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[comptalang.git] / lib / Hcompta / Amount / Read.hs

{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE NamedFieldPuns #-}
module Hcompta.Amount.Read where

import           Control.Applicative ((<$>), (<*))
import           Control.Applicative ((<|>))
import           Control.Monad (Monad(..), guard)
import           Data.Bool
import           Data.Char
import qualified Data.Decimal
import           Data.Eq (Eq(..))
import           Data.List
import           Data.Maybe (Maybe(..))
import           Data.Ord (Ord(..))
import           Data.String (String, fromString)
import           Data.Typeable ()
import           Prelude (($), Int, fromIntegral, Num(..), id)
import qualified Text.Parsec as R hiding
                  ( char
                  , noneOf
                  , oneOf
                  , satisfy
                  )
import           Text.Parsec (Stream, ParsecT, (<?>))

import qualified Hcompta.Amount as Amount
import           Hcompta.Amount (Amount, Unit)
import qualified Hcompta.Amount.Style as Style
import qualified Hcompta.Amount.Unit as Unit
import qualified Hcompta.Lib.Parsec as R

-- * Read 'Quantity'
data Quantity
 =   Quantity
 { integral :: [String]
 , fractional :: [String]
 , fractioning :: Maybe Style.Fractioning
 , grouping_integral :: Maybe Style.Grouping
 , grouping_fractional :: Maybe Style.Grouping
 }

quantity
 :: Stream s m Char
 => Char -- ^ Integral grouping separator.
 -> Char -- ^ Fractioning separator.
 -> Char -- ^ Fractional grouping separator.
 -> ParsecT s u m Quantity
quantity int_group_sep frac_sep frac_group_sep = do
        (integral, grouping_integral) <- do
                h <- R.many R.digit
                case h of
                 [] -> return ([], Nothing)
                 _ -> do
                        t <- R.many $ R.char int_group_sep >> R.many1 R.digit
                        let digits = h:t
                        return (digits, grouping_of_digits int_group_sep digits)
        (fractional, fractioning, grouping_fractional) <-
                (case integral of
                 [] -> id
                 _ -> R.option ([], Nothing, Nothing)) $ do
                        fractioning <- R.char frac_sep
                        h <- R.many R.digit
                        t <- R.many $ R.char frac_group_sep >> R.many1 R.digit
                        let digits = h:t
                        return (digits, Just fractioning
                         , grouping_of_digits frac_group_sep $ reverse digits)
        return $
                Quantity
                 { integral
                 , fractional
                 , fractioning
                 , grouping_integral
                 , grouping_fractional
                 }
        where
                grouping_of_digits :: Char -> [String] -> Maybe Style.Grouping
                grouping_of_digits group_sep digits =
                        case digits of
                         []  -> Nothing
                         [_] -> Nothing
                         _   -> Just $
                                Style.Grouping group_sep $
                                canonicalize_grouping $
                                map length $ digits
                canonicalize_grouping :: [Int] -> [Int]
                canonicalize_grouping groups =
                        foldl' -- NOTE: remove duplicates at beginning and reverse.
                         (\acc l0 -> case acc of
                                 l1:_ -> if l0 == l1 then acc else l0:acc
                                 _ -> l0:acc) [] $
                        case groups of -- NOTE: keep only longer at beginning.
                         l0:l1:t -> if l0 > l1 then groups else l1:t
                         _ -> groups

-- * Read 'Unit'
unit :: Stream s m Char => ParsecT s u m Unit
unit =
        (quoted <|> unquoted) <?> "unit"
        where
                unquoted :: Stream s m Char => ParsecT s u m Unit
                unquoted =
                        fromString <$> do
                        R.many1 $
                                R.satisfy $ \c ->
                                        case Data.Char.generalCategory c of
                                         Data.Char.CurrencySymbol  -> True
                                         Data.Char.LowercaseLetter -> True
                                         Data.Char.ModifierLetter  -> True
                                         Data.Char.OtherLetter     -> True
                                         Data.Char.TitlecaseLetter -> True
                                         Data.Char.UppercaseLetter -> True
                                         _ -> False
                quoted :: Stream s m Char => ParsecT s u m Unit
                quoted =
                        fromString <$> do
                        R.between (R.char '"') (R.char '"') $
                                R.many1 $
                                        R.noneOf ";\n\""

-- * Read 'Amount'
amount :: Stream s m Char => ParsecT s u m Amount
amount = do
        left_signing <- sign
        left_unit <-
                R.option Nothing $ do
                        u <- unit
                        s <- R.many $ R.space_horizontal
                        return $ Just $ (u, not $ null s)
        (quantity_, style) <- do
                signing <- sign
                Quantity
                 { integral
                 , fractional
                 , fractioning
                 , grouping_integral
                 , grouping_fractional
                 } <-
                        R.choice_try
                         [ quantity '_' ',' '_' <* (R.notFollowedBy $ R.oneOf ",._")
                         , quantity '_' '.' '_' <* (R.notFollowedBy $ R.oneOf ",._")
                         , quantity ',' '.' '_' <* (R.notFollowedBy $ R.oneOf ",._")
                         , quantity '.' ',' '_' <* (R.notFollowedBy $ R.oneOf ",._")
                         ] <?> "quantity"
                let int = Data.List.concat integral
                let frac_flat = Data.List.concat fractional
                let frac = reverse $ Data.List.dropWhile (== '0') $ reverse $ frac_flat
                let place = length frac
                guard (place <= 255)
                let mantissa = R.integer_of_digits 10 $ int ++ frac
                return $
                 ( Data.Decimal.Decimal
                         (fromIntegral place)
                         (signing mantissa)
                 , Style.nil
                         { Style.fractioning
                         , Style.grouping_integral
                         , Style.grouping_fractional
                         , Style.precision = fromIntegral $ length frac_flat
                         }
                 )
        (unit_, unit_side, unit_spaced) <-
                case left_unit of
                 Just (u, s) ->
                        return (u, Just Style.Side_Left, Just s)
                 Nothing ->
                        R.option (Unit.nil, Nothing, Nothing) $ R.try $ do
                                s <- R.many $ R.space_horizontal
                                u <- unit
                                return $ (u, Just Style.Side_Right, Just $ not $ null s)
        return $
                Amount.Amount
                 { Amount.quantity = left_signing $ quantity_
                 , Amount.style = style
                         { Style.unit_side
                         , Style.unit_spaced
                         }
                 , Amount.unit = unit_
                 }

-- | Parse either '-' into 'negate', or '+' or '' into 'id'.
sign :: (Stream s m Char, Num i) => ParsecT s u m (i -> i)
sign =
            (R.char '-' >> return negate)
        <|> (R.char '+' >> return id)
        <|> return id