# Haskell- Find element in a list and return its position

So i need to make a function described as

``````invFib :: Integer -> Maybe Integer
``````

which takes an Integer and looks for it in the fibonacci sequence (as described by the function below)

``````fibs :: [Integer]
fibs = 0:1:(zipWith (+) fibs (tail fibs))
``````

and returns the index of the number example:

`invFib 0` ~> `Just 0`

`invFib 1` ~> `Just 1` or `Just 2`

`map invFib [54, 55, 56]` ~> `[Nothing,Just 10,Nothing]`

`invFib (fibs !! 99)` ~> `Just 99`

I tried making a function that takes a list of integers and spits out the index, but it keeps failing. Any thoughts?

this is function i tried-

``````findNum :: [Integer] -> Integer -> Integer -> Integer
findNum x:xs y z = if x == y
then z
else findNum xs y (z+1)
``````

Edit: the function freezes on numbers not in the fibonacci sequence, also only shows 1 value when 1 is entered

``````invFib :: Integer -> Maybe Integer
invFib n = if n < 0
then Nothing
else fmap fromIntegral (elemIndex n fibs)
``````
-
You should post the code you tried if you want an explanation of the problem with it. –  Pubby Apr 3 '13 at 1:44
`findNum` looks like a good start. You need to ask yourself this question: Given that `fibs` is an infinite list, how would you determine that, say, `54` is not in that list? –  MtnViewMark Apr 3 '13 at 2:36

So the key here is that `fibs` is infinite, but also monotonically increasing. Hence, once it exceeds the number being looked for, it can return `Nothing`:

``````findIndexInAscendingList :: (Ord a) => a -> [a] -> Maybe Integer
findIndexInAscendingList a xs = find 0 xs
where
find i [] = Nothing -- won't get used for fibs
find i (x:xs) | a == x    = Just i
| a < x     = Nothing
| otherwise = find (i + 1) xs

invFib :: Integer -> Maybe Integer
invFib n = findIndexInAscendingList n fibs
``````

And so:

``````\$ ghci
GHCi, version 7.4.2: http://www.haskell.org/ghc/  :? for help
[1 of 1] Compiling Main             ( Fib.hs, interpreted )
λ: map invFib [54,55,56]
[Nothing,Just 10,Nothing]
``````

There are some other ways to do it too. Think about `zip fibs [0..]` and then you could use `dropWhile` to remove the portion less than `n` and test what's left.

-
thank you very much, it works perfectly! –  lopezrican304 Apr 3 '13 at 16:03
FYI - `:set +s; let a = 10^25000; invFibMVMark a => "Nothing (0.38 secs, 13927928 bytes)"; invFibGroovy a => "Nothing (0.18 secs, 3633660 bytes)"` –  גלעד ברקן Apr 4 '13 at 22:47
@groovy did you test the both of them fresh (i.e. including the time for generating the `fibs` sequence)? Was the file compiled before being loaded into GHCi? In my tests I seen MVMark's version run faster than yours, by 10%. Perhaps we can take it to say that the both versions are comparable in their performance. :) –  Will Ness Apr 5 '13 at 8:59
@WillNess Here's what I did (in GHCi): `:load "bothMethods.hs"; :set +s; let a = 10^25000; invFibMVMark a; invFibGroovy a` I repeated the functions calls a few times and they seemed more or less consistent, fluctuating by an order of .01. –  גלעד ברקן Apr 5 '13 at 11:02
@groovy yes, thanks. that means you loaded it interpreted, and your times are not from first runs, so `fibs` creation doesn't count. Good. That way I also get your code run faster (even by a wider margin; it depends on the GHC version I guess). I have my GHCi started with "-fobject-code" always, so compiling is done on load, and then there's no significant difference (10% was on first runs only; for next runs the timings were near 0 secs, for both versions). –  Will Ness Apr 5 '13 at 11:23

Why not use a function like 'takeWhile' to return a section of the infinite 'fibs' list that you want to examine? With the finite list, you could apply a function like 'elemIndex' which, with a little type adjustment, could return what you are after.

``````elemIndex myInteger (takeWhile (<= myInteger) fibs)
``````
-
This feels wrong because in essence the work is being done twice: once by `takeWhile` and once by `findIndex`. –  MtnViewMark Apr 3 '13 at 6:55
Only on a first glance. Every element is first `<=`’ed and then `==`ed. In your code, every element is first `==`’ed and everyone but the last is then `<`’ed. So the work is not done twice, and shows a nicely how modular Haskell can be. –  Joachim Breitner Apr 3 '13 at 13:42
True - in both versions, as they sit, two comparison operations are applied to every element. In my code example there is only one explicit list traversal, whereas in this code there are two. That said, it is possible that the compiler will fuse `findIndex` and `takeWhile` leading to one list traversal. In my code, one could replace the guards with `case compare a x of` leading to one comparison per element. -- All that being said, my comment wasn't about efficiency, but about presentation of algorithm. It felt wrong to me because it specifies more work than need be done. –  MtnViewMark Apr 4 '13 at 3:18
@MtnViewMark eh, I like mine better. Thanks for sharing your thoughts. –  גלעד ברקן Apr 4 '13 at 4:34
It feels actually pretty right to me. First, you derive a finite sequence from an infinite one (assuming that finding an element that fails `(<= myInteger)` takes finite time), so that finding something will also take finite time. –  Rhymoid Apr 4 '13 at 9:10

If you've already computed `fibs`, then the answer is simple:

``````import Data.List

invFib :: Integer -> Maybe Integer
invFib n = fmap fromIntegral (elemIndex n fibs)

fibs :: [Integer]
fibs = 0:1:(zipWith (+) fibs (tail fibs))
``````
-
that returns the type Int and I need the type Maybe Integer, how do I convert it? I know for the value 1 would be the only value that has two answers –  lopezrican304 Apr 3 '13 at 2:22
Fixed it to return an `Integer`. –  Gabriel Gonzalez Apr 3 '13 at 2:26
Since the list is infinite, `elemIndex` won't work if you want the thing to terminate for numbers not in the sequence. You need to take advantage of the fact that the list is sorted. –  hammar Apr 3 '13 at 2:30
how can i return Nothing if it is not in the list? –  lopezrican304 Apr 3 '13 at 3:10
@hammar You are right. I feel like an idiot. :( –  Gabriel Gonzalez Apr 3 '13 at 4:42