/* * Copyright (C) 2008 The Guava Authors * * Licensed 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 com.google.common.collect; import static com.google.common.collect.BoundType.CLOSED; import static com.google.common.collect.BoundType.OPEN; import static com.google.common.collect.DiscreteDomain.integers; import static com.google.common.testing.SerializableTester.reserializeAndAssert; import static com.google.common.truth.Truth.assertThat; import static java.util.Arrays.asList; import com.google.common.annotations.GwtCompatible; import com.google.common.annotations.GwtIncompatible; import com.google.common.base.Predicate; import com.google.common.collect.testing.Helpers; import com.google.common.testing.EqualsTester; import java.util.Arrays; import java.util.Collections; import java.util.List; import java.util.NoSuchElementException; import junit.framework.TestCase; import org.checkerframework.checker.nullness.qual.Nullable; /** * Unit test for {@link Range}. * * @author Kevin Bourrillion */ @GwtCompatible(emulated = true) @ElementTypesAreNonnullByDefault public class RangeTest extends TestCase { public void testOpen() { Range range = Range.open(4, 8); checkContains(range); assertTrue(range.hasLowerBound()); assertEquals(4, (int) range.lowerEndpoint()); assertEquals(OPEN, range.lowerBoundType()); assertTrue(range.hasUpperBound()); assertEquals(8, (int) range.upperEndpoint()); assertEquals(OPEN, range.upperBoundType()); assertFalse(range.isEmpty()); assertEquals("(4..8)", range.toString()); reserializeAndAssert(range); } public void testOpen_invalid() { try { Range.open(4, 3); fail(); } catch (IllegalArgumentException expected) { } try { Range.open(3, 3); fail(); } catch (IllegalArgumentException expected) { } } public void testClosed() { Range range = Range.closed(5, 7); checkContains(range); assertTrue(range.hasLowerBound()); assertEquals(5, (int) range.lowerEndpoint()); assertEquals(CLOSED, range.lowerBoundType()); assertTrue(range.hasUpperBound()); assertEquals(7, (int) range.upperEndpoint()); assertEquals(CLOSED, range.upperBoundType()); assertFalse(range.isEmpty()); assertEquals("[5..7]", range.toString()); reserializeAndAssert(range); } public void testClosed_invalid() { try { Range.closed(4, 3); fail(); } catch (IllegalArgumentException expected) { } } public void testOpenClosed() { Range range = Range.openClosed(4, 7); checkContains(range); assertTrue(range.hasLowerBound()); assertEquals(4, (int) range.lowerEndpoint()); assertEquals(OPEN, range.lowerBoundType()); assertTrue(range.hasUpperBound()); assertEquals(7, (int) range.upperEndpoint()); assertEquals(CLOSED, range.upperBoundType()); assertFalse(range.isEmpty()); assertEquals("(4..7]", range.toString()); reserializeAndAssert(range); } public void testClosedOpen() { Range range = Range.closedOpen(5, 8); checkContains(range); assertTrue(range.hasLowerBound()); assertEquals(5, (int) range.lowerEndpoint()); assertEquals(CLOSED, range.lowerBoundType()); assertTrue(range.hasUpperBound()); assertEquals(8, (int) range.upperEndpoint()); assertEquals(OPEN, range.upperBoundType()); assertFalse(range.isEmpty()); assertEquals("[5..8)", range.toString()); reserializeAndAssert(range); } public void testIsConnected() { assertTrue(Range.closed(3, 5).isConnected(Range.open(5, 6))); assertTrue(Range.closed(3, 5).isConnected(Range.closed(5, 6))); assertTrue(Range.closed(5, 6).isConnected(Range.closed(3, 5))); assertTrue(Range.closed(3, 5).isConnected(Range.openClosed(5, 5))); assertTrue(Range.open(3, 5).isConnected(Range.closed(5, 