GreatCircleTest.java
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* contributor license agreements. See the NOTICE file distributed with
* 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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* distributed under the License is distributed on an "AS IS" BASIS,
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package org.apache.commons.geometry.spherical.twod;
import java.util.regex.Pattern;
import org.apache.commons.geometry.core.GeometryTestUtils;
import org.apache.commons.geometry.core.partitioning.HyperplaneLocation;
import org.apache.commons.geometry.euclidean.threed.Vector3D;
import org.apache.commons.geometry.spherical.SphericalTestUtils;
import org.apache.commons.geometry.spherical.oned.AngularInterval;
import org.apache.commons.geometry.spherical.oned.Point1S;
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 GreatCircleTest {
private static final double TEST_EPS = 1e-10;
private static final Precision.DoubleEquivalence TEST_PRECISION =
Precision.doubleEquivalenceOfEpsilon(TEST_EPS);
private static final Vector3D.Unit X = Vector3D.Unit.PLUS_X;
private static final Vector3D.Unit Y = Vector3D.Unit.PLUS_Y;
private static final Vector3D.Unit Z = Vector3D.Unit.PLUS_Z;
@Test
void testFromPole() {
// act/assert
checkGreatCircle(GreatCircles.fromPole(X, TEST_PRECISION), X, Z);
checkGreatCircle(GreatCircles.fromPole(Y, TEST_PRECISION), Y, Z.negate());
checkGreatCircle(GreatCircles.fromPole(Z, TEST_PRECISION), Z, Y);
}
@Test
void testFromPoleAndXAxis() {
// act/assert
checkGreatCircle(GreatCircles.fromPoleAndU(X, Y, TEST_PRECISION), X, Y);
checkGreatCircle(GreatCircles.fromPoleAndU(X, Z, TEST_PRECISION), X, Z);
checkGreatCircle(GreatCircles.fromPoleAndU(Y, Z, TEST_PRECISION), Y, Z);
}
@Test
void testFromPoints() {
// act/assert
checkGreatCircle(GreatCircles.fromPoints(
Point2S.of(0, Angle.PI_OVER_TWO),
Point2S.of(Angle.PI_OVER_TWO, Angle.PI_OVER_TWO),
TEST_PRECISION),
Z, X);
checkGreatCircle(GreatCircles.fromPoints(
Point2S.of(0, Angle.PI_OVER_TWO),
Point2S.of(-0.1 * Math.PI, Angle.PI_OVER_TWO),
TEST_PRECISION),
Z.negate(), X);
checkGreatCircle(GreatCircles.fromPoints(
Point2S.of(0, Angle.PI_OVER_TWO),
Point2S.of(1.5 * Math.PI, Angle.PI_OVER_TWO),
TEST_PRECISION),
Z.negate(), X);
checkGreatCircle(GreatCircles.fromPoints(
Point2S.of(0, 0),
Point2S.of(0, Angle.PI_OVER_TWO),
TEST_PRECISION),
Y, Z);
}
@Test
void testFromPoints_invalidPoints() {
// arrange
final Point2S p1 = Point2S.of(0, Angle.PI_OVER_TWO);
final Point2S p2 = Point2S.of(Math.PI, Angle.PI_OVER_TWO);
// act/assert
GeometryTestUtils.assertThrowsWithMessage(() -> {
GreatCircles.fromPoints(p1, p1, TEST_PRECISION);
}, IllegalArgumentException.class, Pattern.compile("^.*points are equal$"));
GeometryTestUtils.assertThrowsWithMessage(() -> {
GreatCircles.fromPoints(p1, Point2S.of(1e-12, Angle.PI_OVER_TWO), TEST_PRECISION);
}, IllegalArgumentException.class, Pattern.compile("^.*points are equal$"));
GeometryTestUtils.assertThrowsWithMessage(() -> {
GreatCircles.fromPoints(
Point2S.from(Vector3D.Unit.PLUS_X),
Point2S.from(Vector3D.Unit.MINUS_X),
TEST_PRECISION);
}, IllegalArgumentException.class, Pattern.compile("^.*points are antipodal$"));
Assertions.assertThrows(IllegalArgumentException.class, () -> GreatCircles.fromPoints(p1, Point2S.NaN, TEST_PRECISION));
Assertions.assertThrows(IllegalArgumentException.class, () -> GreatCircles.fromPoints(Point2S.NaN, p2, TEST_PRECISION));
