/// <exception cref="org.codehaus.jackson.JsonParseException"/> /// <exception cref="System.IO.IOException"/> internal virtual bool testEnvelope() { bool bAnswer = true; com.esri.core.geometry.Envelope envelope = new com.esri.core.geometry.Envelope(); envelope.setCoords(-109.55, 25.76, -86.39, 49.94); { org.codehaus.jackson.JsonParser envelopeWGS84Parser = factory.createJsonParser(com.esri.core.geometry.GeometryEngine .geometryToJson(spatialReferenceWGS84, envelope)); com.esri.core.geometry.MapGeometry envelopeWGS84MP = com.esri.core.geometry.GeometryEngine .jsonToGeometry(envelopeWGS84Parser); NUnit.Framework.Assert.IsTrue(envelope.isEmpty() == envelopeWGS84MP.getGeometry() .isEmpty()); NUnit.Framework.Assert.IsTrue(envelope.getXMax() == ((com.esri.core.geometry.Envelope )envelopeWGS84MP.getGeometry()).getXMax()); NUnit.Framework.Assert.IsTrue(envelope.getYMax() == ((com.esri.core.geometry.Envelope )envelopeWGS84MP.getGeometry()).getYMax()); NUnit.Framework.Assert.IsTrue(envelope.getXMin() == ((com.esri.core.geometry.Envelope )envelopeWGS84MP.getGeometry()).getXMin()); NUnit.Framework.Assert.IsTrue(envelope.getYMin() == ((com.esri.core.geometry.Envelope )envelopeWGS84MP.getGeometry()).getYMin()); NUnit.Framework.Assert.IsTrue(spatialReferenceWGS84.getID() == envelopeWGS84MP.getSpatialReference ().getID()); if (!checkResultSpatialRef(envelopeWGS84MP, 4326, 0)) { bAnswer = false; } } { // export com.esri.core.geometry.Envelope e = new com.esri.core.geometry.Envelope(); e.addAttribute(com.esri.core.geometry.VertexDescription.Semantics.Z); e.addAttribute(com.esri.core.geometry.VertexDescription.Semantics.M); string s = com.esri.core.geometry.GeometryEngine.geometryToJson(spatialReferenceWebMerc1 , e); NUnit.Framework.Assert.IsTrue(s.Equals("{\"xmin\":null,\"ymin\":null,\"xmax\":null,\"ymax\":null,\"zmin\":null,\"zmax\":null,\"mmin\":null,\"mmax\":null,\"spatialReference\":{\"wkid\":102100,\"latestWkid\":3857}}" )); e.setCoords(0, 1, 2, 3); com.esri.core.geometry.Envelope1D z = new com.esri.core.geometry.Envelope1D(); com.esri.core.geometry.Envelope1D m = new com.esri.core.geometry.Envelope1D(); z.setCoords(5, 7); m.setCoords(11, 13); e.setInterval(com.esri.core.geometry.VertexDescription.Semantics.Z, 0, z); e.setInterval(com.esri.core.geometry.VertexDescription.Semantics.M, 0, m); s = com.esri.core.geometry.GeometryEngine.geometryToJson(spatialReferenceWebMerc1 , e); NUnit.Framework.Assert.IsTrue(s.Equals("{\"xmin\":0,\"ymin\":1,\"xmax\":2,\"ymax\":3,\"zmin\":5,\"zmax\":7,\"mmin\":11,\"mmax\":13,\"spatialReference\":{\"wkid\":102100,\"latestWkid\":3857}}" )); } { // import string s = "{\"xmin\":0.0,\"ymin\":1.0,\"xmax\":2.0,\"ymax\":3.0,\"zmin\":5.0,\"zmax\":7.0,\"mmin\":11.0,\"mmax\":13.0,\"spatialReference\":{\"wkid\":102100,\"latestWkid\":3857}}"; org.codehaus.jackson.JsonParser parser = factory.createJsonParser(s); com.esri.core.geometry.MapGeometry map_env = com.esri.core.geometry.GeometryEngine .jsonToGeometry(parser); com.esri.core.geometry.Envelope env = (com.esri.core.geometry.Envelope)map_env.getGeometry (); com.esri.core.geometry.Envelope1D z = env.queryInterval(com.esri.core.geometry.VertexDescription.Semantics .Z, 0); com.esri.core.geometry.Envelope1D m = env.queryInterval(com.esri.core.geometry.VertexDescription.Semantics .M, 0); NUnit.Framework.Assert.IsTrue(z.vmin == 5.0); NUnit.Framework.Assert.IsTrue(z.vmax == 7.0); NUnit.Framework.Assert.IsTrue(m.vmin == 11.0); NUnit.Framework.Assert.IsTrue(m.vmax == 13.0); } { string s = "{ \"zmin\" : 33, \"xmin\" : -109.55, \"zmax\" : 53, \"ymin\" : 25.76, \"xmax\" : -86.39, \"ymax\" : 49.94, \"mmax\" : 13}"; org.codehaus.jackson.JsonParser parser = factory.createJsonParser(s); com.esri.core.geometry.MapGeometry map_env = com.esri.core.geometry.GeometryEngine .jsonToGeometry(parser); com.esri.core.geometry.Envelope