@ExperimentalUnsignedTypes inline class UIntArray : Collection<UInt>
Creates a new array of the specified size, with all elements initialized to zero.
UIntArray(size: Int)
Returns the number of elements in the array.
val size: Int
fun contains(element: UInt): Boolean
fun containsAll(elements: Collection<UInt>): Boolean
Returns the array element at the given index. This method can be called using the index operator.
operator fun get(index: Int): UInt
fun isEmpty(): Boolean
Creates an iterator over the elements of the array.
operator fun iterator(): UIntIterator
Returns the range of valid indices for the array.
val UIntArray.indices: IntRange
Returns the last valid index for the array.
val UIntArray.lastIndex: Int
Returns true
if all elements match the given predicate.
fun UIntArray.all(predicate: (UInt) -> Boolean): Boolean
fun <T> Iterable<T>.all(predicate: (T) -> Boolean): Boolean
Returns true
if array has at least one element.
fun UIntArray.any(): Boolean
Returns true
if at least one element matches the given predicate.
fun UIntArray.any(predicate: (UInt) -> Boolean): Boolean
fun <T> Iterable<T>.any(predicate: (T) -> Boolean): Boolean
Returns an array of type IntArray, which is a view of this array where each element is a signed reinterpretation of the corresponding element of this array.
fun UIntArray.asIntArray(): IntArray
Returns this collection as an Iterable.
fun <T> Iterable<T>.asIterable(): Iterable<T>
Creates a Sequence instance that wraps the original collection returning its elements when being iterated.
fun <T> Iterable<T>.asSequence(): Sequence<T>
Returns a Map containing the elements from the given collection indexed by the key returned from keySelector function applied to each element.
fun <T, K> Iterable<T>.associateBy( keySelector: (T) -> K ): Map<K, T>
Returns a Map containing the values provided by valueTransform and indexed by keySelector functions applied to elements of the given collection.
fun <T, K, V> Iterable<T>.associateBy( keySelector: (T) -> K, valueTransform: (T) -> V ): Map<K, V>
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 collection and value is the element itself.
fun <T, K, M : MutableMap<in K, in T>> Iterable<T>.associateByTo( destination: M, keySelector: (T) -> K ): M
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 collection.
fun <T, K, V, M : MutableMap<in K, in V>> Iterable<T>.associateByTo( destination: M, keySelector: (T) -> K, valueTransform: (T) -> V ): M
Populates and returns the destination mutable map with key-value pairs provided by transform function applied to each element of the given collection.
fun <T, K, V, M : MutableMap<in K, in V>> Iterable<T>.associateTo( destination: M, transform: (T) -> Pair<K, V> ): M
Returns a Map where keys are elements from the given array and values are produced by the valueSelector function applied to each element.
fun <V> UIntArray.associateWith( valueSelector: (UInt) -> V ): Map<UInt, V>
Returns a Map where keys are elements from the given collection and values are produced by the valueSelector function applied to each element.
fun <K, V> Iterable<K>.associateWith( valueSelector: (K) -> V ): Map<K, V>
Populates and returns the destination mutable map with key-value pairs for each element of the given array, where key is the element itself and value is provided by the valueSelector function applied to that key.
fun <V, M : MutableMap<in UInt, in V>> UIntArray.associateWithTo( destination: M, valueSelector: (UInt) -> V ): M
Populates and returns the destination mutable map with key-value pairs for each element of the given collection, where key is the element itself and value is provided by the valueSelector function applied to that key.
fun <K, V, M : MutableMap<in K, in V>> Iterable<K>.associateWithTo( destination: M, valueSelector: (K) -> V ): M
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.
fun UIntArray.binarySearch( element: UInt, fromIndex: Int = 0, toIndex: Int = size ): Int
Splits this collection into a list of lists each not exceeding the given size.
fun <T> Iterable<T>.chunked(size: Int): List<List<T>>
Returns 1st element from the array.
operator fun UIntArray.component1(): UInt
Returns 2nd element from the array.
operator fun UIntArray.component2(): UInt
Returns 3rd element from the array.
operator fun UIntArray.component3(): UInt
Returns 4th element from the array.
operator fun UIntArray.component4(): UInt
Returns 5th element from the array.
operator fun UIntArray.component5(): UInt
Returns true
if element is found in the collection.
operator fun <T> Iterable<T>.contains(element: T): Boolean
Checks if all elements in the specified collection are contained in this collection.
fun <T> Collection<T>.containsAll( elements: Collection<T> ): Boolean
Returns true
if the two specified arrays are structurally equal to one another, i.e. contain the same number of the same elements in the same order.
infix fun UIntArray.contentEquals(other: UIntArray): Boolean
infix fun UIntArray?.contentEquals( other: UIntArray? ): Boolean
Returns a hash code based on the contents of this array as if it is List.
fun UIntArray.contentHashCode(): Int
fun UIntArray?.contentHashCode(): Int
Returns a string representation of the contents of the specified array as if it is List.
fun UIntArray.contentToString(): String
fun UIntArray?.contentToString(): String
Copies this array or its subrange into the destination array and returns that array.
fun UIntArray.copyInto( destination: UIntArray, destinationOffset: Int = 0, startIndex: Int = 0, endIndex: Int = size ): UIntArray
Returns new array which is a copy of the original array.
fun UIntArray.copyOf(): UIntArray
Returns new array which is a copy of the original array, resized to the given newSize. The copy is either truncated or padded at the end with zero values if necessary.
fun UIntArray.copyOf(newSize: Int): UIntArray
Returns a new array which is a copy of the specified range of the original array.
fun UIntArray.copyOfRange( fromIndex: Int, toIndex: Int ): UIntArray
Returns the number of elements matching the given predicate.
fun UIntArray.count(predicate: (UInt) -> Boolean): Int
fun <T> Iterable<T>.count(predicate: (T) -> Boolean): Int
Returns a list containing only distinct elements from the given collection.
