{-# LANGUAGE RecordWildCards #-}
module GHC.CmmToAsm.Reg.Linear.Base (
BlockAssignment,
lookupBlockAssignment,
lookupFirstUsed,
emptyBlockAssignment,
updateBlockAssignment,
Loc(..),
regsOfLoc,
SpillReason(..),
RegAllocStats(..),
RA_State(..),
)
where
import GHC.Prelude
import GHC.CmmToAsm.Reg.Linear.StackMap
import GHC.CmmToAsm.Reg.Liveness
import GHC.CmmToAsm.Config
import GHC.Platform.Reg
import GHC.Utils.Outputable
import GHC.Types.Unique
import GHC.Types.Unique.FM
import GHC.Types.Unique.Supply
import GHC.Cmm.BlockId
import GHC.Cmm.Dataflow.Collections
import GHC.CmmToAsm.Reg.Utils
data ReadingOrWriting = Reading | Writing deriving (ReadingOrWriting -> ReadingOrWriting -> Bool
(ReadingOrWriting -> ReadingOrWriting -> Bool)
-> (ReadingOrWriting -> ReadingOrWriting -> Bool)
-> Eq ReadingOrWriting
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
$c== :: ReadingOrWriting -> ReadingOrWriting -> Bool
== :: ReadingOrWriting -> ReadingOrWriting -> Bool
$c/= :: ReadingOrWriting -> ReadingOrWriting -> Bool
/= :: ReadingOrWriting -> ReadingOrWriting -> Bool
Eq,Eq ReadingOrWriting
Eq ReadingOrWriting
-> (ReadingOrWriting -> ReadingOrWriting -> Ordering)
-> (ReadingOrWriting -> ReadingOrWriting -> Bool)
-> (ReadingOrWriting -> ReadingOrWriting -> Bool)
-> (ReadingOrWriting -> ReadingOrWriting -> Bool)
-> (ReadingOrWriting -> ReadingOrWriting -> Bool)
-> (ReadingOrWriting -> ReadingOrWriting -> ReadingOrWriting)
-> (ReadingOrWriting -> ReadingOrWriting -> ReadingOrWriting)
-> Ord ReadingOrWriting
ReadingOrWriting -> ReadingOrWriting -> Bool
ReadingOrWriting -> ReadingOrWriting -> Ordering
ReadingOrWriting -> ReadingOrWriting -> ReadingOrWriting
forall a.
Eq a
-> (a -> a -> Ordering)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> a)
-> (a -> a -> a)
-> Ord a
$ccompare :: ReadingOrWriting -> ReadingOrWriting -> Ordering
compare :: ReadingOrWriting -> ReadingOrWriting -> Ordering
$c< :: ReadingOrWriting -> ReadingOrWriting -> Bool
< :: ReadingOrWriting -> ReadingOrWriting -> Bool
$c<= :: ReadingOrWriting -> ReadingOrWriting -> Bool
<= :: ReadingOrWriting -> ReadingOrWriting -> Bool
$c> :: ReadingOrWriting -> ReadingOrWriting -> Bool
> :: ReadingOrWriting -> ReadingOrWriting -> Bool
$c>= :: ReadingOrWriting -> ReadingOrWriting -> Bool
>= :: ReadingOrWriting -> ReadingOrWriting -> Bool
$cmax :: ReadingOrWriting -> ReadingOrWriting -> ReadingOrWriting
max :: ReadingOrWriting -> ReadingOrWriting -> ReadingOrWriting
$cmin :: ReadingOrWriting -> ReadingOrWriting -> ReadingOrWriting
min :: ReadingOrWriting -> ReadingOrWriting -> ReadingOrWriting
Ord)
data BlockAssignment freeRegs
= BlockAssignment { forall freeRegs.
BlockAssignment freeRegs -> BlockMap (freeRegs, RegMap Loc)
blockMap :: !(BlockMap (freeRegs, RegMap Loc))
, forall freeRegs.
BlockAssignment freeRegs -> UniqFM VirtualReg RealReg
firstUsed :: !(UniqFM VirtualReg RealReg) }
lookupBlockAssignment :: BlockId -> BlockAssignment freeRegs -> Maybe (freeRegs, RegMap Loc)
lookupBlockAssignment :: forall freeRegs.
BlockId -> BlockAssignment freeRegs -> Maybe (freeRegs, RegMap Loc)
lookupBlockAssignment BlockId
bid BlockAssignment freeRegs
ba = KeyOf LabelMap
-> LabelMap (freeRegs, RegMap Loc) -> Maybe (freeRegs, RegMap Loc)
forall a. KeyOf LabelMap -> LabelMap a -> Maybe a
forall (map :: * -> *) a.
IsMap map =>
KeyOf map -> map a -> Maybe a
mapLookup KeyOf LabelMap
BlockId
bid (BlockAssignment freeRegs -> LabelMap (freeRegs, RegMap Loc)
forall freeRegs.
BlockAssignment freeRegs -> BlockMap (freeRegs, RegMap Loc)
blockMap BlockAssignment freeRegs
ba)
lookupFirstUsed :: VirtualReg -> BlockAssignment freeRegs -> Maybe RealReg
lookupFirstUsed :: forall freeRegs.
