/* * Copyright 2013 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkOpSegment.h" #include "Test.h" static const SkPoint cubics[][4] = { {{0, 1}, {2, 6}, {4, 2}, {5, 3}}, {{10, 234}, {10, 229.581726f}, {13.5817204f, 226}, {18, 226}}, }; static const SkPoint quads[][3] = { {{12.3423996f, 228.342407f}, {10, 230.686295f}, {10, 234}}, }; static const SkPoint lines[][2] = { {{6, 2}, {2, 4}}, }; struct SortSet { const SkPoint* ptData; int ptCount; double tStart; double tEnd; }; static const SortSet set1[] = { {cubics[0], 4, 0.66666987081928919, 0.875}, {lines[0], 2, 0.574070336, 0.388888889}, {cubics[0], 4, 0.66666987081928919, 0.4050371120499307 }, {lines[0], 2, 0.574070336, 0.9140625}, }; static const SortSet set2[] = { {cubics[0], 4, 0.666666667, 0.875}, {lines[0], 2, 0.574074074, 0.388888889}, {cubics[0], 4, 0.666666667, 0.405037112}, {lines[0], 2, 0.574074074, 0.9140625}, }; static const SortSet set3[] = { {cubics[1], 4, 0, 1}, {quads[0], 3, 1, 0}, }; struct SortSetTests { const SortSet* set; size_t count; }; static const SortSetTests tests[] = { { set3, SK_ARRAY_COUNT(set3) }, { set2, SK_ARRAY_COUNT(set2) }, { set1, SK_ARRAY_COUNT(set1) }, }; static void setup(const SortSet* set, const size_t idx, SkPoint const ** data, SkOpSegment* seg, int* ts) { SkPoint start, end; *data = set[idx].ptData; switch(set[idx].ptCount) { case 2: { seg->addLine(*data, false, false); SkDLine dLine; dLine.set(set[idx].ptData); start = dLine.xyAtT(set[idx].tStart).asSkPoint(); end = dLine.xyAtT(set[idx].tEnd).asSkPoint(); } break; case 3: { seg->addQuad(*data, false, false); SkDQuad dQuad; dQuad.set(set[idx].ptData); start = dQuad.xyAtT(set[idx].tStart).asSkPoint(); end = dQuad.xyAtT(set[idx].tEnd).asSkPoint(); } break; case 4: { seg->addCubic(*data, false, false); SkDCubic dCubic; dCubic.set(set[idx].ptData); start = dCubic.xyAtT(set[idx].tStart).asSkPoint(); end = dCubic.xyAtT(set[idx].tEnd).asSkPoint(); } break; } double tStart = set[idx].tStart; double tEnd = set[idx].tEnd; seg->addT(NULL, start, tStart); seg->addT(NULL, end, tEnd); double tLeft = tStart < tEnd ? 0 : 1; if (tStart != tLeft && tEnd != tLeft) { seg->addT(NULL, set[idx].ptData[0], tLeft); } double tRight = tStart < tEnd ? 1 : 0; if (tStart != tRight && tEnd != tRight) { seg->addT(NULL, set[idx].ptData[set[idx].ptCount - 1], tRight); } int tIndex = 0; do { if (seg->t(tIndex) == set[idx].tStart) { ts[0] = tIndex; } if (seg->t(tIndex) == set[idx].tEnd) { ts[1] = tIndex; } if (seg->t(tIndex) >= 1) { break; } } while (++tIndex); } static void PathOpsAngleTest(skiatest::Reporter* reporter) { for (size_t index = 0; index < SK_ARRAY_COUNT(tests); ++index) { const SortSetTests& test = tests[index]; for (size_t idxL = 0; idxL < test.count - 1; ++idxL) { SkOpSegment lesser, greater; int lesserTs[2], greaterTs[2]; const SkPoint* lesserData, * greaterData; const SortSet* set = test.set; setup(set, idxL, &lesserData, &lesser, lesserTs); size_t idxG = idxL + 1; setup(set, idxG, &greaterData, &greater, greaterTs); SkOpAngle first, second; first.set(lesserData, (SkPath::Verb) (set[idxL].ptCount - 1), &lesser, lesserTs[0], lesserTs[1], lesser.spans()); second.set(greaterData, (SkPath::Verb) (set[idxG].ptCount - 1), &greater, greaterTs[0], greaterTs[1], greater.spans()); bool compare = first < second; if (!compare) { SkDebugf("%s test[%d]: lesser[%d] > greater[%d]\n", __FUNCTION__, index, idxL, idxG); } REPORTER_ASSERT(reporter, compare); } } } #include "TestClassDef.h" DEFINE_TESTCLASS_SHORT(PathOpsAngleTest)