{-| Module : Math.ExpPairs.PrettyProcess Copyright : (c) Andrew Lelechenko, 2015-2020 License : GPL-3 Maintainer : andrew.lelechenko@gmail.com Transforms sequences of 'Process' into most compact (by the means of typesetting) representation using brackets and powers. E. g., AAAABABABA -> A^4(BA)^3. -} {-# LANGUAGE LambdaCase #-} {-# OPTIONS_GHC -fno-warn-type-defaults #-} {-# OPTIONS_GHC -fno-warn-unused-imports #-} module Math.ExpPairs.PrettyProcess ( prettify, uglify, PrettyProcess) where import Data.List (minimumBy, inits, tails) import Data.Monoid (mempty) import Data.Ord (comparing) import Data.Text.Prettyprint.Doc import qualified Data.Map as M import qualified Data.Set as S import Math.ExpPairs.ProcessMatrix -- | Compact representation of the sequence of 'Process', -- using brackets and powers. data PrettyProcess = Simply [Process] | Repeat PrettyProcess Int | Sequence PrettyProcess PrettyProcess deriving (Show) data PrettyProcessWithWidth = PPWL { ppwlProcess :: PrettyProcess, ppwlWidth :: Int } instance Pretty PrettyProcess where pretty = \case Simply xs -> hsep (map (pretty . show) xs) Repeat _ 0 -> mempty Repeat xs 1 -> pretty xs Repeat (Simply [A]) n -> pretty (show A) <> pretty "^" <> pretty n Repeat xs n -> parens (pretty xs) <> pretty "^" <> pretty n Sequence a b -> pretty a <+> pretty b -- | Width of the bracket symbol. bracketWidth :: Int bracketWidth = 4 -- | Width of the subscript-sized digit (e. g., power). subscriptWidth :: Int subscriptWidth = 4 -- | Width of the process symbols. processWidth :: Process -> Int processWidth A = 10 processWidth BA = 20 -- | Compute the width of the 'PrettyProcess' -- according to 'bracketWidth', 'subscriptWidth' and 'printedWidth''. printedWidth :: PrettyProcess -> Int printedWidth = \case Simply xs -> sum (map processWidth xs) Repeat _ 0 -> 0 Repeat xs 1 -> printedWidth xs Repeat (Simply [A]) _ -> processWidth A + subscriptWidth Repeat xs _ -> printedWidth xs + bracketWidth * 2 + subscriptWidth Sequence a b -> printedWidth a + printedWidth b -- | Convert 'PrettyProcess' to 'PrettyProcessWithWidth'. annotateWithWidth :: PrettyProcess -> PrettyProcessWithWidth annotateWithWidth p = PPWL p (printedWidth p) -- | List divisors. divisors :: Int -> [Int] divisors n = ds1 ++ reverse ds2 where (ds1, ds2) = unzip [ (a, n `div` a) | a <- [1 .. sqrtint n], n `mod` a == 0 ] sqrtint = round . sqrt . fromIntegral -- | Try to represent list as a replication of list. asRepeat :: [Process] -> ([Process], Int) asRepeat [] = ([], 0) asRepeat xs = pair where l = length xs candidates = [ (take d xs, l `div` d) | d <- divisors l ] pair = head \$ filter (\(ys, n) -> concat (replicate n ys) == xs) candidates -- | Find the most compact representation of the sequence of processes. prettify :: [Process] -> PrettyProcess prettify = ppwlProcess . prettifyP -- | Find the most compact representation of the sequence of processes, keeping track of widthess. prettifyP :: [Process] -> PrettyProcessWithWidth prettifyP ps = (M.!) cache ps where keys = S.fromList \$ concatMap inits (tails ps) cache = M.fromSet alg keys alg :: [Process] -> PrettyProcessWithWidth alg = \case [] -> annotateWithWidth (Simply []) [A] -> annotateWithWidth (Simply [A]) [BA] -> annotateWithWidth (Simply [BA]) xs -> minimumBy (comparing ppwlWidth) yss where xs'' = case asRepeat xs of (_, 1) -> annotateWithWidth (Simply xs) (xs', n) -> annotateWithWidth (Repeat (ppwlProcess \$ (M.!) cache xs') n) yss = xs'' : map f bcs bcs = takeWhile (not . null . snd) \$ iterate bcf ([head xs], tail xs) bcf (_, []) = error "prettifyP: unexpected second argument of bcf" bcf (zs, y:ys) = (zs++[y], ys) f (bs, cs) = PPWL (Sequence bsP csP) (bsW + csW) where PPWL bsP bsW = (M.!) cache bs PPWL csP csW = (M.!) cache cs -- | Unfold back 'PrettyProcess' into the sequence of 'Process'. uglify :: PrettyProcess -> [Process] uglify = \case Simply xs -> xs Repeat xs n -> concat . replicate n . uglify \$ xs Sequence xs ys -> uglify xs ++ uglify ys