fun <T> Iterable<T>.distinct(): List<T>
Returns a list containing only elements from the given collection having distinct keys returned by the given selector function.
fun <T, K> Iterable<T>.distinctBy( selector: (T) -> K ): List<T>
Returns a list containing all elements except first n elements.
fun UIntArray.drop(n: Int): List<UInt>
Returns a list containing all elements except last n elements.
fun UIntArray.dropLast(n: Int): List<UInt>
Returns a list containing all elements except last elements that satisfy the given predicate.
fun UIntArray.dropLastWhile( predicate: (UInt) -> Boolean ): List<UInt>
Returns a list containing all elements except first elements that satisfy the given predicate.
fun UIntArray.dropWhile( predicate: (UInt) -> Boolean ): List<UInt>
fun <T> Iterable<T>.dropWhile( predicate: (T) -> Boolean ): List<T>
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.
fun UIntArray.elementAtOrElse( index: Int, defaultValue: (Int) -> UInt ): UInt
Returns an element at the given index or the result of calling the defaultValue function if the index is out of bounds of this collection.
fun <T> Iterable<T>.elementAtOrElse( index: Int, defaultValue: (Int) -> T ): T
Fills this array or its subrange with the specified element value.
fun UIntArray.fill( element: UInt, fromIndex: Int = 0, toIndex: Int = size)
Returns a list containing only elements matching the given predicate.
fun UIntArray.filter( predicate: (UInt) -> Boolean ): List<UInt>
fun <T> Iterable<T>.filter( predicate: (T) -> Boolean ): List<T>
Returns a list containing only elements matching the given predicate.
fun UIntArray.filterIndexed( predicate: (index: Int, UInt) -> Boolean ): List<UInt>
fun <T> Iterable<T>.filterIndexed( predicate: (index: Int, T) -> Boolean ): List<T>
Appends all elements matching the given predicate to the given destination.
fun <C : MutableCollection<in UInt>> UIntArray.filterIndexedTo( destination: C, predicate: (index: Int, UInt) -> Boolean ): C
fun <T, C : MutableCollection<in T>> Iterable<T>.filterIndexedTo( destination: C, predicate: (index: Int, T) -> Boolean ): C
Returns a list containing all elements that are instances of specified type parameter R.
fun <R> Iterable<*>.filterIsInstance(): List<R>
Appends all elements that are instances of specified type parameter R to the given destination.
fun <R, C : MutableCollection<in R>> Iterable<*>.filterIsInstanceTo( destination: C ): C
Returns a list containing all elements not matching the given predicate.
fun UIntArray.filterNot( predicate: (UInt) -> Boolean ): List<UInt>
fun <T> Iterable<T>.filterNot( predicate: (T) -> Boolean ): List<T>
Returns a list containing all elements that are not null
.
fun <T : Any> Iterable<T?>.filterNotNull(): List<T>
Appends all elements that are not null
to the given destination.
fun <C : MutableCollection<in T>, T : Any> Iterable<T?>.filterNotNullTo( destination: C ): C
Appends all elements not matching the given predicate to the given destination.
fun <C : MutableCollection<in UInt>> UIntArray.filterNotTo( destination: C, predicate: (UInt) -> Boolean ): C
fun <T, C : MutableCollection<in T>> Iterable<T>.filterNotTo( destination: C, predicate: (T) -> Boolean ): C
Appends all elements matching the given predicate to the given destination.
fun <C : MutableCollection<in UInt>> UIntArray.filterTo( destination: C, predicate: (UInt) -> Boolean ): C
fun <T, C : MutableCollection<in T>> Iterable<T>.filterTo( destination: C, predicate: (T) -> Boolean ): C
Returns the first element matching the given predicate, or null
if no such element was found.
fun UIntArray.find(predicate: (UInt) -> Boolean): UInt?
fun <T> Iterable<T>.find(predicate: (T) -> Boolean): T?
Returns the last element matching the given predicate, or null
if no such element was found.
fun UIntArray.findLast(predicate: (UInt) -> Boolean): UInt?
fun <T> Iterable<T>.findLast(predicate: (T) -> Boolean): T?
Returns first element.
fun UIntArray.first(): UInt
Returns the first element matching the given predicate.
fun UIntArray.first(predicate: (UInt) -> Boolean): UInt
fun <T> Iterable<T>.first(predicate: (T) -> Boolean): T
Returns the first element, or null
if the array is empty.
fun UIntArray.firstOrNull(): UInt?
Returns the first element matching the given predicate, or null
if element was not found.
fun UIntArray.firstOrNull( predicate: (UInt) -> Boolean ): UInt?
fun <T> Iterable<T>.firstOrNull( predicate: (T) -> Boolean ): T?
Returns a single list of all elements yielded from results of transform function being invoked on each element of original array.
fun <R> UIntArray.flatMap( transform: (UInt) -> Iterable<R> ): List<R>
Returns a single list of all elements yielded from results of transform function being invoked on each element of original collection.
fun <T, R> Iterable<T>.flatMap( transform: (T) -> Iterable<R> ): List<R>
fun <T, R> Iterable<T>.flatMap( transform: (T) -> Sequence<R> ): List<R>
Returns a single list of all elements yielded from results of transform function being invoked on each element and its index in the original array.
fun <R> UIntArray.flatMapIndexed( transform: (index: Int, UInt) -> Iterable<R> ): List<R>
Returns a single list of all elements yielded from results of transform function being invoked on each element and its index in the original collection.
fun <T, R> Iterable<T>.flatMapIndexed( transform: (index: Int, T) -> Iterable<R> ): List<R>
fun <T, R> Iterable<T>.flatMapIndexed( transform: (index: Int, T) -> Sequence<R> ): List<R>
Appends all elements yielded from results of transform function being invoked on each element and its index in the original array, to the given destination.
