{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE NondecreasingIndentation #-}
{-# LANGUAGE TupleSections #-}
{-# OPTIONS_GHC -Wno-incomplete-uni-patterns #-}
module GHC.CmmToAsm.X86.CodeGen (
cmmTopCodeGen,
generateJumpTableForInstr,
extractUnwindPoints,
invertCondBranches,
InstrBlock
)
where
import GHC.Prelude
import GHC.CmmToAsm.X86.Instr
import GHC.CmmToAsm.X86.Cond
import GHC.CmmToAsm.X86.Regs
import GHC.CmmToAsm.X86.Ppr
import GHC.CmmToAsm.X86.RegInfo
import GHC.Platform.Regs
import GHC.CmmToAsm.CPrim
import GHC.CmmToAsm.Types
import GHC.Cmm.DebugBlock
( DebugBlock(..), UnwindPoint(..), UnwindTable
, UnwindExpr(UwReg), toUnwindExpr
)
import GHC.CmmToAsm.PIC
import GHC.CmmToAsm.Monad
( NatM, getNewRegNat, getNewLabelNat, setDeltaNat
, getDeltaNat, getBlockIdNat, getPicBaseNat
, Reg64(..), RegCode64(..), getNewReg64, localReg64
, getPicBaseMaybeNat, getDebugBlock, getFileId
, addImmediateSuccessorNat, updateCfgNat, getConfig, getPlatform
, getCfgWeights
)
import GHC.CmmToAsm.CFG
import GHC.CmmToAsm.Format
import GHC.CmmToAsm.Config
import GHC.Platform.Reg
import GHC.Platform
import GHC.Types.Basic
import GHC.Cmm.BlockId
import GHC.Unit.Types ( primUnitId )
import GHC.Cmm.Utils
import GHC.Cmm.Switch
import GHC.Cmm
import GHC.Cmm.Dataflow.Block
import GHC.Cmm.Dataflow.Collections
import GHC.Cmm.Dataflow.Graph
import GHC.Cmm.Dataflow.Label
import GHC.Cmm.CLabel
import GHC.Types.Tickish ( GenTickish(..) )
import GHC.Types.SrcLoc ( srcSpanFile, srcSpanStartLine, srcSpanStartCol )
import GHC.Types.ForeignCall ( CCallConv(..) )
import GHC.Data.OrdList
import GHC.Utils.Outputable
import GHC.Utils.Constants (debugIsOn)
import GHC.Utils.Panic
import GHC.Utils.Panic.Plain
import GHC.Data.FastString
import GHC.Utils.Misc
import GHC.Types.Unique.Supply ( getUniqueM )
import Control.Monad
import Data.Foldable (fold)
import Data.Int
import Data.Maybe
import Data.Word
import qualified Data.Map as M
is32BitPlatform :: NatM Bool
is32BitPlatform :: NatM Bool
is32BitPlatform = do
Platform
platform <- NatM Platform
getPlatform
Bool -> NatM Bool
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Bool -> NatM Bool) -> Bool -> NatM Bool
forall a b. (a -> b) -> a -> b
$ Platform -> Bool
target32Bit Platform
platform
expect32BitPlatform :: SDoc -> NatM ()
expect32BitPlatform :: SDoc -> NatM ()
expect32BitPlatform SDoc
doc = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
Bool -> NatM () -> NatM ()
forall (f :: * -> *). Applicative f => Bool -> f () -> f ()
when (Bool -> Bool
not Bool
is32Bit) (NatM () -> NatM ()) -> NatM () -> NatM ()
forall a b. (a -> b) -> a -> b
$
String -> SDoc -> NatM ()
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"Expecting 32-bit platform" SDoc
doc
sse2Enabled :: NatM Bool
sse2Enabled :: NatM Bool
sse2Enabled = do
NCGConfig
config <- NatM NCGConfig
getConfig
Bool -> NatM Bool
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (NCGConfig -> Maybe SseVersion
ncgSseVersion NCGConfig
config Maybe SseVersion -> Maybe SseVersion -> Bool
forall a. Ord a => a -> a -> Bool
>= SseVersion -> Maybe SseVersion
forall a. a -> Maybe a
Just SseVersion
SSE2)
sse4_2Enabled :: NatM Bool
sse4_2Enabled :: NatM Bool
sse4_2Enabled = do
NCGConfig
config <- NatM NCGConfig
getConfig
Bool -> NatM Bool
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (NCGConfig -> Maybe SseVersion
ncgSseVersion NCGConfig
config Maybe SseVersion -> Maybe SseVersion -> Bool
forall a. Ord a => a -> a -> Bool
>= SseVersion -> Maybe SseVersion
forall a. a -> Maybe a
Just SseVersion
SSE42)
cmmTopCodeGen
:: RawCmmDecl
-> NatM [NatCmmDecl (Alignment, RawCmmStatics) Instr]
cmmTopCodeGen :: RawCmmDecl -> NatM [NatCmmDecl (Alignment, RawCmmStatics) Instr]
cmmTopCodeGen (CmmProc LabelMap RawCmmStatics
info CLabel
lab [GlobalReg]
live CmmGraph
graph) = do
let blocks :: [CmmBlock]
blocks = CmmGraph -> [CmmBlock]
toBlockListEntryFirst CmmGraph
graph
([[NatBasicBlock Instr]]
nat_blocks,[[NatCmmDecl (Alignment, RawCmmStatics) Instr]]
statics) <- (CmmBlock
-> NatM
([NatBasicBlock Instr],
[NatCmmDecl (Alignment, RawCmmStatics) Instr]))
-> [CmmBlock]
-> NatM
([[NatBasicBlock Instr]],
[[NatCmmDecl (Alignment, RawCmmStatics) Instr]])
forall (m :: * -> *) a b c.
