--------------------------------------------------------------------------------- -- | -- Module : Data.SBV.Bridge.CVC4 -- Copyright : (c) Levent Erkok -- License : BSD3 -- Maintainer : erkokl@gmail.com -- Stability : experimental -- -- Interface to the CVC4 SMT solver. Import this module if you want to use the -- CVC4 SMT prover as your backend solver. Also see: -- -- - "Data.SBV.Bridge.Yices" -- -- - "Data.SBV.Bridge.Z3" -- -- - "Data.SBV.Bridge.Boolector" --------------------------------------------------------------------------------- module Data.SBV.Bridge.CVC4 ( -- * CVC4 specific interface sbvCurrentSolver -- ** Proving and checking satisfiability , prove, sat, allSat, isVacuous, isTheorem, isSatisfiable -- ** Optimization routines , optimize, minimize, maximize -- * Non-CVC4 specific SBV interface -- $moduleExportIntro , module Data.SBV ) where import Data.SBV hiding (prove, sat, allSat, isVacuous, isTheorem, isSatisfiable, optimize, minimize, maximize, sbvCurrentSolver) -- | Current solver instance, pointing to cvc4. sbvCurrentSolver :: SMTConfig sbvCurrentSolver = cvc4 -- | Prove theorems, using the CVC4 SMT solver prove :: Provable a => a -- ^ Property to check -> IO ThmResult -- ^ Response from the SMT solver, containing the counter-example if found prove = proveWith sbvCurrentSolver -- | Find satisfying solutions, using the CVC4 SMT solver sat :: Provable a => a -- ^ Property to check -> IO SatResult -- ^ Response of the SMT Solver, containing the model if found sat = satWith sbvCurrentSolver -- | Find all satisfying solutions, using the CVC4 SMT solver allSat :: Provable a => a -- ^ Property to check -> IO AllSatResult -- ^ List of all satisfying models allSat = allSatWith sbvCurrentSolver -- | Check vacuity of the explicit constraints introduced by calls to the 'constrain' function, using the CVC4 SMT solver isVacuous :: Provable a => a -- ^ Property to check -> IO Bool -- ^ True if the constraints are unsatisifiable isVacuous = isVacuousWith sbvCurrentSolver -- | Check if the statement is a theorem, with an optional time-out in seconds, using the CVC4 SMT solver isTheorem :: Provable a => Maybe Int -- ^ Optional time-out, specify in seconds -> a -- ^ Property to check -> IO (Maybe Bool) -- ^ Returns Nothing if time-out expires isTheorem = isTheoremWith sbvCurrentSolver -- | Check if the statement is satisfiable, with an optional time-out in seconds, using the CVC4 SMT solver isSatisfiable :: Provable a => Maybe Int -- ^ Optional time-out, specify in seconds -> a -- ^ Property to check -> IO (Maybe Bool) -- ^ Returns Nothing if time-out expiers isSatisfiable = isSatisfiableWith sbvCurrentSolver -- | Optimize cost functions, using the CVC4 SMT solver optimize :: (SatModel a, SymWord a, Show a, SymWord c, Show c) => OptimizeOpts -- ^ Parameters to optimization (Iterative, Quantified, etc.) -> (SBV c -> SBV c -> SBool) -- ^ Betterness check: This is the comparison predicate for optimization -> ([SBV a] -> SBV c) -- ^ Cost function -> Int -- ^ Number of inputs -> ([SBV a] -> SBool) -- ^ Validity function -> IO (Maybe [a]) -- ^ Returns Nothing if there is no valid solution, otherwise an optimal solution optimize = optimizeWith sbvCurrentSolver -- | Minimize cost functions, using the CVC4 SMT solver minimize :: (SatModel a, SymWord a, Show a, SymWord c, Show c) => OptimizeOpts -- ^ Parameters to optimization (Iterative, Quantified, etc.) -> ([SBV a] -> SBV c) -- ^ Cost function to minimize -> Int -- ^ Number of inputs -> ([SBV a] -> SBool) -- ^ Validity function -> IO (Maybe [a]) -- ^ Returns Nothing if there is no valid solution, otherwise an optimal solution minimize = minimizeWith sbvCurrentSolver -- | Maximize cost functions, using the CVC4 SMT solver maximize :: (SatModel a, SymWord a, Show a, SymWord c, Show c) => OptimizeOpts -- ^ Parameters to optimization (Iterative, Quantified, etc.) -> ([SBV a] -> SBV c) -- ^ Cost function to maximize -> Int -- ^ Number of inputs -> ([SBV a] -> SBool) -- ^ Validity function -> IO (Maybe [a]) -- ^ Returns Nothing if there is no valid solution, otherwise an optimal solution maximize = maximizeWith sbvCurrentSolver {- $moduleExportIntro The remainder of the SBV library that is common to all back-end SMT solvers, directly coming from the "Data.SBV" module. -}