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|
{-# LANGUAGE PatternGuards #-}
{-
Copyright (C) 2014 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.Readers.Docx.Math
Copyright : Copyright (C) 2014 Jesse Rosenthal
License : GNU GPL, version 2 or above
Maintainer : Jesse Rosenthal <jrosenthal@jhu.edu>
Stability : alpha
Portability : portable
Types and functions for conversion of OMML into TeXMath.
-}
module Text.Pandoc.Readers.Docx.OMath ( elemToExps
) where
import Text.XML.Light
import Data.Maybe (mapMaybe, fromMaybe)
import Data.List (intersperse)
import qualified Text.TeXMath.Types as TM
import Control.Applicative ((<$>))
isElem :: String -> String -> Element -> Bool
isElem prefix name element =
let qp = fromMaybe "" (qPrefix (elName element))
in
qName (elName element) == name &&
qp == prefix
hasElemName:: String -> String -> QName -> Bool
hasElemName prefix name qn =
let qp = fromMaybe "" (qPrefix qn)
in
qName qn == name &&
qp == prefix
data OMath = OMath [OMathElem]
deriving Show
data OMathElem = Accent AccentStyle Base
| Bar BarStyle Base
| Box Base
| BorderBox Base
| Delimiter DelimStyle [Base]
| EquationArray [Base]
| Fraction [OMathElem] [OMathElem]
| Function [OMathElem] Base
| Group GroupStyle Base
| LowerLimit Base [OMathElem]
| UpperLimit Base [OMathElem]
| Matrix [[Base]]
| NAry NAryStyle [OMathElem] [OMathElem] Base
| Phantom Base
| Radical [OMathElem] Base
| PreSubSuper [OMathElem] [OMathElem] Base
| Sub Base [OMathElem]
| SubSuper Base [OMathElem] [OMathElem]
| Super Base [OMathElem]
| OMathRun OMathRunStyle [OMathRunElem]
deriving Show
data OMathRunElem = TextRun String
| LnBrk
| Tab
deriving Show
data Base = Base [OMathElem]
deriving Show
data TopBottom = Top | Bottom
deriving Show
data AccentStyle = AccentStyle { accentChar :: Maybe Char }
deriving Show
data BarStyle = BarStyle { barPos :: TopBottom}
deriving Show
data NAryStyle = NAryStyle { nAryChar :: Maybe Char
, nAryLimLoc :: LimLoc}
deriving Show
data OMathRunStyle = OMathRunStyle { oMathLit :: Bool
, oMathRunTextStyle :: OMathRunTextStyle }
deriving Show
data OMathRunTextStyle = NoStyle
| Normal
| Styled { oMathScript :: Maybe OMathTextScript
, oMathStyle :: Maybe OMathTextStyle }
deriving Show
data OMathTextScript = ORoman
| OScript
| OFraktur
| ODoubleStruck
| OSansSerif
| OMonospace
deriving (Show, Eq)
data OMathTextStyle = OPlain
| OBold
| OItalic
| OBoldItalic
deriving (Show, Eq)
defaultNAryStyle :: NAryStyle
defaultNAryStyle = NAryStyle { nAryChar = Nothing -- integral, in practice
, nAryLimLoc = SubSup }
data LimLoc = SubSup | UnderOver deriving Show
data DelimStyle = DelimStyle { delimBegChar :: Maybe Char
, delimSepChar :: Maybe Char
, delimEndChar :: Maybe Char}
deriving Show
defaultDelimStyle :: DelimStyle
defaultDelimStyle = DelimStyle { delimBegChar = Nothing
, delimSepChar = Nothing
, delimEndChar = Nothing }
data GroupStyle = GroupStyle { groupChr :: Maybe Char
, groupPos :: Maybe TopBottom }
deriving Show
defaultGroupStyle :: GroupStyle
defaultGroupStyle = GroupStyle {groupChr = Nothing, groupPos = Nothing}
elemToMath :: Element -> Maybe OMath
elemToMath element | isElem "m" "oMath" element =
Just $ OMath $ mapMaybe (elemToMathElem) (elChildren element)
elemToMath _ = Nothing
elemToBase :: Element -> Maybe Base
elemToBase element | isElem "m" "e" element =
Just $ Base $ mapMaybe (elemToMathElem) (elChildren element)
elemToBase _ = Nothing
-- TODO: The right way to do this is to use the ampersand to break the
-- text lines into multiple columns. That's tricky, though, and this
-- will get us most of the way for the time being.