Assertions.assertThrows(IllegalArgumentException.class, () -> GreatCircles.fromPoints(p1, Point2S.of(Double.POSITIVE_INFINITY, Angle.PI_OVER_TWO), TEST_PRECISION));
Assertions.assertThrows(IllegalArgumentException.class, () -> GreatCircles.fromPoints(Point2S.of(Double.POSITIVE_INFINITY, Angle.PI_OVER_TWO), p2, TEST_PRECISION));
}
@Test
void testOffset_point() {
// --- arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(
Vector3D.Unit.MINUS_X, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
// --- act/assert
// on circle
for (double polar = -Angle.PI_OVER_TWO; polar <= Angle.PI_OVER_TWO; polar += 0.1) {
Assertions.assertEquals(0, circle.offset(Point2S.of(Angle.PI_OVER_TWO, polar)), TEST_EPS);
Assertions.assertEquals(0, circle.offset(Point2S.of(-Angle.PI_OVER_TWO, polar)), TEST_EPS);
}
// +1/-1
Assertions.assertEquals(-1, circle.offset(Point2S.of(Angle.PI_OVER_TWO + 1, Angle.PI_OVER_TWO)), TEST_EPS);
Assertions.assertEquals(1, circle.offset(Point2S.of(-Angle.PI_OVER_TWO + 1, Angle.PI_OVER_TWO)), TEST_EPS);
// poles
Assertions.assertEquals(-Angle.PI_OVER_TWO, circle.offset(Point2S.of(Math.PI, Angle.PI_OVER_TWO)), TEST_EPS);
Assertions.assertEquals(Angle.PI_OVER_TWO, circle.offset(Point2S.of(0.0, Angle.PI_OVER_TWO)), TEST_EPS);
}
@Test
void testOffset_vector() {
// --- arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(
Vector3D.Unit.MINUS_X, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
// --- act/assert
// on circle
Assertions.assertEquals(0, circle.offset(Vector3D.of(0, 1, 0)), TEST_EPS);
Assertions.assertEquals(0, circle.offset(Vector3D.of(0, 0, 1)), TEST_EPS);
Assertions.assertEquals(0, circle.offset(Vector3D.of(0, -1, 0)), TEST_EPS);
Assertions.assertEquals(0, circle.offset(Vector3D.of(0, 0, -1)), TEST_EPS);
// +1/-1
Assertions.assertEquals(-0.25 * Math.PI, circle.offset(Vector3D.of(-1, 1, 0)), TEST_EPS);
Assertions.assertEquals(-0.25 * Math.PI, circle.offset(Vector3D.of(-1, 0, 1)), TEST_EPS);
Assertions.assertEquals(-0.25 * Math.PI, circle.offset(Vector3D.of(-1, -1, 0)), TEST_EPS);
Assertions.assertEquals(-0.25 * Math.PI, circle.offset(Vector3D.of(-1, 0, -1)), TEST_EPS);
Assertions.assertEquals(0.25 * Math.PI, circle.offset(Vector3D.of(1, 1, 0)), TEST_EPS);
Assertions.assertEquals(0.25 * Math.PI, circle.offset(Vector3D.of(1, 0, 1)), TEST_EPS);
Assertions.assertEquals(0.25 * Math.PI, circle.offset(Vector3D.of(1, -1, 0)), TEST_EPS);
Assertions.assertEquals(0.25 * Math.PI, circle.offset(Vector3D.of(1, 0, -1)), TEST_EPS);
// poles
Assertions.assertEquals(-Angle.PI_OVER_TWO, circle.offset(Vector3D.Unit.MINUS_X), TEST_EPS);
Assertions.assertEquals(Angle.PI_OVER_TWO, circle.offset(Vector3D.Unit.PLUS_X), TEST_EPS);
}
@Test
void testAzimuth_point() {
// --- arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(
Vector3D.Unit.MINUS_X, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
// --- act/assert
// on circle
Assertions.assertEquals(Angle.PI_OVER_TWO, circle.azimuth(Point2S.from(Vector3D.of(0, 1, 0))), TEST_EPS);
Assertions.assertEquals(0.0, circle.azimuth(Point2S.from(Vector3D.of(0, 0, 1))), TEST_EPS);
Assertions.assertEquals(1.5 * Math.PI, circle.azimuth(Point2S.from(Vector3D.of(0, -1, 0))), TEST_EPS);
Assertions.assertEquals(Math.PI, circle.azimuth(Point2S.from(Vector3D.of(0, 0, -1))), TEST_EPS);
// +1/-1
Assertions.assertEquals(Angle.PI_OVER_TWO, circle.azimuth(Point2S.from(Vector3D.of(-1, 1, 0))), TEST_EPS);
Assertions.assertEquals(0.0, circle.azimuth(Point2S.from(Vector3D.of(-1, 0, 1))), TEST_EPS);
Assertions.assertEquals(1.5 * Math.PI, circle.azimuth(Point2S.from(Vector3D.of(-1, -1, 0))), TEST_EPS);