VirtualReg -> BlockAssignment freeRegs -> Maybe RealReg
lookupFirstUsed VirtualReg
vr BlockAssignment freeRegs
ba = UniqFM VirtualReg RealReg -> VirtualReg -> Maybe RealReg
forall key elt. Uniquable key => UniqFM key elt -> key -> Maybe elt
lookupUFM (BlockAssignment freeRegs -> UniqFM VirtualReg RealReg
forall freeRegs.
BlockAssignment freeRegs -> UniqFM VirtualReg RealReg
firstUsed BlockAssignment freeRegs
ba) VirtualReg
vr
emptyBlockAssignment :: BlockAssignment freeRegs
emptyBlockAssignment :: forall freeRegs. BlockAssignment freeRegs
emptyBlockAssignment = BlockMap (freeRegs, RegMap Loc)
-> UniqFM VirtualReg RealReg -> BlockAssignment freeRegs
forall freeRegs.
BlockMap (freeRegs, RegMap Loc)
-> UniqFM VirtualReg RealReg -> BlockAssignment freeRegs
BlockAssignment BlockMap (freeRegs, RegMap Loc)
forall a. LabelMap a
forall (map :: * -> *) a. IsMap map => map a
mapEmpty UniqFM VirtualReg RealReg
forall a. Monoid a => a
mempty
updateBlockAssignment :: BlockId
-> (freeRegs, RegMap Loc)
-> BlockAssignment freeRegs
-> BlockAssignment freeRegs
updateBlockAssignment :: forall freeRegs.
BlockId
-> (freeRegs, RegMap Loc)
-> BlockAssignment freeRegs
-> BlockAssignment freeRegs
updateBlockAssignment BlockId
dest (freeRegs
freeRegs, RegMap Loc
regMap) (BlockAssignment {UniqFM VirtualReg RealReg
BlockMap (freeRegs, RegMap Loc)
blockMap :: forall freeRegs.
BlockAssignment freeRegs -> BlockMap (freeRegs, RegMap Loc)
firstUsed :: forall freeRegs.
BlockAssignment freeRegs -> UniqFM VirtualReg RealReg
blockMap :: BlockMap (freeRegs, RegMap Loc)
firstUsed :: UniqFM VirtualReg RealReg
..}) =
BlockMap (freeRegs, RegMap Loc)
-> UniqFM VirtualReg RealReg -> BlockAssignment freeRegs
forall freeRegs.
BlockMap (freeRegs, RegMap Loc)
-> UniqFM VirtualReg RealReg -> BlockAssignment freeRegs
BlockAssignment (KeyOf LabelMap
-> (freeRegs, RegMap Loc)
-> BlockMap (freeRegs, RegMap Loc)
-> BlockMap (freeRegs, RegMap Loc)
forall a. KeyOf LabelMap -> a -> LabelMap a -> LabelMap a
forall (map :: * -> *) a.
IsMap map =>
KeyOf map -> a -> map a -> map a
mapInsert KeyOf LabelMap
BlockId
dest (freeRegs
freeRegs, RegMap Loc
regMap) BlockMap (freeRegs, RegMap Loc)
blockMap)
((RealReg -> Loc -> Maybe RealReg)
-> (UniqFM VirtualReg RealReg -> UniqFM VirtualReg RealReg)
-> (UniqFM VirtualReg Loc -> UniqFM VirtualReg RealReg)
-> UniqFM VirtualReg RealReg
-> UniqFM VirtualReg Loc
-> UniqFM VirtualReg RealReg
forall elta eltb eltc key.
(elta -> eltb -> Maybe eltc)
-> (UniqFM key elta -> UniqFM key eltc)
-> (UniqFM key eltb -> UniqFM key eltc)
-> UniqFM key elta
-> UniqFM key eltb
-> UniqFM key eltc
mergeUFM RealReg -> Loc -> Maybe RealReg
combWithExisting UniqFM VirtualReg RealReg -> UniqFM VirtualReg RealReg
forall a. a -> a
id ((Loc -> Maybe RealReg)
-> UniqFM VirtualReg Loc -> UniqFM VirtualReg RealReg
forall elt1 elt2 key.
