tests/PathOpsAngleTest.cpp - platform/external/skia - Gitiles

 /*
  * 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}}
 };

 static const SkPoint lines[][2] = {
     {{6, 2}, {2, 4}}
 };

 struct SortSet {
     const SkPoint* ptData;
     int ptCount;
     double tStart;
     double tEnd;
 };

 static const SortSet set1[] = {
     {lines[0], 2, 0.54070336, 0.388888889},
     {cubics[0], 4, 0.666669871, 0.405037112},
     {lines[0], 2, 0.54070336, 0.9140625},
     {cubics[0], 4, 0.666669871, 0.875},
 };

 static const SortSet set2[] = {
     {lines[0], 2, 0.574074074, 0.388888889},
     {cubics[0], 4, 0.666666667, 0.405037112},
     {lines[0], 2, 0.574074074, 0.9140625},
     {cubics[0], 4, 0.666666667, 0.875},
 };

 struct SortSetTests {
     const SortSet* set;
     size_t count;
 };

 static const SortSetTests tests[] = {
     { set1, SK_ARRAY_COUNT(set1) },
     { set2, SK_ARRAY_COUNT(set2) }
 };

 static void setup(const SortSet* set, const size_t idx, SkPoint const ** data,
         SkPoint* reverse, SkOpSegment* seg) {
     SkPoint start, end;
     if (set[idx].ptCount == 2) {
         if (set[idx].tStart < set[idx].tEnd) {
             *data = set[idx].ptData;
         } else {
             reverse[0] = set[idx].ptData[1];
             reverse[1] = set[idx].ptData[0];
             *data = reverse;
         }
         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();
     } else if (set[idx].ptCount == 4) {
         if (set[idx].tStart < set[idx].tEnd) {
             *data = set[idx].ptData;
         } else {
             reverse[0] = set[idx].ptData[3];
             reverse[1] = set[idx].ptData[2];
             reverse[2] = set[idx].ptData[1];
             reverse[3] = set[idx].ptData[0];
             *data = reverse;
         }
         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();
     }
     seg->addT(NULL, start, set[idx].tStart);
     seg->addT(NULL, end, set[idx].tEnd);
     seg->addT(NULL, set[idx].ptData[0], 0);
     seg->addT(NULL, set[idx].ptData[set[idx].ptCount - 1], 1);
 }

 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;
             SkPoint lesserReverse[4], greaterReverse[4];
             const SkPoint* lesserData, * greaterData;
             const SortSet* set = test.set;
             setup(set, idxL, &lesserData, lesserReverse, &lesser);
             size_t idxG = idxL + 1;
             setup(set, idxG, &greaterData, greaterReverse, &greater);
             SkOpAngle first, second;
             first.set(lesserData, (SkPath::Verb) (set[idxL].ptCount - 1), &lesser,
                     0, 1, lesser.spans());
             first.setSpans();
             second.set(greaterData, (SkPath::Verb) (set[idxG].ptCount - 1), &greater,
                     0, 1, greater.spans());
             second.setSpans();
             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)
	/*
	* 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}}
	};

	static const SkPoint lines[][2] = {
	{{6, 2}, {2, 4}}
	};

	struct SortSet {
	const SkPoint* ptData;
	int ptCount;
	double tStart;
	double tEnd;
	};

	static const SortSet set1[] = {
	{lines[0], 2, 0.54070336, 0.388888889},
	{cubics[0], 4, 0.666669871, 0.405037112},
	{lines[0], 2, 0.54070336, 0.9140625},
	{cubics[0], 4, 0.666669871, 0.875},
	};

	static const SortSet set2[] = {
	{lines[0], 2, 0.574074074, 0.388888889},
	{cubics[0], 4, 0.666666667, 0.405037112},
	{lines[0], 2, 0.574074074, 0.9140625},
	{cubics[0], 4, 0.666666667, 0.875},
	};

	struct SortSetTests {
	const SortSet* set;
	size_t count;
	};

	static const SortSetTests tests[] = {
	{ set1, SK_ARRAY_COUNT(set1) },
	{ set2, SK_ARRAY_COUNT(set2) }
	};

	static void setup(const SortSet* set, const size_t idx, SkPoint const ** data,
	SkPoint* reverse, SkOpSegment* seg) {
	SkPoint start, end;
	if (set[idx].ptCount == 2) {
	if (set[idx].tStart < set[idx].tEnd) {
	*data = set[idx].ptData;
	} else {
	reverse[0] = set[idx].ptData[1];
	reverse[1] = set[idx].ptData[0];
	*data = reverse;
	}
	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();
	} else if (set[idx].ptCount == 4) {
	if (set[idx].tStart < set[idx].tEnd) {
	*data = set[idx].ptData;
	} else {
	reverse[0] = set[idx].ptData[3];
	reverse[1] = set[idx].ptData[2];
	reverse[2] = set[idx].ptData[1];
	reverse[3] = set[idx].ptData[0];
	*data = reverse;
	}
	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();
	}
	seg->addT(NULL, start, set[idx].tStart);
	seg->addT(NULL, end, set[idx].tEnd);
	seg->addT(NULL, set[idx].ptData[0], 0);
	seg->addT(NULL, set[idx].ptData[set[idx].ptCount - 1], 1);
	}

	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;
	SkPoint lesserReverse[4], greaterReverse[4];
	const SkPoint* lesserData, * greaterData;
	const SortSet* set = test.set;
	setup(set, idxL, &lesserData, lesserReverse, &lesser);
	size_t idxG = idxL + 1;
	setup(set, idxG, &greaterData, greaterReverse, &greater);
	SkOpAngle first, second;
	first.set(lesserData, (SkPath::Verb) (set[idxL].ptCount - 1), &lesser,
	0, 1, lesser.spans());
	first.setSpans();
	second.set(greaterData, (SkPath::Verb) (set[idxG].ptCount - 1), &greater,
	0, 1, greater.spans());
	second.setSpans();
	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)