{-# LANGUAGE NoImplicitPrelude, BangPatterns #-} module Phladiprelio.General.Simple where import GHC.Base import GHC.Enum (fromEnum,toEnum) import GHC.Real (fromIntegral,(/),quot,rem,quotRem) import Text.Show (Show(..)) import Phladiprelio.General.PrepareText import Phladiprelio.General.Syllables import Phladiprelio.General.Base import System.Environment (getArgs) import GHC.Num ((+),(-),(*),Integer) import Text.Read (readMaybe) import System.IO (putStrLn, FilePath,stdout,universalNewlineMode,hSetNewlineMode,getLine,appendFile,readFile) import Rhythmicity.MarkerSeqs hiding (id) import Rhythmicity.BasicF import Data.List hiding (foldr) import Data.Maybe (fromMaybe, mapMaybe, catMaybes,isNothing,fromJust) import Data.Tuple (fst,snd) import Data.Char (isDigit) import CLI.Arguments import CLI.Arguments.Get import CLI.Arguments.Parsing import GHC.Int (Int8) import Data.Ord (comparing) import Phladiprelio.PermutationsRepresent import Phladiprelio.ConstraintsEncoded import Phladiprelio.PermutationsArr import Phladiprelio.StrictVG import Numeric (showFFloat) import Phladiprelio.Halfsplit import System.Directory (doesFileExist,readable,writable,getPermissions,Permissions(..)) import Data.ReversedScientific import Control.Concurrent.Async (mapConcurrently) import Phladiprelio.Tests generalF :: (String, String) -- ^ If the next element is not equal to -1, then the prepending and appending lines to be displayed. Used basically for working with the multiline textual input data. -> Int -- ^ The number of the line in the file to be read the lines from. If equal to -1 then neither reading from the file is done nor the first argument influences the processment results. -> GWritingSystemPRPLX -- ^ Data used to obtain the phonetic language representation of the text. -> [(Char,Char)] -- ^ The pairs of the 'Char' that corresponds to the similar phonetic languages consonant phenomenon (e. g. allophones). Must be sorted in the ascending order to be used correctly. -> CharPhoneticClassification -> SegmentRulesG -> String -- ^ Corresponds to the 100 delimiter in the @ukrainian-phonetics-basic-array@ package. -> String -- ^ Corresponds to the 101 delimiter in the @ukrainian-phonetics-basic-array@ package. -> ([[[PRS]]] -> [[Double]]) -> Int -> HashCorrections -> (Int8,[Int8]) -> Bool -> Int -- ^ The hashing function step. The default value is 20. Is expected to be greater than 2, and better greater than 12. -> Bool -> Int8 -> (FilePath, Int) -> Bool -- ^ In the testing mode, whether to execute computations in concurrent mode (for speed up) or in single thread. If specified needs the executable to be compiled with -rtsopts and -threaded options and run with the command line +RTS -N -RTS options. -> String -- ^ An initial string to be analyzed. -> [String] -> IO [String] generalF (prestr,poststr) lineNmb wrs ks arr gs us vs h numTest hc (grps,mxms) descending hashStep emptyline splitting (fs, code) concurrently initstr universalSet | null universalSet = let strOutput = ["You have specified the data and constraints on it that lead to no further possible options.", "Please, specify another data and constraints."] in mapM putStrLn strOutput >> return strOutput | length universalSet == 1 = mapM putStrLn universalSet >> return universalSet | otherwise = do let syllN = countSyll wrs arr us vs initstr -- universalSet = map unwords . permutations $ rss f grps mxms = sum . countHashes2G hashStep hc grps mxms . mconcat . h . createSyllablesPL wrs ks arr gs us vs hSetNewlineMode stdout universalNewlineMode if numTest >= 0 && numTest <= 179 && numTest /= 1 then do putStrLn "Feet Val Stat Proxim" (if concurrently then mapConcurrently else mapM) (\(q,qs) -> let m = stat1 syllN (q,qs) (min1,max1) = minMax11ByCList (comparing (f q qs)) universalSet mx = f q qs max1 strTest = (show (fromEnum q) `mappend` " | " `mappend` show mx `mappend` " " `mappend` show m `mappend` " -> " `mappend` showFFloat (Just 3) (100 * fromIntegral mx / fromIntegral