# Enumerator and disposing in F#

I am trying to draw lessons on the following behaviour from an example I simplified :

``````let groupedEnum  (input: 'a seq) =
using (input.GetEnumerator()) (fun en ->
Seq.unfold(fun _ ->
if en.MoveNext() then
Some(en.Current, ())
else None) ()
)

//WORKS
let c = groupedEnum    ("11111122334569999"   |>  List.ofSeq ) |>  List.ofSeq

//BOOM !!  System.NullReferenceException
let c = groupedEnum    ("11111122334569999"                  ) |>  List.ofSeq
``````
• Is the enumerator "en" disposed of independently of it being captured ? (I guess it is but is there anything to say / materials to read on this behaviour beside this msdn doc on ressources)

• Why is it working if the sequence is transformed to a list first ?

Edit : this is just a toy example to illustrate a behaviour, not to be followed. There are very few good reasons to manipulate enumerators directly.

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What does "boom" mean? What symptoms are you seeing? Leaving people to guess does not invite good input. – ildjarn Nov 22 '12 at 18:07
added missing info – nicolas Nov 22 '12 at 20:15

## 1 Answer

The `using` function disposes the enumerator as soon as the lambda function returns. However, the lambda function creates a lazy sequence using `Seq.unfold` and the lazy sequence accesses the enumerator after the sequence is returned from `groupedEnum`.

You could either fully evaluate the whole sequence inside `using` (by adding `List.ofSeq` there) or you need to call `Dispose` when the end of the generated sequence is reached:

``````let groupedEnum  (input: 'a seq) =
let en = input.GetEnumerator()
Seq.unfold(fun _ ->
if en.MoveNext() then
Some(en.Current, ())
else
en.Dispose()
None)
``````

Exception handling becomes quite difficult in this case, but I guess that one way to do it would be to wrap the body in `try .. with` and call `Dispose` if an exception happens (and then return `None`).

If you use sequence expressions instead, then the meaning of `use` changes and it automatically disposes the enumerator after the end of sequence is reached (not when the lazy sequence is returned). So using sequence expressions might be a better choice because the hard work is done for you:

``````let groupedEnum  (input: 'a seq) = seq {
use en = input.GetEnumerator()
let rec loop () = seq {
if en.MoveNext() then
yield en.Current
yield! loop () }
yield! loop () }
``````

EDIT And why does it work in your first example? The enumerator returned by F# list type simply ignores `Dispose` and continues working, while if you call `Dispose` on an enumerator returned by a `string`, the enumerator cannot be used again. (This is arguably a bit odd behaviour of the F# list type.)

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How nice and easy this "seq {}" expression is. Going to enumerator level is in most case unnecessary and a code smell, just playing around with it. indeed the list enumerator is not doing anything github.com/fsharp/fsharp/blob/master/src/fsharp/FSharp.Core/… – nicolas Nov 22 '12 at 14:20