Copyright | Copyright (C) 2006-2018 John MacFarlane |
---|---|
License | GNU GPL, version 2 or above |
Maintainer | John MacFarlane <jgm@berkeley.edu> |
Stability | alpha |
Portability | portable |
Safe Haskell | None |
Language | Haskell2010 |
A utility library with parsers used in pandoc readers.
- takeWhileP :: Monad m => (Char -> Bool) -> ParserT [Char] st m [Char]
- takeP :: Monad m => Int -> ParserT [Char] st m [Char]
- anyLine :: Monad m => ParserT [Char] st m [Char]
- anyLineNewline :: Monad m => ParserT [Char] st m [Char]
- indentWith :: Stream s m Char => HasReaderOptions st => Int -> ParserT s st m [Char]
- many1Till :: (Show end, Stream s m t) => ParserT s st m a -> ParserT s st m end -> ParserT s st m [a]
- manyUntil :: Stream s m t => ParserT s u m a -> ParserT s u m b -> ParserT s u m ([a], b)
- sepBy1' :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a]
- notFollowedBy' :: (Show b, Stream s m a) => ParserT s st m b -> ParserT s st m ()
- oneOfStrings :: Stream s m Char => [String] -> ParserT s st m String
- oneOfStringsCI :: Stream s m Char => [String] -> ParserT s st m String
- spaceChar :: Stream s m Char => ParserT s st m Char
- nonspaceChar :: Stream s m Char => ParserT s st m Char
- skipSpaces :: Stream s m Char => ParserT s st m ()
- blankline :: Stream s m Char => ParserT s st m Char
- blanklines :: Stream s m Char => ParserT s st m [Char]
- gobbleSpaces :: (HasReaderOptions st, Monad m) => Int -> ParserT [Char] st m ()
- gobbleAtMostSpaces :: (HasReaderOptions st, Monad m) => Int -> ParserT [Char] st m Int
- enclosed :: (Show end, Stream s m Char) => ParserT s st m t -> ParserT s st m end -> ParserT s st m a -> ParserT s st m [a]
- stringAnyCase :: Stream s m Char => [Char] -> ParserT s st m String
- parseFromString :: Monad m => ParserT [Char] st m a -> String -> ParserT [Char] st m a
- parseFromString' :: Monad m => ParserT String ParserState m a -> String -> ParserT String ParserState m a
- lineClump :: Monad m => ParserT [Char] st m String
- charsInBalanced :: Stream s m Char => Char -> Char -> ParserT s st m Char -> ParserT s st m String
- romanNumeral :: Stream s m Char => Bool -> ParserT s st m Int
- emailAddress :: Stream s m Char => ParserT s st m (String, String)
- uri :: Monad m => ParserT [Char] st m (String, String)
- mathInline :: (HasReaderOptions st, Stream s m Char) => ParserT s st m String
- mathDisplay :: (HasReaderOptions st, Stream s m Char) => ParserT s st m String
- withHorizDisplacement :: Stream s m Char => ParserT s st m a -> ParserT s st m (a, Int)
- withRaw :: Monad m => ParsecT [Char] st m a -> ParsecT [Char] st m (a, [Char])
- escaped :: Stream s m Char => ParserT s st m Char -> ParserT s st m Char
- characterReference :: Stream s m Char => ParserT s st m Char
- upperRoman :: Stream s m Char => ParserT s st m (ListNumberStyle, Int)
- lowerRoman :: Stream s m Char => ParserT s st m (ListNumberStyle, Int)
- decimal :: Stream s m Char => ParserT s st m (ListNumberStyle, Int)
- lowerAlpha :: Stream s m Char => ParserT s st m (ListNumberStyle, Int)
- upperAlpha :: Stream s m Char => ParserT s st m (ListNumberStyle, Int)
- anyOrderedListMarker :: Stream s m Char => ParserT s ParserState m ListAttributes
- orderedListMarker :: Stream s m Char => ListNumberStyle -> ListNumberDelim -> ParserT s ParserState m Int
- charRef :: Stream s m Char => ParserT s st m Inline
- lineBlockLines :: Monad m => ParserT [Char] st m [String]
- tableWith :: (Stream s m Char, HasReaderOptions st, Functor mf, Applicative mf, Monad mf) => ParserT s st m (mf [Blocks], [Alignment], [Int]) -> ([Int] -> ParserT s st m (mf [Blocks])) -> ParserT s st m sep -> ParserT s st m end -> ParserT s st m (mf Blocks)
- widthsFromIndices :: Int -> [Int] -> [Double]
- gridTableWith :: (Monad m, HasReaderOptions st, Functor mf, Applicative mf, Monad mf) => ParserT [Char] st m (mf Blocks) -> Bool -> ParserT [Char] st m (mf Blocks)