Assertions.assertEquals(Math.PI, circle.azimuth(Point2S.from(Vector3D.of(-1, 0, -1))), TEST_EPS);
Assertions.assertEquals(Angle.PI_OVER_TWO, circle.azimuth(Point2S.from(Vector3D.of(1, 1, 0))), TEST_EPS);
Assertions.assertEquals(0.0, circle.azimuth(Point2S.from(Vector3D.of(1, 0, 1))), TEST_EPS);
Assertions.assertEquals(1.5 * Math.PI, circle.azimuth(Point2S.from(Vector3D.of(1, -1, 0))), TEST_EPS);
Assertions.assertEquals(Math.PI, circle.azimuth(Point2S.from(Vector3D.of(1, 0, -1))), TEST_EPS);
// poles
Assertions.assertEquals(0, circle.azimuth(Point2S.from(Vector3D.Unit.MINUS_X)), TEST_EPS);
Assertions.assertEquals(0, circle.azimuth(Point2S.from(Vector3D.Unit.PLUS_X)), TEST_EPS);
}
@Test
void testAzimuth_vector() {
// --- arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(
Vector3D.Unit.MINUS_X, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
// --- act/assert
// on circle
Assertions.assertEquals(Angle.PI_OVER_TWO, circle.azimuth(Vector3D.of(0, 1, 0)), TEST_EPS);
Assertions.assertEquals(0.0, circle.azimuth(Vector3D.of(0, 0, 1)), TEST_EPS);
Assertions.assertEquals(1.5 * Math.PI, circle.azimuth(Vector3D.of(0, -1, 0)), TEST_EPS);
Assertions.assertEquals(Math.PI, circle.azimuth(Vector3D.of(0, 0, -1)), TEST_EPS);
// +1/-1
Assertions.assertEquals(Angle.PI_OVER_TWO, circle.azimuth(Vector3D.of(-1, 1, 0)), TEST_EPS);
Assertions.assertEquals(0.0, circle.azimuth(Vector3D.of(-1, 0, 1)), TEST_EPS);
Assertions.assertEquals(1.5 * Math.PI, circle.azimuth(Vector3D.of(-1, -1, 0)), TEST_EPS);
Assertions.assertEquals(Math.PI, circle.azimuth(Vector3D.of(-1, 0, -1)), TEST_EPS);
Assertions.assertEquals(Angle.PI_OVER_TWO, circle.azimuth(Vector3D.of(1, 1, 0)), TEST_EPS);
Assertions.assertEquals(0.0, circle.azimuth(Vector3D.of(1, 0, 1)), TEST_EPS);
Assertions.assertEquals(1.5 * Math.PI, circle.azimuth(Vector3D.of(1, -1, 0)), TEST_EPS);
Assertions.assertEquals(Math.PI, circle.azimuth(Vector3D.of(1, 0, -1)), TEST_EPS);
// poles
Assertions.assertEquals(0, circle.azimuth(Vector3D.Unit.MINUS_X), TEST_EPS);
Assertions.assertEquals(0, circle.azimuth(Vector3D.Unit.PLUS_X), TEST_EPS);
}
@Test
void testVectorAt() {
// arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(
Vector3D.Unit.MINUS_X, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
// act/assert
SphericalTestUtils.assertVectorsEqual(Vector3D.Unit.PLUS_Z, circle.vectorAt(0.0), TEST_EPS);
SphericalTestUtils.assertVectorsEqual(Vector3D.Unit.PLUS_Y, circle.vectorAt(Angle.PI_OVER_TWO), TEST_EPS);
SphericalTestUtils.assertVectorsEqual(Vector3D.Unit.MINUS_Z, circle.vectorAt(Math.PI), TEST_EPS);
SphericalTestUtils.assertVectorsEqual(Vector3D.Unit.MINUS_Y, circle.vectorAt(-Angle.PI_OVER_TWO), TEST_EPS);
SphericalTestUtils.assertVectorsEqual(Vector3D.Unit.PLUS_Z, circle.vectorAt(Angle.TWO_PI), TEST_EPS);
}
@Test
void testProject() {
// arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(
Vector3D.Unit.MINUS_X, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
// act/assert
SphericalTestUtils.assertPointsEqual(Point2S.of(Angle.PI_OVER_TWO, Angle.PI_OVER_TWO),
circle.project(Point2S.of(Angle.PI_OVER_TWO, Angle.PI_OVER_TWO)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point2S.of(Angle.PI_OVER_TWO, Angle.PI_OVER_TWO),
circle.project(Point2S.of(Angle.PI_OVER_TWO + 1, Angle.PI_OVER_TWO)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point2S.of(Angle.PI_OVER_TWO, Angle.PI_OVER_TWO),
circle.project(Point2S.of(Angle.PI_OVER_TWO - 1, Angle.PI_OVER_TWO)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point2S.of(-Angle.PI_OVER_TWO, Angle.PI_OVER_TWO),
