{-# LANGUAGE OverloadedStrings   #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE CPP #-}
module Text.ICalendar.Parser.Common where

import           Control.Applicative
import           Control.Arrow                (second)
import           Control.Monad.Error          hiding (mapM)
import           Control.Monad.RWS            (MonadState (get, put),
                                               MonadWriter (tell), RWS, asks,
                                               modify)
import qualified Data.ByteString.Lazy.Builder as Bu
import           Data.ByteString.Lazy.Char8   (ByteString)
import qualified Data.ByteString.Lazy.Char8   as B
import           Data.CaseInsensitive         (CI)
import qualified Data.CaseInsensitive         as CI
import           Data.Char
import           Data.Default
import           Data.List                    (partition)
import           Data.Maybe
import           Data.Monoid
import           Data.Set                     (Set)
import qualified Data.Set                     as S
import           Data.Text.Lazy               (Text)
import qualified Data.Text.Lazy               as T
import qualified Data.Text.Lazy.Encoding      as TE
import           Data.Time                    (Day, LocalTime (LocalTime),
                                               TimeOfDay (), UTCTime (UTCTime))
import qualified Data.Time                    as Time
import           Data.Traversable             (mapM)
import qualified Network.URI                  as URI
import           Prelude                      hiding (mapM)

#if MIN_VERSION_time(1,5,0)
import Data.Time (defaultTimeLocale)
#else
import System.Locale (defaultTimeLocale)
#endif

import qualified Text.Parsec            as P
import           Text.Parsec.Combinator hiding (optional)
import           Text.Parsec.Prim       hiding ((<|>))

import Text.ICalendar.Types

-- | Content lines, separated into components. 3.1.
data Content = ContentLine P.SourcePos (CI Text) [(CI Text, [Text])] ByteString
             | Component P.SourcePos (CI Text) [Content]
               deriving (Show, Eq, Ord)

type TextParser = P.Parsec ByteString DecodingFunctions

type ContentParser = ErrorT String -- Fatal errors.
                            (RWS DecodingFunctions
                                 [String] -- Warnings.
                                 (P.SourcePos, [Content]))

-- | Functions for decoding 'ByteString's into 'Text'.
data DecodingFunctions = DecodingFunctions
    { dfBS2Text  :: ByteString -> Text
    , dfBS2IText :: ByteString -> CI Text
    }

-- | UTF8.
instance Default DecodingFunctions where
    def = DecodingFunctions TE.decodeUtf8 (CI.mk . TE.decodeUtf8)

-- | Parse text. 3.3.11
parseText' :: ByteString -> ContentParser ([Text], ByteString)
parseText' bs = do c <- asks dfBS2Text
                   case runParser ((,) <$> texts <*> getInput) () "text" bs of
                        Left e -> throwError $ "parseText': " ++ show e
                        Right (x, r) -> return ( map (c . Bu.toLazyByteString) x
                                               , r)
  where texts = sepBy1 text (P.char ',') <|> return [mempty]
        text = do x <- P.satisfy isTSafe'
                  case x of
                       '\\' -> do y <- P.anyChar
                                  case y of
                                       '\\' -> nxt '\\'
                                       ';' -> nxt ';'
                                       ',' -> nxt ','
                                       z | z `elem` ['n','N'] -> nxt '\n'
                                       _ -> fail $ "unexpected " ++ show x
                       y -> nxt y
        -- isTSafe + 0x22, 0x3A, and 0x5C is pattern matched against.
        isTSafe' c = let n = ord c
                      in n == 9 || (n >= 0x20 && n <= 0x2B)
                                || (n >= 0x2D && n <= 0x3A)
                                || (n >= 0x3C && n /= 0x7F)
        nxt c = (Bu.char8 c <>) <$> (text <|> return mempty)

-- | Chech that there's no remainding text after the parser is done.
noRestText :: ([Text], ByteString) -> ContentParser [Text]
noRestText (x, "") = return x
noRestText (_, x) = throwError $ "noRestText: remainding text: " ++ show x

-- | Parse text, not allowing any remainding text.
parseText :: ByteString -> ContentParser [Text]
parseText = noRestText <=< parseText'

-- | Parse a DateTime value. 3.3.5
parseDateTime :: Maybe Text -- ^ Time Zone ID
              -> ByteString -> ContentParser DateTime
parseDateTime mTZ bs = do
    str <- asks $ T.unpack . ($ bs) . dfBS2Text
    let dayRes = parseDateStr str
        Just (day, rest') = dayRes
        t = take 1 rest'
        timeRes = parseTimeStr $ drop 1 rest'
        Just (time, isUTC) = timeRes
    when (isNothing (dayRes >> timeRes) || t /= "T") .
        throwError $ "parseDateTime: " ++ str
    when (isUTC && isJust mTZ) $
        tell ["parseDateTime: TZID on UTC timezone: " ++ str]
    return $ case (mTZ, isUTC) of
                  (Nothing, False) -> FloatingDateTime (LocalTime day time)
                  (Just tz, False) -> ZonedDateTime (LocalTime day time) tz
                  (_, True) -> UTCDateTime (UTCTime day
                                                  $ Time.timeOfDayToTime time)

