# Recursive functions in computation expressions

Some background first. I am currently learning some stuff about monadic parser combinators. While I tried to transfer the 'chainl1' function from this paper (p. 16-17), I came up with this solution:

``````let chainl1 p op = parser {
let! x = p
let rec chainl1' (acc : 'a) : Parser<'a> =
let p' = parser {
let! f = op
let! y = p
return! chainl1' (f acc y)
}
p' <|> succeed acc
return! chainl1' x
}
``````

I tested the function with some large input and got a StackOverflowException. Now I am wondering, is it posible to rewrite a recursive function, that uses some computation expression, in a way so it is using tail recursion?

When I expand the computation expression, I can not see how it would be generally possible.

``````let chainl1 p op =
let b = parser
b.Bind(p, (fun x ->
let rec chainl1' (acc : 'a) : Parser<'a> =
let p' =
let b = parser
b.Bind(op, (fun f ->
b.Bind(p, (fun y ->
b.ReturnFrom(chainl1' (f acc y))))))
p' <|> succeed acc
b.ReturnFrom(chainl1' x)))
``````
-

In your code, the following function isn't tail-recursive, because - in every iteration - it makes a choice between either `p'` or `succeed`:

``````// Renamed a few symbols to avoid breaking SO code formatter
let rec chainl1Util (acc : 'a) : Parser<'a> =
let pOp = parser {
let! f = op
let! y = p
return! chainl1Util (f acc y) }
// This is done 'after' the call using 'return!', which means
// that the 'cahinl1Util' function isn't really tail-recursive!
pOp <|> succeed acc
``````

Depending on your implementation of parser combinators, the following rewrite could work (I'm not an expert here, but it may be worth trying this):

``````let rec chainl1Util (acc : 'a) : Parser<'a> =
// Succeeds always returning the accumulated value (?)
let pSuc = parser {
let! r = succeed acc
return Choice1Of2(r) }
// Parses the next operator (if it is available)
let pOp = parser {
let! f = op
return Choice2Of2(f) }

// The main parsing code is tail-recursive now...
parser {
// We can continue using one of the previous two options
let! cont = pOp <|> pSuc
match cont with
// In case of 'succeed acc', we call this branch and finish...
| Choice1Of2(r) -> return r
// In case of 'op', we need to read the next sub-expression..
| Choice2Of2(f) ->
let! y = p
// ..and then continue (this is tail-call now, because there are
// no operations left - e.g. this isn't used as a parameter to <|>)
return! chainl1Util (f acc y) }
``````

In general, the pattern for writing tail-recursive functions inside computation expressions works. Something like this will work (for computation expressions that are implemented in a way that allows tail-recursion):

``````let rec foo(arg) = id {
// some computation here
return! foo(expr) }
``````

As you can check, the new version matches this pattern, but the original one did not.

-
This gets rid of the recursion through the user code, but in my implementation here lorgonblog.spaces.live.com/blog/cns!701679AD17B6D310!1772.entry it still StackOverflows through the parser implementation itself. I'll now be motivated to investigate 'parsers with continuations'... –  Brian Jun 29 '10 at 18:31
Does FParsec quanttec.com/fparsec handle this? –  Brian Jun 29 '10 at 18:33
Brian, I also used your blog series as a learning source. It helped alot. Meanwhile I compared Mau's answer ('seq') with my parser. And I guess the Delay method in the monad is import. But I realy dont know. FParsec uses 'while' ... but I want to use a functional solution :D –  PetPaulsen Jun 29 '10 at 18:50
Yes, my hunch is you'd need to refactor the underlying parser implementation to take a continuation parameter, and the `<|>` combinator would use continuations to make tail calls to its arguments, a bit like lorgonblog.spaces.live.com/blog/cns!701679AD17B6D310!250.entry versus lorgonblog.spaces.live.com/blog/cns!701679AD17B6D310!174.entry ... but at some point (a long time from now, with my current backlog) I hope to work through all of the details myself and blog about it :) –  Brian Jun 29 '10 at 18:54
Would be great, if you get managed to do so. I'm looking forward it and keep an eye on your blog. –  PetPaulsen Jun 29 '10 at 19:11
In general it is possible to write tail-recursive computation expressions (see 1 and 2), even with multiple `let!` bindings thanks to the 'delay' mechanism.
In this case the last statement of `chainl1` is what gets you into a corner I think.