module Text.Regex.TDFA.Text(
Regex
,CompOption
,ExecOption
,compile
,execute
,regexec
) where
import Data.Array((!),elems)
import qualified Data.Text as T(Text,unpack)
import Text.Regex.Base(RegexLike(..),RegexMaker(..),Extract(..),MatchArray,RegexContext(..))
import Text.Regex.Base.Impl(polymatch,polymatchM)
import Text.Regex.TDFA.ReadRegex(parseRegex)
import Text.Regex.TDFA.String()
import Text.Regex.TDFA.TDFA(patternToRegex)
import Text.Regex.TDFA.Common(Regex(..),CompOption,ExecOption(captureGroups),Position)
import Data.Maybe(listToMaybe)
import Text.Regex.TDFA.NewDFA.Uncons(Uncons)
import qualified Text.Regex.TDFA.NewDFA.Engine as Engine(execMatch)
import qualified Text.Regex.TDFA.NewDFA.Tester as Tester(matchTest)
instance RegexContext Regex T.Text T.Text where
match = polymatch
matchM = polymatchM
instance RegexMaker Regex CompOption ExecOption T.Text where
makeRegexOptsM c e source = makeRegexOptsM c e (T.unpack source)
{-# SPECIALIZE execMatch :: Regex -> Position -> Char -> T.Text -> [MatchArray] #-}
execMatch :: Uncons text => Regex -> Position -> Char -> text -> [MatchArray]
execMatch = Engine.execMatch
{-# SPECIALIZE myMatchTest :: Regex -> T.Text -> Bool #-}
myMatchTest :: Uncons text => Regex -> text -> Bool
myMatchTest = Tester.matchTest
instance RegexLike Regex T.Text where
matchOnce r s = listToMaybe (matchAll r s)
matchAll r s = execMatch r 0 '\n' s
matchCount r s = length (matchAll r' s)
where r' = r { regex_execOptions = (regex_execOptions r) {captureGroups = False} }
matchTest = myMatchTest
matchOnceText regex source =
fmap (\ma -> let (o,l) = ma!0
in (before o source
,fmap (\ol -> (extract ol source,ol)) ma
,after (o+l) source))
(matchOnce regex source)
matchAllText regex source =
map (fmap (\ol -> (extract ol source,ol)))
(matchAll regex source)
compile :: CompOption
-> ExecOption
-> T.Text
-> Either String Regex
compile compOpt execOpt txt =
case parseRegex (T.unpack txt) of
Left err -> Left ("parseRegex for Text.Regex.TDFA.Text failed:"++show err)
Right pattern -> Right (patternToRegex pattern compOpt execOpt)
execute :: Regex
-> T.Text
-> Either String (Maybe MatchArray)
execute r txt = Right (matchOnce r txt)
regexec :: Regex
-> T.Text
-> Either String (Maybe (T.Text, T.Text, T.Text, [T.Text]))
regexec r txt =
case matchOnceText r txt of
Nothing -> Right (Nothing)
Just (pre,mt,post) ->
let main = fst (mt!0)
rest = map fst (tail (elems mt))
in Right (Just (pre,main,post,rest))