/* * Licensed to the Apache Software Foundation (ASF) under one or more * 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 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package org.apache.commons.lang3; import static org.junit.jupiter.api.Assertions.assertEquals; import static org.junit.jupiter.api.Assertions.assertFalse; import static org.junit.jupiter.api.Assertions.assertNotEquals; import static org.junit.jupiter.api.Assertions.assertNotNull; import static org.junit.jupiter.api.Assertions.assertSame; import static org.junit.jupiter.api.Assertions.assertThrows; import static org.junit.jupiter.api.Assertions.assertTrue; import java.util.Comparator; import org.junit.jupiter.api.BeforeEach; import org.junit.jupiter.api.Test; /** * Tests {@link DoubleRange}. */ @SuppressWarnings("boxing") public class DoubleRangeTest extends AbstractLangTest { private static DoubleRange of(final double min, final double max) { return DoubleRange.of(min, max); } private static DoubleRange of(final Double min, final Double max) { return DoubleRange.of(min, max); } private DoubleRange range1; private DoubleRange range2; private DoubleRange range3; private DoubleRange rangeFull; @BeforeEach public void setUp() { range1 = of(10, 20); range2 = of(10, 20); range3 = of(-2, -1); rangeFull = of(Double.MIN_VALUE, Double.MAX_VALUE); } @Test public void testContainsInt() { assertFalse(range1.contains(null)); assertTrue(rangeFull.contains(Double.MIN_VALUE)); assertTrue(rangeFull.contains(Double.MAX_VALUE)); assertFalse(range1.contains(5d)); assertTrue(range1.contains(10d)); assertTrue(range1.contains(15d)); assertTrue(range1.contains(20d)); assertFalse(range1.contains(25d)); } @Test public void testContainsRange() { // null handling assertFalse(range1.containsRange(null)); // easy inside range assertTrue(range1.containsRange(Range.of(12d, 18d))); assertTrue(range1.containsRange(of(12, 18))); // outside range on each side assertFalse(range1.containsRange(Range.of(32d, 45d))); assertFalse(range1.containsRange(of(32, 45))); assertFalse(range1.containsRange(Range.of(2d, 8d))); assertFalse(range1.containsRange(of(2, 8))); // equals range assertTrue(range1.containsRange(Range.of(10d, 20d))); assertTrue(range1.containsRange(of(10, 20))); // overlaps assertFalse(range1.containsRange(Range.of(9d, 14d))); assertFalse(range1.containsRange(of(9, 14))); assertFalse(range1.containsRange(Range.of(16d, 21d))); assertFalse(range1.containsRange(of(16, 21))); // touches lower boundary assertTrue(range1.containsRange(Range.of(10d, 19d))); assertTrue(range1.containsRange(of(10, 19))); assertFalse(range1.containsRange(Range.of(10d, 21d))); assertFalse(range1.containsRange(of(10, 21))); // touches upper boundary assertTrue(range1.containsRange(Range.of(11d, 20d))); assertTrue(range1.containsRange(of(11, 20))); assertFalse(range1.containsRange(Range.of(9d, 20d))); assertFalse(range1.containsRange(of(9, 20))); // negative assertFalse(range1.containsRange(Range.of(-11d, -18d))); assertFalse(range1.containsRange(of(-11, -18))); } @Test public void testElementCompareTo() { assertThrows(NullPointerException.class, () -> range1.elementCompareTo(null)); assertEquals(-1, range1.elementCompareTo(5d)); assertEquals(0, range1.elementCompareTo(10d)); assertEquals(0, range1.elementCompareTo(15d)); assertEquals(0, range1.elementCompareTo(20d)); assertEquals(1, range1.elementCompareTo(25d)); } @Test public void testEqualsObject() { assertEquals(range1, range1); assertEquals(range1, range2); assertEquals(range2, range2); assertEquals(range1, range1); assertEquals(range2, range2); assertEquals(range3, range3); assertNotEquals(range2, range3); assertNotEquals(null, range2); assertNotEquals("Ni!", range2); } @Test