EmbeddedTreeLineSubsetTest.java
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* this work for additional information regarding copyright ownership.
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* https://www.apache.org/licenses/LICENSE-2.0
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package org.apache.commons.geometry.euclidean.twod;
import java.util.List;
import org.apache.commons.geometry.core.GeometryTestUtils;
import org.apache.commons.geometry.core.RegionLocation;
import org.apache.commons.geometry.core.partitioning.Split;
import org.apache.commons.geometry.core.partitioning.SplitLocation;
import org.apache.commons.geometry.euclidean.EuclideanTestUtils;
import org.apache.commons.geometry.euclidean.oned.Interval;
import org.apache.commons.geometry.euclidean.oned.RegionBSPTree1D;
import org.apache.commons.numbers.angle.Angle;
import org.apache.commons.numbers.core.Precision;
import org.junit.jupiter.api.Assertions;
import org.junit.jupiter.api.Test;
class EmbeddedTreeLineSubsetTest {
private static final double TEST_EPS = 1e-10;
private static final Precision.DoubleEquivalence TEST_PRECISION =
Precision.doubleEquivalenceOfEpsilon(TEST_EPS);
private static final Line DEFAULT_TEST_LINE =
Lines.fromPointAndDirection(Vector2D.of(0, 1), Vector2D.Unit.PLUS_X, TEST_PRECISION);
@Test
void testCtor_lineOnly() {
// act
final EmbeddedTreeLineSubset sub = new EmbeddedTreeLineSubset(DEFAULT_TEST_LINE);
// assert
Assertions.assertSame(DEFAULT_TEST_LINE, sub.getLine());
Assertions.assertSame(TEST_PRECISION, sub.getPrecision());
Assertions.assertFalse(sub.isFull());
Assertions.assertTrue(sub.isEmpty());
Assertions.assertFalse(sub.isInfinite());
Assertions.assertTrue(sub.isFinite());
Assertions.assertEquals(0, sub.getSize(), TEST_EPS);
Assertions.assertNull(sub.getCentroid());
}
@Test
void testCtor_lineAndBoolean() {
// act
final EmbeddedTreeLineSubset sub = new EmbeddedTreeLineSubset(DEFAULT_TEST_LINE, true);
// assert
Assertions.assertSame(DEFAULT_TEST_LINE, sub.getLine());
Assertions.assertSame(TEST_PRECISION, sub.getPrecision());
Assertions.assertTrue(sub.isFull());
Assertions.assertFalse(sub.isEmpty());
Assertions.assertTrue(sub.isInfinite());
Assertions.assertFalse(sub.isFinite());
GeometryTestUtils.assertPositiveInfinity(sub.getSize());
Assertions.assertNull(sub.getCentroid());
}
@Test
void testCtor_lineAndRegion() {
// arrange
final RegionBSPTree1D tree = RegionBSPTree1D.full();
// act
final EmbeddedTreeLineSubset sub = new EmbeddedTreeLineSubset(DEFAULT_TEST_LINE, tree);
// assert
Assertions.assertSame(DEFAULT_TEST_LINE, sub.getLine());
Assertions.assertSame(tree, sub.getSubspaceRegion());
Assertions.assertSame(TEST_PRECISION, sub.getPrecision());
Assertions.assertTrue(sub.isFull());
Assertions.assertFalse(sub.isEmpty());
Assertions.assertTrue(sub.isInfinite());
Assertions.assertFalse(sub.isFinite());
GeometryTestUtils.assertPositiveInfinity(sub.getSize());
Assertions.assertNull(sub.getCentroid());
}
@Test
void testToConvex_full() {
// arrange
final EmbeddedTreeLineSubset sub = new EmbeddedTreeLineSubset(DEFAULT_TEST_LINE, true);
// act
final List<LineConvexSubset> segments = sub.toConvex();
// assert
Assertions.assertEquals(1, segments.size());
final LineConvexSubset seg = segments.get(0);
Assertions.assertTrue(seg.isFull());
}
@Test
void testToConvex_empty() {
// arrange
final EmbeddedTreeLineSubset sub = new EmbeddedTreeLineSubset(DEFAULT_TEST_LINE, false);
// act
final List<LineConvexSubset> segments = sub.toConvex();
// assert
Assertions.assertEquals(0, segments.size());
}
@Test
void testToConvex_finiteAndInfiniteSegments() {
// arrange
final EmbeddedTreeLineSubset sub = new EmbeddedTreeLineSubset(DEFAULT_TEST_LINE, false);
final RegionBSPTree1D tree = sub.getSubspaceRegion();
tree.add(Interval.max(-2.0, TEST_PRECISION));
tree.add(Interval.of(-1, 2, TEST_PRECISION));
// act
final List<LineConvexSubset> segments = sub.toConvex();
// assert
Assertions.assertEquals(2, segments.size());
Assertions.assertNull(segments.get(0).getStartPoint());
