{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE PatternGuards #-}
{-# LANGUAGE ScopedTypeVariables #-}
module Text.CSL.Pandoc (processCites, processCites')
where
import Prelude
import Control.Applicative ((<|>))
import qualified Control.Exception as E
import Control.Monad
import Control.Monad.State
import Data.Aeson
import qualified Data.ByteString.Lazy as L
import Data.Char (isDigit, isPunctuation, isSpace,
toLower)
import qualified Data.Map as M
import qualified Data.Set as Set
import Data.Maybe (fromMaybe)
import System.Directory (getAppUserDataDirectory)
import System.Environment (getEnv)
import System.FilePath
import System.IO.Error (isDoesNotExistError)
import System.SetEnv (setEnv)
import Text.CSL.Data (getDefaultCSL)
import Text.CSL.Exception
import Text.CSL.Input.Bibutils (convertRefs, readBiblioFile)
import Text.CSL.Output.Pandoc (renderPandoc, renderPandoc',
headInline, initInline, tailInline, toCapital)
import Text.CSL.Parser
import Text.CSL.Proc
import Text.CSL.Reference hiding (Value, processCites)
import Text.CSL.Style hiding (Citation (..), Cite (..))
import qualified Text.CSL.Style as CSL
import Text.CSL.Util (findFile, lastInline,
parseRomanNumeral, splitStrWhen, tr',
trim)
import Text.HTML.TagSoup.Entity (lookupEntity)
import Text.Pandoc
import Text.Pandoc.Builder (deleteMeta, setMeta)
import Text.Pandoc.Shared (stringify)
import Text.Pandoc.Walk
import Text.Parsec hiding (State, (<|>))
processCites :: Style -> [Reference] -> Pandoc -> Pandoc
processCites style refs (Pandoc m1 b1) =
let metanocites = lookupMeta "nocite" m1
nocites = mkNociteWildcards refs . query getCitation <$> metanocites
Pandoc m2 b2 = evalState (walkM setHashes $ Pandoc (deleteMeta "nocite" m1) b1) 1
grps = query getCitation (Pandoc m2 b2) ++ fromMaybe [] nocites
locMap = locatorMap style
result = citeproc procOpts{ linkCitations = isLinkCitations m2}
style refs (setNearNote style $
map (map (toCslCite locMap)) grps)
cits_map = tr' "cits_map" $ M.fromList $ zip grps (citations result)
biblioList = map (renderPandoc' style) $ zip (bibliography result) (citationIds result)
moveNotes = maybe True truish $
lookupMeta "notes-after-punctuation" m1
Pandoc m3 bs = walk (mvPunct moveNotes style) . deNote .
walk (processCite style cits_map) $ Pandoc m2 b2
m = case metanocites of
Nothing -> m3
Just x -> setMeta "nocite" x m3
in Pandoc m $ walk (concatMap removeNocaseSpans)
$ insertRefs m biblioList bs
insertRefs :: Meta -> [Block] -> [Block] -> [Block]
insertRefs _ [] bs = bs
insertRefs meta refs bs =
if isRefRemove meta
then bs
else case runState (walkM go bs) False of
(bs', True) -> bs'
(_, False) ->
case reverse bs of
Header lev (id',classes,kvs) ys : xs ->
reverse xs ++
[Header lev (id',addUnNumbered classes,kvs) ys,
Div ("refs",["references"],[]) refs]
_ -> bs ++ refHeader ++
[Div ("refs",["references"],[]) refs]
where go :: Block -> State Bool Block
go (Div attr@("refs",_,_) xs) = do
put True
return $ Div attr (xs ++ refs)
go x = return x
addUnNumbered cs = "unnumbered" : [c | c <- cs, c /= "unnumbered"]
refHeader = case refTitle meta of
Just ils ->
[Header 1 ("bibliography", ["unnumbered"], []) ils]
_ -> []
refTitle :: Meta -> Maybe [Inline]
refTitle meta =
case lookupMeta "reference-section-title" meta of
Just (MetaString s) -> Just [Str s]
Just (MetaInlines ils) -> Just ils
Just (MetaBlocks [Plain ils]) -> Just ils
Just (MetaBlocks [Para ils]) -> Just ils
_ -> Nothing
isRefRemove :: Meta -> Bool
isRefRemove meta =
maybe False truish $ lookupMeta "suppress-bibliography" meta
isLinkCitations :: Meta -> Bool
isLinkCitations meta =
maybe False truish $ lookupMeta "link-citations" meta
truish :: MetaValue -> Bool
truish (MetaBool t) = t
truish (MetaString s) = isYesValue (map toLower s)
truish (MetaInlines ils) = isYesValue (map toLower (stringify ils))
truish (MetaBlocks [Plain ils]) = isYesValue (map toLower (stringify ils))
truish _ = False
isYesValue :: String -> Bool
isYesValue "t" = True
isYesValue "true" = True
isYesValue "yes" = True
