experimental/Intersection/SimplifyFindNext_Test.cpp - platform/external/skia - Gitiles

 /*
  * Copyright 2012 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #define DEBUG_TEST 1

 #include "Simplify.h"

 namespace SimplifyFindNextTest {

 #include "Simplify.cpp"

 } // end of SimplifyFindNextTest namespace

 #include "Intersection_Tests.h"

 static const SimplifyFindNextTest::Segment* testCommon(
         int contourWinding, int spanWinding, int startIndex, int endIndex,
         SkTArray<SimplifyFindNextTest::Contour>& contours) {
     SkTDArray<SimplifyFindNextTest::Contour*> contourList;
     makeContourList(contours, contourList, false, false);
     addIntersectTs(contourList[0], contourList[0]);
     if (contours.count() > 1) {
         SkASSERT(contours.count() == 2);
         addIntersectTs(contourList[0], contourList[1]);
         addIntersectTs(contourList[1], contourList[1]);
     }
     fixOtherTIndex(contourList);
     SimplifyFindNextTest::Segment& segment = contours[0].debugSegments()[0];
     SkPoint pts[2];
     pts[0] = segment.xyAtT(&segment.span(endIndex));
     int nextStart = startIndex;
     int nextEnd = endIndex;
     SkTDArray<SimplifyFindNextTest::Span*> chaseArray;
     bool unsortable = false;
     SimplifyFindNextTest::Segment* next = segment.findNextWinding(chaseArray,
             nextStart, nextEnd, unsortable);
     pts[1] = next->xyAtT(&next->span(nextStart));
     SkASSERT(pts[0] == pts[1]);
     return next;
 }

 static void test(const SkPath& path) {
     SkTArray<SimplifyFindNextTest::Contour> contours;
     SimplifyFindNextTest::EdgeBuilder builder(path, contours);
     int contourWinding = 0;
     int spanWinding = 1;
     int start = 0;
     int end = 1;
     testCommon(contourWinding, spanWinding, start, end, contours);
 }

 static void test(const SkPath& path, int start, int end) {
     SkTArray<SimplifyFindNextTest::Contour> contours;
     SimplifyFindNextTest::EdgeBuilder builder(path, contours);
     int contourWinding = 0;
     int spanWinding = 1;
     testCommon(contourWinding, spanWinding, start, end, contours);
 }

 static void testLine1() {
     SkPath path;
     path.moveTo(2,0);
     path.lineTo(1,1);
     path.lineTo(0,0);
     path.close();
     test(path);
 }

 static void addInnerCWTriangle(SkPath& path) {
     path.moveTo(3,0);
     path.lineTo(4,1);
     path.lineTo(2,1);
     path.close();
 }

 #if DEBUG_UNUSED
 static void addInnerCCWTriangle(SkPath& path) {
     path.moveTo(3,0);
     path.lineTo(2,1);
     path.lineTo(4,1);
     path.close();
 }
 #endif

 static void addOuterCWTriangle(SkPath& path) {
     path.moveTo(3,0);
     path.lineTo(6,2);
     path.lineTo(0,2);
     path.close();
 }

 #if DEBUG_UNUSED
 static void addOuterCCWTriangle(SkPath& path) {
     path.moveTo(3,0);
     path.lineTo(0,2);
     path.lineTo(6,2);
     path.close();
 }
 #endif

 static void testLine2() {
     SkPath path;
     addInnerCWTriangle(path);
     addOuterCWTriangle(path);
     test(path, 0, 3);
 }

 static void testLine3() {
     SkPath path;
     addInnerCWTriangle(path);
     addOuterCWTriangle(path);
     test(path, 3, 0);
 }

 static void testLine4() {
     SkPath path;
     addInnerCWTriangle(path);
     addOuterCWTriangle(path);
     test(path, 3, 2);
 }

 static void (*tests[])() = {
     testLine1,
     testLine2,
     testLine3,
     testLine4,
 };

 static const size_t testCount = sizeof(tests) / sizeof(tests[0]);

 static void (*firstTest)() = 0;
 static bool skipAll = false;

 void SimplifyFindNext_Test() {
     if (skipAll) {
         return;
     }
     size_t index = 0;
     if (firstTest) {
         while (index < testCount && tests[index] != firstTest) {
             ++index;
         }
     }
     bool firstTestComplete = false;
     for ( ; index < testCount; ++index) {
         (*tests[index])();
         firstTestComplete = true;
     }
 }
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#define DEBUG_TEST 1

