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|
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ViewPatterns #-}
{- |
Module : Text.Pandoc.Writers.RST
Copyright : Copyright (C) 2006-2020 John MacFarlane
License : GNU GPL, version 2 or above
Maintainer : John MacFarlane <jgm@berkeley.edu>
Stability : alpha
Portability : portable
Conversion of 'Pandoc' documents to reStructuredText.
reStructuredText: <http://docutils.sourceforge.net/rst.html>
-}
module Text.Pandoc.Writers.RST ( writeRST, flatten ) where
import Control.Monad.State.Strict
import Data.Char (isSpace)
import Data.List (transpose, intersperse)
import Data.Maybe (fromMaybe)
import qualified Data.Text as T
import Data.Text (Text)
import qualified Text.Pandoc.Builder as B
import Text.Pandoc.Class.PandocMonad (PandocMonad, report)
import Text.Pandoc.Definition
import Text.Pandoc.ImageSize
import Text.Pandoc.Logging
import Text.Pandoc.Options
import Text.DocLayout
import Text.Pandoc.Shared
import Text.Pandoc.Templates (renderTemplate)
import Text.Pandoc.Writers.Shared
import Text.Pandoc.Walk
type Refs = [([Inline], Target)]
data WriterState =
WriterState { stNotes :: [[Block]]
, stLinks :: Refs
, stImages :: [([Inline], (Attr, Text, Text, Maybe Text))]
, stHasMath :: Bool
, stHasRawTeX :: Bool
, stOptions :: WriterOptions
, stTopLevel :: Bool
, stImageId :: Int
}
type RST = StateT WriterState
-- | Convert Pandoc to RST.
writeRST :: PandocMonad m => WriterOptions -> Pandoc -> m Text
writeRST opts document = do
let st = WriterState { stNotes = [], stLinks = [],
stImages = [], stHasMath = False,
stHasRawTeX = False, stOptions = opts,
stTopLevel = True, stImageId = 1 }
evalStateT (pandocToRST document) st
-- | Return RST representation of document.
pandocToRST :: PandocMonad m => Pandoc -> RST m Text
pandocToRST (Pandoc meta blocks) = do
opts <- gets stOptions
let colwidth = if writerWrapText opts == WrapAuto
then Just $ writerColumns opts
else Nothing
let subtit = lookupMetaInlines "subtitle" meta
title <- titleToRST (docTitle meta) subtit
metadata <- metaToContext opts
blockListToRST
(fmap chomp . inlineListToRST)
meta
body <- blockListToRST' True $ case writerTemplate opts of
Just _ -> normalizeHeadings 1 blocks
Nothing -> blocks
notes <- gets (reverse . stNotes) >>= notesToRST
-- note that the notes may contain refs, so we do them first
refs <- gets (reverse . stLinks) >>= refsToRST
pics <- gets (reverse . stImages) >>= pictRefsToRST
hasMath <- gets stHasMath
rawTeX <- gets stHasRawTeX
let main = vsep [body, notes, refs, pics]
let context = defField "body" main
$ defField "toc" (writerTableOfContents opts)
$ defField "toc-depth" (tshow $ writerTOCDepth opts)
$ defField "number-sections" (writerNumberSections opts)
$ defField "math" hasMath
$ defField "titleblock" (render Nothing title :: Text)
$ defField "math" hasMath
$ defField "rawtex" rawTeX metadata
return $ render colwidth $
case writerTemplate opts of
Nothing -> main
Just tpl -> renderTemplate tpl context
where
normalizeHeadings lev (Header l a i:bs) =
Header lev a i:normalizeHeadings (lev+1) cont ++ normalizeHeadings lev bs'
where (cont,bs') = break (headerLtEq l) bs
headerLtEq level (Header l' _ _) = l' <= level
headerLtEq _ _ = False
normalizeHeadings lev (b:bs) = b:normalizeHeadings lev bs
normalizeHeadings _ [] = []
-- | Return RST representation of reference key table.
