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@file:kotlin.jvm.JvmMultifileClass
@file:kotlin.jvm.JvmName("ArraysKt")

package kotlin.collections

//
// NOTE THIS FILE IS AUTO-GENERATED by the GenerateStandardLib.kt
// See: https://github.com/JetBrains/kotlin/tree/master/libraries/stdlib
//

import kotlin.comparisons.*
import java.util.*

import java.util.Collections // TODO: it's temporary while we have java.util.Collections in js

/**
 * Returns 1st *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun  Array.component1(): T {
    return get(0)
}

/**
 * Returns 1st *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun ByteArray.component1(): Byte {
    return get(0)
}

/**
 * Returns 1st *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun ShortArray.component1(): Short {
    return get(0)
}

/**
 * Returns 1st *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun IntArray.component1(): Int {
    return get(0)
}

/**
 * Returns 1st *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun LongArray.component1(): Long {
    return get(0)
}

/**
 * Returns 1st *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun FloatArray.component1(): Float {
    return get(0)
}

/**
 * Returns 1st *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun DoubleArray.component1(): Double {
    return get(0)
}

/**
 * Returns 1st *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun BooleanArray.component1(): Boolean {
    return get(0)
}

/**
 * Returns 1st *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun CharArray.component1(): Char {
    return get(0)
}

/**
 * Returns 2nd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun  Array.component2(): T {
    return get(1)
}

/**
 * Returns 2nd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun ByteArray.component2(): Byte {
    return get(1)
}

/**
 * Returns 2nd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun ShortArray.component2(): Short {
    return get(1)
}

/**
 * Returns 2nd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun IntArray.component2(): Int {
    return get(1)
}

/**
 * Returns 2nd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun LongArray.component2(): Long {
    return get(1)
}

/**
 * Returns 2nd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun FloatArray.component2(): Float {
    return get(1)
}

/**
 * Returns 2nd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun DoubleArray.component2(): Double {
    return get(1)
}

/**
 * Returns 2nd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun BooleanArray.component2(): Boolean {
    return get(1)
}

/**
 * Returns 2nd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun CharArray.component2(): Char {
    return get(1)
}

/**
 * Returns 3rd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun  Array.component3(): T {
    return get(2)
}

/**
 * Returns 3rd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun ByteArray.component3(): Byte {
    return get(2)
}

/**
 * Returns 3rd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun ShortArray.component3(): Short {
    return get(2)
}

/**
 * Returns 3rd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun IntArray.component3(): Int {
    return get(2)
}

/**
 * Returns 3rd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun LongArray.component3(): Long {
    return get(2)
}

/**
 * Returns 3rd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun FloatArray.component3(): Float {
    return get(2)
}

/**
 * Returns 3rd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun DoubleArray.component3(): Double {
    return get(2)
}

/**
 * Returns 3rd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun BooleanArray.component3(): Boolean {
    return get(2)
}

/**
 * Returns 3rd *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun CharArray.component3(): Char {
    return get(2)
}

/**
 * Returns 4th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun  Array.component4(): T {
    return get(3)
}

/**
 * Returns 4th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun ByteArray.component4(): Byte {
    return get(3)
}

/**
 * Returns 4th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun ShortArray.component4(): Short {
    return get(3)
}

/**
 * Returns 4th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun IntArray.component4(): Int {
    return get(3)
}

/**
 * Returns 4th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun LongArray.component4(): Long {
    return get(3)
}

/**
 * Returns 4th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun FloatArray.component4(): Float {
    return get(3)
}

/**
 * Returns 4th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun DoubleArray.component4(): Double {
    return get(3)
}

/**
 * Returns 4th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun BooleanArray.component4(): Boolean {
    return get(3)
}

/**
 * Returns 4th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun CharArray.component4(): Char {
    return get(3)
}

/**
 * Returns 5th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun  Array.component5(): T {
    return get(4)
}

/**
 * Returns 5th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun ByteArray.component5(): Byte {
    return get(4)
}

/**
 * Returns 5th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun ShortArray.component5(): Short {
    return get(4)
}

/**
 * Returns 5th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun IntArray.component5(): Int {
    return get(4)
}

/**
 * Returns 5th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun LongArray.component5(): Long {
    return get(4)
}

/**
 * Returns 5th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun FloatArray.component5(): Float {
    return get(4)
}

/**
 * Returns 5th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun DoubleArray.component5(): Double {
    return get(4)
}

/**
 * Returns 5th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun BooleanArray.component5(): Boolean {
    return get(4)
}

/**
 * Returns 5th *element* from the collection.
 */
@kotlin.internal.InlineOnly
public inline operator fun CharArray.component5(): Char {
    return get(4)
}

/**
 * Returns `true` if [element] is found in the array.
 */
public operator fun <@kotlin.internal.OnlyInputTypes T> Array.contains(element: T): Boolean {
    return indexOf(element) >= 0
}

/**
 * Returns `true` if [element] is found in the array.
 */
public operator fun ByteArray.contains(element: Byte): Boolean {
    return indexOf(element) >= 0
}

/**
 * Returns `true` if [element] is found in the array.
 */
public operator fun ShortArray.contains(element: Short): Boolean {
    return indexOf(element) >= 0
}

/**
 * Returns `true` if [element] is found in the array.
 */
public operator fun IntArray.contains(element: Int): Boolean {
    return indexOf(element) >= 0
}

/**
 * Returns `true` if [element] is found in the array.
 */
public operator fun LongArray.contains(element: Long): Boolean {
    return indexOf(element) >= 0
}

/**
 * Returns `true` if [element] is found in the array.
 */
public operator fun FloatArray.contains(element: Float): Boolean {
    return indexOf(element) >= 0
}

/**
 * Returns `true` if [element] is found in the array.
 */
public operator fun DoubleArray.contains(element: Double): Boolean {
    return indexOf(element) >= 0
}

/**
 * Returns `true` if [element] is found in the array.
 */
public operator fun BooleanArray.contains(element: Boolean): Boolean {
    return indexOf(element) >= 0
}

/**
 * Returns `true` if [element] is found in the array.
 */
public operator fun CharArray.contains(element: Char): Boolean {
    return indexOf(element) >= 0
}

/**
 * Returns an element at the given [index] or throws an [IndexOutOfBoundsException] if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun  Array.elementAt(index: Int): T {
    return get(index)
}

/**
 * Returns an element at the given [index] or throws an [IndexOutOfBoundsException] if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun ByteArray.elementAt(index: Int): Byte {
    return get(index)
}

/**
 * Returns an element at the given [index] or throws an [IndexOutOfBoundsException] if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun ShortArray.elementAt(index: Int): Short {
    return get(index)
}

/**
 * Returns an element at the given [index] or throws an [IndexOutOfBoundsException] if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun IntArray.elementAt(index: Int): Int {
    return get(index)
}

/**
 * Returns an element at the given [index] or throws an [IndexOutOfBoundsException] if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun LongArray.elementAt(index: Int): Long {
    return get(index)
}

/**
 * Returns an element at the given [index] or throws an [IndexOutOfBoundsException] if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun FloatArray.elementAt(index: Int): Float {
    return get(index)
}

/**
 * Returns an element at the given [index] or throws an [IndexOutOfBoundsException] if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun DoubleArray.elementAt(index: Int): Double {
    return get(index)
}

/**
 * Returns an element at the given [index] or throws an [IndexOutOfBoundsException] if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun BooleanArray.elementAt(index: Int): Boolean {
    return get(index)
}

/**
 * Returns an element at the given [index] or throws an [IndexOutOfBoundsException] if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun CharArray.elementAt(index: Int): Char {
    return get(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun  Array.elementAtOrElse(index: Int, defaultValue: (Int) -> T): T {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun ByteArray.elementAtOrElse(index: Int, defaultValue: (Int) -> Byte): Byte {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun ShortArray.elementAtOrElse(index: Int, defaultValue: (Int) -> Short): Short {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun IntArray.elementAtOrElse(index: Int, defaultValue: (Int) -> Int): Int {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun LongArray.elementAtOrElse(index: Int, defaultValue: (Int) -> Long): Long {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun FloatArray.elementAtOrElse(index: Int, defaultValue: (Int) -> Float): Float {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun DoubleArray.elementAtOrElse(index: Int, defaultValue: (Int) -> Double): Double {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun BooleanArray.elementAtOrElse(index: Int, defaultValue: (Int) -> Boolean): Boolean {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun CharArray.elementAtOrElse(index: Int, defaultValue: (Int) -> Char): Char {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun  Array.elementAtOrNull(index: Int): T? {
    return this.getOrNull(index)
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun ByteArray.elementAtOrNull(index: Int): Byte? {
    return this.getOrNull(index)
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun ShortArray.elementAtOrNull(index: Int): Short? {
    return this.getOrNull(index)
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun IntArray.elementAtOrNull(index: Int): Int? {
    return this.getOrNull(index)
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun LongArray.elementAtOrNull(index: Int): Long? {
    return this.getOrNull(index)
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun FloatArray.elementAtOrNull(index: Int): Float? {
    return this.getOrNull(index)
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun DoubleArray.elementAtOrNull(index: Int): Double? {
    return this.getOrNull(index)
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun BooleanArray.elementAtOrNull(index: Int): Boolean? {
    return this.getOrNull(index)
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun CharArray.elementAtOrNull(index: Int): Char? {
    return this.getOrNull(index)
}

/**
 * Returns the first element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun  Array.find(predicate: (T) -> Boolean): T? {
    return firstOrNull(predicate)
}

/**
 * Returns the first element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun ByteArray.find(predicate: (Byte) -> Boolean): Byte? {
    return firstOrNull(predicate)
}

/**
 * Returns the first element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun ShortArray.find(predicate: (Short) -> Boolean): Short? {
    return firstOrNull(predicate)
}

/**
 * Returns the first element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun IntArray.find(predicate: (Int) -> Boolean): Int? {
    return firstOrNull(predicate)
}

/**
 * Returns the first element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun LongArray.find(predicate: (Long) -> Boolean): Long? {
    return firstOrNull(predicate)
}

/**
 * Returns the first element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun FloatArray.find(predicate: (Float) -> Boolean): Float? {
    return firstOrNull(predicate)
}

/**
 * Returns the first element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun DoubleArray.find(predicate: (Double) -> Boolean): Double? {
    return firstOrNull(predicate)
}

/**
 * Returns the first element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun BooleanArray.find(predicate: (Boolean) -> Boolean): Boolean? {
    return firstOrNull(predicate)
}

/**
 * Returns the first element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun CharArray.find(predicate: (Char) -> Boolean): Char? {
    return firstOrNull(predicate)
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun  Array.findLast(predicate: (T) -> Boolean): T? {
    return lastOrNull(predicate)
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun ByteArray.findLast(predicate: (Byte) -> Boolean): Byte? {
    return lastOrNull(predicate)
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun ShortArray.findLast(predicate: (Short) -> Boolean): Short? {
    return lastOrNull(predicate)
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun IntArray.findLast(predicate: (Int) -> Boolean): Int? {
    return lastOrNull(predicate)
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun LongArray.findLast(predicate: (Long) -> Boolean): Long? {
    return lastOrNull(predicate)
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun FloatArray.findLast(predicate: (Float) -> Boolean): Float? {
    return lastOrNull(predicate)
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun DoubleArray.findLast(predicate: (Double) -> Boolean): Double? {
    return lastOrNull(predicate)
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun BooleanArray.findLast(predicate: (Boolean) -> Boolean): Boolean? {
    return lastOrNull(predicate)
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
@kotlin.internal.InlineOnly
public inline fun CharArray.findLast(predicate: (Char) -> Boolean): Char? {
    return lastOrNull(predicate)
}

/**
 * Returns first element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun  Array.first(): T {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[0]
}

/**
 * Returns first element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun ByteArray.first(): Byte {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[0]
}

/**
 * Returns first element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun ShortArray.first(): Short {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[0]
}

/**
 * Returns first element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun IntArray.first(): Int {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[0]
}

/**
 * Returns first element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun LongArray.first(): Long {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[0]
}

/**
 * Returns first element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun FloatArray.first(): Float {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[0]
}

/**
 * Returns first element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun DoubleArray.first(): Double {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[0]
}

/**
 * Returns first element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun BooleanArray.first(): Boolean {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[0]
}

/**
 * Returns first element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun CharArray.first(): Char {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[0]
}

/**
 * Returns the first element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun  Array.first(predicate: (T) -> Boolean): T {
    for (element in this) if (predicate(element)) return element
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the first element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun ByteArray.first(predicate: (Byte) -> Boolean): Byte {
    for (element in this) if (predicate(element)) return element
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the first element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun ShortArray.first(predicate: (Short) -> Boolean): Short {
    for (element in this) if (predicate(element)) return element
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the first element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun IntArray.first(predicate: (Int) -> Boolean): Int {
    for (element in this) if (predicate(element)) return element
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the first element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun LongArray.first(predicate: (Long) -> Boolean): Long {
    for (element in this) if (predicate(element)) return element
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the first element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun FloatArray.first(predicate: (Float) -> Boolean): Float {
    for (element in this) if (predicate(element)) return element
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the first element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun DoubleArray.first(predicate: (Double) -> Boolean): Double {
    for (element in this) if (predicate(element)) return element
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the first element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun BooleanArray.first(predicate: (Boolean) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return element
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the first element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun CharArray.first(predicate: (Char) -> Boolean): Char {
    for (element in this) if (predicate(element)) return element
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the first element, or `null` if the array is empty.
 */
public fun  Array.firstOrNull(): T? {
    return if (isEmpty()) null else this[0]
}

/**
 * Returns the first element, or `null` if the array is empty.
 */
public fun ByteArray.firstOrNull(): Byte? {
    return if (isEmpty()) null else this[0]
}

/**
 * Returns the first element, or `null` if the array is empty.
 */
public fun ShortArray.firstOrNull(): Short? {
    return if (isEmpty()) null else this[0]
}

/**
 * Returns the first element, or `null` if the array is empty.
 */
public fun IntArray.firstOrNull(): Int? {
    return if (isEmpty()) null else this[0]
}

/**
 * Returns the first element, or `null` if the array is empty.
 */
public fun LongArray.firstOrNull(): Long? {
    return if (isEmpty()) null else this[0]
}

/**
 * Returns the first element, or `null` if the array is empty.
 */
public fun FloatArray.firstOrNull(): Float? {
    return if (isEmpty()) null else this[0]
}

/**
 * Returns the first element, or `null` if the array is empty.
 */
public fun DoubleArray.firstOrNull(): Double? {
    return if (isEmpty()) null else this[0]
}

/**
 * Returns the first element, or `null` if the array is empty.
 */
public fun BooleanArray.firstOrNull(): Boolean? {
    return if (isEmpty()) null else this[0]
}

/**
 * Returns the first element, or `null` if the array is empty.
 */
public fun CharArray.firstOrNull(): Char? {
    return if (isEmpty()) null else this[0]
}

/**
 * Returns the first element matching the given [predicate], or `null` if element was not found.
 */
public inline fun  Array.firstOrNull(predicate: (T) -> Boolean): T? {
    for (element in this) if (predicate(element)) return element
    return null
}

/**
 * Returns the first element matching the given [predicate], or `null` if element was not found.
 */
public inline fun ByteArray.firstOrNull(predicate: (Byte) -> Boolean): Byte? {
    for (element in this) if (predicate(element)) return element
    return null
}

/**
 * Returns the first element matching the given [predicate], or `null` if element was not found.
 */
public inline fun ShortArray.firstOrNull(predicate: (Short) -> Boolean): Short? {
    for (element in this) if (predicate(element)) return element
    return null
}

/**
 * Returns the first element matching the given [predicate], or `null` if element was not found.
 */
public inline fun IntArray.firstOrNull(predicate: (Int) -> Boolean): Int? {
    for (element in this) if (predicate(element)) return element
    return null
}

/**
 * Returns the first element matching the given [predicate], or `null` if element was not found.
 */
public inline fun LongArray.firstOrNull(predicate: (Long) -> Boolean): Long? {
    for (element in this) if (predicate(element)) return element
    return null
}

/**
 * Returns the first element matching the given [predicate], or `null` if element was not found.
 */
public inline fun FloatArray.firstOrNull(predicate: (Float) -> Boolean): Float? {
    for (element in this) if (predicate(element)) return element
    return null
}

/**
 * Returns the first element matching the given [predicate], or `null` if element was not found.
 */
public inline fun DoubleArray.firstOrNull(predicate: (Double) -> Boolean): Double? {
    for (element in this) if (predicate(element)) return element
    return null
}

/**
 * Returns the first element matching the given [predicate], or `null` if element was not found.
 */
public inline fun BooleanArray.firstOrNull(predicate: (Boolean) -> Boolean): Boolean? {
    for (element in this) if (predicate(element)) return element
    return null
}

/**
 * Returns the first element matching the given [predicate], or `null` if element was not found.
 */
public inline fun CharArray.firstOrNull(predicate: (Char) -> Boolean): Char? {
    for (element in this) if (predicate(element)) return element
    return null
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun  Array.getOrElse(index: Int, defaultValue: (Int) -> T): T {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun ByteArray.getOrElse(index: Int, defaultValue: (Int) -> Byte): Byte {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun ShortArray.getOrElse(index: Int, defaultValue: (Int) -> Short): Short {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun IntArray.getOrElse(index: Int, defaultValue: (Int) -> Int): Int {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun LongArray.getOrElse(index: Int, defaultValue: (Int) -> Long): Long {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun FloatArray.getOrElse(index: Int, defaultValue: (Int) -> Float): Float {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun DoubleArray.getOrElse(index: Int, defaultValue: (Int) -> Double): Double {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun BooleanArray.getOrElse(index: Int, defaultValue: (Int) -> Boolean): Boolean {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or the result of calling the [defaultValue] function if the [index] is out of bounds of this array.
 */
@kotlin.internal.InlineOnly
public inline fun CharArray.getOrElse(index: Int, defaultValue: (Int) -> Char): Char {
    return if (index >= 0 && index <= lastIndex) get(index) else defaultValue(index)
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
public fun  Array.getOrNull(index: Int): T? {
    return if (index >= 0 && index <= lastIndex) get(index) else null
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
public fun ByteArray.getOrNull(index: Int): Byte? {
    return if (index >= 0 && index <= lastIndex) get(index) else null
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
public fun ShortArray.getOrNull(index: Int): Short? {
    return if (index >= 0 && index <= lastIndex) get(index) else null
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
public fun IntArray.getOrNull(index: Int): Int? {
    return if (index >= 0 && index <= lastIndex) get(index) else null
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
public fun LongArray.getOrNull(index: Int): Long? {
    return if (index >= 0 && index <= lastIndex) get(index) else null
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
public fun FloatArray.getOrNull(index: Int): Float? {
    return if (index >= 0 && index <= lastIndex) get(index) else null
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
public fun DoubleArray.getOrNull(index: Int): Double? {
    return if (index >= 0 && index <= lastIndex) get(index) else null
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
public fun BooleanArray.getOrNull(index: Int): Boolean? {
    return if (index >= 0 && index <= lastIndex) get(index) else null
}

/**
 * Returns an element at the given [index] or `null` if the [index] is out of bounds of this array.
 */
public fun CharArray.getOrNull(index: Int): Char? {
    return if (index >= 0 && index <= lastIndex) get(index) else null
}

/**
 * Returns first index of [element], or -1 if the array does not contain element.
 */
public fun <@kotlin.internal.OnlyInputTypes T> Array.indexOf(element: T): Int {
    if (element == null) {
        for (index in indices) {
            if (this[index] == null) {
                return index
            }
        }
    } else {
        for (index in indices) {
            if (element == this[index]) {
                return index
            }
        }
    }
    return -1
}

/**
 * Returns first index of [element], or -1 if the array does not contain element.
 */
public fun ByteArray.indexOf(element: Byte): Int {
    for (index in indices) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns first index of [element], or -1 if the array does not contain element.
 */
public fun ShortArray.indexOf(element: Short): Int {
    for (index in indices) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns first index of [element], or -1 if the array does not contain element.
 */
public fun IntArray.indexOf(element: Int): Int {
    for (index in indices) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns first index of [element], or -1 if the array does not contain element.
 */
public fun LongArray.indexOf(element: Long): Int {
    for (index in indices) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns first index of [element], or -1 if the array does not contain element.
 */
public fun FloatArray.indexOf(element: Float): Int {
    for (index in indices) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns first index of [element], or -1 if the array does not contain element.
 */
public fun DoubleArray.indexOf(element: Double): Int {
    for (index in indices) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns first index of [element], or -1 if the array does not contain element.
 */
public fun BooleanArray.indexOf(element: Boolean): Int {
    for (index in indices) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns first index of [element], or -1 if the array does not contain element.
 */
public fun CharArray.indexOf(element: Char): Int {
    for (index in indices) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the first element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun  Array.indexOfFirst(predicate: (T) -> Boolean): Int {
    for (index in indices) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the first element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun ByteArray.indexOfFirst(predicate: (Byte) -> Boolean): Int {
    for (index in indices) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the first element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun ShortArray.indexOfFirst(predicate: (Short) -> Boolean): Int {
    for (index in indices) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the first element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun IntArray.indexOfFirst(predicate: (Int) -> Boolean): Int {
    for (index in indices) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the first element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun LongArray.indexOfFirst(predicate: (Long) -> Boolean): Int {
    for (index in indices) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the first element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun FloatArray.indexOfFirst(predicate: (Float) -> Boolean): Int {
    for (index in indices) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the first element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun DoubleArray.indexOfFirst(predicate: (Double) -> Boolean): Int {
    for (index in indices) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the first element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun BooleanArray.indexOfFirst(predicate: (Boolean) -> Boolean): Int {
    for (index in indices) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the first element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun CharArray.indexOfFirst(predicate: (Char) -> Boolean): Int {
    for (index in indices) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the last element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun  Array.indexOfLast(predicate: (T) -> Boolean): Int {
    for (index in indices.reversed()) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the last element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun ByteArray.indexOfLast(predicate: (Byte) -> Boolean): Int {
    for (index in indices.reversed()) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the last element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun ShortArray.indexOfLast(predicate: (Short) -> Boolean): Int {
    for (index in indices.reversed()) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the last element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun IntArray.indexOfLast(predicate: (Int) -> Boolean): Int {
    for (index in indices.reversed()) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the last element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun LongArray.indexOfLast(predicate: (Long) -> Boolean): Int {
    for (index in indices.reversed()) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the last element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun FloatArray.indexOfLast(predicate: (Float) -> Boolean): Int {
    for (index in indices.reversed()) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the last element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun DoubleArray.indexOfLast(predicate: (Double) -> Boolean): Int {
    for (index in indices.reversed()) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the last element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun BooleanArray.indexOfLast(predicate: (Boolean) -> Boolean): Int {
    for (index in indices.reversed()) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns index of the last element matching the given [predicate], or -1 if the array does not contain such element.
 */
public inline fun CharArray.indexOfLast(predicate: (Char) -> Boolean): Int {
    for (index in indices.reversed()) {
        if (predicate(this[index])) {
            return index
        }
    }
    return -1
}

/**
 * Returns the last element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun  Array.last(): T {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[lastIndex]
}

/**
 * Returns the last element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun ByteArray.last(): Byte {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[lastIndex]
}

/**
 * Returns the last element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun ShortArray.last(): Short {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[lastIndex]
}

/**
 * Returns the last element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun IntArray.last(): Int {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[lastIndex]
}

/**
 * Returns the last element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun LongArray.last(): Long {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[lastIndex]
}

/**
 * Returns the last element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun FloatArray.last(): Float {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[lastIndex]
}

/**
 * Returns the last element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun DoubleArray.last(): Double {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[lastIndex]
}

/**
 * Returns the last element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun BooleanArray.last(): Boolean {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[lastIndex]
}

/**
 * Returns the last element.
 * @throws [NoSuchElementException] if the array is empty.
 */
public fun CharArray.last(): Char {
    if (isEmpty())
        throw NoSuchElementException("Array is empty.")
    return this[lastIndex]
}

/**
 * Returns the last element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun  Array.last(predicate: (T) -> Boolean): T {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the last element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun ByteArray.last(predicate: (Byte) -> Boolean): Byte {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the last element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun ShortArray.last(predicate: (Short) -> Boolean): Short {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the last element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun IntArray.last(predicate: (Int) -> Boolean): Int {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the last element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun LongArray.last(predicate: (Long) -> Boolean): Long {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the last element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun FloatArray.last(predicate: (Float) -> Boolean): Float {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the last element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun DoubleArray.last(predicate: (Double) -> Boolean): Double {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the last element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun BooleanArray.last(predicate: (Boolean) -> Boolean): Boolean {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns the last element matching the given [predicate].
 * @throws [NoSuchElementException] if no such element is found.
 */
public inline fun CharArray.last(predicate: (Char) -> Boolean): Char {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    throw NoSuchElementException("Array contains no element matching the predicate.")
}

/**
 * Returns last index of [element], or -1 if the array does not contain element.
 */
public fun <@kotlin.internal.OnlyInputTypes T> Array.lastIndexOf(element: T): Int {
    if (element == null) {
        for (index in indices.reversed()) {
            if (this[index] == null) {
                return index
            }
        }
    } else {
        for (index in indices.reversed()) {
            if (element == this[index]) {
                return index
            }
        }
    }
    return -1
}

/**
 * Returns last index of [element], or -1 if the array does not contain element.
 */
public fun ByteArray.lastIndexOf(element: Byte): Int {
    for (index in indices.reversed()) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns last index of [element], or -1 if the array does not contain element.
 */
public fun ShortArray.lastIndexOf(element: Short): Int {
    for (index in indices.reversed()) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns last index of [element], or -1 if the array does not contain element.
 */
public fun IntArray.lastIndexOf(element: Int): Int {
    for (index in indices.reversed()) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns last index of [element], or -1 if the array does not contain element.
 */
public fun LongArray.lastIndexOf(element: Long): Int {
    for (index in indices.reversed()) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns last index of [element], or -1 if the array does not contain element.
 */
public fun FloatArray.lastIndexOf(element: Float): Int {
    for (index in indices.reversed()) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns last index of [element], or -1 if the array does not contain element.
 */
public fun DoubleArray.lastIndexOf(element: Double): Int {
    for (index in indices.reversed()) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns last index of [element], or -1 if the array does not contain element.
 */
public fun BooleanArray.lastIndexOf(element: Boolean): Int {
    for (index in indices.reversed()) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns last index of [element], or -1 if the array does not contain element.
 */
public fun CharArray.lastIndexOf(element: Char): Int {
    for (index in indices.reversed()) {
        if (element == this[index]) {
            return index
        }
    }
    return -1
}

/**
 * Returns the last element, or `null` if the array is empty.
 */
public fun  Array.lastOrNull(): T? {
    return if (isEmpty()) null else this[size - 1]
}

/**
 * Returns the last element, or `null` if the array is empty.
 */
public fun ByteArray.lastOrNull(): Byte? {
    return if (isEmpty()) null else this[size - 1]
}

/**
 * Returns the last element, or `null` if the array is empty.
 */
public fun ShortArray.lastOrNull(): Short? {
    return if (isEmpty()) null else this[size - 1]
}

/**
 * Returns the last element, or `null` if the array is empty.
 */
public fun IntArray.lastOrNull(): Int? {
    return if (isEmpty()) null else this[size - 1]
}

/**
 * Returns the last element, or `null` if the array is empty.
 */
public fun LongArray.lastOrNull(): Long? {
    return if (isEmpty()) null else this[size - 1]
}

/**
 * Returns the last element, or `null` if the array is empty.
 */
public fun FloatArray.lastOrNull(): Float? {
    return if (isEmpty()) null else this[size - 1]
}

/**
 * Returns the last element, or `null` if the array is empty.
 */
public fun DoubleArray.lastOrNull(): Double? {
    return if (isEmpty()) null else this[size - 1]
}

/**
 * Returns the last element, or `null` if the array is empty.
 */
public fun BooleanArray.lastOrNull(): Boolean? {
    return if (isEmpty()) null else this[size - 1]
}

/**
 * Returns the last element, or `null` if the array is empty.
 */
public fun CharArray.lastOrNull(): Char? {
    return if (isEmpty()) null else this[size - 1]
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
public inline fun  Array.lastOrNull(predicate: (T) -> Boolean): T? {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    return null
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
public inline fun ByteArray.lastOrNull(predicate: (Byte) -> Boolean): Byte? {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    return null
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
public inline fun ShortArray.lastOrNull(predicate: (Short) -> Boolean): Short? {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    return null
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
public inline fun IntArray.lastOrNull(predicate: (Int) -> Boolean): Int? {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    return null
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
public inline fun LongArray.lastOrNull(predicate: (Long) -> Boolean): Long? {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    return null
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
public inline fun FloatArray.lastOrNull(predicate: (Float) -> Boolean): Float? {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    return null
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
public inline fun DoubleArray.lastOrNull(predicate: (Double) -> Boolean): Double? {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    return null
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
public inline fun BooleanArray.lastOrNull(predicate: (Boolean) -> Boolean): Boolean? {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    return null
}

/**
 * Returns the last element matching the given [predicate], or `null` if no such element was found.
 */
public inline fun CharArray.lastOrNull(predicate: (Char) -> Boolean): Char? {
    for (index in this.indices.reversed()) {
        val element = this[index]
        if (predicate(element)) return element
    }
    return null
}

/**
 * Returns the single element, or throws an exception if the array is empty or has more than one element.
 */
public fun  Array.single(): T {
    return when (size) {
        0 -> throw NoSuchElementException("Array is empty.")
        1 -> this[0]
        else -> throw IllegalArgumentException("Array has more than one element.")
    }
}

/**
 * Returns the single element, or throws an exception if the array is empty or has more than one element.
 */
public fun ByteArray.single(): Byte {
    return when (size) {
        0 -> throw NoSuchElementException("Array is empty.")
        1 -> this[0]
        else -> throw IllegalArgumentException("Array has more than one element.")
    }
}

/**
 * Returns the single element, or throws an exception if the array is empty or has more than one element.
 */
public fun ShortArray.single(): Short {
    return when (size) {
        0 -> throw NoSuchElementException("Array is empty.")
        1 -> this[0]
        else -> throw IllegalArgumentException("Array has more than one element.")
    }
}

/**
 * Returns the single element, or throws an exception if the array is empty or has more than one element.
 */
public fun IntArray.single(): Int {
    return when (size) {
        0 -> throw NoSuchElementException("Array is empty.")
        1 -> this[0]
        else -> throw IllegalArgumentException("Array has more than one element.")
    }
}

/**
 * Returns the single element, or throws an exception if the array is empty or has more than one element.
 */
public fun LongArray.single(): Long {
    return when (size) {
        0 -> throw NoSuchElementException("Array is empty.")
        1 -> this[0]
        else -> throw IllegalArgumentException("Array has more than one element.")
    }
}

/**
 * Returns the single element, or throws an exception if the array is empty or has more than one element.
 */
public fun FloatArray.single(): Float {
    return when (size) {
        0 -> throw NoSuchElementException("Array is empty.")
        1 -> this[0]
        else -> throw IllegalArgumentException("Array has more than one element.")
    }
}

/**
 * Returns the single element, or throws an exception if the array is empty or has more than one element.
 */
public fun DoubleArray.single(): Double {
    return when (size) {
        0 -> throw NoSuchElementException("Array is empty.")
        1 -> this[0]
        else -> throw IllegalArgumentException("Array has more than one element.")
    }
}

/**
 * Returns the single element, or throws an exception if the array is empty or has more than one element.
 */
public fun BooleanArray.single(): Boolean {
    return when (size) {
        0 -> throw NoSuchElementException("Array is empty.")
        1 -> this[0]
        else -> throw IllegalArgumentException("Array has more than one element.")
    }
}