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(-2, 1), segments.get(0).getEndPoint(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(-1, 1), segments.get(1).getStartPoint(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(2, 1), segments.get(1).getEndPoint(), TEST_EPS);
}
@Test
void testAdd_lineSegment() {
// arrange
final Line line = Lines.fromPointAndAngle(Vector2D.of(0, 1), 0.0, TEST_PRECISION);
final Line otherLine = Lines.fromPointAndAngle(Vector2D.of(0, 1), 1e-11, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line);
// act
subset.add(Lines.subsetFromInterval(line, 2, 4));
subset.add(Lines.subsetFromInterval(otherLine, 1, 3));
subset.add(Lines.segmentFromPoints(Vector2D.of(-3, 1), Vector2D.of(-1, 1), TEST_PRECISION));
// assert
Assertions.assertFalse(subset.isFull());
Assertions.assertFalse(subset.isEmpty());
final List<LineConvexSubset> segments = subset.toConvex();
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(-3, 1), segments.get(0).getStartPoint(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(-1, 1), segments.get(0).getEndPoint(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(1, 1), segments.get(1).getStartPoint(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(4, 1), segments.get(1).getEndPoint(), TEST_EPS);
Assertions.assertEquals(5, subset.getSize(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(0.7, 1), subset.getCentroid(), TEST_EPS);
}
@Test
void testAdd_subset() {
// arrange
final Line line = Lines.fromPointAndAngle(Vector2D.of(0, 1), 0.0, TEST_PRECISION);
final EmbeddedTreeLineSubset a = new EmbeddedTreeLineSubset(line);
final RegionBSPTree1D aTree = a.getSubspaceRegion();
aTree.add(Interval.max(-3, TEST_PRECISION));
aTree.add(Interval.of(1, 2, TEST_PRECISION));
final EmbeddedTreeLineSubset b = new EmbeddedTreeLineSubset(line);
final RegionBSPTree1D bTree = b.getSubspaceRegion();
bTree.add(Interval.of(2, 4, TEST_PRECISION));
bTree.add(Interval.of(-4, -2, TEST_PRECISION));
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line);
final int aTreeCount = aTree.count();
final int bTreeCount = bTree.count();
// act
subset.add(a);
subset.add(b);
// assert
Assertions.assertFalse(subset.isFull());
Assertions.assertFalse(subset.isEmpty());
final List<LineConvexSubset> segments = subset.toConvex();
Assertions.assertEquals(2, segments.size());
Assertions.assertNull(segments.get(0).getStartPoint());
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(-2, 1), segments.get(0).getEndPoint(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(1, 1), segments.get(1).getStartPoint(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(4, 1), segments.get(1).getEndPoint(), TEST_EPS);
Assertions.assertEquals(aTreeCount, aTree.count());
Assertions.assertEquals(bTreeCount, bTree.count());
GeometryTestUtils.assertPositiveInfinity(subset.getSize());
Assertions.assertNull(subset.getCentroid());
}
@Test
void testAdd_argumentsFromDifferentLine() {
// arrange
final Line line = Lines.fromPointAndAngle(Vector2D.of(0, 1), 0.0, TEST_PRECISION);
final Line otherLine = Lines.fromPointAndAngle(Vector2D.of(0, 1), 1e-2, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line);
// act/assert
Assertions.assertThrows(IllegalArgumentException.class, () -> subset.add(Lines.subsetFromInterval(otherLine, 0, 1)));
Assertions.assertThrows(IllegalArgumentException.class, () -> subset.add(new EmbeddedTreeLineSubset(otherLine)));
}
@Test
void testGetBounds_noBounds() {
// arrange
final Line line = Lines.fromPointAndAngle(Vector2D.of(1, 0), 0.25 * Math.PI, TEST_PRECISION);
final EmbeddedTreeLineSubset full = new EmbeddedTreeLineSubset(line, RegionBSPTree1D.full());
final EmbeddedTreeLineSubset empty = new EmbeddedTreeLineSubset(line, RegionBSPTree1D.empty());
final EmbeddedTreeLineSubset halfFull = new EmbeddedTreeLineSubset(line, Interval.min(1.0, TEST_PRECISION).toTree());
// act/assert
Assertions.assertNull(full.getBounds());
Assertions.assertNull(empty.getBounds());
Assertions.assertNull(halfFull.getBounds());
}
@Test
void testGetBounds_hasBounds() {
// arrange
