module Data.SBV.Core.Concrete
( module Data.SBV.Core.Concrete
) where
import Data.Bits
import System.Random (randomIO, randomRIO)
import Data.List (isPrefixOf)
import Data.SBV.Core.Kind
import Data.SBV.Core.AlgReals
data CWVal = CWAlgReal !AlgReal
| CWInteger !Integer
| CWFloat !Float
| CWDouble !Double
| CWUserSort !(Maybe Int, String)
instance Eq CWVal where
CWAlgReal a == CWAlgReal b = a `algRealStructuralEqual` b
CWInteger a == CWInteger b = a == b
CWUserSort a == CWUserSort b = a == b
CWFloat a == CWFloat b = a == b
CWDouble a == CWDouble b = a == b
_ == _ = False
instance Ord CWVal where
CWAlgReal a `compare` CWAlgReal b = a `algRealStructuralCompare` b
CWAlgReal _ `compare` CWInteger _ = LT
CWAlgReal _ `compare` CWFloat _ = LT
CWAlgReal _ `compare` CWDouble _ = LT
CWAlgReal _ `compare` CWUserSort _ = LT
CWInteger _ `compare` CWAlgReal _ = GT
CWInteger a `compare` CWInteger b = a `compare` b
CWInteger _ `compare` CWFloat _ = LT
CWInteger _ `compare` CWDouble _ = LT
CWInteger _ `compare` CWUserSort _ = LT
CWFloat _ `compare` CWAlgReal _ = GT
CWFloat _ `compare` CWInteger _ = GT
CWFloat a `compare` CWFloat b = a `compare` b
CWFloat _ `compare` CWDouble _ = LT
CWFloat _ `compare` CWUserSort _ = LT
CWDouble _ `compare` CWAlgReal _ = GT
CWDouble _ `compare` CWInteger _ = GT
CWDouble _ `compare` CWFloat _ = GT
CWDouble a `compare` CWDouble b = a `compare` b
CWDouble _ `compare` CWUserSort _ = LT
CWUserSort _ `compare` CWAlgReal _ = GT
CWUserSort _ `compare` CWInteger _ = GT
CWUserSort _ `compare` CWFloat _ = GT
CWUserSort _ `compare` CWDouble _ = GT
CWUserSort a `compare` CWUserSort b = a `compare` b
data CW = CW { _cwKind :: !Kind
, cwVal :: !CWVal
}
deriving (Eq, Ord)
data GeneralizedCW = ExtendedCW ExtCW
| RegularCW CW
data ExtCW = Infinite Kind
| Epsilon Kind
| Interval ExtCW ExtCW
| BoundedCW CW
| AddExtCW ExtCW ExtCW
| MulExtCW ExtCW ExtCW
instance HasKind ExtCW where
kindOf (Infinite k) = k
kindOf (Epsilon k) = k
kindOf (Interval l _) = kindOf l
kindOf (BoundedCW c) = kindOf c
kindOf (AddExtCW l _) = kindOf l
kindOf (MulExtCW l _) = kindOf l
instance Show ExtCW where
show = showExtCW True
showExtCW :: Bool -> ExtCW -> String
showExtCW = go False
where go parens shk extCW = case extCW of
Infinite{} -> withKind False "oo"
Epsilon{} -> withKind False "epsilon"
Interval l u -> withKind True $ '[' : showExtCW False l ++ " .. " ++ showExtCW False u ++ "]"
BoundedCW c -> showCW shk c
AddExtCW l r -> par $ withKind False $ add (go True False l) (go True False r)
MulExtCW (BoundedCW (CW KUnbounded (CWInteger (-1)))) Infinite{} -> withKind False "-oo"
MulExtCW (BoundedCW (CW KReal (CWAlgReal (-1)))) Infinite{} -> withKind False "-oo"
MulExtCW (BoundedCW (CW KUnbounded (CWInteger (-1)))) Epsilon{} -> withKind False "-epsilon"
MulExtCW (BoundedCW (CW KReal (CWAlgReal (-1)))) Epsilon{} -> withKind False "-epsilon"
MulExtCW l r -> par $ withKind False $ mul (go True False l) (go True False r)
where par v | parens = '(' : v ++ ")"
| True = v
withKind isInterval v | not shk = v
| isInterval = v ++ " :: [" ++ showBaseKind (kindOf extCW) ++ "]"
| True = v ++ " :: " ++ showBaseKind (kindOf extCW)
add :: String -> String -> String
add n v
| "-" `isPrefixOf` v = n ++ " - " ++ tail v
| True = n ++ " + " ++ v
mul :: String -> String -> String
mul n v = n ++ " * " ++ v
isRegularCW :: GeneralizedCW -> Bool
isRegularCW RegularCW{} = True
isRegularCW ExtendedCW{} = False
instance HasKind CW where
kindOf (CW k _) = k
instance HasKind GeneralizedCW where
kindOf (ExtendedCW e) = kindOf e
kindOf (RegularCW c) = kindOf c
cwSameType :: CW -> CW -> Bool
cwSameType x y = kindOf x == kindOf y
cwToBool :: CW -> Bool
cwToBool x = cwVal x /= CWInteger 0
normCW :: CW -> CW
normCW c@(CW (KBounded signed sz) (CWInteger v)) = c { cwVal = CWInteger norm }
where norm | sz == 0 = 0
| signed = let rg = 2 ^ (sz - 1)
in case divMod v rg of
(a, b) | even a -> b