Applicative m =>
(a -> m (b, c)) -> [a] -> m ([b], [c])
mapAndUnzipM CmmBlock
-> NatM
([NatBasicBlock Instr],
[NatCmmDecl (Alignment, RawCmmStatics) Instr])
basicBlockCodeGen [CmmBlock]
blocks
Maybe Reg
picBaseMb <- NatM (Maybe Reg)
getPicBaseMaybeNat
Platform
platform <- NatM Platform
getPlatform
let proc :: NatCmmDecl (Alignment, RawCmmStatics) Instr
proc = LabelMap RawCmmStatics
-> CLabel
-> [GlobalReg]
-> ListGraph Instr
-> NatCmmDecl (Alignment, RawCmmStatics) Instr
forall d h g. h -> CLabel -> [GlobalReg] -> g -> GenCmmDecl d h g
CmmProc LabelMap RawCmmStatics
info CLabel
lab [GlobalReg]
live ([NatBasicBlock Instr] -> ListGraph Instr
forall i. [GenBasicBlock i] -> ListGraph i
ListGraph ([NatBasicBlock Instr] -> ListGraph Instr)
-> [NatBasicBlock Instr] -> ListGraph Instr
forall a b. (a -> b) -> a -> b
$ [[NatBasicBlock Instr]] -> [NatBasicBlock Instr]
forall (t :: * -> *) a. Foldable t => t [a] -> [a]
concat [[NatBasicBlock Instr]]
nat_blocks)
tops :: [NatCmmDecl (Alignment, RawCmmStatics) Instr]
tops = NatCmmDecl (Alignment, RawCmmStatics) Instr
proc NatCmmDecl (Alignment, RawCmmStatics) Instr
-> [NatCmmDecl (Alignment, RawCmmStatics) Instr]
-> [NatCmmDecl (Alignment, RawCmmStatics) Instr]
forall a. a -> [a] -> [a]
: [[NatCmmDecl (Alignment, RawCmmStatics) Instr]]
-> [NatCmmDecl (Alignment, RawCmmStatics) Instr]
forall (t :: * -> *) a. Foldable t => t [a] -> [a]
concat [[NatCmmDecl (Alignment, RawCmmStatics) Instr]]
statics
os :: OS
os = Platform -> OS
platformOS Platform
platform
case Maybe Reg
picBaseMb of
Just Reg
picBase -> Arch
-> OS
-> Reg
-> [NatCmmDecl (Alignment, RawCmmStatics) Instr]
-> NatM [NatCmmDecl (Alignment, RawCmmStatics) Instr]
initializePicBase_x86 Arch
ArchX86 OS
os Reg
picBase [NatCmmDecl (Alignment, RawCmmStatics) Instr]
tops
Maybe Reg
Nothing -> [NatCmmDecl (Alignment, RawCmmStatics) Instr]
-> NatM [NatCmmDecl (Alignment, RawCmmStatics) Instr]
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return [NatCmmDecl (Alignment, RawCmmStatics) Instr]
tops
cmmTopCodeGen (CmmData Section
sec RawCmmStatics
dat) =
[NatCmmDecl (Alignment, RawCmmStatics) Instr]
-> NatM [NatCmmDecl (Alignment, RawCmmStatics) Instr]
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return [Section
-> (Alignment, RawCmmStatics)
-> NatCmmDecl (Alignment, RawCmmStatics) Instr
forall d h g. Section -> d -> GenCmmDecl d h g
CmmData Section
sec (Int -> Alignment
mkAlignment Int
1, RawCmmStatics
dat)]
verifyBasicBlock :: Platform -> [Instr] -> ()
verifyBasicBlock :: Platform -> [Instr] -> ()
verifyBasicBlock Platform
platform [Instr]
instrs
| Bool
debugIsOn = Bool -> [Instr] -> ()
go Bool
False [Instr]
instrs
| Bool
otherwise = ()
where
go :: Bool -> [Instr] -> ()
go Bool
_ [] = ()
go Bool
atEnd (Instr
i:[Instr]
instr)
= case Instr
i of
NEWBLOCK {} -> Bool -> [Instr] -> ()
go Bool
False [Instr]
instr
CALL {} | Bool
atEnd -> Instr -> ()
faultyBlockWith Instr
i
| Bool -> Bool
not Bool
atEnd -> Bool -> [Instr] -> ()
go Bool
atEnd [Instr]
instr
Instr
_ | Bool -> Bool
not Bool
atEnd -> Bool -> [Instr] -> ()
go (Instr -> Bool
isJumpishInstr Instr
i) [Instr]
instr
| Bool
otherwise -> if Instr -> Bool
isJumpishInstr Instr
i
then Bool -> [Instr] -> ()
go Bool
True [Instr]
instr
else Instr -> ()
faultyBlockWith Instr
i
faultyBlockWith :: Instr -> ()
faultyBlockWith Instr
i
= String -> SDoc -> ()
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"Non control flow instructions after end of basic block."