circle.project(Point2S.of(-Angle.PI_OVER_TWO, Angle.PI_OVER_TWO)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point2S.of(-Angle.PI_OVER_TWO, Angle.PI_OVER_TWO),
circle.project(Point2S.of(-Angle.PI_OVER_TWO + 1, Angle.PI_OVER_TWO)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point2S.of(-Angle.PI_OVER_TWO, Angle.PI_OVER_TWO),
circle.project(Point2S.of(-Angle.PI_OVER_TWO - 1, Angle.PI_OVER_TWO)), TEST_EPS);
}
@Test
void testProject_poles() {
// arrange
final GreatCircle minusXCircle = GreatCircles.fromPoleAndU(
Vector3D.Unit.MINUS_X, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
final GreatCircle plusZCircle = GreatCircles.fromPoleAndU(
Vector3D.Unit.PLUS_Z, Vector3D.Unit.MINUS_Y, TEST_PRECISION);
// act
SphericalTestUtils.assertPointsEqual(Point2S.of(0.0, 0.0),
minusXCircle.project(Point2S.from(Vector3D.Unit.MINUS_X)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point2S.of(0.0, 0.0),
minusXCircle.project(Point2S.from(Vector3D.Unit.PLUS_X)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point2S.of(1.5 * Math.PI, Angle.PI_OVER_TWO),
plusZCircle.project(Point2S.from(Vector3D.Unit.PLUS_Z)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point2S.of(1.5 * Math.PI, Angle.PI_OVER_TWO),
plusZCircle.project(Point2S.from(Vector3D.Unit.MINUS_Z)), TEST_EPS);
}
@Test
void testReverse() {
// arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.PLUS_X, TEST_PRECISION);
// act
final GreatCircle reverse = circle.reverse();
// assert
checkGreatCircle(reverse, Vector3D.Unit.MINUS_Z, Vector3D.Unit.PLUS_X);
}
@Test
void testTransform_rotateAroundPole() {
// arrange
final GreatCircle circle = GreatCircles.fromPoints(
Point2S.of(0, Angle.PI_OVER_TWO),
Point2S.of(1, Angle.PI_OVER_TWO),
TEST_PRECISION);
final Transform2S t = Transform2S.createRotation(circle.getPolePoint(), 0.25 * Math.PI);
// act
final GreatCircle result = circle.transform(t);
// assert
Assertions.assertNotSame(circle, result);
checkGreatCircle(result, Vector3D.Unit.PLUS_Z, Vector3D.Unit.from(1, 1, 0));
}
@Test
void testTransform_rotateAroundNonPole() {
// arrange
final GreatCircle circle = GreatCircles.fromPoints(
Point2S.of(0, Angle.PI_OVER_TWO),
Point2S.of(1, Angle.PI_OVER_TWO),
TEST_PRECISION);
final Transform2S t = Transform2S.createRotation(Point2S.of(0, Angle.PI_OVER_TWO), Angle.PI_OVER_TWO);
// act
final GreatCircle result = circle.transform(t);
// assert
Assertions.assertNotSame(circle, result);
checkGreatCircle(result, Vector3D.Unit.MINUS_Y, Vector3D.Unit.PLUS_X);
}
@Test
void testTransform_piMinusAzimuth() {
// arrange
final GreatCircle circle = GreatCircles.fromPoints(
Point2S.of(0, Angle.PI_OVER_TWO),
Point2S.of(1, Angle.PI_OVER_TWO),
TEST_PRECISION);
final Transform2S t = Transform2S.createReflection(Point2S.PLUS_J)
.rotate(Point2S.PLUS_K, Math.PI);
// act
final GreatCircle result = circle.transform(t);
// assert
Assertions.assertNotSame(circle, result);
checkGreatCircle(result, Vector3D.Unit.MINUS_Z, Vector3D.Unit.MINUS_X);
}
@Test
void testSimilarOrientation() {
// arrange
final GreatCircle a = GreatCircles.fromPole(Vector3D.Unit.PLUS_Z, TEST_PRECISION);
final GreatCircle b = GreatCircles.fromPole(Vector3D.Unit.PLUS_X, TEST_PRECISION);
final GreatCircle c = GreatCircles.fromPole(Vector3D.Unit.MINUS_Z, TEST_PRECISION);
final GreatCircle d = GreatCircles.fromPole(Vector3D.Unit.from(1, 1, -1), TEST_PRECISION);
final GreatCircle e = GreatCircles.fromPole(Vector3D.Unit.from(1, 1, 1), TEST_PRECISION);
// act/assert
