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|
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE OverloadedStrings #-}
{- |
Module : Text.Pandoc.Writers.LaTeX.Table
Copyright : Copyright (C) 2006-2021 John MacFarlane
License : GNU GPL, version 2 or above
Maintainer : John MacFarlane <jgm@berkeley.edu>
Stability : alpha
Portability : portable
Output LaTeX formatted tables.
-}
module Text.Pandoc.Writers.LaTeX.Table
( tableToLaTeX
) where
import Control.Monad.State.Strict
import Data.List (intersperse)
import qualified Data.List.NonEmpty as NonEmpty
import Data.List.NonEmpty (NonEmpty ((:|)))
import Data.Text (Text)
import qualified Data.Text as T
import Text.Pandoc.Class.PandocMonad (PandocMonad)
import Text.Pandoc.Definition
import Text.DocLayout
( Doc, braces, cr, empty, hcat, hsep, isEmpty, literal, nest
, text, vcat, ($$) )
import Text.Pandoc.Shared (blocksToInlines, splitBy, tshow)
import Text.Pandoc.Walk (walk, query)
import Data.Monoid (Any(..))
import Text.Pandoc.Writers.LaTeX.Caption (getCaption)
import Text.Pandoc.Writers.LaTeX.Notes (notesToLaTeX)
import Text.Pandoc.Writers.LaTeX.Types
( LW, WriterState (stBeamer, stExternalNotes, stInMinipage, stMultiRow
, stNotes, stTable) )
import Text.Printf (printf)
import qualified Text.Pandoc.Builder as B
import qualified Text.Pandoc.Writers.AnnotatedTable as Ann
tableToLaTeX :: PandocMonad m
=> ([Inline] -> LW m (Doc Text))
-> ([Block] -> LW m (Doc Text))
-> Ann.Table
-> LW m (Doc Text)
tableToLaTeX inlnsToLaTeX blksToLaTeX tbl = do
let (Ann.Table _attr caption _specs thead tbodies tfoot) = tbl
CaptionDocs capt captNotes <- captionToLaTeX inlnsToLaTeX caption
let removeNote (Note _) = Span ("", [], []) []
removeNote x = x
firsthead <- if isEmpty capt || isEmptyHead thead
then return empty
else ($$ text "\\endfirsthead") <$>
headToLaTeX blksToLaTeX thead
head' <- if isEmptyHead thead
then return "\\toprule"
-- avoid duplicate notes in head and firsthead:
else headToLaTeX blksToLaTeX
(if isEmpty firsthead
then thead
else walk removeNote thead)
rows' <- mapM (rowToLaTeX blksToLaTeX BodyCell) $
mconcat (map bodyRows tbodies) <> footRows tfoot
modify $ \s -> s{ stTable = True }
notes <- notesToLaTeX <$> gets stNotes
return
$ "\\begin{longtable}[]" <>
braces ("@{}" <> colDescriptors tbl <> "@{}")
-- the @{} removes extra space at beginning and end
$$ capt
$$ firsthead
$$ head'
$$ "\\endhead"
$$ vcat rows'
$$ "\\bottomrule"
$$ "\\end{longtable}"
$$ captNotes
$$ notes
-- | Creates column descriptors for the table.
