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|
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE StandaloneDeriving
, FlexibleInstances, UndecidableInstances
, IncoherentInstances #-}
-- |
-- Module : Haddock.Parser
-- Copyright : (c) Mateusz Kowalczyk 2013,
-- Simon Hengel 2013
-- License : BSD-like
--
-- Maintainer : haddock@projects.haskell.org
-- Stability : experimental
-- Portability : portable
module Haddock.Parser (parseString, parseParas, parseStringMaybe, parseParasMaybe) where
import Prelude hiding (takeWhile)
import Control.Arrow (first)
import Control.Monad (void, mfilter)
import Control.Applicative
import Data.Attoparsec.ByteString.Char8 hiding (parse, take, endOfLine)
import qualified Data.ByteString.Char8 as BS
import Data.Char (chr, isAsciiUpper)
import Data.List (stripPrefix, intercalate)
import Data.Maybe (fromMaybe)
import Data.Monoid
import DynFlags
import FastString (mkFastString)
import Haddock.Doc
import Haddock.Types
import Lexer (mkPState, unP, ParseResult(POk))
import Parser (parseIdentifier)
import RdrName
import SrcLoc (mkRealSrcLoc, unLoc)
import StringBuffer (stringToStringBuffer)
import Haddock.Utf8
import Haddock.Parser.Util
{-# DEPRECATED parseParasMaybe "use `parseParas` instead" #-}
parseParasMaybe :: DynFlags -> String -> Maybe (Doc RdrName)
parseParasMaybe d = Just . parseParas d
{-# DEPRECATED parseStringMaybe "use `parseString` instead" #-}
parseStringMaybe :: DynFlags -> String -> Maybe (Doc RdrName)
parseStringMaybe d = Just . parseString d
parse :: Parser a -> BS.ByteString -> a
parse p = either err id . parseOnly (p <* endOfInput)
where
err = error . ("Haddock.Parser.parse: " ++)
-- | Main entry point to the parser. Appends the newline character
-- to the input string.
parseParas :: DynFlags
-> String -- ^ String to parse
-> Doc RdrName
parseParas d = parse (p <* skipSpace) . encodeUtf8 . (++ "\n")
where
p :: Parser (Doc RdrName)
p = mconcat <$> paragraph d `sepBy` many (skipHorizontalSpace *> "\n")
-- | Parse a text paragraph.
parseString :: DynFlags -> String -> Doc RdrName
parseString d = parseStringBS d . encodeUtf8 . dropWhile isSpace
parseStringBS :: DynFlags -> BS.ByteString -> Doc RdrName
parseStringBS d = parse p
where
p :: Parser (Doc RdrName)
p = mconcat <$> many (monospace d <|> anchor <|> identifier d
<|> moduleName <|> picture <|> hyperlink <|> autoUrl <|> bold d
<|> emphasis d <|> encodedChar <|> string' <|> skipSpecialChar)
-- | Parses and processes
-- <https://en.wikipedia.org/wiki/Numeric_character_reference Numeric character references>
--
-- >>> parseOnly encodedChar "ABC"
-- Right (DocString "ABC")
encodedChar :: Parser (Doc a)
encodedChar = "&#" *> c <* ";"
where
c = DocString . return . chr <$> num
num = hex <|> decimal
hex = ("x" <|> "X") *> hexadecimal
specialChar :: [Char]
specialChar = "_/<@\"&'`"
-- | Plain, regular parser for text. Called as one of the last parsers
-- to ensure that we have already given a chance to more meaningful parsers
-- before capturing their characers.
string' :: Parser (Doc a)
string' = DocString . unescape . decodeUtf8 <$> takeWhile1_ (`notElem` specialChar)
where
unescape "" = ""
unescape ('\\':x:xs) = x : unescape xs
unescape (x:xs) = x : unescape xs
-- | Skips a single special character and treats it as a plain string.
-- This is done to skip over any special characters belonging to other
-- elements but which were not deemed meaningful at their positions.
skipSpecialChar :: Parser (Doc a)
skipSpecialChar = DocString . return <$> satisfy (`elem` specialChar)
-- | Emphasis parser.
--
-- >>> parseOnly emphasis "/Hello world/"
-- Right (DocEmphasis (DocString "Hello world"))
emphasis :: DynFlags -> Parser (Doc RdrName)
emphasis d = DocEmphasis . parseStringBS d <$>
mfilter ('\n' `BS.notElem`) ("/" *> takeWhile1_ (/= '/') <* "/")
-- | Bold parser.