(Platform -> Instr -> SDoc
forall doc. IsDoc doc => Platform -> Instr -> doc
pprInstr Platform
platform Instr
i SDoc -> SDoc -> SDoc
forall doc. IsLine doc => doc -> doc -> doc
<+> String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"in:" SDoc -> SDoc -> SDoc
forall doc. IsDoc doc => doc -> doc -> doc
$$ [SDoc] -> SDoc
forall doc. IsDoc doc => [doc] -> doc
vcat ((Instr -> SDoc) -> [Instr] -> [SDoc]
forall a b. (a -> b) -> [a] -> [b]
map (Platform -> Instr -> SDoc
forall doc. IsDoc doc => Platform -> Instr -> doc
pprInstr Platform
platform) [Instr]
instrs))
basicBlockCodeGen
:: CmmBlock
-> NatM ( [NatBasicBlock Instr]
, [NatCmmDecl (Alignment, RawCmmStatics) Instr])
basicBlockCodeGen :: CmmBlock
-> NatM
([NatBasicBlock Instr],
[NatCmmDecl (Alignment, RawCmmStatics) Instr])
basicBlockCodeGen CmmBlock
block = do
let (CmmNode C O
_, Block CmmNode O O
nodes, CmmNode O C
tail) = CmmBlock -> (CmmNode C O, Block CmmNode O O, CmmNode O C)
forall (n :: Extensibility -> Extensibility -> *).
Block n C C -> (n C O, Block n O O, n O C)
blockSplit CmmBlock
block
id :: Label
id = CmmBlock -> Label
forall (x :: Extensibility). Block CmmNode C x -> Label
forall (thing :: Extensibility -> Extensibility -> *)
(x :: Extensibility).
NonLocal thing =>
thing C x -> Label
entryLabel CmmBlock
block
stmts :: [CmmNode O O]
stmts = Block CmmNode O O -> [CmmNode O O]
forall (n :: Extensibility -> Extensibility -> *).
Block n O O -> [n O O]
blockToList Block CmmNode O O
nodes
Maybe DebugBlock
dbg <- Label -> NatM (Maybe DebugBlock)
getDebugBlock (CmmBlock -> Label
forall (x :: Extensibility). Block CmmNode C x -> Label
forall (thing :: Extensibility -> Extensibility -> *)
(x :: Extensibility).
NonLocal thing =>
thing C x -> Label
entryLabel CmmBlock
block)
OrdList Instr
loc_instrs <- case DebugBlock -> Maybe CmmTickish
dblSourceTick (DebugBlock -> Maybe CmmTickish)
-> Maybe DebugBlock -> Maybe CmmTickish
forall (m :: * -> *) a b. Monad m => (a -> m b) -> m a -> m b
=<< Maybe DebugBlock
dbg of
Just (SourceNote RealSrcSpan
span (LexicalFastString FastString
name))
-> do Int
fileId <- FastString -> NatM Int
getFileId (RealSrcSpan -> FastString
srcSpanFile RealSrcSpan
span)
let line :: Int
line = RealSrcSpan -> Int
srcSpanStartLine RealSrcSpan
span; col :: Int
col = RealSrcSpan -> Int
srcSpanStartCol RealSrcSpan
span
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Instr -> OrdList Instr) -> Instr -> OrdList Instr
forall a b. (a -> b) -> a -> b
$ Int -> Int -> Int -> String -> Instr
LOCATION Int
fileId Int
line Int
col (FastString -> String
unpackFS FastString
name)
Maybe CmmTickish
_ -> OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
forall a. OrdList a
nilOL
(OrdList Instr
mid_instrs,Label
mid_bid) <- Label -> [CmmNode O O] -> NatM (OrdList Instr, Label)
stmtsToInstrs Label
id [CmmNode O O]
stmts
(!OrdList Instr
tail_instrs,Maybe Label
_) <- Label -> CmmNode O C -> NatM (OrdList Instr, Maybe Label)
forall (e :: Extensibility) (x :: Extensibility).
Label -> CmmNode e x -> NatM (OrdList Instr, Maybe Label)
stmtToInstrs Label
mid_bid CmmNode O C
tail
let instrs :: OrdList Instr
instrs = OrdList Instr
loc_instrs OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
mid_instrs OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
tail_instrs
Platform
platform <- NatM Platform
getPlatform
() -> NatM ()
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (() -> NatM ()) -> () -> NatM ()
forall a b. (a -> b) -> a -> b
$! Platform -> [Instr] -> ()
verifyBasicBlock Platform
platform (OrdList Instr -> [Instr]
forall a. OrdList a -> [a]
fromOL OrdList Instr
instrs)
OrdList Instr
instrs' <- OrdList (OrdList Instr) -> OrdList Instr
forall m. Monoid m => OrdList m -> m
forall (t :: * -> *) m. (Foldable t, Monoid m) => t m -> m
fold (OrdList (OrdList Instr) -> OrdList Instr)
-> NatM (OrdList (OrdList Instr)) -> NatM (OrdList Instr)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> (Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList (OrdList Instr))
forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
forall (f :: * -> *) a b.
Applicative f =>
(a -> f b) -> OrdList a -> f (OrdList b)
traverse Instr -> NatM (OrdList Instr)
addSpUnwindings OrdList Instr
instrs
let
([Instr]
top,[NatBasicBlock Instr]
other_blocks,[NatCmmDecl (Alignment, RawCmmStatics) Instr]
statics) = (Instr
-> ([Instr], [NatBasicBlock Instr],
[NatCmmDecl (Alignment, RawCmmStatics) Instr])
-> ([Instr], [NatBasicBlock Instr],
[NatCmmDecl (Alignment, RawCmmStatics) Instr]))
-> ([Instr], [NatBasicBlock Instr],
[NatCmmDecl (Alignment, RawCmmStatics) Instr])
-> OrdList Instr
-> ([Instr], [NatBasicBlock Instr],
[NatCmmDecl (Alignment, RawCmmStatics) Instr])
forall a b. (a -> b -> b) -> b -> OrdList a -> b
foldrOL Instr
-> ([Instr], [NatBasicBlock Instr],
[NatCmmDecl (Alignment, RawCmmStatics) Instr])
-> ([Instr], [NatBasicBlock Instr],
[NatCmmDecl (Alignment, RawCmmStatics) Instr])
forall {h} {g}.
