001/*
002 * Copyright (C) 2008 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.checkArgument;
020import static com.google.common.base.Preconditions.checkNotNull;
021
022import com.google.common.annotations.Beta;
023import com.google.common.annotations.GwtCompatible;
024import com.google.common.base.Function;
025import com.google.common.base.Objects;
026import com.google.common.base.Supplier;
027import com.google.common.collect.Table.Cell;
028import java.io.Serializable;
029import java.util.Collection;
030import java.util.Collections;
031import java.util.Iterator;
032import java.util.Map;
033import java.util.Set;
034import java.util.SortedMap;
035import java.util.SortedSet;
036import java.util.Spliterator;
037import java.util.function.BinaryOperator;
038import java.util.stream.Collector;
039import javax.annotation.Nullable;
040
041/**
042 * Provides static methods that involve a {@code Table}.
043 *
044 * <p>See the Guava User Guide article on <a href=
045 * "https://github.com/google/guava/wiki/CollectionUtilitiesExplained#tables">
046 * {@code Tables}</a>.
047 *
048 * @author Jared Levy
049 * @author Louis Wasserman
050 * @since 7.0
051 */
052@GwtCompatible
053public final class Tables {
054  private Tables() {}
055  
056  /**
057   * Returns a {@link Collector} that accumulates elements into a {@code Table} created using the
058   * specified supplier, whose cells are generated by applying the provided mapping functions to the
059   * input elements. Cells are inserted into the generated {@code Table} in encounter order.
060   *
061   * <p>If multiple input elements map to the same row and column, an {@code IllegalStateException}
062   * is thrown when the collection operation is performed.
063   *
064   * @since 21.0
065   */
066  @Beta
067  public static <T, R, C, V, I extends Table<R, C, V>> Collector<T, ?, I> toTable(
068      java.util.function.Function<? super T, ? extends R> rowFunction,
069      java.util.function.Function<? super T, ? extends C> columnFunction,
070      java.util.function.Function<? super T, ? extends V> valueFunction,
071      java.util.function.Supplier<I> tableSupplier) {
072    return toTable(
073        rowFunction,
074        columnFunction,
075        valueFunction,
076        (v1, v2) -> {
077          throw new IllegalStateException("Conflicting values " + v1 + " and " + v2);
078        },
079        tableSupplier);
080  }
081
082  /**
083   * Returns a {@link Collector} that accumulates elements into a {@code Table} created using the
084   * specified supplier, whose cells are generated by applying the provided mapping functions to the
085   * input elements. Cells are inserted into the generated {@code Table} in encounter order.
086   *
087   * <p>If multiple input elements map to the same row and column, the specified merging function is
088   * used to combine the values. Like {@link
089   * java.util.stream.Collectors#toMap(java.util.function.Function, java.util.function.Function,
090   * BinaryOperator, java.util.function.Supplier)}, this Collector throws a {@code
091   * NullPointerException} on null values returned from {@code valueFunction}, and treats nulls
092   * returned from {@code mergeFunction} as removals of that row/column pair.
093   *
094   * @since 21.0
095   */
096  public static <T, R, C, V, I extends Table<R, C, V>> Collector<T, ?, I> toTable(
097      java.util.function.Function<? super T, ? extends R> rowFunction,
098      java.util.function.Function<? super T, ? extends C> columnFunction,
099      java.util.function.Function<? super T, ? extends V> valueFunction,
100      BinaryOperator<V> mergeFunction,
101      java.util.function.Supplier<I> tableSupplier) {
102    checkNotNull(rowFunction);
103    checkNotNull(columnFunction);
104    checkNotNull(valueFunction);
105    checkNotNull(mergeFunction);
106    checkNotNull(tableSupplier);
107    return Collector.of(
108        tableSupplier,
109        (table, input) ->
110            merge(
111                table,
112                rowFunction.apply(input),
113                columnFunction.apply(input),
114                valueFunction.apply(input),
115                mergeFunction),
116        (table1, table2) -> {
117          for (Table.Cell<R, C, V> cell2 : table2.cellSet()) {
118            merge(table1, cell2.getRowKey(), cell2.getColumnKey(), cell2.getValue(), mergeFunction);
119          }
120          return table1;
121        });
122  }
123
124  private static <R, C, V> void merge(
125      Table<R, C, V> table, R row, C column, V value, BinaryOperator<V> mergeFunction) {
126    checkNotNull(value);
127    V oldValue = table.get(row, column);
128    if (oldValue == null) {
129      table.put(row, column, value);
130    } else {
131      V newValue = mergeFunction.apply(oldValue, value);
132      if (newValue == null) {
133        table.remove(row, column);
134      } else {
135        table.put(row, column, newValue);
136      }
137    }
138  }
139
140  /**
141   * Returns an immutable cell with the specified row key, column key, and
142   * value.
