module CmmOpt (
constantFoldNode,
constantFoldExpr,
cmmMachOpFold,
cmmMachOpFoldM
) where
import GhcPrelude
import CmmUtils
import Cmm
import DynFlags
import Util
import Outputable
import Platform
import Data.Bits
import Data.Maybe
constantFoldNode :: DynFlags -> CmmNode e x -> CmmNode e x
constantFoldNode dflags = mapExp (constantFoldExpr dflags)
constantFoldExpr :: DynFlags -> CmmExpr -> CmmExpr
constantFoldExpr dflags = wrapRecExp f
where f (CmmMachOp op args) = cmmMachOpFold dflags op args
f (CmmRegOff r 0) = CmmReg r
f e = e
cmmMachOpFold
:: DynFlags
-> MachOp
-> [CmmExpr]
-> CmmExpr
cmmMachOpFold dflags op args = fromMaybe (CmmMachOp op args) (cmmMachOpFoldM dflags op args)
cmmMachOpFoldM
:: DynFlags
-> MachOp
-> [CmmExpr]
-> Maybe CmmExpr
cmmMachOpFoldM _ op [CmmLit (CmmInt x rep)]
= Just $ case op of
MO_S_Neg _ -> CmmLit (CmmInt (x) rep)
MO_Not _ -> CmmLit (CmmInt (complement x) rep)
MO_SF_Conv _from to -> CmmLit (CmmFloat (fromInteger x) to)
MO_SS_Conv from to -> CmmLit (CmmInt (narrowS from x) to)
MO_UU_Conv from to -> CmmLit (CmmInt (narrowU from x) to)
_ -> panic $ "cmmMachOpFoldM: unknown unary op: " ++ show op
cmmMachOpFoldM _ (MO_SS_Conv rep1 rep2) [x] | rep1 == rep2 = Just x
cmmMachOpFoldM _ (MO_UU_Conv rep1 rep2) [x] | rep1 == rep2 = Just x
cmmMachOpFoldM dflags conv_outer [CmmMachOp conv_inner [x]]
| Just (rep1,rep2,signed1) <- isIntConversion conv_inner,
Just (_, rep3,signed2) <- isIntConversion conv_outer
= case () of
_ | rep1 < rep2 && rep1 == rep3 -> Just x
| rep1 < rep2 && rep2 > rep3 ->
Just $ cmmMachOpFold dflags (intconv signed1 rep1 rep3) [x]
| rep1 < rep2 && rep2 < rep3 && signed1 == signed2 ->
Just $ cmmMachOpFold dflags (intconv signed1 rep1 rep3) [x]
| rep1 > rep2 && rep2 > rep3 ->
Just $ cmmMachOpFold dflags (MO_UU_Conv rep1 rep3) [x]
| otherwise ->
Nothing
where
isIntConversion (MO_UU_Conv rep1 rep2)
= Just (rep1,rep2,False)
isIntConversion (MO_SS_Conv rep1 rep2)
= Just (rep1,rep2,True)
isIntConversion _ = Nothing
intconv True = MO_SS_Conv
intconv False = MO_UU_Conv
cmmMachOpFoldM dflags mop [CmmLit (CmmInt x xrep), CmmLit (CmmInt y _)]
= case mop of
MO_Eq _ -> Just $ CmmLit (CmmInt (if x_u == y_u then 1 else 0) (wordWidth dflags))
MO_Ne _ -> Just $ CmmLit (CmmInt (if x_u /= y_u then 1 else 0) (wordWidth dflags))
MO_U_Gt _ -> Just $ CmmLit (CmmInt (if x_u > y_u then 1 else 0) (wordWidth dflags))
MO_U_Ge _ -> Just $ CmmLit (CmmInt (if x_u >= y_u then 1 else 0) (wordWidth dflags))
