/*
* Copyright (C) 2007 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.Iterables.skip;
import static com.google.common.collect.Lists.newArrayList;
import static com.google.common.collect.Sets.newLinkedHashSet;
import static com.google.common.collect.testing.IteratorFeature.MODIFIABLE;
import static com.google.common.collect.testing.IteratorFeature.UNMODIFIABLE;
import static com.google.common.truth.Truth.assertThat;
import static java.util.Arrays.asList;
import static java.util.Collections.emptyList;
import com.google.common.annotations.GwtCompatible;
import com.google.common.annotations.GwtIncompatible;
import com.google.common.base.Function;
import com.google.common.base.Optional;
import com.google.common.base.Predicate;
import com.google.common.base.Predicates;
import com.google.common.collect.testing.IteratorTester;
import com.google.common.testing.ClassSanityTester;
import com.google.common.testing.NullPointerTester;
import junit.framework.AssertionFailedError;
import junit.framework.TestCase;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.ConcurrentModificationException;
import java.util.Iterator;
import java.util.List;
import java.util.NoSuchElementException;
import java.util.Queue;
import java.util.RandomAccess;
import java.util.Set;
import java.util.SortedSet;
import java.util.TreeSet;
/**
* Unit test for {@code Iterables}.
*
* @author Kevin Bourrillion
* @author Jared Levy
*/
@GwtCompatible(emulated = true)
public class IterablesTest extends TestCase {
public void testSize0() {
Iterable<String> iterable = Collections.emptySet();
assertEquals(0, Iterables.size(iterable));
}
public void testSize1Collection() {
Iterable<String> iterable = Collections.singleton("a");
assertEquals(1, Iterables.size(iterable));
}
public void testSize2NonCollection() {
Iterable<Integer> iterable = new Iterable<Integer>() {
@Override
public Iterator<Integer> iterator() {
return asList(0, 1).iterator();
}
};
assertEquals(2, Iterables.size(iterable));
}
@SuppressWarnings("serial")
public void testSize_collection_doesntIterate() {
List<Integer> nums = asList(1, 2, 3, 4, 5);
List<Integer> collection = new ArrayList<Integer>(nums) {
@Override public Iterator<Integer> iterator() {
throw new AssertionFailedError("Don't iterate me!");
}
};
assertEquals(5, Iterables.size(collection));
}
private static Iterable<String> iterable(String... elements) {
final List<String> list = asList(elements);
return new Iterable<String>() {
@Override
public Iterator<String> iterator() {
return list.iterator();
}
};
}
public void test_contains_null_set_yes() {
Iterable<String> set = Sets.newHashSet("a", null, "b");
assertTrue(Iterables.contains(set, null));
}
public void test_contains_null_set_no() {
Iterable<String> set = Sets.newHashSet("a", "b");
assertFalse(Iterables.contains(set, null));
}
public void test_contains_null_iterable_yes() {
Iterable<String> set = iterable("a", null, "b");
assertTrue(Iterables.contains(set, null));
}
public void test_contains_null_iterable_no() {
Iterable<String> set = iterable("a", "b");
assertFalse(Iterables.contains(set, null));
}
public void test_contains_nonnull_set_yes() {
Iterable<String> set = Sets.newHashSet("a", null, "b");
assertTrue(Iterables.contains(set, "b"));
}
public void test_contains_nonnull_set_no() {
Iterable<String> set = Sets.newHashSet("a", "b");
assertFalse(Iterables.contains(set, "c"));
}
public void test_contains_nonnull_iterable_yes() {
Iterable<String> set = iterable("a", null, "b");
assertTrue(Iterables.contains(set, "b"));
}
public void test_contains_nonnull_iterable_no() {
Iterable<String> set = iterable("a", "b");
assertFalse(Iterables.contains(set, "c"));
}
public void testGetOnlyElement_noDefault_valid() {
Iterable<String> iterable = Collections.singletonList("foo");
assertEquals("foo", Iterables.getOnlyElement(iterable));
}
public void testGetOnlyElement_noDefault_empty() {
Iterable<String> iterable = Collections.emptyList();
try {
Iterables.getOnlyElement(iterable);
fail();
} catch (NoSuchElementException expected) {
}
}
public void testGetOnlyElement_noDefault_multiple() {
Iterable<String> iterable = asList("foo", "bar");
try {
Iterables.getOnlyElement(iterable);
fail();
} catch (IllegalArgumentException expected) {
}
}
public void testGetOnlyElement_withDefault_singleton() {
Iterable<String> iterable = Collections.singletonList("foo");
assertEquals("foo", Iterables.getOnlyElement(iterable, "bar"));
}
public void testGetOnlyElement_withDefault_empty() {
Iterable<String> iterable = Collections.emptyList();
assertEquals("bar", Iterables.getOnlyElement(iterable, "bar"));
}
public void testGetOnlyElement_withDefault_empty_null() {
Iterable<String> iterable = Collections.emptyList();
assertNull(Iterables.getOnlyElement(iterable, null));
}
public void testGetOnlyElement_withDefault_multiple() {
Iterable<String> iterable = asList("foo", "bar");
try {
Iterables.getOnlyElement(iterable, "x");
fail();
} catch (IllegalArgumentException expected) {