fun <R, C : MutableCollection<in R>> UIntArray.flatMapIndexedTo( destination: C, transform: (index: Int, UInt) -> Iterable<R> ): C
Appends all elements yielded from results of transform function being invoked on each element and its index in the original collection, to the given destination.
fun <T, R, C : MutableCollection<in R>> Iterable<T>.flatMapIndexedTo( destination: C, transform: (index: Int, T) -> Iterable<R> ): C
fun <T, R, C : MutableCollection<in R>> Iterable<T>.flatMapIndexedTo( destination: C, transform: (index: Int, T) -> Sequence<R> ): C
Appends all elements yielded from results of transform function being invoked on each element of original array, to the given destination.
fun <R, C : MutableCollection<in R>> UIntArray.flatMapTo( destination: C, transform: (UInt) -> Iterable<R> ): C
Appends all elements yielded from results of transform function being invoked on each element of original collection, to the given destination.
fun <T, R, C : MutableCollection<in R>> Iterable<T>.flatMapTo( destination: C, transform: (T) -> Iterable<R> ): C
fun <T, R, C : MutableCollection<in R>> Iterable<T>.flatMapTo( destination: C, transform: (T) -> Sequence<R> ): C
Performs the given action on each element.
fun UIntArray.forEach(action: (UInt) -> Unit)
fun <T> Iterable<T>.forEach(action: (T) -> Unit)
Performs the given action on each element, providing sequential index with the element.
fun UIntArray.forEachIndexed( action: (index: Int, UInt) -> Unit)
fun <T> Iterable<T>.forEachIndexed( action: (index: Int, T) -> Unit)
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.
fun UIntArray.getOrElse( index: Int, defaultValue: (Int) -> UInt ): UInt
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.
fun <K> UIntArray.groupBy( keySelector: (UInt) -> K ): Map<K, List<UInt>>
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.
fun <K, V> UIntArray.groupBy( keySelector: (UInt) -> K, valueTransform: (UInt) -> V ): Map<K, List<V>>
Groups elements of the original collection 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.
fun <T, K> Iterable<T>.groupBy( keySelector: (T) -> K ): Map<K, List<T>>
Groups values returned by the valueTransform function applied to each element of the original collection 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.
fun <T, K, V> Iterable<T>.groupBy( keySelector: (T) -> K, valueTransform: (T) -> V ): Map<K, List<V>>
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.
fun <K, M : MutableMap<in K, MutableList<UInt>>> UIntArray.groupByTo( destination: M, keySelector: (UInt) -> K ): M
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.
fun <K, V, M : MutableMap<in K, MutableList<V>>> UIntArray.groupByTo( destination: M, keySelector: (UInt) -> K, valueTransform: (UInt) -> V ): M
Groups elements of the original collection 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.
fun <T, K, M : MutableMap<in K, MutableList<T>>> Iterable<T>.groupByTo( destination: M, keySelector: (T) -> K ): M
Groups values returned by the valueTransform function applied to each element of the original collection 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.
fun <T, K, V, M : MutableMap<in K, MutableList<V>>> Iterable<T>.groupByTo( destination: M, keySelector: (T) -> K, valueTransform: (T) -> V ): M
Creates a Grouping source from a collection to be used later with one of group-and-fold operations using the specified keySelector function to extract a key from each element.
fun <T, K> Iterable<T>.groupingBy( keySelector: (T) -> K ): Grouping<T, K>
Returns this array if it's not empty or the result of calling defaultValue function if the array is empty.
fun <C, R> C.ifEmpty( defaultValue: () -> R ): R where C : Array<*>, C : R
Returns first index of element, or -1 if the array does not contain element.
fun UIntArray.indexOf(element: UInt): Int
Returns first index of element, or -1 if the collection does not contain element.
fun <T> Iterable<T>.indexOf(element: T): Int
Returns index of the first element matching the given predicate, or -1 if the array does not contain such element.
fun UIntArray.indexOfFirst(predicate: (UInt) -> Boolean): Int
Returns index of the first element matching the given predicate, or -1 if the collection does not contain such element.
fun <T> Iterable<T>.indexOfFirst( predicate: (T) -> Boolean ): Int
Returns index of the last element matching the given predicate, or -1 if the array does not contain such element.
fun UIntArray.indexOfLast(predicate: (UInt) -> Boolean): Int
Returns index of the last element matching the given predicate, or -1 if the collection does not contain such element.
fun <T> Iterable<T>.indexOfLast( predicate: (T) -> Boolean ): Int
Returns a set containing all elements that are contained by both this collection and the specified collection.
infix fun <T> Iterable<T>.intersect( other: Iterable<T> ): Set<T>
Returns true
if the collection is not empty.
fun <T> Collection<T>.isNotEmpty(): Boolean
Returns true
if this nullable collection is either null or empty.
fun <T> Collection<T>?.isNullOrEmpty(): Boolean
Appends the string from all the elements separated using separator and using the given prefix and postfix if supplied.
fun <T, A : Appendable> Iterable<T>.joinTo( buffer: A, separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((T) -> CharSequence)? = null ): A
Creates a string from all the elements separated using separator and using the given prefix and postfix if supplied.
fun <T> Iterable<T>.joinToString( separator: CharSequence = ", ", prefix: CharSequence = "", postfix: CharSequence = "", limit: Int = -1, truncated: CharSequence = "...", transform: ((T) -> CharSequence)? = null ): String
Returns the last element.
fun UIntArray.last(): UInt
Returns the last element matching the given predicate.
fun UIntArray.last(predicate: (UInt) -> Boolean): UInt
fun <T> Iterable<T>.last(predicate: (T) -> Boolean): T
Returns last index of element, or -1 if the array does not contain element.
fun UIntArray.lastIndexOf(element: UInt): Int
Returns last index of element, or -1 if the collection does not contain element.
fun <T> Iterable<T>.lastIndexOf(element: T): Int
Returns the last element, or null
if the array is empty.
fun UIntArray.lastOrNull(): UInt?