filterAmpersand :: OMathElem -> OMathElem
filterAmpersand (OMathRun mrPr elems) =
let f (TextRun s) = TextRun $ filter ('&' /=) s
f re = re
in
OMathRun mrPr (map f elems)
filterAmpersand e = e
elemToBaseNoAmpersand :: Element -> Maybe Base
elemToBaseNoAmpersand element | isElem "m" "e" element =
return $ Base $
mapMaybe
(\e -> (elemToMathElem e >>= (return . filterAmpersand)))
(elChildren element)
elemToBaseNoAmpersand _ = Nothing
elemToOMathRunStyle :: Element -> OMathRunStyle
elemToOMathRunStyle element =
let lit =
case
filterChildName (hasElemName"m" "lit") element >>=
findAttrBy (hasElemName"m" "val")
of
Just "on" -> True
_ -> False
in
OMathRunStyle { oMathLit = lit
, oMathRunTextStyle = (elemToOMathRunTextStyle element)
}
elemToOMathRunTextStyle :: Element -> OMathRunTextStyle
elemToOMathRunTextStyle element
| Just mrPr <- filterChildName (hasElemName"m" "rPr") element
, Just _ <- filterChildName (hasElemName"m" "nor") mrPr =
Normal
| Just mrPr <- filterChildName (hasElemName"m" "rPr") element =
let scr =
case
filterChildName (hasElemName"m" "scr") mrPr >>=
findAttrBy (hasElemName"m" "val")
of
Just "roman" -> Just ORoman
Just "script" -> Just OScript
Just "fraktur" -> Just OFraktur
Just "double-struck" -> Just ODoubleStruck
Just "sans-serif" -> Just OSansSerif
Just "monospace" -> Just OMonospace
_ -> Nothing
sty =
case
filterChildName (hasElemName"m" "sty") mrPr >>=
findAttrBy (hasElemName"m" "val")
of
Just "p" -> Just OPlain
Just "b" -> Just OBold
Just "i" -> Just OItalic
Just "bi" -> Just OBoldItalic
_ -> Nothing
in
Styled { oMathScript = scr, oMathStyle = sty }
| otherwise = NoStyle
elemToNAryStyle :: Element -> NAryStyle
elemToNAryStyle element
| Just narypr <- filterChildName (hasElemName"m" "naryPr") element =
let
chr = filterChildName (hasElemName"m" "chr") narypr >>=
findAttrBy (hasElemName"m" "val") >>=
Just . head
limLoc = filterChildName (hasElemName"m" "limLoc") narypr >>=
findAttrBy (hasElemName"m" "val")
limLoc' = case limLoc of
Just "undOver" -> UnderOver
Just "subSup" -> SubSup
_ -> SubSup
in
NAryStyle { nAryChar = chr, nAryLimLoc = limLoc'}
elemToNAryStyle _ = defaultNAryStyle
elemToDelimStyle :: Element -> DelimStyle
elemToDelimStyle element
| Just dPr <- filterChildName (hasElemName"m" "dPr") element =
let begChr = filterChildName (hasElemName"m" "begChr") dPr >>=
findAttrBy (hasElemName"m" "val") >>=
(\c -> if null c then (Just ' ') else (Just $ head c))
sepChr = filterChildName (hasElemName"m" "sepChr") dPr >>=
findAttrBy (hasElemName"m" "val") >>=
(\c -> if null c then (Just ' ') else (Just $ head c))
endChr = filterChildName (hasElemName"m" "endChr") dPr >>=
findAttrBy (hasElemName"m" "val") >>=
(\c -> if null c then (Just ' ') else (Just $ head c))
in
DelimStyle { delimBegChar = begChr
, delimSepChar = sepChr
, delimEndChar = endChr}
elemToDelimStyle _ = defaultDelimStyle
elemToGroupStyle :: Element -> GroupStyle
elemToGroupStyle element
| Just gPr <- filterChildName (hasElemName"m" "groupChrPr") element =
let chr = filterChildName (hasElemName"m" "chr") gPr >>=
findAttrBy (hasElemName"m" "val") >>=
Just . head
pos = filterChildName (hasElemName"m" "pos") gPr >>=
findAttrBy (hasElemName"m" "val") >>=
(\s -> Just $ if s == "top" then Top else Bottom)
in
GroupStyle { groupChr = chr, groupPos = pos }
elemToGroupStyle _ = defaultGroupStyle
elemToMathElem :: Element -> Maybe OMathElem
elemToMathElem element | isElem "m" "acc" element = do
let accChar =
filterChildName (hasElemName"m" "accPr") element >>=
filterChildName (hasElemName"m" "chr") >>=
findAttrBy (hasElemName"m" "val") >>=
Just . head
accPr = AccentStyle { accentChar = accChar}
base <- filterChildName (hasElemName"m" "e") element >>=
