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|
{-# LANGUAGE PatternGuards #-}
{-
Copyright (C) 2017-2018 Jesse Rosenthal <jrosenthal@jhu.edu>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
-}
{- |
Module : Text.Pandoc.Writers.Powerpoint.Presentation
Copyright : Copyright (C) 2017-2018 Jesse Rosenthal
License : GNU GPL, version 2 or above
Maintainer : Jesse Rosenthal <jrosenthal@jhu.edu>
Stability : alpha
Portability : portable
Definition of Presentation datatype, modeling a MS Powerpoint (pptx)
document, and functions for converting a Pandoc document to
Presentation.
-}
module Text.Pandoc.Writers.Powerpoint.Presentation ( documentToPresentation
, Presentation(..)
, DocProps(..)
, Slide(..)
, Layout(..)
, Notes(..)
, SlideId(..)
, Shape(..)
, Graphic(..)
, BulletType(..)
, Algnment(..)
, Paragraph(..)
, ParaElem(..)
, ParaProps(..)
, RunProps(..)
, TableProps(..)
, Strikethrough(..)
, Capitals(..)
, PicProps(..)
, URL
, TeXString(..)
, LinkTarget(..)
) where
import Control.Monad.Reader
import Control.Monad.State
import Data.List (intercalate)
import Data.Default
import Text.Pandoc.Definition
import Text.Pandoc.ImageSize
import Text.Pandoc.Slides (getSlideLevel)
import Text.Pandoc.Options
import Text.Pandoc.Logging
import Text.Pandoc.Walk
import Text.Pandoc.Compat.Time (UTCTime)
import qualified Text.Pandoc.Shared as Shared -- so we don't overlap "Element"
import Text.Pandoc.Writers.Shared (metaValueToInlines)
import qualified Data.Map as M
import qualified Data.Set as S
import Data.Maybe (maybeToList)
import Text.Pandoc.Highlighting
import qualified Data.Text as T
import Control.Applicative ((<|>))
import Skylighting
data WriterEnv = WriterEnv { envMetadata :: Meta
, envRunProps :: RunProps
, envParaProps :: ParaProps
, envSlideLevel :: Int
, envOpts :: WriterOptions
, envSlideHasHeader :: Bool
, envInList :: Bool
, envInNoteSlide :: Bool
, envCurSlideId :: SlideId
}
deriving (Show)
instance Default WriterEnv where
def = WriterEnv { envMetadata = mempty
, envRunProps = def
, envParaProps = def
, envSlideLevel = 2
, envOpts = def
, envSlideHasHeader = False
, envInList = False
, envInNoteSlide = False
, envCurSlideId = SlideId "Default"
}
data WriterState = WriterState { stNoteIds :: M.Map Int [Block]
-- associate anchors with slide id
, stAnchorMap :: M.Map String SlideId
, stSlideIdSet :: S.Set SlideId
, stLog :: [LogMessage]
} deriving (Show, Eq)
instance Default WriterState where
def = WriterState { stNoteIds = mempty
, stAnchorMap = mempty
-- we reserve this s
, stSlideIdSet = reservedSlideIds
, stLog = []
}
metadataSlideId :: SlideId
metadataSlideId = SlideId "Metadata"
tocSlideId :: SlideId
tocSlideId = SlideId "TOC"
endNotesSlideId :: SlideId
endNotesSlideId = SlideId "EndNotes"
reservedSlideIds :: S.Set SlideId
reservedSlideIds = S.fromList [ metadataSlideId
, tocSlideId
, endNotesSlideId
]
uniqueSlideId' :: Integer -> S.Set SlideId -> String -> SlideId
uniqueSlideId' n idSet s =
let s' = if n == 0 then s else (s ++ "-" ++ show n)
in if SlideId s' `S.member` idSet
then uniqueSlideId' (n+1) idSet s
else SlideId s'
uniqueSlideId :: S.Set SlideId -> String -> SlideId
uniqueSlideId = uniqueSlideId' 0
runUniqueSlideId :: String -> Pres SlideId
runUniqueSlideId s = do
idSet <- gets stSlideIdSet
let sldId = uniqueSlideId idSet s
modify $ \st -> st{stSlideIdSet = S.insert sldId idSet}
return sldId
addLogMessage :: LogMessage -> Pres ()
addLogMessage msg = modify $ \st -> st{stLog = msg : (stLog st)}
type Pres = ReaderT WriterEnv (State WriterState)
runPres :: WriterEnv -> WriterState -> Pres a -> (a, [LogMessage])
runPres env st p = (pres, reverse $ stLog finalSt)
where (pres, finalSt) = runState (runReaderT p env) st
-- GHC 7.8 will still complain about concat <$> mapM unless we specify
-- Functor. We can get rid of this when we stop supporting GHC 7.8.