6))); assertTrue(Range.closed(3, 7).isConnected(Range.open(6, 8))); assertTrue(Range.open(3, 7).isConnected(Range.closed(5, 6))); assertFalse(Range.closed(3, 5).isConnected(Range.closed(7, 8))); assertFalse(Range.closed(3, 5).isConnected(Range.closedOpen(7, 7))); } private static void checkContains(Range range) { assertFalse(range.contains(4)); assertTrue(range.contains(5)); assertTrue(range.contains(7)); assertFalse(range.contains(8)); } public void testSingleton() { Range range = Range.closed(4, 4); assertFalse(range.contains(3)); assertTrue(range.contains(4)); assertFalse(range.contains(5)); assertTrue(range.hasLowerBound()); assertEquals(4, (int) range.lowerEndpoint()); assertEquals(CLOSED, range.lowerBoundType()); assertTrue(range.hasUpperBound()); assertEquals(4, (int) range.upperEndpoint()); assertEquals(CLOSED, range.upperBoundType()); assertFalse(range.isEmpty()); assertEquals("[4..4]", range.toString()); reserializeAndAssert(range); } public void testEmpty1() { Range range = Range.closedOpen(4, 4); assertFalse(range.contains(3)); assertFalse(range.contains(4)); assertFalse(range.contains(5)); assertTrue(range.hasLowerBound()); assertEquals(4, (int) range.lowerEndpoint()); assertEquals(CLOSED, range.lowerBoundType()); assertTrue(range.hasUpperBound()); assertEquals(4, (int) range.upperEndpoint()); assertEquals(OPEN, range.upperBoundType()); assertTrue(range.isEmpty()); assertEquals("[4..4)", range.toString()); reserializeAndAssert(range); } public void testEmpty2() { Range range = Range.openClosed(4, 4); assertFalse(range.contains(3)); assertFalse(range.contains(4)); assertFalse(range.contains(5)); assertTrue(range.hasLowerBound()); assertEquals(4, (int) range.lowerEndpoint()); assertEquals(OPEN, range.lowerBoundType()); assertTrue(range.hasUpperBound()); assertEquals(4, (int) range.upperEndpoint()); assertEquals(CLOSED, range.upperBoundType()); assertTrue(range.isEmpty()); assertEquals("(4..4]", range.toString()); reserializeAndAssert(range); } public void testLessThan() { Range range = Range.lessThan(5); assertTrue(range.contains(Integer.MIN_VALUE)); assertTrue(range.contains(4)); assertFalse(range.contains(5)); assertUnboundedBelow(range); assertTrue(range.hasUpperBound()); assertEquals(5, (int) range.upperEndpoint()); assertEquals(OPEN, range.upperBoundType()); assertFalse(range.isEmpty()); assertEquals("(-\u221e..5)", range.toString()); reserializeAndAssert(range); } public void testGreaterThan() { Range range = Range.greaterThan(5); assertFalse(range.contains(5)); assertTrue(range.contains(6)); assertTrue(range.contains(Integer.MAX_VALUE)); assertTrue(range.hasLowerBound()); assertEquals(5, (int) range.lowerEndpoint()); assertEquals(OPEN, range.lowerBoundType()); assertUnboundedAbove(range); assertFalse(range.isEmpty()); assertEquals("(5..+\u221e)", range.toString()); reserializeAndAssert(range); } public void testAtLeast() { Range range = Range.atLeast(6); assertFalse(range.contains(5)); assertTrue(range.contains(6)); assertTrue(range.contains(Integer.MAX_VALUE)); assertTrue(range.hasLowerBound()); assertEquals(6, (int) range.lowerEndpoint()); assertEquals(CLOSED, range.lowerBoundType()); assertUnboundedAbove(range); assertFalse(range.isEmpty()); assertEquals("[6..