Copyright	(c) Galois Inc 2015-2020
License	BSD3
Maintainer	jhendrix@galois.com
Safe Haskell	None
Language	Haskell2010

What4.Expr.Builder

Contents

ExprBuilder
Specialized representations
configuration options
Expr
App
NonceApp
Bound Variable information
Symbolic Function
SymbolVarBimap
IdxCache
Flags
BV Or Set
Re-exports

Description

This module defines the canonical implementation of the solver interface from What4.Interface. Type ExprBuilder t st is an instance of the classes IsExprBuilder and IsSymExprBuilder.

Notes regarding concurrency: The expression builder datatype contains a number of mutable storage locations. These are designed so they may reasonably be used in a multithreaded context. In particular, nonce values are generated atomically, and other IORefs used in this module are modified or written atomically, so modifications should propagate in the expected sequentially-consistent ways. Of course, threads may still clobber state others have set (e.g., the current program location) so the potential for truly multithreaded use is somewhat limited.

Synopsis

data ExprBuilder t (st :: Type -> Type) (fs :: Type)
newExprBuilder :: FloatModeRepr fm -> st t -> NonceGenerator IO t -> IO (ExprBuilder t st (Flags fm))
getSymbolVarBimap :: ExprBuilder t st fs -> IO (SymbolVarBimap t)
sbMakeExpr :: ExprBuilder t st fs -> App (Expr t) tp -> IO (Expr t tp)
sbNonceExpr :: ExprBuilder t st fs -> NonceApp t (Expr t) tp -> IO (Expr t tp)
curProgramLoc :: ExprBuilder t st fs -> IO ProgramLoc
sbUnaryThreshold :: ExprBuilder t st fs -> OptionSetting BaseIntegerType
sbCacheStartSize :: ExprBuilder t st fs -> OptionSetting BaseIntegerType
sbBVDomainRangeLimit :: ExprBuilder t st fs -> OptionSetting BaseIntegerType
sbUserState :: ExprBuilder t st fs -> st t
exprCounter :: ExprBuilder t st fs -> NonceGenerator IO t
startCaching :: ExprBuilder t st fs -> IO ()
stopCaching :: ExprBuilder t st fs -> IO ()
bvUnary :: 1 <= w => ExprBuilder t st fs -> UnaryBV (BoolExpr t) w -> IO (BVExpr t w)
intSum :: ExprBuilder t st fs -> WeightedSum (Expr t) SemiRingInteger -> IO (IntegerExpr t)
realSum :: ExprBuilder t st fs -> WeightedSum (Expr t) SemiRingReal -> IO (RealExpr t)
bvSum :: ExprBuilder t st fs -> WeightedSum (Expr t) (SemiRingBV flv w) -> IO (BVExpr t w)
scalarMul :: ExprBuilder t st fs -> SemiRingRepr sr -> Coefficient sr -> Expr t (SemiRingBase sr) -> IO (Expr t (SemiRingBase sr))
unaryThresholdOption :: ConfigOption BaseIntegerType
bvdomainRangeLimitOption :: ConfigOption BaseIntegerType
cacheStartSizeOption :: ConfigOption BaseIntegerType
cacheTerms :: ConfigOption BaseBoolType
data Expr t (tp :: BaseType) where
- SemiRingLiteral :: !(SemiRingRepr sr) -> !(Coefficient sr) -> !ProgramLoc -> Expr t (SemiRingBase sr)
- BoolExpr :: !Bool -> !ProgramLoc -> Expr t BaseBoolType
- FloatExpr :: !(FloatPrecisionRepr fpp) -> !BigFloat -> !ProgramLoc -> Expr t (BaseFloatType fpp)
- StringExpr :: !(StringLiteral si) -> !ProgramLoc -> Expr t (BaseStringType si)
- AppExpr :: !(AppExpr t tp) -> Expr t tp
- NonceAppExpr :: !(NonceAppExpr t tp) -> Expr t tp
- BoundVarExpr :: !(ExprBoundVar t tp) -> Expr t tp
asApp :: Expr t tp -> Maybe (App (Expr t) tp)
asNonceApp :: Expr t tp -> Maybe (NonceApp t (Expr t) tp)
iteSize :: Expr t tp -> Integer
exprLoc :: Expr t tp -> ProgramLoc
ppExpr :: Expr t tp -> Doc ann
ppExprTop :: Expr t tp -> Doc ann
exprMaybeId :: Expr t tp -> Maybe (Nonce t tp)
asConjunction :: Expr t BaseBoolType -> [(Expr t BaseBoolType, Polarity)]
asDisjunction :: Expr t BaseBoolType -> [(Expr t BaseBoolType, Polarity)]
data Polarity
- = Positive
- | Negative
negatePolarity :: Polarity -> Polarity
data AppExpr t (tp :: BaseType)
appExprId :: AppExpr t tp -> Nonce t tp
appExprLoc :: AppExpr t tp -> ProgramLoc
appExprApp :: AppExpr t tp -> App (Expr t) tp
data NonceAppExpr t (tp :: BaseType)
nonceExprId :: NonceAppExpr t tp -> Nonce t tp
nonceExprLoc :: NonceAppExpr t tp -> ProgramLoc
nonceExprApp :: NonceAppExpr t tp -> NonceApp t (Expr t) tp
type BoolExpr t = Expr t BaseBoolType
type IntegerExpr t = Expr t BaseIntegerType
type RealExpr t = Expr t BaseRealType
type FloatExpr t fpp = Expr t (BaseFloatType fpp)
type BVExpr t n = Expr t (BaseBVType n)
type CplxExpr t = Expr t BaseComplexType
type StringExpr t si = Expr t (BaseStringType si)
data App (e :: BaseType -> Type) (tp :: BaseType) where
- BaseIte :: !(BaseTypeRepr tp) -> !Integer -> !(e BaseBoolType) -> !(e tp) -> !(e tp) -> App e tp
- BaseEq :: !(BaseTypeRepr tp) -> !(e tp) -> !(e tp) -> App e BaseBoolType
- NotPred :: !(e BaseBoolType) -> App e BaseBoolType
- ConjPred :: !(BoolMap e) -> App e BaseBoolType
- SemiRingSum :: !(WeightedSum e sr) -> App e (SemiRingBase sr)
- SemiRingProd :: !(SemiRingProduct e sr) -> App e (SemiRingBase sr)
- SemiRingLe :: !(OrderedSemiRingRepr sr) -> !(e (SemiRingBase sr)) -> !(e (SemiRingBase sr)) -> App e BaseBoolType
- RealIsInteger :: !(e BaseRealType) -> App e BaseBoolType
- IntDiv :: !(e BaseIntegerType) -> !(e BaseIntegerType) -> App e BaseIntegerType
- IntMod :: !(e BaseIntegerType) -> !(e BaseIntegerType) -> App e BaseIntegerType
- IntAbs :: !(e BaseIntegerType) -> App e BaseIntegerType
- IntDivisible :: !(e BaseIntegerType) -> Natural -> App e BaseBoolType
- RealDiv :: !(e BaseRealType) -> !(e BaseRealType) -> App e BaseRealType
- RealSqrt :: !(e BaseRealType) -> App e BaseRealType
- Pi :: App e BaseRealType
- RealSin :: !(e BaseRealType) -> App e BaseRealType
- RealCos :: !(e BaseRealType) -> App e BaseRealType
- RealATan2 :: !(e BaseRealType) -> !(e BaseRealType) -> App e BaseRealType
- RealSinh :: !(e BaseRealType) -> App e BaseRealType
- RealCosh :: !(e BaseRealType) -> App e BaseRealType
- RealExp :: !(e BaseRealType) -> App e BaseRealType
- RealLog :: !(e BaseRealType) -> App e BaseRealType
- BVTestBit :: 1 <= w => !Natural -> !(e (BaseBVType w)) -> App e BaseBoolType
- BVSlt :: 1 <= w => !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e BaseBoolType
- BVUlt :: 1 <= w => !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e BaseBoolType
- BVOrBits :: 1 <= w => !(NatRepr w) -> !(BVOrSet e w) -> App e (BaseBVType w)
- BVUnaryTerm :: 1 <= n => !(UnaryBV (e BaseBoolType) n) -> App e (BaseBVType n)
- BVConcat :: (1 <= u, 1 <= v, 1 <= (u + v)) => !(NatRepr (u + v)) -> !(e (BaseBVType u)) -> !(e (BaseBVType v)) -> App e (BaseBVType (u + v))
- BVSelect :: (1 <= n, (idx + n) <= w) => !(NatRepr idx) -> !(NatRepr n) -> !(e (BaseBVType w)) -> App e (BaseBVType n)
- BVFill :: 1 <= w => !(NatRepr w) -> !(e BaseBoolType) -> App e (BaseBVType w)
- BVUdiv :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
- BVUrem :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
- BVSdiv :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
- BVSrem :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
- BVShl :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
- BVLshr :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
- BVAshr :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
- BVRol :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
- BVRor :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
- BVZext :: (1 <= w, (w + 1) <= r, 1 <= r) => !(NatRepr r) -> !(e (BaseBVType w)) -> App e (BaseBVType r)
- BVSext :: (1 <= w, (w + 1) <= r, 1 <= r) => !(NatRepr r) -> !(e (BaseBVType w)) -> App e (BaseBVType r)
- BVPopcount :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
- BVCountTrailingZeros :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
- BVCountLeadingZeros :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
- FloatNeg :: !(FloatPrecisionRepr fpp) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
- FloatAbs :: !(FloatPrecisionRepr fpp) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
- FloatSqrt :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
- FloatAdd :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
- FloatSub :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
- FloatMul :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
- FloatDiv :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
- FloatRem :: !(FloatPrecisionRepr fpp) -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
- FloatFMA :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
- FloatFpEq :: !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e BaseBoolType
- FloatLe :: !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e BaseBoolType
- FloatLt :: !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e BaseBoolType
- FloatIsNaN :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
- FloatIsInf :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
- FloatIsZero :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
- FloatIsPos :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
- FloatIsNeg :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
- FloatIsSubnorm :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
- FloatIsNorm :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
- FloatCast :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp')) -> App e (BaseFloatType fpp)
- FloatRound :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
- FloatFromBinary :: (2 <= eb, 2 <= sb) => !(FloatPrecisionRepr (FloatingPointPrecision eb sb)) -> !(e (BaseBVType (eb + sb))) -> App e (BaseFloatType (FloatingPointPrecision eb sb))
- FloatToBinary :: (2 <= eb, 2 <= sb, 1 <= (eb + sb)) => !(FloatPrecisionRepr (FloatingPointPrecision eb sb)) -> !(e (BaseFloatType (FloatingPointPrecision eb sb))) -> App e (BaseBVType (eb + sb))
- BVToFloat :: 1 <= w => !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseBVType w)) -> App e (BaseFloatType fpp)
- SBVToFloat :: 1 <= w => !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseBVType w)) -> App e (BaseFloatType fpp)
- RealToFloat :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e BaseRealType) -> App e (BaseFloatType fpp)
- FloatToBV :: 1 <= w => !(NatRepr w) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> App e (BaseBVType w)
- FloatToSBV :: 1 <= w => !(NatRepr w) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> App e (BaseBVType w)
- FloatToReal :: !(e (BaseFloatType fpp)) -> App e BaseRealType
- ArrayMap :: !(Assignment BaseTypeRepr (i ::> itp)) -> !(BaseTypeRepr tp) -> !(ArrayUpdateMap e (i ::> itp) tp) -> !(e (BaseArrayType (i ::> itp) tp)) -> App e (BaseArrayType (i ::> itp) tp)
- ConstantArray :: !(Assignment BaseTypeRepr (i ::> tp)) -> !(BaseTypeRepr b) -> !(e b) -> App e (BaseArrayType (i ::> tp) b)
- UpdateArray :: !(BaseTypeRepr b) -> !(Assignment BaseTypeRepr (i ::> tp)) -> !(e (BaseArrayType (i ::> tp) b)) -> !(Assignment e (i ::> tp)) -> !(e b) -> App e (BaseArrayType (i ::> tp) b)
- SelectArray :: !(BaseTypeRepr b) -> !(e (BaseArrayType (i ::> tp) b)) -> !(Assignment e (i ::> tp)) -> App e b
- IntegerToReal :: !(e BaseIntegerType) -> App e BaseRealType
- RealToInteger :: !(e BaseRealType) -> App e BaseIntegerType
- BVToInteger :: 1 <= w => !(e (BaseBVType w)) -> App e BaseIntegerType
- SBVToInteger :: 1 <= w => !(e (BaseBVType w)) -> App e BaseIntegerType
- IntegerToBV :: 1 <= w => !(e BaseIntegerType) -> NatRepr w -> App e (BaseBVType w)
- RoundReal :: !(e BaseRealType) -> App e BaseIntegerType
- RoundEvenReal :: !(e BaseRealType) -> App e BaseIntegerType
- FloorReal :: !(e BaseRealType) -> App e BaseIntegerType
- CeilReal :: !(e BaseRealType) -> App e BaseIntegerType
- Cplx :: !(Complex (e BaseRealType)) -> App e BaseComplexType
- RealPart :: !(e BaseComplexType) -> App e BaseRealType
- ImagPart :: !(e BaseComplexType) -> App e BaseRealType
- StringContains :: !(e (BaseStringType si)) -> !(e (BaseStringType si)) -> App e BaseBoolType
- StringIsPrefixOf :: !(e (BaseStringType si)) -> !(e (BaseStringType si)) -> App e BaseBoolType
- StringIsSuffixOf :: !(e (BaseStringType si)) -> !(e (BaseStringType si)) -> App e BaseBoolType
- StringIndexOf :: !(e (BaseStringType si)) -> !(e (BaseStringType si)) -> !(e BaseIntegerType) -> App e BaseIntegerType
- StringSubstring :: !(StringInfoRepr si) -> !(e (BaseStringType si)) -> !(e BaseIntegerType) -> !(e BaseIntegerType) -> App e (BaseStringType si)
- StringAppend :: !(StringInfoRepr si) -> !(StringSeq e si) -> App e (BaseStringType si)
- StringLength :: !(e (BaseStringType si)) -> App e BaseIntegerType
- StructCtor :: !(Assignment BaseTypeRepr flds) -> !(Assignment e flds) -> App e (BaseStructType flds)
- StructField :: !(e (BaseStructType flds)) -> !(Index flds tp) -> !(BaseTypeRepr tp) -> App e tp
traverseApp :: (Applicative m, OrdF f, Eq (f BaseBoolType), HashableF f, HasAbsValue f) => (forall tp. e tp -> m (f tp)) -> App e utp -> m (App f utp)
appType :: App e tp -> BaseTypeRepr tp
data NonceApp t (e :: BaseType -> Type) (tp :: BaseType) where
- Annotation :: !(BaseTypeRepr tp) -> !(Nonce t tp) -> !(e tp) -> NonceApp t e tp
- Forall :: !(ExprBoundVar t tp) -> !(e BaseBoolType) -> NonceApp t e BaseBoolType
- Exists :: !(ExprBoundVar t tp) -> !(e BaseBoolType) -> NonceApp t e BaseBoolType
- ArrayFromFn :: !(ExprSymFn t (idx ::> itp) ret) -> NonceApp t e (BaseArrayType (idx ::> itp) ret)
- MapOverArrays :: !(ExprSymFn t (ctx ::> d) r) -> !(Assignment BaseTypeRepr (idx ::> itp)) -> !(Assignment (ArrayResultWrapper e (idx ::> itp)) (ctx ::> d)) -> NonceApp t e (BaseArrayType (idx ::> itp) r)
- ArrayTrueOnEntries :: !(ExprSymFn t (idx ::> itp) BaseBoolType) -> !(e (BaseArrayType (idx ::> itp) BaseBoolType)) -> NonceApp t e BaseBoolType
- FnApp :: !(ExprSymFn t args ret) -> !(Assignment e args) -> NonceApp t e ret
nonceAppType :: IsExpr e => NonceApp t e tp -> BaseTypeRepr tp
data ExprBoundVar t (tp :: BaseType)
bvarId :: ExprBoundVar t tp -> Nonce t tp
bvarLoc :: ExprBoundVar t tp -> ProgramLoc
bvarName :: ExprBoundVar t tp -> SolverSymbol
bvarType :: ExprBoundVar t tp -> BaseTypeRepr tp
bvarKind :: ExprBoundVar t tp -> VarKind
bvarAbstractValue :: ExprBoundVar t tp -> Maybe (AbstractValue tp)
data VarKind
- = QuantifierVarKind
- | LatchVarKind
- | UninterpVarKind
boundVars :: Expr t tp -> ST s (BoundVarMap s t)
ppBoundVar :: ExprBoundVar t tp -> String
evalBoundVars :: ExprBuilder t st fs -> Expr t ret -> Assignment (ExprBoundVar t) args -> Assignment (Expr t) args -> IO (Expr t ret)
data ExprSymFn t (args :: Ctx BaseType) (ret :: BaseType) = ExprSymFn {
- symFnId :: !(Nonce t (args ::> ret))
- symFnName :: !SolverSymbol
- symFnInfo :: !(SymFnInfo t args ret)
- symFnLoc :: !ProgramLoc
}
data SymFnInfo t (args :: Ctx BaseType) (ret :: BaseType)
- = UninterpFnInfo !(Assignment BaseTypeRepr args) !(BaseTypeRepr ret)
- | DefinedFnInfo !(Assignment (ExprBoundVar t) args) !(Expr t ret) !UnfoldPolicy
- | MatlabSolverFnInfo !(MatlabSolverFn (Expr t) args ret) !(Assignment (ExprBoundVar t) args) !(Expr t ret)
symFnArgTypes :: ExprSymFn t args ret -> Assignment BaseTypeRepr args
symFnReturnType :: ExprSymFn t args ret -> BaseTypeRepr ret
data SymbolVarBimap t
data SymbolBinding t
- = forall tp. VarSymbolBinding !(ExprBoundVar t tp)
- | forall args ret. FnSymbolBinding !(ExprSymFn t args ret)
emptySymbolVarBimap :: SymbolVarBimap t
lookupBindingOfSymbol :: SolverSymbol -> SymbolVarBimap t -> Maybe (SymbolBinding t)
lookupSymbolOfBinding :: SymbolBinding t -> SymbolVarBimap t -> Maybe SolverSymbol
data IdxCache t (f :: BaseType -> Type)
newIdxCache :: MonadIO m => m (IdxCache t f)
lookupIdx :: MonadIO m => IdxCache t f -> Nonce t tp -> m (Maybe (f tp))
lookupIdxValue :: MonadIO m => IdxCache t f -> Expr t tp -> m (Maybe (f tp))
insertIdxValue :: MonadIO m => IdxCache t f -> Nonce t tp -> f tp -> m ()
deleteIdxValue :: MonadIO m => IdxCache t f -> Nonce t (tp :: BaseType) -> m ()
clearIdxCache :: MonadIO m => IdxCache t f -> m ()
idxCacheEval :: MonadIO m => IdxCache t f -> Expr t tp -> m (f tp) -> m (f tp)
idxCacheEval' :: MonadIO m => IdxCache t f -> Nonce t tp -> m (f tp) -> m (f tp)
data FloatMode
data FloatModeRepr :: FloatMode -> Type where
- FloatIEEERepr :: FloatModeRepr FloatIEEE
- FloatUninterpretedRepr :: FloatModeRepr FloatUninterpreted
- FloatRealRepr :: FloatModeRepr FloatReal
type FloatIEEE = 'FloatIEEE
type FloatUninterpreted = 'FloatUninterpreted
type FloatReal = 'FloatReal
data Flags (fi :: FloatMode)
data BVOrSet e w
bvOrToList :: BVOrSet e w -> [e (BaseBVType w)]
bvOrSingleton :: (OrdF e, HashableF e, HasAbsValue e) => e (BaseBVType w) -> BVOrSet e w
bvOrInsert :: (OrdF e, HashableF e, HasAbsValue e) => e (BaseBVType w) -> BVOrSet e w -> BVOrSet e w
bvOrUnion :: OrdF e => BVOrSet e w -> BVOrSet e w -> BVOrSet e w
bvOrAbs :: (OrdF e, 1 <= w) => NatRepr w -> BVOrSet e w -> BVDomain w
traverseBVOrSet :: (HashableF f, HasAbsValue f, OrdF f, Applicative m) => (forall tp. e tp -> m (f tp)) -> BVOrSet e w -> m (BVOrSet f w)
type family SymExpr (sym :: Type) :: BaseType -> Type
bvWidth :: IsExpr e => e (BaseBVType w) -> NatRepr w
exprType :: IsExpr e => e tp -> BaseTypeRepr tp
data IndexLit idx where
- IntIndexLit :: !Integer -> IndexLit BaseIntegerType
- BVIndexLit :: 1 <= w => !(NatRepr w) -> !(BV w) -> IndexLit (BaseBVType w)
newtype ArrayResultWrapper f idx tp = ArrayResultWrapper {
- unwrapArrayResult :: f (BaseArrayType idx tp)
}