final Line line = Lines.fromPoints(Vector2D.ZERO, Vector2D.of(1, 1), TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line, false);
final double sqrt2 = Math.sqrt(2);
subset.getSubspaceRegion().add(Interval.of(-2 * sqrt2, -sqrt2, TEST_PRECISION));
subset.getSubspaceRegion().add(Interval.of(0, sqrt2, TEST_PRECISION));
// act
final Bounds2D bounds = subset.getBounds();
// assert
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(-2, -2), bounds.getMin(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(1, 1), bounds.getMax(), TEST_EPS);
}
@Test
void testSplit_both_anglePositive() {
// arrange
final RegionBSPTree1D subRegion = RegionBSPTree1D.empty();
subRegion.add(Interval.of(0, 2, TEST_PRECISION));
subRegion.add(Interval.of(3, 4, TEST_PRECISION));
final Line line = Lines.fromPointAndAngle(Vector2D.ZERO, 0.0, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line, subRegion);
final Line splitter = Lines.fromPointAndAngle(Vector2D.of(1, 0), 0.1 * Math.PI, TEST_PRECISION);
// act
final Split<EmbeddedTreeLineSubset> split = subset.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.BOTH, split.getLocation());
final List<LineConvexSubset> minusSegments = split.getMinus().toConvex();
Assertions.assertEquals(1, minusSegments.size());
checkFiniteSegment(minusSegments.get(0), Vector2D.ZERO, Vector2D.of(1, 0));
final List<LineConvexSubset> plusSegments = split.getPlus().toConvex();
Assertions.assertEquals(2, plusSegments.size());
checkFiniteSegment(plusSegments.get(0), Vector2D.of(1, 0), Vector2D.of(2, 0));
checkFiniteSegment(plusSegments.get(1), Vector2D.of(3, 0), Vector2D.of(4, 0));
}
@Test
void testSplit_both_angleNegative() {
// arrange
final RegionBSPTree1D subRegion = RegionBSPTree1D.empty();
subRegion.add(Interval.of(0, 2, TEST_PRECISION));
subRegion.add(Interval.of(3, 4, TEST_PRECISION));
final Line line = Lines.fromPointAndAngle(Vector2D.ZERO, 0.0, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line, subRegion);
final Line splitter = Lines.fromPointAndAngle(Vector2D.of(1, 0), -0.9 * Math.PI, TEST_PRECISION);
// act
final Split<EmbeddedTreeLineSubset> split = subset.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.BOTH, split.getLocation());
final List<LineConvexSubset> minusSegments = split.getMinus().toConvex();
Assertions.assertEquals(2, minusSegments.size());
checkFiniteSegment(minusSegments.get(0), Vector2D.of(1, 0), Vector2D.of(2, 0));
checkFiniteSegment(minusSegments.get(1), Vector2D.of(3, 0), Vector2D.of(4, 0));
final List<LineConvexSubset> plusSegments = split.getPlus().toConvex();
Assertions.assertEquals(1, plusSegments.size());
checkFiniteSegment(plusSegments.get(0), Vector2D.ZERO, Vector2D.of(1, 0));
}
@Test
void testSplit_intersection_plusOnly() {
// arrange
final RegionBSPTree1D subRegion = RegionBSPTree1D.empty();
subRegion.add(Interval.of(0, 2, TEST_PRECISION));
subRegion.add(Interval.of(3, 4, TEST_PRECISION));
final Line line = Lines.fromPointAndAngle(Vector2D.ZERO, 0.0, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line, subRegion);
final Line splitter = Lines.fromPointAndAngle(Vector2D.of(-1, 0), 0.1 * Math.PI, TEST_PRECISION);
// act
final Split<EmbeddedTreeLineSubset> split = subset.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.PLUS, split.getLocation());
Assertions.assertNull(split.getMinus());
Assertions.assertSame(subset, split.getPlus());
}
@Test
void testSplit_intersection_minusOnly() {
// arrange
final RegionBSPTree1D subRegion = RegionBSPTree1D.empty();
subRegion.add(Interval.of(0, 2, TEST_PRECISION));
subRegion.add(Interval.of(3, 4, TEST_PRECISION));
final Line line = Lines.fromPointAndAngle(Vector2D.ZERO, 0.0, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line, subRegion);
final Line splitter = Lines.fromPointAndAngle(Vector2D.of(10, 0), 0.1 * Math.PI, TEST_PRECISION);
// act
final Split<EmbeddedTreeLineSubset> split = subset.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.MINUS, split.getLocation());
Assertions.assertSame(subset, split.getMinus());
Assertions.assertNull(split.getPlus());
}
@Test
void testSplit_parallel_plus() {
