Copyright | ©2019 James Brock |
---|---|
License | BSD2 |
Maintainer | James Brock <jamesbrock@gmail.com> |
Safe Haskell | None |
Language | Haskell2010 |
Replace.Attoparsec is for finding text patterns, and also editing and replacing the found patterns. This activity is traditionally done with regular expressions, but Replace.Attoparsec uses Data.Attoparsec parsers instead for the pattern matching.
Replace.Attoparsec can be used in the same sort of “pattern capture” or “find all” situations in which one would use Python re.findall, or Perl m//, or Unix grep.
Replace.Attoparsec can be used in the same sort of “stream editing” or “search-and-replace” situations in which one would use Python re.sub, or Perl s///, or Unix sed, or awk.
See the replace-attoparsec package README for usage examples.
Synopsis
- sepCap :: Parser a -> Parser [Either ByteString a]
- findAll :: Parser a -> Parser [Either ByteString ByteString]
- findAllCap :: Parser a -> Parser [Either ByteString (ByteString, a)]
- streamEdit :: Parser a -> (a -> ByteString) -> ByteString -> ByteString
- streamEditT :: Monad m => Parser a -> (a -> m ByteString) -> ByteString -> m ByteString
Parser combinator
:: Parser a | The pattern matching parser |
-> Parser [Either ByteString a] |
Separate and capture
Parser combinator to find all of the non-overlapping ocurrences
of the pattern sep
in a text stream. Separate the stream into sections:
- sections which can parsed by the pattern
sep
will be captured as matching sections inRight
- non-matching sections of the stream will be captured in
Left
.
This parser will always consume its entire input and can never fail.
If there are no pattern matches, then the entire input stream will be
returned as a non-matching Left
section.
The pattern matching parser sep
will not be allowed to succeed without
consuming any input. If we allow the parser to match a zero-width pattern,
then it can match the same zero-width pattern again at the same position
on the next iteration, which would result in an infinite number of
overlapping pattern matches. So, for example, the
pattern many digit
, which can match zero occurences of a digit,
will be treated by sepCap
as many1 digit
, and required to match
at least one digit.
This sepCap
parser combinator is the basis for all of the other
features of this module. It is similar to the sep*
family of functions
found in
parser-combinators
and
parsers
but, importantly, it returns the parsed result of the sep
parser instead
of throwing it away.
:: Parser a | The pattern matching parser |
-> Parser [Either ByteString ByteString] |
:: Parser a | The pattern matching parser |
-> Parser [Either ByteString (ByteString, a)] |
Find all occurences, parse and capture pattern matches
Parser combinator for finding all occurences of a pattern in a stream.
Will call sepCap
with the match
combinator so that
the text which matched the pattern parser sep
will be returned in
the Right
sections, along with the result of the parse of sep
.
Definition:
findAllCap sep =sepCap
(match
sep)
Running parser
:: Parser a | The parser |
-> (a -> ByteString) | The |
-> ByteString | The input stream of text to be edited. |
-> ByteString |
Stream editor
Also known as “find-and-replace”, or “match-and-substitute”. Finds all
of the sections of the stream which match the pattern sep
, and replaces
them with the result of the editor
function.
This function is not a “parser combinator,” it is
a “way to run a parser”, like parse
or parseOnly
.
Access the matched section of text in the editor
If you want access to the matched string in the editor
function,
then combine the pattern parser sep
with match
. This will effectively change
the type of the editor
function to (ByteString,a) -> ByteString
.
This allows us to write an editor
function which can choose to not
edit the match and just leave it as it is. If the editor
function
always returns the first item in the tuple, then streamEdit
changes
nothing.
So, for all sep
:
streamEdit (match
sep)fst
≡id
:: Monad m | |
=> Parser a | The parser |
-> (a -> m ByteString) | The |
-> ByteString | The input stream of text to be edited. |
-> m ByteString |
Stream editor transformer
Monad transformer version of streamEdit
.
The editor
function will run in the underlying monad context.
If you want to do IO
operations in the editor
function then
run this in IO
.
If you want the editor
function to remember some state,
then run this in a stateful monad.