refsToRST :: PandocMonad m => Refs -> RST m (Doc Text)
refsToRST refs =
vcat <$> mapM keyToRST refs
-- | Return RST representation of a reference key.
keyToRST :: PandocMonad m => ([Inline], (Text, Text)) -> RST m (Doc Text)
keyToRST (label, (src, _)) = do
label' <- inlineListToRST label
let label'' = if (==':') `T.any` (render Nothing label' :: Text)
then char '`' <> label' <> char '`'
else label'
return $ nowrap $ ".. _" <> label'' <> ": " <> literal src
-- | Return RST representation of notes.
notesToRST :: PandocMonad m => [[Block]] -> RST m (Doc Text)
notesToRST notes =
vsep <$> zipWithM noteToRST [1..] notes
-- | Return RST representation of a note.
noteToRST :: PandocMonad m => Int -> [Block] -> RST m (Doc Text)
noteToRST num note = do
contents <- blockListToRST note
let marker = ".. [" <> text (show num) <> "]"
return $ nowrap $ marker $$ nest 3 contents
-- | Return RST representation of picture reference table.
pictRefsToRST :: PandocMonad m
=> [([Inline], (Attr, Text, Text, Maybe Text))]
-> RST m (Doc Text)
pictRefsToRST refs =
vcat <$> mapM pictToRST refs
-- | Return RST representation of a picture substitution reference.
pictToRST :: PandocMonad m
=> ([Inline], (Attr, Text, Text, Maybe Text))
-> RST m (Doc Text)
pictToRST (label, (attr, src, _, mbtarget)) = do
label' <- inlineListToRST label
dims <- imageDimsToRST attr
let (_, cls, _) = attr
classes = case cls of
[] -> empty
["align-top"] -> ":align: top"
["align-middle"] -> ":align: middle"
["align-bottom"] -> ":align: bottom"
["align-center"] -> empty
["align-right"] -> empty
["align-left"] -> empty
_ -> ":class: " <> literal (T.unwords cls)
return $ nowrap
$ ".. |" <> label' <> "| image:: " <> literal src $$ hang 3 empty (classes $$ dims)
$$ case mbtarget of
Nothing -> empty
Just t -> " :target: " <> literal t
-- | Escape special characters for RST.
escapeText :: WriterOptions -> Text -> Text
escapeText o = T.pack . escapeString' True o . T.unpack -- This ought to be parser
where
escapeString' _ _ [] = []
escapeString' firstChar opts (c:cs) =
case c of
_ | c `elemText` "\\`*_|" &&
(firstChar || null cs) -> '\\':c:escapeString' False opts cs
'\'' | isEnabled Ext_smart opts -> '\\':'\'':escapeString' False opts cs
'"' | isEnabled Ext_smart opts -> '\\':'"':escapeString' False opts cs
'-' | isEnabled Ext_smart opts ->
case cs of
'-':_ -> '\\':'-':escapeString' False opts cs
_ -> '-':escapeString' False opts cs
'.' | isEnabled Ext_smart opts ->
case cs of
'.':'.':rest -> '\\':'.':'.':'.':escapeString' False opts rest
_ -> '.':escapeString' False opts cs
_ -> c : escapeString' False opts cs
titleToRST :: PandocMonad m => [Inline] -> [Inline] -> RST m (Doc Text)
titleToRST [] _ = return empty
titleToRST tit subtit = do
title <- inlineListToRST tit
subtitle <- inlineListToRST subtit
return $ bordered title '=' $$ bordered subtitle '-'
bordered :: Doc Text -> Char -> Doc Text
bordered contents c =
if len > 0
then border $$ contents $$ border
else empty
where len = offset contents
border = literal (T.replicate len $ T.singleton c)
-- | Convert Pandoc block element to RST.