}
}
@GwtIncompatible("Iterables.toArray(Iterable, Class)")
public void testToArrayEmpty() {
Iterable<String> iterable = Collections.emptyList();
String[] array = Iterables.toArray(iterable, String.class);
assertTrue(Arrays.equals(new String[0], array));
}
@GwtIncompatible("Iterables.toArray(Iterable, Class)")
public void testToArraySingleton() {
Iterable<String> iterable = Collections.singletonList("a");
String[] array = Iterables.toArray(iterable, String.class);
assertTrue(Arrays.equals(new String[] {"a"}, array));
}
@GwtIncompatible("Iterables.toArray(Iterable, Class)")
public void testToArray() {
String[] sourceArray = new String[] {"a", "b", "c"};
Iterable<String> iterable = asList(sourceArray);
String[] newArray = Iterables.toArray(iterable, String.class);
assertTrue(Arrays.equals(sourceArray, newArray));
}
public void testAny() {
List<String> list = newArrayList();
Predicate<String> predicate = Predicates.equalTo("pants");
assertFalse(Iterables.any(list, predicate));
list.add("cool");
assertFalse(Iterables.any(list, predicate));
list.add("pants");
assertTrue(Iterables.any(list, predicate));
}
public void testAll() {
List<String> list = newArrayList();
Predicate<String> predicate = Predicates.equalTo("cool");
assertTrue(Iterables.all(list, predicate));
list.add("cool");
assertTrue(Iterables.all(list, predicate));
list.add("pants");
assertFalse(Iterables.all(list, predicate));
}
public void testFind() {
Iterable<String> list = newArrayList("cool", "pants");
assertEquals("cool", Iterables.find(list, Predicates.equalTo("cool")));
assertEquals("pants", Iterables.find(list, Predicates.equalTo("pants")));
try {
Iterables.find(list, Predicates.alwaysFalse());
fail();
} catch (NoSuchElementException e) {
}
assertEquals("cool", Iterables.find(list, Predicates.alwaysTrue()));
assertCanIterateAgain(list);
}
public void testFind_withDefault() {
Iterable<String> list = Lists.newArrayList("cool", "pants");
assertEquals("cool",
Iterables.find(list, Predicates.equalTo("cool"), "woot"));
assertEquals("pants",
Iterables.find(list, Predicates.equalTo("pants"), "woot"));
assertEquals("woot", Iterables.find(list,
Predicates.alwaysFalse(), "woot"));
assertNull(Iterables.find(list, Predicates.alwaysFalse(), null));
assertEquals("cool",
Iterables.find(list, Predicates.alwaysTrue(), "woot"));
assertCanIterateAgain(list);
}
public void testTryFind() {
Iterable<String> list = newArrayList("cool", "pants");
assertEquals(Optional.of("cool"),
Iterables.tryFind(list, Predicates.equalTo("cool")));
assertEquals(Optional.of("pants"),
Iterables.tryFind(list, Predicates.equalTo("pants")));
assertEquals(Optional.of("cool"),
Iterables.tryFind(list, Predicates.alwaysTrue()));
assertEquals(Optional.absent(),
Iterables.tryFind(list, Predicates.alwaysFalse()));
assertCanIterateAgain(list);
}
private static class TypeA {}
private interface TypeB {}
private static class HasBoth extends TypeA implements TypeB {}
@GwtIncompatible("Iterables.filter(Iterable, Class)")
public void testFilterByType() throws Exception {
HasBoth hasBoth = new HasBoth();
Iterable<TypeA> alist = Lists
.newArrayList(new TypeA(), new TypeA(), hasBoth, new TypeA());
Iterable<TypeB> blist = Iterables.filter(alist, TypeB.class);
assertThat(blist).iteratesAs(hasBoth);
}
public void testTransform() {
List<String> input = asList("1", "2", "3");
Iterable<Integer> result = Iterables.transform(input,
new Function<String, Integer>() {
@Override
public Integer apply(String from) {
return Integer.valueOf(from);
}
});
List<Integer> actual = newArrayList(result);
List<Integer> expected = asList(1, 2, 3);
assertEquals(expected, actual);
assertCanIterateAgain(result);
assertEquals("[1, 2, 3]", result.toString());
}
public void testPoorlyBehavedTransform() {
List<String> input = asList("1", null, "3");
Iterable<Integer> result = Iterables.transform(input,
new Function<String, Integer>() {
@Override
public Integer apply(String from) {
return Integer.valueOf(from);
}
});
Iterator<Integer> resultIterator = result.iterator();
resultIterator.next();
try {
resultIterator.next();
fail("Expected NFE");
} catch (NumberFormatException nfe) {
// Expected to fail.
}
}
public void testNullFriendlyTransform() {
List<Integer> input = asList(1, 2, null, 3);
Iterable<String> result = Iterables.transform(input,
new Function<Integer, String>() {
@Override
public String apply(Integer from) {
return String.valueOf(from);
}
});
List<String> actual = newArrayList(result);
List<String> expected = asList("1", "2", "null", "3");
assertEquals(expected, actual);
}
// Far less exhaustive than the tests in IteratorsTest
public void testCycle() {
Iterable<String> cycle = Iterables.cycle("a", "b");
int howManyChecked = 0;
for (String string : cycle) {
String expected = (howManyChecked % 2 == 0) ? "a" : "b";
assertEquals(expected, string);
if (howManyChecked++ == 5) {
break;
}
}
// We left the last iterator pointing to "b". But a new iterator should
// always point to "a".
