{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE TupleSections #-}
{-# LANGUAGE ViewPatterns #-}
{-# LANGUAGE OverloadedStrings #-}
module Text.Pandoc.Readers.EPUB
(readEPUB)
where
import Prelude
import Codec.Archive.Zip (Archive (..), Entry, findEntryByPath, fromEntry,
toArchiveOrFail)
import Control.DeepSeq (NFData, deepseq)
import Control.Monad (guard, liftM, liftM2, mplus)
import Control.Monad.Except (throwError)
import qualified Data.ByteString.Lazy as BL (ByteString)
import Data.List (isInfixOf)
import qualified Data.Text as T
import qualified Data.Map as M (Map, elems, fromList, lookup)
import Data.Maybe (fromMaybe, mapMaybe)
import qualified Data.Text.Lazy as TL
import qualified Data.Text.Lazy.Encoding as TL
import Network.URI (unEscapeString)
import System.FilePath (dropFileName, dropFileName, normalise, splitFileName,
takeFileName, (</>))
import qualified Text.Pandoc.Builder as B
import Text.Pandoc.Class (PandocMonad, insertMedia)
import Text.Pandoc.Definition hiding (Attr)
import Text.Pandoc.Error
import Text.Pandoc.Extensions (Extension (Ext_raw_html), enableExtension)
import Text.Pandoc.MIME (MimeType)
import Text.Pandoc.Options (ReaderOptions (..))
import Text.Pandoc.Readers.HTML (readHtml)
import Text.Pandoc.Shared (addMetaField, collapseFilePath, escapeURI)
import qualified Text.Pandoc.UTF8 as UTF8 (toStringLazy)
import Text.Pandoc.Walk (query, walk)
import Text.XML.Light
type Items = M.Map String (FilePath, MimeType)
readEPUB :: PandocMonad m => ReaderOptions -> BL.ByteString -> m Pandoc
readEPUB opts bytes = case toArchiveOrFail bytes of
Right archive -> archiveToEPUB opts archive
Left _ -> throwError $ PandocParseError "Couldn't extract ePub file"
archiveToEPUB :: (PandocMonad m) => ReaderOptions -> Archive -> m Pandoc
archiveToEPUB os archive = do
(root, content) <- getManifest archive
(coverId, meta) <- parseMeta content
(cover, items) <- parseManifest content coverId
let coverDoc = maybe mempty imageToPandoc cover
spine <- parseSpine items content
let escapedSpine = map (escapeURI . T.pack . takeFileName . fst) spine
Pandoc _ bs <-
foldM' (\a b -> ((a <>) . walk (prependHash escapedSpine))
`liftM` parseSpineElem root b) mempty spine
let ast = coverDoc <> Pandoc meta bs
fetchImages (M.elems items) root archive ast
return ast
where
os' = os {readerExtensions = enableExtension Ext_raw_html (readerExtensions os)}
parseSpineElem :: PandocMonad m => FilePath -> (FilePath, MimeType) -> m Pandoc
parseSpineElem (normalise -> r) (normalise -> path, mime) = do
doc <- mimeToReader mime r path
let docSpan = B.doc $ B.para $ B.spanWith (T.pack $ takeFileName path, [], []) mempty
return $ docSpan <> doc
mimeToReader :: PandocMonad m => MimeType -> FilePath -> FilePath -> m Pandoc
mimeToReader "application/xhtml+xml" (unEscapeString -> root)
(unEscapeString -> path) = do
fname <- findEntryByPathE (root </> path) archive
html <- readHtml os' . TL.toStrict . TL.decodeUtf8 $ fromEntry fname
return $ fixInternalReferences path html
mimeToReader s _ (unEscapeString -> path)
| s `elem` imageMimes = return $ imageToPandoc path
| otherwise = return mempty
fetchImages :: PandocMonad m