Returns the last element matching the given predicate, or null
if no such element was found.
fun UIntArray.lastOrNull(predicate: (UInt) -> Boolean): UInt?
fun <T> Iterable<T>.lastOrNull(predicate: (T) -> Boolean): T?
Returns a list containing the results of applying the given transform function to each element in the original array.
fun <R> UIntArray.map(transform: (UInt) -> R): List<R>
Returns a list containing the results of applying the given transform function to each element in the original collection.
fun <T, R> Iterable<T>.map(transform: (T) -> R): List<R>
Returns a list containing the results of applying the given transform function to each element and its index in the original array.
fun <R> UIntArray.mapIndexed( transform: (index: Int, UInt) -> R ): List<R>
Returns a list containing the results of applying the given transform function to each element and its index in the original collection.
fun <T, R> Iterable<T>.mapIndexed( transform: (index: Int, T) -> R ): List<R>
Returns a list containing only the non-null results of applying the given transform function to each element and its index in the original collection.
fun <T, R : Any> Iterable<T>.mapIndexedNotNull( transform: (index: Int, T) -> R? ): List<R>
Applies the given transform function to each element and its index in the original collection and appends only the non-null results to the given destination.
fun <T, R : Any, C : MutableCollection<in R>> Iterable<T>.mapIndexedNotNullTo( destination: C, transform: (index: Int, T) -> R? ): C
Applies the given transform function to each element and its index in the original array and appends the results to the given destination.
fun <R, C : MutableCollection<in R>> UIntArray.mapIndexedTo( destination: C, transform: (index: Int, UInt) -> R ): C
Applies the given transform function to each element and its index in the original collection and appends the results to the given destination.
fun <T, R, C : MutableCollection<in R>> Iterable<T>.mapIndexedTo( destination: C, transform: (index: Int, T) -> R ): C
Returns a list containing only the non-null results of applying the given transform function to each element in the original collection.
fun <T, R : Any> Iterable<T>.mapNotNull( transform: (T) -> R? ): List<R>
Applies the given transform function to each element in the original collection and appends only the non-null results to the given destination.
fun <T, R : Any, C : MutableCollection<in R>> Iterable<T>.mapNotNullTo( destination: C, transform: (T) -> R? ): C
Applies the given transform function to each element of the original array and appends the results to the given destination.
fun <R, C : MutableCollection<in R>> UIntArray.mapTo( destination: C, transform: (UInt) -> R ): C
Applies the given transform function to each element of the original collection and appends the results to the given destination.
fun <T, R, C : MutableCollection<in R>> Iterable<T>.mapTo( destination: C, transform: (T) -> R ): C
fun UIntArray.max(): UInt?
fun <R : Comparable<R>> UIntArray.maxBy( selector: (UInt) -> R ): UInt?
fun <T, R : Comparable<R>> Iterable<T>.maxBy( selector: (T) -> R ): T?
Returns the first element yielding the largest value of the given function or null
if there are no elements.
fun <R : Comparable<R>> UIntArray.maxByOrNull( selector: (UInt) -> R ): UInt?
fun <T, R : Comparable<R>> Iterable<T>.maxByOrNull( selector: (T) -> R ): T?
Returns the largest value among all values produced by selector function applied to each element in the array.
fun UIntArray.maxOf(selector: (UInt) -> Double): Double
fun UIntArray.maxOf(selector: (UInt) -> Float): Float
fun <R : Comparable<R>> UIntArray.maxOf( selector: (UInt) -> R ): R
Returns the largest value among all values produced by selector function applied to each element in the collection.
fun <T> Iterable<T>.maxOf(selector: (T) -> Double): Double
fun <T> Iterable<T>.maxOf(selector: (T) -> Float): Float
fun <T, R : Comparable<R>> Iterable<T>.maxOf( selector: (T) -> R ): R
Returns the largest value among all values produced by selector function applied to each element in the array or null
if there are no elements.
fun UIntArray.maxOfOrNull( selector: (UInt) -> Double ): Double?
fun UIntArray.maxOfOrNull(selector: (UInt) -> Float): Float?
fun <R : Comparable<R>> UIntArray.maxOfOrNull( selector: (UInt) -> R ): R?
Returns the largest value among all values produced by selector function applied to each element in the collection or null
if there are no elements.
fun <T> Iterable<T>.maxOfOrNull( selector: (T) -> Double ): Double?
fun <T> Iterable<T>.maxOfOrNull( selector: (T) -> Float ): Float?
fun <T, R : Comparable<R>> Iterable<T>.maxOfOrNull( selector: (T) -> R ): R?
Returns the largest value according to the provided comparator among all values produced by selector function applied to each element in the array.
fun <R> UIntArray.maxOfWith( comparator: Comparator<in R>, selector: (UInt) -> R ): R
Returns the largest value according to the provided comparator among all values produced by selector function applied to each element in the collection.
fun <T, R> Iterable<T>.maxOfWith( comparator: Comparator<in R>, selector: (T) -> R ): R
Returns the largest value according to the provided comparator among all values produced by selector function applied to each element in the array or null
if there are no elements.
fun <R> UIntArray.maxOfWithOrNull( comparator: Comparator<in R>, selector: (UInt) -> R ): R?
Returns the largest value according to the provided comparator among all values produced by selector function applied to each element in the collection or null
if there are no elements.
fun <T, R> Iterable<T>.maxOfWithOrNull( comparator: Comparator<in R>, selector: (T) -> R ): R?