/**
 * Returns the single element, or throws an exception if the array is empty or has more than one element.
 */
public fun CharArray.single(): Char {
    return when (size) {
        0 -> throw NoSuchElementException("Array is empty.")
        1 -> this[0]
        else -> throw IllegalArgumentException("Array has more than one element.")
    }
}

/**
 * Returns the single element matching the given [predicate], or throws exception if there is no or more than one matching element.
 */
public inline fun  Array.single(predicate: (T) -> Boolean): T {
    var single: T? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) throw IllegalArgumentException("Array contains more than one matching element.")
            single = element
            found = true
        }
    }
    if (!found) throw NoSuchElementException("Array contains no element matching the predicate.")
    return single as T
}

/**
 * Returns the single element matching the given [predicate], or throws exception if there is no or more than one matching element.
 */
public inline fun ByteArray.single(predicate: (Byte) -> Boolean): Byte {
    var single: Byte? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) throw IllegalArgumentException("Array contains more than one matching element.")
            single = element
            found = true
        }
    }
    if (!found) throw NoSuchElementException("Array contains no element matching the predicate.")
    return single as Byte
}

/**
 * Returns the single element matching the given [predicate], or throws exception if there is no or more than one matching element.
 */
public inline fun ShortArray.single(predicate: (Short) -> Boolean): Short {
    var single: Short? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) throw IllegalArgumentException("Array contains more than one matching element.")
            single = element
            found = true
        }
    }
    if (!found) throw NoSuchElementException("Array contains no element matching the predicate.")
    return single as Short
}

/**
 * Returns the single element matching the given [predicate], or throws exception if there is no or more than one matching element.
 */
public inline fun IntArray.single(predicate: (Int) -> Boolean): Int {
    var single: Int? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) throw IllegalArgumentException("Array contains more than one matching element.")
            single = element
            found = true
        }
    }
    if (!found) throw NoSuchElementException("Array contains no element matching the predicate.")
    return single as Int
}

/**
 * Returns the single element matching the given [predicate], or throws exception if there is no or more than one matching element.
 */
public inline fun LongArray.single(predicate: (Long) -> Boolean): Long {
    var single: Long? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) throw IllegalArgumentException("Array contains more than one matching element.")
            single = element
            found = true
        }
    }
    if (!found) throw NoSuchElementException("Array contains no element matching the predicate.")
    return single as Long
}

/**
 * Returns the single element matching the given [predicate], or throws exception if there is no or more than one matching element.
 */
public inline fun FloatArray.single(predicate: (Float) -> Boolean): Float {
    var single: Float? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) throw IllegalArgumentException("Array contains more than one matching element.")
            single = element
            found = true
        }
    }
    if (!found) throw NoSuchElementException("Array contains no element matching the predicate.")
    return single as Float
}

/**
 * Returns the single element matching the given [predicate], or throws exception if there is no or more than one matching element.
 */
public inline fun DoubleArray.single(predicate: (Double) -> Boolean): Double {
    var single: Double? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) throw IllegalArgumentException("Array contains more than one matching element.")
            single = element
            found = true
        }
    }
    if (!found) throw NoSuchElementException("Array contains no element matching the predicate.")
    return single as Double
}

/**
 * Returns the single element matching the given [predicate], or throws exception if there is no or more than one matching element.
 */
public inline fun BooleanArray.single(predicate: (Boolean) -> Boolean): Boolean {
    var single: Boolean? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) throw IllegalArgumentException("Array contains more than one matching element.")
            single = element
            found = true
        }
    }
    if (!found) throw NoSuchElementException("Array contains no element matching the predicate.")
    return single as Boolean
}

/**
 * Returns the single element matching the given [predicate], or throws exception if there is no or more than one matching element.
 */
public inline fun CharArray.single(predicate: (Char) -> Boolean): Char {
    var single: Char? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) throw IllegalArgumentException("Array contains more than one matching element.")
            single = element
            found = true
        }
    }
    if (!found) throw NoSuchElementException("Array contains no element matching the predicate.")
    return single as Char
}

/**
 * Returns single element, or `null` if the array is empty or has more than one element.
 */
public fun  Array.singleOrNull(): T? {
    return if (size == 1) this[0] else null
}

/**
 * Returns single element, or `null` if the array is empty or has more than one element.
 */
public fun ByteArray.singleOrNull(): Byte? {
    return if (size == 1) this[0] else null
}

/**
 * Returns single element, or `null` if the array is empty or has more than one element.
 */
public fun ShortArray.singleOrNull(): Short? {
    return if (size == 1) this[0] else null
}

/**
 * Returns single element, or `null` if the array is empty or has more than one element.
 */
public fun IntArray.singleOrNull(): Int? {
    return if (size == 1) this[0] else null
}

/**
 * Returns single element, or `null` if the array is empty or has more than one element.
 */
public fun LongArray.singleOrNull(): Long? {
    return if (size == 1) this[0] else null
}

/**
 * Returns single element, or `null` if the array is empty or has more than one element.
 */
public fun FloatArray.singleOrNull(): Float? {
    return if (size == 1) this[0] else null
}

/**
 * Returns single element, or `null` if the array is empty or has more than one element.
 */
public fun DoubleArray.singleOrNull(): Double? {
    return if (size == 1) this[0] else null
}

/**
 * Returns single element, or `null` if the array is empty or has more than one element.
 */
public fun BooleanArray.singleOrNull(): Boolean? {
    return if (size == 1) this[0] else null
}

/**
 * Returns single element, or `null` if the array is empty or has more than one element.
 */
public fun CharArray.singleOrNull(): Char? {
    return if (size == 1) this[0] else null
}

/**
 * Returns the single element matching the given [predicate], or `null` if element was not found or more than one element was found.
 */
public inline fun  Array.singleOrNull(predicate: (T) -> Boolean): T? {
    var single: T? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) return null
            single = element
            found = true
        }
    }
    if (!found) return null
    return single
}

/**
 * Returns the single element matching the given [predicate], or `null` if element was not found or more than one element was found.
 */
public inline fun ByteArray.singleOrNull(predicate: (Byte) -> Boolean): Byte? {
    var single: Byte? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) return null
            single = element
            found = true
        }
    }
    if (!found) return null
    return single
}

/**
 * Returns the single element matching the given [predicate], or `null` if element was not found or more than one element was found.
 */
public inline fun ShortArray.singleOrNull(predicate: (Short) -> Boolean): Short? {
    var single: Short? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) return null
            single = element
            found = true
        }
    }
    if (!found) return null
    return single
}

/**
 * Returns the single element matching the given [predicate], or `null` if element was not found or more than one element was found.
 */
public inline fun IntArray.singleOrNull(predicate: (Int) -> Boolean): Int? {
    var single: Int? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) return null
            single = element
            found = true
        }
    }
    if (!found) return null
    return single
}

/**
 * Returns the single element matching the given [predicate], or `null` if element was not found or more than one element was found.
 */
public inline fun LongArray.singleOrNull(predicate: (Long) -> Boolean): Long? {
    var single: Long? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) return null
            single = element
            found = true
        }
    }
    if (!found) return null
    return single
}

/**
 * Returns the single element matching the given [predicate], or `null` if element was not found or more than one element was found.
 */
public inline fun FloatArray.singleOrNull(predicate: (Float) -> Boolean): Float? {
    var single: Float? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) return null
            single = element
            found = true
        }
    }
    if (!found) return null
    return single
}

/**
 * Returns the single element matching the given [predicate], or `null` if element was not found or more than one element was found.
 */
public inline fun DoubleArray.singleOrNull(predicate: (Double) -> Boolean): Double? {
    var single: Double? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) return null
            single = element
            found = true
        }
    }
    if (!found) return null
    return single
}

/**
 * Returns the single element matching the given [predicate], or `null` if element was not found or more than one element was found.
 */
public inline fun BooleanArray.singleOrNull(predicate: (Boolean) -> Boolean): Boolean? {
    var single: Boolean? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) return null
            single = element
            found = true
        }
    }
    if (!found) return null
    return single
}

/**
 * Returns the single element matching the given [predicate], or `null` if element was not found or more than one element was found.
 */
public inline fun CharArray.singleOrNull(predicate: (Char) -> Boolean): Char? {
    var single: Char? = null
    var found = false
    for (element in this) {
        if (predicate(element)) {
            if (found) return null
            single = element
            found = true
        }
    }
    if (!found) return null
    return single
}

/**
 * Returns a list containing all elements except first [n] elements.
 */
public fun  Array.drop(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return takeLast((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except first [n] elements.
 */
public fun ByteArray.drop(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return takeLast((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except first [n] elements.
 */
public fun ShortArray.drop(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return takeLast((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except first [n] elements.
 */
public fun IntArray.drop(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return takeLast((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except first [n] elements.
 */
public fun LongArray.drop(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return takeLast((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except first [n] elements.
 */
public fun FloatArray.drop(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return takeLast((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except first [n] elements.
 */
public fun DoubleArray.drop(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return takeLast((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except first [n] elements.
 */
public fun BooleanArray.drop(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return takeLast((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except first [n] elements.
 */
public fun CharArray.drop(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return takeLast((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except last [n] elements.
 */
public fun  Array.dropLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return take((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except last [n] elements.
 */
public fun ByteArray.dropLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return take((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except last [n] elements.
 */
public fun ShortArray.dropLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return take((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except last [n] elements.
 */
public fun IntArray.dropLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return take((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except last [n] elements.
 */
public fun LongArray.dropLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return take((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except last [n] elements.
 */
public fun FloatArray.dropLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return take((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except last [n] elements.
 */
public fun DoubleArray.dropLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return take((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except last [n] elements.
 */
public fun BooleanArray.dropLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return take((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except last [n] elements.
 */
public fun CharArray.dropLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    return take((size - n).coerceAtLeast(0))
}

/**
 * Returns a list containing all elements except last elements that satisfy the given [predicate].
 */
public inline fun  Array.dropLastWhile(predicate: (T) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return take(index + 1)
        }
    }
    return emptyList()
}

/**
 * Returns a list containing all elements except last elements that satisfy the given [predicate].
 */
public inline fun ByteArray.dropLastWhile(predicate: (Byte) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return take(index + 1)
        }
    }
    return emptyList()
}

/**
 * Returns a list containing all elements except last elements that satisfy the given [predicate].
 */
public inline fun ShortArray.dropLastWhile(predicate: (Short) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return take(index + 1)
        }
    }
    return emptyList()
}

/**
 * Returns a list containing all elements except last elements that satisfy the given [predicate].
 */
public inline fun IntArray.dropLastWhile(predicate: (Int) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return take(index + 1)
        }
    }
    return emptyList()
}

/**
 * Returns a list containing all elements except last elements that satisfy the given [predicate].
 */
public inline fun LongArray.dropLastWhile(predicate: (Long) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return take(index + 1)
        }
    }
    return emptyList()
}

/**
 * Returns a list containing all elements except last elements that satisfy the given [predicate].
 */
public inline fun FloatArray.dropLastWhile(predicate: (Float) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return take(index + 1)
        }
    }
    return emptyList()
}

/**
 * Returns a list containing all elements except last elements that satisfy the given [predicate].
 */
public inline fun DoubleArray.dropLastWhile(predicate: (Double) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return take(index + 1)
        }
    }
    return emptyList()
}

/**
 * Returns a list containing all elements except last elements that satisfy the given [predicate].
 */
public inline fun BooleanArray.dropLastWhile(predicate: (Boolean) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return take(index + 1)
        }
    }
    return emptyList()
}

/**
 * Returns a list containing all elements except last elements that satisfy the given [predicate].
 */
public inline fun CharArray.dropLastWhile(predicate: (Char) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return take(index + 1)
        }
    }
    return emptyList()
}

/**
 * Returns a list containing all elements except first elements that satisfy the given [predicate].
 */
public inline fun  Array.dropWhile(predicate: (T) -> Boolean): List {
    var yielding = false
    val list = ArrayList()
    for (item in this)
        if (yielding)
            list.add(item)
        else if (!predicate(item)) {
            list.add(item)
            yielding = true
        }
    return list
}

/**
 * Returns a list containing all elements except first elements that satisfy the given [predicate].
 */
public inline fun ByteArray.dropWhile(predicate: (Byte) -> Boolean): List {
    var yielding = false
    val list = ArrayList()
    for (item in this)
        if (yielding)
            list.add(item)
        else if (!predicate(item)) {
            list.add(item)
            yielding = true
        }
    return list
}

/**
 * Returns a list containing all elements except first elements that satisfy the given [predicate].
 */
public inline fun ShortArray.dropWhile(predicate: (Short) -> Boolean): List {
    var yielding = false
    val list = ArrayList()
    for (item in this)
        if (yielding)
            list.add(item)
        else if (!predicate(item)) {
            list.add(item)
            yielding = true
        }
    return list
}

/**
 * Returns a list containing all elements except first elements that satisfy the given [predicate].
 */
public inline fun IntArray.dropWhile(predicate: (Int) -> Boolean): List {
    var yielding = false
    val list = ArrayList()
    for (item in this)
        if (yielding)
            list.add(item)
        else if (!predicate(item)) {
            list.add(item)
            yielding = true
        }
    return list
}

/**
 * Returns a list containing all elements except first elements that satisfy the given [predicate].
 */
public inline fun LongArray.dropWhile(predicate: (Long) -> Boolean): List {
    var yielding = false
    val list = ArrayList()
    for (item in this)
        if (yielding)
            list.add(item)
        else if (!predicate(item)) {
            list.add(item)
            yielding = true
        }
    return list
}

/**
 * Returns a list containing all elements except first elements that satisfy the given [predicate].
 */
public inline fun FloatArray.dropWhile(predicate: (Float) -> Boolean): List {
    var yielding = false
    val list = ArrayList()
    for (item in this)
        if (yielding)
            list.add(item)
        else if (!predicate(item)) {
            list.add(item)
            yielding = true
        }
    return list
}

/**
 * Returns a list containing all elements except first elements that satisfy the given [predicate].
 */
public inline fun DoubleArray.dropWhile(predicate: (Double) -> Boolean): List {
    var yielding = false
    val list = ArrayList()
    for (item in this)
        if (yielding)
            list.add(item)
        else if (!predicate(item)) {
            list.add(item)
            yielding = true
        }
    return list
}

/**
 * Returns a list containing all elements except first elements that satisfy the given [predicate].
 */
public inline fun BooleanArray.dropWhile(predicate: (Boolean) -> Boolean): List {
    var yielding = false
    val list = ArrayList()
    for (item in this)
        if (yielding)
            list.add(item)
        else if (!predicate(item)) {
            list.add(item)
            yielding = true
        }
    return list
}

/**
 * Returns a list containing all elements except first elements that satisfy the given [predicate].
 */
public inline fun CharArray.dropWhile(predicate: (Char) -> Boolean): List {
    var yielding = false
    val list = ArrayList()
    for (item in this)
        if (yielding)
            list.add(item)
        else if (!predicate(item)) {
            list.add(item)
            yielding = true
        }
    return list
}

/**
 * Returns a list containing only elements matching the given [predicate].
 */
public inline fun  Array.filter(predicate: (T) -> Boolean): List {
    return filterTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 */
public inline fun ByteArray.filter(predicate: (Byte) -> Boolean): List {
    return filterTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 */
public inline fun ShortArray.filter(predicate: (Short) -> Boolean): List {
    return filterTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 */
public inline fun IntArray.filter(predicate: (Int) -> Boolean): List {
    return filterTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 */
public inline fun LongArray.filter(predicate: (Long) -> Boolean): List {
    return filterTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 */
public inline fun FloatArray.filter(predicate: (Float) -> Boolean): List {
    return filterTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 */
public inline fun DoubleArray.filter(predicate: (Double) -> Boolean): List {
    return filterTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 */
public inline fun BooleanArray.filter(predicate: (Boolean) -> Boolean): List {
    return filterTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 */
public inline fun CharArray.filter(predicate: (Char) -> Boolean): List {
    return filterTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun  Array.filterIndexed(predicate: (Int, T) -> Boolean): List {
    return filterIndexedTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun ByteArray.filterIndexed(predicate: (Int, Byte) -> Boolean): List {
    return filterIndexedTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun ShortArray.filterIndexed(predicate: (Int, Short) -> Boolean): List {
    return filterIndexedTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun IntArray.filterIndexed(predicate: (Int, Int) -> Boolean): List {
    return filterIndexedTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun LongArray.filterIndexed(predicate: (Int, Long) -> Boolean): List {
    return filterIndexedTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun FloatArray.filterIndexed(predicate: (Int, Float) -> Boolean): List {
    return filterIndexedTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun DoubleArray.filterIndexed(predicate: (Int, Double) -> Boolean): List {
    return filterIndexedTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun BooleanArray.filterIndexed(predicate: (Int, Boolean) -> Boolean): List {
    return filterIndexedTo(ArrayList(), predicate)
}

/**
 * Returns a list containing only elements matching the given [predicate].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun CharArray.filterIndexed(predicate: (Int, Char) -> Boolean): List {
    return filterIndexedTo(ArrayList(), predicate)
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun > Array.filterIndexedTo(destination: C, predicate: (Int, T) -> Boolean): C {
    forEachIndexed { index, element ->
        if (predicate(index, element)) destination.add(element)
    }
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun > ByteArray.filterIndexedTo(destination: C, predicate: (Int, Byte) -> Boolean): C {
    forEachIndexed { index, element ->
        if (predicate(index, element)) destination.add(element)
    }
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun > ShortArray.filterIndexedTo(destination: C, predicate: (Int, Short) -> Boolean): C {
    forEachIndexed { index, element ->
        if (predicate(index, element)) destination.add(element)
    }
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun > IntArray.filterIndexedTo(destination: C, predicate: (Int, Int) -> Boolean): C {
    forEachIndexed { index, element ->
        if (predicate(index, element)) destination.add(element)
    }
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun > LongArray.filterIndexedTo(destination: C, predicate: (Int, Long) -> Boolean): C {
    forEachIndexed { index, element ->
        if (predicate(index, element)) destination.add(element)
    }
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun > FloatArray.filterIndexedTo(destination: C, predicate: (Int, Float) -> Boolean): C {
    forEachIndexed { index, element ->
        if (predicate(index, element)) destination.add(element)
    }
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun > DoubleArray.filterIndexedTo(destination: C, predicate: (Int, Double) -> Boolean): C {
    forEachIndexed { index, element ->
        if (predicate(index, element)) destination.add(element)
    }
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun > BooleanArray.filterIndexedTo(destination: C, predicate: (Int, Boolean) -> Boolean): C {
    forEachIndexed { index, element ->
        if (predicate(index, element)) destination.add(element)
    }
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 * @param [predicate] function that takes the index of an element and the element itself
 * and returns the result of predicate evaluation on the element.
 */
public inline fun > CharArray.filterIndexedTo(destination: C, predicate: (Int, Char) -> Boolean): C {
    forEachIndexed { index, element ->
        if (predicate(index, element)) destination.add(element)
    }
    return destination
}

/**
 * Returns a list containing all elements that are instances of specified type parameter R.
 */
public inline fun  Array<*>.filterIsInstance(): List<@kotlin.internal.NoInfer R> {
    return filterIsInstanceTo(ArrayList())
}

/**
 * Appends all elements that are instances of specified type parameter R to the given [destination].
 */
public inline fun > Array<*>.filterIsInstanceTo(destination: C): C {
    for (element in this) if (element is R) destination.add(element)
    return destination
}

/**
 * Returns a list containing all elements not matching the given [predicate].
 */
public inline fun  Array.filterNot(predicate: (T) -> Boolean): List {
    return filterNotTo(ArrayList(), predicate)
}

/**
 * Returns a list containing all elements not matching the given [predicate].
 */
public inline fun ByteArray.filterNot(predicate: (Byte) -> Boolean): List {
    return filterNotTo(ArrayList(), predicate)
}

/**
 * Returns a list containing all elements not matching the given [predicate].
 */
public inline fun ShortArray.filterNot(predicate: (Short) -> Boolean): List {
    return filterNotTo(ArrayList(), predicate)
}

/**
 * Returns a list containing all elements not matching the given [predicate].
 */
public inline fun IntArray.filterNot(predicate: (Int) -> Boolean): List {
    return filterNotTo(ArrayList(), predicate)
}

/**
 * Returns a list containing all elements not matching the given [predicate].
 */
public inline fun LongArray.filterNot(predicate: (Long) -> Boolean): List {
    return filterNotTo(ArrayList(), predicate)
}

/**
 * Returns a list containing all elements not matching the given [predicate].
 */
public inline fun FloatArray.filterNot(predicate: (Float) -> Boolean): List {
    return filterNotTo(ArrayList(), predicate)
}

/**
 * Returns a list containing all elements not matching the given [predicate].
 */
public inline fun DoubleArray.filterNot(predicate: (Double) -> Boolean): List {
    return filterNotTo(ArrayList(), predicate)
}

/**
 * Returns a list containing all elements not matching the given [predicate].
 */
public inline fun BooleanArray.filterNot(predicate: (Boolean) -> Boolean): List {
    return filterNotTo(ArrayList(), predicate)
}

/**
 * Returns a list containing all elements not matching the given [predicate].
 */
public inline fun CharArray.filterNot(predicate: (Char) -> Boolean): List {
    return filterNotTo(ArrayList(), predicate)
}

/**
 * Returns a list containing all elements that are not `null`.
 */
public fun  Array.filterNotNull(): List {
    return filterNotNullTo(ArrayList())
}

/**
 * Appends all elements that are not `null` to the given [destination].
 */
public fun , T : Any> Array.filterNotNullTo(destination: C): C {
    for (element in this) if (element != null) destination.add(element)
    return destination
}

/**
 * Appends all elements not matching the given [predicate] to the given [destination].
 */
public inline fun > Array.filterNotTo(destination: C, predicate: (T) -> Boolean): C {
    for (element in this) if (!predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements not matching the given [predicate] to the given [destination].
 */
public inline fun > ByteArray.filterNotTo(destination: C, predicate: (Byte) -> Boolean): C {
    for (element in this) if (!predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements not matching the given [predicate] to the given [destination].
 */
public inline fun > ShortArray.filterNotTo(destination: C, predicate: (Short) -> Boolean): C {
    for (element in this) if (!predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements not matching the given [predicate] to the given [destination].
 */
public inline fun > IntArray.filterNotTo(destination: C, predicate: (Int) -> Boolean): C {
    for (element in this) if (!predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements not matching the given [predicate] to the given [destination].
 */
public inline fun > LongArray.filterNotTo(destination: C, predicate: (Long) -> Boolean): C {
    for (element in this) if (!predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements not matching the given [predicate] to the given [destination].
 */
public inline fun > FloatArray.filterNotTo(destination: C, predicate: (Float) -> Boolean): C {
    for (element in this) if (!predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements not matching the given [predicate] to the given [destination].
 */
public inline fun > DoubleArray.filterNotTo(destination: C, predicate: (Double) -> Boolean): C {
    for (element in this) if (!predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements not matching the given [predicate] to the given [destination].
 */
public inline fun > BooleanArray.filterNotTo(destination: C, predicate: (Boolean) -> Boolean): C {
    for (element in this) if (!predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements not matching the given [predicate] to the given [destination].
 */
public inline fun > CharArray.filterNotTo(destination: C, predicate: (Char) -> Boolean): C {
    for (element in this) if (!predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 */
public inline fun > Array.filterTo(destination: C, predicate: (T) -> Boolean): C {
    for (element in this) if (predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 */
public inline fun > ByteArray.filterTo(destination: C, predicate: (Byte) -> Boolean): C {
    for (element in this) if (predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 */
public inline fun > ShortArray.filterTo(destination: C, predicate: (Short) -> Boolean): C {
    for (element in this) if (predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 */
public inline fun > IntArray.filterTo(destination: C, predicate: (Int) -> Boolean): C {
    for (element in this) if (predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 */
public inline fun > LongArray.filterTo(destination: C, predicate: (Long) -> Boolean): C {
    for (element in this) if (predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 */
public inline fun > FloatArray.filterTo(destination: C, predicate: (Float) -> Boolean): C {
    for (element in this) if (predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 */
public inline fun > DoubleArray.filterTo(destination: C, predicate: (Double) -> Boolean): C {
    for (element in this) if (predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 */
public inline fun > BooleanArray.filterTo(destination: C, predicate: (Boolean) -> Boolean): C {
    for (element in this) if (predicate(element)) destination.add(element)
    return destination
}

/**
 * Appends all elements matching the given [predicate] to the given [destination].
 */
public inline fun > CharArray.filterTo(destination: C, predicate: (Char) -> Boolean): C {
    for (element in this) if (predicate(element)) destination.add(element)
    return destination
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun  Array.slice(indices: IntRange): List {
    if (indices.isEmpty()) return listOf()
    return copyOfRange(indices.start, indices.endInclusive + 1).asList()
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun ByteArray.slice(indices: IntRange): List {
    if (indices.isEmpty()) return listOf()
    return copyOfRange(indices.start, indices.endInclusive + 1).asList()
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun ShortArray.slice(indices: IntRange): List {
    if (indices.isEmpty()) return listOf()
    return copyOfRange(indices.start, indices.endInclusive + 1).asList()
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun IntArray.slice(indices: IntRange): List {
    if (indices.isEmpty()) return listOf()
    return copyOfRange(indices.start, indices.endInclusive + 1).asList()
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun LongArray.slice(indices: IntRange): List {
    if (indices.isEmpty()) return listOf()
    return copyOfRange(indices.start, indices.endInclusive + 1).asList()
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun FloatArray.slice(indices: IntRange): List {
    if (indices.isEmpty()) return listOf()
    return copyOfRange(indices.start, indices.endInclusive + 1).asList()
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun DoubleArray.slice(indices: IntRange): List {
    if (indices.isEmpty()) return listOf()
    return copyOfRange(indices.start, indices.endInclusive + 1).asList()
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun BooleanArray.slice(indices: IntRange): List {
    if (indices.isEmpty()) return listOf()
    return copyOfRange(indices.start, indices.endInclusive + 1).asList()
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun CharArray.slice(indices: IntRange): List {
    if (indices.isEmpty()) return listOf()
    return copyOfRange(indices.start, indices.endInclusive + 1).asList()
}

/**
 * Returns a list containing elements at specified [indices].
 */
public fun  Array.slice(indices: Iterable): List {
    val size = indices.collectionSizeOrDefault(10)
    if (size == 0) return emptyList()
    val list = ArrayList(size)
    for (index in indices) {
        list.add(get(index))
    }
    return list
}

/**
 * Returns a list containing elements at specified [indices].
 */
public fun ByteArray.slice(indices: Iterable): List {
    val size = indices.collectionSizeOrDefault(10)
    if (size == 0) return emptyList()
    val list = ArrayList(size)
    for (index in indices) {
        list.add(get(index))
    }
    return list
}

/**
 * Returns a list containing elements at specified [indices].
 */
public fun ShortArray.slice(indices: Iterable): List {
    val size = indices.collectionSizeOrDefault(10)
    if (size == 0) return emptyList()
    val list = ArrayList(size)
    for (index in indices) {
        list.add(get(index))
    }
    return list
}

/**
 * Returns a list containing elements at specified [indices].
 */
public fun IntArray.slice(indices: Iterable): List {
    val size = indices.collectionSizeOrDefault(10)
    if (size == 0) return emptyList()
    val list = ArrayList(size)
    for (index in indices) {
        list.add(get(index))
    }
    return list
}

/**
 * Returns a list containing elements at specified [indices].
 */
public fun LongArray.slice(indices: Iterable): List {
    val size = indices.collectionSizeOrDefault(10)
    if (size == 0) return emptyList()
    val list = ArrayList(size)
    for (index in indices) {
        list.add(get(index))
    }
    return list
}

/**
 * Returns a list containing elements at specified [indices].
 */
public fun FloatArray.slice(indices: Iterable): List {
    val size = indices.collectionSizeOrDefault(10)
    if (size == 0) return emptyList()
    val list = ArrayList(size)
    for (index in indices) {
        list.add(get(index))
    }
    return list
}

/**
 * Returns a list containing elements at specified [indices].
 */
public fun DoubleArray.slice(indices: Iterable): List {
    val size = indices.collectionSizeOrDefault(10)
    if (size == 0) return emptyList()
    val list = ArrayList(size)
    for (index in indices) {
        list.add(get(index))
    }
    return list
}

/**
 * Returns a list containing elements at specified [indices].
 */
public fun BooleanArray.slice(indices: Iterable): List {
    val size = indices.collectionSizeOrDefault(10)
    if (size == 0) return emptyList()
    val list = ArrayList(size)
    for (index in indices) {
        list.add(get(index))
    }
    return list
}

/**
 * Returns a list containing elements at specified [indices].
 */
public fun CharArray.slice(indices: Iterable): List {
    val size = indices.collectionSizeOrDefault(10)
    if (size == 0) return emptyList()
    val list = ArrayList(size)
    for (index in indices) {
        list.add(get(index))
    }
    return list
}

/**
 * Returns an array containing elements of this array at specified [indices].
 */
public fun  Array.sliceArray(indices: Collection): Array {
    val result = arrayOfNulls(this, indices.size)
    var targetIndex = 0
    for (sourceIndex in indices) {
        result[targetIndex++] = this[sourceIndex]
    }
    return result
}

/**
 * Returns an array containing elements of this array at specified [indices].
 */
public fun ByteArray.sliceArray(indices: Collection): ByteArray {
    val result = ByteArray(indices.size)
    var targetIndex = 0
    for (sourceIndex in indices) {
        result[targetIndex++] = this[sourceIndex]
    }
    return result
}

/**
 * Returns an array containing elements of this array at specified [indices].
 */
public fun ShortArray.sliceArray(indices: Collection): ShortArray {
    val result = ShortArray(indices.size)
    var targetIndex = 0
    for (sourceIndex in indices) {
        result[targetIndex++] = this[sourceIndex]
    }
    return result
}

/**
 * Returns an array containing elements of this array at specified [indices].
 */
public fun IntArray.sliceArray(indices: Collection): IntArray {
    val result = IntArray(indices.size)
    var targetIndex = 0
    for (sourceIndex in indices) {
        result[targetIndex++] = this[sourceIndex]
    }
    return result
}

/**
 * Returns an array containing elements of this array at specified [indices].
 */
public fun LongArray.sliceArray(indices: Collection): LongArray {
    val result = LongArray(indices.size)
    var targetIndex = 0
    for (sourceIndex in indices) {
        result[targetIndex++] = this[sourceIndex]
    }
    return result
}

/**
 * Returns an array containing elements of this array at specified [indices].
 */
public fun FloatArray.sliceArray(indices: Collection): FloatArray {
    val result = FloatArray(indices.size)
    var targetIndex = 0
    for (sourceIndex in indices) {
        result[targetIndex++] = this[sourceIndex]
    }
    return result
}

/**
 * Returns an array containing elements of this array at specified [indices].
 */
public fun DoubleArray.sliceArray(indices: Collection): DoubleArray {
    val result = DoubleArray(indices.size)
    var targetIndex = 0
    for (sourceIndex in indices) {
        result[targetIndex++] = this[sourceIndex]
    }
    return result
}

/**
 * Returns an array containing elements of this array at specified [indices].
 */
public fun BooleanArray.sliceArray(indices: Collection): BooleanArray {
    val result = BooleanArray(indices.size)
    var targetIndex = 0
    for (sourceIndex in indices) {
        result[targetIndex++] = this[sourceIndex]
    }
    return result
}