- gridTableWith' :: (Monad m, HasReaderOptions st, Functor mf, Applicative mf, Monad mf) => ParserT [Char] st m (mf Blocks) -> Bool -> ParserT [Char] st m (TableComponents mf)
- readWith :: Parser [Char] st a -> st -> String -> Either PandocError a
- readWithM :: Monad m => ParserT [Char] st m a -> st -> String -> m (Either PandocError a)
- testStringWith :: Show a => ParserT [Char] ParserState Identity a -> [Char] -> IO ()
- guardEnabled :: (Stream s m a, HasReaderOptions st) => Extension -> ParserT s st m ()
- guardDisabled :: (Stream s m a, HasReaderOptions st) => Extension -> ParserT s st m ()
- updateLastStrPos :: (Stream s m a, HasLastStrPosition st) => ParserT s st m ()
- notAfterString :: (Stream s m a, HasLastStrPosition st) => ParserT s st m Bool
- logMessage :: (Stream s m a, HasLogMessages st) => LogMessage -> ParserT s st m ()
- reportLogMessages :: (PandocMonad m, HasLogMessages st) => ParserT s st m ()
- data ParserState = ParserState {
- stateOptions :: ReaderOptions
- stateParserContext :: ParserContext
- stateQuoteContext :: QuoteContext
- stateAllowLinks :: Bool
- stateMaxNestingLevel :: Int
- stateLastStrPos :: Maybe SourcePos
- stateKeys :: KeyTable
- stateHeaderKeys :: KeyTable
- stateSubstitutions :: SubstTable
- stateNotes :: NoteTable
- stateNotes' :: NoteTable'
- stateNoteRefs :: Set String
- stateMeta :: Meta
- stateMeta' :: F Meta
- stateCitations :: Map String String
- stateHeaderTable :: [HeaderType]
- stateHeaders :: Map Inlines String
- stateIdentifiers :: Set String
- stateNextExample :: Int
- stateExamples :: Map String Int
- stateMacros :: Map Text Macro
- stateRstDefaultRole :: String
- stateRstCustomRoles :: Map String (String, Maybe String, Attr)
- stateCaption :: Maybe Inlines
- stateInHtmlBlock :: Maybe String
- stateFencedDivLevel :: Int
- stateContainers :: [String]
- stateLogMessages :: [LogMessage]
- stateMarkdownAttribute :: Bool
- class HasReaderOptions st where
- class HasHeaderMap st where
- class HasIdentifierList st where
- class HasMacros st where
- class HasLogMessages st where
- class HasLastStrPosition st where
- class HasIncludeFiles st where
- defaultParserState :: ParserState
- data HeaderType
- data ParserContext
- data QuoteContext
- class HasQuoteContext st m where
- type NoteTable = [(String, String)]
- type NoteTable' = Map String (SourcePos, F Blocks)
- type KeyTable = Map Key (Target, Attr)
- type SubstTable = Map Key Inlines
- newtype Key = Key String
- toKey :: String -> Key
- registerHeader :: (Stream s m a, HasReaderOptions st, HasHeaderMap st, HasLogMessages st, HasIdentifierList st) => Attr -> Inlines -> ParserT s st m Attr
- smartPunctuation :: (HasReaderOptions st, HasLastStrPosition st, HasQuoteContext st m, Stream s m Char) => ParserT s st m Inlines -> ParserT s st m Inlines
- singleQuoteStart :: (HasLastStrPosition st, HasQuoteContext st m, Stream s m Char) => ParserT s st m ()
- singleQuoteEnd :: Stream s m Char => ParserT s st m ()
- doubleQuoteStart :: (HasQuoteContext st m, Stream s m Char) => ParserT s st m ()
- doubleQuoteEnd :: Stream s m Char => ParserT s st m ()
- ellipses :: Stream s m Char => ParserT s st m Inlines
- apostrophe :: Stream s m Char => ParserT s st m Inlines
- dash :: (HasReaderOptions st, Stream s m Char) => ParserT s st m Inlines
- nested :: Stream s m a => ParserT s ParserState m a -> ParserT s ParserState m a
- citeKey :: (Stream s m Char, HasLastStrPosition st) => ParserT s st m (Bool, String)
- type Parser t s = Parsec t s
- type ParserT = ParsecT
- type F = Future ParserState
- newtype Future s a = Future {
- runDelayed :: Reader s a
- runF :: Future s a -> s -> a
- askF :: Future s s
- asksF :: (s -> a) -> Future s a
- returnF :: Monad m => a -> m (Future s a)
- trimInlinesF :: Future s Inlines -> Future s Inlines
- token :: Stream s m t => (t -> String) -> (t -> SourcePos) -> (t -> Maybe a) -> ParsecT s st m a
