I apologize for not coming up with a good title for this question. I'm having some trouble expressing what I need. I have a simple problem in Haskell and I am wondering what the best approach is to solve it.

Let's say I have a list of numbers: `[-3,2,1,2]`

. I want to return the value with the highest absolute value. That is, I want to return -3. So I want:

```
f = maximum . map abs
```

The problem is, of course, that this returns the calculated value (3) and not the original value (-3).

I could figure out a way of doing this, maybe mapping the original list to a tuple of (originalValue, calculatdValue), finding the tuple whose snd is returned by my function (maximum) and then return fst of that tuple.

But this seems like a lot of "plumbing" for a simple problem like this, and I wonder if there is some abstraction I'm missing that solves this. That is, there is this generally procedure I do all the time, and I want some way of neatly doing it:

- I want to take a list of items.
- I want to map them to a certain value (let's say the absolute value)
- Then I want to select one based on some criteria (let's say I want the maximum or maybe the minimum).
- But then I want to return the
*original*value. (If the list was`[-3,2,1,2]`

and I want to return the value with the highest abs, then I would return -3).

Is there a library function for this? Is there a functor or a monad for this?

I think I want a function with the signature:

```
f :: ([b] -> b) -> (a -> b) -> [a] -> a
```

i.e.

```
f maximum abs [-3,2,1,2]
```

This feels very "functory" to me or maybe "monadic".