In OCaml, it is legal to have in `.mli`

:

```
val f : 'a -> 'a
val g : 'a -> 'a
```

and `.ml`

:

```
let f x = x
let g = f
```

Yet in F#, this is rejected:

```
eta_expand.ml(2,5): error FS0034: Module 'Eta_expand' contains
val g : ('a -> 'a)
but its signature specifies
val g : 'a -> 'a
The arities in the signature and implementation differ. The signature specifies that 'g' is function definition or lambda expression accepting at least 1 argument(s), but the implementation is a computed function value. To declare that a computed function value is a permitted implementation simply parenthesize its type in the signature, e.g.
val g: int -> (int -> int)
instead of
val g: int -> int -> int.
```

One workaround is to η-expand the definition of g:

```
let g x = f x
```

If my code is purely functional (no exceptions, no side effects, etc.) this should be equivalent (actually, it might be even better with respect to polymorphism, depending on how the language generalizes types : in OCaml partial applications do not produce polymorphic functions, but their η-expansion does).

Is there any drawback to systematic η-expansion?

Two answers elude the question on η-expansion :-) and instead suggest that I add parentheses around my functional type. This is because, apparently, F# distinguishes at the typing level between "true" definition of functions (as λ-expressions and computed definitions, as in partial applications); presumably this is because λ-expressions directly map to CLR functions while computed definitions map to delegate objects. (I'm not sure of this interpretation and would appreciate if somebody very familiar with F# could point to reference documents describing this.)

A solution would be to systematically add parentheses to *all* the function types in `.mli`

, but I fear this could lead to inefficiencies. Another would be to detect the computed functions and add parenthesize the corresponding types in the `.mli`

. A third solution would be to η-expand the obvious cases, and parenthesize the others.

I'm not familiar enough with F# / CLR internals to measure which ones incur significant performance or interfacing penalties.

`val g : ('a -> 'a)`

. It is a known feature/bug of the F# type system. – Ramon Snir Apr 5 '13 at 9:03`Func<int,int>`

property. The compatibility is not bidirectional (that is,`a -> b :<: (a -> b)`

, but not`(a -> b) :<: a -> b`

). – Ramon Snir Apr 5 '13 at 10:41`Func<int,int>`

incurs performance or interfacing penalties? – David Monniaux Apr 5 '13 at 10:47isn'tof type`int -> int`

, but of type`(int -> int)`

). – Ramon Snir Apr 5 '13 at 11:19