- (<+?>) :: Monoid a => ParserT s st m a -> ParserT s st m a -> ParserT s st m a
- extractIdClass :: Attr -> Attr
- insertIncludedFile :: (PandocMonad m, HasIncludeFiles st) => ParserT [a] st m Blocks -> (String -> [a]) -> [FilePath] -> FilePath -> ParserT [a] st m Blocks
- insertIncludedFileF :: (PandocMonad m, HasIncludeFiles st) => ParserT String st m (Future st Blocks) -> [FilePath] -> FilePath -> ParserT String st m (Future st Blocks)
- class Monad m => Stream s (m :: * -> *) t | s -> t
- runParser :: Stream s Identity t => Parsec s u a -> u -> SourceName -> s -> Either ParseError a
- runParserT :: Stream s m t => ParsecT s u m a -> u -> SourceName -> s -> m (Either ParseError a)
- parse :: Stream s Identity t => Parsec s () a -> SourceName -> s -> Either ParseError a
- tokenPrim :: Stream s m t => (t -> String) -> (SourcePos -> t -> s -> SourcePos) -> (t -> Maybe a) -> ParsecT s u m a
- anyToken :: (Stream s m t, Show t) => ParsecT s u m t
- getInput :: Monad m => ParsecT s u m s
- setInput :: Monad m => s -> ParsecT s u m ()
- unexpected :: Stream s m t => String -> ParsecT s u m a
- char :: Stream s m Char => Char -> ParsecT s u m Char
- letter :: Stream s m Char => ParsecT s u m Char
- digit :: Stream s m Char => ParsecT s u m Char
- alphaNum :: Stream s m Char => ParsecT s u m Char
- skipMany :: ParsecT s u m a -> ParsecT s u m ()
- skipMany1 :: Stream s m t => ParsecT s u m a -> ParsecT s u m ()
- spaces :: Stream s m Char => ParsecT s u m ()
- space :: Stream s m Char => ParsecT s u m Char
- anyChar :: Stream s m Char => ParsecT s u m Char
- satisfy :: Stream s m Char => (Char -> Bool) -> ParsecT s u m Char
- newline :: Stream s m Char => ParsecT s u m Char
- string :: Stream s m Char => String -> ParsecT s u m String
- count :: Stream s m t => Int -> ParsecT s u m a -> ParsecT s u m [a]
- eof :: (Stream s m t, Show t) => ParsecT s u m ()
- noneOf :: Stream s m Char => [Char] -> ParsecT s u m Char
- oneOf :: Stream s m Char => [Char] -> ParsecT s u m Char
- lookAhead :: Stream s m t => ParsecT s u m a -> ParsecT s u m a
- notFollowedBy :: (Stream s m t, Show a) => ParsecT s u m a -> ParsecT s u m ()
- many :: ParsecT s u m a -> ParsecT s u m [a]
- many1 :: Stream s m t => ParsecT s u m a -> ParsecT s u m [a]
- manyTill :: Stream s m t => ParsecT s u m a -> ParsecT s u m end -> ParsecT s u m [a]
- (<|>) :: ParsecT s u m a -> ParsecT s u m a -> ParsecT s u m a
- (<?>) :: ParsecT s u m a -> String -> ParsecT s u m a
- choice :: Stream s m t => [ParsecT s u m a] -> ParsecT s u m a
- try :: ParsecT s u m a -> ParsecT s u m a
- sepBy :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a]
- sepBy1 :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a]
- sepEndBy :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a]
- sepEndBy1 :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a]
- endBy :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a]
- endBy1 :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a]
- option :: Stream s m t => a -> ParsecT s u m a -> ParsecT s u m a
- optional :: Stream s m t => ParsecT s u m a -> ParsecT s u m ()
- optionMaybe :: Stream s m t => ParsecT s u m a -> ParsecT s u m (Maybe a)
- 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 ()
- data SourcePos :: *
- getPosition :: Monad m => ParsecT s u m SourcePos
- setPosition :: Monad m => SourcePos -> ParsecT s u m ()
- sourceColumn :: SourcePos -> Column
- sourceLine :: SourcePos -> Line
- setSourceColumn :: SourcePos -> Column -> SourcePos
- setSourceLine :: SourcePos -> Line -> SourcePos
- incSourceColumn :: SourcePos -> Column -> SourcePos
- newPos :: SourceName -> Line -> Column -> SourcePos
- type Line = Int
- type Column = Int
Documentation
takeWhileP :: Monad m => (Char -> Bool) -> ParserT [Char] st m [Char] Source #
Parse characters while a predicate is true.
