hets/LF/Morphism.hs

	Morphism.hs revision 3d3889e0cefcdce9b3f43c53aaa201943ac2e895
{- |
Module      :  $Header$
Description :  Definition of signature morphisms for the Edinburgh
               Logical Framework
Copyright   :  (c) Kristina Sojakova, DFKI Bremen 2009
License     :  GPLv2 or higher, see LICENSE.txt

Maintainer  :  k.sojakova@jacobs-university.de
Stability   :  experimental
Portability :  portable
-}

module LF.Morphism
   ( MorphType (..)
   , Morphism (..)
   , idMorph
   , compMorph
   , mapSymbol
   , translate
   , canForm
   , inclusionMorph
   , inducedFromToMorphism
   , inducedFromMorphism
   , gen_morph
   ) where

import LF.Sign

import Common.Result
import Common.Doc hiding (space)
import Common.DocUtils

import qualified Data.Map as Map
import qualified Data.Set as Set
import Data.Maybe (isNothing, fromMaybe)

gen_morph :: String
gen_morph = "GEN_MORPH"

data MorphType = Definitional | Postulated | Unknown deriving (Ord, Eq, Show)

-- LF morphism cannot map defined symbols, only declared ones
data Morphism = Morphism
  { morphBase :: BASE
  , morphModule :: MODULE
  , morphName :: NAME
  , source :: Sign
  , target :: Sign
  , morphType :: MorphType
  , symMap :: Map.Map Symbol EXP
  } deriving (Ord, Show)

-- constructs an identity morphism
idMorph :: Sign -> Morphism
idMorph sig = Morphism gen_base gen_module "" sig sig Unknown Map.empty

-- composes two morphisms
compMorph :: Morphism -> Morphism -> Result Morphism
compMorph m1 m2 = do
  let newmap =
        Set.fold (\ s ->
                    let Just e1 = mapSymbol s m1
                        Just e2 = translate m2 e1
                        in Map.insert s e2
                 )
                 Map.empty $
                 getDeclaredSyms $ source m1
  return $ Morphism gen_base gen_module "" (source m1) (target m2) Unknown newmap

-- applies a morphism to a symbol in the source signature
mapSymbol :: Symbol -> Morphism -> Maybe EXP
mapSymbol s m =
  let sig = source m
      in if isDeclaredSym s sig
            then Just $ Map.findWithDefault (Const s) s $ symMap m
            else if isDefinedSym s sig
                    then do val <- getSymValue s sig
                            translate m val
                    else Nothing

-- translates a well-formed expression along the given morphism
translate :: Morphism -> EXP -> Maybe EXP
translate m e = translateH m (recForm e)

translateH :: Morphism -> EXP -> Maybe EXP
translateH _ Type = Just Type
translateH _ (Var n) = Just $ Var n
translateH m (Const s) = mapSymbol s m
translateH m (Appl f [a]) =
  do f1 <- translateH m f
     a1 <- translateH m a
     return $ Appl f1 [a1]
translateH m (Func [t] s) =
  do t1 <- translateH m t
     s1 <- translateH m s
     return $ Func [t1] s1
translateH m (Pi [(x, t)] a) =
  do t1 <- translateH m t
     a1 <- translateH m a
     return $ Pi [(x, t1)] a1
translateH m (Lamb [(x, t)] a) =
  do t1 <- translateH m t
     a1 <- translateH m a
     return $ Lamb [(x, t1)] a1
translateH _ _ = Nothing

{- converts the morphism into its canonical form where the symbol map contains
   no key/value pairs of the form (s, Const s) -}
canForm :: Morphism -> Morphism
canForm (Morphism b m n sig1 sig2 k map1) =
  let map2 = Map.fromList $ filter (\ (s, e) -> Const s /= e) $ Map.toList map1
      in Morphism b m n sig1 sig2 k map2

-- equality
instance Eq Morphism where
    m1 == m2 = eqMorph (canForm m1) (canForm m2)

eqMorph :: Morphism -> Morphism -> Bool
eqMorph (Morphism b1 m1 n1 s1 t1 k1 map1) (Morphism b2 m2 n2 s2 t2 k2 map2) =
  (b1, m1, n1, s1, t1, k1, map1) == (b2, m2, n2, s2, t2, k2, map2)