(elt1 -> Maybe elt2) -> UniqFM key elt1 -> UniqFM key elt2
mapMaybeUFM Loc -> Maybe RealReg
fromLoc) (UniqFM VirtualReg RealReg
firstUsed) (RegMap Loc -> UniqFM VirtualReg Loc
forall elt. UniqFM Reg elt -> UniqFM VirtualReg elt
toVRegMap RegMap Loc
regMap))
where
combWithExisting :: RealReg -> Loc -> Maybe RealReg
combWithExisting :: RealReg -> Loc -> Maybe RealReg
combWithExisting RealReg
old_reg Loc
_ = RealReg -> Maybe RealReg
forall a. a -> Maybe a
Just (RealReg -> Maybe RealReg) -> RealReg -> Maybe RealReg
forall a b. (a -> b) -> a -> b
$ RealReg
old_reg
fromLoc :: Loc -> Maybe RealReg
fromLoc :: Loc -> Maybe RealReg
fromLoc (InReg RealReg
rr) = RealReg -> Maybe RealReg
forall a. a -> Maybe a
Just RealReg
rr
fromLoc (InBoth RealReg
rr StackSlot
_) = RealReg -> Maybe RealReg
forall a. a -> Maybe a
Just RealReg
rr
fromLoc Loc
_ = Maybe RealReg
forall a. Maybe a
Nothing
data Loc
= InReg !RealReg
| InMem {-# UNPACK #-} !StackSlot
| InBoth !RealReg
{-# UNPACK #-} !StackSlot
deriving (Loc -> Loc -> Bool
(Loc -> Loc -> Bool) -> (Loc -> Loc -> Bool) -> Eq Loc
forall a. (a -> a -> Bool) -> (a -> a -> Bool) -> Eq a
$c== :: Loc -> Loc -> Bool
== :: Loc -> Loc -> Bool
$c/= :: Loc -> Loc -> Bool
/= :: Loc -> Loc -> Bool
Eq, StackSlot -> Loc -> ShowS
[Loc] -> ShowS
Loc -> String
(StackSlot -> Loc -> ShowS)
-> (Loc -> String) -> ([Loc] -> ShowS) -> Show Loc
forall a.
(StackSlot -> a -> ShowS)
-> (a -> String) -> ([a] -> ShowS) -> Show a
$cshowsPrec :: StackSlot -> Loc -> ShowS
showsPrec :: StackSlot -> Loc -> ShowS
$cshow :: Loc -> String
show :: Loc -> String
$cshowList :: [Loc] -> ShowS
showList :: [Loc] -> ShowS
Show, Eq Loc
Eq Loc
-> (Loc -> Loc -> Ordering)
-> (Loc -> Loc -> Bool)
-> (Loc -> Loc -> Bool)
-> (Loc -> Loc -> Bool)
-> (Loc -> Loc -> Bool)
-> (Loc -> Loc -> Loc)
-> (Loc -> Loc -> Loc)
-> Ord Loc
Loc -> Loc -> Bool
Loc -> Loc -> Ordering
Loc -> Loc -> Loc
forall a.
Eq a
-> (a -> a -> Ordering)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> Bool)
-> (a -> a -> a)
-> (a -> a -> a)
-> Ord a
$ccompare :: Loc -> Loc -> Ordering
compare :: Loc -> Loc -> Ordering
$c< :: Loc -> Loc -> Bool
< :: Loc -> Loc -> Bool
$c<= :: Loc -> Loc -> Bool
<= :: Loc -> Loc -> Bool
$c> :: Loc -> Loc -> Bool
> :: Loc -> Loc -> Bool
$c>= :: Loc -> Loc -> Bool
>= :: Loc -> Loc -> Bool
$cmax :: Loc -> Loc -> Loc
max :: Loc -> Loc -> Loc
$cmin :: Loc -> Loc -> Loc
min :: Loc -> Loc -> Loc
Ord)
instance Outputable Loc where
ppr :: Loc -> SDoc
ppr Loc
l = String -> SDoc
text (Loc -> String
forall a. Show a => a -> String
show Loc
l)
regsOfLoc :: Loc -> [RealReg]
regsOfLoc :: Loc -> [RealReg]
regsOfLoc (InReg RealReg
r) = [RealReg
r]
regsOfLoc (InBoth RealReg
r StackSlot
_) = [RealReg
r]
regsOfLoc (InMem StackSlot
_) = []
data SpillReason
= SpillAlloc !Unique
| SpillClobber !Unique
| SpillLoad !Unique
| SpillJoinRR !Unique
| SpillJoinRM !Unique
data RegAllocStats
= RegAllocStats
{ RegAllocStats -> UniqFM Unique [StackSlot]
ra_spillInstrs :: UniqFM Unique [Int]
, RegAllocStats -> [(BlockId, BlockId, BlockId)]
ra_fixupList :: [(BlockId,BlockId,BlockId)]
}
data RA_State freeRegs
= RA_State
{
forall freeRegs. RA_State freeRegs -> BlockAssignment freeRegs
ra_blockassig :: BlockAssignment freeRegs
, forall freeRegs. RA_State freeRegs -> freeRegs
ra_freeregs :: !freeRegs
, forall freeRegs. RA_State freeRegs -> RegMap Loc
ra_assig :: RegMap Loc
, forall freeRegs. RA_State freeRegs -> StackSlot
ra_delta :: Int
, forall freeRegs. RA_State freeRegs -> StackMap
ra_stack :: StackMap
, forall freeRegs. RA_State freeRegs -> UniqSupply
ra_us :: UniqSupply
, forall freeRegs. RA_State freeRegs -> [SpillReason]
ra_spills :: [SpillReason]
, forall freeRegs. RA_State freeRegs -> NCGConfig
ra_config :: !NCGConfig
, forall freeRegs. RA_State freeRegs -> [(BlockId, BlockId, BlockId)]
ra_fixups :: [(BlockId,BlockId,BlockId)]
}