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Kotlin Common Standard Library (legacy, use kotlin-stdlib instead)
/*
* Copyright 2010-2020 JetBrains s.r.o. and Kotlin Programming Language contributors.
* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
*/
@file:kotlin.jvm.JvmMultifileClass
@file:kotlin.jvm.JvmName("SequencesKt")
package kotlin.sequences
import kotlin.random.Random
/**
* Given an [iterator] function constructs a [Sequence] that returns values through the [Iterator]
* provided by that function.
* The values are evaluated lazily, and the sequence is potentially infinite.
*
* @sample samples.collections.Sequences.Building.sequenceFromIterator
*/
@kotlin.internal.InlineOnly
public inline fun Sequence(crossinline iterator: () -> Iterator): Sequence = object : Sequence {
override fun iterator(): Iterator = iterator()
}
/**
* Creates a sequence that returns all elements from this iterator. The sequence is constrained to be iterated only once.
*
* @sample samples.collections.Sequences.Building.sequenceFromIterator
*/
public fun Iterator.asSequence(): Sequence = Sequence { this }.constrainOnce()
/**
* Creates a sequence that returns the specified values.
*
* @sample samples.collections.Sequences.Building.sequenceOfValues
*/
public fun sequenceOf(vararg elements: T): Sequence = if (elements.isEmpty()) emptySequence() else elements.asSequence()
/**
* Returns an empty sequence.
*/
public fun emptySequence(): Sequence = EmptySequence
private object EmptySequence : Sequence, DropTakeSequence {
override fun iterator(): Iterator = EmptyIterator
override fun drop(n: Int) = EmptySequence
override fun take(n: Int) = EmptySequence
}
/**
* Returns this sequence if it's not `null` and the empty sequence otherwise.
* @sample samples.collections.Sequences.Usage.sequenceOrEmpty
*/
@SinceKotlin("1.3")
@kotlin.internal.InlineOnly
public inline fun Sequence?.orEmpty(): Sequence = this ?: emptySequence()
/**
* Returns a sequence that iterates through the elements either of this sequence
* or, if this sequence turns out to be empty, of the sequence returned by [defaultValue] function.
*
* @sample samples.collections.Sequences.Usage.sequenceIfEmpty
*/
@SinceKotlin("1.3")
public fun Sequence.ifEmpty(defaultValue: () -> Sequence): Sequence = sequence {
val iterator = [email protected]()
if (iterator.hasNext()) {
yieldAll(iterator)
} else {
yieldAll(defaultValue())
}
}
/**
* Returns a sequence of all elements from all sequences in this sequence.
*
* The operation is _intermediate_ and _stateless_.
*
* @sample samples.collections.Sequences.Transformations.flattenSequenceOfSequences
*/
public fun Sequence>.flatten(): Sequence = flatten { it.iterator() }
/**
* Returns a sequence of all elements from all iterables in this sequence.
*
* The operation is _intermediate_ and _stateless_.
*
* @sample samples.collections.Sequences.Transformations.flattenSequenceOfLists
*/
@kotlin.jvm.JvmName("flattenSequenceOfIterable")
public fun Sequence>.flatten(): Sequence = flatten { it.iterator() }
private fun Sequence.flatten(iterator: (T) -> Iterator): Sequence {
if (this is TransformingSequence<*, *>) {
return (this as TransformingSequence<*, T>).flatten(iterator)
}
return FlatteningSequence(this, { it }, iterator)
}
/**
* Returns a pair of lists, where
* *first* list is built from the first values of each pair from this sequence,
* *second* list is built from the second values of each pair from this sequence.
*
* The operation is _terminal_.
*
* @sample samples.collections.Sequences.Transformations.unzip
*/
public fun Sequence>.unzip(): Pair, List> {
val listT = ArrayList()
val listR = ArrayList()
for (pair in this) {
listT.add(pair.first)
listR.add(pair.second)
}
return listT to listR
}
/**
* Returns a sequence that yields elements of this sequence randomly shuffled.
*
* Note that every iteration of the sequence returns elements in a different order.
*
* The operation is _intermediate_ and _stateful_.
*/
@SinceKotlin("1.4")
public fun Sequence.shuffled(): Sequence = shuffled(Random)
/**
* Returns a sequence that yields elements of this sequence randomly shuffled
* using the specified [random] instance as the source of randomness.
*
* Note that every iteration of the sequence returns elements in a different order.
*
* The operation is _intermediate_ and _stateful_.
*/
@SinceKotlin("1.4")
public fun Sequence.shuffled(random: Random): Sequence = sequence {
val buffer = toMutableList()
while (buffer.isNotEmpty()) {
val j = random.nextInt(buffer.size)
val last = buffer.removeLast()
val value = if (j < buffer.size) buffer.set(j, last) else last
yield(value)
}
}
/**
* A sequence that returns the values from the underlying [sequence] that either match or do not match
* the specified [predicate].
