001/* 002 * Copyright (C) 2007 The Guava Authors 003 * 004 * Licensed under the Apache License, Version 2.0 (the "License"); 005 * you may not use this file except in compliance with the License. 006 * You may obtain a copy of the License at 007 * 008 * http://www.apache.org/licenses/LICENSE-2.0 009 * 010 * Unless required by applicable law or agreed to in writing, software 011 * distributed under the License is distributed on an "AS IS" BASIS, 012 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 013 * See the License for the specific language governing permissions and 014 * limitations under the License. 015 */ 016 017package com.google.common.collect; 018 019import static com.google.common.base.Preconditions.checkNotNull; 020import static com.google.common.collect.CollectPreconditions.checkNonnegative; 021import static com.google.common.collect.CollectPreconditions.checkRemove; 022 023import com.google.common.annotations.Beta; 024import com.google.common.annotations.GwtCompatible; 025import com.google.common.annotations.GwtIncompatible; 026import com.google.common.base.Function; 027import com.google.common.base.Predicate; 028import com.google.common.base.Predicates; 029import com.google.common.base.Supplier; 030import com.google.common.collect.Maps.EntryTransformer; 031import com.google.errorprone.annotations.CanIgnoreReturnValue; 032import com.google.j2objc.annotations.Weak; 033import com.google.j2objc.annotations.WeakOuter; 034import java.io.IOException; 035import java.io.ObjectInputStream; 036import java.io.ObjectOutputStream; 037import java.io.Serializable; 038import java.util.AbstractCollection; 039import java.util.Collection; 040import java.util.Collections; 041import java.util.Comparator; 042import java.util.HashSet; 043import java.util.Iterator; 044import java.util.List; 045import java.util.Map; 046import java.util.Map.Entry; 047import java.util.NavigableSet; 048import java.util.NoSuchElementException; 049import java.util.Set; 050import java.util.SortedSet; 051import java.util.Spliterator; 052import java.util.function.Consumer; 053import java.util.stream.Collector; 054import java.util.stream.Stream; 055import org.checkerframework.checker.nullness.compatqual.MonotonicNonNullDecl; 056import org.checkerframework.checker.nullness.compatqual.NullableDecl; 057 058/** 059 * Provides static methods acting on or generating a {@code Multimap}. 060 * 061 * <p>See the Guava User Guide article on <a href= 062 * "https://github.com/google/guava/wiki/CollectionUtilitiesExplained#multimaps"> {@code 063 * Multimaps}</a>. 064 * 065 * @author Jared Levy 066 * @author Robert Konigsberg 067 * @author Mike Bostock 068 * @author Louis Wasserman 069 * @since 2.0 070 */ 071@GwtCompatible(emulated = true) 072public final class Multimaps { 073 private Multimaps() {} 074 075 /** 076 * Returns a {@code Collector} accumulating entries into a {@code Multimap} generated from the 077 * specified supplier. The keys and values of the entries are the result of applying the provided 078 * mapping functions to the input elements, accumulated in the encounter order of the stream. 079 * 080 * <p>Example: 081 * 082 * <pre>{@code 083 * static final ListMultimap<Character, String> FIRST_LETTER_MULTIMAP = 084 * Stream.of("banana", "apple", "carrot", "asparagus", "cherry") 085 * .collect( 086 * toMultimap( 087 * str -> str.charAt(0), 088 * str -> str.substring(1), 089 * MultimapBuilder.treeKeys().arrayListValues()::build)); 090 * 091 * // is equivalent to 092 * 093 * static final ListMultimap<Character, String> FIRST_LETTER_MULTIMAP; 094 * 095 * static { 096 * FIRST_LETTER_MULTIMAP = MultimapBuilder.treeKeys().arrayListValues().build(); 097 * FIRST_LETTER_MULTIMAP.put('b', "anana"); 098 * FIRST_LETTER_MULTIMAP.put('a', "pple"); 099 * FIRST_LETTER_MULTIMAP.put('a', "sparagus"); 100 * FIRST_LETTER_MULTIMAP.put('c', "arrot"); 101 * FIRST_LETTER_MULTIMAP.put('c', "herry"); 102 * } 103 * }</pre> 104 * 105 * @since 21.0 106 */ 107 @Beta 108 public static <T, K, V, M extends Multimap<K, V>> Collector<T, ?, M> toMultimap( 109 java.util.function.Function<? super T, ? extends K> keyFunction, 110 java.util.function.Function<? super T, ? extends V> valueFunction, 111 java.util.function.Supplier<M> multimapSupplier) { 112 checkNotNull(keyFunction); 113 checkNotNull(valueFunction); 114 checkNotNull(multimapSupplier); 115 return Collector.of( 116 multimapSupplier, 117 (multimap, input) -> multimap.put(keyFunction.apply(input), valueFunction.apply(input)), 118 (multimap1, multimap2) -> { 119 multimap1.putAll(multimap2); 120 return multimap1; 121 }); 122 } 123 124 /** 125 * Returns a {@code Collector} accumulating entries into a {@code Multimap} generated from the 126 * specified supplier. Each input element is mapped to a key and a stream of values, each of which 127 * are put into the resulting {@code Multimap}, in the encounter order of the stream and the 128 * encounter order of the streams of values. 129 * 130 * <p>Example: 131 * 132 * <pre>{@code 133 * static final ListMultimap<Character, Character> FIRST_LETTER_MULTIMAP = 134 * Stream.of("banana", "apple", "carrot", "asparagus", "cherry") 135 * .collect( 136 * flatteningToMultimap( 137 * str -> str.charAt(0), 138 * str -> str.substring(1).chars().mapToObj(c -> (char) c), 139 * MultimapBuilder.linkedHashKeys().arrayListValues()::build)); 140 * 141 * // is equivalent to 142 * 143 * static final ListMultimap<Character, Character> FIRST_LETTER_MULTIMAP; 144 * 145 * static { 146 * FIRST_LETTER_MULTIMAP = MultimapBuilder.linkedHashKeys().arrayListValues().build(); 147 * FIRST_LETTER_MULTIMAP.putAll('b', Arrays.asList('a', 'n', 'a', 'n', 'a')); 148 * FIRST_LETTER_MULTIMAP.putAll('a', Arrays.asList('p', 'p', 'l', 'e')); 149 * FIRST_LETTER_MULTIMAP.putAll('c', Arrays.asList('a', 'r', 'r', 'o', 't')); 150 * FIRST_LETTER_MULTIMAP.putAll('a', Arrays.asList('s', 'p', 'a', 'r', 'a', 'g', 'u', 's')); 151 * FIRST_LETTER_MULTIMAP.putAll('c', Arrays.asList('h', 'e', 'r', 'r', 'y')); 152 * } 153 * }</pre> 154 * 155 * @since 21.0 156 */ 157 @Beta 158 public static <T, K, V, M extends Multimap<K, V>> Collector<T, ?, M> flatteningToMultimap( 159 java.util.function.Function<? super T, ? extends K> keyFunction, 160 java.util.function.Function<? super T, ? extends Stream<? extends V>> valueFunction, 161 java.util.function.Supplier<M> multimapSupplier) { 162 checkNotNull(keyFunction); 163 checkNotNull(valueFunction); 164 checkNotNull(multimapSupplier); 165 return Collector.of( 166 multimapSupplier, 167 (multimap, input) -> { 168 K key = keyFunction.apply(input); 169 Collection<V> valuesForKey = multimap.get(key); 170 valueFunction.apply(input).forEachOrdered(valuesForKey::add); 171 }, 172 (multimap1, multimap2) -> { 173 multimap1.putAll(multimap2); 174 return multimap1; 175 }); 176 } 177 178 /** 179 * Creates a new {@code Multimap} backed by {@code map}, whose internal value collections are 180 * generated by {@code factory}. 181 * 182 * <p><b>Warning: do not use</b> this method when the collections returned by {@code factory} 183 * implement either {@link List} or {@code Set}! Use the more specific method {@link 184 * #newListMultimap}, {@link #newSetMultimap} or {@link #newSortedSetMultimap} instead, to avoid 185 * very surprising behavior from {@link Multimap#equals}. 186 * 187 * <p>The {@code factory}-generated and {@code map} classes determine the multimap iteration 188 * order. They also specify the behavior of the {@code equals}, {@code hashCode}, and {@code 189 * toString} methods for the multimap and its returned views. However, the multimap's {@code get} 190 * method returns instances of a different class than {@code factory.get()} does. 191 * 192 * <p>The multimap is serializable if {@code map}, {@code factory}, the collections generated by 193 * {@code factory}, and the multimap contents are all serializable. 194 * 195 * <p>The multimap is not threadsafe when any concurrent operations update the multimap, even if 196 * {@code map} and the instances generated by {@code factory} are. Concurrent read operations will 197 * work correctly. To allow concurrent update operations, wrap the multimap with a call to {@link 198 * #synchronizedMultimap}. 199 * 200 * <p>Call this method only when the simpler methods {@link ArrayListMultimap#create()}, {@link 201 * HashMultimap#create()}, {@link LinkedHashMultimap#create()}, {@link 202 * LinkedListMultimap#create()}, {@link TreeMultimap#create()}, and {@link 203 * TreeMultimap#create(Comparator, Comparator)} won't suffice. 204 * 205 * <p>Note: the multimap assumes complete ownership over of {@code map} and the collections 206 * returned by {@code factory}. Those objects should not be manually updated and they should not 207 * use soft, weak, or phantom references. 208 * 209 * @param map place to store the mapping from each key to its corresponding values 210 * @param factory supplier of new, empty collections that will each hold all values for a given 211 * key 212 * @throws IllegalArgumentException if {@code map} is not empty 213 */ 214 public static <K, V> Multimap<K, V> newMultimap( 215 Map<K, Collection<V>> map, final Supplier<? extends Collection<V>> factory) { 216 return new CustomMultimap<>(map, factory); 217 } 218 219 private static class CustomMultimap<K, V> extends AbstractMapBasedMultimap<K, V> { 220 transient Supplier<? extends Collection<V>> factory; 221 222 CustomMultimap(Map<K, Collection<V>> map, Supplier<? extends Collection<V>> factory) { 223 super(map); 224 this.factory = checkNotNull(factory); 225 } 226 227 @Override 228 Set<K> createKeySet() { 229 return createMaybeNavigableKeySet(); 230 } 231 232 @Override 233 Map<K, Collection<V>> createAsMap() { 234 return createMaybeNavigableAsMap(); 235 } 236 237 @Override 238 protected Collection<V> createCollection() { 239 return factory.get(); 240 } 241 242 @Override 243 <E> Collection<E> unmodifiableCollectionSubclass(Collection<E> collection) { 244 if (collection instanceof NavigableSet) { 245 return Sets.unmodifiableNavigableSet((NavigableSet<E>) collection); 246 } else if (collection instanceof SortedSet) { 247 return Collections.unmodifiableSortedSet((SortedSet<E>) collection); 248 } else if (collection instanceof Set) { 249 return Collections.unmodifiableSet((Set<E>) collection); 250 } else if (collection instanceof List) { 251 return Collections.unmodifiableList((List<E>) collection); 252 } else { 253 return Collections.unmodifiableCollection(collection); 254 } 255 } 256 257 @Override 258 Collection<V> wrapCollection(K key, Collection<V> collection) { 259 if (collection instanceof List) { 260 return wrapList(key, (List<V>) collection, null); 261 } else if (collection instanceof NavigableSet) { 262 return new WrappedNavigableSet(key, (NavigableSet<V>) collection, null); 263 } else if (collection instanceof SortedSet) { 264 return new WrappedSortedSet(key, (SortedSet<V>) collection, null); 265 } else if (collection instanceof Set) { 266 return new WrappedSet(key, (Set<V>) collection); 267 } else { 268 return new WrappedCollection(key, collection, null); 269 } 270 } 271 272 // can't use Serialization writeMultimap and populateMultimap methods since 273 // there's no way to generate the empty backing map. 274 275 /** @serialData the factory and the backing map */ 276 @GwtIncompatible // java.io.ObjectOutputStream 277 private void writeObject(ObjectOutputStream stream) throws IOException { 278 stream.defaultWriteObject(); 279 stream.writeObject(factory); 280 stream.writeObject(backingMap()); 281 } 282 283 @GwtIncompatible // java.io.ObjectInputStream 284 @SuppressWarnings("unchecked") // reading data stored by writeObject 285 private void readObject(ObjectInputStream stream) throws IOException, ClassNotFoundException { 286 stream.defaultReadObject(); 287 factory = (Supplier<? extends Collection<V>>) stream.readObject(); 288 Map<K, Collection<V>> map = (Map<K, Collection<V>>) stream.readObject(); 289 setMap(map); 290 } 291 292 @GwtIncompatible // java serialization not supported 293 private static final long serialVersionUID = 0; 294 } 295 296 /** 297 * Creates a new {@code ListMultimap} that uses the provided map and factory. It can generate a 298 * multimap based on arbitrary {@link Map} and {@link List} classes. 