	#include "Simplify.h"

	namespace SimplifyFindNextTest {

	#include "Simplify.cpp"

	} // end of SimplifyFindNextTest namespace

	#include "Intersection_Tests.h"

	static const SimplifyFindNextTest::Segment* testCommon(
	int contourWinding, int spanWinding, int startIndex, int endIndex,
	SkTArray<SimplifyFindNextTest::Contour>& contours) {
	SkTDArray<SimplifyFindNextTest::Contour*> contourList;
	makeContourList(contours, contourList, false, false);
	addIntersectTs(contourList[0], contourList[0]);
	if (contours.count() > 1) {
	SkASSERT(contours.count() == 2);
	addIntersectTs(contourList[0], contourList[1]);
	addIntersectTs(contourList[1], contourList[1]);
	}
	fixOtherTIndex(contourList);
	SimplifyFindNextTest::Segment& segment = contours[0].debugSegments()[0];
	SkPoint pts[2];
	pts[0] = segment.xyAtT(&segment.span(endIndex));
	int nextStart = startIndex;
	int nextEnd = endIndex;
	SkTDArray<SimplifyFindNextTest::Span*> chaseArray;
	bool unsortable = false;
	SimplifyFindNextTest::Segment* next = segment.findNextWinding(chaseArray,
	nextStart, nextEnd, unsortable);
	pts[1] = next->xyAtT(&next->span(nextStart));
	SkASSERT(pts[0] == pts[1]);
	return next;
	}

	static void test(const SkPath& path) {
	SkTArray<SimplifyFindNextTest::Contour> contours;
	SimplifyFindNextTest::EdgeBuilder builder(path, contours);
	int contourWinding = 0;
	int spanWinding = 1;
	int start = 0;
	int end = 1;
	testCommon(contourWinding, spanWinding, start, end, contours);
	}

	static void test(const SkPath& path, int start, int end) {
	SkTArray<SimplifyFindNextTest::Contour> contours;
	SimplifyFindNextTest::EdgeBuilder builder(path, contours);
	int contourWinding = 0;
	int spanWinding = 1;
	testCommon(contourWinding, spanWinding, start, end, contours);
	}

	static void testLine1() {
	SkPath path;
	path.moveTo(2,0);
	path.lineTo(1,1);
	path.lineTo(0,0);
	path.close();
	test(path);
	}

	static void addInnerCWTriangle(SkPath& path) {
	path.moveTo(3,0);
	path.lineTo(4,1);
	path.lineTo(2,1);
	path.close();
	}

	#if DEBUG_UNUSED
	static void addInnerCCWTriangle(SkPath& path) {
	path.moveTo(3,0);
	path.lineTo(2,1);
	path.lineTo(4,1);
	path.close();
	}
	#endif

	static void addOuterCWTriangle(SkPath& path) {
	path.moveTo(3,0);
	path.lineTo(6,2);
	path.lineTo(0,2);
	path.close();
	}

	#if DEBUG_UNUSED
	static void addOuterCCWTriangle(SkPath& path) {
	path.moveTo(3,0);
	path.lineTo(0,2);
	path.lineTo(6,2);
	path.close();
	}
	#endif

	static void testLine2() {
	SkPath path;
	addInnerCWTriangle(path);
	addOuterCWTriangle(path);
	test(path, 0, 3);
	}

	static void testLine3() {
	SkPath path;
	addInnerCWTriangle(path);
	addOuterCWTriangle(path);
	test(path, 3, 0);
	}

	static void testLine4() {
	SkPath path;
	addInnerCWTriangle(path);
	addOuterCWTriangle(path);
	test(path, 3, 2);
	}

	static void (*tests[])() = {
	testLine1,
	testLine2,
	testLine3,
	testLine4,
	};

	static const size_t testCount = sizeof(tests) / sizeof(tests[0]);

	static void (*firstTest)() = 0;
	static bool skipAll = false;

	void SimplifyFindNext_Test() {
	if (skipAll) {
	return;
	}
	size_t index = 0;
	if (firstTest) {
	while (index < testCount && tests[index] != firstTest) {
	++index;
	}
	}
	bool firstTestComplete = false;
	for ( ; index < testCount; ++index) {
	(*tests[index])();
	firstTestComplete = true;
	}
	}