Talk:Tying the Knot
Building cyclic data structures
Somehow the following seems more straightforward to me, though perhaps I'm missing the point here:
data DList a = DLNode (DList a) a (DList a)
rot :: Integer -> [a] -> [a]
rot n xs | n < 0 = rot (n+1) ((last xs):(init xs))
| n == 0 = xs
| n > 0 = rot (n-1) (tail xs ++ [head xs])
mkDList :: [a] -> DList a
mkDList [] = error "Must have at least one element."
mkDList xs = DLNode (mkDList $ rot (-1) xs) (head xs) (mkDList $ rot 1 xs)
-- Cale Gibbard
The problem with this is it won't make a truly cyclic data structure, rather it will constantly be generating the rest of the list. To see this use trace (in Debug.Trace for GHC) in mkDList (e.g. mkDList xs = trace "mkDList" $ ...) and then takeF 10 (mkDList "a"). Add a trace to mkDList or go or wherever you like in the other version and note the difference.
-- Derek Elkins
Yeah, thanks, I see what you mean.
This is so amazing that everybody should have seen it, so here's the trace. I put trace "\n--go{1/2}--" $ directly after the two go definitions:
*Main> takeF 10 $ mkDList [1..3]
--go2--
[1
--go2--
,2
--go2--
,3
--go1--
,1,2,3,1,2,3,1]
-- Cale Gibbard
There's a conceptually much simpler way build a circular structure, though it has a substantial performance overhead (n^2) the first time you run through the nodes:
mkDLList list = head result where (result, n) = (zipWith mknode list [0..], length list) mknode x i = DLList (result !! ((i - 1) `mod` n) ) x (result !! (i + 1 `mod` n) )
Since we already have the result - the list of all the relevant nodes - we just simply point to the items at the right points on the list. When we do it this way, it's obvious what is going on from just a basic understanding of laziness, then we see a huge waste of operations in the repeat list traversing, and look for some way to make it O(n). The trick, of course, being tying the knot.
With a slight tweak, this also serves as a simple method for defining arbitrary graphs, which is best given a different sort of optimization.
WarDaft 17:25, 11 April 2012 (UTC)
Tying bigger knots =
Content by Andrew Bromage.
Cyclic graph transformations
Contents by Oleg Kiselyov.
takeF and takeR in the DList example do not compile for me
I had to modify them as so:
takeF :: Integer -> DList a -> [a]
takeF 0 _ = []
takeF n (DLNode _ x next) = x : (takeF (n-1) next)
takeR :: Show a => Integer -> DList a -> [a]
takeR 0 _ = []
takeR n (DLNode prev x _) = x : (takeR (n-1) prev)
Psybur 15:10, 12 October 2017 (UTC)