299 * 300 * <p>The {@code factory}-generated and {@code map} classes determine the multimap iteration 301 * order. They also specify the behavior of the {@code equals}, {@code hashCode}, and {@code 302 * toString} methods for the multimap and its returned views. The multimap's {@code get}, {@code 303 * removeAll}, and {@code replaceValues} methods return {@code RandomAccess} lists if the factory 304 * does. However, the multimap's {@code get} method returns instances of a different class than 305 * does {@code factory.get()}. 306 * 307 * <p>The multimap is serializable if {@code map}, {@code factory}, the lists generated by {@code 308 * factory}, and the multimap contents are all serializable. 309 * 310 * <p>The multimap is not threadsafe when any concurrent operations update the multimap, even if 311 * {@code map} and the instances generated by {@code factory} are. Concurrent read operations will 312 * work correctly. To allow concurrent update operations, wrap the multimap with a call to {@link 313 * #synchronizedListMultimap}. 314 * 315 * <p>Call this method only when the simpler methods {@link ArrayListMultimap#create()} and {@link 316 * LinkedListMultimap#create()} won't suffice. 317 * 318 * <p>Note: the multimap assumes complete ownership over of {@code map} and the lists returned by 319 * {@code factory}. Those objects should not be manually updated, they should be empty when 320 * provided, and they should not use soft, weak, or phantom references. 321 * 322 * @param map place to store the mapping from each key to its corresponding values 323 * @param factory supplier of new, empty lists that will each hold all values for a given key 324 * @throws IllegalArgumentException if {@code map} is not empty 325 */ 326 public static <K, V> ListMultimap<K, V> newListMultimap( 327 Map<K, Collection<V>> map, final Supplier<? extends List<V>> factory) { 328 return new CustomListMultimap<>(map, factory); 329 } 330 331 private static class CustomListMultimap<K, V> extends AbstractListMultimap<K, V> { 332 transient Supplier<? extends List<V>> factory; 333 334 CustomListMultimap(Map<K, Collection<V>> map, Supplier<? extends List<V>> factory) { 335 super(map); 336 this.factory = checkNotNull(factory); 337 } 338 339 @Override 340 Set<K> createKeySet() { 341 return createMaybeNavigableKeySet(); 342 } 343 344 @Override 345 Map<K, Collection<V>> createAsMap() { 346 return createMaybeNavigableAsMap(); 347 } 348 349 @Override 350 protected List<V> createCollection() { 351 return factory.get(); 352 } 353 354 /** @serialData the factory and the backing map */ 355 @GwtIncompatible // java.io.ObjectOutputStream 356 private void writeObject(ObjectOutputStream stream) throws IOException { 357 stream.defaultWriteObject(); 358 stream.writeObject(factory); 359 stream.writeObject(backingMap()); 360 } 361 362 @GwtIncompatible // java.io.ObjectInputStream 363 @SuppressWarnings("unchecked") // reading data stored by writeObject 364 private void readObject(ObjectInputStream stream) throws IOException, ClassNotFoundException { 365 stream.defaultReadObject(); 366 factory = (Supplier<? extends List<V>>) stream.readObject(); 367 Map<K, Collection<V>> map = (Map<K, Collection<V>>) stream.readObject(); 368 setMap(map); 369 } 370 371 @GwtIncompatible // java serialization not supported 372 private static final long serialVersionUID = 0; 373 } 374 375 /** 376 * Creates a new {@code SetMultimap} that uses the provided map and factory. It can generate a 377 * multimap based on arbitrary {@link Map} and {@link Set} classes. 378 * 379 * <p>The {@code factory}-generated and {@code map} classes determine the multimap iteration 380 * order. They also specify the behavior of the {@code equals}, {@code hashCode}, and {@code 381 * toString} methods for the multimap and its returned views. However, the multimap's {@code get} 382 * method returns instances of a different class than {@code factory.get()} does. 383 * 384 * <p>The multimap is serializable if {@code map}, {@code factory}, the sets generated by {@code 385 * factory}, and the multimap contents are all serializable. 386 * 387 * <p>The multimap is not threadsafe when any concurrent operations update the multimap, even if 388 * {@code map} and the instances generated by {@code factory} are. Concurrent read operations will 389 * work correctly. To allow concurrent update operations, wrap the multimap with a call to {@link 390 * #synchronizedSetMultimap}. 391 * 392 * <p>Call this method only when the simpler methods {@link HashMultimap#create()}, {@link 393 * LinkedHashMultimap#create()}, {@link TreeMultimap#create()}, and {@link 394 * TreeMultimap#create(Comparator, Comparator)} won't suffice. 395 * 396 * <p>Note: the multimap assumes complete ownership over of {@code map} and the sets returned by 397 * {@code factory}. Those objects should not be manually updated and they should not use soft, 398 * weak, or phantom references. 399 * 400 * @param map place to store the mapping from each key to its corresponding values 401 * @param factory supplier of new, empty sets that will each hold all values for a given key 402 * @throws IllegalArgumentException if {@code map} is not empty 403 */ 404 public static <K, V> SetMultimap<K, V> newSetMultimap( 405 Map<K, Collection<V>> map, final Supplier<? extends Set<V>> factory) { 406 return new CustomSetMultimap<>(map, factory); 407 } 408 409 private static class CustomSetMultimap<K, V> extends AbstractSetMultimap<K, V> { 410 transient Supplier<? extends Set<V>> factory; 411 412 CustomSetMultimap(Map<K, Collection<V>> map, Supplier<? extends Set<V>> factory) { 413 super(map); 414 this.factory = checkNotNull(factory); 415 } 416 417 @Override 418 Set<K> createKeySet() { 419 return createMaybeNavigableKeySet(); 420 } 421 422 @Override 423 Map<K, Collection<V>> createAsMap() { 424 return createMaybeNavigableAsMap(); 425 } 426 427 @Override 428 protected Set<V> createCollection() { 429 return factory.get(); 430 } 431 432 @Override 433 <E> Collection<E> unmodifiableCollectionSubclass(Collection<E> collection) { 434 if (collection instanceof NavigableSet) { 435 return Sets.unmodifiableNavigableSet((NavigableSet<E>) collection); 436 } else if (collection instanceof SortedSet) { 437 return Collections.unmodifiableSortedSet((SortedSet<E>) collection); 438 } else { 439 return Collections.unmodifiableSet((Set<E>) collection); 440 } 441 } 442 443 @Override 444 Collection<V> wrapCollection(K key, Collection<V> collection) { 445 if (collection instanceof NavigableSet) { 446 return new WrappedNavigableSet(key, (NavigableSet<V>) collection, null); 447 } else if (collection instanceof SortedSet) { 448 return new WrappedSortedSet(key, (SortedSet<V>) collection, null); 449 } else { 450 return new WrappedSet(key, (Set<V>) collection); 451 } 452 } 453 454 /** @serialData the factory and the backing map */ 455 @GwtIncompatible // java.io.ObjectOutputStream 456 private void writeObject(ObjectOutputStream stream) throws IOException { 457 stream.defaultWriteObject(); 458 stream.writeObject(factory); 459 stream.writeObject(backingMap()); 460 } 461 462 @GwtIncompatible // java.io.ObjectInputStream 463 @SuppressWarnings("unchecked") // reading data stored by writeObject 464 private void readObject(ObjectInputStream stream) throws IOException, ClassNotFoundException { 465 stream.defaultReadObject(); 466 factory = (Supplier<? extends Set<V>>) stream.readObject(); 467 Map<K, Collection<V>> map = (Map<K, Collection<V>>) stream.readObject(); 468 setMap(map); 469 } 470 471 @GwtIncompatible // not needed in emulated source 472 private static final long serialVersionUID = 0; 473 } 474 475 /** 476 * Creates a new {@code SortedSetMultimap} that uses the provided map and factory. It can generate 477 * a multimap based on arbitrary {@link Map} and {@link SortedSet} classes. 478 * 479 * <p>The {@code factory}-generated and {@code map} classes determine the multimap iteration 480 * order. They also specify the behavior of the {@code equals}, {@code hashCode}, and {@code 481 * toString} methods for the multimap and its returned views. However, the multimap's {@code get} 482 * method returns instances of a different class than {@code factory.get()} does. 483 * 484 * <p>The multimap is serializable if {@code map}, {@code factory}, the sets generated by {@code 485 * factory}, and the multimap contents are all serializable. 486 * 487 * <p>The multimap is not threadsafe when any concurrent operations update the multimap, even if 488 * {@code map} and the instances generated by {@code factory} are. Concurrent read operations will 489 * work correctly. To allow concurrent update operations, wrap the multimap with a call to {@link 490 * #synchronizedSortedSetMultimap}. 491 * 492 * <p>Call this method only when the simpler methods {@link TreeMultimap#create()} and {@link 493 * TreeMultimap#create(Comparator, Comparator)} won't suffice. 494 * 495 * <p>Note: the multimap assumes complete ownership over of {@code map} and the sets returned by 496 * {@code factory}. Those objects should not be manually updated and they should not use soft, 497 * weak, or phantom references. 