/* * Copyright (C) 2009 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.testing; import static java.util.Collections.sort; import static junit.framework.Assert.assertEquals; import static junit.framework.Assert.assertFalse; import static junit.framework.Assert.assertTrue; import com.google.common.annotations.GwtCompatible; import com.google.common.annotations.GwtIncompatible; import java.io.Serializable; import java.lang.reflect.Method; import java.util.ArrayList; import java.util.Arrays; import java.util.Collection; import java.util.Collections; import java.util.Comparator; import java.util.Iterator; import java.util.LinkedHashSet; import java.util.List; import java.util.ListIterator; import java.util.Map; import java.util.Map.Entry; import java.util.Set; import junit.framework.Assert; import junit.framework.AssertionFailedError; @GwtCompatible(emulated = true) public class Helpers { // Clone of Objects.equal static boolean equal(Object a, Object b) { return a == b || (a != null && a.equals(b)); } // Clone of Lists.newArrayList public static List copyToList(Iterable elements) { List list = new ArrayList(); addAll(list, elements); return list; } public static List copyToList(E[] elements) { return copyToList(Arrays.asList(elements)); } // Clone of Sets.newLinkedHashSet public static Set copyToSet(Iterable elements) { Set set = new LinkedHashSet(); addAll(set, elements); return set; } public static Set copyToSet(E[] elements) { return copyToSet(Arrays.asList(elements)); } // Would use Maps.immutableEntry public static Entry mapEntry(K key, V value) { return Collections.singletonMap(key, value).entrySet().iterator().next(); } private static boolean isEmpty(Iterable iterable) { return iterable instanceof Collection ? ((Collection) iterable).isEmpty() : !iterable.iterator().hasNext(); } public static void assertEmpty(Iterable iterable) { if (!isEmpty(iterable)) { Assert.fail("Not true that " + iterable + " is empty"); } } public static void assertEmpty(Map map) { if (!map.isEmpty()) { Assert.fail("Not true that " + map + " is empty"); } } public static void assertEqualInOrder(Iterable expected, Iterable actual) { Iterator expectedIter = expected.iterator(); Iterator actualIter = actual.iterator(); while (expectedIter.hasNext() && actualIter.hasNext()) { if (!equal(expectedIter.next(), actualIter.next())) { Assert.fail( "contents were not equal and in the same order: " + "expected = " + expected + ", actual = " + actual); } } if (expectedIter.hasNext() || actualIter.hasNext()) { // actual either had too few or too many elements Assert.fail( "contents were not equal and in the same order: " + "expected = " + expected + ", actual = " + actual); } } public static void assertContentsInOrder(Iterable actual, Object... expected) { assertEqualInOrder(Arrays.asList(expected), actual); } public static void assertEqualIgnoringOrder(Iterable expected, Iterable actual) { List exp = copyToList(expected); List act = copyToList(actual); String actString = act.toString(); // Of course we could take pains to give the complete description of the // problem on any failure. // Yeah it's n^2. for (Object object : exp) { if (!act.remove(object)) { Assert.fail( "did not contain expected element " + object + ", " + "expected = " + exp + ", actual = " + actString); } } assertTrue("unexpected elements: " + act, act.isEmpty()); } public static void assertContentsAnyOrder(Iterable actual, Object... expected) { assertEqualIgnoringOrder(Arrays.asList(expected), actual); } public static void assertContains(Iterable actual, Object expected) { boolean contained = false; if (actual instanceof Collection) { contained = ((Collection) actual).contains(expected); } else { for (Object o : actual) { if (equal(o, expected)) { contained = true; break; } } } if (!contained) { Assert.fail("Not true that " + actual + " contains " + expected); } } public static void assertContainsAllOf(Iterable actual, Object... expected) { List expectedList = new ArrayList<>(Arrays.asList(expected)); for (Object o : actual) { expectedList.remove(o); } if (!expectedList.isEmpty()) { Assert.fail("Not true that " + actual + " contains all of " + Arrays.asList(expected)); } } public static boolean addAll(Collection addTo, Iterable elementsToAdd) { boolean modified = false; for (E e : elementsToAdd) { modified |= addTo.add(e); } return modified; } static Iterable reverse(final List list) { return new Iterable() { @Override public Iterator iterator() { final ListIterator listIter = list.listIterator(list.size()); return new Iterator() { @Override public boolean hasNext() { return listIter.hasPrevious(); } @Override public T next() { return listIter.previous(); } @Override public void remove() { listIter.remove(); } }; } }; } static Iterator cycle(final Iterable iterable) { return new Iterator() { Iterator iterator = Collections.emptySet().iterator(); @Override public boolean hasNext() { return true; } @Override public T next() { if (!iterator.hasNext()) { iterator = iterable.iterator(); } return iterator.next(); } @Override public void remove() { throw new UnsupportedOperationException(); } }; } static T get(Iterator iterator, int position) { for (int i = 0; i < position; i++) { iterator.next(); } return iterator.next(); } static void fail(Throwable cause, Object message) { AssertionFailedError assertionFailedError = new AssertionFailedError(String.valueOf(message)); assertionFailedError.initCause(cause); throw assertionFailedError; } public static Comparator> entryComparator( final Comparator keyComparator) { return new Comparator>() { @Override @SuppressWarnings("unchecked") // no less safe than putting it in the map! public int compare(Entry a, Entry b) { return (keyComparator == null) ? ((Comparable) a.getKey()).compareTo(b.getKey()) : keyComparator.compare(a.getKey(), b.getKey()); } }; } /** * Asserts that all pairs of {@code T} values within {@code valuesInExpectedOrder} are ordered * consistently between their order within {@code valuesInExpectedOrder} and the order implied by * the given {@code comparator}. * * @see #testComparator(Comparator, List) */ public static void testComparator( Comparator comparator, T... valuesInExpectedOrder) { testComparator(comparator, Arrays.asList(valuesInExpectedOrder)); } /** * Asserts that all pairs of {@code T} values within {@code valuesInExpectedOrder} are ordered * consistently between their order within {@code valuesInExpectedOrder} and the order implied by * the given {@code comparator}. * *

In detail, this method asserts * *

    *
  • reflexivity: {@code comparator.compare(t, t) = 0} for all {@code t} in {@code * valuesInExpectedOrder}; and *
  • consistency: {@code comparator.compare(ti, tj) < 0} and {@code * comparator.compare(tj, ti) > 0} for {@code i < j}, where {@code ti = * valuesInExpectedOrder.get(i)} and {@code tj = valuesInExpectedOrder.get(j)}. *
*/ public static void testComparator( Comparator comparator, List valuesInExpectedOrder) { // This does an O(n^2) test of all pairs of values in both orders for (int i = 0; i < valuesInExpectedOrder.size(); i++) { T t = valuesInExpectedOrder.get(i); for (int j = 0; j < i; j++) { T lesser = valuesInExpectedOrder.get(j); assertTrue( comparator + ".compare(" + lesser + ", " + t + ")", comparator.compare(lesser, t) < 0); } assertEquals(comparator + ".compare(" + t + ", " + t + ")", 0, comparator.compare(t, t)); for (int j = i + 1; j < valuesInExpectedOrder.size(); j++) { T greater = valuesInExpectedOrder.get(j); assertTrue( comparator + ".compare(" + greater + ", " + t + ")", comparator.compare(greater, t) > 0); } } } @SuppressWarnings({"SelfComparison", "SelfEquals"}) public static > void testCompareToAndEquals( List valuesInExpectedOrder) { // This does an O(n^2) test of all pairs of values in both orders for (int i = 0; i < valuesInExpectedOrder.size(); i++) { T t = valuesInExpectedOrder.get(i); for (int j = 0; j < i; j++) { T lesser = valuesInExpectedOrder.get(j); assertTrue(lesser + ".compareTo(" + t + ')', lesser.compareTo(t) < 0); assertFalse(lesser.equals(t)); } assertEquals(t + ".compareTo(" + t + ')', 0, t.compareTo(t)); assertTrue(t.equals(t)); for (int j = i + 1; j < valuesInExpectedOrder.size(); j++) { T greater = valuesInExpectedOrder.get(j); assertTrue(greater + ".compareTo(" + t + ')', greater.compareTo(t) > 0); assertFalse(greater.equals(t)); } } } /** * Returns a collection that simulates concurrent modification by having its size method return * incorrect values. This is useful for testing methods that must treat the return value from * size() as a hint only. * * @param delta the difference between the true size of the collection and the