{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeSynonymInstances #-}
module Data.SBV.Utils.PrettyNum (
PrettyNum(..), readBin, shex, shexI, sbin, sbinI
, showCFloat, showCDouble, showHFloat, showHDouble
, showSMTFloat, showSMTDouble, smtRoundingMode, cwToSMTLib, mkSkolemZero
) where
import Data.Char (intToDigit, ord)
import Data.Int (Int8, Int16, Int32, Int64)
import Data.List (isPrefixOf)
import Data.Maybe (fromJust, fromMaybe, listToMaybe)
import Data.Ratio (numerator, denominator)
import Data.Word (Word8, Word16, Word32, Word64)
import Numeric (showIntAtBase, showHex, readInt)
import Data.Numbers.CrackNum (floatToFP, doubleToFP)
import Data.SBV.Core.Data
import Data.SBV.Core.AlgReals (algRealToSMTLib2)
import Data.SBV.Utils.Lib (stringToQFS)
class PrettyNum a where
hexS :: a -> String
binS :: a -> String
hex :: a -> String
bin :: a -> String
instance PrettyNum Bool where
{hexS = show; binS = show; hex = show; bin = show}
instance PrettyNum String where
{hexS = show; binS = show; hex = show; bin = show}
instance PrettyNum Word8 where
{hexS = shex True True (False,8) ; binS = sbin True True (False,8) ; hex = shex False False (False,8) ; bin = sbin False False (False,8) ;}
instance PrettyNum Int8 where
{hexS = shex True True (True,8) ; binS = sbin True True (True,8) ; hex = shex False False (True,8) ; bin = sbin False False (True,8) ;}
instance PrettyNum Word16 where
{hexS = shex True True (False,16); binS = sbin True True (False,16); hex = shex False False (False,16); bin = sbin False False (False,16);}
instance PrettyNum Int16 where
{hexS = shex True True (True,16); binS = sbin True True (True,16) ; hex = shex False False (True,16); bin = sbin False False (True,16) ;}
instance PrettyNum Word32 where
{hexS = shex True True (False,32); binS = sbin True True (False,32); hex = shex False False (False,32); bin = sbin False False (False,32);}
instance PrettyNum Int32 where
{hexS = shex True True (True,32); binS = sbin True True (True,32) ; hex = shex False False (True,32); bin = sbin False False (True,32) ;}
instance PrettyNum Word64 where
{hexS = shex True True (False,64); binS = sbin True True (False,64); hex = shex False False (False,64); bin = sbin False False (False,64);}
instance PrettyNum Int64 where
{hexS = shex True True (True,64); binS = sbin True True (True,64) ; hex = shex False False (True,64); bin = sbin False False (True,64) ;}
instance PrettyNum Integer where
{hexS = shexI True True; binS = sbinI True True; hex = shexI False False; bin = sbinI False False;}
instance PrettyNum CW where
hexS cw | isUninterpreted cw = show cw ++ " :: " ++ show (kindOf cw)
| isBoolean cw = hexS (cwToBool cw) ++ " :: Bool"
| isFloat cw = let CWFloat f = cwVal cw in show f ++ " :: Float\n" ++ show (floatToFP f)
| isDouble cw = let CWDouble d = cwVal cw in show d ++ " :: Double\n" ++ show (doubleToFP d)
| isReal cw = let CWAlgReal w = cwVal cw in show w ++ " :: Real"
| isString cw = let CWString s = cwVal cw in show s ++ " :: String"
| not (isBounded cw) = let CWInteger w = cwVal cw in shexI True True w
| True = let CWInteger w = cwVal cw in shex True True (hasSign cw, intSizeOf cw) w
binS cw | isUninterpreted cw = show cw ++ " :: " ++ show (kindOf cw)
| isBoolean cw = binS (cwToBool cw) ++ " :: Bool"
| isFloat cw = let CWFloat f = cwVal cw in show f ++ " :: Float\n" ++ show (floatToFP f)
| isDouble cw = let CWDouble d = cwVal cw in show d ++ " :: Double\n" ++ show (doubleToFP d)
