/* * Copyright 2014 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "PathOpsTestCommon.h" #include "SkIntersections.h" #include "SkTDArray.h" #include "Test.h" // check intersections for consistency struct Curve { int ptCount; CubicPts curve; // largest can hold lines / quads/ cubics }; static const Curve testSet0[] = { // extracted from skpClip2 {4, {{{134,11414}, {131.990234,11414}, {130.32666,11415.4824}, {130.042755,11417.4131}}} }, {4, {{{130.042755,11417.4131}, {130.233124,11418.3193}, {131.037079,11419}, {132,11419}}} }, {4, {{{132,11419}, {130.895432,11419}, {130,11418.1045}, {130,11417}}} }, }; static const Curve testSet1[] = { // extracted from cubicOp85i {4, {{{3,4}, {1,5}, {4,3}, {6,4}}} }, {1, {{{6,4}, {3,4}}} }, {4, {{{3,4}, {4,6}, {4,3}, {5,1}}} }, {1, {{{5,1}, {3,4}}} }, }; static const struct TestSet { const Curve* tests; int testCount; } testSets[] = { { testSet0, (int) SK_ARRAY_COUNT(testSet0) }, { testSet1, (int) SK_ARRAY_COUNT(testSet1) }, }; static const int testSetsCount = (int) SK_ARRAY_COUNT(testSets); static void testSetTest(skiatest::Reporter* reporter, int index) { const TestSet& testSet = testSets[index]; int testCount = testSet.testCount; SkASSERT(testCount > 1); SkTDArray<SkIntersections> combos; for (int outer = 0; outer < testCount - 1; ++outer) { const Curve& oTest = testSet.tests[outer]; for (int inner = outer + 1; inner < testCount; ++inner) { const Curve& iTest = testSet.tests[inner]; SkIntersections* i = combos.append(); sk_bzero(i, sizeof(SkIntersections)); SkDLine oLine = {{ oTest.curve.fPts[0], oTest.curve.fPts[1] }}; SkDLine iLine = {{ iTest.curve.fPts[0], iTest.curve.fPts[1] }}; SkDCubic iCurve, oCurve; iCurve.debugSet(iTest.curve.fPts); oCurve.debugSet(oTest.curve.fPts); if (oTest.ptCount == 1 && iTest.ptCount == 1) { i->intersect(oLine, iLine); } else if (oTest.ptCount == 1 && iTest.ptCount == 4) { i->intersect(iCurve, oLine); } else if (oTest.ptCount == 4 && iTest.ptCount == 1) { i->intersect(oCurve, iLine); } else if (oTest.ptCount == 4 && iTest.ptCount == 4) { i->intersect(oCurve, iCurve); } else { SkASSERT(0); } // i->dump(); } } } DEF_TEST(PathOpsThreeWay, reporter) { for (int index = 0; index < testSetsCount; ++index) { testSetTest(reporter, index); reporter->bumpTestCount(); } } DEF_TEST(PathOpsThreeWayOneOff, reporter) { int index = 0; testSetTest(reporter, index); }