498 * 499 * @param map place to store the mapping from each key to its corresponding values 500 * @param factory supplier of new, empty sorted sets that will each hold all values for a given 501 * key 502 * @throws IllegalArgumentException if {@code map} is not empty 503 */ 504 public static <K, V> SortedSetMultimap<K, V> newSortedSetMultimap( 505 Map<K, Collection<V>> map, final Supplier<? extends SortedSet<V>> factory) { 506 return new CustomSortedSetMultimap<>(map, factory); 507 } 508 509 private static class CustomSortedSetMultimap<K, V> extends AbstractSortedSetMultimap<K, V> { 510 transient Supplier<? extends SortedSet<V>> factory; 511 transient Comparator<? super V> valueComparator; 512 513 CustomSortedSetMultimap(Map<K, Collection<V>> map, Supplier<? extends SortedSet<V>> factory) { 514 super(map); 515 this.factory = checkNotNull(factory); 516 valueComparator = factory.get().comparator(); 517 } 518 519 @Override 520 Set<K> createKeySet() { 521 return createMaybeNavigableKeySet(); 522 } 523 524 @Override 525 Map<K, Collection<V>> createAsMap() { 526 return createMaybeNavigableAsMap(); 527 } 528 529 @Override 530 protected SortedSet<V> createCollection() { 531 return factory.get(); 532 } 533 534 @Override 535 public Comparator<? super V> valueComparator() { 536 return valueComparator; 537 } 538 539 /** @serialData the factory and the backing map */ 540 @GwtIncompatible // java.io.ObjectOutputStream 541 private void writeObject(ObjectOutputStream stream) throws IOException { 542 stream.defaultWriteObject(); 543 stream.writeObject(factory); 544 stream.writeObject(backingMap()); 545 } 546 547 @GwtIncompatible // java.io.ObjectInputStream 548 @SuppressWarnings("unchecked") // reading data stored by writeObject 549 private void readObject(ObjectInputStream stream) throws IOException, ClassNotFoundException { 550 stream.defaultReadObject(); 551 factory = (Supplier<? extends SortedSet<V>>) stream.readObject(); 552 valueComparator = factory.get().comparator(); 553 Map<K, Collection<V>> map = (Map<K, Collection<V>>) stream.readObject(); 554 setMap(map); 555 } 556 557 @GwtIncompatible // not needed in emulated source 558 private static final long serialVersionUID = 0; 559 } 560 561 /** 562 * Copies each key-value mapping in {@code source} into {@code dest}, with its key and value 563 * reversed. 564 * 565 * <p>If {@code source} is an {@link ImmutableMultimap}, consider using {@link 566 * ImmutableMultimap#inverse} instead. 567 * 568 * @param source any multimap 569 * @param dest the multimap to copy into; usually empty 570 * @return {@code dest} 571 */ 572 @CanIgnoreReturnValue 573 public static <K, V, M extends Multimap<K, V>> M invertFrom( 574 Multimap<? extends V, ? extends K> source, M dest) { 575 checkNotNull(dest); 576 for (Map.Entry<? extends V, ? extends K> entry : source.entries()) { 577 dest.put(entry.getValue(), entry.getKey()); 578 } 579 return dest; 580 } 581 582 /** 583 * Returns a synchronized (thread-safe) multimap backed by the specified multimap. In order to 584 * guarantee serial access, it is critical that <b>all</b> access to the backing multimap is 585 * accomplished through the returned multimap. 586 * 587 * <p>It is imperative that the user manually synchronize on the returned multimap when accessing 588 * any of its collection views: 589 * 590 * <pre>{@code 591 * Multimap<K, V> multimap = Multimaps.synchronizedMultimap( 592 * HashMultimap.<K, V>create()); 593 * ... 594 * Collection<V> values = multimap.get(key); // Needn't be in synchronized block 595 * ... 596 * synchronized (multimap) { // Synchronizing on multimap, not values! 597 * Iterator<V> i = values.iterator(); // Must be in synchronized block 598 * while (i.hasNext()) { 599 * foo(i.next()); 600 * } 601 * } 602 * }</pre> 603 * 604 * <p>Failure to follow this advice may result in non-deterministic behavior. 605 * 606 * <p>Note that the generated multimap's {@link Multimap#removeAll} and {@link 607 * Multimap#replaceValues} methods return collections that aren't synchronized. 608 * 609 * <p>The returned multimap will be serializable if the specified multimap is serializable. 610 * 611 * @param multimap the multimap to be wrapped in a synchronized view 612 * @return a synchronized view of the specified multimap 613 */ 614 public static <K, V> Multimap<K, V> synchronizedMultimap(Multimap<K, V> multimap) { 615 return Synchronized.multimap(multimap, null); 616 } 617 618 /** 619 * Returns an unmodifiable view of the specified multimap. Query operations on the returned 620 * multimap "read through" to the specified multimap, and attempts to modify the returned 621 * multimap, either directly or through the multimap's views, result in an {@code 622 * UnsupportedOperationException}. 623 * 624 * <p>Note that the generated multimap's {@link Multimap#removeAll} and {@link 625 * Multimap#replaceValues} methods return collections that are modifiable. 626 * 627 * <p>The returned multimap will be serializable if the specified multimap is serializable. 628 * 629 * @param delegate the multimap for which an unmodifiable view is to be returned 630 * @return an unmodifiable view of the specified multimap 631 */ 632 public static <K, V> Multimap<K, V> unmodifiableMultimap(Multimap<K, V> delegate) { 633 if (delegate instanceof UnmodifiableMultimap || delegate instanceof ImmutableMultimap) { 634 return delegate; 635 } 636 return new UnmodifiableMultimap<>(delegate); 637 } 638 639 /** 640 * Simply returns its argument. 641 * 642 * @deprecated no need to use this 643 * @since 10.0 644 */ 645 @Deprecated 646 public static <K, V> Multimap<K, V> unmodifiableMultimap(ImmutableMultimap<K, V> delegate) { 647 return checkNotNull(delegate); 648 } 649 650 private static class UnmodifiableMultimap<K, V> extends ForwardingMultimap<K, V> 651 implements Serializable { 652 final Multimap<K, V> delegate; 653 @MonotonicNonNullDecl transient Collection<Entry<K, V>> entries; 654 @MonotonicNonNullDecl transient Multiset<K> keys; 655 @MonotonicNonNullDecl transient Set<K> keySet; 656 @MonotonicNonNullDecl transient Collection<V> values; 657 @MonotonicNonNullDecl transient Map<K, Collection<V>> map; 658 659 UnmodifiableMultimap(final Multimap<K, V> delegate) { 660 this.delegate = checkNotNull(delegate); 661 } 662 663 @Override 664 protected Multimap<K, V> delegate() { 665 return delegate; 666 } 667 668 @Override 669 public void clear() { 670 throw new UnsupportedOperationException(); 671 } 672 673 @Override 674 public Map<K, Collection<V>> asMap() { 675 Map<K, Collection<V>> result = map; 676 if (result == null) { 677 result = 678 map = 679 Collections.unmodifiableMap( 680 Maps.transformValues( 681 delegate.asMap(), 682 new Function<Collection<V>, Collection<V>>() { 683 @Override 684 public Collection<V> apply(Collection<V> collection) { 685 return unmodifiableValueCollection(collection); 686 } 687 })); 688 } 689 return result; 690 } 691 692 @Override 693 public Collection<Entry<K, V>> entries() { 694 Collection<Entry<K, V>> result = entries; 695 if (result == null) { 696 entries = result = unmodifiableEntries(delegate.entries()); 697 } 698 return result; 699 } 700 701 @Override 702 public Collection<V> get(K key) { 703 return unmodifiableValueCollection(delegate.get(key)); 704 } 705 706 @Override 707 public Multiset<K> keys() { 708 Multiset<K> result = keys; 709 if (result == null) { 710 keys = result = Multisets.unmodifiableMultiset(delegate.keys()); 711 } 712 return result; 713 } 714 715 @Override 716 public Set<K> keySet() { 717 Set<K> result = keySet; 718 if (result == null) { 719 keySet = result = Collections.unmodifiableSet(delegate.keySet()); 720 } 721 return result; 722 } 723 724 @Override 725 public boolean put(K key, V value) { 726 throw new UnsupportedOperationException(); 727 } 728 729 @Override 730 public boolean putAll(K key, Iterable<? extends V> values) { 731 throw new UnsupportedOperationException(); 732 } 733 734 @Override 735 public boolean putAll(Multimap<? extends K, ? extends V> multimap) { 736 throw new UnsupportedOperationException(); 737 } 738 739 @Override 740 public boolean remove(Object key, Object value) { 741 throw new UnsupportedOperationException(); 742 } 743 744 @Override 745 public Collection<V> removeAll(Object key) { 746 throw new UnsupportedOperationException(); 747 } 748 749 @Override 750 public Collection<V> replaceValues(K key, Iterable<? extends V> values) { 751 throw new UnsupportedOperationException(); 752 } 753 754 @Override 755 public Collection<V> values() { 756 Collection<V> result = values; 757 if (result == null) { 758 values = result = Collections.unmodifiableCollection(delegate.values()); 759 } 760 return result; 761 } 762 763 private static final long serialVersionUID = 0; 764 } 765 766 private static class UnmodifiableListMultimap<K, V> extends UnmodifiableMultimap<K, V> 767 implements ListMultimap<K, V> { 768 UnmodifiableListMultimap(ListMultimap<K, V> delegate) { 769 super(delegate); 770 } 771 772 @Override 773 public ListMultimap<K, V> delegate() { 774 return (ListMultimap<K, V>) super.delegate(); 775 } 776 777 @Override 778 public List<V> get(K key) { 779 return Collections.unmodifiableList(delegate().get(key)); 780 } 781 782 @Override 783 public List<V> removeAll(Object key) { 784 throw new UnsupportedOperationException(); 785 } 786 787 @Override 788 public List<V> replaceValues(K key, Iterable<? extends V> values) { 789 throw new UnsupportedOperationException(); 790 } 791 792 private static final long serialVersionUID = 0; 793 } 794 795 private static class UnmodifiableSetMultimap<K, V> extends UnmodifiableMultimap<K, V> 796 implements SetMultimap<K, V> { 797 UnmodifiableSetMultimap(SetMultimap<K, V> delegate) { 798 super(delegate); 799 } 800 801 @Override 802 public SetMultimap<K, V> delegate() { 803 return (SetMultimap<K, V>) super.delegate(); 804 } 805 806 @Override 807 public Set<V> get(K key) { 808 /* 809 * Note that this doesn't return a SortedSet when delegate is a 810 * SortedSetMultiset, unlike (SortedSet<V>) super.get(). 811 */ 812 return Collections.unmodifiableSet(delegate().get(key)); 813 } 814 815 @Override 816 public Set<Map.Entry<K, V>> entries() { 817 return Maps.unmodifiableEntrySet(delegate().entries()); 818 } 819 820 @Override 821 public Set<V> removeAll(Object key) { 822 throw new UnsupportedOperationException(); 823 } 824 825 @Override 826 public Set<V> replaceValues(K key, Iterable<? extends V> values) { 827 throw new UnsupportedOperationException(); 828 } 829 830 private static final long serialVersionUID = 0; 831 } 832 833 private static class UnmodifiableSortedSetMultimap<K, V> extends UnmodifiableSetMultimap<K, V> 834 implements SortedSetMultimap<K, V> { 835 UnmodifiableSortedSetMultimap(SortedSetMultimap<K, V> delegate) { 836 super(delegate); 837 } 838 839 @Override 840 public SortedSetMultimap<K, V> delegate() { 841 return (SortedSetMultimap<K, V>) super.delegate(); 842 } 843 844 @Override 845 public SortedSet<V> get(K key) { 846 return Collections.unmodifiableSortedSet(delegate().get(key)); 847 } 848 849 @Override 850 public SortedSet<V> removeAll(Object key) { 851 throw new UnsupportedOperationException(); 852 } 853 854 @Override 855 public SortedSet<V> replaceValues(K key, Iterable<? extends V> values) { 856 throw new UnsupportedOperationException(); 857 } 858 859 @Override 860 public Comparator<? super V> valueComparator() { 861 return delegate().valueComparator(); 862 } 863 864 private static final long serialVersionUID = 0; 865 } 866 867 /** 868 * Returns a synchronized (thread-safe) {@code SetMultimap} backed by the specified multimap. 