colDescriptors :: Ann.Table -> Doc Text
colDescriptors (Ann.Table _attr _caption specs thead tbodies tfoot) =
let (aligns, widths) = unzip specs
defaultWidthsOnly = all (== ColWidthDefault) widths
isSimpleTable = all (all isSimpleCell) $ mconcat
[ headRows thead
, concatMap bodyRows tbodies
, footRows tfoot
]
relativeWidths = if defaultWidthsOnly
then replicate (length specs)
(1 / fromIntegral (length specs))
else map toRelWidth widths
in if defaultWidthsOnly && isSimpleTable
then hcat $ map (literal . colAlign) aligns
else (cr <>) . nest 2 . vcat . map literal $
zipWith (toColDescriptor (length specs))
aligns
relativeWidths
where
toColDescriptor :: Int -> Alignment -> Double -> Text
toColDescriptor numcols align width =
T.pack $ printf
">{%s\\arraybackslash}p{(\\columnwidth - %d\\tabcolsep) * \\real{%0.2f}}"
(T.unpack (alignCommand align))
((numcols - 1) * 2)
width
isSimpleCell (Ann.Cell _ _ (Cell _attr _align _rowspan _colspan blocks)) =
case blocks of
[Para _] -> True
[Plain _] -> True
[] -> True
_ -> False
toRelWidth ColWidthDefault = 0
toRelWidth (ColWidth w) = w
alignCommand :: Alignment -> Text
alignCommand = \case
AlignLeft -> "\\raggedright"
AlignRight -> "\\raggedleft"
AlignCenter -> "\\centering"
AlignDefault -> "\\raggedright"
colAlign :: Alignment -> Text
colAlign = \case
AlignLeft -> "l"
AlignRight -> "r"
AlignCenter -> "c"
AlignDefault -> "l"
data CaptionDocs =
CaptionDocs
{ captionCommand :: Doc Text
, captionNotes :: Doc Text
}
captionToLaTeX :: PandocMonad m
=> ([Inline] -> LW m (Doc Text))
-> Caption
-> LW m CaptionDocs
captionToLaTeX inlnsToLaTeX (Caption _maybeShort longCaption) = do
let caption = blocksToInlines longCaption
(captionText, captForLof, captNotes) <- getCaption inlnsToLaTeX False caption
return $ CaptionDocs
{ captionNotes = captNotes
, captionCommand = if isEmpty captionText
then empty
else "\\caption" <> captForLof <>
braces captionText <> "\\tabularnewline"
}
type BlocksWriter m = [Block] -> LW m (Doc Text)
headToLaTeX :: PandocMonad m
=> BlocksWriter m
-> Ann.TableHead
-> LW m (Doc Text)
headToLaTeX blocksWriter (Ann.TableHead _attr headerRows) = do
rowsContents <- mapM (rowToLaTeX blocksWriter HeaderCell . headerRowCells)
headerRows
return ("\\toprule" $$ vcat rowsContents $$ "\\midrule")
-- | Converts a row of table cells into a LaTeX row.
rowToLaTeX :: PandocMonad m
=> BlocksWriter m
-> CellType
-> [Ann.Cell]
-> LW m (Doc Text)
rowToLaTeX blocksWriter celltype row = do
cellsDocs <- mapM (cellToLaTeX blocksWriter celltype) (fillRow row)
return $ hsep (intersperse "&" cellsDocs) <> " \\\\"
-- | Pads row with empty cells to adjust for rowspans above this row.
fillRow :: [Ann.Cell] -> [Ann.Cell]
fillRow = go 0
where
go _ [] = []
go n (acell@(Ann.Cell _spec (Ann.ColNumber colnum) cell):cells) =
let (Cell _ _ _ (ColSpan colspan) _) = cell
in map mkEmptyCell [n .. colnum - 1] ++
acell : go (colnum + colspan) cells
mkEmptyCell :: Int -> Ann.Cell
mkEmptyCell colnum =
Ann.Cell ((AlignDefault, ColWidthDefault):|[])
(Ann.ColNumber colnum)
B.emptyCell
isEmptyHead :: Ann.TableHead -> Bool
isEmptyHead (Ann.TableHead _attr []) = True
isEmptyHead (Ann.TableHead _attr rows) = all (null . headerRowCells) rows
-- | Gets all cells in a header row.
headerRowCells :: Ann.HeaderRow -> [Ann.Cell]
headerRowCells (Ann.HeaderRow _attr _rownum cells) = cells
-- | Gets all cells in a body row.