--
-- >>> parseOnly bold "__Hello world__"
-- Right (DocBold (DocString "Hello world"))
bold :: DynFlags -> Parser (Doc RdrName)
bold d = DocBold . parseStringBS d <$> disallowNewline ("__" *> takeUntil "__")
disallowNewline :: Parser BS.ByteString -> Parser BS.ByteString
disallowNewline = mfilter ('\n' `BS.notElem`)
-- | Like `takeWhile`, but unconditionally take escaped characters.
takeWhile_ :: (Char -> Bool) -> Parser BS.ByteString
takeWhile_ p = scan False p_
where
p_ escaped c
| escaped = Just False
| not $ p c = Nothing
| otherwise = Just (c == '\\')
-- | Like `takeWhile1`, but unconditionally take escaped characters.
takeWhile1_ :: (Char -> Bool) -> Parser BS.ByteString
takeWhile1_ = mfilter (not . BS.null) . takeWhile_
-- | Text anchors to allow for jumping around the generated documentation.
--
-- >>> parseOnly anchor "#Hello world#"
-- Right (DocAName "Hello world")
anchor :: Parser (Doc a)
anchor = DocAName . decodeUtf8 <$> ("#" *> takeWhile1 (`notElem` "#\n") <* "#")
-- | Monospaced strings.
--
-- >>> parseOnly (monospace dynflags) "@cruel@"
-- Right (DocMonospaced (DocString "cruel"))
monospace :: DynFlags -> Parser (Doc RdrName)
monospace d = DocMonospaced . parseStringBS d <$> ("@" *> takeWhile1_ (/= '@') <* "@")
moduleName :: Parser (Doc a)
moduleName = DocModule <$> (char '"' *> modid <* char '"')
where
modid = intercalate "." <$> conid `sepBy1` "."
conid = (:)
<$> satisfy isAsciiUpper
-- NOTE: According to Haskell 2010 we shouldd actually only
-- accept {small | large | digit | ' } here. But as we can't
-- match on unicode characters, this is currently not possible.
<*> (decodeUtf8 <$> takeWhile (`notElem` " .&[{}(=*)+]!#|@/;,^?\"\n"))
-- | Picture parser, surrounded by \<\< and \>\>. It's possible to specify
-- a title for the picture.
--
-- >>> parseOnly picture "<<hello.png>>"
-- Right (DocPic (Picture "hello.png" Nothing))
-- >>> parseOnly picture "<<hello.png world>>"
-- Right (DocPic (Picture "hello.png" (Just "world")))
picture :: Parser (Doc a)
picture = DocPic . makeLabeled Picture . decodeUtf8
<$> disallowNewline ("<<" *> takeUntil ">>")
-- | Paragraph parser, called by 'parseParas'.
paragraph :: DynFlags -> Parser (Doc RdrName)
paragraph d = examples <|> skipSpace *> (list d <|> birdtracks <|> codeblock d
<|> property <|> header d
<|> textParagraph d)
header :: DynFlags -> Parser (Doc RdrName)
header d = do
let psers = map (string . encodeUtf8 . concat . flip replicate "=") [6, 5 .. 1]
pser = foldl1 (<|>) psers
delim <- decodeUtf8 <$> pser
line <- skipHorizontalSpace *> nonEmptyLine >>= return . parseString d
rest <- paragraph d <|> return mempty
return $ docAppend (DocParagraph (DocHeader (Header (length delim) line))) rest
textParagraph :: DynFlags -> Parser (Doc RdrName)
textParagraph d = docParagraph . parseString d . intercalate "\n" <$> many1 nonEmptyLine
-- | List parser, called by 'paragraph'.
list :: DynFlags -> Parser (Doc RdrName)
list d = DocUnorderedList <$> unorderedList d
<|> DocOrderedList <$> orderedList d
<|> DocDefList <$> definitionList d
-- | Parses unordered (bullet) lists.
unorderedList :: DynFlags -> Parser [Doc RdrName]
unorderedList d = ("*" <|> "-") *> innerList (unorderedList d) d
-- | Parses ordered lists (numbered or dashed).
orderedList :: DynFlags -> Parser [Doc RdrName]
orderedList d = (paren <|> dot) *> innerList (orderedList d) d
where
dot = (decimal :: Parser Int) <* "."
paren = "(" *> decimal <* ")"
-- | Generic function collecting any further lines belonging to the
-- list entry and recursively collecting any further lists in the
-- same paragraph. Usually used as
--
-- > someListFunction dynflags = listBeginning *> innerList someListFunction dynflags
innerList :: Parser [Doc RdrName] -> DynFlags -> Parser [Doc RdrName]
innerList item d = do
c <- takeLine
(cs, items) <- more item d
let contents = docParagraph . parseString d . dropNLs . unlines $ c : cs
return $ case items of
Left p -> [contents `joinPara` p]
Right i -> contents : i
-- | Parses definition lists.
