{-# LANGUAGE LambdaCase #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE NoImplicitPrelude #-} {- | Module : Text.Pandoc.Writers.Jira Copyright : © 2010-2019 Albert Krewinkel, John MacFarlane License : GNU GPL, version 2 or above Maintainer : Albert Krewinkel Stability : alpha Portability : portable Conversion of 'Pandoc' documents to Jira markup. JIRA: -} module Text.Pandoc.Writers.Jira ( writeJira ) where import Prelude import Control.Monad.Reader (ReaderT, ask, asks, runReaderT) import Control.Monad.State.Strict (StateT, evalStateT, gets, modify) import Data.Foldable (find) import Data.Text (Text) import Text.Jira.Parser (plainText) import Text.Jira.Printer (prettyBlocks, prettyInlines) import Text.Pandoc.Class (PandocMonad) import Text.Pandoc.Definition import Text.Pandoc.Options (WriterOptions (writerTemplate, writerWrapText), WrapOption (..)) import Text.Pandoc.Shared (linesToPara) import Text.Pandoc.Templates (renderTemplate) import Text.Pandoc.Writers.Math (texMathToInlines) import Text.Pandoc.Writers.Shared (defField, metaToContext) import Text.DocLayout (literal, render) import qualified Data.Text as T import qualified Text.Jira.Markup as Jira -- | Convert Pandoc to Jira. writeJira :: PandocMonad m => WriterOptions -> Pandoc -> m Text writeJira opts = runDefaultConverter (writerWrapText opts) (pandocToJira opts) -- | State to keep track of footnotes. newtype ConverterState = ConverterState { stNotes :: [Text] } -- | Initial converter state. startState :: ConverterState startState = ConverterState { stNotes = [] } -- | Converter monad type JiraConverter m = ReaderT WrapOption (StateT ConverterState m) -- | Run a converter using the default state runDefaultConverter :: PandocMonad m => WrapOption -> (a -> JiraConverter m Text) -> a -> m Text runDefaultConverter wrap c x = evalStateT (runReaderT (c x) wrap) startState -- | Return Jira representation of document. pandocToJira :: PandocMonad m => WriterOptions -> Pandoc -> JiraConverter m Text pandocToJira opts (Pandoc meta blocks) = do wrap <- ask metadata <- metaToContext opts (fmap literal . runDefaultConverter wrap blockListToJira) (fmap literal . runDefaultConverter wrap inlineListToJira) meta body <- blockListToJira blocks notes <- gets $ T.intercalate "\n" . reverse . stNotes let main = body <> if T.null notes then mempty else "\n\n" <> notes let context = defField "body" main metadata return $ case writerTemplate opts of Nothing -> main Just tpl -> render Nothing $ renderTemplate tpl context blockListToJira :: PandocMonad m => [Block] -> JiraConverter m Text blockListToJira = fmap prettyBlocks . toJiraBlocks inlineListToJira :: PandocMonad m => [Inline] -> JiraConverter m Text inlineListToJira = fmap prettyInlines . toJiraInlines toJiraBlocks :: PandocMonad m => [Block] -> JiraConverter m [Jira.Block] toJiraBlocks blocks = do let convert = \case BlockQuote bs -> singleton . Jira.BlockQuote <$> toJiraBlocks bs BulletList items -> singleton . Jira.List Jira.CircleBullets <$> toJiraItems items CodeBlock attr cs -> toJiraCode attr cs DefinitionList items -> toJiraDefinitionList items Div attr bs -> toJiraPanel attr bs Header lvl attr xs -> toJiraHeader lvl attr xs HorizontalRule -> return . singleton $ Jira.HorizontalRule LineBlock xs -> toJiraBlocks [linesToPara xs] OrderedList _ items -> singleton . Jira.List Jira.Enumeration <$> toJiraItems items Para xs -> singleton . Jira.Para <$> toJiraInlines xs Plain xs -> singleton . Jira.Para <$> toJiraInlines xs RawBlock fmt cs -> rawBlockToJira fmt cs Null -> return mempty Table _ _ _ hd body -> singleton <$> do headerRow <- if all null hd then pure Nothing else Just <$> toRow Jira.HeaderCell hd bodyRows <- mapM (toRow Jira.BodyCell) body let rows = case headerRow of Just header -> header : bodyRows Nothing -> bodyRows return $ Jira.Table rows jiraBlocks <- mapM convert blocks return $ mconcat jiraBlocks toRow :: PandocMonad m => ([Jira.Block] -> Jira.Cell) -> [TableCell] -> JiraConverter m Jira.Row toRow mkCell cells = Jira.Row <$> mapM (fmap mkCell . toJiraBlocks) cells toJiraItems :: PandocMonad m => [[Block]] -> JiraConverter m [[Jira.Block]] toJiraItems = mapM toJiraBlocks toJiraCode :: PandocMonad m => Attr -> Text -> JiraConverter m [Jira.Block] toJiraCode (ident, classes, _attribs) code = do let lang = case find (\c -> T.toLower c `elem` knownLanguages) classes of Nothing -> Jira.Language "java" Just l -> Jira.Language l let