=> [(FilePath, MimeType)]
-> FilePath
-> Archive
-> Pandoc
-> m ()
fetchImages mimes root arc (query iq -> links) =
mapM_ (uncurry3 insertMedia) (mapMaybe getEntry links)
where
getEntry link =
let abslink = normalise (unEscapeString (root </> link)) in
(link , lookup link mimes, ) . fromEntry
<$> findEntryByPath abslink arc
iq :: Inline -> [FilePath]
iq (Image _ _ (url, _)) = [T.unpack url]
iq _ = []
renameImages :: FilePath -> Inline -> Inline
renameImages root img@(Image attr a (url, b))
| "data:" `T.isPrefixOf` url = img
| otherwise = Image attr a ( T.pack $ collapseFilePath (root </> T.unpack url)
, b)
renameImages _ x = x
imageToPandoc :: FilePath -> Pandoc
imageToPandoc s = B.doc . B.para $ B.image (T.pack s) "" mempty
imageMimes :: [MimeType]
imageMimes = ["image/gif", "image/jpeg", "image/png"]
type CoverId = String
type CoverImage = FilePath
parseManifest :: (PandocMonad m) => Element -> Maybe CoverId -> m (Maybe CoverImage, Items)
parseManifest content coverId = do
manifest <- findElementE (dfName "manifest") content
let items = findChildren (dfName "item") manifest
r <- mapM parseItem items
let cover = findAttr (emptyName "href") =<< filterChild findCover manifest
return (cover `mplus` coverId, M.fromList r)
where
findCover e = maybe False (isInfixOf "cover-image")
(findAttr (emptyName "properties") e)
|| fromMaybe False
(liftM2 (==) coverId (findAttr (emptyName "id") e))
parseItem e = do
uid <- findAttrE (emptyName "id") e
href <- findAttrE (emptyName "href") e
mime <- findAttrE (emptyName "media-type") e
return (uid, (href, T.pack mime))
parseSpine :: PandocMonad m => Items -> Element -> m [(FilePath, MimeType)]
parseSpine is e = do
spine <- findElementE (dfName "spine") e
let itemRefs = findChildren (dfName "itemref") spine
mapM (mkE "parseSpine" . flip M.lookup is) $ mapMaybe parseItemRef itemRefs
where
parseItemRef ref = do
let linear = maybe True (== "yes") (findAttr (emptyName "linear") ref)
guard linear
findAttr (emptyName "idref") ref
parseMeta :: PandocMonad m => Element -> m (Maybe CoverId, Meta)
parseMeta content = do
meta <- findElementE (dfName "metadata") content
let dcspace (QName _ (Just "http://purl.org/dc/elements/1.1/") (Just "dc")) = True
dcspace _ = False
let dcs = filterChildrenName dcspace meta
let r = foldr parseMetaItem nullMeta dcs
let coverId = findAttr (emptyName "content") =<< filterChild findCover meta
return (coverId, r)
where
findCover e = findAttr (emptyName "name") e == Just "cover"
parseMetaItem :: Element -> Meta -> Meta
parseMetaItem e@(stripNamespace . elName -> field) meta =
addMetaField (renameMeta field) (B.str $ T.pack $ strContent e) meta
renameMeta :: String -> T.Text
renameMeta "creator" = "author"
renameMeta s = T.pack s
getManifest :: PandocMonad m => Archive -> m (String, Element)
getManifest archive = do
metaEntry <- findEntryByPathE ("META-INF" </> "container.xml") archive
docElem <- (parseXMLDocE . UTF8.toStringLazy . fromEntry) metaEntry
let namespaces = mapMaybe attrToNSPair (elAttribs docElem)
ns <- mkE "xmlns not in namespaces" (lookup "xmlns" namespaces)
as <- fmap (map attrToPair . elAttribs)
(findElementE (QName "rootfile" (Just ns) Nothing) docElem)