anyLineNewline :: Monad m => ParserT [Char] st m [Char] Source #
Parse any line, include the final newline in the output
indentWith :: Stream s m Char => HasReaderOptions st => Int -> ParserT s st m [Char] Source #
Parse indent by specified number of spaces (or equiv. tabs)
many1Till :: (Show end, Stream s m t) => ParserT s st m a -> ParserT s st m end -> ParserT s st m [a] Source #
Like manyTill
, but reads at least one item.
manyUntil :: Stream s m t => ParserT s u m a -> ParserT s u m b -> ParserT s u m ([a], b) Source #
Like manyTill
, but also returns the result of end parser.
sepBy1' :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a] Source #
Like sepBy1
from Parsec,
but does not fail if it sep
succeeds and p
fails.
notFollowedBy' :: (Show b, Stream s m a) => ParserT s st m b -> ParserT s st m () Source #
A more general form of notFollowedBy
. This one allows any
type of parser to be specified, and succeeds only if that parser fails.
It does not consume any input.
oneOfStrings :: Stream s m Char => [String] -> ParserT s st m String Source #
Parses one of a list of strings. If the list contains two strings one of which is a prefix of the other, the longer string will be matched if possible.
oneOfStringsCI :: Stream s m Char => [String] -> ParserT s st m String Source #
Parses one of a list of strings (tried in order), case insensitive.
nonspaceChar :: Stream s m Char => ParserT s st m Char Source #
Parses a nonspace, nonnewline character.
blankline :: Stream s m Char => ParserT s st m Char Source #
Skips zero or more spaces or tabs, then reads a newline.
blanklines :: Stream s m Char => ParserT s st m [Char] Source #
Parses one or more blank lines and returns a string of newlines.
gobbleSpaces :: (HasReaderOptions st, Monad m) => Int -> ParserT [Char] st m () Source #
Gobble n spaces; if tabs are encountered, expand them and gobble some or all of their spaces, leaving the rest.
gobbleAtMostSpaces :: (HasReaderOptions st, Monad m) => Int -> ParserT [Char] st m Int Source #
Gobble up to n spaces; if tabs are encountered, expand them and gobble some or all of their spaces, leaving the rest.
:: (Show end, Stream s m Char) | |
=> ParserT s st m t | start parser |
-> ParserT s st m end | end parser |
-> ParserT s st m a | content parser (to be used repeatedly) |
-> ParserT s st m [a] |
Parses material enclosed between start and end parsers.
stringAnyCase :: Stream s m Char => [Char] -> ParserT s st m String Source #
Parse string, case insensitive.
parseFromString :: Monad m => ParserT [Char] st m a -> String -> ParserT [Char] st m a Source #
Parse contents of str
using parser
and return result.
parseFromString' :: Monad m => ParserT String ParserState m a -> String -> ParserT String ParserState m a Source #
Like parseFromString
but specialized for ParserState
.
This resets stateLastStrPos
, which is almost always what we want.
lineClump :: Monad m => ParserT [Char] st m String Source #
Parse raw line block up to and including blank lines.
charsInBalanced :: Stream s m Char => Char -> Char -> ParserT s st m Char -> ParserT s st m String Source #
Parse a string of characters between an open character
and a close character, including text between balanced
pairs of open and close, which must be different. For example,
charsInBalanced '(' ')' anyChar
will parse "(hello (there))"
and return "hello (there)".