Returns the largest element or null
if there are no elements.
fun UIntArray.maxOrNull(): UInt?
fun UIntArray.maxWith(comparator: Comparator<in UInt>): UInt?
fun <T> Iterable<T>.maxWith(comparator: Comparator<in T>): T?
Returns the first element having the largest value according to the provided comparator or null
if there are no elements.
fun UIntArray.maxWithOrNull( comparator: Comparator<in UInt> ): UInt?
fun <T> Iterable<T>.maxWithOrNull( comparator: Comparator<in T> ): T?
fun UIntArray.min(): UInt?
fun <R : Comparable<R>> UIntArray.minBy( selector: (UInt) -> R ): UInt?
fun <T, R : Comparable<R>> Iterable<T>.minBy( selector: (T) -> R ): T?
Returns the first element yielding the smallest value of the given function or null
if there are no elements.
fun <R : Comparable<R>> UIntArray.minByOrNull( selector: (UInt) -> R ): UInt?
fun <T, R : Comparable<R>> Iterable<T>.minByOrNull( selector: (T) -> R ): T?
Returns the smallest value among all values produced by selector function applied to each element in the array.
fun UIntArray.minOf(selector: (UInt) -> Double): Double
fun UIntArray.minOf(selector: (UInt) -> Float): Float
fun <R : Comparable<R>> UIntArray.minOf( selector: (UInt) -> R ): R
Returns the smallest value among all values produced by selector function applied to each element in the collection.
fun <T> Iterable<T>.minOf(selector: (T) -> Double): Double
fun <T> Iterable<T>.minOf(selector: (T) -> Float): Float
fun <T, R : Comparable<R>> Iterable<T>.minOf( selector: (T) -> R ): R
Returns the smallest value among all values produced by selector function applied to each element in the array or null
if there are no elements.
fun UIntArray.minOfOrNull( selector: (UInt) -> Double ): Double?
fun UIntArray.minOfOrNull(selector: (UInt) -> Float): Float?
fun <R : Comparable<R>> UIntArray.minOfOrNull( selector: (UInt) -> R ): R?
Returns the smallest value among all values produced by selector function applied to each element in the collection or null
if there are no elements.
fun <T> Iterable<T>.minOfOrNull( selector: (T) -> Double ): Double?
fun <T> Iterable<T>.minOfOrNull( selector: (T) -> Float ): Float?
fun <T, R : Comparable<R>> Iterable<T>.minOfOrNull( selector: (T) -> R ): R?
Returns the smallest value according to the provided comparator among all values produced by selector function applied to each element in the array.
fun <R> UIntArray.minOfWith( comparator: Comparator<in R>, selector: (UInt) -> R ): R
Returns the smallest value according to the provided comparator among all values produced by selector function applied to each element in the collection.
fun <T, R> Iterable<T>.minOfWith( comparator: Comparator<in R>, selector: (T) -> R ): R
Returns the smallest value according to the provided comparator among all values produced by selector function applied to each element in the array or null
if there are no elements.
fun <R> UIntArray.minOfWithOrNull( comparator: Comparator<in R>, selector: (UInt) -> R ): R?
Returns the smallest value according to the provided comparator among all values produced by selector function applied to each element in the collection or null
if there are no elements.
fun <T, R> Iterable<T>.minOfWithOrNull( comparator: Comparator<in R>, selector: (T) -> R ): R?
Returns the smallest element or null
if there are no elements.
fun UIntArray.minOrNull(): UInt?
Returns a list containing all elements of the original collection without the first occurrence of the given element.
operator fun <T> Iterable<T>.minus(element: T): List<T>
Returns a list containing all elements of the original collection except the elements contained in the given elements array.
operator fun <T> Iterable<T>.minus( elements: Array<out T> ): List<T>
Returns a list containing all elements of the original collection except the elements contained in the given elements collection.
operator fun <T> Iterable<T>.minus( elements: Iterable<T> ): List<T>
Returns a list containing all elements of the original collection except the elements contained in the given elements sequence.
operator fun <T> Iterable<T>.minus( elements: Sequence<T> ): List<T>
Returns a list containing all elements of the original collection without the first occurrence of the given element.
fun <T> Iterable<T>.minusElement(element: T): List<T>
fun UIntArray.minWith(comparator: Comparator<in UInt>): UInt?
fun <T> Iterable<T>.minWith(comparator: Comparator<in T>): T?
Returns the first element having the smallest value according to the provided comparator or null
if there are no elements.
fun UIntArray.minWithOrNull( comparator: Comparator<in UInt> ): UInt?
fun <T> Iterable<T>.minWithOrNull( comparator: Comparator<in T> ): T?
Returns true
if the array has no elements.
fun UIntArray.none(): Boolean
Returns true
if no elements match the given predicate.
fun UIntArray.none(predicate: (UInt) -> Boolean): Boolean
fun <T> Iterable<T>.none(predicate: (T) -> Boolean): Boolean
Performs the given action on each element and returns the array itself afterwards.
fun UIntArray.onEach(action: (UInt) -> Unit): UIntArray
Performs the given action on each element and returns the collection itself afterwards.
fun <T, C : Iterable<T>> C.onEach(action: (T) -> Unit): C
Performs the given action on each element, providing sequential index with the element, and returns the array itself afterwards.
fun UIntArray.onEachIndexed( action: (index: Int, UInt) -> Unit ): UIntArray
Performs the given action on each element, providing sequential index with the element, and returns the collection itself afterwards.
fun <T, C : Iterable<T>> C.onEachIndexed( action: (index: Int, T) -> Unit ): C
Returns this Collection if it's not null
and the empty list otherwise.
fun <T> Collection<T>?.orEmpty(): Collection<T>
Returns an array containing all elements of the original array and then the given element.
operator fun UIntArray.plus(element: UInt): UIntArray
Returns an array containing all elements of the original array and then all elements of the given elements collection.
