7

In Haskell, declaration order in let/where constructs does not matter, for example:

f x = let g1 x y = if x>y then show x else g2 y x
          g2 p q = g1 q p
      in ...

where g2 used in g1 before its declaration. But this is not a case in Ocaml:

# let a = b in
  let b = 5 in
  a;;
Warning 26: unused variable b.
Error: Unbound value b

Is there a reason why OCaml doesn't behave like Haskell? In the absence of forward declaration, this feature seems useful to me.

Is it because of strict evaluation in OCaml but lazy in Haskell?

1
  • 11
    Note that in Haskell, the direct translation let a = b in let b = 5 in a is still illegal.
    – Fred Foo
    Dec 6, 2011 at 10:55

4 Answers 4

21

OCaml uses "let rec" to indicate when the binding in a group can refer to each other. Without the extra "rec" the binding must be in top-down order. See "local definitions" at http://caml.inria.fr/pub/docs/manual-ocaml/expr.html for details.

6

Not the strictness as such, but that's a symptom of the same problem.

Ocaml is not purely functional, which is to say that arbitrary function calls can do arbitrary I/O. This requires them to run in a predictable order, which requires both strictness and the let-ordering you've noticed.

1
  • 6
    I could hardly imagine a more inaccurate, biased and off-topic answer. The OP is asking about scoping rules here, which are an own topic that can be discussed independently of any evaluation order consideration. Besides, there are valid reasons to be restrictive in simultaneous binding scoping even in pure lazy languages, eg. if you want to allow shadowing of previously defined identifiers.
    – gasche
    Dec 7, 2011 at 22:49
5

In Haskell it's not because of lazy evaluation. Figuring out which name refers to what happens at compile time, when anyway nothing is being executed (strictly or lazily). Remember in Haskell you're only writing mathematical definitions, not commands to be executed in order. In what order you write these definitions does not matter. Whether you say

a = expr1
b = expr2

or

b = expr2
a = expr1

it means that a is defined to be expr1 and b is defined to be expr2.

I don't know any OCaml, so can't say anything about that.

-1

Haskell did away with the archaic let vs. let rec distinction. A decent compiler can see very well if it's a simple let or one that contains mutually recursive definitions and can act accordingly.

(I wonder what a ML compiler does if one starts with let rec and then only has non recursive definitions. Surely, this let/let rec thing is a nasty obstacle when one does some refactoring.)

11
  • 2
    I miss being able to do let x = x + 1, though.
    – hugomg
    Dec 6, 2011 at 13:49
  • 4
    You can write let rec anywhere you want. The compiler will not complain. The benefit of let is that allows you to be sure that what you are defining does not result in an accidental loop, e.g: let x = x + 1 as missingo suggested. Dec 6, 2011 at 14:54
  • 1
    sometimes people like being able to define a new variable inside a scope with the same name as (and hiding) an existing variable outside, set to some transformation of the old variable. automatic let rec would prevent this.
    – newacct
    Dec 6, 2011 at 21:24
  • 1
    @JonHarrop What is incorrect? That Haskell did away with this?
    – Ingo
    Oct 25, 2012 at 22:58
  • 2
    I find shadowing variables suseful sometimes when I am updating a "state" variable, since doing so protects me from accidentaly misusing the old version. And I concur that the lambda hack is definitly very ugly - I was just pointing out a way to implement a non-letrec "let" in Haskell.
    – hugomg
    Oct 29, 2012 at 5:00

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