Copyright | (c) Edward Kmett 2011 (c) Daan Leijen 1999-2001 |
---|---|
License | BSD3 |
Maintainer | ekmett@gmail.com |
Stability | experimental |
Portability | non-portable |
Safe Haskell | Trustworthy |
Language | Haskell2010 |
Parsers that comprehend whitespace and identifier styles
idStyle = haskellIdents { styleReserved = ... } identifier = ident idStyle reserved = reserve idStyle
Synopsis
- whiteSpace :: TokenParsing m => m ()
- charLiteral :: forall m. TokenParsing m => m Char
- stringLiteral :: forall m s. (TokenParsing m, IsString s) => m s
- stringLiteral' :: forall m s. (TokenParsing m, IsString s) => m s
- natural :: TokenParsing m => m Integer
- integer :: forall m. TokenParsing m => m Integer
- double :: TokenParsing m => m Double
- naturalOrDouble :: TokenParsing m => m (Either Integer Double)
- integerOrDouble :: TokenParsing m => m (Either Integer Double)
- scientific :: TokenParsing m => m Scientific
- naturalOrScientific :: TokenParsing m => m (Either Integer Scientific)
- integerOrScientific :: forall m. TokenParsing m => m (Either Integer Scientific)
- symbol :: TokenParsing m => String -> m String
- textSymbol :: TokenParsing m => Text -> m Text
- symbolic :: TokenParsing m => Char -> m Char
- parens :: TokenParsing m => m a -> m a
- braces :: TokenParsing m => m a -> m a
- angles :: TokenParsing m => m a -> m a
- brackets :: TokenParsing m => m a -> m a
- comma :: TokenParsing m => m Char
- colon :: TokenParsing m => m Char
- dot :: TokenParsing m => m Char
- semiSep :: TokenParsing m => m a -> m [a]
- semiSep1 :: TokenParsing m => m a -> m [a]
- commaSep :: TokenParsing m => m a -> m [a]
- commaSep1 :: TokenParsing m => m a -> m [a]
- class CharParsing m => TokenParsing m where
- newtype Unspaced m a = Unspaced {
- runUnspaced :: m a
- newtype Unlined m a = Unlined {
- runUnlined :: m a
- newtype Unhighlighted m a = Unhighlighted {
- runUnhighlighted :: m a
- decimal :: TokenParsing m => m Integer
- hexadecimal :: TokenParsing m => m Integer
- octal :: TokenParsing m => m Integer
- characterChar :: TokenParsing m => m Char
- integer' :: TokenParsing m => m Integer
- data IdentifierStyle m = IdentifierStyle {}
- liftIdentifierStyle :: (MonadTrans t, Monad m) => IdentifierStyle m -> IdentifierStyle (t m)
- ident :: (TokenParsing m, Monad m, IsString s) => IdentifierStyle m -> m s
- reserve :: (TokenParsing m, Monad m) => IdentifierStyle m -> String -> m ()
- reserveText :: (TokenParsing m, Monad m) => IdentifierStyle m -> Text -> m ()
- styleName :: Functor f => (String -> f String) -> IdentifierStyle m -> f (IdentifierStyle m)
- styleStart :: Functor f => (m Char -> f (m Char)) -> IdentifierStyle m -> f (IdentifierStyle m)
- styleLetter :: Functor f => (m Char -> f (m Char)) -> IdentifierStyle m -> f (IdentifierStyle m)
- styleChars :: Applicative f => (m Char -> f (n Char)) -> IdentifierStyle m -> f (IdentifierStyle n)
- styleReserved :: Functor f => (HashSet String -> f (HashSet String)) -> IdentifierStyle m -> f (IdentifierStyle m)
- styleHighlight :: Functor f => (Highlight -> f Highlight) -> IdentifierStyle m -> f (IdentifierStyle m)
- styleReservedHighlight :: Functor f => (Highlight -> f Highlight) -> IdentifierStyle m -> f (IdentifierStyle m)
- styleHighlights :: Applicative f => (Highlight -> f Highlight) -> IdentifierStyle m -> f (IdentifierStyle m)
Token Parsing
whiteSpace :: TokenParsing m => m () Source #
Skip zero or more bytes worth of white space. More complex parsers are free to consider comments as white space.