Parses a roman numeral (uppercase or lowercase), returns number.
emailAddress :: Stream s m Char => ParserT s st m (String, String) Source #
Parses an email address; returns original and corresponding escaped mailto: URI.
uri :: Monad m => ParserT [Char] st m (String, String) Source #
Parses a URI. Returns pair of original and URI-escaped version.
mathInline :: (HasReaderOptions st, Stream s m Char) => ParserT s st m String Source #
mathDisplay :: (HasReaderOptions st, Stream s m Char) => ParserT s st m String Source #
withHorizDisplacement Source #
:: Stream s m Char | |
=> ParserT s st m a | Parser to apply |
-> ParserT s st m (a, Int) | (result, displacement) |
Applies a parser, returns tuple of its results and its horizontal displacement (the difference between the source column at the end and the source column at the beginning). Vertical displacement (source row) is ignored.
withRaw :: Monad m => ParsecT [Char] st m a -> ParsecT [Char] st m (a, [Char]) Source #
Applies a parser and returns the raw string that was parsed, along with the value produced by the parser.
Parses backslash, then applies character parser.
upperRoman :: Stream s m Char => ParserT s st m (ListNumberStyle, Int) Source #
Parses an uppercase roman numeral and returns (UpperRoman, number).
lowerRoman :: Stream s m Char => ParserT s st m (ListNumberStyle, Int) Source #
Parses a lowercase roman numeral and returns (LowerRoman, number).
decimal :: Stream s m Char => ParserT s st m (ListNumberStyle, Int) Source #
Parses a decimal numeral and returns (Decimal, number).
lowerAlpha :: Stream s m Char => ParserT s st m (ListNumberStyle, Int) Source #
Parses a lowercase letter and returns (LowerAlpha, number).
upperAlpha :: Stream s m Char => ParserT s st m (ListNumberStyle, Int) Source #
Parses an uppercase letter and returns (UpperAlpha, number).
anyOrderedListMarker :: Stream s m Char => ParserT s ParserState m ListAttributes Source #
Parses an ordered list marker and returns list attributes.
orderedListMarker :: Stream s m Char => ListNumberStyle -> ListNumberDelim -> ParserT s ParserState m Int Source #
Parses an ordered list marker with a given style and delimiter, returns number.
charRef :: Stream s m Char => ParserT s st m Inline Source #
Parses a character reference and returns a Str element.
lineBlockLines :: Monad m => ParserT [Char] st m [String] Source #
Parses an RST-style line block and returns a list of strings.
tableWith :: (Stream s m Char, HasReaderOptions st, Functor mf, Applicative mf, Monad mf) => ParserT s st m (mf [Blocks], [Alignment], [Int]) -> ([Int] -> ParserT s st m (mf [Blocks])) -> ParserT s st m sep -> ParserT s st m end -> ParserT s st m (mf Blocks) Source #
Parse a table using headerParser
, rowParser
,
lineParser
, and footerParser
.
readWith :: Parser [Char] st a -> st -> String -> Either PandocError a Source #
Parse a string with a given parser and state
:: Monad m | |
=> ParserT [Char] st m a | parser |
-> st | initial state |
-> String | input |
-> m (Either PandocError a) |
Removes the ParsecT layer from the monad transformer stack
testStringWith :: Show a => ParserT [Char] ParserState Identity a -> [Char] -> IO () Source #
Parse a string with parser
(for testing).
guardEnabled :: (Stream s m a, HasReaderOptions st) => Extension -> ParserT s st m () Source #
Succeed only if the extension is enabled.
guardDisabled :: (Stream s m a, HasReaderOptions st) => Extension -> ParserT s st m () Source #
Succeed only if the extension is disabled.
updateLastStrPos :: (Stream s m a, HasLastStrPosition st) => ParserT s st m () Source #
Update the position on which the last string ended.
notAfterString :: (Stream s m a, HasLastStrPosition st) => ParserT s st m Bool Source #
Whether we are right after the end of a string.
logMessage :: (Stream s m a, HasLogMessages st) => LogMessage -> ParserT s st m () Source #
Add a log message.
reportLogMessages :: (PandocMonad m, HasLogMessages st) => ParserT s st m () Source #
Report all the accumulated log messages, according to verbosity level.
data ParserState Source #
Parsing options.
