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/*
 * Copyright (C) 2007 The Guava Authors
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package com.signalfx.shaded.google.common.collect;

import static com.signalfx.shaded.google.common.base.Preconditions.checkNotNull;

import com.signalfx.shaded.google.common.annotations.GwtCompatible;
import com.signalfx.shaded.google.errorprone.annotations.CanIgnoreReturnValue;
import com.signalfx.shaded.google.errorprone.annotations.CompatibleWith;
import java.util.Collection;
import java.util.Collections;
import java.util.Iterator;
import java.util.List;
import java.util.Set;
import java.util.Spliterator;
import java.util.function.Consumer;
import java.util.function.ObjIntConsumer;
import com.signalfx.shaded.javax.annotation.CheckForNull;
import com.signalfx.shaded.checkerframework.checker.nullness.qual.Nullable;

/**
 * A collection that supports order-independent equality, like {@link Set}, but may have duplicate
 * elements. A multiset is also sometimes called a bag.
 *
 * 

Elements of a multiset that are equal to one another are referred to as occurrences of * the same single element. The total number of occurrences of an element in a multiset is called * the count of that element (the terms "frequency" and "multiplicity" are equivalent, but * not used in this API). Since the count of an element is represented as an {@code int}, a multiset * may never contain more than {@link Integer#MAX_VALUE} occurrences of any one element. * *

{@code Multiset} refines the specifications of several methods from {@code Collection}. It * also defines an additional query operation, {@link #count}, which returns the count of an * element. There are five new bulk-modification operations, for example {@link #add(Object, int)}, * to add or remove multiple occurrences of an element at once, or to set the count of an element to * a specific value. These modification operations are optional, but implementations which support * the standard collection operations {@link #add(Object)} or {@link #remove(Object)} are encouraged * to implement the related methods as well. Finally, two collection views are provided: {@link * #elementSet} contains the distinct elements of the multiset "with duplicates collapsed", and * {@link #entrySet} is similar but contains {@link Entry Multiset.Entry} instances, each providing * both a distinct element and the count of that element. * *

In addition to these required methods, implementations of {@code Multiset} are expected to * provide two {@code static} creation methods: {@code create()}, returning an empty multiset, and * {@code create(Iterable)}, returning a multiset containing the given initial * elements. This is simply a refinement of {@code Collection}'s constructor recommendations, * reflecting the new developments of Java 5. * *

As with other collection types, the modification operations are optional, and should throw * {@link UnsupportedOperationException} when they are not implemented. Most implementations should * support either all add operations or none of them, all removal operations or none of them, and if * and only if all of these are supported, the {@code setCount} methods as well. * *

A multiset uses {@link Object#equals} to determine whether two instances should be considered * "the same," unless specified otherwise by the implementation. * *

Warning: as with normal {@link Set}s, it is almost always a bad idea to modify an * element (in a way that affects its {@link Object#equals} behavior) while it is contained in a * multiset. Undefined behavior and bugs will result. * *

Implementations

* *
    *
  • {@link ImmutableMultiset} *
  • {@link ImmutableSortedMultiset} *
  • {@link HashMultiset} *
  • {@link LinkedHashMultiset} *
  • {@link TreeMultiset} *
  • {@link EnumMultiset} *
  • {@link ConcurrentHashMultiset} *
* *

If your values may be zero, negative, or outside the range of an int, you may wish to use * {@link com.signalfx.shaded.google.common.util.concurrent.AtomicLongMap} instead. Note, however, that unlike * {@code Multiset}, {@code AtomicLongMap} does not automatically remove zeros. * *

See the Guava User Guide article on {@code Multiset}. * * @author Kevin Bourrillion * @since 2.0 */ @GwtCompatible @ElementTypesAreNonnullByDefault public interface Multiset extends Collection { // Query Operations /** * Returns the total number of all occurrences of all elements in this multiset. * *

