Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

How should I go about removing a given element from a list? As an example, say I have list ['A'; 'B'; 'C'; 'D'; 'E'] and want to remove the element at index 2 to produce the list ['A'; 'B'; 'D'; 'E']? I've already written the following code which accomplishes the task, but it seems rather inefficient to traverse the start of the list when I already know the index.

let remove lst i =
    let rec remove lst lst' =
        match lst with
        | []   -> lst'
        | h::t -> if List.length lst = i then
                      lst' @ t
                      remove t (lst' @ [h])
    remove lst []

let myList = ['A'; 'B'; 'C'; 'D'; 'E']
let newList = remove myList 2

Alternatively, how should I insert an element at a given position? My code is similar to the above approach and most likely inefficient as well.

let insert lst i x =
    let rec insert lst lst' =
        match lst with
        | []   -> lst'
        | h::t -> if List.length lst = i then
                      lst' @ [x] @ lst
                      insert t (lst' @ [h])
    insert lst []

let myList = ['A'; 'B'; 'D'; 'E']
let newList = insert myList 2 'C'
share|improve this question
Regarding inefficiency, iterating through a list, using List.length, and appending with the @ are each O(n). Looks like both of your functions are O(n^2). – Juliet May 23 '10 at 6:09
@Juliet - Isn't List.length O(1)? I was under the impression that when a list node is created, it stores the length returned by the next node, plus one. If so, all that List.length has to do is read a single property on the head of the list. – Joel Mueller May 24 '10 at 18:00
@Joel Mueller: the LinkedList and List classes in the BCL are O(1), but F# List doesn't store its length in each node. If you have F# installed, you can view the source in $(installpath)\source\fsharp.prim-types.fs. List.length calls lengthAcc, which is defined as let rec lengthAcc acc xs = match xs with [] -> acc | _ :: t -> lengthAcc (acc+1) t. So its O(n). – Juliet May 24 '10 at 18:52
So it is. I stand corrected. – Joel Mueller May 24 '10 at 19:30
up vote 12 down vote accepted

Seems the most idiomatic (not tail recursive):

let rec insert v i l =
    match i, l with
    | 0, xs -> v::xs
    | i, x::xs -> x::insert v (i - 1) xs
    | i, [] -> failwith "index out of range"

let rec remove i l =
    match i, l with
    | 0, x::xs -> xs
    | i, x::xs -> x::remove (i - 1) xs
    | i, [] -> failwith "index out of range"

it seems rather inefficient to traverse the start of the list when I already know the index.

F# lists are singly-linked lists, so you don't have indexed access to them. But most of the time, you don't need it. The majority of indexed operations on arrays are iteration from front to end, which is exactly the most common operation on immutable lists. Its also pretty common to add items to the end of an array, which isn't really the most efficient operation on singly linked lists, but most of the time you can use the "cons and reverse" idiom or use an immutable queue to get the same result.

Arrays and ResizeArrays are really the best choice if you need indexed access, but they aren't immutable. A handful of immutable data structures like VLists allow you to create list-like data structures supporting O(1) cons and O(log n) indexed random access if you really need it.

share|improve this answer

Removing element at the specified index isn't a typical operation in functional programming - that's why it seems difficult to find the right implementation of these operations. In functional programming, you'll usually process the list element-by-element using recursion, or implement the processing in terms of higher-level declarative operations. Perhaps if you could clarfiy what is your motivation, we can give a better answer.

Anyway, to implement the two operations you wanted, you can use existing higher-order functions (that traverse the entire list a few times, because there is really no good way of doing this without traversing the list):

let removeAt index input =
  // Associate each element with a boolean flag specifying whether 
  // we want to keep the element in the resulting list
  |> List.mapi (fun i el -> (i <> index, el)) 
  // Remove elements for which the flag is 'false' and drop the flags
  |> List.filter fst |> List.map snd

To insert element to the specified index, you could write:

let insertAt index newEl input =
  // For each element, we generate a list of elements that should
  // replace the original one - either singleton list or two elements
  // for the specified index
  input |> List.mapi (fun i el -> if i = index then [newEl; el] else [el])
        |> List.concat

However, as noted earlier - unless you have a very good reasons for using these functions, you should probably consider describing your goals more broadly and use an alternative (more functional) solution.

share|improve this answer
Thanks. There's no real motive; I found a list of sample programming exercises and am trying to solve each to help learn F#. – Timothy May 23 '10 at 2:42
@Timothy: That makes sense - this is definitiely an interesting excercise. In that case, you can compare solution by Juliet (using direct recursion) with my solution (using existing higer-order functions) - these are two typical approaches to solving this kind of problems. – Tomas Petricek May 23 '10 at 13:58

If you need random access in a list, consider using System.Collections.Generic.List<T> or System.Collections.Generic.LinkedList<T> instead of a F# list.

share|improve this answer
As a side-note, .NET List<T> is also accessible from F# using type alias ResizeArray<T> (to avoid confusion with built-in F# list). – Tomas Petricek May 23 '10 at 0:01

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.