concatMapM :: (Monad m) => (a -> m [b]) -> [a] -> m [b]
concatMapM f xs = liftM concat (mapM f xs)
type Pixels = Integer
data Presentation = Presentation DocProps [Slide]
deriving (Show)
data DocProps = DocProps { dcTitle :: Maybe String
, dcSubject :: Maybe String
, dcCreator :: Maybe String
, dcKeywords :: Maybe [String]
, dcCreated :: Maybe UTCTime
} deriving (Show, Eq)
data Slide = Slide { slideId :: SlideId
, slideLayout :: Layout
, slideNotes :: (Maybe Notes)
} deriving (Show, Eq)
newtype SlideId = SlideId String
deriving (Show, Eq, Ord)
-- In theory you could have anything on a notes slide but it seems
-- designed mainly for one textbox, so we'll just put in the contents
-- of that textbox, to avoid other shapes that won't work as well.
newtype Notes = Notes [Paragraph]
deriving (Show, Eq)
data Layout = MetadataSlide { metadataSlideTitle :: [ParaElem]
, metadataSlideSubtitle :: [ParaElem]
, metadataSlideAuthors :: [[ParaElem]]
, metadataSlideDate :: [ParaElem]
}
| TitleSlide { titleSlideHeader :: [ParaElem]}
| ContentSlide { contentSlideHeader :: [ParaElem]
, contentSlideContent :: [Shape]
}
| TwoColumnSlide { twoColumnSlideHeader :: [ParaElem]
, twoColumnSlideLeft :: [Shape]
, twoColumnSlideRight :: [Shape]
}
deriving (Show, Eq)
data Shape = Pic PicProps FilePath [ParaElem]
| GraphicFrame [Graphic] [ParaElem]
| TextBox [Paragraph]
deriving (Show, Eq)
type Cell = [Paragraph]
data TableProps = TableProps { tblPrFirstRow :: Bool
, tblPrBandRow :: Bool
} deriving (Show, Eq)
data Graphic = Tbl TableProps [Cell] [[Cell]]
deriving (Show, Eq)
data Paragraph = Paragraph { paraProps :: ParaProps
, paraElems :: [ParaElem]
} deriving (Show, Eq)
data BulletType = Bullet
| AutoNumbering ListAttributes
deriving (Show, Eq)
data Algnment = AlgnLeft | AlgnRight | AlgnCenter
deriving (Show, Eq)
data ParaProps = ParaProps { pPropMarginLeft :: Maybe Pixels
, pPropMarginRight :: Maybe Pixels
, pPropLevel :: Int
, pPropBullet :: Maybe BulletType
, pPropAlign :: Maybe Algnment
, pPropSpaceBefore :: Maybe Pixels
} deriving (Show, Eq)
instance Default ParaProps where
def = ParaProps { pPropMarginLeft = Just 0
, pPropMarginRight = Just 0
, pPropLevel = 0
, pPropBullet = Nothing
, pPropAlign = Nothing
, pPropSpaceBefore = Nothing
}
newtype TeXString = TeXString {unTeXString :: String}
deriving (Eq, Show)
data ParaElem = Break
| Run RunProps String
-- It would be more elegant to have native TeXMath
-- Expressions here, but this allows us to use
-- `convertmath` from T.P.Writers.Math. Will perhaps
-- revisit in the future.
| MathElem MathType TeXString
deriving (Show, Eq)
data Strikethrough = NoStrike | SingleStrike | DoubleStrike
deriving (Show, Eq)
data Capitals = NoCapitals | SmallCapitals | AllCapitals
deriving (Show, Eq)
type URL = String
data LinkTarget = ExternalTarget (URL, String)
| InternalTarget SlideId
deriving (Show, Eq)
data RunProps = RunProps { rPropBold :: Bool
, rPropItalics :: Bool
, rStrikethrough :: Maybe Strikethrough
, rBaseline :: Maybe Int
, rCap :: Maybe Capitals
, rLink :: Maybe LinkTarget
, rPropCode :: Bool
, rPropBlockQuote :: Bool
, rPropForceSize :: Maybe Pixels
, rSolidFill :: Maybe Color
-- TODO: Make a full underline data type with
-- the different options.