/**
 * Returns an array containing elements of this array at specified [indices].
 */
public fun CharArray.sliceArray(indices: Collection): CharArray {
    val result = CharArray(indices.size)
    var targetIndex = 0
    for (sourceIndex in indices) {
        result[targetIndex++] = this[sourceIndex]
    }
    return result
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun  Array.sliceArray(indices: IntRange): Array {
    if (indices.isEmpty()) return copyOfRange(0, 0)
    return copyOfRange(indices.start, indices.endInclusive + 1)
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun ByteArray.sliceArray(indices: IntRange): ByteArray {
    if (indices.isEmpty()) return ByteArray(0)
    return copyOfRange(indices.start, indices.endInclusive + 1)
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun ShortArray.sliceArray(indices: IntRange): ShortArray {
    if (indices.isEmpty()) return ShortArray(0)
    return copyOfRange(indices.start, indices.endInclusive + 1)
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun IntArray.sliceArray(indices: IntRange): IntArray {
    if (indices.isEmpty()) return IntArray(0)
    return copyOfRange(indices.start, indices.endInclusive + 1)
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun LongArray.sliceArray(indices: IntRange): LongArray {
    if (indices.isEmpty()) return LongArray(0)
    return copyOfRange(indices.start, indices.endInclusive + 1)
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun FloatArray.sliceArray(indices: IntRange): FloatArray {
    if (indices.isEmpty()) return FloatArray(0)
    return copyOfRange(indices.start, indices.endInclusive + 1)
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun DoubleArray.sliceArray(indices: IntRange): DoubleArray {
    if (indices.isEmpty()) return DoubleArray(0)
    return copyOfRange(indices.start, indices.endInclusive + 1)
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun BooleanArray.sliceArray(indices: IntRange): BooleanArray {
    if (indices.isEmpty()) return BooleanArray(0)
    return copyOfRange(indices.start, indices.endInclusive + 1)
}

/**
 * Returns a list containing elements at indices in the specified [indices] range.
 */
public fun CharArray.sliceArray(indices: IntRange): CharArray {
    if (indices.isEmpty()) return CharArray(0)
    return copyOfRange(indices.start, indices.endInclusive + 1)
}

/**
 * Returns a list containing first [n] elements.
 */
public fun  Array.take(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    if (n >= size) return toList()
    if (n == 1) return listOf(this[0])
    var count = 0
    val list = ArrayList(n)
    for (item in this) {
        if (count++ == n)
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first [n] elements.
 */
public fun ByteArray.take(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    if (n >= size) return toList()
    if (n == 1) return listOf(this[0])
    var count = 0
    val list = ArrayList(n)
    for (item in this) {
        if (count++ == n)
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first [n] elements.
 */
public fun ShortArray.take(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    if (n >= size) return toList()
    if (n == 1) return listOf(this[0])
    var count = 0
    val list = ArrayList(n)
    for (item in this) {
        if (count++ == n)
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first [n] elements.
 */
public fun IntArray.take(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    if (n >= size) return toList()
    if (n == 1) return listOf(this[0])
    var count = 0
    val list = ArrayList(n)
    for (item in this) {
        if (count++ == n)
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first [n] elements.
 */
public fun LongArray.take(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    if (n >= size) return toList()
    if (n == 1) return listOf(this[0])
    var count = 0
    val list = ArrayList(n)
    for (item in this) {
        if (count++ == n)
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first [n] elements.
 */
public fun FloatArray.take(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    if (n >= size) return toList()
    if (n == 1) return listOf(this[0])
    var count = 0
    val list = ArrayList(n)
    for (item in this) {
        if (count++ == n)
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first [n] elements.
 */
public fun DoubleArray.take(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    if (n >= size) return toList()
    if (n == 1) return listOf(this[0])
    var count = 0
    val list = ArrayList(n)
    for (item in this) {
        if (count++ == n)
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first [n] elements.
 */
public fun BooleanArray.take(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    if (n >= size) return toList()
    if (n == 1) return listOf(this[0])
    var count = 0
    val list = ArrayList(n)
    for (item in this) {
        if (count++ == n)
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first [n] elements.
 */
public fun CharArray.take(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    if (n >= size) return toList()
    if (n == 1) return listOf(this[0])
    var count = 0
    val list = ArrayList(n)
    for (item in this) {
        if (count++ == n)
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing last [n] elements.
 */
public fun  Array.takeLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    val size = size
    if (n >= size) return toList()
    if (n == 1) return listOf(this[size - 1])
    val list = ArrayList(n)
    for (index in size - n .. size - 1)
        list.add(this[index])
    return list
}

/**
 * Returns a list containing last [n] elements.
 */
public fun ByteArray.takeLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    val size = size
    if (n >= size) return toList()
    if (n == 1) return listOf(this[size - 1])
    val list = ArrayList(n)
    for (index in size - n .. size - 1)
        list.add(this[index])
    return list
}

/**
 * Returns a list containing last [n] elements.
 */
public fun ShortArray.takeLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    val size = size
    if (n >= size) return toList()
    if (n == 1) return listOf(this[size - 1])
    val list = ArrayList(n)
    for (index in size - n .. size - 1)
        list.add(this[index])
    return list
}

/**
 * Returns a list containing last [n] elements.
 */
public fun IntArray.takeLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    val size = size
    if (n >= size) return toList()
    if (n == 1) return listOf(this[size - 1])
    val list = ArrayList(n)
    for (index in size - n .. size - 1)
        list.add(this[index])
    return list
}

/**
 * Returns a list containing last [n] elements.
 */
public fun LongArray.takeLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    val size = size
    if (n >= size) return toList()
    if (n == 1) return listOf(this[size - 1])
    val list = ArrayList(n)
    for (index in size - n .. size - 1)
        list.add(this[index])
    return list
}

/**
 * Returns a list containing last [n] elements.
 */
public fun FloatArray.takeLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    val size = size
    if (n >= size) return toList()
    if (n == 1) return listOf(this[size - 1])
    val list = ArrayList(n)
    for (index in size - n .. size - 1)
        list.add(this[index])
    return list
}

/**
 * Returns a list containing last [n] elements.
 */
public fun DoubleArray.takeLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    val size = size
    if (n >= size) return toList()
    if (n == 1) return listOf(this[size - 1])
    val list = ArrayList(n)
    for (index in size - n .. size - 1)
        list.add(this[index])
    return list
}

/**
 * Returns a list containing last [n] elements.
 */
public fun BooleanArray.takeLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    val size = size
    if (n >= size) return toList()
    if (n == 1) return listOf(this[size - 1])
    val list = ArrayList(n)
    for (index in size - n .. size - 1)
        list.add(this[index])
    return list
}

/**
 * Returns a list containing last [n] elements.
 */
public fun CharArray.takeLast(n: Int): List {
    require(n >= 0) { "Requested element count $n is less than zero." }
    if (n == 0) return emptyList()
    val size = size
    if (n >= size) return toList()
    if (n == 1) return listOf(this[size - 1])
    val list = ArrayList(n)
    for (index in size - n .. size - 1)
        list.add(this[index])
    return list
}

/**
 * Returns a list containing last elements satisfying the given [predicate].
 */
public inline fun  Array.takeLastWhile(predicate: (T) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return drop(index + 1)
        }
    }
    return toList()
}

/**
 * Returns a list containing last elements satisfying the given [predicate].
 */
public inline fun ByteArray.takeLastWhile(predicate: (Byte) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return drop(index + 1)
        }
    }
    return toList()
}

/**
 * Returns a list containing last elements satisfying the given [predicate].
 */
public inline fun ShortArray.takeLastWhile(predicate: (Short) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return drop(index + 1)
        }
    }
    return toList()
}

/**
 * Returns a list containing last elements satisfying the given [predicate].
 */
public inline fun IntArray.takeLastWhile(predicate: (Int) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return drop(index + 1)
        }
    }
    return toList()
}

/**
 * Returns a list containing last elements satisfying the given [predicate].
 */
public inline fun LongArray.takeLastWhile(predicate: (Long) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return drop(index + 1)
        }
    }
    return toList()
}

/**
 * Returns a list containing last elements satisfying the given [predicate].
 */
public inline fun FloatArray.takeLastWhile(predicate: (Float) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return drop(index + 1)
        }
    }
    return toList()
}

/**
 * Returns a list containing last elements satisfying the given [predicate].
 */
public inline fun DoubleArray.takeLastWhile(predicate: (Double) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return drop(index + 1)
        }
    }
    return toList()
}

/**
 * Returns a list containing last elements satisfying the given [predicate].
 */
public inline fun BooleanArray.takeLastWhile(predicate: (Boolean) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return drop(index + 1)
        }
    }
    return toList()
}

/**
 * Returns a list containing last elements satisfying the given [predicate].
 */
public inline fun CharArray.takeLastWhile(predicate: (Char) -> Boolean): List {
    for (index in lastIndex downTo 0) {
        if (!predicate(this[index])) {
            return drop(index + 1)
        }
    }
    return toList()
}

/**
 * Returns a list containing first elements satisfying the given [predicate].
 */
public inline fun  Array.takeWhile(predicate: (T) -> Boolean): List {
    val list = ArrayList()
    for (item in this) {
        if (!predicate(item))
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first elements satisfying the given [predicate].
 */
public inline fun ByteArray.takeWhile(predicate: (Byte) -> Boolean): List {
    val list = ArrayList()
    for (item in this) {
        if (!predicate(item))
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first elements satisfying the given [predicate].
 */
public inline fun ShortArray.takeWhile(predicate: (Short) -> Boolean): List {
    val list = ArrayList()
    for (item in this) {
        if (!predicate(item))
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first elements satisfying the given [predicate].
 */
public inline fun IntArray.takeWhile(predicate: (Int) -> Boolean): List {
    val list = ArrayList()
    for (item in this) {
        if (!predicate(item))
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first elements satisfying the given [predicate].
 */
public inline fun LongArray.takeWhile(predicate: (Long) -> Boolean): List {
    val list = ArrayList()
    for (item in this) {
        if (!predicate(item))
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first elements satisfying the given [predicate].
 */
public inline fun FloatArray.takeWhile(predicate: (Float) -> Boolean): List {
    val list = ArrayList()
    for (item in this) {
        if (!predicate(item))
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first elements satisfying the given [predicate].
 */
public inline fun DoubleArray.takeWhile(predicate: (Double) -> Boolean): List {
    val list = ArrayList()
    for (item in this) {
        if (!predicate(item))
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first elements satisfying the given [predicate].
 */
public inline fun BooleanArray.takeWhile(predicate: (Boolean) -> Boolean): List {
    val list = ArrayList()
    for (item in this) {
        if (!predicate(item))
            break
        list.add(item)
    }
    return list
}

/**
 * Returns a list containing first elements satisfying the given [predicate].
 */
public inline fun CharArray.takeWhile(predicate: (Char) -> Boolean): List {
    val list = ArrayList()
    for (item in this) {
        if (!predicate(item))
            break
        list.add(item)
    }
    return list
}

/**
 * Reverses elements in the array in-place.
 */
public fun  Array.reverse(): Unit {
    val midPoint = (size / 2) - 1
    if (midPoint < 0) return
    var reverseIndex = lastIndex
    for (index in 0..midPoint) {
        val tmp = this[index]
        this[index] = this[reverseIndex]
        this[reverseIndex] = tmp
        reverseIndex--
    }
}

/**
 * Reverses elements in the array in-place.
 */
public fun ByteArray.reverse(): Unit {
    val midPoint = (size / 2) - 1
    if (midPoint < 0) return
    var reverseIndex = lastIndex
    for (index in 0..midPoint) {
        val tmp = this[index]
        this[index] = this[reverseIndex]
        this[reverseIndex] = tmp
        reverseIndex--
    }
}

/**
 * Reverses elements in the array in-place.
 */
public fun ShortArray.reverse(): Unit {
    val midPoint = (size / 2) - 1
    if (midPoint < 0) return
    var reverseIndex = lastIndex
    for (index in 0..midPoint) {
        val tmp = this[index]
        this[index] = this[reverseIndex]
        this[reverseIndex] = tmp
        reverseIndex--
    }
}

/**
 * Reverses elements in the array in-place.
 */
public fun IntArray.reverse(): Unit {
    val midPoint = (size / 2) - 1
    if (midPoint < 0) return
    var reverseIndex = lastIndex
    for (index in 0..midPoint) {
        val tmp = this[index]
        this[index] = this[reverseIndex]
        this[reverseIndex] = tmp
        reverseIndex--
    }
}

/**
 * Reverses elements in the array in-place.
 */
public fun LongArray.reverse(): Unit {
    val midPoint = (size / 2) - 1
    if (midPoint < 0) return
    var reverseIndex = lastIndex
    for (index in 0..midPoint) {
        val tmp = this[index]
        this[index] = this[reverseIndex]
        this[reverseIndex] = tmp
        reverseIndex--
    }
}

/**
 * Reverses elements in the array in-place.
 */
public fun FloatArray.reverse(): Unit {
    val midPoint = (size / 2) - 1
    if (midPoint < 0) return
    var reverseIndex = lastIndex
    for (index in 0..midPoint) {
        val tmp = this[index]
        this[index] = this[reverseIndex]
        this[reverseIndex] = tmp
        reverseIndex--
    }
}

/**
 * Reverses elements in the array in-place.
 */
public fun DoubleArray.reverse(): Unit {
    val midPoint = (size / 2) - 1
    if (midPoint < 0) return
    var reverseIndex = lastIndex
    for (index in 0..midPoint) {
        val tmp = this[index]
        this[index] = this[reverseIndex]
        this[reverseIndex] = tmp
        reverseIndex--
    }
}

/**
 * Reverses elements in the array in-place.
 */
public fun BooleanArray.reverse(): Unit {
    val midPoint = (size / 2) - 1
    if (midPoint < 0) return
    var reverseIndex = lastIndex
    for (index in 0..midPoint) {
        val tmp = this[index]
        this[index] = this[reverseIndex]
        this[reverseIndex] = tmp
        reverseIndex--
    }
}

/**
 * Reverses elements in the array in-place.
 */
public fun CharArray.reverse(): Unit {
    val midPoint = (size / 2) - 1
    if (midPoint < 0) return
    var reverseIndex = lastIndex
    for (index in 0..midPoint) {
        val tmp = this[index]
        this[index] = this[reverseIndex]
        this[reverseIndex] = tmp
        reverseIndex--
    }
}

/**
 * Returns a list with elements in reversed order.
 */
public fun  Array.reversed(): List {
    if (isEmpty()) return emptyList()
    val list = toMutableList()
    Collections.reverse(list)
    return list
}

/**
 * Returns a list with elements in reversed order.
 */
public fun ByteArray.reversed(): List {
    if (isEmpty()) return emptyList()
    val list = toMutableList()
    Collections.reverse(list)
    return list
}

/**
 * Returns a list with elements in reversed order.
 */
public fun ShortArray.reversed(): List {
    if (isEmpty()) return emptyList()
    val list = toMutableList()
    Collections.reverse(list)
    return list
}

/**
 * Returns a list with elements in reversed order.
 */
public fun IntArray.reversed(): List {
    if (isEmpty()) return emptyList()
    val list = toMutableList()
    Collections.reverse(list)
    return list
}

/**
 * Returns a list with elements in reversed order.
 */
public fun LongArray.reversed(): List {
    if (isEmpty()) return emptyList()
    val list = toMutableList()
    Collections.reverse(list)
    return list
}

/**
 * Returns a list with elements in reversed order.
 */
public fun FloatArray.reversed(): List {
    if (isEmpty()) return emptyList()
    val list = toMutableList()
    Collections.reverse(list)
    return list
}

/**
 * Returns a list with elements in reversed order.
 */
public fun DoubleArray.reversed(): List {
    if (isEmpty()) return emptyList()
    val list = toMutableList()
    Collections.reverse(list)
    return list
}

/**
 * Returns a list with elements in reversed order.
 */
public fun BooleanArray.reversed(): List {
    if (isEmpty()) return emptyList()
    val list = toMutableList()
    Collections.reverse(list)
    return list
}

/**
 * Returns a list with elements in reversed order.
 */
public fun CharArray.reversed(): List {
    if (isEmpty()) return emptyList()
    val list = toMutableList()
    Collections.reverse(list)
    return list
}

/**
 * Returns an array with elements of this array in reversed order.
 */
public fun  Array.reversedArray(): Array {
    if (isEmpty()) return this
    val result = arrayOfNulls(this, size)
    val lastIndex = lastIndex
    for (i in 0..lastIndex)
        result[lastIndex - i] = this[i]
    return result
}

/**
 * Returns an array with elements of this array in reversed order.
 */
public fun ByteArray.reversedArray(): ByteArray {
    if (isEmpty()) return this
    val result = ByteArray(size)
    val lastIndex = lastIndex
    for (i in 0..lastIndex)
        result[lastIndex - i] = this[i]
    return result
}

/**
 * Returns an array with elements of this array in reversed order.
 */
public fun ShortArray.reversedArray(): ShortArray {
    if (isEmpty()) return this
    val result = ShortArray(size)
    val lastIndex = lastIndex
    for (i in 0..lastIndex)
        result[lastIndex - i] = this[i]
    return result
}

/**
 * Returns an array with elements of this array in reversed order.
 */
public fun IntArray.reversedArray(): IntArray {
    if (isEmpty()) return this
    val result = IntArray(size)
    val lastIndex = lastIndex
    for (i in 0..lastIndex)
        result[lastIndex - i] = this[i]
    return result
}

/**
 * Returns an array with elements of this array in reversed order.
 */
public fun LongArray.reversedArray(): LongArray {
    if (isEmpty()) return this
    val result = LongArray(size)
    val lastIndex = lastIndex
    for (i in 0..lastIndex)
        result[lastIndex - i] = this[i]
    return result
}

/**
 * Returns an array with elements of this array in reversed order.
 */
public fun FloatArray.reversedArray(): FloatArray {
    if (isEmpty()) return this
    val result = FloatArray(size)
    val lastIndex = lastIndex
    for (i in 0..lastIndex)
        result[lastIndex - i] = this[i]
    return result
}

/**
 * Returns an array with elements of this array in reversed order.
 */
public fun DoubleArray.reversedArray(): DoubleArray {
    if (isEmpty()) return this
    val result = DoubleArray(size)
    val lastIndex = lastIndex
    for (i in 0..lastIndex)
        result[lastIndex - i] = this[i]
    return result
}

/**
 * Returns an array with elements of this array in reversed order.
 */
public fun BooleanArray.reversedArray(): BooleanArray {
    if (isEmpty()) return this
    val result = BooleanArray(size)
    val lastIndex = lastIndex
    for (i in 0..lastIndex)
        result[lastIndex - i] = this[i]
    return result
}

/**
 * Returns an array with elements of this array in reversed order.
 */
public fun CharArray.reversedArray(): CharArray {
    if (isEmpty()) return this
    val result = CharArray(size)
    val lastIndex = lastIndex
    for (i in 0..lastIndex)
        result[lastIndex - i] = this[i]
    return result
}

/**
 * Sorts elements in the array in-place according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > Array.sortBy(crossinline selector: (T) -> R?): Unit {
    if (size > 1) sortWith(compareBy(selector))
}

/**
 * Sorts elements in the array in-place descending according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > Array.sortByDescending(crossinline selector: (T) -> R?): Unit {
    if (size > 1) sortWith(compareByDescending(selector))
}

/**
 * Sorts elements in the array in-place descending according to their natural sort order.
 */
public fun > Array.sortDescending(): Unit {
    sortWith(reverseOrder())
}

/**
 * Sorts elements in the array in-place descending according to their natural sort order.
 */
public fun ByteArray.sortDescending(): Unit {
    if (size > 1) {
        sort()
        reverse()
    }
}

/**
 * Sorts elements in the array in-place descending according to their natural sort order.
 */
public fun ShortArray.sortDescending(): Unit {
    if (size > 1) {
        sort()
        reverse()
    }
}

/**
 * Sorts elements in the array in-place descending according to their natural sort order.
 */
public fun IntArray.sortDescending(): Unit {
    if (size > 1) {
        sort()
        reverse()
    }
}

/**
 * Sorts elements in the array in-place descending according to their natural sort order.
 */
public fun LongArray.sortDescending(): Unit {
    if (size > 1) {
        sort()
        reverse()
    }
}

/**
 * Sorts elements in the array in-place descending according to their natural sort order.
 */
public fun FloatArray.sortDescending(): Unit {
    if (size > 1) {
        sort()
        reverse()
    }
}

/**
 * Sorts elements in the array in-place descending according to their natural sort order.
 */
public fun DoubleArray.sortDescending(): Unit {
    if (size > 1) {
        sort()
        reverse()
    }
}

/**
 * Sorts elements in the array in-place descending according to their natural sort order.
 */
public fun CharArray.sortDescending(): Unit {
    if (size > 1) {
        sort()
        reverse()
    }
}

/**
 * Returns a list of all elements sorted according to their natural sort order.
 */
public fun > Array.sorted(): List {
    return sortedArray().asList()
}

/**
 * Returns a list of all elements sorted according to their natural sort order.
 */
public fun ByteArray.sorted(): List {
    return toTypedArray().apply { sort() }.asList()
}

/**
 * Returns a list of all elements sorted according to their natural sort order.
 */
public fun ShortArray.sorted(): List {
    return toTypedArray().apply { sort() }.asList()
}

/**
 * Returns a list of all elements sorted according to their natural sort order.
 */
public fun IntArray.sorted(): List {
    return toTypedArray().apply { sort() }.asList()
}

/**
 * Returns a list of all elements sorted according to their natural sort order.
 */
public fun LongArray.sorted(): List {
    return toTypedArray().apply { sort() }.asList()
}

/**
 * Returns a list of all elements sorted according to their natural sort order.
 */
public fun FloatArray.sorted(): List {
    return toTypedArray().apply { sort() }.asList()
}

/**
 * Returns a list of all elements sorted according to their natural sort order.
 */
public fun DoubleArray.sorted(): List {
    return toTypedArray().apply { sort() }.asList()
}

/**
 * Returns a list of all elements sorted according to their natural sort order.
 */
public fun CharArray.sorted(): List {
    return toTypedArray().apply { sort() }.asList()
}

/**
 * Returns an array with all elements of this array sorted according to their natural sort order.
 */
public fun > Array.sortedArray(): Array {
    if (isEmpty()) return this
    return this.copyOf().apply { sort() }
}

/**
 * Returns an array with all elements of this array sorted according to their natural sort order.
 */
public fun ByteArray.sortedArray(): ByteArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sort() }
}

/**
 * Returns an array with all elements of this array sorted according to their natural sort order.
 */
public fun ShortArray.sortedArray(): ShortArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sort() }
}

/**
 * Returns an array with all elements of this array sorted according to their natural sort order.
 */
public fun IntArray.sortedArray(): IntArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sort() }
}

/**
 * Returns an array with all elements of this array sorted according to their natural sort order.
 */
public fun LongArray.sortedArray(): LongArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sort() }
}

/**
 * Returns an array with all elements of this array sorted according to their natural sort order.
 */
public fun FloatArray.sortedArray(): FloatArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sort() }
}

/**
 * Returns an array with all elements of this array sorted according to their natural sort order.
 */
public fun DoubleArray.sortedArray(): DoubleArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sort() }
}

/**
 * Returns an array with all elements of this array sorted according to their natural sort order.
 */
public fun CharArray.sortedArray(): CharArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sort() }
}

/**
 * Returns an array with all elements of this array sorted descending according to their natural sort order.
 */
public fun > Array.sortedArrayDescending(): Array {
    if (isEmpty()) return this
    return this.copyOf().apply { sortWith(reverseOrder()) }
}

/**
 * Returns an array with all elements of this array sorted descending according to their natural sort order.
 */
public fun ByteArray.sortedArrayDescending(): ByteArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sortDescending() }
}

/**
 * Returns an array with all elements of this array sorted descending according to their natural sort order.
 */
public fun ShortArray.sortedArrayDescending(): ShortArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sortDescending() }
}

/**
 * Returns an array with all elements of this array sorted descending according to their natural sort order.
 */
public fun IntArray.sortedArrayDescending(): IntArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sortDescending() }
}

/**
 * Returns an array with all elements of this array sorted descending according to their natural sort order.
 */
public fun LongArray.sortedArrayDescending(): LongArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sortDescending() }
}

/**
 * Returns an array with all elements of this array sorted descending according to their natural sort order.
 */
public fun FloatArray.sortedArrayDescending(): FloatArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sortDescending() }
}

/**
 * Returns an array with all elements of this array sorted descending according to their natural sort order.
 */
public fun DoubleArray.sortedArrayDescending(): DoubleArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sortDescending() }
}

/**
 * Returns an array with all elements of this array sorted descending according to their natural sort order.
 */
public fun CharArray.sortedArrayDescending(): CharArray {
    if (isEmpty()) return this
    return this.copyOf().apply { sortDescending() }
}

/**
 * Returns an array with all elements of this array sorted according the specified [comparator].
 */
public fun  Array.sortedArrayWith(comparator: Comparator): Array {
    if (isEmpty()) return this
    return this.copyOf().apply { sortWith(comparator) }
}

/**
 * Returns a list of all elements sorted according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > Array.sortedBy(crossinline selector: (T) -> R?): List {
    return sortedWith(compareBy(selector))
}

/**
 * Returns a list of all elements sorted according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > ByteArray.sortedBy(crossinline selector: (Byte) -> R?): List {
    return sortedWith(compareBy(selector))
}

/**
 * Returns a list of all elements sorted according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > ShortArray.sortedBy(crossinline selector: (Short) -> R?): List {
    return sortedWith(compareBy(selector))
}

/**
 * Returns a list of all elements sorted according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > IntArray.sortedBy(crossinline selector: (Int) -> R?): List {
    return sortedWith(compareBy(selector))
}

/**
 * Returns a list of all elements sorted according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > LongArray.sortedBy(crossinline selector: (Long) -> R?): List {
    return sortedWith(compareBy(selector))
}

/**
 * Returns a list of all elements sorted according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > FloatArray.sortedBy(crossinline selector: (Float) -> R?): List {
    return sortedWith(compareBy(selector))
}

/**
 * Returns a list of all elements sorted according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > DoubleArray.sortedBy(crossinline selector: (Double) -> R?): List {
    return sortedWith(compareBy(selector))
}

/**
 * Returns a list of all elements sorted according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > BooleanArray.sortedBy(crossinline selector: (Boolean) -> R?): List {
    return sortedWith(compareBy(selector))
}

/**
 * Returns a list of all elements sorted according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > CharArray.sortedBy(crossinline selector: (Char) -> R?): List {
    return sortedWith(compareBy(selector))
}

/**
 * Returns a list of all elements sorted descending according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > Array.sortedByDescending(crossinline selector: (T) -> R?): List {
    return sortedWith(compareByDescending(selector))
}

/**
 * Returns a list of all elements sorted descending according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > ByteArray.sortedByDescending(crossinline selector: (Byte) -> R?): List {
    return sortedWith(compareByDescending(selector))
}

/**
 * Returns a list of all elements sorted descending according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > ShortArray.sortedByDescending(crossinline selector: (Short) -> R?): List {
    return sortedWith(compareByDescending(selector))
}

/**
 * Returns a list of all elements sorted descending according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > IntArray.sortedByDescending(crossinline selector: (Int) -> R?): List {
    return sortedWith(compareByDescending(selector))
}

/**
 * Returns a list of all elements sorted descending according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > LongArray.sortedByDescending(crossinline selector: (Long) -> R?): List {
    return sortedWith(compareByDescending(selector))
}

/**
 * Returns a list of all elements sorted descending according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > FloatArray.sortedByDescending(crossinline selector: (Float) -> R?): List {
    return sortedWith(compareByDescending(selector))
}

/**
 * Returns a list of all elements sorted descending according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > DoubleArray.sortedByDescending(crossinline selector: (Double) -> R?): List {
    return sortedWith(compareByDescending(selector))
}

/**
 * Returns a list of all elements sorted descending according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > BooleanArray.sortedByDescending(crossinline selector: (Boolean) -> R?): List {
    return sortedWith(compareByDescending(selector))
}

/**
 * Returns a list of all elements sorted descending according to natural sort order of the value returned by specified [selector] function.
 */
public inline fun > CharArray.sortedByDescending(crossinline selector: (Char) -> R?): List {
    return sortedWith(compareByDescending(selector))
}

/**
 * Returns a list of all elements sorted descending according to their natural sort order.
 */
public fun > Array.sortedDescending(): List {
    return sortedWith(reverseOrder())
}

/**
 * Returns a list of all elements sorted descending according to their natural sort order.
 */
public fun ByteArray.sortedDescending(): List {
    return copyOf().apply { sort() }.reversed()
}

/**
 * Returns a list of all elements sorted descending according to their natural sort order.
 */
public fun ShortArray.sortedDescending(): List {
    return copyOf().apply { sort() }.reversed()
}

/**
 * Returns a list of all elements sorted descending according to their natural sort order.
 */
public fun IntArray.sortedDescending(): List {
    return copyOf().apply { sort() }.reversed()
}

/**
 * Returns a list of all elements sorted descending according to their natural sort order.
 */
public fun LongArray.sortedDescending(): List {
    return copyOf().apply { sort() }.reversed()
}

/**
 * Returns a list of all elements sorted descending according to their natural sort order.
 */
public fun FloatArray.sortedDescending(): List {
    return copyOf().apply { sort() }.reversed()
}

/**
 * Returns a list of all elements sorted descending according to their natural sort order.
 */
public fun DoubleArray.sortedDescending(): List {
    return copyOf().apply { sort() }.reversed()
}

/**
 * Returns a list of all elements sorted descending according to their natural sort order.
 */
public fun CharArray.sortedDescending(): List {
    return copyOf().apply { sort() }.reversed()
}

/**
 * Returns a list of all elements sorted according to the specified [comparator].
 */
public fun  Array.sortedWith(comparator: Comparator): List {
    return sortedArrayWith(comparator).asList()
}

/**
 * Returns a list of all elements sorted according to the specified [comparator].
 */
public fun ByteArray.sortedWith(comparator: Comparator): List {
    return toTypedArray().apply { sortWith(comparator) }.asList()
}

/**
 * Returns a list of all elements sorted according to the specified [comparator].
 */
public fun ShortArray.sortedWith(comparator: Comparator): List {
    return toTypedArray().apply { sortWith(comparator) }.asList()
}

/**
 * Returns a list of all elements sorted according to the specified [comparator].
 */
public fun IntArray.sortedWith(comparator: Comparator): List {
    return toTypedArray().apply { sortWith(comparator) }.asList()
}

/**
 * Returns a list of all elements sorted according to the specified [comparator].
 */
public fun LongArray.sortedWith(comparator: Comparator): List {
    return toTypedArray().apply { sortWith(comparator) }.asList()
}

/**
 * Returns a list of all elements sorted according to the specified [comparator].
 */
public fun FloatArray.sortedWith(comparator: Comparator): List {
    return toTypedArray().apply { sortWith(comparator) }.asList()
}

/**
 * Returns a list of all elements sorted according to the specified [comparator].
 */
public fun DoubleArray.sortedWith(comparator: Comparator): List {
    return toTypedArray().apply { sortWith(comparator) }.asList()
}

/**
 * Returns a list of all elements sorted according to the specified [comparator].
 */
public fun BooleanArray.sortedWith(comparator: Comparator): List {
    return toTypedArray().apply { sortWith(comparator) }.asList()
}

/**
 * Returns a list of all elements sorted according to the specified [comparator].
 */
public fun CharArray.sortedWith(comparator: Comparator): List {
    return toTypedArray().apply { sortWith(comparator) }.asList()
}

/**
 * Returns the range of valid indices for the array.
 */
public val  Array.indices: IntRange
    get() = IntRange(0, lastIndex)

/**
 * Returns the range of valid indices for the array.
 */
public val ByteArray.indices: IntRange
    get() = IntRange(0, lastIndex)

/**
 * Returns the range of valid indices for the array.
 */
public val ShortArray.indices: IntRange
    get() = IntRange(0, lastIndex)

/**
 * Returns the range of valid indices for the array.
 */
public val IntArray.indices: IntRange
    get() = IntRange(0, lastIndex)

/**
 * Returns the range of valid indices for the array.
 */
public val LongArray.indices: IntRange
    get() = IntRange(0, lastIndex)