definitionList :: DynFlags -> Parser [(Doc RdrName, Doc RdrName)]
definitionList d = do
label <- "[" *> (parseStringBS d <$> takeWhile1 (`notElem` "]\n")) <* "]"
c <- takeLine
(cs, items) <- more (definitionList d) d
let contents = parseString d . dropNLs . unlines $ c : cs
return $ case items of
Left p -> [(label, contents `joinPara` p)]
Right i -> (label, contents) : i
-- | If possible, appends two 'Doc's under a 'DocParagraph' rather than
-- outside of it. This allows to get structures like
--
-- @DocParagraph (DocAppend … …)@
--
-- rather than
--
-- @DocAppend (DocParagraph …) …@
joinPara :: Doc id -> Doc id -> Doc id
joinPara (DocParagraph p) c = docParagraph $ docAppend p c
joinPara d p = docAppend d p
-- | Drops all trailing newlines.
dropNLs :: String -> String
dropNLs = reverse . dropWhile (== '\n') . reverse
-- | Main worker for 'innerList' and 'definitionList'.
-- We need the 'Either' here to be able to tell in the respective functions
-- whether we're dealing with the next list or a nested paragraph.
more :: Monoid a => Parser a -> DynFlags
-> Parser ([String], Either (Doc RdrName) a)
more item d = innerParagraphs d <|> moreListItems item
<|> moreContent item d <|> pure ([], Right mempty)
-- | Use by 'innerList' and 'definitionList' to parse any nested paragraphs.
innerParagraphs :: DynFlags
-> Parser ([String], Either (Doc RdrName) a)
innerParagraphs d = (,) [] . Left <$> ("\n" *> indentedParagraphs d)
-- | Attemps to fetch the next list if possibly. Used by 'innerList' and
-- 'definitionList' to recursivly grab lists that aren't separated by a whole
-- paragraph.
moreListItems :: Parser a
-> Parser ([String], Either (Doc RdrName) a)
moreListItems item = (,) [] . Right <$> (skipSpace *> item)
-- | Helper for 'innerList' and 'definitionList' which simply takes
-- a line of text and attempts to parse more list content with 'more'.
moreContent :: Monoid a => Parser a -> DynFlags
-> Parser ([String], Either (Doc RdrName) a)
moreContent item d = first . (:) <$> nonEmptyLine <*> more item d
-- | Runs the 'parseParas' parser on an indented paragraph.
-- The indentation is 4 spaces.
indentedParagraphs :: DynFlags -> Parser (Doc RdrName)
indentedParagraphs d = parseParas d . concat <$> dropFrontOfPara " "
-- | Grab as many fully indented paragraphs as we can.
dropFrontOfPara :: Parser BS.ByteString -> Parser [String]
dropFrontOfPara sp = do
currentParagraph <- some (sp *> takeNonEmptyLine)
followingParagraphs <-
skipHorizontalSpace *> nextPar -- we have more paragraphs to take
<|> skipHorizontalSpace *> nlList -- end of the ride, remember the newline
<|> endOfInput *> return [] -- nothing more to take at all
return (currentParagraph ++ followingParagraphs)
where
nextPar = (++) <$> nlList <*> dropFrontOfPara sp
nlList = "\n" *> return ["\n"]
nonSpace :: BS.ByteString -> Parser BS.ByteString
nonSpace xs
| not $ any (not . isSpace) $ decodeUtf8 xs = fail "empty line"
| otherwise = return xs
-- | Takes a non-empty, not fully whitespace line.
--
-- Doesn't discard the trailing newline.
takeNonEmptyLine :: Parser String
takeNonEmptyLine = do
(++ "\n") . decodeUtf8 <$> (takeWhile1 (/= '\n') >>= nonSpace) <* "\n"
birdtracks :: Parser (Doc a)
birdtracks = DocCodeBlock . DocString . intercalate "\n" . stripSpace <$> many1 line
where
line = skipHorizontalSpace *> ">" *> takeLine
-- | Strip leading spaces, but ignore blank lines. If any of the lines don't
-- start with a ' ', however, we don't touch the block.
stripSpace :: [String] -> [String]
stripSpace = fromMaybe <*> mapM strip
where
strip (' ':xs) = Just xs
strip "" = Just ""
strip _ = Nothing
-- | Parses examples. Examples are a paragraph level entitity (separated by an empty line).
