module Text.TeXMath.Readers.OMML (readOMML) where
import Text.XML.Light
import Data.Maybe (isJust, mapMaybe, fromMaybe)
import Data.List (intercalate)
import Data.Char (isDigit, readLitChar)
import Text.TeXMath.Types
import Text.TeXMath.Shared (fixTree, getSpaceWidth, getOperator)
import Text.TeXMath.Unicode.ToTeX (getSymbolType)
import Control.Applicative ((<$>))
import Text.TeXMath.Unicode.Fonts (getUnicode, stringToFont)
readOMML :: String -> Either String [Exp]
readOMML s | Just e <- parseXMLDoc s =
case elemToOMML e of
Just exs -> Right $ map fixTree $ unGroup exs
Nothing -> Left "xml file was not an <m:oMathPara> or <m:oMath> element."
readOMML _ = Left "Couldn't parse OMML file"
unGroup :: [Exp] -> [Exp]
unGroup [EGrouped exps] = exps
unGroup exps = exps
elemToOMML :: Element -> Maybe [Exp]
elemToOMML element | isElem "m" "oMathPara" element = do
let expList = mapMaybe elemToOMML (elChildren element)
return $ map (\l -> if length l == 1 then (head l) else EGrouped l) expList
elemToOMML element | isElem "m" "oMath" element =
Just $ concat $ mapMaybe (elemToExps) (elChildren element)
elemToOMML _ = Nothing
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 OMathRunElem = TextRun String
| LnBrk
| Tab
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)
elemToBase :: Element -> Maybe Exp
elemToBase element | isElem "m" "e" element = do
bs <- elemToBases element
return $ case bs of
(e : []) -> e
exps -> EGrouped exps
elemToBase _ = Nothing
elemToBases :: Element -> Maybe [Exp]
elemToBases element | isElem "m" "e" element =
return $ concat $ mapMaybe elemToExps' (elChildren element)
elemToBases _ = Nothing
filterAmpersand :: Exp -> Exp
filterAmpersand (EIdentifier s) = EIdentifier (filter ('&' /=) s)
filterAmpersand (EText tt s) = EText tt (filter ('&' /=) s)
filterAmpersand (EStyled tt exps) = EStyled tt (map filterAmpersand exps)
filterAmpersand (EGrouped exps) = EGrouped (map filterAmpersand exps)
filterAmpersand e = e
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
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
| isElem "w" "sym" element = Just $ TextRun $ getSymChar element
| otherwise = Nothing
elemToOMathRunElems :: Element -> Maybe [OMathRunElem]
elemToOMathRunElems element
| isElem "w" "r" element
|| isElem "m" "r" element =
Just $ mapMaybe (elemToOMathRunElem) (elChildren element)
elemToOMathRunElems _ = Nothing
oMathRunElemToString :: OMathRunElem -> String
oMathRunElemToString (TextRun s) = s
oMathRunElemToString (LnBrk) = ['\n']
oMathRunElemToString (Tab) = ['\t']
oMathRunElemsToString :: [OMathRunElem] -> String
oMathRunElemsToString = concatMap oMathRunElemToString
oMathRunTextStyleToTextType :: OMathRunTextStyle -> Maybe TextType
oMathRunTextStyleToTextType (Normal) = Just $ TextNormal
oMathRunTextStyleToTextType (NoStyle) = Nothing
oMathRunTextStyleToTextType (Styled scr sty)
| Just OBold <- sty
, Just OSansSerif <- scr =
Just $ TextSansSerifBold
| Just OBoldItalic <- sty
, Just OSansSerif <- scr =
Just $ TextSansSerifBoldItalic
| Just OBold <- sty
, Just OScript <- scr =
Just $ TextBoldScript
| Just OBold <- sty
, Just OFraktur <- scr =
Just $ TextBoldFraktur
| Just OItalic <- sty
, Just OSansSerif <- scr =
Just $ TextSansSerifItalic
| Just OBold <- sty =
Just $ TextBold
| Just OItalic <- sty =
Just $ TextItalic
| Just OMonospace <- scr =
Just $ TextMonospace
| Just OSansSerif <- scr =
Just $ TextSansSerif
| Just ODoubleStruck <- scr =
Just $ TextDoubleStruck
| Just OScript <- scr =
Just $ TextScript
| Just OFraktur <- scr =
Just $ TextFraktur
| Just OBoldItalic <- sty =
Just $ TextBoldItalic
| otherwise = Nothing
elemToExps :: Element -> Maybe [Exp]
elemToExps element = unGroup <$> elemToExps' element
elemToExps' :: Element -> Maybe [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 -> '\x302'
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase
return $ [EOver False baseExp (ESymbol 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
case pos of
"top" -> Just [EOver False baseExp (ESymbol TOver "\773")]
"bot" -> Just [EUnder False baseExp (ESymbol TUnder "\818")]
_ -> Nothing
elemToExps' element | isElem "m" "box" element = do
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase
return [baseExp]
elemToExps' element | isElem "m" "borderBox" element = do
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase
return [EBoxed baseExp]
elemToExps' element | isElem "m" "d" element =
let baseExps = mapMaybe
elemToBases
(elChildren element)
inDelimExps = map (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 = intercalate [Left [sep]] inDelimExps
in
Just [EDelimited [beg] [end] exps]
elemToExps' element | isElem "m" "eqArr" element =
let expLst = mapMaybe elemToBases (elChildren element)
expLst' = map (\es -> [map filterAmpersand es]) expLst
in
return [EArray [] expLst']
elemToExps' element | isElem "m" "f" element = do