| isReal cw = let CWAlgReal w = cwVal cw in show w ++ " :: Real"
| isString cw = let CWString s = cwVal cw in show s ++ " :: String"
| not (isBounded cw) = let CWInteger w = cwVal cw in sbinI True True w
| True = let CWInteger w = cwVal cw in sbin True True (hasSign cw, intSizeOf cw) w
hex cw | isUninterpreted cw = show cw
| isBoolean cw = hexS (cwToBool cw) ++ " :: Bool"
| isFloat cw = let CWFloat f = cwVal cw in show f
| isDouble cw = let CWDouble d = cwVal cw in show d
| isReal cw = let CWAlgReal w = cwVal cw in show w
| isString cw = let CWString s = cwVal cw in show s
| not (isBounded cw) = let CWInteger w = cwVal cw in shexI False False w
| True = let CWInteger w = cwVal cw in shex False False (hasSign cw, intSizeOf cw) w
bin cw | isUninterpreted cw = show cw
| isBoolean cw = binS (cwToBool cw) ++ " :: Bool"
| isFloat cw = let CWFloat f = cwVal cw in show f
| isDouble cw = let CWDouble d = cwVal cw in show d
| isReal cw = let CWAlgReal w = cwVal cw in show w
| isString cw = let CWString s = cwVal cw in show s
| not (isBounded cw) = let CWInteger w = cwVal cw in sbinI False False w
| True = let CWInteger w = cwVal cw in sbin False False (hasSign cw, intSizeOf cw) w
instance (SymWord a, PrettyNum a) => PrettyNum (SBV a) where
hexS s = maybe (show s) (hexS :: a -> String) $ unliteral s
binS s = maybe (show s) (binS :: a -> String) $ unliteral s
hex s = maybe (show s) (hex :: a -> String) $ unliteral s
bin s = maybe (show s) (bin :: a -> String) $ unliteral s
shex :: (Show a, Integral a) => Bool -> Bool -> (Bool, Int) -> a -> String
shex shType shPre (signed, size) a
| a < 0
= "-" ++ pre ++ pad l (s16 (abs (fromIntegral a :: Integer))) ++ t
| True
= pre ++ pad l (s16 a) ++ t
where t | shType = " :: " ++ (if signed then "Int" else "Word") ++ show size
| True = ""
pre | shPre = "0x"
| True = ""
l = (size + 3) `div` 4
shexI :: Bool -> Bool -> Integer -> String
shexI shType shPre a
| a < 0
= "-" ++ pre ++ s16 (abs a) ++ t
| True
= pre ++ s16 a ++ t
where t | shType = " :: Integer"
| True = ""
pre | shPre = "0x"
| True = ""
sbin :: (Show a, Integral a) => Bool -> Bool -> (Bool, Int) -> a -> String
sbin shType shPre (signed,size) a
| a < 0
= "-" ++ pre ++ pad size (s2 (abs (fromIntegral a :: Integer))) ++ t
| True
= pre ++ pad size (s2 a) ++ t
where t | shType = " :: " ++ (if signed then "Int" else "Word") ++ show size
| True = ""
pre | shPre = "0b"
| True = ""
sbinI :: Bool -> Bool -> Integer -> String
sbinI shType shPre a
| a < 0
= "-" ++ pre ++ s2 (abs a) ++ t
| True
= pre ++ s2 a ++ t
where t | shType = " :: Integer"
| True = ""
pre | shPre = "0b"
| True = ""
pad :: Int -> String -> String
pad l s = replicate (l - length s) '0' ++ s
s2 :: (Show a, Integral a) => a -> String
s2 v = showIntAtBase 2 dig v "" where dig = fromJust . flip lookup [(0, '0'), (1, '1')]
s16 :: (Show a, Integral a) => a -> String
s16 v = showHex v ""
readBin :: Num a => String -> a
readBin ('-':s) = -(readBin s)
readBin s = case readInt 2 isDigit cvt s' of
[(a, "")] -> a
_ -> error $ "SBV.readBin: Cannot read a binary number from: " ++ show s
where cvt c = ord c - ord '0'
isDigit = (`elem` "01")
s' | "0b" `isPrefixOf` s = drop 2 s
| True = s
showCFloat :: Float -> String
showCFloat f
| isNaN f = "((float) NAN)"
| isInfinite f, f < 0 = "((float) (-INFINITY))"
| isInfinite f = "((float) INFINITY)"
| True = show f ++ "F"
showCDouble :: Double -> String
showCDouble f
