module CmmExpr
( CmmExpr(..), cmmExprType, cmmExprWidth, maybeInvertCmmExpr
, CmmReg(..), cmmRegType
, CmmLit(..), cmmLitType
, LocalReg(..), localRegType
, GlobalReg(..), globalRegType, spReg, hpReg, spLimReg, nodeReg, node, baseReg
, VGcPtr(..), vgcFlag
, DefinerOfLocalRegs, UserOfLocalRegs, foldRegsDefd, foldRegsUsed, filterRegsUsed
, DefinerOfSlots, UserOfSlots, foldSlotsDefd, foldSlotsUsed
, RegSet, emptyRegSet, elemRegSet, extendRegSet, deleteFromRegSet, mkRegSet
, plusRegSet, minusRegSet, timesRegSet
, regUsedIn, regSlot
, Area(..), AreaId(..), SubArea, SubAreaSet, AreaMap, isStackSlotOf
, module CmmMachOp
, module CmmType
)
where
#include "HsVersions.h"
import CmmType
import CmmMachOp
import BlockId
import CLabel
import Unique
import UniqSet
import Data.Map (Map)
data CmmExpr
= CmmLit CmmLit
| CmmLoad CmmExpr CmmType
| CmmReg CmmReg
| CmmMachOp MachOp [CmmExpr]
| CmmStackSlot Area Int
| CmmRegOff CmmReg Int
instance Eq CmmExpr where
CmmLit l1 == CmmLit l2 = l1==l2
CmmLoad e1 _ == CmmLoad e2 _ = e1==e2
CmmReg r1 == CmmReg r2 = r1==r2
CmmRegOff r1 i1 == CmmRegOff r2 i2 = r1==r2 && i1==i2
CmmMachOp op1 es1 == CmmMachOp op2 es2 = op1==op2 && es1==es2
CmmStackSlot a1 i1 == CmmStackSlot a2 i2 = a1==a2 && i1==i2
_e1 == _e2 = False
data CmmReg
= CmmLocal LocalReg
| CmmGlobal GlobalReg
deriving( Eq, Ord )
data Area
= RegSlot LocalReg
| CallArea AreaId
deriving (Eq, Ord)
data AreaId
= Old
| Young BlockId
deriving (Eq, Ord)
type SubArea = (Area, Int, Int)
type SubAreaSet = Map Area [SubArea]
type AreaMap = Map Area Int
data CmmLit
= CmmInt Integer Width
| CmmFloat Rational Width
| CmmLabel CLabel
| CmmLabelOff CLabel Int
| CmmLabelDiffOff CLabel CLabel Int
| CmmBlock BlockId
| CmmHighStackMark
deriving Eq
cmmExprType :: CmmExpr -> CmmType
cmmExprType (CmmLit lit) = cmmLitType lit
cmmExprType (CmmLoad _ rep) = rep
cmmExprType (CmmReg reg) = cmmRegType reg
cmmExprType (CmmMachOp op args) = machOpResultType op (map cmmExprType args)
cmmExprType (CmmRegOff reg _) = cmmRegType reg
cmmExprType (CmmStackSlot _ _) = bWord
cmmLitType :: CmmLit -> CmmType
cmmLitType (CmmInt _ width) = cmmBits width
cmmLitType (CmmFloat _ width) = cmmFloat width
cmmLitType (CmmLabel lbl) = cmmLabelType lbl
cmmLitType (CmmLabelOff lbl _) = cmmLabelType lbl
cmmLitType (CmmLabelDiffOff {}) = bWord
cmmLitType (CmmBlock _) = bWord
cmmLitType (CmmHighStackMark) = bWord
cmmLabelType :: CLabel -> CmmType
cmmLabelType lbl | isGcPtrLabel lbl = gcWord
| otherwise = bWord
cmmExprWidth :: CmmExpr -> Width
cmmExprWidth e = typeWidth (cmmExprType e)
maybeInvertCmmExpr :: CmmExpr -> Maybe CmmExpr
maybeInvertCmmExpr (CmmMachOp op args) = do op' <- maybeInvertComparison op
return (CmmMachOp op' args)
maybeInvertCmmExpr _ = Nothing
data LocalReg
= LocalReg !Unique CmmType
instance Eq LocalReg where
(LocalReg u1 _) == (LocalReg u2 _) = u1 == u2
instance Ord LocalReg where
compare (LocalReg u1 _) (LocalReg u2 _) = compare u1 u2
instance Uniquable LocalReg where
getUnique (LocalReg uniq _) = uniq
cmmRegType :: CmmReg -> CmmType
cmmRegType (CmmLocal reg) = localRegType reg
cmmRegType (CmmGlobal reg) = globalRegType reg
localRegType :: LocalReg -> CmmType
