Can you pass in an operation like "divide by 2" or "subtract 1" using just a partially applied operator, where "add 1" looks like this:

```
List.map ((+) 1) [1..5];; //equals [2..6]
// instead of having to write: List.map (fun x-> x+1) [1..5]
```

What's happening is 1 is being applied to (+) as it's first argument, and the list item is being applied as the second argument. For addition and multiplication, this argument ordering doesn't matter.

Suppose I want to subtract 1 from every element (this will probably be a common beginners mistake):

```
List.map ((-) 1) [1..5];; //equals [0 .. -4], the opposite of what we wanted
```

1 is applied to the (-) as its first argument, so instead of `(list_item - 1)`

, I get `(1 - list_item)`

. I can rewrite it as adding negative one instead of subtracting positive one:

```
List.map ((+) -1) [1..5];;
List.map (fun x -> x-1) [1..5];; // this works too
```

I'm looking for a more expressive way to write it, something like `((-) _ 1)`

, where `_`

denotes a placeholder, like in the Arc language. This would cause `1`

to be the second argument to `-`

, so in List.map, it would evaluate to `list_item - 1`

. So if you wanted to map `divide by 2`

to the list, you could write:

```
List.map ((/) _ 2) [2;4;6] //not real syntax, but would equal [1;2;3]
List.map (fun x -> x/2) [2;4;6] //real syntax equivalent of the above
```

Can this be done or do I have to use `(fun x -> x/2)`

? It seems that the closest we can get to the placeholder syntax is to use a lambda with a named argument.