Instr
-> ([Instr], [NatBasicBlock Instr],
[GenCmmDecl (Alignment, RawCmmStatics) h g])
-> ([Instr], [NatBasicBlock Instr],
[GenCmmDecl (Alignment, RawCmmStatics) h g])
mkBlocks ([],[],[]) OrdList Instr
instrs'
mkBlocks :: Instr
-> ([Instr], [NatBasicBlock Instr],
[GenCmmDecl (Alignment, RawCmmStatics) h g])
-> ([Instr], [NatBasicBlock Instr],
[GenCmmDecl (Alignment, RawCmmStatics) h g])
mkBlocks (NEWBLOCK Label
id) ([Instr]
instrs,[NatBasicBlock Instr]
blocks,[GenCmmDecl (Alignment, RawCmmStatics) h g]
statics)
= ([], Label -> [Instr] -> NatBasicBlock Instr
forall i. Label -> [i] -> GenBasicBlock i
BasicBlock Label
id [Instr]
instrs NatBasicBlock Instr
-> [NatBasicBlock Instr] -> [NatBasicBlock Instr]
forall a. a -> [a] -> [a]
: [NatBasicBlock Instr]
blocks, [GenCmmDecl (Alignment, RawCmmStatics) h g]
statics)
mkBlocks (LDATA Section
sec (Alignment, RawCmmStatics)
dat) ([Instr]
instrs,[NatBasicBlock Instr]
blocks,[GenCmmDecl (Alignment, RawCmmStatics) h g]
statics)
= ([Instr]
instrs, [NatBasicBlock Instr]
blocks, Section
-> (Alignment, RawCmmStatics)
-> GenCmmDecl (Alignment, RawCmmStatics) h g
forall d h g. Section -> d -> GenCmmDecl d h g
CmmData Section
sec (Alignment, RawCmmStatics)
datGenCmmDecl (Alignment, RawCmmStatics) h g
-> [GenCmmDecl (Alignment, RawCmmStatics) h g]
-> [GenCmmDecl (Alignment, RawCmmStatics) h g]
forall a. a -> [a] -> [a]
:[GenCmmDecl (Alignment, RawCmmStatics) h g]
statics)
mkBlocks Instr
instr ([Instr]
instrs,[NatBasicBlock Instr]
blocks,[GenCmmDecl (Alignment, RawCmmStatics) h g]
statics)
= (Instr
instrInstr -> [Instr] -> [Instr]
forall a. a -> [a] -> [a]
:[Instr]
instrs, [NatBasicBlock Instr]
blocks, [GenCmmDecl (Alignment, RawCmmStatics) h g]
statics)
([NatBasicBlock Instr],
[NatCmmDecl (Alignment, RawCmmStatics) Instr])
-> NatM
([NatBasicBlock Instr],
[NatCmmDecl (Alignment, RawCmmStatics) Instr])
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Label -> [Instr] -> NatBasicBlock Instr
forall i. Label -> [i] -> GenBasicBlock i
BasicBlock Label
id [Instr]
top NatBasicBlock Instr
-> [NatBasicBlock Instr] -> [NatBasicBlock Instr]
forall a. a -> [a] -> [a]
: [NatBasicBlock Instr]
other_blocks, [NatCmmDecl (Alignment, RawCmmStatics) Instr]
statics)
addSpUnwindings :: Instr -> NatM (OrdList Instr)
addSpUnwindings :: Instr -> NatM (OrdList Instr)
addSpUnwindings instr :: Instr
instr@(DELTA Int
d) = do
NCGConfig
config <- NatM NCGConfig
getConfig
let platform :: Platform
platform = NCGConfig -> Platform
ncgPlatform NCGConfig
config
if NCGConfig -> Bool
ncgDwarfUnwindings NCGConfig
config
then do CLabel
lbl <- Unique -> CLabel
forall a. Uniquable a => a -> CLabel
mkAsmTempLabel (Unique -> CLabel) -> NatM Unique -> NatM CLabel
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NatM Unique
forall (m :: * -> *). MonadUnique m => m Unique
getUniqueM
let unwind :: Map GlobalReg (Maybe UnwindExpr)
unwind = GlobalReg -> Maybe UnwindExpr -> Map GlobalReg (Maybe UnwindExpr)
forall k a. k -> a -> Map k a
M.singleton GlobalReg
MachSp (UnwindExpr -> Maybe UnwindExpr
forall a. a -> Maybe a
Just (UnwindExpr -> Maybe UnwindExpr) -> UnwindExpr -> Maybe UnwindExpr
forall a b. (a -> b) -> a -> b
$ GlobalRegUse -> Int -> UnwindExpr
UwReg (GlobalReg -> CmmType -> GlobalRegUse
GlobalRegUse GlobalReg
MachSp (Platform -> CmmType
bWord Platform
platform)) (Int -> UnwindExpr) -> Int -> UnwindExpr
forall a b. (a -> b) -> a -> b
$ Int -> Int
forall a. Num a => a -> a
negate Int
d)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [ Instr
instr, CLabel -> Map GlobalReg (Maybe UnwindExpr) -> Instr
UNWIND CLabel
lbl Map GlobalReg (Maybe UnwindExpr)
unwind ]
else OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL Instr
instr)
addSpUnwindings Instr
instr = OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL Instr
instr
stmtsToInstrs :: BlockId
-> [CmmNode O O]
-> NatM (InstrBlock, BlockId)
stmtsToInstrs :: Label -> [CmmNode O O] -> NatM (OrdList Instr, Label)
stmtsToInstrs Label
bid [CmmNode O O]
stmts =
Label
-> [CmmNode O O] -> OrdList Instr -> NatM (OrdList Instr, Label)
forall {e :: Extensibility} {x :: Extensibility}.