(_, b) -> b - rg
| True = v `mod` (2 ^ sz)
normCW c@(CW KBool (CWInteger v)) = c { cwVal = CWInteger (v .&. 1) }
normCW c = c
falseCW :: CW
falseCW = CW KBool (CWInteger 0)
trueCW :: CW
trueCW = CW KBool (CWInteger 1)
liftCW :: (AlgReal -> b) -> (Integer -> b) -> (Float -> b) -> (Double -> b) -> ((Maybe Int, String) -> b) -> CW -> b
liftCW f _ _ _ _ (CW _ (CWAlgReal v)) = f v
liftCW _ f _ _ _ (CW _ (CWInteger v)) = f v
liftCW _ _ f _ _ (CW _ (CWFloat v)) = f v
liftCW _ _ _ f _ (CW _ (CWDouble v)) = f v
liftCW _ _ _ _ f (CW _ (CWUserSort v)) = f v
liftCW2 :: (AlgReal -> AlgReal -> b) -> (Integer -> Integer -> b) -> (Float -> Float -> b) -> (Double -> Double -> b) -> ((Maybe Int, String) -> (Maybe Int, String) -> b) -> CW -> CW -> b
liftCW2 r i f d u x y = case (cwVal x, cwVal y) of
(CWAlgReal a, CWAlgReal b) -> r a b
(CWInteger a, CWInteger b) -> i a b
(CWFloat a, CWFloat b) -> f a b
(CWDouble a, CWDouble b) -> d a b
(CWUserSort a, CWUserSort b) -> u a b
_ -> error $ "SBV.liftCW2: impossible, incompatible args received: " ++ show (x, y)
mapCW :: (AlgReal -> AlgReal) -> (Integer -> Integer) -> (Float -> Float) -> (Double -> Double) -> ((Maybe Int, String) -> (Maybe Int, String)) -> CW -> CW
mapCW r i f d u x = normCW $ CW (kindOf x) $ case cwVal x of
CWAlgReal a -> CWAlgReal (r a)
CWInteger a -> CWInteger (i a)
CWFloat a -> CWFloat (f a)
CWDouble a -> CWDouble (d a)
CWUserSort a -> CWUserSort (u a)
mapCW2 :: (AlgReal -> AlgReal -> AlgReal) -> (Integer -> Integer -> Integer) -> (Float -> Float -> Float) -> (Double -> Double -> Double) -> ((Maybe Int, String) -> (Maybe Int, String) -> (Maybe Int, String)) -> CW -> CW -> CW
mapCW2 r i f d u x y = case (cwSameType x y, cwVal x, cwVal y) of
(True, CWAlgReal a, CWAlgReal b) -> normCW $ CW (kindOf x) (CWAlgReal (r a b))
(True, CWInteger a, CWInteger b) -> normCW $ CW (kindOf x) (CWInteger (i a b))
(True, CWFloat a, CWFloat b) -> normCW $ CW (kindOf x) (CWFloat (f a b))
(True, CWDouble a, CWDouble b) -> normCW $ CW (kindOf x) (CWDouble (d a b))
(True, CWUserSort a, CWUserSort b) -> normCW $ CW (kindOf x) (CWUserSort (u a b))
_ -> error $ "SBV.mapCW2: impossible, incompatible args received: " ++ show (x, y)
instance Show CW where
show = showCW True
instance Show GeneralizedCW where
show (ExtendedCW k) = showExtCW True k
show (RegularCW c) = showCW True c
showCW :: Bool -> CW -> String
showCW shk w | isBoolean w = show (cwToBool w) ++ (if shk then " :: Bool" else "")
showCW shk w = liftCW show show show show snd w ++ kInfo
where kInfo | shk = " :: " ++ showBaseKind (kindOf w)
| True = ""
showBaseKind :: Kind -> String
showBaseKind k@KUserSort {} = show k
showBaseKind k = case show k of
('S':sk) -> sk
s -> s
mkConstCW :: Integral a => Kind -> a -> CW
mkConstCW KBool a = normCW $ CW KBool (CWInteger (toInteger a))
mkConstCW k@KBounded{} a = normCW $ CW k (CWInteger (toInteger a))
mkConstCW KUnbounded a = normCW $ CW KUnbounded (CWInteger (toInteger a))
mkConstCW KReal a = normCW $ CW KReal (CWAlgReal (fromInteger (toInteger a)))
mkConstCW KFloat a = normCW $ CW KFloat (CWFloat (fromInteger (toInteger a)))
mkConstCW KDouble a = normCW $ CW KDouble (CWDouble (fromInteger (toInteger a)))
mkConstCW (KUserSort s _) a = error $ "Unexpected call to mkConstCW with uninterpreted kind: " ++ s ++ " with value: " ++ show (toInteger a)
randomCWVal :: Kind -> IO CWVal
randomCWVal k =
case k of
KBool -> fmap CWInteger (randomRIO (0,1))
KBounded s w -> fmap CWInteger (randomRIO (bounds s w))
KUnbounded -> fmap CWInteger randomIO
KReal -> fmap CWAlgReal randomIO
KFloat -> fmap CWFloat randomIO
KDouble -> fmap CWDouble randomIO
KUserSort s _ -> error $ "Unexpected call to randomCWVal with uninterpreted kind: " ++ s
where
bounds :: Bool -> Int -> (Integer, Integer)
bounds False w = (0, 2^w - 1)
bounds True w = (-x, x-1) where x = 2^(w-1)
randomCW :: Kind -> IO CW
randomCW k = fmap (CW k) (randomCWVal k)