for (String string : cycle) {
assertEquals("a", string);
break;
}
assertEquals("[a, b] (cycled)", cycle.toString());
}
// Again, the exhaustive tests are in IteratorsTest
public void testConcatIterable() {
List<Integer> list1 = newArrayList(1);
List<Integer> list2 = newArrayList(4);
@SuppressWarnings("unchecked")
List<List<Integer>> input = newArrayList(list1, list2);
Iterable<Integer> result = Iterables.concat(input);
assertEquals(asList(1, 4), newArrayList(result));
// Now change the inputs and see result dynamically change as well
list1.add(2);
List<Integer> list3 = newArrayList(3);
input.add(1, list3);
assertEquals(asList(1, 2, 3, 4), newArrayList(result));
assertEquals("[1, 2, 3, 4]", result.toString());
}
public void testConcatVarargs() {
List<Integer> list1 = newArrayList(1);
List<Integer> list2 = newArrayList(4);
List<Integer> list3 = newArrayList(7, 8);
List<Integer> list4 = newArrayList(9);
List<Integer> list5 = newArrayList(10);
@SuppressWarnings("unchecked")
Iterable<Integer> result =
Iterables.concat(list1, list2, list3, list4, list5);
assertEquals(asList(1, 4, 7, 8, 9, 10), newArrayList(result));
assertEquals("[1, 4, 7, 8, 9, 10]", result.toString());
}
public void testConcatNullPointerException() {
List<Integer> list1 = newArrayList(1);
List<Integer> list2 = newArrayList(4);
try {
Iterables.concat(list1, null, list2);
fail();
} catch (NullPointerException expected) {}
}
public void testConcatPeformingFiniteCycle() {
Iterable<Integer> iterable = asList(1, 2, 3);
int n = 4;
Iterable<Integer> repeated
= Iterables.concat(Collections.nCopies(n, iterable));
assertThat(repeated).iteratesAs(
1, 2, 3, 1, 2, 3, 1, 2, 3, 1, 2, 3);
}
public void testPartition_badSize() {
Iterable<Integer> source = Collections.singleton(1);
try {
Iterables.partition(source, 0);
fail();
} catch (IllegalArgumentException expected) {
}
}
public void testPartition_empty() {
Iterable<Integer> source = Collections.emptySet();
Iterable<List<Integer>> partitions = Iterables.partition(source, 1);
assertTrue(Iterables.isEmpty(partitions));
}
public void testPartition_singleton1() {
Iterable<Integer> source = Collections.singleton(1);
Iterable<List<Integer>> partitions = Iterables.partition(source, 1);
assertEquals(1, Iterables.size(partitions));
assertEquals(Collections.singletonList(1), partitions.iterator().next());
}
public void testPartition_view() {
List<Integer> list = asList(1, 2);
Iterable<List<Integer>> partitions = Iterables.partition(list, 2);
// Changes before the partition is retrieved are reflected
list.set(0, 3);
Iterator<List<Integer>> iterator = partitions.iterator();
// Changes before the partition is retrieved are reflected
list.set(1, 4);
List<Integer> first = iterator.next();
// Changes after are not
list.set(0, 5);
assertEquals(ImmutableList.of(3, 4), first);
}
@GwtIncompatible("?")
// TODO: Figure out why this is failing in GWT.
public void testPartitionRandomAccessInput() {
Iterable<Integer> source = asList(1, 2, 3);
Iterable<List<Integer>> partitions = Iterables.partition(source, 2);
Iterator<List<Integer>> iterator = partitions.iterator();
assertTrue(iterator.next() instanceof RandomAccess);
assertTrue(iterator.next() instanceof RandomAccess);
}
@GwtIncompatible("?")
// TODO: Figure out why this is failing in GWT.
public void testPartitionNonRandomAccessInput() {
Iterable<Integer> source = Lists.newLinkedList(asList(1, 2, 3));
Iterable<List<Integer>> partitions = Iterables.partition(source, 2);
Iterator<List<Integer>> iterator = partitions.iterator();
// Even though the input list doesn't implement RandomAccess, the output
// lists do.
assertTrue(iterator.next() instanceof RandomAccess);
assertTrue(iterator.next() instanceof RandomAccess);
}
public void testPaddedPartition_basic() {
List<Integer> list = asList(1, 2, 3, 4, 5);
Iterable<List<Integer>> partitions = Iterables.paddedPartition(list, 2);
assertEquals(3, Iterables.size(partitions));
assertEquals(asList(5, null), Iterables.getLast(partitions));
}
public void testPaddedPartitionRandomAccessInput() {
Iterable<Integer> source = asList(1, 2, 3);
Iterable<List<Integer>> partitions = Iterables.paddedPartition(source, 2);
Iterator<List<Integer>> iterator = partitions.iterator();
assertTrue(iterator.next() instanceof RandomAccess);
assertTrue(iterator.next() instanceof RandomAccess);
}
public void testPaddedPartitionNonRandomAccessInput() {
Iterable<Integer> source = Lists.newLinkedList(asList(1, 2, 3));
Iterable<List<Integer>> partitions = Iterables.paddedPartition(source, 2);
Iterator<List<Integer>> iterator = partitions.iterator();
// Even though the input list doesn't implement RandomAccess, the output
// lists do.
assertTrue(iterator.next() instanceof RandomAccess);
assertTrue(iterator.next() instanceof RandomAccess);
}
// More tests in IteratorsTest
public void testAddAllToList() {
List<String> alreadyThere = newArrayList("already", "there");
List<String> freshlyAdded = newArrayList("freshly", "added");
boolean changed = Iterables.addAll(alreadyThere, freshlyAdded);
assertThat(alreadyThere).containsExactly(
"already", "there", "freshly", "added").inOrder();
assertTrue(changed);
}
private static void assertCanIterateAgain(Iterable<?> iterable) {
for (@SuppressWarnings("unused") Object obj : iterable) {
}
}
@GwtIncompatible("NullPointerTester")
public void testNullPointerExceptions() {
NullPointerTester tester = new NullPointerTester();
tester.testAllPublicStaticMethods(Iterables.class);
}
// More exhaustive tests are in IteratorsTest.