869 * 870 * <p>You must follow the warnings described in {@link #synchronizedMultimap}. 871 * 872 * <p>The returned multimap will be serializable if the specified multimap is serializable. 873 * 874 * @param multimap the multimap to be wrapped 875 * @return a synchronized view of the specified multimap 876 */ 877 public static <K, V> SetMultimap<K, V> synchronizedSetMultimap(SetMultimap<K, V> multimap) { 878 return Synchronized.setMultimap(multimap, null); 879 } 880 881 /** 882 * Returns an unmodifiable view of the specified {@code SetMultimap}. Query operations on the 883 * returned multimap "read through" to the specified multimap, and attempts to modify the returned 884 * multimap, either directly or through the multimap's views, result in an {@code 885 * UnsupportedOperationException}. 886 * 887 * <p>Note that the generated multimap's {@link Multimap#removeAll} and {@link 888 * Multimap#replaceValues} methods return collections that are modifiable. 889 * 890 * <p>The returned multimap will be serializable if the specified multimap is serializable. 891 * 892 * @param delegate the multimap for which an unmodifiable view is to be returned 893 * @return an unmodifiable view of the specified multimap 894 */ 895 public static <K, V> SetMultimap<K, V> unmodifiableSetMultimap(SetMultimap<K, V> delegate) { 896 if (delegate instanceof UnmodifiableSetMultimap || delegate instanceof ImmutableSetMultimap) { 897 return delegate; 898 } 899 return new UnmodifiableSetMultimap<>(delegate); 900 } 901 902 /** 903 * Simply returns its argument. 904 * 905 * @deprecated no need to use this 906 * @since 10.0 907 */ 908 @Deprecated 909 public static <K, V> SetMultimap<K, V> unmodifiableSetMultimap( 910 ImmutableSetMultimap<K, V> delegate) { 911 return checkNotNull(delegate); 912 } 913 914 /** 915 * Returns a synchronized (thread-safe) {@code SortedSetMultimap} backed by the specified 916 * multimap. 917 * 918 * <p>You must follow the warnings described in {@link #synchronizedMultimap}. 919 * 920 * <p>The returned multimap will be serializable if the specified multimap is serializable. 921 * 922 * @param multimap the multimap to be wrapped 923 * @return a synchronized view of the specified multimap 924 */ 925 public static <K, V> SortedSetMultimap<K, V> synchronizedSortedSetMultimap( 926 SortedSetMultimap<K, V> multimap) { 927 return Synchronized.sortedSetMultimap(multimap, null); 928 } 929 930 /** 931 * Returns an unmodifiable view of the specified {@code SortedSetMultimap}. Query operations on 932 * the returned multimap "read through" to the specified multimap, and attempts to modify the 933 * returned multimap, either directly or through the multimap's views, result in an {@code 934 * UnsupportedOperationException}. 935 * 936 * <p>Note that the generated multimap's {@link Multimap#removeAll} and {@link 937 * Multimap#replaceValues} methods return collections that are modifiable. 938 * 939 * <p>The returned multimap will be serializable if the specified multimap is serializable. 940 * 941 * @param delegate the multimap for which an unmodifiable view is to be returned 942 * @return an unmodifiable view of the specified multimap 943 */ 944 public static <K, V> SortedSetMultimap<K, V> unmodifiableSortedSetMultimap( 945 SortedSetMultimap<K, V> delegate) { 946 if (delegate instanceof UnmodifiableSortedSetMultimap) { 947 return delegate; 948 } 949 return new UnmodifiableSortedSetMultimap<>(delegate); 950 } 951 952 /** 953 * Returns a synchronized (thread-safe) {@code ListMultimap} backed by the specified multimap. 954 * 955 * <p>You must follow the warnings described in {@link #synchronizedMultimap}. 956 * 957 * @param multimap the multimap to be wrapped 958 * @return a synchronized view of the specified multimap 959 */ 960 public static <K, V> ListMultimap<K, V> synchronizedListMultimap(ListMultimap<K, V> multimap) { 961 return Synchronized.listMultimap(multimap, null); 962 } 963 964 /** 965 * Returns an unmodifiable view of the specified {@code ListMultimap}. Query operations on the 966 * returned multimap "read through" to the specified multimap, and attempts to modify the returned 967 * multimap, either directly or through the multimap's views, result in an {@code 968 * UnsupportedOperationException}. 969 * 970 * <p>Note that the generated multimap's {@link Multimap#removeAll} and {@link 971 * Multimap#replaceValues} methods return collections that are modifiable. 972 * 973 * <p>The returned multimap will be serializable if the specified multimap is serializable. 974 * 975 * @param delegate the multimap for which an unmodifiable view is to be returned 976 * @return an unmodifiable view of the specified multimap 977 */ 978 public static <K, V> ListMultimap<K, V> unmodifiableListMultimap(ListMultimap<K, V> delegate) { 979 if (delegate instanceof UnmodifiableListMultimap || delegate instanceof ImmutableListMultimap) { 980 return delegate; 981 } 982 return new UnmodifiableListMultimap<>(delegate); 983 } 984 985 /** 986 * Simply returns its argument. 987 * 988 * @deprecated no need to use this 989 * @since 10.0 990 */ 991 @Deprecated 992 public static <K, V> ListMultimap<K, V> unmodifiableListMultimap( 993 ImmutableListMultimap<K, V> delegate) { 994 return checkNotNull(delegate); 995 } 996 997 /** 998 * Returns an unmodifiable view of the specified collection, preserving the interface for 999 * instances of {@code SortedSet}, {@code Set}, {@code List} and {@code Collection}, in that order 1000 * of preference. 1001 * 1002 * @param collection the collection for which to return an unmodifiable view 1003 * @return an unmodifiable view of the collection 1004 */ 1005 private static <V> Collection<V> unmodifiableValueCollection(Collection<V> collection) { 1006 if (collection instanceof SortedSet) { 1007 return Collections.unmodifiableSortedSet((SortedSet<V>) collection); 1008 } else if (collection instanceof Set) { 1009 return Collections.unmodifiableSet((Set<V>) collection); 1010 } else if (collection instanceof List) { 1011 return Collections.unmodifiableList((List<V>) collection); 1012 } 1013 return Collections.unmodifiableCollection(collection); 1014 } 1015 1016 /** 1017 * Returns an unmodifiable view of the specified collection of entries. The {@link Entry#setValue} 1018 * operation throws an {@link UnsupportedOperationException}. If the specified collection is a 1019 * {@code Set}, the returned collection is also a {@code Set}. 1020 * 1021 * @param entries the entries for which to return an unmodifiable view 1022 * @return an unmodifiable view of the entries 1023 */ 1024 private static <K, V> Collection<Entry<K, V>> unmodifiableEntries( 1025 Collection<Entry<K, V>> entries) { 1026 if (entries instanceof Set) { 1027 return Maps.unmodifiableEntrySet((Set<Entry<K, V>>) entries); 1028 } 1029 return new Maps.UnmodifiableEntries<>(Collections.unmodifiableCollection(entries)); 1030 } 1031 1032 /** 1033 * Returns {@link ListMultimap#asMap multimap.asMap()}, with its type corrected from {@code Map<K, 1034 * Collection<V>>} to {@code Map<K, List<V>>}. 1035 * 1036 * @since 15.0 1037 */ 1038 @Beta 1039 @SuppressWarnings("unchecked") 1040 // safe by specification of ListMultimap.asMap() 1041 public static <K, V> Map<K, List<V>> asMap(ListMultimap<K, V> multimap) { 1042 return (Map<K, List<V>>) (Map<K, ?>) multimap.asMap(); 1043 } 1044 1045 /** 1046 * Returns {@link SetMultimap#asMap multimap.asMap()}, with its type corrected from {@code Map<K, 1047 * Collection<V>>} to {@code Map<K, Set<V>>}. 1048 * 1049 * @since 15.0 1050 */ 1051 @Beta 1052 @SuppressWarnings("unchecked") 1053 // safe by specification of SetMultimap.asMap() 1054 public static <K, V> Map<K, Set<V>> asMap(SetMultimap<K, V> multimap) { 1055 return (Map<K, Set<V>>) (Map<K, ?>) multimap.asMap(); 1056 } 1057 1058 /** 1059 * Returns {@link SortedSetMultimap#asMap multimap.asMap()}, with its type corrected from {@code 1060 * Map<K, Collection<V>>} to {@code Map<K, SortedSet<V>>}. 1061 * 1062 * @since 15.0 1063 */ 1064 @Beta 1065 @SuppressWarnings("unchecked") 1066 // safe by specification of SortedSetMultimap.asMap() 1067 public static <K, V> Map<K, SortedSet<V>> asMap(SortedSetMultimap<K, V> multimap) { 1068 return (Map<K, SortedSet<V>>) (Map<K, ?>) multimap.asMap(); 1069 } 1070 1071 /** 1072 * Returns {@link Multimap#asMap multimap.asMap()}. This is provided for parity with the other 1073 * more strongly-typed {@code asMap()} implementations. 1074 * 1075 * @since 15.0 1076 */ 1077 @Beta 1078 public static <K, V> Map<K, Collection<V>> asMap(Multimap<K, V> multimap) { 1079 return multimap.asMap(); 1080 } 1081 1082 /** 1083 * Returns a multimap view of the specified map. The multimap is backed by the map, so changes to 1084 * the map are reflected in the multimap, and vice versa. If the map is modified while an 1085 * iteration over one of the multimap's collection views is in progress (except through the 1086 * iterator's own {@code remove} operation, or through the {@code setValue} operation on a map 1087 * entry returned by the iterator), the results of the iteration are undefined. 1088 * 1089 * <p>The multimap supports mapping removal, which removes the corresponding mapping from the map. 1090 * It does not support any operations which might add mappings, such as {@code put}, {@code 1091 * putAll} or {@code replaceValues}. 1092 * 1093 * <p>The returned multimap will be serializable if the specified map is serializable. 