ParserState | |
|
class HasReaderOptions st where Source #
extractReaderOptions :: st -> ReaderOptions Source #
getOption :: Stream s m t => (ReaderOptions -> b) -> ParserT s st m b Source #
class HasHeaderMap st where Source #
class HasIdentifierList st where Source #
class HasLogMessages st where Source #
addLogMessage :: LogMessage -> st -> st Source #
getLogMessages :: st -> [LogMessage] Source #
class HasLastStrPosition st where Source #
setLastStrPos :: SourcePos -> st -> st Source #
getLastStrPos :: st -> Maybe SourcePos Source #
class HasIncludeFiles st where Source #
getIncludeFiles :: st -> [String] Source #
addIncludeFile :: String -> st -> st Source #
dropLatestIncludeFile :: st -> st Source #
data HeaderType Source #
SingleHeader Char | Single line of characters underneath |
DoubleHeader Char | Lines of characters above and below |
data ParserContext Source #
ListItemState | Used when running parser on list item contents |
NullState | Default state |
data QuoteContext Source #
InSingleQuote | Used when parsing inside single quotes |
InDoubleQuote | Used when parsing inside double quotes |
NoQuote | Used when not parsing inside quotes |
class HasQuoteContext st m where Source #
getQuoteContext :: Stream s m t => ParsecT s st m QuoteContext Source #
withQuoteContext :: QuoteContext -> ParsecT s st m a -> ParsecT s st m a Source #
Monad m => HasQuoteContext ParserState m Source # | |
registerHeader :: (Stream s m a, HasReaderOptions st, HasHeaderMap st, HasLogMessages st, HasIdentifierList st) => Attr -> Inlines -> ParserT s st m Attr Source #
smartPunctuation :: (HasReaderOptions st, HasLastStrPosition st, HasQuoteContext st m, Stream s m Char) => ParserT s st m Inlines -> ParserT s st m Inlines Source #
singleQuoteStart :: (HasLastStrPosition st, HasQuoteContext st m, Stream s m Char) => ParserT s st m () Source #
doubleQuoteStart :: (HasQuoteContext st m, Stream s m Char) => ParserT s st m () Source #
nested :: Stream s m a => ParserT s ParserState m a -> ParserT s ParserState m a Source #
type F = Future ParserState Source #
Reader monad wrapping the parser state. This is used to possibly delay evaluation until all relevant information has been parsed and made available in the parser state.
Future | |
|
token :: Stream s m t => (t -> String) -> (t -> SourcePos) -> (t -> Maybe a) -> ParsecT s st m a Source #
extractIdClass :: Attr -> Attr Source #
insertIncludedFile :: (PandocMonad m, HasIncludeFiles st) => ParserT [a] st m Blocks -> (String -> [a]) -> [FilePath] -> FilePath -> ParserT [a] st m Blocks Source #
Parse content of include file as blocks. Circular includes result in an
PandocParseError
.
insertIncludedFileF :: (PandocMonad m, HasIncludeFiles st) => ParserT String st m (Future st Blocks) -> [FilePath] -> FilePath -> ParserT String st m (Future st Blocks) Source #
Parse content of include file as future blocks. Circular includes result in
an PandocParseError
.
Re-exports from Text.Parsec
class Monad m => Stream s (m :: * -> *) t | s -> t #
An instance of Stream
has stream type s
, underlying monad m
and token type t
determined by the stream
Some rough guidelines for a "correct" instance of Stream:
- unfoldM uncons gives the [t] corresponding to the stream
- A
Stream
instance is responsible for maintaining the "position within the stream" in the stream states
. This is trivial unless you are using the monad in a non-trivial way.
runParser :: Stream s Identity t => Parsec s u a -> u -> SourceName -> s -> Either ParseError a #
The most general way to run a parser over the Identity monad. runParser p state filePath
input
runs parser p
on the input list of tokens input
,
obtained from source filePath
with the initial user state st
.
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
).
parseFromFile p fname = do{ input <- readFile fname ; return (runParser p () fname input) }
runParserT :: Stream s m t => ParsecT s u m a -> u -> SourceName -> s -> m (Either ParseError a) #
The most general way to run a parser. runParserT p state filePath
input
runs parser p
on the input list of tokens input
,
obtained from source filePath
with the initial user state st
.