elemToBase
return $ Accent accPr base
elemToMathElem element | isElem "m" "bar" element = do
barPr <- filterChildName (hasElemName"m" "barPr") element >>=
filterChildName (hasElemName"m" "pos") >>=
findAttrBy (hasElemName"m" "val") >>=
(\s ->
Just $ BarStyle {
barPos = (if s == "bot" then Bottom else Top)
})
base <- filterChildName (hasElemName"m" "e") element >>=
elemToBase
return $ Bar barPr base
elemToMathElem element | isElem "m" "box" element =
filterChildName (hasElemName"m" "e") element >>=
elemToBase >>=
(\b -> return $ Box b)
elemToMathElem element | isElem "m" "borderBox" element =
filterChildName (hasElemName"m" "e") element >>=
elemToBase >>=
(\b -> return $ BorderBox b)
elemToMathElem element | isElem "m" "d" element =
let style = elemToDelimStyle element
in
return $ Delimiter style $ mapMaybe (elemToBase) (elChildren element)
elemToMathElem element | isElem "m" "eqArr" element =
return $ EquationArray $ mapMaybe (elemToBaseNoAmpersand) (elChildren element)
elemToMathElem element | isElem "m" "f" element = do
num <- filterChildName (hasElemName"m" "num") element
den <- filterChildName (hasElemName"m" "den") element
let numElems = mapMaybe (elemToMathElem) (elChildren num)
denElems = mapMaybe (elemToMathElem) (elChildren den)
return $ Fraction numElems denElems
elemToMathElem element | isElem "m" "func" element = do
fName <- filterChildName (hasElemName"m" "fName") element
base <- filterChildName (hasElemName"m" "e") element >>=
elemToBase
let fnElems = mapMaybe (elemToMathElem) (elChildren fName)
return $ Function fnElems base
elemToMathElem element | isElem "m" "groupChr" element =
let style = elemToGroupStyle element
in
filterChildName (hasElemName"m" "e") element >>=
elemToBase >>=
(\b -> return $ Group style b)
elemToMathElem element | isElem "m" "limLow" element = do
base <- filterChildName (hasElemName"m" "e") element
>>= elemToBase
lim <- filterChildName (hasElemName"m" "lim") element
let limElems = mapMaybe (elemToMathElem) (elChildren lim)
return $ LowerLimit base limElems
elemToMathElem element | isElem "m" "limUpp" element = do
base <- filterChildName (hasElemName"m" "e") element
>>= elemToBase
lim <- filterChildName (hasElemName"m" "lim") element
let limElems = mapMaybe (elemToMathElem) (elChildren lim)
return $ UpperLimit base limElems
elemToMathElem element | isElem "m" "m" element = do
let rows = filterChildrenName (hasElemName"m" "mr") element
let bases = mapMaybe (\mr -> mapM (elemToBase) (elChildren mr)) rows
return $ Matrix bases
elemToMathElem element | isElem "m" "nary" element = do
let style = elemToNAryStyle element
sub <- filterChildName (hasElemName"m" "sub") element >>=
(\e -> return $ mapMaybe (elemToMathElem) (elChildren e))
sup <- filterChildName (hasElemName"m" "sup") element >>=
(\e -> return $ mapMaybe (elemToMathElem) (elChildren e))
base <- filterChildName (hasElemName"m" "e") element >>=
elemToBase
return $ NAry style sub sup base
elemToMathElem element | isElem "m" "rad" element = do
deg <- filterChildName (hasElemName"m" "deg") element >>=
(\e -> return $ mapMaybe (elemToMathElem) (elChildren e))
base <- filterChildName (hasElemName"m" "e") element >>=
elemToBase
return $ Radical deg base
elemToMathElem element | isElem "m" "phant" element = do
base <- filterChildName (hasElemName"m" "e") element >>=
elemToBase
return $ Phantom base
elemToMathElem element | isElem "m" "sPre" element = do
sub <- filterChildName (hasElemName"m" "sub") element >>=
(\e -> return $ mapMaybe (elemToMathElem) (elChildren e))
sup <- filterChildName (hasElemName"m" "sup") element >>=
(\e -> return $ mapMaybe (elemToMathElem) (elChildren e))
base <- filterChildName (hasElemName"m" "e") element >>=
