sbv-8.11: SMT Based Verification: Symbolic Haskell theorem prover using SMT solving.
Copyright(c) Brian Schroeder
Levent Erkok
LicenseBSD3
Maintainererkokl@gmail.com
Stabilityexperimental
Safe HaskellNone
LanguageHaskell2010

Data.SBV.Trans.Control

Description

More generalized alternative to Data.SBV.Control for advanced client use

Synopsis

User queries

class MonadIO m => ExtractIO m where Source #

Monads which support IO operations and can extract all IO behavior for interoperation with functions like catches, which takes an IO action in negative position. This function can not be implemented for transformers like ReaderT r or StateT s, whose resultant IO actions are a function of some environment or state.

Methods

extractIO :: m a -> IO (m a) Source #

Law: the m a yielded by IO is pure with respect to IO.

Instances

Instances details
ExtractIO IO Source #

Trivial IO extraction for IO.

Instance details

Defined in Data.SBV.Utils.ExtractIO

Methods

extractIO :: IO a -> IO (IO a) Source #

ExtractIO m => ExtractIO (MaybeT m) Source #

IO extraction for MaybeT.

Instance details

Defined in Data.SBV.Utils.ExtractIO

Methods

extractIO :: MaybeT m a -> IO (MaybeT m a) Source #

ExtractIO m => ExtractIO (ExceptT e m) Source #

IO extraction for ExceptT.

Instance details

Defined in Data.SBV.Utils.ExtractIO

Methods

extractIO :: ExceptT e m a -> IO (ExceptT e m a) Source #

(Monoid w, ExtractIO m) => ExtractIO (WriterT w m) Source #

IO extraction for lazy WriterT.

Instance details

Defined in Data.SBV.Utils.ExtractIO

Methods

extractIO :: WriterT w m a -> IO (WriterT w m a) Source #

(Monoid w, ExtractIO m) => ExtractIO (WriterT w m) Source #

IO extraction for strict WriterT.

Instance details

Defined in Data.SBV.Utils.ExtractIO

Methods

extractIO :: WriterT w m a -> IO (WriterT w m a) Source #

class Monad m => MonadQuery m where Source #

Computations which support query operations.

Minimal complete definition

Nothing

Methods

queryState :: m State Source #

default queryState :: (MonadTrans t, MonadQuery m', m ~ t m') => m State Source #

Instances

Instances details
MonadQuery Q Source # 
Instance details

Defined in Documentation.SBV.Examples.Transformers.SymbolicEval

Methods

queryState :: Q State Source #

MonadQuery m => MonadQuery (MaybeT m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

queryState :: MaybeT m State Source #

Monad m => MonadQuery (QueryT m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

queryState :: QueryT m State Source #

MonadQuery m => MonadQuery (ExceptT e m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

queryState :: ExceptT e m State Source #

MonadQuery m => MonadQuery (ReaderT r m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

queryState :: ReaderT r m State Source #

MonadQuery m => MonadQuery (StateT s m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

queryState :: StateT s m State Source #

MonadQuery m => MonadQuery (StateT s m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

queryState :: StateT s m State Source #

(MonadQuery m, Monoid w) => MonadQuery (WriterT w m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

queryState :: WriterT w m State Source #

(MonadQuery m, Monoid w) => MonadQuery (WriterT w m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

queryState :: WriterT w m State Source #

data QueryT m a Source #

A query is a user-guided mechanism to directly communicate and extract results from the solver. A generalization of Query.

Instances

Instances details
MonadTrans QueryT Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

lift :: Monad m => m a -> QueryT m a #

MonadSymbolic Query Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

symbolicEnv :: Query State Source #

MonadWriter w m => MonadWriter w (QueryT m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

writer :: (a, w) -> QueryT m a #

tell :: w -> QueryT m () #

listen :: QueryT m a -> QueryT m (a, w) #

pass :: QueryT m (a, w -> w) -> QueryT m a #

MonadState s m => MonadState s (QueryT m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

get :: QueryT m s #

put :: s -> QueryT m () #

state :: (s -> (a, s)) -> QueryT m a #

MonadReader r m => MonadReader r (QueryT m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