/**
 * Returns the range of valid indices for the array.
 */
public val FloatArray.indices: IntRange
    get() = IntRange(0, lastIndex)

/**
 * Returns the range of valid indices for the array.
 */
public val DoubleArray.indices: IntRange
    get() = IntRange(0, lastIndex)

/**
 * Returns the range of valid indices for the array.
 */
public val BooleanArray.indices: IntRange
    get() = IntRange(0, lastIndex)

/**
 * Returns the range of valid indices for the array.
 */
public val CharArray.indices: IntRange
    get() = IntRange(0, lastIndex)

/**
 * Returns `true` if the array is empty.
 */
@kotlin.internal.InlineOnly
public inline fun  Array.isEmpty(): Boolean {
    return size == 0
}

/**
 * Returns `true` if the array is empty.
 */
@kotlin.internal.InlineOnly
public inline fun ByteArray.isEmpty(): Boolean {
    return size == 0
}

/**
 * Returns `true` if the array is empty.
 */
@kotlin.internal.InlineOnly
public inline fun ShortArray.isEmpty(): Boolean {
    return size == 0
}

/**
 * Returns `true` if the array is empty.
 */
@kotlin.internal.InlineOnly
public inline fun IntArray.isEmpty(): Boolean {
    return size == 0
}

/**
 * Returns `true` if the array is empty.
 */
@kotlin.internal.InlineOnly
public inline fun LongArray.isEmpty(): Boolean {
    return size == 0
}

/**
 * Returns `true` if the array is empty.
 */
@kotlin.internal.InlineOnly
public inline fun FloatArray.isEmpty(): Boolean {
    return size == 0
}

/**
 * Returns `true` if the array is empty.
 */
@kotlin.internal.InlineOnly
public inline fun DoubleArray.isEmpty(): Boolean {
    return size == 0
}

/**
 * Returns `true` if the array is empty.
 */
@kotlin.internal.InlineOnly
public inline fun BooleanArray.isEmpty(): Boolean {
    return size == 0
}

/**
 * Returns `true` if the array is empty.
 */
@kotlin.internal.InlineOnly
public inline fun CharArray.isEmpty(): Boolean {
    return size == 0
}

/**
 * Returns `true` if the array is not empty.
 */
@kotlin.internal.InlineOnly
public inline fun  Array.isNotEmpty(): Boolean {
    return !isEmpty()
}

/**
 * Returns `true` if the array is not empty.
 */
@kotlin.internal.InlineOnly
public inline fun ByteArray.isNotEmpty(): Boolean {
    return !isEmpty()
}

/**
 * Returns `true` if the array is not empty.
 */
@kotlin.internal.InlineOnly
public inline fun ShortArray.isNotEmpty(): Boolean {
    return !isEmpty()
}

/**
 * Returns `true` if the array is not empty.
 */
@kotlin.internal.InlineOnly
public inline fun IntArray.isNotEmpty(): Boolean {
    return !isEmpty()
}

/**
 * Returns `true` if the array is not empty.
 */
@kotlin.internal.InlineOnly
public inline fun LongArray.isNotEmpty(): Boolean {
    return !isEmpty()
}

/**
 * Returns `true` if the array is not empty.
 */
@kotlin.internal.InlineOnly
public inline fun FloatArray.isNotEmpty(): Boolean {
    return !isEmpty()
}

/**
 * Returns `true` if the array is not empty.
 */
@kotlin.internal.InlineOnly
public inline fun DoubleArray.isNotEmpty(): Boolean {
    return !isEmpty()
}

/**
 * Returns `true` if the array is not empty.
 */
@kotlin.internal.InlineOnly
public inline fun BooleanArray.isNotEmpty(): Boolean {
    return !isEmpty()
}

/**
 * Returns `true` if the array is not empty.
 */
@kotlin.internal.InlineOnly
public inline fun CharArray.isNotEmpty(): Boolean {
    return !isEmpty()
}

/**
 * Returns the last valid index for the array.
 */
public val  Array.lastIndex: Int
    get() = size - 1

/**
 * Returns the last valid index for the array.
 */
public val ByteArray.lastIndex: Int
    get() = size - 1

/**
 * Returns the last valid index for the array.
 */
public val ShortArray.lastIndex: Int
    get() = size - 1

/**
 * Returns the last valid index for the array.
 */
public val IntArray.lastIndex: Int
    get() = size - 1

/**
 * Returns the last valid index for the array.
 */
public val LongArray.lastIndex: Int
    get() = size - 1

/**
 * Returns the last valid index for the array.
 */
public val FloatArray.lastIndex: Int
    get() = size - 1

/**
 * Returns the last valid index for the array.
 */
public val DoubleArray.lastIndex: Int
    get() = size - 1

/**
 * Returns the last valid index for the array.
 */
public val BooleanArray.lastIndex: Int
    get() = size - 1

/**
 * Returns the last valid index for the array.
 */
public val CharArray.lastIndex: Int
    get() = size - 1

/**
 * Returns an array of Boolean containing all of the elements of this generic array.
 */
public fun Array.toBooleanArray(): BooleanArray {
    val result = BooleanArray(size)
    for (index in indices)
        result[index] = this[index]
    return result
}

/**
 * Returns an array of Byte containing all of the elements of this generic array.
 */
public fun Array.toByteArray(): ByteArray {
    val result = ByteArray(size)
    for (index in indices)
        result[index] = this[index]
    return result
}

/**
 * Returns an array of Char containing all of the elements of this generic array.
 */
public fun Array.toCharArray(): CharArray {
    val result = CharArray(size)
    for (index in indices)
        result[index] = this[index]
    return result
}

/**
 * Returns an array of Double containing all of the elements of this generic array.
 */
public fun Array.toDoubleArray(): DoubleArray {
    val result = DoubleArray(size)
    for (index in indices)
        result[index] = this[index]
    return result
}

/**
 * Returns an array of Float containing all of the elements of this generic array.
 */
public fun Array.toFloatArray(): FloatArray {
    val result = FloatArray(size)
    for (index in indices)
        result[index] = this[index]
    return result
}

/**
 * Returns an array of Int containing all of the elements of this generic array.
 */
public fun Array.toIntArray(): IntArray {
    val result = IntArray(size)
    for (index in indices)
        result[index] = this[index]
    return result
}

/**
 * Returns an array of Long containing all of the elements of this generic array.
 */
public fun Array.toLongArray(): LongArray {
    val result = LongArray(size)
    for (index in indices)
        result[index] = this[index]
    return result
}

/**
 * Returns an array of Short containing all of the elements of this generic array.
 */
public fun Array.toShortArray(): ShortArray {
    val result = ShortArray(size)
    for (index in indices)
        result[index] = this[index]
    return result
}

/**
 * Returns a [Map] containing key-value pairs provided by [transform] function
 * applied to elements of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  Array.associate(transform: (T) -> Pair): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateTo(LinkedHashMap(capacity), transform)
}

/**
 * Returns a [Map] containing key-value pairs provided by [transform] function
 * applied to elements of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  ByteArray.associate(transform: (Byte) -> Pair): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateTo(LinkedHashMap(capacity), transform)
}

/**
 * Returns a [Map] containing key-value pairs provided by [transform] function
 * applied to elements of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  ShortArray.associate(transform: (Short) -> Pair): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateTo(LinkedHashMap(capacity), transform)
}

/**
 * Returns a [Map] containing key-value pairs provided by [transform] function
 * applied to elements of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  IntArray.associate(transform: (Int) -> Pair): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateTo(LinkedHashMap(capacity), transform)
}

/**
 * Returns a [Map] containing key-value pairs provided by [transform] function
 * applied to elements of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  LongArray.associate(transform: (Long) -> Pair): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateTo(LinkedHashMap(capacity), transform)
}

/**
 * Returns a [Map] containing key-value pairs provided by [transform] function
 * applied to elements of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  FloatArray.associate(transform: (Float) -> Pair): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateTo(LinkedHashMap(capacity), transform)
}

/**
 * Returns a [Map] containing key-value pairs provided by [transform] function
 * applied to elements of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  DoubleArray.associate(transform: (Double) -> Pair): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateTo(LinkedHashMap(capacity), transform)
}

/**
 * Returns a [Map] containing key-value pairs provided by [transform] function
 * applied to elements of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  BooleanArray.associate(transform: (Boolean) -> Pair): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateTo(LinkedHashMap(capacity), transform)
}

/**
 * Returns a [Map] containing key-value pairs provided by [transform] function
 * applied to elements of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  CharArray.associate(transform: (Char) -> Pair): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateTo(LinkedHashMap(capacity), transform)
}

/**
 * Returns a [Map] containing the elements from the given array indexed by the key
 * returned from [keySelector] function applied to each element.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  Array.associateBy(keySelector: (T) -> K): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector)
}

/**
 * Returns a [Map] containing the elements from the given array indexed by the key
 * returned from [keySelector] function applied to each element.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  ByteArray.associateBy(keySelector: (Byte) -> K): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector)
}

/**
 * Returns a [Map] containing the elements from the given array indexed by the key
 * returned from [keySelector] function applied to each element.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  ShortArray.associateBy(keySelector: (Short) -> K): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector)
}

/**
 * Returns a [Map] containing the elements from the given array indexed by the key
 * returned from [keySelector] function applied to each element.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  IntArray.associateBy(keySelector: (Int) -> K): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector)
}

/**
 * Returns a [Map] containing the elements from the given array indexed by the key
 * returned from [keySelector] function applied to each element.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  LongArray.associateBy(keySelector: (Long) -> K): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector)
}

/**
 * Returns a [Map] containing the elements from the given array indexed by the key
 * returned from [keySelector] function applied to each element.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  FloatArray.associateBy(keySelector: (Float) -> K): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector)
}

/**
 * Returns a [Map] containing the elements from the given array indexed by the key
 * returned from [keySelector] function applied to each element.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  DoubleArray.associateBy(keySelector: (Double) -> K): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector)
}

/**
 * Returns a [Map] containing the elements from the given array indexed by the key
 * returned from [keySelector] function applied to each element.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  BooleanArray.associateBy(keySelector: (Boolean) -> K): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector)
}

/**
 * Returns a [Map] containing the elements from the given array indexed by the key
 * returned from [keySelector] function applied to each element.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  CharArray.associateBy(keySelector: (Char) -> K): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector)
}

/**
 * Returns a [Map] containing the values provided by [valueTransform] and indexed by [keySelector] functions applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  Array.associateBy(keySelector: (T) -> K, valueTransform: (T) -> V): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector, valueTransform)
}

/**
 * Returns a [Map] containing the values provided by [valueTransform] and indexed by [keySelector] functions applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  ByteArray.associateBy(keySelector: (Byte) -> K, valueTransform: (Byte) -> V): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector, valueTransform)
}

/**
 * Returns a [Map] containing the values provided by [valueTransform] and indexed by [keySelector] functions applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  ShortArray.associateBy(keySelector: (Short) -> K, valueTransform: (Short) -> V): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector, valueTransform)
}

/**
 * Returns a [Map] containing the values provided by [valueTransform] and indexed by [keySelector] functions applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  IntArray.associateBy(keySelector: (Int) -> K, valueTransform: (Int) -> V): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector, valueTransform)
}

/**
 * Returns a [Map] containing the values provided by [valueTransform] and indexed by [keySelector] functions applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  LongArray.associateBy(keySelector: (Long) -> K, valueTransform: (Long) -> V): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector, valueTransform)
}

/**
 * Returns a [Map] containing the values provided by [valueTransform] and indexed by [keySelector] functions applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  FloatArray.associateBy(keySelector: (Float) -> K, valueTransform: (Float) -> V): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector, valueTransform)
}

/**
 * Returns a [Map] containing the values provided by [valueTransform] and indexed by [keySelector] functions applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  DoubleArray.associateBy(keySelector: (Double) -> K, valueTransform: (Double) -> V): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector, valueTransform)
}

/**
 * Returns a [Map] containing the values provided by [valueTransform] and indexed by [keySelector] functions applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  BooleanArray.associateBy(keySelector: (Boolean) -> K, valueTransform: (Boolean) -> V): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector, valueTransform)
}

/**
 * Returns a [Map] containing the values provided by [valueTransform] and indexed by [keySelector] functions applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 * 
 * The returned map preserves the entry iteration order of the original array.
 */
public inline fun  CharArray.associateBy(keySelector: (Char) -> K, valueTransform: (Char) -> V): Map {
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val capacity = mapCapacity(size).coerceAtLeast(16)
    return associateByTo(LinkedHashMap(capacity), keySelector, valueTransform)
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function applied to each element of the given array
 * and value is the element itself.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > Array.associateByTo(destination: M, keySelector: (T) -> K): M {
    for (element in this) {
        destination.put(keySelector(element), element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function applied to each element of the given array
 * and value is the element itself.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > ByteArray.associateByTo(destination: M, keySelector: (Byte) -> K): M {
    for (element in this) {
        destination.put(keySelector(element), element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function applied to each element of the given array
 * and value is the element itself.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > ShortArray.associateByTo(destination: M, keySelector: (Short) -> K): M {
    for (element in this) {
        destination.put(keySelector(element), element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function applied to each element of the given array
 * and value is the element itself.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > IntArray.associateByTo(destination: M, keySelector: (Int) -> K): M {
    for (element in this) {
        destination.put(keySelector(element), element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function applied to each element of the given array
 * and value is the element itself.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > LongArray.associateByTo(destination: M, keySelector: (Long) -> K): M {
    for (element in this) {
        destination.put(keySelector(element), element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function applied to each element of the given array
 * and value is the element itself.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > FloatArray.associateByTo(destination: M, keySelector: (Float) -> K): M {
    for (element in this) {
        destination.put(keySelector(element), element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function applied to each element of the given array
 * and value is the element itself.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > DoubleArray.associateByTo(destination: M, keySelector: (Double) -> K): M {
    for (element in this) {
        destination.put(keySelector(element), element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function applied to each element of the given array
 * and value is the element itself.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > BooleanArray.associateByTo(destination: M, keySelector: (Boolean) -> K): M {
    for (element in this) {
        destination.put(keySelector(element), element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function applied to each element of the given array
 * and value is the element itself.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > CharArray.associateByTo(destination: M, keySelector: (Char) -> K): M {
    for (element in this) {
        destination.put(keySelector(element), element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function and
 * and value is provided by the [valueTransform] function applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > Array.associateByTo(destination: M, keySelector: (T) -> K, valueTransform: (T) -> V): M {
    for (element in this) {
        destination.put(keySelector(element), valueTransform(element))
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function and
 * and value is provided by the [valueTransform] function applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > ByteArray.associateByTo(destination: M, keySelector: (Byte) -> K, valueTransform: (Byte) -> V): M {
    for (element in this) {
        destination.put(keySelector(element), valueTransform(element))
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function and
 * and value is provided by the [valueTransform] function applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > ShortArray.associateByTo(destination: M, keySelector: (Short) -> K, valueTransform: (Short) -> V): M {
    for (element in this) {
        destination.put(keySelector(element), valueTransform(element))
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function and
 * and value is provided by the [valueTransform] function applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > IntArray.associateByTo(destination: M, keySelector: (Int) -> K, valueTransform: (Int) -> V): M {
    for (element in this) {
        destination.put(keySelector(element), valueTransform(element))
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function and
 * and value is provided by the [valueTransform] function applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > LongArray.associateByTo(destination: M, keySelector: (Long) -> K, valueTransform: (Long) -> V): M {
    for (element in this) {
        destination.put(keySelector(element), valueTransform(element))
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function and
 * and value is provided by the [valueTransform] function applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > FloatArray.associateByTo(destination: M, keySelector: (Float) -> K, valueTransform: (Float) -> V): M {
    for (element in this) {
        destination.put(keySelector(element), valueTransform(element))
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function and
 * and value is provided by the [valueTransform] function applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > DoubleArray.associateByTo(destination: M, keySelector: (Double) -> K, valueTransform: (Double) -> V): M {
    for (element in this) {
        destination.put(keySelector(element), valueTransform(element))
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function and
 * and value is provided by the [valueTransform] function applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > BooleanArray.associateByTo(destination: M, keySelector: (Boolean) -> K, valueTransform: (Boolean) -> V): M {
    for (element in this) {
        destination.put(keySelector(element), valueTransform(element))
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs,
 * where key is provided by the [keySelector] function and
 * and value is provided by the [valueTransform] function applied to elements of the given array.
 * 
 * If any two elements would have the same key returned by [keySelector] the last one gets added to the map.
 */
public inline fun > CharArray.associateByTo(destination: M, keySelector: (Char) -> K, valueTransform: (Char) -> V): M {
    for (element in this) {
        destination.put(keySelector(element), valueTransform(element))
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs
 * provided by [transform] function applied to each element of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 */
public inline fun > Array.associateTo(destination: M, transform: (T) -> Pair): M {
    for (element in this) {
        destination += transform(element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs
 * provided by [transform] function applied to each element of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 */
public inline fun > ByteArray.associateTo(destination: M, transform: (Byte) -> Pair): M {
    for (element in this) {
        destination += transform(element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs
 * provided by [transform] function applied to each element of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 */
public inline fun > ShortArray.associateTo(destination: M, transform: (Short) -> Pair): M {
    for (element in this) {
        destination += transform(element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs
 * provided by [transform] function applied to each element of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 */
public inline fun > IntArray.associateTo(destination: M, transform: (Int) -> Pair): M {
    for (element in this) {
        destination += transform(element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs
 * provided by [transform] function applied to each element of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 */
public inline fun > LongArray.associateTo(destination: M, transform: (Long) -> Pair): M {
    for (element in this) {
        destination += transform(element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs
 * provided by [transform] function applied to each element of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 */
public inline fun > FloatArray.associateTo(destination: M, transform: (Float) -> Pair): M {
    for (element in this) {
        destination += transform(element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs
 * provided by [transform] function applied to each element of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 */
public inline fun > DoubleArray.associateTo(destination: M, transform: (Double) -> Pair): M {
    for (element in this) {
        destination += transform(element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs
 * provided by [transform] function applied to each element of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 */
public inline fun > BooleanArray.associateTo(destination: M, transform: (Boolean) -> Pair): M {
    for (element in this) {
        destination += transform(element)
    }
    return destination
}

/**
 * Populates and returns the [destination] mutable map with key-value pairs
 * provided by [transform] function applied to each element of the given array.
 * 
 * If any of two pairs would have the same key the last one gets added to the map.
 */
public inline fun > CharArray.associateTo(destination: M, transform: (Char) -> Pair): M {
    for (element in this) {
        destination += transform(element)
    }
    return destination
}

/**
 * Appends all elements to the given [destination] collection.
 */
public fun > Array.toCollection(destination: C): C {
    for (item in this) {
        destination.add(item)
    }
    return destination
}

/**
 * Appends all elements to the given [destination] collection.
 */
public fun > ByteArray.toCollection(destination: C): C {
    for (item in this) {
        destination.add(item)
    }
    return destination
}

/**
 * Appends all elements to the given [destination] collection.
 */
public fun > ShortArray.toCollection(destination: C): C {
    for (item in this) {
        destination.add(item)
    }
    return destination
}

/**
 * Appends all elements to the given [destination] collection.
 */
public fun > IntArray.toCollection(destination: C): C {
    for (item in this) {
        destination.add(item)
    }
    return destination
}

/**
 * Appends all elements to the given [destination] collection.
 */
public fun > LongArray.toCollection(destination: C): C {
    for (item in this) {
        destination.add(item)
    }
    return destination
}

/**
 * Appends all elements to the given [destination] collection.
 */
public fun > FloatArray.toCollection(destination: C): C {
    for (item in this) {
        destination.add(item)
    }
    return destination
}

/**
 * Appends all elements to the given [destination] collection.
 */
public fun > DoubleArray.toCollection(destination: C): C {
    for (item in this) {
        destination.add(item)
    }
    return destination
}

/**
 * Appends all elements to the given [destination] collection.
 */
public fun > BooleanArray.toCollection(destination: C): C {
    for (item in this) {
        destination.add(item)
    }
    return destination
}

/**
 * Appends all elements to the given [destination] collection.
 */
public fun > CharArray.toCollection(destination: C): C {
    for (item in this) {
        destination.add(item)
    }
    return destination
}

/**
 * Returns a [HashSet] of all elements.
 */
public fun  Array.toHashSet(): HashSet {
    return toCollection(HashSet(mapCapacity(size)))
}

/**
 * Returns a [HashSet] of all elements.
 */
public fun ByteArray.toHashSet(): HashSet {
    return toCollection(HashSet(mapCapacity(size)))
}

/**
 * Returns a [HashSet] of all elements.
 */
public fun ShortArray.toHashSet(): HashSet {
    return toCollection(HashSet(mapCapacity(size)))
}

/**
 * Returns a [HashSet] of all elements.
 */
public fun IntArray.toHashSet(): HashSet {
    return toCollection(HashSet(mapCapacity(size)))
}

/**
 * Returns a [HashSet] of all elements.
 */
public fun LongArray.toHashSet(): HashSet {
    return toCollection(HashSet(mapCapacity(size)))
}

/**
 * Returns a [HashSet] of all elements.
 */
public fun FloatArray.toHashSet(): HashSet {
    return toCollection(HashSet(mapCapacity(size)))
}

/**
 * Returns a [HashSet] of all elements.
 */
public fun DoubleArray.toHashSet(): HashSet {
    return toCollection(HashSet(mapCapacity(size)))
}

/**
 * Returns a [HashSet] of all elements.
 */
public fun BooleanArray.toHashSet(): HashSet {
    return toCollection(HashSet(mapCapacity(size)))
}

/**
 * Returns a [HashSet] of all elements.
 */
public fun CharArray.toHashSet(): HashSet {
    return toCollection(HashSet(mapCapacity(size)))
}

/**
 * Returns a [List] containing all elements.
 */
public fun  Array.toList(): List {
    return when (size) {
        0 -> emptyList()
        1 -> listOf(this[0])
        else -> this.toMutableList()
    }
}

/**
 * Returns a [List] containing all elements.
 */
public fun ByteArray.toList(): List {
    return when (size) {
        0 -> emptyList()
        1 -> listOf(this[0])
        else -> this.toMutableList()
    }
}

/**
 * Returns a [List] containing all elements.
 */
public fun ShortArray.toList(): List {
    return when (size) {
        0 -> emptyList()
        1 -> listOf(this[0])
        else -> this.toMutableList()
    }
}

/**
 * Returns a [List] containing all elements.
 */
public fun IntArray.toList(): List {
    return when (size) {
        0 -> emptyList()
        1 -> listOf(this[0])
        else -> this.toMutableList()
    }
}

/**
 * Returns a [List] containing all elements.
 */
public fun LongArray.toList(): List {
    return when (size) {
        0 -> emptyList()
        1 -> listOf(this[0])
        else -> this.toMutableList()
    }
}

/**
 * Returns a [List] containing all elements.
 */
public fun FloatArray.toList(): List {
    return when (size) {
        0 -> emptyList()
        1 -> listOf(this[0])
        else -> this.toMutableList()
    }
}

/**
 * Returns a [List] containing all elements.
 */
public fun DoubleArray.toList(): List {
    return when (size) {
        0 -> emptyList()
        1 -> listOf(this[0])
        else -> this.toMutableList()
    }
}

/**
 * Returns a [List] containing all elements.
 */
public fun BooleanArray.toList(): List {
    return when (size) {
        0 -> emptyList()
        1 -> listOf(this[0])
        else -> this.toMutableList()
    }
}

/**
 * Returns a [List] containing all elements.
 */
public fun CharArray.toList(): List {
    return when (size) {
        0 -> emptyList()
        1 -> listOf(this[0])
        else -> this.toMutableList()
    }
}

/**
 * Returns a [MutableList] filled with all elements of this array.
 */
public fun  Array.toMutableList(): MutableList {
    return ArrayList(this.asCollection())
}

/**
 * Returns a [MutableList] filled with all elements of this array.
 */
public fun ByteArray.toMutableList(): MutableList {
    val list = ArrayList(size)
    for (item in this) list.add(item)
    return list
}

/**
 * Returns a [MutableList] filled with all elements of this array.
 */
public fun ShortArray.toMutableList(): MutableList {
    val list = ArrayList(size)
    for (item in this) list.add(item)
    return list
}

/**
 * Returns a [MutableList] filled with all elements of this array.
 */
public fun IntArray.toMutableList(): MutableList {
    val list = ArrayList(size)
    for (item in this) list.add(item)
    return list
}

/**
 * Returns a [MutableList] filled with all elements of this array.
 */
public fun LongArray.toMutableList(): MutableList {
    val list = ArrayList(size)
    for (item in this) list.add(item)
    return list
}

/**
 * Returns a [MutableList] filled with all elements of this array.
 */
public fun FloatArray.toMutableList(): MutableList {
    val list = ArrayList(size)
    for (item in this) list.add(item)
    return list
}

/**
 * Returns a [MutableList] filled with all elements of this array.
 */
public fun DoubleArray.toMutableList(): MutableList {
    val list = ArrayList(size)
    for (item in this) list.add(item)
    return list
}

/**
 * Returns a [MutableList] filled with all elements of this array.
 */
public fun BooleanArray.toMutableList(): MutableList {
    val list = ArrayList(size)
    for (item in this) list.add(item)
    return list
}

/**
 * Returns a [MutableList] filled with all elements of this array.
 */
public fun CharArray.toMutableList(): MutableList {
    val list = ArrayList(size)
    for (item in this) list.add(item)
    return list
}

/**
 * Returns a [Set] of all elements.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun  Array.toSet(): Set {
    return when (size) {
        0 -> emptySet()
        1 -> setOf(this[0])
        else -> toCollection(LinkedHashSet(mapCapacity(size)))
    }
}

/**
 * Returns a [Set] of all elements.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun ByteArray.toSet(): Set {
    return when (size) {
        0 -> emptySet()
        1 -> setOf(this[0])
        else -> toCollection(LinkedHashSet(mapCapacity(size)))
    }
}

/**
 * Returns a [Set] of all elements.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun ShortArray.toSet(): Set {
    return when (size) {
        0 -> emptySet()
        1 -> setOf(this[0])
        else -> toCollection(LinkedHashSet(mapCapacity(size)))
    }
}

/**
 * Returns a [Set] of all elements.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun IntArray.toSet(): Set {
    return when (size) {
        0 -> emptySet()
        1 -> setOf(this[0])
        else -> toCollection(LinkedHashSet(mapCapacity(size)))
    }
}

/**
 * Returns a [Set] of all elements.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun LongArray.toSet(): Set {
    return when (size) {
        0 -> emptySet()
        1 -> setOf(this[0])
        else -> toCollection(LinkedHashSet(mapCapacity(size)))
    }
}

/**
 * Returns a [Set] of all elements.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun FloatArray.toSet(): Set {
    return when (size) {
        0 -> emptySet()
        1 -> setOf(this[0])
        else -> toCollection(LinkedHashSet(mapCapacity(size)))
    }
}

/**
 * Returns a [Set] of all elements.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun DoubleArray.toSet(): Set {
    return when (size) {
        0 -> emptySet()
        1 -> setOf(this[0])
        else -> toCollection(LinkedHashSet(mapCapacity(size)))
    }
}

/**
 * Returns a [Set] of all elements.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun BooleanArray.toSet(): Set {
    return when (size) {
        0 -> emptySet()
        1 -> setOf(this[0])
        else -> toCollection(LinkedHashSet(mapCapacity(size)))
    }
}

/**
 * Returns a [Set] of all elements.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun CharArray.toSet(): Set {
    return when (size) {
        0 -> emptySet()
        1 -> setOf(this[0])
        else -> toCollection(LinkedHashSet(mapCapacity(size)))
    }
}

/**
 * Returns a [SortedSet] of all elements.
 */
@kotlin.jvm.JvmVersion
public fun > Array.toSortedSet(): SortedSet {
    return toCollection(TreeSet())
}

/**
 * Returns a [SortedSet] of all elements.
 */
@kotlin.jvm.JvmVersion
public fun ByteArray.toSortedSet(): SortedSet {
    return toCollection(TreeSet())
}

/**
 * Returns a [SortedSet] of all elements.
 */
@kotlin.jvm.JvmVersion
public fun ShortArray.toSortedSet(): SortedSet {
    return toCollection(TreeSet())
}

/**
 * Returns a [SortedSet] of all elements.
 */
@kotlin.jvm.JvmVersion
public fun IntArray.toSortedSet(): SortedSet {
    return toCollection(TreeSet())
}

/**
 * Returns a [SortedSet] of all elements.
 */
@kotlin.jvm.JvmVersion
public fun LongArray.toSortedSet(): SortedSet {
    return toCollection(TreeSet())
}

/**
 * Returns a [SortedSet] of all elements.
 */
@kotlin.jvm.JvmVersion
public fun FloatArray.toSortedSet(): SortedSet {
    return toCollection(TreeSet())
}

/**
 * Returns a [SortedSet] of all elements.
 */
@kotlin.jvm.JvmVersion
public fun DoubleArray.toSortedSet(): SortedSet {
    return toCollection(TreeSet())
}

/**
 * Returns a [SortedSet] of all elements.
 */
@kotlin.jvm.JvmVersion
public fun BooleanArray.toSortedSet(): SortedSet {
    return toCollection(TreeSet())
}

/**
 * Returns a [SortedSet] of all elements.
 */
@kotlin.jvm.JvmVersion
public fun CharArray.toSortedSet(): SortedSet {
    return toCollection(TreeSet())
}

/**
 * Returns a [SortedSet] of all elements.
 * 
 * Elements in the set returned are sorted according to the given [comparator].
 */
@kotlin.jvm.JvmVersion
public fun  Array.toSortedSet(comparator: Comparator): SortedSet {
    return toCollection(TreeSet(comparator))
}

/**
 * Returns a single list of all elements yielded from results of [transform] function being invoked on each element of original array.
 */
public inline fun  Array.flatMap(transform: (T) -> Iterable): List {
    return flatMapTo(ArrayList(), transform)
}

/**
 * Returns a single list of all elements yielded from results of [transform] function being invoked on each element of original array.
 */
public inline fun  ByteArray.flatMap(transform: (Byte) -> Iterable): List {
    return flatMapTo(ArrayList(), transform)
}

/**
 * Returns a single list of all elements yielded from results of [transform] function being invoked on each element of original array.
 */
public inline fun  ShortArray.flatMap(transform: (Short) -> Iterable): List {
    return flatMapTo(ArrayList(), transform)
}

/**
 * Returns a single list of all elements yielded from results of [transform] function being invoked on each element of original array.
 */
public inline fun  IntArray.flatMap(transform: (Int) -> Iterable): List {
    return flatMapTo(ArrayList(), transform)
}

/**
 * Returns a single list of all elements yielded from results of [transform] function being invoked on each element of original array.
 */
public inline fun  LongArray.flatMap(transform: (Long) -> Iterable): List {
    return flatMapTo(ArrayList(), transform)
}

/**
 * Returns a single list of all elements yielded from results of [transform] function being invoked on each element of original array.
 */
public inline fun  FloatArray.flatMap(transform: (Float) -> Iterable): List {
    return flatMapTo(ArrayList(), transform)
}

/**
 * Returns a single list of all elements yielded from results of [transform] function being invoked on each element of original array.
 */
public inline fun  DoubleArray.flatMap(transform: (Double) -> Iterable): List {
    return flatMapTo(ArrayList(), transform)
}

/**
 * Returns a single list of all elements yielded from results of [transform] function being invoked on each element of original array.
 */
public inline fun  BooleanArray.flatMap(transform: (Boolean) -> Iterable): List {
    return flatMapTo(ArrayList(), transform)
}

/**
 * Returns a single list of all elements yielded from results of [transform] function being invoked on each element of original array.
 */
public inline fun  CharArray.flatMap(transform: (Char) -> Iterable): List {
    return flatMapTo(ArrayList(), transform)
}