blockToRST :: PandocMonad m
=> Block -- ^ Block element
-> RST m (Doc Text)
blockToRST Null = return empty
blockToRST (Div ("",["title"],[]) _) = return empty
-- this is generated by the rst reader and can safely be
-- omitted when we're generating rst
blockToRST (Div (ident,classes,_kvs) bs) = do
contents <- blockListToRST bs
let admonitions = ["attention","caution","danger","error","hint",
"important","note","tip","warning","admonition"]
let admonition = case classes of
(cl:_)
| cl `elem` admonitions
-> ".. " <> literal cl <> "::"
cls -> ".. container::" <> space <>
literal (T.unwords (filter (/= "container") cls))
return $ blankline $$
admonition $$
(if T.null ident
then blankline
else " :name: " <> literal ident $$ blankline) $$
nest 3 contents $$
blankline
blockToRST (Plain inlines) = inlineListToRST inlines
blockToRST (Para [Image attr txt (src, rawtit)]) = do
description <- inlineListToRST txt
dims <- imageDimsToRST attr
-- title beginning with fig: indicates that the image is a figure
let (isfig, tit) = case T.stripPrefix "fig:" rawtit of
Nothing -> (False, rawtit)
Just tit' -> (True, tit')
let fig | isfig = "figure:: " <> literal src
| otherwise = "image:: " <> literal src
alt | isfig = ":alt: " <> if T.null tit then description else literal tit
| null txt = empty
| otherwise = ":alt: " <> description
capt | isfig = description
| otherwise = empty
(_,cls,_) = attr
classes = case cls of
[] -> empty
["align-right"] -> ":align: right"
["align-left"] -> ":align: left"
["align-center"] -> ":align: center"
_ | isfig -> ":figclass: " <> literal (T.unwords cls)
| otherwise -> ":class: " <> literal (T.unwords cls)
return $ hang 3 ".. " (fig $$ alt $$ classes $$ dims $+$ capt) $$ blankline
blockToRST (Para inlines)
| LineBreak `elem` inlines =
linesToLineBlock $ splitBy (==LineBreak) inlines
| otherwise = do
contents <- inlineListToRST inlines
return $ contents <> blankline
blockToRST (LineBlock lns) =
linesToLineBlock lns
blockToRST (RawBlock f@(Format f') str)
| f == "rst" = return $ literal str
| f == "tex" = blockToRST (RawBlock (Format "latex") str)
| otherwise = return $ blankline <> ".. raw:: " <>
literal (T.toLower f') $+$
nest 3 (literal str) $$ blankline
blockToRST HorizontalRule =
return $ blankline $$ "--------------" $$ blankline
blockToRST (Header level (name,classes,_) inlines) = do
contents <- inlineListToRST inlines
-- we calculate the id that would be used by auto_identifiers
-- so we know whether to print an explicit identifier
opts <- gets stOptions
let autoId = uniqueIdent (writerExtensions opts) inlines mempty
isTopLevel <- gets stTopLevel
if isTopLevel
then do
let headerChar = if level > 5 then ' ' else "=-~^'" !! (level - 1)
let border = literal $ T.replicate (offset contents) $ T.singleton headerChar
let anchor | T.null name || name == autoId = empty
| otherwise = ".. _" <> literal name <> ":" $$ blankline
return $ nowrap $ anchor $$ contents $$ border $$ blankline
else do
let rub = "rubric:: " <> contents
let name' | T.null name = empty
| otherwise = ":name: " <> literal name
let cls | null classes = empty
| otherwise = ":class: " <> literal (T.unwords classes)
return $ nowrap $ hang 3 ".. " (rub $$ name' $$ cls) $$ blankline
blockToRST (CodeBlock (_,classes,kvs) str) = do
opts <- gets stOptions
let startnum = maybe "" (\x -> " " <> literal x) $ lookup "startFrom" kvs
let numberlines = if "numberLines" `elem` classes
then " :number-lines:" <> startnum
else empty
if "haskell" `elem` classes && "literate" `elem` classes &&
isEnabled Ext_literate_haskell opts
then return $ prefixed "> " (literal str) $$ blankline
