module Text.Pandoc.Shared (
splitBy,
splitByIndices,
splitStringByIndices,
substitute,
ordNub,
backslashEscapes,
escapeStringUsing,
stripTrailingNewlines,
trim,
triml,
trimr,
stripFirstAndLast,
camelCaseToHyphenated,
toRomanNumeral,
escapeURI,
tabFilter,
normalizeDate,
orderedListMarkers,
normalizeSpaces,
extractSpaces,
normalize,
normalizeInlines,
normalizeBlocks,
removeFormatting,
stringify,
capitalize,
compactify,
compactify',
compactify'DL,
Element (..),
hierarchicalize,
uniqueIdent,
alphEnum,
isHeaderBlock,
headerShift,
isTightList,
addMetaField,
makeMeta,
renderTags',
inDirectory,
readDataFile,
readDataFileUTF8,
fetchItem,
fetchItem',
openURL,
collapseFilePath,
err,
warn,
safeRead,
withTempDir
) where
import Text.Pandoc.Definition
import Text.Pandoc.Walk
import Text.Pandoc.MediaBag (MediaBag, lookupMedia)
import Text.Pandoc.Builder (Inlines, Blocks, ToMetaValue(..))
import qualified Text.Pandoc.Builder as B
import qualified Text.Pandoc.UTF8 as UTF8
import System.Environment (getProgName)
import System.Exit (exitWith, ExitCode(..))
import Data.Char ( toLower, isLower, isUpper, isAlpha,
isLetter, isDigit, isSpace, ord, chr )
import Data.List ( find, stripPrefix, intercalate )
import qualified Data.Map as M
import Network.URI ( escapeURIString, isURI, nonStrictRelativeTo,
unEscapeString, parseURIReference, isAllowedInURI )
import qualified Data.Set as Set
import System.Directory
import System.FilePath (joinPath, splitDirectories, pathSeparator, isPathSeparator)
import Text.Pandoc.MIME (MimeType, getMimeType)
import System.FilePath ( (</>), takeExtension, dropExtension)
import Data.Generics (Typeable, Data)
import qualified Control.Monad.State as S
import qualified Control.Exception as E
import Control.Monad (msum, unless)
import Text.Pandoc.Pretty (charWidth)
import System.Locale (defaultTimeLocale)
import Data.Time
import System.IO (stderr)
import System.IO.Temp
import Text.HTML.TagSoup (renderTagsOptions, RenderOptions(..), Tag(..),
renderOptions)
import qualified Data.ByteString as BS
import qualified Data.ByteString.Char8 as B8
import Text.Pandoc.Compat.Monoid
import Data.ByteString.Base64 (decodeLenient)
import Data.Sequence (ViewR(..), ViewL(..), viewl, viewr)
import qualified Data.Text as T (toUpper, pack, unpack)
import Data.ByteString.Lazy (toChunks)
#ifdef EMBED_DATA_FILES
import Text.Pandoc.Data (dataFiles)
#else
import Paths_scholdoc (getDataFileName)
#endif
#ifdef HTTP_CLIENT
import Network.HTTP.Client (httpLbs, parseUrl, withManager,
responseBody, responseHeaders,
Request(port,host))
import Network.HTTP.Client.Internal (addProxy)
import Network.HTTP.Client.TLS (tlsManagerSettings)
import System.Environment (getEnv)
import Network.HTTP.Types.Header ( hContentType)
import Network (withSocketsDo)
#else
import Network.URI (parseURI)
import Network.HTTP (findHeader, rspBody,
RequestMethod(..), HeaderName(..), mkRequest)
import Network.Browser (browse, setAllowRedirects, setOutHandler, request)
#endif
splitBy :: (a -> Bool) -> [a] -> [[a]]
splitBy _ [] = []
splitBy isSep lst =
let (first, rest) = break isSep lst
rest' = dropWhile isSep rest
in first:(splitBy isSep rest')
splitByIndices :: [Int] -> [a] -> [[a]]
splitByIndices [] lst = [lst]
splitByIndices (x:xs) lst = first:(splitByIndices (map (\y -> y x) xs) rest)
where (first, rest) = splitAt x lst
splitStringByIndices :: [Int] -> [Char] -> [[Char]]
