Copyright | (c) Chris Kuklewicz 2006 |
---|---|
License | BSD-style (see the file LICENSE) |
Maintainer | libraries@haskell.org, textregexlazy@personal.mightyreason.com |
Stability | experimental |
Portability | non-portable (MPTC+FD) |
Safe Haskell | Safe |
Language | Haskell98 |
Classes and instances for Regex matching.
All the classes are declared here, and some common type aliases, and the MatchResult data type.
The only instances here are for Extract String and Extract ByteString.
There are no data values. The RegexContext
instances are in
Text.Regex.Base.Context, except for ones which run afoul of a
repeated variable (RegexContext regex a a), which are defined in each
modules' String and ByteString modules.
Synopsis
- type MatchOffset = Int
- type MatchLength = Int
- type MatchArray = Array Int (MatchOffset, MatchLength)
- type MatchText source = Array Int (source, (MatchOffset, MatchLength))
- data MatchResult a = MR {}
- class RegexOptions regex compOpt execOpt | regex -> compOpt execOpt, compOpt -> regex execOpt, execOpt -> regex compOpt where
- blankCompOpt :: compOpt
- blankExecOpt :: execOpt
- defaultCompOpt :: compOpt
- defaultExecOpt :: execOpt
- setExecOpts :: execOpt -> regex -> regex
- getExecOpts :: regex -> execOpt
- class RegexOptions regex compOpt execOpt => RegexMaker regex compOpt execOpt source | regex -> compOpt execOpt, compOpt -> regex execOpt, execOpt -> regex compOpt where
- makeRegex :: source -> regex
- makeRegexOpts :: compOpt -> execOpt -> source -> regex
- makeRegexM :: Monad m => source -> m regex
- makeRegexOptsM :: Monad m => compOpt -> execOpt -> source -> m regex
- class Extract source => RegexLike regex source where
- matchOnce :: regex -> source -> Maybe MatchArray
- matchAll :: regex -> source -> [MatchArray]
- matchCount :: regex -> source -> Int
- matchTest :: regex -> source -> Bool
- matchAllText :: regex -> source -> [MatchText source]
- matchOnceText :: regex -> source -> Maybe (source, MatchText source, source)
- class RegexLike regex source => RegexContext regex source target where
- class Extract source where
- newtype AllSubmatches f b = AllSubmatches {
- getAllSubmatches :: f b
- newtype AllTextSubmatches f b = AllTextSubmatches {
- getAllTextSubmatches :: f b
- newtype AllMatches f b = AllMatches {
- getAllMatches :: f b
- newtype AllTextMatches f b = AllTextMatches {
- getAllTextMatches :: f b
Type aliases
type MatchOffset = Int Source #
0 based index from start of source, or (-1) for unused
type MatchLength = Int Source #
non-negative length of a match
type MatchArray = Array Int (MatchOffset, MatchLength) Source #
0 based array, with 0th index indicating the full match. If the full match location is not available, represent as (0,0).
type MatchText source = Array Int (source, (MatchOffset, MatchLength)) Source #
Data types
data MatchResult a Source #
This is the same as the type from JRegex.
Instances
RegexLike a b => RegexContext a b (MatchResult b) Source # | |
Defined in Text.Regex.Base.Context match :: a -> b -> MatchResult b Source # matchM :: Monad m => a -> b -> m (MatchResult b) Source # |
Classes
class RegexOptions regex compOpt execOpt | regex -> compOpt execOpt, compOpt -> regex execOpt, execOpt -> regex compOpt where Source #
Rather than carry them around spearately, the options for how to execute a regex are kept as part of the regex. There are two types of options. Those that can only be specified at compilation time and never changed are CompOpt. Those that can be changed later and affect how matching is performed are ExecOpt. The actually types for these depend on the backend.
:: compOpt | no options set at all in the backend |
:: execOpt | no options set at all in the backend |
:: compOpt | reasonable options (extended,caseSensitive,multiline regex) |
:: execOpt | reasonable options (extended,caseSensitive,multiline regex) |
setExecOpts :: execOpt -> regex -> regex Source #
forget old flags and use new ones
getExecOpts :: regex -> execOpt Source #
retrieve the current flags
class RegexOptions regex compOpt execOpt => RegexMaker regex compOpt execOpt source | regex -> compOpt execOpt, compOpt -> regex execOpt, execOpt -> regex compOpt where Source #
RegexMaker captures the creation of the compiled regular
expression from a source type and an option type. makeRegexM
and
makeRegexM
report parse error using MonadError
, usually (Either
String regex).