/**
 * Appends all elements yielded from results of [transform] function being invoked on each element of original array, to the given [destination].
 */
public inline fun > Array.flatMapTo(destination: C, transform: (T) -> Iterable): C {
    for (element in this) {
        val list = transform(element)
        destination.addAll(list)
    }
    return destination
}

/**
 * Appends all elements yielded from results of [transform] function being invoked on each element of original array, to the given [destination].
 */
public inline fun > ByteArray.flatMapTo(destination: C, transform: (Byte) -> Iterable): C {
    for (element in this) {
        val list = transform(element)
        destination.addAll(list)
    }
    return destination
}

/**
 * Appends all elements yielded from results of [transform] function being invoked on each element of original array, to the given [destination].
 */
public inline fun > ShortArray.flatMapTo(destination: C, transform: (Short) -> Iterable): C {
    for (element in this) {
        val list = transform(element)
        destination.addAll(list)
    }
    return destination
}

/**
 * Appends all elements yielded from results of [transform] function being invoked on each element of original array, to the given [destination].
 */
public inline fun > IntArray.flatMapTo(destination: C, transform: (Int) -> Iterable): C {
    for (element in this) {
        val list = transform(element)
        destination.addAll(list)
    }
    return destination
}

/**
 * Appends all elements yielded from results of [transform] function being invoked on each element of original array, to the given [destination].
 */
public inline fun > LongArray.flatMapTo(destination: C, transform: (Long) -> Iterable): C {
    for (element in this) {
        val list = transform(element)
        destination.addAll(list)
    }
    return destination
}

/**
 * Appends all elements yielded from results of [transform] function being invoked on each element of original array, to the given [destination].
 */
public inline fun > FloatArray.flatMapTo(destination: C, transform: (Float) -> Iterable): C {
    for (element in this) {
        val list = transform(element)
        destination.addAll(list)
    }
    return destination
}

/**
 * Appends all elements yielded from results of [transform] function being invoked on each element of original array, to the given [destination].
 */
public inline fun > DoubleArray.flatMapTo(destination: C, transform: (Double) -> Iterable): C {
    for (element in this) {
        val list = transform(element)
        destination.addAll(list)
    }
    return destination
}

/**
 * Appends all elements yielded from results of [transform] function being invoked on each element of original array, to the given [destination].
 */
public inline fun > BooleanArray.flatMapTo(destination: C, transform: (Boolean) -> Iterable): C {
    for (element in this) {
        val list = transform(element)
        destination.addAll(list)
    }
    return destination
}

/**
 * Appends all elements yielded from results of [transform] function being invoked on each element of original array, to the given [destination].
 */
public inline fun > CharArray.flatMapTo(destination: C, transform: (Char) -> Iterable): C {
    for (element in this) {
        val list = transform(element)
        destination.addAll(list)
    }
    return destination
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and returns a map where each group key is associated with a list of corresponding elements.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun  Array.groupBy(keySelector: (T) -> K): Map> {
    return groupByTo(LinkedHashMap>(), keySelector)
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and returns a map where each group key is associated with a list of corresponding elements.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun  ByteArray.groupBy(keySelector: (Byte) -> K): Map> {
    return groupByTo(LinkedHashMap>(), keySelector)
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and returns a map where each group key is associated with a list of corresponding elements.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun  ShortArray.groupBy(keySelector: (Short) -> K): Map> {
    return groupByTo(LinkedHashMap>(), keySelector)
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and returns a map where each group key is associated with a list of corresponding elements.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun  IntArray.groupBy(keySelector: (Int) -> K): Map> {
    return groupByTo(LinkedHashMap>(), keySelector)
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and returns a map where each group key is associated with a list of corresponding elements.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun  LongArray.groupBy(keySelector: (Long) -> K): Map> {
    return groupByTo(LinkedHashMap>(), keySelector)
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and returns a map where each group key is associated with a list of corresponding elements.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun  FloatArray.groupBy(keySelector: (Float) -> K): Map> {
    return groupByTo(LinkedHashMap>(), keySelector)
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and returns a map where each group key is associated with a list of corresponding elements.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun  DoubleArray.groupBy(keySelector: (Double) -> K): Map> {
    return groupByTo(LinkedHashMap>(), keySelector)
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and returns a map where each group key is associated with a list of corresponding elements.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun  BooleanArray.groupBy(keySelector: (Boolean) -> K): Map> {
    return groupByTo(LinkedHashMap>(), keySelector)
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and returns a map where each group key is associated with a list of corresponding elements.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun  CharArray.groupBy(keySelector: (Char) -> K): Map> {
    return groupByTo(LinkedHashMap>(), keySelector)
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and returns a map where each group key is associated with a list of corresponding values.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun  Array.groupBy(keySelector: (T) -> K, valueTransform: (T) -> V): Map> {
    return groupByTo(LinkedHashMap>(), keySelector, valueTransform)
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and returns a map where each group key is associated with a list of corresponding values.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun  ByteArray.groupBy(keySelector: (Byte) -> K, valueTransform: (Byte) -> V): Map> {
    return groupByTo(LinkedHashMap>(), keySelector, valueTransform)
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and returns a map where each group key is associated with a list of corresponding values.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun  ShortArray.groupBy(keySelector: (Short) -> K, valueTransform: (Short) -> V): Map> {
    return groupByTo(LinkedHashMap>(), keySelector, valueTransform)
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and returns a map where each group key is associated with a list of corresponding values.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun  IntArray.groupBy(keySelector: (Int) -> K, valueTransform: (Int) -> V): Map> {
    return groupByTo(LinkedHashMap>(), keySelector, valueTransform)
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and returns a map where each group key is associated with a list of corresponding values.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun  LongArray.groupBy(keySelector: (Long) -> K, valueTransform: (Long) -> V): Map> {
    return groupByTo(LinkedHashMap>(), keySelector, valueTransform)
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and returns a map where each group key is associated with a list of corresponding values.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun  FloatArray.groupBy(keySelector: (Float) -> K, valueTransform: (Float) -> V): Map> {
    return groupByTo(LinkedHashMap>(), keySelector, valueTransform)
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and returns a map where each group key is associated with a list of corresponding values.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun  DoubleArray.groupBy(keySelector: (Double) -> K, valueTransform: (Double) -> V): Map> {
    return groupByTo(LinkedHashMap>(), keySelector, valueTransform)
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and returns a map where each group key is associated with a list of corresponding values.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun  BooleanArray.groupBy(keySelector: (Boolean) -> K, valueTransform: (Boolean) -> V): Map> {
    return groupByTo(LinkedHashMap>(), keySelector, valueTransform)
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and returns a map where each group key is associated with a list of corresponding values.
 * 
 * The returned map preserves the entry iteration order of the keys produced from the original array.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun  CharArray.groupBy(keySelector: (Char) -> K, valueTransform: (Char) -> V): Map> {
    return groupByTo(LinkedHashMap>(), keySelector, valueTransform)
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and puts to the [destination] map each group key associated with a list of corresponding elements.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun >> Array.groupByTo(destination: M, keySelector: (T) -> K): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(element)
    }
    return destination
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and puts to the [destination] map each group key associated with a list of corresponding elements.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun >> ByteArray.groupByTo(destination: M, keySelector: (Byte) -> K): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(element)
    }
    return destination
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and puts to the [destination] map each group key associated with a list of corresponding elements.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun >> ShortArray.groupByTo(destination: M, keySelector: (Short) -> K): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(element)
    }
    return destination
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and puts to the [destination] map each group key associated with a list of corresponding elements.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun >> IntArray.groupByTo(destination: M, keySelector: (Int) -> K): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(element)
    }
    return destination
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and puts to the [destination] map each group key associated with a list of corresponding elements.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun >> LongArray.groupByTo(destination: M, keySelector: (Long) -> K): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(element)
    }
    return destination
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and puts to the [destination] map each group key associated with a list of corresponding elements.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun >> FloatArray.groupByTo(destination: M, keySelector: (Float) -> K): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(element)
    }
    return destination
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and puts to the [destination] map each group key associated with a list of corresponding elements.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun >> DoubleArray.groupByTo(destination: M, keySelector: (Double) -> K): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(element)
    }
    return destination
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and puts to the [destination] map each group key associated with a list of corresponding elements.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun >> BooleanArray.groupByTo(destination: M, keySelector: (Boolean) -> K): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(element)
    }
    return destination
}

/**
 * Groups elements of the original array by the key returned by the given [keySelector] function
 * applied to each element and puts to the [destination] map each group key associated with a list of corresponding elements.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupBy
 */
public inline fun >> CharArray.groupByTo(destination: M, keySelector: (Char) -> K): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(element)
    }
    return destination
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and puts to the [destination] map each group key associated with a list of corresponding values.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun >> Array.groupByTo(destination: M, keySelector: (T) -> K, valueTransform: (T) -> V): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(valueTransform(element))
    }
    return destination
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and puts to the [destination] map each group key associated with a list of corresponding values.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun >> ByteArray.groupByTo(destination: M, keySelector: (Byte) -> K, valueTransform: (Byte) -> V): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(valueTransform(element))
    }
    return destination
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and puts to the [destination] map each group key associated with a list of corresponding values.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun >> ShortArray.groupByTo(destination: M, keySelector: (Short) -> K, valueTransform: (Short) -> V): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(valueTransform(element))
    }
    return destination
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and puts to the [destination] map each group key associated with a list of corresponding values.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun >> IntArray.groupByTo(destination: M, keySelector: (Int) -> K, valueTransform: (Int) -> V): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(valueTransform(element))
    }
    return destination
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and puts to the [destination] map each group key associated with a list of corresponding values.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun >> LongArray.groupByTo(destination: M, keySelector: (Long) -> K, valueTransform: (Long) -> V): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(valueTransform(element))
    }
    return destination
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and puts to the [destination] map each group key associated with a list of corresponding values.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun >> FloatArray.groupByTo(destination: M, keySelector: (Float) -> K, valueTransform: (Float) -> V): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(valueTransform(element))
    }
    return destination
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and puts to the [destination] map each group key associated with a list of corresponding values.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun >> DoubleArray.groupByTo(destination: M, keySelector: (Double) -> K, valueTransform: (Double) -> V): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(valueTransform(element))
    }
    return destination
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and puts to the [destination] map each group key associated with a list of corresponding values.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun >> BooleanArray.groupByTo(destination: M, keySelector: (Boolean) -> K, valueTransform: (Boolean) -> V): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(valueTransform(element))
    }
    return destination
}

/**
 * Groups values returned by the [valueTransform] function applied to each element of the original array
 * by the key returned by the given [keySelector] function applied to the element
 * and puts to the [destination] map each group key associated with a list of corresponding values.
 * 
 * @return The [destination] map.
 * 
 * @sample test.collections.CollectionTest.groupByKeysAndValues
 */
public inline fun >> CharArray.groupByTo(destination: M, keySelector: (Char) -> K, valueTransform: (Char) -> V): M {
    for (element in this) {
        val key = keySelector(element)
        val list = destination.getOrPut(key) { ArrayList() }
        list.add(valueTransform(element))
    }
    return destination
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element in the original array.
 */
public inline fun  Array.map(transform: (T) -> R): List {
    return mapTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element in the original array.
 */
public inline fun  ByteArray.map(transform: (Byte) -> R): List {
    return mapTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element in the original array.
 */
public inline fun  ShortArray.map(transform: (Short) -> R): List {
    return mapTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element in the original array.
 */
public inline fun  IntArray.map(transform: (Int) -> R): List {
    return mapTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element in the original array.
 */
public inline fun  LongArray.map(transform: (Long) -> R): List {
    return mapTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element in the original array.
 */
public inline fun  FloatArray.map(transform: (Float) -> R): List {
    return mapTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element in the original array.
 */
public inline fun  DoubleArray.map(transform: (Double) -> R): List {
    return mapTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element in the original array.
 */
public inline fun  BooleanArray.map(transform: (Boolean) -> R): List {
    return mapTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element in the original array.
 */
public inline fun  CharArray.map(transform: (Char) -> R): List {
    return mapTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element and its index in the original array.
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun  Array.mapIndexed(transform: (Int, T) -> R): List {
    return mapIndexedTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element and its index in the original array.
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun  ByteArray.mapIndexed(transform: (Int, Byte) -> R): List {
    return mapIndexedTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element and its index in the original array.
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun  ShortArray.mapIndexed(transform: (Int, Short) -> R): List {
    return mapIndexedTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element and its index in the original array.
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun  IntArray.mapIndexed(transform: (Int, Int) -> R): List {
    return mapIndexedTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element and its index in the original array.
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun  LongArray.mapIndexed(transform: (Int, Long) -> R): List {
    return mapIndexedTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element and its index in the original array.
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun  FloatArray.mapIndexed(transform: (Int, Float) -> R): List {
    return mapIndexedTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element and its index in the original array.
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun  DoubleArray.mapIndexed(transform: (Int, Double) -> R): List {
    return mapIndexedTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element and its index in the original array.
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun  BooleanArray.mapIndexed(transform: (Int, Boolean) -> R): List {
    return mapIndexedTo(ArrayList(size), transform)
}

/**
 * Returns a list containing the results of applying the given [transform] function
 * to each element and its index in the original array.
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun  CharArray.mapIndexed(transform: (Int, Char) -> R): List {
    return mapIndexedTo(ArrayList(size), transform)
}

/**
 * Returns a list containing only the non-null results of applying the given [transform] function
 * to each element and its index in the original array.
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun  Array.mapIndexedNotNull(transform: (Int, T) -> R?): List {
    return mapIndexedNotNullTo(ArrayList(), transform)
}

/**
 * Applies the given [transform] function to each element and its index in the original array
 * and appends only the non-null results to the given [destination].
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun > Array.mapIndexedNotNullTo(destination: C, transform: (Int, T) -> R?): C {
    forEachIndexed { index, element -> transform(index, element)?.let { destination.add(it) } }
    return destination
}

/**
 * Applies the given [transform] function to each element and its index in the original array
 * and appends the results to the given [destination].
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun > Array.mapIndexedTo(destination: C, transform: (Int, T) -> R): C {
    var index = 0
    for (item in this)
        destination.add(transform(index++, item))
    return destination
}

/**
 * Applies the given [transform] function to each element and its index in the original array
 * and appends the results to the given [destination].
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun > ByteArray.mapIndexedTo(destination: C, transform: (Int, Byte) -> R): C {
    var index = 0
    for (item in this)
        destination.add(transform(index++, item))
    return destination
}

/**
 * Applies the given [transform] function to each element and its index in the original array
 * and appends the results to the given [destination].
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun > ShortArray.mapIndexedTo(destination: C, transform: (Int, Short) -> R): C {
    var index = 0
    for (item in this)
        destination.add(transform(index++, item))
    return destination
}

/**
 * Applies the given [transform] function to each element and its index in the original array
 * and appends the results to the given [destination].
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun > IntArray.mapIndexedTo(destination: C, transform: (Int, Int) -> R): C {
    var index = 0
    for (item in this)
        destination.add(transform(index++, item))
    return destination
}

/**
 * Applies the given [transform] function to each element and its index in the original array
 * and appends the results to the given [destination].
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun > LongArray.mapIndexedTo(destination: C, transform: (Int, Long) -> R): C {
    var index = 0
    for (item in this)
        destination.add(transform(index++, item))
    return destination
}

/**
 * Applies the given [transform] function to each element and its index in the original array
 * and appends the results to the given [destination].
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun > FloatArray.mapIndexedTo(destination: C, transform: (Int, Float) -> R): C {
    var index = 0
    for (item in this)
        destination.add(transform(index++, item))
    return destination
}

/**
 * Applies the given [transform] function to each element and its index in the original array
 * and appends the results to the given [destination].
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun > DoubleArray.mapIndexedTo(destination: C, transform: (Int, Double) -> R): C {
    var index = 0
    for (item in this)
        destination.add(transform(index++, item))
    return destination
}

/**
 * Applies the given [transform] function to each element and its index in the original array
 * and appends the results to the given [destination].
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun > BooleanArray.mapIndexedTo(destination: C, transform: (Int, Boolean) -> R): C {
    var index = 0
    for (item in this)
        destination.add(transform(index++, item))
    return destination
}

/**
 * Applies the given [transform] function to each element and its index in the original array
 * and appends the results to the given [destination].
 * @param [transform] function that takes the index of an element and the element itself
 * and returns the result of the transform applied to the element.
 */
public inline fun > CharArray.mapIndexedTo(destination: C, transform: (Int, Char) -> R): C {
    var index = 0
    for (item in this)
        destination.add(transform(index++, item))
    return destination
}

/**
 * Returns a list containing only the non-null results of applying the given [transform] function
 * to each element in the original array.
 */
public inline fun  Array.mapNotNull(transform: (T) -> R?): List {
    return mapNotNullTo(ArrayList(), transform)
}

/**
 * Applies the given [transform] function to each element in the original array
 * and appends only the non-null results to the given [destination].
 */
public inline fun > Array.mapNotNullTo(destination: C, transform: (T) -> R?): C {
    forEach { element -> transform(element)?.let { destination.add(it) } }
    return destination
}

/**
 * Applies the given [transform] function to each element of the original array
 * and appends the results to the given [destination].
 */
public inline fun > Array.mapTo(destination: C, transform: (T) -> R): C {
    for (item in this)
        destination.add(transform(item))
    return destination
}

/**
 * Applies the given [transform] function to each element of the original array
 * and appends the results to the given [destination].
 */
public inline fun > ByteArray.mapTo(destination: C, transform: (Byte) -> R): C {
    for (item in this)
        destination.add(transform(item))
    return destination
}

/**
 * Applies the given [transform] function to each element of the original array
 * and appends the results to the given [destination].
 */
public inline fun > ShortArray.mapTo(destination: C, transform: (Short) -> R): C {
    for (item in this)
        destination.add(transform(item))
    return destination
}

/**
 * Applies the given [transform] function to each element of the original array
 * and appends the results to the given [destination].
 */
public inline fun > IntArray.mapTo(destination: C, transform: (Int) -> R): C {
    for (item in this)
        destination.add(transform(item))
    return destination
}

/**
 * Applies the given [transform] function to each element of the original array
 * and appends the results to the given [destination].
 */
public inline fun > LongArray.mapTo(destination: C, transform: (Long) -> R): C {
    for (item in this)
        destination.add(transform(item))
    return destination
}

/**
 * Applies the given [transform] function to each element of the original array
 * and appends the results to the given [destination].
 */
public inline fun > FloatArray.mapTo(destination: C, transform: (Float) -> R): C {
    for (item in this)
        destination.add(transform(item))
    return destination
}

/**
 * Applies the given [transform] function to each element of the original array
 * and appends the results to the given [destination].
 */
public inline fun > DoubleArray.mapTo(destination: C, transform: (Double) -> R): C {
    for (item in this)
        destination.add(transform(item))
    return destination
}

/**
 * Applies the given [transform] function to each element of the original array
 * and appends the results to the given [destination].
 */
public inline fun > BooleanArray.mapTo(destination: C, transform: (Boolean) -> R): C {
    for (item in this)
        destination.add(transform(item))
    return destination
}

/**
 * Applies the given [transform] function to each element of the original array
 * and appends the results to the given [destination].
 */
public inline fun > CharArray.mapTo(destination: C, transform: (Char) -> R): C {
    for (item in this)
        destination.add(transform(item))
    return destination
}

/**
 * Returns a lazy [Iterable] of [IndexedValue] for each element of the original array.
 */
public fun  Array.withIndex(): Iterable> {
    return IndexingIterable { iterator() }
}

/**
 * Returns a lazy [Iterable] of [IndexedValue] for each element of the original array.
 */
public fun ByteArray.withIndex(): Iterable> {
    return IndexingIterable { iterator() }
}

/**
 * Returns a lazy [Iterable] of [IndexedValue] for each element of the original array.
 */
public fun ShortArray.withIndex(): Iterable> {
    return IndexingIterable { iterator() }
}

/**
 * Returns a lazy [Iterable] of [IndexedValue] for each element of the original array.
 */
public fun IntArray.withIndex(): Iterable> {
    return IndexingIterable { iterator() }
}

/**
 * Returns a lazy [Iterable] of [IndexedValue] for each element of the original array.
 */
public fun LongArray.withIndex(): Iterable> {
    return IndexingIterable { iterator() }
}

/**
 * Returns a lazy [Iterable] of [IndexedValue] for each element of the original array.
 */
public fun FloatArray.withIndex(): Iterable> {
    return IndexingIterable { iterator() }
}

/**
 * Returns a lazy [Iterable] of [IndexedValue] for each element of the original array.
 */
public fun DoubleArray.withIndex(): Iterable> {
    return IndexingIterable { iterator() }
}

/**
 * Returns a lazy [Iterable] of [IndexedValue] for each element of the original array.
 */
public fun BooleanArray.withIndex(): Iterable> {
    return IndexingIterable { iterator() }
}

/**
 * Returns a lazy [Iterable] of [IndexedValue] for each element of the original array.
 */
public fun CharArray.withIndex(): Iterable> {
    return IndexingIterable { iterator() }
}

/**
 * Returns a list containing only distinct elements from the given array.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public fun  Array.distinct(): List {
    return this.toMutableSet().toList()
}

/**
 * Returns a list containing only distinct elements from the given array.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public fun ByteArray.distinct(): List {
    return this.toMutableSet().toList()
}

/**
 * Returns a list containing only distinct elements from the given array.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public fun ShortArray.distinct(): List {
    return this.toMutableSet().toList()
}

/**
 * Returns a list containing only distinct elements from the given array.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public fun IntArray.distinct(): List {
    return this.toMutableSet().toList()
}

/**
 * Returns a list containing only distinct elements from the given array.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public fun LongArray.distinct(): List {
    return this.toMutableSet().toList()
}

/**
 * Returns a list containing only distinct elements from the given array.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public fun FloatArray.distinct(): List {
    return this.toMutableSet().toList()
}

/**
 * Returns a list containing only distinct elements from the given array.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public fun DoubleArray.distinct(): List {
    return this.toMutableSet().toList()
}

/**
 * Returns a list containing only distinct elements from the given array.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public fun BooleanArray.distinct(): List {
    return this.toMutableSet().toList()
}

/**
 * Returns a list containing only distinct elements from the given array.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public fun CharArray.distinct(): List {
    return this.toMutableSet().toList()
}

/**
 * Returns a list containing only elements from the given array
 * having distinct keys returned by the given [selector] function.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public inline fun  Array.distinctBy(selector: (T) -> K): List {
    val set = HashSet()
    val list = ArrayList()
    for (e in this) {
        val key = selector(e)
        if (set.add(key))
            list.add(e)
    }
    return list
}

/**
 * Returns a list containing only elements from the given array
 * having distinct keys returned by the given [selector] function.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public inline fun  ByteArray.distinctBy(selector: (Byte) -> K): List {
    val set = HashSet()
    val list = ArrayList()
    for (e in this) {
        val key = selector(e)
        if (set.add(key))
            list.add(e)
    }
    return list
}

/**
 * Returns a list containing only elements from the given array
 * having distinct keys returned by the given [selector] function.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public inline fun  ShortArray.distinctBy(selector: (Short) -> K): List {
    val set = HashSet()
    val list = ArrayList()
    for (e in this) {
        val key = selector(e)
        if (set.add(key))
            list.add(e)
    }
    return list
}

/**
 * Returns a list containing only elements from the given array
 * having distinct keys returned by the given [selector] function.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public inline fun  IntArray.distinctBy(selector: (Int) -> K): List {
    val set = HashSet()
    val list = ArrayList()
    for (e in this) {
        val key = selector(e)
        if (set.add(key))
            list.add(e)
    }
    return list
}

/**
 * Returns a list containing only elements from the given array
 * having distinct keys returned by the given [selector] function.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public inline fun  LongArray.distinctBy(selector: (Long) -> K): List {
    val set = HashSet()
    val list = ArrayList()
    for (e in this) {
        val key = selector(e)
        if (set.add(key))
            list.add(e)
    }
    return list
}

/**
 * Returns a list containing only elements from the given array
 * having distinct keys returned by the given [selector] function.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public inline fun  FloatArray.distinctBy(selector: (Float) -> K): List {
    val set = HashSet()
    val list = ArrayList()
    for (e in this) {
        val key = selector(e)
        if (set.add(key))
            list.add(e)
    }
    return list
}

/**
 * Returns a list containing only elements from the given array
 * having distinct keys returned by the given [selector] function.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public inline fun  DoubleArray.distinctBy(selector: (Double) -> K): List {
    val set = HashSet()
    val list = ArrayList()
    for (e in this) {
        val key = selector(e)
        if (set.add(key))
            list.add(e)
    }
    return list
}

/**
 * Returns a list containing only elements from the given array
 * having distinct keys returned by the given [selector] function.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public inline fun  BooleanArray.distinctBy(selector: (Boolean) -> K): List {
    val set = HashSet()
    val list = ArrayList()
    for (e in this) {
        val key = selector(e)
        if (set.add(key))
            list.add(e)
    }
    return list
}

/**
 * Returns a list containing only elements from the given array
 * having distinct keys returned by the given [selector] function.
 * 
 * The elements in the resulting list are in the same order as they were in the source array.
 */
public inline fun  CharArray.distinctBy(selector: (Char) -> K): List {
    val set = HashSet()
    val list = ArrayList()
    for (e in this) {
        val key = selector(e)
        if (set.add(key))
            list.add(e)
    }
    return list
}

/**
 * Returns a set containing all elements that are contained by both this set and the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun  Array.intersect(other: Iterable): Set {
    val set = this.toMutableSet()
    set.retainAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by both this set and the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun ByteArray.intersect(other: Iterable): Set {
    val set = this.toMutableSet()
    set.retainAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by both this set and the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun ShortArray.intersect(other: Iterable): Set {
    val set = this.toMutableSet()
    set.retainAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by both this set and the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun IntArray.intersect(other: Iterable): Set {
    val set = this.toMutableSet()
    set.retainAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by both this set and the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun LongArray.intersect(other: Iterable): Set {
    val set = this.toMutableSet()
    set.retainAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by both this set and the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun FloatArray.intersect(other: Iterable): Set {
    val set = this.toMutableSet()
    set.retainAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by both this set and the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun DoubleArray.intersect(other: Iterable): Set {
    val set = this.toMutableSet()
    set.retainAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by both this set and the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun BooleanArray.intersect(other: Iterable): Set {
    val set = this.toMutableSet()
    set.retainAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by both this set and the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun CharArray.intersect(other: Iterable): Set {
    val set = this.toMutableSet()
    set.retainAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by this array and not contained by the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun  Array.subtract(other: Iterable): Set {
    val set = this.toMutableSet()
    set.removeAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by this array and not contained by the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun ByteArray.subtract(other: Iterable): Set {
    val set = this.toMutableSet()
    set.removeAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by this array and not contained by the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun ShortArray.subtract(other: Iterable): Set {
    val set = this.toMutableSet()
    set.removeAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by this array and not contained by the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun IntArray.subtract(other: Iterable): Set {
    val set = this.toMutableSet()
    set.removeAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by this array and not contained by the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun LongArray.subtract(other: Iterable): Set {
    val set = this.toMutableSet()
    set.removeAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by this array and not contained by the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun FloatArray.subtract(other: Iterable): Set {
    val set = this.toMutableSet()
    set.removeAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by this array and not contained by the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun DoubleArray.subtract(other: Iterable): Set {
    val set = this.toMutableSet()
    set.removeAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by this array and not contained by the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun BooleanArray.subtract(other: Iterable): Set {
    val set = this.toMutableSet()
    set.removeAll(other)
    return set
}

/**
 * Returns a set containing all elements that are contained by this array and not contained by the specified collection.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public infix fun CharArray.subtract(other: Iterable): Set {
    val set = this.toMutableSet()
    set.removeAll(other)
    return set
}

/**
 * Returns a mutable set containing all distinct elements from the given array.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun  Array.toMutableSet(): MutableSet {
    val set = LinkedHashSet(mapCapacity(size))
    for (item in this) set.add(item)
    return set
}

/**
 * Returns a mutable set containing all distinct elements from the given array.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun ByteArray.toMutableSet(): MutableSet {
    val set = LinkedHashSet(mapCapacity(size))
    for (item in this) set.add(item)
    return set
}

/**
 * Returns a mutable set containing all distinct elements from the given array.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun ShortArray.toMutableSet(): MutableSet {
    val set = LinkedHashSet(mapCapacity(size))
    for (item in this) set.add(item)
    return set
}

/**
 * Returns a mutable set containing all distinct elements from the given array.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun IntArray.toMutableSet(): MutableSet {
    val set = LinkedHashSet(mapCapacity(size))
    for (item in this) set.add(item)
    return set
}

/**
 * Returns a mutable set containing all distinct elements from the given array.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun LongArray.toMutableSet(): MutableSet {
    val set = LinkedHashSet(mapCapacity(size))
    for (item in this) set.add(item)
    return set
}

/**
 * Returns a mutable set containing all distinct elements from the given array.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun FloatArray.toMutableSet(): MutableSet {
    val set = LinkedHashSet(mapCapacity(size))
    for (item in this) set.add(item)
    return set
}

/**
 * Returns a mutable set containing all distinct elements from the given array.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun DoubleArray.toMutableSet(): MutableSet {
    val set = LinkedHashSet(mapCapacity(size))
    for (item in this) set.add(item)
    return set
}

/**
 * Returns a mutable set containing all distinct elements from the given array.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun BooleanArray.toMutableSet(): MutableSet {
    val set = LinkedHashSet(mapCapacity(size))
    for (item in this) set.add(item)
    return set
}

/**
 * Returns a mutable set containing all distinct elements from the given array.
 * 
 * The returned set preserves the element iteration order of the original array.
 */
public fun CharArray.toMutableSet(): MutableSet {
    val set = LinkedHashSet(mapCapacity(size))
    for (item in this) set.add(item)
    return set
}

/**
 * Returns a set containing all distinct elements from both collections.
 * 
 * The returned set preserves the element iteration order of the original array.
 * Those elements of the [other] collection that are unique are iterated in the end
 * in the order of the [other] collection.
 */
public infix fun  Array.union(other: Iterable): Set {
    val set = this.toMutableSet()
    set.addAll(other)
    return set
}

/**
 * Returns a set containing all distinct elements from both collections.
 * 
 * The returned set preserves the element iteration order of the original array.
 * Those elements of the [other] collection that are unique are iterated in the end
 * in the order of the [other] collection.
 */
public infix fun ByteArray.union(other: Iterable): Set {
    val set = this.toMutableSet()
    set.addAll(other)
    return set
}

/**
 * Returns a set containing all distinct elements from both collections.
 * 
 * The returned set preserves the element iteration order of the original array.
 * Those elements of the [other] collection that are unique are iterated in the end
 * in the order of the [other] collection.
 */
public infix fun ShortArray.union(other: Iterable): Set {
    val set = this.toMutableSet()
    set.addAll(other)
    return set
}

/**
 * Returns a set containing all distinct elements from both collections.
 * 
 * The returned set preserves the element iteration order of the original array.
 * Those elements of the [other] collection that are unique are iterated in the end
 * in the order of the [other] collection.
 */
public infix fun IntArray.union(other: Iterable): Set {
    val set = this.toMutableSet()
    set.addAll(other)
    return set
}

/**
 * Returns a set containing all distinct elements from both collections.
 * 
 * The returned set preserves the element iteration order of the original array.
 * Those elements of the [other] collection that are unique are iterated in the end
 * in the order of the [other] collection.
 */
public infix fun LongArray.union(other: Iterable): Set {
    val set = this.toMutableSet()
    set.addAll(other)
    return set
}

/**
 * Returns a set containing all distinct elements from both collections.
 * 
 * The returned set preserves the element iteration order of the original array.
 * Those elements of the [other] collection that are unique are iterated in the end
 * in the order of the [other] collection.
 */
public infix fun FloatArray.union(other: Iterable): Set {
    val set = this.toMutableSet()
    set.addAll(other)
    return set
}

