# Is it possible to implement a recursive “SelectMany”?

As we all know, `Enumerable.SelectMany` flattens a sequence of sequences into a single sequence. What if we wanted a method that could flatten sequences of sequences of sequences, and so on recursively?

I came up quickly with an implementation using an `ICollection<T>`, i.e. eagerly evaluated, but I'm still scratching my head as to how to make a lazily-evaluated one, say, using the `yield` keyword.

``````static List<T> Flatten<T>(IEnumerable list)  {
var rv = new List<T>();
InnerFlatten(list, rv);
return rv;
}

static void InnerFlatten<T>(IEnumerable list, ICollection<T> acc) {
foreach (var elem in list) {
var collection = elem as IEnumerable;
if (collection != null) {
InnerFlatten(collection, acc);
}
else {
}
}
}
``````

Any ideas? Examples in any .NET language welcome.

-
Maybe use the Y combinator? That would find the fixed point (i.e. completely flattened list) –  Mike Bantegui Nov 16 '12 at 1:46
possible duplicate of Recursive List Flattening –  Cyril Gandon Nov 16 '12 at 2:57
@Scorpi0: Very similar, but not exact duplicates. This question asks for answers in C# or F# (according to the tags) or other .net languages (from the question). The other question was specific to C#. –  Joh Nov 16 '12 at 8:22

This is trivial in F# with recursive sequence expressions.

``````let rec flatten (items: IEnumerable) =
seq {
for x in items do
match x with
| :? 'T as v -> yield v
| :? IEnumerable as e -> yield! flatten e
| _ -> failwithf "Expected IEnumerable or %A" typeof<'T>
}
``````

A test:

``````// forces 'T list to obj list
let (!) (l: obj list) = l
let y = ![["1";"2"];"3";[!["4";["5"];["6"]];["7"]];"8"]
let z : string list = flatten y |> Seq.toList
// val z : string list = ["1"; "2"; "3"; "4"; "5"; "6"; "7"; "8"]
``````
-
I must say I don't understand the casting to 'T trickery... 'T isn't mentioned anywhere but there, and it could be anything, including IEnumerable, no? How is writing 'T here any different from writing obj? –  Asik Nov 16 '12 at 6:51
@Dr_Asik Daniel's code is wrong in its current shape. If you try to type it, the compiler gives a warning that the second rule will never be matched. –  Joh Nov 16 '12 at 8:35
@Dr_Asik: `'T` is a type arg and `match x with :? 'T` is a type test (`x is T` in C#). Type args are not required to be explicit in F#, due to type inference. –  Daniel Nov 16 '12 at 15:14
@Joh: The function compiles (without warnings) and works perfectly, as my test demonstrates. You can try it out on ideone. –  Daniel Nov 16 '12 at 15:31
@Daniel I know what the syntax means, but I don't understand why 'T doesn't include IEnumerable so the second clause can be matched. –  Asik Nov 16 '12 at 18:37
show 4 more comments

As far as I understood your idea, this is my variant:

``````static IEnumerable<T> Flatten<T>(IEnumerable collection)
{
foreach (var o in collection)
{
if (o is IEnumerable && !(o is T))
{
foreach (T t in Flatten<T>((IEnumerable)o))
yield return t;
}
else
yield return (T)o;
}
}
``````

and check it

``````List<object> s = new List<object>
{
"1",
new string[] {"2","3"},
"4",
new object[] {new string[] {"5","6"},new string[] {"7","8"},},
};
var fs = Flatten<string>(s);
foreach (string str in fs)
Console.WriteLine(str);
Obviously, it does lack some type validity checks (an `InvalidCastExcpetion` if collection contains not `T`, and probably some other drawbacks)...well, at least it's lazy-evaluated, as desired.
`!(o is T)` was added to prevent flattenning of `string` to `char` array
`!(o is T)` is a nice catch! –  Benjol Nov 16 '12 at 5:46