+\u221e)", range.toString()); reserializeAndAssert(range); } public void testAtMost() { Range range = Range.atMost(4); assertTrue(range.contains(Integer.MIN_VALUE)); assertTrue(range.contains(4)); assertFalse(range.contains(5)); assertUnboundedBelow(range); assertTrue(range.hasUpperBound()); assertEquals(4, (int) range.upperEndpoint()); assertEquals(CLOSED, range.upperBoundType()); assertFalse(range.isEmpty()); assertEquals("(-\u221e..4]", range.toString()); reserializeAndAssert(range); } public void testAll() { Range range = Range.all(); assertTrue(range.contains(Integer.MIN_VALUE)); assertTrue(range.contains(Integer.MAX_VALUE)); assertUnboundedBelow(range); assertUnboundedAbove(range); assertFalse(range.isEmpty()); assertEquals("(-\u221e..+\u221e)", range.toString()); assertSame(range, reserializeAndAssert(range)); assertSame(range, Range.all()); } private static void assertUnboundedBelow(Range range) { assertFalse(range.hasLowerBound()); try { range.lowerEndpoint(); fail(); } catch (IllegalStateException expected) { } try { range.lowerBoundType(); fail(); } catch (IllegalStateException expected) { } } private static void assertUnboundedAbove(Range range) { assertFalse(range.hasUpperBound()); try { range.upperEndpoint(); fail(); } catch (IllegalStateException expected) { } try { range.upperBoundType(); fail(); } catch (IllegalStateException expected) { } } public void testOrderingCuts() { Cut a = Range.lessThan(0).lowerBound; Cut b = Range.atLeast(0).lowerBound; Cut c = Range.greaterThan(0).lowerBound; Cut d = Range.atLeast(1).lowerBound; Cut e = Range.greaterThan(1).lowerBound; Cut f = Range.greaterThan(1).upperBound; Helpers.testCompareToAndEquals(ImmutableList.of(a, b, c, d, e, f)); } public void testContainsAll() { Range range = Range.closed(3, 5); assertTrue(range.containsAll(asList(3, 3, 4, 5))); assertFalse(range.containsAll(asList(3, 3, 4, 5, 6))); // We happen to know that natural-order sorted sets use a different code // path, so we test that separately assertTrue(range.containsAll(ImmutableSortedSet.of(3, 3, 4, 5))); assertTrue(range.containsAll(ImmutableSortedSet.of(3))); assertTrue(range.containsAll(ImmutableSortedSet.of())); assertFalse(range.containsAll(ImmutableSortedSet.of(3, 3, 4, 5, 6))); assertTrue(Range.openClosed(3, 3).containsAll(Collections.emptySet())); } public void testEncloses_open() { Range range = Range.open(2, 5); assertTrue(range.encloses(range)); assertTrue(range.encloses(Range.open(2, 4))); assertTrue(range.encloses(Range.open(3, 5))); assertTrue(range.encloses(Range.closed(3, 4))); assertFalse(range.encloses(Range.openClosed(2, 5))); assertFalse(range.encloses(Range.closedOpen(2, 5))); assertFalse(range.encloses(Range.closed(1, 4))); assertFalse(range.encloses(Range.closed(3, 6))); assertFalse(range.encloses(Range.greaterThan(3))); assertFalse(range.encloses(Range.lessThan(3))); assertFalse(range.encloses(Range.atLeast(3))); assertFalse(range.encloses(Range.atMost(3))); assertFalse(range.encloses(Range.all())); } public void testEncloses_closed() { Range range = Range.closed(2, 5); assertTrue(range.encloses(range)); assertTrue(range.encloses(Range.open(2, 5))); assertTrue(range.encloses(Range.openClosed(2, 5))); assertTrue(range.encloses(Range.closedOpen(2, 5))); assertTrue(range.encloses(Range.closed(3, 5))); assertTrue(range.encloses(Range.closed(2, 4))); assertFalse(range.encloses(Range.open(1, 6))); assertFalse(range.encloses(Range.greaterThan(3))); assertFalse(range.encloses(Range.lessThan(3))); assertFalse(range.encloses(Range.atLeast(3))); assertFalse(range.encloses(Range.atMost(3))); assertFalse(range.encloses(Range.all())); } public void testIntersection_empty() { Range range = Range.closedOpen(3, 3); assertEquals(range, range.intersection(range)); try { range.intersection(Range.open(3, 5)); fail(); } catch (IllegalArgumentException expected) { // TODO(kevinb): convert