1094 * 1095 * @param map the backing map for the returned multimap view 1096 */ 1097 public static <K, V> SetMultimap<K, V> forMap(Map<K, V> map) { 1098 return new MapMultimap<>(map); 1099 } 1100 1101 /** @see Multimaps#forMap */ 1102 private static class MapMultimap<K, V> extends AbstractMultimap<K, V> 1103 implements SetMultimap<K, V>, Serializable { 1104 final Map<K, V> map; 1105 1106 MapMultimap(Map<K, V> map) { 1107 this.map = checkNotNull(map); 1108 } 1109 1110 @Override 1111 public int size() { 1112 return map.size(); 1113 } 1114 1115 @Override 1116 public boolean containsKey(Object key) { 1117 return map.containsKey(key); 1118 } 1119 1120 @Override 1121 public boolean containsValue(Object value) { 1122 return map.containsValue(value); 1123 } 1124 1125 @Override 1126 public boolean containsEntry(Object key, Object value) { 1127 return map.entrySet().contains(Maps.immutableEntry(key, value)); 1128 } 1129 1130 @Override 1131 public Set<V> get(final K key) { 1132 return new Sets.ImprovedAbstractSet<V>() { 1133 @Override 1134 public Iterator<V> iterator() { 1135 return new Iterator<V>() { 1136 int i; 1137 1138 @Override 1139 public boolean hasNext() { 1140 return (i == 0) && map.containsKey(key); 1141 } 1142 1143 @Override 1144 public V next() { 1145 if (!hasNext()) { 1146 throw new NoSuchElementException(); 1147 } 1148 i++; 1149 return map.get(key); 1150 } 1151 1152 @Override 1153 public void remove() { 1154 checkRemove(i == 1); 1155 i = -1; 1156 map.remove(key); 1157 } 1158 }; 1159 } 1160 1161 @Override 1162 public int size() { 1163 return map.containsKey(key) ? 1 : 0; 1164 } 1165 }; 1166 } 1167 1168 @Override 1169 public boolean put(K key, V value) { 1170 throw new UnsupportedOperationException(); 1171 } 1172 1173 @Override 1174 public boolean putAll(K key, Iterable<? extends V> values) { 1175 throw new UnsupportedOperationException(); 1176 } 1177 1178 @Override 1179 public boolean putAll(Multimap<? extends K, ? extends V> multimap) { 1180 throw new UnsupportedOperationException(); 1181 } 1182 1183 @Override 1184 public Set<V> replaceValues(K key, Iterable<? extends V> values) { 1185 throw new UnsupportedOperationException(); 1186 } 1187 1188 @Override 1189 public boolean remove(Object key, Object value) { 1190 return map.entrySet().remove(Maps.immutableEntry(key, value)); 1191 } 1192 1193 @Override 1194 public Set<V> removeAll(Object key) { 1195 Set<V> values = new HashSet<V>(2); 1196 if (!map.containsKey(key)) { 1197 return values; 1198 } 1199 values.add(map.remove(key)); 1200 return values; 1201 } 1202 1203 @Override 1204 public void clear() { 1205 map.clear(); 1206 } 1207 1208 @Override 1209 Set<K> createKeySet() { 1210 return map.keySet(); 1211 } 1212 1213 @Override 1214 Collection<V> createValues() { 1215 return map.values(); 1216 } 1217 1218 @Override 1219 public Set<Entry<K, V>> entries() { 1220 return map.entrySet(); 1221 } 1222 1223 @Override 1224 Collection<Entry<K, V>> createEntries() { 1225 throw new AssertionError("unreachable"); 1226 } 1227 1228 @Override 1229 Multiset<K> createKeys() { 1230 return new Multimaps.Keys<K, V>(this); 1231 } 1232 1233 @Override 1234 Iterator<Entry<K, V>> entryIterator() { 1235 return map.entrySet().iterator(); 1236 } 1237 1238 @Override 1239 Map<K, Collection<V>> createAsMap() { 1240 return new AsMap<>(this); 1241 } 1242 1243 @Override 1244 public int hashCode() { 1245 return map.hashCode(); 1246 } 1247 1248 private static final long serialVersionUID = 7845222491160860175L; 1249 } 1250 1251 /** 1252 * Returns a view of a multimap where each value is transformed by a function. All other 1253 * properties of the multimap, such as iteration order, are left intact. For example, the code: 1254 * 1255 * <pre>{@code 1256 * Multimap<String, Integer> multimap = 1257 * ImmutableSetMultimap.of("a", 2, "b", -3, "b", -3, "a", 4, "c", 6); 1258 * Function<Integer, String> square = new Function<Integer, String>() { 1259 * public String apply(Integer in) { 1260 * return Integer.toString(in * in); 1261 * } 1262 * }; 1263 * Multimap<String, String> transformed = 1264 * Multimaps.transformValues(multimap, square); 1265 * System.out.println(transformed); 1266 * }</pre> 1267 * 1268 * ... prints {@code {a=[4, 16], b=[9, 9], c=[36]}}. 1269 * 1270 * <p>Changes in the underlying multimap are reflected in this view. Conversely, this view 1271 * supports removal operations, and these are reflected in the underlying multimap. 1272 * 1273 * <p>It's acceptable for the underlying multimap to contain null keys, and even null values 1274 * provided that the function is capable of accepting null input. The transformed multimap might 1275 * contain null values, if the function sometimes gives a null result. 1276 * 1277 * <p>The returned multimap is not thread-safe or serializable, even if the underlying multimap 1278 * is. The {@code equals} and {@code hashCode} methods of the returned multimap are meaningless, 1279 * since there is not a definition of {@code equals} or {@code hashCode} for general collections, 1280 * and {@code get()} will return a general {@code Collection} as opposed to a {@code List} or a 1281 * {@code Set}. 1282 * 1283 * <p>The function is applied lazily, invoked when needed. This is necessary for the returned 1284 * multimap to be a view, but it means that the function will be applied many times for bulk 1285 * operations like {@link Multimap#containsValue} and {@code Multimap.toString()}. For this to 1286 * perform well, {@code function} should be fast. To avoid lazy evaluation when the returned 1287 * multimap doesn't need to be a view, copy the returned multimap into a new multimap of your 1288 * choosing. 1289 * 1290 * @since 7.0 1291 */ 1292 public static <K, V1, V2> Multimap<K, V2> transformValues( 1293 Multimap<K, V1> fromMultimap, final Function<? super V1, V2> function) { 1294 checkNotNull(function); 1295 EntryTransformer<K, V1, V2> transformer = Maps.asEntryTransformer(function); 1296 return transformEntries(fromMultimap, transformer); 1297 } 1298 1299 /** 1300 * Returns a view of a {@code ListMultimap} where each value is transformed by a function. All 1301 * other properties of the multimap, such as iteration order, are left intact. For example, the 1302 * code: 1303 * 1304 * <pre>{@code 1305 * ListMultimap<String, Integer> multimap 1306 * = ImmutableListMultimap.of("a", 4, "a", 16, "b", 9); 1307 * Function<Integer, Double> sqrt = 1308 * new Function<Integer, Double>() { 1309 * public Double apply(Integer in) { 1310 * return Math.sqrt((int) in); 1311 * } 1312 * }; 1313 * ListMultimap<String, Double> transformed = Multimaps.transformValues(map, 1314 * sqrt); 1315 * System.out.println(transformed); 1316 * }</pre> 1317 * 1318 * ... prints {@code {a=[2.0, 4.0], b=[3.0]}}. 1319 * 1320 * <p>Changes in the underlying multimap are reflected in this view. Conversely, this view 1321 * supports removal operations, and these are reflected in the underlying multimap. 1322 * 1323 * <p>It's acceptable for the underlying multimap to contain null keys, and even null values 1324 * provided that the function is capable of accepting null input. The transformed multimap might 1325 * contain null values, if the function sometimes gives a null result. 1326 * 1327 * <p>The returned multimap is not thread-safe or serializable, even if the underlying multimap 1328 * is. 1329 * 1330 * <p>The function is applied lazily, invoked when needed. This is necessary for the returned 1331 * multimap to be a view, but it means that the function will be applied many times for bulk 1332 * operations like {@link Multimap#containsValue} and {@code Multimap.toString()}. For this to 1333 * perform well, {@code function} should be fast. To avoid lazy evaluation when the returned 1334 * multimap doesn't need to be a view, copy the returned multimap into a new multimap of your 1335 * choosing. 1336 * 1337 * @since 7.0 1338 */ 1339 public static <K, V1, V2> ListMultimap<K, V2> transformValues( 1340 ListMultimap<K, V1> fromMultimap, final Function<? super V1, V2> function) { 1341 checkNotNull(function); 1342 EntryTransformer<K, V1, V2> transformer = Maps.asEntryTransformer(function); 1343 return transformEntries(fromMultimap, transformer); 1344 } 1345 1346 /** 1347 * Returns a view of a multimap whose values are derived from the original multimap's entries. In 1348 * contrast to {@link #transformValues}, this method's entry-transformation logic may depend on 1349 * the key as well as the value. 1350 * 1351 * <p>All other properties of the transformed multimap, such as iteration order, are left intact. 1352 * For example, the code: 1353 * 1354 * <pre>{@code 1355 * SetMultimap<String, Integer> multimap = 1356 * ImmutableSetMultimap.of("a", 1, "a", 4, "b", -6); 1357 * EntryTransformer<String, Integer, String> transformer = 1358 * new EntryTransformer<String, Integer, String>() { 1359 * public String transformEntry(String key, Integer value) { 1360 * return (value >= 0) ? key : "no" + key; 1361 * } 1362 * }; 1363 * Multimap<String, String> transformed = 1364 * Multimaps.transformEntries(multimap, transformer); 1365 * System.out.println(transformed); 1366 * }</pre> 1367 * 1368 * ... prints {@code {a=[a, a], b=[nob]}}. 1369 * 1370 * <p>Changes in the underlying multimap are reflected in this view. Conversely, this view 1371 * supports removal operations, and these are reflected in the underlying multimap. 1372 * 1373 * <p>It's acceptable for the underlying multimap to contain null keys and null values provided 1374 * that the transformer is capable of accepting null inputs. The transformed multimap might 1375 * contain null values if the transformer sometimes gives a null result. 1376 * 1377 * <p>The returned multimap is not thread-safe or serializable, even if the underlying multimap 1378 * is. The {@code equals} and {@code hashCode} methods of the returned multimap are meaningless, 1379 * since there is not a definition of {@code equals} or {@code hashCode} for general collections, 1380 * and {@code get()} will return a general {@code Collection} as opposed to a {@code List} or a 1381 * {@code Set}. 1382 * 1383 * <p>The transformer is applied lazily, invoked when needed. This is necessary for the returned 1384 * multimap to be a view, but it means that the transformer will be applied many times for bulk 1385 * operations like {@link Multimap#containsValue} and {@link Object#toString}. For this to perform 1386 * well, {@code transformer} should be fast. To avoid lazy evaluation when the returned multimap 1387 * doesn't need to be a view, copy the returned multimap into a new multimap of your choosing. 1388 * 1389 * <p><b>Warning:</b> This method assumes that for any instance {@code k} of {@code 1390 * EntryTransformer} key type {@code K}, {@code k.equals(k2)} implies that {@code k2} is also of 1391 * type {@code K}. Using an {@code EntryTransformer} key type for which this may not hold, such as 1392 * {@code ArrayList}, may risk a {@code ClassCastException} when calling methods on the 1393 * transformed multimap. 1394 * 1395 * @since 7.0 1396 */ 1397 public static <K, V1, V2> Multimap<K, V2> transformEntries( 1398 Multimap<K, V1> fromMap, EntryTransformer<? super K, ? super V1, V2> transformer) { 1399 return new TransformedEntriesMultimap<>(fromMap, transformer); 1400 } 1401 1402 /** 1403 * Returns a view of a {@code ListMultimap} whose values are derived from the original multimap's 1404 * entries. In contrast to {@link #transformValues(ListMultimap, Function)}, this method's 1405 * entry-transformation logic may depend on the key as well as the value. 