# How would you implement a beta-reduction function in F#?

I am writing a lambda calculus in F#, but I am stuck on implementing the beta-reduction (substituting formal parameters with the actual parameters).

``````(lambda x.e)f
--> e[f/x]
``````

example of usage:

``````(lambda n. n*2+3) 7
--> (n*2+3)[7/n]
--> 7*2+3
``````

So I'd love to hear some suggestions in regards to how others might go about this. Any ideas would be greatly appreciated.

Thanks!

-
BTW, the example I used comes from a discussion of lambda calculus found at csse.monash.edu.au/~lloyd/tildeFP/Lambda/Ch/01.Calc.html –  klactose Oct 28 '10 at 8:00

Assuming your representation of an expression looks like

``````type expression = App of expression * expression
| Lambda of ident * expression
(* ... *)
``````

, you have a function `subst (x:ident) (e1:expression) (e2:expression) : expression` which replaces all free occurrences of `x` with `e1` in `e2`, and you want normal order evaluation, your code should look something like this:

``````let rec eval exp =
match exp with
(* ... *)
| App (f, arg) -> match eval f with Lambda (x,e) -> eval (subst x arg e)
``````

The `subst` function should work as follows:

For a function application it should call itself recursively on both subexpressions.

For lambdas it should call itself on the lambda's body expression unless the lambda's argument name is equal to the identifier you want to replace (in which case you can just leave the lambda be because the identifier can't appear freely anywhere inside it).

For a variable it should either return the variable unchanged or the replacement-expression depending on whether the variable's name is equal to the identifier.

-
Thanks for the response sepp2K. You have pretty much gotten the gist of what I am trying to do. But the part that I was having trouble fully implementing is the beta_reduce. Here you have injected a function called subst that does the same thing that beta_reduce would do without explaining how subst would be implemented. Which leaves me in the same position as before. –  klactose Oct 28 '10 at 18:40
Other than that though, your code is pretty representative of how mine looks. –  klactose Oct 28 '10 at 18:42
Oh and one more thing... shouldn't you your App case end with eval(beta_reduce(x,e) arg)? Otherwise wouldn't we simply be returning the function without actually applying it? –  klactose Oct 28 '10 at 18:54
@klactose: I updated my answer to explain how to implement `subst`. And yes, of course it should call eval on the result of the substitution. Silly mistake. –  sepp2k Oct 28 '10 at 18:59
Thanks for your input sepp2k. I'm not certain that I understand what you mean when you suggest that subst should call itself recursively on both subexpressions of a function application. My function application looks like this: App(expr1, expr2). While expr1 should be a Lambda epression, expr2 is the value that should be replacing the variable in the lambda. So if subst takes 3 parameters, what parameters would be used for the recursive calls for non-lambda expressions??? Sorry for the long response! –  klactose Oct 29 '10 at 4:08