Note: this method does not return the number of distinct elements in the * multiset, which is given by {@code entrySet().size()}. */ @Override int size(); /** * Returns the number of occurrences of an element in this multiset (the count of the * element). Note that for an {@link Object#equals}-based multiset, this gives the same result as * {@link Collections#frequency} (which would presumably perform more poorly). * *

Note: the utility method {@link Iterables#frequency} generalizes this operation; it * correctly delegates to this method when dealing with a multiset, but it can also accept any * other iterable type. * * @param element the element to count occurrences of * @return the number of occurrences of the element in this multiset; possibly zero but never * negative */ int count(@CompatibleWith("E") @CheckForNull Object element); // Bulk Operations /** * Adds a number of occurrences of an element to this multiset. Note that if {@code occurrences == * 1}, this method has the identical effect to {@link #add(Object)}. This method is functionally * equivalent (except in the case of overflow) to the call {@code * addAll(Collections.nCopies(element, occurrences))}, which would presumably perform much more * poorly. * * @param element the element to add occurrences of; may be null only if explicitly allowed by the * implementation * @param occurrences the number of occurrences of the element to add. May be zero, in which case * no change will be made. * @return the count of the element before the operation; possibly zero * @throws IllegalArgumentException if {@code occurrences} is negative, or if this operation would * result in more than {@link Integer#MAX_VALUE} occurrences of the element * @throws NullPointerException if {@code element} is null and this implementation does not permit * null elements. Note that if {@code occurrences} is zero, the implementation may opt to * return normally. */ @CanIgnoreReturnValue int add(@ParametricNullness E element, int occurrences); /** * Adds a single occurrence of the specified element to this multiset. * *

This method refines {@link Collection#add}, which only ensures the presence of the * element, to further specify that a successful call must always increment the count of the * element, and the overall size of the collection, by one. * *

To both add the element and obtain the previous count of that element, use {@link * #add(Object, int) add}{@code (element, 1)} instead. * * @param element the element to add one occurrence of; may be null only if explicitly allowed by * the implementation * @return {@code true} always, since this call is required to modify the multiset, unlike other * {@link Collection} types * @throws NullPointerException if {@code element} is null and this implementation does not permit * null elements * @throws IllegalArgumentException if {@link Integer#MAX_VALUE} occurrences of {@code element} * are already contained in this multiset */ @CanIgnoreReturnValue @Override boolean add(@ParametricNullness E element); /** * Removes a number of occurrences of the specified element from this multiset. If the multiset * contains fewer than this number of occurrences to begin with, all occurrences will be removed. * Note that if {@code occurrences == 1}, this is functionally equivalent to the call {@code * remove(element)}. * * @param element the element to conditionally remove occurrences of * @param occurrences the number of occurrences of the element to remove. May be zero, in which * case no change will be made. * @return the count of the element before the operation; possibly zero * @throws IllegalArgumentException if {@code occurrences} is negative */ @CanIgnoreReturnValue int remove(@CompatibleWith("E") @CheckForNull Object element, int occurrences); /** * Removes a single occurrence of the specified element from this multiset, if present. * *

This method refines {@link Collection#remove} to further specify that it may not * throw an exception in response to {@code element} being null or of the wrong type. * *