1406 * 1407 * <p>All other properties of the transformed multimap, such as iteration order, are left intact. 1408 * For example, the code: 1409 * 1410 * <pre>{@code 1411 * Multimap<String, Integer> multimap = 1412 * ImmutableMultimap.of("a", 1, "a", 4, "b", 6); 1413 * EntryTransformer<String, Integer, String> transformer = 1414 * new EntryTransformer<String, Integer, String>() { 1415 * public String transformEntry(String key, Integer value) { 1416 * return key + value; 1417 * } 1418 * }; 1419 * Multimap<String, String> transformed = 1420 * Multimaps.transformEntries(multimap, transformer); 1421 * System.out.println(transformed); 1422 * }</pre> 1423 * 1424 * ... prints {@code {"a"=["a1", "a4"], "b"=["b6"]}}. 1425 * 1426 * <p>Changes in the underlying multimap are reflected in this view. Conversely, this view 1427 * supports removal operations, and these are reflected in the underlying multimap. 1428 * 1429 * <p>It's acceptable for the underlying multimap to contain null keys and null values provided 1430 * that the transformer is capable of accepting null inputs. The transformed multimap might 1431 * contain null values if the transformer sometimes gives a null result. 1432 * 1433 * <p>The returned multimap is not thread-safe or serializable, even if the underlying multimap 1434 * is. 1435 * 1436 * <p>The transformer is applied lazily, invoked when needed. This is necessary for the returned 1437 * multimap to be a view, but it means that the transformer will be applied many times for bulk 1438 * operations like {@link Multimap#containsValue} and {@link Object#toString}. For this to perform 1439 * well, {@code transformer} should be fast. To avoid lazy evaluation when the returned multimap 1440 * doesn't need to be a view, copy the returned multimap into a new multimap of your choosing. 1441 * 1442 * <p><b>Warning:</b> This method assumes that for any instance {@code k} of {@code 1443 * EntryTransformer} key type {@code K}, {@code k.equals(k2)} implies that {@code k2} is also of 1444 * type {@code K}. Using an {@code EntryTransformer} key type for which this may not hold, such as 1445 * {@code ArrayList}, may risk a {@code ClassCastException} when calling methods on the 1446 * transformed multimap. 1447 * 1448 * @since 7.0 1449 */ 1450 public static <K, V1, V2> ListMultimap<K, V2> transformEntries( 1451 ListMultimap<K, V1> fromMap, EntryTransformer<? super K, ? super V1, V2> transformer) { 1452 return new TransformedEntriesListMultimap<>(fromMap, transformer); 1453 } 1454 1455 private static class TransformedEntriesMultimap<K, V1, V2> extends AbstractMultimap<K, V2> { 1456 final Multimap<K, V1> fromMultimap; 1457 final EntryTransformer<? super K, ? super V1, V2> transformer; 1458 1459 TransformedEntriesMultimap( 1460 Multimap<K, V1> fromMultimap, 1461 final EntryTransformer<? super K, ? super V1, V2> transformer) { 1462 this.fromMultimap = checkNotNull(fromMultimap); 1463 this.transformer = checkNotNull(transformer); 1464 } 1465 1466 Collection<V2> transform(K key, Collection<V1> values) { 1467 Function<? super V1, V2> function = Maps.asValueToValueFunction(transformer, key); 1468 if (values instanceof List) { 1469 return Lists.transform((List<V1>) values, function); 1470 } else { 1471 return Collections2.transform(values, function); 1472 } 1473 } 1474 1475 @Override 1476 Map<K, Collection<V2>> createAsMap() { 1477 return Maps.transformEntries( 1478 fromMultimap.asMap(), 1479 new EntryTransformer<K, Collection<V1>, Collection<V2>>() { 1480 @Override 1481 public Collection<V2> transformEntry(K key, Collection<V1> value) { 1482 return transform(key, value); 1483 } 1484 }); 1485 } 1486 1487 @Override 1488 public void clear() { 1489 fromMultimap.clear(); 1490 } 1491 1492 @Override 1493 public boolean containsKey(Object key) { 1494 return fromMultimap.containsKey(key); 1495 } 1496 1497 @Override 1498 Collection<Entry<K, V2>> createEntries() { 1499 return new Entries(); 1500 } 1501 1502 @Override 1503 Iterator<Entry<K, V2>> entryIterator() { 1504 return Iterators.transform( 1505 fromMultimap.entries().iterator(), Maps.<K, V1, V2>asEntryToEntryFunction(transformer)); 1506 } 1507 1508 @Override 1509 public Collection<V2> get(final K key) { 1510 return transform(key, fromMultimap.get(key)); 1511 } 1512 1513 @Override 1514 public boolean isEmpty() { 1515 return fromMultimap.isEmpty(); 1516 } 1517 1518 @Override 1519 Set<K> createKeySet() { 1520 return fromMultimap.keySet(); 1521 } 1522 1523 @Override 1524 Multiset<K> createKeys() { 1525 return fromMultimap.keys(); 1526 } 1527 1528 @Override 1529 public boolean put(K key, V2 value) { 1530 throw new UnsupportedOperationException(); 1531 } 1532 1533 @Override 1534 public boolean putAll(K key, Iterable<? extends V2> values) { 1535 throw new UnsupportedOperationException(); 1536 } 1537 1538 @Override 1539 public boolean putAll(Multimap<? extends K, ? extends V2> multimap) { 1540 throw new UnsupportedOperationException(); 1541 } 1542 1543 @SuppressWarnings("unchecked") 1544 @Override 1545 public boolean remove(Object key, Object value) { 1546 return get((K) key).remove(value); 1547 } 1548 1549 @SuppressWarnings("unchecked") 1550 @Override 1551 public Collection<V2> removeAll(Object key) { 1552 return transform((K) key, fromMultimap.removeAll(key)); 1553 } 1554 1555 @Override 1556 public Collection<V2> replaceValues(K key, Iterable<? extends V2> values) { 1557 throw new UnsupportedOperationException(); 1558 } 1559 1560 @Override 1561 public int size() { 1562 return fromMultimap.size(); 1563 } 1564 1565 @Override 1566 Collection<V2> createValues() { 1567 return Collections2.transform( 1568 fromMultimap.entries(), Maps.<K, V1, V2>asEntryToValueFunction(transformer)); 1569 } 1570 } 1571 1572 private static final class TransformedEntriesListMultimap<K, V1, V2> 1573 extends TransformedEntriesMultimap<K, V1, V2> implements ListMultimap<K, V2> { 1574 1575 TransformedEntriesListMultimap( 1576 ListMultimap<K, V1> fromMultimap, EntryTransformer<? super K, ? super V1, V2> transformer) { 1577 super(fromMultimap, transformer); 1578 } 1579 1580 @Override 1581 List<V2> transform(K key, Collection<V1> values) { 1582 return Lists.transform((List<V1>) values, Maps.asValueToValueFunction(transformer, key)); 1583 } 1584 1585 @Override 1586 public List<V2> get(K key) { 1587 return transform(key, fromMultimap.get(key)); 1588 } 1589 1590 @SuppressWarnings("unchecked") 1591 @Override 1592 public List<V2> removeAll(Object key) { 1593 return transform((K) key, fromMultimap.removeAll(key)); 1594 } 1595 1596 @Override 1597 public List<V2> replaceValues(K key, Iterable<? extends V2> values) { 1598 throw new UnsupportedOperationException(); 1599 } 1600 } 1601 1602 /** 1603 * Creates an index {@code ImmutableListMultimap} that contains the results of applying a 1604 * specified function to each item in an {@code Iterable} of values. Each value will be stored as 1605 * a value in the resulting multimap, yielding a multimap with the same size as the input 1606 * iterable. The key used to store that value in the multimap will be the result of calling the 1607 * function on that value. The resulting multimap is created as an immutable snapshot. In the 1608 * returned multimap, keys appear in the order they are first encountered, and the values 1609 * corresponding to each key appear in the same order as they are encountered. 1610 * 1611 * <p>For example, 1612 * 1613 * <pre>{@code 1614 * List<String> badGuys = 1615 * Arrays.asList("Inky", "Blinky", "Pinky", "Pinky", "Clyde"); 1616 * Function<String, Integer> stringLengthFunction = ...; 1617 * Multimap<Integer, String> index = 1618 * Multimaps.index(badGuys, stringLengthFunction); 1619 * System.out.println(index); 1620 * }</pre> 1621 * 1622 * <p>prints 1623 * 1624 * <pre>{@code 1625 * {4=[Inky], 6=[Blinky], 5=[Pinky, Pinky, Clyde]} 1626 * }</pre> 1627 * 1628 * <p>The returned multimap is serializable if its keys and values are all serializable. 1629 * 1630 * @param values the values to use when constructing the {@code ImmutableListMultimap} 1631 * @param keyFunction the function used to produce the key for each value 1632 * @return {@code ImmutableListMultimap} mapping the result of evaluating the function {@code 1633 * keyFunction} on each value in the input collection to that value 1634 * @throws NullPointerException if any element of {@code values} is {@code null}, or if {@code 1635 * keyFunction} produces {@code null} for any key 1636 */ 1637 public static <K, V> ImmutableListMultimap<K, V> index( 1638 Iterable<V> values, Function<? super V, K> keyFunction) { 1639 return index(values.iterator(), keyFunction); 1640 } 1641 1642 /** 1643 * Creates an index {@code ImmutableListMultimap} that contains the results of applying a 1644 * specified function to each item in an {@code Iterator} of values. Each value will be stored as 1645 * a value in the resulting multimap, yielding a multimap with the same size as the input 1646 * iterator. The key used to store that value in the multimap will be the result of calling the 1647 * function on that value. The resulting multimap is created as an immutable snapshot. In the 1648 * returned multimap, keys appear in the order they are first encountered, and the values 1649 * corresponding to each key appear in the same order as they are encountered. 1650 * 1651 * <p>For example, 1652 * 1653 * <pre>{@code 1654 * List<String> badGuys = 1655 * Arrays.asList("Inky", "Blinky", "Pinky", "Pinky", "Clyde"); 1656 * Function<String, Integer> stringLengthFunction = ...; 1657 * Multimap<Integer, String> index = 1658 * Multimaps.index(badGuys.iterator(), stringLengthFunction); 1659 * System.out.println(index); 1660 * }</pre> 1661 * 1662 * <p>prints 1663 * 1664 * <pre>{@code 1665 * {4=[Inky], 6=[Blinky], 5=[Pinky, Pinky, Clyde]} 1666 * }</pre> 1667 * 1668 * <p>The returned multimap is serializable if its keys and values are all serializable. 