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I have to define a list in which:

  • 1 is a member
  • if n is a member, so are 2n+1 and 3n+1

So the list is infinite and must be sorted. When loaded to GHCi, the command:

"take 10 theList"

will produce:


Below are my codes:

theList = ([1] ++ concat [[(x*2+1),(x*3+1)]|x<-theList])

It seems to work except for that it is not sorted, the same command as above produces:


Does anyone have any idea to sort that out? Thanks

share|improve this question
Your allInOne function is precisely concat. Haskell has many functions "built-in" which you can search by type signature using Hoogle (it is one of the tools that makes Haskell amazing!), e.g. allInOne has type [[a]] -> [a] and the first result is the one you're looking for. :) –  dbaupp Mar 30 '12 at 6:27
Thanks @dbaupp, for pointing out that concat function. This is actually one of the questions in my assignment and it really fucks me up. :'( Any advice about the sorting? –  Fukuzawa Yukio Mar 30 '12 at 6:53
There's a nice natural implementation involving corecursion. In a way it resembles the infinite list of Fibonacci numbers: fibs = 0:1:zipWith (+) fibs (tail fibs). How would you extend the list when you already have theList of some size? –  Vitus Mar 30 '12 at 12:05

2 Answers 2

up vote 7 down vote accepted

The problem can be though of as a infinite binary tree (A and B are labels for the branches):

  1__ B
  |  4___
  |   \  13 ...
A 3_   \
  | \   9 ...
  7  10

Thinking about it this way, we can see that we want to write a function ("listify") that converts the "tree" into a sorted list. This is where Haskell is really nice: if we have a function (merge) that takes two (infinite) sorted lists and merges them into one sorted list (you should write this function), then listify-ing the tree is simply listify-ing the two branches, merging them and putting the root at the start, i.e. in the tree above

1:merge (listify A) (listify B)

Since this is homework I won't say much more, but any branch of the tree is entirely determined by the root node, so the type signature of listify can be Integer -> [Integer]. And once you have listify, then theList = listify 1.

share|improve this answer
Thank you. I've just tried, but since the lists are not sorted there is no way to merge or sort them. Had it worked I would have only had to put another sort function in front of the list definition. The thing is, if I did that, and tried take 20 theList Haskell would crash (which means it didn't turn back to the Main> command. I guess I have to create the list on the fly, and sort it as soon as new element is put into it. The only way I can think of is: theList = [x|x<-[1..], satisfy x] where satisfy x..... But I'm stuck in the satisfy local definition. –  Fukuzawa Yukio Mar 30 '12 at 8:05
The lists are sorted if you've written listify and merge correctly (this isn't very helpful, I know). Haskell is probably crashing because you are creating an infinite loop (maybe "listify n" appears on the right-hand side of the definition of listify n? Or similar in merge?). –  dbaupp Mar 30 '12 at 8:10
The problem with this is that duplicates are only dealt with at the merge step, not during generation, which, over time, causes lots of unnecessary work. It does create a very concise, declarative definition though. –  dan_waterworth Mar 30 '12 at 8:21
@dan_waterworth it's not that much extra work, though: since the merge is part of the recursive generation, duplicates are pretty much filtered as soon as possible. Sure there are more effective ways, but unless you want really a lot of numbers it should be ok. I get about 5000000 in a minute even in ghci! –  leftaroundabout Mar 30 '12 at 9:52
At last I did it, I don't know if my idea is the same to your hints but the code seems surprisingly simple: aList = [1] ++ merge [2*x+1|x<-aList] [3*x+1|x<-aList] And yeah, the merge function is the core to solve this problem, everything I did wrong was just instead of creating two list, I added 2n+1 and 3n+1 to the list simultaneously, that's why I couldn't sort it –  Fukuzawa Yukio Apr 5 '12 at 5:29

Another way of seeing this is as a filtered list of integers. The number n is part of the sequence if n = 1 (mod 2) and (n-1)/2 is a part of the sequence, or if n = 1 (mod 3) and (n-1)/3 is a part of the sequence.

share|improve this answer
Thanks for your answer, but it won't work with integer numbers, as (6 - 1) mod 3 = 1, but 6 shouldn't be in the list as you can see in my question. There is a big rounding problem in here. –  Fukuzawa Yukio Mar 30 '12 at 7:58
@crazyfffan, I think this does work: 6 /= 1 (mod 3), so it's not even considered by the division. (mod and div are different functions) –  dbaupp Mar 30 '12 at 8:02

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