ask :: QueryT m r #

local :: (r -> r) -> QueryT m a -> QueryT m a #

reader :: (r -> a) -> QueryT m a #

MonadError e m => MonadError e (QueryT m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

throwError :: e -> QueryT m a #

catchError :: QueryT m a -> (e -> QueryT m a) -> QueryT m a #

Monad m => Monad (QueryT m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

(>>=) :: QueryT m a -> (a -> QueryT m b) -> QueryT m b #

(>>) :: QueryT m a -> QueryT m b -> QueryT m b #

return :: a -> QueryT m a #

Functor m => Functor (QueryT m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

fmap :: (a -> b) -> QueryT m a -> QueryT m b #

(<$) :: a -> QueryT m b -> QueryT m a #

Applicative m => Applicative (QueryT m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

pure :: a -> QueryT m a #

(<*>) :: QueryT m (a -> b) -> QueryT m a -> QueryT m b #

liftA2 :: (a -> b -> c) -> QueryT m a -> QueryT m b -> QueryT m c #

(*>) :: QueryT m a -> QueryT m b -> QueryT m b #

(<*) :: QueryT m a -> QueryT m b -> QueryT m a #

MonadIO m => MonadIO (QueryT m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

liftIO :: IO a -> QueryT m a #

Monad m => MonadQuery (QueryT m) Source # 
Instance details

Defined in Data.SBV.Core.Symbolic

Methods

queryState :: QueryT m State Source #

MonadIO m => SolverContext (QueryT m) Source #

QueryT as a SolverContext.

Instance details

Defined in Data.SBV.Control.Utils

Methods

constrain :: SBool -> QueryT m () Source #

softConstrain :: SBool -> QueryT m () Source #

namedConstraint :: String -> SBool -> QueryT m () Source #

constrainWithAttribute :: [(String, String)] -> SBool -> QueryT m () Source #

setInfo :: String -> [String] -> QueryT m () Source #

setOption :: SMTOption -> QueryT m () Source #

setLogic :: Logic -> QueryT m () Source #

addAxiom :: String -> [String] -> QueryT m () Source #

setTimeOut :: Integer -> QueryT m () Source #

contextState :: QueryT m State Source #

type Query = QueryT IO Source #

A query is a user-guided mechanism to directly communicate and extract results from the solver.

query :: ExtractIO m => QueryT m a -> SymbolicT m a Source #

Run a custom query.

Create a fresh variable

freshVar_ :: forall a m. (MonadIO m, MonadQuery m, SymVal a) => m (SBV a) Source #

Generalization of freshVar_

freshVar :: forall a m. (MonadIO m, MonadQuery m, SymVal a) => String -> m (SBV a) Source #

Generalization of freshVar

Create a fresh array

freshArray_ :: (MonadIO m, MonadQuery m, SymArray array, HasKind a, HasKind b) => Maybe (SBV b) -> m (array a b) Source #

Generalization of freshArray_

freshArray :: (MonadIO m, MonadQuery m, SymArray array, HasKind a, HasKind b) => String -> Maybe (SBV b) -> m (array a b) Source #

Generalization of freshArray

Checking satisfiability

data CheckSatResult Source #

Result of a checkSat or checkSatAssuming call.

Constructors

Sat

Satisfiable: A model is available, which can be queried with getValue.

DSat (Maybe String)

Delta-satisfiable: A delta-sat model is available. String is the precision info, if available.

Unsat

Unsatisfiable: No model is available. Unsat cores might be obtained via getUnsatCore.

Unk

Unknown: Use getUnknownReason to obtain an explanation why this might be the case.

Instances

Instances details
Eq CheckSatResult Source # 
Instance details

Defined in Data.SBV.Control.Types

Methods

(==) :: CheckSatResult -> CheckSatResult -> Bool #

(/=) :: CheckSatResult -> CheckSatResult -> Bool #

Show CheckSatResult Source # 
Instance details

Defined in Data.SBV.Control.Types

Methods

showsPrec :: Int -> CheckSatResult -> ShowS #

show :: CheckSatResult -> String #

showList :: [CheckSatResult] -> ShowS #

checkSat :: (MonadIO m, MonadQuery m) => m CheckSatResult Source #

Generalization of checkSat

ensureSat :: (MonadIO m, MonadQuery m) => m () Source #

Generalization of ensureSat

checkSatUsing :: (MonadIO m, MonadQuery m) => String -> m CheckSatResult Source #