, rPropUnderline :: Bool
} deriving (Show, Eq)
instance Default RunProps where
def = RunProps { rPropBold = False
, rPropItalics = False
, rStrikethrough = Nothing
, rBaseline = Nothing
, rCap = Nothing
, rLink = Nothing
, rPropCode = False
, rPropBlockQuote = False
, rPropForceSize = Nothing
, rSolidFill = Nothing
, rPropUnderline = False
}
data PicProps = PicProps { picPropLink :: Maybe LinkTarget
, picWidth :: Maybe Dimension
, picHeight :: Maybe Dimension
} deriving (Show, Eq)
instance Default PicProps where
def = PicProps { picPropLink = Nothing
, picWidth = Nothing
, picHeight = Nothing
}
--------------------------------------------------
inlinesToParElems :: [Inline] -> Pres [ParaElem]
inlinesToParElems ils = concatMapM inlineToParElems ils
inlineToParElems :: Inline -> Pres [ParaElem]
inlineToParElems (Str s) = do
pr <- asks envRunProps
return [Run pr s]
inlineToParElems (Emph ils) =
local (\r -> r{envRunProps = (envRunProps r){rPropItalics=True}}) $
inlinesToParElems ils
inlineToParElems (Strong ils) =
local (\r -> r{envRunProps = (envRunProps r){rPropBold=True}}) $
inlinesToParElems ils
inlineToParElems (Strikeout ils) =
local (\r -> r{envRunProps = (envRunProps r){rStrikethrough=Just SingleStrike}}) $
inlinesToParElems ils
inlineToParElems (Superscript ils) =
local (\r -> r{envRunProps = (envRunProps r){rBaseline=Just 30000}}) $
inlinesToParElems ils
inlineToParElems (Subscript ils) =
local (\r -> r{envRunProps = (envRunProps r){rBaseline=Just (-25000)}}) $
inlinesToParElems ils
inlineToParElems (SmallCaps ils) =
local (\r -> r{envRunProps = (envRunProps r){rCap = Just SmallCapitals}}) $
inlinesToParElems ils
inlineToParElems Space = inlineToParElems (Str " ")
inlineToParElems SoftBreak = inlineToParElems (Str " ")
inlineToParElems LineBreak = return [Break]
inlineToParElems (Link _ ils (url, title)) = do
local (\r ->r{envRunProps = (envRunProps r){rLink = Just $ ExternalTarget (url, title)}}) $
inlinesToParElems ils
inlineToParElems (Code _ str) = do
local (\r ->r{envRunProps = (envRunProps r){rPropCode = True}}) $
inlineToParElems $ Str str
inlineToParElems (Math mathtype str) =
return [MathElem mathtype (TeXString str)]
inlineToParElems (Note blks) = do
notes <- gets stNoteIds
let maxNoteId = case M.keys notes of
[] -> 0
lst -> maximum lst
curNoteId = maxNoteId + 1
modify $ \st -> st { stNoteIds = M.insert curNoteId blks notes }
local (\env -> env{envRunProps = (envRunProps env){rLink = Just $ InternalTarget endNotesSlideId}}) $
inlineToParElems $ Superscript [Str $ show curNoteId]
inlineToParElems (Span _ ils) = concatMapM inlineToParElems ils
inlineToParElems (RawInline _ _) = return []
inlineToParElems _ = return []
isListType :: Block -> Bool
isListType (OrderedList _ _) = True
isListType (BulletList _) = True
isListType (DefinitionList _) = True
isListType _ = False
registerAnchorId :: String -> Pres ()
registerAnchorId anchor = do
anchorMap <- gets stAnchorMap
sldId <- asks envCurSlideId
unless (null anchor) $
modify $ \st -> st {stAnchorMap = M.insert anchor sldId anchorMap}
-- Currently hardcoded, until I figure out how to make it dynamic.
blockQuoteSize :: Pixels
blockQuoteSize = 20
noteSize :: Pixels
noteSize = 18
blockToParagraphs :: Block -> Pres [Paragraph]
blockToParagraphs (Plain ils) = do
parElems <- inlinesToParElems ils
pProps <- asks envParaProps
return [Paragraph pProps parElems]
blockToParagraphs (Para ils) = do
parElems <- inlinesToParElems ils
pProps <- asks envParaProps
return [Paragraph pProps parElems]
blockToParagraphs (LineBlock ilsList) = do
parElems <- inlinesToParElems $ intercalate [LineBreak] ilsList
pProps <- asks envParaProps
return [Paragraph pProps parElems]
-- TODO: work out the attributes
blockToParagraphs (CodeBlock attr str) =
local (\r -> r{ envParaProps = def{pPropMarginLeft = Just 100}
, envRunProps = (envRunProps r){rPropCode = True}}) $ do
mbSty <- writerHighlightStyle <$> asks envOpts
synMap <- writerSyntaxMap <$> asks envOpts
case mbSty of
Just sty ->
case highlight synMap (formatSourceLines sty) attr str of
Right pElems -> do pProps <- asks envParaProps
return $ [Paragraph pProps pElems]
Left _ -> blockToParagraphs $ Para [Str str]
Nothing -> blockToParagraphs $ Para [Str str]
-- We can't yet do incremental lists, but we should render a
-- (BlockQuote List) as a list to maintain compatibility with other
-- formats.
