EmbeddedTreePlaneSubsetTest.java
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* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
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* https://www.apache.org/licenses/LICENSE-2.0
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package org.apache.commons.geometry.euclidean.threed;
import java.util.Arrays;
import java.util.List;
import java.util.regex.Pattern;
import org.apache.commons.geometry.core.GeometryTestUtils;
import org.apache.commons.geometry.core.RegionLocation;
import org.apache.commons.geometry.core.Transform;
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.threed.rotation.QuaternionRotation;
import org.apache.commons.geometry.euclidean.twod.ConvexArea;
import org.apache.commons.geometry.euclidean.twod.Lines;
import org.apache.commons.geometry.euclidean.twod.RegionBSPTree2D;
import org.apache.commons.geometry.euclidean.twod.Vector2D;
import org.apache.commons.geometry.euclidean.twod.shape.Parallelogram;
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 EmbeddedTreePlaneSubsetTest {
private static final double TEST_EPS = 1e-10;
private static final Precision.DoubleEquivalence TEST_PRECISION =
Precision.doubleEquivalenceOfEpsilon(TEST_EPS);
private static final EmbeddingPlane XY_PLANE = Planes.fromPointAndPlaneVectors(Vector3D.ZERO,
Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Y, TEST_PRECISION);
@Test
void testCtor_plane() {
// act
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE);
// assert
Assertions.assertFalse(ps.isFull());
Assertions.assertTrue(ps.isEmpty());
Assertions.assertEquals(0, ps.getSize(), TEST_EPS);
}
@Test
void testCtor_plane_booleanFalse() {
// act
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
// assert
Assertions.assertFalse(ps.isFull());
Assertions.assertTrue(ps.isEmpty());
Assertions.assertEquals(0, ps.getSize(), TEST_EPS);
}
@Test
void testCtor_plane_booleanTrue() {
// act
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, true);
// assert
Assertions.assertTrue(ps.isFull());
Assertions.assertFalse(ps.isEmpty());
GeometryTestUtils.assertPositiveInfinity(ps.getSize());
}
@Test
void testSpaceConversion() {
// arrange
final EmbeddingPlane plane = Planes.fromPointAndPlaneVectors(Vector3D.of(1, 0, 0),
Vector3D.Unit.PLUS_Y, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(plane, true);
// act/assert
EuclideanTestUtils.assertCoordinatesEqual(Vector2D.of(1, 2), ps.toSubspace(Vector3D.of(-5, 1, 2)), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(1, -2, 4), ps.toSpace(Vector2D.of(-2, 4)), TEST_EPS);
}
@Test
void testToConvex_full() {
// act
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, true);
// act
final List<PlaneConvexSubset> convex = ps.toConvex();
// assert
Assertions.assertEquals(1, convex.size());
Assertions.assertTrue(convex.get(0).isFull());
}
@Test
void testToConvex_empty() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
// act
final List<PlaneConvexSubset> convex = ps.toConvex();
// assert
Assertions.assertEquals(0, convex.size());
}
@Test
void testToConvex_nonConvexRegion() {
// act
final ConvexArea a = ConvexArea.convexPolygonFromVertices(Arrays.asList(
Vector2D.of(0, 0), Vector2D.of(1, 0),
Vector2D.of(1, 1), Vector2D.of(0, 1)
), TEST_PRECISION);
final ConvexArea b = ConvexArea.convexPolygonFromVertices(Arrays.asList(
Vector2D.of(1, 0), Vector2D.of(2, 0),
Vector2D.of(2, 1), Vector2D.of(1, 1)
), TEST_PRECISION);
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
ps.add(Planes.subsetFromConvexArea(XY_PLANE, a));
ps.add(Planes.subsetFromConvexArea(XY_PLANE, b));
// act
final List<PlaneConvexSubset> convex = ps.toConvex();
// assert
Assertions.assertEquals(2, convex.size());
