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The :: operator in F# always prepends elements to the list. Is there an operator that appends to the list? I'm guessing that using @ operator

[1; 2; 3] @ [4]

would be less efficient, than appending one element.

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up vote 29 down vote accepted

As others said, there is no such operator, because it wouldn't make much sense. I actually think that this is a good thing, because it makes it easier to realize that the operation will not be efficient. In practice, you shouldn't need the operator - there is usually a better way to write the same thing.

Typical scenario: I think that the typical scenario where you could think that you need to append elements to the end is so common that it may be useful to describe it.

Adding elements to the end seems necessary when you're writing a tail-recursive version of a function using the accumulator parameter. For example a (inefficient) implementation of filter function for lists would look like this:

let filter f l = 
  let rec filterUtil acc l =
    match l with 
    | [] -> acc
    | x::xs when f x -> filterUtil (acc @ [x]) xs
    | x::xs -> filterUtil acc xs
  filterUtil [] l

In each step, we need to append one element to the accumulator (which stores elements to be returned as the result). This code can be easily modified to use the :: operator instead of appending elements to the end of the acc list:

let filter f l = 
  let rec filterUtil acc l =
    match l with 
    | [] -> List.rev acc                        // (1)
    | x::xs when f x -> filterUtil (x::acc) xs  // (2)
    | x::xs -> filterUtil acc xs
  filterUtil [] l

In (2), we're now adding elements to the front of the accumulator and when the function is about to return the result, we reverse the list (1), which is a lot more efficient than appending elements one by one.

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Surely there is a way to do this w/o the need to reverse the array at the end? – RodYan Mar 23 '10 at 22:01
If you wanted to do this without reverting the list, you could use the implementation described by Norman Ramsey or use a mutation (in F#, you'd have to define mutable list). Using standard list type, there is no way to do that. – Tomas Petricek Mar 23 '10 at 22:15

Lists in F# are singly-linked and immutable. This means consing onto the front is O(1) (create an element and have it point to an existing list), whereas snocing onto the back is O(N) (as the entire list must be replicated; you can't change the existing final pointer, you must create a whole new list).

If you do need to "append one element to the back", then e.g.

l @ [42]

is the way to do it, but this is a code smell.

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snoc ? And are you suggesting appending to a list is a bad idea ? In which case, how would you build up a list incrementally ? – Brian Agnew Mar 20 '10 at 21:35
@Brian Agnew, you build it up at the front, then List.rev when you've finished (see Tomas's answer). Unfortunately, I'm not clever enough to tell you how many O()'s that makes. – Benjol Mar 20 '10 at 22:34
@Benjol - that makes sense and is what I do in Scala. Thx. – Brian Agnew Mar 21 '10 at 0:04
@Brian Agnew: it's a pun: "snoc" == "cons".reverse – Jörg W Mittag Mar 21 '10 at 0:19
@Benjol: Well, building the list initially requires one cons for each element, and the reverse operation does a fold over that list, once again doing one cons for each element. This means there's 2n cons operations needed to build a list of length n in such a manner. However, in big-O notation the constant factor of 2 is irrelevant here, so the task of building a list in such a manner is O(n). – bcat Mar 22 '10 at 2:49

The cost of appending two standard lists is proportional to the length of the list on the left. In particular, the cost of

xs @ [x]

is proportional to the length of xs—it is not a constant cost.

If you want a list-like abstraction with a constant-time append, you can use John Hughes's function representation, which I'll call hlist. I'll try to use OCaml syntax, which I hope is close enough to F#:

type 'a hlist = 'a list -> 'a list   (* a John Hughes list *)
let empty : 'a hlist = let id xs = xs in id
let append xs ys = fun tail -> xs (ys tail)
let singleton x = fun tail -> x :: tail
let cons x xs = append (singleton x) xs
let snoc xs x = append xs (singleton x)
let to_list : 'a hlist -> 'a list = fun xs -> xs []

The idea is that you represent a list functionally as a function from "the rest of the elements" to "the final list". This works create if you are going to build up the whole list before you look at any of the elements. Otherwise you'll have to deal with the linear cost of append or use another data structure entirely.

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I can smell something funny.. I think it's my brain melting :) – Benjol Mar 20 '10 at 22:37

I'm guessing that using @ operator [...] would be less efficient, than appending one element.

If it is, it will be a negligible difference. Both appending a single item and concatenating a list to the end are O(n) operations. As a matter of fact I can't think of a single thing that @ has to do, which a single-item append function wouldn't.

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Before appending a list with a @ operator one needs to create a list of one element. – Max Mar 20 '10 at 13:27
@Max: How would you implement an append function which did not create a single-element list containing the appended item? After all the tail of the tail of the tail of [1,2,3,4] is [4]. And you can't construct a list without constructing its tail. – sepp2k Mar 20 '10 at 13:30
Why the downvote? – sepp2k Mar 20 '10 at 18:54
Remember what it actually means to have a list: It means you have a :: b :: c :: d :: []. In order to append a new element to the end, you have to construct a :: b :: c :: d :: e :: []. And as was illustrated earlier, e :: [] is the same thing as [e]. On the other hand, to prepend an element to a list, it's just e :: original_list. – Chuck Mar 20 '10 at 23:21
@JamesHugard: Appending to a list is not O(N^2). Appending N times is O(N^2). Appending to a list once is O(N) which is the same as concatenating a list of length 1 to the end of the list. Yes, prepending is faster (because it is O(1)), but that was NOT the question. The question was whether concatenating a single item list to the end was slower than appending a single item. Which it's not. – sepp2k Mar 21 '10 at 17:43

Maybe you want to use another data structure. We have double-ended queues (or short "Deques") in fsharpx. You can read more about them at

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The efficiency (or lack of) comes from iterating through the list to find the final element. So declaring a new list with [4] is going to be negligible for all but the most trivial scenarios.

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Try using a double-ended queue instead of list. I recently added 4 versions of deques (Okasaki's spelling) to FSharpx.Core (Available through NuGet. Source code at FSharpx.Core.Datastructures). See my article about using dequeus Double-ended queues for F#

I've suggested to the F# team the cons operator, ::, and the active pattern discriminator be made available for other data structures with a head/tail signature.3

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