charLiteral :: forall m. TokenParsing m => m Char Source #
This token parser parses a single literal character. Returns the literal character value. This parsers deals correctly with escape sequences. The literal character is parsed according to the grammar rules defined in the Haskell report (which matches most programming languages quite closely).
stringLiteral :: forall m s. (TokenParsing m, IsString s) => m s Source #
This token parser parses a literal string. Returns the literal string value. This parsers deals correctly with escape sequences and gaps. The literal string is parsed according to the grammar rules defined in the Haskell report (which matches most programming languages quite closely).
stringLiteral' :: forall m s. (TokenParsing m, IsString s) => m s Source #
This token parser behaves as stringLiteral
, but for single-quoted
strings.
natural :: TokenParsing m => m Integer Source #
This token parser parses a natural number (a non-negative whole
number). Returns the value of the number. The number can be
specified in decimal
, hexadecimal
or
octal
. The number is parsed according to the grammar
rules in the Haskell report.
integer :: forall m. TokenParsing m => m Integer Source #
This token parser parses an integer (a whole number). This parser
is like natural
except that it can be prefixed with
sign (i.e. '-' or '+'). Returns the value of the number. The
number can be specified in decimal
, hexadecimal
or octal
. The number is parsed according
to the grammar rules in the Haskell report.
double :: TokenParsing m => m Double Source #
This token parser parses a floating point value. Returns the value of the number. The number is parsed according to the grammar rules defined in the Haskell report.
naturalOrDouble :: TokenParsing m => m (Either Integer Double) Source #
This token parser parses either natural
or a float
.
Returns the value of the number. This parsers deals with
any overlap in the grammar rules for naturals and floats. The number
is parsed according to the grammar rules defined in the Haskell report.
integerOrDouble :: TokenParsing m => m (Either Integer Double) Source #
This token parser is like naturalOrDouble
, but handles
leading -
or +
.
scientific :: TokenParsing m => m Scientific Source #
This token parser parses a floating point value. Returns the value of the number. The number is parsed according to the grammar rules defined in the Haskell report.
naturalOrScientific :: TokenParsing m => m (Either Integer Scientific) Source #
This token parser parses either natural
or a scientific
.
Returns the value of the number. This parsers deals with
any overlap in the grammar rules for naturals and floats. The number
is parsed according to the grammar rules defined in the Haskell report.
integerOrScientific :: forall m. TokenParsing m => m (Either Integer Scientific) Source #
This token parser is like naturalOrScientific
, but handles
leading -
or +
.
symbol :: TokenParsing m => String -> m String Source #
Token parser symbol s
parses string
s
and skips
trailing white space.
textSymbol :: TokenParsing m => Text -> m Text Source #
Token parser textSymbol t
parses text
s
and skips
trailing white space.
symbolic :: TokenParsing m => Char -> m Char Source #
Token parser symbolic s
parses char
s
and skips
trailing white space.
parens :: TokenParsing m => m a -> m a Source #
Token parser parens p
parses p
enclosed in parenthesis,
returning the value of p
.
braces :: TokenParsing m => m a -> m a Source #
Token parser braces p
parses p
enclosed in braces ('{' and
'}'), returning the value of p
.
angles :: TokenParsing m => m a -> m a Source #
Token parser angles p
parses p
enclosed in angle brackets ('<'
and '>'), returning the value of p
.
brackets :: TokenParsing m => m a -> m a Source #
Token parser brackets p
parses p
enclosed in brackets ('['
and ']'), returning the value of p
.
comma :: TokenParsing m => m Char Source #
Token parser comma
parses the character ',' and skips any
trailing white space. Returns the string ",".
colon :: TokenParsing m => m Char Source #
Token parser colon
parses the character ':' and skips any
trailing white space. Returns the string ":".
dot :: TokenParsing m => m Char Source #
Token parser dot
parses the character '.' and skips any
trailing white space. Returns the string ".".
semiSep :: TokenParsing m => m a -> m [a] Source #
Token parser semiSep p
parses zero or more occurrences of p
separated by semi
. Returns a list of values returned by p
.
semiSep1 :: TokenParsing m => m a -> m [a] Source #
Token parser semiSep1 p
parses one or more occurrences of p
separated by semi
. Returns a list of values returned by p
.
commaSep :: TokenParsing m => m a -> m [a] Source #
Token parser commaSep p
parses zero or more occurrences of
p
separated by comma
. Returns a list of values returned
by p
.
commaSep1 :: TokenParsing m => m a -> m [a] Source #
Token parser commaSep1 p
parses one or more occurrences of
p
separated by comma
. Returns a list of values returned
by p
.
