I will give you some hints for a solution involving lazy evaluation:
- Define the list of all fibonacci numbers.
- Check whether your input number belongs to the sequence.
These are the signatures for the two things you'll need to define:
fib :: [Int]
belongToFib :: Int -> Bool
Of course you will need some tricks to make this work. Even though your list has a (theoretically) infinite sequence of numbers, if you make sure that you only need to work on a finite subsequence, thanks to its laziness, Haskell will generate only the strictly needed part, and your function will not loop forever. So, when checking for the membership of your number to
fib, make sure you return
False at some point.
Another possible solution is to try to find out whether your number is in the fibonacci sequence without actually generating it up to the input, but rather by relying on arithmetic only. As a hint for this, have a look at this thread.
On Wikipedia you'll find a number of other ways to check membership to the fibonacci sequence.
edit: by the way, beware of overflows with
Int. You may wish to switch to