operator fun UIntArray.plus( elements: Collection<UInt> ): UIntArray
Returns an array containing all elements of the original array and then all elements of the given elements array.
operator fun UIntArray.plus(elements: UIntArray): UIntArray
Returns a list containing all elements of the original collection and then the given element.
operator fun <T> Iterable<T>.plus(element: T): List<T>
operator fun <T> Collection<T>.plus(element: T): List<T>
Returns a list containing all elements of the original collection and then all elements of the given elements array.
operator fun <T> Iterable<T>.plus( elements: Array<out T> ): List<T>
operator fun <T> Collection<T>.plus( elements: Array<out T> ): List<T>
Returns a list containing all elements of the original collection and then all elements of the given elements collection.
operator fun <T> Iterable<T>.plus( elements: Iterable<T> ): List<T>
operator fun <T> Collection<T>.plus( elements: Iterable<T> ): List<T>
Returns a list containing all elements of the original collection and then all elements of the given elements sequence.
operator fun <T> Iterable<T>.plus( elements: Sequence<T> ): List<T>
operator fun <T> Collection<T>.plus( elements: Sequence<T> ): List<T>
Returns a list containing all elements of the original collection and then the given element.
fun <T> Iterable<T>.plusElement(element: T): List<T>
fun <T> Collection<T>.plusElement(element: T): List<T>
Returns a random element from this array.
fun UIntArray.random(): UInt
Returns a random element from this array using the specified source of randomness.
fun UIntArray.random(random: Random): UInt
Returns a random element from this array, or null
if this array is empty.
fun UIntArray.randomOrNull(): UInt?
Returns a random element from this array using the specified source of randomness, or null
if this array is empty.
fun UIntArray.randomOrNull(random: Random): UInt?
Accumulates value starting with the first element and applying operation from left to right to current accumulator value and each element.
fun UIntArray.reduce( operation: (acc: UInt, UInt) -> UInt ): UInt
fun <S, T : S> Iterable<T>.reduce( operation: (acc: S, T) -> S ): S
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.
fun UIntArray.reduceIndexed( operation: (index: Int, acc: UInt, UInt) -> UInt ): UInt
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 collection.
fun <S, T : S> Iterable<T>.reduceIndexed( operation: (index: Int, acc: S, T) -> S ): S
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.
fun UIntArray.reduceIndexedOrNull( operation: (index: Int, acc: UInt, UInt) -> UInt ): UInt?
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 collection.
fun <S, T : S> Iterable<T>.reduceIndexedOrNull( operation: (index: Int, acc: S, T) -> S ): S?
Accumulates value starting with the first element and applying operation from left to right to current accumulator value and each element.
fun UIntArray.reduceOrNull( operation: (acc: UInt, UInt) -> UInt ): UInt?
fun <S, T : S> Iterable<T>.reduceOrNull( operation: (acc: S, T) -> S ): S?
Accumulates value starting with the last element and applying operation from right to left to each element and current accumulator value.
fun UIntArray.reduceRight( operation: (UInt, acc: UInt) -> UInt ): UInt
Accumulates value starting with the last element and applying operation from right to left to each element with its index in the original array and current accumulator value.
fun UIntArray.reduceRightIndexed( operation: (index: Int, UInt, acc: UInt) -> UInt ): UInt
Accumulates value starting with the last element and applying operation from right to left to each element with its index in the original array and current accumulator value.
fun UIntArray.reduceRightIndexedOrNull( operation: (index: Int, UInt, acc: UInt) -> UInt ): UInt?
Accumulates value starting with the last element and applying operation from right to left to each element and current accumulator value.
fun UIntArray.reduceRightOrNull( operation: (UInt, acc: UInt) -> UInt ): UInt?
fun UIntArray.refTo(index: Int): CValuesRef<UIntVar>
Returns an original collection containing all the non-null
elements, throwing an IllegalArgumentException if there are any null
elements.
fun <T : Any> Iterable<T?>.requireNoNulls(): Iterable<T>
Reverses elements in the array in-place.
fun UIntArray.reverse()
Reverses elements of the array in the specified range in-place.
fun UIntArray.reverse(fromIndex: Int, toIndex: Int)
Returns a list with elements in reversed order.
fun UIntArray.reversed(): List<UInt>
Returns an array with elements of this array in reversed order.
fun UIntArray.reversedArray(): UIntArray
Returns a list containing successive accumulation values generated by applying operation from left to right to each element and current accumulator value that starts with initial value.
fun <R> UIntArray.runningFold( initial: R, operation: (acc: R, UInt) -> R ): List<R>
fun <T, R> Iterable<T>.runningFold( initial: R, operation: (acc: R, T) -> R ): List<R>
Returns a list containing successive accumulation values generated by applying operation from left to right to each element, its index in the original array and current accumulator value that starts with initial value.
fun <R> UIntArray.runningFoldIndexed( initial: R, operation: (index: Int, acc: R, UInt) -> R ): List<R>
Returns a list containing successive accumulation values generated by applying operation from left to right to each element, its index in the original collection and current accumulator value that starts with initial value.
fun <T, R> Iterable<T>.runningFoldIndexed( initial: R, operation: (index: Int, acc: R, T) -> R ): List<R>
Returns a list containing successive accumulation values generated by applying operation from left to right to each element and current accumulator value that starts with the first element of this array.
fun UIntArray.runningReduce( operation: (acc: UInt, UInt) -> UInt ): List<UInt>
Returns a list containing successive accumulation values generated by applying operation from left to right to each element and current accumulator value that starts with the first element of this collection.
fun <S, T : S> Iterable<T>.runningReduce( operation: (acc: S, T) -> S ): List<S>
Returns a list containing successive accumulation values generated by applying operation from left to right to each element, its index in the original array and current accumulator value that starts with the first element of this array.