blockToParagraphs (BlockQuote (blk : blks)) | isListType blk = do
ps <- blockToParagraphs blk
ps' <- blockToParagraphs $ BlockQuote blks
return $ ps ++ ps'
blockToParagraphs (BlockQuote blks) =
local (\r -> r{ envParaProps = (envParaProps r){pPropMarginLeft = Just 100}
, envRunProps = (envRunProps r){rPropForceSize = Just blockQuoteSize}})$
concatMapM blockToParagraphs blks
-- TODO: work out the format
blockToParagraphs (RawBlock _ _) = return []
blockToParagraphs (Header _ (ident, _, _) ils) = do
-- Note that this function only deals with content blocks, so it
-- will only touch headers that are above the current slide level --
-- slides at or below the slidelevel will be taken care of by
-- `blocksToSlide'`. We have the register anchors in both of them.
registerAnchorId ident
-- we set the subeader to bold
parElems <- local (\e->e{envRunProps = (envRunProps e){rPropBold=True}}) $
inlinesToParElems ils
-- and give it a bit of space before it.
return [Paragraph def{pPropSpaceBefore = Just 30} parElems]
blockToParagraphs (BulletList blksLst) = do
pProps <- asks envParaProps
let lvl = pPropLevel pProps
local (\env -> env{ envInList = True
, envParaProps = pProps{ pPropLevel = lvl + 1
, pPropBullet = Just Bullet
, pPropMarginLeft = Nothing
}}) $
concatMapM multiParBullet blksLst
blockToParagraphs (OrderedList listAttr blksLst) = do
pProps <- asks envParaProps
let lvl = pPropLevel pProps
local (\env -> env{ envInList = True
, envParaProps = pProps{ pPropLevel = lvl + 1
, pPropBullet = Just (AutoNumbering listAttr)
, pPropMarginLeft = Nothing
}}) $
concatMapM multiParBullet blksLst
blockToParagraphs (DefinitionList entries) = do
let go :: ([Inline], [[Block]]) -> Pres [Paragraph]
go (ils, blksLst) = do
term <-blockToParagraphs $ Para [Strong ils]
-- For now, we'll treat each definition term as a
-- blockquote. We can extend this further later.
definition <- concatMapM (blockToParagraphs . BlockQuote) blksLst
return $ term ++ definition
concatMapM go entries
blockToParagraphs (Div (_, ("notes" : []), _) _) = return []
blockToParagraphs (Div _ blks) = concatMapM blockToParagraphs blks
blockToParagraphs blk = do
addLogMessage $ BlockNotRendered blk
return []
-- Make sure the bullet env gets turned off after the first para.
multiParBullet :: [Block] -> Pres [Paragraph]
multiParBullet [] = return []
multiParBullet (b:bs) = do
pProps <- asks envParaProps
p <- blockToParagraphs b
ps <- local (\env -> env{envParaProps = pProps{pPropBullet = Nothing}}) $
concatMapM blockToParagraphs bs
return $ p ++ ps
cellToParagraphs :: Alignment -> TableCell -> Pres [Paragraph]
cellToParagraphs algn tblCell = do
paras <- mapM (blockToParagraphs) tblCell
let alignment = case algn of
AlignLeft -> Just AlgnLeft
AlignRight -> Just AlgnRight
AlignCenter -> Just AlgnCenter
AlignDefault -> Nothing
paras' = map (map (\p -> p{paraProps = (paraProps p){pPropAlign = alignment}})) paras
return $ concat paras'
rowToParagraphs :: [Alignment] -> [TableCell] -> Pres [[Paragraph]]
rowToParagraphs algns tblCells = do
-- We have to make sure we have the right number of alignments
let pairs = zip (algns ++ repeat AlignDefault) tblCells
mapM (\(a, tc) -> cellToParagraphs a tc) pairs
withAttr :: Attr -> Shape -> Shape
withAttr attr (Pic picPr url caption) =
let picPr' = picPr { picWidth = dimension Width attr
, picHeight = dimension Height attr
}
in
Pic picPr' url caption
withAttr _ sp = sp
blockToShape :: Block -> Pres Shape
blockToShape (Plain (il:_)) | Image attr ils (url, _) <- il =
(withAttr attr . Pic def url) <$> (inlinesToParElems ils)
blockToShape (Para (il:_)) | Image attr ils (url, _) <- il =
(withAttr attr . Pic def url) <$> (inlinesToParElems ils)
blockToShape (Plain (il:_)) | Link _ (il':_) target <- il
, Image attr ils (url, _) <- il' =