else return $
(case [c | c <- classes,
c `notElem` ["sourceCode","literate","numberLines",
"number-lines","example"]] of
[] -> "::"
(lang:_) -> (".. code:: " <> literal lang) $$ numberlines)
$+$ nest 3 (literal str) $$ blankline
blockToRST (BlockQuote blocks) = do
contents <- blockListToRST blocks
return $ nest 3 contents <> blankline
blockToRST (Table _ blkCapt specs thead tbody tfoot) = do
let (caption, aligns, widths, headers, rows) = toLegacyTable blkCapt specs thead tbody tfoot
caption' <- inlineListToRST caption
let blocksToDoc opts bs = do
oldOpts <- gets stOptions
modify $ \st -> st{ stOptions = opts }
result <- blockListToRST bs
modify $ \st -> st{ stOptions = oldOpts }
return result
opts <- gets stOptions
let isSimple = all (== 0) widths && length widths > 1
tbl <- if isSimple
then do
tbl' <- simpleTable opts blocksToDoc headers rows
if offset tbl' > writerColumns opts
then gridTable opts blocksToDoc (all null headers)
(map (const AlignDefault) aligns) widths
headers rows
else return tbl'
else gridTable opts blocksToDoc (all null headers)
(map (const AlignDefault) aligns) widths
headers rows
return $ blankline $$
(if null caption
then tbl
else (".. table:: " <> caption') $$ blankline $$ nest 3 tbl) $$
blankline
blockToRST (BulletList items) = do
contents <- mapM bulletListItemToRST items
-- ensure that sublists have preceding blank line
return $ blankline $$
(if isTightList items then vcat else vsep) contents $$
blankline
blockToRST (OrderedList (start, style', delim) items) = do
let markers = if start == 1 && style' == DefaultStyle && delim == DefaultDelim
then replicate (length items) "#."
else take (length items) $ orderedListMarkers
(start, style', delim)
let maxMarkerLength = maximum $ map T.length markers
let markers' = map (\m -> let s = maxMarkerLength - T.length m
in m <> T.replicate s " ") markers
contents <- zipWithM orderedListItemToRST markers' items
-- ensure that sublists have preceding blank line
return $ blankline $$
(if isTightList items then vcat else vsep) contents $$
blankline
blockToRST (DefinitionList items) = do
contents <- mapM definitionListItemToRST items
-- ensure that sublists have preceding blank line
return $ blankline $$ vcat contents $$ blankline
-- | Convert bullet list item (list of blocks) to RST.
bulletListItemToRST :: PandocMonad m => [Block] -> RST m (Doc Text)
bulletListItemToRST items = do
contents <- blockListToRST items
return $ hang 3 "- " contents $$
if endsWithPlain items
then cr
else blankline
-- | Convert ordered list item (a list of blocks) to RST.
orderedListItemToRST :: PandocMonad m
=> Text -- ^ marker for list item
-> [Block] -- ^ list item (list of blocks)
-> RST m (Doc Text)
orderedListItemToRST marker items = do
contents <- blockListToRST items
let marker' = marker <> " "
return $ hang (T.length marker') (literal marker') contents $$
if endsWithPlain items
then cr
else blankline
-- | Convert definition list item (label, list of blocks) to RST.
definitionListItemToRST :: PandocMonad m => ([Inline], [[Block]]) -> RST m (Doc Text)
definitionListItemToRST (label, defs) = do
label' <- inlineListToRST label
contents <- liftM vcat $ mapM blockListToRST defs
return $ nowrap label' $$ nest 3 (nestle contents) $$
if isTightList defs
then cr
else blankline
-- | Format a list of lines as line block.
linesToLineBlock :: PandocMonad m => [[Inline]] -> RST m (Doc Text)
linesToLineBlock inlineLines = do
lns <- mapM inlineListToRST inlineLines
return $
vcat (map (hang 2 (literal "| ")) lns) <> blankline
-- | Convert list of Pandoc block elements to RST.