Label
-> [CmmNode e x] -> OrdList Instr -> NatM (OrdList Instr, Label)
go Label
bid [CmmNode O O]
stmts OrdList Instr
forall a. OrdList a
nilOL
where
go :: Label
-> [CmmNode e x] -> OrdList Instr -> NatM (OrdList Instr, Label)
go Label
bid [] OrdList Instr
instrs = (OrdList Instr, Label) -> NatM (OrdList Instr, Label)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
instrs,Label
bid)
go Label
bid (CmmNode e x
s:[CmmNode e x]
stmts) OrdList Instr
instrs = do
(OrdList Instr
instrs',Maybe Label
bid') <- Label -> CmmNode e x -> NatM (OrdList Instr, Maybe Label)
forall (e :: Extensibility) (x :: Extensibility).
Label -> CmmNode e x -> NatM (OrdList Instr, Maybe Label)
stmtToInstrs Label
bid CmmNode e x
s
let !newBid :: Label
newBid = Label -> Maybe Label -> Label
forall a. a -> Maybe a -> a
fromMaybe Label
bid Maybe Label
bid'
Label
-> [CmmNode e x] -> OrdList Instr -> NatM (OrdList Instr, Label)
go Label
newBid [CmmNode e x]
stmts (OrdList Instr
instrs OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
instrs')
stmtToInstrs :: BlockId
-> CmmNode e x
-> NatM (InstrBlock, Maybe BlockId)
stmtToInstrs :: forall (e :: Extensibility) (x :: Extensibility).
Label -> CmmNode e x -> NatM (OrdList Instr, Maybe Label)
stmtToInstrs Label
bid CmmNode e x
stmt = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
Platform
platform <- NatM Platform
getPlatform
case CmmNode e x
stmt of
CmmUnsafeForeignCall ForeignTarget
target [LocalReg]
result_regs [CmmExpr]
args
-> ForeignTarget
-> [LocalReg]
-> [CmmExpr]
-> Label
-> NatM (OrdList Instr, Maybe Label)
genForeignCall ForeignTarget
target [LocalReg]
result_regs [CmmExpr]
args Label
bid
CmmNode e x
_ -> (,Maybe Label
forall a. Maybe a
Nothing) (OrdList Instr -> (OrdList Instr, Maybe Label))
-> NatM (OrdList Instr) -> NatM (OrdList Instr, Maybe Label)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> case CmmNode e x
stmt of
CmmComment FastString
s -> OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (FastString -> Instr
COMMENT FastString
s))
CmmTick {} -> OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
forall a. OrdList a
nilOL
CmmUnwind [(GlobalReg, Maybe CmmExpr)]
regs -> do
let to_unwind_entry :: (GlobalReg, Maybe CmmExpr) -> UnwindTable
to_unwind_entry :: (GlobalReg, Maybe CmmExpr) -> Map GlobalReg (Maybe UnwindExpr)
to_unwind_entry (GlobalReg
reg, Maybe CmmExpr
expr) = GlobalReg -> Maybe UnwindExpr -> Map GlobalReg (Maybe UnwindExpr)
forall k a. k -> a -> Map k a
M.singleton GlobalReg
reg ((CmmExpr -> UnwindExpr) -> Maybe CmmExpr -> Maybe UnwindExpr
forall a b. (a -> b) -> Maybe a -> Maybe b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap (Platform -> CmmExpr -> UnwindExpr
toUnwindExpr Platform
platform) Maybe CmmExpr
expr)
case ((GlobalReg, Maybe CmmExpr) -> Map GlobalReg (Maybe UnwindExpr))
-> [(GlobalReg, Maybe CmmExpr)] -> Map GlobalReg (Maybe UnwindExpr)
forall m a. Monoid m => (a -> m) -> [a] -> m
forall (t :: * -> *) m a.
