{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE PatternGuards #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE ViewPatterns #-}
module Text.Pandoc.Writers.LaTeX (
writeLaTeX
, writeBeamer
) where
import Control.Applicative ((<|>))
import Control.Monad.State.Strict
import Data.Monoid (Any(..))
import Data.Char (isAlphaNum, isAscii, isDigit, isLetter, isSpace,
isPunctuation, ord)
import Data.List (foldl', intersperse, nubBy, (\\), uncons)
import Data.Maybe (catMaybes, fromMaybe, isJust, mapMaybe, isNothing)
import qualified Data.Map as M
import Data.Text (Text)
import qualified Data.Text as T
import Network.URI (unEscapeString)
import Text.DocTemplates (FromContext(lookupContext), renderTemplate,
Val(..), Context(..))
import Text.Pandoc.BCP47 (Lang (..), getLang, renderLang)
import Text.Pandoc.Class.PandocMonad (PandocMonad, report, toLang)
import Text.Pandoc.Definition
import Text.Pandoc.Highlighting (formatLaTeXBlock, formatLaTeXInline, highlight,
styleToLaTeX, toListingsLanguage)
import Text.Pandoc.ImageSize
import Text.Pandoc.Logging
import Text.Pandoc.Options
import Text.DocLayout
import Text.Pandoc.Shared
import Text.Pandoc.Slides
import Text.Pandoc.Walk
import Text.Pandoc.Writers.Shared
import Text.Printf (printf)
import qualified Data.Text.Normalize as Normalize
data WriterState =
WriterState { stInNote :: Bool
, stInQuote :: Bool
, stExternalNotes :: Bool
, stInMinipage :: Bool
, stInHeading :: Bool
, stInItem :: Bool
, stNotes :: [Doc Text]
, stOLLevel :: Int
, stOptions :: WriterOptions
, stVerbInNote :: Bool
, stTable :: Bool
, stStrikeout :: Bool
, stUrl :: Bool
, stGraphics :: Bool
, stLHS :: Bool
, stHasChapters :: Bool
, stCsquotes :: Bool
, stHighlighting :: Bool
, stIncremental :: Bool
, stInternalLinks :: [Text]
, stBeamer :: Bool
, stEmptyLine :: Bool
, stHasCslRefs :: Bool
, stCslHangingIndent :: Bool
}
startingState :: WriterOptions -> WriterState
startingState options = WriterState {
stInNote = False
, stInQuote = False
, stExternalNotes = False
, stInHeading = False
, stInMinipage = False
, stInItem = False
, stNotes = []
, stOLLevel = 1
, stOptions = options
, stVerbInNote = False
, stTable = False
, stStrikeout = False
, stUrl = False
, stGraphics = False
, stLHS = False
, stHasChapters = case writerTopLevelDivision options of
TopLevelPart -> True
TopLevelChapter -> True
_ -> False
, stCsquotes = False
, stHighlighting = False
, stIncremental = writerIncremental options
, stInternalLinks = []
, stBeamer = False
, stEmptyLine = True
, stHasCslRefs = False
, stCslHangingIndent = False }
writeLaTeX :: PandocMonad m => WriterOptions -> Pandoc -> m Text
writeLaTeX options document =
evalStateT (pandocToLaTeX options document) $
startingState options
writeBeamer :: PandocMonad m => WriterOptions -> Pandoc -> m Text
writeBeamer options document =
evalStateT (pandocToLaTeX options document) $
(startingState options){ stBeamer = True }
type LW m = StateT WriterState m
pandocToLaTeX :: PandocMonad m
=> WriterOptions -> Pandoc -> LW m Text
pandocToLaTeX options (Pandoc meta blocks) = do
let method = writerCiteMethod options
let blocks' = if method == Biblatex || method == Natbib
then case reverse blocks of
Div ("refs",_,_) _:xs -> reverse xs
_ -> blocks
else blocks
let isInternalLink (Link _ _ (s,_))
| Just ('#', xs) <- T.uncons s = [xs]
isInternalLink _ = []
modify $ \s -> s{ stInternalLinks = query isInternalLink blocks' }
let colwidth = if writerWrapText options == WrapAuto
then Just $ writerColumns options
else Nothing
metadata <- metaToContext options
blockListToLaTeX
(fmap chomp . inlineListToLaTeX)
meta
let chaptersClasses = ["memoir","book","report","scrreprt","scrbook","extreport","extbook","tufte-book"]
let frontmatterClasses = ["memoir","book","scrbook","extbook","tufte-book"]
beamer <- gets stBeamer
let documentClass =
case lookupContext "documentclass" (writerVariables options) `mplus`
(stringify <$> lookupMeta "documentclass" meta) of
Just x -> x
Nothing | beamer -> "beamer"
| otherwise -> case writerTopLevelDivision options of
TopLevelPart -> "book"
TopLevelChapter -> "book"
_ -> "article"
when (documentClass `elem` chaptersClasses) $
modify $ \s -> s{ stHasChapters = True }
case lookupContext "csquotes" (writerVariables options) `mplus`
(stringify <$> lookupMeta "csquotes" meta) of
Nothing -> return ()
Just "false" -> return ()
Just _ -> modify $ \s -> s{stCsquotes = True}
let (blocks'', lastHeader) = if writerCiteMethod options == Citeproc then
(blocks', [])
else case reverse blocks' of
Header 1 _ il : _ -> (init blocks', il)
_ -> (blocks', [])
blocks''' <- if beamer
then toSlides blocks''
else return $ makeSections False Nothing blocks''
main <- blockListToLaTeX blocks'''
biblioTitle <- inlineListToLaTeX lastHeader
st <- get
titleMeta <- stringToLaTeX TextString $ stringify $ docTitle meta
authorsMeta <- mapM (stringToLaTeX TextString . stringify) $ docAuthors meta
docLangs <- catMaybes <$>
mapM (toLang . Just) (ordNub (query (extract "lang") blocks))
let hasStringValue x = isJust (getField x metadata :: Maybe (Doc Text))
let geometryFromMargins = mconcat $ intersperse ("," :: Doc Text) $
mapMaybe (\(x,y) ->
((x <> "=") <>) <$> getField y metadata)
[("lmargin","margin-left")
,("rmargin","margin-right")
,("tmargin","margin-top")
,("bmargin","margin-bottom")
]
let toPolyObj :: Lang -> Val Text
toPolyObj lang = MapVal $ Context $
M.fromList [ ("name" , SimpleVal $ literal name)
, ("options" , SimpleVal $ literal opts) ]
where
(name, opts) = toPolyglossia lang
mblang <- toLang $ case getLang options meta of
Just l -> Just l
Nothing | null docLangs -> Nothing
| otherwise -> Just "en"
let dirs = query (extract "dir") blocks
let context = defField "toc" (writerTableOfContents options) $
defField "toc-depth" (tshow
(writerTOCDepth options -
if stHasChapters st
then 1
else 0)) $
defField "body" main $
defField "title-meta" titleMeta $
defField "author-meta"
(T.intercalate "; " authorsMeta) $
defField "documentclass" documentClass $
defField "verbatim-in-note" (stVerbInNote st) $
defField "tables" (stTable st) $
defField "strikeout" (stStrikeout st) $
defField "url" (stUrl st) $
defField "numbersections" (writerNumberSections options) $
defField "lhs" (stLHS st) $
defField "graphics" (stGraphics st) $
defField "has-chapters" (stHasChapters st) $
defField "has-frontmatter" (documentClass `elem` frontmatterClasses) $
defField "listings" (writerListings options || stLHS st) $
defField "beamer" beamer $
(if stHighlighting st
then case writerHighlightStyle options of
Just sty ->
defField "highlighting-macros"
(T.stripEnd $ styleToLaTeX sty)
Nothing -> id
else id) $
(case writerCiteMethod options of
Natbib -> defField "biblio-title" biblioTitle .
defField "natbib" True
Biblatex -> defField "biblio-title" biblioTitle .
