Functor Syntax
In the functor syntax we've been using:
module F (M : S) = struct
...
end
the type annotation : S and the parentheses around it, (M : S) are required.
The reason why is that type inference of the signature of a functor input
is not supported.
Much like functions, functors can be written anonymously. The following two syntaxes for functors are equivalent:
module F (M : S) = struct
...
end
module F = functor (M : S) -> struct
...
end
The second form uses the functor keyword to create an anonymous functor,
like how the fun keyword creates an anonymous function.
And functors can be parameterized on multiple structures:
module F (M1 : S1) ... (Mn : Sn) = struct
...
end
Of course, that's just syntactic sugar for a higher-order functor that takes a structure as input and returns an anonymous functor:
module F = functor (M1 : S1) -> ... -> functor (Mn : Sn) -> struct
...
end
If you want to specify the output type of a functor, the syntax is again similar to functions:
module F (M : Si) : So = struct
...
end
It's also possible to write the type annotation on the structure:
module F (M : Si) = (struct
...
end : So)
In that case, note that the parentheses around the anonymous structure are required. It turns out that syntax parallels a similar syntax for functions that we just haven't used before:
let f x = (x+1 : int)
The syntax for writing down the type of a functor is also much like the
syntax for writing down the type of a function. Here is the type of
a functor that takes a structure matching signature Si as input
and returns a structure matching So:
functor (M : Si) -> So
If you wanted to annotate a functor definition with a type you can combine a couple of the syntaxes we've now seen:
module F : functor (M : Si) -> So =
functor (M : Si) -> struct ... end
The first occurrence of functor in that code means that what follows
is a functor type, and the second occurrence means that what follows
is an anonymous functor value.