/**
 * Returns a set containing all distinct elements from both collections.
 * 
 * The returned set preserves the element iteration order of the original array.
 * Those elements of the [other] collection that are unique are iterated in the end
 * in the order of the [other] collection.
 */
public infix fun DoubleArray.union(other: Iterable): Set {
    val set = this.toMutableSet()
    set.addAll(other)
    return set
}

/**
 * Returns a set containing all distinct elements from both collections.
 * 
 * The returned set preserves the element iteration order of the original array.
 * Those elements of the [other] collection that are unique are iterated in the end
 * in the order of the [other] collection.
 */
public infix fun BooleanArray.union(other: Iterable): Set {
    val set = this.toMutableSet()
    set.addAll(other)
    return set
}

/**
 * Returns a set containing all distinct elements from both collections.
 * 
 * The returned set preserves the element iteration order of the original array.
 * Those elements of the [other] collection that are unique are iterated in the end
 * in the order of the [other] collection.
 */
public infix fun CharArray.union(other: Iterable): Set {
    val set = this.toMutableSet()
    set.addAll(other)
    return set
}

/**
 * Returns `true` if all elements match the given [predicate].
 */
public inline fun  Array.all(predicate: (T) -> Boolean): Boolean {
    for (element in this) if (!predicate(element)) return false
    return true
}

/**
 * Returns `true` if all elements match the given [predicate].
 */
public inline fun ByteArray.all(predicate: (Byte) -> Boolean): Boolean {
    for (element in this) if (!predicate(element)) return false
    return true
}

/**
 * Returns `true` if all elements match the given [predicate].
 */
public inline fun ShortArray.all(predicate: (Short) -> Boolean): Boolean {
    for (element in this) if (!predicate(element)) return false
    return true
}

/**
 * Returns `true` if all elements match the given [predicate].
 */
public inline fun IntArray.all(predicate: (Int) -> Boolean): Boolean {
    for (element in this) if (!predicate(element)) return false
    return true
}

/**
 * Returns `true` if all elements match the given [predicate].
 */
public inline fun LongArray.all(predicate: (Long) -> Boolean): Boolean {
    for (element in this) if (!predicate(element)) return false
    return true
}

/**
 * Returns `true` if all elements match the given [predicate].
 */
public inline fun FloatArray.all(predicate: (Float) -> Boolean): Boolean {
    for (element in this) if (!predicate(element)) return false
    return true
}

/**
 * Returns `true` if all elements match the given [predicate].
 */
public inline fun DoubleArray.all(predicate: (Double) -> Boolean): Boolean {
    for (element in this) if (!predicate(element)) return false
    return true
}

/**
 * Returns `true` if all elements match the given [predicate].
 */
public inline fun BooleanArray.all(predicate: (Boolean) -> Boolean): Boolean {
    for (element in this) if (!predicate(element)) return false
    return true
}

/**
 * Returns `true` if all elements match the given [predicate].
 */
public inline fun CharArray.all(predicate: (Char) -> Boolean): Boolean {
    for (element in this) if (!predicate(element)) return false
    return true
}

/**
 * Returns `true` if array has at least one element.
 */
public fun  Array.any(): Boolean {
    for (element in this) return true
    return false
}

/**
 * Returns `true` if array has at least one element.
 */
public fun ByteArray.any(): Boolean {
    for (element in this) return true
    return false
}

/**
 * Returns `true` if array has at least one element.
 */
public fun ShortArray.any(): Boolean {
    for (element in this) return true
    return false
}

/**
 * Returns `true` if array has at least one element.
 */
public fun IntArray.any(): Boolean {
    for (element in this) return true
    return false
}

/**
 * Returns `true` if array has at least one element.
 */
public fun LongArray.any(): Boolean {
    for (element in this) return true
    return false
}

/**
 * Returns `true` if array has at least one element.
 */
public fun FloatArray.any(): Boolean {
    for (element in this) return true
    return false
}

/**
 * Returns `true` if array has at least one element.
 */
public fun DoubleArray.any(): Boolean {
    for (element in this) return true
    return false
}

/**
 * Returns `true` if array has at least one element.
 */
public fun BooleanArray.any(): Boolean {
    for (element in this) return true
    return false
}

/**
 * Returns `true` if array has at least one element.
 */
public fun CharArray.any(): Boolean {
    for (element in this) return true
    return false
}

/**
 * Returns `true` if at least one element matches the given [predicate].
 */
public inline fun  Array.any(predicate: (T) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return true
    return false
}

/**
 * Returns `true` if at least one element matches the given [predicate].
 */
public inline fun ByteArray.any(predicate: (Byte) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return true
    return false
}

/**
 * Returns `true` if at least one element matches the given [predicate].
 */
public inline fun ShortArray.any(predicate: (Short) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return true
    return false
}

/**
 * Returns `true` if at least one element matches the given [predicate].
 */
public inline fun IntArray.any(predicate: (Int) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return true
    return false
}

/**
 * Returns `true` if at least one element matches the given [predicate].
 */
public inline fun LongArray.any(predicate: (Long) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return true
    return false
}

/**
 * Returns `true` if at least one element matches the given [predicate].
 */
public inline fun FloatArray.any(predicate: (Float) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return true
    return false
}

/**
 * Returns `true` if at least one element matches the given [predicate].
 */
public inline fun DoubleArray.any(predicate: (Double) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return true
    return false
}

/**
 * Returns `true` if at least one element matches the given [predicate].
 */
public inline fun BooleanArray.any(predicate: (Boolean) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return true
    return false
}

/**
 * Returns `true` if at least one element matches the given [predicate].
 */
public inline fun CharArray.any(predicate: (Char) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return true
    return false
}

/**
 * Returns the number of elements in this array.
 */
@kotlin.internal.InlineOnly
public inline fun  Array.count(): Int {
    return size
}

/**
 * Returns the number of elements in this array.
 */
@kotlin.internal.InlineOnly
public inline fun ByteArray.count(): Int {
    return size
}

/**
 * Returns the number of elements in this array.
 */
@kotlin.internal.InlineOnly
public inline fun ShortArray.count(): Int {
    return size
}

/**
 * Returns the number of elements in this array.
 */
@kotlin.internal.InlineOnly
public inline fun IntArray.count(): Int {
    return size
}

/**
 * Returns the number of elements in this array.
 */
@kotlin.internal.InlineOnly
public inline fun LongArray.count(): Int {
    return size
}

/**
 * Returns the number of elements in this array.
 */
@kotlin.internal.InlineOnly
public inline fun FloatArray.count(): Int {
    return size
}

/**
 * Returns the number of elements in this array.
 */
@kotlin.internal.InlineOnly
public inline fun DoubleArray.count(): Int {
    return size
}

/**
 * Returns the number of elements in this array.
 */
@kotlin.internal.InlineOnly
public inline fun BooleanArray.count(): Int {
    return size
}

/**
 * Returns the number of elements in this array.
 */
@kotlin.internal.InlineOnly
public inline fun CharArray.count(): Int {
    return size
}

/**
 * Returns the number of elements matching the given [predicate].
 */
public inline fun  Array.count(predicate: (T) -> Boolean): Int {
    var count = 0
    for (element in this) if (predicate(element)) count++
    return count
}

/**
 * Returns the number of elements matching the given [predicate].
 */
public inline fun ByteArray.count(predicate: (Byte) -> Boolean): Int {
    var count = 0
    for (element in this) if (predicate(element)) count++
    return count
}

/**
 * Returns the number of elements matching the given [predicate].
 */
public inline fun ShortArray.count(predicate: (Short) -> Boolean): Int {
    var count = 0
    for (element in this) if (predicate(element)) count++
    return count
}

/**
 * Returns the number of elements matching the given [predicate].
 */
public inline fun IntArray.count(predicate: (Int) -> Boolean): Int {
    var count = 0
    for (element in this) if (predicate(element)) count++
    return count
}

/**
 * Returns the number of elements matching the given [predicate].
 */
public inline fun LongArray.count(predicate: (Long) -> Boolean): Int {
    var count = 0
    for (element in this) if (predicate(element)) count++
    return count
}

/**
 * Returns the number of elements matching the given [predicate].
 */
public inline fun FloatArray.count(predicate: (Float) -> Boolean): Int {
    var count = 0
    for (element in this) if (predicate(element)) count++
    return count
}

/**
 * Returns the number of elements matching the given [predicate].
 */
public inline fun DoubleArray.count(predicate: (Double) -> Boolean): Int {
    var count = 0
    for (element in this) if (predicate(element)) count++
    return count
}

/**
 * Returns the number of elements matching the given [predicate].
 */
public inline fun BooleanArray.count(predicate: (Boolean) -> Boolean): Int {
    var count = 0
    for (element in this) if (predicate(element)) count++
    return count
}

/**
 * Returns the number of elements matching the given [predicate].
 */
public inline fun CharArray.count(predicate: (Char) -> Boolean): Int {
    var count = 0
    for (element in this) if (predicate(element)) count++
    return count
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun  Array.fold(initial: R, operation: (R, T) -> R): R {
    var accumulator = initial
    for (element in this) accumulator = operation(accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun  ByteArray.fold(initial: R, operation: (R, Byte) -> R): R {
    var accumulator = initial
    for (element in this) accumulator = operation(accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun  ShortArray.fold(initial: R, operation: (R, Short) -> R): R {
    var accumulator = initial
    for (element in this) accumulator = operation(accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun  IntArray.fold(initial: R, operation: (R, Int) -> R): R {
    var accumulator = initial
    for (element in this) accumulator = operation(accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun  LongArray.fold(initial: R, operation: (R, Long) -> R): R {
    var accumulator = initial
    for (element in this) accumulator = operation(accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun  FloatArray.fold(initial: R, operation: (R, Float) -> R): R {
    var accumulator = initial
    for (element in this) accumulator = operation(accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun  DoubleArray.fold(initial: R, operation: (R, Double) -> R): R {
    var accumulator = initial
    for (element in this) accumulator = operation(accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun  BooleanArray.fold(initial: R, operation: (R, Boolean) -> R): R {
    var accumulator = initial
    for (element in this) accumulator = operation(accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun  CharArray.fold(initial: R, operation: (R, Char) -> R): R {
    var accumulator = initial
    for (element in this) accumulator = operation(accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself, and calculates the next accumulator value.
 */
public inline fun  Array.foldIndexed(initial: R, operation: (Int, R, T) -> R): R {
    var index = 0
    var accumulator = initial
    for (element in this) accumulator = operation(index++, accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself, and calculates the next accumulator value.
 */
public inline fun  ByteArray.foldIndexed(initial: R, operation: (Int, R, Byte) -> R): R {
    var index = 0
    var accumulator = initial
    for (element in this) accumulator = operation(index++, accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself, and calculates the next accumulator value.
 */
public inline fun  ShortArray.foldIndexed(initial: R, operation: (Int, R, Short) -> R): R {
    var index = 0
    var accumulator = initial
    for (element in this) accumulator = operation(index++, accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself, and calculates the next accumulator value.
 */
public inline fun  IntArray.foldIndexed(initial: R, operation: (Int, R, Int) -> R): R {
    var index = 0
    var accumulator = initial
    for (element in this) accumulator = operation(index++, accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself, and calculates the next accumulator value.
 */
public inline fun  LongArray.foldIndexed(initial: R, operation: (Int, R, Long) -> R): R {
    var index = 0
    var accumulator = initial
    for (element in this) accumulator = operation(index++, accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself, and calculates the next accumulator value.
 */
public inline fun  FloatArray.foldIndexed(initial: R, operation: (Int, R, Float) -> R): R {
    var index = 0
    var accumulator = initial
    for (element in this) accumulator = operation(index++, accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself, and calculates the next accumulator value.
 */
public inline fun  DoubleArray.foldIndexed(initial: R, operation: (Int, R, Double) -> R): R {
    var index = 0
    var accumulator = initial
    for (element in this) accumulator = operation(index++, accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself, and calculates the next accumulator value.
 */
public inline fun  BooleanArray.foldIndexed(initial: R, operation: (Int, R, Boolean) -> R): R {
    var index = 0
    var accumulator = initial
    for (element in this) accumulator = operation(index++, accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself, and calculates the next accumulator value.
 */
public inline fun  CharArray.foldIndexed(initial: R, operation: (Int, R, Char) -> R): R {
    var index = 0
    var accumulator = initial
    for (element in this) accumulator = operation(index++, accumulator, element)
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun  Array.foldRight(initial: R, operation: (T, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun  ByteArray.foldRight(initial: R, operation: (Byte, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun  ShortArray.foldRight(initial: R, operation: (Short, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun  IntArray.foldRight(initial: R, operation: (Int, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun  LongArray.foldRight(initial: R, operation: (Long, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun  FloatArray.foldRight(initial: R, operation: (Float, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun  DoubleArray.foldRight(initial: R, operation: (Double, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun  BooleanArray.foldRight(initial: R, operation: (Boolean, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun  CharArray.foldRight(initial: R, operation: (Char, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun  Array.foldRightIndexed(initial: R, operation: (Int, T, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun  ByteArray.foldRightIndexed(initial: R, operation: (Int, Byte, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun  ShortArray.foldRightIndexed(initial: R, operation: (Int, Short, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun  IntArray.foldRightIndexed(initial: R, operation: (Int, Int, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun  LongArray.foldRightIndexed(initial: R, operation: (Int, Long, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun  FloatArray.foldRightIndexed(initial: R, operation: (Int, Float, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun  DoubleArray.foldRightIndexed(initial: R, operation: (Int, Double, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun  BooleanArray.foldRightIndexed(initial: R, operation: (Int, Boolean, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with [initial] value and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun  CharArray.foldRightIndexed(initial: R, operation: (Int, Char, R) -> R): R {
    var index = lastIndex
    var accumulator = initial
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Performs the given [action] on each element.
 */
public inline fun  Array.forEach(action: (T) -> Unit): Unit {
    for (element in this) action(element)
}

/**
 * Performs the given [action] on each element.
 */
public inline fun ByteArray.forEach(action: (Byte) -> Unit): Unit {
    for (element in this) action(element)
}

/**
 * Performs the given [action] on each element.
 */
public inline fun ShortArray.forEach(action: (Short) -> Unit): Unit {
    for (element in this) action(element)
}

/**
 * Performs the given [action] on each element.
 */
public inline fun IntArray.forEach(action: (Int) -> Unit): Unit {
    for (element in this) action(element)
}

/**
 * Performs the given [action] on each element.
 */
public inline fun LongArray.forEach(action: (Long) -> Unit): Unit {
    for (element in this) action(element)
}

/**
 * Performs the given [action] on each element.
 */
public inline fun FloatArray.forEach(action: (Float) -> Unit): Unit {
    for (element in this) action(element)
}

/**
 * Performs the given [action] on each element.
 */
public inline fun DoubleArray.forEach(action: (Double) -> Unit): Unit {
    for (element in this) action(element)
}

/**
 * Performs the given [action] on each element.
 */
public inline fun BooleanArray.forEach(action: (Boolean) -> Unit): Unit {
    for (element in this) action(element)
}

/**
 * Performs the given [action] on each element.
 */
public inline fun CharArray.forEach(action: (Char) -> Unit): Unit {
    for (element in this) action(element)
}

/**
 * Performs the given [action] on each element, providing sequential index with the element.
 * @param [action] function that takes the index of an element and the element itself
 * and performs the desired action on the element.
 */
public inline fun  Array.forEachIndexed(action: (Int, T) -> Unit): Unit {
    var index = 0
    for (item in this) action(index++, item)
}

/**
 * Performs the given [action] on each element, providing sequential index with the element.
 * @param [action] function that takes the index of an element and the element itself
 * and performs the desired action on the element.
 */
public inline fun ByteArray.forEachIndexed(action: (Int, Byte) -> Unit): Unit {
    var index = 0
    for (item in this) action(index++, item)
}

/**
 * Performs the given [action] on each element, providing sequential index with the element.
 * @param [action] function that takes the index of an element and the element itself
 * and performs the desired action on the element.
 */
public inline fun ShortArray.forEachIndexed(action: (Int, Short) -> Unit): Unit {
    var index = 0
    for (item in this) action(index++, item)
}

/**
 * Performs the given [action] on each element, providing sequential index with the element.
 * @param [action] function that takes the index of an element and the element itself
 * and performs the desired action on the element.
 */
public inline fun IntArray.forEachIndexed(action: (Int, Int) -> Unit): Unit {
    var index = 0
    for (item in this) action(index++, item)
}

/**
 * Performs the given [action] on each element, providing sequential index with the element.
 * @param [action] function that takes the index of an element and the element itself
 * and performs the desired action on the element.
 */
public inline fun LongArray.forEachIndexed(action: (Int, Long) -> Unit): Unit {
    var index = 0
    for (item in this) action(index++, item)
}

/**
 * Performs the given [action] on each element, providing sequential index with the element.
 * @param [action] function that takes the index of an element and the element itself
 * and performs the desired action on the element.
 */
public inline fun FloatArray.forEachIndexed(action: (Int, Float) -> Unit): Unit {
    var index = 0
    for (item in this) action(index++, item)
}

/**
 * Performs the given [action] on each element, providing sequential index with the element.
 * @param [action] function that takes the index of an element and the element itself
 * and performs the desired action on the element.
 */
public inline fun DoubleArray.forEachIndexed(action: (Int, Double) -> Unit): Unit {
    var index = 0
    for (item in this) action(index++, item)
}

/**
 * Performs the given [action] on each element, providing sequential index with the element.
 * @param [action] function that takes the index of an element and the element itself
 * and performs the desired action on the element.
 */
public inline fun BooleanArray.forEachIndexed(action: (Int, Boolean) -> Unit): Unit {
    var index = 0
    for (item in this) action(index++, item)
}

/**
 * Performs the given [action] on each element, providing sequential index with the element.
 * @param [action] function that takes the index of an element and the element itself
 * and performs the desired action on the element.
 */
public inline fun CharArray.forEachIndexed(action: (Int, Char) -> Unit): Unit {
    var index = 0
    for (item in this) action(index++, item)
}

/**
 * Returns the largest element or `null` if there are no elements.
 */
public fun > Array.max(): T? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (max < e) max = e
    }
    return max
}

/**
 * Returns the largest element or `null` if there are no elements.
 */
public fun ByteArray.max(): Byte? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (max < e) max = e
    }
    return max
}

/**
 * Returns the largest element or `null` if there are no elements.
 */
public fun ShortArray.max(): Short? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (max < e) max = e
    }
    return max
}

/**
 * Returns the largest element or `null` if there are no elements.
 */
public fun IntArray.max(): Int? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (max < e) max = e
    }
    return max
}

/**
 * Returns the largest element or `null` if there are no elements.
 */
public fun LongArray.max(): Long? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (max < e) max = e
    }
    return max
}

/**
 * Returns the largest element or `null` if there are no elements.
 */
public fun FloatArray.max(): Float? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (max < e) max = e
    }
    return max
}

/**
 * Returns the largest element or `null` if there are no elements.
 */
public fun DoubleArray.max(): Double? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (max < e) max = e
    }
    return max
}

/**
 * Returns the largest element or `null` if there are no elements.
 */
public fun CharArray.max(): Char? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (max < e) max = e
    }
    return max
}

/**
 * Returns the first element yielding the largest value of the given function or `null` if there are no elements.
 */
public inline fun > Array.maxBy(selector: (T) -> R): T? {
    if (isEmpty()) return null
    var maxElem = this[0]
    var maxValue = selector(maxElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (maxValue < v) {
            maxElem = e
            maxValue = v
        }
    }
    return maxElem
}

/**
 * Returns the first element yielding the largest value of the given function or `null` if there are no elements.
 */
public inline fun > ByteArray.maxBy(selector: (Byte) -> R): Byte? {
    if (isEmpty()) return null
    var maxElem = this[0]
    var maxValue = selector(maxElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (maxValue < v) {
            maxElem = e
            maxValue = v
        }
    }
    return maxElem
}

/**
 * Returns the first element yielding the largest value of the given function or `null` if there are no elements.
 */
public inline fun > ShortArray.maxBy(selector: (Short) -> R): Short? {
    if (isEmpty()) return null
    var maxElem = this[0]
    var maxValue = selector(maxElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (maxValue < v) {
            maxElem = e
            maxValue = v
        }
    }
    return maxElem
}

/**
 * Returns the first element yielding the largest value of the given function or `null` if there are no elements.
 */
public inline fun > IntArray.maxBy(selector: (Int) -> R): Int? {
    if (isEmpty()) return null
    var maxElem = this[0]
    var maxValue = selector(maxElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (maxValue < v) {
            maxElem = e
            maxValue = v
        }
    }
    return maxElem
}

/**
 * Returns the first element yielding the largest value of the given function or `null` if there are no elements.
 */
public inline fun > LongArray.maxBy(selector: (Long) -> R): Long? {
    if (isEmpty()) return null
    var maxElem = this[0]
    var maxValue = selector(maxElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (maxValue < v) {
            maxElem = e
            maxValue = v
        }
    }
    return maxElem
}

/**
 * Returns the first element yielding the largest value of the given function or `null` if there are no elements.
 */
public inline fun > FloatArray.maxBy(selector: (Float) -> R): Float? {
    if (isEmpty()) return null
    var maxElem = this[0]
    var maxValue = selector(maxElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (maxValue < v) {
            maxElem = e
            maxValue = v
        }
    }
    return maxElem
}

/**
 * Returns the first element yielding the largest value of the given function or `null` if there are no elements.
 */
public inline fun > DoubleArray.maxBy(selector: (Double) -> R): Double? {
    if (isEmpty()) return null
    var maxElem = this[0]
    var maxValue = selector(maxElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (maxValue < v) {
            maxElem = e
            maxValue = v
        }
    }
    return maxElem
}

/**
 * Returns the first element yielding the largest value of the given function or `null` if there are no elements.
 */
public inline fun > BooleanArray.maxBy(selector: (Boolean) -> R): Boolean? {
    if (isEmpty()) return null
    var maxElem = this[0]
    var maxValue = selector(maxElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (maxValue < v) {
            maxElem = e
            maxValue = v
        }
    }
    return maxElem
}

/**
 * Returns the first element yielding the largest value of the given function or `null` if there are no elements.
 */
public inline fun > CharArray.maxBy(selector: (Char) -> R): Char? {
    if (isEmpty()) return null
    var maxElem = this[0]
    var maxValue = selector(maxElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (maxValue < v) {
            maxElem = e
            maxValue = v
        }
    }
    return maxElem
}

/**
 * Returns the first element having the largest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun  Array.maxWith(comparator: Comparator): T? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(max, e) < 0) max = e
    }
    return max
}

/**
 * Returns the first element having the largest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun ByteArray.maxWith(comparator: Comparator): Byte? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(max, e) < 0) max = e
    }
    return max
}

/**
 * Returns the first element having the largest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun ShortArray.maxWith(comparator: Comparator): Short? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(max, e) < 0) max = e
    }
    return max
}

/**
 * Returns the first element having the largest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun IntArray.maxWith(comparator: Comparator): Int? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(max, e) < 0) max = e
    }
    return max
}

/**
 * Returns the first element having the largest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun LongArray.maxWith(comparator: Comparator): Long? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(max, e) < 0) max = e
    }
    return max
}

/**
 * Returns the first element having the largest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun FloatArray.maxWith(comparator: Comparator): Float? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(max, e) < 0) max = e
    }
    return max
}

/**
 * Returns the first element having the largest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun DoubleArray.maxWith(comparator: Comparator): Double? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(max, e) < 0) max = e
    }
    return max
}

/**
 * Returns the first element having the largest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun BooleanArray.maxWith(comparator: Comparator): Boolean? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(max, e) < 0) max = e
    }
    return max
}

/**
 * Returns the first element having the largest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun CharArray.maxWith(comparator: Comparator): Char? {
    if (isEmpty()) return null
    var max = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(max, e) < 0) max = e
    }
    return max
}

/**
 * Returns the smallest element or `null` if there are no elements.
 */
public fun > Array.min(): T? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (min > e) min = e
    }
    return min
}

/**
 * Returns the smallest element or `null` if there are no elements.
 */
public fun ByteArray.min(): Byte? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (min > e) min = e
    }
    return min
}

/**
 * Returns the smallest element or `null` if there are no elements.
 */
public fun ShortArray.min(): Short? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (min > e) min = e
    }
    return min
}

/**
 * Returns the smallest element or `null` if there are no elements.
 */
public fun IntArray.min(): Int? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (min > e) min = e
    }
    return min
}

/**
 * Returns the smallest element or `null` if there are no elements.
 */
public fun LongArray.min(): Long? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (min > e) min = e
    }
    return min
}

/**
 * Returns the smallest element or `null` if there are no elements.
 */
public fun FloatArray.min(): Float? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (min > e) min = e
    }
    return min
}

/**
 * Returns the smallest element or `null` if there are no elements.
 */
public fun DoubleArray.min(): Double? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (min > e) min = e
    }
    return min
}

/**
 * Returns the smallest element or `null` if there are no elements.
 */
public fun CharArray.min(): Char? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (min > e) min = e
    }
    return min
}

/**
 * Returns the first element yielding the smallest value of the given function or `null` if there are no elements.
 */
public inline fun > Array.minBy(selector: (T) -> R): T? {
    if (isEmpty()) return null
    var minElem = this[0]
    var minValue = selector(minElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (minValue > v) {
            minElem = e
            minValue = v
        }
    }
    return minElem
}

/**
 * Returns the first element yielding the smallest value of the given function or `null` if there are no elements.
 */
public inline fun > ByteArray.minBy(selector: (Byte) -> R): Byte? {
    if (isEmpty()) return null
    var minElem = this[0]
    var minValue = selector(minElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (minValue > v) {
            minElem = e
            minValue = v
        }
    }
    return minElem
}

/**
 * Returns the first element yielding the smallest value of the given function or `null` if there are no elements.
 */
public inline fun > ShortArray.minBy(selector: (Short) -> R): Short? {
    if (isEmpty()) return null
    var minElem = this[0]
    var minValue = selector(minElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (minValue > v) {
            minElem = e
            minValue = v
        }
    }
    return minElem
}

/**
 * Returns the first element yielding the smallest value of the given function or `null` if there are no elements.
 */
public inline fun > IntArray.minBy(selector: (Int) -> R): Int? {
    if (isEmpty()) return null
    var minElem = this[0]
    var minValue = selector(minElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (minValue > v) {
            minElem = e
            minValue = v
        }
    }
    return minElem
}

/**
 * Returns the first element yielding the smallest value of the given function or `null` if there are no elements.
 */
public inline fun > LongArray.minBy(selector: (Long) -> R): Long? {
    if (isEmpty()) return null
    var minElem = this[0]
    var minValue = selector(minElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (minValue > v) {
            minElem = e
            minValue = v
        }
    }
    return minElem
}

/**
 * Returns the first element yielding the smallest value of the given function or `null` if there are no elements.
 */
public inline fun > FloatArray.minBy(selector: (Float) -> R): Float? {
    if (isEmpty()) return null
    var minElem = this[0]
    var minValue = selector(minElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (minValue > v) {
            minElem = e
            minValue = v
        }
    }
    return minElem
}

/**
 * Returns the first element yielding the smallest value of the given function or `null` if there are no elements.
 */
public inline fun > DoubleArray.minBy(selector: (Double) -> R): Double? {
    if (isEmpty()) return null
    var minElem = this[0]
    var minValue = selector(minElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (minValue > v) {
            minElem = e
            minValue = v
        }
    }
    return minElem
}

/**
 * Returns the first element yielding the smallest value of the given function or `null` if there are no elements.
 */
public inline fun > BooleanArray.minBy(selector: (Boolean) -> R): Boolean? {
    if (isEmpty()) return null
    var minElem = this[0]
    var minValue = selector(minElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (minValue > v) {
            minElem = e
            minValue = v
        }
    }
    return minElem
}

/**
 * Returns the first element yielding the smallest value of the given function or `null` if there are no elements.
 */
public inline fun > CharArray.minBy(selector: (Char) -> R): Char? {
    if (isEmpty()) return null
    var minElem = this[0]
    var minValue = selector(minElem)
    for (i in 1..lastIndex) {
        val e = this[i]
        val v = selector(e)
        if (minValue > v) {
            minElem = e
            minValue = v
        }
    }
    return minElem
}

/**
 * Returns the first element having the smallest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun  Array.minWith(comparator: Comparator): T? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(min, e) > 0) min = e
    }
    return min
}

/**
 * Returns the first element having the smallest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun ByteArray.minWith(comparator: Comparator): Byte? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(min, e) > 0) min = e
    }
    return min
}

/**
 * Returns the first element having the smallest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun ShortArray.minWith(comparator: Comparator): Short? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(min, e) > 0) min = e
    }
    return min
}

/**
 * Returns the first element having the smallest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun IntArray.minWith(comparator: Comparator): Int? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(min, e) > 0) min = e
    }
    return min
}

/**
 * Returns the first element having the smallest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun LongArray.minWith(comparator: Comparator): Long? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(min, e) > 0) min = e
    }
    return min
}

/**
 * Returns the first element having the smallest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun FloatArray.minWith(comparator: Comparator): Float? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(min, e) > 0) min = e
    }
    return min
}

/**
 * Returns the first element having the smallest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun DoubleArray.minWith(comparator: Comparator): Double? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(min, e) > 0) min = e
    }
    return min
}

/**
 * Returns the first element having the smallest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun BooleanArray.minWith(comparator: Comparator): Boolean? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(min, e) > 0) min = e
    }
    return min
}

/**
 * Returns the first element having the smallest value according to the provided [comparator] or `null` if there are no elements.
 */
public fun CharArray.minWith(comparator: Comparator): Char? {
    if (isEmpty()) return null
    var min = this[0]
    for (i in 1..lastIndex) {
        val e = this[i]
        if (comparator.compare(min, e) > 0) min = e
    }
    return min
}

/**
 * Returns `true` if the array has no elements.
 */
public fun  Array.none(): Boolean {
    for (element in this) return false
    return true
}

/**
 * Returns `true` if the array has no elements.
 */
public fun ByteArray.none(): Boolean {
    for (element in this) return false
    return true
}

/**
 * Returns `true` if the array has no elements.
 */
public fun ShortArray.none(): Boolean {
    for (element in this) return false
    return true
}

/**
 * Returns `true` if the array has no elements.
 */
public fun IntArray.none(): Boolean {
    for (element in this) return false
    return true
}

/**
 * Returns `true` if the array has no elements.
 */
public fun LongArray.none(): Boolean {
    for (element in this) return false
    return true
}

/**
 * Returns `true` if the array has no elements.
 */
public fun FloatArray.none(): Boolean {
    for (element in this) return false
    return true
}

/**
 * Returns `true` if the array has no elements.
 */
public fun DoubleArray.none(): Boolean {
    for (element in this) return false
    return true
}

/**
 * Returns `true` if the array has no elements.
 */
public fun BooleanArray.none(): Boolean {
    for (element in this) return false
    return true
}

/**
 * Returns `true` if the array has no elements.
 */
public fun CharArray.none(): Boolean {
    for (element in this) return false
    return true
}

/**
 * Returns `true` if no elements match the given [predicate].
 */
public inline fun  Array.none(predicate: (T) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return false
    return true
}

/**
 * Returns `true` if no elements match the given [predicate].
 */
public inline fun ByteArray.none(predicate: (Byte) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return false
    return true
}

/**
 * Returns `true` if no elements match the given [predicate].
 */
public inline fun ShortArray.none(predicate: (Short) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return false
    return true
}

/**
 * Returns `true` if no elements match the given [predicate].
 */
public inline fun IntArray.none(predicate: (Int) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return false
    return true
}