splitStringByIndices [] lst = [lst]
splitStringByIndices (x:xs) lst =
let (first, rest) = splitAt' x lst in
first : (splitStringByIndices (map (\y -> y x) xs) rest)
splitAt' :: Int -> [Char] -> ([Char],[Char])
splitAt' _ [] = ([],[])
splitAt' n xs | n <= 0 = ([],xs)
splitAt' n (x:xs) = (x:ys,zs)
where (ys,zs) = splitAt' (n charWidth x) xs
substitute :: (Eq a) => [a] -> [a] -> [a] -> [a]
substitute _ _ [] = []
substitute [] _ xs = xs
substitute target replacement lst@(x:xs) =
case stripPrefix target lst of
Just lst' -> replacement ++ substitute target replacement lst'
Nothing -> x : substitute target replacement xs
ordNub :: (Ord a) => [a] -> [a]
ordNub l = go Set.empty l
where
go _ [] = []
go s (x:xs) = if x `Set.member` s then go s xs
else x : go (Set.insert x s) xs
backslashEscapes :: [Char]
-> [(Char, String)]
backslashEscapes = map (\ch -> (ch, ['\\',ch]))
escapeStringUsing :: [(Char, String)] -> String -> String
escapeStringUsing _ [] = ""
escapeStringUsing escapeTable (x:xs) =
case (lookup x escapeTable) of
Just str -> str ++ rest
Nothing -> x:rest
where rest = escapeStringUsing escapeTable xs
stripTrailingNewlines :: String -> String
stripTrailingNewlines = reverse . dropWhile (== '\n') . reverse
trim :: String -> String
trim = triml . trimr
triml :: String -> String
triml = dropWhile (`elem` " \r\n\t")
trimr :: String -> String
trimr = reverse . triml . reverse
stripFirstAndLast :: String -> String
stripFirstAndLast str =
drop 1 $ take ((length str) 1) str
camelCaseToHyphenated :: String -> String
camelCaseToHyphenated [] = ""
camelCaseToHyphenated (a:b:rest) | isLower a && isUpper b =
a:'-':(toLower b):(camelCaseToHyphenated rest)
camelCaseToHyphenated (a:rest) = (toLower a):(camelCaseToHyphenated rest)
toRomanNumeral :: Int -> String
toRomanNumeral x =
if x >= 4000 || x < 0
then "?"
else case x of
_ | x >= 1000 -> "M" ++ toRomanNumeral (x 1000)
_ | x >= 900 -> "CM" ++ toRomanNumeral (x 900)
_ | x >= 500 -> "D" ++ toRomanNumeral (x 500)
_ | x >= 400 -> "CD" ++ toRomanNumeral (x 400)
_ | x >= 100 -> "C" ++ toRomanNumeral (x 100)
_ | x >= 90 -> "XC" ++ toRomanNumeral (x 90)
_ | x >= 50 -> "L" ++ toRomanNumeral (x 50)
_ | x >= 40 -> "XL" ++ toRomanNumeral (x 40)
_ | x >= 10 -> "X" ++ toRomanNumeral (x 10)
_ | x == 9 -> "IX"
_ | x >= 5 -> "V" ++ toRomanNumeral (x 5)
_ | x == 4 -> "IV"
_ | x >= 1 -> "I" ++ toRomanNumeral (x 1)
_ -> ""
escapeURI :: String -> String
escapeURI = escapeURIString (not . isSpace)
tabFilter :: Int
-> String
-> String
tabFilter tabStop =
let go _ [] = ""
go _ ('\n':xs) = '\n' : go tabStop xs
go _ ('\r':'\n':xs) = '\n' : go tabStop xs
go _ ('\r':xs) = '\n' : go tabStop xs
go spsToNextStop ('\t':xs) =
if tabStop == 0
then '\t' : go tabStop xs
else replicate spsToNextStop ' ' ++ go tabStop xs
go 1 (x:xs) =
x : go tabStop xs
go spsToNextStop (x:xs) =
x : go (spsToNextStop 1) xs
in go tabStop
normalizeDate :: String -> Maybe String
normalizeDate s = fmap (formatTime defaultTimeLocale "%F")
(msum $ map (\fs -> parsetimeWith fs s) formats :: Maybe Day)
where parsetimeWith = parseTime defaultTimeLocale
formats = ["%x","%m/%d/%Y", "%D","%F", "%d %b %Y",
"%d %B %Y", "%b. %d, %Y", "%B %d, %Y", "%Y"]
orderedListMarkers :: (Int, ListNumberStyle, ListNumberDelim) -> [String]
orderedListMarkers (start, numstyle, numdelim) =
let singleton c = [c]
nums = case numstyle of
DefaultStyle -> map show [start..]