The filePath
is only used in error messages and may be the empty
string. Returns a computation in the underlying monad m
that return either a ParseError
(Left
) or a
value of type a
(Right
).
parse :: Stream s Identity t => Parsec s () a -> SourceName -> s -> Either ParseError a #
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
:: 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
anyToken :: (Stream s m t, Show t) => ParsecT s u m t #
The parser anyToken
accepts any kind of token. It is for example
used to implement eof
. Returns the accepted token.
setInput :: Monad m => s -> ParsecT s u m () #
setInput input
continues parsing with input
. The getInput
and
setInput
functions can for example be used to deal with #include
files.
unexpected :: Stream s m t => String -> ParsecT s u m a #
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
.
char :: Stream s m Char => Char -> ParsecT s u m Char #
char c
parses a single character c
. Returns the parsed
character (i.e. c
).
semiColon = char ';'
letter :: Stream s m Char => ParsecT s u m Char #
Parses a letter (an upper case or lower case character). Returns the parsed character.
alphaNum :: Stream s m Char => ParsecT s u m Char #
Parses a letter or digit (a character between '0' and '9'). Returns the parsed character.
skipMany :: ParsecT s u m a -> ParsecT s u m () #
skipMany p
applies the parser p
zero or more times, skipping
its result.
spaces = skipMany space
skipMany1 :: Stream s m t => ParsecT s u m a -> ParsecT s u m () #
skipMany1 p
applies the parser p
one or more times, skipping
its result.
spaces :: Stream s m Char => ParsecT s u m () #
Skips zero or more white space characters. See also skipMany
.
space :: Stream s m Char => ParsecT s u m Char #
Parses a white space character (any character which satisfies isSpace
)
Returns the parsed character.
anyChar :: Stream s m Char => ParsecT s u m Char #
This parser succeeds for any character. Returns the parsed character.
satisfy :: Stream s m Char => (Char -> Bool) -> ParsecT s u m Char #
The parser satisfy f
succeeds for any character for which the
supplied function f
returns True
. Returns the character that is
actually parsed.
newline :: Stream s m Char => ParsecT s u m Char #
Parses a newline character ('\n'). Returns a newline character.
string :: Stream s m Char => String -> ParsecT s u m String #
string s
parses a sequence of characters given by s
. Returns
the parsed string (i.e. s
).
divOrMod = string "div" <|> string "mod"
count :: Stream s m t => Int -> ParsecT s u m a -> ParsecT s u m [a] #
count n p
parses n
occurrences of p
. If n
is smaller or
equal to zero, the parser equals to return []
. Returns a list of
n
values returned by p
.
eof :: (Stream s m t, Show t) => ParsecT s u m () #
This parser only succeeds at the end of the input. This is not a
primitive parser but it is defined using notFollowedBy
.
eof = notFollowedBy anyToken <?> "end of input"
noneOf :: Stream s m Char => [Char] -> ParsecT s u m Char #
As the dual of oneOf
, noneOf cs
succeeds if the current
character not in the supplied list of characters cs
. Returns the
parsed character.
consonant = noneOf "aeiou"
oneOf :: Stream s m Char => [Char] -> ParsecT s u m Char #
oneOf cs
succeeds if the current character is in the supplied
list of characters cs
. Returns the parsed character. See also
satisfy
.
vowel = oneOf "aeiou"
lookAhead :: Stream s m t => ParsecT s u m a -> ParsecT s u m a #
lookAhead p
parses p
without consuming any input.
If p
fails and consumes some input, so does lookAhead
. Combine with try
if this is undesirable.
notFollowedBy :: (Stream s m t, Show a) => ParsecT s u m a -> ParsecT s u m () #
notFollowedBy p
only succeeds when parser p
fails. This parser
does not consume any input. This parser can be used to implement the
'longest match' rule. For example, when recognizing keywords (for
example let
), we want to make sure that a keyword is not followed
by a legal identifier character, in which case the keyword is
actually an identifier (for example lets
). We can program this
behaviour as follows:
keywordLet = try (do{ string "let" ; notFollowedBy alphaNum })
many :: ParsecT s u m a -> ParsecT s u m [a] #
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) }
many1 :: Stream s m t => ParsecT s u m a -> ParsecT s u m [a] #
many1 p
applies the parser p
one or more times. Returns a
list of the returned values of p
.
word = many1 letter
manyTill :: Stream s m t => ParsecT s u m a -> ParsecT s u m end -> ParsecT s u m [a] #
manyTill p end
applies parser p
zero or more times until
parser end
succeeds. Returns the list of values returned by p
.