MO_U_Lt _ -> Just $ CmmLit (CmmInt (if x_u < y_u then 1 else 0) (wordWidth dflags))
MO_U_Le _ -> Just $ CmmLit (CmmInt (if x_u <= y_u then 1 else 0) (wordWidth dflags))
MO_S_Gt _ -> Just $ CmmLit (CmmInt (if x_s > y_s then 1 else 0) (wordWidth dflags))
MO_S_Ge _ -> Just $ CmmLit (CmmInt (if x_s >= y_s then 1 else 0) (wordWidth dflags))
MO_S_Lt _ -> Just $ CmmLit (CmmInt (if x_s < y_s then 1 else 0) (wordWidth dflags))
MO_S_Le _ -> Just $ CmmLit (CmmInt (if x_s <= y_s then 1 else 0) (wordWidth dflags))
MO_Add r -> Just $ CmmLit (CmmInt (x + y) r)
MO_Sub r -> Just $ CmmLit (CmmInt (x y) r)
MO_Mul r -> Just $ CmmLit (CmmInt (x * y) r)
MO_U_Quot r | y /= 0 -> Just $ CmmLit (CmmInt (x_u `quot` y_u) r)
MO_U_Rem r | y /= 0 -> Just $ CmmLit (CmmInt (x_u `rem` y_u) r)
MO_S_Quot r | y /= 0 -> Just $ CmmLit (CmmInt (x `quot` y) r)
MO_S_Rem r | y /= 0 -> Just $ CmmLit (CmmInt (x `rem` y) r)
MO_And r -> Just $ CmmLit (CmmInt (x .&. y) r)
MO_Or r -> Just $ CmmLit (CmmInt (x .|. y) r)
MO_Xor r -> Just $ CmmLit (CmmInt (x `xor` y) r)
MO_Shl r -> Just $ CmmLit (CmmInt (x `shiftL` fromIntegral y) r)
MO_U_Shr r -> Just $ CmmLit (CmmInt (x_u `shiftR` fromIntegral y) r)
MO_S_Shr r -> Just $ CmmLit (CmmInt (x `shiftR` fromIntegral y) r)
_ -> Nothing
where
x_u = narrowU xrep x
y_u = narrowU xrep y
x_s = narrowS xrep x
y_s = narrowS xrep y
cmmMachOpFoldM dflags op [x@(CmmLit _), y]
| not (isLit y) && isCommutableMachOp op
= Just (cmmMachOpFold dflags op [y, x])
cmmMachOpFoldM dflags mop1 [CmmMachOp mop2 [arg1,arg2], arg3]
| mop2 `associates_with` mop1
&& not (isLit arg1) && not (isPicReg arg1)
= Just (cmmMachOpFold dflags mop2 [arg1, cmmMachOpFold dflags mop1 [arg2,arg3]])
where
MO_Add{} `associates_with` MO_Sub{} = True
mop1 `associates_with` mop2 =
mop1 == mop2 && isAssociativeMachOp mop1
cmmMachOpFoldM dflags mop1@(MO_Add{}) [CmmMachOp mop2@(MO_Sub{}) [arg1,arg2], arg3]
| not (isLit arg1) && not (isPicReg arg1)
= Just (cmmMachOpFold dflags mop1 [arg1, cmmMachOpFold dflags mop2 [arg3,arg2]])
cmmMachOpFoldM _ MO_Add{} [ CmmMachOp op@MO_Add{} [pic, CmmLit lit]
, CmmLit (CmmInt n rep) ]
| isPicReg pic
= Just $ CmmMachOp op [pic, CmmLit $ cmmOffsetLit lit off ]
where off = fromIntegral (narrowS rep n)
cmmMachOpFoldM _ (MO_Add _) [CmmReg reg, CmmLit (CmmInt n rep)]
= Just $ cmmRegOff reg (fromIntegral (narrowS rep n))
cmmMachOpFoldM _ (MO_Add _) [CmmRegOff reg off, CmmLit (CmmInt n rep)]