Example -> map show [start..]
Decimal -> map show [start..]
UpperAlpha -> drop (start 1) $ cycle $
map singleton ['A'..'Z']
LowerAlpha -> drop (start 1) $ cycle $
map singleton ['a'..'z']
UpperRoman -> map toRomanNumeral [start..]
LowerRoman -> map (map toLower . toRomanNumeral) [start..]
inDelim str = case numdelim of
DefaultDelim -> str ++ "."
Period -> str ++ "."
OneParen -> str ++ ")"
TwoParens -> "(" ++ str ++ ")"
in map inDelim nums
normalizeSpaces :: [Inline] -> [Inline]
normalizeSpaces = cleanup . dropWhile isSpaceOrEmpty
where cleanup [] = []
cleanup (Space:rest) = case dropWhile isSpaceOrEmpty rest of
[] -> []
(x:xs) -> Space : x : cleanup xs
cleanup ((Str ""):rest) = cleanup rest
cleanup (x:rest) = x : cleanup rest
isSpaceOrEmpty :: Inline -> Bool
isSpaceOrEmpty Space = True
isSpaceOrEmpty (Str "") = True
isSpaceOrEmpty _ = False
extractSpaces :: (Inlines -> Inlines) -> Inlines -> Inlines
extractSpaces f is =
let contents = B.unMany is
left = case viewl contents of
(Space :< _) -> B.space
_ -> mempty
right = case viewr contents of
(_ :> Space) -> B.space
_ -> mempty in
(left <> f (B.trimInlines . B.Many $ contents) <> right)
normalize :: Pandoc -> Pandoc
normalize (Pandoc (Meta meta) blocks) =
Pandoc (Meta $ M.map go meta) (normalizeBlocks blocks)
where go (MetaInlines xs) = MetaInlines $ normalizeInlines xs
go (MetaBlocks xs) = MetaBlocks $ normalizeBlocks xs
go (MetaList ms) = MetaList $ map go ms
go (MetaMap m) = MetaMap $ M.map go m
go x = x
normalizeBlocks :: [Block] -> [Block]
normalizeBlocks (Null : xs) = normalizeBlocks xs
normalizeBlocks (Div attr bs : xs) =
Div attr (normalizeBlocks bs) : normalizeBlocks xs
normalizeBlocks (BlockQuote bs : xs) =
case normalizeBlocks bs of
[] -> normalizeBlocks xs
bs' -> BlockQuote bs' : normalizeBlocks xs
normalizeBlocks (BulletList [] : xs) = normalizeBlocks xs
normalizeBlocks (BulletList items : xs) =
BulletList (map normalizeBlocks items) : normalizeBlocks xs
normalizeBlocks (OrderedList _ [] : xs) = normalizeBlocks xs
normalizeBlocks (OrderedList attr items : xs) =
OrderedList attr (map normalizeBlocks items) : normalizeBlocks xs
normalizeBlocks (DefinitionList [] : xs) = normalizeBlocks xs
normalizeBlocks (DefinitionList items : xs) =
DefinitionList (map go items) : normalizeBlocks xs
where go (ils, bs) = (normalizeInlines ils, map normalizeBlocks bs)
normalizeBlocks (RawBlock _ "" : xs) = normalizeBlocks xs
normalizeBlocks (RawBlock f x : xs) =
case normalizeBlocks xs of
(RawBlock f' x' : rest) | f' == f ->
RawBlock f (x ++ ('\n':x')) : rest
rest -> RawBlock f x : rest
normalizeBlocks (Para ils : xs) =
case normalizeInlines ils of
[] -> normalizeBlocks xs
ils' -> Para ils' : normalizeBlocks xs
normalizeBlocks (Plain ils : xs) =
case normalizeInlines ils of
[] -> normalizeBlocks xs
ils' -> Plain ils' : normalizeBlocks xs
normalizeBlocks (Header lev attr ils : xs) =
Header lev attr (normalizeInlines ils) : normalizeBlocks xs
normalizeBlocks (Table capt aligns widths hdrs rows : xs) =
Table (normalizeInlines capt) aligns widths
(map normalizeBlocks hdrs) (map (map normalizeBlocks) rows)
: normalizeBlocks xs