This parser can be used to scan comments:
simpleComment = do{ string "<!--" ; manyTill anyChar (try (string "-->")) }
Note the overlapping parsers anyChar
and string "-->"
, and
therefore the use of the try
combinator.
(<|>) :: ParsecT s u m a -> ParsecT s u m a -> ParsecT s u m a infixr 1 #
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.
(<?>) :: ParsecT s u m a -> String -> ParsecT s u m a infix 0 #
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.
choice :: Stream s m t => [ParsecT s u m a] -> ParsecT s u m a #
choice ps
tries to apply the parsers in the list ps
in order,
until one of them succeeds. Returns the value of the succeeding
parser.
try :: ParsecT s u m a -> ParsecT s u m a #
The parser try p
behaves like parser p
, except that it
pretends that it hasn't consumed any input when an error occurs.
This combinator is used whenever arbitrary look ahead is needed.
Since it pretends that it hasn't consumed any input when p
fails,
the (<|>
) combinator will try its second alternative even when the
first parser failed while consuming input.
The try
combinator can for example be used to distinguish
identifiers and reserved words. Both reserved words and identifiers
are a sequence of letters. Whenever we expect a certain reserved
word where we can also expect an identifier we have to use the try
combinator. Suppose we write:
expr = letExpr <|> identifier <?> "expression" letExpr = do{ string "let"; ... } identifier = many1 letter
If the user writes "lexical", the parser fails with: unexpected
'x', expecting 't' in "let"
. Indeed, since the (<|>
) combinator
only tries alternatives when the first alternative hasn't consumed
input, the identifier
parser is never tried (because the prefix
"le" of the string "let"
parser is already consumed). The
right behaviour can be obtained by adding the try
combinator:
expr = letExpr <|> identifier <?> "expression" letExpr = do{ try (string "let"); ... } identifier = many1 letter
sepBy :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a] #
sepBy p sep
parses zero or more occurrences of p
, separated
by sep
. Returns a list of values returned by p
.
commaSep p = p `sepBy` (symbol ",")
sepBy1 :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a] #
sepBy1 p sep
parses one or more occurrences of p
, separated
by sep
. Returns a list of values returned by p
.
sepEndBy :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a] #
sepEndBy p sep
parses zero or more occurrences of p
,
separated and optionally ended by sep
, ie. haskell style
statements. Returns a list of values returned by p
.
haskellStatements = haskellStatement `sepEndBy` semi
sepEndBy1 :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a] #
sepEndBy1 p sep
parses one or more occurrences of p
,
separated and optionally ended by sep
. Returns a list of values
returned by p
.
endBy :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a] #
endBy p sep
parses zero or more occurrences of p
, separated
and ended by sep
. Returns a list of values returned by p
.
cStatements = cStatement `endBy` semi
endBy1 :: Stream s m t => ParsecT s u m a -> ParsecT s u m sep -> ParsecT s u m [a] #
endBy1 p sep
parses one or more occurrences of p
, separated
and ended by sep
. Returns a list of values returned by p
.
option :: Stream s m t => a -> ParsecT s u m a -> ParsecT s u m a #
option x p
tries to apply parser p
. If p
fails without
consuming input, it returns the value x
, otherwise the value
returned by p
.
priority = option 0 (do{ d <- digit ; return (digitToInt d) })
optional :: Stream s m t => ParsecT s u m a -> ParsecT s u m () #
optional p
tries to apply parser p
. It will parse p
or nothing.
It only fails if p
fails after consuming input. It discards the result
of p
.
updateState :: Monad m => (u -> u) -> ParsecT s u m () #
An alias for modifyState for backwards compatibility.
getPosition :: Monad m => ParsecT s u m SourcePos #
Returns the current source position. See also SourcePos
.
setPosition :: Monad m => SourcePos -> ParsecT s u m () #
setPosition pos
sets the current source position to pos
.
sourceColumn :: SourcePos -> Column #
Extracts the column number from a source position.
sourceLine :: SourcePos -> Line #
Extracts the line number from a source position.
setSourceColumn :: SourcePos -> Column -> SourcePos #
Set the column number of a source position.
setSourceLine :: SourcePos -> Line -> SourcePos #
Set the line number of a source position.
incSourceColumn :: SourcePos -> Column -> SourcePos #
Increments the column number of a source position.