1669 * 1670 * @param values the values to use when constructing the {@code ImmutableListMultimap} 1671 * @param keyFunction the function used to produce the key for each value 1672 * @return {@code ImmutableListMultimap} mapping the result of evaluating the function {@code 1673 * keyFunction} on each value in the input collection to that value 1674 * @throws NullPointerException if any element of {@code values} is {@code null}, or if {@code 1675 * keyFunction} produces {@code null} for any key 1676 * @since 10.0 1677 */ 1678 public static <K, V> ImmutableListMultimap<K, V> index( 1679 Iterator<V> values, Function<? super V, K> keyFunction) { 1680 checkNotNull(keyFunction); 1681 ImmutableListMultimap.Builder<K, V> builder = ImmutableListMultimap.builder(); 1682 while (values.hasNext()) { 1683 V value = values.next(); 1684 checkNotNull(value, values); 1685 builder.put(keyFunction.apply(value), value); 1686 } 1687 return builder.build(); 1688 } 1689 1690 static class Keys<K, V> extends AbstractMultiset<K> { 1691 @Weak final Multimap<K, V> multimap; 1692 1693 Keys(Multimap<K, V> multimap) { 1694 this.multimap = multimap; 1695 } 1696 1697 @Override 1698 Iterator<Multiset.Entry<K>> entryIterator() { 1699 return new TransformedIterator<Map.Entry<K, Collection<V>>, Multiset.Entry<K>>( 1700 multimap.asMap().entrySet().iterator()) { 1701 @Override 1702 Multiset.Entry<K> transform(final Map.Entry<K, Collection<V>> backingEntry) { 1703 return new Multisets.AbstractEntry<K>() { 1704 @Override 1705 public K getElement() { 1706 return backingEntry.getKey(); 1707 } 1708 1709 @Override 1710 public int getCount() { 1711 return backingEntry.getValue().size(); 1712 } 1713 }; 1714 } 1715 }; 1716 } 1717 1718 @Override 1719 public Spliterator<K> spliterator() { 1720 return CollectSpliterators.map(multimap.entries().spliterator(), Map.Entry::getKey); 1721 } 1722 1723 @Override 1724 public void forEach(Consumer<? super K> consumer) { 1725 checkNotNull(consumer); 1726 multimap.entries().forEach(entry -> consumer.accept(entry.getKey())); 1727 } 1728 1729 @Override 1730 int distinctElements() { 1731 return multimap.asMap().size(); 1732 } 1733 1734 @Override 1735 public int size() { 1736 return multimap.size(); 1737 } 1738 1739 @Override 1740 public boolean contains(@NullableDecl Object element) { 1741 return multimap.containsKey(element); 1742 } 1743 1744 @Override 1745 public Iterator<K> iterator() { 1746 return Maps.keyIterator(multimap.entries().iterator()); 1747 } 1748 1749 @Override 1750 public int count(@NullableDecl Object element) { 1751 Collection<V> values = Maps.safeGet(multimap.asMap(), element); 1752 return (values == null) ? 0 : values.size(); 1753 } 1754 1755 @Override 1756 public int remove(@NullableDecl Object element, int occurrences) { 1757 checkNonnegative(occurrences, "occurrences"); 1758 if (occurrences == 0) { 1759 return count(element); 1760 } 1761 1762 Collection<V> values = Maps.safeGet(multimap.asMap(), element); 1763 1764 if (values == null) { 1765 return 0; 1766 } 1767 1768 int oldCount = values.size(); 1769 if (occurrences >= oldCount) { 1770 values.clear(); 1771 } else { 1772 Iterator<V> iterator = values.iterator(); 1773 for (int i = 0; i < occurrences; i++) { 1774 iterator.next(); 1775 iterator.remove(); 1776 } 1777 } 1778 return oldCount; 1779 } 1780 1781 @Override 1782 public void clear() { 1783 multimap.clear(); 1784 } 1785 1786 @Override 1787 public Set<K> elementSet() { 1788 return multimap.keySet(); 1789 } 1790 1791 @Override 1792 Iterator<K> elementIterator() { 1793 throw new AssertionError("should never be called"); 1794 } 1795 } 1796 1797 /** A skeleton implementation of {@link Multimap#entries()}. */ 1798 abstract static class Entries<K, V> extends AbstractCollection<Map.Entry<K, V>> { 1799 abstract Multimap<K, V> multimap(); 1800 1801 @Override 1802 public int size() { 1803 return multimap().size(); 1804 } 1805 1806 @Override 1807 public boolean contains(@NullableDecl Object o) { 1808 if (o instanceof Map.Entry) { 1809 Map.Entry<?, ?> entry = (Map.Entry<?, ?>) o; 1810 return multimap().containsEntry(entry.getKey(), entry.getValue()); 1811 } 1812 return false; 1813 } 1814 1815 @Override 1816 public boolean remove(@NullableDecl Object o) { 1817 if (o instanceof Map.Entry) { 1818 Map.Entry<?, ?> entry = (Map.Entry<?, ?>) o; 1819 return multimap().remove(entry.getKey(), entry.getValue()); 1820 } 1821 return false; 1822 } 1823 1824 @Override 1825 public void clear() { 1826 multimap().clear(); 1827 } 1828 } 1829 1830 /** A skeleton implementation of {@link Multimap#asMap()}. */ 1831 static final class AsMap<K, V> extends Maps.ViewCachingAbstractMap<K, Collection<V>> { 1832 @Weak private final Multimap<K, V> multimap; 1833 1834 AsMap(Multimap<K, V> multimap) { 1835 this.multimap = checkNotNull(multimap); 1836 } 1837 1838 @Override 1839 public int size() { 1840 return multimap.keySet().size(); 1841 } 1842 1843 @Override 1844 protected Set<Entry<K, Collection<V>>> createEntrySet() { 1845 return new EntrySet(); 1846 } 1847 1848 void removeValuesForKey(Object key) { 1849 multimap.keySet().remove(key); 1850 } 1851 1852 @WeakOuter 1853 class EntrySet extends Maps.EntrySet<K, Collection<V>> { 1854 @Override 1855 Map<K, Collection<V>> map() { 1856 return AsMap.this; 1857 } 1858 1859 @Override 1860 public Iterator<Entry<K, Collection<V>>> iterator() { 1861 return Maps.asMapEntryIterator( 1862 multimap.keySet(), 1863 new Function<K, Collection<V>>() { 1864 @Override 1865 public Collection<V> apply(K key) { 1866 return multimap.get(key); 1867 } 1868 }); 1869 } 1870 1871 @Override 1872 public boolean remove(Object o) { 1873 if (!contains(o)) { 1874 return false; 1875 } 1876 Map.Entry<?, ?> entry = (Map.Entry<?, ?>) o; 1877 removeValuesForKey(entry.getKey()); 1878 return true; 1879 } 1880 } 1881 1882 @SuppressWarnings("unchecked") 1883 @Override 1884 public Collection<V> get(Object key) { 1885 return containsKey(key) ? multimap.get((K) key) : null; 1886 } 1887 1888 @Override 1889 public Collection<V> remove(Object key) { 1890 return containsKey(key) ? multimap.removeAll(key) : null; 1891 } 1892 1893 @Override 1894 public Set<K> keySet() { 1895 return multimap.keySet(); 1896 } 1897 1898 @Override 1899 public boolean isEmpty() { 1900 return multimap.isEmpty(); 1901 } 1902 1903 @Override 1904 public boolean containsKey(Object key) { 1905 return multimap.containsKey(key); 1906 } 1907 1908 @Override 1909 public void clear() { 1910 multimap.clear(); 1911 } 1912 } 1913 1914 /** 1915 * Returns a multimap containing the mappings in {@code unfiltered} whose keys satisfy a 1916 * predicate. The returned multimap is a live view of {@code unfiltered}; changes to one affect 1917 * the other. 1918 * 1919 * <p>The resulting multimap's views have iterators that don't support {@code remove()}, but all 1920 * other methods are supported by the multimap and its views. When adding a key that doesn't 1921 * satisfy the predicate, the multimap's {@code put()}, {@code putAll()}, and {@code 1922 * replaceValues()} methods throw an {@link IllegalArgumentException}. 1923 * 1924 * <p>When methods such as {@code removeAll()} and {@code clear()} are called on the filtered 1925 * multimap or its views, only mappings whose keys satisfy the filter will be removed from the 1926 * underlying multimap. 1927 * 1928 * <p>The returned multimap isn't threadsafe or serializable, even if {@code unfiltered} is. 1929 * 1930 * <p>Many of the filtered multimap's methods, such as {@code size()}, iterate across every 1931 * key/value mapping in the underlying multimap and determine which satisfy the filter. When a 1932 * live view is <i>not</i> needed, it may be faster to copy the filtered multimap and use the 1933 * copy. 1934 * 1935 * <p><b>Warning:</b> {@code keyPredicate} must be <i>consistent with equals</i>, as documented at 1936 * {@link Predicate#apply}. Do not provide a predicate such as {@code 1937 * Predicates.instanceOf(ArrayList.class)}, which is inconsistent with equals. 1938 * 1939 * @since 11.0 1940 */ 1941 public static <K, V> Multimap<K, V> filterKeys( 1942 Multimap<K, V> unfiltered, final Predicate<? super K> keyPredicate) { 1943 if (unfiltered instanceof SetMultimap) { 1944 return filterKeys((SetMultimap<K, V>) unfiltered, keyPredicate); 1945 } else if (unfiltered instanceof ListMultimap) { 1946 return filterKeys((ListMultimap<K, V>) unfiltered, keyPredicate); 1947 } else if (unfiltered instanceof FilteredKeyMultimap) { 1948 FilteredKeyMultimap<K, V> prev = (FilteredKeyMultimap<K, V>) unfiltered; 1949 return new FilteredKeyMultimap<>( 1950 prev.unfiltered, Predicates.<K>and(prev.keyPredicate, keyPredicate)); 1951 } else if (unfiltered instanceof FilteredMultimap) { 1952 FilteredMultimap<K, V> prev = (FilteredMultimap<K, V>) unfiltered; 1953 return filterFiltered(prev, Maps.<K>keyPredicateOnEntries(keyPredicate)); 1954 } else { 1955 return new FilteredKeyMultimap<>(unfiltered, keyPredicate); 1956 } 1957 } 1958 1959 /** 1960 * Returns a multimap containing the mappings in {@code unfiltered} whose keys satisfy a 1961 * predicate. The returned multimap is a live view of {@code unfiltered}; changes to one affect 1962 * the other. 1963 * 1964 * <p>The resulting multimap's views have iterators that don't support {@code remove()}, but all 1965 * other methods are supported by the multimap and its views. When adding a key that doesn't 1966 * satisfy the predicate, the multimap's {@code put()}, {@code putAll()}, and {@code 1967 * replaceValues()} methods throw an {@link IllegalArgumentException}. 1968 * 1969 * <p>When methods such as {@code removeAll()} and {@code clear()} are called on the filtered 1970 * multimap or its views, only mappings whose keys satisfy the filter will be removed from the 1971 * underlying multimap. 1972 * 1973 * <p>The returned multimap isn't threadsafe or serializable, even if {@code unfiltered} is. 1974 * 1975 * <p>Many of the filtered multimap's methods, such as {@code size()}, iterate across every 1976 * key/value mapping in the underlying multimap and determine which satisfy the filter. When a 1977 * live view is <i>not</i> needed, it may be faster to copy the filtered multimap and use the 1978 * copy. 1979 * 1980 * <p><b>Warning:</b> {@code keyPredicate} must be <i>consistent with equals</i>, as documented at 1981 * {@link Predicate#apply}. Do not provide a predicate such as {@code 1982 * Predicates.instanceOf(ArrayList.class)}, which is inconsistent with equals. 1983 * 1984 * @since 14.0 1985 */ 1986 public static <K, V> SetMultimap<K, V> filterKeys( 1987 SetMultimap<K, V> unfiltered, final Predicate<? super K> keyPredicate) { 1988 if (unfiltered instanceof FilteredKeySetMultimap) { 1989 FilteredKeySetMultimap<K, V> prev = (FilteredKeySetMultimap<K, V>) unfiltered; 1990 return new FilteredKeySetMultimap<>( 1991 prev.unfiltered(), Predicates.<K>and(prev.keyPredicate, keyPredicate)); 1992 } else if (unfiltered instanceof FilteredSetMultimap) { 1993 FilteredSetMultimap<K, V> prev = (FilteredSetMultimap<K, V>) unfiltered; 1994 return filterFiltered(prev, Maps.<K>keyPredicateOnEntries(keyPredicate)); 1995 } else { 1996 return new FilteredKeySetMultimap<>(unfiltered, keyPredicate); 1997 } 1998 } 1999 2000 /** 2001 * Returns a multimap containing the mappings in {@code unfiltered} whose keys satisfy a 2002 * predicate. The returned multimap is a live view of {@code unfiltered}; changes to one affect 2003 * the other. 