the rest of this file to Truth someday assertThat(expected).hasMessageThat().contains("connected"); } try { range.intersection(Range.closed(0, 2)); fail(); } catch (IllegalArgumentException expected) { assertThat(expected).hasMessageThat().contains("connected"); } } public void testIntersection_deFactoEmpty() { Range range = Range.open(3, 4); assertEquals(range, range.intersection(range)); assertEquals(Range.openClosed(3, 3), range.intersection(Range.atMost(3))); assertEquals(Range.closedOpen(4, 4), range.intersection(Range.atLeast(4))); try { range.intersection(Range.lessThan(3)); fail(); } catch (IllegalArgumentException expected) { assertThat(expected).hasMessageThat().contains("connected"); } try { range.intersection(Range.greaterThan(4)); fail(); } catch (IllegalArgumentException expected) { assertThat(expected).hasMessageThat().contains("connected"); } range = Range.closed(3, 4); assertEquals(Range.openClosed(4, 4), range.intersection(Range.greaterThan(4))); } public void testIntersection_singleton() { Range range = Range.closed(3, 3); assertEquals(range, range.intersection(range)); assertEquals(range, range.intersection(Range.atMost(4))); assertEquals(range, range.intersection(Range.atMost(3))); assertEquals(range, range.intersection(Range.atLeast(3))); assertEquals(range, range.intersection(Range.atLeast(2))); assertEquals(Range.closedOpen(3, 3), range.intersection(Range.lessThan(3))); assertEquals(Range.openClosed(3, 3), range.intersection(Range.greaterThan(3))); try { range.intersection(Range.atLeast(4)); fail(); } catch (IllegalArgumentException expected) { assertThat(expected).hasMessageThat().contains("connected"); } try { range.intersection(Range.atMost(2)); fail(); } catch (IllegalArgumentException expected) { assertThat(expected).hasMessageThat().contains("connected"); } } public void testIntersection_general() { Range range = Range.closed(4, 8); // separate below try { range.intersection(Range.closed(0, 2)); fail(); } catch (IllegalArgumentException expected) { assertThat(expected).hasMessageThat().contains("connected"); } // adjacent below assertEquals(Range.closedOpen(4, 4), range.intersection(Range.closedOpen(2, 4))); // overlap below assertEquals(Range.closed(4, 6), range.intersection(Range.closed(2, 6))); // enclosed with same start assertEquals(Range.closed(4, 6), range.intersection(Range.closed(4, 6))); // enclosed, interior assertEquals(Range.closed(5, 7), range.intersection(Range.closed(5, 7))); // enclosed with same end assertEquals(Range.closed(6, 8), range.intersection(Range.closed(6, 8))); // equal assertEquals(range, range.intersection(range)); // enclosing with same start assertEquals(range, range.intersection(Range.closed(4, 10))); // enclosing with same end assertEquals(range, range.intersection(Range.closed(2, 8))); // enclosing, exterior assertEquals(range, range.intersection(Range.closed(2, 10))); // overlap above assertEquals(Range.closed(6, 8), range.intersection(Range.closed(6, 10))); // adjacent above assertEquals(Range.openClosed(8, 8), range.intersection(Range.openClosed(8, 10))); // separate above try { range.intersection(Range.closed(10, 12)); fail(); } catch (IllegalArgumentException expected) { assertThat(expected).hasMessageThat().contains("connected"); } } public void testGap_overlapping() { Range range = Range.closedOpen(3, 5); try { range.gap(Range.closed(4, 6)); fail(); } catch (IllegalArgumentException expected) { } try { range.gap(Range.closed(2, 4)); fail(); } catch (IllegalArgumentException expected) { } try { range.gap(Range.closed(2, 