localRegType (LocalReg _ rep) = rep
type RegSet = UniqSet LocalReg
emptyRegSet :: RegSet
elemRegSet :: LocalReg -> RegSet -> Bool
extendRegSet :: RegSet -> LocalReg -> RegSet
deleteFromRegSet :: RegSet -> LocalReg -> RegSet
mkRegSet :: [LocalReg] -> RegSet
minusRegSet, plusRegSet, timesRegSet :: RegSet -> RegSet -> RegSet
emptyRegSet = emptyUniqSet
elemRegSet = elementOfUniqSet
extendRegSet = addOneToUniqSet
deleteFromRegSet = delOneFromUniqSet
mkRegSet = mkUniqSet
minusRegSet = minusUniqSet
plusRegSet = unionUniqSets
timesRegSet = intersectUniqSets
class UserOfLocalRegs a where
foldRegsUsed :: (b -> LocalReg -> b) -> b -> a -> b
class DefinerOfLocalRegs a where
foldRegsDefd :: (b -> LocalReg -> b) -> b -> a -> b
filterRegsUsed :: UserOfLocalRegs e => (LocalReg -> Bool) -> e -> RegSet
filterRegsUsed p e =
foldRegsUsed (\regs r -> if p r then extendRegSet regs r else regs)
emptyRegSet e
instance UserOfLocalRegs CmmReg where
foldRegsUsed f z (CmmLocal reg) = f z reg
foldRegsUsed _ z (CmmGlobal _) = z
instance DefinerOfLocalRegs CmmReg where
foldRegsDefd f z (CmmLocal reg) = f z reg
foldRegsDefd _ z (CmmGlobal _) = z
instance UserOfLocalRegs LocalReg where
foldRegsUsed f z r = f z r
instance DefinerOfLocalRegs LocalReg where
foldRegsDefd f z r = f z r
instance UserOfLocalRegs RegSet where
foldRegsUsed f = foldUniqSet (flip f)
instance UserOfLocalRegs CmmExpr where
foldRegsUsed f z e = expr z e
where expr z (CmmLit _) = z
expr z (CmmLoad addr _) = foldRegsUsed f z addr
expr z (CmmReg r) = foldRegsUsed f z r
expr z (CmmMachOp _ exprs) = foldRegsUsed f z exprs
expr z (CmmRegOff r _) = foldRegsUsed f z r
expr z (CmmStackSlot _ _) = z
instance UserOfLocalRegs a => UserOfLocalRegs [a] where
foldRegsUsed _ set [] = set
foldRegsUsed f set (x:xs) = foldRegsUsed f (foldRegsUsed f set x) xs
instance DefinerOfLocalRegs a => DefinerOfLocalRegs [a] where
foldRegsDefd _ set [] = set
foldRegsDefd f set (x:xs) = foldRegsDefd f (foldRegsDefd f set x) xs
instance DefinerOfLocalRegs a => DefinerOfLocalRegs (Maybe a) where
foldRegsDefd _ set Nothing = set
foldRegsDefd f set (Just x) = foldRegsDefd f set x
regUsedIn :: CmmReg -> CmmExpr -> Bool
_ `regUsedIn` CmmLit _ = False
reg `regUsedIn` CmmLoad e _ = reg `regUsedIn` e
reg `regUsedIn` CmmReg reg' = reg == reg'
reg `regUsedIn` CmmRegOff reg' _ = reg == reg'
reg `regUsedIn` CmmMachOp _ es = any (reg `regUsedIn`) es
_ `regUsedIn` CmmStackSlot _ _ = False
isStackSlotOf :: CmmExpr -> LocalReg -> Bool
isStackSlotOf (CmmStackSlot (RegSlot r) _) r' = r == r'
isStackSlotOf _ _ = False
regSlot :: LocalReg -> CmmExpr
regSlot r = CmmStackSlot (RegSlot r) (widthInBytes $ typeWidth $ localRegType r)
class UserOfSlots a where
foldSlotsUsed :: (b -> SubArea -> b) -> b -> a -> b
class DefinerOfSlots a where
foldSlotsDefd :: (b -> SubArea -> b) -> b -> a -> b
instance UserOfSlots CmmExpr where
foldSlotsUsed f z e = expr z e
where expr z (CmmLit _) = z
expr z (CmmLoad (CmmStackSlot a i) ty) = f z (a, i, widthInBytes $ typeWidth ty)
expr z (CmmLoad addr _) = foldSlotsUsed f z addr
expr z (CmmReg _) = z
expr z (CmmMachOp _ exprs) = foldSlotsUsed f z exprs
expr z (CmmRegOff _ _) = z
expr z (CmmStackSlot _ _) = z