(withAttr attr . Pic def {picPropLink = Just $ ExternalTarget target} url) <$>
(inlinesToParElems ils)
blockToShape (Para (il:_)) | Link _ (il':_) target <- il
, Image attr ils (url, _) <- il' =
(withAttr attr . Pic def{picPropLink = Just $ ExternalTarget target} url) <$>
(inlinesToParElems ils)
blockToShape (Table caption algn _ hdrCells rows) = do
caption' <- inlinesToParElems caption
hdrCells' <- rowToParagraphs algn hdrCells
rows' <- mapM (rowToParagraphs algn) rows
let tblPr = if null hdrCells
then TableProps { tblPrFirstRow = False
, tblPrBandRow = True
}
else TableProps { tblPrFirstRow = True
, tblPrBandRow = True
}
return $ GraphicFrame [Tbl tblPr hdrCells' rows'] caption'
blockToShape blk = do paras <- blockToParagraphs blk
let paras' = map (\par -> par{paraElems = combineParaElems $ paraElems par}) paras
return $ TextBox paras'
combineShapes :: [Shape] -> [Shape]
combineShapes [] = []
combineShapes (s : []) = [s]
combineShapes (pic@(Pic _ _ _) : ss) = pic : combineShapes ss
combineShapes ((TextBox []) : ss) = combineShapes ss
combineShapes (s : TextBox [] : ss) = combineShapes (s : ss)
combineShapes ((TextBox (p:ps)) : (TextBox (p':ps')) : ss) =
combineShapes $ TextBox ((p:ps) ++ (p':ps')) : ss
combineShapes (s:ss) = s : combineShapes ss
blocksToShapes :: [Block] -> Pres [Shape]
blocksToShapes blks = combineShapes <$> mapM blockToShape blks
isImage :: Inline -> Bool
isImage (Image _ _ _) = True
isImage (Link _ ((Image _ _ _) : _) _) = True
isImage _ = False
splitBlocks' :: [Block] -> [[Block]] -> [Block] -> Pres [[Block]]
splitBlocks' cur acc [] = return $ acc ++ (if null cur then [] else [cur])
splitBlocks' cur acc (HorizontalRule : blks) =
splitBlocks' [] (acc ++ (if null cur then [] else [cur])) blks
splitBlocks' cur acc (h@(Header n _ _) : blks) = do
slideLevel <- asks envSlideLevel
case compare n slideLevel of
LT -> splitBlocks' [] (acc ++ (if null cur then [] else [cur]) ++ [[h]]) blks
EQ -> splitBlocks' [h] (acc ++ (if null cur then [] else [cur])) blks
GT -> splitBlocks' (cur ++ [h]) acc blks
-- `blockToParagraphs` treats Plain and Para the same, so we can save
-- some code duplication by treating them the same here.
splitBlocks' cur acc ((Plain ils) : blks) = splitBlocks' cur acc ((Para ils) : blks)
splitBlocks' cur acc ((Para (il:ils)) : blks) | isImage il = do
slideLevel <- asks envSlideLevel
case cur of
(Header n _ _) : [] | n == slideLevel ->
splitBlocks' []
(acc ++ [cur ++ [Para [il]]])
(if null ils then blks else (Para ils) : blks)
_ -> splitBlocks' []
(acc ++ (if null cur then [] else [cur]) ++ [[Para [il]]])
(if null ils then blks else (Para ils) : blks)
splitBlocks' cur acc (tbl@(Table _ _ _ _ _) : blks) = do
slideLevel <- asks envSlideLevel
case cur of
(Header n _ _) : [] | n == slideLevel ->
splitBlocks' [] (acc ++ [cur ++ [tbl]]) blks
_ -> splitBlocks' [] (acc ++ (if null cur then [] else [cur]) ++ [[tbl]]) blks
splitBlocks' cur acc (d@(Div (_, classes, _) _): blks) | "columns" `elem` classes = do
slideLevel <- asks envSlideLevel
case cur of
(Header n _ _) : [] | n == slideLevel ->
splitBlocks' [] (acc ++ [cur ++ [d]]) blks
_ -> splitBlocks' [] (acc ++ (if null cur then [] else [cur]) ++ [[d]]) blks
splitBlocks' cur acc (blk : blks) = splitBlocks' (cur ++ [blk]) acc blks
splitBlocks :: [Block] -> Pres [[Block]]
splitBlocks = splitBlocks' [] []
blocksToSlide' :: Int -> [Block] -> Pres Slide
blocksToSlide' lvl ((Header n (ident, _, _) ils) : blks)
| n < lvl = do
registerAnchorId ident
sldId <- asks envCurSlideId
hdr <- inlinesToParElems ils
return $ Slide sldId (TitleSlide {titleSlideHeader = hdr}) Nothing
| n == lvl = do
registerAnchorId ident
hdr <- inlinesToParElems ils
-- Now get the slide without the header, and then add the header
-- in.