-- | Parse a string to a Day. 3.3.4
parseDateStr :: String -> Maybe (Day, String)
parseDateStr = lastToMaybe . Time.readSTime True defaultTimeLocale "%Y%m%d"

-- | Parse a string to a TimeOfDay, and a bool if it's in UTC.
parseTimeStr :: String -> Maybe (TimeOfDay, Bool)
parseTimeStr s = do
    (t, r) <- lastToMaybe (Time.readSTime True defaultTimeLocale "%H%M%S" s)
    case r of
         "Z" -> return (t, True)
         "" -> return (t, False)
         _ -> fail ""

-- | Parse a Date value. 3.3.4
parseDate :: ByteString -> ContentParser Date
parseDate bs = do
    str <- asks $ T.unpack . ($ bs) . dfBS2Text
    let dayRes = parseDateStr str
        Just (day, rest) = dayRes
    when (isNothing dayRes) .
        throwError $ "parseDate: " ++ str
    unless (null rest) $
        tell ["parseDate: extra content: " ++ rest]
    return $ Date day

-- {{{ Misc parsers

parseURI :: String -> ContentParser URI.URI
parseURI s = case URI.parseURI s of
                  Just x -> return x
                  Nothing -> throwError $  "Invalid URI: " ++ show s

-- | Convert a 'DateTime' to 'UTCTime', giving an appropriate error.
mustBeUTC :: DateTime -> ContentParser UTCTime
mustBeUTC (UTCDateTime x) = return x
mustBeUTC _ = throwError "DateTime-value must be UTC"

-- | Parse something simple with only a Text-field for the content, and
-- 'OtherParams'.
parseSimple :: (Text -> OtherParams -> b) -> Content -> ContentParser b
parseSimple k (ContentLine _ _ o bs) = do c <- valueOnlyOne =<< parseText bs
                                          return $ k c (toO o)
parseSimple _ x = throwError $ "parseSimple: " ++ show x

-- | Parse something simple with only a CI Text-field for the content, and
-- 'OtherParams'.
parseSimpleI :: (CI Text -> OtherParams -> b) -> Content -> ContentParser b
parseSimpleI k (ContentLine _ _ o bs) = do c <- asks dfBS2IText
                                           return $ k (c bs) (toO o)
parseSimpleI _ x = throwError $ "parseSimpleI: " ++ show x

-- | Parse something simple with only a Int-field for the content, and
-- 'OtherParams'.
parseSimpleRead :: forall a b. Read a
                => (a -> OtherParams -> b) -> Content -> ContentParser b
parseSimpleRead k (ContentLine _ _ o bs) = do
    let r = maybeRead $ B.unpack bs :: Maybe a
    when (isNothing r) . throwError $ "parseSimpleRead: " ++ show bs
    return $ k (fromJust r) (toO o)
parseSimpleRead _ x = throwError $ "parseSimpleRead: " ++ show x

-- | Parse something b with alternative representations, language
-- specification, and 'OtherParams'.
parseAltRepLang' :: ([Text] -> ContentParser b)
                 -> (b -> Maybe URI.URI -> Maybe Language -> OtherParams -> a)
                 -> Content -> ContentParser a
parseAltRepLang' m f (ContentLine _ _ o bs) = do
    t <- m =<< parseText bs
    uri <- mapM (parseURI <=< paramOnlyOne) $ T.unpack .: lookup "ALTREP" o
    lang <- mapM paramOnlyOne $ Language . CI.mk .: lookup "LANGUAGE" o
    let o' = filter (\(x, _) -> x `notElem` ["ALTREP", "LANGUAGE"]) o
    return $ f t uri lang (toO o')
parseAltRepLang' _ _ x = throwError $ "parseAltRepLang': " ++ show x

-- | Parse something 'Text' with alternative representations, language
-- specification, and 'OtherParams'.
parseAltRepLang :: (Text -> Maybe URI.URI -> Maybe Language -> OtherParams -> a)
                -> Content -> ContentParser a
parseAltRepLang = parseAltRepLang' lenientTextOnlyOne
  where lenientTextOnlyOne :: [Text] -> ContentParser Text
        lenientTextOnlyOne [x] = return x
        lenientTextOnlyOne [] = throwError "Must have one value, not zero."
        lenientTextOnlyOne xs = do
            tell ["Illegal comma in value that only allows one TEXT, assuming literal comma was intended."]
            return $ T.intercalate "," xs

