\begin{code} {-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE QuasiQuotes #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE RecordWildCards #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE MonoLocalBinds #-} module Text.RE.ZeInternals.Replace ( -- * REContext and RELocation REContext(..) , RELocation(..) , isTopLocation -- * replaceAll , replaceAll , replaceAllCaptures , replaceAllCaptures_ , replaceAllCapturesM -- * replace , replace , replaceCaptures , replaceCaptures_ , replaceCapturesM -- * expandMacros , expandMacros , expandMacros' -- * templateCaptures , templateCaptures -- * Replace and ReplaceMethods , Replace(..) , ReplaceMethods(..) , replaceMethods ) where import Control.Applicative import Data.Array import qualified Data.ByteString.Char8 as B import qualified Data.ByteString.Lazy.Char8 as LBS import Data.Char import qualified Data.Foldable as F import Data.Functor.Identity import qualified Data.HashMap.Strict as HM import Data.Maybe import qualified Data.Monoid as M import qualified Data.Sequence as S import qualified Data.Text as T import qualified Data.Text.Encoding as TE import qualified Data.Text.Lazy as LT import Prelude.Compat import Text.RE.REOptions import Text.RE.ZeInternals.Types.Capture import Text.RE.ZeInternals.Types.CaptureID import Text.RE.ZeInternals.Types.Match import Text.RE.ZeInternals.Types.Matches import Text.Read import Text.Regex.TDFA import Text.Regex.TDFA.Text() import Text.Regex.TDFA.Text.Lazy() \end{code} ReContext and RELocation ------------------------ \begin{code} -- | @REContext@ specifies which contexts the substitutions should be applied data REContext = TOP -- ^ substitutions should be applied to the top-level only, -- the text that matched the whole RE | SUB -- ^ substitutions should only be applied to the text -- captured by bracketed sub-REs | ALL -- ^ the substitution function should be applied to all -- captures, the top level and the sub-expression captures deriving (Show) -- | the @RELocation@ information passed into the substitution function -- specifies which sub-expression is being substituted data RELocation = RELocation { locationMatch :: Int -- ^ the zero-based, i-th string to be matched, -- when matching all strings, zero when only the -- first string is being matched , locationCapture :: CaptureOrdinal -- ^ 0, when matching the top-level string -- matched by the whole RE, 1 for the top-most, -- left-most redex captured by bracketed -- sub-REs, etc. } deriving (Show) \end{code} \begin{code} -- | True iff the location references a complete match -- (i.e., not a bracketed capture) isTopLocation :: RELocation -> Bool isTopLocation = (==0) . locationCapture \end{code} \begin{code} -- | replace all with a template, $0 for whole text, $1 for first -- capture, etc. replaceAll :: Replace a => a -> Matches a -> a replaceAll tpl ac = replaceAllCaptures TOP (parseTemplateR tpl) ac \end{code} \begin{code} -- | substitutes using a function that takes the full Match -- context and returns the same replacement text as the _phi_phi -- context. replaceAllCaptures :: Replace a => REContext -> (Match a->RELocation->Capture a->Maybe a) -> Matches a -> a \end{code} \begin{code} replaceAllCaptures = replaceAllCaptures_ replaceMethods \end{code} \begin{code} -- | replaceAllCaptures_ is like like replaceAllCaptures but takes the -- Replace methods through the ReplaceMethods argument replaceAllCaptures_ :: Extract a => ReplaceMethods a -> REContext -> (Match a->RELocation->Capture a->Maybe a) -> Matches a -> a replaceAllCaptures_ s ctx phi ac = runIdentity $ replaceAllCapturesM s ctx (lift_phi phi) ac \end{code} \begin{code} -- | replaceAllCapturesM is just a monadically generalised version of -- replaceAllCaptures_ replaceAllCapturesM :: (Extract a,Monad m) => ReplaceMethods a -> REContext -> (Match a->RELocation->Capture a->m (Maybe a)) -> Matches a -> m a replaceAllCapturesM r ctx phi_ Matches{..