60

How can I use Stack (from java) in Kotlin?

Or theres any other alternative?

  • I'm trying to convert list to Stack
2
  • 22
    Don't use Stack anymore, it's very old java and relies on Vector. Instead use Deque, implemented by e.g. ArrayDeque or LinkedList
    – msrd0
    Oct 24, 2017 at 3:13
  • the stack implementation in java is quite bad either use the suggestion of @msrd0 or implement your own stack
    – tung
    Apr 16, 2018 at 10:36

7 Answers 7

Reset to default
53

Kotlin 1.3.70 introduced the kotlin.collections.ArrayDeque class, which functions as both a queue and a stack, like Java's java.util.Deque (Deque meaning "double-ended queue"). It was created out of a necessity for a multiplatform ArrayDeque implementation.

val stack = ArrayDeque(listOf(1, 2, 3)) // stack: [1, 2, 3]
stack.addLast(0)                        // stack: [1, 2, 3, 0]         (push)
val value = stack.removeLast()          // value: 0, stack: [1, 2, 3]  (pop)

Note that if an ArrayDeque is empty when you call removeFirst or removeLast, it will throw a kotlin.NoSuchElementException. If you don't want to check the size of your deque every time you need to access it, then you should use the removeFirstOrNull and removeLastOrNull functions.

Optional Snippets

ArrayDeque constructor function:

inline fun <T> arrayDequeOf(vararg elements: T) = ArrayDeque(elements.toList())
// ...
val stack = arrayDequeOf(1, 2, 3)

Stack-like ArrayDeque calls:

inline fun <T> ArrayDeque<T>.push(element: T) = addLast(element) // returns Unit

inline fun <T> ArrayDeque<T>.pop() = removeLastOrNull()          // returns T?
1
  • except it neither implements Stack nor Queue Interface unlike the Java Version...
    – xeruf
    Aug 30 at 9:07
44 
import java.util.ArrayDeque

var stack = ArrayDeque<Int>()
stack.push(1)
stack.push(2)
stack.push(3)
stack.push(4)
println(stack)           // --> [4, 3, 2, 1]
println(stack.isEmpty()) // --> false

println(stack.peek())    // --> 4
println(stack)           // --> [4, 3, 2, 1]

println(stack.pop())     // --> 4
println(stack)           // --> [3, 2, 1]

stack.push(9)
println(stack)           // --> [9, 3, 2, 1]
2
25

You can use following:

/**
 * Stack as type alias of Mutable List
 */
typealias Stack<T> = MutableList<T>

/**
 * Pushes item to [Stack]
 * @param item Item to be pushed
 */
inline fun <T> Stack<T>.push(item: T) = add(item)

/**
 * Pops (removes and return) last item from [Stack]
 * @return item Last item if [Stack] is not empty, null otherwise
 */
fun <T> Stack<T>.pop(): T? = if (isNotEmpty()) removeAt(lastIndex) else null

/**
 * Peeks (return) last item from [Stack]
 * @return item Last item if [Stack] is not empty, null otherwise
 */
fun <T> Stack<T>.peek(): T? = if (isNotEmpty()) this[lastIndex] else null
2
  • How would you initialize or construct such a stack? val stack:Stack<Char> = MutableList(0){'.'} or val stack = MutableList(0){' '} as Stack<Char>?
    – dlamblin
    Dec 10, 2021 at 20:21
  • @dlamblin using an ArrayDeque as backing
    – xeruf
    Aug 30 at 9:08
16

This is done in the same way as you would in Java, but with Kotlin syntax - notably different are the val keyword and lack of new keyword. For example:

import java.util.Stack
...
val someList = ArrayList()
...
val stack = Stack()
stack.addAll(someList)
3
12

This is a few years old but I suspect there's room for a different approach. If you want to use a stack structure in Kotlin you certainly don't need to resort to Java. You could easily just create a new class with an internal Kotlin list and stack-like public functions, or use Kotlin's extension methods to give an existing Kotlin collection "stack-like" functionality, for example:

fun <T> MutableList<T>.push(item: T) = this.add(this.count(), item)
fun <T> MutableList<T>.pop(): T? = if(this.count() > 0) this.removeAt(this.count() - 1) else null
fun <T> MutableList<T>.peek(): T? = if(this.count() > 0) this[this.count() - 1] else null
fun <T> MutableList<T>.hasMore() = this.count() > 0

Then, optionally, you could use a typealias to make it more obvious what you're trying to do when using those functions:

typealias Stack = MutableList<MyClass>

Then create one and use it:

val myStack: Stack = mutableListOf()
myStack.push(MyClass())
myStack.pop()

etc

8

I don't believe there's a specific separate implementation of Stack in Kotlin. You could definitely use the answer by Ed.

Alternatively, you could use a mutableListOf<DataType> construct, and then have custom methods that are on top of this.

It would be something like this :

var stackDemo = mutableListOf<String>()

To push an element

var count = stackDemo.count()
stackDemo.add(count,"One")

To pop an element

var count = stackDemo.count()
stackDemo.removeAt(count)

You can refer to this Github link for a model implementation

2
  • 1
    The use of 'count' here is unnecessary for adding elements, since it is the default location for single-parameter 'add'. Thus, 'stackDemo.add("One")' will suffice. Also, for removing elements, you should be using count()-1, not count(), or you will get exceptions thrown.
    – Some Guy
    Jan 24, 2019 at 11:09
  • Is mutableList more memory-efficient than stack?
    – IgorGanapolsky
    Mar 12, 2019 at 20:43
8

you can define Stack like it. 

val stack = Stack<YourStackType>()

notice that set the data type of your stack, for example stack of Int is like this:

val stack = Stack<Int>()

after that you can use push , pop , or other stack operations

example for Int stack :

a:Int = 10
stack.push(a)
a = stack.pop()
1
  • I get Unresolved reference: Stack when I try this.
    – biniam
    May 17, 2022 at 10:06

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