*
* @param sendWhen If `true`, values for which the predicate returns `true` are returned. Otherwise,
* values for which the predicate returns `false` are returned
*/
internal class FilteringSequence(
private val sequence: Sequence,
private val sendWhen: Boolean = true,
private val predicate: (T) -> Boolean
) : Sequence {
override fun iterator(): Iterator = object : Iterator {
val iterator = sequence.iterator()
var nextState: Int = -1 // -1 for unknown, 0 for done, 1 for continue
var nextItem: T? = null
private fun calcNext() {
while (iterator.hasNext()) {
val item = iterator.next()
if (predicate(item) == sendWhen) {
nextItem = item
nextState = 1
return
}
}
nextState = 0
}
override fun next(): T {
if (nextState == -1)
calcNext()
if (nextState == 0)
throw NoSuchElementException()
val result = nextItem
nextItem = null
nextState = -1
@Suppress("UNCHECKED_CAST")
return result as T
}
override fun hasNext(): Boolean {
if (nextState == -1)
calcNext()
return nextState == 1
}
}
}
/**
* A sequence which returns the results of applying the given [transformer] function to the values
* in the underlying [sequence].
*/
internal class TransformingSequence
constructor(private val sequence: Sequence, private val transformer: (T) -> R) : Sequence {
override fun iterator(): Iterator = object : Iterator {
val iterator = sequence.iterator()
override fun next(): R {
return transformer(iterator.next())
}
override fun hasNext(): Boolean {
return iterator.hasNext()
}
}
internal fun flatten(iterator: (R) -> Iterator): Sequence {
return FlatteningSequence(sequence, transformer, iterator)
}
}
/**
* A sequence which returns the results of applying the given [transformer] function to the values
* in the underlying [sequence], where the transformer function takes the index of the value in the underlying
* sequence along with the value itself.
*/
internal class TransformingIndexedSequence
constructor(private val sequence: Sequence, private val transformer: (Int, T) -> R) : Sequence {
override fun iterator(): Iterator = object : Iterator {
val iterator = sequence.iterator()
var index = 0
override fun next(): R {
return transformer(checkIndexOverflow(index++), iterator.next())
}
override fun hasNext(): Boolean {
return iterator.hasNext()
}
}
}
/**
* A sequence which combines values from the underlying [sequence] with their indices and returns them as
* [IndexedValue] objects.
*/
internal class IndexingSequence
constructor(private val sequence: Sequence) : Sequence> {
override fun iterator(): Iterator> = object : Iterator> {
val iterator = sequence.iterator()
var index = 0
override fun next(): IndexedValue {
return IndexedValue(checkIndexOverflow(index++), iterator.next())
}
override fun hasNext(): Boolean {
return iterator.hasNext()
}
}
}
/**
* A sequence which takes the values from two parallel underlying sequences, passes them to the given
* [transform] function and returns the values returned by that function. The sequence stops returning
* values as soon as one of the underlying sequences stops returning values.
*/
internal class MergingSequence
constructor(
private val sequence1: Sequence,
private val sequence2: Sequence,
private val transform: (T1, T2) -> V
) : Sequence {
override fun iterator(): Iterator = object : Iterator {
val iterator1 = sequence1.iterator()
val iterator2 = sequence2.iterator()
override fun next(): V {
return transform(iterator1.next(), iterator2.next())
}
override fun hasNext(): Boolean {
return iterator1.hasNext() && iterator2.hasNext()
}
}
}
internal class FlatteningSequence
constructor(
private val sequence: Sequence,
private val transformer: (T) -> R,
private val iterator: (R) -> Iterator
) : Sequence {
override fun iterator(): Iterator = object : Iterator {
val iterator = sequence.iterator()
var itemIterator: Iterator? = null
override fun next(): E {
if (!ensureItemIterator())
throw NoSuchElementException()
return itemIterator!!.next()
}
override fun hasNext(): Boolean {
return ensureItemIterator()
}
private fun ensureItemIterator(): Boolean {
if (itemIterator?.hasNext() == false)
itemIterator = null
while (itemIterator == null) {
if (!iterator.hasNext()) {
return false
} else {
val element = iterator.next()
val nextItemIterator = iterator(transformer(element))
if (nextItemIterator.hasNext()) {
itemIterator = nextItemIterator
return true
}
}
}
return true
}
}
}
internal fun flatMapIndexed(source: Sequence, transform: (Int, T) -> C, iterator: (C) -> Iterator): Sequence =
sequence {
var index = 0
for (element in source) {
val result = transform(checkIndexOverflow(index++), element)
yieldAll(iterator(result))
}
}
/**