} = replaceCapturesM r ALL phi $ Match matchesSource cnms arr where phi _ (RELocation _ i) = case arr_c!i of Just caps -> phi_ caps . uncurry RELocation $ arr_i ! i Nothing -> const $ return Nothing arr_c = listArray bds $ concat $ [ repl (rangeSize $ bounds $ matchArray cs) cs | cs <- allMatches ] arr_i = listArray bds j_ks arr = listArray bds $ [ arr_ ! k | arr_ <- map matchArray allMatches , k <- indices arr_ ] bds = (0,CaptureOrdinal $ length j_ks-1) j_ks = [ (j,k) | (j,arr_) <- zip [0..] $ map matchArray allMatches , k <- indices arr_ ] repl 0 _ = [] repl n x = case ctx of TOP -> Just x : replicate (n-1) Nothing SUB -> Nothing : replicate (n-1) (Just x) ALL -> replicate n $ Just x cnms = fromMaybe noCaptureNames $ listToMaybe $ map captureNames allMatches \end{code} \begin{code} -- | replace with a template containing $0 for whole text, -- $1 for first capture, etc. replace :: Replace a => a -> Match a -> a replace tpl c = replaceCaptures TOP (parseTemplateR tpl) c \end{code} \begin{code} -- | substitutes using a function that takes the full Match -- context and returns the same replacement text as the _phi_phi -- context. replaceCaptures :: Replace a => REContext -> (Match a->RELocation->Capture a->Maybe a) -> Match a -> a replaceCaptures = replaceCaptures_ replaceMethods \end{code} \begin{code} -- | replaceCaptures_ is like replaceCaptures but takes the Replace methods -- through the ReplaceMethods argument replaceCaptures_ :: Extract a => ReplaceMethods a -> REContext -> (Match a->RELocation->Capture a->Maybe a) -> Match a -> a replaceCaptures_ s ctx phi caps = runIdentity $ replaceCapturesM s ctx (lift_phi phi) caps \end{code} \begin{code} -- | replaceCapturesM is just a monadically generalised version of -- replaceCaptures_ replaceCapturesM :: (Monad m,Extract a) => ReplaceMethods a -> REContext -> (Match a->RELocation->Capture a->m (Maybe a)) -> Match a -> m a replaceCapturesM ReplaceMethods{..} ctx phi_ caps@Match{..} = do (hay',_) <- foldr sc (return (matchSource,[])) $ zip [0..] $ elems matchArray return hay' where sc (i,cap0) act = do (hay,ds) <- act let ndl = capturedText cap cap = adj hay ds cap0 mb <- phi i cap case mb of Nothing -> return (hay,ds) Just ndl' -> return ( methodSubst (const ndl') cap , (captureOffset cap,len'-len) : ds ) where len' = methodLength ndl' len = methodLength ndl adj hay ds cap = Capture { captureSource = hay , capturedText = before len $ after off0 hay , captureOffset = off0 , captureLength = len } where len = len0 + sum [ delta | (off,delta) <- ds , off < off0 + len0 ] len0 = captureLength cap off0 = captureOffset cap phi i cap = case ctx of TOP | i/=0 -> return Nothing SUB | i==0 ->return Nothing _ -> case not $ hasCaptured cap of True -> return Nothing False -> phi_ caps (RELocation 0 i) cap \end{code} expandMacros ------------ \begin{code} -- | expand all of the @{..} macros in the RE in the argument String -- according to the Macros argument, preprocessing the RE String -- according to the Mode argument (used internally) expandMacros :: (r->String) -> Macros r -> String -> String expandMacros x_src hm s = case HM.null hm of True -> s False -> expandMacros' (fmap x_src . flip HM.lookup hm) s \end{code} \begin{code} -- | expand the @{..} macos in the argument string using the given -- function expandMacros' :: (MacroID->Maybe String) -> String -> String expandMacros' lu = fixpoint e_m where e_m re_s = replaceAllCaptures TOP phi $ re_s $=~ "@(@|\\{([^{}]+)\\})" where phi mtch _ cap = case txt == "@@" of True -> Just "@" False -> Just $ fromMaybe txt $ lu ide where txt = capturedText cap ide = MacroID $ capturedText $ capture c2 mtch c2 = IsCaptureOrdinal $ CaptureOrdinal 2 \end{code} \begin{code} lift_phi :: Monad m => (Match a->RELocation->Capture a->Maybe a) -> (Match a->RELocation->Capture a->m (Maybe a)) lift_phi phi_ = phi where phi caps' loc' cap' = return $ phi_ caps' loc' cap' \end{code} templateCaptures ---------------- \begin{code} -- | list all of the CaptureID references in the replace template in -- the second argument templateCaptures :: ( Replace a , RegexContext Regex a (Matches a) , RegexMaker Regex CompOption ExecOption String ) => (a->String) -> a -> [CaptureID] templateCaptures unpack tpl = [ cid | mtch <- allMatches $ scan_template tpl , Right cid <- [parse_template_capture unpack mtch] ] -- | parse a Match generated by acan_template, returning @Left "$") -- iff the capture reference is an escaped @$@ (i.e., @$$@) parse_template_capture :: (a->String) -> Match a -> Either a CaptureID parse_template_capture unpack t_mtch = case t_mtch !