-- Consecutive examples are accepted.
examples :: Parser (Doc a)
examples = DocExamples <$> (many (skipHorizontalSpace *> "\n") *> go)
where
go :: Parser [Example]
go = do
prefix <- decodeUtf8 <$> takeHorizontalSpace <* ">>>"
expr <- takeLine
(rs, es) <- resultAndMoreExamples
return (makeExample prefix expr rs : es)
where
resultAndMoreExamples :: Parser ([String], [Example])
resultAndMoreExamples = moreExamples <|> result <|> pure ([], [])
where
moreExamples :: Parser ([String], [Example])
moreExamples = (,) [] <$> go
result :: Parser ([String], [Example])
result = first . (:) <$> nonEmptyLine <*> resultAndMoreExamples
makeExample :: String -> String -> [String] -> Example
makeExample prefix expression res =
Example (strip expression) result
where
result = map (substituteBlankLine . tryStripPrefix) res
tryStripPrefix xs = fromMaybe xs (stripPrefix prefix xs)
substituteBlankLine "<BLANKLINE>" = ""
substituteBlankLine xs = xs
nonEmptyLine :: Parser String
nonEmptyLine = mfilter (any (not . isSpace)) takeLine
takeLine :: Parser String
takeLine = decodeUtf8 <$> takeWhile (/= '\n') <* endOfLine
endOfLine :: Parser ()
endOfLine = void "\n" <|> endOfInput
-- | Property parser.
--
-- >>> parseOnly property "prop> hello world"
-- Right (DocProperty "hello world")
property :: Parser (Doc a)
property = DocProperty . strip . decodeUtf8 <$> ("prop>" *> takeWhile1 (/= '\n'))
-- |
-- Paragraph level codeblock. Anything between the two delimiting @ is parsed
-- for markup.
codeblock :: DynFlags -> Parser (Doc RdrName)
codeblock d =
DocCodeBlock . parseStringBS d <$> ("@" *> skipHorizontalSpace *> "\n" *> block' <* "@")
where
block' = scan False p
where
p isNewline c
| isNewline && c == '@' = Nothing
| isNewline && isSpace c = Just isNewline
| otherwise = Just $ c == '\n'
hyperlink :: Parser (Doc a)
hyperlink = DocHyperlink . makeLabeled Hyperlink . decodeUtf8
<$> disallowNewline ("<" *> takeUntil ">")
<|> autoUrl
autoUrl :: Parser (Doc a)
autoUrl = mkLink <$> url
where
url = mappend <$> ("http://" <|> "https://" <|> "ftp://") <*> takeWhile1 (not . isSpace)
mkLink :: BS.ByteString -> Doc a
mkLink s = case BS.unsnoc s of
Just (xs, x) | x `elem` ",.!?" -> DocHyperlink (Hyperlink (decodeUtf8 xs) Nothing) <> DocString [x]
_ -> DocHyperlink (Hyperlink (decodeUtf8 s) Nothing)
-- | Parses strings between identifier delimiters. Consumes all input that it
-- deems to be valid in an identifier. Note that it simply blindly consumes
-- characters and does no actual validation itself.
parseValid :: Parser String
parseValid = do
vs <- many' $ satisfy (`elem` "_.!#$%&*+/<=>?@\\|-~:") <|> digit <|> letter_ascii
c <- peekChar
case c of
Just '`' -> return vs
Just '\'' -> (\x -> vs ++ "'" ++ x) <$> ("'" *> parseValid)
<|> return vs
_ -> fail "outofvalid"
-- | Parses identifiers with help of 'parseValid'. Asks GHC for 'RdrName' from the
-- string it deems valid.
identifier :: DynFlags -> Parser (Doc RdrName)
identifier dflags = do
o <- idDelim
vid <- parseValid
e <- idDelim
return $ validIdentifier o vid e
where
idDelim = char '\'' <|> char '`'
validIdentifier o ident e = case parseIdent ident of
Just identName -> DocIdentifier identName
Nothing -> DocString $ o : ident ++ [e]
parseIdent :: String -> Maybe RdrName
parseIdent str0 =
let buffer = stringToStringBuffer str0
realSrcLc = mkRealSrcLoc (mkFastString "<unknown file>") 0 0
pstate = mkPState dflags buffer realSrcLc
in case unP parseIdentifier pstate of
POk _ name -> Just (unLoc name)
_ -> Nothing
-- | Remove all leading and trailing whitespace
strip :: String -> String
strip = (\f -> f . f) $ dropWhile isSpace . reverse
skipHorizontalSpace :: Parser ()
skipHorizontalSpace = skipWhile (`elem` " \t\f\v\r")
takeHorizontalSpace :: Parser BS.ByteString
takeHorizontalSpace = takeWhile (`elem` " \t\f\v\r")
makeLabeled :: (String -> Maybe String -> a) -> String -> a
makeLabeled f input = case break isSpace $ removeEscapes $ strip input of
(uri, "") -> f uri Nothing
(uri, label) -> f uri (Just $ dropWhile isSpace label)
where
-- As we don't parse these any further, we don't do any processing to the
-- string so we at least remove escape character here. Perhaps we should
-- actually be parsing the label at the very least?
removeEscapes "" = ""
removeEscapes ('\\':'\\':xs) = '\\' : removeEscapes xs
removeEscapes ('\\':xs) = removeEscapes xs
removeEscapes (x:xs) = x : removeEscapes xs
|