src/third_party/skia/experimental/Intersection/SimplifyAddIntersectingTs_Test.cpp - cobalt - Git at Google

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

 namespace SimplifyAddIntersectingTsTest {

 #include "Simplify.cpp"

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

 #include "Intersection_Tests.h"

 static const SkPoint lines[][2] = {
     {{ 1,  1}, { 1,  1}},   // degenerate
     {{ 1,  1}, { 4,  1}},   // horizontal
     {{ 4,  1}, { 9,  1}},
     {{ 2,  1}, { 3,  1}},
     {{ 2,  1}, { 6,  1}},
     {{ 5,  1}, { 9,  1}},
     {{ 1,  1}, { 1,  4}},   // vertical
     {{ 1,  2}, { 1,  3}},
     {{ 1,  2}, { 1,  6}},
     {{ 1,  5}, { 1,  9}},
     {{ 1,  1}, { 3,  3}},   // diagonal
     {{ 2,  2}, { 4,  4}},
     {{ 2,  4}, { 4,  2}},
 };

 static const size_t lineCount = sizeof(lines) / sizeof(lines[0]);

 static const SkPoint quads[][3] = {
     {{ 1,  1}, { 1,  1}, { 1,  1}},   // degenerate
     {{ 1,  1}, { 4,  1}, { 5,  1}},   // line
     {{ 1,  1}, { 4,  1}, { 4,  4}},   // curve
 };

 static const size_t quadCount = sizeof(quads) / sizeof(quads[0]);

 static const SkPoint cubics[][4] = {
     {{ 1,  1}, { 1,  1}, { 1,  1}, { 1,  1}},   // degenerate
     {{ 1,  1}, { 4,  1}, { 5,  1}, { 6,  1}},   // line
     {{ 1,  1}, { 3,  1}, { 4,  2}, { 4,  4}},   // curve
 };

 static const size_t cubicCount = sizeof(cubics) / sizeof(cubics[0]);
 static const size_t testCount = lineCount + quadCount + cubicCount;

 static SkPath::Verb setPath(size_t outer, SkPath& path, const SkPoint*& pts1) {
     SkPath::Verb c1Type;
     if (outer < lineCount) {
         path.moveTo(lines[outer][0].fX, lines[outer][0].fY);
         path.lineTo(lines[outer][1].fX, lines[outer][1].fY);
         c1Type = SkPath::kLine_Verb;
         pts1 = lines[outer];
     } else {
         outer -= lineCount;
         if (outer < quadCount) {
         path.moveTo(quads[outer][0].fX, quads[outer][0].fY);
         path.quadTo(quads[outer][1].fX, quads[outer][1].fY,
                 quads[outer][2].fX, quads[outer][2].fY);
             c1Type = SkPath::kQuad_Verb;
             pts1 = quads[outer];
         } else {
             outer -= quadCount;
             path.moveTo(cubics[outer][0].fX, cubics[outer][0].fY);
             path.cubicTo(cubics[outer][1].fX, cubics[outer][1].fY,
                     cubics[outer][2].fX, cubics[outer][2].fY,
                     cubics[outer][3].fX, cubics[outer][3].fY);
             c1Type = SkPath::kCubic_Verb;
             pts1 = cubics[outer];
         }
     }
     return c1Type;
 }

 static void testPath(const SkPath& path, const SkPoint* pts1, SkPath::Verb c1Type,
         const SkPoint* pts2, SkPath::Verb c2Type) {
     SkTArray<SimplifyAddIntersectingTsTest::Contour> contour;
     SimplifyAddIntersectingTsTest::EdgeBuilder builder(path, contour);
     if (contour.count() < 2) {
         return;
     }
     SimplifyAddIntersectingTsTest::Contour& c1 = contour[0];
     SimplifyAddIntersectingTsTest::Contour& c2 = contour[1];
     addIntersectTs(&c1, &c2);
 #if DEBUG_DUMP
     bool c1Intersected = c1.segments()[0].intersected();
     // bool c2Intersected = c2.fSegments[0].intersected();
     SkDebugf("%s %s (%1.9g,%1.9g %1.9g,%1.9g) %s %s (%1.9g,%1.9g %1.9g,%1.9g)\n",
             __FUNCTION__, SimplifyAddIntersectingTsTest::kLVerbStr[c1Type],
             pts1[0].fX, pts1[0].fY,
             pts1[c1Type].fX, pts1[c1Type].fY,
             c1Intersected ? "intersects" : "does not intersect",
             SimplifyAddIntersectingTsTest::kLVerbStr[c2Type],
             pts2[0].fX, pts2[0].fY,
             pts2[c2Type].fX, pts2[c2Type].fY);
     if (c1Intersected) {
         c1.dump();
         c2.dump();
     }
 #endif
 }

 static const size_t firstO = 6;
 static const size_t firstI = 1;

 void SimplifyAddIntersectingTs_Test() {
     const SkPoint* pts1, * pts2;
     if (firstO > 0 || firstI > 0) {
         SkPath path;
         SkPath::Verb c1Type = setPath(firstO, path, pts1);
         SkPath path2(path);
         SkPath::Verb c2Type = setPath(firstI, path2, pts2);
         testPath(path2, pts1, c1Type, pts2, c2Type);
     }
     for (size_t o = 0; o < testCount; ++o) {
         SkPath path;
         SkPath::Verb c1Type = setPath(o, path, pts1);
         for (size_t i = 0; i < testCount; ++i) {
             SkPath path2(path);
             SkPath::Verb c2Type = setPath(i, path2, pts2);
             testPath(path2, pts1, c1Type, pts2, c2Type);
         }
     }
 }
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/
	#include "Simplify.h"

	namespace SimplifyAddIntersectingTsTest {

	#include "Simplify.cpp"