env = (com.esri.core.geometry.Envelope)map_env.getGeometry (); com.esri.core.geometry.Envelope2D e = new com.esri.core.geometry.Envelope2D(); env.queryEnvelope2D(e); NUnit.Framework.Assert.IsTrue(e.xmin == -109.55 && e.ymin == 25.76 && e.xmax == - 86.39 && e.ymax == 49.94); com.esri.core.geometry.Envelope1D e1D; NUnit.Framework.Assert.IsTrue(env.hasAttribute(com.esri.core.geometry.VertexDescription.Semantics .Z)); e1D = env.queryInterval(com.esri.core.geometry.VertexDescription.Semantics.Z, 0); NUnit.Framework.Assert.IsTrue(e1D.vmin == 33 && e1D.vmax == 53); NUnit.Framework.Assert.IsTrue(!env.hasAttribute(com.esri.core.geometry.VertexDescription.Semantics .M)); } return(bAnswer); }
public static com.esri.core.geometry.Envelope MakeEnvelope() { com.esri.core.geometry.Envelope envelope; com.esri.core.geometry.Envelope env = new com.esri.core.geometry.Envelope(0.0, 0.0, 5.0, 5.0); envelope = env; com.esri.core.geometry.Envelope1D interval = new com.esri.core.geometry.Envelope1D(); interval.vmin = -3.0; interval.vmax = -7.0; envelope.SetInterval(com.esri.core.geometry.VertexDescription.Semantics.Z, 0, interval); interval.vmin = 16.0; interval.vmax = 32.0; envelope.SetInterval(com.esri.core.geometry.VertexDescription.Semantics.M, 0, interval); interval.vmin = 5.0; interval.vmax = 11.0; envelope.SetInterval(com.esri.core.geometry.VertexDescription.Semantics.ID, 0, interval); return envelope; }
public static void testIntervalTree() { System.Collections.Generic.List <com.esri.core.geometry.Envelope1D> intervals = new System.Collections.Generic.List <com.esri.core.geometry.Envelope1D>(0); com.esri.core.geometry.Envelope1D env0 = new com.esri.core.geometry.Envelope1D(2, 3); com.esri.core.geometry.Envelope1D env1 = new com.esri.core.geometry.Envelope1D(5, 13); com.esri.core.geometry.Envelope1D env2 = new com.esri.core.geometry.Envelope1D(6, 9); com.esri.core.geometry.Envelope1D env3 = new com.esri.core.geometry.Envelope1D(8, 10); com.esri.core.geometry.Envelope1D env4 = new com.esri.core.geometry.Envelope1D(11 , 12); com.esri.core.geometry.Envelope1D env5 = new com.esri.core.geometry.Envelope1D(1, 3); com.esri.core.geometry.Envelope1D env6 = new com.esri.core.geometry.Envelope1D(0, 2); com.esri.core.geometry.Envelope1D env7 = new com.esri.core.geometry.Envelope1D(4, 7); com.esri.core.geometry.Envelope1D env8; intervals.add(env0); intervals.add(env1); intervals.add(env2); intervals.add(env3); intervals.add(env4); intervals.add(env5); intervals.add(env6); intervals.add(env7); int counter; com.esri.core.geometry.IntervalTreeImpl intervalTree = new com.esri.core.geometry.IntervalTreeImpl (false); construct(intervalTree, intervals); com.esri.core.geometry.IntervalTreeImpl.IntervalTreeIteratorImpl iterator = intervalTree .getIterator(new com.esri.core.geometry.Envelope1D(-1, 14), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 8); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(2.5, 10.5), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 6); iterator.resetIterator(5.0, 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 2); iterator.resetIterator(7, 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 3); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(2.0, 10.5), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 7); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(2.5, 11), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 7); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(2.1, 2.5), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 2); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(2.1, 5), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 4); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(2.0, 5), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 5); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(5.0, 11), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 5); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(8, 10.5), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 3); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(10, 11), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 3); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(10, 10.9), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 2); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(11.5, 12), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 2); env0 = new com.esri.core.geometry.Envelope1D(0, 4); env1 = new com.esri.core.geometry.Envelope1D(6, 7); env2 = new com.esri.core.geometry.Envelope1D(9, 10); env3 = new com.esri.core.geometry.Envelope1D(9, 11); env4 = new com.esri.core.geometry.Envelope1D(7, 12); env5 = new com.esri.core.geometry.Envelope1D(13, 15); env6 = new com.esri.core.geometry.Envelope1D(1, 6); env7 = new com.esri.core.geometry.Envelope1D(3, 3); env8 = new com.esri.core.geometry.Envelope1D(8, 8); intervals.clear(); intervals.add(env0); intervals.add(env1); intervals.add(env2); intervals.add(env3); intervals.add(env4); intervals.add(env5); intervals.add(env6); intervals.add(env7); intervals.add(env8); com.esri.core.geometry.IntervalTreeImpl intervalTree2 = new com.esri.core.geometry.IntervalTreeImpl (true); construct(intervalTree2, intervals); intervalTree2.insert(0); intervalTree2.insert(1); intervalTree2.insert(2); intervalTree2.insert(3); intervalTree2.insert(4); intervalTree2.insert(5); intervalTree2.insert(6); intervalTree2.insert(7); intervalTree2.insert(8); iterator = intervalTree2.getIterator(new com.esri.core.geometry.Envelope1D(8, 8), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 2); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(3, 7), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 5); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(1, 3), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 3); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(6, 9), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 6); iterator.resetIterator(new com.esri.core.geometry.Envelope1D(10, 14), 0.0); counter = 0; while (iterator.next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 4); env0 = new com.esri.core.geometry.Envelope1D(11, 14); env1 = new com.esri.core.geometry.Envelope1D(21, 36); env2 = new com.esri.core.geometry.Envelope1D(15, 19); env3 = new com.esri.core.geometry.Envelope1D(3, 8); env4 = new com.esri.core.geometry.Envelope1D(34, 38); env5 = new com.esri.core.geometry.Envelope1D(23, 27); env6 = new com.esri.core.geometry.Envelope1D(6, 36); intervals.clear(); intervals.add(env0); intervals.add(env1); intervals.add(env2); intervals.add(env3); intervals.add(env4); intervals.add(env5); intervals.add(env6); com.esri.core.geometry.IntervalTreeImpl intervalTree3 = new com.esri.core.geometry.IntervalTreeImpl (false); construct(intervalTree3, intervals); iterator = intervalTree3.getIterator(new com.esri.core.geometry.Envelope1D(50, 50 ), 0.0); System.Diagnostics.Debug.Assert((iterator.next() == -1)); }
public static void TestIntervalTree_1() { System.Collections.Generic.List<com.esri.core.geometry.Envelope1D> intervals = new System.Collections.Generic.List<com.esri.core.geometry.Envelope1D>(0); com.esri.core.geometry.Envelope1D env0 = new com.esri.core.geometry.Envelope1D(2, 3); com.esri.core.geometry.Envelope1D env1 = new com.esri.core.geometry.Envelope1D(5, 13); com.esri.core.geometry.Envelope1D env2 = new com.esri.core.geometry.Envelope1D(6, 9); com.esri.core.geometry.Envelope1D env3 = new com.esri.core.geometry.Envelope1D(8, 10); com.esri.core.geometry.Envelope1D env4 = new com.esri.core.geometry.Envelope1D(11, 12); com.esri.core.geometry.Envelope1D env5 = new com.esri.core.geometry.Envelope1D(1, 3); com.esri.core.geometry.Envelope1D env6 = new