* A sequence that supports drop(n) and take(n) operations
*/
internal interface DropTakeSequence : Sequence {
fun drop(n: Int): Sequence
fun take(n: Int): Sequence
}
/**
* A sequence that skips [startIndex] values from the underlying [sequence]
* and stops returning values right before [endIndex], i.e. stops at `endIndex - 1`
*/
internal class SubSequence(
private val sequence: Sequence,
private val startIndex: Int,
private val endIndex: Int
) : Sequence, DropTakeSequence {
init {
require(startIndex >= 0) { "startIndex should be non-negative, but is $startIndex" }
require(endIndex >= 0) { "endIndex should be non-negative, but is $endIndex" }
require(endIndex >= startIndex) { "endIndex should be not less than startIndex, but was $endIndex < $startIndex" }
}
private val count: Int get() = endIndex - startIndex
override fun drop(n: Int): Sequence = if (n >= count) emptySequence() else SubSequence(sequence, startIndex + n, endIndex)
override fun take(n: Int): Sequence = if (n >= count) this else SubSequence(sequence, startIndex, startIndex + n)
override fun iterator() = object : Iterator {
val iterator = sequence.iterator()
var position = 0
// Shouldn't be called from constructor to avoid premature iteration
private fun drop() {
while (position < startIndex && iterator.hasNext()) {
iterator.next()
position++
}
}
override fun hasNext(): Boolean {
drop()
return (position < endIndex) && iterator.hasNext()
}
override fun next(): T {
drop()
if (position >= endIndex)
throw NoSuchElementException()
position++
return iterator.next()
}
}
}
/**
* A sequence that returns at most [count] values from the underlying [sequence], and stops returning values
* as soon as that count is reached.
*/
internal class TakeSequence(
private val sequence: Sequence,
private val count: Int
) : Sequence, DropTakeSequence {
init {
require(count >= 0) { "count must be non-negative, but was $count." }
}
override fun drop(n: Int): Sequence = if (n >= count) emptySequence() else SubSequence(sequence, n, count)
override fun take(n: Int): Sequence = if (n >= count) this else TakeSequence(sequence, n)
override fun iterator(): Iterator = object : Iterator {
var left = count
val iterator = sequence.iterator()
override fun next(): T {
if (left == 0)
throw NoSuchElementException()
left--
return iterator.next()
}
override fun hasNext(): Boolean {
return left > 0 && iterator.hasNext()
}
}
}
/**
* A sequence that returns values from the underlying [sequence] while the [predicate] function returns
* `true`, and stops returning values once the function returns `false` for the next element.
*/
internal class TakeWhileSequence
constructor(
private val sequence: Sequence,
private val predicate: (T) -> Boolean
) : Sequence {
override fun iterator(): Iterator = object : Iterator {
val iterator = sequence.iterator()
var nextState: Int = -1 // -1 for unknown, 0 for done, 1 for continue
var nextItem: T? = null
private fun calcNext() {
if (iterator.hasNext()) {
val item = iterator.next()
if (predicate(item)) {
nextState = 1
nextItem = item
return
}
}
nextState = 0
}
override fun next(): T {
if (nextState == -1)
calcNext() // will change nextState
if (nextState == 0)
throw NoSuchElementException()
@Suppress("UNCHECKED_CAST")
val result = nextItem as T
// Clean next to avoid keeping reference on yielded instance
nextItem = null
nextState = -1
return result
}
override fun hasNext(): Boolean {
if (nextState == -1)
calcNext() // will change nextState
return nextState == 1
}
}
}
/**
* A sequence that skips the specified number of values from the underlying [sequence] and returns
* all values after that.
*/
internal class DropSequence(
private val sequence: Sequence,
private val count: Int
) : Sequence, DropTakeSequence {
init {
require(count >= 0) { "count must be non-negative, but was $count." }
}
override fun drop(n: Int): Sequence = (count + n).let { n1 -> if (n1 < 0) DropSequence(this, n) else DropSequence(sequence, n1) }
override fun take(n: Int): Sequence = (count + n).let { n1 -> if (n1 < 0) TakeSequence(this, n) else SubSequence(sequence, count, n1) }
override fun iterator(): Iterator = object : Iterator {
val iterator = sequence.iterator()
var left = count
// Shouldn't be called from constructor to avoid premature iteration
private fun drop() {
while (left > 0 && iterator.hasNext()) {
iterator.next()
left--
}
}
override fun next(): T {
drop()
return iterator.next()
}
override fun hasNext(): Boolean {
drop()
return iterator.hasNext()
}
}
}
/**
* A sequence that skips the values from the underlying [sequence] while the given [predicate] returns `true` and returns
* all values after that.