bodyRowCells :: Ann.BodyRow -> [Ann.Cell]
bodyRowCells (Ann.BodyRow _attr _rownum rowhead cells) = rowhead <> cells
-- | Gets a list of rows of the table body, where a row is a simple
-- list of cells.
bodyRows :: Ann.TableBody -> [[Ann.Cell]]
bodyRows (Ann.TableBody _attr _rowheads headerRows rows) =
map headerRowCells headerRows <> map bodyRowCells rows
-- | Gets a list of rows of the table head, where a row is a simple
-- list of cells.
headRows :: Ann.TableHead -> [[Ann.Cell]]
headRows (Ann.TableHead _attr rows) = map headerRowCells rows
-- | Gets a list of rows from the foot, where a row is a simple list
-- of cells.
footRows :: Ann.TableFoot -> [[Ann.Cell]]
footRows (Ann.TableFoot _attr rows) = map headerRowCells rows
-- For simple latex tables (without minipages or parboxes),
-- we need to go to some lengths to get line breaks working:
-- as LineBreak bs = \vtop{\hbox{\strut as}\hbox{\strut bs}}.
fixLineBreaks :: Block -> Block
fixLineBreaks = walk fixLineBreaks'
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" "}"]
-- We also change display math to inline math, since display
-- math breaks in simple tables.
displayMathToInline :: Inline -> Inline
displayMathToInline (Math DisplayMath x) = Math InlineMath x
displayMathToInline x = x
cellToLaTeX :: PandocMonad m
=> BlocksWriter m
-> CellType
-> Ann.Cell
-> LW m (Doc Text)
cellToLaTeX blockListToLaTeX celltype annotatedCell = do
let (Ann.Cell specs _colnum cell) = annotatedCell
let hasWidths = snd (NonEmpty.head specs) /= ColWidthDefault
let specAlign = fst (NonEmpty.head specs)
let (Cell _attr align' rowspan colspan blocks) = cell
let align = case align' of
AlignDefault -> specAlign
_ -> align'
beamer <- gets stBeamer
externalNotes <- gets stExternalNotes
inMinipage <- gets stInMinipage
-- See #5367 -- footnotehyper/footnote don't work in beamer,
-- so we need to produce the notes outside the table...
modify $ \st -> st{ stExternalNotes = beamer }
let isPlainOrPara = \case
Para{} -> True
Plain{} -> True
_ -> False
let hasLineBreak LineBreak = Any True
hasLineBreak _ = Any False
let hasLineBreaks = getAny $ query hasLineBreak blocks
result <-
if not hasWidths || (celltype /= HeaderCell
&& all isPlainOrPara blocks
&& not hasLineBreaks)
then
blockListToLaTeX $ walk fixLineBreaks $ walk displayMathToInline blocks
else do
modify $ \st -> st{ stInMinipage = True }
cellContents <- blockListToLaTeX blocks
modify $ \st -> st{ stInMinipage = inMinipage }
let valign = text $ case celltype of
HeaderCell -> "[b]"
BodyCell -> "[t]"
let halign = literal $ alignCommand align
return $ "\\begin{minipage}" <> valign <>
braces "\\linewidth" <> halign <> cr <>
cellContents <>
(if hasLineBreaks then "\\strut" else mempty)
<> cr <>
"\\end{minipage}"
modify $ \st -> st{ stExternalNotes = externalNotes }
when (rowspan /= RowSpan 1) $
modify (\st -> st{ stMultiRow = True })
let inMultiColumn x = case colspan of
(ColSpan 1) -> x
(ColSpan n) -> "\\multicolumn"
<> braces (literal (tshow n))
<> braces (literal $ colAlign align)
<> braces x
let inMultiRow x = case rowspan of
(RowSpan 1) -> x
(RowSpan n) -> let nrows = literal (tshow n)
in "\\multirow" <> braces nrows
<> braces "*" <> braces x
return . inMultiColumn . inMultiRow $ result
data CellType
= HeaderCell
| BodyCell
deriving Eq
|