/* * Copyright (C) 2007 Google Inc. * * 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 com.google.common.annotations.GwtCompatible; import com.google.common.annotations.VisibleForTesting; import com.google.common.base.Preconditions; import java.io.IOException; import java.io.ObjectInputStream; import java.io.ObjectOutputStream; import java.util.Collection; import java.util.Iterator; import java.util.LinkedHashMap; import java.util.LinkedHashSet; import java.util.Map; import java.util.Set; import javax.annotation.Nullable; /** * Implementation of {@code Multimap} that does not allow duplicate key-value * entries and that returns collections whose iterators follow the ordering in * which the data was added to the multimap. * *

The collections returned by {@code keySet}, {@code keys}, and {@code * asMap} iterate through the keys in the order they were first added to the * multimap. Similarly, {@code get}, {@code removeAll}, and {@code * replaceValues} return collections that iterate through the values in the * order they were added. The collections generated by {@code entries} and * {@code values} iterate across the key-value mappings in the order they were * added to the multimap. * *

The iteration ordering of the collections generated by {@code keySet}, * {@code keys}, and {@code asMap} has a few subtleties. As long as the set of * keys remains unchanged, adding or removing mappings does not affect the key * iteration order. However, if you remove all values associated with a key and * then add the key back to the multimap, that key will come last in the key * iteration order. * *

The multimap does not store duplicate key-value pairs. Adding a new * key-value pair equal to an existing key-value pair has no effect. * *

Keys and values may be null. All optional multimap methods are supported, * and all returned views are modifiable. * *

This class is not threadsafe when any concurrent operations update the * multimap. Concurrent read operations will work correctly. To allow concurrent * update operations, wrap your multimap with a call to {@link * Multimaps#synchronizedSetMultimap}. * * @author Jared Levy * @since 2010.01.04 stable (imported from Google Collections Library) */ @GwtCompatible(serializable = true) public final class LinkedHashMultimap extends AbstractSetMultimap { private static final int DEFAULT_VALUES_PER_KEY = 8; @VisibleForTesting transient int expectedValuesPerKey = DEFAULT_VALUES_PER_KEY; /** * Map entries with an iteration order corresponding to the order in which the * key-value pairs were added to the multimap. */ // package-private for GWT deserialization transient Collection> linkedEntries; /** * Creates a new, empty {@code LinkedHashMultimap} with the default initial * capacities. */ public static LinkedHashMultimap create() { return new LinkedHashMultimap(); } /** * Constructs an empty {@code LinkedHashMultimap} with enough capacity to hold * the specified numbers of keys and values without rehashing. * * @param expectedKeys the expected number of distinct keys * @param expectedValuesPerKey the expected average number of values per key * @throws IllegalArgumentException if {@code expectedKeys} or {@code * expectedValuesPerKey} is negative */ public static LinkedHashMultimap create( int expectedKeys, int expectedValuesPerKey) { return new LinkedHashMultimap(expectedKeys, expectedValuesPerKey); } /** * Constructs a {@code LinkedHashMultimap} with the same mappings as the * specified multimap. If a key-value mapping appears multiple times in the * input multimap, it only appears once in the constructed multimap. The new * multimap has the same {@link Multimap#entries()} iteration order as the * input multimap, except for excluding duplicate mappings. * * @param multimap the multimap whose contents are copied to this multimap */ public static LinkedHashMultimap create( Multimap multimap) { return new LinkedHashMultimap(multimap); } private LinkedHashMultimap() { super(new LinkedHashMap>()); linkedEntries = Sets.newLinkedHashSet(); } private LinkedHashMultimap(int expectedKeys, int expectedValuesPerKey) { super(new LinkedHashMap>(expectedKeys)); Preconditions.checkArgument(expectedValuesPerKey >= 0); this.expectedValuesPerKey = expectedValuesPerKey; linkedEntries = new LinkedHashSet>( expectedKeys * expectedValuesPerKey); } private LinkedHashMultimap(Multimap multimap) { super(new LinkedHashMap>( Maps.capacity(multimap.keySet().size()))); linkedEntries = new LinkedHashSet>(Maps.capacity(multimap.size())); putAll(multimap); } /** * {@inheritDoc} * *

Creates an empty {@code LinkedHashSet} for a collection of values for * one key. * * @return a new {@code LinkedHashSet} containing a collection of values for * one key */ @Override Set createCollection() { return new LinkedHashSet(Maps.capacity(expectedValuesPerKey)); } /** * {@inheritDoc} * *

