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/*
* Copyright 2010-2023 JetBrains s.r.o. and Kotlin Programming Language contributors.
* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
*/
@file:kotlin.jvm.JvmMultifileClass
@file:kotlin.jvm.JvmName("MapsKt")
package kotlin.collections
import java.util.Comparator
import java.util.Properties
import java.util.SortedMap
import java.util.TreeMap
import java.util.concurrent.ConcurrentMap
import kotlin.collections.builders.MapBuilder
/**
* Returns a new read-only map, mapping only the specified key to the
* specified value.
*
* The returned map is serializable.
*
* @sample samples.collections.Maps.Instantiation.mapFromPairs
*/
public actual fun mapOf(pair: Pair): Map = java.util.Collections.singletonMap(pair.first, pair.second)
@PublishedApi
@SinceKotlin("1.3")
@kotlin.internal.InlineOnly
internal actual inline fun buildMapInternal(builderAction: MutableMap.() -> Unit): Map {
return build(createMapBuilder().apply(builderAction))
}
@PublishedApi
@SinceKotlin("1.3")
@kotlin.internal.InlineOnly
internal actual inline fun buildMapInternal(capacity: Int, builderAction: MutableMap.() -> Unit): Map {
return build(createMapBuilder(capacity).apply(builderAction))
}
@PublishedApi
@SinceKotlin("1.3")
internal fun createMapBuilder(): MutableMap {
return MapBuilder()
}
@PublishedApi
@SinceKotlin("1.3")
internal fun createMapBuilder(capacity: Int): MutableMap {
return MapBuilder(capacity)
}
@PublishedApi
@SinceKotlin("1.3")
internal fun build(builder: MutableMap): Map {
return (builder as MapBuilder).build()
}
/**
* Concurrent getOrPut, that is safe for concurrent maps.
*
* Returns the value for the given [key]. If the key is not found in the map, calls the [defaultValue] function,
* puts its result into the map under the given key and returns it.
*
* This method guarantees not to put the value into the map if the key is already there,
* but the [defaultValue] function may be invoked even if the key is already in the map.
*/
public inline fun ConcurrentMap.getOrPut(key: K, defaultValue: () -> V): V {
// Do not use computeIfAbsent on JVM8 as it would change locking behavior
return this.get(key)
?: defaultValue().let { default -> this.putIfAbsent(key, default) ?: default }
}
/**
* Converts this [Map] to a [SortedMap]. The resulting [SortedMap] determines the equality and order of keys according to their natural sorting order.
*
* Note that if the natural sorting order of keys considers any two keys of this map equal
* (this could happen if the equality of keys according to [Comparable.compareTo] is inconsistent with the equality according to [Any.equals]),
* only the value associated with the last of them gets into the resulting map.
*
* @sample samples.collections.Maps.Transformations.mapToSortedMap
*/
public fun , V> Map.toSortedMap(): SortedMap = TreeMap(this)
/**
* Converts this [Map] to a [SortedMap]. The resulting [SortedMap] determines the equality and order of keys according to the sorting order provided by the given [comparator].
*
* Note that if the `comparator` considers any two keys of this map equal, only the value associated with the last of them gets into the resulting map.
*
* @sample samples.collections.Maps.Transformations.mapToSortedMapWithComparator
*/
public fun Map.toSortedMap(comparator: Comparator): SortedMap =
TreeMap(comparator).apply { putAll(this@toSortedMap) }
/**
* Returns a new [SortedMap] with the specified contents, given as a list of pairs
* where the first value is the key and the second is the value.
*
* The resulting [SortedMap] determines the equality and order of keys according to their natural sorting order.
*
* @sample samples.collections.Maps.Instantiation.sortedMapFromPairs
*/
public fun , V> sortedMapOf(vararg pairs: Pair): SortedMap =
TreeMap().apply { putAll(pairs) }
/**
* Returns a new [SortedMap] with the specified contents, given as a list of pairs
* where the first value is the key and the second is the value.
*
* The resulting [SortedMap] determines the equality and order of keys according to the sorting order provided by the given [comparator].
*
* @sample samples.collections.Maps.Instantiation.sortedMapWithComparatorFromPairs
*/
@SinceKotlin("1.4")
public fun sortedMapOf(comparator: Comparator, vararg pairs: Pair): SortedMap =
TreeMap(comparator).apply { putAll(pairs) }
/**
* Converts this [Map] to a [Properties] object.
*
* @sample samples.collections.Maps.Transformations.mapToProperties
*/
@kotlin.internal.InlineOnly
public inline fun Map.toProperties(): Properties =
Properties().apply { putAll(this@toProperties) }
// creates a singleton copy of map, if there is specialization available in target platform, otherwise returns itself
@kotlin.internal.InlineOnly
internal actual inline fun Map.toSingletonMapOrSelf(): Map = toSingletonMap()
// creates a singleton copy of map
internal actual fun Map.toSingletonMap(): Map =
with(entries.iterator().next()) { java.util.Collections.singletonMap(key, value) }
/**
* Calculate the initial capacity of a map, based on Guava's
* [com.google.common.collect.Maps.capacity](https://github.com/google/guava/blob/v28.2/guava/src/com/google/common/collect/Maps.java#L325)
* approach.
*/
@PublishedApi
internal actual fun mapCapacity(expectedSize: Int): Int = when {
// We are not coercing the value to a valid one and not throwing an exception. It is up to the caller to
// properly handle negative values.
expectedSize < 0 -> expectedSize
expectedSize < 3 -> expectedSize + 1
expectedSize < INT_MAX_POWER_OF_TWO -> ((expectedSize / 0.75F) + 1.0F).toInt()
// any large value
else -> Int.MAX_VALUE
}
private const val INT_MAX_POWER_OF_TWO: Int = 1 shl (Int.SIZE_BITS - 2)