manifestFile <- mkE "Root not found" (lookup "full-path" as)
let rootdir = dropFileName manifestFile
manifest <- findEntryByPathE manifestFile archive
fmap ((,) rootdir) (parseXMLDocE . UTF8.toStringLazy . fromEntry $ manifest)
fixInternalReferences :: FilePath -> Pandoc -> Pandoc
fixInternalReferences pathToFile =
walk (renameImages root)
. walk (fixBlockIRs filename)
. walk (fixInlineIRs filename)
where
(root, T.unpack . escapeURI . T.pack -> filename) = splitFileName pathToFile
fixInlineIRs :: String -> Inline -> Inline
fixInlineIRs s (Span as v) =
Span (fixAttrs s as) v
fixInlineIRs s (Code as code) =
Code (fixAttrs s as) code
fixInlineIRs s (Link as is (T.uncons -> Just ('#', url), tit)) =
Link (fixAttrs s as) is (addHash s url, tit)
fixInlineIRs s (Link as is t) =
Link (fixAttrs s as) is t
fixInlineIRs _ v = v
prependHash :: [T.Text] -> Inline -> Inline
prependHash ps l@(Link attr is (url, tit))
| or [s `T.isPrefixOf` url | s <- ps] =
Link attr is ("#" <> url, tit)
| otherwise = l
prependHash _ i = i
fixBlockIRs :: String -> Block -> Block
fixBlockIRs s (Div as b) =
Div (fixAttrs s as) b
fixBlockIRs s (Header i as b) =
Header i (fixAttrs s as) b
fixBlockIRs s (CodeBlock as code) =
CodeBlock (fixAttrs s as) code
fixBlockIRs _ b = b
fixAttrs :: FilePath -> B.Attr -> B.Attr
fixAttrs s (ident, cs, kvs) = (addHash s ident, filter (not . T.null) cs, removeEPUBAttrs kvs)
addHash :: String -> T.Text -> T.Text
addHash _ "" = ""
addHash s ident = T.pack (takeFileName s) <> "#" <> ident
removeEPUBAttrs :: [(T.Text, T.Text)] -> [(T.Text, T.Text)]
removeEPUBAttrs kvs = filter (not . isEPUBAttr) kvs
isEPUBAttr :: (T.Text, a) -> Bool
isEPUBAttr (k, _) = "epub:" `T.isPrefixOf` k
foldM' :: (Monad m, NFData a) => (a -> b -> m a) -> a -> [b] -> m a
foldM' _ z [] = return z
foldM' f z (x:xs) = do
z' <- f z x
z' `deepseq` foldM' f z' xs
uncurry3 :: (a -> b -> c -> d) -> (a, b, c) -> d
uncurry3 f (a, b, c) = f a b c
stripNamespace :: QName -> String
stripNamespace (QName v _ _) = v
attrToNSPair :: Attr -> Maybe (String, String)
attrToNSPair (Attr (QName "xmlns" _ _) val) = Just ("xmlns", val)
attrToNSPair _ = Nothing
attrToPair :: Attr -> (String, String)
attrToPair (Attr (QName name _ _) val) = (name, val)
defaultNameSpace :: Maybe String
defaultNameSpace = Just "http://www.idpf.org/2007/opf"
dfName :: String -> QName
dfName s = QName s defaultNameSpace Nothing
emptyName :: String -> QName
emptyName s = QName s Nothing Nothing
findAttrE :: PandocMonad m => QName -> Element -> m String
findAttrE q e = mkE "findAttr" $ findAttr q e
findEntryByPathE :: PandocMonad m => FilePath -> Archive -> m Entry
findEntryByPathE (normalise . unEscapeString -> path) a =
mkE ("No entry on path: " ++ path) $ findEntryByPath path a
parseXMLDocE :: PandocMonad m => String -> m Element
parseXMLDocE doc = mkE "Unable to parse XML doc" $ parseXMLDoc doc
findElementE :: PandocMonad m => QName -> Element -> m Element
findElementE e x = mkE ("Unable to find element: " ++ show e) $ findElement e x
mkE :: PandocMonad m => String -> Maybe a -> m a
mkE s = maybe (throwError . PandocParseError $ T.pack s) return