(Foldable t, Monoid m) =>
(a -> m) -> t a -> m
foldMap (GlobalReg, Maybe CmmExpr) -> Map GlobalReg (Maybe UnwindExpr)
to_unwind_entry [(GlobalReg, Maybe CmmExpr)]
regs of
Map GlobalReg (Maybe UnwindExpr)
tbl | Map GlobalReg (Maybe UnwindExpr) -> Bool
forall k a. Map k a -> Bool
M.null Map GlobalReg (Maybe UnwindExpr)
tbl -> OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
forall a. OrdList a
nilOL
| Bool
otherwise -> do
CLabel
lbl <- Unique -> CLabel
forall a. Uniquable a => a -> CLabel
mkAsmTempLabel (Unique -> CLabel) -> NatM Unique -> NatM CLabel
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NatM Unique
forall (m :: * -> *). MonadUnique m => m Unique
getUniqueM
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Instr -> OrdList Instr) -> Instr -> OrdList Instr
forall a b. (a -> b) -> a -> b
$ CLabel -> Map GlobalReg (Maybe UnwindExpr) -> Instr
UNWIND CLabel
lbl Map GlobalReg (Maybe UnwindExpr)
tbl
CmmAssign CmmReg
reg CmmExpr
src
| CmmType -> Bool
isFloatType CmmType
ty -> Format -> CmmReg -> CmmExpr -> NatM (OrdList Instr)
assignReg_FltCode Format
format CmmReg
reg CmmExpr
src
| Bool
is32Bit Bool -> Bool -> Bool
&& CmmType -> Bool
isWord64 CmmType
ty -> CmmReg -> CmmExpr -> NatM (OrdList Instr)
assignReg_I64Code CmmReg
reg CmmExpr
src
| Bool
otherwise -> Format -> CmmReg -> CmmExpr -> NatM (OrdList Instr)
assignReg_IntCode Format
format CmmReg
reg CmmExpr
src
where ty :: CmmType
ty = CmmReg -> CmmType
cmmRegType CmmReg
reg
format :: Format
format = CmmType -> Format
cmmTypeFormat CmmType
ty
CmmStore CmmExpr
addr CmmExpr
src AlignmentSpec
_alignment
| CmmType -> Bool
isFloatType CmmType
ty -> Format -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
assignMem_FltCode Format
format CmmExpr
addr CmmExpr
src
| Bool
is32Bit Bool -> Bool -> Bool
&& CmmType -> Bool
isWord64 CmmType
ty -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
assignMem_I64Code CmmExpr
addr CmmExpr
src
| Bool
otherwise -> Format -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
assignMem_IntCode Format
format CmmExpr
addr CmmExpr
src
where ty :: CmmType
ty = Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform CmmExpr
src
format :: Format
format = CmmType -> Format
cmmTypeFormat CmmType
ty
CmmBranch Label
id -> OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Label -> OrdList Instr
genBranch Label
id
CmmCondBranch CmmExpr
arg Label
true Label
false Maybe Bool
_ -> Label -> Label -> Label -> CmmExpr -> NatM (OrdList Instr)
genCondBranch Label
bid Label
true Label
false CmmExpr
arg
CmmSwitch CmmExpr
arg SwitchTargets
ids -> CmmExpr -> SwitchTargets -> NatM (OrdList Instr)
genSwitch CmmExpr
arg SwitchTargets
ids
CmmCall { cml_target :: CmmNode O C -> CmmExpr
cml_target = CmmExpr
arg
, cml_args_regs :: CmmNode O C -> [GlobalReg]
cml_args_regs = [GlobalReg]
gregs } -> CmmExpr -> [Reg] -> NatM (OrdList Instr)
genJump CmmExpr
arg (Platform -> [GlobalReg] -> [Reg]
jumpRegs Platform
platform [GlobalReg]
gregs)
CmmNode e x
_ ->
String -> NatM (OrdList Instr)
forall a. HasCallStack => String -> a
panic String
"stmtToInstrs: statement should have been cps'd away"
jumpRegs :: Platform -> [GlobalReg] -> [Reg]
jumpRegs :: Platform -> [GlobalReg] -> [Reg]
jumpRegs Platform
platform [GlobalReg]
gregs = [ RealReg -> Reg
RegReal RealReg
r | Just RealReg
r <- (GlobalReg -> Maybe RealReg) -> [GlobalReg] -> [Maybe RealReg]
forall a b. (a -> b) -> [a] -> [b]
map (Platform -> GlobalReg -> Maybe RealReg
globalRegMaybe Platform
platform) [GlobalReg]
gregs ]
type InstrBlock
= OrdList Instr
data CondCode
= CondCode Bool Cond InstrBlock
data Register
= Fixed Format Reg InstrBlock
| Any Format (Reg -> InstrBlock)
swizzleRegisterRep :: Register -> Format -> Register
swizzleRegisterRep :: Register -> Format -> Register
swizzleRegisterRep (Fixed Format
_ Reg
reg OrdList Instr
code) Format
format = Format -> Reg -> OrdList Instr -> Register
Fixed Format
format Reg
reg OrdList Instr
code
swizzleRegisterRep (Any Format
_ Reg -> OrdList Instr
codefn) Format
format = Format -> (Reg -> OrdList Instr) -> Register
Any Format
format Reg -> OrdList Instr
codefn
getLocalRegReg :: LocalReg -> Reg
getLocalRegReg :: LocalReg -> Reg
getLocalRegReg (LocalReg Unique
u CmmType
pk)
=
VirtualReg -> Reg
RegVirtual (Unique -> Format -> VirtualReg
mkVirtualReg Unique
u (CmmType -> Format
cmmTypeFormat CmmType
pk))
getRegisterReg :: Platform -> CmmReg -> Reg
getRegisterReg :: Platform -> CmmReg -> Reg
getRegisterReg Platform
_ (CmmLocal LocalReg
lreg) = LocalReg -> Reg
getLocalRegReg LocalReg
lreg
getRegisterReg Platform
platform (CmmGlobal GlobalRegUse
mid)
= case Platform -> GlobalReg -> Maybe RealReg
globalRegMaybe Platform
platform (GlobalReg -> Maybe RealReg) -> GlobalReg -> Maybe RealReg
forall a b. (a -> b) -> a -> b
$ GlobalRegUse -> GlobalReg
globalRegUseGlobalReg GlobalRegUse
mid of
Just RealReg
reg -> RealReg -> Reg
RegReal (RealReg -> Reg) -> RealReg -> Reg