addAnchor b = if T.null ident then b else [Jira.Para (singleton (Jira.Anchor ident))] <> b return . addAnchor . singleton $ Jira.Code lang mempty code -- | Creates a Jira definition list toJiraDefinitionList :: PandocMonad m => [([Inline], [[Block]])] -> JiraConverter m [Jira.Block] toJiraDefinitionList defItems = do let convertDefItem (term, defs) = do jiraTerm <- Jira.Para <$> styled Jira.Strong term jiraDefs <- mconcat <$> mapM toJiraBlocks defs return $ jiraTerm : jiraDefs singleton . Jira.List Jira.CircleBullets <$> mapM convertDefItem defItems -- | Creates a Jira panel toJiraPanel :: PandocMonad m => Attr -> [Block] -> JiraConverter m [Jira.Block] toJiraPanel attr blocks = do jiraBlocks <- toJiraBlocks blocks return $ if attr == nullAttr then jiraBlocks else singleton (Jira.Panel [] jiraBlocks) -- | Creates a Jira header toJiraHeader :: PandocMonad m => Int -> Attr -> [Inline] -> JiraConverter m [Jira.Block] toJiraHeader lvl (ident, _, _) inlines = let anchor = Jira.Anchor ident in singleton . Jira.Header lvl . (anchor :) <$> toJiraInlines inlines -- | Handles raw block. Jira is included verbatim, everything else is -- discarded. rawBlockToJira :: PandocMonad m => Format -> Text -> JiraConverter m [Jira.Block] rawBlockToJira fmt cs = do rawInlines <- toJiraRaw fmt cs return $ if null rawInlines then mempty else singleton (Jira.Para rawInlines) toJiraRaw :: PandocMonad m => Format -> Text -> JiraConverter m [Jira.Inline] toJiraRaw fmt cs = case fmt of Format "jira" -> return . singleton $ Jira.Str cs _ -> return mempty -- -- Inlines -- toJiraInlines :: PandocMonad m => [Inline] -> JiraConverter m [Jira.Inline] toJiraInlines inlines = do let convert = \case Cite _ xs -> toJiraInlines xs Code _ cs -> return . singleton $ Jira.Monospaced (escapeSpecialChars cs) Emph xs -> styled Jira.Emphasis xs Image _ _ (src, _) -> pure . singleton $ Jira.Image [] (Jira.URL src) LineBreak -> pure . singleton $ Jira.Linebreak Link _ xs (tgt, _) -> singleton . flip Jira.Link (Jira.URL tgt) <$> toJiraInlines xs Math mtype cs -> mathToJira mtype cs Note bs -> registerNotes bs Quoted qt xs -> quotedToJira qt xs RawInline fmt cs -> toJiraRaw fmt cs SmallCaps xs -> styled Jira.Strong xs SoftBreak -> do preserveBreak <- asks (== WrapPreserve) pure . singleton $ if preserveBreak then Jira.Linebreak else Jira.Space Space -> pure . singleton $ Jira.Space Span _attr xs -> toJiraInlines xs Str s -> pure $ escapeSpecialChars s Strikeout xs -> styled Jira.Strikeout xs Strong xs -> styled Jira.Strong xs Subscript xs -> styled Jira.Subscript xs Superscript xs -> styled Jira.Superscript xs jiraInlines <- mapM convert inlines return $ mconcat jiraInlines singleton :: a -> [a] singleton = (:[]) styled :: PandocMonad m => Jira.InlineStyle -> [Inline] -> JiraConverter m [Jira.Inline] styled s = fmap (singleton . Jira.Styled s) . toJiraInlines -- | Converts a plain text value to Jira inlines, ensuring that all -- special characters will be handled appropriately. escapeSpecialChars :: Text -> [Jira.Inline] escapeSpecialChars t = case plainText t of Right xs -> xs Left _ -> singleton $ Jira.Str t mathToJira :: PandocMonad m => MathType -> Text -> JiraConverter m [Jira.Inline] mathToJira mtype cs = do mathInlines <- toJiraInlines =<< texMathToInlines mtype cs return $ case mtype of InlineMath -> mathInlines DisplayMath -> Jira.Linebreak : mathInlines ++ [Jira.Linebreak] quotedToJira :: PandocMonad m => QuoteType -> [Inline] -> JiraConverter m [Jira.Inline] quotedToJira qtype xs = do let quoteChar = case qtype of DoubleQuote -> "\"" SingleQuote -> "'" let surroundWithQuotes = (Jira.Str quoteChar :) . (++ [Jira.Str quoteChar]) surroundWithQuotes <$> toJiraInlines xs registerNotes :: PandocMonad m => [Block] -> JiraConverter m [Jira.Inline] registerNotes contents = do curNotes <- gets stNotes let newnum = length curNotes + 1 contents' <- blockListToJira contents let thisnote = "\\[" <> T.pack (show newnum) <> "] " <> contents' <> "\n" modify $ \s -> s { stNotes = thisnote : curNotes } return . singleton . Jira.Str $ "[" <> T.pack (show newnum) <> "]" -- | Language codes recognized by jira knownLanguages :: [Text] knownLanguages = [ "actionscript", "ada", "applescript", "bash", "c", "c#", "c++" , "css", "erlang", "go", "groovy", "haskell", "html", "javascript" , "json", "lua", "nyan", "objc", "perl", "php", "python", "r", "ruby" , "scala", "sql", "swift", "visualbasic", "xml", "yaml" ]