elemToBase
return $ PreSubSuper sub sup base
elemToMathElem element | isElem "m" "sSub" element = do
base <- filterChildName (hasElemName"m" "e") element >>=
elemToBase
sub <- filterChildName (hasElemName"m" "sub") element >>=
(\e -> return $ mapMaybe (elemToMathElem) (elChildren e))
return $ Sub base sub
elemToMathElem element | isElem "m" "sSubSup" element = do
base <- filterChildName (hasElemName"m" "e") element >>=
elemToBase
sub <- filterChildName (hasElemName"m" "sub") element >>=
(\e -> return $ mapMaybe (elemToMathElem) (elChildren e))
sup <- filterChildName (hasElemName"m" "sup") element >>=
(\e -> return $ mapMaybe (elemToMathElem) (elChildren e))
return $ SubSuper base sub sup
elemToMathElem element | isElem "m" "sSup" element = do
base <- filterChildName (hasElemName"m" "e") element >>=
elemToBase
sup <- filterChildName (hasElemName"m" "sup") element >>=
(\e -> return $ mapMaybe (elemToMathElem) (elChildren e))
return $ Super base sup
elemToMathElem element | isElem "m" "r" element = do
let mrPr = elemToOMathRunStyle element
mrElems <- elemToOMathRunElems element
return $ OMathRun mrPr mrElems
elemToMathElem _ = Nothing
elemToOMathRunElem :: Element -> Maybe OMathRunElem
elemToOMathRunElem element
| isElem "w" "t" element
|| isElem "m" "t" element
|| isElem "w" "delText" element = Just $ TextRun $ strContent element
| isElem "w" "br" element = Just LnBrk
| isElem "w" "tab" element = Just Tab
| otherwise = Nothing
elemToOMathRunElems :: Element -> Maybe [OMathRunElem]
elemToOMathRunElems element
| isElem "w" "r" element
|| isElem "m" "r" element =
Just $ mapMaybe (elemToOMathRunElem) (elChildren element)
elemToOMathRunElems _ = Nothing
----- And now the TeXMath Creation
oMathRunElemToString :: OMathRunElem -> String
oMathRunElemToString (TextRun s) = s
oMathRunElemToString (LnBrk) = ['\n']
oMathRunElemToString (Tab) = ['\t']
oMathRunElemsToString :: [OMathRunElem] -> String
oMathRunElemsToString = concatMap oMathRunElemToString
oMathElemToString :: OMathElem -> String
oMathElemToString (OMathRun _ oMathRunElems) =
oMathRunElemsToString oMathRunElems
oMathElemToString _ = ""
oMathToExps :: OMath -> [TM.Exp]
oMathToExps (OMath oMathElems) = concatMap oMathElemToExps oMathElems
oMathElemToExps :: OMathElem -> [TM.Exp]
oMathElemToExps (Accent style base) =
let baseExp = baseToExp base
chr = case accentChar style of
Just c -> c
Nothing -> '\180' -- default to acute.
in
[TM.EOver False baseExp (TM.ESymbol TM.Accent [chr])]
oMathElemToExps(Bar style base) =
let baseExp = baseToExp base
in
case barPos style of
Top -> [TM.EOver False baseExp (TM.ESymbol TM.Accent "\175")]
Bottom -> [TM.EUnder False baseExp (TM.ESymbol TM.Accent "\818")]
oMathElemToExps (Box base) = [baseToExp base]
oMathElemToExps (BorderBox base) =
-- TODO: This should be "\\boxed" somehow
[baseToExp base]
oMathElemToExps (Delimiter dPr bases) =
let baseExps = map baseToExp bases
inDelimExps = map Right baseExps
beg = fromMaybe '(' (delimBegChar dPr)
end = fromMaybe ')' (delimEndChar dPr)
sep = fromMaybe '|' (delimSepChar dPr)
exps = intersperse (Left [sep]) inDelimExps
in
[TM.EDelimited [beg] [end] exps]
oMathElemToExps (EquationArray bases) =
let baseExps = map (\b -> [baseToExp' b]) bases
in
[TM.EArray [] baseExps]
oMathElemToExps (Fraction num denom) =
let numExp = TM.EGrouped $ concatMap oMathElemToExps num
denExp = TM.EGrouped $ concatMap oMathElemToExps denom
in
[TM.EFraction TM.NormalFrac numExp denExp]
oMathElemToExps (Function fname base) =
-- We need a string for the fname, but omml gives it to us as a
-- series of oMath elems. We're going to filter out the oMathRuns,
-- which should work for us most of the time.
