229 lines
8.1 KiB
Kotlin
229 lines
8.1 KiB
Kotlin
/*
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* Copyright 2023 dorkbox, llc
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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package dorkbox.collections
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import java.io.Serializable
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import java.util.concurrent.atomic.*
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/**
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* This class uses the "single-writer-principle" for lock-free publication.
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*
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*
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* Since there are only 2 methods to guarantee that modifications can only be called one-at-a-time (either it is only called by
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* one thread, or only one thread can access it at a time) -- we chose the 2nd option -- and use 'synchronized' to make sure that only
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* one thread can access this modification methods at a time. Getting or checking the presence of values can then happen in a lock-free
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* manner.
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*
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*
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* According to my benchmarks, this is approximately 25% faster than ConcurrentHashMap for (all types of) reads, and a lot slower for
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* contended writes.
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*
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*
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* This data structure is for many-read/few-write scenarios
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*
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*
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* An unordered map. This implementation is a cuckoo hash map using 3 hashes, random walking, and a small stash for problematic
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* keys. Null keys are not allowed. Null values are allowed. No allocation is done except when growing the table size. <br></br>
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*
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*
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* This map performs very fast get, containsKey, and remove (typically O(1), worst case O(log(n))). Put may be a bit slower,
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* depending on hash collisions. Load factors greater than 0.91 greatly increase the chances the map will have to rehash to the
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* next higher POT size.
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*
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*
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* Iteration can be very slow for a map with a large capacity. [.clear] and [.shrink] can be used to reduce
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* the capacity. [OrderedMap] provides much faster iteration.
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*/
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class LockFreeObjectIntMap<K: Any> : MutableMap<K, Int>, Cloneable, Serializable {
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@Volatile
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private var hashMap: ObjectIntMap<K>
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// synchronized is used here to ensure the "single writer principle", and make sure that ONLY one thread at a time can enter this
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// section. Because of this, we can have unlimited reader threads all going at the same time, without contention (which is our
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// use-case 99% of the time)
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/**
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* Constructs an empty <tt>HashMap</tt> with the default initial capacity
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* (16) and the default load factor (0.75).
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*/
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constructor() {
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hashMap = ObjectIntMap()
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}
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/**
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* Constructs an empty <tt>HashMap</tt> with the specified initial
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* capacity and the default load factor (0.75).
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*
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* @param initialCapacity the initial capacity.
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*
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* @throws StateException if the initial capacity is negative.
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*/
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constructor(initialCapacity: Int) {
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hashMap = ObjectIntMap(initialCapacity)
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}
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/**
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* Constructs an empty <tt>HashMap</tt> with the specified initial
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* capacity and load factor.
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*
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* @param initialCapacity the initial capacity
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* @param loadFactor the load factor
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*
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* @throws StateException if the initial capacity is negative
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* or the load factor is nonpositive
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*/
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constructor(initialCapacity: Int, loadFactor: Float) {
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hashMap = ObjectIntMap(initialCapacity, loadFactor)
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}
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override val size: Int
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get() {
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// use the SWP to get a lock-free get of the value
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return mapREF[this].size
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}
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override fun isEmpty(): Boolean {
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// use the SWP to get a lock-free get of the value
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return mapREF[this].size == 0
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}
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override fun containsKey(key: K): Boolean {
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// use the SWP to get a lock-free get of the value
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return mapREF[this].containsKey(key)
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}
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override fun containsValue(value: Int): Boolean {
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// use the SWP to get a lock-free get of the value
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return mapREF[this].containsValue(value)
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}
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override operator fun get(key: K): Int? {
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// use the SWP to get a lock-free get of the value
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return mapREF[this].get(key)
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}
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/**
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* Returns the value for the specified key, or the default value if the key is not in the map.
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*/
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operator fun get(key: K, defaultValue: Int): Int {
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@Suppress("UNCHECKED_CAST")
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val objectIntMap = mapREF[this] as ObjectIntMap<K>
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return objectIntMap.get(key, defaultValue)
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}
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@Synchronized
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override fun put(key: K, value: Int): Int? {
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return hashMap.put(key, value)
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}
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@Synchronized
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override fun remove(key: K): Int? {
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return hashMap.remove(key)
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}
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@Synchronized
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override fun putAll(from: Map<out K, Int>) {
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hashMap.putAll(from)
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}
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@Synchronized
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override fun clear() {
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hashMap.clear()
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}
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/**
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* DO NOT MODIFY THE MAP VIA THIS (unless you synchronize around it!) It will result in unknown object visibility!
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*
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* Returns an iterator for the keys in the map. Remove is supported. Note that the same iterator instance is returned each
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* time this method is called. Use the [ObjectMap.Entries] constructor for nested or multithreaded iteration.
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*/
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@Suppress("UNCHECKED_CAST")
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override val keys: ObjectIntMap.Keys<K>
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get() {
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return mapREF[this].keys() as ObjectIntMap.Keys<K>
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}
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/**
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* DO NOT MODIFY THE MAP VIA THIS (unless you synchronize around it!) It will result in unknown object visibility!
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*
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* Returns an iterator for the values in the map. Remove is supported. Note that the same iterator instance is returned each
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* time this method is called. Use the [ObjectMap.Entries] constructor for nested or multithreaded iteration.
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*/
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override val values: ObjectIntMap.Values
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get() {
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return mapREF[this].values()
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}
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/**
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* DO NOT MODIFY THE MAP VIA THIS (unless you synchronize around it!) It will result in unknown object visibility!
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*
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* Returns an iterator for the entries in the map. Remove is supported. Note that the same iterator instance is returned each
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* time this method is called. Use the [ObjectMap.Entries] constructor for nested or multithreaded iteration.
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*/
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@Suppress("UNCHECKED_CAST")
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override val entries: MutableSet<MutableMap.MutableEntry<K, Int>>
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get() {
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return mapREF[this].entries() as MutableSet<MutableMap.MutableEntry<K, Int>>
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}
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override fun equals(other: Any?): Boolean {
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return mapREF[this] == other
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}
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override fun hashCode(): Int {
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return mapREF[this].hashCode()
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}
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override fun toString(): String {
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return mapREF[this].toString()
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}
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/**
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* Clears the map and reduces the size of the backing arrays to be the specified capacity, if they are larger. The reduction
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* is done by allocating new arrays, though for large arrays this can be faster than clearing the existing array.
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*/
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@Synchronized
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fun clear(maximumCapacity: Int) {
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mapREF[this].clear(maximumCapacity)
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}
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/**
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* Reduces the size of the backing arrays to be the specified capacity or less. If the capacity is already less, nothing is
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* done.
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* If the map contains more items than the specified capacity, the next highest power of two capacity is used instead.
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*/
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@Synchronized
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fun shrink(maximumCapacity: Int) {
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mapREF[this].shrink(maximumCapacity)
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}
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/**
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* Return a non-thread-safe copy of the backing map
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*/
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fun toMap(): ObjectIntMap<K> {
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return ObjectIntMap(mapREF[this] as ObjectIntMap<K>)
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}
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companion object {
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const val version = Collections.version
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// Recommended for best performance while adhering to the "single writer principle". Must be static-final
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private val mapREF = AtomicReferenceFieldUpdater.newUpdater(
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LockFreeObjectIntMap::class.java, ObjectIntMap::class.java, "hashMap"
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)
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}
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}
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