isYesValue "on" = True
isYesValue _ = False
mkNociteWildcards :: [Reference] -> [[Citation]] -> [[Citation]]
mkNociteWildcards refs nocites =
map expandStar nocites
where expandStar cs =
case [c | c <- cs
, citationId c == "*"] of
[] -> cs
_ -> allcites
allcites = map (\ref -> Citation{
citationId = unLiteral (refId ref),
citationPrefix = [],
citationSuffix = [],
citationMode = NormalCitation,
citationNoteNum = 0,
citationHash = 0 }) refs
removeNocaseSpans :: Inline -> [Inline]
removeNocaseSpans (Span ("",["nocase"],[]) xs) = xs
removeNocaseSpans x = [x]
processCites' :: Pandoc -> IO Pandoc
processCites' (Pandoc meta blocks) = do
mbcsldir <- E.catch (Just <$> getAppUserDataDirectory "csl") $ \e ->
if isDoesNotExistError e
then return Nothing
else E.throwIO e
mbpandocdir <- E.catch (Just <$> getAppUserDataDirectory "pandoc") $ \e ->
if isDoesNotExistError e
then return Nothing
else E.throwIO e
let inlineRefError s = E.throw $ ErrorParsingReferences s
let inlineRefs = either inlineRefError id
$ convertRefs $ lookupMeta "references" meta
let cslfile = (lookupMeta "csl" meta <|> lookupMeta "citation-style" meta)
>>= toPath
let mbLocale = (lookupMeta "lang" meta `mplus` lookupMeta "locale" meta)
>>= toPath
let tryReadCSLFile Nothing _ = mzero
tryReadCSLFile (Just d) f = E.catch (readCSLFile mbLocale (d </> f))
(\(_ :: E.SomeException) -> mzero)
csl <- case cslfile of
Just f | not (null f) -> readCSLFile mbLocale f
_ -> tryReadCSLFile mbpandocdir "default.csl"
`mplus` tryReadCSLFile mbcsldir "chicago-author-date.csl"
`mplus` (getDefaultCSL >>=
localizeCSL mbLocale . parseCSL')
case styleLocale csl of
(l:_) -> do
setEnv "LC_ALL" (localeLang l)
setEnv "LANG" (localeLang l)
[] -> do
envlang <- getEnv "LANG"
if null envlang
then do
setEnv "LANG" "en-US.UTF-8"
setEnv "LC_ALL" "en-US.UTF-8"
else
setEnv "LC_ALL" envlang
let citids = query getCitationIds (Pandoc meta blocks)
let idpred = if "*" `Set.member` citids
then const True
else (`Set.member` citids)
bibRefs <- getBibRefs idpred $ fromMaybe (MetaList [])
$ lookupMeta "bibliography" meta
let refs = inlineRefs ++ bibRefs
let cslAbbrevFile = lookupMeta "citation-abbreviations" meta >>= toPath
let skipLeadingSpace = L.dropWhile (\s -> s == 32 || (s >= 9 && s <= 13))
abbrevs <- maybe (return (Abbreviations M.empty))
(\f -> findFile (maybe ["."] (\g -> [".", g]) mbcsldir) f >>=
maybe (E.throwIO $ CouldNotFindAbbrevFile f) return >>=
L.readFile >>=
either error return . eitherDecode . skipLeadingSpace)
cslAbbrevFile
let csl' = csl{ styleAbbrevs = abbrevs }
return $ processCites csl' refs $ Pandoc meta blocks
toPath :: MetaValue -> Maybe String
toPath (MetaString s) = Just s
toPath (MetaList xs) = case reverse xs of
[] -> Nothing
(x:_) -> toPath x
toPath (MetaInlines ils) = Just $ stringify ils
toPath _ = Nothing
getBibRefs :: (String -> Bool) -> MetaValue -> IO [Reference]
getBibRefs idpred (MetaList xs) = concat `fmap` mapM (getBibRefs idpred) xs
getBibRefs idpred (MetaInlines xs) = getBibRefs idpred (MetaString $ stringify xs)
getBibRefs idpred (MetaString s) = do
path <- findFile ["."] s >>= maybe (E.throwIO $ CouldNotFindBibFile s) return
map unescapeRefId `fmap` readBiblioFile idpred path
getBibRefs _ _ = return []
unescapeRefId :: Reference -> Reference
unescapeRefId ref = ref{ refId = Literal $ decodeEntities (unLiteral $ refId ref) }
decodeEntities :: String -> String
decodeEntities [] = []
decodeEntities ('&':xs) =
let (ys,zs) = break (==';') xs
in case zs of
';':ws -> case lookupEntity ('&':ys ++ ";") of
#if MIN_VERSION_tagsoup(0,13,0)
Just s -> s ++ decodeEntities ws
#else
Just c -> [c] ++ decodeEntities ws
#endif
Nothing -> '&' : decodeEntities xs
_ -> '&' : decodeEntities xs
decodeEntities (x:xs) = x : decodeEntities xs
processCite :: Style -> M.Map [Citation] Formatted -> Inline -> Inline
processCite s cs (Cite t _) =
case M.lookup t cs of
Just (Formatted xs)
| not (null xs) || all isSuppressAuthor t
-> Cite t (renderPandoc s (Formatted xs))
_ -> Strong [Str "???"]
