# F# function to convert a n-dimensional list to 1-dimensional list

I'm attempting a few minor tasks in F# to help get a handle on the language.

I would like to write a function that takes a n-dimensional list and returns a 1-dimensional list containing all the elements from each dimension.

For example, if the input was the following 3-dimensional list: [[[1;2];[3;4]];[[5;6];[7;8]]], the output would be: [1;2;3;4;5;6;7;8]

For 2-dimensions -> 1-dimension the function is pretty straightforward:

``````let coalesce list= List.collect(fun item -> item) list
``````

Here is my attempt to generalize this to n-dimensions:

``````let rec coalesce (list, dimension) =
if dimension = 1 then list
else coalesce (List.collect(fun item -> item) list, dimension - 1)
``````

I get the following error when I try to compile:

error FS0001: Type mismatch. Expecting a
'a list list
but given a
'a list
The resulting type would be infinite when unifying ''a' and ''a list'

The issue is here:

``````List.collect(fun item -> item) list
``````

There's obviously something wrong with my thinking. What's the proper way to write this sort of function?

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– kennytm Jul 8 '10 at 20:09

This operation is not well-typed, but here's a sample that works on `IEnumerable`s and returns a `list<obj>`:

``````let rec coalesce(list:System.Collections.IEnumerable, dim) =
[
if dim=1 then for x in list do yield x
else
for x in list do
match x with
| :? System.Collections.IEnumerable as s ->
yield! coalesce(s, dim-1)
| _ -> failwith "bad shape"
]
printfn "%A" (coalesce([1;2], 1))
printfn "%A" (coalesce([[1;2];[3;4]], 2))
printfn "%A" (coalesce([[[1;2];[3;4]];[[5;6];[7]]], 3))
``````

You can also write

``````let rec flatten(list:System.Collections.IEnumerable) =
[for x in list do
match x with
| :? System.Collections.IEnumerable as s -> yield! flatten(s)
| _ -> yield x
]
``````

which is more general, e.g.

``````let weird : obj list = [[box [1;2]; box 3]; 4; [box [5;6]; box 7]]
printfn "%A" (flatten weird)
``````

EDIT

@Jon Harrop suggested another strategy - create a new type for nested lists:

``````type NestedListElement<'T> = //'
| L of NestedListElement<'T> list //'
| V of 'T //'

let rec flatten nlist =
[for x in nlist do
match x with
| L l -> yield! flatten l
| V v -> yield v
]

let nested = [L[L[V 1;V 2]; V 3]; V 4; L[L[V 5;V 6]; V 7]]
printfn "%A" (flatten nested)
``````
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"This operation is not well-typed". In F# but other languages don't have a problem, of course. – Jon Harrop Jul 8 '10 at 22:43

The F# type system cannot express this. The most common solution is to create a new type representing nested lists.

-

Sorry, I've a bit knowledge of F# syntax, this is solution in C#, may be it helps:

``````namespace FlatEnumerable
{
class Program
{
static void Main(string[] args)
{
var arr = new int[,,] { { { 1, 2 }, { 3, 4 } }, { { 5, 6 }, { 7, 8 } } };
foreach (var i in arr.Flat())
Console.WriteLine(i);
}
}

static class Enumerable2
{
public static IEnumerable Flat(this IEnumerable source)
{
foreach (var item in source)
{
var enu = item as IEnumerable;
if (enu != null)
foreach (var c in enu.Flat())
yield return c;
else
yield return item;
}
}
}
}
``````

I belive it can be improved in F# by using pattern matching instead of casting and checking for null.

-

No, the problem is that `coalesce` takes a list of lists and the compiler doesn't know that `List.collect(fun item -> item) list` always returns a list of lists (as a matter of fact the compiler can't know that because it's not true). However since that's what you pass in as the argument to `coalesce` the compiler would need to know that in order to allow that call.

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Oops. You're right. List.collect(fun item -> item) won't always return a list of lists. I'll edit my original post. – Narwe Jul 8 '10 at 20:18

I Took the nested List idea and tried to write a neater version:

``````type NestedListElement<'T> = //'
| L of NestedListElement<'T> list //'
| V of 'T //'

let nested = [L[L[V 1;V 2]; V 3]; V 4; L[L[V 5;V 6]; V 7]]

let flatten n1 =
let rec traverseNestedList nl = match nl with
| V c -> [c]
| L a -> List.collect traverseNestedList a
List.collect traverseNestedList n1

let res7 = nested |> flatten
``````
-