/**
 * Returns `true` if no elements match the given [predicate].
 */
public inline fun LongArray.none(predicate: (Long) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return false
    return true
}

/**
 * Returns `true` if no elements match the given [predicate].
 */
public inline fun FloatArray.none(predicate: (Float) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return false
    return true
}

/**
 * Returns `true` if no elements match the given [predicate].
 */
public inline fun DoubleArray.none(predicate: (Double) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return false
    return true
}

/**
 * Returns `true` if no elements match the given [predicate].
 */
public inline fun BooleanArray.none(predicate: (Boolean) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return false
    return true
}

/**
 * Returns `true` if no elements match the given [predicate].
 */
public inline fun CharArray.none(predicate: (Char) -> Boolean): Boolean {
    for (element in this) if (predicate(element)) return false
    return true
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun  Array.reduce(operation: (S, T) -> S): S {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator: S = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun ByteArray.reduce(operation: (Byte, Byte) -> Byte): Byte {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun ShortArray.reduce(operation: (Short, Short) -> Short): Short {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun IntArray.reduce(operation: (Int, Int) -> Int): Int {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun LongArray.reduce(operation: (Long, Long) -> Long): Long {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun FloatArray.reduce(operation: (Float, Float) -> Float): Float {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun DoubleArray.reduce(operation: (Double, Double) -> Double): Double {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun BooleanArray.reduce(operation: (Boolean, Boolean) -> Boolean): Boolean {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right to current accumulator value and each element.
 */
public inline fun CharArray.reduce(operation: (Char, Char) -> Char): Char {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself and calculates the next accumulator value.
 */
public inline fun  Array.reduceIndexed(operation: (Int, S, T) -> S): S {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator: S = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(index, accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself and calculates the next accumulator value.
 */
public inline fun ByteArray.reduceIndexed(operation: (Int, Byte, Byte) -> Byte): Byte {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(index, accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself and calculates the next accumulator value.
 */
public inline fun ShortArray.reduceIndexed(operation: (Int, Short, Short) -> Short): Short {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(index, accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself and calculates the next accumulator value.
 */
public inline fun IntArray.reduceIndexed(operation: (Int, Int, Int) -> Int): Int {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(index, accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself and calculates the next accumulator value.
 */
public inline fun LongArray.reduceIndexed(operation: (Int, Long, Long) -> Long): Long {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(index, accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself and calculates the next accumulator value.
 */
public inline fun FloatArray.reduceIndexed(operation: (Int, Float, Float) -> Float): Float {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(index, accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself and calculates the next accumulator value.
 */
public inline fun DoubleArray.reduceIndexed(operation: (Int, Double, Double) -> Double): Double {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(index, accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself and calculates the next accumulator value.
 */
public inline fun BooleanArray.reduceIndexed(operation: (Int, Boolean, Boolean) -> Boolean): Boolean {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(index, accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with the first element and applying [operation] from left to right
 * to current accumulator value and each element with its index in the original array.
 * @param [operation] function that takes the index of an element, current accumulator value
 * and the element itself and calculates the next accumulator value.
 */
public inline fun CharArray.reduceIndexed(operation: (Int, Char, Char) -> Char): Char {
    if (isEmpty())
        throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = this[0]
    for (index in 1..lastIndex) {
        accumulator = operation(index, accumulator, this[index])
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun  Array.reduceRight(operation: (T, S) -> S): S {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator: S = get(index--)
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun ByteArray.reduceRight(operation: (Byte, Byte) -> Byte): Byte {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun ShortArray.reduceRight(operation: (Short, Short) -> Short): Short {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun IntArray.reduceRight(operation: (Int, Int) -> Int): Int {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun LongArray.reduceRight(operation: (Long, Long) -> Long): Long {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun FloatArray.reduceRight(operation: (Float, Float) -> Float): Float {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun DoubleArray.reduceRight(operation: (Double, Double) -> Double): Double {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun BooleanArray.reduceRight(operation: (Boolean, Boolean) -> Boolean): Boolean {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left to each element and current accumulator value.
 */
public inline fun CharArray.reduceRight(operation: (Char, Char) -> Char): Char {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(get(index--), accumulator)
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun  Array.reduceRightIndexed(operation: (Int, T, S) -> S): S {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator: S = get(index--)
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun ByteArray.reduceRightIndexed(operation: (Int, Byte, Byte) -> Byte): Byte {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun ShortArray.reduceRightIndexed(operation: (Int, Short, Short) -> Short): Short {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun IntArray.reduceRightIndexed(operation: (Int, Int, Int) -> Int): Int {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun LongArray.reduceRightIndexed(operation: (Int, Long, Long) -> Long): Long {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun FloatArray.reduceRightIndexed(operation: (Int, Float, Float) -> Float): Float {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun DoubleArray.reduceRightIndexed(operation: (Int, Double, Double) -> Double): Double {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun BooleanArray.reduceRightIndexed(operation: (Int, Boolean, Boolean) -> Boolean): Boolean {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Accumulates value starting with last element and applying [operation] from right to left
 * to each element with its index in the original array and current accumulator value.
 * @param [operation] function that takes the index of an element, the element itself
 * and current accumulator value, and calculates the next accumulator value.
 */
public inline fun CharArray.reduceRightIndexed(operation: (Int, Char, Char) -> Char): Char {
    var index = lastIndex
    if (index < 0) throw UnsupportedOperationException("Empty array can't be reduced.")
    var accumulator = get(index--)
    while (index >= 0) {
        accumulator = operation(index, get(index), accumulator)
        --index
    }
    return accumulator
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun  Array.sumBy(selector: (T) -> Int): Int {
    var sum: Int = 0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun ByteArray.sumBy(selector: (Byte) -> Int): Int {
    var sum: Int = 0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun ShortArray.sumBy(selector: (Short) -> Int): Int {
    var sum: Int = 0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun IntArray.sumBy(selector: (Int) -> Int): Int {
    var sum: Int = 0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun LongArray.sumBy(selector: (Long) -> Int): Int {
    var sum: Int = 0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun FloatArray.sumBy(selector: (Float) -> Int): Int {
    var sum: Int = 0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun DoubleArray.sumBy(selector: (Double) -> Int): Int {
    var sum: Int = 0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun BooleanArray.sumBy(selector: (Boolean) -> Int): Int {
    var sum: Int = 0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun CharArray.sumBy(selector: (Char) -> Int): Int {
    var sum: Int = 0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun  Array.sumByDouble(selector: (T) -> Double): Double {
    var sum: Double = 0.0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun ByteArray.sumByDouble(selector: (Byte) -> Double): Double {
    var sum: Double = 0.0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun ShortArray.sumByDouble(selector: (Short) -> Double): Double {
    var sum: Double = 0.0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun IntArray.sumByDouble(selector: (Int) -> Double): Double {
    var sum: Double = 0.0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun LongArray.sumByDouble(selector: (Long) -> Double): Double {
    var sum: Double = 0.0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun FloatArray.sumByDouble(selector: (Float) -> Double): Double {
    var sum: Double = 0.0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun DoubleArray.sumByDouble(selector: (Double) -> Double): Double {
    var sum: Double = 0.0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun BooleanArray.sumByDouble(selector: (Boolean) -> Double): Double {
    var sum: Double = 0.0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns the sum of all values produced by [selector] function applied to each element in the array.
 */
public inline fun CharArray.sumByDouble(selector: (Char) -> Double): Double {
    var sum: Double = 0.0
    for (element in this) {
        sum += selector(element)
    }
    return sum
}

/**
 * Returns an original collection containing all the non-`null` elements, throwing an [IllegalArgumentException] if there are any `null` elements.
 */
public fun  Array.requireNoNulls(): Array {
    for (element in this) {
        if (element == null) {
            throw IllegalArgumentException("null element found in $this.")
        }
    }
    @Suppress("UNCHECKED_CAST")
    return this as Array
}

/**
 * Splits the original array into pair of lists,
 * where *first* list contains elements for which [predicate] yielded `true`,
 * while *second* list contains elements for which [predicate] yielded `false`.
 */
public inline fun  Array.partition(predicate: (T) -> Boolean): Pair, List> {
    val first = ArrayList()
    val second = ArrayList()
    for (element in this) {
        if (predicate(element)) {
            first.add(element)
        } else {
            second.add(element)
        }
    }
    return Pair(first, second)
}

/**
 * Splits the original array into pair of lists,
 * where *first* list contains elements for which [predicate] yielded `true`,
 * while *second* list contains elements for which [predicate] yielded `false`.
 */
public inline fun ByteArray.partition(predicate: (Byte) -> Boolean): Pair, List> {
    val first = ArrayList()
    val second = ArrayList()
    for (element in this) {
        if (predicate(element)) {
            first.add(element)
        } else {
            second.add(element)
        }
    }
    return Pair(first, second)
}

/**
 * Splits the original array into pair of lists,
 * where *first* list contains elements for which [predicate] yielded `true`,
 * while *second* list contains elements for which [predicate] yielded `false`.
 */
public inline fun ShortArray.partition(predicate: (Short) -> Boolean): Pair, List> {
    val first = ArrayList()
    val second = ArrayList()
    for (element in this) {
        if (predicate(element)) {
            first.add(element)
        } else {
            second.add(element)
        }
    }
    return Pair(first, second)
}

/**
 * Splits the original array into pair of lists,
 * where *first* list contains elements for which [predicate] yielded `true`,
 * while *second* list contains elements for which [predicate] yielded `false`.
 */
public inline fun IntArray.partition(predicate: (Int) -> Boolean): Pair, List> {
    val first = ArrayList()
    val second = ArrayList()
    for (element in this) {
        if (predicate(element)) {
            first.add(element)
        } else {
            second.add(element)
        }
    }
    return Pair(first, second)
}

/**
 * Splits the original array into pair of lists,
 * where *first* list contains elements for which [predicate] yielded `true`,
 * while *second* list contains elements for which [predicate] yielded `false`.
 */
public inline fun LongArray.partition(predicate: (Long) -> Boolean): Pair, List> {
    val first = ArrayList()
    val second = ArrayList()
    for (element in this) {
        if (predicate(element)) {
            first.add(element)
        } else {
            second.add(element)
        }
    }
    return Pair(first, second)
}

/**
 * Splits the original array into pair of lists,
 * where *first* list contains elements for which [predicate] yielded `true`,
 * while *second* list contains elements for which [predicate] yielded `false`.
 */
public inline fun FloatArray.partition(predicate: (Float) -> Boolean): Pair, List> {
    val first = ArrayList()
    val second = ArrayList()
    for (element in this) {
        if (predicate(element)) {
            first.add(element)
        } else {
            second.add(element)
        }
    }
    return Pair(first, second)
}

/**
 * Splits the original array into pair of lists,
 * where *first* list contains elements for which [predicate] yielded `true`,
 * while *second* list contains elements for which [predicate] yielded `false`.
 */
public inline fun DoubleArray.partition(predicate: (Double) -> Boolean): Pair, List> {
    val first = ArrayList()
    val second = ArrayList()
    for (element in this) {
        if (predicate(element)) {
            first.add(element)
        } else {
            second.add(element)
        }
    }
    return Pair(first, second)
}

/**
 * Splits the original array into pair of lists,
 * where *first* list contains elements for which [predicate] yielded `true`,
 * while *second* list contains elements for which [predicate] yielded `false`.
 */
public inline fun BooleanArray.partition(predicate: (Boolean) -> Boolean): Pair, List> {
    val first = ArrayList()
    val second = ArrayList()
    for (element in this) {
        if (predicate(element)) {
            first.add(element)
        } else {
            second.add(element)
        }
    }
    return Pair(first, second)
}

/**
 * Splits the original array into pair of lists,
 * where *first* list contains elements for which [predicate] yielded `true`,
 * while *second* list contains elements for which [predicate] yielded `false`.
 */
public inline fun CharArray.partition(predicate: (Char) -> Boolean): Pair, List> {
    val first = ArrayList()
    val second = ArrayList()
    for (element in this) {
        if (predicate(element)) {
            first.add(element)
        } else {
            second.add(element)
        }
    }
    return Pair(first, second)
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  Array.zip(other: Array): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  ByteArray.zip(other: Array): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  ShortArray.zip(other: Array): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  IntArray.zip(other: Array): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  LongArray.zip(other: Array): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  FloatArray.zip(other: Array): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  DoubleArray.zip(other: Array): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  BooleanArray.zip(other: Array): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  CharArray.zip(other: Array): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  Array.zip(other: Array, transform: (T, R) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  ByteArray.zip(other: Array, transform: (Byte, R) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  ShortArray.zip(other: Array, transform: (Short, R) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  IntArray.zip(other: Array, transform: (Int, R) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  LongArray.zip(other: Array, transform: (Long, R) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  FloatArray.zip(other: Array, transform: (Float, R) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  DoubleArray.zip(other: Array, transform: (Double, R) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  BooleanArray.zip(other: Array, transform: (Boolean, R) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  CharArray.zip(other: Array, transform: (Char, R) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  Array.zip(other: Iterable): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  ByteArray.zip(other: Iterable): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  ShortArray.zip(other: Iterable): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  IntArray.zip(other: Iterable): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  LongArray.zip(other: Iterable): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  FloatArray.zip(other: Iterable): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  DoubleArray.zip(other: Iterable): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  BooleanArray.zip(other: Iterable): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun  CharArray.zip(other: Iterable): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  Array.zip(other: Iterable, transform: (T, R) -> V): List {
    val arraySize = size
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val list = ArrayList(Math.min(other.collectionSizeOrDefault(10), arraySize))
    var i = 0
    for (element in other) {
        if (i >= arraySize) break
        list.add(transform(this[i++], element))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  ByteArray.zip(other: Iterable, transform: (Byte, R) -> V): List {
    val arraySize = size
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val list = ArrayList(Math.min(other.collectionSizeOrDefault(10), arraySize))
    var i = 0
    for (element in other) {
        if (i >= arraySize) break
        list.add(transform(this[i++], element))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  ShortArray.zip(other: Iterable, transform: (Short, R) -> V): List {
    val arraySize = size
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val list = ArrayList(Math.min(other.collectionSizeOrDefault(10), arraySize))
    var i = 0
    for (element in other) {
        if (i >= arraySize) break
        list.add(transform(this[i++], element))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  IntArray.zip(other: Iterable, transform: (Int, R) -> V): List {
    val arraySize = size
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val list = ArrayList(Math.min(other.collectionSizeOrDefault(10), arraySize))
    var i = 0
    for (element in other) {
        if (i >= arraySize) break
        list.add(transform(this[i++], element))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  LongArray.zip(other: Iterable, transform: (Long, R) -> V): List {
    val arraySize = size
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val list = ArrayList(Math.min(other.collectionSizeOrDefault(10), arraySize))
    var i = 0
    for (element in other) {
        if (i >= arraySize) break
        list.add(transform(this[i++], element))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  FloatArray.zip(other: Iterable, transform: (Float, R) -> V): List {
    val arraySize = size
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val list = ArrayList(Math.min(other.collectionSizeOrDefault(10), arraySize))
    var i = 0
    for (element in other) {
        if (i >= arraySize) break
        list.add(transform(this[i++], element))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  DoubleArray.zip(other: Iterable, transform: (Double, R) -> V): List {
    val arraySize = size
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val list = ArrayList(Math.min(other.collectionSizeOrDefault(10), arraySize))
    var i = 0
    for (element in other) {
        if (i >= arraySize) break
        list.add(transform(this[i++], element))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  BooleanArray.zip(other: Iterable, transform: (Boolean, R) -> V): List {
    val arraySize = size
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val list = ArrayList(Math.min(other.collectionSizeOrDefault(10), arraySize))
    var i = 0
    for (element in other) {
        if (i >= arraySize) break
        list.add(transform(this[i++], element))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  CharArray.zip(other: Iterable, transform: (Char, R) -> V): List {
    val arraySize = size
    @Suppress("NON_PUBLIC_CALL_FROM_PUBLIC_INLINE")
    val list = ArrayList(Math.min(other.collectionSizeOrDefault(10), arraySize))
    var i = 0
    for (element in other) {
        if (i >= arraySize) break
        list.add(transform(this[i++], element))
    }
    return list
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun ByteArray.zip(other: ByteArray): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun ShortArray.zip(other: ShortArray): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun IntArray.zip(other: IntArray): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun LongArray.zip(other: LongArray): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun FloatArray.zip(other: FloatArray): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun DoubleArray.zip(other: DoubleArray): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun BooleanArray.zip(other: BooleanArray): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of pairs built from elements of both collections with same indexes. List has length of shortest collection.
 */
public infix fun CharArray.zip(other: CharArray): List> {
    return zip(other) { t1, t2 -> t1 to t2 }
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  ByteArray.zip(other: ByteArray, transform: (Byte, Byte) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  ShortArray.zip(other: ShortArray, transform: (Short, Short) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  IntArray.zip(other: IntArray, transform: (Int, Int) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  LongArray.zip(other: LongArray, transform: (Long, Long) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  FloatArray.zip(other: FloatArray, transform: (Float, Float) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  DoubleArray.zip(other: DoubleArray, transform: (Double, Double) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  BooleanArray.zip(other: BooleanArray, transform: (Boolean, Boolean) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Returns a list of values built from elements of both collections with same indexes using provided [transform]. List has length of shortest collection.
 */
public inline fun  CharArray.zip(other: CharArray, transform: (Char, Char) -> V): List {
    val size = Math.min(size, other.size)
    val list = ArrayList(size)
    for (i in 0..size-1) {
        list.add(transform(this[i], other[i]))
    }
    return list
}

/**
 * Appends the string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun  Array.joinTo(buffer: A, separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((T) -> CharSequence)? = null): A {
    buffer.append(prefix)
    var count = 0
    for (element in this) {
        if (++count > 1) buffer.append(separator)
        if (limit < 0 || count <= limit) {
            if (transform != null)
                buffer.append(transform(element))
            else
                buffer.append(if (element == null) "null" else element.toString())
        } else break
    }
    if (limit >= 0 && count > limit) buffer.append(truncated)
    buffer.append(postfix)
    return buffer
}

/**
 * Appends the string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun  ByteArray.joinTo(buffer: A, separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Byte) -> CharSequence)? = null): A {
    buffer.append(prefix)
    var count = 0
    for (element in this) {
        if (++count > 1) buffer.append(separator)
        if (limit < 0 || count <= limit) {
            if (transform != null)
                buffer.append(transform(element))
            else
                buffer.append(element.toString())
        } else break
    }
    if (limit >= 0 && count > limit) buffer.append(truncated)
    buffer.append(postfix)
    return buffer
}

/**
 * Appends the string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun  ShortArray.joinTo(buffer: A, separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Short) -> CharSequence)? = null): A {
    buffer.append(prefix)
    var count = 0
    for (element in this) {
        if (++count > 1) buffer.append(separator)
        if (limit < 0 || count <= limit) {
            if (transform != null)
                buffer.append(transform(element))
            else
                buffer.append(element.toString())
        } else break
    }
    if (limit >= 0 && count > limit) buffer.append(truncated)
    buffer.append(postfix)
    return buffer
}

/**
 * Appends the string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun  IntArray.joinTo(buffer: A, separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Int) -> CharSequence)? = null): A {
    buffer.append(prefix)
    var count = 0
    for (element in this) {
        if (++count > 1) buffer.append(separator)
        if (limit < 0 || count <= limit) {
            if (transform != null)
                buffer.append(transform(element))
            else
                buffer.append(element.toString())
        } else break
    }
    if (limit >= 0 && count > limit) buffer.append(truncated)
    buffer.append(postfix)
    return buffer
}

/**
 * Appends the string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun  LongArray.joinTo(buffer: A, separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Long) -> CharSequence)? = null): A {
    buffer.append(prefix)
    var count = 0
    for (element in this) {
        if (++count > 1) buffer.append(separator)
        if (limit < 0 || count <= limit) {
            if (transform != null)
                buffer.append(transform(element))
            else
                buffer.append(element.toString())
        } else break
    }
    if (limit >= 0 && count > limit) buffer.append(truncated)
    buffer.append(postfix)
    return buffer
}

/**
 * Appends the string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun  FloatArray.joinTo(buffer: A, separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Float) -> CharSequence)? = null): A {
    buffer.append(prefix)
    var count = 0
    for (element in this) {
        if (++count > 1) buffer.append(separator)
        if (limit < 0 || count <= limit) {
            if (transform != null)
                buffer.append(transform(element))
            else
                buffer.append(element.toString())
        } else break
    }
    if (limit >= 0 && count > limit) buffer.append(truncated)
    buffer.append(postfix)
    return buffer
}

/**
 * Appends the string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun  DoubleArray.joinTo(buffer: A, separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Double) -> CharSequence)? = null): A {
    buffer.append(prefix)
    var count = 0
    for (element in this) {
        if (++count > 1) buffer.append(separator)
        if (limit < 0 || count <= limit) {
            if (transform != null)
                buffer.append(transform(element))
            else
                buffer.append(element.toString())
        } else break
    }
    if (limit >= 0 && count > limit) buffer.append(truncated)
    buffer.append(postfix)
    return buffer
}

/**
 * Appends the string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun  BooleanArray.joinTo(buffer: A, separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Boolean) -> CharSequence)? = null): A {
    buffer.append(prefix)
    var count = 0
    for (element in this) {
        if (++count > 1) buffer.append(separator)
        if (limit < 0 || count <= limit) {
            if (transform != null)
                buffer.append(transform(element))
            else
                buffer.append(element.toString())
        } else break
    }
    if (limit >= 0 && count > limit) buffer.append(truncated)
    buffer.append(postfix)
    return buffer
}

/**
 * Appends the string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun  CharArray.joinTo(buffer: A, separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Char) -> CharSequence)? = null): A {
    buffer.append(prefix)
    var count = 0
    for (element in this) {
        if (++count > 1) buffer.append(separator)
        if (limit < 0 || count <= limit) {
            if (transform != null)
                buffer.append(transform(element))
            else
                buffer.append(element.toString())
        } else break
    }
    if (limit >= 0 && count > limit) buffer.append(truncated)
    buffer.append(postfix)
    return buffer
}

/**
 * Creates a string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun  Array.joinToString(separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((T) -> CharSequence)? = null): String {
    return joinTo(StringBuilder(), separator, prefix, postfix, limit, truncated, transform).toString()
}

/**
 * Creates a string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun ByteArray.joinToString(separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Byte) -> CharSequence)? = null): String {
    return joinTo(StringBuilder(), separator, prefix, postfix, limit, truncated, transform).toString()
}

/**
 * Creates a string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun ShortArray.joinToString(separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Short) -> CharSequence)? = null): String {
    return joinTo(StringBuilder(), separator, prefix, postfix, limit, truncated, transform).toString()
}

/**
 * Creates a string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun IntArray.joinToString(separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Int) -> CharSequence)? = null): String {
    return joinTo(StringBuilder(), separator, prefix, postfix, limit, truncated, transform).toString()
}

/**
 * Creates a string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun LongArray.joinToString(separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Long) -> CharSequence)? = null): String {
    return joinTo(StringBuilder(), separator, prefix, postfix, limit, truncated, transform).toString()
}

/**
 * Creates a string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun FloatArray.joinToString(separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Float) -> CharSequence)? = null): String {
    return joinTo(StringBuilder(), separator, prefix, postfix, limit, truncated, transform).toString()
}

/**
 * Creates a string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun DoubleArray.joinToString(separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Double) -> CharSequence)? = null): String {
    return joinTo(StringBuilder(), separator, prefix, postfix, limit, truncated, transform).toString()
}

/**
 * Creates a string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun BooleanArray.joinToString(separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Boolean) -> CharSequence)? = null): String {
    return joinTo(StringBuilder(), separator, prefix, postfix, limit, truncated, transform).toString()
}

/**
 * Creates a string from all the elements separated using [separator] and using the given [prefix] and [postfix] if supplied.
 * 
 * If the collection could be huge, you can specify a non-negative value of [limit], in which case only the first [limit]
 * elements will be appended, followed by the [truncated] string (which defaults to "...").
 */
public fun CharArray.joinToString(separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((Char) -> CharSequence)? = null): String {
    return joinTo(StringBuilder(), separator, prefix, postfix, limit, truncated, transform).toString()
}

/**
 * Creates an [Iterable] instance that wraps the original array returning its elements when being iterated.
 */
public fun  Array.asIterable(): Iterable {
    if (isEmpty()) return emptyList()
    return Iterable { this.iterator() }
}

/**
 * Creates an [Iterable] instance that wraps the original array returning its elements when being iterated.
 */
public fun ByteArray.asIterable(): Iterable {
    if (isEmpty()) return emptyList()
    return Iterable { this.iterator() }
}

/**
 * Creates an [Iterable] instance that wraps the original array returning its elements when being iterated.
 */
public fun ShortArray.asIterable(): Iterable {
    if (isEmpty()) return emptyList()
    return Iterable { this.iterator() }
}

/**
 * Creates an [Iterable] instance that wraps the original array returning its elements when being iterated.
 */
public fun IntArray.asIterable(): Iterable {
    if (isEmpty()) return emptyList()
    return Iterable { this.iterator() }
}

/**
 * Creates an [Iterable] instance that wraps the original array returning its elements when being iterated.
 */
public fun LongArray.asIterable(): Iterable {
    if (isEmpty()) return emptyList()
    return Iterable { this.iterator() }
}

/**
 * Creates an [Iterable] instance that wraps the original array returning its elements when being iterated.
 */
public fun FloatArray.asIterable(): Iterable {
    if (isEmpty()) return emptyList()
    return Iterable { this.iterator() }
}

/**
 * Creates an [Iterable] instance that wraps the original array returning its elements when being iterated.
 */
public fun DoubleArray.asIterable(): Iterable {
    if (isEmpty()) return emptyList()
    return Iterable { this.iterator() }
}

/**
 * Creates an [Iterable] instance that wraps the original array returning its elements when being iterated.
 */
public fun BooleanArray.asIterable(): Iterable {
    if (isEmpty()) return emptyList()
    return Iterable { this.iterator() }
}

/**
 * Creates an [Iterable] instance that wraps the original array returning its elements when being iterated.
 */
public fun CharArray.asIterable(): Iterable {
    if (isEmpty()) return emptyList()
    return Iterable { this.iterator() }
}

/**
 * Creates a [Sequence] instance that wraps the original array returning its elements when being iterated.
 */
public fun  Array.asSequence(): Sequence {
    if (isEmpty()) return emptySequence()
    return Sequence { this.iterator() }
}

/**
 * Creates a [Sequence] instance that wraps the original array returning its elements when being iterated.
 */
public fun ByteArray.asSequence(): Sequence {
    if (isEmpty()) return emptySequence()
    return Sequence { this.iterator() }
}

/**
 * Creates a [Sequence] instance that wraps the original array returning its elements when being iterated.
 */
public fun ShortArray.asSequence(): Sequence {
    if (isEmpty()) return emptySequence()
    return Sequence { this.iterator() }
}

/**
 * Creates a [Sequence] instance that wraps the original array returning its elements when being iterated.
 */
public fun IntArray.asSequence(): Sequence {
    if (isEmpty()) return emptySequence()
    return Sequence { this.iterator() }
}

/**
 * Creates a [Sequence] instance that wraps the original array returning its elements when being iterated.
 */
public fun LongArray.asSequence(): Sequence {
    if (isEmpty()) return emptySequence()
    return Sequence { this.iterator() }
}

/**
 * Creates a [Sequence] instance that wraps the original array returning its elements when being iterated.
 */
public fun FloatArray.asSequence(): Sequence {
    if (isEmpty()) return emptySequence()
    return Sequence { this.iterator() }
}

/**
 * Creates a [Sequence] instance that wraps the original array returning its elements when being iterated.
 */
public fun DoubleArray.asSequence(): Sequence {
    if (isEmpty()) return emptySequence()
    return Sequence { this.iterator() }
}

/**
 * Creates a [Sequence] instance that wraps the original array returning its elements when being iterated.
 */
public fun BooleanArray.asSequence(): Sequence {
    if (isEmpty()) return emptySequence()
    return Sequence { this.iterator() }
}

/**
 * Creates a [Sequence] instance that wraps the original array returning its elements when being iterated.
 */
public fun CharArray.asSequence(): Sequence {
    if (isEmpty()) return emptySequence()
    return Sequence { this.iterator() }
}

/**
 * Returns a [List] that wraps the original array.
 */
@kotlin.jvm.JvmVersion
public fun  Array.asList(): List {
    return ArraysUtilJVM.asList(this)
}

/**
 * Returns a [List] that wraps the original array.
 */
@kotlin.jvm.JvmVersion
public fun ByteArray.asList(): List {
    return object : AbstractList(), RandomAccess {
        override val size: Int get() = [email protected]
        override fun isEmpty(): Boolean = [email protected]()
        override fun contains(element: Byte): Boolean = [email protected](element)
        override fun get(index: Int): Byte = this@asList[index]
        override fun indexOf(element: Byte): Int = [email protected](element)
        override fun lastIndexOf(element: Byte): Int = [email protected](element)
    }
}

/**
 * Returns a [List] that wraps the original array.
 */
@kotlin.jvm.JvmVersion
public fun ShortArray.asList(): List {
    return object : AbstractList(), RandomAccess {
        override val size: Int get() = [email protected]
        override fun isEmpty(): Boolean = [email protected]()
        override fun contains(element: Short): Boolean = [email protected](element)
        override fun get(index: Int): Short = this@asList[index]
        override fun indexOf(element: Short): Int = [email protected](element)
        override fun lastIndexOf(element: Short): Int = [email protected](element)
    }
}

/**
 * Returns a [List] that wraps the original array.
 */
@kotlin.jvm.JvmVersion
public fun IntArray.asList(): List {
    return object : AbstractList(), RandomAccess {
        override val size: Int get() = [email protected]
        override fun isEmpty(): Boolean = [email protected]()
        override fun contains(element: Int): Boolean = [email protected](element)
        override fun get(index: Int): Int = this@asList[index]
        override fun indexOf(element: Int): Int = [email protected](element)
        override fun lastIndexOf(element: Int): Int = [email protected](element)
    }
}

/**
 * Returns a [List] that wraps the original array.
 */
@kotlin.jvm.JvmVersion
public fun LongArray.asList(): List {
    return object : AbstractList(), RandomAccess {
        override val size: Int get() = [email protected]
        override fun isEmpty(): Boolean = [email protected]()
        override fun contains(element: Long): Boolean = [email protected](element)
        override fun get(index: Int): Long = this@asList[index]
        override fun indexOf(element: Long): Int = [email protected](element)
        override fun lastIndexOf(element: Long): Int = [email protected](element)
    }
}

/**
 * Returns a [List] that wraps the original array.
 */
@kotlin.jvm.JvmVersion
public fun FloatArray.asList(): List {
    return object : AbstractList(), RandomAccess {
        override val size: Int get() = [email protected]
        override fun isEmpty(): Boolean = [email protected]()
        override fun contains(element: Float): Boolean = [email protected](element)
        override fun get(index: Int): Float = this@asList[index]
        override fun indexOf(element: Float): Int = [email protected](element)
        override fun lastIndexOf(element: Float): Int = [email protected](element)
    }
}

/**
 * Returns a [List] that wraps the original array.
 */
@kotlin.jvm.JvmVersion
public fun DoubleArray.asList(): List {
    return object : AbstractList(), RandomAccess {
        override val size: Int get() = [email protected]
        override fun isEmpty(): Boolean = [email protected]()
        override fun contains(element: Double): Boolean = [email protected](element)
        override fun get(index: Int): Double = this@asList[index]
        override fun indexOf(element: Double): Int = [email protected](element)
        override fun lastIndexOf(element: Double): Int = [email protected](element)
    }
}