defField "biblatex" True
_ -> id) $
defField "colorlinks" (any hasStringValue
["citecolor", "urlcolor", "linkcolor", "toccolor",
"filecolor"]) $
(if null dirs
then id
else defField "dir" ("ltr" :: Text)) $
defField "section-titles" True $
defField "csl-refs" (stHasCslRefs st) $
defField "csl-hanging-indent" (stCslHangingIndent st) $
defField "geometry" geometryFromMargins $
(case T.uncons . render Nothing <$>
getField "papersize" metadata of
Just (Just ('A', ds))
| not (T.null ds) && T.all isDigit ds
-> resetField "papersize" ("a" <> ds)
_ -> id)
metadata
let context' =
maybe id (\l -> defField "lang"
(literal $ renderLang l)) mblang
$ maybe id (\l -> defField "babel-lang"
(literal $ toBabel l)) mblang
$ defField "babel-otherlangs"
(map (literal . toBabel) docLangs)
$ defField "babel-newcommands" (vcat $
map (\(poly, babel) -> literal $
if poly `elem` ["spanish", "galician"]
then "\\let\\oritext" <> poly <> "\\text" <> poly <> "\n" <>
"\\AddBabelHook{" <> poly <> "}{beforeextras}" <>
"{\\renewcommand{\\text" <> poly <> "}{\\oritext"
<> poly <> "}}\n" <>
"\\AddBabelHook{" <> poly <> "}{afterextras}" <>
"{\\renewcommand{\\text" <> poly <> "}[2][]{\\foreignlanguage{"
<> poly <> "}{##2}}}"
else (if poly == "latin"
then "\\providecommand{\\textlatin}{}\n\\renewcommand"
else "\\newcommand") <> "{\\text" <> poly <>
"}[2][]{\\foreignlanguage{" <> babel <> "}{#2}}\n" <>
"\\newenvironment{" <> poly <>
"}[2][]{\\begin{otherlanguage}{" <>
babel <> "}}{\\end{otherlanguage}}"
)
$ nubBy (\a b -> fst a == fst b)
$ map (\l -> (fst $ toPolyglossia l, toBabel l)) docLangs
)
$ maybe id (defField "polyglossia-lang" . toPolyObj) mblang
$ defField "polyglossia-otherlangs"
(ListVal (map toPolyObj docLangs :: [Val Text]))
$
defField "latex-dir-rtl"
((render Nothing <$> getField "dir" context) ==
Just ("rtl" :: Text)) context
return $ render colwidth $
case writerTemplate options of
Nothing -> main
Just tpl -> renderTemplate tpl context'
data StringContext = TextString
| URLString
| CodeString
deriving (Eq)
stringToLaTeX :: PandocMonad m => StringContext -> Text -> LW m Text
stringToLaTeX context zs = do
opts <- gets stOptions
return $ T.pack $
foldr (go opts context) mempty $ T.unpack $
if writerPreferAscii opts
then Normalize.normalize Normalize.NFD zs
else zs
where
go :: WriterOptions -> StringContext -> Char -> String -> String
go opts ctx x xs =
let ligatures = isEnabled Ext_smart opts && ctx == TextString
isUrl = ctx == URLString
mbAccentCmd =
if writerPreferAscii opts && ctx == TextString
then uncons xs >>= \(c,_) -> M.lookup c accents
else Nothing
emits s =
case mbAccentCmd of
Just cmd ->
cmd <> "{" <> s <> "}" <> drop 1 xs
Nothing -> s <> xs
emitc c =
case mbAccentCmd of
Just cmd ->
cmd <> "{" <> [c] <> "}" <> drop 1 xs
Nothing -> c : xs
emitcseq cs =
case xs of
c:_ | isLetter c
, ctx == TextString
-> cs <> " " <> xs
| isSpace c -> cs <> "{}" <> xs
| ctx == TextString
-> cs <> xs
_ -> cs <> "{}" <> xs
emitquote cs =
case xs of
'`':_ -> cs <> "\\," <> xs
'\'':_ -> cs <> "\\," <> xs
_ -> cs <> xs
in case x of
'?' | ligatures ->
case xs of
'`':_ -> emits "?{}"
_ -> emitc x
'!' | ligatures ->
case xs of
'`':_ -> emits "!{}"
_ -> emitc x
'{' -> emits "\\{"
'}' -> emits "\\}"
'`' | ctx == CodeString -> emitcseq "\\textasciigrave"
'$' | not isUrl -> emits "\\$"
'%' -> emits "\\%"
'&' -> emits "\\&"
'_' | not isUrl -> emits "\\_"
'#' -> emits "\\#"
'-' | not isUrl -> case xs of
('-':_) -> emits "-\\/"
_ -> emitc '-'
'~' | not isUrl -> emitcseq "\\textasciitilde"
'^' -> emits "\\^{}"
'\\'| isUrl -> emitc '/'
| otherwise -> emitcseq "\\textbackslash"
'|' | not isUrl -> emitcseq "\\textbar"
'<' -> emitcseq "\\textless"
'>' -> emitcseq "\\textgreater"
'[' -> emits "{[}"
']' -> emits "{]}"
'\'' | ctx == CodeString -> emitcseq "\\textquotesingle"
'\160' -> emits "~"
'\x200B' -> emits "\\hspace{0pt}"
'\x202F' -> emits "\\,"
'\x2026' -> emitcseq "\\ldots"
'\x2018' | ligatures -> emitquote "`"
'\x2019' | ligatures -> emitquote "'"
'\x201C' | ligatures -> emitquote "``"
'\x201D' | ligatures -> emitquote "''"
'\x2014' | ligatures -> emits "---"
'\x2013' | ligatures -> emits "--"
_ | writerPreferAscii opts
-> case x of
'ı' -> emitcseq "\\i"
'ȷ' -> emitcseq "\\j"
'å' -> emitcseq "\\aa"
'Å' -> emitcseq "\\AA"
'ß' -> emitcseq "\\ss"
'ø' -> emitcseq "\\o"
'Ø' -> emitcseq "\\O"
'Ł' -> emitcseq "\\L"
'ł' -> emitcseq "\\l"
'æ' -> emitcseq "\\ae"
'Æ' -> emitcseq "\\AE"
'œ' -> emitcseq "\\oe"
'Œ' -> emitcseq "\\OE"
'£' -> emitcseq "\\pounds"
'€' -> emitcseq "\\euro"
'©' -> emitcseq "\\copyright"
_ -> emitc x
| otherwise -> emitc x
accents :: M.Map Char String
accents = M.fromList
[ ('\779' , "\\H")
, ('\768' , "\\`")
, ('\769' , "\\'")
, ('\770' , "\\^")
, ('\771' , "\\~")
, ('\776' , "\\\"")
, ('\775' , "\\.")
, ('\772' , "\\=")
, ('\781' , "\\|")
, ('\817' , "\\b")
, ('\807' , "\\c")
, ('\783' , "\\G")
, ('\777' , "\\h")
, ('\803' , "\\d")
, ('\785' , "\\f")
, ('\778' , "\\r")
, ('\865' , "\\t")
, ('\782' , "\\U")
, ('\780' , "\\v")
, ('\774' , "\\u")
, ('\808' , "\\k")
, ('\785' , "\\newtie")
, ('\8413', "\\textcircled")
]
toLabel :: PandocMonad m => Text -> LW m Text
toLabel z = go `fmap` stringToLaTeX URLString z
where
go = T.concatMap $ \x -> case x of
_ | (isLetter x || isDigit x) && isAscii x -> T.singleton x
| x `elemText` "_-+=:;." -> T.singleton x
| otherwise -> T.pack $ "ux" <> printf "%x" (ord x)
inCmd :: Text -> Doc Text -> Doc Text
inCmd cmd contents = char '\\' <> literal cmd <> braces contents
toSlides :: PandocMonad m => [Block] -> LW m [Block]
toSlides bs = do
opts <- gets stOptions
let slideLevel = fromMaybe (getSlideLevel bs) $ writerSlideLevel opts
let bs' = prepSlides slideLevel bs
walkM (elementToBeamer slideLevel) $ makeSections False Nothing bs'
elementToBeamer :: PandocMonad m => Int -> Block -> LW m Block
elementToBeamer slideLevel (Div (ident,"section":dclasses,dkvs)
xs@(h@(Header lvl _ _) : ys))
| lvl > slideLevel
= return $ Div (ident,"block":dclasses,dkvs) xs
| lvl < slideLevel
= do let isSlide (Div (_,"slide":_,_) _) = True
isSlide (Div (_,"section":_,_) _) = True
isSlide _ = False
let (titleBs, slideBs) = break isSlide ys
return $
if null titleBs
then Div (ident,"section":dclasses,dkvs) xs
else Div (ident,"section":dclasses,dkvs)
(h : Div ("","slide":dclasses,dkvs) (h:titleBs) : slideBs)
| otherwise
= return $ Div (ident,"slide":dclasses,dkvs) xs
elementToBeamer _ x = return x
isListBlock :: Block -> Bool
isListBlock (BulletList _) = True
isListBlock (OrderedList _ _) = True
isListBlock (DefinitionList _) = True
isListBlock _ = False
blockToLaTeX :: PandocMonad m
=> Block
-> LW m (Doc Text)
blockToLaTeX Null = return empty
blockToLaTeX (Div attr@(identifier,"block":_,_) (Header _ _ ils : bs)) = do
ref <- toLabel identifier
let anchor = if T.null identifier
then empty
else cr <> "\\protect\\hypertarget" <>
braces (literal ref) <> braces empty
title' <- inlineListToLaTeX ils
contents <- blockListToLaTeX bs
wrapDiv attr $ ("\\begin{block}" <> braces title' <> anchor) $$
contents $$ "\\end{block}"
blockToLaTeX (Div (identifier,"slide":dclasses,dkvs)
(Header _ (_,hclasses,hkvs) ils : bs)) = do
let hasCodeBlock (CodeBlock _ _) = [True]
hasCodeBlock _ = []
let hasCode (Code _ _) = [True]
hasCode _ = []
let classes = ordNub $ dclasses ++ hclasses
let kvs = ordNub $ dkvs ++ hkvs
let fragile = "fragile" `elem` classes ||
not (null $ query hasCodeBlock bs ++ query hasCode bs)
let frameoptions = ["allowdisplaybreaks", "allowframebreaks", "fragile",
"b", "c", "t", "environment",
"label", "plain", "shrink", "standout",
"noframenumbering"]
let optionslist = ["fragile" | fragile
, isNothing (lookup "fragile" kvs)
, "fragile" `notElem` classes] ++
[k | k <- classes, k `elem` frameoptions] ++
[k <> "=" <> v | (k,v) <- kvs, k `elem` frameoptions]
let options = if null optionslist
then empty
else brackets (literal (T.intercalate "," optionslist))
slideTitle <- if ils == [Str "\0"]
then return empty
else braces <$> inlineListToLaTeX ils
ref <- toLabel identifier
let slideAnchor = if T.null identifier
then empty
else cr <> "\\protect\\hypertarget" <>
braces (literal ref) <> braces empty
contents <- blockListToLaTeX bs >>= wrapDiv (identifier,classes,kvs)
return $ ("\\begin{frame}" <> options <> slideTitle <> slideAnchor) $$
contents $$ "\\end{frame}"
blockToLaTeX (Div (identifier@(T.uncons -> Just (_,_)),dclasses,dkvs)
(Header lvl ("",hclasses,hkvs) ils : bs)) =
blockToLaTeX (Div ("",dclasses,dkvs)
(Header lvl (identifier,hclasses,hkvs) ils : bs))
blockToLaTeX (Div (identifier,classes,kvs) bs) = do
beamer <- gets stBeamer
oldIncremental <- gets stIncremental
if beamer && "incremental" `elem` classes
then modify $ \st -> st{ stIncremental = True }
else when (beamer && "nonincremental" `elem` classes) $
modify $ \st -> st { stIncremental = False }
result <- if identifier == "refs"
then do
inner <- blockListToLaTeX bs
modify $ \st -> st{ stHasCslRefs = True
, stCslHangingIndent =
"hanging-indent" `elem` classes }
return $ "\\begin{cslreferences}" $$
inner $$
"\\end{cslreferences}"
else blockListToLaTeX bs
modify $ \st -> st{ stIncremental = oldIncremental }
linkAnchor' <- hypertarget True identifier empty
let linkAnchor =
case bs of
Para _ : _
| not (isEmpty linkAnchor')
-> "\\leavevmode" <> linkAnchor' <> "%"
_ -> linkAnchor'
wrapNotes txt = if beamer && "notes" `elem` classes
then "\\note" <> braces txt
else linkAnchor $$ txt
wrapNotes <$> wrapDiv (identifier,classes,kvs) result
blockToLaTeX (Plain lst) =
inlineListToLaTeX lst
blockToLaTeX (Para [Image attr@(ident, _, _) txt (src,tgt)])
| Just tit <- T.stripPrefix "fig:" tgt
= do
(capt, captForLof, footnotes) <- getCaption True txt
lab <- labelFor ident
let caption = "\\caption" <> captForLof <> braces capt <> lab
img <- inlineToLaTeX (Image attr txt (src,tit))
innards <- hypertarget True ident $
"\\centering" $$ img $$ caption <> cr
let figure = cr <> "\\begin{figure}" $$ innards $$ "\\end{figure}"
st <- get
return $ (if stInMinipage st
then cr <> "\\begin{center}" $$ img $+$ capt $$
"\\end{center}"
else figure) $$ footnotes
blockToLaTeX (Para [Str ".",Space,Str ".",Space,Str "."]) = do
beamer <- gets stBeamer
if beamer
then blockToLaTeX (RawBlock "latex" "\\pause")
else inlineListToLaTeX [Str ".",Space,Str ".",Space,Str "."]
blockToLaTeX (Para lst) =
inlineListToLaTeX lst
blockToLaTeX (LineBlock lns) =
blockToLaTeX $ linesToPara lns
blockToLaTeX (BlockQuote lst) = do
beamer <- gets stBeamer
case lst of
[b] | beamer && isListBlock b -> do
oldIncremental <- gets stIncremental
modify $ \s -> s{ stIncremental = not oldIncremental }
result <- blockToLaTeX b
modify $ \s -> s{ stIncremental = oldIncremental }
return result
_ -> do
oldInQuote <- gets stInQuote
modify (\s -> s{stInQuote = True})
contents <- blockListToLaTeX lst
modify (\s -> s{stInQuote = oldInQuote})
return $ "\\begin{quote}" $$ contents $$ "\\end{quote}"
blockToLaTeX (CodeBlock (identifier,classes,keyvalAttr) str) = do
opts <- gets stOptions
lab <- labelFor identifier
linkAnchor' <- hypertarget True identifier lab
let linkAnchor = if isEmpty linkAnchor'
then empty
else linkAnchor' <> "%"
let lhsCodeBlock = do
modify $ \s -> s{ stLHS = True }
return $ flush (linkAnchor $$ "\\begin{code}" $$ literal str $$
"\\end{code}") $$ cr
let rawCodeBlock = do
st <- get
env <- if stInNote st
then modify (\s -> s{ stVerbInNote = True }) >>
return "Verbatim"
else return "verbatim"
return $ flush (linkAnchor $$ literal ("\\begin{" <> env <> "}") $$
literal str $$ literal ("\\end{" <> env <> "}")) <> cr
let listingsCodeBlock = do
st <- get
ref <- toLabel identifier
let params = if writerListings (stOptions st)
then (case getListingsLanguage classes of
Just l -> [ "language=" <> mbBraced l ]
Nothing -> []) ++
[ "numbers=left" | "numberLines" `elem` classes
|| "number" `elem` classes
|| "number-lines" `elem` classes ] ++
[ (if key == "startFrom"
then "firstnumber"
else key) <> "=" <> mbBraced attr |
(key,attr) <- keyvalAttr,
key `notElem` ["exports", "tangle", "results"]
] ++
["label=" <> ref | not (T.null identifier)]
else []
printParams
| null params = empty
| otherwise = brackets $ hcat (intersperse ", "
(map literal params))
return $ flush ("\\begin{lstlisting}" <> printParams $$ literal str $$
"\\end{lstlisting}") $$ cr
let highlightedCodeBlock =
case highlight (writerSyntaxMap opts)
formatLaTeXBlock ("",classes,keyvalAttr) str of
Left msg -> do
unless (T.null msg) $
report $ CouldNotHighlight msg
rawCodeBlock
Right h -> do
st <- get
when (stInNote st) $ modify (\s -> s{ stVerbInNote = True })
modify (\s -> s{ stHighlighting = True })
return (flush $ linkAnchor $$ text (T.unpack h))
case () of
_ | isEnabled Ext_literate_haskell opts && "haskell" `elem` classes &&
"literate" `elem` classes -> lhsCodeBlock
| writerListings opts -> listingsCodeBlock
| not (null classes) && isJust (writerHighlightStyle opts)
-> highlightedCodeBlock
| otherwise -> rawCodeBlock
blockToLaTeX b@(RawBlock f x) = do
beamer <- gets stBeamer
if f == Format "latex" || f == Format "tex" ||
(f == Format "beamer" && beamer)
then return $ literal x
else do
report $ BlockNotRendered b
return empty
blockToLaTeX (BulletList []) = return empty
blockToLaTeX (BulletList lst) = do
incremental <- gets stIncremental
beamer <- gets stBeamer
let inc = if beamer && incremental then "[<+->]" else ""
items <- mapM listItemToLaTeX lst
let spacing = if isTightList lst
then text "\\tightlist"
else empty
return $ text ("\\begin{itemize}" <> inc) $$ spacing $$ vcat items $$
"\\end{itemize}"
blockToLaTeX (OrderedList _ []) = return empty
blockToLaTeX (OrderedList (start, numstyle, numdelim) lst) = do
st <- get
let inc = if stBeamer st && stIncremental st then "[<+->]" else ""
let oldlevel = stOLLevel st
put $ st {stOLLevel = oldlevel + 1}
items <- mapM listItemToLaTeX lst
modify (\s -> s {stOLLevel = oldlevel})
let beamer = stBeamer st
let tostyle x = case numstyle of
Decimal -> "\\arabic" <> braces x
UpperRoman -> "\\Roman" <> braces x
LowerRoman -> "\\roman" <> braces x
UpperAlpha -> "\\Alph" <> braces x
LowerAlpha -> "\\alph" <> braces x
Example -> "\\arabic" <> braces x
DefaultStyle -> "\\arabic" <> braces x
let todelim x = case numdelim of
OneParen -> x <> ")"
TwoParens -> parens x
Period -> x <> "."
_ -> x <> "."
let exemplar = case numstyle of
Decimal -> "1"
UpperRoman -> "I"
LowerRoman -> "i"
UpperAlpha -> "A"
LowerAlpha -> "a"
Example -> "1"
DefaultStyle -> "1"
let enum = literal $ "enum" <> T.toLower (toRomanNumeral oldlevel)
let stylecommand
| numstyle == DefaultStyle && numdelim == DefaultDelim = empty
| beamer && numstyle == Decimal && numdelim == Period = empty
| beamer = brackets (todelim exemplar)
| otherwise = "\\def" <> "\\label" <> enum <>
braces (todelim $ tostyle enum)
let resetcounter = if start == 1 || oldlevel > 4
then empty
else "\\setcounter" <> braces enum <>
braces (text $ show $ start - 1)
let spacing = if isTightList lst
then text "\\tightlist"
else empty
return $ text ("\\begin{enumerate}" <> inc)
$$ stylecommand
$$ resetcounter
$$ spacing
$$ vcat items
$$ "\\end{enumerate}"
blockToLaTeX (DefinitionList []) = return empty
blockToLaTeX (DefinitionList lst) = do
incremental <- gets stIncremental
beamer <- gets stBeamer
let inc = if beamer && incremental then "[<+->]" else ""
items <- mapM defListItemToLaTeX lst
let spacing = if all (isTightList . snd) lst
then text "\\tightlist"
else empty
return $ text ("\\begin{description}" <> inc) $$ spacing $$ vcat items $$
"\\end{description}"
blockToLaTeX HorizontalRule =
return
"\\begin{center}\\rule{0.5\\linewidth}{0.5pt}\\end{center}"
blockToLaTeX (Header level (id',classes,_) lst) = do
modify $ \s -> s{stInHeading = True}
hdr <- sectionHeader classes id' level lst
modify $ \s -> s{stInHeading = False}
return hdr
blockToLaTeX (Table _ blkCapt specs thead tbody tfoot) = do
let (caption, aligns, widths, heads, rows) = toLegacyTable blkCapt specs thead tbody tfoot
(captionText, captForLof, captNotes) <- getCaption False caption
let toHeaders hs = do contents <- tableRowToLaTeX True aligns widths hs
return ("\\toprule" $$ contents $$ "\\midrule")
let removeNote (Note _) = Span ("", [], []) []
removeNote x = x
firsthead <- if isEmpty captionText || all null heads
then return empty
else ($$ text "\\endfirsthead") <$> toHeaders heads
head' <- if all null heads
then return "\\toprule"
else toHeaders (if isEmpty firsthead
then heads
else walk removeNote heads)
let capt = if isEmpty captionText
then empty
else "\\caption" <> captForLof <> braces captionText
<> "\\tabularnewline"
rows' <- mapM (tableRowToLaTeX False aligns widths) rows
let colDescriptors = literal $ T.concat $ map toColDescriptor aligns
modify $ \s -> s{ stTable = True }
notes <- notesToLaTeX <$> gets stNotes
return $ "\\begin{longtable}[]" <>
braces ("@{}" <> colDescriptors <> "@{}")
$$ capt
$$ firsthead
$$ head'
$$ "\\endhead"
$$ vcat rows'
$$ "\\bottomrule"
$$ "\\end{longtable}"
$$ captNotes
$$ notes
getCaption :: PandocMonad m
=> Bool -> [Inline] -> LW m (Doc Text, Doc Text, Doc Text)
getCaption externalNotes txt = do
oldExternalNotes <- gets stExternalNotes
modify $ \st -> st{ stExternalNotes = externalNotes, stNotes = [] }
capt <- inlineListToLaTeX txt
footnotes <- if externalNotes
then notesToLaTeX <$> gets stNotes
else return empty
modify $ \st -> st{ stExternalNotes = oldExternalNotes, stNotes = [] }
let getNote (Note _) = Any True
getNote _ = Any False
let hasNotes = getAny . query getNote
captForLof <- if hasNotes txt
then brackets <$> inlineListToLaTeX (walk deNote txt)
else return empty
return (capt, captForLof, footnotes)
toColDescriptor :: Alignment -> Text
toColDescriptor align =
case align of
AlignLeft -> "l"
AlignRight -> "r"
AlignCenter -> "c"
AlignDefault -> "l"
blockListToLaTeX :: PandocMonad m => [Block] -> LW m (Doc Text)
blockListToLaTeX lst =
vsep `fmap` mapM (\b -> setEmptyLine True >> blockToLaTeX b) lst
tableRowToLaTeX :: PandocMonad m
=> Bool
-> [Alignment]
-> [Double]
-> [[Block]]
-> LW m (Doc Text)
tableRowToLaTeX header aligns widths cols = do
let scaleFactor = 0.97 ** fromIntegral (length aligns)
let isSimple [Plain _] = True
isSimple [Para _] = True
isSimple [] = True
isSimple _ = False
let widths' = if all (== 0) widths && not (all isSimple cols)
then replicate (length aligns)
(scaleFactor / fromIntegral (length aligns))
else map (scaleFactor *) widths
cells <- mapM (tableCellToLaTeX header) $ zip3 widths' aligns cols
return $ hsep (intersperse "&" cells) <> "\\tabularnewline"
fixLineBreaks :: Block -> Block
fixLineBreaks (Para ils) = Para $ fixLineBreaks' ils
fixLineBreaks (Plain ils) = Plain $ fixLineBreaks' ils
fixLineBreaks x = x
fixLineBreaks' :: [Inline] -> [Inline]
fixLineBreaks' ils = case splitBy (== LineBreak) ils of
[] -> []
[xs] -> xs
chunks -> RawInline "tex" "\\vtop{" :
concatMap tohbox chunks <>
[RawInline "tex" "}"]
where tohbox ys = RawInline "tex" "\\hbox{\\strut " : ys <>
[RawInline "tex" "}"]
displayMathToInline :: Inline -> Inline
displayMathToInline (Math DisplayMath x) = Math InlineMath x
displayMathToInline x = x
tableCellToLaTeX :: PandocMonad m => Bool -> (Double, Alignment, [Block])
-> LW m (Doc Text)
tableCellToLaTeX _ (0, _, blocks) =
blockListToLaTeX $ walk fixLineBreaks $ walk displayMathToInline blocks
tableCellToLaTeX header (width, align, blocks) = do
beamer <- gets stBeamer
externalNotes <- gets stExternalNotes
inMinipage <- gets stInMinipage
modify $ \st -> st{ stExternalNotes = beamer,
stInMinipage = True }
cellContents <- blockListToLaTeX blocks
modify $ \st -> st{ stExternalNotes = externalNotes,
stInMinipage = inMinipage }
let valign = text $ if header then "[b]" else "[t]"
let halign = case align of
AlignLeft -> "\\raggedright"
AlignRight -> "\\raggedleft"
AlignCenter -> "\\centering"
AlignDefault -> "\\raggedright"
return $ "\\begin{minipage}" <> valign <>
braces (text (printf "%.2f\\columnwidth" width)) <>
halign <> cr <> cellContents <> "\\strut" <> cr <>
"\\end{minipage}"
notesToLaTeX :: [Doc Text] -> Doc Text
notesToLaTeX [] = empty
notesToLaTeX ns = (case length ns of
n | n > 1 -> "\\addtocounter" <>
braces "footnote" <>
braces (text $ show $ 1 - n)
| otherwise -> empty)
$$
vcat (intersperse
("\\addtocounter" <> braces "footnote" <> braces "1")
$ map (\x -> "\\footnotetext" <> braces x)
$ reverse ns)
listItemToLaTeX :: PandocMonad m => [Block] -> LW m (Doc Text)
listItemToLaTeX lst
| (Header{} :_) <- lst =
(text "\\item ~" $$) . nest 2 <$> blockListToLaTeX lst
| Plain (Str "☐":Space:is) : bs <- lst = taskListItem False is bs
| Plain (Str "☒":Space:is) : bs <- lst = taskListItem True is bs
| Para (Str "☐":Space:is) : bs <- lst = taskListItem False is bs
| Para (Str "☒":Space:is) : bs <- lst = taskListItem True is bs
| otherwise = (text "\\item" $$) . nest 2 <$> blockListToLaTeX lst
where
taskListItem checked is bs = do
let checkbox = if checked
then "$\\boxtimes$"
else "$\\square$"
isContents <- inlineListToLaTeX is
bsContents <- blockListToLaTeX bs
return $ "\\item" <> brackets checkbox
$$ nest 2 (isContents $+$ bsContents)
defListItemToLaTeX :: PandocMonad m => ([Inline], [[Block]]) -> LW m (Doc Text)
defListItemToLaTeX (term, defs) = do
modify $ \s -> s{stInItem = True}
term' <- inlineListToLaTeX term
modify $ \s -> s{stInItem = False}
let isInternalLink (Link _ _ (src,_))
| Just ('#', _) <- T.uncons src = True
isInternalLink _ = False
let term'' = if any isInternalLink term
then braces term'
else term'
def' <- liftM vsep $ mapM blockListToLaTeX defs
return $ case defs of
((Header{} : _) : _) ->
"\\item" <> brackets term'' <> " ~ " $$ def'
((CodeBlock{} : _) : _) ->
"\\item" <> brackets term'' <> " ~ " $$ def'
_ ->
"\\item" <> brackets term'' $$ def'
sectionHeader :: PandocMonad m
=> [Text]
-> Text
-> Int
-> [Inline]
-> LW m (Doc Text)
sectionHeader classes ident level lst = do
let unnumbered = "unnumbered" `elem` classes
let unlisted = "unlisted" `elem` classes
txt <- inlineListToLaTeX lst
plain <- stringToLaTeX TextString $ T.concat $ map stringify lst
let removeInvalidInline (Note _) = []
removeInvalidInline (Span (id', _, _) _) | not (T.null id') = []
removeInvalidInline Image{} = []
removeInvalidInline x = [x]
let lstNoNotes = foldr (mappend . (\x -> walkM removeInvalidInline x)) mempty lst
txtNoNotes <- inlineListToLaTeX lstNoNotes
optional <- if unnumbered || lstNoNotes == lst || null lstNoNotes
then return empty
else
return $ brackets txtNoNotes
let contents = if render Nothing txt == plain
then braces txt
else braces (text "\\texorpdfstring"
<> braces txt
<> braces (literal plain))
book <- gets stHasChapters
opts <- gets stOptions
let topLevelDivision = if book && writerTopLevelDivision opts == TopLevelDefault
then TopLevelChapter
else writerTopLevelDivision opts
beamer <- gets stBeamer
let level' = if beamer &&
topLevelDivision `elem` [TopLevelPart, TopLevelChapter]
then if level == 1 then -1 else level - 1
else case topLevelDivision of
TopLevelPart -> level - 2
TopLevelChapter -> level - 1
TopLevelSection -> level
TopLevelDefault -> level
let sectionType = case level' of
-1 -> "part"
0 -> "chapter"
1 -> "section"
2 -> "subsection"
3 -> "subsubsection"
4 -> "paragraph"
5 -> "subparagraph"
_ -> ""
inQuote <- gets stInQuote
let prefix = if inQuote && level' >= 4
then text "\\mbox{}%"
else empty
lab <- labelFor ident
let star = if unnumbered then text "*" else empty
let stuffing = star <> optional <> contents
stuffing' <- hypertarget True ident $
text ('\\':sectionType) <> stuffing <> lab
return $ if level' > 5
then txt
else prefix $$ stuffing'
$$ if unnumbered && not unlisted
then "\\addcontentsline{toc}" <>
braces (text sectionType) <>
braces txtNoNotes
else empty
mapAlignment :: Text -> Text
mapAlignment a = case a of
"top" -> "T"
"top-baseline" -> "t"
"bottom" -> "b"
"center" -> "c"
_ -> a
wrapDiv :: PandocMonad m => Attr -> Doc Text -> LW m (Doc Text)
wrapDiv (_,classes,kvs) t = do
beamer <- gets stBeamer
let align dir txt = inCmd "begin" dir $$ txt $$ inCmd "end" dir
lang <- toLang $ lookup "lang" kvs
let wrapColumns = if beamer && "columns" `elem` classes
then \contents ->
let valign = maybe "T" mapAlignment (lookup "align" kvs)
totalwidth = maybe [] (\x -> ["totalwidth=" <> x])
(lookup "totalwidth" kvs)
onlytextwidth = filter ((==) "onlytextwidth") classes
options = text $ T.unpack $ T.intercalate "," $
valign : totalwidth ++ onlytextwidth
in inCmd "begin" "columns" <> brackets options
$$ contents
$$ inCmd "end" "columns"
else id
wrapColumn = if beamer && "column" `elem` classes
then \contents ->
let valign =
maybe ""
(brackets . text . T.unpack . mapAlignment)
(lookup "align" kvs)
w = maybe "0.48" fromPct (lookup "width" kvs)
in inCmd "begin" "column" <>
valign <>
braces (literal w <> "\\textwidth")
$$ contents
$$ inCmd "end" "column"
else id
fromPct xs =
case T.unsnoc xs of
Just (ds, '%') -> case safeRead ds of
Just digits -> showFl (digits / 100 :: Double)
Nothing -> xs
_ -> xs
wrapDir = case lookup "dir" kvs of
Just "rtl" -> align "RTL"
Just "ltr" -> align "LTR"
_ -> id
wrapLang txt = case lang of
Just lng -> let (l, o) = toPolyglossiaEnv lng
ops = if T.null o
then ""
else brackets $ literal o
in inCmd "begin" (literal l) <> ops
$$ blankline <> txt <> blankline
$$ inCmd "end" (literal l)
Nothing -> txt
return $ wrapColumns . wrapColumn . wrapDir . wrapLang $ t
hypertarget :: PandocMonad m => Bool -> Text -> Doc Text -> LW m (Doc Text)
hypertarget _ "" x = return x
hypertarget addnewline ident x = do
ref <- literal `fmap` toLabel ident
return $ text "\\hypertarget"
<> braces ref
<> braces ((if addnewline && not (isEmpty x)
then "%" <> cr
else empty) <> x)
labelFor :: PandocMonad m => Text -> LW m (Doc Text)
labelFor "" = return empty
labelFor ident = do
ref <- literal `fmap` toLabel ident
return $ text "\\label" <> braces ref
inlineListToLaTeX :: PandocMonad m
=> [Inline]
-> LW m (Doc Text)
inlineListToLaTeX lst = hcat <$>
mapM inlineToLaTeX (fixLineInitialSpaces . fixInitialLineBreaks $ lst)
where fixLineInitialSpaces [] = []
fixLineInitialSpaces (LineBreak : Str s : xs)
| Just ('\160', _) <- T.uncons s
= LineBreak : fixNbsps s <> fixLineInitialSpaces xs
fixLineInitialSpaces (x:xs) = x : fixLineInitialSpaces xs
fixNbsps s = let (ys,zs) = T.span (=='\160') s
in replicate (T.length ys) hspace <> [Str zs]
hspace = RawInline "latex" "\\hspace*{0.333em}"
fixInitialLineBreaks (LineBreak:xs) =
RawInline (Format "latex") "\\hfill\\break\n" :
fixInitialLineBreaks xs
fixInitialLineBreaks xs = xs
isQuoted :: Inline -> Bool
isQuoted (Quoted _ _) = True
isQuoted _ = False
inlineToLaTeX :: PandocMonad m
=> Inline
-> LW m (Doc Text)
inlineToLaTeX (Span (id',classes,kvs) ils) = do
linkAnchor <- hypertarget False id' empty
lang <- toLang $ lookup "lang" kvs
let cmds = ["textup" | "csl-no-emph" `elem` classes] ++
["textnormal" | "csl-no-strong" `elem` classes ||
"csl-no-smallcaps" `elem` classes] ++
["RL" | ("dir", "rtl") `elem` kvs] ++
["LR" | ("dir", "ltr") `elem` kvs] ++
(case lang of
Just lng -> let (l, o) = toPolyglossia lng
ops = if T.null o then "" else "[" <> o <> "]"
in ["text" <> l <> ops]
Nothing -> [])
contents <- inlineListToLaTeX ils
return $ (if T.null id'
then empty
else "\\protect" <> linkAnchor) <>
(if null cmds
then braces contents
else foldr inCmd contents cmds)
inlineToLaTeX (Emph lst) = inCmd "emph" <$> inlineListToLaTeX lst
inlineToLaTeX (Underline lst) = inCmd "underline" <$> inlineListToLaTeX lst
inlineToLaTeX (Strong lst) = inCmd "textbf" <$> inlineListToLaTeX lst
inlineToLaTeX (Strikeout lst) = do
contents <- inlineListToLaTeX $ walk (concatMap protectCode) lst
modify $ \s -> s{ stStrikeout = True }
return $ inCmd "sout" contents
inlineToLaTeX (Superscript lst) =
inCmd "textsuperscript" <$> inlineListToLaTeX lst
inlineToLaTeX (Subscript lst) =
inCmd "textsubscript" <$> inlineListToLaTeX lst
inlineToLaTeX (SmallCaps lst) =
inCmd "textsc"<$> inlineListToLaTeX lst
inlineToLaTeX (Cite cits lst) = do
st <- get
let opts = stOptions st
case writerCiteMethod opts of
Natbib -> citationsToNatbib cits
Biblatex -> citationsToBiblatex cits
_ -> inlineListToLaTeX lst
inlineToLaTeX (Code (_,classes,kvs) str) = do
opts <- gets stOptions
inHeading <- gets stInHeading
inItem <- gets stInItem
let listingsCode = do
let listingsopts = (case getListingsLanguage classes of
Just l -> (("language", mbBraced l):)
Nothing -> id)
[(k,v) | (k,v) <- kvs
, k `notElem` ["exports","tangle","results"]]
let listingsopt = if null listingsopts
then ""
else "[" <>
T.intercalate ", "
(map (\(k,v) -> k <> "=" <> v)
listingsopts) <> "]"
inNote <- gets stInNote
when inNote $ modify $ \s -> s{ stVerbInNote = True }
let chr = case "!\"'()*,-./:;?@" \\ T.unpack str of
(c:_) -> c
[] -> '!'
let str' = escapeStringUsing (backslashEscapes "\\{}%~_&#^") str
return $ literal $ "\\passthrough{\\lstinline" <>
listingsopt <> T.singleton chr <> str' <> T.singleton chr <> "}"
let rawCode = liftM (literal . (\s -> "\\texttt{" <> escapeSpaces s <> "}"))
$ stringToLaTeX CodeString str
where escapeSpaces = T.concatMap
(\c -> if c == ' ' then "\\ " else T.singleton c)
let highlightCode =
case highlight (writerSyntaxMap opts)
formatLaTeXInline ("",classes,[]) str of
Left msg -> do
unless (T.null msg) $ report $ CouldNotHighlight msg
rawCode
Right h -> modify (\st -> st{ stHighlighting = True }) >>
return (text (T.unpack h))
case () of
_ | inHeading || inItem -> rawCode
| writerListings opts -> listingsCode
| isJust (writerHighlightStyle opts) && not (null classes)
-> highlightCode
| otherwise -> rawCode
inlineToLaTeX (Quoted qt lst) = do
contents <- inlineListToLaTeX lst
csquotes <- liftM stCsquotes get
opts <- gets stOptions
if csquotes
then return $ case qt of
DoubleQuote -> "\\enquote" <> braces contents
SingleQuote -> "\\enquote*" <> braces contents
else do
let s1 = if not (null lst) && isQuoted (head lst)
then "\\,"
else empty
let s2 = if not (null lst) && isQuoted (last lst)
then "\\,"
else empty
let inner = s1 <> contents <> s2
return $ case qt of
DoubleQuote ->
if isEnabled Ext_smart opts
then text "``" <> inner <> text "''"
else char '\x201C' <> inner <> char '\x201D'
SingleQuote ->
if isEnabled Ext_smart opts
then char '`' <> inner <> char '\''
else char '\x2018' <> inner <> char '\x2019'
inlineToLaTeX (Str str) = do
setEmptyLine False
liftM literal $ stringToLaTeX TextString str
inlineToLaTeX (Math InlineMath str) = do
setEmptyLine False
return $ "\\(" <> literal (handleMathComment str) <> "\\)"
inlineToLaTeX (Math DisplayMath str) = do
setEmptyLine False
return $ "\\[" <> literal (handleMathComment str) <> "\\]"
inlineToLaTeX il@(RawInline f str) = do
beamer <- gets stBeamer
if f == Format "latex" || f == Format "tex" ||
(f == Format "beamer" && beamer)
then do
setEmptyLine False
return $ literal str
else do
report $ InlineNotRendered il
return empty
inlineToLaTeX LineBreak = do
emptyLine <- gets stEmptyLine
setEmptyLine True
return $ (if emptyLine then "~" else "") <> "\\\\" <> cr
inlineToLaTeX SoftBreak = do
wrapText <- gets (writerWrapText . stOptions)
case wrapText of
WrapAuto -> return space
WrapNone -> return space
WrapPreserve -> return cr
inlineToLaTeX Space = return space
inlineToLaTeX (Link (id',_,_) txt (src,_)) =
(case T.uncons src of
Just ('#', ident) -> do
contents <- inlineListToLaTeX txt
lab <- toLabel ident
return $ text "\\protect\\hyperlink" <> braces (literal lab) <> braces contents
_ -> case txt of
[Str x] | unEscapeString (T.unpack x) == unEscapeString (T.unpack src) ->
do modify $ \s -> s{ stUrl = True }
src' <- stringToLaTeX URLString (escapeURI src)
return $ literal $ "\\url{" <> src' <> "}"
[Str x] | Just rest <- T.stripPrefix "mailto:" src,
unEscapeString (T.unpack x) == unEscapeString (T.unpack rest) ->
do modify $ \s -> s{ stUrl = True }
src' <- stringToLaTeX URLString (escapeURI src)
contents <- inlineListToLaTeX txt
return $ "\\href" <> braces (literal src') <>
braces ("\\nolinkurl" <> braces contents)
_ -> do contents <- inlineListToLaTeX txt
src' <- stringToLaTeX URLString (escapeURI src)
return $ literal ("\\href{" <> src' <> "}{") <>
contents <> char '}')
>>= (if T.null id'
then return
else \x -> do
linkAnchor <- hypertarget False id' x
return ("\\protect" <> linkAnchor))
inlineToLaTeX il@(Image _ _ (src, _))
| Just _ <- T.stripPrefix "data:" src = do
report $ InlineNotRendered il
return empty
inlineToLaTeX (Image attr _ (source, _)) = do
setEmptyLine False
modify $ \s -> s{ stGraphics = True }
opts <- gets stOptions
let showDim dir = let d = text (show dir) <> "="
in case dimension dir attr of
Just (Pixel a) ->
[d <> literal (showInInch opts (Pixel a)) <> "in"]
Just (Percent a) ->
[d <> literal (showFl (a / 100)) <>
case dir of
Width -> "\\textwidth"
Height -> "\\textheight"
]
Just dim ->
[d <> text (show dim)]
Nothing ->
case dir of
Width | isJust (dimension Height attr) ->
[d <> "\\textwidth"]
Height | isJust (dimension Width attr) ->
[d <> "\\textheight"]
_ -> []
dimList = showDim Width <> showDim Height
dims = if null dimList
then empty
else brackets $ mconcat (intersperse "," dimList)
source' = if isURI source
then source
else T.pack $ unEscapeString $ T.unpack source
source'' <- stringToLaTeX URLString source'
inHeading <- gets stInHeading
return $
(if inHeading then "\\protect\\includegraphics" else "\\includegraphics") <>
dims <> braces (literal source'')
inlineToLaTeX (Note contents) = do
setEmptyLine False
externalNotes <- gets stExternalNotes
modify (\s -> s{stInNote = True, stExternalNotes = True})
contents' <- blockListToLaTeX contents
modify (\s -> s {stInNote = False, stExternalNotes = externalNotes})
let optnl = case reverse contents of
(CodeBlock _ _ : _) -> cr
_ -> empty
let noteContents = nest 2 contents' <> optnl
beamer <- gets stBeamer
let beamerMark = if beamer
then text "<.->"
else empty
if externalNotes
then do
modify $ \st -> st{ stNotes = noteContents : stNotes st }
return "\\footnotemark{}"
else return $ "\\footnote" <> beamerMark <> braces noteContents
handleMathComment :: Text -> Text
handleMathComment s =
let (_, ys) = T.break (\c -> c == '\n' || c == '%') $ T.reverse s
in case T.uncons ys of
Just ('%', ys') -> case T.uncons ys' of
Just ('\\', _) -> s
_ -> s <> "\n"
_ -> s
protectCode :: Inline -> [Inline]
protectCode x@(Code _ _) = [ltx "\\mbox{" , x , ltx "}"]
where ltx = RawInline (Format "latex")
protectCode x = [x]
setEmptyLine :: PandocMonad m => Bool -> LW m ()
setEmptyLine b = modify $ \st -> st{ stEmptyLine = b }
citationsToNatbib :: PandocMonad m => [Citation] -> LW m (Doc Text)
citationsToNatbib
[one]
= citeCommand c p s k
where
Citation { citationId = k
, citationPrefix = p
, citationSuffix = s
, citationMode = m
}
= one
c = case m of
AuthorInText -> "citet"
SuppressAuthor -> "citeyearpar"
NormalCitation -> "citep"
citationsToNatbib cits
| noPrefix (tail cits) && noSuffix (init cits) && ismode NormalCitation cits
= citeCommand "citep" p s ks
where
noPrefix = all (null . citationPrefix)
noSuffix = all (null . citationSuffix)
ismode m = all ((==) m . citationMode)
p = citationPrefix $
head cits
s = citationSuffix $
last cits
ks = T.intercalate ", " $ map citationId cits
citationsToNatbib (c:cs) | citationMode c == AuthorInText = do
author <- citeCommand "citeauthor" [] [] (citationId c)
cits <- citationsToNatbib (c { citationMode = SuppressAuthor } : cs)
return $ author <+> cits
citationsToNatbib cits = do
cits' <- mapM convertOne cits
return $ text "\\citetext{" <> foldl' combineTwo empty cits' <> text "}"
where
combineTwo a b | isEmpty a = b
| otherwise = a <> text "; " <> b
convertOne Citation { citationId = k
, citationPrefix = p
, citationSuffix = s
, citationMode = m
}
= case m of
AuthorInText -> citeCommand "citealt" p s k
SuppressAuthor -> citeCommand "citeyear" p s k
NormalCitation -> citeCommand "citealp" p s k
citeCommand :: PandocMonad m
=> Text -> [Inline] -> [Inline] -> Text -> LW m (Doc Text)
citeCommand c p s k = do
args <- citeArguments p s k
return $ literal ("\\" <> c) <> args
type Prefix = [Inline]
type Suffix = [Inline]
type CiteId = Text
data CiteGroup = CiteGroup Prefix Suffix [CiteId]
citeArgumentsList :: PandocMonad m
=> CiteGroup -> LW m (Doc Text)
citeArgumentsList (CiteGroup _ _ []) = return empty
citeArgumentsList (CiteGroup pfxs sfxs ids) = do
pdoc <- inlineListToLaTeX pfxs
sdoc <- inlineListToLaTeX sfxs'
return $ (optargs pdoc sdoc) <>
(braces (literal (T.intercalate "," (reverse ids))))
where sfxs' = stripLocatorBraces $ case sfxs of
(Str t : r) -> case T.uncons t of
Just (x, xs)
| T.null xs
, isPunctuation x -> dropWhile (== Space) r
| isPunctuation x -> Str xs : r
_ -> sfxs
_ -> sfxs
optargs pdoc sdoc = case (isEmpty pdoc, isEmpty sdoc) of
(True, True ) -> empty
(True, False) -> brackets sdoc
(_ , _ ) -> brackets pdoc <> brackets sdoc
citeArguments :: PandocMonad m
=> [Inline] -> [Inline] -> Text -> LW m (Doc Text)
citeArguments p s k = citeArgumentsList (CiteGroup p s [k])
stripLocatorBraces :: [Inline] -> [Inline]
stripLocatorBraces = walk go
where go (Str xs) = Str $ T.filter (\c -> c /= '{' && c /= '}') xs
go x = x
citationsToBiblatex :: PandocMonad m => [Citation] -> LW m (Doc Text)
citationsToBiblatex
[one]
= citeCommand cmd p s k
where
Citation { citationId = k
, citationPrefix = p
, citationSuffix = s
, citationMode = m
} = one
cmd = case m of
SuppressAuthor -> "autocite*"
AuthorInText -> "textcite"
NormalCitation -> "autocite"
citationsToBiblatex (c:cs)
| all (\cit -> null (citationPrefix cit) && null (citationSuffix cit)) (c:cs)
= do
let cmd = case citationMode c of
SuppressAuthor -> "\\autocite*"
AuthorInText -> "\\textcite"
NormalCitation -> "\\autocite"
return $ text cmd <>
braces (literal (T.intercalate "," (map citationId (c:cs))))
| otherwise
= do
let cmd = case citationMode c of
SuppressAuthor -> "\\autocites*"
AuthorInText -> "\\textcites"
NormalCitation -> "\\autocites"
groups <- mapM citeArgumentsList (reverse (foldl' grouper [] (c:cs)))
return $ text cmd <> (mconcat groups)
where grouper prev cit = case prev of
((CiteGroup oPfx oSfx ids):rest)
| null oSfx && null pfx -> (CiteGroup oPfx sfx (cid:ids)):rest
_ -> (CiteGroup pfx sfx [cid]):prev
where pfx = citationPrefix cit
sfx = citationSuffix cit
cid = citationId cit
citationsToBiblatex _ = return empty
getListingsLanguage :: [Text] -> Maybe Text
getListingsLanguage xs
= foldr ((<|>) . toListingsLanguage) Nothing xs