= Just $ cmmRegOff reg (off + fromIntegral (narrowS rep n))
cmmMachOpFoldM _ (MO_Sub _) [CmmReg reg, CmmLit (CmmInt n rep)]
= Just $ cmmRegOff reg ( fromIntegral (narrowS rep n))
cmmMachOpFoldM _ (MO_Sub _) [CmmRegOff reg off, CmmLit (CmmInt n rep)]
= Just $ cmmRegOff reg (off fromIntegral (narrowS rep n))
cmmMachOpFoldM _ (MO_Add _) [CmmLit lit, CmmLit (CmmInt i rep)]
= Just $ CmmLit (cmmOffsetLit lit (fromIntegral (narrowU rep i)))
cmmMachOpFoldM _ (MO_Add _) [CmmLit (CmmInt i rep), CmmLit lit]
= Just $ CmmLit (cmmOffsetLit lit (fromIntegral (narrowU rep i)))
cmmMachOpFoldM _ (MO_Sub _) [CmmLit lit, CmmLit (CmmInt i rep)]
= Just $ CmmLit (cmmOffsetLit lit (fromIntegral (negate (narrowU rep i))))
cmmMachOpFoldM dflags cmp [CmmMachOp conv [x], CmmLit (CmmInt i _)]
|
platformArch (targetPlatform dflags) `elem` [ArchX86, ArchX86_64],
Just (rep, signed, narrow_fn) <- maybe_conversion conv,
Just narrow_cmp <- maybe_comparison cmp rep signed,
i == narrow_fn rep i
= Just (cmmMachOpFold dflags narrow_cmp [x, CmmLit (CmmInt i rep)])
where
maybe_conversion (MO_UU_Conv from to)
| to > from
= Just (from, False, narrowU)
maybe_conversion (MO_SS_Conv from to)
| to > from
= Just (from, True, narrowS)
maybe_conversion _ = Nothing
maybe_comparison (MO_U_Gt _) rep _ = Just (MO_U_Gt rep)
maybe_comparison (MO_U_Ge _) rep _ = Just (MO_U_Ge rep)
maybe_comparison (MO_U_Lt _) rep _ = Just (MO_U_Lt rep)
maybe_comparison (MO_U_Le _) rep _ = Just (MO_U_Le rep)
maybe_comparison (MO_Eq _) rep _ = Just (MO_Eq rep)
maybe_comparison (MO_S_Gt _) rep True = Just (MO_S_Gt rep)
maybe_comparison (MO_S_Ge _) rep True = Just (MO_S_Ge rep)
maybe_comparison (MO_S_Lt _) rep True = Just (MO_S_Lt rep)
maybe_comparison (MO_S_Le _) rep True = Just (MO_S_Le rep)
maybe_comparison (MO_S_Gt _) rep False = Just (MO_U_Gt rep)
maybe_comparison (MO_S_Ge _) rep False = Just (MO_U_Ge rep)
maybe_comparison (MO_S_Lt _) rep False = Just (MO_U_Lt rep)
maybe_comparison (MO_S_Le _) rep False = Just (MO_U_Le rep)
maybe_comparison _ _ _ = Nothing
cmmMachOpFoldM dflags mop [x, y@(CmmLit (CmmInt 0 _))]
= case mop of
MO_Add _ -> Just x
MO_Sub _ -> Just x
MO_Mul _ -> Just y
MO_And _ -> Just y
MO_Or _ -> Just x
MO_Xor _ -> Just x
MO_Shl _ -> Just x
MO_S_Shr _ -> Just x
MO_U_Shr _ -> Just x
MO_Ne _ | isComparisonExpr x -> Just x
MO_Eq _ | Just x' <- maybeInvertCmmExpr x -> Just x'
MO_U_Gt _ | isComparisonExpr x -> Just x