Assertions.assertTrue(a.similarOrientation(a));
Assertions.assertFalse(a.similarOrientation(b));
Assertions.assertFalse(a.similarOrientation(c));
Assertions.assertFalse(a.similarOrientation(d));
Assertions.assertTrue(a.similarOrientation(e));
}
@Test
void testSpan() {
// arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
// act
final GreatArc span = circle.span();
// assert
Assertions.assertSame(circle, span.getCircle());
Assertions.assertTrue(span.getInterval().isFull());
Assertions.assertNull(span.getStartPoint());
Assertions.assertNull(span.getEndPoint());
}
@Test
void testArc_points_2s() {
// arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
// act/assert
checkArc(circle.arc(Point2S.of(1, Angle.PI_OVER_TWO), Point2S.of(0, 1)),
Point2S.of(Angle.PI_OVER_TWO, Angle.PI_OVER_TWO), Point2S.of(0, 0));
Assertions.assertTrue(circle.arc(Point2S.PLUS_I, Point2S.PLUS_I).isFull());
}
@Test
void testArc_points_1s() {
// arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
// act/assert
checkArc(circle.arc(Point1S.of(Math.PI), Point1S.of(1.5 * Math.PI)),
Point2S.of(0, Math.PI), Point2S.of(Angle.PI_OVER_TWO, Angle.PI_OVER_TWO));
Assertions.assertTrue(circle.arc(Point1S.of(1), Point1S.of(1)).isFull());
}
@Test
void testArc_azimuths() {
// arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
// act/assert
checkArc(circle.arc(Math.PI, 1.5 * Math.PI),
Point2S.of(0, Math.PI), Point2S.of(Angle.PI_OVER_TWO, Angle.PI_OVER_TWO));
Assertions.assertTrue(circle.arc(1, 1).isFull());
}
@Test
void testArc_interval() {
// arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_X, Vector3D.Unit.PLUS_Z, TEST_PRECISION);
final AngularInterval.Convex interval = AngularInterval.Convex.of(1, 2, TEST_PRECISION);
// act
final GreatArc arc = circle.arc(interval);
// assert
Assertions.assertSame(circle, arc.getCircle());
Assertions.assertSame(interval, arc.getInterval());
}
@Test
void testIntersection_parallel() {
// arrange
final Precision.DoubleEquivalence precision = Precision.doubleEquivalenceOfEpsilon(1e-3);
final GreatCircle a = GreatCircles.fromPole(Vector3D.Unit.PLUS_X, precision);
final GreatCircle b = GreatCircles.fromPole(Vector3D.Unit.PLUS_X, precision);
final GreatCircle c = GreatCircles.fromPole(Vector3D.Unit.of(1, 1e-4, 1e-4), precision);
final GreatCircle d = GreatCircles.fromPole(Vector3D.Unit.MINUS_X, precision);
final GreatCircle e = GreatCircles.fromPole(Vector3D.Unit.of(-1, 1e-4, 1e-4), precision);
// act/assert
Assertions.assertNull(a.intersection(b));
Assertions.assertNull(a.intersection(c));
Assertions.assertNull(a.intersection(d));
Assertions.assertNull(a.intersection(e));
}
@Test
void testIntersection() {
// arrange
final GreatCircle a = GreatCircles.fromPole(Vector3D.Unit.PLUS_X, TEST_PRECISION);
final GreatCircle b = GreatCircles.fromPole(Vector3D.Unit.PLUS_Y, TEST_PRECISION);
final GreatCircle c = GreatCircles.fromPole(Vector3D.Unit.PLUS_Z, TEST_PRECISION);
// act/assert
SphericalTestUtils.assertVectorsEqual(Vector3D.Unit.PLUS_Z,
a.intersection(b).getVector(), TEST_EPS);
SphericalTestUtils.assertVectorsEqual(Vector3D.Unit.MINUS_Z,
b.intersection(a).getVector(), TEST_EPS);
SphericalTestUtils.assertVectorsEqual(Vector3D.Unit.PLUS_X,
b.intersection(c).getVector(), TEST_EPS);
SphericalTestUtils.assertVectorsEqual(Vector3D.Unit.MINUS_X,
c.intersection(b).getVector(), TEST_EPS);
}
@Test
void testAngle_withoutReferencePoint() {
// arrange
final GreatCircle a = GreatCircles.fromPoints(Point2S.PLUS_I, Point2S.PLUS_J, TEST_PRECISION);
