As Jon already said, your function is not tail-recursive. The basic problem is that it needs to call itself recursively multiple times (once for every element in the
xs list, which is done in the lambda function passed to
In case when you actually need to make multiple recursive calls, using the continuation passing style or i.e. imperative stack are probably the only options. The idea behind continuations is that every function will take another function (as the last argument) that should be executed when the result is available.
The following example shows normal version (on the left) and continuation based (on the right)
let res = foo a b fooCont a b (fun res ->
printfn "Result: %d" res printfn "Result: %d" res)
To write your function in a continuation passing style, you'll need to use a continuation-based
fold function too. You can first avoid using
map by moving the operation done in
map into the lambda function of
List.fold g acc (List.map (fun xxs -> myfunc f xxs) xs)
List.fold (fun state xxs -> g state (myfunc f xxs)) acc xs
Then you can rewrite the code as follows (Note that both
g that you did not show in your question are now continuation-based functions, so they take additional argument, which represents the continuation):
// The additional parameter 'cont' is the continuation to be called
// when the final result of myfunc is computed
let rec myfunc' f (T (x,xs)) cont =
if (List.isEmpty xs) then
// Call the 'f' function to process the last element and give it the
// current continuation (it will be called when 'f' calculates the result)
f x cont
// Using the continuation-based version of fold - the lambda now takes current
// element 'xxs', the accumulated state and a continuation to call
// when it finishes calculating
List.foldCont (fun xxs state cont ->
// Call 'myfunc' recursively - note, this is tail-call position now!
myfunc' f xxs (fun res ->
// In the continuation, we perform the aggregation using 'g'
// and the result is reported to the continuation that resumes
// folding the remaining elements of the list.
g state res cont)) acc xs cont
List.foldCont function is a continuation-based version of
fold and can be written as follows:
module List =
let rec foldCont f (state:'TState) (list:'T list) cont =
match list with
|  -> cont state
| x::xs -> foldCont f state xs (fun state ->
f x state cont)
Since you did not post a complete working example, I could not really test the code, but I think it should work.