public void testElementsEqual() throws Exception {
Iterable<?> a;
Iterable<?> b;
// A few elements.
a = asList(4, 8, 15, 16, 23, 42);
b = asList(4, 8, 15, 16, 23, 42);
assertTrue(Iterables.elementsEqual(a, b));
// An element differs.
a = asList(4, 8, 15, 12, 23, 42);
b = asList(4, 8, 15, 16, 23, 42);
assertFalse(Iterables.elementsEqual(a, b));
// null versus non-null.
a = asList(4, 8, 15, null, 23, 42);
b = asList(4, 8, 15, 16, 23, 42);
assertFalse(Iterables.elementsEqual(a, b));
assertFalse(Iterables.elementsEqual(b, a));
// Different lengths.
a = asList(4, 8, 15, 16, 23);
b = asList(4, 8, 15, 16, 23, 42);
assertFalse(Iterables.elementsEqual(a, b));
assertFalse(Iterables.elementsEqual(b, a));
}
public void testToString() {
List<String> list = Collections.emptyList();
assertEquals("[]", Iterables.toString(list));
list = newArrayList("yam", "bam", "jam", "ham");
assertEquals("[yam, bam, jam, ham]", Iterables.toString(list));
}
public void testLimit() {
Iterable<String> iterable = newArrayList("foo", "bar", "baz");
Iterable<String> limited = Iterables.limit(iterable, 2);
List<String> expected = ImmutableList.of("foo", "bar");
List<String> actual = newArrayList(limited);
assertEquals(expected, actual);
assertCanIterateAgain(limited);
assertEquals("[foo, bar]", limited.toString());
}
public void testLimit_illegalArgument() {
List<String> list = newArrayList("a", "b", "c");
try {
Iterables.limit(list, -1);
fail();
} catch (IllegalArgumentException expected) {}
}
public void testIsEmpty() {
Iterable<String> emptyList = Collections.emptyList();
assertTrue(Iterables.isEmpty(emptyList));
Iterable<String> singletonList = Collections.singletonList("foo");
assertFalse(Iterables.isEmpty(singletonList));
}
public void testSkip_simple() {
Collection<String> set = ImmutableSet.of("a", "b", "c", "d", "e");
assertEquals(newArrayList("c", "d", "e"), newArrayList(skip(set, 2)));
assertEquals("[c, d, e]", skip(set, 2).toString());
}
public void testSkip_simpleList() {
Collection<String> list = newArrayList("a", "b", "c", "d", "e");
assertEquals(newArrayList("c", "d", "e"), newArrayList(skip(list, 2)));
assertEquals("[c, d, e]", skip(list, 2).toString());
}
public void testSkip_pastEnd() {
Collection<String> set = ImmutableSet.of("a", "b");
assertEquals(emptyList(), newArrayList(skip(set, 20)));
}
public void testSkip_pastEndList() {
Collection<String> list = newArrayList("a", "b");
assertEquals(emptyList(), newArrayList(skip(list, 20)));
}
public void testSkip_skipNone() {
Collection<String> set = ImmutableSet.of("a", "b");
assertEquals(newArrayList("a", "b"), newArrayList(skip(set, 0)));
}
public void testSkip_skipNoneList() {
Collection<String> list = newArrayList("a", "b");
assertEquals(newArrayList("a", "b"), newArrayList(skip(list, 0)));
}
public void testSkip_removal() {
Collection<String> set = Sets.newHashSet("a", "b");
Iterator<String> iterator = skip(set, 2).iterator();
try {
iterator.next();
} catch (NoSuchElementException suppressed) {
// We want remove() to fail even after a failed call to next().
}
try {
iterator.remove();
fail("Expected IllegalStateException");
} catch (IllegalStateException expected) {}
}
public void testSkip_allOfMutableList_modifiable() {
List<String> list = newArrayList("a", "b");
Iterator<String> iterator = skip(list, 2).iterator();
try {
iterator.remove();
fail("Expected IllegalStateException");
} catch (IllegalStateException expected) {}
}
public void testSkip_allOfImmutableList_modifiable() {
List<String> list = ImmutableList.of("a", "b");
Iterator<String> iterator = skip(list, 2).iterator();
try {
iterator.remove();
fail("Expected UnsupportedOperationException");
} catch (UnsupportedOperationException expected) {}
}
@GwtIncompatible("slow (~35s)")
public void testSkip_iterator() {
new IteratorTester<Integer>(5, MODIFIABLE, newArrayList(2, 3),
IteratorTester.KnownOrder.KNOWN_ORDER) {
@Override protected Iterator<Integer> newTargetIterator() {
return skip(newLinkedHashSet(asList(1, 2, 3)), 1).iterator();
}
}.test();
}
@GwtIncompatible("slow (~35s)")
public void testSkip_iteratorList() {
new IteratorTester<Integer>(5, MODIFIABLE, newArrayList(2, 3),
IteratorTester.KnownOrder.KNOWN_ORDER) {
@Override protected Iterator<Integer> newTargetIterator() {
return skip(newArrayList(1, 2, 3), 1).iterator();
}
}.test();
}
public void testSkip_nonStructurallyModifiedList() throws Exception {
List<String> list = newArrayList("a", "b", "c");
Iterable<String> tail = skip(list, 1);
Iterator<String> tailIterator = tail.iterator();
list.set(2, "C");
assertEquals("b", tailIterator.next());
assertEquals("C", tailIterator.next());
assertFalse(tailIterator.hasNext());
}
public void testSkip_structurallyModifiedSkipSome() throws Exception {
Collection<String> set = newLinkedHashSet(asList("a", "b", "c"));
Iterable<String> tail = skip(set, 1);
set.remove("b");
set.addAll(newArrayList("A", "B", "C"));