public void testFit() { assertEquals(range1.getMinimum(), range1.fit(Double.MIN_VALUE)); assertEquals(range1.getMinimum(), range1.fit(range1.getMinimum())); assertEquals(range1.getMaximum(), range1.fit(Double.MAX_VALUE)); assertEquals(range1.getMaximum(), range1.fit(range1.getMaximum())); assertEquals(15, range1.fit(15d)); } @Test public void testFitNull() { assertThrows(NullPointerException.class, () -> { range1.fit(null); }); } @Test public void testGetMaximum() { assertEquals(20d, range1.getMaximum()); } @Test public void testGetMinimum() { assertEquals(10d, range1.getMinimum()); } @Test public void testHashCode() { assertEquals(range1.hashCode(), range2.hashCode()); assertNotEquals(range1.hashCode(), range3.hashCode()); assertEquals(range1.hashCode(), range1.hashCode()); assertTrue(range1.hashCode() != 0); } @Test public void testIntersectionWith() { assertSame(range1, range1.intersectionWith(range1)); assertEquals(Range.of(10d, 15d), range1.intersectionWith(Range.of(5d, 15d))); } @Test public void testIntersectionWithNonOverlapping() { assertThrows(IllegalArgumentException.class, () -> range1.intersectionWith(Range.of(0d, 9d))); } @Test public void testIntersectionWithNull() { assertThrows(IllegalArgumentException.class, () -> range1.intersectionWith(null)); } @Test public void testIsAfter() { assertFalse(range1.isAfter(null)); assertTrue(range1.isAfter(5d)); assertFalse(range1.isAfter(10d)); assertFalse(range1.isAfter(15d)); assertFalse(range1.isAfter(20d)); assertFalse(range1.isAfter(25d)); } @Test public void testIsAfterRange() { assertFalse(range1.isAfterRange(null)); assertTrue(range1.isAfterRange(Range.of(5d, 9d))); assertFalse(range1.isAfterRange(Range.of(5d, 10d))); assertFalse(range1.isAfterRange(Range.of(5d, 20d))); assertFalse(range1.isAfterRange(Range.of(5d, 25d))); assertFalse(range1.isAfterRange(Range.of(15d, 25d))); assertFalse(range1.isAfterRange(Range.of(21d, 25d))); assertFalse(range1.isAfterRange(Range.of(10d, 20d))); } @Test public void testIsBefore() { assertFalse(range1.isBefore(null)); assertFalse(range1.isBefore(5d)); assertFalse(range1.isBefore(10d)); assertFalse(range1.isBefore(15d)); assertFalse(range1.isBefore(20d)); assertTrue(range1.isBefore(25d)); } @Test public void testIsBeforeIntegerRange() { assertFalse(range1.isBeforeRange(null)); assertFalse(range1.isBeforeRange(of(5, 9))); assertFalse(range1.isBeforeRange(of(5, 10))); assertFalse(range1.isBeforeRange(of(5, 20))); assertFalse(range1.isBeforeRange(of(5, 25))); assertFalse(range1.isBeforeRange(of(15, 25))); assertTrue(range1.isBeforeRange(of(21, 25))); assertFalse(range1.isBeforeRange(of(10, 20))); } @Test public void testIsBeforeRange() { assertFalse(range1.isBeforeRange(null)); assertFalse(range1.isBeforeRange(Range.of(5d, 9d))); assertFalse(range1.isBeforeRange(Range.of(5d, 10d))); assertFalse(range1.isBeforeRange(Range.of(5d, 20d))); assertFalse(range1.isBeforeRange(Range.of(5d, 25d))); assertFalse(range1.isBeforeRange(Range.of(15d, 25d))); assertTrue(range1.isBeforeRange(Range.of(21d, 25d))); assertFalse(range1.isBeforeRange(Range.of(10d, 20d))); } @Test public void testIsEndedBy() { assertFalse(range1.isEndedBy(null)); assertFalse(range1.isEndedBy(5d)); assertFalse(range1.isEndedBy(10d)); assertFalse(range1.isEndedBy(15d)); assertTrue(range1.isEndedBy(20d)); assertFalse(range1.isEndedBy(25d)); } @Test public void testIsOverlappedByIntegerRange() { // null handling