values returned by * the size method */ public static Collection misleadingSizeCollection(final int delta) { // It would be nice to be able to return a real concurrent // collection like ConcurrentLinkedQueue, so that e.g. concurrent // iteration would work, but that would not be GWT-compatible. return new ArrayList() { @Override public int size() { return Math.max(0, super.size() + delta); } }; } /** * Returns a "nefarious" map entry with the specified key and value, meaning an entry that is * suitable for testing that map entries cannot be modified via a nefarious implementation of * equals. This is used for testing unmodifiable collections of map entries; for example, it * should not be possible to access the raw (modifiable) map entry via a nefarious equals method. */ public static Entry nefariousMapEntry(final K key, final V value) { return new Entry() { @Override public K getKey() { return key; } @Override public V getValue() { return value; } @Override public V setValue(V value) { throw new UnsupportedOperationException(); } @SuppressWarnings("unchecked") @Override public boolean equals(Object o) { if (o instanceof Entry) { Entry e = (Entry) o; e.setValue(value); // muhahaha! return equal(this.getKey(), e.getKey()) && equal(this.getValue(), e.getValue()); } return false; } @Override public int hashCode() { K k = getKey(); V v = getValue(); return ((k == null) ? 0 : k.hashCode()) ^ ((v == null) ? 0 : v.hashCode()); } @Override public String toString() { return getKey() + "=" + getValue(); } }; } static List castOrCopyToList(Iterable iterable) { if (iterable instanceof List) { return (List) iterable; } List list = new ArrayList(); for (E e : iterable) { list.add(e); } return list; } private static final Comparator NATURAL_ORDER = new Comparator() { @SuppressWarnings("unchecked") // assume any Comparable is Comparable @Override public int compare(Comparable left, Comparable right) { return left.compareTo(right); } }; public static Iterable> orderEntriesByKey( List> insertionOrder) { sort(insertionOrder, Helpers.entryComparator(NATURAL_ORDER)); return insertionOrder; } /** * Private replacement for {@link com.google.gwt.user.client.rpc.GwtTransient} to work around * build-system quirks. */ private @interface GwtTransient {} /** * Compares strings in natural order except that null comes immediately before a given value. This * works better than Ordering.natural().nullsFirst() because, if null comes before all other * values, it lies outside the submap/submultiset ranges we test, and the variety of tests that * exercise null handling fail on those subcollections. */ public abstract static class NullsBefore implements Comparator, Serializable { /* * We don't serialize this class in GWT, so we don't care about whether GWT will serialize this * field. */ @GwtTransient private final String justAfterNull; protected NullsBefore(String justAfterNull) { if (justAfterNull == null) { throw new NullPointerException(); } this.justAfterNull = justAfterNull; } @Override public int compare(String lhs, String rhs) { if (lhs == rhs) { return 0; } if (lhs == null) { // lhs (null) comes just before justAfterNull. // If rhs is b, lhs comes first. if (rhs.equals(justAfterNull)) { return -1; } return justAfterNull.compareTo(rhs); } if (rhs == null) { // rhs (null) comes just before justAfterNull. // If lhs is b, rhs comes first. if (lhs.equals(justAfterNull)) { return 1; } return lhs.compareTo(justAfterNull); } return lhs.compareTo(rhs); } @Override public boolean equals(Object obj) { if (obj instanceof NullsBefore) { NullsBefore other = (NullsBefore) obj; return justAfterNull.equals(other.justAfterNull); } return false; } @Override public int hashCode() { return justAfterNull.hashCode(); } } public static final class NullsBeforeB extends NullsBefore { public static final NullsBeforeB INSTANCE = new NullsBeforeB(); private NullsBeforeB() { super("b"); } } public static final class NullsBeforeTwo extends NullsBefore { public static final NullsBeforeTwo INSTANCE = new NullsBeforeTwo(); private NullsBeforeTwo() { super("two"); // from TestStringSortedMapGenerator's sample keys } } @GwtIncompatible // reflection public static Method getMethod(Class clazz, String name) { try { return clazz.getMethod(name); } catch (Exception e) { throw new IllegalArgumentException(e); } } }