let fnameString = concatMap oMathElemToString fname
baseExp = baseToExp base
in
[TM.EMathOperator fnameString, baseExp]
oMathElemToExps (Group style base)
| Just Top <- groupPos style =
let baseExp = baseToExp base
chr = case groupChr style of
Just c -> c
Nothing -> '\65079' -- default to overbrace
in
[TM.EOver False baseExp (TM.ESymbol TM.Accent [chr])]
| otherwise =
let baseExp = baseToExp base
chr = case groupChr style of
Just c -> c
Nothing -> '\65080' -- default to underbrace
in
[TM.EUnder False baseExp (TM.ESymbol TM.Accent [chr])]
oMathElemToExps (LowerLimit base limElems) = do
let baseExp = baseToExp base
lim = TM.EGrouped $ concatMap oMathElemToExps limElems
in
[TM.EUnder True lim baseExp]
oMathElemToExps (UpperLimit base limElems) =
let baseExp = baseToExp base
lim = TM.EGrouped $ concatMap oMathElemToExps limElems
in
[TM.EOver True lim baseExp]
oMathElemToExps (Matrix bases) =
let rows = map (map baseToExp') bases
in
[TM.EArray [TM.AlignCenter] rows]
oMathElemToExps (NAry style sub sup base) =
let
subExps = concatMap oMathElemToExps sub
supExps = concatMap oMathElemToExps sup
baseExp = baseToExp base
opChar = case nAryChar style of
Just c -> c
-- default to integral
Nothing -> '\8747'
in [ TM.ESubsup
(TM.ESymbol TM.Op [opChar])
(TM.EGrouped subExps)
(TM.EGrouped supExps)
, baseExp]
oMathElemToExps (Phantom base) =
[TM.EPhantom $ baseToExp base]
oMathElemToExps (Radical degree base) =
let degExps = concatMap oMathElemToExps degree
baseExp = baseToExp base
in
case degExps of
[] -> [TM.ESqrt baseExp]
ds -> [TM.ERoot (TM.EGrouped ds) baseExp]
oMathElemToExps (PreSubSuper sub sup base) =
let subExps = concatMap oMathElemToExps sub
supExps = concatMap oMathElemToExps sup
baseExp = baseToExp base
in [ TM.ESubsup
(TM.EIdentifier "") (TM.EGrouped subExps) (TM.EGrouped supExps)
, baseExp]
oMathElemToExps (Sub base sub) =
let baseExp = baseToExp base
subExps = concatMap oMathElemToExps sub
in
[TM.ESub baseExp (TM.EGrouped subExps)]
oMathElemToExps (SubSuper base sub sup) =
let baseExp = baseToExp base
subExps = concatMap oMathElemToExps sub
supExps = concatMap oMathElemToExps sup
in
[TM.ESubsup baseExp (TM.EGrouped subExps) (TM.EGrouped supExps)]
oMathElemToExps (Super base sup) =
let baseExp = baseToExp base
supExps = concatMap oMathElemToExps sup
in
[TM.ESuper baseExp (TM.EGrouped supExps)]
oMathElemToExps (OMathRun sty elems)
| NoStyle <- oMathRunTextStyle sty =
[TM.EIdentifier $ oMathRunElemsToString elems]
| Nothing <- oMathRunStyleToTextType sty =
[TM.EIdentifier $ oMathRunElemsToString elems]
| Just textType <- oMathRunStyleToTextType sty =
if oMathLit sty
then [TM.EText textType (oMathRunElemsToString elems)]
else [TM.EStyled textType [TM.EIdentifier $ oMathRunElemsToString elems]]
oMathElemToExps (OMathRun _ _) = []
oMathRunTextStyleToTextType :: OMathRunTextStyle -> Maybe TM.TextType
oMathRunTextStyleToTextType (Normal) = Just $ TM.TextNormal
oMathRunTextStyleToTextType (NoStyle) = Nothing
oMathRunTextStyleToTextType (Styled scr sty)
| Just OBold <- sty
, Just OSansSerif <- scr =
Just $ TM.TextSansSerifBold
| Just OBoldItalic <- sty
, Just OSansSerif <- scr =
Just $ TM.TextSansSerifBoldItalic
| Just OBold <- sty
, Just OScript <- scr =
Just $ TM.TextBoldScript
| Just OBold <- sty
, Just OFraktur <- scr =
Just $ TM.TextBoldFraktur
| Just OItalic <- sty
, Just OSansSerif <- scr =
