A type variable with underscore as a prefix tells us that the variable is *weakly polymorphic*. A weakly polymorphic variable can be used only with one type, however a compiler can't deduce the exact type, so the type variable is mark with underscore.

When you provide an argument for the first time, a variable will no longer be polymorphic and will be able to accept arguments of a single type only.

Usually, a function is not generalized, but marked as weakly polymorphic if it *might* contain mutable state. In your example this is probably the case, because type system doesn't know if `List.fold_left`

is pure or impure function.

**Edit:**
Why avoiding partial application (*eta expansion*) allows function (even impure) to be polymorphic?

Let's define a function that have an internal counter that is incremented and printed out every time the function is called. Among this, it takes a function as the argument and applies it after increasing the counter:

```
let count f =
let inc = ref 0 in
(fun x -> inc := !inc + 1; print_int !inc; f x);;
```

This function is polymorphic: `('a -> 'b) -> 'a -> 'b`

.

Next, let's define two more functions. A weekly polymorphic:

```
let max' = count max;;
val max' : '_a -> '_a -> '_a = <fun>
```

and a polymorphic one:

```
let max'' x = count max x;;
val max'' : 'a -> 'a -> 'a = <fun>
```

Now notice what is printed when we execute these functions:

```
max' 1 2;; (* prints 1 *)
max' 1 2;; (* prints 2 *)
max' 1 2;; (* prints 3 *)
max'' 1 2;; (* prints 1 *)
max'' 1 2;; (* prints 1 *)
max'' 1 2;; (* prints 1 *)
```

So the function that we designed as weekly polymorphic has a *persistent mutable state* inside that allows to use the counter as expected, while the polymorphic function is *stateless* and is reconstructed with every call, although we wanted to have a mutable variable inside.

This is the reason for a compiler to prefer a weakly polymorphic function that can be used with any single type instead of supporting full-fledged polymorphism.