blockListToRST' :: PandocMonad m
=> Bool
-> [Block] -- ^ List of block elements
-> RST m (Doc Text)
blockListToRST' topLevel blocks = do
-- insert comment between list and quoted blocks, see #4248 and #3675
let fixBlocks (b1:b2@(BlockQuote _):bs)
| toClose b1 = b1 : commentSep : b2 : fixBlocks bs
where
toClose Plain{} = False
toClose Header{} = False
toClose LineBlock{} = False
toClose HorizontalRule = False
toClose (Para [Image _ _ (_,t)]) = "fig:" `T.isPrefixOf` t
toClose Para{} = False
toClose _ = True
commentSep = RawBlock "rst" "..\n\n"
fixBlocks (b:bs) = b : fixBlocks bs
fixBlocks [] = []
tl <- gets stTopLevel
modify (\s->s{stTopLevel=topLevel})
res <- vcat `fmap` mapM blockToRST (fixBlocks blocks)
modify (\s->s{stTopLevel=tl})
return res
blockListToRST :: PandocMonad m
=> [Block] -- ^ List of block elements
-> RST m (Doc Text)
blockListToRST = blockListToRST' False
transformInlines :: [Inline] -> [Inline]
transformInlines = insertBS .
filter hasContents .
removeSpaceAfterDisplayMath .
concatMap (transformNested . flatten)
where -- empty inlines are not valid RST syntax
hasContents :: Inline -> Bool
hasContents (Str "") = False
hasContents (Emph []) = False
hasContents (Underline []) = False
hasContents (Strong []) = False
hasContents (Strikeout []) = False
hasContents (Superscript []) = False
hasContents (Subscript []) = False
hasContents (SmallCaps []) = False
hasContents (Quoted _ []) = False
hasContents (Cite _ []) = False
hasContents (Span _ []) = False
hasContents (Link _ [] ("", "")) = False
hasContents (Image _ [] ("", "")) = False
hasContents _ = True
-- remove spaces after displaymath, as they screw up indentation:
removeSpaceAfterDisplayMath (Math DisplayMath x : zs) =
Math DisplayMath x : dropWhile (==Space) zs
removeSpaceAfterDisplayMath (x:xs) = x : removeSpaceAfterDisplayMath xs
removeSpaceAfterDisplayMath [] = []
insertBS :: [Inline] -> [Inline] -- insert '\ ' where needed
insertBS (x:y:z:zs)
| isComplex y && surroundComplex x z =
x : y : insertBS (z : zs)
insertBS (x:y:zs)
| isComplex x && not (okAfterComplex y) =
x : RawInline "rst" "\\ " : insertBS (y : zs)
| isComplex y && not (okBeforeComplex x) =
x : RawInline "rst" "\\ " : insertBS (y : zs)
| otherwise =
x : insertBS (y : zs)
insertBS (x:ys) = x : insertBS ys
insertBS [] = []
transformNested :: [Inline] -> [Inline]
transformNested = map (mapNested stripLeadingTrailingSpace)
surroundComplex :: Inline -> Inline -> Bool
surroundComplex (Str s) (Str s')
| Just (_, c) <- T.unsnoc s
, Just (c', _) <- T.uncons s'
= case (c, c') of
('\'','\'') -> True
('"','"') -> True
('<','>') -> True
('[',']') -> True
('{','}') -> True
_ -> False
surroundComplex _ _ = False
okAfterComplex :: Inline -> Bool
okAfterComplex Space = True
okAfterComplex SoftBreak = True
okAfterComplex LineBreak = True
okAfterComplex (Str (T.uncons -> Just (c,_)))
= isSpace c || c `elemText` "-.,:;!?\\/'\")]}>–—"
okAfterComplex _ = False
okBeforeComplex :: Inline -> Bool
okBeforeComplex Space = True
okBeforeComplex SoftBreak = True
okBeforeComplex LineBreak = True
okBeforeComplex (Str (T.unsnoc -> Just (_,c)))
= isSpace c || c `elemText` "-:/'\"<([{–—"
okBeforeComplex _ = False
isComplex :: Inline -> Bool
isComplex (Emph _) = True
isComplex (Underline _) = True
isComplex (Strong _) = True
isComplex (SmallCaps _) = True
isComplex (Strikeout _) = True