Assertions.assertEquals(1, convex.get(0).getSize(), TEST_EPS);
Assertions.assertEquals(1, convex.get(1).getSize(), TEST_EPS);
}
@Test
void testToTriangles_empty() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
// act
final List<Triangle3D> tris = ps.toTriangles();
// assert
Assertions.assertEquals(0, tris.size());
}
@Test
void testToTriangles_infinite() {
// arrange
final Pattern pattern = Pattern.compile("^Cannot convert infinite plane subset to triangles: .*");
// act/assert
GeometryTestUtils.assertThrowsWithMessage(() -> {
new EmbeddedTreePlaneSubset(XY_PLANE, true).toTriangles();
}, IllegalStateException.class, pattern);
GeometryTestUtils.assertThrowsWithMessage(() -> {
final EmbeddedTreePlaneSubset halfSpace = new EmbeddedTreePlaneSubset(XY_PLANE, false);
halfSpace.getSubspaceRegion().getRoot()
.insertCut(Lines.fromPointAndAngle(Vector2D.ZERO, 0, TEST_PRECISION));
halfSpace.toTriangles();
}, IllegalStateException.class, pattern);
GeometryTestUtils.assertThrowsWithMessage(() -> {
final RegionBSPTree2D tree = RegionBSPTree2D.empty();
tree.insert(Lines.segmentFromPoints(Vector2D.ZERO, Vector2D.of(1, 0), TEST_PRECISION));
tree.insert(Lines.segmentFromPoints(Vector2D.ZERO, Vector2D.of(0, 1), TEST_PRECISION));
final EmbeddedTreePlaneSubset halfSpaceWithVertices = new EmbeddedTreePlaneSubset(XY_PLANE, tree);
halfSpaceWithVertices.toTriangles();
}, IllegalStateException.class, pattern);
}
@Test
void testToTriangles_finite() {
// arrange
final Vector3D p1 = Vector3D.ZERO;
final Vector3D p2 = Vector3D.of(1, 0, 0);
final Vector3D p3 = Vector3D.of(2, 1, 0);
final Vector3D p4 = Vector3D.of(1.5, 1, 0);
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE);
ps.add(Planes.convexPolygonFromVertices(Arrays.asList(
p1, p2, p3, p4
), TEST_PRECISION));
// act
final List<Triangle3D> tris = ps.toTriangles();
// assert
Assertions.assertEquals(2, tris.size());
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p4, p1, p2),
tris.get(0).getVertices(), TEST_PRECISION);
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p4, p2, p3),
tris.get(1).getVertices(), TEST_PRECISION);
}
@Test
void testToTriangles_finite_disjoint() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE);
ps.add(Planes.convexPolygonFromVertices(Arrays.asList(
Vector3D.ZERO, Vector3D.of(1, 0, 0),
Vector3D.of(2, 1, 0), Vector3D.of(1.5, 1, 0)
), TEST_PRECISION));
ps.add(Planes.convexPolygonFromVertices(Arrays.asList(
Vector3D.of(-1, -1, 0), Vector3D.of(0, -1, 0), Vector3D.of(-1, 0, 0)
), TEST_PRECISION));
// act
final List<Triangle3D> tris = ps.toTriangles();
// assert
Assertions.assertEquals(3, tris.size());
}
@Test
void testGetBounds_noBounds() {
// arrange
final EmbeddingPlane plane = Planes.fromPointAndPlaneVectors(Vector3D.of(0, 0, 1),
Vector3D.Unit.PLUS_Y, Vector3D.Unit.MINUS_X, TEST_PRECISION);
final EmbeddedTreePlaneSubset full = new EmbeddedTreePlaneSubset(plane, true);
final EmbeddedTreePlaneSubset empty = new EmbeddedTreePlaneSubset(plane, false);
final EmbeddedTreePlaneSubset halfPlane = new EmbeddedTreePlaneSubset(plane, false);
halfPlane.getSubspaceRegion().getRoot().insertCut(Lines.fromPointAndAngle(Vector2D.ZERO, 0, TEST_PRECISION));
// act/assert
Assertions.assertNull(full.getBounds());
Assertions.assertNull(empty.getBounds());
Assertions.assertNull(halfPlane.getBounds());
}
@Test
void testGetBounds_hasBounds() {
// arrange
final EmbeddingPlane plane = Planes.fromPointAndPlaneVectors(Vector3D.of(0, 0, 1),
Vector3D.Unit.PLUS_Y, Vector3D.Unit.MINUS_X, TEST_PRECISION);
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(plane, false);
ps.getSubspaceRegion().add(ConvexArea.convexPolygonFromVertices(Arrays.asList(
Vector2D.of(1, 1), Vector2D.of(2, 1), Vector2D.of(1, 2)
