public static void TestEnvelope2Dintersector() { System.Collections.Generic.List<com.esri.core.geometry.Envelope2D> envelopes = new System.Collections.Generic.List<com.esri.core.geometry.Envelope2D>(0); com.esri.core.geometry.Envelope2D env0 = new com.esri.core.geometry.Envelope2D(2, 3, 4, 4); com.esri.core.geometry.Envelope2D env1 = new com.esri.core.geometry.Envelope2D(5, 13, 9, 15); com.esri.core.geometry.Envelope2D env2 = new com.esri.core.geometry.Envelope2D(6, 9, 11, 12); com.esri.core.geometry.Envelope2D env3 = new com.esri.core.geometry.Envelope2D(8, 10, 9, 17); com.esri.core.geometry.Envelope2D env4 = new com.esri.core.geometry.Envelope2D(11.001, 12, 14, 14); com.esri.core.geometry.Envelope2D env5 = new com.esri.core.geometry.Envelope2D(1, 3, 3, 4); com.esri.core.geometry.Envelope2D env6 = new com.esri.core.geometry.Envelope2D(0, 2, 5, 10); com.esri.core.geometry.Envelope2D env7 = new com.esri.core.geometry.Envelope2D(4, 7, 5, 10); com.esri.core.geometry.Envelope2D env8 = new com.esri.core.geometry.Envelope2D(3, 15, 15, 15); com.esri.core.geometry.Envelope2D env9 = new com.esri.core.geometry.Envelope2D(0, 9, 14, 9); com.esri.core.geometry.Envelope2D env10 = new com.esri.core.geometry.Envelope2D(0, 8.999, 14, 8.999); envelopes.Add(env0); envelopes.Add(env1); envelopes.Add(env2); envelopes.Add(env3); envelopes.Add(env4); envelopes.Add(env5); envelopes.Add(env6); envelopes.Add(env7); envelopes.Add(env8); envelopes.Add(env9); envelopes.Add(env10); com.esri.core.geometry.Envelope2DIntersectorImpl intersector = new com.esri.core.geometry.Envelope2DIntersectorImpl(); intersector.SetTolerance(0.001); intersector.StartConstruction(); for (int i = 0; i < envelopes.Count; i++) { intersector.AddEnvelope(i, envelopes[i]); } intersector.EndConstruction(); int count = 0; while (intersector.Next()) { int env_a = intersector.GetHandleA(); int env_b = intersector.GetHandleB(); count++; com.esri.core.geometry.Envelope2D env = new com.esri.core.geometry.Envelope2D(); env.SetCoords(envelopes[env_a]); env.Inflate(0.001, 0.001); NUnit.Framework.Assert.IsTrue(env.IsIntersecting(envelopes[env_b])); } System.Diagnostics.Debug.Assert((count == 16)); com.esri.core.geometry.Envelope2DIntersectorImpl intersector2 = new com.esri.core.geometry.Envelope2DIntersectorImpl(); intersector2.SetTolerance(0.0); intersector2.StartConstruction(); for (int i_1 = 0; i_1 < envelopes.Count; i_1++) { intersector2.AddEnvelope(i_1, envelopes[i_1]); } intersector2.EndConstruction(); count = 0; while (intersector2.Next()) { int env_a = intersector2.GetHandleA(); int env_b = intersector2.GetHandleB(); count++; com.esri.core.geometry.Envelope2D env = new com.esri.core.geometry.Envelope2D(); env.SetCoords(envelopes[env_a]); NUnit.Framework.Assert.IsTrue(env.IsIntersecting(envelopes[env_b])); } System.Diagnostics.Debug.Assert((count == 13)); env0 = new com.esri.core.geometry.Envelope2D(0, 0, 0, 10); env1 = new com.esri.core.geometry.Envelope2D(0, 10, 10, 10); env2 = new com.esri.core.geometry.Envelope2D(10, 0, 10, 10); env3 = new com.esri.core.geometry.Envelope2D(0, 0, 10, 0); envelopes.Clear(); envelopes.Add(env0); envelopes.Add(env1); envelopes.Add(env2); envelopes.Add(env3); com.esri.core.geometry.Envelope2DIntersectorImpl intersector3 = new com.esri.core.geometry.Envelope2DIntersectorImpl(); intersector3.SetTolerance(0.001); intersector3.StartConstruction(); for (int i_2 = 0; i_2 < envelopes.Count; i_2++) { intersector3.AddEnvelope(i_2, envelopes[i_2]); } intersector3.EndConstruction(); count = 