 120}, {186.3661956787109375f, 134.7042236328125f}}},
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{{{175.8309783935546875f, 141.5211334228515625f}, {187.8782806396484375f, 133.7258148193359375f}}}},
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#if 0 // FIXME: these fail because one line is too short and appears quasi-coincident
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{{{{158.000000, 926.000000}, {1108.00000, 926.000000}}},
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{{{1108.00000, 926.000000}, {1108.00000, 925.999634}}}},
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{{{{1108,926}, {1108,925.9996337890625}}}, {{{158,926}, {1108,926}}}},
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#endif
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{{{{192, 4}, {243, 4}}}, {{{246, 4}, {189, 4}}}},
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{{{{246, 4}, {189, 4}}}, {{{192, 4}, {243, 4}}}},
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{{{{5, 0}, {0, 5}}}, {{{5, 4}, {1, 4}}}},
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{{{{0, 0}, {1, 0}}}, {{{1, 0}, {0, 0}}}},
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{{{{0, 0}, {0, 0}}}, {{{0, 0}, {1, 0}}}},
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{{{{0, 1}, {0, 1}}}, {{{0, 0}, {0, 2}}}},
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{{{{0, 0}, {1, 0}}}, {{{0, 0}, {2, 0}}}},
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{{{{1, 1}, {2, 2}}}, {{{0, 0}, {3, 3}}}},
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{{{{166.86950047022856, 112.69654129527828}, {166.86948801592692, 112.69655741235339}}},
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{{{166.86960700313026, 112.6965477747386}, {166.86925794355412, 112.69656471103423}}}}
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};
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static const size_t tests_count = SK_ARRAY_COUNT(tests);
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static const SkDLine noIntersect[][2] = {
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{{{{(double) (2 - 1e-6f),2}, {(double) (2 - 1e-6f),4}}},
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{{{2,1}, {2,3}}}},
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{{{{0, 0}, {1, 0}}}, {{{3, 0}, {2, 0}}}},
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{{{{0, 0}, {0, 0}}}, {{{1, 0}, {2, 0}}}},
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{{{{0, 1}, {0, 1}}}, {{{0, 3}, {0, 2}}}},
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{{{{0, 0}, {1, 0}}}, {{{2, 0}, {3, 0}}}},
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{{{{1, 1}, {2, 2}}}, {{{4, 4}, {3, 3}}}},
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};
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static const size_t noIntersect_count = SK_ARRAY_COUNT(noIntersect);
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static const SkDLine coincidentTests[][2] = {
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{{{ {-1.48383003e-006,-83}, {4.2268899e-014,-60} }},
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{{ {9.5359502e-007,-60}, {5.08227985e-015,-83} }}},
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{{{ { 10105, 2510 }, { 10123, 2509.98999f } }},
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{{{10105, 2509.98999f}, { 10123, 2510 } }}},
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{{ { { 0, 482.5 }, { -4.4408921e-016, 682.5 } } },
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{{{0,683}, {0,482}}}},
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{{{{1.77635684e-015,312}, {-1.24344979e-014,348}}},
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{{{0,348}, {0,312}}}},
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{{{{979.304871, 561}, {1036.69507, 291}}},
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{{{985.681519, 531}, {982.159790, 547.568542}}}},
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{{{{232.159805, 547.568542}, {235.681549, 531}}},
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{{{286.695129,291}, {229.304855,561}}}},
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{{{{186.3661956787109375f, 134.7042236328125f}, {187.8782806396484375f, 133.7258148193359375f}}},
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{{{175.8309783935546875f, 141.5211334228515625f}, {187.8782806396484375f, 133.7258148193359375f}}}},
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{{{{235.681549, 531.000000}, {280.318420, 321.000000}}},
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{{{286.695129, 291.000000}, {229.304855, 561.000000}}}},
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};
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static const size_t coincidentTests_count = SK_ARRAY_COUNT(coincidentTests);
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static void check_results(skiatest::Reporter* reporter, const SkDLine& line1, const SkDLine& line2,
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const SkIntersections& ts, bool nearAllowed) {
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for (int i = 0; i < ts.used(); ++i) {
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SkDPoint result1 = line1.ptAtT(ts[0][i]);
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SkDPoint result2 = line2.ptAtT(ts[1][i]);
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if (nearAllowed && result1.roughlyEqual(result2)) {
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continue;
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}
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if (!result1.approximatelyEqual(result2) && !ts.nearlySame(i)) {
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REPORTER_ASSERT(reporter, ts.used() != 1);
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result2 = line2.ptAtT(ts[1][i ^ 1]);
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if (!result1.approximatelyEqual(result2)) {
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SkDebugf(".");
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}
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REPORTER_ASSERT(reporter, result1.approximatelyEqual(result2));
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REPORTER_ASSERT(reporter, result1.approximatelyEqual(ts.pt(i).asSkPoint()));
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}
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}
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}
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static void testOne(skiatest::Reporter* reporter, const SkDLine& line1, const SkDLine& line2,
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bool nearAllowed) {
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SkASSERT(ValidLine(line1));
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SkASSERT(ValidLine(line2));
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SkIntersections i;
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i.allowNear(nearAllowed);
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int pts = i.intersect(line1, line2);
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REPORTER_ASSERT(reporter, pts);
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REPORTER_ASSERT(reporter, pts == i.used());
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check_results(reporter, line1, line2, i, nearAllowed);
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if (line1[0] == line1[1] || line2[0] == line2[1]) {
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return;
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}
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if (line1[0].fY == line1[1].fY) {
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double left = std::min(line1[0].fX, line1[1].fX);
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double right = std::max(line1[0].fX, line1[1].fX);
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SkIntersections ts;
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ts.horizontal(line2, left, right, line1[0].fY, line1[0].fX != left);
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check_results(reporter, line2, line1, ts, nearAllowed);
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}
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if (line2[0].fY == line2[1].fY) {
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double left = std::min(line2[0].fX, line2[1].fX);
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double right = std::max(line2[0].fX, line2[1].fX);
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SkIntersections ts;
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ts.horizontal(line1, left, right, line2[0].fY, line2[0].fX != left);
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check_results(reporter, line1, line2, ts, nearAllowed);
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}
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if (line1[0].fX == line1[1].fX) {
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double top = std::min(line1[0].fY, line1[1].fY);