143   *
144   * <p>The returned cell is serializable.
145   *
146   * @param rowKey the row key to be associated with the returned cell
147   * @param columnKey the column key to be associated with the returned cell
148   * @param value the value to be associated with the returned cell
149   */
150  public static <R, C, V> Cell<R, C, V> immutableCell(
151      @Nullable R rowKey, @Nullable C columnKey, @Nullable V value) {
152    return new ImmutableCell<>(rowKey, columnKey, value);
153  }
154
155  static final class ImmutableCell<R, C, V> extends AbstractCell<R, C, V> implements Serializable {
156    private final R rowKey;
157    private final C columnKey;
158    private final V value;
159
160    ImmutableCell(@Nullable R rowKey, @Nullable C columnKey, @Nullable V value) {
161      this.rowKey = rowKey;
162      this.columnKey = columnKey;
163      this.value = value;
164    }
165
166    @Override
167    public R getRowKey() {
168      return rowKey;
169    }
170
171    @Override
172    public C getColumnKey() {
173      return columnKey;
174    }
175
176    @Override
177    public V getValue() {
178      return value;
179    }
180
181    private static final long serialVersionUID = 0;
182  }
183
184  abstract static class AbstractCell<R, C, V> implements Cell<R, C, V> {
185    // needed for serialization
186    AbstractCell() {}
187
188    @Override
189    public boolean equals(Object obj) {
190      if (obj == this) {
191        return true;
192      }
193      if (obj instanceof Cell) {
194        Cell<?, ?, ?> other = (Cell<?, ?, ?>) obj;
195        return Objects.equal(getRowKey(), other.getRowKey())
196            && Objects.equal(getColumnKey(), other.getColumnKey())
197            && Objects.equal(getValue(), other.getValue());
198      }
199      return false;
200    }
201
202    @Override
203    public int hashCode() {
204      return Objects.hashCode(getRowKey(), getColumnKey(), getValue());
205    }
206
207    @Override
208    public String toString() {
209      return "(" + getRowKey() + "," + getColumnKey() + ")=" + getValue();
210    }
211  }
212
213  /**
214   * Creates a transposed view of a given table that flips its row and column
215   * keys. In other words, calling {@code get(columnKey, rowKey)} on the
216   * generated table always returns the same value as calling {@code
217   * get(rowKey, columnKey)} on the original table. Updating the original table
218   * changes the contents of the transposed table and vice versa.
219   *
220   * <p>The returned table supports update operations as long as the input table
221   * supports the analogous operation with swapped rows and columns. For
222   * example, in a {@link HashBasedTable} instance, {@code
223   * rowKeySet().iterator()} supports {@code remove()} but {@code
224   * columnKeySet().iterator()} doesn't. With a transposed {@link
225   * HashBasedTable}, it's the other way around.