isComplex (Superscript _) = True
isComplex (Subscript _) = True
isComplex Link{} = True
isComplex Image{} = True
isComplex (Code _ _) = True
isComplex (Math _ _) = True
isComplex (Cite _ (x:_)) = isComplex x
isComplex (Span _ (x:_)) = isComplex x
isComplex _ = False
-- | Flattens nested inlines. Extracts nested inlines and goes through
-- them either collapsing them in the outer inline container or
-- pulling them out of it
flatten :: Inline -> [Inline]
flatten outer
| null contents = [outer]
| otherwise = combineAll contents
where contents = dropInlineParent outer
combineAll = foldl combine []
combine :: [Inline] -> Inline -> [Inline]
combine f i =
case (outer, i) of
-- quotes are not rendered using RST inlines, so we can keep
-- them and they will be readable and parsable
(Quoted _ _, _) -> keep f i
(_, Quoted _ _) -> keep f i
-- spans are not rendered using RST inlines, so we can keep them
(Span ("",[],[]) _, _) -> keep f i
(_, Span ("",[],[]) _) -> keep f i
-- inlineToRST handles this case properly so it's safe to keep
( Link{}, Image{}) -> keep f i
-- parent inlines would prevent links from being correctly
-- parsed, in this case we prioritise the content over the
-- style
(_, Link{}) -> emerge f i
-- always give priority to strong text over emphasis
(Emph _, Strong _) -> emerge f i
-- drop all other nested styles
(_, _) -> collapse f i
emerge f i = f <> [i]
keep f i = appendToLast f [i]
collapse f i = appendToLast f $ dropInlineParent i
appendToLast :: [Inline] -> [Inline] -> [Inline]
appendToLast [] toAppend = [setInlineChildren outer toAppend]
appendToLast flattened toAppend
| isOuter lastFlat = init flattened <> [appendTo lastFlat toAppend]
| otherwise = flattened <> [setInlineChildren outer toAppend]
where lastFlat = last flattened
appendTo o i = mapNested (<> i) o
isOuter i = emptyParent i == emptyParent outer
emptyParent i = setInlineChildren i []
mapNested :: ([Inline] -> [Inline]) -> Inline -> Inline
mapNested f i = setInlineChildren i (f (dropInlineParent i))
dropInlineParent :: Inline -> [Inline]
dropInlineParent (Link _ i _) = i
dropInlineParent (Emph i) = i
dropInlineParent (Underline i) = i
dropInlineParent (Strong i) = i
dropInlineParent (Strikeout i) = i
dropInlineParent (Superscript i) = i
dropInlineParent (Subscript i) = i
dropInlineParent (SmallCaps i) = i
dropInlineParent (Cite _ i) = i
dropInlineParent (Image _ i _) = i
dropInlineParent (Span _ i) = i
dropInlineParent (Quoted _ i) = i
dropInlineParent i = [i] -- not a parent, like Str or Space
setInlineChildren :: Inline -> [Inline] -> Inline
setInlineChildren (Link a _ t) i = Link a i t
setInlineChildren (Emph _) i = Emph i
setInlineChildren (Underline _) i = Underline i
setInlineChildren (Strong _) i = Strong i
setInlineChildren (Strikeout _) i = Strikeout i
setInlineChildren (Superscript _) i = Superscript i
setInlineChildren (Subscript _) i = Subscript i
setInlineChildren (SmallCaps _) i = SmallCaps i
setInlineChildren (Quoted q _) i = Quoted q i
setInlineChildren (Cite c _) i = Cite c i
setInlineChildren (Image a _ t) i = Image a i t
setInlineChildren (Span a _) i = Span a i
setInlineChildren leaf _ = leaf
inlineListToRST :: PandocMonad m => [Inline] -> RST m (Doc Text)
inlineListToRST = writeInlines . walk transformInlines
-- | Convert list of Pandoc inline elements to RST.
