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I just started learning Haskell, and as an exercise got into a Project Euler problem where Fibonacci numbers are summed. My current method is this function, which creates a new list with the next element:

fib :: (Integral a) => [a] -> [a]
fib xs@(x1:x2:_) = (x1+x2) : xs

I found the function iterate which reapplies the function on it's result. However, the result is a list of lists, [[2,1],[3,2,1],[5,3,2,1],..]. What is the alternative to iterate when I'm not interested in the intermediate results? I want to do a takeWhile with a condition on the last generated number. Is this the wrong way to think about it altogether?

(I've seen better/shorter/niftier ways of generating the Fibonacci sequence, so I'm not really looking for feedback on the fib function - but I'd like to make it work, suboptimal method or not)

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4 Answers 4

up vote 3 down vote accepted

Just use iterate! Because Haskell is a pure language, all of the sublists get shared and you pay essentially no cost for having generated all of those mini lists: [2, 1] is actually the 2, 1 in [3, 2, 1], and so forth.

You don't really want a takeWhile, because that will give you a lot of extra gunk and you'll still need to get to the end of the list with last. Instead, use find.

Also note that if you're planning on summing the resulting list, you've missed a 1 so you'll be one off.

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Interesting.. But how do you mean "use find"? I want to continue generating numbers until the generated number (ie the first element of the generated list) exceed some threshold. I don't know what the exact number generated is, so I can't search for it. The approach I tested was something like takeWhile ((<t) $ head . last) ..., but I couldn't get that to compile. (Oh, and the problem acually specifies 1, 2 as initial conditions, but thanks anyways :) ) –  carlpett May 5 '11 at 6:05
    
find takes a boolean predicate (function of type a -> Bool) as its argument. In this case, a is the generated list, [Int]. So write a predicate that looks at the first element of a list and sees if it's greater than some threshold. –  Edward Z. Yang May 5 '11 at 12:28
    
Brilliant, thank you! –  carlpett May 6 '11 at 23:01

I'm not sure about the use of iterate, but see Filtering fibonacci sequence in Haskell for how to filter a list of fibs.

Is this the same homework assignment?

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Hi! It's not a homework assignment, it's a Project Euler problem (projecteuler.net) I decided to try to learn a bit. I found the iterate function to be interesting, so I wanted to know if I could use it for this. –  carlpett May 4 '11 at 20:19
    
Ah yes, you did say that in the original question and I missed it. –  pat May 4 '11 at 20:24

I would use "take", since each successive approximation will be one integer more accurate than the last. You can then do (head . reverse) on that.

Note that "every" result is an intermediate result if the function you are iterating doesn't have a computable fixed point.

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When needing a function in Haskell just define it :)

The folowing isn't the most elegant or idiomatic Haskell, but serves to show that you can always do things by hand with a tail recursive loop if the need arises

apply_n f n x =
    if n = 0 then x
    else apply_n' f (n-1) (f x)

n_th_fib n = apply_n fib n [1,1]

I'm pretty sure there is a neater way to do this using folds (or a library function I forgot about :) )

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