Just $ TM.TextSansSerifItalic
| Just OBold <- sty =
Just $ TM.TextBold
| Just OItalic <- sty =
Just $ TM.TextItalic
| Just OMonospace <- scr =
Just $ TM.TextMonospace
| Just OSansSerif <- scr =
Just $ TM.TextSansSerif
| Just ODoubleStruck <- scr =
Just $ TM.TextDoubleStruck
| Just OScript <- scr =
Just $ TM.TextDoubleStruck
| Just OFraktur <- scr =
Just $ TM.TextFraktur
| Just OBoldItalic <- sty =
Just $ TM.TextBoldItalic
| otherwise = Nothing
oMathRunStyleToTextType :: OMathRunStyle -> Maybe TM.TextType
oMathRunStyleToTextType mrPr
| Normal <- oMathRunTextStyle mrPr =
Just $ TM.TextNormal
| Styled scr sty <- oMathRunTextStyle mrPr
,Just OBold <- sty
, Just OSansSerif <- scr =
Just $ TM.TextSansSerifBold
| Styled scr sty <- oMathRunTextStyle mrPr
, Just OBoldItalic <- sty
, Just OSansSerif <- scr =
Just $ TM.TextSansSerifBoldItalic
| Styled scr sty <- oMathRunTextStyle mrPr
, Just OBold <- sty
, Just OScript <- scr =
Just $ TM.TextBoldScript
| Styled scr sty <- oMathRunTextStyle mrPr
, Just OBold <- sty
, Just OFraktur <- scr =
Just $ TM.TextBoldFraktur
| Styled scr sty <- oMathRunTextStyle mrPr
, Just OItalic <- sty
, Just OSansSerif <- scr =
Just $ TM.TextSansSerifItalic
| Styled _ sty <- oMathRunTextStyle mrPr
, Just OBold <- sty =
Just $ TM.TextBold
| Styled _ sty <- oMathRunTextStyle mrPr
, Just OItalic <- sty =
Just $ TM.TextItalic
| Styled scr _ <- oMathRunTextStyle mrPr
, Just OMonospace <- scr =
Just $ TM.TextMonospace
| Styled scr _ <- oMathRunTextStyle mrPr
, Just OSansSerif <- scr =
Just $ TM.TextSansSerif
| Styled scr _ <- oMathRunTextStyle mrPr
, Just ODoubleStruck <- scr =
Just $ TM.TextDoubleStruck
| Styled scr _ <- oMathRunTextStyle mrPr
, Just OScript <- scr =
Just $ TM.TextDoubleStruck
| Styled scr _ <- oMathRunTextStyle mrPr
, Just OFraktur <- scr =
Just $ TM.TextFraktur
| Styled _ sty <- oMathRunTextStyle mrPr
, Just OBoldItalic <- sty =
Just $ TM.TextBoldItalic
| otherwise = Nothing
baseToExp :: Base -> TM.Exp
baseToExp b = case baseToExp' b of
(e : []) -> e
exps -> TM.EGrouped exps
-- an ungrouped version of baseToExp
baseToExp' :: Base -> [TM.Exp]
baseToExp' (Base mathElems) =
concatMap oMathElemToExps mathElems
elemToExps :: Element -> Maybe [TM.Exp]
elemToExps element = oMathToExps <$> (elemToMath element)
elemToExps' :: Element -> Maybe [TM.Exp]
elemToExps' element | isElem "m" "acc" element = do
let chr = filterChildName (hasElemName "m" "accPr") element >>=
filterChildName (hasElemName "m" "chr") >>=
findAttrBy (hasElemName "m" "val") >>=
Just . head
chr' = case chr of
Just c -> c
Nothing -> '\180' -- default to acute.
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
return $ [TM.EOver False baseExp (TM.ESymbol TM.Accent [chr'])]
elemToExps' element | isElem "m" "bar" element = do
pos <- filterChildName (hasElemName "m" "barPr") element >>=
filterChildName (hasElemName "m" "pos") >>=
findAttrBy (hasElemName "m" "val")
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
case pos of
"top" -> Just [TM.EOver False baseExp (TM.ESymbol TM.Accent "\175")]
"bot" -> Just [TM.EUnder False baseExp (TM.ESymbol TM.Accent "\818")]
_ -> Nothing
elemToExps' element | isElem "m" "box" element = do
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
return [baseExp]
elemToExps' element | isElem "m" "borderBox" element = do
-- TODO: This needs to be "\\boxed" somehow.