writeInlines :: PandocMonad m => [Inline] -> RST m (Doc Text)
writeInlines lst =
hcat <$> mapM inlineToRST lst
-- | Convert Pandoc inline element to RST.
inlineToRST :: PandocMonad m => Inline -> RST m (Doc Text)
inlineToRST (Span (_,_,kvs) ils) = do
contents <- writeInlines ils
return $
case lookup "role" kvs of
Just role -> ":" <> literal role <> ":`" <> contents <> "`"
Nothing -> contents
inlineToRST (Emph lst) = do
contents <- writeInlines lst
return $ "*" <> contents <> "*"
-- Underline is not supported, fall back to Emph
inlineToRST (Underline lst) =
inlineToRST (Emph lst)
inlineToRST (Strong lst) = do
contents <- writeInlines lst
return $ "**" <> contents <> "**"
inlineToRST (Strikeout lst) = do
contents <- writeInlines lst
return $ "[STRIKEOUT:" <> contents <> "]"
inlineToRST (Superscript lst) = do
contents <- writeInlines lst
return $ ":sup:`" <> contents <> "`"
inlineToRST (Subscript lst) = do
contents <- writeInlines lst
return $ ":sub:`" <> contents <> "`"
inlineToRST (SmallCaps lst) = writeInlines lst
inlineToRST (Quoted SingleQuote lst) = do
contents <- writeInlines lst
opts <- gets stOptions
if isEnabled Ext_smart opts
then return $ "'" <> contents <> "'"
else return $ "‘" <> contents <> "’"
inlineToRST (Quoted DoubleQuote lst) = do
contents <- writeInlines lst
opts <- gets stOptions
if isEnabled Ext_smart opts
then return $ "\"" <> contents <> "\""
else return $ "“" <> contents <> "”"
inlineToRST (Cite _ lst) =
writeInlines lst
inlineToRST (Code (_,["interpreted-text"],[("role",role)]) str) =
return $ ":" <> literal role <> ":`" <> literal str <> "`"
inlineToRST (Code _ str) = do
opts <- gets stOptions
-- we trim the string because the delimiters must adjoin a
-- non-space character; see #3496
-- we use :literal: when the code contains backticks, since
-- :literal: allows backslash-escapes; see #3974
return $
if '`' `elemText` str
then ":literal:`" <> literal (escapeText opts (trim str)) <> "`"
else "``" <> literal (trim str) <> "``"
inlineToRST (Str str) = do
opts <- gets stOptions
return $ literal $
(if isEnabled Ext_smart opts
then unsmartify opts
else id) $ escapeText opts str
inlineToRST (Math t str) = do
modify $ \st -> st{ stHasMath = True }
return $ if t == InlineMath
then ":math:`" <> literal str <> "`"
else if '\n' `elemText` str
then blankline $$ ".. math::" $$
blankline $$ nest 3 (literal str) $$ blankline
else blankline $$ (".. math:: " <> literal str) $$ blankline
inlineToRST il@(RawInline f x)
| f == "rst" = return $ literal x
| f == "latex" || f == "tex" = do
modify $ \st -> st{ stHasRawTeX = True }
return $ ":raw-latex:`" <> literal x <> "`"
| otherwise = empty <$ report (InlineNotRendered il)
inlineToRST LineBreak = return cr -- there's no line break in RST (see Para)
inlineToRST Space = return space
inlineToRST SoftBreak = do
wrapText <- gets $ writerWrapText . stOptions
case wrapText of
WrapPreserve -> return cr
WrapAuto -> return space
WrapNone -> return space
-- autolink
inlineToRST (Link _ [Str str] (src, _))
| isURI src &&
if "mailto:" `T.isPrefixOf` src
then src == escapeURI ("mailto:" <> str)
else src == escapeURI str = do
let srcSuffix = fromMaybe src (T.stripPrefix "mailto:" src)