forall a b. (a -> b) -> a -> b
$ RealReg
reg
Maybe RealReg
Nothing -> String -> SDoc -> Reg
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"getRegisterReg-memory" (CmmReg -> SDoc
forall a. Outputable a => a -> SDoc
ppr (CmmReg -> SDoc) -> CmmReg -> SDoc
forall a b. (a -> b) -> a -> b
$ GlobalRegUse -> CmmReg
CmmGlobal GlobalRegUse
mid)
data Amode
= Amode AddrMode InstrBlock
is32BitInteger :: Integer -> Bool
is32BitInteger :: Integer -> Bool
is32BitInteger Integer
i = Int64
i64 Int64 -> Int64 -> Bool
forall a. Ord a => a -> a -> Bool
<= Int64
0x7fffffff Bool -> Bool -> Bool
&& Int64
i64 Int64 -> Int64 -> Bool
forall a. Ord a => a -> a -> Bool
>= -Int64
0x80000000
where i64 :: Int64
i64 = Integer -> Int64
forall a b. (Integral a, Num b) => a -> b
fromIntegral Integer
i :: Int64
jumpTableEntry :: NCGConfig -> Maybe BlockId -> CmmStatic
jumpTableEntry :: NCGConfig -> Maybe Label -> CmmStatic
jumpTableEntry NCGConfig
config Maybe Label
Nothing = CmmLit -> CmmStatic
CmmStaticLit (Integer -> Width -> CmmLit
CmmInt Integer
0 (NCGConfig -> Width
ncgWordWidth NCGConfig
config))
jumpTableEntry NCGConfig
_ (Just Label
blockid) = CmmLit -> CmmStatic
CmmStaticLit (CLabel -> CmmLit
CmmLabel CLabel
blockLabel)
where blockLabel :: CLabel
blockLabel = Label -> CLabel
blockLbl Label
blockid
mangleIndexTree :: CmmReg -> Int -> CmmExpr
mangleIndexTree :: CmmReg -> Int -> CmmExpr
mangleIndexTree CmmReg
reg Int
off
= MachOp -> [CmmExpr] -> CmmExpr
CmmMachOp (Width -> MachOp
MO_Add Width
width) [CmmReg -> CmmExpr
CmmReg CmmReg
reg, CmmLit -> CmmExpr
CmmLit (Integer -> Width -> CmmLit
CmmInt (Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
off) Width
width)]
where width :: Width
width = CmmType -> Width
typeWidth (CmmReg -> CmmType
cmmRegType CmmReg
reg)
getSomeReg :: CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg :: CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
expr = do
Register
r <- CmmExpr -> NatM Register
getRegister CmmExpr
expr
case Register
r of
Any Format
rep Reg -> OrdList Instr
code -> do
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
rep
(Reg, OrdList Instr) -> NatM (Reg, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg
tmp, Reg -> OrdList Instr
code Reg
tmp)
Fixed Format
_ Reg
reg OrdList Instr
code ->
(Reg, OrdList Instr) -> NatM (Reg, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg
reg, OrdList Instr
code)
assignMem_I64Code :: CmmExpr -> CmmExpr -> NatM InstrBlock
assignMem_I64Code :: CmmExpr -> CmmExpr -> NatM (OrdList Instr)
assignMem_I64Code CmmExpr
addrTree CmmExpr
valueTree = do
Amode AddrMode
addr OrdList Instr
addr_code <- CmmExpr -> NatM Amode
getAmode CmmExpr
addrTree
RegCode64 OrdList Instr
vcode Reg
rhi Reg
rlo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
valueTree
let
mov_lo :: Instr
mov_lo = Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
rlo) (AddrMode -> Operand
OpAddr AddrMode
addr)
mov_hi :: Instr
mov_hi = Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
rhi) (AddrMode -> Operand
OpAddr (Maybe AddrMode -> AddrMode
forall a. HasCallStack => Maybe a -> a
fromJust (AddrMode -> Int -> Maybe AddrMode
addrOffset AddrMode
addr Int
4)))
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
vcode OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
addr_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Instr
mov_lo OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Instr
mov_hi)
assignReg_I64Code :: CmmReg -> CmmExpr -> NatM InstrBlock
assignReg_I64Code :: CmmReg -> CmmExpr -> NatM (OrdList Instr)
assignReg_I64Code (CmmLocal LocalReg
dst) CmmExpr
valueTree = do
RegCode64 OrdList Instr
vcode Reg
r_src_hi Reg
r_src_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
valueTree
let
Reg64 Reg
r_dst_hi Reg
r_dst_lo = HasDebugCallStack => LocalReg -> Reg64
LocalReg -> Reg64
localReg64 LocalReg
dst
mov_lo :: Instr
mov_lo = Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
r_src_lo) (Reg -> Operand
OpReg Reg
r_dst_lo)
mov_hi :: Instr
mov_hi = Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
r_src_hi) (Reg -> Operand
OpReg Reg
r_dst_hi)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (
OrdList Instr
vcode OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Instr
mov_lo OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Instr
mov_hi
)
assignReg_I64Code CmmReg
_ CmmExpr
_
= String -> NatM (OrdList Instr)
forall a. HasCallStack => String -> a
panic String
"assignReg_I64Code(i386): invalid lvalue"
iselExpr64 :: HasDebugCallStack => CmmExpr -> NatM (RegCode64 InstrBlock)
iselExpr64 :: HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 (CmmLit (CmmInt Integer
i Width
_)) = do
Reg64 Reg
rhi Reg
rlo <- NatM Reg64
getNewReg64
let
r :: Integer
r = Word32 -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Integer -> Word32
forall a b. (Integral a, Num b) => a -> b
fromIntegral Integer
i :: Word32)
q :: Integer