assertThat(tail).iteratesAs("c", "A", "B", "C");
}
public void testSkip_structurallyModifiedSkipSomeList() throws Exception {
List<String> list = newArrayList("a", "b", "c");
Iterable<String> tail = skip(list, 1);
list.subList(1, 3).clear();
list.addAll(0, newArrayList("A", "B", "C"));
assertThat(tail).iteratesAs("B", "C", "a");
}
public void testSkip_structurallyModifiedSkipAll() throws Exception {
Collection<String> set = newLinkedHashSet(asList("a", "b", "c"));
Iterable<String> tail = skip(set, 2);
set.remove("a");
set.remove("b");
assertFalse(tail.iterator().hasNext());
}
public void testSkip_structurallyModifiedSkipAllList() throws Exception {
List<String> list = newArrayList("a", "b", "c");
Iterable<String> tail = skip(list, 2);
list.subList(0, 2).clear();
assertTrue(Iterables.isEmpty(tail));
}
public void testSkip_illegalArgument() {
List<String> list = newArrayList("a", "b", "c");
try {
skip(list, -1);
fail();
} catch (IllegalArgumentException expected) {}
}
private void testGetOnAbc(Iterable<String> iterable) {
try {
Iterables.get(iterable, -1);
fail();
} catch (IndexOutOfBoundsException expected) {}
assertEquals("a", Iterables.get(iterable, 0));
assertEquals("b", Iterables.get(iterable, 1));
assertEquals("c", Iterables.get(iterable, 2));
try {
Iterables.get(iterable, 3);
fail();
} catch (IndexOutOfBoundsException nsee) {}
try {
Iterables.get(iterable, 4);
fail();
} catch (IndexOutOfBoundsException nsee) {}
}
private void testGetOnEmpty(Iterable<String> iterable) {
try {
Iterables.get(iterable, 0);
fail();
} catch (IndexOutOfBoundsException expected) {}
}
public void testGet_list() {
testGetOnAbc(newArrayList("a", "b", "c"));
}
public void testGet_emptyList() {
testGetOnEmpty(Collections.<String>emptyList());
}
public void testGet_sortedSet() {
testGetOnAbc(ImmutableSortedSet.of("b", "c", "a"));
}
public void testGet_emptySortedSet() {
testGetOnEmpty(ImmutableSortedSet.<String>of());
}
public void testGet_iterable() {
testGetOnAbc(ImmutableSet.of("a", "b", "c"));
}
public void testGet_emptyIterable() {
testGetOnEmpty(Sets.<String>newHashSet());
}
public void testGet_withDefault_negativePosition() {
try {
Iterables.get(newArrayList("a", "b", "c"), -1, "d");
fail();
} catch (IndexOutOfBoundsException expected) {
// pass
}
}
public void testGet_withDefault_simple() {
ArrayList<String> list = newArrayList("a", "b", "c");
assertEquals("b", Iterables.get(list, 1, "d"));
}
public void testGet_withDefault_iterable() {
Set<String> set = ImmutableSet.of("a", "b", "c");
assertEquals("b", Iterables.get(set, 1, "d"));
}
public void testGet_withDefault_last() {
ArrayList<String> list = newArrayList("a", "b", "c");
assertEquals("c", Iterables.get(list, 2, "d"));
}
public void testGet_withDefault_lastPlusOne() {
ArrayList<String> list = newArrayList("a", "b", "c");
assertEquals("d", Iterables.get(list, 3, "d"));
}
public void testGet_withDefault_doesntIterate() {
List<String> list = new DiesOnIteratorArrayList();
list.add("a");
assertEquals("a", Iterables.get(list, 0, "b"));
}
public void testGetFirst_withDefault_singleton() {
Iterable<String> iterable = Collections.singletonList("foo");
assertEquals("foo", Iterables.getFirst(iterable, "bar"));
}
public void testGetFirst_withDefault_empty() {
Iterable<String> iterable = Collections.emptyList();
assertEquals("bar", Iterables.getFirst(iterable, "bar"));
}
public void testGetFirst_withDefault_empty_null() {
Iterable<String> iterable = Collections.emptyList();
assertNull(Iterables.getFirst(iterable, null));
}
public void testGetFirst_withDefault_multiple() {
Iterable<String> iterable = asList("foo", "bar");
assertEquals("foo", Iterables.getFirst(iterable, "qux"));
}
public void testGetLast_list() {
List<String> list = newArrayList("a", "b", "c");
assertEquals("c", Iterables.getLast(list));
}
public void testGetLast_emptyList() {
List<String> list = Collections.emptyList();
try {
Iterables.getLast(list);
fail();
} catch (NoSuchElementException e) {}
}
public void testGetLast_sortedSet() {
SortedSet<String> sortedSet = ImmutableSortedSet.of("b", "c", "a");
assertEquals("c", Iterables.getLast(sortedSet));
}
public void testGetLast_withDefault_singleton() {
Iterable<String> iterable = Collections.singletonList("foo");
assertEquals("foo", Iterables.getLast(iterable, "bar"));
}
public void testGetLast_withDefault_empty() {
Iterable<String> iterable = Collections.emptyList();
assertEquals("bar", Iterables.getLast(iterable, "bar"));
}
public void testGetLast_withDefault_empty_null() {
Iterable<String> iterable = Collections.emptyList();
assertNull(Iterables.getLast(iterable, null));
}
public void testGetLast_withDefault_multiple() {
Iterable<String> iterable = asList("foo", "bar");
assertEquals("bar", Iterables.getLast(iterable, "qux"));
}
/**
* {@link ArrayList} extension that forbids the use of
* {@link Collection#iterator} for tests that need to prove that it isn't
* called.