where isSuppressAuthor c = citationMode c == SuppressAuthor
processCite _ _ x = x
isNote :: Inline -> Bool
isNote (Note _) = True
isNote (Cite _ [Note _]) = True
isNote _ = False
mvPunctInsideQuote :: Inline -> Inline -> [Inline]
mvPunctInsideQuote (Quoted qt ils) (Str s) | s `elem` [".", ","] =
[Quoted qt (init ils ++ mvPunctInsideQuote (last ils) (Str s))]
mvPunctInsideQuote il il' = [il, il']
isSpacy :: Inline -> Bool
isSpacy Space = True
isSpacy SoftBreak = True
isSpacy _ = False
mvPunct :: Bool -> Style -> [Inline] -> [Inline]
mvPunct moveNotes sty (x : Space : xs)
| isSpacy x = x : mvPunct moveNotes sty xs
mvPunct moveNotes sty (q : s : x : ys)
| isSpacy s
, isNote x
, startWithPunct ys
= if moveNotes
then mvPunct moveNotes sty $
q : Str (headInline ys) : x : tailInline ys
else q : x : mvPunct moveNotes sty ys
mvPunct moveNotes sty (Cite cs ils : ys)
| length ils > 1
, isNote (last ils)
, startWithPunct ys
, moveNotes
= Cite cs (init ils
++ [Str (headInline ys) | not (endWithPunct False (init ils))]
++ [last ils]) : mvPunct moveNotes sty (tailInline ys)
mvPunct moveNotes sty (q@(Quoted _ _) : w@(Str _) : x : ys)
| isNote x
, isPunctuationInQuote sty
, moveNotes
= mvPunctInsideQuote q w ++ (x : mvPunct moveNotes sty ys)
mvPunct moveNotes sty (s : x : ys) | isSpacy s, isNote x =
x : mvPunct moveNotes sty ys
mvPunct moveNotes sty (s : x@(Cite _ (Superscript _ : _)) : ys)
| isSpacy s = x : mvPunct moveNotes sty ys
mvPunct moveNotes sty (Cite cs ils : Str "." : ys)
| lastInline ils == "."
= Cite cs ils : mvPunct moveNotes sty ys
mvPunct moveNotes sty (x:xs) = x : mvPunct moveNotes sty xs
mvPunct _ _ [] = []
endWithPunct :: Bool -> [Inline] -> Bool
endWithPunct _ [] = True
endWithPunct onlyFinal xs@(_:_) =
case reverse (stringify xs) of
[] -> True
(d:c:_) | isPunctuation d
&& not onlyFinal
&& isEndPunct c -> True
(c:_) | isEndPunct c -> True
| otherwise -> False
where isEndPunct c = c `elem` (".,;:!?" :: String)
startWithPunct :: [Inline] -> Bool
startWithPunct = all (`elem` (".,;:!?" :: String)) . headInline
deNote :: Pandoc -> Pandoc
deNote = topDown go
where go (Cite (c:cs) [Note [Para xs]]) =
Cite (c:cs) [Note [Para $ toCapital xs]]
go (Note xs) = Note $ topDown go' xs
go x = x
go' (x : Cite cs [Note [Para xs]] : ys) | not (isSpacy x) =
x : Str "," : Space : comb (\zs -> [Cite cs zs]) xs ys
go' (x : Note [Para xs] : ys) | not (isSpacy x) =
x : Str "," : Space : comb id xs ys
go' (Cite cs [Note [Para xs]] : ys) = comb (\zs -> [Cite cs zs]) xs ys
go' (Note [Para xs] : ys) = comb id xs ys
go' xs = xs
comb :: ([Inline] -> [Inline]) -> [Inline] -> [Inline] -> [Inline]
comb f xs ys =
let xs' = if startWithPunct ys && endWithPunct True xs
then initInline $ removeLeadingPunct xs
else removeLeadingPunct xs
removeLeadingPunct (Str [c] : s : zs)
| isSpacy s && (c == ',' || c == '.' || c == ':') = zs
removeLeadingPunct zs = zs
in f xs' ++ ys
getCitation :: Inline -> [[Citation]]
getCitation i | Cite t _ <- i = [t]
| otherwise = []
getCitationIds :: Inline -> Set.Set String
getCitationIds (Cite cs _) = Set.fromList (map citationId cs)
