{-| [@ISO639-1@] - [@ISO639-2@] - [@ISO639-3@] pdc [@Native name@] Pennsilfaanisch Deitsch [@English name@] Pennsylvania German -} module Text.Numeral.Language.PDC ( -- * Language entry entry -- * Conversions , cardinal -- * Structure , struct -- * Bounds , bounds ) where ------------------------------------------------------------------------------- -- Imports ------------------------------------------------------------------------------- import "base" Data.Function ( fix ) import qualified "containers" Data.Map as M import "this" Text.Numeral import qualified "this" Text.Numeral.BigNum as BN import "this" Text.Numeral.Misc ( dec ) import "this" Text.Numeral.Entry import "text" Data.Text ( Text ) ------------------------------------------------------------------------------- -- PDC ------------------------------------------------------------------------------- entry :: Entry entry = emptyEntry { entIso639_1 = Nothing , entIso639_2 = [] , entIso639_3 = Just "pdc" , entNativeNames = ["Pennsilfaanisch Deitsch"] , entEnglishName = Just "Pennsylvania German" , entCardinal = Just Conversion { toNumeral = cardinal , toStructure = struct } , entOrdinal = Nothing } cardinal :: (Integral a) => Inflection -> a -> Maybe Text cardinal inf = cardinalRepr inf . struct struct :: (Integral a) => a -> Exp struct = pos $ fix $ findRule ( 0, lit ) [ ( 13, add 10 L ) , ( 20, mul 10 L L) , ( 100, step1 100 10 R L) , (1000, step1 1000 1000 R L) ] (dec 6 - 1) `combine` pelletierScale1 R L BN.rule bounds :: (Integral a) => (a, a) bounds = (0, dec 9 - 1) genericRepr :: Repr genericRepr = defaultRepr { reprAdd = Just (⊞) , reprMul = Just (⊡) , reprNeg = Just $ \_ _ -> "minus " } where (Lit n ⊞ (_ `Mul` Lit 10)) _ | n <= 9 = "un" ((Lit _ `Mul` Lit 100) ⊞ Lit _ ) _ = " un " (_ ⊞ Lit 10) _ = "" (_ ⊞ _ ) _ = " " (_ ⊡ Lit 10) _ = "" (_ ⊡ _) _ = " " cardinalRepr :: Inflection -> Exp -> Maybe Text cardinalRepr = render genericRepr { reprValue = \_ n -> M.lookup n syms , reprScale = BN.pelletierRepr (BN.quantityName "illyon" "illyon") (BN.quantityName "illyard" "illyard") [] } where syms = M.fromList [ (0, const "null") , (1, \c -> case c of CtxAdd L _ _ -> "een" CtxMul _ _ _ -> "en" _ -> "eens" ) , (2, \c -> case c of CtxMul _ (Lit 10) _ -> "zwan" _ -> "zwee" ) , (3, const "drei") , (4, \c -> case c of CtxAdd _ (Lit 10) _ -> "va" CtxMul _ (Lit 10) _ -> "va" _ -> "vier" ) , (5, \c -> case c of CtxAdd _ (Lit 10) _ -> "fuff" CtxMul _ (Lit 10) _ -> "fuff" _ -> "fimf" ) , (6, \c -> case c of CtxAdd _ (Lit 10) _ -> "sech" CtxMul _ (Lit 10) _ -> "sech" _ -> "sex" ) , (7, const "siwwe") , (8, const "acht") , (9, const "nein") , (10, \c -> case c of CtxAdd _ (Lit _) _ -> "zeh" CtxMul _ (Lit 3) _ -> "ssich" CtxMul R (Lit n) _ | n <= 3 -> "sich" | otherwise -> "zich" _ -> "zehe" ) , (11, const "elf") , (12, const "zwelf") , (100, const "hunnert") , (1000, const "dausend") ]