The makeRegex
function has a default implementation that depends
on makeRegexOpts and used defaultCompOpt
and defaultExecOpt
.
Similarly for makeRegexM
and makeRegexOptsM
.
There are also default implementaions for makeRegexOpts
and
makeRegexOptsM
in terms of each other. So a minimal instance
definition needs to only define one of these, hopefully
makeRegexOptsM
.
Nothing
makeRegex :: source -> regex Source #
make using the defaultCompOpt and defaultExecOpt
makeRegexOpts :: compOpt -> execOpt -> source -> regex Source #
Specify your own options
makeRegexM :: Monad m => source -> m regex Source #
make using the defaultCompOpt and defaultExecOpt, reporting errors with fail
makeRegexOptsM :: Monad m => compOpt -> execOpt -> source -> m regex Source #
Specify your own options, reporting errors with fail
class Extract source => RegexLike regex source where Source #
RegexLike is parametrized on a regular expression type and a source type to run the matching on.
There are default implementations: matchTest and matchOnceText use matchOnce; matchCount and matchAllText use matchAll. matchOnce uses matchOnceText and matchAll uses matchAllText. So a minimal complete instance need to provide at least (matchOnce or matchOnceText) and (matchAll or matchAllText). Additional definitions are often provided where they will increase efficiency.
[ c | let notVowel = makeRegex "[^aeiou]" :: Regex, c <- ['a'..'z'], matchTest notVowel [c] ] "bcdfghjklmnpqrstvwxyz"
The strictness of these functions is instance dependent.
Nothing
matchOnce :: regex -> source -> Maybe MatchArray Source #
This returns the first match in the source (it checks the whole source, not just at the start). This returns an array of (offset,length) index pairs for the match and captured substrings. The offset is 0-based. A (-1) for an offset means a failure to match. The lower bound of the array is 0, and the 0th element is the (offset,length) for the whole match.
matchAll :: regex -> source -> [MatchArray] Source #
matchAll returns a list of matches. The matches are in order and do not overlap. If any match succeeds but has 0 length then this will be the last match in the list.
matchCount :: regex -> source -> Int Source #
matchCount returns the number of non-overlapping matches returned by matchAll.
matchTest :: regex -> source -> Bool Source #
matchTest return True if there is a match somewhere in the source (it checks the whole source not just at the start).
matchAllText :: regex -> source -> [MatchText source] Source #
This is matchAll with the actual subsections of the source instead of just the (offset,length) information.
matchOnceText :: regex -> source -> Maybe (source, MatchText source, source) Source #
This can return a tuple of three items: the source before the match, an array of the match and captured substrings (with their indices), and the source after the match.
class RegexLike regex source => RegexContext regex source target where Source #
RegexContext is the polymorphic interface to do matching. Since
target
is polymorphic you may need to suply the type explicitly
in contexts where it cannot be inferred.
The monadic matchM
version uses fail
to report when the regex
has no match in source
. Two examples:
Here the contest Bool
is inferred:
[ c | let notVowel = makeRegex "[^aeiou]" :: Regex, c <- ['a'..'z'], match notVowel [c] ] "bcdfghjklmnpqrstvwxyz"
Here the context '[String]' must be supplied:
let notVowel = (makeRegex "[^aeiou]" :: Regex ) in do { c <- ['a'..'z'] ; matchM notVowel [c] } :: [String] ["b","c","d","f","g","h","j","k","l","m","n","p","q","r","s","t","v","w","x","y","z"]
Instances
class Extract source where Source #
Extract allows for indexing operations on String or ByteString.