slide <- blocksToSlide' lvl blks
let layout = case slideLayout slide of
ContentSlide _ cont -> ContentSlide hdr cont
TwoColumnSlide _ contL contR -> TwoColumnSlide hdr contL contR
layout' -> layout'
return $ slide{slideLayout = layout}
blocksToSlide' _ (blk : blks)
| Div (_, classes, _) divBlks <- blk
, "columns" `elem` classes
, (Div (_, clsL, _) blksL) : (Div (_, clsR, _) blksR) : remaining <- divBlks
, "column" `elem` clsL, "column" `elem` clsR = do
unless (null blks)
(mapM (addLogMessage . BlockNotRendered) blks >> return ())
unless (null remaining)
(mapM (addLogMessage . BlockNotRendered) remaining >> return ())
mbSplitBlksL <- splitBlocks blksL
mbSplitBlksR <- splitBlocks blksR
let blksL' = case mbSplitBlksL of
bs : _ -> bs
[] -> []
let blksR' = case mbSplitBlksR of
bs : _ -> bs
[] -> []
shapesL <- blocksToShapes blksL'
shapesR <- blocksToShapes blksR'
sldId <- asks envCurSlideId
return $ Slide
sldId
TwoColumnSlide { twoColumnSlideHeader = []
, twoColumnSlideLeft = shapesL
, twoColumnSlideRight = shapesR
}
Nothing
blocksToSlide' _ (blk : blks) = do
inNoteSlide <- asks envInNoteSlide
shapes <- if inNoteSlide
then forceFontSize noteSize $ blocksToShapes (blk : blks)
else blocksToShapes (blk : blks)
sldId <- asks envCurSlideId
return $
Slide
sldId
ContentSlide { contentSlideHeader = []
, contentSlideContent = shapes
}
Nothing
blocksToSlide' _ [] = do
sldId <- asks envCurSlideId
return $
Slide
sldId
ContentSlide { contentSlideHeader = []
, contentSlideContent = []
}
Nothing
blocksToSlide :: [Block] -> Pres Slide
blocksToSlide blks = do
slideLevel <- asks envSlideLevel
blocksToSlide' slideLevel blks
makeNoteEntry :: Int -> [Block] -> [Block]
makeNoteEntry n blks =
let enum = Str (show n ++ ".")
in
case blks of
(Para ils : blks') -> (Para $ enum : Space : ils) : blks'
_ -> (Para [enum]) : blks
forceFontSize :: Pixels -> Pres a -> Pres a
forceFontSize px x = do
rpr <- asks envRunProps
local (\r -> r {envRunProps = rpr{rPropForceSize = Just px}}) x
-- We leave these as blocks because we will want to include them in
-- the TOC.
makeEndNotesSlideBlocks :: Pres [Block]
makeEndNotesSlideBlocks = do
noteIds <- gets stNoteIds
slideLevel <- asks envSlideLevel
meta <- asks envMetadata
-- Get identifiers so we can give the notes section a unique ident.