Token Parsing Class
class CharParsing m => TokenParsing m where Source #
Additional functionality that is needed to tokenize input while ignoring whitespace.
Usually, someSpace consists of one or more occurrences of a space
.
Some parsers may choose to recognize line comments or block (multi line)
comments as white space as well.
nesting :: m a -> m a Source #
Called when we enter a nested pair of symbols. Overloadable to enable disabling layout
The token parser |semi| parses the character ';' and skips any trailing white space. Returns the character ';'. Overloadable to permit automatic semicolon insertion or Haskell-style layout.
highlight :: Highlight -> m a -> m a Source #
Tag a region of parsed text with a bit of semantic information. Most parsers won't use this, but it is indispensible for highlighters.
token p
first applies parser p
and then the whiteSpace
parser, returning the value of p
. Every lexical
token (token) is defined using token
, this way every parse
starts at a point without white space. Parsers that use token
are
called token parsers in this document.
The only point where the whiteSpace
parser should be
called explicitly is the start of the main parser in order to skip
any leading white space.
Alternatively, one might define token
as first parsing whiteSpace
and then parser p
. By parsing whiteSpace first, the parser is able
to return before parsing additional whiteSpace, improving laziness.
mainParser = sum <$ whiteSpace <*> many (token digit) <* eof
Instances
Token Parsing Transformers
This is a parser transformer you can use to disable the automatic trailing space consumption of a Token parser.
Unspaced | |
|
Instances
MonadTrans Unspaced Source # | |
Defined in Text.Parser.Token | |
MonadWriter e m => MonadWriter e (Unspaced m) Source # | |
MonadState s m => MonadState s (Unspaced m) Source # | |
MonadReader e m => MonadReader e (Unspaced m) Source # | |
Monad m => Monad (Unspaced m) Source # | |
Functor m => Functor (Unspaced m) Source # | |
Applicative m => Applicative (Unspaced m) Source # | |
Alternative m => Alternative (Unspaced m) Source # | |
MonadPlus m => MonadPlus (Unspaced m) Source # | |
Parsing m => Parsing (Unspaced m) Source # | |
Defined in Text.Parser.Token try :: Unspaced m a -> Unspaced m a Source # (<?>) :: Unspaced m a -> String -> Unspaced m a Source # skipMany :: Unspaced m a -> Unspaced m () Source # skipSome :: Unspaced m a -> Unspaced m () Source # unexpected :: String -> Unspaced m a Source # notFollowedBy :: Show a => Unspaced m a -> Unspaced m () Source # | |
CharParsing m => CharParsing (Unspaced m) Source # | |
TokenParsing m => TokenParsing (Unspaced m) Source # | |
This is a parser transformer you can use to disable the automatic trailing newline (but not whitespace-in-general) consumption of a Token parser.
Unlined | |
|
Instances
MonadTrans Unlined Source # | |
Defined in Text.Parser.Token | |
MonadWriter e m => MonadWriter e (Unlined m) Source # | |
MonadState s m => MonadState s (Unlined m) Source # | |
MonadReader e m => MonadReader e (Unlined m) Source # | |
Monad m => Monad (Unlined m) Source # | |
Functor m => Functor (Unlined m) Source # | |
Applicative m => Applicative (Unlined m) Source # | |
Alternative m => Alternative (Unlined m) Source # | |
MonadPlus m => MonadPlus (Unlined m) Source # | |
Parsing m => Parsing (Unlined m) Source # | |
Defined in Text.Parser.Token | |
CharParsing m => CharParsing (Unlined m) Source # | |
TokenParsing m => TokenParsing (Unlined m) Source # | |
newtype Unhighlighted m a Source #
This is a parser transformer you can use to disable syntax highlighting over a range of text you are parsing.
Unhighlighted | |
|
Instances
Non-Token Parsers
decimal :: TokenParsing m => m Integer Source #
Parses a non-negative whole number in the decimal system. Returns the value of the number.