ExprBuilder

data ExprBuilder t (st :: Type -> Type) (fs :: Type) Source #

Cache for storing dag terms. Parameter t is a phantom type brand used to track nonces.

Instances

Instances details

IsSymExprBuilder (ExprBuilder t st fs) Source #
Instance details Defined in What4.Expr.Builder Methods freshConstant :: forall (tp :: BaseType). ExprBuilder t st fs -> SolverSymbol -> BaseTypeRepr tp -> IO (SymExpr (ExprBuilder t st fs) tp) Source # freshLatch :: forall (tp :: BaseType). ExprBuilder t st fs -> SolverSymbol -> BaseTypeRepr tp -> IO (SymExpr (ExprBuilder t st fs) tp) Source # freshBoundedBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SolverSymbol -> NatRepr w -> Maybe Natural -> Maybe Natural -> IO (SymBV (ExprBuilder t st fs) w) Source # freshBoundedSBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SolverSymbol -> NatRepr w -> Maybe Integer -> Maybe Integer -> IO (SymBV (ExprBuilder t st fs) w) Source # freshBoundedInt :: ExprBuilder t st fs -> SolverSymbol -> Maybe Integer -> Maybe Integer -> IO (SymInteger (ExprBuilder t st fs)) Source # freshBoundedReal :: ExprBuilder t st fs -> SolverSymbol -> Maybe Rational -> Maybe Rational -> IO (SymReal (ExprBuilder t st fs)) Source # freshBoundVar :: forall (tp :: BaseType). ExprBuilder t st fs -> SolverSymbol -> BaseTypeRepr tp -> IO (BoundVar (ExprBuilder t st fs) tp) Source # varExpr :: forall (tp :: BaseType). ExprBuilder t st fs -> BoundVar (ExprBuilder t st fs) tp -> SymExpr (ExprBuilder t st fs) tp Source # forallPred :: forall (tp :: BaseType). ExprBuilder t st fs -> BoundVar (ExprBuilder t st fs) tp -> Pred (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # existsPred :: forall (tp :: BaseType). ExprBuilder t st fs -> BoundVar (ExprBuilder t st fs) tp -> Pred (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # definedFn :: forall (args :: Ctx BaseType) (ret :: BaseType). ExprBuilder t st fs -> SolverSymbol -> Assignment (BoundVar (ExprBuilder t st fs)) args -> SymExpr (ExprBuilder t st fs) ret -> UnfoldPolicy -> IO (SymFn (ExprBuilder t st fs) args ret) Source # inlineDefineFun :: forall (args :: Ctx BaseType) (ret :: BaseType). CurryAssignmentClass args => ExprBuilder t st fs -> SolverSymbol -> Assignment BaseTypeRepr args -> UnfoldPolicy -> CurryAssignment args (SymExpr (ExprBuilder t st fs)) (IO (SymExpr (ExprBuilder t st fs) ret)) -> IO (SymFn (ExprBuilder t st fs) args ret) Source # freshTotalUninterpFn :: forall (args :: Ctx BaseType) (ret :: BaseType). ExprBuilder t st fs -> SolverSymbol -> Assignment BaseTypeRepr args -> BaseTypeRepr ret -> IO (SymFn (ExprBuilder t st fs) args ret) Source # applySymFn :: forall (args :: Ctx BaseType) (ret :: BaseType). ExprBuilder t st fs -> SymFn (ExprBuilder t st fs) args ret -> Assignment (SymExpr (ExprBuilder t st fs)) args -> IO (SymExpr (ExprBuilder t st fs) ret) Source #
IsExprBuilder (ExprBuilder t st fs) Source #
Instance details Defined in What4.Expr.Builder Methods getConfiguration :: ExprBuilder t st fs -> Config Source # setSolverLogListener :: ExprBuilder t st fs -> Maybe (SolverEvent -> IO ()) -> IO () Source # getSolverLogListener :: ExprBuilder t st fs -> IO (Maybe (SolverEvent -> IO ())) Source # logSolverEvent :: ExprBuilder t st fs -> SolverEvent -> IO () Source # getStatistics :: ExprBuilder t st fs -> IO Statistics Source # getCurrentProgramLoc :: ExprBuilder t st fs -> IO ProgramLoc Source # setCurrentProgramLoc :: ExprBuilder t st fs -> ProgramLoc -> IO () Source # isEq :: forall (tp :: BaseType). ExprBuilder t st fs -> SymExpr (ExprBuilder t st fs) tp -> SymExpr (ExprBuilder t st fs) tp -> IO (Pred (ExprBuilder t st fs)) Source # baseTypeIte :: forall (tp :: BaseType). ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> SymExpr (ExprBuilder t st fs) tp -> SymExpr (ExprBuilder t st fs) tp -> IO (SymExpr (ExprBuilder t st fs) tp) Source # annotateTerm :: forall (tp :: BaseType). ExprBuilder t st fs -> SymExpr (ExprBuilder t st fs) tp -> IO (SymAnnotation (ExprBuilder t st fs) tp, SymExpr (ExprBuilder t st fs) tp) Source # getAnnotation :: forall (tp :: BaseType). ExprBuilder t st fs -> SymExpr (ExprBuilder t st fs) tp -> Maybe (SymAnnotation (ExprBuilder t st fs) tp) Source # truePred :: ExprBuilder t st fs -> Pred (ExprBuilder t st fs) Source # falsePred :: ExprBuilder t st fs -> Pred (ExprBuilder t st fs) Source # notPred :: ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # andPred :: ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> Pred (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # orPred :: ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> Pred (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # impliesPred :: ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> Pred (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # xorPred :: ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> Pred (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # eqPred :: ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> Pred (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # itePred :: ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> Pred (ExprBuilder t st fs) -> Pred (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # intLit :: ExprBuilder t st fs -> Integer -> IO (SymInteger (ExprBuilder t st fs)) Source # intNeg :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # intAdd :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # intSub :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # intMul :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # intMin :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # intMax :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # intIte :: ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # intEq :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # intLe :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # intLt :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # intAbs :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # intDiv :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # intMod :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # intDivisible :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> Natural -> IO (Pred (ExprBuilder t st fs)) Source # bvLit :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> NatRepr w -> BV w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvConcat :: forall (u :: Nat) (v :: Nat). (1 <= u, 1 <= v) => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) u -> SymBV (ExprBuilder t st fs) v -> IO (SymBV (ExprBuilder t st fs) (u + v)) Source # bvSelect :: forall (idx :: Nat) (n :: Nat) (w :: Nat). (1 <= n, (idx + n) <= w) => ExprBuilder t st fs -> NatRepr idx -> NatRepr n -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) n) Source # bvNeg :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvAdd :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvSub :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvMul :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvUdiv :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvUrem :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvSdiv :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvSrem :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # testBitBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> Natural -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvIsNeg :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvIte :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvEq :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvNe :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvUlt :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvUle :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvUge :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvUgt :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvSlt :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvSgt :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvSle :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvSge :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvIsNonzero :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs)) Source # bvShl :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvLshr :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvAshr :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvRol :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvRor :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvZext :: forall (u :: Nat) (r :: Nat). (1 <= u, (u + 1) <= r) => ExprBuilder t st fs -> NatRepr r -> SymBV (ExprBuilder t st fs) u -> IO (SymBV (ExprBuilder t st fs) r) Source # bvSext :: forall (u :: Nat) (r :: Nat). (1 <= u, (u + 1) <= r) => ExprBuilder t st fs -> NatRepr r -> SymBV (ExprBuilder t st fs) u -> IO (SymBV (ExprBuilder t st fs) r) Source # bvTrunc :: forall (r :: Nat) (w :: Nat). (1 <= r, (r + 1) <= w) => ExprBuilder t st fs -> NatRepr r -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) r) Source # bvAndBits :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvOrBits :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvXorBits :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvNotBits :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvSet :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> Natural -> Pred (ExprBuilder t st fs) -> IO (SymBV (ExprBuilder t st fs) w) Source # bvFill :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> NatRepr w -> Pred (ExprBuilder t st fs) -> IO (SymBV (ExprBuilder t st fs) w) Source # minUnsignedBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> NatRepr w -> IO (SymBV (ExprBuilder t st fs) w) Source # maxUnsignedBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> NatRepr w -> IO (SymBV (ExprBuilder t st fs) w) Source # maxSignedBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> NatRepr w -> IO (SymBV (ExprBuilder t st fs) w) Source # minSignedBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> NatRepr w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvPopcount :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvCountLeadingZeros :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # bvCountTrailingZeros :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w) Source # addUnsignedOF :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs), SymBV (ExprBuilder t st fs) w) Source # addSignedOF :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs), SymBV (ExprBuilder t st fs) w) Source # subUnsignedOF :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs), SymBV (ExprBuilder t st fs) w) Source # subSignedOF :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs), SymBV (ExprBuilder t st fs) w) Source # carrylessMultiply :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) (w + w)) Source # unsignedWideMultiplyBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w, SymBV (ExprBuilder t st fs) w) Source # mulUnsignedOF :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs), SymBV (ExprBuilder t st fs) w) Source # signedWideMultiplyBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (SymBV (ExprBuilder t st fs) w, SymBV (ExprBuilder t st fs) w) Source # mulSignedOF :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> SymBV (ExprBuilder t st fs) w -> IO (Pred (ExprBuilder t st fs), SymBV (ExprBuilder t st fs) w) Source # mkStruct :: forall (flds :: Ctx BaseType). ExprBuilder t st fs -> Assignment (SymExpr (ExprBuilder t st fs)) flds -> IO (SymStruct (ExprBuilder t st fs) flds) Source # structField :: forall (flds :: Ctx BaseType) (tp :: BaseType). ExprBuilder t st fs -> SymStruct (ExprBuilder t st fs) flds -> Index flds tp -> IO (SymExpr (ExprBuilder t st fs) tp) Source # structEq :: forall (flds :: Ctx BaseType). ExprBuilder t st fs -> SymStruct (ExprBuilder t st fs) flds -> SymStruct (ExprBuilder t st fs) flds -> IO (Pred (ExprBuilder t st fs)) Source # structIte :: forall (flds :: Ctx BaseType). ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> SymStruct (ExprBuilder t st fs) flds -> SymStruct (ExprBuilder t st fs) flds -> IO (SymStruct (ExprBuilder t st fs) flds) Source # constantArray :: forall (idx :: Ctx BaseType) (tp :: BaseType) (b :: BaseType). ExprBuilder t st fs -> Assignment BaseTypeRepr (idx ::> tp) -> SymExpr (ExprBuilder t st fs) b -> IO (SymArray (ExprBuilder t st fs) (idx ::> tp) b) Source # arrayFromFn :: forall (idx :: Ctx BaseType) (itp :: BaseType) (ret :: BaseType). ExprBuilder t st fs -> SymFn (ExprBuilder t st fs) (idx ::> itp) ret -> IO (SymArray (ExprBuilder t st fs) (idx ::> itp) ret) Source # arrayMap :: forall (ctx :: Ctx BaseType) (d :: BaseType) (r :: BaseType) (idx :: Ctx BaseType) (itp :: BaseType). ExprBuilder t st fs -> SymFn (ExprBuilder t st fs) (ctx ::> d) r -> Assignment (ArrayResultWrapper (SymExpr (ExprBuilder t st fs)) (idx ::> itp)) (ctx ::> d) -> IO (SymArray (ExprBuilder t st fs) (idx ::> itp) r) Source # arrayUpdate :: forall (idx :: Ctx BaseType) (tp :: BaseType) (b :: BaseType). ExprBuilder t st fs -> SymArray (ExprBuilder t st fs) (idx ::> tp) b -> Assignment (SymExpr (ExprBuilder t st fs)) (idx ::> tp) -> SymExpr (ExprBuilder t st fs) b -> IO (SymArray (ExprBuilder t st fs) (idx ::> tp) b) Source # arrayLookup :: forall (idx :: Ctx BaseType) (tp :: BaseType) (b :: BaseType). ExprBuilder t st fs -> SymArray (ExprBuilder t st fs) (idx ::> tp) b -> Assignment (SymExpr (ExprBuilder t st fs)) (idx ::> tp) -> IO (SymExpr (ExprBuilder t st fs) b) Source # arrayFromMap :: forall (idx :: Ctx BaseType) (itp :: BaseType) (tp :: BaseType). ExprBuilder t st fs -> Assignment BaseTypeRepr (idx ::> itp) -> ArrayUpdateMap (SymExpr (ExprBuilder t st fs)) (idx ::> itp) tp -> SymExpr (ExprBuilder t st fs) tp -> IO (SymArray (ExprBuilder t st fs) (idx ::> itp) tp) Source # arrayUpdateAtIdxLits :: forall (idx :: Ctx BaseType) (itp :: BaseType) (tp :: BaseType). ExprBuilder t st fs -> ArrayUpdateMap (SymExpr (ExprBuilder t st fs)) (idx ::> itp) tp -> SymArray (ExprBuilder t st fs) (idx ::> itp) tp -> IO (SymArray (ExprBuilder t st fs) (idx ::> itp) tp) Source # arrayIte :: forall (idx :: Ctx BaseType) (b :: BaseType). ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> SymArray (ExprBuilder t st fs) idx b -> SymArray (ExprBuilder t st fs) idx b -> IO (SymArray (ExprBuilder t st fs) idx b) Source # arrayEq :: forall (idx :: Ctx BaseType) (b :: BaseType). ExprBuilder t st fs -> SymArray (ExprBuilder t st fs) idx b -> SymArray (ExprBuilder t st fs) idx b -> IO (Pred (ExprBuilder t st fs)) Source # allTrueEntries :: forall (idx :: Ctx BaseType). ExprBuilder t st fs -> SymArray (ExprBuilder t st fs) idx BaseBoolType -> IO (Pred (ExprBuilder t st fs)) Source # arrayTrueOnEntries :: forall (idx :: Ctx BaseType) (itp :: BaseType). ExprBuilder t st fs -> SymFn (ExprBuilder t st fs) (idx ::> itp) BaseBoolType -> SymArray (ExprBuilder t st fs) (idx ::> itp) BaseBoolType -> IO (Pred (ExprBuilder t st fs)) Source # integerToReal :: ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # bvToInteger :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> IO (SymInteger (ExprBuilder t st fs)) Source # sbvToInteger :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> IO (SymInteger (ExprBuilder t st fs)) Source # predToBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> NatRepr w -> IO (SymBV (ExprBuilder t st fs) w) Source # uintToReal :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> IO (SymReal (ExprBuilder t st fs)) Source # sbvToReal :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) w -> IO (SymReal (ExprBuilder t st fs)) Source # realRound :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # realRoundEven :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # realFloor :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # realCeil :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # realTrunc :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # integerToBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> NatRepr w -> IO (SymBV (ExprBuilder t st fs) w) Source # realToInteger :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # realToBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> NatRepr w -> IO (SymBV (ExprBuilder t st fs) w) Source # realToSBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> NatRepr w -> IO (SymBV (ExprBuilder t st fs) w) Source # clampedIntToSBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> NatRepr w -> IO (SymBV (ExprBuilder t st fs) w) Source # clampedIntToBV :: forall (w :: Nat). 1 <= w => ExprBuilder t st fs -> SymInteger (ExprBuilder t st fs) -> NatRepr w -> IO (SymBV (ExprBuilder t st fs) w) Source # intSetWidth :: forall (m :: Nat) (n :: Nat). (1 <= m, 1 <= n) => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) m -> NatRepr n -> IO (SymBV (ExprBuilder t st fs) n) Source # uintSetWidth :: forall (m :: Nat) (n :: Nat). (1 <= m, 1 <= n) => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) m -> NatRepr n -> IO (SymBV (ExprBuilder t st fs) n) Source # intToUInt :: forall (m :: Nat) (n :: Nat). (1 <= m, 1 <= n) => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) m -> NatRepr n -> IO (SymBV (ExprBuilder t st fs) n) Source # uintToInt :: forall (m :: Nat) (n :: Nat). (1 <= m, 1 <= n) => ExprBuilder t st fs -> SymBV (ExprBuilder t st fs) m -> NatRepr n -> IO (SymBV (ExprBuilder t st fs) n) Source # stringEmpty :: forall (si :: StringInfo). ExprBuilder t st fs -> StringInfoRepr si -> IO (SymString (ExprBuilder t st fs) si) Source # stringLit :: forall (si :: StringInfo). ExprBuilder t st fs -> StringLiteral si -> IO (SymString (ExprBuilder t st fs) si) Source # stringEq :: forall (si :: StringInfo). ExprBuilder t st fs -> SymString (ExprBuilder t st fs) si -> SymString (ExprBuilder t st fs) si -> IO (Pred (ExprBuilder t st fs)) Source # stringIte :: forall (si :: StringInfo). ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> SymString (ExprBuilder t st fs) si -> SymString (ExprBuilder t st fs) si -> IO (SymString (ExprBuilder t st fs) si) Source # stringConcat :: forall (si :: StringInfo). ExprBuilder t st fs -> SymString (ExprBuilder t st fs) si -> SymString (ExprBuilder t st fs) si -> IO (SymString (ExprBuilder t st fs) si) Source # stringContains :: forall (si :: StringInfo). ExprBuilder t st fs -> SymString (ExprBuilder t st fs) si -> SymString (ExprBuilder t st fs) si -> IO (Pred (ExprBuilder t st fs)) Source # stringIsPrefixOf :: forall (si :: StringInfo). ExprBuilder t st fs -> SymString (ExprBuilder t st fs) si -> SymString (ExprBuilder t st fs) si -> IO (Pred (ExprBuilder t st fs)) Source # stringIsSuffixOf :: forall (si :: StringInfo). ExprBuilder t st fs -> SymString (ExprBuilder t st fs) si -> SymString (ExprBuilder t st fs) si -> IO (Pred (ExprBuilder t st fs)) Source # stringIndexOf :: forall (si :: StringInfo). ExprBuilder t st fs -> SymString (ExprBuilder t st fs) si -> SymString (ExprBuilder t st fs) si -> SymInteger (ExprBuilder t st fs) -> IO (SymInteger (ExprBuilder t st fs)) Source # stringLength :: forall (si :: StringInfo). ExprBuilder t st fs -> SymString (ExprBuilder t st fs) si -> IO (SymInteger (ExprBuilder t st fs)) Source # stringSubstring :: forall (si :: StringInfo). ExprBuilder t st fs -> SymString (ExprBuilder t st fs) si -> SymInteger (ExprBuilder t st fs) -> SymInteger (ExprBuilder t st fs) -> IO (SymString (ExprBuilder t st fs) si) Source # realZero :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) Source # realLit :: ExprBuilder t st fs -> Rational -> IO (SymReal (ExprBuilder t st fs)) Source # sciLit :: ExprBuilder t st fs -> Scientific -> IO (SymReal (ExprBuilder t st fs)) Source # realEq :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # realNe :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # realLe :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # realLt :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # realGe :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # realGt :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # realIte :: ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realMin :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realMax :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realNeg :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realAdd :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realMul :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realSub :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realSq :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realDiv :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realMod :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # isInteger :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # realIsNonNeg :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # realSqrt :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realAtan2 :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realPi :: ExprBuilder t st fs -> IO (SymReal (ExprBuilder t st fs)) Source # realLog :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realExp :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realSin :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realCos :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realTan :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realSinh :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realCosh :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realTanh :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realAbs :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # realHypot :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> SymReal (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # floatPZero :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> FloatPrecisionRepr fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatNZero :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> FloatPrecisionRepr fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatNaN :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> FloatPrecisionRepr fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatPInf :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> FloatPrecisionRepr fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatNInf :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> FloatPrecisionRepr fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatLitRational :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> FloatPrecisionRepr fpp -> Rational -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatLit :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> FloatPrecisionRepr fpp -> BigFloat -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatNeg :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatAbs :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatSqrt :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> RoundingMode -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatAdd :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> RoundingMode -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatSub :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> RoundingMode -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatMul :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> RoundingMode -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatDiv :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> RoundingMode -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatRem :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatMin :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatMax :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatFMA :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> RoundingMode -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatEq :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatNe :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatFpEq :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatFpApart :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatFpUnordered :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatLe :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatLt :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatGe :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatGt :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatIsNaN :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatIsInf :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatIsZero :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatIsPos :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatIsNeg :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatIsSubnorm :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatIsNorm :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> IO (Pred (ExprBuilder t st fs)) Source # floatIte :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> SymFloat (ExprBuilder t st fs) fpp -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatCast :: forall (fpp :: FloatPrecision) (fpp' :: FloatPrecision). ExprBuilder t st fs -> FloatPrecisionRepr fpp -> RoundingMode -> SymFloat (ExprBuilder t st fs) fpp' -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatRound :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> RoundingMode -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatFromBinary :: forall (eb :: Nat) (sb :: Nat). (2 <= eb, 2 <= sb) => ExprBuilder t st fs -> FloatPrecisionRepr (FloatingPointPrecision eb sb) -> SymBV (ExprBuilder t st fs) (eb + sb) -> IO (SymFloat (ExprBuilder t st fs) (FloatingPointPrecision eb sb)) Source # floatToBinary :: forall (eb :: Nat) (sb :: Nat). (2 <= eb, 2 <= sb) => ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) (FloatingPointPrecision eb sb) -> IO (SymBV (ExprBuilder t st fs) (eb + sb)) Source # bvToFloat :: forall (w :: Nat) (fpp :: FloatPrecision). 1 <= w => ExprBuilder t st fs -> FloatPrecisionRepr fpp -> RoundingMode -> SymBV (ExprBuilder t st fs) w -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # sbvToFloat :: forall (w :: Nat) (fpp :: FloatPrecision). 1 <= w => ExprBuilder t st fs -> FloatPrecisionRepr fpp -> RoundingMode -> SymBV (ExprBuilder t st fs) w -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # realToFloat :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> FloatPrecisionRepr fpp -> RoundingMode -> SymReal (ExprBuilder t st fs) -> IO (SymFloat (ExprBuilder t st fs) fpp) Source # floatToBV :: forall (w :: Nat) (fpp :: FloatPrecision). 1 <= w => ExprBuilder t st fs -> NatRepr w -> RoundingMode -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymBV (ExprBuilder t st fs) w) Source # floatToSBV :: forall (w :: Nat) (fpp :: FloatPrecision). 1 <= w => ExprBuilder t st fs -> NatRepr w -> RoundingMode -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymBV (ExprBuilder t st fs) w) Source # floatToReal :: forall (fpp :: FloatPrecision). ExprBuilder t st fs -> SymFloat (ExprBuilder t st fs) fpp -> IO (SymReal (ExprBuilder t st fs)) Source # mkComplex :: ExprBuilder t st fs -> Complex (SymReal (ExprBuilder t st fs)) -> IO (SymCplx (ExprBuilder t st fs)) Source # getRealPart :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # getImagPart :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # cplxGetParts :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (Complex (SymReal (ExprBuilder t st fs))) Source # mkComplexLit :: ExprBuilder t st fs -> Complex Rational -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxFromReal :: ExprBuilder t st fs -> SymReal (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxIte :: ExprBuilder t st fs -> Pred (ExprBuilder t st fs) -> SymCplx (ExprBuilder t st fs) -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxNeg :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxAdd :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxSub :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxMul :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxMag :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymReal (ExprBuilder t st fs)) Source # cplxSqrt :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxSin :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxCos :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxTan :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxHypot :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxRound :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxFloor :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxCeil :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxConj :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxExp :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> IO (SymCplx (ExprBuilder t st fs)) Source # cplxEq :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> SymCplx (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source # cplxNe :: ExprBuilder t st fs -> SymCplx (ExprBuilder t st fs) -> SymCplx (ExprBuilder t st fs) -> IO (Pred (ExprBuilder t st fs)) Source #
IsInterpretedFloatExprBuilder (ExprBuilder t st fs) => IsInterpretedFloatSymExprBuilder (ExprBuilder t st fs) Source #
Instance details Defined in What4.Expr.Builder Methods freshFloatConstant :: forall (fi :: FloatInfo). ExprBuilder t st fs -> SolverSymbol -> FloatInfoRepr fi -> IO (SymExpr (ExprBuilder t st fs) (SymInterpretedFloatType (ExprBuilder t st fs) fi)) Source # freshFloatLatch :: forall (fi :: FloatInfo). ExprBuilder t st fs -> SolverSymbol -> FloatInfoRepr fi -> IO (SymExpr (ExprBuilder t st fs) (SymInterpretedFloatType (ExprBuilder t st fs) fi)) Source # freshFloatBoundVar :: forall (fi :: FloatInfo). ExprBuilder t st fs -> SolverSymbol -> FloatInfoRepr fi -> IO (BoundVar (ExprBuilder t st fs) (SymInterpretedFloatType (ExprBuilder t st fs) fi)) Source #
IsInterpretedFloatExprBuilder (ExprBuilder t st (Flags FloatIEEE)) Source #
Instance details Defined in What4.Expr.Builder Methods iFloatPZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatNZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatNaN :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatPInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatNInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatLitRational :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> Rational -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatLitSingle :: ExprBuilder t st (Flags FloatIEEE) -> Float -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) SingleFloat) Source # iFloatLitDouble :: ExprBuilder t st (Flags FloatIEEE) -> Double -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) DoubleFloat) Source # iFloatLitLongDouble :: ExprBuilder t st (Flags FloatIEEE) -> X86_80Val -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) X86_80Float) Source # iFloatNeg :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatAbs :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatSqrt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatAdd :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatSub :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatMul :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatDiv :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatRem :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatMin :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatMax :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatFMA :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatEq :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatNe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatFpEq :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatFpApart :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatLe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatLt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatGe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatGt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsNaN :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsPos :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsNeg :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsSubnorm :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsNorm :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIte :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> Pred (ExprBuilder t st (Flags FloatIEEE)) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatCast :: forall (fi :: FloatInfo) (fi' :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi' -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatRound :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatFromBinary :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> SymBV (ExprBuilder t st (Flags FloatIEEE)) (FloatInfoToBitWidth fi) -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatToBinary :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatIEEE)) (FloatInfoToBitWidth fi)) Source # iBVToFloat :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> RoundingMode -> SymBV (ExprBuilder t st (Flags FloatIEEE)) w -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iSBVToFloat :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> RoundingMode -> SymBV (ExprBuilder t st (Flags FloatIEEE)) w -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iRealToFloat :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> RoundingMode -> SymReal (ExprBuilder t st (Flags FloatIEEE)) -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatToBV :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatIEEE) -> NatRepr w -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatIEEE)) w) Source # iFloatToSBV :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatIEEE) -> NatRepr w -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatIEEE)) w) Source # iFloatToReal :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymReal (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatBaseTypeRepr :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> BaseTypeRepr (SymInterpretedFloatType (ExprBuilder t st (Flags FloatIEEE)) fi) Source #
IsInterpretedFloatExprBuilder (ExprBuilder t st (Flags FloatUninterpreted)) Source #
Instance details Defined in What4.Expr.Builder Methods iFloatPZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatNZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatNaN :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatPInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatNInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatLitRational :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> Rational -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatLitSingle :: ExprBuilder t st (Flags FloatUninterpreted) -> Float -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) SingleFloat) Source # iFloatLitDouble :: ExprBuilder t st (Flags FloatUninterpreted) -> Double -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) DoubleFloat) Source # iFloatLitLongDouble :: ExprBuilder t st (Flags FloatUninterpreted) -> X86_80Val -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) X86_80Float) Source # iFloatNeg :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatAbs :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatSqrt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatAdd :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatSub :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatMul :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatDiv :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatRem :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatMin :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatMax :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatFMA :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatEq :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatNe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatFpEq :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatFpApart :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatLe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatLt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatGe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatGt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsNaN :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsPos :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsNeg :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsSubnorm :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsNorm :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIte :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> Pred (ExprBuilder t st (Flags FloatUninterpreted)) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatCast :: forall (fi :: FloatInfo) (fi' :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi' -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatRound :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatFromBinary :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> SymBV (ExprBuilder t st (Flags FloatUninterpreted)) (FloatInfoToBitWidth fi) -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatToBinary :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatUninterpreted)) (FloatInfoToBitWidth fi)) Source # iBVToFloat :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> RoundingMode -> SymBV (ExprBuilder t st (Flags FloatUninterpreted)) w -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iSBVToFloat :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> RoundingMode -> SymBV (ExprBuilder t st (Flags FloatUninterpreted)) w -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iRealToFloat :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> RoundingMode -> SymReal (ExprBuilder t st (Flags FloatUninterpreted)) -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatToBV :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatUninterpreted) -> NatRepr w -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatUninterpreted)) w) Source # iFloatToSBV :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatUninterpreted) -> NatRepr w -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatUninterpreted)) w) Source # iFloatToReal :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymReal (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatBaseTypeRepr :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> BaseTypeRepr (SymInterpretedFloatType (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source #
IsInterpretedFloatExprBuilder (ExprBuilder t st (Flags FloatReal)) Source #
Instance details Defined in What4.Expr.Builder Methods iFloatPZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatNZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatNaN :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatPInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatNInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatLitRational :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> Rational -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatLitSingle :: ExprBuilder t st (Flags FloatReal) -> Float -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) SingleFloat) Source # iFloatLitDouble :: ExprBuilder t st (Flags FloatReal) -> Double -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) DoubleFloat) Source # iFloatLitLongDouble :: ExprBuilder t st (Flags FloatReal) -> X86_80Val -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) X86_80Float) Source # iFloatNeg :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatAbs :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatSqrt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatAdd :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatSub :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatMul :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatDiv :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatRem :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatMin :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatMax :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatFMA :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatEq :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatNe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatFpEq :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatFpApart :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatLe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatLt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatGe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatGt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsNaN :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsPos :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsNeg :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsSubnorm :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsNorm :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIte :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> Pred (ExprBuilder t st (Flags FloatReal)) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatCast :: forall (fi :: FloatInfo) (fi' :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi' -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatRound :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatFromBinary :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> SymBV (ExprBuilder t st (Flags FloatReal)) (FloatInfoToBitWidth fi) -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatToBinary :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatReal)) (FloatInfoToBitWidth fi)) Source # iBVToFloat :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> RoundingMode -> SymBV (ExprBuilder t st (Flags FloatReal)) w -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iSBVToFloat :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> RoundingMode -> SymBV (ExprBuilder t st (Flags FloatReal)) w -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iRealToFloat :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> RoundingMode -> SymReal (ExprBuilder t st (Flags FloatReal)) -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatToBV :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatReal) -> NatRepr w -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatReal)) w) Source # iFloatToSBV :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatReal) -> NatRepr w -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatReal)) w) Source # iFloatToReal :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymReal (ExprBuilder t st (Flags FloatReal))) Source # iFloatBaseTypeRepr :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> BaseTypeRepr (SymInterpretedFloatType (ExprBuilder t st (Flags FloatReal)) fi) Source #
MatlabSymbolicArrayBuilder (ExprBuilder t st fs) Source #
Instance details Defined in What4.Expr.Builder Methods mkMatlabSolverFn :: forall (args :: Ctx BaseType) (ret :: BaseType). ExprBuilder t st fs -> MatlabSolverFn (SymExpr (ExprBuilder t st fs)) args ret -> IO (SymFn (ExprBuilder t st fs) args ret) Source #
type SymFn (ExprBuilder t st fs) Source #
Instance details Defined in What4.Expr.Builder type SymFn (ExprBuilder t st fs) = ExprSymFn t
type SymAnnotation (ExprBuilder t st fs) Source #
Instance details Defined in What4.Expr.Builder type SymAnnotation (ExprBuilder t st fs) = Nonce t :: BaseType -> Type
type BoundVar (ExprBuilder t st fs) Source #
Instance details Defined in What4.Expr.Builder type BoundVar (ExprBuilder t st fs) = ExprBoundVar t
type SymExpr (ExprBuilder t st fs) Source #
Instance details Defined in What4.Expr.Builder type SymExpr (ExprBuilder t st fs) = Expr t
type SymInterpretedFloatType (ExprBuilder t st (Flags FloatIEEE)) fi Source #
Instance details Defined in What4.Expr.Builder type SymInterpretedFloatType (ExprBuilder t st (Flags FloatIEEE)) fi = BaseFloatType (FloatInfoToPrecision fi)
type SymInterpretedFloatType (ExprBuilder t st (Flags FloatUninterpreted)) fi Source #
Instance details Defined in What4.Expr.Builder type SymInterpretedFloatType (ExprBuilder t st (Flags FloatUninterpreted)) fi = BaseBVType (FloatInfoToBitWidth fi)
type SymInterpretedFloatType (ExprBuilder t st (Flags FloatReal)) fi Source #
Instance details Defined in What4.Expr.Builder type SymInterpretedFloatType (ExprBuilder t st (Flags FloatReal)) fi = BaseRealType