anchorSet <- M.keysSet <$> gets stAnchorMap
if M.null noteIds
then return []
else do let title = case lookupMeta "notes-title" meta of
Just val -> metaValueToInlines val
Nothing -> [Str "Notes"]
ident = Shared.uniqueIdent title anchorSet
hdr = Header slideLevel (ident, [], []) title
blks <- return $
concatMap (\(n, bs) -> makeNoteEntry n bs) $
M.toList noteIds
return $ hdr : blks
getMetaSlide :: Pres (Maybe Slide)
getMetaSlide = do
meta <- asks envMetadata
title <- inlinesToParElems $ docTitle meta
subtitle <- inlinesToParElems $
case lookupMeta "subtitle" meta of
Just (MetaString s) -> [Str s]
Just (MetaInlines ils) -> ils
Just (MetaBlocks [Plain ils]) -> ils
Just (MetaBlocks [Para ils]) -> ils
_ -> []
authors <- mapM inlinesToParElems $ docAuthors meta
date <- inlinesToParElems $ docDate meta
if null title && null subtitle && null authors && null date
then return Nothing
else return $
Just $
Slide
metadataSlideId
MetadataSlide { metadataSlideTitle = title
, metadataSlideSubtitle = subtitle
, metadataSlideAuthors = authors
, metadataSlideDate = date
}
Nothing
-- adapted from the markdown writer
elementToListItem :: Shared.Element -> Pres [Block]
elementToListItem (Shared.Sec lev _nums (ident,_,_) headerText subsecs) = do
opts <- asks envOpts
let headerLink = if null ident
then walk Shared.deNote headerText
else [Link nullAttr (walk Shared.deNote headerText)
('#':ident, "")]
listContents <- if null subsecs || lev >= writerTOCDepth opts
then return []
else mapM elementToListItem subsecs
return [Plain headerLink, BulletList listContents]
elementToListItem (Shared.Blk _) = return []
makeTOCSlide :: [Block] -> Pres Slide
makeTOCSlide blks = local (\env -> env{envCurSlideId = tocSlideId}) $ do
contents <- BulletList <$> mapM elementToListItem (Shared.hierarchicalize blks)
meta <- asks envMetadata
slideLevel <- asks envSlideLevel
let tocTitle = case lookupMeta "toc-title" meta of
Just val -> metaValueToInlines val
Nothing -> [Str "Table of Contents"]
hdr = Header slideLevel nullAttr tocTitle
sld <- blocksToSlide [hdr, contents]
return sld
combineParaElems' :: Maybe ParaElem -> [ParaElem] -> [ParaElem]
combineParaElems' mbPElem [] = maybeToList mbPElem
combineParaElems' Nothing (pElem : pElems) =
combineParaElems' (Just pElem) pElems
combineParaElems' (Just pElem') (pElem : pElems)
| Run rPr' s' <- pElem'
, Run rPr s <- pElem
, rPr == rPr' =
combineParaElems' (Just $ Run rPr' $ s' ++ s) pElems
| otherwise =
pElem' : combineParaElems' (Just pElem) pElems
combineParaElems :: [ParaElem] -> [ParaElem]
combineParaElems = combineParaElems' Nothing
applyToParagraph :: Monad m => (ParaElem -> m ParaElem) -> Paragraph -> m Paragraph
applyToParagraph f para = do
paraElems' <- mapM f $ paraElems para
return $ para {paraElems = paraElems'}
applyToShape :: Monad m => (ParaElem -> m ParaElem) -> Shape -> m Shape
applyToShape f (Pic pPr fp pes) = do
pes' <- mapM f pes
return $ Pic pPr fp pes'
applyToShape f (GraphicFrame gfx pes) = do
pes' <- mapM f pes
return $ GraphicFrame gfx pes'
applyToShape f (TextBox paras) = do
paras' <- mapM (applyToParagraph f) paras
return $ TextBox paras'
applyToLayout :: Monad m => (ParaElem -> m ParaElem) -> Layout -> m Layout
applyToLayout f (MetadataSlide title subtitle authors date) = do
title' <- mapM f title
subtitle' <- mapM f subtitle
authors' <- mapM (mapM f) authors
date' <- mapM f date
return $ MetadataSlide title' subtitle' authors' date'
applyToLayout f (TitleSlide title) = do
title' <- mapM f title
return $ TitleSlide title'
applyToLayout f (ContentSlide hdr content) = do
hdr' <- mapM f hdr
content' <- mapM (applyToShape f) content
return $ ContentSlide hdr' content'
applyToLayout f (TwoColumnSlide hdr contentL contentR) = do
hdr' <- mapM f hdr
contentL' <- mapM (applyToShape f) contentL
contentR' <- mapM (applyToShape f) contentR
return $ TwoColumnSlide hdr' contentL' contentR'
applyToSlide :: Monad m => (ParaElem -> m ParaElem) -> Slide -> m Slide
applyToSlide f slide = do
layout' <- applyToLayout f $ slideLayout slide
mbNotes' <- case slideNotes slide of
Just (Notes notes) -> (Just . Notes) <$>
mapM (applyToParagraph f) notes
Nothing -> return Nothing
return slide{slideLayout = layout', slideNotes = mbNotes'}
replaceAnchor :: ParaElem -> Pres ParaElem
replaceAnchor (Run rProps s)
| Just (ExternalTarget ('#':anchor, _)) <- rLink rProps = do
anchorMap <- gets stAnchorMap
-- If the anchor is not in the anchormap, we just remove the
-- link.
