Behavior of `subtract` in Higher Order Functions of Haskell

I am trying to write this function which applies the function `f` twice on x

``````Prelude> applyTwice :: (a -> a) -> a -> a
Prelude> let applyTwice f x = f (f x)
``````

Now, when I try to evaluate the below expression

``````Prelude> applyTwice (`subtract` 3) 10
Output: 10

Prelude> applyTwice (3 `subtract`) 10
Output: 4
``````

As per my understanding, `subtract` is a infix function, so the given parameter should fill the empty position (left or right operand) and hence the first expression `applyTwice (`subtract` 3) 10` should behave like

``````10 `subtract` 3 `subtract` 3
``````

So, the result in this case should be `4`, but the output is `10`

While in the other case, i.e. `applyTwice (3 `subtract`) 10`, the output is `4`, where I am expecting it to be `10`

Am I going wrong somewhere?

-

Your understanding of `applyTwice` and of the operator section notation are correct. However, you're probably confused by what `subtract` does. See the library documentation which says:

the same as `flip (-)`

So `subtract` is like `(-)` but with the arguments flipped. Therefore,

``````  applyTwice (`subtract` 3) 10
=
(`subtract` 3) ((`subtract` 3) 10)
=
(`subtract` 3) (10 `subtract` 3)
=
((10 `subtract` 3) `subtract` 3)
=
(3 - 10) `subtract` 3
=
(-7) `subtract` 3
=
3 - (-7)
=
10
``````

And similarly for the other expression.

-
Aaan!! I was subtracting the right operand from the left operand, which is exactly opposite. Thanks for explaining :) – Vivek Apr 15 '13 at 10:09