before :: Int -> source -> source Source #
before is a renamed "take"
after :: Int -> source -> source Source #
after is a renamed "drop"
For when there is no match, this can construct an empty data value
extract :: (Int, Int) -> source -> source Source #
extract takes an offset and length and has a default
implementation of extract (off,len) source = before len (after
off source)
Instances
Extract String Source # | |
Extract ByteString Source # | |
Defined in Text.Regex.Base.RegexLike before :: Int -> ByteString -> ByteString Source # after :: Int -> ByteString -> ByteString Source # empty :: ByteString Source # extract :: (Int, Int) -> ByteString -> ByteString Source # | |
Extract ByteString Source # | |
Defined in Text.Regex.Base.RegexLike before :: Int -> ByteString -> ByteString Source # after :: Int -> ByteString -> ByteString Source # empty :: ByteString Source # extract :: (Int, Int) -> ByteString -> ByteString Source # | |
Extract (Seq a) Source # | |
newtype AllSubmatches f b Source #
Used in results of RegexContext instances
AllSubmatches | |
|
Instances
RegexLike a b => RegexContext a b (AllSubmatches [] (MatchOffset, MatchLength)) Source # | |
Defined in Text.Regex.Base.Context match :: a -> b -> AllSubmatches [] (MatchOffset, MatchLength) Source # matchM :: Monad m => a -> b -> m (AllSubmatches [] (MatchOffset, MatchLength)) Source # |
newtype AllTextSubmatches f b Source #
Used in results of RegexContext instances
Instances
RegexLike a b => RegexContext a b (AllTextSubmatches (Array Int) b) Source # | |
Defined in Text.Regex.Base.Context | |
RegexLike a b => RegexContext a b (AllTextSubmatches [] b) Source # | |
Defined in Text.Regex.Base.Context match :: a -> b -> AllTextSubmatches [] b Source # matchM :: Monad m => a -> b -> m (AllTextSubmatches [] b) Source # | |
RegexLike a b => RegexContext a b (AllTextSubmatches [] (b, (MatchOffset, MatchLength))) Source # | |
Defined in Text.Regex.Base.Context match :: a -> b -> AllTextSubmatches [] (b, (MatchOffset, MatchLength)) Source # matchM :: Monad m => a -> b -> m (AllTextSubmatches [] (b, (MatchOffset, MatchLength))) Source # | |
RegexLike a b => RegexContext a b (AllTextSubmatches (Array Int) (b, (MatchOffset, MatchLength))) Source # | |
Defined in Text.Regex.Base.Context match :: a -> b -> AllTextSubmatches (Array Int) (b, (MatchOffset, MatchLength)) Source # matchM :: Monad m => a -> b -> m (AllTextSubmatches (Array Int) (b, (MatchOffset, MatchLength))) Source # |
newtype AllMatches f b Source #
Used in results of RegexContext instances
AllMatches | |
|
Instances
RegexLike a b => RegexContext a b (AllMatches (Array Int) MatchArray) Source # | |
Defined in Text.Regex.Base.Context match :: a -> b -> AllMatches (Array Int) MatchArray Source # matchM :: Monad m => a -> b -> m (AllMatches (Array Int) MatchArray) Source # | |
RegexLike a b => RegexContext a b (AllMatches (Array Int) (MatchOffset, MatchLength)) Source # | |
Defined in Text.Regex.Base.Context match :: a -> b -> AllMatches (Array Int) (MatchOffset, MatchLength) Source # matchM :: Monad m => a -> b -> m (AllMatches (Array Int) (MatchOffset, MatchLength)) Source # | |
RegexLike a b => RegexContext a b (AllMatches [] (MatchOffset, MatchLength)) Source # | |
Defined in Text.Regex.Base.Context match :: a -> b -> AllMatches [] (MatchOffset, MatchLength) Source # matchM :: Monad m => a -> b -> m (AllMatches [] (MatchOffset, MatchLength)) Source # |
newtype AllTextMatches f b Source #
Used in results of RegexContext instances
AllTextMatches | |
|
Instances
RegexLike a b => RegexContext a b (AllTextMatches (Array Int) (Array Int b)) Source # | |
RegexLike a b => RegexContext a b (AllTextMatches [] (Array Int b)) Source # | |
Defined in Text.Regex.Base.Context | |
RegexLike a b => RegexContext a b (AllTextMatches (Array Int) [b]) Source # | |
Defined in Text.Regex.Base.Context | |
RegexLike a b => RegexContext a b (AllTextMatches (Array Int) b) Source # | |
Defined in Text.Regex.Base.Context | |
RegexLike a b => RegexContext a b (AllTextMatches [] b) Source # | |
Defined in Text.Regex.Base.Context match :: a -> b -> AllTextMatches [] b Source # matchM :: Monad m => a -> b -> m (AllTextMatches [] b) Source # | |
RegexLike a b => RegexContext a b (AllTextMatches (Array Int) (MatchText b)) Source # | |