m) "%" `mappend` (if rem numTest 10 >= 4 then let min1 = minimumBy (comparing (f q qs)) universalSet in ("\n" `mappend` min1 `mappend` "\n" `mappend` max1 `mappend` "\n") else "")) in putStrLn strTest >> return strTest) . zip (sel2 numTest) $ (sel numTest) else let sRepresent = zipWith (\k (x, ys) -> S k x ys) [1..] . (let h1 = if descending then (\(u,w) -> ((-1)*u,w)) else id in sortOn h1) . map (\xss -> (f grps mxms xss, xss)) $ universalSet strOutput = (:[]) . halfsplit (\(S _ y _) -> y) (jjj splitting) $ sRepresent in do _ <- mapM putStrLn strOutput let l1 = length sRepresent if code == -1 then if lineNmb == -1 then return strOutput else do print23 prestr poststr 1 [initstr] return strOutput else do print23 prestr poststr 1 [initstr] parseLineNumber l1 >>= \num -> do permiss <- getPermissions fs let writ = writable permiss readab = readable permiss if writ && readab then do let lineOption = head . filter (\(S k _ ts) -> k == num) $ sRepresent textP = (\(S _ _ ts) -> ts) lineOption sylls = createSyllablesPL wrs ks arr gs us vs textP if code >= 10 && code <= 19 && grps == 2 then do let structData = h . createSyllablesPL wrs ks arr gs us vs $ textP (breaks,rs) = showZerosFor2Period structData syllN (\(SylS c _) -> [c]) sylls putStrLn textP putStrLn breaks putStrLn . show $ rs appendFile fs ((if code >= 15 then (show rs `mappend` "\n" `mappend` breaks `mappend` "\n") else "") `mappend` outputSel lineOption code) else appendFile fs (outputSel lineOption code) else error "The specified file cannot be used for appending the text! Please, specify another file!" return [] where jjj kk = let (q1,r1) = quotRem kk (if kk < 0 then -10 else 10) in jjj' q1 r1 emptyline jjj' q1 r1 emptyline | r1 == (-1) || r1 == (-3) = -10*q1 + (if emptyline then -5 else r1) | r1 == 1 || r1 == 3 = 10*q1 + (if emptyline then 5 else r1) | r1 < 0 = -10*q1 + (if emptyline then -4 else r1) | otherwise = 10*q1 + (if emptyline then 4 else r1) data PhladiprelioGen = S Int Integer String deriving Eq instance Show PhladiprelioGen where show (S i j xs) = showBignum 7 j `mappend` " " `mappend` xs `mappend` " " `mappend` showWithSpaces 4 i countSyll :: GWritingSystemPRPLX -- ^ Data used to obtain the phonetic language representation of the text. -> CharPhoneticClassification -> String -- ^ Corresponds to the 100 delimiter in the @ukrainian-phonetics-basic-array@ package. -> String -- ^ Corresponds to the 101 delimiter in the @ukrainian-phonetics-basic-array@ package. -> String -> Int countSyll wrs arr us vs xs = fromEnum . foldr (\x y -> if createsSyllable x then y + 1 else y) 0 . concatMap (str2PRSs arr) . words1 . mapMaybe g . concatMap string1 . stringToXG wrs $ xs where g :: Char -> Maybe Char g x | x `elem` us = Nothing | x `notElem` vs = Just x | otherwise = Just ' ' words1 xs = if null ts then [] else w : words1 s'' -- Practically this is an optimized version for this case 'words' function from Prelude. where ts = dropWhile (== ' ') xs (w, s'') = break (== ' ') ts {-# NOINLINE words1 #-} stat1 :: Int -> (Int8,[Int8]) -> Int stat1 n (k, ks) = fst (n `quotRemInt` fromEnum k) * length ks outputSel :: PhladiprelioGen -> Int -> String outputSel (S x1 y1 ts) code | code < 0 = [] | code == 1 || code == 11 || code == 16 = intercalate " " [show x1, ts] `mappend` "\n" | code == 2 || code == 12 || code == 17 = intercalate " " [show y1, ts] `mappend` "\n" | code == 3 || code == 13 || code == 18 = intercalate " " [show x1, ts, show y1] `mappend` "\n" | code == 4 || code == 14 || code == 19 = intercalate " " [show x1, show y1] `mappend` "\n" | otherwise = ts `mappend` "\n" parseLineNumber :: Int -> IO Int parseLineNumber l1 = do putStrLn "Please, specify the number of the option to be written to the file specified: " number <- getLine let num = readMaybe (filter isDigit number)::Maybe Int if isNothing num || num > Just l1 || num == Just 0 then parseLineNumber l1 else return . fromJust $ num {-| Uses 'getArgs' inside to get the needed