normalizeBlocks (ImageGrid imgs : xs) =
ImageGrid (map normalizeInlines imgs) : normalizeBlocks xs
normalizeBlocks (Figure typ attr content pc capt : xs) =
Figure typ attr (normalizeBlocks content) pc (normalizeInlines capt)
: normalizeBlocks xs
normalizeBlocks (x:xs) = x : normalizeBlocks xs
normalizeBlocks [] = []
normalizeInlines :: [Inline] -> [Inline]
normalizeInlines (Str x : ys) =
case concat (x : map fromStr strs) of
"" -> rest
n -> Str n : rest
where
(strs, rest) = span isStr $ normalizeInlines ys
isStr (Str _) = True
isStr _ = False
fromStr (Str z) = z
fromStr _ = error "normalizeInlines - fromStr - not a Str"
normalizeInlines (Space : ys) =
if null rest
then []
else Space : rest
where isSp Space = True
isSp _ = False
rest = dropWhile isSp $ normalizeInlines ys
normalizeInlines (Emph xs : zs) =
case normalizeInlines zs of
(Emph ys : rest) -> normalizeInlines $
Emph (normalizeInlines $ xs ++ ys) : rest
rest -> case normalizeInlines xs of
[] -> rest
xs' -> Emph xs' : rest
normalizeInlines (Strong xs : zs) =
case normalizeInlines zs of
(Strong ys : rest) -> normalizeInlines $
Strong (normalizeInlines $ xs ++ ys) : rest
rest -> case normalizeInlines xs of
[] -> rest
xs' -> Strong xs' : rest
normalizeInlines (Subscript xs : zs) =
case normalizeInlines zs of
(Subscript ys : rest) -> normalizeInlines $
Subscript (normalizeInlines $ xs ++ ys) : rest
rest -> case normalizeInlines xs of
[] -> rest
xs' -> Subscript xs' : rest
normalizeInlines (Superscript xs : zs) =
case normalizeInlines zs of
(Superscript ys : rest) -> normalizeInlines $
Superscript (normalizeInlines $ xs ++ ys) : rest
rest -> case normalizeInlines xs of
[] -> rest
xs' -> Superscript xs' : rest
normalizeInlines (SmallCaps xs : zs) =
case normalizeInlines zs of
(SmallCaps ys : rest) -> normalizeInlines $
SmallCaps (normalizeInlines $ xs ++ ys) : rest
rest -> case normalizeInlines xs of
[] -> rest
xs' -> SmallCaps xs' : rest
normalizeInlines (Strikeout xs : zs) =
case normalizeInlines zs of
(Strikeout ys : rest) -> normalizeInlines $
Strikeout (normalizeInlines $ xs ++ ys) : rest
rest -> case normalizeInlines xs of
[] -> rest
xs' -> Strikeout xs' : rest
normalizeInlines (RawInline _ [] : ys) = normalizeInlines ys
normalizeInlines (RawInline f xs : zs) =
case normalizeInlines zs of
(RawInline f' ys : rest) | f == f' -> normalizeInlines $
RawInline f (xs ++ ys) : rest
rest -> RawInline f xs : rest
normalizeInlines (Code _ "" : ys) = normalizeInlines ys
normalizeInlines (Code attr xs : zs) =
case normalizeInlines zs of
(Code attr' ys : rest) | attr == attr' -> normalizeInlines $
Code attr (xs ++ ys) : rest
rest -> Code attr xs : rest
normalizeInlines (Span attr xs : zs) =
case normalizeInlines zs of
(Span attr' ys : rest) | attr == attr' -> normalizeInlines $
Span attr (normalizeInlines $ xs ++ ys) : rest
rest -> Span attr (normalizeInlines xs) : rest
normalizeInlines (Note bs : ys) = Note (normalizeBlocks bs) :
normalizeInlines ys
normalizeInlines (Quoted qt ils : ys) =
Quoted qt (normalizeInlines ils) : normalizeInlines ys
normalizeInlines (Link ils t : ys) =
Link (normalizeInlines ils) t : normalizeInlines ys