This parser does NOT swallow trailing whitespace
hexadecimal :: TokenParsing m => m Integer Source #
Parses a non-negative whole number in the hexadecimal system. The number should be prefixed with "x" or "X". Returns the value of the number.
This parser does NOT swallow trailing whitespace
octal :: TokenParsing m => m Integer Source #
Parses a non-negative whole number in the octal system. The number should be prefixed with "o" or "O". Returns the value of the number.
This parser does NOT swallow trailing whitespace
characterChar :: TokenParsing m => m Char Source #
This parser parses a character literal without the surrounding quotation marks.
This parser does NOT swallow trailing whitespace
integer' :: TokenParsing m => m Integer Source #
This parser parses an integer (a whole number). This parser
is like natural
except that it can be prefixed with
sign (i.e. '-' or '+'). Returns the value of the number. The
number can be specified in decimal
, hexadecimal
or octal
. The number is parsed according
to the grammar rules in the Haskell report.
This parser does NOT swallow trailing whitespace.
Also, unlike the integer
parser, this parser does not admit spaces
between the sign and the number.
Identifiers
data IdentifierStyle m Source #
Used to describe an input style for constructors, values, operators, etc.
liftIdentifierStyle :: (MonadTrans t, Monad m) => IdentifierStyle m -> IdentifierStyle (t m) Source #
Lift an identifier style into a monad transformer
Using over
from the lens
package:
liftIdentifierStyle
= overstyleChars
lift
ident :: (TokenParsing m, Monad m, IsString s) => IdentifierStyle m -> m s Source #
Parse a non-reserved identifier or symbol
reserve :: (TokenParsing m, Monad m) => IdentifierStyle m -> String -> m () Source #
parse a reserved operator or identifier using a given style
reserveText :: (TokenParsing m, Monad m) => IdentifierStyle m -> Text -> m () Source #
parse a reserved operator or identifier using a given style given Text
.
Lenses and Traversals
styleName :: Functor f => (String -> f String) -> IdentifierStyle m -> f (IdentifierStyle m) Source #
This lens can be used to update the name for this style of identifier.
styleName
:: Lens' (IdentifierStyle
m)String
styleStart :: Functor f => (m Char -> f (m Char)) -> IdentifierStyle m -> f (IdentifierStyle m) Source #
This lens can be used to update the action used to recognize the first letter in an identifier.
styleStart
:: Lens' (IdentifierStyle
m) (mChar
)
styleLetter :: Functor f => (m Char -> f (m Char)) -> IdentifierStyle m -> f (IdentifierStyle m) Source #
This lens can be used to update the action used to recognize subsequent letters in an identifier.
styleLetter
:: Lens' (IdentifierStyle
m) (mChar
)
styleChars :: Applicative f => (m Char -> f (n Char)) -> IdentifierStyle m -> f (IdentifierStyle n) Source #
This is a traversal of both actions in contained in an IdentifierStyle
.
styleChars
:: Traversal (IdentifierStyle
m) (IdentifierStyle
n) (mChar
) (nChar
)
styleReserved :: Functor f => (HashSet String -> f (HashSet String)) -> IdentifierStyle m -> f (IdentifierStyle m) Source #
This is a lens that can be used to modify the reserved identifier set.
styleReserved
:: Lens' (IdentifierStyle
m) (HashSet
String
)
styleHighlight :: Functor f => (Highlight -> f Highlight) -> IdentifierStyle m -> f (IdentifierStyle m) Source #
This is a lens that can be used to modify the highlight used for this identifier set.
styleHighlight
:: Lens' (IdentifierStyle
m)Highlight
styleReservedHighlight :: Functor f => (Highlight -> f Highlight) -> IdentifierStyle m -> f (IdentifierStyle m) Source #
This is a lens that can be used to modify the highlight used for reserved identifiers in this identifier set.
styleReservedHighlight
:: Lens' (IdentifierStyle
m)Highlight
styleHighlights :: Applicative f => (Highlight -> f Highlight) -> IdentifierStyle m -> f (IdentifierStyle m) Source #
This is a traversal that can be used to modify the highlights used for both non-reserved and reserved identifiers in this identifier set.
styleHighlights
:: Traversal' (IdentifierStyle
m)Highlight