Portability | portable |
---|---|
Stability | provisional |
Maintainer | derek.a.elkins@gmail.com |
Safe Haskell | Safe-Infered |
Parsec compatibility module
- (<?>) :: ParsecT s u m a -> String -> ParsecT s u m a
- (<|>) :: ParsecT s u m a -> ParsecT s u m a -> ParsecT s u m a
- type Parser = Parsec String ()
- type GenParser tok st = Parsec [tok] st
- runParser :: GenParser tok st a -> st -> SourceName -> [tok] -> Either ParseError a
- parse :: Stream s Identity t => Parsec s () a -> SourceName -> s -> Either ParseError a
- parseFromFile :: Parser a -> String -> IO (Either ParseError a)
- parseTest :: (Stream s Identity t, Show a) => Parsec s () a -> s -> IO ()
- token :: Stream s Identity t => (t -> String) -> (t -> SourcePos) -> (t -> Maybe a) -> Parsec s u a
- tokens :: (Stream s m t, Eq t) => ([t] -> String) -> (SourcePos -> [t] -> SourcePos) -> [t] -> ParsecT s u m [t]
- tokenPrim :: Stream s m t => (t -> String) -> (SourcePos -> t -> s -> SourcePos) -> (t -> Maybe a) -> ParsecT s u m a
- tokenPrimEx :: Stream s m t => (t -> String) -> (SourcePos -> t -> s -> SourcePos) -> Maybe (SourcePos -> t -> s -> u -> u) -> (t -> Maybe a) -> ParsecT s u m a
- try :: GenParser tok st a -> GenParser tok st a
- label :: ParsecT s u m a -> String -> ParsecT s u m a
- labels :: ParsecT s u m a -> [String] -> ParsecT s u m a
- unexpected :: Stream s m t => String -> ParsecT s u m a
- pzero :: GenParser tok st a
- many :: ParsecT s u m a -> ParsecT s u m [a]
- skipMany :: ParsecT s u m a -> ParsecT s u m ()
- getState :: Monad m => ParsecT s u m u
- setState :: Monad m => u -> ParsecT s u m ()
- updateState :: Monad m => (u -> u) -> ParsecT s u m ()
- getPosition :: Monad m => ParsecT s u m SourcePos
- setPosition :: Monad m => SourcePos -> ParsecT s u m ()
- getInput :: Monad m => ParsecT s u m s
- setInput :: Monad m => s -> ParsecT s u m ()
- data State s u = State {
- stateInput :: s
- statePos :: !SourcePos
- stateUser :: !u
- getParserState :: Monad m => ParsecT s u m (State s u)
- setParserState :: Monad m => State s u -> ParsecT s u m (State s u)
Documentation
(<?>) :: ParsecT s u m a -> String -> ParsecT s u m aSource
The parser p <?> msg
behaves as parser p
, but whenever the
parser p
fails without consuming any input, it replaces expect
error messages with the expect error message msg
.
This is normally used at the end of a set alternatives where we want
to return an error message in terms of a higher level construct
rather than returning all possible characters. For example, if the
expr
parser from the try
example would fail, the error
message is: '...: expecting expression'. Without the (<?>)
combinator, the message would be like '...: expecting "let" or
letter', which is less friendly.
(<|>) :: ParsecT s u m a -> ParsecT s u m a -> ParsecT s u m aSource
This combinator implements choice. The parser p <|> q
first
applies p
. If it succeeds, the value of p
is returned. If p
fails without consuming any input, parser q
is tried. This
combinator is defined equal to the mplus
member of the MonadPlus
class and the (<|>
) member of Alternative
.
The parser is called predictive since q
is only tried when
parser p
didn't consume any input (i.e.. the look ahead is 1).
This non-backtracking behaviour allows for both an efficient
implementation of the parser combinators and the generation of good
error messages.
runParser :: GenParser tok st a -> st -> SourceName -> [tok] -> Either ParseError aSource
parse :: Stream s Identity t => Parsec s () a -> SourceName -> s -> Either ParseError aSource
parse p filePath input
runs a parser p
over Identity without user
state. The filePath
is only used in error messages and may be the
empty string. Returns either a ParseError
(Left
)
or a value of type a
(Right
).
main = case (parse numbers "" "11, 2, 43") of Left err -> print err Right xs -> print (sum xs) numbers = commaSep integer
parseFromFile :: Parser a -> String -> IO (Either ParseError a)Source
parseFromFile p filePath
runs a string parser p
on the
input read from filePath
using readFile
. Returns either a ParseError
(Left
) or a value of type a
(Right
).
main = do{ result <- parseFromFile numbers "digits.txt" ; case result of Left err -> print err Right xs -> print (sum xs) }
parseTest :: (Stream s Identity t, Show a) => Parsec s () a -> s -> IO ()Source
The expression parseTest p input
applies a parser p
against
input input
and prints the result to stdout. Used for testing
parsers.
