----------------------------------------------------------------------------- -- | -- Module : Data.SBV.Provers.Boolector -- Copyright : (c) Levent Erkok -- License : BSD3 -- Maintainer : erkokl@gmail.com -- Stability : experimental -- -- The connection to the Boolector SMT solver ----------------------------------------------------------------------------- {-# LANGUAGE ScopedTypeVariables #-} module Data.SBV.Provers.Boolector(boolector) where import qualified Control.Exception as C import Data.Function (on) import Data.List (sortBy) import System.Environment (getEnv) import System.Exit (ExitCode(..)) import Data.SBV.BitVectors.Data import Data.SBV.SMT.SMT import Data.SBV.SMT.SMTLib -- | The description of the Boolector SMT solver -- The default executable is @\"boolector\"@, which must be in your path. You can use the @SBV_BOOLECTOR@ environment variable to point to the executable on your system. -- The default options are @\"-m --smt2\"@. You can use the @SBV_BOOLECTOR_OPTIONS@ environment variable to override the options. boolector :: SMTSolver boolector = SMTSolver { name = Boolector , executable = "boolector" , options = ["-m", "--smt2"] , engine = \cfg _isSat qinps modelMap _skolemMap pgm -> do execName <- getEnv "SBV_BOOLECTOR" `C.catch` (\(_ :: C.SomeException) -> return (executable (solver cfg))) execOpts <- (words `fmap` getEnv "SBV_BOOLECTOR_OPTIONS") `C.catch` (\(_ :: C.SomeException) -> return (options (solver cfg))) let cfg' = cfg { solver = (solver cfg) {executable = execName, options = addTimeOut (timeOut cfg) execOpts} , satCmd = satCmd cfg ++ "\n(exit)" -- boolector requires a final exit line } tweaks = case solverTweaks cfg' of [] -> "" ts -> unlines $ "; --- user given solver tweaks ---" : ts ++ ["; --- end of user given tweaks ---"] -- boolector complains if we don't have "exit" at the end script = SMTScript {scriptBody = tweaks ++ pgm, scriptModel = Nothing} standardSolver cfg' script id (ProofError cfg') (interpretSolverOutput cfg' (extractMap (map snd qinps) modelMap)) , xformExitCode = boolectorExitCode , capabilities = SolverCapabilities { capSolverName = "Boolector" , mbDefaultLogic = Nothing , supportsMacros = False , supportsProduceModels = False , supportsQuantifiers = False , supportsUninterpretedSorts = False , supportsUnboundedInts = False , supportsReals = False , supportsFloats = False , supportsDoubles = False } } where addTimeOut Nothing o = o addTimeOut (Just i) o | i < 0 = error $ "Boolector: Timeout value must be non-negative, received: " ++ show i | True = o ++ ["-t=" ++ show i] -- | Similar to CVC4, Boolector uses different exit codes to indicate its status. boolectorExitCode :: ExitCode -> ExitCode boolectorExitCode (ExitFailure n) | n `elem` [10, 20, 0] = ExitSuccess boolectorExitCode ec = ec extractMap :: [NamedSymVar] -> [(String, UnintKind)] -> [String] -> SMTModel extractMap inps _modelMap solverLines = SMTModel { modelAssocs = map snd $ sortByNodeId $ concatMap (interpretSolverModelLine inps . cvt) solverLines , modelUninterps = [] , modelArrays = [] } where sortByNodeId :: [(Int, a)] -> [(Int, a)] sortByNodeId = sortBy (compare `on` fst) -- Boolector outputs in a non-parenthesized way; and also puts x's for don't care bits: cvt :: String -> String cvt s = case words s of [_, val, var] -> "((" ++ var ++ " #b" ++ map tr val ++ "))" _ -> s -- good-luck.. where tr 'x' = '0' tr x = x