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Hi I am doing Project Euler question 55 on Lychrel numbers where the aim is to find the number of Lychrel numbers below 10,000 within 50 iterations. I came up with this:

revAdd n = (read $ reverse $ show n) + n

lychrel n | length xs == 50 = error "False"
    	  | ((reverse $ show (revAdd n)) == (show (revAdd n)))  = True
    	  | otherwise  = (lychrel (revadd n) ) : xs

answer = length [ x | x <- [1..10000] , lychrel x == True]

But I don't know how to define xs as the list of previous iterations upon n, which are when n is not a palindrome. How would I do this, and secondly would this work?

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Useless boolean comparison to True. Remember, something == True = something; something == False == not something. I hate it when people do this in any language. – ephemient Oct 23 at 16:12

2 Answers

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It becomes much easier if you separate your concerns into distinct steps.

  1. Define a function that sums a number and its reverse.
  2. Use iterate to repeat your number, starting from x.
  3. Use take to limit your iteration to 50 steps.
  4. Use all with a predicate to determine if any of these steps results in a palindrome.
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Duh, of course I meant any not all. Basically the same thing, though; De Morgan's Law any p = or . map p = not . and . map (not . p) = not . all (not . p) – ephemient Oct 23 at 21:01
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You need to pass the list of iterations (or just the number of iterations) in as a parameter to lychrel, starting with [] in the call from answer and adding to it in the recursive call in the otherwise case. Look up "accumulating parameters" for more general background on this technique.

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