226   */
227  public static <R, C, V> Table<C, R, V> transpose(Table<R, C, V> table) {
228    return (table instanceof TransposeTable)
229        ? ((TransposeTable<R, C, V>) table).original
230        : new TransposeTable<C, R, V>(table);
231  }
232
233  private static class TransposeTable<C, R, V> extends AbstractTable<C, R, V> {
234    final Table<R, C, V> original;
235
236    TransposeTable(Table<R, C, V> original) {
237      this.original = checkNotNull(original);
238    }
239
240    @Override
241    public void clear() {
242      original.clear();
243    }
244
245    @Override
246    public Map<C, V> column(R columnKey) {
247      return original.row(columnKey);
248    }
249
250    @Override
251    public Set<R> columnKeySet() {
252      return original.rowKeySet();
253    }
254
255    @Override
256    public Map<R, Map<C, V>> columnMap() {
257      return original.rowMap();
258    }
259
260    @Override
261    public boolean contains(@Nullable Object rowKey, @Nullable Object columnKey) {
262      return original.contains(columnKey, rowKey);
263    }
264
265    @Override
266    public boolean containsColumn(@Nullable Object columnKey) {
267      return original.containsRow(columnKey);
268    }
269
270    @Override
271    public boolean containsRow(@Nullable Object rowKey) {
272      return original.containsColumn(rowKey);
273    }
274
275    @Override
276    public boolean containsValue(@Nullable Object value) {
277      return original.containsValue(value);
278    }
279
280    @Override
281    public V get(@Nullable Object rowKey, @Nullable Object columnKey) {
282      return original.get(columnKey, rowKey);
283    }
284
285    @Override
286    public V put(C rowKey, R columnKey, V value) {
287      return original.put(columnKey, rowKey, value);
288    }
289
290    @Override
291    public void putAll(Table<? extends C, ? extends R, ? extends V> table) {
292      original.putAll(transpose(table));
293    }
294
295    @Override
296    public V remove(@Nullable Object rowKey, @Nullable Object columnKey) {
297      return original.remove(columnKey, rowKey);
298    }
299
300    @Override
301    public Map<R, V> row(C rowKey) {
302      return original.column(rowKey);
303    }
304
305    @Override
306    public Set<C> rowKeySet() {
307      return original.columnKeySet();
308    }
309
310    @Override
311    public Map<C, Map<R, V>> rowMap() {
312      return original.columnMap();
313    }
314
315    @Override
316    public int size() {
317      return original.size();
318    }
319
320    @Override
321    public Collection<V> values() {
322      return original.values();
323    }
324
325    // Will cast TRANSPOSE_CELL to a type that always succeeds
326    private static final Function<Cell<?, ?, ?>, Cell<?, ?, ?>> TRANSPOSE_CELL =
327        new Function<Cell<?, ?, ?>, Cell<?, ?, ?>>() {
328          @Override
329          public Cell<?, ?, ?> apply(Cell<?, ?, ?> cell) {
330            return immutableCell(cell.getColumnKey(), cell.getRowKey(), cell.getValue());
331          }
332        };
333
334    @SuppressWarnings("unchecked")
335    @Override
336    Iterator<Cell<C, R, V>> cellIterator() {
337      return Iterators.transform(original.cellSet().iterator(), (Function) TRANSPOSE_CELL);
338    }
339
340    @SuppressWarnings("unchecked")
341    @Override
342    Spliterator<Cell<C, R, V>> cellSpliterator() {
343      return CollectSpliterators.map(original.cellSet().spliterator(), (Function) TRANSPOSE_CELL);
344    }
345  }
346
347  /**
348   * Creates a table that uses the specified backing map and factory. It can
349   * generate a table based on arbitrary {@link Map} classes.
350   *
351   * <p>The {@code factory}-generated and {@code backingMap} classes determine
352   * the table iteration order. However, the table's {@code row()} method
353   * returns instances of a different class than {@code factory.get()} does.
354   *
355   * <p>Call this method only when the simpler factory methods in classes like
356   * {@link HashBasedTable} and {@link TreeBasedTable} won't suffice.
357   *
358   * <p>The views returned by the {@code Table} methods {@link Table#column},
359   * {@link Table#columnKeySet}, and {@link Table#columnMap} have iterators that
360   * don't support {@code remove()}. Otherwise, all optional operations are
361   * supported. Null row keys, columns keys, and values are not supported.
362   *
363   * <p>Lookups by row key are often faster than lookups by column key, because
364   * the data is stored in a {@code Map<R, Map<C, V>>}. A method call like
365   * {@code column(columnKey).get(rowKey)} still runs quickly, since the row key
366   * is provided. However, {@code column(columnKey).size()} takes longer, since
367   * an iteration across all row keys occurs.
368   *
369   * <p>Note that this implementation is not synchronized. If multiple threads
370   * access this table concurrently and one of the threads modifies the table,
371   * it must be synchronized externally.
372   *
373   * <p>The table is serializable if {@code backingMap}, {@code factory}, the
374   * maps generated by {@code factory}, and the table contents are all
375   * serializable.
376   *
377   * <p>Note: the table assumes complete ownership over of {@code backingMap}
378   * and the maps returned by {@code factory}. Those objects should not be
379   * manually updated and they should not use soft, weak, or phantom references.
380   *
381   * @param backingMap place to store the mapping from each row key to its
382   *     corresponding column key / value map
383   * @param factory supplier of new, empty maps that will each hold all column
384   *     key / value mappings for a given row key
385   * @throws IllegalArgumentException if {@code backingMap} is not empty
386   * @since 10.0
387   */
388  @Beta
389  public static <R, C, V> Table<R, C, V> newCustomTable(
390      Map<R, Map<C, V>> backingMap, Supplier<? extends Map<C, V>> factory) {
391    checkArgument(backingMap.isEmpty());
392    checkNotNull(factory);
393    // TODO(jlevy): Wrap factory to validate that the supplied maps are empty?