), TEST_PRECISION));
// act
final Bounds3D bounds = ps.getBounds();
// assert
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(-2, 1, 1), bounds.getMin(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(-1, 2, 1), bounds.getMax(), TEST_EPS);
}
@Test
void testSplit_empty() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
final Plane splitter = Planes.fromNormal(Vector3D.Unit.PLUS_X, TEST_PRECISION);
// act
final Split<EmbeddedTreePlaneSubset> split = ps.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.NEITHER, split.getLocation());
Assertions.assertNull(split.getMinus());
Assertions.assertNull(split.getPlus());
}
@Test
void testSplit_halfSpace() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
ps.getSubspaceRegion().getRoot().cut(
Lines.fromPointAndAngle(Vector2D.ZERO, 0.0, TEST_PRECISION));
final Plane splitter = Planes.fromNormal(Vector3D.Unit.PLUS_X, TEST_PRECISION);
// act
final Split<EmbeddedTreePlaneSubset> split = ps.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.BOTH, split.getLocation());
final EmbeddedTreePlaneSubset minus = split.getMinus();
checkPoints(minus, RegionLocation.INSIDE, Vector3D.of(-1, 1, 0));
checkPoints(minus, RegionLocation.OUTSIDE, Vector3D.of(1, 1, 0), Vector3D.of(0, -1, 0));
final EmbeddedTreePlaneSubset plus = split.getPlus();
checkPoints(plus, RegionLocation.OUTSIDE, Vector3D.of(-1, 1, 0), Vector3D.of(0, -1, 0));
checkPoints(plus, RegionLocation.INSIDE, Vector3D.of(1, 1, 0));
}
@Test
void testSplit_both() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
ps.getSubspaceRegion().union(
Parallelogram.axisAligned(Vector2D.of(-1, -1), Vector2D.of(1, 1), TEST_PRECISION).toTree());
final Plane splitter = Planes.fromNormal(Vector3D.Unit.PLUS_X, TEST_PRECISION);
// act
final Split<EmbeddedTreePlaneSubset> split = ps.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.BOTH, split.getLocation());
final EmbeddedTreePlaneSubset minus = split.getMinus();
checkPoints(minus, RegionLocation.INSIDE, Vector3D.of(-0.5, 0, 0));
checkPoints(minus, RegionLocation.OUTSIDE,
Vector3D.of(0.5, 0, 0), Vector3D.of(1.5, 0, 0),
Vector3D.of(0, 1.5, 0), Vector3D.of(0, -1.5, 0));
final EmbeddedTreePlaneSubset plus = split.getPlus();
checkPoints(plus, RegionLocation.INSIDE, Vector3D.of(0.5, 0, 0));
checkPoints(plus, RegionLocation.OUTSIDE,
Vector3D.of(-0.5, 0, 0), Vector3D.of(1.5, 0, 0),
Vector3D.of(0, 1.5, 0), Vector3D.of(0, -1.5, 0));
}
@Test
void testSplit_intersects_plusOnly() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
ps.getSubspaceRegion().union(
Parallelogram.axisAligned(Vector2D.of(-1, -1), Vector2D.of(1, 1), TEST_PRECISION).toTree());
final Plane splitter = Planes.fromPointAndNormal(Vector3D.of(0, 0, 1), Vector3D.of(0.1, 0, 1), TEST_PRECISION);
// act
final Split<EmbeddedTreePlaneSubset> split = ps.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.MINUS, split.getLocation());
Assertions.assertSame(ps, split.getMinus());
Assertions.assertNull(split.getPlus());
}
@Test
void testSplit_intersects_minusOnly() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
ps.getSubspaceRegion().union(
Parallelogram.axisAligned(Vector2D.of(-1, -1), Vector2D.of(1, 1), TEST_PRECISION).toTree());
final Plane splitter = Planes.fromPointAndNormal(Vector3D.of(0, 0, 1), Vector3D.of(0.1, 0, -1), TEST_PRECISION);
// act
final Split<EmbeddedTreePlaneSubset> split = ps.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.PLUS, split.getLocation());
Assertions.assertNull(split.getMinus());
Assertions.assertSame(ps, split.getPlus());
}
@Test
void testSplit_parallel_plusOnly() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
ps.getSubspaceRegion().union(