final GreatCircle b = GreatCircles.fromPoints(Point2S.PLUS_J, Point2S.PLUS_I, TEST_PRECISION);
final GreatCircle c = GreatCircles.fromPoints(Point2S.PLUS_I, Point2S.PLUS_K, TEST_PRECISION);
final GreatCircle d = GreatCircles.fromPoints(Point2S.PLUS_J, Point2S.PLUS_K, TEST_PRECISION);
final GreatCircle e = GreatCircles.fromPoleAndU(
Vector3D.Unit.of(1, 0, 1),
Vector3D.Unit.PLUS_Y,
TEST_PRECISION);
final GreatCircle f = GreatCircles.fromPoleAndU(
Vector3D.Unit.of(1, 0, -1),
Vector3D.Unit.PLUS_Y,
TEST_PRECISION);
// act/assert
Assertions.assertEquals(0, a.angle(a), TEST_EPS);
Assertions.assertEquals(Math.PI, a.angle(b), TEST_EPS);
Assertions.assertEquals(Angle.PI_OVER_TWO, a.angle(c), TEST_EPS);
Assertions.assertEquals(Angle.PI_OVER_TWO, c.angle(a), TEST_EPS);
Assertions.assertEquals(Angle.PI_OVER_TWO, a.angle(d), TEST_EPS);
Assertions.assertEquals(Angle.PI_OVER_TWO, d.angle(a), TEST_EPS);
Assertions.assertEquals(0.25 * Math.PI, a.angle(e), TEST_EPS);
Assertions.assertEquals(0.25 * Math.PI, e.angle(a), TEST_EPS);
Assertions.assertEquals(0.75 * Math.PI, a.angle(f), TEST_EPS);
Assertions.assertEquals(0.75 * Math.PI, f.angle(a), TEST_EPS);
}
@Test
void testAngle_withReferencePoint() {
// arrange
final GreatCircle a = GreatCircles.fromPoints(Point2S.PLUS_I, Point2S.PLUS_J, TEST_PRECISION);
final GreatCircle b = GreatCircles.fromPoints(Point2S.PLUS_J, Point2S.PLUS_I, TEST_PRECISION);
final GreatCircle c = GreatCircles.fromPoints(Point2S.PLUS_I, Point2S.PLUS_K, TEST_PRECISION);
final GreatCircle d = GreatCircles.fromPoints(Point2S.PLUS_J, Point2S.PLUS_K, TEST_PRECISION);
final GreatCircle e = GreatCircles.fromPoleAndU(
Vector3D.Unit.of(1, 0, 1),
Vector3D.Unit.PLUS_Y,
TEST_PRECISION);
final GreatCircle f = GreatCircles.fromPoleAndU(
Vector3D.Unit.of(1, 0, -1),
Vector3D.Unit.PLUS_Y,
TEST_PRECISION);
// act/assert
Assertions.assertEquals(0, a.angle(a, Point2S.PLUS_J), TEST_EPS);
Assertions.assertEquals(0, a.angle(a, Point2S.MINUS_J), TEST_EPS);
Assertions.assertEquals(-Math.PI, a.angle(b, Point2S.PLUS_J), TEST_EPS);
Assertions.assertEquals(-Math.PI, a.angle(b, Point2S.MINUS_J), TEST_EPS);
Assertions.assertEquals(Angle.PI_OVER_TWO, a.angle(c, Point2S.PLUS_I), TEST_EPS);
Assertions.assertEquals(-Angle.PI_OVER_TWO, a.angle(c, Point2S.MINUS_I), TEST_EPS);
Assertions.assertEquals(-Angle.PI_OVER_TWO, c.angle(a, Point2S.PLUS_I), TEST_EPS);
Assertions.assertEquals(Angle.PI_OVER_TWO, c.angle(a, Point2S.MINUS_I), TEST_EPS);
Assertions.assertEquals(Angle.PI_OVER_TWO, a.angle(d, Point2S.PLUS_J), TEST_EPS);
Assertions.assertEquals(-Angle.PI_OVER_TWO, a.angle(d, Point2S.MINUS_J), TEST_EPS);
Assertions.assertEquals(-Angle.PI_OVER_TWO, d.angle(a, Point2S.PLUS_J), TEST_EPS);
Assertions.assertEquals(Angle.PI_OVER_TWO, d.angle(a, Point2S.MINUS_J), TEST_EPS);
Assertions.assertEquals(0.25 * Math.PI, a.angle(e, Point2S.PLUS_J), TEST_EPS);
Assertions.assertEquals(-0.25 * Math.PI, a.angle(e, Point2S.MINUS_J), TEST_EPS);
Assertions.assertEquals(-0.25 * Math.PI, e.angle(a, Point2S.PLUS_J), TEST_EPS);
Assertions.assertEquals(0.25 * Math.PI, e.angle(a, Point2S.MINUS_J), TEST_EPS);
Assertions.assertEquals(0.75 * Math.PI, a.angle(f, Point2S.PLUS_J), TEST_EPS);
Assertions.assertEquals(-0.75 * Math.PI, a.angle(f, Point2S.MINUS_J), TEST_EPS);
Assertions.assertEquals(-0.75 * Math.PI, f.angle(a, Point2S.PLUS_J), TEST_EPS);
Assertions.assertEquals(0.75 * Math.PI, f.angle(a, Point2S.MINUS_J), TEST_EPS);
}
@Test
void testAngle_withReferencePoint_pointEquidistanceFromIntersections() {
// arrange