To both remove the element and obtain the previous count of that element, use {@link * #remove(Object, int) remove}{@code (element, 1)} instead. * * @param element the element to remove one occurrence of * @return {@code true} if an occurrence was found and removed */ @CanIgnoreReturnValue @Override boolean remove(@CheckForNull Object element); /** * Adds or removes the necessary occurrences of an element such that the element attains the * desired count. * * @param element the element to add or remove occurrences of; may be null only if explicitly * allowed by the implementation * @param count the desired count of the element in this multiset * @return the count of the element before the operation; possibly zero * @throws IllegalArgumentException if {@code count} is negative * @throws NullPointerException if {@code element} is null and this implementation does not permit * null elements. Note that if {@code count} is zero, the implementor may optionally return * zero instead. */ @CanIgnoreReturnValue int setCount(@ParametricNullness E element, int count); /** * Conditionally sets the count of an element to a new value, as described in {@link * #setCount(Object, int)}, provided that the element has the expected current count. If the * current count is not {@code oldCount}, no change is made. * * @param element the element to conditionally set the count of; may be null only if explicitly * allowed by the implementation * @param oldCount the expected present count of the element in this multiset * @param newCount the desired count of the element in this multiset * @return {@code true} if the condition for modification was met. This implies that the multiset * was indeed modified, unless {@code oldCount == newCount}. * @throws IllegalArgumentException if {@code oldCount} or {@code newCount} is negative * @throws NullPointerException if {@code element} is null and the implementation does not permit * null elements. Note that if {@code oldCount} and {@code newCount} are both zero, the * implementor may optionally return {@code true} instead. */ @CanIgnoreReturnValue boolean setCount(@ParametricNullness E element, int oldCount, int newCount); // Views /** * Returns the set of distinct elements contained in this multiset. The element set is backed by * the same data as the multiset, so any change to either is immediately reflected in the other. * The order of the elements in the element set is unspecified. * *

If the element set supports any removal operations, these necessarily cause all * occurrences of the removed element(s) to be removed from the multiset. Implementations are not * expected to support the add operations, although this is possible. * *

A common use for the element set is to find the number of distinct elements in the multiset: * {@code elementSet().size()}. * * @return a view of the set of distinct elements in this multiset */ Set elementSet(); /** * Returns a view of the contents of this multiset, grouped into {@code Multiset.Entry} instances, * each providing an element of the multiset and the count of that element. This set contains * exactly one entry for each distinct element in the multiset (thus it always has the same size * as the {@link #elementSet}). The order of the elements in the element set is unspecified. * *

The entry set is backed by the same data as the multiset, so any change to either is * immediately reflected in the other. However, multiset changes may or may not be reflected in * any {@code Entry} instances already retrieved from the entry set (this is * implementation-dependent). Furthermore, implementations are not required to support * modifications to the entry set at all, and the {@code Entry} instances themselves don't even * have methods for modification. See the specific implementation class for more details on how * its entry set handles modifications. * * @return a set of entries representing the data of this multiset */ Set> entrySet(); /** * An unmodifiable element-count pair for a multiset. The {@link Multiset#entrySet} method returns * a view of the multiset whose elements are of this class. A multiset implementation may return * Entry instances that are either live "read-through" views to the Multiset, or immutable * snapshots. Note that this type is unrelated to the similarly-named type {@code Map.Entry}. * * @since 2.0 */ interface Entry { /** * Returns the multiset element corresponding to this entry. Multiple calls to this method * always return the same instance. * * @return the element corresponding to this entry */ @ParametricNullness E getElement(); /** * Returns the count of the associated element in the underlying multiset. This count may either * be an unchanging snapshot of the count at the time the entry was retrieved, or a live view of * the current count of the element in the multiset, depending on the implementation. Note that * in the former case, this method can never return zero, while in the latter, it will return * zero if all occurrences of the element were since removed from the multiset. * * @return the count of the element; never negative */ int getCount(); /** * {@inheritDoc} * *

Returns {@code true} if the given object is also a multiset entry and the two entries * represent the same element and count. That is, two entries {@code a} and {@code b} are equal * if: * *

{@code
     * Objects.equal(a.getElement(), b.getElement())
     *     && a.getCount() == b.getCount()
     * }
*/ @Override // TODO(kevinb): check this wrt TreeMultiset? boolean equals(@CheckForNull Object o); /** * {@inheritDoc} * *

The hash code of a multiset entry for element {@code element} and count {@code count} is * defined as: * *

