{-# LANGUAGE MultiParamTypeClasses, TypeSynonymInstances, FlexibleInstances #-}

{- |

Module : $Header$

Copyright : (c) Christian Maeder, DFKI 2012

License : GPLv2 or higher, see LICENSE.txt

Maintainer : Christian.Maeder@dfki.de

Stability : provisional

Portability : non-portable (MPTC-FD)

-}

module Comorphisms.ExtModal2CASL where

import Logic.Logic

import Logic.Comorphism

import Common.ProofTree

import qualified Common.Lib.Rel as Rel

import qualified Common.Lib.MapSet as MapSet

import qualified Data.Set as Set

-- CASL

import CASL.Logic_CASL

import CASL.Sublogic as SL

import CASL.Sign

import CASL.AS_Basic_CASL

import CASL.Morphism

import CASL.World

-- ExtModalCASL

import ExtModal.Logic_ExtModal

import ExtModal.AS_ExtModal

import ExtModal.ExtModalSign

import ExtModal.Sublogic

data ExtModal2CASL = ExtModal2CASL deriving (Show)

instance Language ExtModal2CASL

instance Comorphism ExtModal2CASL

ExtModal Sublogic EM_BASIC_SPEC ExtModalFORMULA SYMB_ITEMS

SYMB_MAP_ITEMS ExtModalSign ExtModalMorph

Symbol RawSymbol ()

CASL CASL_Sublogics

CASLBasicSpec CASLFORMULA SYMB_ITEMS SYMB_MAP_ITEMS

CASLSign

CASLMor

Symbol RawSymbol ProofTree where

sourceLogic ExtModal2CASL = ExtModal

sourceSublogic ExtModal2CASL = maxSublogic

targetLogic ExtModal2CASL = CASL

mapSublogic ExtModal2CASL _ = Just SL.caslTop

map_theory ExtModal2CASL (sig, _sens) = case transSig sig of

mme -> return (mme, [])

{-

map_morphism ExtModal2CASL = return . mapMor

map_sentence ExtModal2CASL sig = return . transSen sig

map_symbol ExtModal2CASL _ = Set.singleton . mapSym

-}

has_model_expansion ExtModal2CASL = True

is_weakly_amalgamable ExtModal2CASL = True

-- | add world arguments to flexible ops and preds; and add relations

transSig :: ExtModalSign -> CASLSign

transSig sign = let

s1 = embedSign () sign

extInf = extendedInfo sign

flexibleOps = flexOps extInf

flexiblePreds = flexPreds extInf

flexOps' = addWorldOp world addPlace flexibleOps

flexPreds' = addWorldPred world addPlace flexiblePreds

rigOps' = diffOpMapSet (opMap sign) flexibleOps

rigPreds' = diffMapSet (predMap sign) flexiblePreds

termMs = termMods extInf

timeMs = time_modalities extInf

rels = Set.fold (\ m ->

insertModPred world (Set.member m timeMs) (Set.member m termMs) m)

MapSet.empty $ modalities extInf

in s1

{ sortRel = Rel.insertKey world $ sortRel sign

, opMap = addOpMapSet flexOps' rigOps'

, assocOps = diffOpMapSet (assocOps sign) flexibleOps

, predMap = addMapSet rels $ addMapSet flexPreds' rigPreds'}