*/
private static class DiesOnIteratorArrayList extends ArrayList<String> {
/**
* @throws UnsupportedOperationException all the time
*/
@Override
public Iterator<String> iterator() {
throw new UnsupportedOperationException();
}
}
public void testGetLast_withDefault_not_empty_list() {
// TODO: verify that this is the best testing strategy.
List<String> diesOnIteratorList = new DiesOnIteratorArrayList();
diesOnIteratorList.add("bar");
assertEquals("bar", Iterables.getLast(diesOnIteratorList, "qux"));
}
/**
* {@link TreeSet} extension that forbids the use of
* {@link Collection#iterator} for tests that need to prove that it isn't
* called.
*/
private static final class DiesOnIteratorTreeSet extends TreeSet<String> {
/**
* @throws UnsupportedOperationException all the time
*/
@Override
public Iterator<String> iterator() {
throw new UnsupportedOperationException();
}
}
public void testGetLast_emptySortedSet() {
SortedSet<String> sortedSet = ImmutableSortedSet.of();
try {
Iterables.getLast(sortedSet);
fail();
} catch (NoSuchElementException e) {}
}
public void testGetLast_iterable() {
Set<String> set = ImmutableSet.of("a", "b", "c");
assertEquals("c", Iterables.getLast(set));
}
public void testGetLast_emptyIterable() {
Set<String> set = Sets.newHashSet();
try {
Iterables.getLast(set);
fail();
} catch (NoSuchElementException e) {}
}
public void testUnmodifiableIterable() {
List<String> list = newArrayList("a", "b", "c");
Iterable<String> iterable = Iterables.unmodifiableIterable(list);
Iterator<String> iterator = iterable.iterator();
iterator.next();
try {
iterator.remove();
fail();
} catch (UnsupportedOperationException expected) {}
assertEquals("[a, b, c]", iterable.toString());
}
@SuppressWarnings("deprecation") // test of deprecated method
public void testUnmodifiableIterableShortCircuit() {
List<String> list = newArrayList("a", "b", "c");
Iterable<String> iterable = Iterables.unmodifiableIterable(list);
Iterable<String> iterable2 = Iterables.unmodifiableIterable(iterable);
assertSame(iterable, iterable2);
ImmutableList<String> immutableList = ImmutableList.of("a", "b", "c");
assertSame(immutableList, Iterables.unmodifiableIterable(immutableList));
assertSame(immutableList,
Iterables.unmodifiableIterable((List<String>) immutableList));
}
public void testFrequency_multiset() {
Multiset<String> multiset
= ImmutableMultiset.of("a", "b", "a", "c", "b", "a");
assertEquals(3, Iterables.frequency(multiset, "a"));
assertEquals(2, Iterables.frequency(multiset, "b"));
assertEquals(1, Iterables.frequency(multiset, "c"));
assertEquals(0, Iterables.frequency(multiset, "d"));
assertEquals(0, Iterables.frequency(multiset, 4.2));
assertEquals(0, Iterables.frequency(multiset, null));
}
public void testFrequency_set() {
Set<String> set = Sets.newHashSet("a", "b", "c");
assertEquals(1, Iterables.frequency(set, "a"));
assertEquals(1, Iterables.frequency(set, "b"));
assertEquals(1, Iterables.frequency(set, "c"));
assertEquals(0, Iterables.frequency(set, "d"));
assertEquals(0, Iterables.frequency(set, 4.2));
assertEquals(0, Iterables.frequency(set, null));
}
public void testFrequency_list() {
List<String> list = newArrayList("a", "b", "a", "c", "b", "a");
assertEquals(3, Iterables.frequency(list, "a"));
assertEquals(2, Iterables.frequency(list, "b"));
assertEquals(1, Iterables.frequency(list, "c"));
assertEquals(0, Iterables.frequency(list, "d"));
assertEquals(0, Iterables.frequency(list, 4.2));
assertEquals(0, Iterables.frequency(list, null));
}
public void testRemoveAll_collection() {
List<String> list = newArrayList("a", "b", "c", "d", "e");
assertTrue(Iterables.removeAll(list, newArrayList("b", "d", "f")));
assertEquals(newArrayList("a", "c", "e"), list);
assertFalse(Iterables.removeAll(list, newArrayList("x", "y", "z")));
assertEquals(newArrayList("a", "c", "e"), list);
}
public void testRemoveAll_iterable() {
final List<String> list = newArrayList("a", "b", "c", "d", "e");
Iterable<String> iterable = new Iterable<String>() {
@Override
public Iterator<String> iterator() {
return list.iterator();
}
};
assertTrue(Iterables.removeAll(iterable, newArrayList("b", "d", "f")));
assertEquals(newArrayList("a", "c", "e"), list);
assertFalse(Iterables.removeAll(iterable, newArrayList("x", "y", "z")));
assertEquals(newArrayList("a", "c", "e"), list);
}
public void testRetainAll_collection() {
List<String> list = newArrayList("a", "b", "c", "d", "e");
assertTrue(Iterables.retainAll(list, newArrayList("b", "d", "f")));
assertEquals(newArrayList("b", "d"), list);
assertFalse(Iterables.retainAll(list, newArrayList("b", "e", "d")));
assertEquals(newArrayList("b", "d"), list);
}
public void testRetainAll_iterable() {
final List<String> list = newArrayList("a", "b", "c", "d", "e");
Iterable<String> iterable = new Iterable<String>() {
@Override
public Iterator<String> iterator() {
return list.iterator();
}
};
assertTrue(Iterables.retainAll(iterable, newArrayList("b", "d", "f")));
assertEquals(newArrayList("b", "d"), list);
assertFalse(Iterables.retainAll(iterable, newArrayList("b", "e", "d")));
assertEquals(newArrayList("b", "d"), list);
}