fun UIntArray.runningReduceIndexed( operation: (index: Int, acc: UInt, UInt) -> UInt ): List<UInt>
Returns a list containing successive accumulation values generated by applying operation from left to right to each element, its index in the original collection and current accumulator value that starts with the first element of this collection.
fun <S, T : S> Iterable<T>.runningReduceIndexed( operation: (index: Int, acc: S, T) -> S ): List<S>
Returns a list containing successive accumulation values generated by applying operation from left to right to each element and current accumulator value that starts with initial value.
fun <R> UIntArray.scan( initial: R, operation: (acc: R, UInt) -> R ): List<R>
fun <T, R> Iterable<T>.scan( initial: R, operation: (acc: R, T) -> R ): List<R>
Returns a list containing successive accumulation values generated by applying operation from left to right to each element, its index in the original array and current accumulator value that starts with initial value.
fun <R> UIntArray.scanIndexed( initial: R, operation: (index: Int, acc: R, UInt) -> R ): List<R>
Returns a list containing successive accumulation values generated by applying operation from left to right to each element, its index in the original collection and current accumulator value that starts with initial value.
fun <T, R> Iterable<T>.scanIndexed( initial: R, operation: (index: Int, acc: R, T) -> R ): List<R>
fun UIntArray.scanReduce( operation: (acc: UInt, UInt) -> UInt ): List<UInt>
fun <S, T : S> Iterable<T>.scanReduce( operation: (acc: S, T) -> S ): List<S>
fun UIntArray.scanReduceIndexed( operation: (index: Int, acc: UInt, UInt) -> UInt ): List<UInt>
fun <S, T : S> Iterable<T>.scanReduceIndexed( operation: (index: Int, acc: S, T) -> S ): List<S>
Randomly shuffles elements in this array in-place.
fun UIntArray.shuffle()
Randomly shuffles elements in this array in-place using the specified random instance as the source of randomness.
fun UIntArray.shuffle(random: Random)
Returns a new list with the elements of this list randomly shuffled using the specified random instance as the source of randomness.
fun <T> Iterable<T>.shuffled(random: Random): List<T>
Returns the single element, or throws an exception if the array is empty or has more than one element.
fun UIntArray.single(): UInt
Returns the single element matching the given predicate, or throws exception if there is no or more than one matching element.
fun UIntArray.single(predicate: (UInt) -> Boolean): UInt
fun <T> Iterable<T>.single(predicate: (T) -> Boolean): T
Returns single element, or null
if the array is empty or has more than one element.
fun UIntArray.singleOrNull(): UInt?
Returns the single element matching the given predicate, or null
if element was not found or more than one element was found.
fun UIntArray.singleOrNull( predicate: (UInt) -> Boolean ): UInt?
fun <T> Iterable<T>.singleOrNull( predicate: (T) -> Boolean ): T?
Returns a list containing elements at indices in the specified indices range.
fun UIntArray.slice(indices: IntRange): List<UInt>
Returns a list containing elements at specified indices.
fun UIntArray.slice(indices: Iterable<Int>): List<UInt>
Returns an array containing elements of this array at specified indices.
fun UIntArray.sliceArray(indices: Collection<Int>): UIntArray
Returns an array containing elements at indices in the specified indices range.
fun UIntArray.sliceArray(indices: IntRange): UIntArray
Sorts the array in-place.
fun UIntArray.sort()
Sorts a range in the array in-place.
fun UIntArray.sort(fromIndex: Int = 0, toIndex: Int = size)
Sorts elements in the array in-place descending according to their natural sort order.
fun UIntArray.sortDescending()
Sorts elements of the array in the specified range in-place. The elements are sorted descending according to their natural sort order.
fun UIntArray.sortDescending(fromIndex: Int, toIndex: Int)
Returns a list of all elements sorted according to their natural sort order.
fun UIntArray.sorted(): List<UInt>
Returns an array with all elements of this array sorted according to their natural sort order.
fun UIntArray.sortedArray(): UIntArray
Returns an array with all elements of this array sorted descending according to their natural sort order.
fun UIntArray.sortedArrayDescending(): UIntArray
Returns a list of all elements sorted according to natural sort order of the value returned by specified selector function.
fun <T, R : Comparable<R>> Iterable<T>.sortedBy( selector: (T) -> R? ): List<T>
Returns a list of all elements sorted descending according to natural sort order of the value returned by specified selector function.
fun <T, R : Comparable<R>> Iterable<T>.sortedByDescending( selector: (T) -> R? ): List<T>
Returns a list of all elements sorted descending according to their natural sort order.
fun UIntArray.sortedDescending(): List<UInt>
Returns a list of all elements sorted according to the specified comparator.
fun <T> Iterable<T>.sortedWith( comparator: Comparator<in T> ): List<T>
Returns a set containing all elements that are contained by this collection and not contained by the specified collection.
infix fun <T> Iterable<T>.subtract( other: Iterable<T> ): Set<T>
Returns the sum of all elements in the array.
fun UIntArray.sum(): UInt
Returns the sum of all values produced by selector function applied to each element in the array.
fun UIntArray.sumBy(selector: (UInt) -> UInt): UInt
Returns the sum of all values produced by selector function applied to each element in the collection.
fun <T> Iterable<T>.sumBy(selector: (T) -> Int): Int
Returns the sum of all values produced by selector function applied to each element in the array.
fun UIntArray.sumByDouble(selector: (UInt) -> Double): Double
Returns the sum of all values produced by selector function applied to each element in the collection.
fun <T> Iterable<T>.sumByDouble( selector: (T) -> Double ): Double
Returns the sum of all values produced by selector function applied to each element in the array.