{@code
     * ((element == null) ? 0 : element.hashCode()) ^ count
     * }
*/ @Override int hashCode(); /** * Returns the canonical string representation of this entry, defined as follows. If the count * for this entry is one, this is simply the string representation of the corresponding element. * Otherwise, it is the string representation of the element, followed by the three characters * {@code " x "} (space, letter x, space), followed by the count. */ @Override String toString(); } /** * Runs the specified action for each distinct element in this multiset, and the number of * occurrences of that element. For some {@code Multiset} implementations, this may be more * efficient than iterating over the {@link #entrySet()} either explicitly or with {@code * entrySet().forEach(action)}. * * @since 21.0 */ default void forEachEntry(ObjIntConsumer action) { checkNotNull(action); entrySet().forEach(entry -> action.accept(entry.getElement(), entry.getCount())); } // Comparison and hashing /** * Compares the specified object with this multiset for equality. Returns {@code true} if the * given object is also a multiset and contains equal elements with equal counts, regardless of * order. */ @Override // TODO(kevinb): caveats about equivalence-relation? boolean equals(@CheckForNull Object object); /** * Returns the hash code for this multiset. This is defined as the sum of * *
{@code
   * ((element == null) ? 0 : element.hashCode()) ^ count(element)
   * }
* *

over all distinct elements in the multiset. It follows that a multiset and its entry set * always have the same hash code. */ @Override int hashCode(); /** * {@inheritDoc} * *

It is recommended, though not mandatory, that this method return the result of invoking * {@link #toString} on the {@link #entrySet}, yielding a result such as {@code [a x 3, c, d x 2, * e]}. */ @Override String toString(); // Refined Collection Methods /** * {@inheritDoc} * *

Elements that occur multiple times in the multiset will appear multiple times in this * iterator, though not necessarily sequentially. */ @Override Iterator iterator(); /** * Determines whether this multiset contains the specified element. * *

This method refines {@link Collection#contains} to further specify that it may not * throw an exception in response to {@code element} being null or of the wrong type. * * @param element the element to check for * @return {@code true} if this multiset contains at least one occurrence of the element */ @Override boolean contains(@CheckForNull Object element); /** * Returns {@code true} if this multiset contains at least one occurrence of each element in the * specified collection. * *

This method refines {@link Collection#containsAll} to further specify that it may not * throw an exception in response to any of {@code elements} being null or of the wrong type. * *

Note: this method does not take into account the occurrence count of an element in * the two collections; it may still return {@code true} even if {@code elements} contains several * occurrences of an element and this multiset contains only one. This is no different than any * other collection type like {@link List}, but it may be unexpected to the user of a multiset. * * @param elements the collection of elements to be checked for containment in this multiset * @return {@code true} if this multiset contains at least one occurrence of each element * contained in {@code elements} * @throws NullPointerException if {@code elements} is null */ @Override boolean containsAll(Collection elements); /** * {@inheritDoc} * *

Note: This method ignores how often any element might appear in {@code c}, and only * cares whether or not an element appears at all. If you wish to remove one occurrence in this * multiset for every occurrence in {@code c}, see {@link Multisets#removeOccurrences(Multiset, * Multiset)}. * *

This method refines {@link Collection#removeAll} to further specify that it may not * throw an exception in response to any of {@code elements} being null or of the wrong type. */ @CanIgnoreReturnValue @Override boolean removeAll(Collection c); /** * {@inheritDoc} * *

Note: This method ignores how often any element might appear in {@code c}, and only * cares whether or not an element appears at all. If you wish to remove one occurrence in this * multiset for every occurrence in {@code c}, see {@link Multisets#retainOccurrences(Multiset, * Multiset)}. * *

This method refines {@link Collection#retainAll} to further specify that it may not * throw an exception in response to any of {@code elements} being null or of the wrong type. * * @see Multisets#retainOccurrences(Multiset, Multiset) */ @CanIgnoreReturnValue @Override boolean retainAll(Collection c); /** * {@inheritDoc} * *

Elements that occur multiple times in the multiset will be passed to the {@code Consumer} * correspondingly many times, though not necessarily sequentially. */ @Override default void forEach(Consumer action) { checkNotNull(action); entrySet() .forEach( entry -> { E elem = entry.getElement(); int count = entry.getCount(); for (int i = 0; i < count; i++) { action.accept(elem); } }); } @Override default Spliterator spliterator() { return Multisets.spliteratorImpl(this); } }





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