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...or, how do I filter a sequence of classes by the interfaces they implement?

Let's say I have a sequence of objects that inherit from Foo, a seq<#Foo>. In other words, my sequence will contain one or more of four different subclasses of Foo.

Each subclass implements a different independent interface that shares nothing with the interfaces implemented by the other subclasses.

Now I need to filter this sequence down to only the items that implement a particular interface.

The C# version is simple:

    void MergeFoosIntoList<T>(IEnumerable<Foo> allFoos, IList<T> dest) 
        where T : class
        foreach (var foo in allFoos)
            var castFoo = foo as T;
            if (castFoo != null)

I could use LINQ from F#:

    let mergeFoosIntoList (foos:seq<#Foo>) (dest:IList<'a>) =
            |> Seq.iter dest.Add

However, I feel like there should be a more idiomatic way to accomplish it. I thought this would work...

    let mergeFoosIntoList (foos:seq<#Foo>) (dest:IList<'a>) =
            |> Seq.choose (function | :? 'a as x -> Some(x) | _ -> None)
            |> Seq.iter dest.Add

However, the complier complains about :? 'a - telling me:

This runtime coercion or type test from type 'b to 'a involves an indeterminate type based on information prior to this program point. Runtime type tests are not allowed on some types. Further type annotations are needed.

I can't figure out what further type annotations to add. There's no relationship between the interface 'a and #Foo except that one or more subclasses of Foo implement that interface. Also, there's no relationship between the different interfaces that can be passed in as 'a except that they are all implemented by subclasses of Foo.

I eagerly anticipate smacking myself in the head as soon as one of you kind people points out the obvious thing I've been missing.

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3 Answers 3

up vote 5 down vote accepted

Typically just adding a 'box' is sufficient (e.g. change function to fun x -> match box x with), but let me try it out...

Yeah; basically you cannot sideways cast from one arbitrary generic type to another, but you can upcast to System.Object (via box) and then downcast to anything you like:

type Animal() = class end
type Dog() = inherit Animal()
type Cat() = inherit Animal()

let pets : Animal list = 
    [Dog(); Cat(); Dog(); Cat(); Dog()]
printfn "%A" pets

open System.Collections.Generic     

let mergeIntoList (pets:seq<#Animal>) (dest:IList<'a>) = 
    |> Seq.choose (fun p -> match box p with  
                            | :? 'a as x -> Some(x) | _ -> None) //'
    |> Seq.iter dest.Add 

let l = new List<Dog>()
mergeIntoList pets l
l |> Seq.iter (printfn "%A")
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That did the trick. Thanks! –  Joel Mueller Mar 26 '10 at 5:51
@Brian - but would you go this route? In this case, OfType seems a lot prettier... –  Benjol Mar 26 '10 at 10:17
If it's just a matter of syntax and not performance, it would be easy enough to extend the Seq module with an ofType<'a> function. Then the method body would just be: pets |> Seq.ofType<'a> |> Seq.iter dest.Add –  Joel Mueller Mar 26 '10 at 16:46
Enumerable.OfType is shorter, and "shortest" is commonly a proxy for "preferred/best" for me. I was just answering the question. (Enumerable.OfType also assumes a dependency on .NET 3.5 or above.) –  Brian Mar 26 '10 at 16:47

You can do this:

let foos = candidates |> Seq.filter (fun x -> x :? Foo) |> Seq.cast<Foo>
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From https://gist.github.com/kos59125/3780229

let ofType<'a> (source : System.Collections.IEnumerable) : seq<'a> =
   let resultType = typeof<'a>
   seq {
      for item in source do
         match item with
            | null -> ()
            | _ ->
               if resultType.IsAssignableFrom (item.GetType ())
                  yield (downcast item)
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