module Ideas.Encoding.OpenMathSupport
(
toOpenMath, fromOpenMath, noMixedFractions
, toOMOBJ, fromOMOBJ
) where
import Control.Monad
import Data.Char
import Data.List
import Ideas.Common.Library
import Ideas.Common.Utils.Uniplate
import Ideas.Text.OpenMath.Dictionary.Arith1
import Ideas.Text.OpenMath.Dictionary.Fns1
import Ideas.Text.OpenMath.Object
import qualified Ideas.Text.OpenMath.Dictionary.List1 as OM
import qualified Ideas.Text.OpenMath.Symbol as OM
toOpenMath :: Monad m => Exercise a -> a -> m OMOBJ
toOpenMath ex a = do
v <- hasTermViewM ex
return (toOMOBJ (build v a))
fromOpenMath :: MonadPlus m => Exercise a -> OMOBJ -> m a
fromOpenMath ex omobj = do
v <- hasTermViewM ex
a <- fromOMOBJ omobj
matchM v a
toOMOBJ :: IsTerm a => a -> OMOBJ
toOMOBJ = rec . toTerm
where
rec term =
case term of
TVar s -> OMV s
TCon s xs
| null xs -> OMS (idToSymbol (getId s))
| otherwise -> make (OMS (idToSymbol (getId s)):map rec xs)
TMeta i -> OMV ('$' : show i)
TNum n -> OMI n
TFloat d -> OMF d
TList xs -> rec (function (newSymbol OM.listSymbol) xs)
make [OMS s, OMV x, body] | s == lambdaSymbol =
OMBIND (OMS s) [x] body
make xs = OMA xs
fromOMOBJ :: (MonadPlus m, IsTerm a) => OMOBJ -> m a
fromOMOBJ = (>>= fromTerm) . rec
where
rec omobj =
case omobj of
OMV x -> case isMeta x of
Just n -> return (TMeta n)
Nothing -> return (TVar x)
OMS s -> return (symbol (newSymbol (OM.dictionary s, OM.symbolName s)))
OMI n -> return (TNum n)
OMF a -> return (TFloat a)
OMA xs -> case xs of
OMS s:ys | s == OM.listSymbol -> liftM TList (mapM rec ys)
| otherwise -> liftM (function (newSymbol s)) (mapM rec ys)
_ -> fail "Invalid OpenMath object"
OMBIND binder xs body ->
rec (OMA (binder:map OMV xs++[body]))
isMeta ('$':xs) = Just (foldl' (\a b -> a*10+ord b48) 0 xs)
isMeta _ = Nothing
noMixedFractions :: OMOBJ -> OMOBJ
noMixedFractions = transform f
where
f (OMA [OMS s, a, b, c]) | s == mfSymbol =
OMA [OMS plusSymbol, a, OMA [OMS divideSymbol, b, c]]
f a = a
idToSymbol :: Id -> OM.Symbol
idToSymbol a
| null (qualifiers a) =
OM.extraSymbol (unqualified a)
| otherwise =
OM.makeSymbol (qualification a) (unqualified a)
hasTermViewM :: Monad m => Exercise a -> m (View Term a)
hasTermViewM = maybe (fail "No support for terms") return . hasTermView
mfSymbol :: OM.Symbol
mfSymbol = OM.makeSymbol "extra" "mixedfraction"