instance UserOfSlots a => UserOfSlots [a] where
foldSlotsUsed _ set [] = set
foldSlotsUsed f set (x:xs) = foldSlotsUsed f (foldSlotsUsed f set x) xs
instance DefinerOfSlots a => DefinerOfSlots [a] where
foldSlotsDefd _ set [] = set
foldSlotsDefd f set (x:xs) = foldSlotsDefd f (foldSlotsDefd f set x) xs
instance DefinerOfSlots SubArea where
foldSlotsDefd f z a = f z a
data VGcPtr = VGcPtr | VNonGcPtr deriving( Eq, Show )
vgcFlag :: CmmType -> VGcPtr
vgcFlag ty | isGcPtrType ty = VGcPtr
| otherwise = VNonGcPtr
data GlobalReg
= VanillaReg
!Int
VGcPtr
| FloatReg
!Int
| DoubleReg
!Int
| LongReg
!Int
| Sp
| SpLim
| Hp
| HpLim
| CCCS
| CurrentTSO
| CurrentNursery
| HpAlloc
| EagerBlackholeInfo
| GCEnter1
| GCFun
| BaseReg
| PicBaseReg
deriving( Show )
instance Eq GlobalReg where
VanillaReg i _ == VanillaReg j _ = i==j
FloatReg i == FloatReg j = i==j
DoubleReg i == DoubleReg j = i==j
LongReg i == LongReg j = i==j
Sp == Sp = True
SpLim == SpLim = True
Hp == Hp = True
HpLim == HpLim = True
CurrentTSO == CurrentTSO = True
CurrentNursery == CurrentNursery = True
HpAlloc == HpAlloc = True
GCEnter1 == GCEnter1 = True
GCFun == GCFun = True
BaseReg == BaseReg = True
PicBaseReg == PicBaseReg = True
_r1 == _r2 = False
instance Ord GlobalReg where
compare (VanillaReg i _) (VanillaReg j _) = compare i j
compare (FloatReg i) (FloatReg j) = compare i j
compare (DoubleReg i) (DoubleReg j) = compare i j
compare (LongReg i) (LongReg j) = compare i j
compare Sp Sp = EQ
compare SpLim SpLim = EQ
compare Hp Hp = EQ
compare HpLim HpLim = EQ
compare CCCS CCCS = EQ
compare CurrentTSO CurrentTSO = EQ
compare CurrentNursery CurrentNursery = EQ
compare HpAlloc HpAlloc = EQ
compare EagerBlackholeInfo EagerBlackholeInfo = EQ
compare GCEnter1 GCEnter1 = EQ
compare GCFun GCFun = EQ
compare BaseReg BaseReg = EQ
compare PicBaseReg PicBaseReg = EQ
compare (VanillaReg _ _) _ = LT
compare _ (VanillaReg _ _) = GT
compare (FloatReg _) _ = LT
compare _ (FloatReg _) = GT
compare (DoubleReg _) _ = LT
compare _ (DoubleReg _) = GT
compare (LongReg _) _ = LT
compare _ (LongReg _) = GT
compare Sp _ = LT
compare _ Sp = GT
compare SpLim _ = LT
compare _ SpLim = GT
compare Hp _ = LT
compare _ Hp = GT
compare HpLim _ = LT
compare _ HpLim = GT
compare CCCS _ = LT
compare _ CCCS = GT
compare CurrentTSO _ = LT
compare _ CurrentTSO = GT
compare CurrentNursery _ = LT
compare _ CurrentNursery = GT
compare HpAlloc _ = LT
compare _ HpAlloc = GT
compare GCEnter1 _ = LT
compare _ GCEnter1 = GT
compare GCFun _ = LT
compare _ GCFun = GT
compare BaseReg _ = LT
compare _ BaseReg = GT
compare EagerBlackholeInfo _ = LT
compare _ EagerBlackholeInfo = GT
baseReg, spReg, hpReg, spLimReg, nodeReg :: CmmReg
baseReg = CmmGlobal BaseReg
spReg = CmmGlobal Sp
hpReg = CmmGlobal Hp
spLimReg = CmmGlobal SpLim
nodeReg = CmmGlobal node
node :: GlobalReg
node = VanillaReg 1 VGcPtr
globalRegType :: GlobalReg -> CmmType
globalRegType (VanillaReg _ VGcPtr) = gcWord
globalRegType (VanillaReg _ VNonGcPtr) = bWord
globalRegType (FloatReg _) = cmmFloat W32
globalRegType (DoubleReg _) = cmmFloat W64
globalRegType (LongReg _) = cmmBits W64
globalRegType Hp = gcWord
globalRegType _ = bWord