assertFalse(range1.isOverlappedBy(null)); // easy inside range assertTrue(range1.isOverlappedBy(of(12, 18))); // outside range on each side assertFalse(range1.isOverlappedBy(of(32, 45))); assertFalse(range1.isOverlappedBy(of(2, 8))); // equals range assertTrue(range1.isOverlappedBy(of(10, 20))); // overlaps assertTrue(range1.isOverlappedBy(of(9, 14))); assertTrue(range1.isOverlappedBy(of(16, 21))); // touches lower boundary assertTrue(range1.isOverlappedBy(of(10, 19))); assertTrue(range1.isOverlappedBy(of(10, 21))); // touches upper boundary assertTrue(range1.isOverlappedBy(of(11, 20))); assertTrue(range1.isOverlappedBy(of(9, 20))); // negative assertFalse(range1.isOverlappedBy(of(-11, -18))); // outside range whole range assertTrue(range1.isOverlappedBy(of(9, 21))); } @Test public void testIsOverlappedByRange() { // null handling assertFalse(range1.isOverlappedBy(null)); // easy inside range assertTrue(range1.isOverlappedBy(Range.of(12d, 18d))); // outside range on each side assertFalse(range1.isOverlappedBy(Range.of(32d, 45d))); assertFalse(range1.isOverlappedBy(Range.of(2d, 8d))); // equals range assertTrue(range1.isOverlappedBy(Range.of(10d, 20d))); // overlaps assertTrue(range1.isOverlappedBy(Range.of(9d, 14d))); assertTrue(range1.isOverlappedBy(Range.of(16d, 21d))); // touches lower boundary assertTrue(range1.isOverlappedBy(Range.of(10d, 19d))); assertTrue(range1.isOverlappedBy(Range.of(10d, 21d))); // touches upper boundary assertTrue(range1.isOverlappedBy(Range.of(11d, 20d))); assertTrue(range1.isOverlappedBy(Range.of(9d, 20d))); // negative assertFalse(range1.isOverlappedBy(Range.of(-11d, -18d))); // outside range whole range assertTrue(range1.isOverlappedBy(Range.of(9d, 21d))); } @Test public void testIsStartedBy() { assertFalse(range1.isStartedBy(null)); assertFalse(range1.isStartedBy(5d)); assertTrue(range1.isStartedBy(10d)); assertFalse(range1.isStartedBy(15d)); assertFalse(range1.isStartedBy(20d)); assertFalse(range1.isStartedBy(25d)); } @Test public void testIsWithCompareRange() { // all integers are equal final Comparator c = (o1, o2) -> 0; Range ri = Range.is(10); assertFalse(ri.contains(null), "should not contain null"); assertTrue(ri.contains(10), "should contain 10"); assertFalse(ri.contains(11), "should not contain 11"); ri = Range.is(10, c); assertFalse(ri.contains(null), "should not contain null"); assertTrue(ri.contains(10), "should contain 10"); assertTrue(ri.contains(11), "should contain 11"); } @Test public void testOfWithContains() { // all integers are equal final DoubleRange rb = of(-10, 20); assertFalse(rb.contains(null), "should not contain null"); assertTrue(rb.contains(10d), "should contain 10"); assertTrue(rb.contains(-10d), "should contain -10"); assertFalse(rb.contains(21d), "should not contain 21"); assertFalse(rb.contains(-11d), "should not contain -11"); assertThrows(NullPointerException.class, () -> of(null, null)); } @Test public void testRangeOfChars() { final DoubleRange chars = of('a', 'z'); assertTrue(chars.contains((double) 'b')); assertFalse(chars.contains((double) 'B')); } @Test public void testSerializing() { SerializationUtils.clone(range1); } @Test public void testToString() { assertNotNull(range1.toString()); final String str = range1.toString(); assertEquals("[10.0..20.0]", str); assertEquals("[-20.0..-10.0]", Range.of(-20d, -10d).toString()); assertEquals("[-20.0..-10.0]", DoubleRange.of(-20d, -10d).toString()); } @Test public void testToStringFormat() { final String str = range1.toString("From %1$s to %2$s"); assertEquals("From 10.0 to 20.0", str); } }