module Text.Pandoc.Readers.TeXMath (
readTeXMath
) where
import Text.ParserCombinators.Parsec
import Text.Pandoc.Definition
import Text.TeXMath.Parser
readTeXMath :: String
-> [Inline]
readTeXMath inp = case readTeXMath' inp of
Nothing -> [Str ("$" ++ inp ++ "$")]
Just res -> res
readTeXMath' :: String
-> Maybe [Inline]
readTeXMath' inp = case parse formula "formula" inp of
Left _ -> Just [Str inp]
Right exps -> expsToInlines exps
expsToInlines :: [Exp] -> Maybe [Inline]
expsToInlines xs = do
res <- mapM expToInlines xs
return (concat res)
expToInlines :: Exp -> Maybe [Inline]
expToInlines (ENumber s) = Just [Str s]
expToInlines (EIdentifier s) = Just [Emph [Str s]]
expToInlines (EMathOperator s) = Just [Str s]
expToInlines (ESymbol t s) = Just $ addSpace t (Str s)
where addSpace Op x = [x, thinspace]
addSpace Bin x = [medspace, x, medspace]
addSpace Rel x = [widespace, x, widespace]
addSpace Pun x = [x, thinspace]
addSpace _ x = [x]
thinspace = Str "\x2006"
medspace = Str "\x2005"
widespace = Str "\x2004"
expToInlines (EStretchy x) = expToInlines x
expToInlines (EGrouped xs) = expsToInlines xs
expToInlines (ESpace _) = Just [Str " "]
expToInlines (EBinary _ _ _) = Nothing
expToInlines (ESub x y) = do
x' <- expToInlines x
y' <- expToInlines y
return $ x' ++ [Subscript y']
expToInlines (ESuper x y) = do
x' <- expToInlines x
y' <- expToInlines y
return $ x' ++ [Superscript y']
expToInlines (ESubsup x y z) = do
x' <- expToInlines x
y' <- expToInlines y
z' <- expToInlines z
return $ x' ++ [Subscript y'] ++ [Superscript z']
expToInlines (EDown x y) = expToInlines (ESub x y)
expToInlines (EUp x y) = expToInlines (ESuper x y)
expToInlines (EDownup x y z) = expToInlines (ESubsup x y z)
expToInlines (EText _ x) = Just [Emph [Str x]]
expToInlines _ = Nothing