-- | Parse something '[Text]' with alternative representations, language
-- specification, and 'OtherParams'.
parseAltRepLangN :: (Set Text -> Maybe URI.URI -> Maybe Language
                              -> OtherParams -> a)
                -> Content -> ContentParser a
parseAltRepLangN = parseAltRepLang' (return . S.fromList)

-- | Parse something simple with only a URI-field for the content, and
-- 'OtherParams'.
parseSimpleURI :: (URI.URI -> OtherParams -> a) -> Content -> ContentParser a
parseSimpleURI f (ContentLine _ _ o bs) = do
    uri <- parseURI =<< asks (T.unpack . ($ bs) . dfBS2Text)
    return . f uri $ toO o
parseSimpleURI _ x = throwError $ "parseSimpleURI: " ++ show x


-- | Parse something which has either a 'Date' or a 'DateTime' value, and
-- 'OtherParams'. Uses DateTime if there is no value parameter.
parseSimpleDateOrDateTime :: (DateTime -> OtherParams -> a)
                          -> (Date     -> OtherParams -> a)
                          -> Content
                          -> ContentParser a
parseSimpleDateOrDateTime dt d (ContentLine _ _ o bs) = do
    (typ, tzid, o') <- typTzIdO o
    case typ of
         "DATE-TIME" -> do x <- parseDateTime tzid bs
                           return . dt x $ toO o'
         "DATE" -> do x <- parseDate bs
                      return . d x $ toO o'
         _ -> throwError $ "Invalid type: " ++ show typ
parseSimpleDateOrDateTime _ _ x =
    throwError $ "parseSimpleDateOrDateTime: " ++ show x

-- | Parse something which has a set of either a 'Date' or a 'DateTime' value,
-- and 'OtherParams'. Uses DateTime if there is no value parameter.
parseSimpleDatesOrDateTimes :: (Set DateTime -> OtherParams -> a)
                            -> (Set Date     -> OtherParams -> a)
                            -> Content
                            -> ContentParser a
parseSimpleDatesOrDateTimes dt d (ContentLine _ _ o bs) = do
    (typ, tzid, o') <- typTzIdO o
    case typ of
         "DATE-TIME" -> do x <- S.fromList .: mapM (parseDateTime tzid) $
                                                B.split ',' bs
                           return . dt x $ toO o'
         "DATE" -> do x <- S.fromList .: mapM parseDate $ B.split ',' bs
                      return . d x $ toO o'
         _ -> throwError $ "Invalid type: " ++ show typ
parseSimpleDatesOrDateTimes _ _ x =
    throwError $ "parseSimpleDatesOrDateTimes: " ++ show x

typTzIdO :: [(CI Text, [Text])]
         -> ContentParser (Text, Maybe Text, [(CI Text, [Text])])
typTzIdO o = do
    typ <- paramOnlyOne . fromMaybe ["DATE-TIME"] $ lookup "VALUE" o
    tzid <- mapM paramOnlyOne $ if typ == "DATE-TIME" then lookup "TZID" o
                                                      else Nothing
    let f x = x /= "VALUE" && (typ /= "DATE-TIME" || x /= "TZID")
        o' = filter (f . fst) o
    return (typ, tzid, o')

-- | Parse something which has only a DateTime value, and 'OtherParams'.
parseSimpleDateTime :: (DateTime -> OtherParams -> a)
                    -> Content
                    -> ContentParser a
parseSimpleDateTime dt (ContentLine _ _ o bs) = do
    tzid <- mapM paramOnlyOne $ lookup "TZID" o
    let o' = filter ((/="TZID") . fst) o
    flip dt (toO o') <$> parseDateTime tzid bs
parseSimpleDateTime _ x = throwError $ "parseSimpleDateTime: " ++ show x

parseSimpleUTC :: (UTCTime -> OtherParams -> a)
               -> Content
               -> ContentParser a
parseSimpleUTC dt (ContentLine _ _ o bs) =
    flip dt (toO o) <$> (mustBeUTC =<< parseDateTime Nothing bs)
parseSimpleUTC _ x = throwError $ "parseSimpleUTC: " ++ show x

-- | Convert a property dictionary to 'OtherParams'.
toO :: [(CI Text, [Text])] -> OtherParams
toO = OtherParams . S.fromList . map (uncurry OtherParam)