Creates a decorated {@code LinkedHashSet} that also keeps track of the * order in which key-value pairs are added to the multimap. * * @param key key to associate with values in the collection * @return a new decorated {@code LinkedHashSet} containing a collection of * values for one key */ @Override Collection createCollection(@Nullable K key) { return new SetDecorator(key, createCollection()); } private class SetDecorator extends ForwardingSet { final Set delegate; final K key; SetDecorator(@Nullable K key, Set delegate) { this.delegate = delegate; this.key = key; } @Override protected Set delegate() { return delegate; } Map.Entry createEntry(@Nullable E value) { return Maps.immutableEntry(key, value); } Collection> createEntries(Collection values) { // converts a collection of values into a list of key/value map entries Collection> entries = Lists.newArrayListWithExpectedSize(values.size()); for (E value : values) { entries.add(createEntry(value)); } return entries; } @Override public boolean add(@Nullable V value) { boolean changed = delegate.add(value); if (changed) { linkedEntries.add(createEntry(value)); } return changed; } @Override public boolean addAll(Collection values) { boolean changed = delegate.addAll(values); if (changed) { linkedEntries.addAll(createEntries(delegate())); } return changed; } @Override public void clear() { linkedEntries.removeAll(createEntries(delegate())); delegate.clear(); } @Override public Iterator iterator() { final Iterator delegateIterator = delegate.iterator(); return new Iterator() { V value; public boolean hasNext() { return delegateIterator.hasNext(); } public V next() { value = delegateIterator.next(); return value; } public void remove() { delegateIterator.remove(); linkedEntries.remove(createEntry(value)); } }; } @Override public boolean remove(@Nullable Object value) { boolean changed = delegate.remove(value); if (changed) { /* * linkedEntries.remove() will return false when this method is called * by entries().iterator().remove() */ linkedEntries.remove(createEntry(value)); } return changed; } @Override public boolean removeAll(Collection values) { boolean changed = delegate.removeAll(values); if (changed) { linkedEntries.removeAll(createEntries(values)); } return changed; } @Override public boolean retainAll(Collection values) { /* * Calling linkedEntries.retainAll() would incorrectly remove values * with other keys. */ boolean changed = false; Iterator iterator = delegate.iterator(); while (iterator.hasNext()) { V value = iterator.next(); if (!values.contains(value)) { iterator.remove(); linkedEntries.remove(Maps.immutableEntry(key, value)); changed = true; } } return changed; } } /** * {@inheritDoc} * *

Generates an iterator across map entries that follows the ordering in * which the key-value pairs were added to the multimap. * * @return a key-value iterator with the correct ordering */ @Override Iterator> createEntryIterator() { final Iterator> delegateIterator = linkedEntries.iterator(); return new Iterator>() { Map.Entry entry; public boolean hasNext() { return delegateIterator.hasNext(); } public Map.Entry next() { entry = delegateIterator.next(); return entry; } public void remove() { // Remove from iterator first to keep iterator valid. delegateIterator.remove(); LinkedHashMultimap.this.remove(entry.getKey(), entry.getValue()); } }; } /** * {@inheritDoc} * *

If {@code values} is not empty and the multimap already contains a * mapping for {@code key}, the {@code keySet()} ordering is unchanged. * However, the provided values always come last in the {@link #entries()} and * {@link #values()} iteration orderings. */ @Override public Set replaceValues( @Nullable K key, Iterable values) { return super.replaceValues(key, values); } /** * Returns a set of all key-value pairs. Changes to the returned set will * update the underlying multimap, and vice versa. The entries set does not * support the {@code add} or {@code addAll} operations. * *

The iterator generated by the returned set traverses the entries in the * order they were added to the multimap. * *

Each entry is an immutable snapshot of a key-value mapping in the * multimap, taken at the time the entry is returned by a method call to the * collection or its iterator. */ @Override public Set> entries() { return super.entries(); } /** * Returns a collection of all values in the multimap. Changes to the returned * collection will update the underlying multimap, and vice versa. * *

The iterator generated by the returned collection traverses the values * in the order they were added to the multimap. */ @Override public Collection values() { return super.values(); } // Unfortunately, the entries() ordering does not determine the key ordering; // see the example in the LinkedListMultimap class Javadoc. /** * @serialData the number of distinct keys, and then for each distinct key: * the first key, the number of values for that key, and the key's values, * followed by successive keys and values from the entries() ordering */ private void writeObject(ObjectOutputStream stream) throws IOException { stream.defaultWriteObject(); stream.writeInt(expectedValuesPerKey); Serialization.writeMultimap(this, stream); for (Map.Entry entry : linkedEntries) { stream.writeObject(entry.getKey()); stream.writeObject(entry.getValue()); } } private void readObject(ObjectInputStream stream) throws IOException, ClassNotFoundException { stream.defaultReadObject(); expectedValuesPerKey = stream.readInt(); int distinctKeys = Serialization.readCount(stream); setMap(new LinkedHashMap>(Maps.capacity(distinctKeys))); linkedEntries = new LinkedHashSet>( distinctKeys * expectedValuesPerKey); Serialization.populateMultimap(this, stream, distinctKeys); linkedEntries.clear(); // will clear and repopulate entries for (int i = 0; i < size(); i++) { @SuppressWarnings("unchecked") // reading data stored by writeObject K key = (K) stream.readObject(); @SuppressWarnings("unchecked") // reading data stored by writeObject V value = (V) stream.readObject(); linkedEntries.add(Maps.immutableEntry(key, value)); } } private static final long serialVersionUID = 0; }