Generalization of checkSatUsing

checkSatAssuming :: (MonadIO m, MonadQuery m) => [SBool] -> m CheckSatResult Source #

Generalization of checkSatAssuming

checkSatAssumingWithUnsatisfiableSet :: (MonadIO m, MonadQuery m) => [SBool] -> m (CheckSatResult, Maybe [SBool]) Source #

Generalization of checkSatAssumingWithUnsatisfiableSet

Querying the solver

Extracting values

getValue :: (MonadIO m, MonadQuery m, SymVal a) => SBV a -> m a Source #

Generalization of getValue

getFunction :: (MonadIO m, MonadQuery m, SolverContext m, MonadSymbolic m, SymVal a, SymVal r, SMTFunction fun a r) => fun -> m ([(a, r)], r) Source #

Generalization of getFunction

getUninterpretedValue :: (MonadIO m, MonadQuery m, HasKind a) => SBV a -> m String Source #

Generalization of getUninterpretedValue

getModel :: (MonadIO m, MonadQuery m) => m SMTModel Source #

Generalization of getModel

getAssignment :: (MonadIO m, MonadQuery m) => m [(String, Bool)] Source #

Generalization of getAssignment

getSMTResult :: (MonadIO m, MonadQuery m) => m SMTResult Source #

Generalization of getSMTResult

getUnknownReason :: (MonadIO m, MonadQuery m) => m SMTReasonUnknown Source #

Generalization of getUnknownReason

getObservables :: (MonadIO m, MonadQuery m) => m [(Name, CV)] Source #

Get observables, i.e., those explicitly labeled by the user with a call to observe.

Extracting the unsat core

getUnsatCore :: (MonadIO m, MonadQuery m) => m [String] Source #

Generalization of getUnsatCore

Extracting a proof

getProof :: (MonadIO m, MonadQuery m) => m String Source #

Generalization of getProof

Extracting interpolants

getInterpolantMathSAT :: (MonadIO m, MonadQuery m) => [String] -> m String Source #

Generalization of getInterpolantMathSAT. Use this version with MathSAT.

getInterpolantZ3 :: (MonadIO m, MonadQuery m) => [SBool] -> m String Source #

Generalization of getInterpolantZ3. Use this version with Z3.

Extracting assertions

getAssertions :: (MonadIO m, MonadQuery m) => m [String] Source #

Generalization of getAssertions

Getting solver information

data SMTInfoFlag Source #

Collectable information from the solver.

Constructors

AllStatistics 
AssertionStackLevels 
Authors 
ErrorBehavior 
Name 
ReasonUnknown 
Version 
InfoKeyword String 

Instances

Instances details
Show SMTInfoFlag Source # 
Instance details

Defined in Data.SBV.Control.Types

Methods

showsPrec :: Int -> SMTInfoFlag -> ShowS #

show :: SMTInfoFlag -> String #

showList :: [SMTInfoFlag] -> ShowS #

data SMTErrorBehavior Source #

Behavior of the solver for errors.

Constructors

ErrorImmediateExit 
ErrorContinuedExecution 

Instances

Instances details
Show SMTErrorBehavior Source # 
Instance details

Defined in Data.SBV.Control.Types

Methods

showsPrec :: Int -> SMTErrorBehavior -> ShowS #

show :: SMTErrorBehavior -> String #

showList :: [SMTErrorBehavior] -> ShowS #

data SMTInfoResponse Source #

Collectable information from the solver.