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

	#include "Intersection_Tests.h"

	static const SkPoint lines[][2] = {
	{{ 1, 1}, { 1, 1}}, // degenerate
	{{ 1, 1}, { 4, 1}}, // horizontal
	{{ 4, 1}, { 9, 1}},
	{{ 2, 1}, { 3, 1}},
	{{ 2, 1}, { 6, 1}},
	{{ 5, 1}, { 9, 1}},
	{{ 1, 1}, { 1, 4}}, // vertical
	{{ 1, 2}, { 1, 3}},
	{{ 1, 2}, { 1, 6}},
	{{ 1, 5}, { 1, 9}},
	{{ 1, 1}, { 3, 3}}, // diagonal
	{{ 2, 2}, { 4, 4}},
	{{ 2, 4}, { 4, 2}},
	};

	static const size_t lineCount = sizeof(lines) / sizeof(lines[0]);

	static const SkPoint quads[][3] = {
	{{ 1, 1}, { 1, 1}, { 1, 1}}, // degenerate
	{{ 1, 1}, { 4, 1}, { 5, 1}}, // line
	{{ 1, 1}, { 4, 1}, { 4, 4}}, // curve
	};

	static const size_t quadCount = sizeof(quads) / sizeof(quads[0]);

	static const SkPoint cubics[][4] = {
	{{ 1, 1}, { 1, 1}, { 1, 1}, { 1, 1}}, // degenerate
	{{ 1, 1}, { 4, 1}, { 5, 1}, { 6, 1}}, // line
	{{ 1, 1}, { 3, 1}, { 4, 2}, { 4, 4}}, // curve
	};

	static const size_t cubicCount = sizeof(cubics) / sizeof(cubics[0]);
	static const size_t testCount = lineCount + quadCount + cubicCount;

	static SkPath::Verb setPath(size_t outer, SkPath& path, const SkPoint*& pts1) {
	SkPath::Verb c1Type;
	if (outer < lineCount) {
	path.moveTo(lines[outer][0].fX, lines[outer][0].fY);
	path.lineTo(lines[outer][1].fX, lines[outer][1].fY);
	c1Type = SkPath::kLine_Verb;
	pts1 = lines[outer];
	} else {
	outer -= lineCount;
	if (outer < quadCount) {
	path.moveTo(quads[outer][0].fX, quads[outer][0].fY);
	path.quadTo(quads[outer][1].fX, quads[outer][1].fY,
	quads[outer][2].fX, quads[outer][2].fY);
	c1Type = SkPath::kQuad_Verb;
	pts1 = quads[outer];
	} else {
	outer -= quadCount;
	path.moveTo(cubics[outer][0].fX, cubics[outer][0].fY);
	path.cubicTo(cubics[outer][1].fX, cubics[outer][1].fY,
	cubics[outer][2].fX, cubics[outer][2].fY,
	cubics[outer][3].fX, cubics[outer][3].fY);
	c1Type = SkPath::kCubic_Verb;
	pts1 = cubics[outer];
	}
	}
	return c1Type;
	}

	static void testPath(const SkPath& path, const SkPoint* pts1, SkPath::Verb c1Type,
	const SkPoint* pts2, SkPath::Verb c2Type) {
	SkTArray<SimplifyAddIntersectingTsTest::Contour> contour;
	SimplifyAddIntersectingTsTest::EdgeBuilder builder(path, contour);
	if (contour.count() < 2) {
	return;
	}
	SimplifyAddIntersectingTsTest::Contour& c1 = contour[0];
	SimplifyAddIntersectingTsTest::Contour& c2 = contour[1];
	addIntersectTs(&c1, &c2);
	#if DEBUG_DUMP
	bool c1Intersected = c1.segments()[0].intersected();
	// bool c2Intersected = c2.fSegments[0].intersected();
	SkDebugf("%s %s (%1.9g,%1.9g %1.9g,%1.9g) %s %s (%1.9g,%1.9g %1.9g,%1.9g)\n",
	__FUNCTION__, SimplifyAddIntersectingTsTest::kLVerbStr[c1Type],
	pts1[0].fX, pts1[0].fY,
	pts1[c1Type].fX, pts1[c1Type].fY,
	c1Intersected ? "intersects" : "does not intersect",
	SimplifyAddIntersectingTsTest::kLVerbStr[c2Type],
	pts2[0].fX, pts2[0].fY,
	pts2[c2Type].fX, pts2[c2Type].fY);
	if (c1Intersected) {
	c1.dump();
	c2.dump();
	}
	#endif
	}

	static const size_t firstO = 6;
	static const size_t firstI = 1;

	void SimplifyAddIntersectingTs_Test() {
	const SkPoint* pts1, * pts2;
	if (firstO > 0 \|\| firstI > 0) {
	SkPath path;
	SkPath::Verb c1Type = setPath(firstO, path, pts1);
	SkPath path2(path);
	SkPath::Verb c2Type = setPath(firstI, path2, pts2);
	testPath(path2, pts1, c1Type, pts2, c2Type);
	}
	for (size_t o = 0; o < testCount; ++o) {
	SkPath path;
	SkPath::Verb c1Type = setPath(o, path, pts1);
	for (size_t i = 0; i < testCount; ++i) {
	SkPath path2(path);
	SkPath::Verb c2Type = setPath(i, path2, pts2);
	testPath(path2, pts1, c1Type, pts2, c2Type);
	}
	}
	}