-- pretty printing
instance Pretty Morphism where
  pretty m = printSymMap $ symMap $ canForm m

printSymMap :: Map.Map Symbol EXP -> Doc
printSymMap m =
  vcat $ map (\ (s, e) -> pretty s <+> mapsto <+> pretty e) $ Map.toList m

-- constructs the inclusion morphism between signatures
inclusionMorph :: Sign -> Sign -> Result Morphism
inclusionMorph sig1 sig2 =
  let m = Morphism gen_base gen_module "" sig1 sig2 Unknown Map.empty
      in Result [] $ Just m

-- induces a morphism from the source and target sigs and a symbol map
inducedFromToMorphism :: Map.Map Symbol (EXP, EXP) -> Sign ->
                         Sign -> Result Morphism
inducedFromToMorphism m sig1 sig2 =
  let mor = Morphism gen_base gen_module "" sig1 sig2 Unknown Map.empty
      defs = filter (\ (Def _ _ v) -> isNothing v) $ getLocalDefs sig1
      in buildFromToMorph defs m mor

buildFromToMorph :: [DEF] -> Map.Map Symbol (EXP, EXP) -> Morphism ->
                    Result Morphism
buildFromToMorph [] _ mor = return mor
buildFromToMorph (Def s t _ : ds) m mor = do
  let m1 = symMap mor
  let t1 = fromMaybe (error $ badTypeError t) $ translate mor t
  let sig2 = target mor
  if Map.member s m
     then do
        let Just (v, t2) = Map.lookup s m
        if t1 == t2
           then buildFromToMorph ds m $ mor {symMap = Map.insert s v m1 }
           else fail $ badViewError s t1
     else do
        let s1 = if Just t1 == getSymType s sig2 then s else do
                    let syms = getSymsOfType t1 sig2
                    let local = Set.intersection syms $ getLocalSyms sig2
                    case Set.toList syms of
                         [s'] -> s'
                         [] -> error $ noSymError s t1
                         _ -> case Set.toList local of
                                   [s'] -> s'
                                   [] -> error $ noSymError s t1
                                   _ -> error $ manySymError s t1
        buildFromToMorph ds m $ mor {symMap = Map.insert s (Const s1) m1}

-- induces a morphism from the source signature and a symbol map
inducedFromMorphism :: Map.Map Symbol Symbol -> Sign -> Result Morphism
inducedFromMorphism m sig1 = do
  let mor = Morphism gen_base gen_module "" sig1 emptySig Unknown $
              Map.map Const m
  let defs = filter (\ (Def _ _ v) -> isNothing v) $ getDefs sig1
  buildFromMorph defs mor

buildFromMorph :: [DEF] -> Morphism -> Result Morphism
buildFromMorph [] mor = return mor
buildFromMorph (Def s t _ : ds) mor = do
  let sig2 = target mor
  let t1 = fromMaybe (error $ badTypeError t) $ translate mor t
  let Just (Const s1) = mapSymbol s mor
  case getSymType s1 sig2 of
       Just t2 ->
          if t1 == t2
             then buildFromMorph ds mor
             else fail $ badViewError s1 t1
       Nothing -> buildFromMorph ds $
                    mor { target = addDef (Def s1 t1 Nothing) sig2 }

{- -------------------------------------------------------------------------
------------------------------------------------------------------------- -}

-- ERROR MESSAGES
badTypeError :: EXP -> String
badTypeError t = "Type/kind " ++ show (pretty t) ++ " cannot be translated."

badViewError :: Symbol -> EXP -> String
badViewError s t = "Symbol " ++ show (pretty s) ++
   " must be mapped to an expression of type/kind " ++ show (pretty t) ++ "."

noSymError :: Symbol -> EXP -> String
noSymError s t = "Symbol " ++ show (pretty s) ++
   " cannot be mapped to anything as the target signature contains" ++
   " no symbols of type/kind " ++ show (pretty t) ++ "."

manySymError :: Symbol -> EXP -> String
manySymError s t = "Symbol " ++ show (pretty s) ++
   " cannot be mapped to anything as the target signature contains" ++
   " more than one symbol of type/kind " ++ show (pretty t) ++ "."