newExprBuilder Source #

Arguments

:: FloatModeRepr fm	Float interpretation mode (i.e., how are floats translated for the solver).
-> st t	Initial state for the expression builder
-> NonceGenerator IO t	Nonce generator for names
-> IO (ExprBuilder t st (Flags fm))

getSymbolVarBimap :: ExprBuilder t st fs -> IO (SymbolVarBimap t) Source #

Get current variable bindings.

sbMakeExpr :: ExprBuilder t st fs -> App (Expr t) tp -> IO (Expr t tp) Source #

sbNonceExpr :: ExprBuilder t st fs -> NonceApp t (Expr t) tp -> IO (Expr t tp) Source #

Create an element from a nonce app.

curProgramLoc :: ExprBuilder t st fs -> IO ProgramLoc Source #

sbUnaryThreshold :: ExprBuilder t st fs -> OptionSetting BaseIntegerType Source #

The maximum number of distinct values a term may have and use the unary representation.

sbCacheStartSize :: ExprBuilder t st fs -> OptionSetting BaseIntegerType Source #

The starting size when building a new cache

sbBVDomainRangeLimit :: ExprBuilder t st fs -> OptionSetting BaseIntegerType Source #

The maximum number of distinct ranges in a BVDomain expression.

sbUserState :: ExprBuilder t st fs -> st t Source #

Additional state maintained by the state manager

exprCounter :: ExprBuilder t st fs -> NonceGenerator IO t Source #

Counter to generate new unique identifiers for elements and functions.

startCaching :: ExprBuilder t st fs -> IO () Source #

Restart caching applications in backend (clears cache if it is currently caching).

stopCaching :: ExprBuilder t st fs -> IO () Source #

Stop caching applications in backend.