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double bottom = std::max(line1[0].fY, line1[1].fY);
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SkIntersections ts;
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ts.vertical(line2, top, bottom, line1[0].fX, line1[0].fY != top);
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check_results(reporter, line2, line1, ts, nearAllowed);
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}
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if (line2[0].fX == line2[1].fX) {
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double top = std::min(line2[0].fY, line2[1].fY);
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double bottom = std::max(line2[0].fY, line2[1].fY);
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SkIntersections ts;
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ts.vertical(line1, top, bottom, line2[0].fX, line2[0].fY != top);
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check_results(reporter, line1, line2, ts, nearAllowed);
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}
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reporter->bumpTestCount();
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}
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static void testOneCoincident(skiatest::Reporter* reporter, const SkDLine& line1,
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const SkDLine& line2) {
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SkASSERT(ValidLine(line1));
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SkASSERT(ValidLine(line2));
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SkIntersections ts;
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int pts = ts.intersect(line1, line2);
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REPORTER_ASSERT(reporter, pts == 2);
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REPORTER_ASSERT(reporter, pts == ts.used());
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check_results(reporter, line1, line2, ts, false);
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if (line1[0] == line1[1] || line2[0] == line2[1]) {
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return;
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}
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if (line1[0].fY == line1[1].fY) {
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double left = std::min(line1[0].fX, line1[1].fX);
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double right = std::max(line1[0].fX, line1[1].fX);
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SkIntersections ts;
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ts.horizontal(line2, left, right, line1[0].fY, line1[0].fX != left);
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REPORTER_ASSERT(reporter, pts == 2);
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REPORTER_ASSERT(reporter, pts == ts.used());
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check_results(reporter, line2, line1, ts, false);
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}
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if (line2[0].fY == line2[1].fY) {
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double left = std::min(line2[0].fX, line2[1].fX);
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double right = std::max(line2[0].fX, line2[1].fX);
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SkIntersections ts;
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ts.horizontal(line1, left, right, line2[0].fY, line2[0].fX != left);
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REPORTER_ASSERT(reporter, pts == 2);
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REPORTER_ASSERT(reporter, pts == ts.used());
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check_results(reporter, line1, line2, ts, false);
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}
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if (line1[0].fX == line1[1].fX) {
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double top = std::min(line1[0].fY, line1[1].fY);
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double bottom = std::max(line1[0].fY, line1[1].fY);
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SkIntersections ts;
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ts.vertical(line2, top, bottom, line1[0].fX, line1[0].fY != top);
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REPORTER_ASSERT(reporter, pts == 2);
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REPORTER_ASSERT(reporter, pts == ts.used());
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check_results(reporter, line2, line1, ts, false);
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}
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if (line2[0].fX == line2[1].fX) {
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double top = std::min(line2[0].fY, line2[1].fY);
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double bottom = std::max(line2[0].fY, line2[1].fY);
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SkIntersections ts;
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ts.vertical(line1, top, bottom, line2[0].fX, line2[0].fY != top);
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REPORTER_ASSERT(reporter, pts == 2);
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REPORTER_ASSERT(reporter, pts == ts.used());
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check_results(reporter, line1, line2, ts, false);
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}
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reporter->bumpTestCount();
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}
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DEF_TEST(PathOpsLineIntersection, reporter) {
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size_t index;
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for (index = 0; index < coincidentTests_count; ++index) {
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const SkDLine& line1 = coincidentTests[index][0];
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const SkDLine& line2 = coincidentTests[index][1];
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testOneCoincident(reporter, line1, line2);
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}
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for (index = 0; index < tests_count; ++index) {
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const SkDLine& line1 = tests[index][0];
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const SkDLine& line2 = tests[index][1];
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testOne(reporter, line1, line2, true);
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}
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for (index = 0; index < noIntersect_count; ++index) {
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const SkDLine& line1 = noIntersect[index][0];
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const SkDLine& line2 = noIntersect[index][1];
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SkIntersections ts;
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int pts = ts.intersect(line1, line2);
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REPORTER_ASSERT(reporter, !pts);
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REPORTER_ASSERT(reporter, pts == ts.used());
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reporter->bumpTestCount();
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}
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}
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DEF_TEST(PathOpsLineIntersectionOneOff, reporter) {
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int index = 0;
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SkASSERT(index < (int) tests_count);
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testOne(reporter, tests[index][0], tests[index][1], true);
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}
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DEF_TEST(PathOpsLineIntersectionExactOneOff, reporter) {
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int index = 0;
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SkASSERT(index < (int) tests_count);
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testOne(reporter, tests[index][0], tests[index][1], false);
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}
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DEF_TEST(PathOpsLineIntersectionOneCoincident, reporter) {
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int index = 0;
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SkASSERT(index < (int) coincidentTests_count);
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const SkDLine& line1 = coincidentTests[index][0];
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const SkDLine& line2 = coincidentTests[index][1];
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testOneCoincident(reporter, line1, line2);
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}
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