0; while (intersector3.Next()) { int env_a = intersector3.GetHandleA(); int env_b = intersector3.GetHandleB(); count++; com.esri.core.geometry.Envelope2D env = new com.esri.core.geometry.Envelope2D(); env.SetCoords(envelopes[env_a]); NUnit.Framework.Assert.IsTrue(env.IsIntersecting(envelopes[env_b])); } NUnit.Framework.Assert.IsTrue(count == 4); env0 = new com.esri.core.geometry.Envelope2D(0, 0, 0, 10); envelopes.Clear(); envelopes.Add(env0); envelopes.Add(env0); envelopes.Add(env0); envelopes.Add(env0); com.esri.core.geometry.Envelope2DIntersectorImpl intersector4 = new com.esri.core.geometry.Envelope2DIntersectorImpl(); intersector4.SetTolerance(0.001); intersector4.StartConstruction(); for (int i_3 = 0; i_3 < envelopes.Count; i_3++) { intersector4.AddEnvelope(i_3, envelopes[i_3]); } intersector4.EndConstruction(); count = 0; while (intersector4.Next()) { int env_a = intersector4.GetHandleA(); int env_b = intersector4.GetHandleB(); count++; com.esri.core.geometry.Envelope2D env = new com.esri.core.geometry.Envelope2D(); env.SetCoords(envelopes[env_a]); NUnit.Framework.Assert.IsTrue(env.IsIntersecting(envelopes[env_b])); } System.Diagnostics.Debug.Assert((count == 6)); env0 = new com.esri.core.geometry.Envelope2D(0, 10, 10, 10); envelopes.Clear(); envelopes.Add(env0); envelopes.Add(env0); envelopes.Add(env0); envelopes.Add(env0); com.esri.core.geometry.Envelope2DIntersectorImpl intersector5 = new com.esri.core.geometry.Envelope2DIntersectorImpl(); intersector5.SetTolerance(0.001); intersector5.StartConstruction(); for (int i_4 = 0; i_4 < envelopes.Count; i_4++) { intersector5.AddEnvelope(i_4, envelopes[i_4]); } intersector5.EndConstruction(); count = 0; while (intersector5.Next()) { int env_a = intersector5.GetHandleA(); int env_b = intersector5.GetHandleB(); count++; com.esri.core.geometry.Envelope2D env = new com.esri.core.geometry.Envelope2D(); env.SetCoords(envelopes[env_a]); NUnit.Framework.Assert.IsTrue(env.IsIntersecting(envelopes[env_b])); } NUnit.Framework.Assert.IsTrue(count == 6); }
public static void TestRandom() { int passcount = 10; int figureSize = 100; int figureSize2 = 100; com.esri.core.geometry.Envelope extent1 = new com.esri.core.geometry.Envelope(); com.esri.core.geometry.Envelope extent2 = new com.esri.core.geometry.Envelope(); com.esri.core.geometry.Envelope extent3 = new com.esri.core.geometry.Envelope(); com.esri.core.geometry.Envelope extent4 = new com.esri.core.geometry.Envelope(); extent1.SetCoords(-10000, 5000, 10000, 25000); // red extent2.SetCoords(-10000, 2000, 10000, 8000); // blue extent3.SetCoords(-10000, -8000, 10000, -2000); // blue extent4.SetCoords(-10000, -25000, 10000, -5000); // red com.esri.core.geometry.RandomCoordinateGenerator generator1 = new com.esri.core.geometry.RandomCoordinateGenerator(System.Math.Max(figureSize, 10000), extent1, 0.001); com.esri.core.geometry.RandomCoordinateGenerator generator2 = new com.esri.core.geometry.RandomCoordinateGenerator(System.Math.Max(figureSize, 10000), extent2, 0.001); com.esri.core.geometry.RandomCoordinateGenerator generator3 = new com.esri.core.geometry.RandomCoordinateGenerator(System.Math.Max(figureSize, 10000), extent3, 0.001); com.esri.core.geometry.RandomCoordinateGenerator generator4 = new com.esri.core.geometry.RandomCoordinateGenerator(System.Math.Max(figureSize, 10000), extent4, 0.001); System.Random random = new System.Random(1982); int rand_max = 511; int qCount = 0; int eCount = 0; int bCount = 0; for (int c = 0; c < passcount; c++) { com.esri.core.geometry.Polygon