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ClosedRanking.hs
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ClosedRanking.hs
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-- https://oeis.org/A114852
import System.Environment
import Data.Ord
import Data.Array
import Data.Maybe
import Data.List
import Data.Function.Memoize
-- rank and unrank size items to/from 0..size-1
data Ranking a = Ranking {
size :: Integer,
unrank :: Integer -> a,
rank :: a -> Integer
}
-- rank pairs (a0,0)..(a0,size0-1), (a1,0)..(a1,size1-1), ... ,(ak,0)..(ak,sizek-1)
sizeRanking :: Eq a => [(a, Integer)] -> Ranking (a, Integer)
sizeRanking itemSizes = Ranking size unrank rank where
size = sum . map snd $ itemSizes
unrank = exhaust itemSizes where
exhaust ((a,sz):iS) i = if i < sz then (a,i) else exhaust iS (i - sz)
rank (a,i) = i + sum (map snd (takeWhile ((/= a) . fst) itemSizes))
data T = V Int | L T | A T T deriving (Eq,Read,Show)
termsize :: T -> Int
termsize (V i) = 2 + i
termsize (L b) = 2 + termsize b
termsize (A x y) = 2 + termsize x + termsize y
-- binary encoding
blc :: T -> String
blc (V i) = take (i+1) ['1','1'..] ++ "0"
blc (L b) = "00" ++ blc b
blc (A x y) = "01" ++ blc x ++ blc y
-- terms that are closed within k nested lambdas, of size LessthanorEqual to n
closedLE :: Int -> Int -> [(Int,T)]
closedLE k n = if n < 2 then [] else
[(2+l,L t) | (l,t) <- closedLE (k+1) (n-2)]
-- this non-uniform enumeration prevents efficient Ranking
++ [(2+l1+l2,A t1 t2) | (l1,t1) <- closedLE k (n-2), (l2,t2) <- closedLE k (n-2-l1)]
++ [(2+i,V i) | i<-[0..k-1]]
nClosed :: (Int -> Int -> Integer) -> Int -> Int -> Integer
nClosed memo k n = if n<2 then 0 else
memo (k+1) (n-2) + -- lambda
sum [memo k i * memo k (n-2-i) | i <- [2..n-2]] + -- app
if n-2<k then 1 else 0 -- variable
memoNclosed = memoFix2 nClosed
termRanking :: (Int -> Int -> Ranking T) -> Int -> Int -> Ranking T
termRanking memo k n = Ranking sz unrnk rnk where
sz = memoNclosed k n
lamRnk = memo (k+1) (n-2)
appRnk = sizeRanking [(l, memoNclosed k l * memoNclosed k (n-2-l)) | l <- [2..n-2]]
unrnk i = if i < size lamRnk then L (unrank lamRnk i)
else if i < size lamRnk + size appRnk
then A x y else V (fromIntegral (n-2)) where
(l,i') = unrank appRnk (i - size lamRnk)
yrnk = memo k (n-2-l)
(ix,iy) = i' `divMod` size yrnk
x = unrank (memo k l) ix
y = unrank (memo k (n-2-l)) iy
rnk (L b) = rank lamRnk b
rnk (A x y) = size lamRnk + rank appRnk (l, ix * size yrnk + iy) where
l = termsize x
ix = rank (memo k l) x
yrnk = memo k (n-2-l)
iy = rank yrnk y
rnk (V i) = size lamRnk + size appRnk
closedRanking = memoFix2 termRanking
ctr = Ranking sz unrnk rnk where
sizeR = sizeRanking [(l, memoNclosed 0 l) | l <- [0..]]
sz = undefined
unrnk i = unrank (closedRanking 0 l) i' where
(l,i') = unrank sizeR i
rnk t = rank sizeR (l,i') where
l = termsize t
i' = rank (closedRanking 0 l) t
main = do
args <- getArgs
let processLines f = getContents >>= mapM_ putStrLn . f . filter (not . null) . lines
let lshow a = show (termsize a, a)
case args of
["size"] -> print $ size ctr
["rank"] -> processLines $ map ( show . rank ctr) . map read
["unrank"] -> processLines $ map (lshow . unrank ctr) . map read
_ -> putStrLn "usage: ctr [size|rank|unrank]"