fun UIntArray.sumOf(selector: (UInt) -> Double): Double
fun UIntArray.sumOf(selector: (UInt) -> Int): Int
fun UIntArray.sumOf(selector: (UInt) -> Long): Long
fun UIntArray.sumOf(selector: (UInt) -> UInt): UInt
fun UIntArray.sumOf(selector: (UInt) -> ULong): ULong
fun UIntArray.sumOf( selector: (UInt) -> BigDecimal ): BigDecimal
fun UIntArray.sumOf( selector: (UInt) -> BigInteger ): BigInteger
Returns the sum of all values produced by selector function applied to each element in the collection.
fun <T> Iterable<T>.sumOf(selector: (T) -> Double): Double
fun <T> Iterable<T>.sumOf(selector: (T) -> Int): Int
fun <T> Iterable<T>.sumOf(selector: (T) -> Long): Long
fun <T> Iterable<T>.sumOf(selector: (T) -> UInt): UInt
fun <T> Iterable<T>.sumOf(selector: (T) -> ULong): ULong
Returns a list containing first n elements.
fun UIntArray.take(n: Int): List<UInt>
Returns a list containing last n elements.
fun UIntArray.takeLast(n: Int): List<UInt>
Returns a list containing last elements satisfying the given predicate.
fun UIntArray.takeLastWhile( predicate: (UInt) -> Boolean ): List<UInt>
Returns a list containing first elements satisfying the given predicate.
fun UIntArray.takeWhile( predicate: (UInt) -> Boolean ): List<UInt>
fun <T> Iterable<T>.takeWhile( predicate: (T) -> Boolean ): List<T>
Appends all elements to the given destination collection.
fun <T, C : MutableCollection<in T>> Iterable<T>.toCollection( destination: C ): C
fun UIntArray.toCValues(): CValues<UIntVar>
Returns a new HashSet of all elements.
fun <T> Iterable<T>.toHashSet(): HashSet<T>
Returns an array of type IntArray, which is a copy of this array where each element is a signed reinterpretation of the corresponding element of this array.
fun UIntArray.toIntArray(): IntArray
Returns a List containing all elements.
fun <T> Iterable<T>.toList(): List<T>
Returns a new MutableSet containing all distinct elements from the given collection.
fun <T> Iterable<T>.toMutableSet(): MutableSet<T>
Returns a Set of all elements.
fun <T> Iterable<T>.toSet(): Set<T>
Returns a typed object array containing all of the elements of this primitive array.
fun UIntArray.toTypedArray(): Array<UInt>
Returns an array of UInt containing all of the elements of this collection.
fun Collection<UInt>.toUIntArray(): UIntArray
Returns a set containing all distinct elements from both collections.
infix fun <T> Iterable<T>.union(other: Iterable<T>): Set<T>
Returns a list of snapshots of the window of the given size sliding along this collection with the given step, where each snapshot is a list.
fun <T> Iterable<T>.windowed( size: Int, step: Int = 1, partialWindows: Boolean = false ): List<List<T>>
Returns a list of results of applying the given transform function to an each list representing a view over the window of the given size sliding along this collection with the given step.
fun <T, R> Iterable<T>.windowed( size: Int, step: Int = 1, partialWindows: Boolean = false, transform: (List<T>) -> R ): List<R>
Returns a lazy Iterable that wraps each element of the original array into an IndexedValue containing the index of that element and the element itself.
fun UIntArray.withIndex(): Iterable<IndexedValue<UInt>>
Returns a list of pairs built from the elements of this
array and the other array with the same index. The returned list has length of the shortest collection.
infix fun <R> UIntArray.zip( other: Array<out R> ): List<Pair<UInt, R>>
infix fun UIntArray.zip( other: UIntArray ): List<Pair<UInt, UInt>>
Returns a list of values built from the elements of this
array and the other array with the same index using the provided transform function applied to each pair of elements. The returned list has length of the shortest collection.
fun <R, V> UIntArray.zip( other: Array<out R>, transform: (a: UInt, b: R) -> V ): List<V>
Returns a list of pairs built from the elements of this
collection and other array with the same index. The returned list has length of the shortest collection.
infix fun <R> UIntArray.zip( other: Iterable<R> ): List<Pair<UInt, R>>
Returns a list of values built from the elements of this
array and the other collection with the same index using the provided transform function applied to each pair of elements. The returned list has length of the shortest collection.
fun <R, V> UIntArray.zip( other: Iterable<R>, transform: (a: UInt, b: R) -> V ): List<V>
Returns a list of values built from the elements of this
array and the other array with the same index using the provided transform function applied to each pair of elements. The returned list has length of the shortest array.
fun <V> UIntArray.zip( other: UIntArray, transform: (a: UInt, b: UInt) -> V ): List<V>
Returns a list of pairs built from the elements of this
collection and the other array with the same index. The returned list has length of the shortest collection.
infix fun <T, R> Iterable<T>.zip( other: Array<out R> ): List<Pair<T, R>>
Returns a list of values built from the elements of this
collection and the other array with the same index using the provided transform function applied to each pair of elements. The returned list has length of the shortest collection.
fun <T, R, V> Iterable<T>.zip( other: Array<out R>, transform: (a: T, b: R) -> V ): List<V>
Returns a list of pairs built from the elements of this
collection and other collection with the same index. The returned list has length of the shortest collection.
infix fun <T, R> Iterable<T>.zip( other: Iterable<R> ): List<Pair<T, R>>
Returns a list of values built from the elements of this
collection and the other collection with the same index using the provided transform function applied to each pair of elements. The returned list has length of the shortest collection.
fun <T, R, V> Iterable<T>.zip( other: Iterable<R>, transform: (a: T, b: R) -> V ): List<V>
Returns a list of pairs of each two adjacent elements in this collection.
fun <T> Iterable<T>.zipWithNext(): List<Pair<T, T>>
Returns a list containing the results of applying the given transform function to an each pair of two adjacent elements in this collection.
fun <T, R> Iterable<T>.zipWithNext( transform: (a: T, b: T) -> R ): List<R>
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