-- | Get the remaining properties.
otherProperties :: ContentParser (Set OtherProperty)
otherProperties = do opts <- snd <$> get
                     modify (second $ const [])
                     S.fromList <$> mapM lineToOtherProp opts
  where lineToOtherProp (ContentLine _ n opts bs) =
            return (OtherProperty n bs $ toO opts)
        lineToOtherProp c@Component {} =
            down c . throwError $ "Unconsumed component: " ++ show c

neg :: TextParser (Int -> Int)
neg = maybe id (\x -> if x == '-' then negate else id)
            <$> optional (P.oneOf "+-")

digits :: TextParser Int
digits = foldl1 ((+).(*10)) . map digitToInt <$> many1 P.digit

digitsN :: TextParser [Int]
digitsN = sepBy1 digits (P.char ',')

-- }}}

-- | Set the parser context.
down :: Content -> ContentParser a -> ContentParser a
down (Component p _ x) = down' (p, x)
down x@(ContentLine p _ _ _) = down' (p, [x])

-- | Set the parser context.
down' :: (P.SourcePos, [Content]) -> ContentParser a -> ContentParser a
down' x m = get >>= \old -> put x >> m <* put old

-- | Many optional components named ...
optCompN :: Ord a
         => CI Text -> (Content -> ContentParser a) -> ContentParser (Set a)
optCompN s f = optN f . partition (`isComponentNamed` s) =<< snd <$> get

-- | One required line named ...
reqLine1 :: CI Text -> (Content -> ContentParser a) -> ContentParser a
reqLine1 s f = req1 s f . partition (`isLineNamed` s) =<< snd <$> get

-- | One optional line named ...
optLine1 :: Default b
         => CI Text -> (Content -> ContentParser b) -> ContentParser b
optLine1 s f = opt1 f . partition (`isLineNamed` s) =<< snd <$> get

-- | Many optional lines named ...
optLineN :: Ord b
         => CI Text -> (Content -> ContentParser b) -> ContentParser (Set b)
optLineN s f = optN f . partition (`isLineNamed` s) =<< snd <$> get

-- | Many lines named ..., at least one required.
reqLineN :: Ord b
         => CI Text -> (Content -> ContentParser b) -> ContentParser (Set b)
reqLineN s f = reqN s f . partition (`isLineNamed` s) =<< snd <$> get

-- | One required ...
req1 :: CI Text -> (Content -> ContentParser b) -> ([Content], [Content])
     -> ContentParser b
req1 _ f ([x], xs) = modify (second $ const xs) >> down x (f x)
req1 s _ ([], _) = throwError $ "Missing content: " ++ show s
req1 _ f (x:xs, xs') = do modify (second $ const xs')
                          tell (map (("Extra content: " ++) . show) xs)
                          down x $ f x

-- | One optional ...
opt1 :: Default b
     => (Content -> ContentParser b) -> ([Content], [Content])
     -> ContentParser b
opt1 f ([x], xs) = modify (second $ const xs) >> down x (f x)
opt1 _ ([], _) = return def
opt1 f (x:xs, xs') = do modify (second $ const xs')
                        tell (map (("Extra content: " ++) . show) xs)
                        down x $ f x

-- | Many optional ...
optN :: Ord b
     => (Content -> ContentParser b) -> ([Content], [Content])
     -> ContentParser (Set b)
optN f (xs, xs') = do modify (second $ const xs')
                      S.fromList <$> mapM (\x -> down x (f x)) xs

-- | Many ..., at least one required.
reqN :: Ord b
     => CI Text -- ^ What, needed for the error.
     -> (Content -> ContentParser b) -> ([Content], [Content])
     -> ContentParser (Set b)
reqN w f (xs, xs') = do modify (second $ const xs')
                        o <- S.fromList <$> mapM (\x -> down x (f x)) xs
                        when (S.size o < 1) .
                            throwError $ "At least one required: " ++ show w
                        return o

-- | Only allow one parameter value.
paramOnlyOne :: [a] -> ContentParser a
paramOnlyOne [x] = return x
paramOnlyOne _ = throwError "Only one parameter value allowed."

valueOnlyOne :: [a] -> ContentParser a
valueOnlyOne [x] = return x
valueOnlyOne [] = throwError "Must have one value, not zero."
valueOnlyOne _ = throwError "Only one value allowed."

-- | Line predicate.
isLineNamed :: Content -> CI Text -> Bool
isLineNamed (ContentLine _ n _ _) n' | n == n' = True
isLineNamed _ _ = False

-- | Component name predicate.
isComponentNamed :: Content -> CI Text -> Bool
isComponentNamed (Component _ n _) n' | n == n' = True
isComponentNamed _ _ = False

isComponent :: Content -> Bool
isComponent Component {} = True
isComponent _ = False

-- Util

maybeRead :: Read a => String -> Maybe a
maybeRead = fst .: lastToMaybe . reads

lastToMaybe :: [a] -> Maybe a
lastToMaybe x = if null x then Nothing else Just $ last x

(.:) :: (Functor f, Functor g) => (a -> b) -> f (g a) -> f (g b)
(.:) = fmap fmap fmap

infixl 4 .: