{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE OverloadedStrings #-}
module Text.Pandoc.Writers.CommonMark (writeCommonMark) where
import Prelude
import CMarkGFM
import Control.Monad.State.Strict (State, get, modify, runState)
import Data.Foldable (foldrM)
import Data.List (transpose)
import Data.Monoid (Any (..))
import Data.Text (Text)
import qualified Data.Text as T
import Network.HTTP (urlEncode)
import Text.Pandoc.Class (PandocMonad)
import Text.Pandoc.Definition
import Text.Pandoc.Options
import Text.Pandoc.Shared (isTightList, linesToPara, substitute, capitalize)
import Text.Pandoc.Templates (renderTemplate')
import Text.Pandoc.Walk (query, walk, walkM)
import Text.Pandoc.Writers.HTML (writeHtml5String, tagWithAttributes)
import Text.Pandoc.Writers.Shared
writeCommonMark :: PandocMonad m => WriterOptions -> Pandoc -> m Text
writeCommonMark opts (Pandoc meta blocks) = do
let (blocks', notes) = runState (walkM processNotes blocks) []
notes' = if null notes
then []
else [OrderedList (1, Decimal, Period) $ reverse notes]
main <- blocksToCommonMark opts (blocks' ++ notes')
metadata <- metaToJSON opts
(blocksToCommonMark opts)
(inlinesToCommonMark opts)
meta
let context = defField "body" main metadata
case writerTemplate opts of
Nothing -> return main
Just tpl -> renderTemplate' tpl context
softBreakToSpace :: Inline -> Inline
softBreakToSpace SoftBreak = Space
softBreakToSpace x = x
processNotes :: Inline -> State [[Block]] Inline
processNotes (Note bs) = do
modify (bs :)
notes <- get
return $ Str $ "[" ++ show (length notes) ++ "]"
processNotes x = return x
node :: NodeType -> [Node] -> Node
node = Node Nothing
blocksToCommonMark :: PandocMonad m => WriterOptions -> [Block] -> m Text
blocksToCommonMark opts bs = do
let cmarkOpts = [optHardBreaks | isEnabled Ext_hard_line_breaks opts]
colwidth = if writerWrapText opts == WrapAuto
then Just $ writerColumns opts
else Nothing
nodes <- blocksToNodes opts bs
return $ T.stripEnd $
nodeToCommonmark cmarkOpts colwidth $
node DOCUMENT nodes
inlinesToCommonMark :: PandocMonad m => WriterOptions -> [Inline] -> m Text
inlinesToCommonMark opts ils = return $
nodeToCommonmark cmarkOpts colwidth $
node PARAGRAPH (inlinesToNodes opts ils)
where cmarkOpts = [optHardBreaks | isEnabled Ext_hard_line_breaks opts]
colwidth = if writerWrapText opts == WrapAuto
then Just $ writerColumns opts
else Nothing
blocksToNodes :: PandocMonad m => WriterOptions -> [Block] -> m [Node]
blocksToNodes opts = foldrM (blockToNodes opts) []
blockToNodes :: PandocMonad m => WriterOptions -> Block -> [Node] -> m [Node]
blockToNodes opts (Plain xs) ns =
return (node PARAGRAPH (inlinesToNodes opts xs) : ns)
blockToNodes opts (Para xs) ns =
return (node PARAGRAPH (inlinesToNodes opts xs) : ns)
blockToNodes opts (LineBlock lns) ns = blockToNodes opts (linesToPara lns) ns
blockToNodes _ (CodeBlock (_,classes,_) xs) ns = return
(node (CODE_BLOCK (T.pack (unwords classes)) (T.pack xs)) [] : ns)
blockToNodes opts (RawBlock fmt xs) ns
| fmt == Format "html" && isEnabled Ext_raw_html opts
= return (node (HTML_BLOCK (T.pack xs)) [] : ns)
| (fmt == Format "latex" || fmt == Format "tex") && isEnabled Ext_raw_tex opts
= return (node (CUSTOM_BLOCK (T.pack xs) T.empty) [] : ns)
| otherwise = return ns
blockToNodes opts (BlockQuote bs) ns = do
nodes <- blocksToNodes opts bs
return (node BLOCK_QUOTE nodes : ns)
blockToNodes opts (BulletList items) ns = do
nodes <- mapM (blocksToNodes opts) items
return (node (LIST ListAttributes{
listType = BULLET_LIST,
listDelim = PERIOD_DELIM,
listTight = isTightList items,
listStart = 1 }) (map (node ITEM) nodes) : ns)
blockToNodes opts (OrderedList (start, _sty, delim) items) ns = do
nodes <- mapM (blocksToNodes opts) items
return (node (LIST ListAttributes{
listType = ORDERED_LIST,
listDelim = case delim of
OneParen -> PAREN_DELIM
TwoParens -> PAREN_DELIM
_ -> PERIOD_DELIM,
listTight = isTightList items,
listStart = start }) (map (node ITEM) nodes) : ns)
blockToNodes _ HorizontalRule ns = return (node THEMATIC_BREAK [] : ns)
blockToNodes opts (Header lev _ ils) ns =
return (node (HEADING lev) (inlinesToNodes opts ils) : ns)
blockToNodes opts (Div attr bs) ns = do
nodes <- blocksToNodes opts bs
let op = tagWithAttributes opts True False "div" attr
if isEnabled Ext_raw_html opts
then return (node (HTML_BLOCK op) [] : nodes ++
[node (HTML_BLOCK (T.pack "</div>")) []] ++ ns)
else return (nodes ++ ns)
blockToNodes opts (DefinitionList items) ns =
blockToNodes opts (BulletList items') ns
where items' = map dlToBullet items
dlToBullet (term, (Para xs : ys) : zs) =
Para (term ++ [LineBreak] ++ xs) : ys ++ concat zs
dlToBullet (term, (Plain xs : ys) : zs) =
Plain (term ++ [LineBreak] ++ xs) : ys ++ concat zs
dlToBullet (term, xs) =
Para term : concat xs
blockToNodes opts t@(Table capt aligns _widths headers rows) ns = do
let allcells = concat (headers:rows)
let isLineBreak LineBreak = Any True
isLineBreak _ = Any False
let isPlainOrPara [Para _] = True
isPlainOrPara [Plain _] = True
isPlainOrPara [] = True
isPlainOrPara _ = False
let isSimple = all isPlainOrPara allcells &&
not ( getAny (query isLineBreak allcells) )
if isEnabled Ext_pipe_tables opts && isSimple
then do
let capt' = node PARAGRAPH (inlinesToNodes opts capt)
let fixPipe (Code attr xs) =
Code attr (substitute "|" "\\|" xs)
fixPipe (RawInline format xs) =
RawInline format (substitute "|" "\\|" xs)
fixPipe x = x
let toCell [Plain ils] = T.strip
$ nodeToCommonmark [] Nothing
$ node (CUSTOM_INLINE mempty mempty)
$ inlinesToNodes opts
$ walk (fixPipe . softBreakToSpace) ils
toCell [Para ils] = T.strip
$ nodeToCommonmark [] Nothing
$ node (CUSTOM_INLINE mempty mempty)
$ inlinesToNodes opts
$ walk (fixPipe . softBreakToSpace) ils
toCell [] = ""
toCell xs = error $ "toCell encountered " ++ show xs
let separator = " | "
let starter = "| "
let ender = " |"
let rawheaders = map toCell headers
let rawrows = map (map toCell) rows
let maximum' [] = 0
maximum' xs = maximum xs
let colwidths = map (maximum' . map T.length) $
transpose (rawheaders:rawrows)
let toHeaderLine len AlignDefault = T.replicate len "-"
toHeaderLine len AlignLeft = ":" <>
T.replicate (max (len - 1) 1) "-"
toHeaderLine len AlignRight =
T.replicate (max (len - 1) 1) "-" <> ":"
toHeaderLine len AlignCenter = ":" <>
T.replicate (max (len - 2) 1) (T.pack "-") <> ":"
let rawheaderlines = zipWith toHeaderLine colwidths aligns
let headerlines = starter <> T.intercalate separator rawheaderlines <>
ender
let padContent (align, w) t' =
let padding = w - T.length t'
halfpadding = padding `div` 2
in case align of
AlignRight -> T.replicate padding " " <> t'
AlignCenter -> T.replicate halfpadding " " <> t' <>
T.replicate (padding - halfpadding) " "
_ -> t' <> T.replicate padding " "
let toRow xs = starter <> T.intercalate separator
(zipWith padContent (zip aligns colwidths) xs) <>
ender
let table' = toRow rawheaders <> "\n" <> headerlines <> "\n" <>
T.intercalate "\n" (map toRow rawrows)
return (node (CUSTOM_BLOCK table' mempty) [] :
if null capt
then ns
else capt' : ns)
else do
s <- writeHtml5String def $! Pandoc nullMeta [t]
return (node (HTML_BLOCK s) [] : ns)
blockToNodes _ Null ns = return ns
inlinesToNodes :: WriterOptions -> [Inline] -> [Node]
inlinesToNodes opts = foldr (inlineToNodes opts) []
inlineToNodes :: WriterOptions -> Inline -> [Node] -> [Node]
inlineToNodes opts (Str s) = (node (TEXT (T.pack s')) [] :)
where s' = if isEnabled Ext_smart opts
then unsmartify opts s
else s
inlineToNodes _ Space = (node (TEXT (T.pack " ")) [] :)
inlineToNodes _ LineBreak = (node LINEBREAK [] :)
inlineToNodes opts SoftBreak
| isEnabled Ext_hard_line_breaks opts = (node LINEBREAK [] :)
| writerWrapText opts == WrapNone = (node (TEXT " ") [] :)
| otherwise = (node SOFTBREAK [] :)
inlineToNodes opts (Emph xs) = (node EMPH (inlinesToNodes opts xs) :)
inlineToNodes opts (Strong xs) = (node STRONG (inlinesToNodes opts xs) :)
inlineToNodes opts (Strikeout xs) =
if isEnabled Ext_strikeout opts
then (node (CUSTOM_INLINE "~~" "~~") (inlinesToNodes opts xs) :)
else if isEnabled Ext_raw_html opts
then ((node (HTML_INLINE (T.pack "<s>")) [] : inlinesToNodes opts xs ++
[node (HTML_INLINE (T.pack "</s>")) []]) ++ )
else (inlinesToNodes opts xs ++)
inlineToNodes opts (Superscript xs) =
if isEnabled Ext_raw_html opts
then ((node (HTML_INLINE (T.pack "<sup>")) [] : inlinesToNodes opts xs ++
[node (HTML_INLINE (T.pack "</sup>")) []]) ++ )
else case traverse toSuperscriptInline xs of
Nothing ->
((node (TEXT (T.pack "^(")) [] : inlinesToNodes opts xs ++
[node (TEXT (T.pack ")")) []]) ++ )
Just xs' -> (inlinesToNodes opts xs' ++)
inlineToNodes opts (Subscript xs) =
if isEnabled Ext_raw_html opts
then ((node (HTML_INLINE (T.pack "<sub>")) [] : inlinesToNodes opts xs ++
[node (HTML_INLINE (T.pack "</sub>")) []]) ++ )
else case traverse toSubscriptInline xs of
Nothing ->
((node (TEXT (T.pack "_(")) [] : inlinesToNodes opts xs ++
[node (TEXT (T.pack ")")) []]) ++ )
Just xs' -> (inlinesToNodes opts xs' ++)
inlineToNodes opts (SmallCaps xs) =
if isEnabled Ext_raw_html opts
then ((node (HTML_INLINE (T.pack "<span class=\"smallcaps\">")) []
: inlinesToNodes opts xs ++
[node (HTML_INLINE (T.pack "</span>")) []]) ++ )
else (inlinesToNodes opts (capitalize xs) ++)
inlineToNodes opts (Link _ ils (url,tit)) =
(node (LINK (T.pack url) (T.pack tit)) (inlinesToNodes opts ils) :)
inlineToNodes opts (Image alt ils (url,'f':'i':'g':':':tit)) =
inlineToNodes opts (Image alt ils (url,tit))
inlineToNodes opts (Image _ ils (url,tit)) =
(node (IMAGE (T.pack url) (T.pack tit)) (inlinesToNodes opts ils) :)
inlineToNodes opts (RawInline fmt xs)
| fmt == Format "html" && isEnabled Ext_raw_html opts
= (node (HTML_INLINE (T.pack xs)) [] :)
| (fmt == Format "latex" || fmt == Format "tex") && isEnabled Ext_raw_tex opts
= (node (CUSTOM_INLINE (T.pack xs) T.empty) [] :)
| otherwise = id
inlineToNodes opts (Quoted qt ils) =
((node (TEXT start) [] :
inlinesToNodes opts ils ++ [node (TEXT end) []]) ++)
where (start, end) = case qt of
SingleQuote
| isEnabled Ext_smart opts -> ("'","'")
| otherwise -> ("‘", "’")
DoubleQuote
| isEnabled Ext_smart opts -> ("\"", "\"")
| otherwise -> ("“", "”")
inlineToNodes _ (Code _ str) = (node (CODE (T.pack str)) [] :)
inlineToNodes opts (Math mt str) =
case writerHTMLMathMethod opts of
WebTeX url ->
let core = inlineToNodes opts
(Image nullAttr [Str str] (url ++ urlEncode str, str))
sep = if mt == DisplayMath
then (node LINEBREAK [] :)
else id
in (sep . core . sep)
_ ->
case mt of
InlineMath ->
(node (HTML_INLINE (T.pack ("\\(" ++ str ++ "\\)"))) [] :)
DisplayMath ->
(node (HTML_INLINE (T.pack ("\\[" ++ str ++ "\\]"))) [] :)
inlineToNodes opts (Span ("",["emoji"],kvs) [Str s]) = do
case lookup "data-emoji" kvs of
Just emojiname | isEnabled Ext_emoji opts ->
(node (TEXT (":" <> T.pack emojiname <> ":")) [] :)
_ -> (node (TEXT (T.pack s)) [] :)
inlineToNodes opts (Span attr ils) =
let nodes = inlinesToNodes opts ils
op = tagWithAttributes opts True False "span" attr
in if isEnabled Ext_raw_html opts
then ((node (HTML_INLINE op) [] : nodes ++
[node (HTML_INLINE (T.pack "</span>")) []]) ++)
else (nodes ++)
inlineToNodes opts (Cite _ ils) = (inlinesToNodes opts ils ++)
inlineToNodes _ (Note _) = id
toSubscriptInline :: Inline -> Maybe Inline
toSubscriptInline Space = Just Space
toSubscriptInline (Span attr ils) = Span attr <$> traverse toSubscriptInline ils
toSubscriptInline (Str s) = Str <$> traverse toSubscript s
toSubscriptInline LineBreak = Just LineBreak
toSubscriptInline SoftBreak = Just SoftBreak
toSubscriptInline _ = Nothing
toSuperscriptInline :: Inline -> Maybe Inline
toSuperscriptInline Space = Just Space
toSuperscriptInline (Span attr ils) = Span attr <$> traverse toSuperscriptInline ils
toSuperscriptInline (Str s) = Str <$> traverse toSuperscript s
toSuperscriptInline LineBreak = Just LineBreak
toSuperscriptInline SoftBreak = Just SoftBreak
toSuperscriptInline _ = Nothing