# Calculating fib using List construction in Haskell - speed differences

If we've defined the following:

``````lazyFib x y = x:(lazyFib y (x + y))
fib = lazyFib 1 1
``````

(from the 7 languages in 7 weeks book). Why does

``````fibNth x = head (drop (x-1) fib)
``````

evaluate slower than

``````fibNth2 x = head (drop (x-1) (take (x) fib)
``````

? Clearly the second one terminates the infinite list as soon as required - but intuitively I expected the (head) call to terminate the evaluation the moment one item comes through the "drop", regardless of whether there was a take limit on fib? Can anyone explain?

(updated with timings for reference):

``````> :set +s
> fibNth 100000
259740693472217241661550340212759154148804853865176...
(1.16 secs, 458202824 bytes)
> fibNth2 100000
259740693472217241661550340212759154148804853865176....
(0.09 secs, 12516292 bytes)
``````
-
What makes you think that it does evaluate slower? – sepp2k Apr 6 '14 at 21:07
@sepp2k just updated the question with timings for comparison – James Crowley Apr 6 '14 at 21:14
Try reloading ghci and running `fibNth2` first and then run `fibNth`. I suspect that you will find that the second function called always runs faster. – David Young Apr 6 '14 at 21:17
@DavidYoung you are correct. Simple explanations are the best! Is there no advantage to the second version of the function? (which was listed in the book, instead of the first) – James Crowley Apr 6 '14 at 21:25

The reason? `fib` is a top level value that gets evaluated only once. On the first call you evaluate it as far as needed, on the second call you just breeze through the list.