{-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE PackageImports #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE UnicodeSyntax #-} {-| [@ISO639-1@] de [@ISO639-2B@] ger [@ISO639-2T@] deu [@ISO639-3@] deu [@Native name@] Deutsch [@English name@] German -} module Text.Numeral.Language.DE ( -- * Language entry entry -- * Conversions , cardinal , ordinal -- * Structure , struct -- * Bounds , bounds ) where ------------------------------------------------------------------------------- -- Imports ------------------------------------------------------------------------------- import "base" Data.Bool ( otherwise ) import "base" Data.Function ( ($), const, fix ) import "base" Data.Maybe ( Maybe(Just) ) import "base" Prelude ( Integral, (-), negate ) import "base-unicode-symbols" Data.Function.Unicode ( (∘) ) import "base-unicode-symbols" Data.List.Unicode ( (∈) ) import "base-unicode-symbols" Data.Ord.Unicode ( (≤), (≥) ) import "base-unicode-symbols" Prelude.Unicode ( ℤ ) import qualified "containers" Data.Map as M ( fromList, lookup ) import "this" Text.Numeral import qualified "this" Text.Numeral.BigNum as BN import qualified "this" Text.Numeral.Exp as E import "this" Text.Numeral.Grammar ( Inflection ) import "this" Text.Numeral.Misc ( dec ) import "this" Text.Numeral.Entry import "text" Data.Text ( Text ) ------------------------------------------------------------------------------- -- DE ------------------------------------------------------------------------------- entry ∷ Entry entry = emptyEntry { entIso639_1 = Just "de" , entIso639_2 = ["ger", "deu"] , entIso639_3 = Just "deu" , entNativeNames = ["Deutsch"] , entEnglishName = Just "German" , entCardinal = Just Conversion { toNumeral = cardinal , toStructure = struct } , entOrdinal = Just Conversion { toNumeral = ordinal , toStructure = struct } } cardinal ∷ (Inflection i, Integral α, E.Scale α) ⇒ i → α → Maybe Text cardinal inf = cardinalRepr inf ∘ struct ordinal ∷ (Inflection i, Integral α, E.Scale α) ⇒ i → α → Maybe Text ordinal inf = ordinalRepr inf ∘ struct struct ∷ ( Integral α, E.Scale α , E.Unknown β, E.Lit β, E.Neg β, E.Add β, E.Mul β, E.Scale β ) ⇒ α → β struct = pos $ fix $ findRule ( 0, lit ) [ ( 13, add 10 L ) , ( 20, mul 10 L L) , ( 100, step 100 10 R L) , (1000, step 1000 1000 R L) ] (dec 6 - 1) `combine` pelletierScale R L BN.rule bounds ∷ (Integral α) ⇒ (α, α) bounds = let x = dec 60000 - 1 in (negate x, x) genericRepr ∷ Repr i genericRepr = defaultRepr { reprAdd = Just (⊞) , reprMul = Just (⊡) , reprNeg = Just $ \_ _ → "minus " } where (Lit n ⊞ (_ `Mul` Lit 10)) _ | n ≤ 9 = "und" (_ ⊞ _ ) _ = "" (_ ⊡ Scale _ _ _) _ = " " (_ ⊡ _) _ = "" cardinalRepr ∷ i → Exp i → Maybe Text cardinalRepr = render genericRepr { reprValue = \_ n → M.lookup n syms , reprScale = BN.pelletierRepr (BN.quantityName "illion" "illionen") (BN.quantityName "illiarde" "illiarden") bigNumSyms } where syms = M.fromList [ (0, const "null") , (1, \c → case c of CtxAdd R _ _ → "eins" CtxAdd L _ _ → "ein" CtxMul _ (Lit n) _ | n ≥ dec 6 → "eine" | n ≥ 100 → "ein" _ → "eins" ) , (2, \c → case c of CtxMul _ (Lit 10) _ → "zwan" _ → "zwei" ) , (3, const "drei") , (4, const "vier") , (5, const "fünf") , (6, \c → case c of CtxAdd _ (Lit 10) _ → "sech" CtxMul _ (Lit 10) _ → "sech" _ → "sechs" ) , (7, \c → case c of CtxAdd _ (Lit 10) _ → "sieb" CtxMul _ (Lit 10) _ → "sieb" _ → "sieben" ) , (8, const "acht") , (9, const "neun") , (10, \c → case c of CtxMul _ (Lit 3) _ → "ßig" CtxMul R (Lit _) _ → "zig" _ → "zehn" ) , (11, const "elf") , (12, const "zwölf") , (100, const "hundert") , (1000, const "tausend") ] ordinalRepr ∷ i → Exp i → Maybe Text ordinalRepr = render genericRepr { reprValue = \_ n → M.lookup n syms , reprScale = BN.pelletierRepr (BN.ordQuantityName "illion" "illionste" "illion" "illionste" ) (BN.ordQuantityName "illiarde" "illiardste" "illiarde" "illiardste" ) bigNumSyms } where syms = M.fromList [ (0, \c → case c of CtxEmpty → "nullte" _ → "null" ) , (1, \c → case c of _ | isOutside R c → "erste" CtxAdd {} → "ein" CtxMul _ (Lit n) _ | n ≥ dec 6 → "eine" | n ≥ 100 → "ein" _ → "eins" ) , (2, \c → case c of _ | isOutside R c → "zweite" CtxMul _ (Lit 10) _ → "zwan" _ → "zwei" ) , (3, \c → if isOutside R c then "dritte" else "drei") , (4, \c → if isOutside R c then "vierte" else "vier") , (5, \c → if isOutside R c then "fünfte" else "fünf") , (6, \c → case c of _ | isOutside R c → "sechste" CtxAdd _ (Lit 10) _ → "sech" CtxMul _ (Lit 10) _ → "sech" _ → "sechs" ) , (7, \c → case c of _ | isOutside R c → "siebte" CtxAdd _ (Lit 10) _ → "sieb" CtxMul _ (Lit 10) _ → "sieb" _ → "sieben" ) , (8, \c → if isOutside R c then "achte" else "acht") , (9, \c → if isOutside R c then "neunte" else "neun") , (10, \c → case c of CtxMul _ (Lit 3) _ | isOutside R c → "ßigste" | otherwise → "ßig" CtxMul R (Lit _) _ | isOutside R c → "zigste" | otherwise → "zig" _ | isOutside R c → "zehnte" | otherwise → "zehn" ) , (11, \c → if isOutside R c then "elfte" else "elf") , (12, \c → if isOutside R c then "zwölfte" else "zwölf") , (100, \c → if isOutside R c then "hundertste" else "hundert") , (1000, \c → if isOutside R c then "tausendste" else "tausend") ] bigNumSyms ∷ [(ℤ, Ctx (Exp i) → Text)] bigNumSyms = [ (8, BN.forms "okt" "okto" "okto" "okto" "oktin") , (10, \c → case c of CtxAdd _ (Lit 100) _ → "dezi" CtxMul _ _ (CtxAdd _ (Lit 100) _) → "ginta" CtxMul {} → "gint" _ → "dez" ) , (100, \c → case c of CtxMul _ (Lit n) _ | n ∈ [2,3,6] → "zent" | otherwise → "gent" _ → "zent" ) ]