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 →

I'm learning to deal with Lists and Tuples in F# and a problem came up. I have two lists: one of names and one with names,ages.

let namesToFind = [ "john", "andrea" ]
let namesAndAges = [ ("john", 10); ("andrea", 15) ]

I'm trying to create a function that will return the first age found in namesAndAges given namesToFind. Just the first.

So far I have the following code which returns the entire tuple ("john", 10).

let findInList source target = 
            let itemFound = seq { for n in source do
                                    yield target |> List.filter (fun (x,y) -> x = n)  }                                
                                |> Seq.head    

I tried using fst() in the returning statement but it does not compile and gives me "This expression was expected to have type 'a * 'b but here has type ('c * 'd) list"

Thanks for any help!

share|improve this question
up vote 2 down vote accepted

There are lots of functions in the Collections.List module that can be used. Since there are no break or a real return statement in F#, it is often better to use some search function, or write a recursive loop-function. Here is an example:

let namesToFind = [ "john"; "andrea" ]
let namesAndAges = [ "john", 10; "andrea", 15 ]

let findInList source target =
  List.pick (fun x -> List.tryFind (fun (y,_) -> x = y) target) source

findInList namesToFind namesAndAges

The findInList function is composed of two functions from the Collections.List module.

  • First we have the List.tryFind predicate list function, which returns the first item for which the given predicate function returns true.

    The result is in the form of an option type, which can take two values: None and Some(x). It is used for functions that sometimes give no useful result.

    The signature is: tryFind : ('T -> bool) -> 'T list -> 'T option, where 'T is the item type, and ('T -> bool) is the predicate function type.

    In this case it will search trough the target list, looking for tuples where the first element (y) equals the variable x from the outer function.

  • Then we have the List.pick mapper list function, which applies the mapper-function to each one, until the first result that is not None, which is returned.

    This function will not return an option value, but will instead throw an exception if no item is found. There is also an option-variant of this function named List.tryPick.

    The signature is: pick : ('T -> 'U option) -> 'T list -> 'U, where 'T is the item type, 'U is the result type, and ('T -> 'U option) is the mapping function type.

    In this case it will go through the source-list, looking for matches in the target array (via List.tryFind) for each one, and will stop at the first match.

If you want to write the loops explicitly, here is how it could look:

let findInList source target =
  let rec loop names =
    match names with
    | (name1::xs) -> // Look at the current item in the
                     // source list, and see if there are
                     // any matches in the target list.
        let rec loop2 tuples =
          match tuples with
          | ((name2,age)::ys) ->  // Look at the current tuple in
                                  // the target list, and see if
                                  // it matches the current item.
              if name1 = name2 then
                Some (name2, age) // Found a  match!
                loop2 ys          // Nothing yet; Continue looking.
          | [] -> None            // No more items, return "nothing"
        match loop2 target with           // Start the loop
        | Some (name, age) -> (name, age) // Found a match!
        | None -> loop rest               // Nothing yet; Continue looking.
    | [] -> failwith "No name found" // No more items.

  // Start the loop
  loop source

(xs and ys are common ways of writing lists or sequences of items)

share|improve this answer

First let's look at your code and annotate all the types:

let findInList source target = 
    let itemFound =
        seq {
            for n in source do
                yield target |> List.filter (fun (x,y) -> x = n) }                                
        |> Seq.head    

The statement yield List.Filter ... means you're creating a sequence of lists: seq<list<'a * 'b>>.

The statement Seq.head takes the first element from your sequence of lists: list<'a * 'b>.

So the whole function returns a list<'a * 'b>, which is obviously not the right type for your function. I think you intended to write something like this:

let findInList source target = 
    let itemFound =
        target                               // list<'a * 'b>
        |> List.filter (fun (x,y) -> x = n)  // list<'a * 'b>
        |> Seq.head                          // 'a * 'b
    itemFound                                // function returns 'a * 'b

There are lots of ways you can get the results you want. Your code is already half way there. In place of filtering by hand, I recommend using the built in val Seq.find : (a' -> bool) -> seq<'a> -> 'a method:

let findAge l name = l |> Seq.find (fun (a, b) -> a = name) |> snd

Or you can try using a different data structure like a Map<'key, 'value>:

> let namesAndAges = [ ("john", 10); ("andrea", 15) ] |> Map.ofList;;

val namesAndAges : Map<string,int> = map [("andrea", 15); ("john", 10)]

> namesAndAges.["john"];;
val it : int = 10

If you want to write it by hand, then try this with your seq expression:

let findInList source target = 
    seq {
        for (x, y) in source do
            if x = target then
                yield y}
    |> Seq.head
share|improve this answer

Like fst use this(below) . This way you can access all the values.

This is from F# interactive

let a = ((1,2), (3,4));
let b = snd (fst a);;

//interactive output below.
val a : (int * int) * (int * int) = ((1, 2), (3, 4))
val b : int = 2
share|improve this answer

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.