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/*
 * Copyright (C) 2011 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 jersey.repackaged.com.google.common.util.concurrent;

import static jersey.repackaged.com.google.common.base.Preconditions.checkNotNull;

import jersey.repackaged.com.google.common.annotations.GwtCompatible;
import jersey.repackaged.com.google.common.base.Function;
import jersey.repackaged.com.google.common.collect.Maps;

import java.util.Collections;
import java.util.Map;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.atomic.AtomicLong;

/**
 * A map containing {@code long} values that can be atomically updated. While writes to a
 * traditional {@code Map} rely on {@code put(K, V)}, the typical mechanism for writing to this map
 * is {@code addAndGet(K, long)}, which adds a {@code long} to the value currently associated with
 * {@code K}. If a key has not yet been associated with a value, its implicit value is zero.
 *
 * 

Most methods in this class treat absent values and zero values identically, as individually * documented. Exceptions to this are {@link #containsKey}, {@link #size}, {@link #isEmpty}, * {@link #asMap}, and {@link #toString}. * *

Instances of this class may be used by multiple threads concurrently. All operations are * atomic unless otherwise noted. * *

Note: If your values are always positive and less than 2^31, you may wish to use a * {@link jersey.repackaged.com.google.common.collect.Multiset} such as * {@link jersey.repackaged.com.google.common.collect.ConcurrentHashMultiset} instead. * * Warning: Unlike {@code Multiset}, entries whose values are zero are not automatically * removed from the map. Instead they must be removed manually with {@link #removeAllZeros}. * * @author Charles Fry * @since 11.0 */ @GwtCompatible public final class AtomicLongMap { private final ConcurrentHashMap map; private AtomicLongMap(ConcurrentHashMap map) { this.map = checkNotNull(map); } /** * Creates an {@code AtomicLongMap}. */ public static AtomicLongMap create() { return new AtomicLongMap(new ConcurrentHashMap()); } /** * Creates an {@code AtomicLongMap} with the same mappings as the specified {@code Map}. */ public static AtomicLongMap create(Map m) { AtomicLongMap result = create(); result.putAll(m); return result; } /** * Returns the value associated with {@code key}, or zero if there is no value associated with * {@code key}. */ public long get(K key) { AtomicLong atomic = map.get(key); return atomic == null ? 0L : atomic.get(); } /** * Increments by one the value currently associated with {@code key}, and returns the new value. */ public long incrementAndGet(K key) { return addAndGet(key, 1); } /** * Decrements by one the value currently associated with {@code key}, and returns the new value. */ public long decrementAndGet(K key) { return addAndGet(key, -1); } /** * Adds {@code delta} to the value currently associated with {@code key}, and returns the new * value. */ public long addAndGet(K key, long delta) { outer: for (;;) { AtomicLong atomic = map.get(key); if (atomic == null) { atomic = map.putIfAbsent(key, new AtomicLong(delta)); if (atomic == null) { return delta; } // atomic is now non-null; fall through } for (;;) { long oldValue = atomic.get(); if (oldValue == 0L) { // don't compareAndSet a zero if (map.replace(key, atomic, new AtomicLong(delta))) { return delta; } // atomic replaced continue outer; } long newValue = oldValue + delta; if (atomic.compareAndSet(oldValue, newValue)) { return newValue; } // value changed } } } /** * Increments by one the value currently associated with {@code key}, and returns the old value. */ public long getAndIncrement(K key) { return getAndAdd(key, 1); } /** * Decrements by one the value currently associated with {@code key}, and returns the old value. */ public long getAndDecrement(K key) { return getAndAdd(key, -1); } /** * Adds {@code delta} to the value currently associated with {@code key}, and returns the old * value. */ public long getAndAdd(K key, long delta) { outer: for (;;) { AtomicLong atomic = map.get(key); if (atomic == null) { atomic = map.putIfAbsent(key, new AtomicLong(delta)); if (atomic == null) { return 0L; } // atomic is now non-null; fall through } for (;;) { long oldValue = atomic.get(); if (oldValue == 0L) { // don't compareAndSet a zero if (map.replace(key, atomic, new AtomicLong(delta))) { return 0L; } // atomic replaced continue outer; } long newValue = oldValue + delta; if (atomic.compareAndSet(oldValue, newValue)) { return oldValue; } // value changed } } } /** * Associates {@code newValue} with {@code key} in this map, and returns the value previously * associated with {@code key}, or zero if there was no such value. */ public long put(K key, long newValue) { outer: for (;;) { AtomicLong atomic = map.get(key); if (atomic == null) { atomic = map.putIfAbsent(key, new AtomicLong(newValue)); if (atomic == null) { return 0L; } // atomic is now non-null; fall through } for (;;) { long oldValue = atomic.get(); if (oldValue == 0L) { // don't compareAndSet a zero if (map.replace(key, atomic, new AtomicLong(newValue))) { return 0L; } // atomic replaced continue outer; } if (atomic.compareAndSet(oldValue, newValue)) { return oldValue; } // value changed } } } /** * Copies all of the mappings from the specified map to this map. The effect of this call is * equivalent to that of calling {@code put(k, v)} on this map once for each mapping from key * {@code k} to value {@code v} in the specified map. The behavior of this operation is undefined * if the specified map is modified while the operation is in progress. */ public void putAll(Map m) { for (Map.Entry entry : m.entrySet()) { put(entry.getKey(), entry.getValue()); } } /** * Removes and returns the value associated with {@code key}. If {@code key} is not * in the map, this method has no effect and returns zero. */ public long remove(K key) { AtomicLong atomic = map.get(key); if (atomic == null) { return 0L; } for (;;) { long oldValue = atomic.get(); if (oldValue == 0L || atomic.compareAndSet(oldValue, 0L)) { // only remove after setting to zero, to avoid concurrent updates map.remove(key, atomic); // succeed even if the remove fails, since the value was already adjusted return oldValue; } } } /** * Removes all mappings from this map whose values are zero. * *