normalizeInlines (Image attr ils t : ys) =
Image attr (normalizeInlines ils) t : normalizeInlines ys
normalizeInlines (Cite cs ils : ys) =
Cite cs (normalizeInlines ils) : normalizeInlines ys
normalizeInlines (x : xs) = x : normalizeInlines xs
normalizeInlines [] = []
removeFormatting :: Walkable Inline a => a -> [Inline]
removeFormatting = query go . walk deNote
where go :: Inline -> [Inline]
go (Str xs) = [Str xs]
go Space = [Space]
go (Code _ x) = [Str x]
go (Math _ x) = [Str x]
go LineBreak = [Space]
go _ = []
deNote (Note _) = Str ""
deNote x = x
stringify :: Walkable Inline a => a -> String
stringify = query go . walk deNote
where go :: Inline -> [Char]
go Space = " "
go (Str x) = x
go (Code _ x) = x
go (Math _ x) = x
go LineBreak = " "
go _ = ""
deNote (Note _) = Str ""
deNote x = x
capitalize :: Walkable Inline a => a -> a
capitalize = walk go
where go :: Inline -> Inline
go (Str s) = Str (T.unpack $ T.toUpper $ T.pack s)
go x = x
compactify :: [[Block]]
-> [[Block]]
compactify [] = []
compactify items =
case (init items, last items) of
(_,[]) -> items
(others, final) ->
case last final of
Para a -> case (filter isPara $ concat items) of
[_] -> others ++ [init final ++ [Plain a]]
_ -> items
_ -> items
compactify' :: [Blocks]
-> [Blocks]
compactify' [] = []
compactify' items =
let (others, final) = (init items, last items)
in case reverse (B.toList final) of
(Para a:xs) -> case [Para x | Para x <- concatMap B.toList items] of
[_] -> others ++ [B.fromList (reverse $ Plain a : xs)]
_ -> items
_ -> items
compactify'DL :: [(Inlines, [Blocks])] -> [(Inlines, [Blocks])]
compactify'DL items =
let defs = concatMap snd items
in case reverse (concatMap B.toList defs) of
(Para x:xs)
| not (any isPara xs) ->
let (t,ds) = last items
lastDef = B.toList $ last ds
ds' = init ds ++
if null lastDef
then [B.fromList lastDef]
else [B.fromList $ init lastDef ++ [Plain x]]
in init items ++ [(t, ds')]
| otherwise -> items
_ -> items
isPara :: Block -> Bool
isPara (Para _) = True
isPara _ = False
data Element = Blk Block
| Sec Int [Int] Attr [Inline] [Element]
deriving (Eq, Read, Show, Typeable, Data)
instance Walkable Inline Element where
walk f (Blk x) = Blk (walk f x)
walk f (Sec lev nums attr ils elts) = Sec lev nums attr (walk f ils) (walk f elts)
walkM f (Blk x) = Blk `fmap` walkM f x
walkM f (Sec lev nums attr ils elts) = do
ils' <- walkM f ils
elts' <- walkM f elts
return $ Sec lev nums attr ils' elts'
query f (Blk x) = query f x
query f (Sec _ _ _ ils elts) = query f ils <> query f elts
instance Walkable Block Element where
walk f (Blk x) = Blk (walk f x)
walk f (Sec lev nums attr ils elts) = Sec lev nums attr (walk f ils) (walk f elts)
walkM f (Blk x) = Blk `fmap` walkM f x
walkM f (Sec lev nums attr ils elts) = do
ils' <- walkM f ils
elts' <- walkM f elts
return $ Sec lev nums attr ils' elts'
query f (Blk x) = query f x
query f (Sec _ _ _ ils elts) = query f ils <> query f elts
inlineListToIdentifier :: [Inline] -> String
inlineListToIdentifier =
dropWhile (not . isAlpha) . intercalate "-" . words .
map (nbspToSp . toLower) .
filter (\c -> isLetter c || isDigit c || c `elem` "_-. ") .
