module SAT.MUS
( Options (..)
, defaultOptions
, findMUSAssumptions
) where
import Control.Monad
import Data.List
import qualified Data.IntSet as IS
import SAT
data Options
= Options
{ optLogger :: String -> IO ()
, optUpdateBest :: [Lit] -> IO ()
, optLitPrinter :: Lit -> String
}
defaultOptions :: Options
defaultOptions =
Options
{ optLogger = \_ -> return ()
, optUpdateBest = \_ -> return ()
, optLitPrinter = show
}
findMUSAssumptions
:: SAT.Solver
-> Options
-> IO [Lit]
findMUSAssumptions solver opt = do
log "computing a minimal unsatisfiable core"
core <- liftM IS.fromList $ SAT.failedAssumptions solver
update $ IS.toList core
log $ "core = " ++ showLits core
mus <- loop core IS.empty
return $ IS.toList mus
where
log :: String -> IO ()
log = optLogger opt
update :: [Lit] -> IO ()
update = optUpdateBest opt
showLit :: Lit -> String
showLit = optLitPrinter opt
showLits :: IS.IntSet -> String
showLits ls = "{" ++ intercalate ", " (map showLit (IS.toList ls)) ++ "}"
loop :: IS.IntSet -> IS.IntSet -> IO IS.IntSet
loop ls1 fixed = do
case IS.minView ls1 of
Nothing -> do
log $ "found a minimal unsatisfiable core"
return fixed
Just (l,ls) -> do
log $ "trying to remove " ++ showLit l
ret <- SAT.solveWith solver (IS.toList ls)
if not ret
then do
ls2 <- liftM IS.fromList $ SAT.failedAssumptions solver
let removed = ls1 `IS.difference` ls2
log $ "successed to remove " ++ showLits removed
log $ "new core = " ++ showLits (ls2 `IS.union` fixed)
update $ IS.toList ls2
forM_ (IS.toList removed) $ \l ->
SAT.addClause solver [l]
loop ls2 fixed
else do
log $ "failed to remove " ++ showLit l
SAT.addClause solver [l]
loop ls (IS.insert l fixed)