This method is not atomic: the map may be visible in intermediate states, where some * of the zero values have been removed and others have not. */ public void removeAllZeros() { for (K key : map.keySet()) { AtomicLong atomic = map.get(key); if (atomic != null && atomic.get() == 0L) { map.remove(key, atomic); } } } /** * Returns the sum of all values in this map. * *

This method is not atomic: the sum may or may not include other concurrent operations. */ public long sum() { long sum = 0L; for (AtomicLong value : map.values()) { sum = sum + value.get(); } return sum; } private transient Map asMap; /** * Returns a live, read-only view of the map backing this {@code AtomicLongMap}. */ public Map asMap() { Map result = asMap; return (result == null) ? asMap = createAsMap() : result; } private Map createAsMap() { return Collections.unmodifiableMap( Maps.transformValues(map, new Function() { @Override public Long apply(AtomicLong atomic) { return atomic.get(); } })); } /** * Returns true if this map contains a mapping for the specified key. */ public boolean containsKey(Object key) { return map.containsKey(key); } /** * Returns the number of key-value mappings in this map. If the map contains more than * {@code Integer.MAX_VALUE} elements, returns {@code Integer.MAX_VALUE}. */ public int size() { return map.size(); } /** * Returns {@code true} if this map contains no key-value mappings. */ public boolean isEmpty() { return map.isEmpty(); } /** * Removes all of the mappings from this map. The map will be empty after this call returns. * *

This method is not atomic: the map may not be empty after returning if there were concurrent * writes. */ public void clear() { map.clear(); } @Override public String toString() { return map.toString(); } /* * ConcurrentMap operations which we may eventually add. * * The problem with these is that remove(K, long) has to be done in two phases by definition --- * first decrementing to zero, and then removing. putIfAbsent or replace could observe the * intermediate zero-state. Ways we could deal with this are: * * - Don't define any of the ConcurrentMap operations. This is the current state of affairs. * * - Define putIfAbsent and replace as treating zero and absent identically (as currently * implemented below). This is a bit surprising with putIfAbsent, which really becomes * putIfZero. * * - Allow putIfAbsent and replace to distinguish between zero and absent, but don't implement * remove(K, long). Without any two-phase operations it becomes feasible for all remaining * operations to distinguish between zero and absent. If we do this, then perhaps we should add * replace(key, long). * * - Introduce a special-value private static final AtomicLong that would have the meaning of * removal-in-progress, and rework all operations to properly distinguish between zero and * absent. */ /** * If {@code key} is not already associated with a value or if {@code key} is associated with * zero, associate it with {@code newValue}. Returns the previous value associated with * {@code key}, or zero if there was no mapping for {@code key}. */ long putIfAbsent(K key, long newValue) { for (;;) { AtomicLong atomic = map.get(key); if (atomic == null) { atomic = map.putIfAbsent(key, new AtomicLong(newValue)); if (atomic == null) { return 0L; } // atomic is now non-null; fall through } long oldValue = atomic.get(); if (oldValue == 0L) { // don't compareAndSet a zero if (map.replace(key, atomic, new AtomicLong(newValue))) { return 0L; } // atomic replaced continue; } return oldValue; } } /** * If {@code (key, expectedOldValue)} is currently in the map, this method replaces * {@code expectedOldValue} with {@code newValue} and returns true; otherwise, this method * returns false. * *

If {@code expectedOldValue} is zero, this method will succeed if {@code (key, zero)} * is currently in the map, or if {@code key} is not in the map at all. */ boolean replace(K key, long expectedOldValue, long newValue) { if (expectedOldValue == 0L) { return putIfAbsent(key, newValue) == 0L; } else { AtomicLong atomic = map.get(key); return (atomic == null) ? false : atomic.compareAndSet(expectedOldValue, newValue); } } /** * If {@code (key, value)} is currently in the map, this method removes it and returns * true; otherwise, this method returns false. */ boolean remove(K key, long value) { AtomicLong atomic = map.get(key); if (atomic == null) { return false; } long oldValue = atomic.get(); if (oldValue != value) { return false; } if (oldValue == 0L || atomic.compareAndSet(oldValue, 0L)) { // only remove after setting to zero, to avoid concurrent updates map.remove(key, atomic); // succeed even if the remove fails, since the value was already adjusted return true; } // value changed return false; } }





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