Specialized representations

bvUnary :: 1 <= w => ExprBuilder t st fs -> UnaryBV (BoolExpr t) w -> IO (BVExpr t w) Source #

intSum :: ExprBuilder t st fs -> WeightedSum (Expr t) SemiRingInteger -> IO (IntegerExpr t) Source #

Evaluate a weighted sum of integer values.

realSum :: ExprBuilder t st fs -> WeightedSum (Expr t) SemiRingReal -> IO (RealExpr t) Source #

Evaluate a weighted sum of real values.

bvSum :: ExprBuilder t st fs -> WeightedSum (Expr t) (SemiRingBV flv w) -> IO (BVExpr t w) Source #

scalarMul :: ExprBuilder t st fs -> SemiRingRepr sr -> Coefficient sr -> Expr t (SemiRingBase sr) -> IO (Expr t (SemiRingBase sr)) Source #

configuration options

unaryThresholdOption :: ConfigOption BaseIntegerType Source #

Maximum number of values in unary bitvector encoding.

This option is named "backend.unary_threshold"

bvdomainRangeLimitOption :: ConfigOption BaseIntegerType Source #

Maximum number of ranges in bitvector abstract domains.

This option is named "backend.bvdomain_range_limit"

cacheStartSizeOption :: ConfigOption BaseIntegerType Source #

Starting size for element cache when caching is enabled.

This option is named "backend.cache_start_size"

cacheTerms :: ConfigOption BaseBoolType Source #

Indicates if we should cache terms. When enabled, hash-consing is used to find and deduplicate common subexpressions.

This option is named "use_cache"

Expr

data Expr t (tp :: BaseType) where Source #

The main ExprBuilder expression datastructure. The non-trivial Expr values constructed by this module are uniquely identified by a nonce value that is used to explicitly represent sub-term sharing. When traversing the structure of an Expr it is usually very important to memoize computations based on the values of these identifiers to avoid exponential blowups due to shared term structure.

Type parameter t is a phantom type brand used to relate nonces to a specific nonce generator (similar to the s parameter of the ST monad). The type index tp of kind BaseType indicates the type of the values denoted by the given expression.

Type Expr t instantiates the type family SymExpr (ExprBuilder t st).

Constructors

SemiRingLiteral :: !(SemiRingRepr sr) -> !(Coefficient sr) -> !ProgramLoc -> Expr t (SemiRingBase sr)
BoolExpr :: !Bool -> !ProgramLoc -> Expr t BaseBoolType
FloatExpr :: !(FloatPrecisionRepr fpp) -> !BigFloat -> !ProgramLoc -> Expr t (BaseFloatType fpp)
StringExpr :: !(StringLiteral si) -> !ProgramLoc -> Expr t (BaseStringType si)
AppExpr :: !(AppExpr t tp) -> Expr t tp
NonceAppExpr :: !(NonceAppExpr t tp) -> Expr t tp
BoundVarExpr :: !(ExprBoundVar t tp) -> Expr t tp

Instances

Instances details

TestEquality (Expr t :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods testEquality :: forall (a :: k) (b :: k). Expr t a -> Expr t b -> Maybe (a :~: b) #
OrdF (Expr t :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods compareF :: forall (x :: k) (y :: k). Expr t x -> Expr t y -> OrderingF x y # leqF :: forall (x :: k) (y :: k). Expr t x -> Expr t y -> Bool # ltF :: forall (x :: k) (y :: k). Expr t x -> Expr t y -> Bool # geqF :: forall (x :: k) (y :: k). Expr t x -> Expr t y -> Bool # gtF :: forall (x :: k) (y :: k). Expr t x -> Expr t y -> Bool #
ShowF (Expr t :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods withShow :: forall p q (tp :: k) a. p (Expr t) -> q tp -> (Show (Expr t tp) => a) -> a # showF :: forall (tp :: k). Expr t tp -> String # showsPrecF :: forall (tp :: k). Int -> Expr t tp -> String -> String #
HashableF (Expr t :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods hashWithSaltF :: forall (tp :: k). Int -> Expr t tp -> Int # hashF :: forall (tp :: k). Expr t tp -> Int #
HasAbsValue (Expr t) Source #
Instance details Defined in What4.Expr.App Methods getAbsValue :: forall (tp :: BaseType). Expr t tp -> AbstractValue tp Source #
IsExpr (Expr t) Source #
Instance details Defined in What4.Expr.App Methods asConstantPred :: Expr t BaseBoolType -> Maybe Bool Source # asInteger :: Expr t BaseIntegerType -> Maybe Integer Source # integerBounds :: Expr t BaseIntegerType -> ValueRange Integer Source # asRational :: Expr t BaseRealType -> Maybe Rational Source # asFloat :: forall (fpp :: FloatPrecision). Expr t (BaseFloatType fpp) -> Maybe BigFloat Source # rationalBounds :: Expr t BaseRealType -> ValueRange Rational Source # asComplex :: Expr t BaseComplexType -> Maybe (Complex Rational) Source # asBV :: forall (w :: Nat). Expr t (BaseBVType w) -> Maybe (BV w) Source # unsignedBVBounds :: forall (w :: Nat). 1 <= w => Expr t (BaseBVType w) -> Maybe (Integer, Integer) Source # signedBVBounds :: forall (w :: Nat). 1 <= w => Expr t (BaseBVType w) -> Maybe (Integer, Integer) Source # asAffineVar :: forall (tp :: BaseType). Expr t tp -> Maybe (ConcreteVal tp, Expr t tp, ConcreteVal tp) Source # asString :: forall (si :: StringInfo). Expr t (BaseStringType si) -> Maybe (StringLiteral si) Source # stringInfo :: forall (si :: StringInfo). Expr t (BaseStringType si) -> StringInfoRepr si Source # asConstantArray :: forall (idx :: Ctx BaseType) (bt :: BaseType). Expr t (BaseArrayType idx bt) -> Maybe (Expr t bt) Source # asStruct :: forall (flds :: Ctx BaseType). Expr t (BaseStructType flds) -> Maybe (Assignment (Expr t) flds) Source # exprType :: forall (tp :: BaseType). Expr t tp -> BaseTypeRepr tp Source # bvWidth :: forall (w :: Nat). Expr t (BaseBVType w) -> NatRepr w Source # floatPrecision :: forall (fpp :: FloatPrecision). Expr t (BaseFloatType fpp) -> FloatPrecisionRepr fpp Source # printSymExpr :: forall (tp :: BaseType) ann. Expr t tp -> Doc ann Source #
Eq (Expr t tp) Source #
Instance details Defined in What4.Expr.App Methods (==) :: Expr t tp -> Expr t tp -> Bool # (/=) :: Expr t tp -> Expr t tp -> Bool #
Ord (Expr t tp) Source #
Instance details Defined in What4.Expr.App Methods compare :: Expr t tp -> Expr t tp -> Ordering # (<) :: Expr t tp -> Expr t tp -> Bool # (<=) :: Expr t tp -> Expr t tp -> Bool # (>) :: Expr t tp -> Expr t tp -> Bool # (>=) :: Expr t tp -> Expr t tp -> Bool # max :: Expr t tp -> Expr t tp -> Expr t tp # min :: Expr t tp -> Expr t tp -> Expr t tp #
Show (Expr t tp) Source #
Instance details Defined in What4.Expr.App Methods showsPrec :: Int -> Expr t tp -> ShowS # show :: Expr t tp -> String # showList :: [Expr t tp] -> ShowS #
Hashable (Expr t tp) Source #
Instance details Defined in What4.Expr.App Methods hashWithSalt :: Int -> Expr t tp -> Int # hash :: Expr t tp -> Int #
Pretty (Expr t tp) Source #
Instance details Defined in What4.Expr.App Methods pretty :: Expr t tp -> Doc ann # prettyList :: [Expr t tp] -> Doc ann #
PolyEq (Expr t x) (Expr t y) Source #
Instance details Defined in What4.Expr.App Methods polyEqF :: Expr t x -> Expr t y -> Maybe (Expr t x :~: Expr t y) # polyEq :: Expr t x -> Expr t y -> Bool #

asApp :: Expr t tp -> Maybe (App (Expr t) tp) Source #

Destructor for the AppExpr constructor.

asNonceApp :: Expr t tp -> Maybe (NonceApp t (Expr t) tp) Source #

Destructor for the NonceAppExpr constructor.

iteSize :: Expr t tp -> Integer Source #

exprLoc :: Expr t tp -> ProgramLoc Source #

ppExpr :: Expr t tp -> Doc ann Source #

Pretty print an Expr using let bindings to create the term.

ppExprTop :: Expr t tp -> Doc ann Source #

Pretty print the top part of an element.

exprMaybeId :: Expr t tp -> Maybe (Nonce t tp) Source #

asConjunction :: Expr t BaseBoolType -> [(Expr t BaseBoolType, Polarity)] Source #

asDisjunction :: Expr t BaseBoolType -> [(Expr t BaseBoolType, Polarity)] Source #

data Polarity Source #

Describes the occurrence of a variable or expression, whether it is negated or not.

Constructors

Positive
Negative

Instances

Instances details

Eq Polarity Source #
Instance details Defined in What4.Expr.BoolMap Methods (==) :: Polarity -> Polarity -> Bool # (/=) :: Polarity -> Polarity -> Bool #
Ord Polarity Source #
Instance details Defined in What4.Expr.BoolMap Methods compare :: Polarity -> Polarity -> Ordering # (<) :: Polarity -> Polarity -> Bool # (<=) :: Polarity -> Polarity -> Bool # (>) :: Polarity -> Polarity -> Bool # (>=) :: Polarity -> Polarity -> Bool # max :: Polarity -> Polarity -> Polarity # min :: Polarity -> Polarity -> Polarity #
Show Polarity Source #
Instance details Defined in What4.Expr.BoolMap Methods showsPrec :: Int -> Polarity -> ShowS # show :: Polarity -> String # showList :: [Polarity] -> ShowS #
Hashable Polarity Source #
Instance details Defined in What4.Expr.BoolMap Methods hashWithSalt :: Int -> Polarity -> Int # hash :: Polarity -> Int #

negatePolarity :: Polarity -> Polarity Source #

Swap a polarity value

AppExpr

data AppExpr t (tp :: BaseType) Source #

This type represents Expr values that were built from an App.

Parameter t is a phantom type brand used to track nonces.

Selector functions are provided to destruct AppExpr values, but the constructor is kept hidden. The preferred way to construct an Expr from an App is to use sbMakeExpr.

appExprId :: AppExpr t tp -> Nonce t tp Source #

appExprLoc :: AppExpr t tp -> ProgramLoc Source #

appExprApp :: AppExpr t tp -> App (Expr t) tp Source #

NonceAppExpr

data NonceAppExpr t (tp :: BaseType) Source #

This type represents Expr values that were built from a NonceApp.

Parameter t is a phantom type brand used to track nonces.

Selector functions are provided to destruct NonceAppExpr values, but the constructor is kept hidden. The preferred way to construct an Expr from a NonceApp is to use sbNonceExpr.

Instances

Instances details

TestEquality (NonceAppExpr t :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods testEquality :: forall (a :: k) (b :: k). NonceAppExpr t a -> NonceAppExpr t b -> Maybe (a :~: b) #
OrdF (NonceAppExpr t :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods compareF :: forall (x :: k) (y :: k). NonceAppExpr t x -> NonceAppExpr t y -> OrderingF x y # leqF :: forall (x :: k) (y :: k). NonceAppExpr t x -> NonceAppExpr t y -> Bool # ltF :: forall (x :: k) (y :: k). NonceAppExpr t x -> NonceAppExpr t y -> Bool # geqF :: forall (x :: k) (y :: k). NonceAppExpr t x -> NonceAppExpr t y -> Bool # gtF :: forall (x :: k) (y :: k). NonceAppExpr t x -> NonceAppExpr t y -> Bool #
Eq (NonceAppExpr t tp) Source #
Instance details Defined in What4.Expr.App Methods (==) :: NonceAppExpr t tp -> NonceAppExpr t tp -> Bool # (/=) :: NonceAppExpr t tp -> NonceAppExpr t tp -> Bool #
Ord (NonceAppExpr t tp) Source #
Instance details Defined in What4.Expr.App Methods compare :: NonceAppExpr t tp -> NonceAppExpr t tp -> Ordering # (<) :: NonceAppExpr t tp -> NonceAppExpr t tp -> Bool # (<=) :: NonceAppExpr t tp -> NonceAppExpr t tp -> Bool # (>) :: NonceAppExpr t tp -> NonceAppExpr t tp -> Bool # (>=) :: NonceAppExpr t tp -> NonceAppExpr t tp -> Bool # max :: NonceAppExpr t tp -> NonceAppExpr t tp -> NonceAppExpr t tp # min :: NonceAppExpr t tp -> NonceAppExpr t tp -> NonceAppExpr t tp #

nonceExprId :: NonceAppExpr t tp -> Nonce t tp Source #

nonceExprLoc :: NonceAppExpr t tp -> ProgramLoc Source #

nonceExprApp :: NonceAppExpr t tp -> NonceApp t (Expr t) tp Source #

Type abbreviations

type BoolExpr t = Expr t BaseBoolType Source #

type IntegerExpr t = Expr t BaseIntegerType Source #

type RealExpr t = Expr t BaseRealType Source #

type FloatExpr t fpp = Expr t (BaseFloatType fpp) Source #

type BVExpr t n = Expr t (BaseBVType n) Source #

type CplxExpr t = Expr t BaseComplexType Source #

type StringExpr t si = Expr t (BaseStringType si) Source #

App

data App (e :: BaseType -> Type) (tp :: BaseType) where Source #

Type App e tp encodes the top-level application of an Expr expression. It includes first-order expression forms that do not bind variables (contrast with NonceApp).

Parameter e is used everywhere a recursive sub-expression would go. Uses of the App type will tie the knot through this parameter. Parameter tp indicates the type of the expression.

