4

I have a collection of Option<T> instances and want to transform from IEnumerable<Option<T>> to Option<IEnumerable<T>>

If ALL the options have a value, then I want a Some<IEnumerable<T>> with the collected values, if ANY of the items in the collection are None, then I want a None<IEnumerable<T>>

This seems like it would be quite a common functional transformation, but i'm not sure if it exists in mainstream functional libraries, or what it would be called. Seems similar to FlatMap, but not quite, as I don't want to just filter out the None values.

I could implement it myself, but would like to find out if it exists already as a functional construct. Don't mind what language, C#, Scala, Haskell etc.

5
  • 9
    Yes it is a common transformation it is called sequence it has the following signature sequence[F[_] : Traverse, G[_] : Applicative, A](fga: F[G[A]]): G[F[A]] (signature provided in Scala). It seems you need it in C#, I do not know if it has it, but at least you already know what to search for. Commented Nov 24, 2019 at 17:55
  • Thanks @LuisMiguelMejíaSuárez! Very interesting. I've done some Scala so will investigate. Commented Nov 24, 2019 at 17:59
  • 3
    Note, if you end up with that collection of options after a map, instead of calling map and then sequence you can use traverse instead. traverse[F[_] : Traverse, G[_] : Applicative, A, B](fa: F[A])(f: A => G[B]): G[F[B]] it follows the following equality sequence(fga) === traverse(fga)(identity) Thus, you can conclude that sequence(map(fa)(f)) === traverse(fa)(f). Commented Nov 24, 2019 at 18:00
  • 3
    I'm not familiar with the other languages tagged here, but this is also called sequence in Haskell - or sequenceA for the most general form which works over any Traversable holding Applicative values. Commented Nov 24, 2019 at 18:01
  • Cool, sequence and traverse. Looks like I have a good starting point for my investigations. Thanks guys! Commented Nov 24, 2019 at 18:03

6 Answers 6

7

Language-ext author here, you simply need to call .Sequence() to reverse the inner and outer monads:

IEnumerable<Option<int>> items = ...;

Option<IEnumerable<int>> result = items.Sequence();

It has the exact behaviour you're looking for of returning None if any item in the sequence is None, and Some otherwise.

You can also use .Traverse(...) to map the results as you go.

5

There's more than one 'language family' of functional programming concepts.

In Haskell (and, apparently, Scala) this is called sequence and is part of an abstraction or type class called Traversable; sequence is a special case of a traversal.

Other language famiilies exist, most notably ML. This is the where the term Option comes from (which in Haskell is called Maybe). While I'm well-versed in F# (which is one ML dialect), I'm not aware that traverse/sequence has an established terminology there.

2

These language constructs are not initially presented in C#; however, there're multiple functional programming libraries out there for such purposes. My choice would be Paul Louth's language-ext; the richest FP library I've found for C# so far.

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  • Yes, i'm using that exact library! My question still stands, is there an existing named method in the language-ext library which does this transformation? Commented Nov 24, 2019 at 17:57
  • I cannot tell for sure; but these transformations, I guess, could easily be implemented using System.Linq's Select, All, and Any. Commented Nov 24, 2019 at 18:00
  • It does have Somes (louthy.github.io/language-ext/LanguageExt.Core/…), which is the other way around and could technically be used to implement what you want but inefficiently. Commented Nov 25, 2019 at 8:20
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As you say you don't mind the language, I have an example here using F#, which has Option<T> out of the box:

let chooseAll source =
    let anyNone = source |> Seq.exists Option.isNone
    if anyNone then None else Some source

let s = [Some 1; Some 2; None]
let result1 = s |> chooseAll // None
let s = [Some 4; Some 5]
let result2 = s |> chooseAll // Some {4;5}

If you are unfamiliar with F#, Seq is a type alias for IEnumerable<T>. Here chooseAll has the signature seq<'a option> -> seq<'a> option, which translating to a C# friendly syntax is IEnumerable<Option<T>> -> Option<IEnumerable<T>>.

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  • I'm fine with F# too :) From your example, you say that from [Some 1; Some 2; None] I would end up with Some {1;2}, but this is not want I wanted. I would want in this example a None as there is at least 1 None in the collection. Commented Nov 24, 2019 at 18:24
  • D'oh, pretty important misread! Do you mind if the source is enumerated more than once?
    – Stuart
    Commented Nov 24, 2019 at 18:27
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    Well I could implement the method myself without too much issue. I was mainly trying to find out if this was a standard functional construct and would be available in core libraries, and what it's name would be. From the answers above it seems to be sequence and traverse. Now just need to check if the equivalents are available in F# etc and if I have to write my own implementation, what to name it. Commented Nov 24, 2019 at 18:29
  • Ah, I get you. I've updated my answer, but no, I don't know of a standard function to do this, so cannot help with naming (naming is hard by the way!)
    – Stuart
    Commented Nov 24, 2019 at 18:33
0

You can roll your own extension method that relies on available primitives from System.Linq namespace:

public static Option<IEnumerable<T>> AllSome<T>(this IEnumerable<Option<T>> input)
            where T : class
            => (input.All(o => o.IsSome)) ?
                new Some<IEnumerable<T>>(input.Select(o => (o as Some<T>).Value)) :
                new None<IEnumerable<T>>() as Option<IEnumerable<T>>;

This is based on a throwaway implementation of Option type that I wrote to support this example, feel free to adjust to your flavour of Option:

public class Option<T>
    where T: class
{
    protected T value;
    public bool IsSome => value != default(T);
}

public class Some<T> : Option<T>
    where T: class
{
    public Some(T value) => base.value = value;
    public T Value => base.value;
}

public class None<T> : Option<T>
    where T: class
{

}
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  • That looks allsome 😉
    – Stuart
    Commented Nov 25, 2019 at 1:15
0

I played with this a bit and it seems like f# fold and foldBack might be of use in this case. Here are some samples:

let l1 = [Some 1; Some 2; None]
let l2 = [Some 3; Some 4; Some 5]


let acc (ac: int list option) le = 
    match ac, le with
    | Some ac, Some le -> Some (le::ac)
    | _, _ -> None

//this will reverse the order of elements if all present
let r1 = l1 |> List.fold acc (Some [])
let r2 = l2 |> List.fold acc (Some [])

//the order of elements preserved
let acc2 le (ac: int list option) = acc ac le
let r3 = List.foldBack acc2 l1 (Some [])
let r4 = List.foldBack acc2 l2 (Some [])

//or...
let r3b = l1 |> List.foldBack acc2 <| (Some [])
let r4b = l2 |> List.foldBack acc2 <| (Some [])

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