3)); fail(); } catch (IllegalArgumentException expected) { } } public void testGap_invalidRangesWithInfinity() { try { Range.atLeast(1).gap(Range.atLeast(2)); fail(); } catch (IllegalArgumentException expected) { } try { Range.atLeast(2).gap(Range.atLeast(1)); fail(); } catch (IllegalArgumentException expected) { } try { Range.atMost(1).gap(Range.atMost(2)); fail(); } catch (IllegalArgumentException expected) { } try { Range.atMost(2).gap(Range.atMost(1)); fail(); } catch (IllegalArgumentException expected) { } } public void testGap_connectedAdjacentYieldsEmpty() { Range range = Range.open(3, 4); assertEquals(Range.closedOpen(4, 4), range.gap(Range.atLeast(4))); assertEquals(Range.openClosed(3, 3), range.gap(Range.atMost(3))); } public void testGap_general() { Range openRange = Range.open(4, 8); Range closedRange = Range.closed(4, 8); // first range open end, second range open start assertEquals(Range.closed(2, 4), Range.lessThan(2).gap(openRange)); assertEquals(Range.closed(2, 4), openRange.gap(Range.lessThan(2))); // first range closed end, second range open start assertEquals(Range.openClosed(2, 4), Range.atMost(2).gap(openRange)); assertEquals(Range.openClosed(2, 4), openRange.gap(Range.atMost(2))); // first range open end, second range closed start assertEquals(Range.closedOpen(2, 4), Range.lessThan(2).gap(closedRange)); assertEquals(Range.closedOpen(2, 4), closedRange.gap(Range.lessThan(2))); // first range closed end, second range closed start assertEquals(Range.open(2, 4), Range.atMost(2).gap(closedRange)); assertEquals(Range.open(2, 4), closedRange.gap(Range.atMost(2))); } // TODO(cpovirk): More extensive testing of gap(). public void testSpan_general() { Range range = Range.closed(4, 8); // separate below assertEquals(Range.closed(0, 8), range.span(Range.closed(0, 2))); assertEquals(Range.atMost(8), range.span(Range.atMost(2))); // adjacent below assertEquals(Range.closed(2, 8), range.span(Range.closedOpen(2, 4))); assertEquals(Range.atMost(8), range.span(Range.lessThan(4))); // overlap below assertEquals(Range.closed(2, 8), range.span(Range.closed(2, 6))); assertEquals(Range.atMost(8), range.span(Range.atMost(6))); // enclosed with same start assertEquals(range, range.span(Range.closed(4, 6))); // enclosed, interior assertEquals(range, range.span(Range.closed(5, 7))); // enclosed with same end assertEquals(range, range.span(Range.closed(6, 8))); // equal assertEquals(range, range.span(range)); // enclosing with same start assertEquals(Range.closed(4, 10), range.span(Range.closed(4, 10))); assertEquals(Range.atLeast(4), range.span(Range.atLeast(4))); // enclosing with same end assertEquals(Range.closed(2, 8), range.span(Range.closed(2, 8))); assertEquals(Range.atMost(8), range.span(Range.atMost(8))); // enclosing, exterior assertEquals(Range.closed(2, 10), range.span(Range.closed(2, 10))); assertEquals(Range.all(), range.span(Range.all())); // overlap above assertEquals(Range.closed(4, 10), range.span(Range.closed(6, 10))); assertEquals(Range.atLeast(4), range.span(Range.atLeast(6))); // adjacent above assertEquals(Range.closed(4, 10), range.span(Range.openClosed(8, 10))); assertEquals(Range.atLeast(4), range.span(Range.greaterThan(8))); // separate above assertEquals(Range.closed(4, 12), range.span(Range.closed(10, 12))); assertEquals(Range.atLeast(4), range.span(Range.atLeast(10))); } public void testApply() { Predicate predicate = Range.closed(2, 3); assertFalse(predicate.apply(1)); assertTrue(predicate.apply(2)); assertTrue(predicate.apply(3)); assertFalse(predicate.apply(4)); } public