Constructors

BaseIte :: !(BaseTypeRepr tp) -> !Integer -> !(e BaseBoolType) -> !(e tp) -> !(e tp) -> App e tp
BaseEq :: !(BaseTypeRepr tp) -> !(e tp) -> !(e tp) -> App e BaseBoolType
NotPred :: !(e BaseBoolType) -> App e BaseBoolType
ConjPred :: !(BoolMap e) -> App e BaseBoolType
SemiRingSum :: !(WeightedSum e sr) -> App e (SemiRingBase sr)
SemiRingProd :: !(SemiRingProduct e sr) -> App e (SemiRingBase sr)
SemiRingLe :: !(OrderedSemiRingRepr sr) -> !(e (SemiRingBase sr)) -> !(e (SemiRingBase sr)) -> App e BaseBoolType
RealIsInteger :: !(e BaseRealType) -> App e BaseBoolType
IntDiv :: !(e BaseIntegerType) -> !(e BaseIntegerType) -> App e BaseIntegerType
IntMod :: !(e BaseIntegerType) -> !(e BaseIntegerType) -> App e BaseIntegerType
IntAbs :: !(e BaseIntegerType) -> App e BaseIntegerType
IntDivisible :: !(e BaseIntegerType) -> Natural -> App e BaseBoolType
RealDiv :: !(e BaseRealType) -> !(e BaseRealType) -> App e BaseRealType
RealSqrt :: !(e BaseRealType) -> App e BaseRealType
Pi :: App e BaseRealType
RealSin :: !(e BaseRealType) -> App e BaseRealType
RealCos :: !(e BaseRealType) -> App e BaseRealType
RealATan2 :: !(e BaseRealType) -> !(e BaseRealType) -> App e BaseRealType
RealSinh :: !(e BaseRealType) -> App e BaseRealType
RealCosh :: !(e BaseRealType) -> App e BaseRealType
RealExp :: !(e BaseRealType) -> App e BaseRealType
RealLog :: !(e BaseRealType) -> App e BaseRealType
BVTestBit :: 1 <= w => !Natural -> !(e (BaseBVType w)) -> App e BaseBoolType
BVSlt :: 1 <= w => !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e BaseBoolType
BVUlt :: 1 <= w => !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e BaseBoolType
BVOrBits :: 1 <= w => !(NatRepr w) -> !(BVOrSet e w) -> App e (BaseBVType w)
BVUnaryTerm :: 1 <= n => !(UnaryBV (e BaseBoolType) n) -> App e (BaseBVType n)
BVConcat :: (1 <= u, 1 <= v, 1 <= (u + v)) => !(NatRepr (u + v)) -> !(e (BaseBVType u)) -> !(e (BaseBVType v)) -> App e (BaseBVType (u + v))
BVSelect :: (1 <= n, (idx + n) <= w) => !(NatRepr idx) -> !(NatRepr n) -> !(e (BaseBVType w)) -> App e (BaseBVType n)
BVFill :: 1 <= w => !(NatRepr w) -> !(e BaseBoolType) -> App e (BaseBVType w)
BVUdiv :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
BVUrem :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
BVSdiv :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
BVSrem :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
BVShl :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
BVLshr :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
BVAshr :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
BVRol :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
BVRor :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
BVZext :: (1 <= w, (w + 1) <= r, 1 <= r) => !(NatRepr r) -> !(e (BaseBVType w)) -> App e (BaseBVType r)
BVSext :: (1 <= w, (w + 1) <= r, 1 <= r) => !(NatRepr r) -> !(e (BaseBVType w)) -> App e (BaseBVType r)
BVPopcount :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
BVCountTrailingZeros :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
BVCountLeadingZeros :: 1 <= w => !(NatRepr w) -> !(e (BaseBVType w)) -> App e (BaseBVType w)
FloatNeg :: !(FloatPrecisionRepr fpp) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
FloatAbs :: !(FloatPrecisionRepr fpp) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
FloatSqrt :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
FloatAdd :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
FloatSub :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
FloatMul :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
FloatDiv :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
FloatRem :: !(FloatPrecisionRepr fpp) -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
FloatFMA :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
FloatFpEq :: !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e BaseBoolType
FloatLe :: !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e BaseBoolType
FloatLt :: !(e (BaseFloatType fpp)) -> !(e (BaseFloatType fpp)) -> App e BaseBoolType
FloatIsNaN :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
FloatIsInf :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
FloatIsZero :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
FloatIsPos :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
FloatIsNeg :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
FloatIsSubnorm :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
FloatIsNorm :: !(e (BaseFloatType fpp)) -> App e BaseBoolType
FloatCast :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp')) -> App e (BaseFloatType fpp)
FloatRound :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> App e (BaseFloatType fpp)
FloatFromBinary :: (2 <= eb, 2 <= sb) => !(FloatPrecisionRepr (FloatingPointPrecision eb sb)) -> !(e (BaseBVType (eb + sb))) -> App e (BaseFloatType (FloatingPointPrecision eb sb))
FloatToBinary :: (2 <= eb, 2 <= sb, 1 <= (eb + sb)) => !(FloatPrecisionRepr (FloatingPointPrecision eb sb)) -> !(e (BaseFloatType (FloatingPointPrecision eb sb))) -> App e (BaseBVType (eb + sb))
BVToFloat :: 1 <= w => !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseBVType w)) -> App e (BaseFloatType fpp)
SBVToFloat :: 1 <= w => !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e (BaseBVType w)) -> App e (BaseFloatType fpp)
RealToFloat :: !(FloatPrecisionRepr fpp) -> !RoundingMode -> !(e BaseRealType) -> App e (BaseFloatType fpp)
FloatToBV :: 1 <= w => !(NatRepr w) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> App e (BaseBVType w)
FloatToSBV :: 1 <= w => !(NatRepr w) -> !RoundingMode -> !(e (BaseFloatType fpp)) -> App e (BaseBVType w)
FloatToReal :: !(e (BaseFloatType fpp)) -> App e BaseRealType
ArrayMap :: !(Assignment BaseTypeRepr (i ::> itp)) -> !(BaseTypeRepr tp) -> !(ArrayUpdateMap e (i ::> itp) tp) -> !(e (BaseArrayType (i ::> itp) tp)) -> App e (BaseArrayType (i ::> itp) tp)
ConstantArray :: !(Assignment BaseTypeRepr (i ::> tp)) -> !(BaseTypeRepr b) -> !(e b) -> App e (BaseArrayType (i ::> tp) b)
UpdateArray :: !(BaseTypeRepr b) -> !(Assignment BaseTypeRepr (i ::> tp)) -> !(e (BaseArrayType (i ::> tp) b)) -> !(Assignment e (i ::> tp)) -> !(e b) -> App e (BaseArrayType (i ::> tp) b)
SelectArray :: !(BaseTypeRepr b) -> !(e (BaseArrayType (i ::> tp) b)) -> !(Assignment e (i ::> tp)) -> App e b
IntegerToReal :: !(e BaseIntegerType) -> App e BaseRealType
RealToInteger :: !(e BaseRealType) -> App e BaseIntegerType
BVToInteger :: 1 <= w => !(e (BaseBVType w)) -> App e BaseIntegerType
SBVToInteger :: 1 <= w => !(e (BaseBVType w)) -> App e BaseIntegerType
IntegerToBV :: 1 <= w => !(e BaseIntegerType) -> NatRepr w -> App e (BaseBVType w)
RoundReal :: !(e BaseRealType) -> App e BaseIntegerType
RoundEvenReal :: !(e BaseRealType) -> App e BaseIntegerType
FloorReal :: !(e BaseRealType) -> App e BaseIntegerType
CeilReal :: !(e BaseRealType) -> App e BaseIntegerType
Cplx :: !(Complex (e BaseRealType)) -> App e BaseComplexType
RealPart :: !(e BaseComplexType) -> App e BaseRealType
ImagPart :: !(e BaseComplexType) -> App e BaseRealType
StringContains :: !(e (BaseStringType si)) -> !(e (BaseStringType si)) -> App e BaseBoolType
StringIsPrefixOf :: !(e (BaseStringType si)) -> !(e (BaseStringType si)) -> App e BaseBoolType
StringIsSuffixOf :: !(e (BaseStringType si)) -> !(e (BaseStringType si)) -> App e BaseBoolType
StringIndexOf :: !(e (BaseStringType si)) -> !(e (BaseStringType si)) -> !(e BaseIntegerType) -> App e BaseIntegerType
StringSubstring :: !(StringInfoRepr si) -> !(e (BaseStringType si)) -> !(e BaseIntegerType) -> !(e BaseIntegerType) -> App e (BaseStringType si)
StringAppend :: !(StringInfoRepr si) -> !(StringSeq e si) -> App e (BaseStringType si)
StringLength :: !(e (BaseStringType si)) -> App e BaseIntegerType
StructCtor :: !(Assignment BaseTypeRepr flds) -> !(Assignment e flds) -> App e (BaseStructType flds)
StructField :: !(e (BaseStructType flds)) -> !(Index flds tp) -> !(BaseTypeRepr tp) -> App e tp

Instances

Instances details

FoldableFC App Source #
Instance details Defined in What4.Expr.App Methods foldMapFC :: forall f m. Monoid m => (forall (x :: k). f x -> m) -> forall (x :: l). App f x -> m # foldrFC :: (forall (x :: k). f x -> b -> b) -> forall (x :: l). b -> App f x -> b # foldlFC :: forall f b. (forall (x :: k). b -> f x -> b) -> forall (x :: l). b -> App f x -> b # foldrFC' :: (forall (x :: k). f x -> b -> b) -> forall (x :: l). b -> App f x -> b # foldlFC' :: forall f b. (forall (x :: k). b -> f x -> b) -> forall (x :: l). b -> App f x -> b # toListFC :: (forall (x :: k). f x -> a) -> forall (x :: l). App f x -> [a] #
(Eq (e BaseBoolType), Eq (e BaseRealType), HashableF e, HasAbsValue e, OrdF e) => TestEquality (App e :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods testEquality :: forall (a :: k) (b :: k). App e a -> App e b -> Maybe (a :~: b) #
(OrdF e, HashableF e, HasAbsValue e, Hashable (e BaseBoolType), Hashable (e BaseRealType)) => HashableF (App e :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods hashWithSaltF :: forall (tp :: k). Int -> App e tp -> Int # hashF :: forall (tp :: k). App e tp -> Int #
(Eq (e BaseBoolType), Eq (e BaseRealType), HashableF e, HasAbsValue e, OrdF e) => Eq (App e tp) Source #
Instance details Defined in What4.Expr.App Methods (==) :: App e tp -> App e tp -> Bool # (/=) :: App e tp -> App e tp -> Bool #
ShowF e => Show (App e u) Source #
Instance details Defined in What4.Expr.App Methods showsPrec :: Int -> App e u -> ShowS # show :: App e u -> String # showList :: [App e u] -> ShowS #
ShowF e => Pretty (App e u) Source #
Instance details Defined in What4.Expr.App Methods pretty :: App e u -> Doc ann # prettyList :: [App e u] -> Doc ann #

traverseApp :: (Applicative m, OrdF f, Eq (f BaseBoolType), HashableF f, HasAbsValue f) => (forall tp. e tp -> m (f tp)) -> App e utp -> m (App f utp) Source #

appType :: App e tp -> BaseTypeRepr tp Source #

NonceApp

data NonceApp t (e :: BaseType -> Type) (tp :: BaseType) where Source #

Type NonceApp t e tp encodes the top-level application of an Expr. It includes expression forms that bind variables (contrast with App).

Parameter t is a phantom type brand used to track nonces. Parameter e is used everywhere a recursive sub-expression would go. Uses of the NonceApp type will tie the knot through this parameter. Parameter tp indicates the type of the expression.

Constructors

Annotation :: !(BaseTypeRepr tp) -> !(Nonce t tp) -> !(e tp) -> NonceApp t e tp
Forall :: !(ExprBoundVar t tp) -> !(e BaseBoolType) -> NonceApp t e BaseBoolType
Exists :: !(ExprBoundVar t tp) -> !(e BaseBoolType) -> NonceApp t e BaseBoolType
ArrayFromFn :: !(ExprSymFn t (idx ::> itp) ret) -> NonceApp t e (BaseArrayType (idx ::> itp) ret)
MapOverArrays :: !(ExprSymFn t (ctx ::> d) r) -> !(Assignment BaseTypeRepr (idx ::> itp)) -> !(Assignment (ArrayResultWrapper e (idx ::> itp)) (ctx ::> d)) -> NonceApp t e (BaseArrayType (idx ::> itp) r)
ArrayTrueOnEntries :: !(ExprSymFn t (idx ::> itp) BaseBoolType) -> !(e (BaseArrayType (idx ::> itp) BaseBoolType)) -> NonceApp t e BaseBoolType
FnApp :: !(ExprSymFn t args ret) -> !(Assignment e args) -> NonceApp t e ret

Instances

Instances details

FunctorFC (NonceApp t :: (BaseType -> Type) -> BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods fmapFC :: (forall (x :: k). f x -> g x) -> forall (x :: l). NonceApp t f x -> NonceApp t g x #
FoldableFC (NonceApp t :: (BaseType -> Type) -> BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods foldMapFC :: forall f m. Monoid m => (forall (x :: k). f x -> m) -> forall (x :: l). NonceApp t f x -> m # foldrFC :: (forall (x :: k). f x -> b -> b) -> forall (x :: l). b -> NonceApp t f x -> b # foldlFC :: forall f b. (forall (x :: k). b -> f x -> b) -> forall (x :: l). b -> NonceApp t f x -> b # foldrFC' :: (forall (x :: k). f x -> b -> b) -> forall (x :: l). b -> NonceApp t f x -> b # foldlFC' :: forall f b. (forall (x :: k). b -> f x -> b) -> forall (x :: l). b -> NonceApp t f x -> b # toListFC :: (forall (x :: k). f x -> a) -> forall (x :: l). NonceApp t f x -> [a] #
TraversableFC (NonceApp t :: (BaseType -> Type) -> BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods traverseFC :: forall f g m. Applicative m => (forall (x :: k). f x -> m (g x)) -> forall (x :: l). NonceApp t f x -> m (NonceApp t g x) #
TestEquality e => TestEquality (NonceApp t e :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods testEquality :: forall (a :: k) (b :: k). NonceApp t e a -> NonceApp t e b -> Maybe (a :~: b) #
HashableF e => HashableF (NonceApp t e :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods hashWithSaltF :: forall (tp :: k). Int -> NonceApp t e tp -> Int # hashF :: forall (tp :: k). NonceApp t e tp -> Int #
TestEquality e => Eq (NonceApp t e tp) Source #
Instance details Defined in What4.Expr.App Methods (==) :: NonceApp t e tp -> NonceApp t e tp -> Bool # (/=) :: NonceApp t e tp -> NonceApp t e tp -> Bool #

nonceAppType :: IsExpr e => NonceApp t e tp -> BaseTypeRepr tp Source #

Bound Variable information

data ExprBoundVar t (tp :: BaseType) Source #

Information about bound variables. Parameter t is a phantom type brand used to track nonces.

