# Trying to write a function point free, GHCI does not approve

As an exercise I'm trying to implement interesting parts of the prelude manually. Whenever I spot an opportunity to go point free I take it. However this has led me to a brick wall in the most unlikely place. Using this code:

``````myelem _ [] = False
myelem x y  = if x == head y then True else myelem x (tail y)
``````

I am trying to implement `notElem`. Here are my attempts:

``````-- First
mynotelem = not myelem
``````

Understandably blows up due to the types not matching up. This is easily fixed:

``````-- Second
mynotelem x y = not (myelem x y)
``````

However the explicit declaration of arguments x and y feels ugly and unnecessary, so I try to get it back into point free style.

``````-- Third
mynotelem = not \$ myelem
``````

Which fails with

`````` Couldn't match expected type `Bool'
with actual type `a0 -> [a0] -> Bool'
In the second argument of `(\$)', namely `myelem'
In the expression: not \$ myelem
In an equation for `mynotelem': mynotelem = not \$ myelem
``````

Fair enough, the types still don't match up. But how do you fix it? Again you can jump straight to

``````-- Fourth
mynotelem x y = not \$ myelem x y
``````

Which works, but seems dangerously close to just going in circles. I discover it's possible to eliminate one of the arguments:

``````-- Fifth
mynotelem x = not . (myelem x)
``````

But that pesky x still remains. How do I eliminate it?

-
ThelronKnuckle: If you haven't already, search SO questions for ones regarding the difference between `(\$)` and `(.)` - I think you will find these questions/answers helpful. –  Thomas M. DuBuisson Dec 28 '11 at 2:36

We can rewrite your code like this:

``````mynotelem x = not . (myelem x)
= (not .) (myelem x)
``````

Now recognize that this is just `h x = f (g x)` with `f = (not .)` and `g = myelem`, so we can write it point-free with another use of the `(.)` operator as `h = f . g`:

``````mynotelem = (not .) . myelem
``````

Note how the pattern continues when composing with functions with more arguments:

``````> let f x y z = x+y+z
> (((sqrt .) .) . f) 1 2 3
2.449489742783178
``````

Alternatively, you can also write it with this funny-looking composition of composition operators:

``````mynotelem = ((.).(.)) not myelem
``````

For more arguments, the pattern continues like this:

``````> ((.).(.).(.)) sqrt f 1 2 3
2.449489742783178
``````
-
Shameless plug, I uploaded the "composition" package to hackage to provide convenience functions for the boob operator and friends. –  Dan Burton Dec 28 '11 at 8:42
The boob operator XD Will have to use that as an advantage when pimping haskell to my mates –  TheIronKnuckle Feb 3 '12 at 0:08
Is it at all common to use the "boob operator" in actual code? What's the cleanest way to handle a situation such as this? Would it be better to just leave it with its points (`mynotelem x = not . elem x` or `mynotelem x y = not \$ elem x y`)? –  LeepySham Jan 3 '13 at 8:45