stringify
where nbspToSp '\160' = ' '
nbspToSp x = x
hierarchicalize :: [Block] -> [Element]
hierarchicalize blocks = S.evalState (hierarchicalizeWithIds blocks) []
hierarchicalizeWithIds :: [Block] -> S.State [Int] [Element]
hierarchicalizeWithIds [] = return []
hierarchicalizeWithIds ((Header level attr@(_,classes,_) title'):xs) = do
lastnum <- S.get
let lastnum' = take level lastnum
let newnum = case length lastnum' of
x | "unnumbered" `elem` classes -> []
| x >= level -> init lastnum' ++ [last lastnum' + 1]
| otherwise -> lastnum ++
replicate (level length lastnum 1) 0 ++ [1]
unless (null newnum) $ S.put newnum
let (sectionContents, rest) = break (headerLtEq level) xs
sectionContents' <- hierarchicalizeWithIds sectionContents
rest' <- hierarchicalizeWithIds rest
return $ Sec level newnum attr title' sectionContents' : rest'
hierarchicalizeWithIds (x:rest) = do
rest' <- hierarchicalizeWithIds rest
return $ (Blk x) : rest'
headerLtEq :: Int -> Block -> Bool
headerLtEq level (Header l _ _) = l <= level
headerLtEq _ _ = False
uniqueIdent :: [Inline] -> [String] -> String
uniqueIdent title' usedIdents =
let baseIdent = case inlineListToIdentifier title' of
"" -> "section"
x -> x
numIdent n = baseIdent ++ "-" ++ show n
in if baseIdent `elem` usedIdents
then case find (\x -> numIdent x `notElem` usedIdents) ([1..60000] :: [Int]) of
Just x -> numIdent x
Nothing -> baseIdent
else baseIdent
alphEnum :: Int -> String
alphEnum n = [chr (ord 'a' + n 1)]
isHeaderBlock :: Block -> Bool
isHeaderBlock (Header _ _ _) = True
isHeaderBlock _ = False
headerShift :: Int -> Pandoc -> Pandoc
headerShift n = walk shift
where shift :: Block -> Block
shift (Header level attr inner) = Header (level + n) attr inner
shift x = x
isTightList :: [[Block]] -> Bool
isTightList = all firstIsPlain
where firstIsPlain (Plain _ : _) = True
firstIsPlain _ = False
addMetaField :: ToMetaValue a
=> String
-> a
-> Meta
-> Meta
addMetaField key val (Meta meta) =
Meta $ M.insertWith combine key (toMetaValue val) meta
where combine newval (MetaList xs) = MetaList (xs ++ tolist newval)
combine newval x = MetaList [x, newval]
tolist (MetaList ys) = ys
tolist y = [y]
makeMeta :: [Inline] -> [[Inline]] -> [Inline] -> Meta
makeMeta title authors date =
addMetaField "title" (B.fromList title)
$ addMetaField "author" (map B.fromList authors)
$ addMetaField "date" (B.fromList date)
$ nullMeta
renderTags' :: [Tag String] -> String
renderTags' = renderTagsOptions
renderOptions{ optMinimize = matchTags ["hr", "br", "img",
"meta", "link"]
, optRawTag = matchTags ["script", "style"] }
where matchTags = \tags -> flip elem tags . map toLower
inDirectory :: FilePath -> IO a -> IO a
inDirectory path action = E.bracket
getCurrentDirectory
setCurrentDirectory
(const $ setCurrentDirectory path >> action)
readDefaultDataFile :: FilePath -> IO BS.ByteString
readDefaultDataFile fname =
#ifdef EMBED_DATA_FILES
case lookup (makeCanonical fname) dataFiles of
Nothing -> err 97 $ "Could not find data file " ++ fname
Just contents -> return contents
where makeCanonical = joinPath . transformPathParts . splitDirectories
transformPathParts = reverse . foldl go []
go as "." = as
go (_:as) ".." = as
go as x = x : as
#else
getDataFileName ("data" </> fname) >>= checkExistence >>= BS.readFile
where checkExistence fn = do
exists <- doesFileExist fn
if exists
then return fn
else err 97 ("Could not find data file " ++ fname)
#endif
readDataFile :: Maybe FilePath -> FilePath -> IO BS.ByteString
readDataFile Nothing fname = readDefaultDataFile fname