2004 * 2005 * <p>The resulting multimap's views have iterators that don't support {@code remove()}, but all 2006 * other methods are supported by the multimap and its views. When adding a key that doesn't 2007 * satisfy the predicate, the multimap's {@code put()}, {@code putAll()}, and {@code 2008 * replaceValues()} methods throw an {@link IllegalArgumentException}. 2009 * 2010 * <p>When methods such as {@code removeAll()} and {@code clear()} are called on the filtered 2011 * multimap or its views, only mappings whose keys satisfy the filter will be removed from the 2012 * underlying multimap. 2013 * 2014 * <p>The returned multimap isn't threadsafe or serializable, even if {@code unfiltered} is. 2015 * 2016 * <p>Many of the filtered multimap's methods, such as {@code size()}, iterate across every 2017 * key/value mapping in the underlying multimap and determine which satisfy the filter. When a 2018 * live view is <i>not</i> needed, it may be faster to copy the filtered multimap and use the 2019 * copy. 2020 * 2021 * <p><b>Warning:</b> {@code keyPredicate} must be <i>consistent with equals</i>, as documented at 2022 * {@link Predicate#apply}. Do not provide a predicate such as {@code 2023 * Predicates.instanceOf(ArrayList.class)}, which is inconsistent with equals. 2024 * 2025 * @since 14.0 2026 */ 2027 public static <K, V> ListMultimap<K, V> filterKeys( 2028 ListMultimap<K, V> unfiltered, final Predicate<? super K> keyPredicate) { 2029 if (unfiltered instanceof FilteredKeyListMultimap) { 2030 FilteredKeyListMultimap<K, V> prev = (FilteredKeyListMultimap<K, V>) unfiltered; 2031 return new FilteredKeyListMultimap<>( 2032 prev.unfiltered(), Predicates.<K>and(prev.keyPredicate, keyPredicate)); 2033 } else { 2034 return new FilteredKeyListMultimap<>(unfiltered, keyPredicate); 2035 } 2036 } 2037 2038 /** 2039 * Returns a multimap containing the mappings in {@code unfiltered} whose values satisfy a 2040 * predicate. The returned multimap is a live view of {@code unfiltered}; changes to one affect 2041 * the other. 2042 * 2043 * <p>The resulting multimap's views have iterators that don't support {@code remove()}, but all 2044 * other methods are supported by the multimap and its views. When adding a value that doesn't 2045 * satisfy the predicate, the multimap's {@code put()}, {@code putAll()}, and {@code 2046 * replaceValues()} methods throw an {@link IllegalArgumentException}. 2047 * 2048 * <p>When methods such as {@code removeAll()} and {@code clear()} are called on the filtered 2049 * multimap or its views, only mappings whose value satisfy the filter will be removed from the 2050 * underlying multimap. 2051 * 2052 * <p>The returned multimap isn't threadsafe or serializable, even if {@code unfiltered} is. 2053 * 2054 * <p>Many of the filtered multimap's methods, such as {@code size()}, iterate across every 2055 * key/value mapping in the underlying multimap and determine which satisfy the filter. When a 2056 * live view is <i>not</i> needed, it may be faster to copy the filtered multimap and use the 2057 * copy. 2058 * 2059 * <p><b>Warning:</b> {@code valuePredicate} must be <i>consistent with equals</i>, as documented 2060 * at {@link Predicate#apply}. Do not provide a predicate such as {@code 2061 * Predicates.instanceOf(ArrayList.class)}, which is inconsistent with equals. 2062 * 2063 * @since 11.0 2064 */ 2065 public static <K, V> Multimap<K, V> filterValues( 2066 Multimap<K, V> unfiltered, final Predicate<? super V> valuePredicate) { 2067 return filterEntries(unfiltered, Maps.<V>valuePredicateOnEntries(valuePredicate)); 2068 } 2069 2070 /** 2071 * Returns a multimap containing the mappings in {@code unfiltered} whose values satisfy a 2072 * predicate. The returned multimap is a live view of {@code unfiltered}; changes to one affect 2073 * the other. 2074 * 2075 * <p>The resulting multimap's views have iterators that don't support {@code remove()}, but all 2076 * other methods are supported by the multimap and its views. When adding a value that doesn't 2077 * satisfy the predicate, the multimap's {@code put()}, {@code putAll()}, and {@code 2078 * replaceValues()} methods throw an {@link IllegalArgumentException}. 2079 * 2080 * <p>When methods such as {@code removeAll()} and {@code clear()} are called on the filtered 2081 * multimap or its views, only mappings whose value satisfy the filter will be removed from the 2082 * underlying multimap. 2083 * 2084 * <p>The returned multimap isn't threadsafe or serializable, even if {@code unfiltered} is. 2085 * 2086 * <p>Many of the filtered multimap's methods, such as {@code size()}, iterate across every 2087 * key/value mapping in the underlying multimap and determine which satisfy the filter. When a 2088 * live view is <i>not</i> needed, it may be faster to copy the filtered multimap and use the 2089 * copy. 2090 * 2091 * <p><b>Warning:</b> {@code valuePredicate} must be <i>consistent with equals</i>, as documented 2092 * at {@link Predicate#apply}. Do not provide a predicate such as {@code 2093 * Predicates.instanceOf(ArrayList.class)}, which is inconsistent with equals. 2094 * 2095 * @since 14.0 2096 */ 2097 public static <K, V> SetMultimap<K, V> filterValues( 2098 SetMultimap<K, V> unfiltered, final Predicate<? super V> valuePredicate) { 2099 return filterEntries(unfiltered, Maps.<V>valuePredicateOnEntries(valuePredicate)); 2100 } 2101 2102 /** 2103 * Returns a multimap containing the mappings in {@code unfiltered} that satisfy a predicate. The 2104 * returned multimap is a live view of {@code unfiltered}; changes to one affect the other. 2105 * 2106 * <p>The resulting multimap's views have iterators that don't support {@code remove()}, but all 2107 * other methods are supported by the multimap and its views. When adding a key/value pair that 2108 * doesn't satisfy the predicate, multimap's {@code put()}, {@code putAll()}, and {@code 2109 * replaceValues()} methods throw an {@link IllegalArgumentException}. 2110 * 2111 * <p>When methods such as {@code removeAll()} and {@code clear()} are called on the filtered 2112 * multimap or its views, only mappings whose keys satisfy the filter will be removed from the 2113 * underlying multimap. 2114 * 2115 * <p>The returned multimap isn't threadsafe or serializable, even if {@code unfiltered} is. 2116 * 2117 * <p>Many of the filtered multimap's methods, such as {@code size()}, iterate across every 2118 * key/value mapping in the underlying multimap and determine which satisfy the filter. When a 2119 * live view is <i>not</i> needed, it may be faster to copy the filtered multimap and use the 2120 * copy. 2121 * 2122 * <p><b>Warning:</b> {@code entryPredicate} must be <i>consistent with equals</i>, as documented 2123 * at {@link Predicate#apply}. 2124 * 2125 * @since 11.0 2126 */ 2127 public static <K, V> Multimap<K, V> filterEntries( 2128 Multimap<K, V> unfiltered, Predicate<? super Entry<K, V>> entryPredicate) { 2129 checkNotNull(entryPredicate); 2130 if (unfiltered instanceof SetMultimap) { 2131 return filterEntries((SetMultimap<K, V>) unfiltered, entryPredicate); 2132 } 2133 return (unfiltered instanceof FilteredMultimap) 2134 ? filterFiltered((FilteredMultimap<K, V>) unfiltered, entryPredicate) 2135 : new FilteredEntryMultimap<K, V>(checkNotNull(unfiltered), entryPredicate); 2136 } 2137 2138 /** 2139 * Returns a multimap containing the mappings in {@code unfiltered} that satisfy a predicate. The 2140 * returned multimap is a live view of {@code unfiltered}; changes to one affect the other. 2141 * 2142 * <p>The resulting multimap's views have iterators that don't support {@code remove()}, but all 2143 * other methods are supported by the multimap and its views. When adding a key/value pair that 2144 * doesn't satisfy the predicate, multimap's {@code put()}, {@code putAll()}, and {@code 2145 * replaceValues()} methods throw an {@link IllegalArgumentException}. 2146 * 2147 * <p>When methods such as {@code removeAll()} and {@code clear()} are called on the filtered 2148 * multimap or its views, only mappings whose keys satisfy the filter will be removed from the 2149 * underlying multimap. 2150 * 2151 * <p>The returned multimap isn't threadsafe or serializable, even if {@code unfiltered} is. 2152 * 2153 * <p>Many of the filtered multimap's methods, such as {@code size()}, iterate across every 2154 * key/value mapping in the underlying multimap and determine which satisfy the filter. When a 2155 * live view is <i>not</i> needed, it may be faster to copy the filtered multimap and use the 2156 * copy. 2157 * 2158 * <p><b>Warning:</b> {@code entryPredicate} must be <i>consistent with equals</i>, as documented 2159 * at {@link Predicate#apply}. 2160 * 2161 * @since 14.0 2162 */ 2163 public static <K, V> SetMultimap<K, V> filterEntries( 2164 SetMultimap<K, V> unfiltered, Predicate<? super Entry<K, V>> entryPredicate) { 2165 checkNotNull(entryPredicate); 2166 return (unfiltered instanceof FilteredSetMultimap) 2167 ? filterFiltered((FilteredSetMultimap<K, V>) unfiltered, entryPredicate) 2168 : new FilteredEntrySetMultimap<K, V>(checkNotNull(unfiltered), entryPredicate); 2169 } 2170 2171 /** 2172 * Support removal operations when filtering a filtered multimap. Since a filtered multimap has 2173 * iterators that don't support remove, passing one to the FilteredEntryMultimap constructor would 2174 * lead to a multimap whose removal operations would fail. This method combines the predicates to 2175 * avoid that problem. 2176 */ 2177 private static <K, V> Multimap<K, V> filterFiltered( 2178 FilteredMultimap<K, V> multimap, Predicate<? super Entry<K, V>> entryPredicate) { 2179 Predicate<Entry<K, V>> predicate = 2180 Predicates.<Entry<K, V>>and(multimap.entryPredicate(), entryPredicate); 2181 return new FilteredEntryMultimap<>(multimap.unfiltered(), predicate); 2182 } 2183 2184 /** 2185 * Support removal operations when filtering a filtered multimap. Since a filtered multimap has 2186 * iterators that don't support remove, passing one to the FilteredEntryMultimap constructor would 2187 * lead to a multimap whose removal operations would fail. This method combines the predicates to 2188 * avoid that problem. 2189 */ 2190 private static <K, V> SetMultimap<K, V> filterFiltered( 2191 FilteredSetMultimap<K, V> multimap, Predicate<? super Entry<K, V>> entryPredicate) { 2192 Predicate<Entry<K, V>> predicate = 2193 Predicates.<Entry<K, V>>and(multimap.entryPredicate(), entryPredicate); 2194 return new FilteredEntrySetMultimap<>(multimap.unfiltered(), predicate); 2195 } 2196 2197 static boolean equalsImpl(Multimap<?, ?> multimap, @NullableDecl Object object) { 2198 if (object == multimap) { 2199 return true; 2200 } 2201 if (object instanceof Multimap) { 2202 Multimap<?, ?> that = (Multimap<?, ?>) object; 2203 return multimap.asMap().equals(that.asMap()); 2204 } 2205 return false; 2206 } 2207 2208 // TODO(jlevy): Create methods that filter a SortedSetMultimap. 2209}