final GreatCircle a = GreatCircles.fromPoints(Point2S.PLUS_I, Point2S.PLUS_J, TEST_PRECISION);
final GreatCircle b = GreatCircles.fromPoleAndU(
Vector3D.Unit.of(1, 0, 1),
Vector3D.Unit.PLUS_Y,
TEST_PRECISION);
// act/assert
Assertions.assertEquals(-0.25 * Math.PI, a.angle(b, Point2S.PLUS_I), TEST_EPS);
Assertions.assertEquals(-0.25 * Math.PI, a.angle(b, Point2S.MINUS_I), TEST_EPS);
}
@Test
void testToSubspace() {
// arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Y, Vector3D.Unit.MINUS_Z, TEST_PRECISION);
// act/assert
SphericalTestUtils.assertPointsEqual(Point1S.ZERO,
circle.toSubspace(Point2S.from(Vector3D.Unit.MINUS_Z)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point1S.of(0.25 * Math.PI),
circle.toSubspace(Point2S.from(Vector3D.of(-1, -1, -1))), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point1S.of(0.75 * Math.PI),
circle.toSubspace(Point2S.from(Vector3D.of(-1, 1, 1))), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point1S.of(1.25 * Math.PI),
circle.toSubspace(Point2S.from(Vector3D.of(1, -1, 1))), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point1S.of(1.75 * Math.PI),
circle.toSubspace(Point2S.from(Vector3D.of(1, 1, -1))), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point1S.ZERO,
circle.toSubspace(Point2S.from(Vector3D.Unit.PLUS_Y)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point1S.ZERO,
circle.toSubspace(Point2S.from(Vector3D.Unit.MINUS_Y)), TEST_EPS);
}
@Test
void testToSpace() {
// arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Y, Vector3D.Unit.MINUS_Z, TEST_PRECISION);
// act/assert
SphericalTestUtils.assertPointsEqual(Point2S.from(Vector3D.Unit.MINUS_Z),
circle.toSpace(Point1S.ZERO), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point2S.from(Vector3D.of(-1, 0, -1)),
circle.toSpace(Point1S.of(0.25 * Math.PI)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point2S.from(Vector3D.of(-1, 0, 1)),
circle.toSpace(Point1S.of(0.75 * Math.PI)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point2S.from(Vector3D.of(1, 0, 1)),
circle.toSpace(Point1S.of(1.25 * Math.PI)), TEST_EPS);
SphericalTestUtils.assertPointsEqual(Point2S.from(Vector3D.of(1, 0, -1)),
circle.toSpace(Point1S.of(1.75 * Math.PI)), TEST_EPS);
}
@Test
void testEq() {
// arrange
final double eps = 1e-3;
final Precision.DoubleEquivalence precision = Precision.doubleEquivalenceOfEpsilon(eps);
final GreatCircle a = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.PLUS_X, precision);
final GreatCircle b = GreatCircles.fromPoleAndU(Vector3D.Unit.MINUS_Z, Vector3D.Unit.PLUS_X, precision);
final GreatCircle c = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.MINUS_X, precision);
final GreatCircle d = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.PLUS_X, TEST_PRECISION);
final GreatCircle e = GreatCircles.fromPoleAndU(Vector3D.of(1e-6, 0, 1), Vector3D.Unit.PLUS_X, precision);
final GreatCircle f = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.of(1, 1e-6, 0), precision);
final GreatCircle g = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.PLUS_X,
Precision.doubleEquivalenceOfEpsilon(eps));
// act/assert
Assertions.assertTrue(a.eq(a, precision));
Assertions.assertFalse(a.eq(b, precision));
Assertions.assertFalse(a.eq(c, precision));
Assertions.assertTrue(a.eq(d, precision));
Assertions.assertTrue(a.eq(e, precision));
Assertions.assertTrue(e.eq(a, precision));
Assertions.assertTrue(a.eq(f, precision));
Assertions.assertTrue(f.eq(a, precision));
Assertions.assertTrue(g.eq(e, precision));
Assertions.assertTrue(e.eq(g, precision));
}