readDataFile (Just userDir) fname = do
exists <- doesFileExist (userDir </> fname)
if exists
then BS.readFile (userDir </> fname)
else readDefaultDataFile fname
readDataFileUTF8 :: Maybe FilePath -> FilePath -> IO String
readDataFileUTF8 userDir fname =
UTF8.toString `fmap` readDataFile userDir fname
fetchItem :: Maybe String -> String
-> IO (Either E.SomeException (BS.ByteString, Maybe MimeType))
fetchItem sourceURL s =
case (sourceURL >>= parseURIReference . ensureEscaped, ensureEscaped s) of
(_, s') | isURI s' -> openURL s'
(Just u, s') ->
case parseURIReference s' of
Just u' -> openURL $ show $ u' `nonStrictRelativeTo` u
Nothing -> openURL s'
(Nothing, _) -> E.try readLocalFile
where readLocalFile = do
cont <- BS.readFile fp
return (cont, mime)
dropFragmentAndQuery = takeWhile (\c -> c /= '?' && c /= '#')
fp = unEscapeString $ dropFragmentAndQuery s
mime = case takeExtension fp of
".gz" -> getMimeType $ dropExtension fp
x -> getMimeType x
ensureEscaped x@(_:':':'\\':_) = x
ensureEscaped x = escapeURIString isAllowedInURI x
fetchItem' :: MediaBag -> Maybe String -> String
-> IO (Either E.SomeException (BS.ByteString, Maybe MimeType))
fetchItem' media sourceURL s = do
case lookupMedia s media of
Nothing -> fetchItem sourceURL s
Just (mime, bs) -> return $ Right (BS.concat $ toChunks bs, Just mime)
openURL :: String -> IO (Either E.SomeException (BS.ByteString, Maybe MimeType))
openURL u
| Just u' <- stripPrefix "data:" u =
let mime = takeWhile (/=',') u'
contents = B8.pack $ unEscapeString $ drop 1 $ dropWhile (/=',') u'
in return $ Right (decodeLenient contents, Just mime)
#ifdef HTTP_CLIENT
| otherwise = withSocketsDo $ E.try $ do
req <- parseUrl u
(proxy :: Either E.SomeException String) <- E.try $ getEnv "http_proxy"
let req' = case proxy of
Left _ -> req
Right pr -> case parseUrl pr of
Just r -> addProxy (host r) (port r) req
Nothing -> req
resp <- withManager tlsManagerSettings $ httpLbs req'
return (BS.concat $ toChunks $ responseBody resp,
UTF8.toString `fmap` lookup hContentType (responseHeaders resp))
#else
| otherwise = E.try $ getBodyAndMimeType `fmap` browse
(do S.liftIO $ UTF8.hPutStrLn stderr $ "Fetching " ++ u ++ "..."
setOutHandler $ const (return ())
setAllowRedirects True
request (getRequest' u'))
where getBodyAndMimeType (_, r) = (rspBody r, findHeader HdrContentType r)
getRequest' uriString = case parseURI uriString of
Nothing -> error ("Not a valid URL: " ++
uriString)
Just v -> mkRequest GET v
u' = escapeURIString (/= '|') u
#endif
err :: Int -> String -> IO a
err exitCode msg = do
name <- getProgName
UTF8.hPutStrLn stderr $ name ++ ": " ++ msg
exitWith $ ExitFailure exitCode
return undefined
warn :: String -> IO ()
warn msg = do
name <- getProgName
UTF8.hPutStrLn stderr $ name ++ ": " ++ msg
collapseFilePath :: FilePath -> FilePath
collapseFilePath = joinPath . reverse . foldl go [] . splitDirectories
where
go rs "." = rs
go r@(p:rs) ".." = case p of
".." -> ("..":r)
(checkPathSeperator -> Just True) -> ("..":r)
_ -> rs
go _ (checkPathSeperator -> Just True) = [[pathSeparator]]
go rs x = x:rs
isSingleton [] = Nothing
isSingleton [x] = Just x
isSingleton _ = Nothing
checkPathSeperator = fmap isPathSeparator . isSingleton
safeRead :: (Monad m, Read a) => String -> m a
safeRead s = case reads s of
(d,x):_
| all isSpace x -> return d
_ -> fail $ "Could not read `" ++ s ++ "'"
withTempDir :: String -> (FilePath -> IO a) -> IO a
withTempDir =
#ifdef _WINDOWS
withTempDirectory "."
#else
withSystemTempDirectory
#endif