394    return new StandardTable<>(backingMap, factory);
395  }
396
397  /**
398   * Returns a view of a table where each value is transformed by a function.
399   * All other properties of the table, such as iteration order, are left
400   * intact.
401   *
402   * <p>Changes in the underlying table are reflected in this view. Conversely,
403   * this view supports removal operations, and these are reflected in the
404   * underlying table.
405   *
406   * <p>It's acceptable for the underlying table to contain null keys, and even
407   * null values provided that the function is capable of accepting null input.
408   * The transformed table might contain null values, if the function sometimes
409   * gives a null result.
410   *
411   * <p>The returned table is not thread-safe or serializable, even if the
412   * underlying table is.
413   *
414   * <p>The function is applied lazily, invoked when needed. This is necessary
415   * for the returned table to be a view, but it means that the function will be
416   * applied many times for bulk operations like {@link Table#containsValue} and
417   * {@code Table.toString()}. For this to perform well, {@code function} should
418   * be fast. To avoid lazy evaluation when the returned table doesn't need to
419   * be a view, copy the returned table into a new table of your choosing.
420   *
421   * @since 10.0
422   */
423  @Beta
424  public static <R, C, V1, V2> Table<R, C, V2> transformValues(
425      Table<R, C, V1> fromTable, Function<? super V1, V2> function) {
426    return new TransformedTable<>(fromTable, function);
427  }
428
429  private static class TransformedTable<R, C, V1, V2> extends AbstractTable<R, C, V2> {
430    final Table<R, C, V1> fromTable;
431    final Function<? super V1, V2> function;
432
433    TransformedTable(Table<R, C, V1> fromTable, Function<? super V1, V2> function) {
434      this.fromTable = checkNotNull(fromTable);
435      this.function = checkNotNull(function);
436    }
437
438    @Override
439    public boolean contains(Object rowKey, Object columnKey) {
440      return fromTable.contains(rowKey, columnKey);
441    }
442
443    @Override
444    public V2 get(Object rowKey, Object columnKey) {
445      // The function is passed a null input only when the table contains a null
446      // value.
447      return contains(rowKey, columnKey) ? function.apply(fromTable.get(rowKey, columnKey)) : null;
448    }
449
450    @Override
451    public int size() {
452      return fromTable.size();
453    }
454
455    @Override
456    public void clear() {
457      fromTable.clear();
458    }
459
460    @Override
461    public V2 put(R rowKey, C columnKey, V2 value) {
462      throw new UnsupportedOperationException();
463    }
464
465    @Override
466    public void putAll(Table<? extends R, ? extends C, ? extends V2> table) {
467      throw new UnsupportedOperationException();
468    }
469
470    @Override
471    public V2 remove(Object rowKey, Object columnKey) {
472      return contains(rowKey, columnKey)
473          ? function.apply(fromTable.remove(rowKey, columnKey))
474          : null;
475    }
476
477    @Override
478    public Map<C, V2> row(R rowKey) {
479      return Maps.transformValues(fromTable.row(rowKey), function);
480    }
481
482    @Override
483    public Map<R, V2> column(C columnKey) {
484      return Maps.transformValues(fromTable.column(columnKey), function);
485    }
486
487    Function<Cell<R, C, V1>, Cell<R, C, V2>> cellFunction() {
488      return new Function<Cell<R, C, V1>, Cell<R, C, V2>>() {
489        @Override
490        public Cell<R, C, V2> apply(Cell<R, C, V1> cell) {
491          return immutableCell(
492              cell.getRowKey(), cell.getColumnKey(), function.apply(cell.getValue()));
493        }
494      };
495    }
496
497    @Override
498    Iterator<Cell<R, C, V2>> cellIterator() {
499      return Iterators.transform(fromTable.cellSet().iterator(), cellFunction());
500    }
501
502    @Override
503    Spliterator<Cell<R, C, V2>> cellSpliterator() {
504      return CollectSpliterators.map(fromTable.cellSet().spliterator(), cellFunction());
505    }
506
507    @Override
508    public Set<R> rowKeySet() {
509      return fromTable.rowKeySet();
510    }
511
512    @Override
513    public Set<C> columnKeySet() {
514      return fromTable.columnKeySet();
515    }
516
517    @Override
518    Collection<V2> createValues() {
519      return Collections2.transform(fromTable.values(), function);
520    }
521
522    @Override
523    public Map<R, Map<C, V2>> rowMap() {