mbBraced :: Text -> Text
mbBraced x = if not (T.all isAlphaNum x)
then "{" <> x <> "}"
else x
extract :: Text -> Block -> [Text]
extract key (Div attr _) = lookKey key attr
extract key (Plain ils) = query (extractInline key) ils
extract key (Para ils) = query (extractInline key) ils
extract key (Header _ _ ils) = query (extractInline key) ils
extract _ _ = []
extractInline :: Text -> Inline -> [Text]
extractInline key (Span attr _) = lookKey key attr
extractInline _ _ = []
lookKey :: Text -> Attr -> [Text]
lookKey key (_,_,kvs) = maybe [] T.words $ lookup key kvs
toPolyglossiaEnv :: Lang -> (Text, Text)
toPolyglossiaEnv l =
case toPolyglossia l of
("arabic", o) -> ("Arabic", o)
x -> x
toPolyglossia :: Lang -> (Text, Text)
toPolyglossia (Lang "ar" _ "DZ" _) = ("arabic", "locale=algeria")
toPolyglossia (Lang "ar" _ "IQ" _) = ("arabic", "locale=mashriq")
toPolyglossia (Lang "ar" _ "JO" _) = ("arabic", "locale=mashriq")
toPolyglossia (Lang "ar" _ "LB" _) = ("arabic", "locale=mashriq")
toPolyglossia (Lang "ar" _ "LY" _) = ("arabic", "locale=libya")
toPolyglossia (Lang "ar" _ "MA" _) = ("arabic", "locale=morocco")
toPolyglossia (Lang "ar" _ "MR" _) = ("arabic", "locale=mauritania")
toPolyglossia (Lang "ar" _ "PS" _) = ("arabic", "locale=mashriq")
toPolyglossia (Lang "ar" _ "SY" _) = ("arabic", "locale=mashriq")
toPolyglossia (Lang "ar" _ "TN" _) = ("arabic", "locale=tunisia")
toPolyglossia (Lang "de" _ _ vars)
| "1901" `elem` vars = ("german", "spelling=old")
toPolyglossia (Lang "de" _ "AT" vars)
| "1901" `elem` vars = ("german", "variant=austrian, spelling=old")
toPolyglossia (Lang "de" _ "AT" _) = ("german", "variant=austrian")
toPolyglossia (Lang "de" _ "CH" vars)
| "1901" `elem` vars = ("german", "variant=swiss, spelling=old")
toPolyglossia (Lang "de" _ "CH" _) = ("german", "variant=swiss")
toPolyglossia (Lang "de" _ _ _) = ("german", "")
toPolyglossia (Lang "dsb" _ _ _) = ("lsorbian", "")
toPolyglossia (Lang "el" _ "polyton" _) = ("greek", "variant=poly")
toPolyglossia (Lang "en" _ "AU" _) = ("english", "variant=australian")
toPolyglossia (Lang "en" _ "CA" _) = ("english", "variant=canadian")
toPolyglossia (Lang "en" _ "GB" _) = ("english", "variant=british")
toPolyglossia (Lang "en" _ "NZ" _) = ("english", "variant=newzealand")
toPolyglossia (Lang "en" _ "UK" _) = ("english", "variant=british")
toPolyglossia (Lang "en" _ "US" _) = ("english", "variant=american")
toPolyglossia (Lang "grc" _ _ _) = ("greek", "variant=ancient")
toPolyglossia (Lang "hsb" _ _ _) = ("usorbian", "")
toPolyglossia (Lang "la" _ _ vars)
| "x-classic" `elem` vars = ("latin", "variant=classic")
toPolyglossia (Lang "sl" _ _ _) = ("slovenian", "")
toPolyglossia x = (commonFromBcp47 x, "")
toBabel :: Lang -> Text
toBabel (Lang "de" _ "AT" vars)
| "1901" `elem` vars = "austrian"
| otherwise = "naustrian"
toBabel (Lang "de" _ "CH" vars)
| "1901" `elem` vars = "swissgerman"
| otherwise = "nswissgerman"
toBabel (Lang "de" _ _ vars)
| "1901" `elem` vars = "german"
| otherwise = "ngerman"
toBabel (Lang "dsb" _ _ _) = "lowersorbian"
toBabel (Lang "el" _ _ vars)
| "polyton" `elem` vars = "polutonikogreek"
toBabel (Lang "en" _ "AU" _) = "australian"
toBabel (Lang "en" _ "CA" _) = "canadian"
toBabel (Lang "en" _ "GB" _) = "british"
toBabel (Lang "en" _ "NZ" _) = "newzealand"
toBabel (Lang "en" _ "UK" _) = "british"
toBabel (Lang "en" _ "US" _) = "american"
toBabel (Lang "fr" _ "CA" _) = "canadien"
toBabel (Lang "fra" _ _ vars)
| "aca" `elem` vars = "acadian"
toBabel (Lang "grc" _ _ _) = "polutonikogreek"
toBabel (Lang "hsb" _ _ _) = "uppersorbian"
toBabel (Lang "la" _ _ vars)
| "x-classic" `elem` vars = "classiclatin"
toBabel (Lang "sl" _ _ _) = "slovene"
toBabel x = commonFromBcp47 x
commonFromBcp47 :: Lang -> Text
commonFromBcp47 (Lang "pt" _ "BR" _) = "brazil"
commonFromBcp47 (Lang "sr" "Cyrl" _ _) = "serbianc"
commonFromBcp47 (Lang "zh" "Latn" _ vars)
| "pinyin" `elem` vars = "pinyin"
commonFromBcp47 (Lang l _ _ _) = fromIso l
where
fromIso "af" = "afrikaans"
fromIso "am" = "amharic"
fromIso "ar" = "arabic"
fromIso "as" = "assamese"
fromIso "ast" = "asturian"
fromIso "bg" = "bulgarian"
fromIso "bn" = "bengali"
fromIso "bo" = "tibetan"
fromIso "br" = "breton"
fromIso "ca" = "catalan"
fromIso "cy" = "welsh"
fromIso "cs" = "czech"
fromIso "cop" = "coptic"
fromIso "da" = "danish"
fromIso "dv" = "divehi"
fromIso "el" = "greek"
fromIso "en" = "english"
fromIso "eo" = "esperanto"
fromIso "es" = "spanish"
fromIso "et" = "estonian"
fromIso "eu" = "basque"
fromIso "fa" = "farsi"
fromIso "fi" = "finnish"
fromIso "fr" = "french"
fromIso "fur" = "friulan"
fromIso "ga" = "irish"
fromIso "gd" = "scottish"
fromIso "gez" = "ethiopic"
fromIso "gl" = "galician"
fromIso "he" = "hebrew"
fromIso "hi" = "hindi"
fromIso "hr" = "croatian"
fromIso "hu" = "magyar"
fromIso "hy" = "armenian"
fromIso "ia" = "interlingua"
fromIso "id" = "indonesian"
fromIso "ie" = "interlingua"
fromIso "is" = "icelandic"
fromIso "it" = "italian"
fromIso "jp" = "japanese"
fromIso "km" = "khmer"
fromIso "kmr" = "kurmanji"
fromIso "kn" = "kannada"
fromIso "ko" = "korean"
fromIso "la" = "latin"
fromIso "lo" = "lao"
fromIso "lt" = "lithuanian"
fromIso "lv" = "latvian"
fromIso "ml" = "malayalam"
fromIso "mn" = "mongolian"
fromIso "mr" = "marathi"
fromIso "nb" = "norsk"
fromIso "nl" = "dutch"
fromIso "nn" = "nynorsk"
fromIso "no" = "norsk"
fromIso "nqo" = "nko"
fromIso "oc" = "occitan"
fromIso "pa" = "panjabi"
fromIso "pl" = "polish"
fromIso "pms" = "piedmontese"
fromIso "pt" = "portuguese"
fromIso "rm" = "romansh"
fromIso "ro" = "romanian"
fromIso "ru" = "russian"
fromIso "sa" = "sanskrit"
fromIso "se" = "samin"
fromIso "sk" = "slovak"
fromIso "sq" = "albanian"
fromIso "sr" = "serbian"
fromIso "sv" = "swedish"
fromIso "syr" = "syriac"
fromIso "ta" = "tamil"
fromIso "te" = "telugu"
fromIso "th" = "thai"
fromIso "ti" = "ethiopic"
fromIso "tk" = "turkmen"
fromIso "tr" = "turkish"
fromIso "uk" = "ukrainian"
fromIso "ur" = "urdu"
fromIso "vi" = "vietnamese"
fromIso _ = ""