void testEquals() { new EqualsTester() .addEqualityGroup(Range.open(1, 5), Range.range(1, OPEN, 5, OPEN)) .addEqualityGroup(Range.greaterThan(2), Range.greaterThan(2)) .addEqualityGroup(Range.all(), Range.all()) .addEqualityGroup("Phil") .testEquals(); } @GwtIncompatible // TODO(b/148207871): Restore once Eclipse compiler no longer flakes for this. public void testLegacyComparable() { Range unused = Range.closed(LegacyComparable.X, LegacyComparable.Y); } private static final DiscreteDomain UNBOUNDED_DOMAIN = new DiscreteDomain() { @Override public Integer next(Integer value) { return integers().next(value); } @Override public Integer previous(Integer value) { return integers().previous(value); } @Override public long distance(Integer start, Integer end) { return integers().distance(start, end); } }; public void testCanonical() { assertEquals(Range.closedOpen(1, 5), Range.closed(1, 4).canonical(integers())); assertEquals(Range.closedOpen(1, 5), Range.open(0, 5).canonical(integers())); assertEquals(Range.closedOpen(1, 5), Range.closedOpen(1, 5).canonical(integers())); assertEquals(Range.closedOpen(1, 5), Range.openClosed(0, 4).canonical(integers())); assertEquals( Range.closedOpen(Integer.MIN_VALUE, 0), Range.closedOpen(Integer.MIN_VALUE, 0).canonical(integers())); assertEquals(Range.closedOpen(Integer.MIN_VALUE, 0), Range.lessThan(0).canonical(integers())); assertEquals(Range.closedOpen(Integer.MIN_VALUE, 1), Range.atMost(0).canonical(integers())); assertEquals(Range.atLeast(0), Range.atLeast(0).canonical(integers())); assertEquals(Range.atLeast(1), Range.greaterThan(0).canonical(integers())); assertEquals(Range.atLeast(Integer.MIN_VALUE), Range.all().canonical(integers())); } public void testCanonical_unboundedDomain() { assertEquals(Range.lessThan(0), Range.lessThan(0).canonical(UNBOUNDED_DOMAIN)); assertEquals(Range.lessThan(1), Range.atMost(0).canonical(UNBOUNDED_DOMAIN)); assertEquals(Range.atLeast(0), Range.atLeast(0).canonical(UNBOUNDED_DOMAIN)); assertEquals(Range.atLeast(1), Range.greaterThan(0).canonical(UNBOUNDED_DOMAIN)); assertEquals(Range.all(), Range.all().canonical(UNBOUNDED_DOMAIN)); } public void testEncloseAll() { assertEquals(Range.closed(0, 0), Range.encloseAll(Arrays.asList(0))); assertEquals(Range.closed(-3, 5), Range.encloseAll(Arrays.asList(5, -3))); assertEquals(Range.closed(-3, 5), Range.encloseAll(Arrays.asList(1, 2, 2, 2, 5, -3, 0, -1))); } public void testEncloseAll_empty() { try { Range.encloseAll(ImmutableSet.of()); fail(); } catch (NoSuchElementException expected) { } } public void testEncloseAll_nullValue() { List<@Nullable Integer> nullFirst = Lists.newArrayList(null, 0); try { Range.encloseAll((List) nullFirst); fail(); } catch (NullPointerException expected) { } List<@Nullable Integer> nullNotFirst = Lists.newArrayList(0, null); try { Range.encloseAll((List) nullNotFirst); fail(); } catch (NullPointerException expected) { } } public void testEquivalentFactories() { new EqualsTester() .addEqualityGroup(Range.all()) .addEqualityGroup(Range.atLeast(1), Range.downTo(1, CLOSED)) .addEqualityGroup(Range.greaterThan(1), Range.downTo(1, OPEN)) .addEqualityGroup(Range.atMost(7), Range.upTo(7, CLOSED)) .addEqualityGroup(Range.lessThan(7), Range.upTo(7, OPEN)) .addEqualityGroup(Range.open(1, 7), Range.range(1, OPEN, 7, OPEN)) .addEqualityGroup(Range.openClosed(1, 7), Range.range(1, OPEN, 7, CLOSED)) .addEqualityGroup(Range.closed(1, 7), Range.range(1, CLOSED, 7, CLOSED)) .addEqualityGroup(Range.closedOpen(1, 7), Range.range(1, CLOSED, 7, OPEN)) .testEquals(); } }