Parallelogram.axisAligned(Vector2D.of(-1, -1), Vector2D.of(1, 1), TEST_PRECISION).toTree());
final Plane splitter = Planes.fromPointAndNormal(Vector3D.of(0, 0, 1), Vector3D.Unit.PLUS_Z, TEST_PRECISION);
// act
final Split<EmbeddedTreePlaneSubset> split = ps.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.MINUS, split.getLocation());
Assertions.assertSame(ps, split.getMinus());
Assertions.assertNull(split.getPlus());
}
@Test
void testSplit_parallel_minusOnly() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
ps.getSubspaceRegion().union(
Parallelogram.axisAligned(Vector2D.of(-1, -1), Vector2D.of(1, 1), TEST_PRECISION).toTree());
final Plane splitter = Planes.fromPointAndNormal(Vector3D.of(0, 0, 1), Vector3D.Unit.MINUS_Z, TEST_PRECISION);
// act
final Split<EmbeddedTreePlaneSubset> split = ps.split(splitter);
// assert
Assertions.assertEquals(SplitLocation.PLUS, split.getLocation());
Assertions.assertNull(split.getMinus());
Assertions.assertSame(ps, split.getPlus());
}
@Test
void testSplit_coincident() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
ps.getSubspaceRegion().union(
Parallelogram.axisAligned(Vector2D.of(-1, -1), Vector2D.of(1, 1), TEST_PRECISION).toTree());
// act
final Split<EmbeddedTreePlaneSubset> split = ps.split(ps.getPlane());
// assert
Assertions.assertEquals(SplitLocation.NEITHER, split.getLocation());
Assertions.assertNull(split.getMinus());
Assertions.assertNull(split.getPlus());
}
@Test
void testTransform_empty() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
final AffineTransformMatrix3D transform = AffineTransformMatrix3D.createTranslation(Vector3D.Unit.PLUS_Z);
// act
final EmbeddedTreePlaneSubset result = ps.transform(transform);
// assert
Assertions.assertNotSame(ps, result);
final Plane resultPlane = result.getPlane();
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(0, 0, 1), resultPlane.getOrigin(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.Unit.PLUS_Z, resultPlane.getNormal(), TEST_EPS);
Assertions.assertFalse(result.isFull());
Assertions.assertTrue(result.isEmpty());
}
@Test
void testTransform_full() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, true);
final AffineTransformMatrix3D transform = AffineTransformMatrix3D.createTranslation(Vector3D.Unit.PLUS_Z);
// act
final EmbeddedTreePlaneSubset result = ps.transform(transform);
// assert
Assertions.assertNotSame(ps, result);
final Plane resultPlane = result.getPlane();
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(0, 0, 1), resultPlane.getOrigin(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.Unit.PLUS_Z, resultPlane.getNormal(), TEST_EPS);
Assertions.assertTrue(result.isFull());
Assertions.assertFalse(result.isEmpty());
}
@Test
void testTransform() {
// arrange
final ConvexArea area = ConvexArea.convexPolygonFromVertices(
Arrays.asList(Vector2D.ZERO, Vector2D.Unit.PLUS_X, Vector2D.Unit.PLUS_Y), TEST_PRECISION);
final EmbeddingPlane plane = Planes.fromPointAndPlaneVectors(Vector3D.of(0, 0, 1), Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Y, TEST_PRECISION);
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(plane, area.toTree());
final Transform<Vector3D> transform = AffineTransformMatrix3D.identity()
.rotate(QuaternionRotation.fromAxisAngle(Vector3D.Unit.PLUS_Y, Angle.PI_OVER_TWO))
.translate(Vector3D.of(1, 0, 0));
// act
final EmbeddedTreePlaneSubset result = ps.transform(transform);
// assert
Assertions.assertNotSame(ps, result);
final Plane resultPlane = result.getPlane();
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(2, 0, 0), resultPlane.getOrigin(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.Unit.PLUS_X, resultPlane.getNormal(), TEST_EPS);
checkPoints(result, RegionLocation.INSIDE, Vector3D.of(2, 0.25, -0.25));