Constructors

Resp_Unsupported 
Resp_AllStatistics [(String, String)] 
Resp_AssertionStackLevels Integer 
Resp_Authors [String] 
Resp_Error SMTErrorBehavior 
Resp_Name String 
Resp_ReasonUnknown SMTReasonUnknown 
Resp_Version String 
Resp_InfoKeyword String [String] 

Instances

Instances details
Show SMTInfoResponse Source # 
Instance details

Defined in Data.SBV.Control.Types

Methods

showsPrec :: Int -> SMTInfoResponse -> ShowS #

show :: SMTInfoResponse -> String #

showList :: [SMTInfoResponse] -> ShowS #

getInfo :: (MonadIO m, MonadQuery m) => SMTInfoFlag -> m SMTInfoResponse Source #

Generalization of getInfo

getOption :: (MonadIO m, MonadQuery m) => (a -> SMTOption) -> m (Maybe SMTOption) Source #

Generalization of getInfo

Entering and exiting assertion stack

getAssertionStackDepth :: (MonadIO m, MonadQuery m) => m Int Source #

Generalization of getAssertionStackDepth

push :: (MonadIO m, MonadQuery m) => Int -> m () Source #

Generalization of push

pop :: (MonadIO m, MonadQuery m) => Int -> m () Source #

Generalization of pop

inNewAssertionStack :: (MonadIO m, MonadQuery m) => m a -> m a Source #

Generalization of inNewAssertionStack

Higher level tactics

caseSplit :: (MonadIO m, MonadQuery m) => Bool -> [(String, SBool)] -> m (Maybe (String, SMTResult)) Source #

Generalization of caseSplit

Resetting the solver state

resetAssertions :: (MonadIO m, MonadQuery m) => m () Source #

Generalization of resetAssertions

Constructing assignments

(|->) :: SymVal a => SBV a -> a -> Assignment infix 1 Source #

Make an assignment. The type Assignment is abstract, the result is typically passed to mkSMTResult:

 mkSMTResult [ a |-> 332
             , b |-> 2.3
             , c |-> True
             ]

End users should use getModel for automatically constructing models from the current solver state. However, an explicit Assignment might be handy in complex scenarios where a model needs to be created manually.

Terminating the query

mkSMTResult :: (MonadIO m, MonadQuery m) => [Assignment] -> m SMTResult Source #

Generalization of mkSMTResult NB. This function does not allow users to create interpretations for UI-Funs. But that's probably not a good idea anyhow. Also, if you use the validateModel or optimizeValidateConstraints features, SBV will fail on models returned via this function.

exit :: (MonadIO m, MonadQuery m) => m () Source #

Generalization of exit

Controlling the solver behavior

ignoreExitCode :: SMTConfig -> Bool Source #

If true, we shall ignore the exit code upon exit. Otherwise we require ExitSuccess.

timeout :: (MonadIO m, MonadQuery m) => Int -> m a -> m a Source #

Generalization of timeout

Miscellaneous

queryDebug :: (MonadIO m, MonadQuery m) => [String] -> m () Source #

Generalization of queryDebug

echo :: (MonadIO m, MonadQuery m) => String -> m () Source #

Generalization of echo

io :: MonadIO m => IO a -> m a Source #

Generalization of io

Solver options

data SMTOption Source #

Option values that can be set in the solver, following the SMTLib specification http://smtlib.cs.uiowa.edu/language.shtml.

Note that not all solvers may support all of these!

Furthermore, SBV doesn't support the following options allowed by SMTLib.

  • :interactive-mode (Deprecated in SMTLib, use ProduceAssertions instead.)
  • :print-success (SBV critically needs this to be True in query mode.)
  • :produce-models (SBV always sets this option so it can extract models.)
  • :regular-output-channel (SBV always requires regular output to come on stdout for query purposes.)
  • :global-declarations (SBV always uses global declarations since definitions are accumulative.)

Note that SetLogic and SetInfo are, strictly speaking, not SMTLib options. However, we treat it as such here uniformly, as it fits better with how options work.

Constructors

DiagnosticOutputChannel FilePath 
ProduceAssertions Bool 
ProduceAssignments Bool 
ProduceProofs Bool 
ProduceInterpolants Bool 
ProduceUnsatAssumptions Bool 
ProduceUnsatCores Bool 
RandomSeed Integer 
ReproducibleResourceLimit Integer 
SMTVerbosity Integer 
OptionKeyword String [String] 
SetLogic Logic 
SetInfo String [String] 

Instances

Instances details
Show SMTOption Source # 
Instance details

Defined in Data.SBV.Control.Types

Methods

showsPrec :: Int -> SMTOption -> ShowS #

show :: SMTOption -> String #

showList :: [SMTOption] -> ShowS #