| isNaN f = "((double) NAN)"
| isInfinite f, f < 0 = "((double) (-INFINITY))"
| isInfinite f = "((double) INFINITY)"
| True = show f
showHFloat :: Float -> String
showHFloat f
| isNaN f = "((0/0) :: Float)"
| isInfinite f, f < 0 = "((-1/0) :: Float)"
| isInfinite f = "((1/0) :: Float)"
| True = show f
showHDouble :: Double -> String
showHDouble d
| isNaN d = "((0/0) :: Double)"
| isInfinite d, d < 0 = "((-1/0) :: Double)"
| isInfinite d = "((1/0) :: Double)"
| True = show d
showSMTFloat :: RoundingMode -> Float -> String
showSMTFloat rm f
| isNaN f = as "NaN"
| isInfinite f, f < 0 = as "-oo"
| isInfinite f = as "+oo"
| isNegativeZero f = as "-zero"
| f == 0 = as "+zero"
| True = "((_ to_fp 8 24) " ++ smtRoundingMode rm ++ " " ++ toSMTLibRational (toRational f) ++ ")"
where as s = "(_ " ++ s ++ " 8 24)"
showSMTDouble :: RoundingMode -> Double -> String
showSMTDouble rm d
| isNaN d = as "NaN"
| isInfinite d, d < 0 = as "-oo"
| isInfinite d = as "+oo"
| isNegativeZero d = as "-zero"
| d == 0 = as "+zero"
| True = "((_ to_fp 11 53) " ++ smtRoundingMode rm ++ " " ++ toSMTLibRational (toRational d) ++ ")"
where as s = "(_ " ++ s ++ " 11 53)"
toSMTLibRational :: Rational -> String
toSMTLibRational r
| n < 0
= "(- (/ " ++ show (abs n) ++ ".0 " ++ show d ++ ".0))"
| True
= "(/ " ++ show n ++ ".0 " ++ show d ++ ".0)"
where n = numerator r
d = denominator r
smtRoundingMode :: RoundingMode -> String
smtRoundingMode RoundNearestTiesToEven = "roundNearestTiesToEven"
smtRoundingMode RoundNearestTiesToAway = "roundNearestTiesToAway"
smtRoundingMode RoundTowardPositive = "roundTowardPositive"
smtRoundingMode RoundTowardNegative = "roundTowardNegative"
smtRoundingMode RoundTowardZero = "roundTowardZero"
cwToSMTLib :: RoundingMode -> CW -> String
cwToSMTLib rm x
| isBoolean x, CWInteger w <- cwVal x = if w == 0 then "false" else "true"
| isUninterpreted x, CWUserSort (_, s) <- cwVal x = roundModeConvert s
| isReal x, CWAlgReal r <- cwVal x = algRealToSMTLib2 r
| isFloat x, CWFloat f <- cwVal x = showSMTFloat rm f
| isDouble x, CWDouble d <- cwVal x = showSMTDouble rm d
| not (isBounded x), CWInteger w <- cwVal x = if w >= 0 then show w else "(- " ++ show (abs w) ++ ")"
| not (hasSign x) , CWInteger w <- cwVal x = smtLibHex (intSizeOf x) w
| hasSign x , CWInteger w <- cwVal x = if w == negate (2 ^ intSizeOf x)
then mkMinBound (intSizeOf x)
else negIf (w < 0) $ smtLibHex (intSizeOf x) (abs w)
| isChar x , CWChar c <- cwVal x = smtLibHex 8 (fromIntegral (ord c))
| isString x , CWString s <- cwVal x = '\"' : stringToQFS s ++ "\""
| True = error $ "SBV.cvtCW: Impossible happened: Kind/Value disagreement on: " ++ show (kindOf x, x)
where roundModeConvert s = fromMaybe s (listToMaybe [smtRoundingMode m | m <- [minBound .. maxBound] :: [RoundingMode], show m == s])
smtLibHex :: Int -> Integer -> String
smtLibHex 1 v = "#b" ++ show v
smtLibHex sz v
| sz `mod` 4 == 0 = "#x" ++ pad (sz `div` 4) (showHex v "")
| True = "#b" ++ pad sz (showBin v "")
where showBin = showIntAtBase 2 intToDigit
negIf :: Bool -> String -> String
negIf True a = "(bvneg " ++ a ++ ")"
negIf False a = a
mkMinBound :: Int -> String
mkMinBound i = "#b1" ++ replicate (i-1) '0'
mkSkolemZero :: RoundingMode -> Kind -> String
mkSkolemZero _ (KUserSort _ (Right (f:_))) = f
mkSkolemZero _ (KUserSort s _) = error $ "SBV.mkSkolemZero: Unexpected uninterpreted sort: " ++ s
mkSkolemZero rm k = cwToSMTLib rm (mkConstCW k (0::Integer))