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
return [baseExp]
elemToExps' element | isElem "m" "d" element =
let baseExps = mapMaybe
(\e -> (elemToBase e >>= (return . baseToExp)))
(elChildren element)
inDelimExps = map Right baseExps
dPr = filterChildName (hasElemName "m" "dPr") element
begChr = dPr >>=
filterChildName (hasElemName "m" "begChr") >>=
findAttrBy (hasElemName "m" "val") >>=
(\c -> if null c then (Just ' ') else (Just $ head c))
sepChr = dPr >>=
filterChildName (hasElemName "m" "sepChr") >>=
findAttrBy (hasElemName "m" "val") >>=
(\c -> if null c then (Just ' ') else (Just $ head c))
endChr = dPr >>=
filterChildName (hasElemName "m" "endChr") >>=
findAttrBy (hasElemName "m" "val") >>=
(\c -> if null c then (Just ' ') else (Just $ head c))
beg = fromMaybe '(' begChr
end = fromMaybe ')' endChr
sep = fromMaybe '|' sepChr
exps = intersperse (Left [sep]) inDelimExps
in
Just [TM.EDelimited [beg] [end] exps]
elemToExps' element | isElem "m" "eqArr" element =
let bases = mapMaybe (elemToBaseNoAmpersand) (elChildren element)
baseExps = map (\b -> [baseToExp' b]) bases
in
return [TM.EArray [] baseExps]
elemToExps' element | isElem "m" "f" element = do
num <- filterChildName (hasElemName "m" "num") element
den <- filterChildName (hasElemName "m" "den") element
let numExp = TM.EGrouped $ concat $ mapMaybe (elemToExps') (elChildren num)
denExp = TM.EGrouped $ concat $ mapMaybe (elemToExps') (elChildren den)
return $ [TM.EFraction TM.NormalFrac numExp denExp]
elemToExps' element | isElem "m" "func" element = do
fName <- filterChildName (hasElemName "m" "fName") element
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
-- We need a string for the fname, but omml gives it to us as a
-- series of oMath elems. We're going to filter out the oMathRuns,
-- which should work for us most of the time.
let fnameString = concatMap expToString $
concat $ mapMaybe (elemToExps') (elChildren fName)
return [TM.EMathOperator fnameString, baseExp]
elemToExps' element | isElem "m" "groupChr" element = do
let gPr = filterChildName (hasElemName "m" "groupChrPr") element
chr = gPr >>=
filterChildName (hasElemName "m" "chr") >>=
findAttrBy (hasElemName "m" "val")
pos = gPr >>=
filterChildName (hasElemName "m" "pos") >>=
findAttrBy (hasElemName "m" "val")
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
case pos of
Just "top" ->
let chr' = case chr of
Just (c:_) -> c
_ -> '\65079' -- default to overbrace
in
return [TM.EOver False baseExp (TM.ESymbol TM.Accent [chr'])]
Just "bot" ->
let chr' = case chr of
Just (c:_) -> c
_ -> '\65080' -- default to underbrace
in
return [TM.EUnder False baseExp (TM.ESymbol TM.Accent [chr'])]
_ -> Nothing
elemToExps' element | isElem "m" "limLow" element = do
baseExp <- filterChildName (hasElemName "m" "e") element
>>= elemToBase
>>= (return . baseToExp)
limExp <- filterChildName (hasElemName "m" "lim") element
>>= (\e -> Just $ concat $ mapMaybe (elemToExps') (elChildren e))
>>= (return . TM.EGrouped)
return [TM.EUnder True limExp baseExp]
elemToExps' element | isElem "m" "limUpp" element = do
baseExp <- filterChildName (hasElemName "m" "e") element
>>= elemToBase
>>= (return . baseToExp)
limExp <- filterChildName (hasElemName "m" "lim") element
>>= (\e -> Just $ concat $ mapMaybe (elemToExps') (elChildren e))
>>= (return . TM.EGrouped)
return [TM.EOver True limExp baseExp]
elemToExps' element | isElem "m" "m" element =
let rows = filterChildrenName (hasElemName "m" "mr") element
rowExps = map
(\mr -> mapMaybe
(\e -> (elemToBase e >>= return . baseToExp'))
(elChildren mr))
rows
in
return [TM.EArray [TM.AlignCenter] rowExps]
elemToExps' element | isElem "m" "nary" element = do
let naryPr = filterChildName (hasElemName "m" "naryPr") element
