{-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE PackageImports #-} {-# LANGUAGE UnicodeSyntax #-} {-| [@ISO639-1@] pl [@ISO639-2@] pol [@ISO639-3@] pol [@Native name@] język polski [@English name@] Polish -} module Text.Numeral.Language.PL ( -- * Language entry entry -- * Conversions , cardinal -- * 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.Eq.Unicode ( (≡) ) import "base-unicode-symbols" Data.Function.Unicode ( (∘) ) import "base-unicode-symbols" Data.Ord.Unicode ( (≥), (≤) ) 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 ) ------------------------------------------------------------------------------- -- PL ------------------------------------------------------------------------------- entry ∷ Entry entry = emptyEntry { entIso639_1 = Just "pl" , entIso639_2 = ["pol"] , entIso639_3 = Just "pol" , entNativeNames = ["język polski"] , entEnglishName = Just "Polish" , entCardinal = Just Conversion { toNumeral = cardinal , toStructure = struct } } -- | liczebniki główne cardinal ∷ (Inflection i, Integral α, E.Scale α) ⇒ i → α → Maybe Text cardinal inf = cardinalRepr 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 ) [ ( 11, add 10 L ) , ( 20, step 10 10 R 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) cardinalRepr ∷ i → Exp i → Maybe Text cardinalRepr = render defaultRepr { reprValue = \_ n → M.lookup n syms , reprScale = BN.pelletierRepr (quantityRepr "ilion" "iliony" "ilionów") (quantityRepr "iliard" "iliardy" "iliardów") [] , reprAdd = Just (⊞) , reprMul = Just (⊡) } where (Lit n ⊞ Lit 10) _ | n ≤ 9 = "" (_ ⊞ _ ) _ = " " (_ ⊡ Lit 10 ) _ = "" (_ ⊡ Lit 100) _ = "" (_ ⊡ _ ) _ = " " quantityRepr ∷ Text → Text → Text → BN.PostfixRepr i quantityRepr s p1 p2 _ ctx = case ctx of CtxMul _ (Lit 1) _ → s CtxMul _ (Lit n) _ | n ≤ 4 → p1 CtxMul {} → p2 _ → s syms = M.fromList [ (0, const "zero") , (1, \c → case c of CtxAdd _ (Lit 10) _ → "jede" _ → "jeden" ) , (2, \c → case c of CtxMul _ (Lit 100) _ → "dwie" _ → "dwa" ) , (3, const "trzy") , (4, \c → case c of CtxAdd _ (Lit 10) _ → "czter" CtxMul _ (Lit 10) _ → "czter" _ → "cztery" ) , (5, \c → case c of CtxAdd _ (Lit 10) _ → "pięt" _ → "pięć" ) , (6, \c → case c of CtxAdd _ (Lit 10) _ → "szes" _ → "sześć" ) , (7, const "siedem") , (8, const "osiem") , (9, \c → case c of CtxAdd _ (Lit 10) _ → "dziewięt" _ → "dziewięć" ) , (10, \c → case c of CtxAdd R (Lit n) _ | n ≤ 9 → "naście" CtxMul R (Lit n) _ | n ≡ 2 → "dzieścia" | n ≥ 5 → "dziesiąt" | otherwise → "dzieści" _ → "dziesięć" ) , (100, \c → case c of CtxMul _ (Lit n) _ | n ≡ 2 → "ście" | n ≤ 4 → "sta" | n ≤ 9 → "set" _ → "sto" ) , (1000, \c → case c of CtxMul _ (Lit n) _ | n ≤ 4 → "tysiące" CtxMul {} → "tysięcy" _ → "tysiąc" ) ]