MO_S_Gt _ | isComparisonExpr x -> Just x
MO_U_Lt _ | isComparisonExpr x -> Just zero
MO_S_Lt _ | isComparisonExpr x -> Just zero
MO_U_Ge _ | isComparisonExpr x -> Just one
MO_S_Ge _ | isComparisonExpr x -> Just one
MO_U_Le _ | Just x' <- maybeInvertCmmExpr x -> Just x'
MO_S_Le _ | Just x' <- maybeInvertCmmExpr x -> Just x'
_ -> Nothing
where
zero = CmmLit (CmmInt 0 (wordWidth dflags))
one = CmmLit (CmmInt 1 (wordWidth dflags))
cmmMachOpFoldM dflags mop [x, (CmmLit (CmmInt 1 rep))]
= case mop of
MO_Mul _ -> Just x
MO_S_Quot _ -> Just x
MO_U_Quot _ -> Just x
MO_S_Rem _ -> Just $ CmmLit (CmmInt 0 rep)
MO_U_Rem _ -> Just $ CmmLit (CmmInt 0 rep)
MO_Ne _ | Just x' <- maybeInvertCmmExpr x -> Just x'
MO_Eq _ | isComparisonExpr x -> Just x
MO_U_Lt _ | Just x' <- maybeInvertCmmExpr x -> Just x'
MO_S_Lt _ | Just x' <- maybeInvertCmmExpr x -> Just x'
MO_U_Gt _ | isComparisonExpr x -> Just zero
MO_S_Gt _ | isComparisonExpr x -> Just zero
MO_U_Le _ | isComparisonExpr x -> Just one
MO_S_Le _ | isComparisonExpr x -> Just one
MO_U_Ge _ | isComparisonExpr x -> Just x
MO_S_Ge _ | isComparisonExpr x -> Just x
_ -> Nothing
where
zero = CmmLit (CmmInt 0 (wordWidth dflags))
one = CmmLit (CmmInt 1 (wordWidth dflags))
cmmMachOpFoldM dflags mop [x, (CmmLit (CmmInt n _))]
= case mop of
MO_Mul rep
| Just p <- exactLog2 n ->
Just (cmmMachOpFold dflags (MO_Shl rep) [x, CmmLit (CmmInt p rep)])
MO_U_Quot rep
| Just p <- exactLog2 n ->
Just (cmmMachOpFold dflags (MO_U_Shr rep) [x, CmmLit (CmmInt p rep)])
MO_U_Rem rep
| Just _ <- exactLog2 n ->
Just (cmmMachOpFold dflags (MO_And rep) [x, CmmLit (CmmInt (n 1) rep)])
MO_S_Quot rep
| Just p <- exactLog2 n,
CmmReg _ <- x ->
Just (cmmMachOpFold dflags (MO_S_Shr rep)
[signedQuotRemHelper rep p, CmmLit (CmmInt p rep)])
MO_S_Rem rep
| Just p <- exactLog2 n,
CmmReg _ <- x ->
Just (cmmMachOpFold dflags (MO_Sub rep)
[x, cmmMachOpFold dflags (MO_And rep)
[signedQuotRemHelper rep p, CmmLit (CmmInt ( n) rep)]])
_ -> Nothing
where
signedQuotRemHelper :: Width -> Integer -> CmmExpr
signedQuotRemHelper rep p = CmmMachOp (MO_Add rep) [x, x2]
where
bits = fromIntegral (widthInBits rep) 1
shr = if p == 1 then MO_U_Shr rep else MO_S_Shr rep
x1 = CmmMachOp shr [x, CmmLit (CmmInt bits rep)]
x2 = if p == 1 then x1 else
CmmMachOp (MO_And rep) [x1, CmmLit (CmmInt (n1) rep)]
cmmMachOpFoldM _ _ _ = Nothing
isPicReg :: CmmExpr -> Bool
isPicReg (CmmReg (CmmGlobal PicBaseReg)) = True
isPicReg _ = False