com.esri.core.geometry.Envelope1D(0, 2); com.esri.core.geometry.Envelope1D env7 = new com.esri.core.geometry.Envelope1D(4, 7); com.esri.core.geometry.Envelope1D env8; intervals.Add(env0); intervals.Add(env1); intervals.Add(env2); intervals.Add(env3); intervals.Add(env4); intervals.Add(env5); intervals.Add(env6); intervals.Add(env7); int counter; com.esri.core.geometry.IntervalTreeImpl intervalTree = new com.esri.core.geometry.IntervalTreeImpl(false); Construct(intervalTree, intervals); com.esri.core.geometry.IntervalTreeImpl.IntervalTreeIteratorImpl iterator = intervalTree.GetIterator(new com.esri.core.geometry.Envelope1D(-1, 14), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 8); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(2.5, 10.5), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 6); iterator.ResetIterator(5.0, 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 2); iterator.ResetIterator(7, 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 3); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(2.0, 10.5), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 7); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(2.5, 11), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 7); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(2.1, 2.5), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 2); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(2.1, 5), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 4); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(2.0, 5), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 5); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(5.0, 11), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 5); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(8, 10.5), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 3); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(10, 11), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 3); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(10, 10.9), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 2); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(11.5, 12), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 2); env0 = new com.esri.core.geometry.Envelope1D(0, 4); env1 = new com.esri.core.geometry.Envelope1D(6, 7); env2 = new com.esri.core.geometry.Envelope1D(9, 10); env3 = new com.esri.core.geometry.Envelope1D(9, 11); env4 = new com.esri.core.geometry.Envelope1D(7, 12); env5 = new com.esri.core.geometry.Envelope1D(13, 15); env6 = new com.esri.core.geometry.Envelope1D(1, 6); env7 = new com.esri.core.geometry.Envelope1D(3, 3); env8 = new com.esri.core.geometry.Envelope1D(8, 8); intervals.Clear(); intervals.Add(env0); intervals.Add(env1); intervals.Add(env2); intervals.Add(env3); intervals.Add(env4); intervals.Add(env5); intervals.Add(env6); intervals.Add(env7); intervals.Add(env8); com.esri.core.geometry.IntervalTreeImpl intervalTree2 = new com.esri.core.geometry.IntervalTreeImpl(true); Construct(intervalTree2, intervals); intervalTree2.Insert(0); intervalTree2.Insert(1); intervalTree2.Insert(2); intervalTree2.Insert(3); intervalTree2.Insert(4); intervalTree2.Insert(5); intervalTree2.Insert(6); intervalTree2.Insert(7); intervalTree2.Insert(8); iterator = intervalTree2.GetIterator(new com.esri.core.geometry.Envelope1D(8, 8), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 2); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(3, 7), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 5); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(1, 3), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 3); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(6, 9), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 6); iterator.ResetIterator(new com.esri.core.geometry.Envelope1D(10, 14), 0.0); counter = 0; while (iterator.Next() != -1) { counter++; } NUnit.Framework.Assert.IsTrue(counter == 4); env0 = new com.esri.core.geometry.Envelope1D(11, 14); env1 = new com.esri.core.geometry.Envelope1D(21, 36); env2 = new com.esri.core.geometry.Envelope1D(15, 19); env3 = new com.esri.core.geometry.Envelope1D(3, 8); env4 = new com.esri.core.geometry.Envelope1D(34, 38); env5 = new com.esri.core.geometry.Envelope1D(23, 27); env6 = new com.esri.core.geometry.Envelope1D(6, 36); intervals.Clear(); intervals.Add(env0); intervals.Add(env1); intervals.Add(env2); intervals.Add(env3); intervals.Add(env4); intervals.Add(env5); intervals.Add(env6); com.esri.core.geometry.IntervalTreeImpl intervalTree3 = new com.esri.core.geometry.IntervalTreeImpl(false); Construct(intervalTree3, intervals); iterator = intervalTree3.GetIterator(new com.esri.core.geometry.Envelope1D(50, 50), 0.0); System.Diagnostics.Debug.Assert((iterator.Next() == -1)); }
public static void testIntervalTreeRandomConstruction() { int pointcount = 0; int passcount = 1000; int figureSize = 50; com.esri.core.geometry.Envelope env = new com.esri.core.geometry.Envelope(); env.setCoords(-10000, -10000, 10000, 10000); com.esri.core.geometry.RandomCoordinateGenerator generator = new com.esri.core.geometry.RandomCoordinateGenerator (System.Math.max(figureSize, 10000), env, 0.001); java.util.Random random = new java.util.Random(2013); int rand_max = 98765; System.Collections.Generic.List <com.esri.core.geometry.Envelope1D> intervals = new System.Collections.Generic.List <com.esri.core.geometry.Envelope1D>(); com.esri.core.geometry.AttributeStreamOfInt8 intervalsFound = new com.esri.core.geometry.AttributeStreamOfInt8 (0); for (int i = 0; i < passcount; i++) { int r = figureSize; if (r < 3) { continue; } com.esri.core.geometry.Polygon poly = new com.esri.core.geometry.Polygon(); com.esri.core.geometry.Point pt; for (int j = 0; j < r; j++) { int rand = random.nextInt(rand_max); bool bRandomNew = (r > 10) && ((1.0 * rand) / rand_max > 0.95); pt = generator.GetRandomCoord(); if (j == 0 || bRandomNew) { poly.startPath(pt); } else { poly.lineTo(pt); } } { intervals.clear(); com.esri.core.geometry.SegmentIterator seg_iter = poly.querySegmentIterator(); com.esri.core.geometry.Envelope1D interval; com.esri.core.geometry.Envelope1D range = poly.queryInterval(com.esri.core.geometry.VertexDescription.Semantics .POSITION, 0); range.vmin -= 0.01; range.vmax += 0.01; while (seg_iter.nextPath()) { while (seg_iter.hasNextSegment()) { com.esri.core.geometry.Segment segment = seg_iter.nextSegment(); interval = segment.queryInterval(com.esri.core.geometry.VertexDescription.Semantics .POSITION, 0); intervals.add(interval); } } intervalsFound.resize(intervals.Count, 0); // Just test construction for assertions com.esri.core.geometry.IntervalTreeImpl intervalTree = new com.esri.core.geometry.IntervalTreeImpl (true); construct(intervalTree, intervals); for (int j_1 = 0; j_1 < intervals.Count; j_1++) { intervalTree.insert(j_1); } com.esri.core.geometry.IntervalTreeImpl.IntervalTreeIteratorImpl iterator = intervalTree .getIterator(range, 0.0); int count = 0; int handle; while ((handle = iterator.next()) != -1) { count++; intervalsFound.write(handle, unchecked ((byte)1)); } NUnit.Framework.Assert.IsTrue(count == intervals.Count); for (int j_2 = 0; j_2 < intervalsFound.size(); j_2++) { interval = intervals[j_2]; NUnit.Framework.Assert.IsTrue(intervalsFound.read(j_2) == 1); } for (int j_3 = 0; j_3 < intervals.Count >> 1; j_3++) { intervalTree.remove(j_3); } iterator.resetIterator(range, 0.0); count = 0; while ((handle = iterator.next()) != -1) { count++; intervalsFound.write(handle, unchecked ((byte)1)); } NUnit.Framework.Assert.IsTrue(count == intervals.Count - (intervals.Count >> 1)); for (int j_4 = (intervals.Count >> 1); j_4 < intervals.Count; j_4++) { intervalTree.remove(j_4); } } } }