524      Function<Map<C, V1>, Map<C, V2>> rowFunction =
525          new Function<Map<C, V1>, Map<C, V2>>() {
526            @Override
527            public Map<C, V2> apply(Map<C, V1> row) {
528              return Maps.transformValues(row, function);
529            }
530          };
531      return Maps.transformValues(fromTable.rowMap(), rowFunction);
532    }
533
534    @Override
535    public Map<C, Map<R, V2>> columnMap() {
536      Function<Map<R, V1>, Map<R, V2>> columnFunction =
537          new Function<Map<R, V1>, Map<R, V2>>() {
538            @Override
539            public Map<R, V2> apply(Map<R, V1> column) {
540              return Maps.transformValues(column, function);
541            }
542          };
543      return Maps.transformValues(fromTable.columnMap(), columnFunction);
544    }
545  }
546
547  /**
548   * Returns an unmodifiable view of the specified table. This method allows modules to provide
549   * users with "read-only" access to internal tables. Query operations on the returned table
550   * "read through" to the specified table, and attempts to modify the returned table, whether
551   * direct or via its collection views, result in an {@code UnsupportedOperationException}.
552   *
553   * <p>The returned table will be serializable if the specified table is serializable.
554   *
555   * <p>Consider using an {@link ImmutableTable}, which is guaranteed never to change.
556   *
557   * @since 11.0
558   */
559  public static <R, C, V> Table<R, C, V> unmodifiableTable(
560      Table<? extends R, ? extends C, ? extends V> table) {
561    return new UnmodifiableTable<>(table);
562  }
563
564  private static class UnmodifiableTable<R, C, V> extends ForwardingTable<R, C, V>
565      implements Serializable {
566    final Table<? extends R, ? extends C, ? extends V> delegate;
567
568    UnmodifiableTable(Table<? extends R, ? extends C, ? extends V> delegate) {
569      this.delegate = checkNotNull(delegate);
570    }
571
572    @SuppressWarnings("unchecked") // safe, covariant cast
573    @Override
574    protected Table<R, C, V> delegate() {
575      return (Table<R, C, V>) delegate;
576    }
577
578    @Override
579    public Set<Cell<R, C, V>> cellSet() {
580      return Collections.unmodifiableSet(super.cellSet());
581    }
582
583    @Override
584    public void clear() {
585      throw new UnsupportedOperationException();
586    }
587
588    @Override
589    public Map<R, V> column(@Nullable C columnKey) {
590      return Collections.unmodifiableMap(super.column(columnKey));
591    }
592
593    @Override
594    public Set<C> columnKeySet() {
595      return Collections.unmodifiableSet(super.columnKeySet());
596    }
597
598    @Override
599    public Map<C, Map<R, V>> columnMap() {
600      Function<Map<R, V>, Map<R, V>> wrapper = unmodifiableWrapper();
601      return Collections.unmodifiableMap(Maps.transformValues(super.columnMap(), wrapper));
602    }
603
604    @Override
605    public V put(@Nullable R rowKey, @Nullable C columnKey, @Nullable V value) {
606      throw new UnsupportedOperationException();
607    }
608
609    @Override
610    public void putAll(Table<? extends R, ? extends C, ? extends V> table) {
611      throw new UnsupportedOperationException();
612    }
613
614    @Override
615    public V remove(@Nullable Object rowKey, @Nullable Object columnKey) {
616      throw new UnsupportedOperationException();
617    }
618
619    @Override
620    public Map<C, V> row(@Nullable R rowKey) {
621      return Collections.unmodifiableMap(super.row(rowKey));
622    }
623
624    @Override
625    public Set<R> rowKeySet() {
626      return Collections.unmodifiableSet(super.rowKeySet());
627    }
628
629    @Override
630    public Map<R, Map<C, V>> rowMap() {
631      Function<Map<C, V>, Map<C, V>> wrapper = unmodifiableWrapper();
632      return Collections.unmodifiableMap(Maps.transformValues(super.rowMap(), wrapper));
633    }
634
635    @Override
636    public Collection<V> values() {
637      return Collections.unmodifiableCollection(super.values());
638    }
639
640    private static final long serialVersionUID = 0;
641  }
642
643  /**
644   * Returns an unmodifiable view of the specified row-sorted table. This method allows modules to
645   * provide users with "read-only" access to internal tables. Query operations on the returned
646   * table "read through" to the specified table, and attempts to modify the returned table, whether
647   * direct or via its collection views, result in an {@code UnsupportedOperationException}.