data from the command line arguments. Use with this in mind. -} argsProcessing :: [[String]] -> [[String]] -> String -> IO (String, String, Int, Bool, Int8, FilePath, Int, Bool, String, [String]) -- ^ These ones are intended to be used inside 'generalF'. argsProcessing ysss zsss xs = do args0 <- getArgs let (argsC, args) = takeCs1R ('+','-') cSpecs args0 (argsB, args11) = takeBsR bSpecs args prepare = any (== "-p") args11 emptyline = any (== "+l") args11 splitting = fromMaybe 50 (readMaybe (concat . getB "+w" $ argsB)::Maybe Int8) concurrently = any (== "-C") args11 filedata = getB "+f" argsB multiline2 = getB "+m" argsB (fileread,lineNmb) | null multiline2 = ("",-1) | length multiline2 == 2 = (head multiline2, fromMaybe 1 (readMaybe (last multiline2)::Maybe Int)) | otherwise = (head multiline2, 1) (arg3s,prestr,poststr) <- do if lineNmb /= -1 then do txtFromFile <- readFile fileread let lns = lines txtFromFile ln0 = max 1 (min lineNmb (length lns)) ln_1 | ln0 == 1 = 0 | otherwise = ln0 - 1 ln1 | ln0 == length lns = 0 | otherwise = ln0 + 1 lineF = lns !! (ln0 - 1) line_1F | ln_1 == 0 = [] | otherwise = lns !! (ln_1 - 1) line1F | ln1 == 0 = [] | otherwise = lns !! (ln1 - 1) return $ (words lineF, line_1F,line1F) else return (args11, [], []) let (filesave,codesave) | null filedata = ("",-1) | length filedata == 2 = (head filedata, fromMaybe 0 (readMaybe (last filedata)::Maybe Int)) | otherwise = (head filedata,0) ll = take (if any (== "+x") arg3s then 9 else 7) . (if prepare then id else words . mconcat . prepareText ysss zsss xs . unwords) $ arg3s l = length ll argCs = catMaybes (fmap (readMaybeECG l) . getC "+a" $ argsC) argCBs = unwords . getC "+b" $ argsC -- If you use the parenthese with +b ... -b then consider also using the quotation marks for the whole algebraic constraint. At the moment though it is still not working properly for parentheses functionality. The issue should be fixed in the further releases. !perms | not (null argCBs) = filterGeneralConv l argCBs . genPermutationsL $ l | null argCs = genPermutationsL l | otherwise = decodeLConstraints argCs . genPermutationsL $ l basiclineoption = unwords arg3s variants1 = uniquenessVariants2GNBL ' ' id id id perms ll return (prestr, poststr, lineNmb, emptyline, splitting, filesave, codesave, concurrently, basiclineoption, variants1) processingF :: GWritingSystemPRPLX -- ^ Data used to obtain the phonetic language representation of the text. -> [(Char,Char)] -- ^ The pairs of the 'Char' that corresponds to the similar phonetic languages consonant phenomenon (e. g. allophones). Must be sorted in the ascending order to be used correctly. -> CharPhoneticClassification -> SegmentRulesG -> String -- ^ Corresponds to the 100 delimiter in the @ukrainian-phonetics-basic-array@ package. -> String -- ^ Corresponds to the 101 delimiter in the @ukrainian-phonetics-basic-array@ package. -> ([[[PRS]]] -> [[Double]]) -> Int -> HashCorrections -> (Int8,[Int8]) -> [[String]] -> [[String]] -> Bool -> Int -- ^ The hashing function step. The default value is 20. Is expected to be greater than 2, and better greater than 12. -> String -> IO () processingF wrs ks arr gs us vs h numTest hc (grps,mxms) ysss zsss descending hashStep xs = argsProcessing ysss zsss xs >>= \(prestr, poststr, lineNmb, emptyline, splitting, filesave, codesave, concurrently, basiclineoption, variants1) -> generalF (prestr,poststr) lineNmb wrs ks arr gs us vs h numTest hc (grps,mxms) descending hashStep emptyline splitting (filesave, codesave) concurrently basiclineoption variants1 >> return () {-# INLINE processingF #-} -- | Specifies the group of the command line arguments for 'processingF', which specifies the -- PhLADiPreLiO constraints. For more information, see: -- https://oleksandr-zhabenko.github.io/uk/rhythmicity/PhLADiPreLiO.Eng.21.html#constraints cSpecs :: CLSpecifications cSpecs = zip ["+a","+b"] . cycle $ [-1] bSpecs :: CLSpecifications bSpecs = [("+f",2), ("+w",1), ("+m",2)]