getCitationIds _ = mempty
setHashes :: Inline -> State Int Inline
setHashes i | Cite t ils <- i = do t' <- mapM setHash t
return $ Cite t' ils
| otherwise = return i
setHash :: Citation -> State Int Citation
setHash c = do
ident <- get
put $ ident + 1
return c{ citationHash = ident }
toCslCite :: LocatorMap -> Citation -> CSL.Cite
toCslCite locMap c
= let (la, lo, s) = locatorWords locMap $ citationSuffix c
s' = case (la,lo,s) of
("","",x:_)
| not (isPunct x) -> Space : s
_ -> s
isPunct (Str (x:_)) = isPunctuation x
isPunct _ = False
in emptyCite { CSL.citeId = citationId c
, CSL.citePrefix = Formatted $ citationPrefix c
, CSL.citeSuffix = Formatted s'
, CSL.citeLabel = la
, CSL.citeLocator = lo
, CSL.citeNoteNumber = show $ citationNoteNum c
, CSL.authorInText = citationMode c == AuthorInText
, CSL.suppressAuthor = citationMode c == SuppressAuthor
, CSL.citeHash = citationHash c
}
locatorWords :: LocatorMap -> [Inline] -> (String, String, [Inline])
locatorWords locMap inp =
case parse (pLocatorWords locMap) "suffix" $
splitStrWhen (\c -> isLocatorPunct c || isSpace c) inp of
Right r -> r
Left _ -> ("","",inp)
pLocatorWords :: LocatorMap -> Parsec [Inline] st (String, String, [Inline])
pLocatorWords locMap = do
(la,lo) <- pLocator locMap
s <- getInput
return (la, lo, s)
pMatch :: (Inline -> Bool) -> Parsec [Inline] st Inline
pMatch condition = try $ do
t <- anyToken
guard $ condition t
return t
pSpace :: Parsec [Inline] st Inline
pSpace = pMatch (\t -> isSpacy t || t == Str "\160")
pLocator :: LocatorMap -> Parsec [Inline] st (String, String)
pLocator locMap = try $ do
optional $ pMatch (== Str ",")
optional pSpace
la <- try (do ts <- many1 (notFollowedBy (pWordWithDigits True) >> anyToken)
case M.lookup (trim (stringify ts)) locMap of
Just l -> return l
Nothing -> mzero)
<|> (lookAhead pDigit >> return "page")
g <- pWordWithDigits True
gs <- many (pWordWithDigits False)
let lo = concat (g:gs)
return (la, lo)
pRoman :: Parsec [Inline] st String
pRoman = try $ do
t <- anyToken
case t of
Str xs -> case parseRomanNumeral xs of
Nothing -> mzero
Just _ -> return xs
_ -> mzero
pWordWithDigits :: Bool -> Parsec [Inline] st String
pWordWithDigits isfirst = try $ do
punct <- if isfirst
then return ""
else stringify `fmap` pLocatorPunct
sp <- option "" (pSpace >> return " ")
s <- pRoman <|>
try (do ts <- many1 (notFollowedBy pSpace >>
notFollowedBy pLocatorPunct >>
anyToken)
let ts' = stringify ts
guard (any isDigit ts')
return ts')
return $ punct ++ sp ++ s
pDigit :: Parsec [Inline] st ()
pDigit = do
t <- anyToken
case t of
Str (d:_) | isDigit d -> return ()
_ -> mzero
pLocatorPunct :: Parsec [Inline] st Inline
pLocatorPunct = pMatch isLocatorPunct'
where isLocatorPunct' (Str [c]) = isLocatorPunct c
isLocatorPunct' _ = False
isLocatorPunct :: Char -> Bool
isLocatorPunct ':' = False
isLocatorPunct c = isPunctuation c
type LocatorMap = M.Map String String
locatorMap :: Style -> LocatorMap
locatorMap sty =
foldr (\term -> M.insert (termSingular term) (cslTerm term)
. M.insert (termPlural term) (cslTerm term))
M.empty
(concatMap localeTerms $ styleLocale sty)