/**
 * Returns a [List] that wraps the original array.
 */
@kotlin.jvm.JvmVersion
public fun BooleanArray.asList(): List {
    return object : AbstractList(), RandomAccess {
        override val size: Int get() = [email protected]
        override fun isEmpty(): Boolean = [email protected]()
        override fun contains(element: Boolean): Boolean = [email protected](element)
        override fun get(index: Int): Boolean = this@asList[index]
        override fun indexOf(element: Boolean): Int = [email protected](element)
        override fun lastIndexOf(element: Boolean): Int = [email protected](element)
    }
}

/**
 * Returns a [List] that wraps the original array.
 */
@kotlin.jvm.JvmVersion
public fun CharArray.asList(): List {
    return object : AbstractList(), RandomAccess {
        override val size: Int get() = [email protected]
        override fun isEmpty(): Boolean = [email protected]()
        override fun contains(element: Char): Boolean = [email protected](element)
        override fun get(index: Int): Char = this@asList[index]
        override fun indexOf(element: Char): Int = [email protected](element)
        override fun lastIndexOf(element: Char): Int = [email protected](element)
    }
}

/**
 * Searches the array or the range of the array for the provided [element] using the binary search algorithm.
 * The array is expected to be sorted according to the specified [comparator], otherwise the result is undefined.
 * 
 * If the array contains multiple elements equal to the specified [element], there is no guarantee which one will be found.
 * 
 * @return the index of the element, if it is contained in the array within the specified range;
 * otherwise, the inverted insertion point `(-insertion point - 1)`.
 * The insertion point is defined as the index at which the element should be inserted,
 * so that the array (or the specified subrange of array) still remains sorted according to the specified [comparator].
 */
@kotlin.jvm.JvmVersion
public fun  Array.binarySearch(element: T, comparator: Comparator, fromIndex: Int = 0, toIndex: Int = size): Int {
    return Arrays.binarySearch(this, fromIndex, toIndex, element, comparator)
}

/**
 * Searches the array or the range of the array for the provided [element] using the binary search algorithm.
 * The array is expected to be sorted, otherwise the result is undefined.
 * 
 * If the array contains multiple elements equal to the specified [element], there is no guarantee which one will be found.
 * 
 * @return the index of the element, if it is contained in the array within the specified range;
 * otherwise, the inverted insertion point `(-insertion point - 1)`.
 * The insertion point is defined as the index at which the element should be inserted,
 * so that the array (or the specified subrange of array) still remains sorted.
 */
@kotlin.jvm.JvmVersion
public fun  Array.binarySearch(element: T, fromIndex: Int = 0, toIndex: Int = size): Int {
    return Arrays.binarySearch(this, fromIndex, toIndex, element)
}

/**
 * Searches the array or the range of the array for the provided [element] using the binary search algorithm.
 * The array is expected to be sorted, otherwise the result is undefined.
 * 
 * If the array contains multiple elements equal to the specified [element], there is no guarantee which one will be found.
 * 
 * @return the index of the element, if it is contained in the array within the specified range;
 * otherwise, the inverted insertion point `(-insertion point - 1)`.
 * The insertion point is defined as the index at which the element should be inserted,
 * so that the array (or the specified subrange of array) still remains sorted.
 */
@kotlin.jvm.JvmVersion
public fun ByteArray.binarySearch(element: Byte, fromIndex: Int = 0, toIndex: Int = size): Int {
    return Arrays.binarySearch(this, fromIndex, toIndex, element)
}

/**
 * Searches the array or the range of the array for the provided [element] using the binary search algorithm.
 * The array is expected to be sorted, otherwise the result is undefined.
 * 
 * If the array contains multiple elements equal to the specified [element], there is no guarantee which one will be found.
 * 
 * @return the index of the element, if it is contained in the array within the specified range;
 * otherwise, the inverted insertion point `(-insertion point - 1)`.
 * The insertion point is defined as the index at which the element should be inserted,
 * so that the array (or the specified subrange of array) still remains sorted.
 */
@kotlin.jvm.JvmVersion
public fun ShortArray.binarySearch(element: Short, fromIndex: Int = 0, toIndex: Int = size): Int {
    return Arrays.binarySearch(this, fromIndex, toIndex, element)
}

/**
 * Searches the array or the range of the array for the provided [element] using the binary search algorithm.
 * The array is expected to be sorted, otherwise the result is undefined.
 * 
 * If the array contains multiple elements equal to the specified [element], there is no guarantee which one will be found.
 * 
 * @return the index of the element, if it is contained in the array within the specified range;
 * otherwise, the inverted insertion point `(-insertion point - 1)`.
 * The insertion point is defined as the index at which the element should be inserted,
 * so that the array (or the specified subrange of array) still remains sorted.
 */
@kotlin.jvm.JvmVersion
public fun IntArray.binarySearch(element: Int, fromIndex: Int = 0, toIndex: Int = size): Int {
    return Arrays.binarySearch(this, fromIndex, toIndex, element)
}

/**
 * Searches the array or the range of the array for the provided [element] using the binary search algorithm.
 * The array is expected to be sorted, otherwise the result is undefined.
 * 
 * If the array contains multiple elements equal to the specified [element], there is no guarantee which one will be found.
 * 
 * @return the index of the element, if it is contained in the array within the specified range;
 * otherwise, the inverted insertion point `(-insertion point - 1)`.
 * The insertion point is defined as the index at which the element should be inserted,
 * so that the array (or the specified subrange of array) still remains sorted.
 */
@kotlin.jvm.JvmVersion
public fun LongArray.binarySearch(element: Long, fromIndex: Int = 0, toIndex: Int = size): Int {
    return Arrays.binarySearch(this, fromIndex, toIndex, element)
}

/**
 * Searches the array or the range of the array for the provided [element] using the binary search algorithm.
 * The array is expected to be sorted, otherwise the result is undefined.
 * 
 * If the array contains multiple elements equal to the specified [element], there is no guarantee which one will be found.
 * 
 * @return the index of the element, if it is contained in the array within the specified range;
 * otherwise, the inverted insertion point `(-insertion point - 1)`.
 * The insertion point is defined as the index at which the element should be inserted,
 * so that the array (or the specified subrange of array) still remains sorted.
 */
@kotlin.jvm.JvmVersion
public fun FloatArray.binarySearch(element: Float, fromIndex: Int = 0, toIndex: Int = size): Int {
    return Arrays.binarySearch(this, fromIndex, toIndex, element)
}

/**
 * Searches the array or the range of the array for the provided [element] using the binary search algorithm.
 * The array is expected to be sorted, otherwise the result is undefined.
 * 
 * If the array contains multiple elements equal to the specified [element], there is no guarantee which one will be found.
 * 
 * @return the index of the element, if it is contained in the array within the specified range;
 * otherwise, the inverted insertion point `(-insertion point - 1)`.
 * The insertion point is defined as the index at which the element should be inserted,
 * so that the array (or the specified subrange of array) still remains sorted.
 */
@kotlin.jvm.JvmVersion
public fun DoubleArray.binarySearch(element: Double, fromIndex: Int = 0, toIndex: Int = size): Int {
    return Arrays.binarySearch(this, fromIndex, toIndex, element)
}

/**
 * Searches the array or the range of the array for the provided [element] using the binary search algorithm.
 * The array is expected to be sorted, otherwise the result is undefined.
 * 
 * If the array contains multiple elements equal to the specified [element], there is no guarantee which one will be found.
 * 
 * @return the index of the element, if it is contained in the array within the specified range;
 * otherwise, the inverted insertion point `(-insertion point - 1)`.
 * The insertion point is defined as the index at which the element should be inserted,
 * so that the array (or the specified subrange of array) still remains sorted.
 */
@kotlin.jvm.JvmVersion
public fun CharArray.binarySearch(element: Char, fromIndex: Int = 0, toIndex: Int = size): Int {
    return Arrays.binarySearch(this, fromIndex, toIndex, element)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun  Array.copyOf(): Array {
    return Arrays.copyOf(this, size)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun ByteArray.copyOf(): ByteArray {
    return Arrays.copyOf(this, size)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun ShortArray.copyOf(): ShortArray {
    return Arrays.copyOf(this, size)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun IntArray.copyOf(): IntArray {
    return Arrays.copyOf(this, size)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun LongArray.copyOf(): LongArray {
    return Arrays.copyOf(this, size)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun FloatArray.copyOf(): FloatArray {
    return Arrays.copyOf(this, size)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun DoubleArray.copyOf(): DoubleArray {
    return Arrays.copyOf(this, size)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun BooleanArray.copyOf(): BooleanArray {
    return Arrays.copyOf(this, size)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun CharArray.copyOf(): CharArray {
    return Arrays.copyOf(this, size)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun  Array.copyOf(newSize: Int): Array {
    return Arrays.copyOf(this, newSize)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun ByteArray.copyOf(newSize: Int): ByteArray {
    return Arrays.copyOf(this, newSize)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun ShortArray.copyOf(newSize: Int): ShortArray {
    return Arrays.copyOf(this, newSize)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun IntArray.copyOf(newSize: Int): IntArray {
    return Arrays.copyOf(this, newSize)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun LongArray.copyOf(newSize: Int): LongArray {
    return Arrays.copyOf(this, newSize)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun FloatArray.copyOf(newSize: Int): FloatArray {
    return Arrays.copyOf(this, newSize)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun DoubleArray.copyOf(newSize: Int): DoubleArray {
    return Arrays.copyOf(this, newSize)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun BooleanArray.copyOf(newSize: Int): BooleanArray {
    return Arrays.copyOf(this, newSize)
}

/**
 * Returns new array which is a copy of the original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun CharArray.copyOf(newSize: Int): CharArray {
    return Arrays.copyOf(this, newSize)
}

/**
 * Returns new array which is a copy of range of original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun  Array.copyOfRange(fromIndex: Int, toIndex: Int): Array {
    return Arrays.copyOfRange(this, fromIndex, toIndex)
}

/**
 * Returns new array which is a copy of range of original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun ByteArray.copyOfRange(fromIndex: Int, toIndex: Int): ByteArray {
    return Arrays.copyOfRange(this, fromIndex, toIndex)
}

/**
 * Returns new array which is a copy of range of original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun ShortArray.copyOfRange(fromIndex: Int, toIndex: Int): ShortArray {
    return Arrays.copyOfRange(this, fromIndex, toIndex)
}

/**
 * Returns new array which is a copy of range of original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun IntArray.copyOfRange(fromIndex: Int, toIndex: Int): IntArray {
    return Arrays.copyOfRange(this, fromIndex, toIndex)
}

/**
 * Returns new array which is a copy of range of original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun LongArray.copyOfRange(fromIndex: Int, toIndex: Int): LongArray {
    return Arrays.copyOfRange(this, fromIndex, toIndex)
}

/**
 * Returns new array which is a copy of range of original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun FloatArray.copyOfRange(fromIndex: Int, toIndex: Int): FloatArray {
    return Arrays.copyOfRange(this, fromIndex, toIndex)
}

/**
 * Returns new array which is a copy of range of original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun DoubleArray.copyOfRange(fromIndex: Int, toIndex: Int): DoubleArray {
    return Arrays.copyOfRange(this, fromIndex, toIndex)
}

/**
 * Returns new array which is a copy of range of original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun BooleanArray.copyOfRange(fromIndex: Int, toIndex: Int): BooleanArray {
    return Arrays.copyOfRange(this, fromIndex, toIndex)
}

/**
 * Returns new array which is a copy of range of original array.
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun CharArray.copyOfRange(fromIndex: Int, toIndex: Int): CharArray {
    return Arrays.copyOfRange(this, fromIndex, toIndex)
}

/**
 * Fills original array with the provided value.
 */
@kotlin.jvm.JvmVersion
public fun  Array.fill(element: T, fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.fill(this, fromIndex, toIndex, element)
}

/**
 * Fills original array with the provided value.
 */
@kotlin.jvm.JvmVersion
public fun ByteArray.fill(element: Byte, fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.fill(this, fromIndex, toIndex, element)
}

/**
 * Fills original array with the provided value.
 */
@kotlin.jvm.JvmVersion
public fun ShortArray.fill(element: Short, fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.fill(this, fromIndex, toIndex, element)
}

/**
 * Fills original array with the provided value.
 */
@kotlin.jvm.JvmVersion
public fun IntArray.fill(element: Int, fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.fill(this, fromIndex, toIndex, element)
}

/**
 * Fills original array with the provided value.
 */
@kotlin.jvm.JvmVersion
public fun LongArray.fill(element: Long, fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.fill(this, fromIndex, toIndex, element)
}

/**
 * Fills original array with the provided value.
 */
@kotlin.jvm.JvmVersion
public fun FloatArray.fill(element: Float, fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.fill(this, fromIndex, toIndex, element)
}

/**
 * Fills original array with the provided value.
 */
@kotlin.jvm.JvmVersion
public fun DoubleArray.fill(element: Double, fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.fill(this, fromIndex, toIndex, element)
}

/**
 * Fills original array with the provided value.
 */
@kotlin.jvm.JvmVersion
public fun BooleanArray.fill(element: Boolean, fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.fill(this, fromIndex, toIndex, element)
}

/**
 * Fills original array with the provided value.
 */
@kotlin.jvm.JvmVersion
public fun CharArray.fill(element: Char, fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.fill(this, fromIndex, toIndex, element)
}

/**
 * Returns a list containing all elements that are instances of specified class.
 */
@kotlin.jvm.JvmVersion
public fun  Array<*>.filterIsInstance(klass: Class): List {
    return filterIsInstanceTo(ArrayList(), klass)
}

/**
 * Appends all elements that are instances of specified class to the given [destination].
 */
@kotlin.jvm.JvmVersion
public fun , R> Array<*>.filterIsInstanceTo(destination: C, klass: Class): C {
    @Suppress("UNCHECKED_CAST")
    for (element in this) if (klass.isInstance(element)) destination.add(element as R)
    return destination
}

/**
 * Returns an array containing all elements of the original array and then the given [element].
 */
@kotlin.jvm.JvmVersion
public operator fun  Array.plus(element: T): Array {
    val index = size
    val result = Arrays.copyOf(this, index + 1)
    result[index] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then the given [element].
 */
@kotlin.jvm.JvmVersion
public operator fun ByteArray.plus(element: Byte): ByteArray {
    val index = size
    val result = Arrays.copyOf(this, index + 1)
    result[index] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then the given [element].
 */
@kotlin.jvm.JvmVersion
public operator fun ShortArray.plus(element: Short): ShortArray {
    val index = size
    val result = Arrays.copyOf(this, index + 1)
    result[index] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then the given [element].
 */
@kotlin.jvm.JvmVersion
public operator fun IntArray.plus(element: Int): IntArray {
    val index = size
    val result = Arrays.copyOf(this, index + 1)
    result[index] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then the given [element].
 */
@kotlin.jvm.JvmVersion
public operator fun LongArray.plus(element: Long): LongArray {
    val index = size
    val result = Arrays.copyOf(this, index + 1)
    result[index] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then the given [element].
 */
@kotlin.jvm.JvmVersion
public operator fun FloatArray.plus(element: Float): FloatArray {
    val index = size
    val result = Arrays.copyOf(this, index + 1)
    result[index] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then the given [element].
 */
@kotlin.jvm.JvmVersion
public operator fun DoubleArray.plus(element: Double): DoubleArray {
    val index = size
    val result = Arrays.copyOf(this, index + 1)
    result[index] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then the given [element].
 */
@kotlin.jvm.JvmVersion
public operator fun BooleanArray.plus(element: Boolean): BooleanArray {
    val index = size
    val result = Arrays.copyOf(this, index + 1)
    result[index] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then the given [element].
 */
@kotlin.jvm.JvmVersion
public operator fun CharArray.plus(element: Char): CharArray {
    val index = size
    val result = Arrays.copyOf(this, index + 1)
    result[index] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] collection.
 */
@kotlin.jvm.JvmVersion
public operator fun  Array.plus(elements: Collection): Array {
    var index = size
    val result = Arrays.copyOf(this, index + elements.size)
    for (element in elements) result[index++] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] collection.
 */
@kotlin.jvm.JvmVersion
public operator fun ByteArray.plus(elements: Collection): ByteArray {
    var index = size
    val result = Arrays.copyOf(this, index + elements.size)
    for (element in elements) result[index++] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] collection.
 */
@kotlin.jvm.JvmVersion
public operator fun ShortArray.plus(elements: Collection): ShortArray {
    var index = size
    val result = Arrays.copyOf(this, index + elements.size)
    for (element in elements) result[index++] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] collection.
 */
@kotlin.jvm.JvmVersion
public operator fun IntArray.plus(elements: Collection): IntArray {
    var index = size
    val result = Arrays.copyOf(this, index + elements.size)
    for (element in elements) result[index++] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] collection.
 */
@kotlin.jvm.JvmVersion
public operator fun LongArray.plus(elements: Collection): LongArray {
    var index = size
    val result = Arrays.copyOf(this, index + elements.size)
    for (element in elements) result[index++] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] collection.
 */
@kotlin.jvm.JvmVersion
public operator fun FloatArray.plus(elements: Collection): FloatArray {
    var index = size
    val result = Arrays.copyOf(this, index + elements.size)
    for (element in elements) result[index++] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] collection.
 */
@kotlin.jvm.JvmVersion
public operator fun DoubleArray.plus(elements: Collection): DoubleArray {
    var index = size
    val result = Arrays.copyOf(this, index + elements.size)
    for (element in elements) result[index++] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] collection.
 */
@kotlin.jvm.JvmVersion
public operator fun BooleanArray.plus(elements: Collection): BooleanArray {
    var index = size
    val result = Arrays.copyOf(this, index + elements.size)
    for (element in elements) result[index++] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] collection.
 */
@kotlin.jvm.JvmVersion
public operator fun CharArray.plus(elements: Collection): CharArray {
    var index = size
    val result = Arrays.copyOf(this, index + elements.size)
    for (element in elements) result[index++] = element
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] array.
 */
@kotlin.jvm.JvmVersion
public operator fun  Array.plus(elements: Array): Array {
    val thisSize = size
    val arraySize = elements.size
    val result = Arrays.copyOf(this, thisSize + arraySize)
    System.arraycopy(elements, 0, result, thisSize, arraySize)
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] array.
 */
@kotlin.jvm.JvmVersion
public operator fun ByteArray.plus(elements: ByteArray): ByteArray {
    val thisSize = size
    val arraySize = elements.size
    val result = Arrays.copyOf(this, thisSize + arraySize)
    System.arraycopy(elements, 0, result, thisSize, arraySize)
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] array.
 */
@kotlin.jvm.JvmVersion
public operator fun ShortArray.plus(elements: ShortArray): ShortArray {
    val thisSize = size
    val arraySize = elements.size
    val result = Arrays.copyOf(this, thisSize + arraySize)
    System.arraycopy(elements, 0, result, thisSize, arraySize)
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] array.
 */
@kotlin.jvm.JvmVersion
public operator fun IntArray.plus(elements: IntArray): IntArray {
    val thisSize = size
    val arraySize = elements.size
    val result = Arrays.copyOf(this, thisSize + arraySize)
    System.arraycopy(elements, 0, result, thisSize, arraySize)
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] array.
 */
@kotlin.jvm.JvmVersion
public operator fun LongArray.plus(elements: LongArray): LongArray {
    val thisSize = size
    val arraySize = elements.size
    val result = Arrays.copyOf(this, thisSize + arraySize)
    System.arraycopy(elements, 0, result, thisSize, arraySize)
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] array.
 */
@kotlin.jvm.JvmVersion
public operator fun FloatArray.plus(elements: FloatArray): FloatArray {
    val thisSize = size
    val arraySize = elements.size
    val result = Arrays.copyOf(this, thisSize + arraySize)
    System.arraycopy(elements, 0, result, thisSize, arraySize)
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] array.
 */
@kotlin.jvm.JvmVersion
public operator fun DoubleArray.plus(elements: DoubleArray): DoubleArray {
    val thisSize = size
    val arraySize = elements.size
    val result = Arrays.copyOf(this, thisSize + arraySize)
    System.arraycopy(elements, 0, result, thisSize, arraySize)
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] array.
 */
@kotlin.jvm.JvmVersion
public operator fun BooleanArray.plus(elements: BooleanArray): BooleanArray {
    val thisSize = size
    val arraySize = elements.size
    val result = Arrays.copyOf(this, thisSize + arraySize)
    System.arraycopy(elements, 0, result, thisSize, arraySize)
    return result
}

/**
 * Returns an array containing all elements of the original array and then all elements of the given [elements] array.
 */
@kotlin.jvm.JvmVersion
public operator fun CharArray.plus(elements: CharArray): CharArray {
    val thisSize = size
    val arraySize = elements.size
    val result = Arrays.copyOf(this, thisSize + arraySize)
    System.arraycopy(elements, 0, result, thisSize, arraySize)
    return result
}

/**
 * Returns an array containing all elements of the original array and then the given [element].
 */
@kotlin.jvm.JvmVersion
@kotlin.internal.InlineOnly
public inline fun  Array.plusElement(element: T): Array {
    return plus(element)
}

/**
 * Sorts the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun  Array.sort(): Unit {
    if (size > 1) Arrays.sort(this)
}

/**
 * Sorts the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun ByteArray.sort(): Unit {
    if (size > 1) Arrays.sort(this)
}

/**
 * Sorts the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun ShortArray.sort(): Unit {
    if (size > 1) Arrays.sort(this)
}

/**
 * Sorts the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun IntArray.sort(): Unit {
    if (size > 1) Arrays.sort(this)
}

/**
 * Sorts the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun LongArray.sort(): Unit {
    if (size > 1) Arrays.sort(this)
}

/**
 * Sorts the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun FloatArray.sort(): Unit {
    if (size > 1) Arrays.sort(this)
}

/**
 * Sorts the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun DoubleArray.sort(): Unit {
    if (size > 1) Arrays.sort(this)
}

/**
 * Sorts the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun CharArray.sort(): Unit {
    if (size > 1) Arrays.sort(this)
}

/**
 * Sorts a range in the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun  Array.sort(fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.sort(this, fromIndex, toIndex)
}

/**
 * Sorts a range in the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun ByteArray.sort(fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.sort(this, fromIndex, toIndex)
}

/**
 * Sorts a range in the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun ShortArray.sort(fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.sort(this, fromIndex, toIndex)
}

/**
 * Sorts a range in the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun IntArray.sort(fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.sort(this, fromIndex, toIndex)
}

/**
 * Sorts a range in the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun LongArray.sort(fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.sort(this, fromIndex, toIndex)
}

/**
 * Sorts a range in the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun FloatArray.sort(fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.sort(this, fromIndex, toIndex)
}

/**
 * Sorts a range in the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun DoubleArray.sort(fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.sort(this, fromIndex, toIndex)
}

/**
 * Sorts a range in the array in-place.
 */
@kotlin.jvm.JvmVersion
public fun CharArray.sort(fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.sort(this, fromIndex, toIndex)
}

/**
 * Sorts the array in-place with the given [comparator].
 */
@kotlin.jvm.JvmVersion
public fun  Array.sortWith(comparator: Comparator): Unit {
    if (size > 1) Arrays.sort(this, comparator)
}

/**
 * Sorts a range in the array in-place with the given [comparator].
 */
@kotlin.jvm.JvmVersion
public fun  Array.sortWith(comparator: Comparator, fromIndex: Int = 0, toIndex: Int = size): Unit {
    Arrays.sort(this, fromIndex, toIndex, comparator)
}

/**
 * Returns a *typed* object array containing all of the elements of this primitive array.
 */
@kotlin.jvm.JvmVersion
public fun ByteArray.toTypedArray(): Array {
    val result = arrayOfNulls(size)
    for (index in indices)
        result[index] = this[index]
    @Suppress("UNCHECKED_CAST")
    return result as Array
}

/**
 * Returns a *typed* object array containing all of the elements of this primitive array.
 */
@kotlin.jvm.JvmVersion
public fun ShortArray.toTypedArray(): Array {
    val result = arrayOfNulls(size)
    for (index in indices)
        result[index] = this[index]
    @Suppress("UNCHECKED_CAST")
    return result as Array
}

/**
 * Returns a *typed* object array containing all of the elements of this primitive array.
 */
@kotlin.jvm.JvmVersion
public fun IntArray.toTypedArray(): Array {
    val result = arrayOfNulls(size)
    for (index in indices)
        result[index] = this[index]
    @Suppress("UNCHECKED_CAST")
    return result as Array
}

/**
 * Returns a *typed* object array containing all of the elements of this primitive array.
 */
@kotlin.jvm.JvmVersion
public fun LongArray.toTypedArray(): Array {
    val result = arrayOfNulls(size)
    for (index in indices)
        result[index] = this[index]
    @Suppress("UNCHECKED_CAST")
    return result as Array
}

/**
 * Returns a *typed* object array containing all of the elements of this primitive array.
 */
@kotlin.jvm.JvmVersion
public fun FloatArray.toTypedArray(): Array {
    val result = arrayOfNulls(size)
    for (index in indices)
        result[index] = this[index]
    @Suppress("UNCHECKED_CAST")
    return result as Array
}

/**
 * Returns a *typed* object array containing all of the elements of this primitive array.
 */
@kotlin.jvm.JvmVersion
public fun DoubleArray.toTypedArray(): Array {
    val result = arrayOfNulls(size)
    for (index in indices)
        result[index] = this[index]
    @Suppress("UNCHECKED_CAST")
    return result as Array
}

/**
 * Returns a *typed* object array containing all of the elements of this primitive array.
 */
@kotlin.jvm.JvmVersion
public fun BooleanArray.toTypedArray(): Array {
    val result = arrayOfNulls(size)
    for (index in indices)
        result[index] = this[index]
    @Suppress("UNCHECKED_CAST")
    return result as Array
}

/**
 * Returns a *typed* object array containing all of the elements of this primitive array.
 */
@kotlin.jvm.JvmVersion
public fun CharArray.toTypedArray(): Array {
    val result = arrayOfNulls(size)
    for (index in indices)
        result[index] = this[index]
    @Suppress("UNCHECKED_CAST")
    return result as Array
}

/**
 * Returns an average value of elements in the array.
 */
@kotlin.jvm.JvmName("averageOfByte")
public fun Array.average(): Double {
    var sum: Double = 0.0
    var count: Int = 0
    for (element in this) {
        sum += element
        count += 1
    }
    return if (count == 0) 0.0 else sum / count
}

/**
 * Returns an average value of elements in the array.
 */
@kotlin.jvm.JvmName("averageOfShort")
public fun Array.average(): Double {
    var sum: Double = 0.0
    var count: Int = 0
    for (element in this) {
        sum += element
        count += 1
    }
    return if (count == 0) 0.0 else sum / count
}

/**
 * Returns an average value of elements in the array.
 */
@kotlin.jvm.JvmName("averageOfInt")
public fun Array.average(): Double {
    var sum: Double = 0.0
    var count: Int = 0
    for (element in this) {
        sum += element
        count += 1
    }
    return if (count == 0) 0.0 else sum / count
}

/**
 * Returns an average value of elements in the array.
 */
@kotlin.jvm.JvmName("averageOfLong")
public fun Array.average(): Double {
    var sum: Double = 0.0
    var count: Int = 0
    for (element in this) {
        sum += element
        count += 1
    }
    return if (count == 0) 0.0 else sum / count
}

/**
 * Returns an average value of elements in the array.
 */
@kotlin.jvm.JvmName("averageOfFloat")
public fun Array.average(): Double {
    var sum: Double = 0.0
    var count: Int = 0
    for (element in this) {
        sum += element
        count += 1
    }
    return if (count == 0) 0.0 else sum / count
}

/**
 * Returns an average value of elements in the array.
 */
@kotlin.jvm.JvmName("averageOfDouble")
public fun Array.average(): Double {
    var sum: Double = 0.0
    var count: Int = 0
    for (element in this) {
        sum += element
        count += 1
    }
    return if (count == 0) 0.0 else sum / count
}

/**
 * Returns an average value of elements in the array.
 */
public fun ByteArray.average(): Double {
    var sum: Double = 0.0
    var count: Int = 0
    for (element in this) {
        sum += element
        count += 1
    }
    return if (count == 0) 0.0 else sum / count
}

/**
 * Returns an average value of elements in the array.
 */
public fun ShortArray.average(): Double {
    var sum: Double = 0.0
    var count: Int = 0
    for (element in this) {
        sum += element
        count += 1
    }
    return if (count == 0) 0.0 else sum / count
}

/**
 * Returns an average value of elements in the array.
 */
public fun IntArray.average(): Double {
    var sum: Double = 0.0
    var count: Int = 0
    for (element in this) {
        sum += element
        count += 1
    }
    return if (count == 0) 0.0 else sum / count
}

/**
 * Returns an average value of elements in the array.
 */
public fun LongArray.average(): Double {
    var sum: Double = 0.0
    var count: Int = 0
    for (element in this) {
        sum += element
        count += 1
    }
    return if (count == 0) 0.0 else sum / count
}

/**
 * Returns an average value of elements in the array.
 */
public fun FloatArray.average(): Double {
    var sum: Double = 0.0
    var count: Int = 0
    for (element in this) {
        sum += element
        count += 1
    }
    return if (count == 0) 0.0 else sum / count
}

/**
 * Returns an average value of elements in the array.
 */
public fun DoubleArray.average(): Double {
    var sum: Double = 0.0
    var count: Int = 0
    for (element in this) {
        sum += element
        count += 1
    }
    return if (count == 0) 0.0 else sum / count
}

/**
 * Returns the sum of all elements in the array.
 */
@kotlin.jvm.JvmName("sumOfByte")
public fun Array.sum(): Int {
    var sum: Int = 0
    for (element in this) {
        sum += element
    }
    return sum
}

/**
 * Returns the sum of all elements in the array.
 */
@kotlin.jvm.JvmName("sumOfShort")
public fun Array.sum(): Int {
    var sum: Int = 0
    for (element in this) {
        sum += element
    }
    return sum
}

/**
 * Returns the sum of all elements in the array.
 */
@kotlin.jvm.JvmName("sumOfInt")
public fun Array.sum(): Int {
    var sum: Int = 0
    for (element in this) {
        sum += element
    }
    return sum
}

/**
 * Returns the sum of all elements in the array.
 */
@kotlin.jvm.JvmName("sumOfLong")
public fun Array.sum(): Long {
    var sum: Long = 0L
    for (element in this) {
        sum += element
    }
    return sum
}

/**
 * Returns the sum of all elements in the array.
 */
@kotlin.jvm.JvmName("sumOfFloat")
public fun Array.sum(): Float {
    var sum: Float = 0.0f
    for (element in this) {
        sum += element
    }
    return sum
}

/**
 * Returns the sum of all elements in the array.
 */
@kotlin.jvm.JvmName("sumOfDouble")
public fun Array.sum(): Double {
    var sum: Double = 0.0
    for (element in this) {
        sum += element
    }
    return sum
}

/**
 * Returns the sum of all elements in the array.
 */
public fun ByteArray.sum(): Int {
    var sum: Int = 0
    for (element in this) {
        sum += element
    }
    return sum
}

/**
 * Returns the sum of all elements in the array.
 */
public fun ShortArray.sum(): Int {
    var sum: Int = 0
    for (element in this) {
        sum += element
    }
    return sum
}

/**
 * Returns the sum of all elements in the array.
 */
public fun IntArray.sum(): Int {
    var sum: Int = 0
    for (element in this) {
        sum += element
    }
    return sum
}

/**
 * Returns the sum of all elements in the array.
 */
public fun LongArray.sum(): Long {
    var sum: Long = 0L
    for (element in this) {
        sum += element
    }
    return sum
}

/**
 * Returns the sum of all elements in the array.
 */
public fun FloatArray.sum(): Float {
    var sum: Float = 0.0f
    for (element in this) {
        sum += element
    }
    return sum
}

/**
 * Returns the sum of all elements in the array.
 */
public fun DoubleArray.sum(): Double {
    var sum: Double = 0.0
    for (element in this) {
        sum += element
    }
    return sum
}





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