public void testRemoveIf_randomAccess() {
List<String> list = newArrayList("a", "b", "c", "d", "e");
assertTrue(Iterables.removeIf(list,
new Predicate<String>() {
@Override
public boolean apply(String s) {
return s.equals("b") || s.equals("d") || s.equals("f");
}
}));
assertEquals(newArrayList("a", "c", "e"), list);
assertFalse(Iterables.removeIf(list,
new Predicate<String>() {
@Override
public boolean apply(String s) {
return s.equals("x") || s.equals("y") || s.equals("z");
}
}));
assertEquals(newArrayList("a", "c", "e"), list);
}
public void testRemoveIf_transformedList() {
List<String> list = newArrayList("1", "2", "3", "4", "5");
List<Integer> transformed = Lists.transform(list,
new Function<String, Integer>() {
@Override
public Integer apply(String s) {
return Integer.valueOf(s);
}
});
assertTrue(Iterables.removeIf(transformed,
new Predicate<Integer>() {
@Override
public boolean apply(Integer n) {
return (n & 1) == 0; // isEven()
}
}));
assertEquals(newArrayList("1", "3", "5"), list);
assertFalse(Iterables.removeIf(transformed,
new Predicate<Integer>() {
@Override
public boolean apply(Integer n) {
return (n & 1) == 0; // isEven()
}
}));
assertEquals(newArrayList("1", "3", "5"), list);
}
public void testRemoveIf_noRandomAccess() {
List<String> list = Lists.newLinkedList(asList("a", "b", "c", "d", "e"));
assertTrue(Iterables.removeIf(list,
new Predicate<String>() {
@Override
public boolean apply(String s) {
return s.equals("b") || s.equals("d") || s.equals("f");
}
}));
assertEquals(newArrayList("a", "c", "e"), list);
assertFalse(Iterables.removeIf(list,
new Predicate<String>() {
@Override
public boolean apply(String s) {
return s.equals("x") || s.equals("y") || s.equals("z");
}
}));
assertEquals(newArrayList("a", "c", "e"), list);
}
// The Maps returned by Maps.filterEntries(), Maps.filterKeys(), and
// Maps.filterValues() are not tested with removeIf() since Maps are not
// Iterable. Those returned by Iterators.filter() and Iterables.filter()
// are not tested because they are unmodifiable.
public void testIterableWithToString() {
assertEquals("[]", create().toString());
assertEquals("[a]", create("a").toString());
assertEquals("[a, b, c]", create("a", "b", "c").toString());
assertEquals("[c, a, a]", create("c", "a", "a").toString());
}
public void testIterableWithToStringNull() {
assertEquals("[null]", create((String) null).toString());
assertEquals("[null, null]", create(null, null).toString());
assertEquals("[, null, a]", create("", null, "a").toString());
}
/** Returns a new iterable over the specified strings. */
private static Iterable<String> create(String... strings) {
final List<String> list = asList(strings);
return new FluentIterable<String>() {
@Override
public Iterator<String> iterator() {
return list.iterator();
}
};
}
public void testConsumingIterable() {
// Test data
List<String> list = Lists.newArrayList(asList("a", "b"));
// Test & Verify
Iterable<String> consumingIterable = Iterables.consumingIterable(list);
assertEquals("Iterables.consumingIterable(...)", consumingIterable.toString());
Iterator<String> consumingIterator = consumingIterable.iterator();
assertThat(list).containsExactly("a", "b").inOrder();
assertTrue(consumingIterator.hasNext());
assertThat(list).containsExactly("a", "b").inOrder();
assertEquals("a", consumingIterator.next());
assertThat(list).contains("b");
assertTrue(consumingIterator.hasNext());
assertEquals("b", consumingIterator.next());
assertThat(list).isEmpty();
assertFalse(consumingIterator.hasNext());
}
@GwtIncompatible("?")
// TODO: Figure out why this is failing in GWT.
public void testConsumingIterable_duelingIterators() {
// Test data
List<String> list = Lists.newArrayList(asList("a", "b"));
// Test & Verify
Iterator<String> i1 = Iterables.consumingIterable(list).iterator();
Iterator<String> i2 = Iterables.consumingIterable(list).iterator();
i1.next();
try {
i2.next();
fail("Concurrent modification should throw an exception.");
} catch (ConcurrentModificationException cme) {
// Pass
}
}
public void testConsumingIterable_queue_iterator() {
final List<Integer> items = ImmutableList.of(4, 8, 15, 16, 23, 42);
new IteratorTester<Integer>(
3,
UNMODIFIABLE,
items,
IteratorTester.KnownOrder.KNOWN_ORDER) {
@Override protected Iterator<Integer> newTargetIterator() {
return Iterables.consumingIterable(Lists.newLinkedList(items))
.iterator();
}
}.test();
}
public void testConsumingIterable_queue_removesFromQueue() {
Queue<Integer> queue = Lists.newLinkedList(asList(5, 14));
Iterator<Integer> consumingIterator =
Iterables.consumingIterable(queue).iterator();
assertEquals(5, queue.peek().intValue());
assertEquals(5, consumingIterator.next().intValue());
assertEquals(14, queue.peek().intValue());
assertTrue(consumingIterator.hasNext());
assertTrue(queue.isEmpty());
}
public void testConsumingIterable_noIteratorCall() {
Queue<Integer> queue =
new UnIterableQueue<Integer>(Lists.newLinkedList(asList(5, 14)));
Iterator<Integer> consumingIterator =
Iterables.consumingIterable(queue).iterator();
/*
* Make sure that we can get an element off without calling
* UnIterableQueue.iterator().