checkPoints(result, RegionLocation.OUTSIDE, Vector3D.of(1, 0.25, -0.25), Vector3D.of(3, 0.25, -0.25));
checkPoints(result, RegionLocation.BOUNDARY,
Vector3D.of(2, 0, 0), Vector3D.of(2, 0, -1), Vector3D.of(2, 1, 0));
}
@Test
void testTransform_reflection() {
// arrange
final ConvexArea area = ConvexArea.convexPolygonFromVertices(
Arrays.asList(Vector2D.ZERO, Vector2D.Unit.PLUS_X, Vector2D.Unit.PLUS_Y), TEST_PRECISION);
final EmbeddingPlane plane = Planes.fromPointAndPlaneVectors(Vector3D.of(0, 0, 1), Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Y, TEST_PRECISION);
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(plane, area.toTree());
final Transform<Vector3D> transform = AffineTransformMatrix3D.createScale(-1, 1, 1);
// act
final EmbeddedTreePlaneSubset result = ps.transform(transform);
// assert
Assertions.assertNotSame(ps, result);
final Plane resultPlane = result.getPlane();
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(0, 0, 1), resultPlane.getOrigin(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.Unit.MINUS_Z, resultPlane.getNormal(), TEST_EPS);
checkPoints(result, RegionLocation.INSIDE, Vector3D.of(-0.25, 0.25, 1));
checkPoints(result, RegionLocation.OUTSIDE, Vector3D.of(0.25, 0.25, 0), Vector3D.of(0.25, 0.25, 2));
checkPoints(result, RegionLocation.BOUNDARY,
Vector3D.of(-1, 0, 1), Vector3D.of(0, 1, 1), Vector3D.of(0, 0, 1));
}
@Test
void testAddMethods() {
// arrange
final EmbeddingPlane plane = Planes.fromPointAndPlaneVectors(
Vector3D.of(0, 0, 1), Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Y, TEST_PRECISION);
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(plane, false);
// act
ps.add(Planes.subsetFromConvexArea(plane, ConvexArea.convexPolygonFromVertices(Arrays.asList(
Vector2D.ZERO, Vector2D.of(1, 0), Vector2D.of(0, 1)
), TEST_PRECISION)));
final RegionBSPTree2D tree = RegionBSPTree2D.empty();
tree.add(ConvexArea.convexPolygonFromVertices(Arrays.asList(
Vector2D.of(1, 0), Vector2D.of(1, 1), Vector2D.of(0, 1)
), TEST_PRECISION));
ps.add(new EmbeddedTreePlaneSubset(plane, tree));
// assert
Assertions.assertFalse(ps.isFull());
Assertions.assertFalse(ps.isEmpty());
Assertions.assertTrue(ps.isFinite());
Assertions.assertFalse(ps.isInfinite());
Assertions.assertEquals(1, ps.getSize(), TEST_EPS);
checkPoints(ps, RegionLocation.INSIDE, Vector3D.of(0.5, 0.5, 1));
checkPoints(ps, RegionLocation.BOUNDARY,
Vector3D.of(0, 0, 1), Vector3D.of(1, 0, 1),
Vector3D.of(1, 1, 1), Vector3D.of(0, 1, 1));
checkPoints(ps, RegionLocation.OUTSIDE,
Vector3D.of(0.5, 0.5, 0), Vector3D.of(0.5, 0.5, 2),
Vector3D.of(-0.5, 0.5, 1), Vector3D.of(0.5, -0.5, 1),
Vector3D.of(1.5, 0.5, 1), Vector3D.of(0.5, 1.5, 1));
}
@Test
void testAddMethods_rotatesEquivalentPlanesWithDifferentUAndV() {
// arrange
final EmbeddingPlane plane = Planes.fromPointAndPlaneVectors(
Vector3D.of(0, 0, 1), Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Y, TEST_PRECISION);
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(plane, false);
final EmbeddingPlane otherPlane1 = Planes.fromPointAndPlaneVectors(
Vector3D.of(0, 0, 1), Vector3D.of(1e-12, 1, 0), Vector3D.Unit.MINUS_X, TEST_PRECISION);
final EmbeddingPlane otherPlane2 = Planes.fromPointAndPlaneVectors(
Vector3D.of(0, 0, 1), Vector3D.of(0, -1, 1e-12), Vector3D.Unit.PLUS_X, TEST_PRECISION);
final ConvexArea area = ConvexArea.convexPolygonFromVertices(Arrays.asList(
Vector2D.of(0, -1), Vector2D.of(1, -1), Vector2D.of(1, 1), Vector2D.of(0, 1)
), TEST_PRECISION);
// act
ps.add(Planes.subsetFromConvexArea(plane, area));
ps.add(new EmbeddedTreePlaneSubset(otherPlane1, area.toTree()));
ps.add(Planes.subsetFromConvexArea(otherPlane2, area));
// assert