polyRed = new com.esri.core.geometry.Polygon(); com.esri.core.geometry.Polygon polyBlue = new com.esri.core.geometry.Polygon(); int r = figureSize; if (r < 3) { continue; } com.esri.core.geometry.Point pt; for (int j = 0; j < r; j++) { int rand = random.Next(rand_max); bool bRandomNew = (r > 10) && ((1.0 * rand) / rand_max > 0.95); pt = generator1.GetRandomCoord(); if (j == 0 || bRandomNew) { polyRed.StartPath(pt); } else { polyRed.LineTo(pt); } } for (int j_1 = 0; j_1 < r; j_1++) { int rand = random.Next(rand_max); bool bRandomNew = (r > 10) && ((1.0 * rand) / rand_max > 0.95); pt = generator4.GetRandomCoord(); if (j_1 == 0 || bRandomNew) { polyRed.StartPath(pt); } else { polyRed.LineTo(pt); } } r = figureSize2; if (r < 3) { continue; } for (int j_2 = 0; j_2 < r; j_2++) { int rand = random.Next(rand_max); bool bRandomNew = (r > 10) && ((1.0 * rand) / rand_max > 0.95); pt = generator2.GetRandomCoord(); if (j_2 == 0 || bRandomNew) { polyBlue.StartPath(pt); } else { polyBlue.LineTo(pt); } } for (int j_3 = 0; j_3 < r; j_3++) { int rand = random.Next(rand_max); bool bRandomNew = (r > 10) && ((1.0 * rand) / rand_max > 0.95); pt = generator3.GetRandomCoord(); if (j_3 == 0 || bRandomNew) { polyBlue.StartPath(pt); } else { polyBlue.LineTo(pt); } } com.esri.core.geometry.Envelope2D env = new com.esri.core.geometry.Envelope2D(); // Quad_tree com.esri.core.geometry.QuadTree quadTree = BuildQuadTree(polyBlue); com.esri.core.geometry.QuadTree.QuadTreeIterator iterator = quadTree.GetIterator(); com.esri.core.geometry.SegmentIteratorImpl _segIterRed = ((com.esri.core.geometry.MultiPathImpl)polyRed._getImpl()).QuerySegmentIterator(); while (_segIterRed.NextPath()) { while (_segIterRed.HasNextSegment()) { com.esri.core.geometry.Segment segmentRed = _segIterRed.NextSegment(); segmentRed.QueryEnvelope2D(env); iterator.ResetIterator(env, 0.001); while (iterator.Next() != -1) { qCount++; } } } // Envelope_2D_intersector System.Collections.Generic.List<com.esri.core.geometry.Envelope2D> envelopes_red = new System.Collections.Generic.List<com.esri.core.geometry.Envelope2D>(); System.Collections.Generic.List<com.esri.core.geometry.Envelope2D> envelopes_blue = new System.Collections.Generic.List<com.esri.core.geometry.Envelope2D>(); com.esri.core.geometry.SegmentIterator segIterRed = polyRed.QuerySegmentIterator(); while (segIterRed.NextPath()) { while (segIterRed.HasNextSegment()) { com.esri.core.geometry.Segment segment = segIterRed.NextSegment(); env = new com.esri.core.geometry.Envelope2D(); segment.QueryEnvelope2D(env); envelopes_red.Add(env); } } com.esri.core.geometry.SegmentIterator segIterBlue = polyBlue.QuerySegmentIterator(); while (segIterBlue.NextPath()) { while (segIterBlue.HasNextSegment()) { com.esri.core.geometry.Segment segment = segIterBlue.NextSegment(); env = new com.esri.core.geometry.Envelope2D(); segment.QueryEnvelope2D(env); envelopes_blue.Add(env); } } com.esri.core.geometry.Envelope2DIntersectorImpl intersector = new com.esri.core.geometry.Envelope2DIntersectorImpl(); intersector.SetTolerance(0.001); intersector.StartRedConstruction(); for (int i = 0; i < envelopes_red.Count; i++) { intersector.AddRedEnvelope(i, envelopes_red[i]); } intersector.EndRedConstruction(); intersector.StartBlueConstruction(); for (int i_1 = 0; i_1 < envelopes_blue.Count; i_1++) { intersector.AddBlueEnvelope(i_1, envelopes_blue[i_1]); } intersector.EndBlueConstruction(); while (intersector.Next()) { eCount++; } NUnit.Framework.Assert.IsTrue(qCount == eCount); } }