*/
internal class DropWhileSequence
constructor(
private val sequence: Sequence,
private val predicate: (T) -> Boolean
) : Sequence {
override fun iterator(): Iterator = object : Iterator {
val iterator = sequence.iterator()
var dropState: Int = -1 // -1 for not dropping, 1 for nextItem, 0 for normal iteration
var nextItem: T? = null
private fun drop() {
while (iterator.hasNext()) {
val item = iterator.next()
if (!predicate(item)) {
nextItem = item
dropState = 1
return
}
}
dropState = 0
}
override fun next(): T {
if (dropState == -1)
drop()
if (dropState == 1) {
@Suppress("UNCHECKED_CAST")
val result = nextItem as T
nextItem = null
dropState = 0
return result
}
return iterator.next()
}
override fun hasNext(): Boolean {
if (dropState == -1)
drop()
return dropState == 1 || iterator.hasNext()
}
}
}
internal class DistinctSequence(private val source: Sequence, private val keySelector: (T) -> K) : Sequence {
override fun iterator(): Iterator = DistinctIterator(source.iterator(), keySelector)
}
private class DistinctIterator(private val source: Iterator, private val keySelector: (T) -> K) : AbstractIterator() {
private val observed = HashSet()
override fun computeNext() {
while (source.hasNext()) {
val next = source.next()
val key = keySelector(next)
if (observed.add(key)) {
setNext(next)
return
}
}
done()
}
}
private class GeneratorSequence(private val getInitialValue: () -> T?, private val getNextValue: (T) -> T?) : Sequence {
override fun iterator(): Iterator = object : Iterator {
var nextItem: T? = null
var nextState: Int = -2 // -2 for initial unknown, -1 for next unknown, 0 for done, 1 for continue
private fun calcNext() {
nextItem = if (nextState == -2) getInitialValue() else getNextValue(nextItem!!)
nextState = if (nextItem == null) 0 else 1
}
override fun next(): T {
if (nextState < 0)
calcNext()
if (nextState == 0)
throw NoSuchElementException()
val result = nextItem as T
// Do not clean nextItem (to avoid keeping reference on yielded instance) -- need to keep state for getNextValue
nextState = -1
return result
}
override fun hasNext(): Boolean {
if (nextState < 0)
calcNext()
return nextState == 1
}
}
}
/**
* Returns a wrapper sequence that provides values of this sequence, but ensures it can be iterated only one time.
*
* The operation is _intermediate_ and _stateless_.
*
* [IllegalStateException] is thrown on iterating the returned sequence for the second time and the following times.
*
*/
public fun Sequence.constrainOnce(): Sequence {
// as? does not work in js
//return this as? ConstrainedOnceSequence ?: ConstrainedOnceSequence(this)
return if (this is ConstrainedOnceSequence) this else ConstrainedOnceSequence(this)
}
/**
* Returns a sequence which invokes the function to calculate the next value on each iteration until the function returns `null`.
*
* The returned sequence is constrained to be iterated only once.
*
* @see constrainOnce
* @see kotlin.sequences.sequence
*
* @sample samples.collections.Sequences.Building.generateSequence
*/
public fun generateSequence(nextFunction: () -> T?): Sequence {
return GeneratorSequence(nextFunction, { nextFunction() }).constrainOnce()
}
/**
* Returns a sequence defined by the starting value [seed] and the function [nextFunction],
* which is invoked to calculate the next value based on the previous one on each iteration.
*
* The sequence produces values until it encounters first `null` value.
* If [seed] is `null`, an empty sequence is produced.
*
* The sequence can be iterated multiple times, each time starting with [seed].
*
* @see kotlin.sequences.sequence
*
* @sample samples.collections.Sequences.Building.generateSequenceWithSeed
*/
@kotlin.internal.LowPriorityInOverloadResolution
public fun generateSequence(seed: T?, nextFunction: (T) -> T?): Sequence =
if (seed == null)
EmptySequence
else
GeneratorSequence({ seed }, nextFunction)
/**
* Returns a sequence defined by the function [seedFunction], which is invoked to produce the starting value,
* and the [nextFunction], which is invoked to calculate the next value based on the previous one on each iteration.
*
* The sequence produces values until it encounters first `null` value.
* If [seedFunction] returns `null`, an empty sequence is produced.
*
* The sequence can be iterated multiple times.
*
* @see kotlin.sequences.sequence
*
* @sample samples.collections.Sequences.Building.generateSequenceWithLazySeed
*/
public fun generateSequence(seedFunction: () -> T?, nextFunction: (T) -> T?): Sequence =
GeneratorSequence(seedFunction, nextFunction)