Assertions.assertEquals(4, ps.getSize(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(0, 0, 1), ps.getCentroid(), TEST_EPS);
final Bounds3D bounds = ps.getBounds();
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(-1, -1, 1), bounds.getMin(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(1, 1, 1), bounds.getMax(), TEST_EPS);
}
@Test
void testAddMethods_rotatesEquivalentPlanesWithDifferentUAndV_singleConvexArea() {
// arrange
final EmbeddingPlane plane = Planes.fromPointAndPlaneVectors(
Vector3D.of(0, 0, 1), Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Y, TEST_PRECISION);
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(plane, false);
final EmbeddingPlane otherPlane1 = Planes.fromPointAndPlaneVectors(
Vector3D.of(0, 0, 1), Vector3D.of(1e-12, 1, 0), Vector3D.Unit.MINUS_X, TEST_PRECISION);
final ConvexArea area = ConvexArea.convexPolygonFromVertices(Arrays.asList(
Vector2D.ZERO, Vector2D.of(1, 0), Vector2D.of(1, 2), Vector2D.of(0, 2)
), TEST_PRECISION);
// act
ps.add(Planes.subsetFromConvexArea(otherPlane1, area));
// assert
Assertions.assertEquals(2, ps.getSize(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(-1, 0.5, 1), ps.getCentroid(), TEST_EPS);
final Bounds3D bounds = ps.getBounds();
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(-2, 0, 1), bounds.getMin(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(0, 1, 1), bounds.getMax(), TEST_EPS);
}
@Test
void testAddMethods_rotatesEquivalentPlanesWithDifferentUAndV_singleTree() {
// arrange
final EmbeddingPlane plane = Planes.fromPointAndPlaneVectors(
Vector3D.of(0, 0, 1), Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Y, TEST_PRECISION);
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(plane, false);
final EmbeddingPlane otherPlane1 = Planes.fromPointAndPlaneVectors(
Vector3D.of(0, 0, 1), Vector3D.Unit.MINUS_X, Vector3D.Unit.MINUS_Y, TEST_PRECISION);
final ConvexArea area = ConvexArea.convexPolygonFromVertices(Arrays.asList(
Vector2D.ZERO, Vector2D.of(1, 0), Vector2D.of(1, 2), Vector2D.of(0, 2)
), TEST_PRECISION);
// act
ps.add(new EmbeddedTreePlaneSubset(otherPlane1, area.toTree()));
// assert
Assertions.assertEquals(2, ps.getSize(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(-0.5, -1, 1), ps.getCentroid(), TEST_EPS);
final Bounds3D bounds = ps.getBounds();
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(-1, -2, 1), bounds.getMin(), TEST_EPS);
EuclideanTestUtils.assertCoordinatesEqual(Vector3D.of(0, 0, 1), bounds.getMax(), TEST_EPS);
}
@Test
void testAddMethods_validatesPlane() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(XY_PLANE, false);
// act/assert
Assertions.assertThrows(IllegalArgumentException.class, () -> ps.add(Planes.subsetFromConvexArea(
Planes.fromPointAndPlaneVectors(Vector3D.ZERO, Vector3D.Unit.PLUS_X, Vector3D.Unit.MINUS_Z, TEST_PRECISION),
ConvexArea.full())));
Assertions.assertThrows(IllegalArgumentException.class, () -> ps.add(new EmbeddedTreePlaneSubset(
Planes.fromPointAndPlaneVectors(Vector3D.of(0, 0, -1), Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Y, TEST_PRECISION),
false)));
}
@Test
void testToString() {
// arrange
final EmbeddedTreePlaneSubset ps = new EmbeddedTreePlaneSubset(
Planes.fromNormal(Vector3D.Unit.PLUS_Z, TEST_PRECISION).getEmbedding());
// act
final String str = ps.toString();
// assert
GeometryTestUtils.assertContains("EmbeddedTreePlaneSubset[plane= EmbeddingPlane[", str);
GeometryTestUtils.assertContains("subspaceRegion= RegionBSPTree2D[", str);
}
private static void checkPoints(final EmbeddedTreePlaneSubset ps, final RegionLocation loc, final Vector3D... pts) {
for (final Vector3D pt : pts) {
Assertions.assertEquals(loc, ps.classify(pt), "Unexpected location for point " + pt);
}
}
}