@Test
void testHashCode() {
// arrange
final Precision.DoubleEquivalence precision = Precision.doubleEquivalenceOfEpsilon(1e-3);
final GreatCircle a = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.PLUS_X, TEST_PRECISION);
final GreatCircle b = GreatCircles.fromPoleAndU(Vector3D.of(0, 1, 1), Vector3D.Unit.PLUS_X, TEST_PRECISION);
final GreatCircle c = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.of(0, -1, 1), TEST_PRECISION);
final GreatCircle d = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.PLUS_X, precision);
final GreatCircle e = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.PLUS_X, TEST_PRECISION);
// act
final int hash = a.hashCode();
// act/assert
Assertions.assertEquals(hash, a.hashCode());
Assertions.assertNotEquals(hash, b.hashCode());
Assertions.assertNotEquals(hash, c.hashCode());
Assertions.assertNotEquals(hash, d.hashCode());
Assertions.assertEquals(hash, e.hashCode());
}
@Test
void testEquals() {
// arrange
final Precision.DoubleEquivalence precision = Precision.doubleEquivalenceOfEpsilon(1e-3);
final GreatCircle a = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.PLUS_X, TEST_PRECISION);
final GreatCircle b = GreatCircles.fromPoleAndU(Vector3D.Unit.MINUS_Z, Vector3D.Unit.PLUS_X, TEST_PRECISION);
final GreatCircle c = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.MINUS_X, TEST_PRECISION);
final GreatCircle d = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.PLUS_X, precision);
final GreatCircle e = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.PLUS_X, TEST_PRECISION);
// act/assert
GeometryTestUtils.assertSimpleEqualsCases(a);
Assertions.assertNotEquals(a, b);
Assertions.assertNotEquals(a, c);
Assertions.assertNotEquals(a, d);
Assertions.assertEquals(a, e);
Assertions.assertEquals(e, a);
}
@Test
void testToString() {
// arrange
final GreatCircle circle = GreatCircles.fromPoleAndU(Vector3D.Unit.PLUS_Z, Vector3D.Unit.PLUS_X, TEST_PRECISION);
// act
final String str = circle.toString();
// assert
GeometryTestUtils.assertContains("GreatCircle[", str);
GeometryTestUtils.assertContains("pole= (0.0, 0.0, 1.0)", str);
GeometryTestUtils.assertContains("u= (1.0, 0.0, 0.0)", str);
GeometryTestUtils.assertContains("v= (0.0, 1.0, 0.0)", str);
}
private static void checkGreatCircle(final GreatCircle circle, final Vector3D pole, final Vector3D u) {
SphericalTestUtils.assertVectorsEqual(pole, circle.getPole(), TEST_EPS);
SphericalTestUtils.assertVectorsEqual(pole, circle.getW(), TEST_EPS);
SphericalTestUtils.assertVectorsEqual(u, circle.getU(), TEST_EPS);
SphericalTestUtils.assertVectorsEqual(pole.cross(u), circle.getV(), TEST_EPS);
final Point2S plusPolePt = Point2S.from(circle.getPole());
final Point2S minusPolePt = Point2S.from(circle.getPole().negate());
final Point2S origin = Point2S.from(circle.getU());
SphericalTestUtils.assertPointsEqual(plusPolePt, circle.getPolePoint(), TEST_EPS);
Assertions.assertFalse(circle.contains(plusPolePt));
Assertions.assertFalse(circle.contains(minusPolePt));
Assertions.assertTrue(circle.contains(origin));
Assertions.assertEquals(HyperplaneLocation.MINUS, circle.classify(plusPolePt));
Assertions.assertEquals(HyperplaneLocation.PLUS, circle.classify(minusPolePt));
Assertions.assertEquals(HyperplaneLocation.ON, circle.classify(origin));
}
private static void checkArc(final GreatArc arc, final Point2S start, final Point2S end) {
SphericalTestUtils.assertPointsEq(start, arc.getStartPoint(), TEST_EPS);
SphericalTestUtils.assertPointsEq(end, arc.getEndPoint(), TEST_EPS);
}
}