Type ExprBoundVar t instantiates the type family BoundVar (ExprBuilder t st).

Selector functions are provided to destruct ExprBoundVar values, but the constructor is kept hidden. The preferred way to construct a ExprBoundVar is to use freshBoundVar.

Instances

Instances details

TestEquality (ExprBoundVar t :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods testEquality :: forall (a :: k) (b :: k). ExprBoundVar t a -> ExprBoundVar t b -> Maybe (a :~: b) #
OrdF (ExprBoundVar t :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods compareF :: forall (x :: k) (y :: k). ExprBoundVar t x -> ExprBoundVar t y -> OrderingF x y # leqF :: forall (x :: k) (y :: k). ExprBoundVar t x -> ExprBoundVar t y -> Bool # ltF :: forall (x :: k) (y :: k). ExprBoundVar t x -> ExprBoundVar t y -> Bool # geqF :: forall (x :: k) (y :: k). ExprBoundVar t x -> ExprBoundVar t y -> Bool # gtF :: forall (x :: k) (y :: k). ExprBoundVar t x -> ExprBoundVar t y -> Bool #
ShowF (ExprBoundVar t :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods withShow :: forall p q (tp :: k) a. p (ExprBoundVar t) -> q tp -> (Show (ExprBoundVar t tp) => a) -> a # showF :: forall (tp :: k). ExprBoundVar t tp -> String # showsPrecF :: forall (tp :: k). Int -> ExprBoundVar t tp -> String -> String #
HashableF (ExprBoundVar t :: BaseType -> Type) Source #
Instance details Defined in What4.Expr.App Methods hashWithSaltF :: forall (tp :: k). Int -> ExprBoundVar t tp -> Int # hashF :: forall (tp :: k). ExprBoundVar t tp -> Int #
Eq (ExprBoundVar t tp) Source #
Instance details Defined in What4.Expr.App Methods (==) :: ExprBoundVar t tp -> ExprBoundVar t tp -> Bool # (/=) :: ExprBoundVar t tp -> ExprBoundVar t tp -> Bool #
Ord (ExprBoundVar t tp) Source #
Instance details Defined in What4.Expr.App Methods compare :: ExprBoundVar t tp -> ExprBoundVar t tp -> Ordering # (<) :: ExprBoundVar t tp -> ExprBoundVar t tp -> Bool # (<=) :: ExprBoundVar t tp -> ExprBoundVar t tp -> Bool # (>) :: ExprBoundVar t tp -> ExprBoundVar t tp -> Bool # (>=) :: ExprBoundVar t tp -> ExprBoundVar t tp -> Bool # max :: ExprBoundVar t tp -> ExprBoundVar t tp -> ExprBoundVar t tp # min :: ExprBoundVar t tp -> ExprBoundVar t tp -> ExprBoundVar t tp #
Show (ExprBoundVar t tp) Source #
Instance details Defined in What4.Expr.App Methods showsPrec :: Int -> ExprBoundVar t tp -> ShowS # show :: ExprBoundVar t tp -> String # showList :: [ExprBoundVar t tp] -> ShowS #
Hashable (ExprBoundVar t tp) Source #
Instance details Defined in What4.Expr.App Methods hashWithSalt :: Int -> ExprBoundVar t tp -> Int # hash :: ExprBoundVar t tp -> Int #

bvarId :: ExprBoundVar t tp -> Nonce t tp Source #

bvarLoc :: ExprBoundVar t tp -> ProgramLoc Source #

bvarName :: ExprBoundVar t tp -> SolverSymbol Source #

bvarType :: ExprBoundVar t tp -> BaseTypeRepr tp Source #

bvarKind :: ExprBoundVar t tp -> VarKind Source #

bvarAbstractValue :: ExprBoundVar t tp -> Maybe (AbstractValue tp) Source #

data VarKind Source #

The Kind of a bound variable.

Constructors

QuantifierVarKind	A variable appearing in a quantifier.
LatchVarKind	A variable appearing as a latch input.
UninterpVarKind	A variable appearing in a uninterpreted constant

boundVars :: Expr t tp -> ST s (BoundVarMap s t) Source #

ppBoundVar :: ExprBoundVar t tp -> String Source #

evalBoundVars :: ExprBuilder t st fs -> Expr t ret -> Assignment (ExprBoundVar t) args -> Assignment (Expr t) args -> IO (Expr t ret) Source #

This evaluates the term with the given bound variables rebound to the given arguments.

The algorithm works by traversing the subterms in the term in a bottom-up fashion while using a hash-table to memoize results for shared subterms. The hash-table is pre-populated so that the bound variables map to the element, so we do not need any extra map lookup when checking to see if a variable is bound.

NOTE: This function assumes that variables in the substitution are not themselves bound in the term (e.g. in a function definition or quantifier). If this is not respected, then evalBoundVars will call fail with an error message.

Symbolic Function

data ExprSymFn t (args :: Ctx BaseType) (ret :: BaseType) Source #

This represents a symbolic function in the simulator. Parameter t is a phantom type brand used to track nonces. The args and ret parameters define the types of arguments and the return type of the function.

Type ExprSymFn t (Expr t) instantiates the type family SymFn (ExprBuilder t st).

Constructors

ExprSymFn
Fields symFnId :: !(Nonce t (args ::> ret)) symFnName :: !SolverSymbol symFnInfo :: !(SymFnInfo t args ret) symFnLoc :: !ProgramLoc

Instances

Instances details

IsSymFn (ExprSymFn t) Source #
Instance details Defined in What4.Expr.App Methods fnArgTypes :: forall (args :: Ctx BaseType) (ret :: BaseType). ExprSymFn t args ret -> Assignment BaseTypeRepr args Source # fnReturnType :: forall (args :: Ctx BaseType) (ret :: BaseType). ExprSymFn t args ret -> BaseTypeRepr ret Source #
Show (ExprSymFn t args ret) Source #
Instance details Defined in What4.Expr.App Methods showsPrec :: Int -> ExprSymFn t args ret -> ShowS # show :: ExprSymFn t args ret -> String # showList :: [ExprSymFn t args ret] -> ShowS #
Hashable (ExprSymFn t args tp) Source #
Instance details Defined in What4.Expr.App Methods hashWithSalt :: Int -> ExprSymFn t args tp -> Int # hash :: ExprSymFn t args tp -> Int #

data SymFnInfo t (args :: Ctx BaseType) (ret :: BaseType) Source #

This describes information about an undefined or defined function. Parameter t is a phantom type brand used to track nonces. The args and ret parameters define the types of arguments and the return type of the function.

Constructors

UninterpFnInfo !(Assignment BaseTypeRepr args) !(BaseTypeRepr ret)	Information about the argument type and return type of an uninterpreted function.
DefinedFnInfo !(Assignment (ExprBoundVar t) args) !(Expr t ret) !UnfoldPolicy	Information about a defined function. Includes bound variables and an expression associated to a defined function, as well as a policy for when to unfold the body.
MatlabSolverFnInfo !(MatlabSolverFn (Expr t) args ret) !(Assignment (ExprBoundVar t) args) !(Expr t ret)	This is a function that corresponds to a matlab solver function. It includes the definition as a ExprBuilder expr to enable export to other solvers.

symFnArgTypes :: ExprSymFn t args ret -> Assignment BaseTypeRepr args Source #

symFnReturnType :: ExprSymFn t args ret -> BaseTypeRepr ret Source #

SymbolVarBimap

data SymbolVarBimap t Source #

A bijective map between vars and their canonical name for printing purposes. Parameter t is a phantom type brand used to track nonces.

data SymbolBinding t Source #

This describes what a given SolverSymbol is associated with. Parameter t is a phantom type brand used to track nonces.

Constructors

forall tp. VarSymbolBinding !(ExprBoundVar t tp)	Solver
forall args ret. FnSymbolBinding !(ExprSymFn t args ret)

Instances

Instances details

Eq (SymbolBinding t) Source #
Instance details Defined in What4.Expr.Builder Methods (==) :: SymbolBinding t -> SymbolBinding t -> Bool # (/=) :: SymbolBinding t -> SymbolBinding t -> Bool #
Ord (SymbolBinding t) Source #
Instance details Defined in What4.Expr.Builder Methods compare :: SymbolBinding t -> SymbolBinding t -> Ordering # (<) :: SymbolBinding t -> SymbolBinding t -> Bool # (<=) :: SymbolBinding t -> SymbolBinding t -> Bool # (>) :: SymbolBinding t -> SymbolBinding t -> Bool # (>=) :: SymbolBinding t -> SymbolBinding t -> Bool # max :: SymbolBinding t -> SymbolBinding t -> SymbolBinding t # min :: SymbolBinding t -> SymbolBinding t -> SymbolBinding t #

emptySymbolVarBimap :: SymbolVarBimap t Source #

Empty symbol var bimap

lookupBindingOfSymbol :: SolverSymbol -> SymbolVarBimap t -> Maybe (SymbolBinding t) Source #

lookupSymbolOfBinding :: SymbolBinding t -> SymbolVarBimap t -> Maybe SolverSymbol Source #

IdxCache

data IdxCache t (f :: BaseType -> Type) Source #

An IdxCache is used to map expressions with type Expr t tp to values with a corresponding type f tp. It is a mutable map using an IO hash table. Parameter t is a phantom type brand used to track nonces.

newIdxCache :: MonadIO m => m (IdxCache t f) Source #

Create a new IdxCache

lookupIdx :: MonadIO m => IdxCache t f -> Nonce t tp -> m (Maybe (f tp)) Source #

lookupIdxValue :: MonadIO m => IdxCache t f -> Expr t tp -> m (Maybe (f tp)) Source #

Return the value associated to the expr in the index.

insertIdxValue :: MonadIO m => IdxCache t f -> Nonce t tp -> f tp -> m () Source #

Bind the value to the given expr in the index.

deleteIdxValue :: MonadIO m => IdxCache t f -> Nonce t (tp :: BaseType) -> m () Source #

Remove a value from the IdxCache

clearIdxCache :: MonadIO m => IdxCache t f -> m () Source #

Remove all values from the IdxCache

idxCacheEval :: MonadIO m => IdxCache t f -> Expr t tp -> m (f tp) -> m (f tp) Source #

Implements a cached evaluated using the given element. Given an element this function returns the value of the element if bound, and otherwise calls the evaluation function, stores the result in the cache, and returns the value.

idxCacheEval' :: MonadIO m => IdxCache t f -> Nonce t tp -> m (f tp) -> m (f tp) Source #

Implements a cached evaluated using the given element. Given an element this function returns the value of the element if bound, and otherwise calls the evaluation function, stores the result in the cache, and returns the value.

Flags

data FloatMode Source #

Mode flag for how floating-point values should be interpreted.

Instances

Instances details

TestEquality FloatModeRepr Source #
Instance details Defined in What4.Expr.Builder Methods testEquality :: forall (a :: k) (b :: k). FloatModeRepr a -> FloatModeRepr b -> Maybe (a :~: b) #
ShowF FloatModeRepr Source #
Instance details Defined in What4.Expr.Builder Methods withShow :: forall p q (tp :: k) a. p FloatModeRepr -> q tp -> (Show (FloatModeRepr tp) => a) -> a # showF :: forall (tp :: k). FloatModeRepr tp -> String # showsPrecF :: forall (tp :: k). Int -> FloatModeRepr tp -> String -> String #
KnownRepr FloatModeRepr FloatReal Source #
Instance details Defined in What4.Expr.Builder Methods knownRepr :: FloatModeRepr FloatReal #
KnownRepr FloatModeRepr FloatUninterpreted Source #
Instance details Defined in What4.Expr.Builder Methods knownRepr :: FloatModeRepr FloatUninterpreted #
KnownRepr FloatModeRepr FloatIEEE Source #
Instance details Defined in What4.Expr.Builder Methods knownRepr :: FloatModeRepr FloatIEEE #

data FloatModeRepr :: FloatMode -> Type where Source #

Constructors

FloatIEEERepr :: FloatModeRepr FloatIEEE
FloatUninterpretedRepr :: FloatModeRepr FloatUninterpreted
FloatRealRepr :: FloatModeRepr FloatReal

