Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

For practice, I'm trying to define a type corresponding to lambda-calculus expressions composed of variables, abstractions, and applications. My current best attempt is:

type expr = Var of string | Abs of expr * expr | App of expr * expr

However, I would like to restrict the first part of an Abs to be a Var. For instance, I would like this to be an ill-formed expr:

Abs(Abs(Var "foo", Var "bar"), Var "bar")

but it is currently accepted as valid. I would also like to require that the first part of an App be an Abs. Is there any way to have the type system enforce these restrictions, or is this pushing it beyond what it was designed to do?

Edit: In case it wasn't clear, Abs(Var "x", Var "x") should be considered valid.

share|improve this question
Side note: for many purposes it makes sense to define lambda-terms using de Bruijn indices — this avoids the nastiness of renaming variables when performing substitutions. –  monniaux Mar 27 '13 at 17:31

4 Answers 4

up vote 2 down vote accepted

AFAIU, you need GADTs to achieve that, which were recently merged into svn trunk.

Here is amateur's example (maybe not fully correct, but it satisfies your requirements) :

        OCaml version 3.13.0+dev6 (2011-07-29)

# type _ t =
  | Var : string -> string t
  | Abs : (string t * 'a t) -> (string * 'a) t
  | App : ((string * 'a) t * 'b t) -> ('a -> 'b) t;;
type 'a t =
    Var : string -> string t
  | Abs : (string t * 'b t) -> (string * 'b) t
  | App : ((string * 'c) t * 'd t) -> ('c -> 'd) t
# Abs(Abs(Var "foo", Var "bar"), Var("bar"));;
Error: This expression has type (string * 'a) t
       but an expression was expected of type string t
# App(Var "bar", Abs(Var "foo", Var "bar"));;
Error: This expression has type string t
       but an expression was expected of type (string * 'a) t
# App(Abs(Var "foo", Var "bar"), Var("bar"));;
- : (string -> string) t = App (Abs (Var "foo", Var "bar"), Var "bar")
share|improve this answer

You can't get the type system to directly enforce something like that. Instead, I would consider defining two types:

type variable = Name of string
type expr = Var of variable | Abs of variable * expr | App of expr * expr

This is similar to Jeff's answer, but gives you the freedom to change the type used for the defining variables without having to worry about changing it in two places. Both are valid ways to go about dealing with the problem.

share|improve this answer
Thank you for the answer. It is helpful, but I should have been more specific: I would like Abs(Var("x"), Var("x")) to be valid, but, with the code in your answer, it isn't. –  Josh Jordan Sep 10 '11 at 20:34
Sure, but Abs(Name("x"),Var(Name("x"))) would be. It's just a slight change in structure. –  Keith Irwin Sep 10 '11 at 21:21

Polymorphic variants let you define subtypes of datatypes. The subtypes enforce simple structural constraints.

For example, here's a definition of lambda-terms with polymorphic variants, with a definition of a subtype for head normal forms.

type var = [ `Var of string ]

type expr = [
  | var
  | `Abs of var * expr
  | `App of expr * expr

type irr (*non-head-reducible applications*) = [
  | var
  | `App of irr * expr
type hnf (*head normal forms*) = [
  | irr
  | `Abs of var * hnf

let substitution (x : var) (u : expr) : expr -> expr =
  failwith "left as an exercise"

(*Iterated head reductions produce a head normal form*)
let rec head_reductions : expr -> hnf = function
  | #var as x -> x
  | `Abs (x, u) -> `Abs (x, head_reductions u)
  | `App (u, v) ->
      match head_reduction u with
      | #irr as u -> u
      | `Abs (x, w) -> head_reductions (substitution x u (w :> expr))
share|improve this answer
That seems to accept the example I wanted it to reject: `Abs(`Abs(`Var "foo", `Var "bar"), `Var "bar"). What am I missing? –  Josh Jordan Sep 10 '11 at 20:42
@JoshJordan Polymorphic variant types aren't generative (that's why you can do subtyping with them). What you have is a valid Caml expression. But it's not of type expr. –  Gilles Sep 10 '11 at 20:58
Thanks. I may have phrased it poorly in my question, but I was hoping to be able to define the type expr such the above expression was of that type. –  Josh Jordan Sep 11 '11 at 6:15
@JoshJordan So… you've just told me you don't want that expression to be of type expr, and your want that expression to be of type expr`. One of the requirements will have to give. Polymorphic variants are definitely a good way of implementing simple structural subtypes. I don't understand what you're after here. –  Gilles Sep 11 '11 at 10:16

The problem is you've defined Abs to accept two exprs and each of those may be Var, Abs or App.

An Abstraction should consist of a variable and expression, not two expressions. A variable is just a string in this case so your Abs should consist of a string and expression.

Change it to:

Abs of string * expr
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.