num <- filterChildName (hasElemName "m" "num") element
den <- filterChildName (hasElemName "m" "den") element
let numExp = EGrouped $ concat $ mapMaybe (elemToExps) (elChildren num)
denExp = EGrouped $ concat $ mapMaybe (elemToExps) (elChildren den)
return $ [EFraction NormalFrac numExp denExp]
elemToExps' element | isElem "m" "func" element = do
fName <- filterChildName (hasElemName "m" "fName") element
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase
let fnameString = concatMap expToString $
concat $ mapMaybe (elemToExps) (elChildren fName)
return [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
case pos of
Just "top" ->
let chr' = case chr of
Just (c:_) -> c
_ -> '\65079'
in
return [EOver False baseExp (ESymbol TOver [chr'])]
Just "bot" ->
let chr' = case chr of
Just (c:_) -> c
_ -> '\65080'
in
return [EUnder False baseExp (ESymbol TUnder [chr'])]
_ -> Nothing
elemToExps' element | isElem "m" "limLow" element = do
baseExp <- filterChildName (hasElemName "m" "e") element
>>= elemToBase
limExp <- filterChildName (hasElemName "m" "lim") element
>>= (\e -> Just $ concat $ mapMaybe (elemToExps) (elChildren e))
>>= (return . EGrouped)
return [EUnder True baseExp limExp]
elemToExps' element | isElem "m" "limUpp" element = do
baseExp <- filterChildName (hasElemName "m" "e") element
>>= elemToBase
limExp <- filterChildName (hasElemName "m" "lim") element
>>= (\e -> Just $ concat $ mapMaybe (elemToExps) (elChildren e))
>>= (return . EGrouped)
return [EOver True baseExp limExp]
elemToExps' element | isElem "m" "m" element =
let rows = filterChildrenName (hasElemName "m" "mr") element
rowExps = map
(\mr -> mapMaybe
elemToBases
(elChildren mr))
rows
in
return [EArray [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'
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
case limLoc of
Just "undOvr" -> return [EUnderover True
(ESymbol Op [opChr])
(EGrouped subExps)
(EGrouped supExps)
, baseExp]
_ -> return [ESubsup
(ESymbol Op [opChr])
(EGrouped subExps)
(EGrouped supExps)
, baseExp]
elemToExps' element | isElem "m" "phant" element = do
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase
return [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 $ case degExps of
[] -> [ESqrt baseExp]
ds -> [ERoot (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 [ESubsup
(EIdentifier "")
(EGrouped subExps)
(EGrouped supExps)
, baseExp]
elemToExps' element | isElem "m" "sSub" element = do
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase
subExps <- filterChildName (hasElemName "m" "sub") element >>=
(\e -> return $ concat $ mapMaybe (elemToExps) (elChildren e))
return [ESub baseExp (EGrouped subExps)]
elemToExps' element | isElem "m" "sSubSup" element = do
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase
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 [ESubsup baseExp (EGrouped subExps) (EGrouped supExps)]
elemToExps' element | isElem "m" "sSup" element = do
baseExp <- filterChildName (hasElemName "m" "e") element >>=
elemToBase
supExps <- filterChildName (hasElemName "m" "sup") element >>=
(\e -> return $ concat $ mapMaybe (elemToExps) (elChildren e))
return [ESuper baseExp (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 -> interpretString $ oMathRunElemsToString mrElems
Just textType ->
case lit of
Just "on" ->
[EText textType (oMathRunElemsToString mrElems)]
_ ->
[EStyled textType $ interpretString $ oMathRunElemsToString mrElems]
elemToExps' _ = Nothing
interpretChar :: Char -> Exp
interpretChar c | isDigit c = ENumber [c]
interpretChar c = case getSymbolType c of
Alpha -> EIdentifier [c]
Ord | isDigit c -> ENumber [c]
| otherwise -> case getSpaceWidth c of
Just x -> ESpace x
Nothing -> ESymbol Ord [c]
symType -> ESymbol symType [c]
interpretString :: String -> [Exp]
interpretString [c] = [interpretChar c]
interpretString s
| all isDigit s = [ENumber s]
| isJust (getOperator (EMathOperator s))
= [EMathOperator s]
| otherwise =
case map interpretChar s of
xs | all isIdentifierOrSpace xs -> [EText TextNormal s]
| otherwise -> xs
where isIdentifierOrSpace (EIdentifier _) = True
isIdentifierOrSpace (ESpace _) = True
isIdentifierOrSpace _ = False
expToString :: Exp -> String
expToString (ENumber s) = s
expToString (EIdentifier s) = s
expToString (EMathOperator s) = s
expToString (ESymbol _ s) = s
expToString (EText _ s) = s
expToString (EGrouped exps) = concatMap expToString exps
expToString (EStyled _ exps) = concatMap expToString exps
expToString _ = ""
getSymChar :: Element -> String
getSymChar element
| Just s <- lowerFromPrivate <$> getCodepoint
, Just font <- getFont =
let [(char, _)] = readLitChar ("\\x" ++ s) in
maybe "" (:[]) $ getUnicode font char
where
getCodepoint = findAttrBy (hasElemName "w" "char") element
getFont = stringToFont =<< findAttrBy (hasElemName "w" "font") element
lowerFromPrivate ('F':xs) = '0':xs
lowerFromPrivate xs = xs
getSymChar _ = ""