Instances

Instances details

TestEquality FloatModeRepr Source #
Instance details Defined in What4.Expr.Builder Methods testEquality :: forall (a :: k) (b :: k). FloatModeRepr a -> FloatModeRepr b -> Maybe (a :~: b) #
ShowF FloatModeRepr Source #
Instance details Defined in What4.Expr.Builder Methods withShow :: forall p q (tp :: k) a. p FloatModeRepr -> q tp -> (Show (FloatModeRepr tp) => a) -> a # showF :: forall (tp :: k). FloatModeRepr tp -> String # showsPrecF :: forall (tp :: k). Int -> FloatModeRepr tp -> String -> String #
KnownRepr FloatModeRepr FloatReal Source #
Instance details Defined in What4.Expr.Builder Methods knownRepr :: FloatModeRepr FloatReal #
KnownRepr FloatModeRepr FloatUninterpreted Source #
Instance details Defined in What4.Expr.Builder Methods knownRepr :: FloatModeRepr FloatUninterpreted #
KnownRepr FloatModeRepr FloatIEEE Source #
Instance details Defined in What4.Expr.Builder Methods knownRepr :: FloatModeRepr FloatIEEE #
Show (FloatModeRepr fm) Source #
Instance details Defined in What4.Expr.Builder Methods showsPrec :: Int -> FloatModeRepr fm -> ShowS # show :: FloatModeRepr fm -> String # showList :: [FloatModeRepr fm] -> ShowS #

type FloatIEEE = 'FloatIEEE Source #

type FloatUninterpreted = 'FloatUninterpreted Source #

type FloatReal = 'FloatReal Source #

data Flags (fi :: FloatMode) Source #

Instances

Instances details

IsInterpretedFloatExprBuilder (ExprBuilder t st (Flags FloatIEEE)) Source #
Instance details Defined in What4.Expr.Builder Methods iFloatPZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatNZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatNaN :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatPInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatNInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatLitRational :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> Rational -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatLitSingle :: ExprBuilder t st (Flags FloatIEEE) -> Float -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) SingleFloat) Source # iFloatLitDouble :: ExprBuilder t st (Flags FloatIEEE) -> Double -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) DoubleFloat) Source # iFloatLitLongDouble :: ExprBuilder t st (Flags FloatIEEE) -> X86_80Val -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) X86_80Float) Source # iFloatNeg :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatAbs :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatSqrt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatAdd :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatSub :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatMul :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatDiv :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatRem :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatMin :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatMax :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatFMA :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatEq :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatNe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatFpEq :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatFpApart :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatLe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatLt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatGe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatGt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsNaN :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsPos :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsNeg :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsSubnorm :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIsNorm :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (Pred (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatIte :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> Pred (ExprBuilder t st (Flags FloatIEEE)) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatCast :: forall (fi :: FloatInfo) (fi' :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi' -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatRound :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatFromBinary :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> SymBV (ExprBuilder t st (Flags FloatIEEE)) (FloatInfoToBitWidth fi) -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatToBinary :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatIEEE)) (FloatInfoToBitWidth fi)) Source # iBVToFloat :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> RoundingMode -> SymBV (ExprBuilder t st (Flags FloatIEEE)) w -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iSBVToFloat :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> RoundingMode -> SymBV (ExprBuilder t st (Flags FloatIEEE)) w -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iRealToFloat :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> RoundingMode -> SymReal (ExprBuilder t st (Flags FloatIEEE)) -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi) Source # iFloatToBV :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatIEEE) -> NatRepr w -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatIEEE)) w) Source # iFloatToSBV :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatIEEE) -> NatRepr w -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatIEEE)) w) Source # iFloatToReal :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatIEEE)) fi -> IO (SymReal (ExprBuilder t st (Flags FloatIEEE))) Source # iFloatBaseTypeRepr :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatIEEE) -> FloatInfoRepr fi -> BaseTypeRepr (SymInterpretedFloatType (ExprBuilder t st (Flags FloatIEEE)) fi) Source #
IsInterpretedFloatExprBuilder (ExprBuilder t st (Flags FloatUninterpreted)) Source #
Instance details Defined in What4.Expr.Builder Methods iFloatPZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatNZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatNaN :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatPInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatNInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatLitRational :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> Rational -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatLitSingle :: ExprBuilder t st (Flags FloatUninterpreted) -> Float -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) SingleFloat) Source # iFloatLitDouble :: ExprBuilder t st (Flags FloatUninterpreted) -> Double -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) DoubleFloat) Source # iFloatLitLongDouble :: ExprBuilder t st (Flags FloatUninterpreted) -> X86_80Val -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) X86_80Float) Source # iFloatNeg :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatAbs :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatSqrt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatAdd :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatSub :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatMul :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatDiv :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatRem :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatMin :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatMax :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatFMA :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatEq :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatNe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatFpEq :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatFpApart :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatLe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatLt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatGe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatGt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsNaN :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsPos :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsNeg :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsSubnorm :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIsNorm :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (Pred (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatIte :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> Pred (ExprBuilder t st (Flags FloatUninterpreted)) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatCast :: forall (fi :: FloatInfo) (fi' :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi' -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatRound :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatFromBinary :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> SymBV (ExprBuilder t st (Flags FloatUninterpreted)) (FloatInfoToBitWidth fi) -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatToBinary :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatUninterpreted)) (FloatInfoToBitWidth fi)) Source # iBVToFloat :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> RoundingMode -> SymBV (ExprBuilder t st (Flags FloatUninterpreted)) w -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iSBVToFloat :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> RoundingMode -> SymBV (ExprBuilder t st (Flags FloatUninterpreted)) w -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iRealToFloat :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> RoundingMode -> SymReal (ExprBuilder t st (Flags FloatUninterpreted)) -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source # iFloatToBV :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatUninterpreted) -> NatRepr w -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatUninterpreted)) w) Source # iFloatToSBV :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatUninterpreted) -> NatRepr w -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatUninterpreted)) w) Source # iFloatToReal :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatUninterpreted)) fi -> IO (SymReal (ExprBuilder t st (Flags FloatUninterpreted))) Source # iFloatBaseTypeRepr :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatUninterpreted) -> FloatInfoRepr fi -> BaseTypeRepr (SymInterpretedFloatType (ExprBuilder t st (Flags FloatUninterpreted)) fi) Source #
IsInterpretedFloatExprBuilder (ExprBuilder t st (Flags FloatReal)) Source #
Instance details Defined in What4.Expr.Builder Methods iFloatPZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatNZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatNaN :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatPInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatNInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatLitRational :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> Rational -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatLitSingle :: ExprBuilder t st (Flags FloatReal) -> Float -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) SingleFloat) Source # iFloatLitDouble :: ExprBuilder t st (Flags FloatReal) -> Double -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) DoubleFloat) Source # iFloatLitLongDouble :: ExprBuilder t st (Flags FloatReal) -> X86_80Val -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) X86_80Float) Source # iFloatNeg :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatAbs :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatSqrt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatAdd :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatSub :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatMul :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatDiv :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatRem :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatMin :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatMax :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatFMA :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatEq :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatNe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatFpEq :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatFpApart :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatLe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatLt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatGe :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatGt :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsNaN :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsInf :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsZero :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsPos :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsNeg :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsSubnorm :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIsNorm :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (Pred (ExprBuilder t st (Flags FloatReal))) Source # iFloatIte :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> Pred (ExprBuilder t st (Flags FloatReal)) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatCast :: forall (fi :: FloatInfo) (fi' :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi' -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatRound :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatFromBinary :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> SymBV (ExprBuilder t st (Flags FloatReal)) (FloatInfoToBitWidth fi) -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatToBinary :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatReal)) (FloatInfoToBitWidth fi)) Source # iBVToFloat :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> RoundingMode -> SymBV (ExprBuilder t st (Flags FloatReal)) w -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iSBVToFloat :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> RoundingMode -> SymBV (ExprBuilder t st (Flags FloatReal)) w -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iRealToFloat :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> RoundingMode -> SymReal (ExprBuilder t st (Flags FloatReal)) -> IO (SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi) Source # iFloatToBV :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatReal) -> NatRepr w -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatReal)) w) Source # iFloatToSBV :: forall (w :: Nat) (fi :: FloatInfo). 1 <= w => ExprBuilder t st (Flags FloatReal) -> NatRepr w -> RoundingMode -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymBV (ExprBuilder t st (Flags FloatReal)) w) Source # iFloatToReal :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> SymInterpretedFloat (ExprBuilder t st (Flags FloatReal)) fi -> IO (SymReal (ExprBuilder t st (Flags FloatReal))) Source # iFloatBaseTypeRepr :: forall (fi :: FloatInfo). ExprBuilder t st (Flags FloatReal) -> FloatInfoRepr fi -> BaseTypeRepr (SymInterpretedFloatType (ExprBuilder t st (Flags FloatReal)) fi) Source #
type SymInterpretedFloatType (ExprBuilder t st (Flags FloatIEEE)) fi Source #
Instance details Defined in What4.Expr.Builder type SymInterpretedFloatType (ExprBuilder t st (Flags FloatIEEE)) fi = BaseFloatType (FloatInfoToPrecision fi)
type SymInterpretedFloatType (ExprBuilder t st (Flags FloatUninterpreted)) fi Source #
Instance details Defined in What4.Expr.Builder type SymInterpretedFloatType (ExprBuilder t st (Flags FloatUninterpreted)) fi = BaseBVType (FloatInfoToBitWidth fi)
type SymInterpretedFloatType (ExprBuilder t st (Flags FloatReal)) fi Source #
Instance details Defined in What4.Expr.Builder type SymInterpretedFloatType (ExprBuilder t st (Flags FloatReal)) fi = BaseRealType

BV Or Set

data BVOrSet e w Source #

Instances

Instances details

(OrdF e, TestEquality e) => Eq (BVOrSet e w) Source #
Instance details Defined in What4.Expr.App Methods (==) :: BVOrSet e w -> BVOrSet e w -> Bool # (/=) :: BVOrSet e w -> BVOrSet e w -> Bool #
OrdF e => Hashable (BVOrSet e w) Source #
Instance details Defined in What4.Expr.App Methods hashWithSalt :: Int -> BVOrSet e w -> Int # hash :: BVOrSet e w -> Int #

bvOrToList :: BVOrSet e w -> [e (BaseBVType w)] Source #

bvOrSingleton :: (OrdF e, HashableF e, HasAbsValue e) => e (BaseBVType w) -> BVOrSet e w Source #

bvOrInsert :: (OrdF e, HashableF e, HasAbsValue e) => e (BaseBVType w) -> BVOrSet e w -> BVOrSet e w Source #

bvOrUnion :: OrdF e => BVOrSet e w -> BVOrSet e w -> BVOrSet e w Source #

bvOrAbs :: (OrdF e, 1 <= w) => NatRepr w -> BVOrSet e w -> BVDomain w Source #

traverseBVOrSet :: (HashableF f, HasAbsValue f, OrdF f, Applicative m) => (forall tp. e tp -> m (f tp)) -> BVOrSet e w -> m (BVOrSet f w) Source #

Re-exports

type family SymExpr (sym :: Type) :: BaseType -> Type Source #

The class for expressions.

Instances

Instances details

type SymExpr (ExprBuilder t st fs) Source #
Instance details Defined in What4.Expr.Builder type SymExpr (ExprBuilder t st fs) = Expr t

bvWidth :: IsExpr e => e (BaseBVType w) -> NatRepr w Source #

Get the width of a bitvector

exprType :: IsExpr e => e tp -> BaseTypeRepr tp Source #

Get type of expression.

data IndexLit idx where Source #

This represents a concrete index value, and is used for creating arrays.

Constructors

IntIndexLit :: !Integer -> IndexLit BaseIntegerType
BVIndexLit :: 1 <= w => !(NatRepr w) -> !(BV w) -> IndexLit (BaseBVType w)

Instances

Instances details

TestEquality IndexLit Source #
Instance details Defined in What4.IndexLit Methods testEquality :: forall (a :: k) (b :: k). IndexLit a -> IndexLit b -> Maybe (a :~: b) #
OrdF IndexLit Source #
Instance details Defined in What4.IndexLit Methods compareF :: forall (x :: k) (y :: k). IndexLit x -> IndexLit y -> OrderingF x y # leqF :: forall (x :: k) (y :: k). IndexLit x -> IndexLit y -> Bool # ltF :: forall (x :: k) (y :: k). IndexLit x -> IndexLit y -> Bool # geqF :: forall (x :: k) (y :: k). IndexLit x -> IndexLit y -> Bool # gtF :: forall (x :: k) (y :: k). IndexLit x -> IndexLit y -> Bool #
ShowF IndexLit Source #
Instance details Defined in What4.IndexLit Methods withShow :: forall p q (tp :: k) a. p IndexLit -> q tp -> (Show (IndexLit tp) => a) -> a # showF :: forall (tp :: k). IndexLit tp -> String # showsPrecF :: forall (tp :: k). Int -> IndexLit tp -> String -> String #
HashableF IndexLit Source #
Instance details Defined in What4.IndexLit Methods hashWithSaltF :: forall (tp :: k). Int -> IndexLit tp -> Int # hashF :: forall (tp :: k). IndexLit tp -> Int #
Eq (IndexLit tp) Source #
Instance details Defined in What4.IndexLit Methods (==) :: IndexLit tp -> IndexLit tp -> Bool # (/=) :: IndexLit tp -> IndexLit tp -> Bool #
Show (IndexLit tp) Source #
Instance details Defined in What4.IndexLit Methods showsPrec :: Int -> IndexLit tp -> ShowS # show :: IndexLit tp -> String # showList :: [IndexLit tp] -> ShowS #
Hashable (IndexLit tp) Source #
Instance details Defined in What4.IndexLit Methods hashWithSalt :: Int -> IndexLit tp -> Int # hash :: IndexLit tp -> Int #

newtype ArrayResultWrapper f idx tp Source #

Constructors

ArrayResultWrapper
Fields unwrapArrayResult :: f (BaseArrayType idx tp)

Instances

Instances details

TestEquality f => TestEquality (ArrayResultWrapper f idx :: BaseType -> Type) Source #
Instance details Defined in What4.Interface Methods testEquality :: forall (a :: k) (b :: k). ArrayResultWrapper f idx a -> ArrayResultWrapper f idx b -> Maybe (a :~: b) #
HashableF e => HashableF (ArrayResultWrapper e idx :: BaseType -> Type) Source #
Instance details Defined in What4.Interface Methods hashWithSaltF :: forall (tp :: k). Int -> ArrayResultWrapper e idx tp -> Int # hashF :: forall (tp :: k). ArrayResultWrapper e idx tp -> Int #