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Is there a possibility of writing functions which are generic in respect to collection types they support other than using the seq module?

The goal is, not having to resort to copy and paste when adding new collection functions.

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2 Answers 2

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The seq<'T> type is the primary way of writing computations that work for any collections in F#. There are a few ways you can work with the type:

  • You can use functions from the Seq module (such as Seq.filter, Seq.windowed etc.)
  • You can use sequence comprehensions (e.g. seq { for x in col -> x * 2 })
  • You can use the underlying (imperative) IEnumerator<'T> type, which is sometimes needed e.g. if you want to implement your own zipping of collections (this is returned by calling GetEnumerator)

This is relatively simple type and it can be used only for reading data from collections. As the result, you'll always get a value of type seq<'T> which is essentially a lazy sequence.

F# doesn't have any mechanism for transforming collections (e.g. generic function taking collection C to collection C with new values) or any mechanism for creating collections (which is available in Haskell or Scala).

In most of the practical cases, I don't find that a problem - most of the work can be done using seq<'T> and when you need a specialized collection (e.g. array for performance), you typically need a slightly different implementation anyway.

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Thank you for the answer. So if I want to keep the information about the type of my original collection (say to avoid later being forced to call Seq.toArray when wanting to chain a "Knuth shuffle" to a hand rolled zipWith operation beforehand) I have to bite the bullet and copy and paste zipWith for all collection types I want to support? –  Alexander Battisti Apr 20 '11 at 12:44
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@Alexander: Yes, writing completely container-independent algorithms (like in C++ for example) is not possible in F#, as far as I'm aware. I guess one could theoretically implement object-oriented wrappers around the different collections types...but would that be worth it? - Wrt. to zipWith: All collection modules support a map2 function. –  wmeyer Apr 20 '11 at 16:19
    
@wmeyer: Thanks. Being able to write algorithms independent from the container implementation is a valuable feature for me. As I was told that in most practical cases lack of this ability is not a problem, I assume that I do not understand in a fundamental way how to structure F# code. –  Alexander Battisti Apr 20 '11 at 18:17
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I would guess that if you mostly write algorithms that take a seq as input and return an array as output, you'd be in good shape for most cases with very little massaging... But I could be wrong. –  Brian Apr 20 '11 at 18:30
    
@Brian: Thanks, I will try that and see how it looks and performs in my case(s). –  Alexander Battisti Apr 21 '11 at 8:57

Generic programming with collections can be handled the same way generic programming is done in general: Using generics.

let f (map_fun : ('T1 -> 'T2) -> 'T1s -> 'T2s) (iter_fun : ('T2 -> unit) -> 'T2s -> unit) (ts : 'T1s) (g : 'T1 -> 'T2) (h : 'T2 -> unit)=
    ts
    |> map_fun g
    |> iter_fun h

type A =
    static member F(ts, g, h) = f (Array.map) (Array.iter) ts g h
    static member F(ts, g, h) = f (List.map) (List.iter) ts g h

A bit ugly and verbose, but it's possible. I'm using a class and static members to take advantage of overloading. In your code, you can just use A.F and the correct specialization will be called.

For a prettier solution, see What features would you add, remove or change in F#? Although this feature is enabled only for the core library, it should not be a problem to modify the compiler to allow it in your code. That's possible because the source code of the compiler is open.

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Thanks, Joh. This is indeed quite verbose. –  Alexander Battisti Apr 21 '11 at 13:59

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