let rProps' = case M.lookup anchor anchorMap of
Just n -> rProps{rLink = Just $ InternalTarget n}
Nothing -> rProps{rLink = Nothing}
return $ Run rProps' s
replaceAnchor pe = return pe
blocksToPresentationSlides :: [Block] -> Pres [Slide]
blocksToPresentationSlides blks = do
opts <- asks envOpts
metadataslides <- maybeToList <$> getMetaSlide
-- As far as I can tell, if we want to have a variable-length toc in
-- the future, we'll have to make it twice. Once to get the length,
-- and a second time to include the notes slide. We can't make the
-- notes slide before the body slides because we need to know if
-- there are notes, and we can't make either before the toc slide,
-- because we need to know its length to get slide numbers right.
--
-- For now, though, since the TOC slide is only length 1, if it
-- exists, we'll just get the length, and then come back to make the
-- slide later
blksLst <- splitBlocks blks
bodySlideIds <- mapM
(\n -> runUniqueSlideId $ "BodySlide" ++ show n)
(take (length blksLst) [1..] :: [Integer])
bodyslides <- mapM
(\(bs, ident) ->
local (\st -> st{envCurSlideId = ident}) (blocksToSlide bs))
(zip blksLst bodySlideIds)
endNotesSlideBlocks <- makeEndNotesSlideBlocks
-- now we come back and make the real toc...
tocSlides <- if writerTableOfContents opts
then do toc <- makeTOCSlide $ blks ++ endNotesSlideBlocks
return [toc]
else return []
-- ... and the notes slide. We test to see if the blocks are empty,
-- because we don't want to make an empty slide.
endNotesSlides <- if null endNotesSlideBlocks
then return []
else do endNotesSlide <- local
(\env -> env { envCurSlideId = endNotesSlideId
, envInNoteSlide = True
})
(blocksToSlide $ endNotesSlideBlocks)
return [endNotesSlide]
let slides = metadataslides ++ tocSlides ++ bodyslides ++ endNotesSlides
mapM (applyToSlide replaceAnchor) slides
metaToDocProps :: Meta -> DocProps
metaToDocProps meta =
let keywords = case lookupMeta "keywords" meta of
Just (MetaList xs) -> Just $ map Shared.stringify xs
_ -> Nothing
authors = case map Shared.stringify $ docAuthors meta of
[] -> Nothing
ss -> Just $ intercalate ";" ss
in
DocProps{ dcTitle = Shared.stringify <$> lookupMeta "title" meta
, dcSubject = Shared.stringify <$> lookupMeta "subject" meta
, dcCreator = authors
, dcKeywords = keywords
, dcCreated = Nothing
}
documentToPresentation :: WriterOptions
-> Pandoc
-> (Presentation, [LogMessage])
documentToPresentation opts (Pandoc meta blks) =
let env = def { envOpts = opts
, envMetadata = meta
, envSlideLevel = case writerSlideLevel opts of
Just lvl -> lvl
Nothing -> getSlideLevel blks
}
(presSlides, msgs) = runPres env def $ blocksToPresentationSlides blks
docProps = metaToDocProps meta
in
(Presentation docProps presSlides, msgs)
-- --------------------------------------------------------------
applyTokStyToRunProps :: TokenStyle -> RunProps -> RunProps
applyTokStyToRunProps tokSty rProps =
rProps{ rSolidFill = tokenColor tokSty <|> rSolidFill rProps
, rPropBold = tokenBold tokSty || rPropBold rProps
, rPropItalics = tokenItalic tokSty || rPropItalics rProps
, rPropUnderline = tokenUnderline tokSty || rPropUnderline rProps
}
formatToken :: Style -> Token -> ParaElem
formatToken sty (tokType, txt) =
let rProps = def{rPropCode = True, rSolidFill = defaultColor sty}
rProps' = case M.lookup tokType (tokenStyles sty) of
Just tokSty -> applyTokStyToRunProps tokSty rProps
Nothing -> rProps
in
Run rProps' $ T.unpack txt
formatSourceLine :: Style -> FormatOptions -> SourceLine -> [ParaElem]
formatSourceLine sty _ srcLn = map (formatToken sty) srcLn
formatSourceLines :: Style -> FormatOptions -> [SourceLine] -> [ParaElem]
formatSourceLines sty opts srcLns = intercalate [Break] $
map (formatSourceLine sty opts) srcLns
|