$? c2 of Just cap -> case readMaybe stg of Nothing -> Right $ IsCaptureName $ CaptureName $ T.pack stg Just cn -> Right $ IsCaptureOrdinal $ CaptureOrdinal cn where stg = unpack $ capturedText cap Nothing -> case s == "$" of True -> Left t False -> Right $ IsCaptureOrdinal $ CaptureOrdinal $ read s where s = unpack t t = capturedText $ capture c1 t_mtch c1 = IsCaptureOrdinal $ CaptureOrdinal 1 c2 = IsCaptureOrdinal $ CaptureOrdinal 2 -- | scan a replacement template, returning a Match for each capture -- reference in the template (like $1, ${foo}) scan_template :: ( Replace a , RegexContext Regex a (Matches a) , RegexMaker Regex CompOption ExecOption String ) => a -> Matches a scan_template tpl = tpl $=~ "\\$(\\$|[0-9]|\\{([^{}]+)\\})" \end{code} Replace and ReplaceMethods -------------------------- \begin{code} -- | Replace provides the missing needed to replace the matched -- text in a @Replace a => Match a@. class (Show a,Eq a,Ord a,Extract a,Monoid a) => Replace a where -- | length function for a lengthR :: a -> Int -- | inject String into a packR :: String -> a -- | project a onto a String unpackR :: a -> String -- | inject into Text textifyR :: a -> T.Text -- | project Text onto a detextifyR :: T.Text -> a -- | split into lines linesR :: a -> [a] -- | concatenate a list of lines unlinesR :: [a] -> a -- | append a newline appendNewlineR :: a -> a -- | apply a substitution function to a Capture substR :: (a->a) -> Capture a -> a -- | convert a template containing $0, $1, etc., in the first -- argument, into a 'phi' replacement function for use with -- replaceAllCaptures and replaceCaptures parseTemplateR :: a -> Match a -> RELocation -> Capture a -> Maybe a textifyR = T.pack . unpackR detextifyR = packR . T.unpack appendNewlineR = (M.<> packR "\n") substR f m@Capture{..} = capturePrefix m M.<> f capturedText M.<> captureSuffix m \end{code} \begin{code} -- | a selction of the Replace methods can be encapsulated with ReplaceMethods -- for the higher-order replacement functions data ReplaceMethods a = ReplaceMethods { methodLength :: a -> Int , methodSubst :: (a->a) -> Capture a -> a } -- | replaceMethods encapsulates ReplaceMethods a from a Replace a context replaceMethods :: Replace a => ReplaceMethods a replaceMethods = ReplaceMethods { methodLength = lengthR , methodSubst = substR } \end{code} The Replace Instances --------------------- \begin{code} instance Replace [Char] where lengthR = length packR = id unpackR = id textifyR = T.pack detextifyR = T.unpack linesR = lines unlinesR = unlines appendNewlineR = (M.<>"\n") parseTemplateR = parseTemplateR' id instance Replace B.ByteString where lengthR = B.length packR = B.pack unpackR = B.unpack textifyR = TE.decodeUtf8 detextifyR = TE.encodeUtf8 linesR = B.lines unlinesR = B.unlines appendNewlineR = (M.<>"\n") parseTemplateR = parseTemplateR' B.unpack instance Replace LBS.ByteString where lengthR = fromEnum . LBS.length packR = LBS.pack unpackR = LBS.unpack textifyR = TE.decodeUtf8 . LBS.toStrict linesR = LBS.lines unlinesR = LBS.unlines detextifyR = LBS.fromStrict . TE.encodeUtf8 appendNewlineR = (M.<>"\n") parseTemplateR = parseTemplateR' LBS.unpack instance Replace (S.Seq Char) where lengthR = S.length packR = S.fromList unpackR = F.toList linesR = map packR . lines . unpackR unlinesR = packR . unlines . map unpackR parseTemplateR = parseTemplateR' F.toList instance Replace T.Text where lengthR = T.length packR = T.pack unpackR = T.unpack textifyR = id detextifyR = id linesR = T.lines unlinesR = T.unlines appendNewlineR = (M.<>"\n") parseTemplateR = parseTemplateR' T.unpack instance Replace LT.Text where lengthR = fromEnum . LT.length packR = LT.pack unpackR = LT.unpack textifyR = LT.toStrict detextifyR = LT.fromStrict linesR = LT.lines unlinesR = LT.unlines appendNewlineR = (M.<>"\n") parseTemplateR = parseTemplateR' LT.unpack \end{code} Parsing Replace Templates ------------------------- \begin{code} -- | parse the replacement template in second argument, substititing -- the capture references with corresponding captures from the Match -- in the third argument (the result of a single match of the RE -- against the input text to be matched); Nothing is returned if the -- inputs are not well formed (currently all inputs are well formed) parseTemplateR' :: ( Replace a , RegexContext Regex a (Matches a) , RegexMaker Regex CompOption ExecOption String ) => (a->String) -> a -> Match a -> RELocation -> Capture a -> Maybe a parseTemplateR' unpack tpl mtch _ _ = Just $ replaceAllCaptures TOP phi $ scan_template tpl where phi t_mtch _ _ = either Just this $ parse_template_capture unpack t_mtch this cid = capturedText <$> mtch !$? cid \end{code} Helpers ------- \begin{code} fixpoint :: (Eq a) => (a->a) -> a -> a fixpoint f = chk . iterate f where chk (x:x':_) | x==x' = x chk xs = chk $ tail xs \end{code} \begin{code} ($=~) :: ( RegexContext Regex source target , RegexMaker Regex CompOption ExecOption String ) => source -> String -> target ($=~) = (=~) \end{code}