:: Stream s Identity t | |
=> (t -> String) | Token pretty-printing function. |
-> (t -> SourcePos) | Computes the position of a token. |
-> (t -> Maybe a) | Matching function for the token to parse. |
-> Parsec s u a |
The parser token showTok posFromTok testTok
accepts a token t
with result x
when the function testTok t
returns
. The
source position of the Just
xt
should be returned by posFromTok t
and
the token can be shown using showTok t
.
This combinator is expressed in terms of tokenPrim
.
It is used to accept user defined token streams. For example,
suppose that we have a stream of basic tokens tupled with source
positions. We can than define a parser that accepts single tokens as:
mytoken x = token showTok posFromTok testTok where showTok (pos,t) = show t posFromTok (pos,t) = pos testTok (pos,t) = if x == t then Just t else Nothing
tokens :: (Stream s m t, Eq t) => ([t] -> String) -> (SourcePos -> [t] -> SourcePos) -> [t] -> ParsecT s u m [t]Source
:: Stream s m t | |
=> (t -> String) | Token pretty-printing function. |
-> (SourcePos -> t -> s -> SourcePos) | Next position calculating function. |
-> (t -> Maybe a) | Matching function for the token to parse. |
-> ParsecT s u m a |
The parser tokenPrim showTok nextPos testTok
accepts a token t
with result x
when the function testTok t
returns
. The
token can be shown using Just
xshowTok t
. The position of the next
token should be returned when nextPos
is called with the current
source position pos
, the current token t
and the rest of the
tokens toks
, nextPos pos t toks
.
This is the most primitive combinator for accepting tokens. For
example, the char
parser could be implemented as:
char c = tokenPrim showChar nextPos testChar where showChar x = "'" ++ x ++ "'" testChar x = if x == c then Just x else Nothing nextPos pos x xs = updatePosChar pos x
tokenPrimEx :: Stream s m t => (t -> String) -> (SourcePos -> t -> s -> SourcePos) -> Maybe (SourcePos -> t -> s -> u -> u) -> (t -> Maybe a) -> ParsecT s u m aSource
label :: ParsecT s u m a -> String -> ParsecT s u m aSource
A synonym for ?
, but as a function instead of an operator.
unexpected :: Stream s m t => String -> ParsecT s u m aSource
The parser unexpected msg
always fails with an unexpected error
message msg
without consuming any input.
The parsers fail
, (<?>
) and unexpected
are the three parsers
used to generate error messages. Of these, only (<?>
) is commonly
used. For an example of the use of unexpected
, see the definition
of notFollowedBy
.
many :: ParsecT s u m a -> ParsecT s u m [a]Source
many p
applies the parser p
zero or more times. Returns a
list of the returned values of p
.
identifier = do{ c <- letter ; cs <- many (alphaNum <|> char '_') ; return (c:cs) }
skipMany :: ParsecT s u m a -> ParsecT s u m ()Source
skipMany p
applies the parser p
zero or more times, skipping
its result.
spaces = skipMany space
setState :: Monad m => u -> ParsecT s u m ()Source
An alias for putState for backwards compatibility.
updateState :: Monad m => (u -> u) -> ParsecT s u m ()Source
An alias for modifyState for backwards compatibility.
getPosition :: Monad m => ParsecT s u m SourcePosSource
Returns the current source position. See also SourcePos
.
setPosition :: Monad m => SourcePos -> ParsecT s u m ()Source
setPosition pos
sets the current source position to pos
.
setInput :: Monad m => s -> ParsecT s u m ()Source
setInput input
continues parsing with input
. The getInput
and
setInput
functions can for example be used to deal with #include
files.
getParserState :: Monad m => ParsecT s u m (State s u)Source
Returns the full parser state as a State
record.
setParserState :: Monad m => State s u -> ParsecT s u m (State s u)Source
setParserState st
set the full parser state to st
.