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Hi I am doing project euler question 63 where I must find the amount of numbers that exist where:

x^(n) == y

Where n is the length of y.

It soon emerges that the results for this condition alternate between odd and even and so I came up with this in Haskell:

prob63 = [ n | n <- nums n , i <-[1..10], i^(length $ show n) == n]

nums n | odd (n) == True = filter odd [n..]
    | otherwise         = filter even [n..]

If n <- [1..], prob63 produces a stream that looks like this:

[1,2,3,4,5,6,7,8,9,16,25,36,49,64,81,125,216,343,512,729,1296,2401,4096,6561,16807,32768,59049,117649,262144,531441]

But this is slow and what I came up with after doesn't work. What I need is, depending on the previous answer, it will start testing the odd or even integers from n. How would I go about this from what I already have?

share|improve this question
up vote 2 down vote accepted

Look again at the output. The elements do not alternate between odd and even!

1,2,3,4,5,6,7,8,9,16,25,36,49,64,81,125,216,343,512,729,1296,2401,4096,6561,16807,32768,59049,117649,262144,531441]


I noticed this after implementing the code that you ask for. Its output does not match the output of your code. I'll post the code here anyway:

prob63 :: [Integer]
prob63 = test 1
  where
    test s = next : test (next + 1)
      where
        next = head [n | n <- [s,s+2..], i <-[1..10], i^(length $ show n) == n]
share|improve this answer
    
could it be that that single pair is just an abnormal case? – Jonno_FTW Oct 15 '09 at 11:09
    
Nope, there's another one, as you can see: 59049,117649. Also, perhaps you should iterate over the base and power (instead of over the power and n), and determine the upper bound for both. There is a very fast solution to this problem. – Stephan202 Oct 15 '09 at 11:19
    
Also, it seems at this stage of learning Haskell, I know what needs to be done, it is just quite often the case that I don't know how to implement it. I thought of an optimisation wherein, it begins searching for the next value of n, that is (current n) + (difference between current and previous ) – Jonno_FTW Oct 15 '09 at 11:20

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