// arrange
final RegionBSPTree1D subRegion = RegionBSPTree1D.empty();
subRegion.add(Interval.of(0, 2, TEST_PRECISION));
subRegion.add(Interval.of(3, 4, TEST_PRECISION));
final Line line = Lines.fromPointAndAngle(Vector2D.ZERO, 0.0, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line, subRegion);
final Line splitter = Lines.fromPointAndAngle(Vector2D.of(0, 1), 0.0, TEST_PRECISION);
// act
final Split<EmbeddedTreeLineSubset> split = subset.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.PLUS, split.getLocation());
Assertions.assertNull(split.getMinus());
Assertions.assertSame(subset, split.getPlus());
}
@Test
void testSplit_parallel_minus() {
// arrange
final RegionBSPTree1D subRegion = RegionBSPTree1D.empty();
subRegion.add(Interval.of(0, 2, TEST_PRECISION));
subRegion.add(Interval.of(3, 4, TEST_PRECISION));
final Line line = Lines.fromPointAndAngle(Vector2D.ZERO, 0.0, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line, subRegion);
final Line splitter = Lines.fromPointAndAngle(Vector2D.of(0, -1), 0.0, TEST_PRECISION);
// act
final Split<EmbeddedTreeLineSubset> split = subset.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.MINUS, split.getLocation());
Assertions.assertSame(subset, split.getMinus());
Assertions.assertNull(split.getPlus());
}
@Test
void testSplit_coincident_sameDirection() {
// arrange
final RegionBSPTree1D subRegion = RegionBSPTree1D.empty();
subRegion.add(Interval.of(0, 2, TEST_PRECISION));
subRegion.add(Interval.of(3, 4, TEST_PRECISION));
final Line line = Lines.fromPointAndAngle(Vector2D.ZERO, 0.0, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line, subRegion);
final Line splitter = Lines.fromPointAndAngle(Vector2D.ZERO, 0.0, TEST_PRECISION);
// act
final Split<EmbeddedTreeLineSubset> split = subset.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.NEITHER, split.getLocation());
Assertions.assertNull(split.getMinus());
Assertions.assertNull(split.getPlus());
}
@Test
void testSplit_coincident_oppositeDirection() {
// arrange
final RegionBSPTree1D subRegion = RegionBSPTree1D.empty();
subRegion.add(Interval.of(0, 2, TEST_PRECISION));
subRegion.add(Interval.of(3, 4, TEST_PRECISION));
final Line line = Lines.fromPointAndAngle(Vector2D.ZERO, 0.0, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line, subRegion);
final Line splitter = Lines.fromPointAndAngle(Vector2D.ZERO, Math.PI, TEST_PRECISION);
// act
final Split<EmbeddedTreeLineSubset> split = subset.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.NEITHER, split.getLocation());
Assertions.assertNull(split.getMinus());
Assertions.assertNull(split.getPlus());
}
@Test
void testTransform() {
// arrange
final AffineTransformMatrix2D mat = AffineTransformMatrix2D
.createRotation(Vector2D.of(0, 1), Angle.PI_OVER_TWO)
.scale(Vector2D.of(3, 2));
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(Lines.fromPointAndAngle(Vector2D.ZERO, 0.0, TEST_PRECISION));
subset.getSubspaceRegion().add(Interval.of(0, 1, TEST_PRECISION));
subset.getSubspaceRegion().add(Interval.min(3, TEST_PRECISION));
// act
final EmbeddedTreeLineSubset transformed = subset.transform(mat);
// assert
Assertions.assertNotSame(subset, transformed);
final List<LineConvexSubset> originalSegments = subset.toConvex();
Assertions.assertEquals(2, originalSegments.size());
checkFiniteSegment(originalSegments.get(0), Vector2D.ZERO, Vector2D.Unit.PLUS_X);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(3, 0), originalSegments.get(1).getStartPoint(), TEST_EPS);
Assertions.assertNull(originalSegments.get(1).getEndPoint());
final List<LineConvexSubset> transformedSegments = transformed.toConvex();
Assertions.assertEquals(2, transformedSegments.size());
checkFiniteSegment(transformedSegments.get(0), Vector2D.of(3, 2), Vector2D.of(3, 4));
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(3, 8), transformedSegments.get(1).getStartPoint(), TEST_EPS);
Assertions.assertNull(transformedSegments.get(1).getEndPoint());
}
@Test
void testTransform_reflection() {
// arrange
final AffineTransformMatrix2D mat = AffineTransformMatrix2D.createScale(Vector2D.of(-1, 2));