naryChr = naryPr >>=
filterChildName (hasElemName "m" "chr") >>=
findAttrBy (hasElemName "m" "val")
opChr = case naryChr of
Just (c:_) -> c
_ -> '\8747' -- default to integral
limLoc = naryPr >>=
filterChildName (hasElemName "m" "limLoc") >>=
findAttrBy (hasElemName "m" "val")
subExps <- filterChildName (hasElemName "m" "sub") element >>=
(\e -> return $ concat $ mapMaybe (elemToExps') (elChildren e))
supExps <- filterChildName (hasElemName "m" "sup") element >>=
(\e -> return $ concat $ mapMaybe (elemToExps') (elChildren e))
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
case limLoc of
Just "undOvr" -> return [TM.EUnderover True
(TM.ESymbol TM.Op [opChr])
(TM.EGrouped subExps)
(TM.EGrouped supExps)
, baseExp]
_ -> return [TM.ESubsup
(TM.ESymbol TM.Op [opChr])
(TM.EGrouped subExps)
(TM.EGrouped supExps)
, baseExp]
elemToExps' element | isElem "m" "phant" element = do
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
return [TM.EPhantom baseExp]
elemToExps' element | isElem "m" "rad" element = do
degExps <- filterChildName (hasElemName "m" "deg") element >>=
(\e -> return $ concat $ mapMaybe (elemToExps') (elChildren e))
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
return $ case degExps of
[] -> [TM.ESqrt baseExp]
ds -> [TM.ERoot (TM.EGrouped ds) baseExp]
elemToExps' element | isElem "m" "sPre" element = do
subExps <- filterChildName (hasElemName "m" "sub") element >>=
(\e -> return $ concat $ mapMaybe (elemToExps') (elChildren e))
supExps <- filterChildName (hasElemName "m" "sup") element >>=
(\e -> return $ concat $ mapMaybe (elemToExps') (elChildren e))
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
return [TM.ESubsup
(TM.EIdentifier "")
(TM.EGrouped subExps)
(TM.EGrouped supExps)
, baseExp]
elemToExps' element | isElem "m" "sSub" element = do
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
subExps <- filterChildName (hasElemName "m" "sub") element >>=
(\e -> return $ concat $ mapMaybe (elemToExps') (elChildren e))
return [TM.ESub baseExp (TM.EGrouped subExps)]
elemToExps' element | isElem "m" "sSubSup" element = do
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
subExps <- filterChildName (hasElemName "m" "sub") element >>=
(\e -> return $ concat $ mapMaybe (elemToExps') (elChildren e))
supExps <- filterChildName (hasElemName "m" "sup") element >>=
(\e -> return $ concat $ mapMaybe (elemToExps') (elChildren e))
return [TM.ESubsup baseExp (TM.EGrouped subExps) (TM.EGrouped supExps)]
elemToExps' element | isElem "m" "sSup" element = do
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase >>=
(return . baseToExp)
supExps <- filterChildName (hasElemName "m" "sup") element >>=
(\e -> return $ concat $ mapMaybe (elemToExps') (elChildren e))
return [TM.ESuper baseExp (TM.EGrouped supExps)]
elemToExps' element | isElem "m" "r" element = do
let mrPr = filterChildName (hasElemName "m" "rPr") element
lit = mrPr >>=
filterChildName (hasElemName "m" "lit") >>=
findAttrBy (hasElemName "m" "val")
txtSty = elemToOMathRunTextStyle element
mrElems <- elemToOMathRunElems element
return $ case oMathRunTextStyleToTextType txtSty of
Nothing -> [TM.EIdentifier $ oMathRunElemsToString mrElems]
Just textType ->
case lit of
Just "on" ->
[TM.EText textType (oMathRunElemsToString mrElems)]
_ ->
[TM.EStyled textType [TM.EIdentifier $ oMathRunElemsToString mrElems]]
elemToExps' _ = Nothing
expToString :: TM.Exp -> String
expToString (TM.ENumber s) = s
expToString (TM.EIdentifier s) = s
expToString (TM.EMathOperator s) = s
expToString (TM.ESymbol _ s) = s
expToString (TM.EText _ s) = s
expToString (TM.EGrouped exps) = concatMap expToString exps
expToString (TM.EStyled _ exps) = concatMap expToString exps
expToString _ = ""
|