return $ literal srcSuffix
inlineToRST (Link _ [Image attr alt (imgsrc,imgtit)] (src, _tit)) = do
label <- registerImage attr alt (imgsrc,imgtit) (Just src)
return $ "|" <> label <> "|"
inlineToRST (Link _ txt (src, tit)) = do
useReferenceLinks <- gets $ writerReferenceLinks . stOptions
linktext <- writeInlines $ B.toList . B.trimInlines . B.fromList $ txt
if useReferenceLinks
then do refs <- gets stLinks
case lookup txt refs of
Just (src',tit') ->
if src == src' && tit == tit'
then return $ "`" <> linktext <> "`_"
else
return $ "`" <> linktext <> " <" <> literal src <> ">`__"
Nothing -> do
modify $ \st -> st { stLinks = (txt,(src,tit)):refs }
return $ "`" <> linktext <> "`_"
else return $ "`" <> linktext <> " <" <> literal src <> ">`__"
inlineToRST (Image attr alternate (source, tit)) = do
label <- registerImage attr alternate (source,tit) Nothing
return $ "|" <> label <> "|"
inlineToRST (Note contents) = do
-- add to notes in state
notes <- gets stNotes
modify $ \st -> st { stNotes = contents:notes }
let ref = show $ length notes + 1
return $ " [" <> text ref <> "]_"
registerImage :: PandocMonad m => Attr -> [Inline] -> Target -> Maybe Text -> RST m (Doc Text)
registerImage attr alt (src,tit) mbtarget = do
pics <- gets stImages
imgId <- gets stImageId
let getImageName = do
modify $ \st -> st{ stImageId = imgId + 1 }
return [Str ("image" <> tshow imgId)]
txt <- case lookup alt pics of
Just (a,s,t,mbt) ->
if (a,s,t,mbt) == (attr,src,tit,mbtarget)
then return alt
else do
alt' <- getImageName
modify $ \st -> st { stImages =
(alt', (attr,src,tit, mbtarget)):stImages st }
return alt'
Nothing -> do
alt' <- if null alt || alt == [Str ""]
then getImageName
else return alt
modify $ \st -> st { stImages =
(alt', (attr,src,tit, mbtarget)):stImages st }
return alt'
inlineListToRST txt
imageDimsToRST :: PandocMonad m => Attr -> RST m (Doc Text)
imageDimsToRST attr = do
let (ident, _, _) = attr
name = if T.null ident
then empty
else ":name: " <> literal ident
showDim dir = let cols d = ":" <> text (show dir) <> ": " <> text (show d)
in case dimension dir attr of
Just (Percent a) ->
case dir of
Height -> empty
Width -> cols (Percent a)
Just dim -> cols dim
Nothing -> empty
return $ cr <> name $$ showDim Width $$ showDim Height
simpleTable :: PandocMonad m
=> WriterOptions
-> (WriterOptions -> [Block] -> m (Doc Text))
-> [[Block]]
-> [[[Block]]]
-> m (Doc Text)
simpleTable opts blocksToDoc headers rows = do
-- can't have empty cells in first column:
let fixEmpties (d:ds) = if isEmpty d
then literal "\\ " : ds
else d : ds
fixEmpties [] = []
headerDocs <- if all null headers
then return []
else fixEmpties <$> mapM (blocksToDoc opts) headers
rowDocs <- mapM (fmap fixEmpties . mapM (blocksToDoc opts)) rows
let numChars [] = 0
numChars xs = maximum . map offset $ xs
let colWidths = map numChars $ transpose (headerDocs : rowDocs)
let toRow = mconcat . intersperse (lblock 1 " ") . zipWith lblock colWidths
let hline = nowrap $ hsep (map (\n -> literal (T.replicate n "=")) colWidths)
let hdr = if all null headers
then mempty
else hline $$ toRow headerDocs
let bdy = vcat $ map toRow rowDocs
return $ hdr $$ hline $$ bdy $$ hline
|