final EmbeddedTreeLineSubset subset =
new EmbeddedTreeLineSubset(Lines.fromPointAndAngle(Vector2D.of(0, 1), 0.0, TEST_PRECISION));
subset.getSubspaceRegion().add(Interval.of(0, 1, TEST_PRECISION));
// act
final EmbeddedTreeLineSubset transformed = subset.transform(mat);
// assert
Assertions.assertNotSame(subset, transformed);
final List<LineConvexSubset> originalSegments = subset.toConvex();
Assertions.assertEquals(1, originalSegments.size());
checkFiniteSegment(originalSegments.get(0), Vector2D.of(0, 1), Vector2D.of(1, 1));
final List<LineConvexSubset> transformedSegments = transformed.toConvex();
Assertions.assertEquals(1, transformedSegments.size());
checkFiniteSegment(transformedSegments.get(0), Vector2D.of(0, 2), Vector2D.of(-1, 2));
}
@Test
void testClosest() {
// arrange
final RegionBSPTree1D subRegion = RegionBSPTree1D.empty();
subRegion.add(Interval.of(0, 2, TEST_PRECISION));
subRegion.add(Interval.of(3, 4, TEST_PRECISION));
final Line line = Lines.fromPointAndAngle(Vector2D.of(0, 2), 0.0, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line, subRegion);
// act/assert
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(0, 2), subset.closest(Vector2D.of(0, 1)), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(0, 2), subset.closest(Vector2D.of(0, 3)), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(1, 2), subset.closest(Vector2D.of(1, 1)), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(1, 2), subset.closest(Vector2D.of(1, 3)), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(2, 2), subset.closest(Vector2D.of(2, 1)), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(2, 2), subset.closest(Vector2D.of(2, 3)), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(2, 2), subset.closest(Vector2D.of(2.4, 1)), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(2, 2), subset.closest(Vector2D.of(2.4, 3)), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(3, 2), subset.closest(Vector2D.of(2.6, 1)), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(3, 2), subset.closest(Vector2D.of(2.6, 3)), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(4, 2), subset.closest(Vector2D.of(5, 1)), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(4, 2), subset.closest(Vector2D.of(5, 3)), TEST_EPS);
}
@Test
void testClosest_empty() {
// arrange
final Line line = Lines.fromPointAndAngle(Vector2D.ZERO, 0.0, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line, RegionBSPTree1D.empty());
// act/assert
Assertions.assertNull(subset.closest(Vector2D.ZERO));
}
@Test
void testClassify() {
// arrange
final RegionBSPTree1D subRegion = RegionBSPTree1D.empty();
subRegion.add(Interval.of(0, 2, TEST_PRECISION));
subRegion.add(Interval.of(3, 4, TEST_PRECISION));
final Line line = Lines.fromPointAndAngle(Vector2D.of(0, 2), 0.0, TEST_PRECISION);
final EmbeddedTreeLineSubset subset = new EmbeddedTreeLineSubset(line, subRegion);
// act/assert
EuclideanTestUtils.assertRegionLocation(subset, RegionLocation.INSIDE,
Vector2D.of(1, 2), Vector2D.of(3.5, 2));
EuclideanTestUtils.assertRegionLocation(subset, RegionLocation.BOUNDARY,
Vector2D.of(0, 2), Vector2D.of(2, 2), Vector2D.of(3, 2), Vector2D.of(4, 2));
EuclideanTestUtils.assertRegionLocation(subset, RegionLocation.OUTSIDE,
Vector2D.of(-1, 2), Vector2D.of(2.5, 2), Vector2D.of(5, 2),
Vector2D.of(1, 3), Vector2D.of(3.5, 1));
}
@Test
void testToString() {
// arrange
final EmbeddedTreeLineSubset sub = new EmbeddedTreeLineSubset(DEFAULT_TEST_LINE);
// act
final String str = sub.toString();
// assert
Assertions.assertTrue(str.contains("EmbeddedTreeLineSubset[lineOrigin= "));
Assertions.assertTrue(str.contains(", lineDirection= "));
Assertions.assertTrue(str.contains(", region= "));
}
private static void checkFiniteSegment(final LineConvexSubset segment, final Vector2D start, final Vector2D end) {
Assertions.assertFalse(segment.isInfinite());
EuclideanTestUtils.assertCoordinatesEqual(start, segment.getStartPoint(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(end, segment.getEndPoint(), TEST_EPS);
}
}