648   *
649   * <p>The returned table will be serializable if the specified table is serializable.
650   *
651   * @param table the row-sorted table for which an unmodifiable view is to be returned
652   * @return an unmodifiable view of the specified table
653   * @since 11.0
654   */
655  @Beta
656  public static <R, C, V> RowSortedTable<R, C, V> unmodifiableRowSortedTable(
657      RowSortedTable<R, ? extends C, ? extends V> table) {
658    /*
659     * It's not ? extends R, because it's technically not covariant in R. Specifically,
660     * table.rowMap().comparator() could return a comparator that only works for the ? extends R.
661     * Collections.unmodifiableSortedMap makes the same distinction.
662     */
663    return new UnmodifiableRowSortedMap<>(table);
664  }
665
666  static final class UnmodifiableRowSortedMap<R, C, V> extends UnmodifiableTable<R, C, V>
667      implements RowSortedTable<R, C, V> {
668
669    public UnmodifiableRowSortedMap(RowSortedTable<R, ? extends C, ? extends V> delegate) {
670      super(delegate);
671    }
672
673    @Override
674    protected RowSortedTable<R, C, V> delegate() {
675      return (RowSortedTable<R, C, V>) super.delegate();
676    }
677
678    @Override
679    public SortedMap<R, Map<C, V>> rowMap() {
680      Function<Map<C, V>, Map<C, V>> wrapper = unmodifiableWrapper();
681      return Collections.unmodifiableSortedMap(Maps.transformValues(delegate().rowMap(), wrapper));
682    }
683
684    @Override
685    public SortedSet<R> rowKeySet() {
686      return Collections.unmodifiableSortedSet(delegate().rowKeySet());
687    }
688
689    private static final long serialVersionUID = 0;
690  }
691
692  @SuppressWarnings("unchecked")
693  private static <K, V> Function<Map<K, V>, Map<K, V>> unmodifiableWrapper() {
694    return (Function) UNMODIFIABLE_WRAPPER;
695  }
696
697  private static final Function<? extends Map<?, ?>, ? extends Map<?, ?>> UNMODIFIABLE_WRAPPER =
698      new Function<Map<Object, Object>, Map<Object, Object>>() {
699        @Override
700        public Map<Object, Object> apply(Map<Object, Object> input) {
701          return Collections.unmodifiableMap(input);
702        }
703      };
704      
705  /**
706   * Returns a synchronized (thread-safe) table backed by the specified table. In order to guarantee
707   * serial access, it is critical that <b>all</b> access to the backing table is accomplished
708   * through the returned table.
709   *
710   * <p>It is imperative that the user manually synchronize on the returned table when accessing any
711   * of its collection views:
712   *
713   * <pre>{@code
714   * Table<R, C, V> table = Tables.synchronizedTable(HashBasedTable.<R, C, V>create());
715   * ...
716   * Map<C, V> row = table.row(rowKey);  // Needn't be in synchronized block
717   * ...
718   * synchronized (table) {  // Synchronizing on table, not row!
719   *   Iterator<Entry<C, V>> i = row.entrySet().iterator(); // Must be in synchronized block
720   *   while (i.hasNext()) {
721   *     foo(i.next());
722   *   }
723   * }
724   * }</pre>
725   *
726   * <p>Failure to follow this advice may result in non-deterministic behavior.
727   *
728   * <p>The returned table will be serializable if the specified table is serializable.
729   *
730   * @param table the table to be wrapped in a synchronized view
731   * @return a synchronized view of the specified table
732   * @since 22.0
733   */
734  public static <R, C, V> Table<R, C, V> synchronizedTable(Table<R, C, V> table) {
735    return Synchronized.table(table, null);
736  }
737
738  static boolean equalsImpl(Table<?, ?, ?> table, @Nullable Object obj) {
739    if (obj == table) {
740      return true;
741    } else if (obj instanceof Table) {
742      Table<?, ?, ?> that = (Table<?, ?, ?>) obj;
743      return table.cellSet().equals(that.cellSet());
744    } else {
745      return false;
746    }
747  }
748}