I recently learned about `Data.Function.fix`

, and now I want to apply it everywhere. For example, whenever I see a recursive function I want to "`fix`

" it. So basically my question is where and when should I use it.

To make it more specific:

1) Suppose I have the following code for factorization of `n`

:

```
f n = f' n primes
where
f' n (p:ps) = ...
-- if p^2<=n: returns (p,k):f' (n `div` p^k) ps for k = maximum power of p in n
-- if n<=1: returns []
-- otherwise: returns [(n,1)]
```

If I rewrite it in terms of `fix`

, will I gain something? Lose something? Is it possible, that by rewriting an explicit recursion into `fix`

-version I will resolve or vice versa create a stack overflow?

2) When dealing with lists, there are several solutions: recursion/fix, foldr/foldl/foldl', and probably something else. Is there any general guide/advice on when to use each? For example, would you rewrite the above code using `foldr`

over the infinite list of primes?

There are, probably, other important questions not covered here. Any additional comments related to the usage of `fix`

are welcome as well.

I have recently learned about Data.Function.fix, and now it seems to me that I want to apply it everywhere." This makes you a Boy Scout Haskell programmer then - willamette.edu/~fruehr/haskell/evolution.html#boyscout – stephen tetley Feb 10 at 22:16`foldr`

and`foldl'`

if you can,`fix`

or explicit recursion if you must. The latter are less powerful so the reader of your code can deduce more properties from it. – Tom Ellis Feb 10 at 22:51`_Y f = f (_Y f)`

(recursion, value--copying) and`fix f = x where x = f x`

(corecursion, reference--sharing). – Will Ness Feb 11 at 9:42