EuclideanUtilsTest.java
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* https://www.apache.org/licenses/LICENSE-2.0
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package org.apache.commons.geometry.euclidean.internal;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
import java.util.function.Function;
import org.apache.commons.geometry.core.GeometryTestUtils;
import org.apache.commons.geometry.euclidean.EuclideanTestUtils;
import org.apache.commons.geometry.euclidean.threed.Vector3D;
import org.apache.commons.numbers.core.Precision;
import org.junit.jupiter.api.Assertions;
import org.junit.jupiter.api.Test;
class EuclideanUtilsTest {
private static final double TEST_EPS = 1e-10;
private static final Precision.DoubleEquivalence TEST_PRECISION =
Precision.doubleEquivalenceOfEpsilon(TEST_EPS);
@Test
void testConvexPolygonToTriangleFan_threeVertices() {
// arrange
final Vector3D p1 = Vector3D.ZERO;
final Vector3D p2 = Vector3D.of(1, 0, 0);
final Vector3D p3 = Vector3D.of(0, 1, 0);
final List<List<Vector3D>> tris = new ArrayList<>();
// act
EuclideanUtils.convexPolygonToTriangleFan(Arrays.asList(p1, p2, p3), tris::add);
// assert
Assertions.assertEquals(1, tris.size());
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p1, p2, p3), tris.get(0), TEST_PRECISION);
}
@Test
void testConvexPolygonToTriangleFan_fourVertices() {
// arrange
final Vector3D p1 = Vector3D.ZERO;
final Vector3D p2 = Vector3D.of(1, 0, 0);
final Vector3D p3 = Vector3D.of(1, 1, 0);
final Vector3D p4 = Vector3D.of(0, 1, 0);
final List<List<Vector3D>> tris = new ArrayList<>();
// act
EuclideanUtils.convexPolygonToTriangleFan(Arrays.asList(p1, p2, p3, p4), tris::add);
// assert
Assertions.assertEquals(2, tris.size());
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p1, p2, p3), tris.get(0), TEST_PRECISION);
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p1, p3, p4), tris.get(1), TEST_PRECISION);
}
@Test
void testConvexPolygonToTriangleFan_fourVertices_chooseLargestInteriorAngleForBase() {
// 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 List<List<Vector3D>> tris = new ArrayList<>();
// act
EuclideanUtils.convexPolygonToTriangleFan(Arrays.asList(p1, p2, p3, p4), tris::add);
// assert
Assertions.assertEquals(2, tris.size());
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p4, p1, p2), tris.get(0), TEST_PRECISION);
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p4, p2, p3), tris.get(1), TEST_PRECISION);
}
@Test
void testConvexPolygonToTriangleFan_fourVertices_distancesLessThanPrecision() {
// This test checks that the triangle fan algorithm is not affected by the distances between
// the vertices, just as long as the points are not exactly equal. Callers are responsible for
// ensuring that the points are actually distinct according to the relevant precision context.
// arrange
final Vector3D p1 = Vector3D.ZERO;
final Vector3D p2 = Vector3D.of(1e-20, 0, 0);
final Vector3D p3 = Vector3D.of(1e-20, 1e-20, 0);
final Vector3D p4 = Vector3D.of(0, 1e-20, 0);
final List<List<Vector3D>> tris = new ArrayList<>();
// act
EuclideanUtils.convexPolygonToTriangleFan(Arrays.asList(p1, p2, p3, p4), tris::add);
// assert
Assertions.assertEquals(2, tris.size());
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p1, p2, p3), tris.get(0), TEST_PRECISION);
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p1, p3, p4), tris.get(1), TEST_PRECISION);
}
@Test
void testConvexPolygonToTriangleFan_sixVertices() {
// arrange
final Vector3D p1 = Vector3D.ZERO;
final Vector3D p2 = Vector3D.of(1, -1, 0);
final Vector3D p3 = Vector3D.of(1.5, -1, 0);
final Vector3D p4 = Vector3D.of(5, 0, 0);
final Vector3D p5 = Vector3D.of(3, 1, 0);
final Vector3D p6 = Vector3D.of(0.5, 1, 0);
final List<List<Vector3D>> tris = new ArrayList<>();
// act
EuclideanUtils.convexPolygonToTriangleFan(Arrays.asList(p1, p2, p3, p4, p5, p6), tris::add);
// assert
Assertions.assertEquals(4, tris.size());
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p3, p4, p5), tris.get(0), TEST_PRECISION);
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p3, p5, p6), tris.get(1), TEST_PRECISION);
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p3, p6, p1), tris.get(2), TEST_PRECISION);
EuclideanTestUtils.assertVertexLoopSequence(Arrays.asList(p3, p1, p2), tris.get(3), TEST_PRECISION);
}
@Test
void testConvexPolygonToTriangleFan_notEnoughVertices() {
// arrange
final String baseMsg = "Cannot create triangle fan: 3 or more vertices are required but found only ";
// act/assert
GeometryTestUtils.assertThrowsWithMessage(() -> {
EuclideanUtils.convexPolygonToTriangleFan(Collections.emptyList(), Function.identity());
}, IllegalArgumentException.class, baseMsg + "0");
GeometryTestUtils.assertThrowsWithMessage(() -> {
EuclideanUtils.convexPolygonToTriangleFan(Collections.singletonList(Vector3D.ZERO), Function.identity());
}, IllegalArgumentException.class, baseMsg + "1");
GeometryTestUtils.assertThrowsWithMessage(() -> {
EuclideanUtils.convexPolygonToTriangleFan(Arrays.asList(Vector3D.ZERO, Vector3D.of(1, 0, 0)), Function.identity());
}, IllegalArgumentException.class, baseMsg + "2");
}
}