*/
assertEquals(5, consumingIterator.next().intValue());
}
private static class UnIterableQueue<T> extends ForwardingQueue<T> {
private Queue<T> queue;
UnIterableQueue(Queue<T> queue) {
this.queue = queue;
}
@Override public Iterator<T> iterator() {
throw new UnsupportedOperationException();
}
@Override protected Queue<T> delegate() {
return queue;
}
}
public void testIndexOf_empty() {
List<String> list = new ArrayList<String>();
assertEquals(-1, Iterables.indexOf(list, Predicates.equalTo("")));
}
public void testIndexOf_oneElement() {
List<String> list = Lists.newArrayList("bob");
assertEquals(0, Iterables.indexOf(list, Predicates.equalTo("bob")));
assertEquals(-1, Iterables.indexOf(list, Predicates.equalTo("jack")));
}
public void testIndexOf_twoElements() {
List<String> list = Lists.newArrayList("mary", "bob");
assertEquals(0, Iterables.indexOf(list, Predicates.equalTo("mary")));
assertEquals(1, Iterables.indexOf(list, Predicates.equalTo("bob")));
assertEquals(-1, Iterables.indexOf(list, Predicates.equalTo("jack")));
}
public void testIndexOf_withDuplicates() {
List<String> list =
Lists.newArrayList("mary", "bob", "bob", "bob", "sam");
assertEquals(0, Iterables.indexOf(list, Predicates.equalTo("mary")));
assertEquals(1, Iterables.indexOf(list, Predicates.equalTo("bob")));
assertEquals(4, Iterables.indexOf(list, Predicates.equalTo("sam")));
assertEquals(-1, Iterables.indexOf(list, Predicates.equalTo("jack")));
}
private static final Predicate<CharSequence> STARTSWITH_A =
new Predicate<CharSequence>() {
@Override public boolean apply(CharSequence input) {
return (input.length() > 0) && (input.charAt(0) == 'a');
}
};
public void testIndexOf_genericPredicate() {
List<CharSequence> sequences = Lists.newArrayList();
sequences.add("bob");
sequences.add(new StringBuilder("charlie"));
sequences.add(new StringBuffer("henry"));
sequences.add(new StringBuilder("apple"));
sequences.add("lemon");
assertEquals(3, Iterables.indexOf(sequences, STARTSWITH_A));
}
public void testIndexOf_genericPredicate2() {
List<String> sequences =
Lists.newArrayList("bob", "charlie", "henry", "apple", "lemon");
assertEquals(3, Iterables.indexOf(sequences, STARTSWITH_A));
}
public void testMergeSorted_empty() {
// Setup
Iterable<Iterable<Integer>> elements = ImmutableList.of();
// Test
Iterable<Integer> iterable =
Iterables.mergeSorted(elements, Ordering.natural());
// Verify
Iterator<Integer> iterator = iterable.iterator();
assertFalse(iterator.hasNext());
try {
iterator.next();
fail("next() on empty iterator should throw NoSuchElementException");
} catch (NoSuchElementException e) {
// Huzzah!
}
}
public void testMergeSorted_single_empty() {
// Setup
Iterable<Integer> iterable0 = ImmutableList.of();
Iterable<Iterable<Integer>> iterables = ImmutableList.of(iterable0);
// Test & Verify
verifyMergeSorted(iterables, ImmutableList.<Integer>of());
}
public void testMergeSorted_single() {
// Setup
Iterable<Integer> iterable0 = ImmutableList.of(1, 2, 3);
Iterable<Iterable<Integer>> iterables = ImmutableList.of(iterable0);
// Test & Verify
verifyMergeSorted(iterables, iterable0);
}
public void testMergeSorted_pyramid() {
List<Iterable<Integer>> iterables = Lists.newLinkedList();
List<Integer> allIntegers = Lists.newArrayList();
// Creates iterators like: {{}, {0}, {0, 1}, {0, 1, 2}, ...}
for (int i = 0; i < 10; i++) {
List<Integer> list = Lists.newLinkedList();
for (int j = 0; j < i; j++) {
list.add(j);
allIntegers.add(j);
}
iterables.add(Ordering.natural().sortedCopy(list));
}
verifyMergeSorted(iterables, allIntegers);
}
// Like the pyramid, but creates more unique values, along with repeated ones.
public void testMergeSorted_skipping_pyramid() {
List<Iterable<Integer>> iterables = Lists.newLinkedList();
List<Integer> allIntegers = Lists.newArrayList();
for (int i = 0; i < 20; i++) {
List<Integer> list = Lists.newLinkedList();
for (int j = 0; j < i; j++) {
list.add(j * i);
allIntegers.add(j * i);
}
iterables.add(Ordering.natural().sortedCopy(list));
}
verifyMergeSorted(iterables, allIntegers);
}
@GwtIncompatible("reflection")
public void testIterables_nullCheck() throws Exception {
new ClassSanityTester()
.forAllPublicStaticMethods(Iterables.class)
.thatReturn(Iterable.class)
.testNulls();
}
private static void verifyMergeSorted(Iterable<Iterable<Integer>> iterables,
Iterable<Integer> unsortedExpected) {
Iterable<Integer> expected =
Ordering.natural().sortedCopy(unsortedExpected);
Iterable<Integer> mergedIterator =
Iterables.mergeSorted(iterables, Ordering.natural());
assertEquals(Lists.newLinkedList(expected),
Lists.newLinkedList(mergedIterator));
}
}