{-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE CPP #-} {-# OPTIONS_GHC -fno-warn-duplicate-exports #-} #if __GLASGOW_HASKELL__ >= 800 {-# OPTIONS_GHC -fno-warn-redundant-constraints #-} #endif {-# OPTIONS_GHC -fno-warn-dodgy-exports #-} module Text.RE.PCRE ( -- * Tutorial -- $tutorial -- * About this Module -- $about -- * The Match Operators (*=~) , (?=~) -- * The SearchReplace Operators , (*=~/) , (?=~/) -- * Matches , Matches , matchesSource , allMatches , anyMatches , countMatches , matches -- * Match , Match , matchSource , matched , matchedText -- * The 'RE' Type , RE , reSource -- * Options -- $options , SimpleREOptions(..) -- * Compiling and Escaping REs , compileRegex , compileRegexWith , escape , escapeWith , escapeREString -- * The Classic rexex-base Match Operators , (=~) , (=~~) -- * The Quasi Quoters and Minor Functions -- $re , module Text.RE.ZeInternals.PCRE -- $ed , module Text.RE.ZeInternals.SearchReplace.PCRE -- * The Operator Instances -- $instances , module Text.RE.PCRE.ByteString , module Text.RE.PCRE.ByteString.Lazy , module Text.RE.PCRE.Sequence , module Text.RE.PCRE.String ) where import qualified Text.Regex.Base as B import Text.RE import Text.RE.ZeInternals.AddCaptureNames import Text.RE.ZeInternals.SearchReplace.PCRE import Text.RE.ZeInternals.PCRE import qualified Text.Regex.PCRE as PCRE import Text.RE.PCRE.ByteString() import Text.RE.PCRE.ByteString.Lazy() import Text.RE.PCRE.Sequence() import Text.RE.PCRE.String() import Text.RE.IsRegex import Text.RE.REOptions -- | find all the matches in the argument text; e.g., to count the number -- of naturals in s: -- -- @countMatches $ s *=~ [re|[0-9]+|]@ -- (*=~) :: IsRegex RE s => s -> RE -> Matches s (*=~) bs rex = addCaptureNamesToMatches (reCaptureNames rex) $ matchMany rex bs -- | find the first match in the argument text; e.g., to test if there -- is a natural number in the input text: -- -- @matched $ s ?=~ [re|[0-9]+|]@ -- (?=~) :: IsRegex RE s => s -> RE -> Match s (?=~) bs rex = addCaptureNamesToMatch (reCaptureNames rex) $ matchOnce rex bs -- | search and replace all matches in the argument text; e.g., this section -- will convert every YYYY-MM-DD format date in its argument text into a -- DD\/MM\/YYYY date: -- -- @(*=~\/ [ed|${y}([0-9]{4})-0*${m}([0-9]{2})-0*${d}([0-9]{2})\/\/\/${d}\/${m}\/${y}|])@ -- (*=~/) :: IsRegex RE s => s -> SearchReplace RE s -> s (*=~/) = flip searchReplaceAll -- | search and replace the first occurrence only (if any) in the input text -- e.g., to prefix the first string of four hex digits in the imput text, -- if any, with @0x@: -- -- @(?=~\/ [ed|[0-9A-Fa-f]{4}\/\/\/0x$0|]) -- (?=~/) :: IsRegex RE s => s -> SearchReplace RE s -> s (?=~/) = flip searchReplaceFirst -- | the regex-base polymorphic match operator (=~) :: ( B.RegexContext PCRE.Regex s a , B.RegexMaker PCRE.Regex PCRE.CompOption PCRE.ExecOption s ) => s -> RE -> a (=~) bs rex = B.match (reRegex rex) bs -- | the regex-base monadic, polymorphic match operator (=~~) :: ( Monad m , B.RegexContext PCRE.Regex s a , B.RegexMaker PCRE.Regex PCRE.CompOption PCRE.ExecOption s ) => s -> RE -> m a (=~~) bs rex = B.matchM (reRegex rex) bs -- $tutorial -- We have a regex tutorial at <http://tutorial.regex.uk>. -- $about -- This module provides access to the back end through polymorphic functions -- that operate over all of the String\/Text\/ByteString types supported by the -- PCRE back end. If you don't need this generality you might find it easier -- to work with one of the modules that have been specialised for each of these -- types: -- -- * "Text.RE.PCRE.ByteString" -- * "Text.RE.PCRE.ByteString.Lazy" -- * "Text.RE.ZeInternals.PCRE" -- * "Text.RE.PCRE.Sequence" -- * "Text.RE.PCRE.String" -- $options -- You can specify different compilation options by appending a -- to the name of an [re| ... |] or [ed| ... \/\/\/ ... |] quasi quoter -- to select the corresponding compilation option. For example, the -- section, -- -- @(?=~/ [edBlockInsensitive|foo$\/\/\/bar|])@ -- -- will replace a @foo@ suffix of the argument text, of any -- capitalisation, with a (lower case) @bar@. If you need to specify the -- options dynamically, use the @[re_| ... |]@ and @[red_| ... \/\/\/ ... |]@ -- quasi quoters, which generate functions that take an 'IsOption' option -- (e.g., a 'SimpleReOptions' value) and yields a 'RE' or 'SearchReplace' -- as apropriate. For example if you have a 'SimpleReOptions' value in -- @sro@ then -- -- @(?=~/ [ed_|foo$\/\/\/bar|] sro)@ -- -- will compile the @foo$@ RE according to the value of @sro@. For more -- on specifying RE options see "Text.RE.REOptions". -- $re -- The @[re|.*|]@ quasi quoters, with variants for specifing different -- options to the RE compiler (see "Text.RE.REOptions"), and the -- specialised back-end types and functions. -- $ed -- The @[ed|.*\/\/\/foo|]@ quasi quoters, with variants for specifing different -- options to the RE compiler (see "Text.RE.REOptions"). -- $instances -- These modules merely provide the 'IsRegex' instances.