hets/GMP/GenericSequent.hs

	GenericSequent.hs revision 3d3889e0cefcdce9b3f43c53aaa201943ac2e895
{- |
Module      :  $EmptyHeader$
Description :  <optional short description entry>
Copyright   :  (c) <Authors or Affiliations>
License     :  GPLv2 or higher, see LICENSE.txt

Maintainer  :  <email>
Stability   :  unstable | experimental | provisional | stable | frozen
Portability :  portable | non-portable (<reason>)

<optional description>
-}
module GenericSequent where

import ModalLogic
import CombLogic
import Data.List as List
-- import Data.Map as Map

-- | Generate all possible clauses out of a list of atoms
allClauses :: [a] -> [Clause a]
allClauses x = case x of
                 h : t -> let addPositive c (Implies n p) = Implies n (c : p)
                              addNegative c (Implies n p) = Implies (c : n) p
                        in List.map (addPositive h) (allClauses t) ++
                           List.map (addNegative h) (allClauses t)
                 _ -> [Implies [] []]

-- | Extract the modal atoms from a formula
getMA :: Eq a => Boole a -> [Boole a]
getMA x = case x of
            And phi psi -> getMA phi `List.union` getMA psi
            Not phi -> getMA phi
            At phi -> [At phi]
            _ -> []

-- | Substitution of modal atoms within a "Boole" expression
subst :: Eq a => Boole a -> Clause (Boole a) -> Boole a
subst x s@(Implies neg pos) =
  case x of
    And phi psi -> And (subst phi s) (subst psi s)
    Not phi -> Not (subst phi s)
    T -> T
    F -> F
    _ | elem x neg -> F
    _ | elem x pos -> T
    _ -> error "GenericSequent.subst"

-- | Evaluation of an instantiated "Boole" expression
eval :: Boole a -> Bool
eval x = case x of
           And phi psi -> eval phi && eval psi
           Not phi -> not (eval phi)
           T -> True
           F -> False
           _ -> error "GenericSequent.eval"

-- | DNF: disjunctive normal form of a Boole expression
dnf :: (Eq a) => Boole a -> [Clause (Boole a)]
dnf phi = List.filter (eval . subst phi) (allClauses (getMA phi))

-- | CNF: conjunctive normal form of a Boole expression
cnf :: (Eq a) => Boole a -> [Clause (Boole a)]
cnf phi = List.map (\ (Implies x y) -> Implies y x) (dnf (Not phi))

-- | Generic Provability Function
provable :: (Eq a, Form a b c) => Boole a -> Bool
provable _ = True
{-
provable phi =
  let unwrap (Subst x) = Map.elems x
  in all (\c -> any (all provable) (List.map unwrap.snd (match c))) (cnf phi)
-}

-- | Generic Satisfiability Function
sat :: (Eq a, Form a b c) => Boole a -> Bool
sat phi = not $ provable $ neg phi

-- | Function for "normalizing" negation
neg :: Eq a => Boole a -> Boole a
neg phi = case phi of
            Not psi -> psi
            _ -> phi