q = Word32 -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Integer -> Word32
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Integer
i Integer -> Int -> Integer
forall a. Bits a => a -> Int -> a
`shiftR` Int
32) :: Word32)
code :: OrdList Instr
code = [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Format -> Operand -> Operand -> Instr
MOV Format
II32 (Imm -> Operand
OpImm (Integer -> Imm
ImmInteger Integer
r)) (Reg -> Operand
OpReg Reg
rlo),
Format -> Operand -> Operand -> Instr
MOV Format
II32 (Imm -> Operand
OpImm (Integer -> Imm
ImmInteger Integer
q)) (Reg -> Operand
OpReg Reg
rhi)
]
RegCode64 (OrdList Instr) -> NatM (RegCode64 (OrdList Instr))
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> Reg -> Reg -> RegCode64 (OrdList Instr)
forall code. code -> Reg -> Reg -> RegCode64 code
RegCode64 OrdList Instr
code Reg
rhi Reg
rlo)
iselExpr64 (CmmLoad CmmExpr
addrTree CmmType
ty AlignmentSpec
_) | CmmType -> Bool
isWord64 CmmType
ty = do
Amode AddrMode
addr OrdList Instr
addr_code <- CmmExpr -> NatM Amode
getAmode CmmExpr
addrTree
Reg64 Reg
rhi Reg
rlo <- NatM Reg64
getNewReg64
let
mov_lo :: Instr
mov_lo = Format -> Operand -> Operand -> Instr
MOV Format
II32 (AddrMode -> Operand
OpAddr AddrMode
addr) (Reg -> Operand
OpReg Reg
rlo)
mov_hi :: Instr
mov_hi = Format -> Operand -> Operand -> Instr
MOV Format
II32 (AddrMode -> Operand
OpAddr (Maybe AddrMode -> AddrMode
forall a. HasCallStack => Maybe a -> a
fromJust (AddrMode -> Int -> Maybe AddrMode
addrOffset AddrMode
addr Int
4))) (Reg -> Operand
OpReg Reg
rhi)
RegCode64 (OrdList Instr) -> NatM (RegCode64 (OrdList Instr))
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (
OrdList Instr -> Reg -> Reg -> RegCode64 (OrdList Instr)
forall code. code -> Reg -> Reg -> RegCode64 code
RegCode64 (OrdList Instr
addr_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Instr
mov_lo OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Instr
mov_hi) Reg
rhi Reg
rlo
)
iselExpr64 (CmmReg (CmmLocal LocalReg
local_reg)) = do
let Reg64 Reg
hi Reg
lo = HasDebugCallStack => LocalReg -> Reg64
LocalReg -> Reg64
localReg64 LocalReg
local_reg
RegCode64 (OrdList Instr) -> NatM (RegCode64 (OrdList Instr))
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> Reg -> Reg -> RegCode64 (OrdList Instr)
forall code. code -> Reg -> Reg -> RegCode64 code
RegCode64 OrdList Instr
forall a. OrdList a
nilOL Reg
hi Reg
lo)
iselExpr64 (CmmMachOp (MO_Add Width
_) [CmmExpr
e1, CmmLit (CmmInt Integer
i Width
_)]) = do
RegCode64 OrdList Instr
code1 Reg
r1hi Reg
r1lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
e1
Reg64 Reg
rhi Reg
rlo <- NatM Reg64
getNewReg64
let
r :: Integer
r = Word32 -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Integer -> Word32
forall a b. (Integral a, Num b) => a -> b
fromIntegral Integer
i :: Word32)
q :: Integer
q = Word32 -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Integer -> Word32
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Integer
i Integer -> Int -> Integer
forall a. Bits a => a -> Int -> a
`shiftR` Int
32) :: Word32)
code :: OrdList Instr
code = OrdList Instr
code1 OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
r1lo) (Reg -> Operand
OpReg Reg
rlo),
Format -> Operand -> Operand -> Instr
ADD Format
II32 (Imm -> Operand
OpImm (Integer -> Imm
ImmInteger Integer
r)) (Reg -> Operand
OpReg Reg
rlo),
Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
r1hi) (Reg -> Operand
OpReg Reg
rhi),
Format -> Operand -> Operand -> Instr
ADC Format
II32 (Imm -> Operand
OpImm (Integer -> Imm
ImmInteger Integer
q)) (Reg -> Operand
OpReg Reg
rhi) ]
RegCode64 (OrdList Instr) -> NatM (RegCode64 (OrdList Instr))
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> Reg -> Reg -> RegCode64 (OrdList Instr)
forall code. code -> Reg -> Reg -> RegCode64 code
RegCode64 OrdList Instr
code Reg
rhi Reg
rlo)
iselExpr64 (CmmMachOp (MO_Add Width
_) [CmmExpr
e1,CmmExpr
e2]) = do
RegCode64 OrdList Instr
code1 Reg
r1hi Reg
r1lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
e1
RegCode64 OrdList Instr
code2 Reg
r2hi Reg
r2lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
e2
Reg64 Reg
rhi Reg
rlo <- NatM Reg64
getNewReg64
let
code :: OrdList Instr
code = OrdList Instr
code1 OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
code2 OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
r1lo) (Reg -> Operand
OpReg Reg
rlo),
Format -> Operand -> Operand -> Instr
ADD Format
II32 (Reg -> Operand
OpReg Reg
r2lo) (Reg -> Operand
OpReg Reg
rlo),
Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
r1hi) (Reg -> Operand
OpReg Reg
rhi),
Format -> Operand -> Operand -> Instr
ADC Format
II32 (Reg -> Operand
OpReg Reg
r2hi) (Reg -> Operand
OpReg Reg
rhi) ]
RegCode64 (OrdList Instr) -> NatM (RegCode64 (OrdList Instr))
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> Reg -> Reg -> RegCode64 (OrdList Instr)
forall code. code -> Reg -> Reg -> RegCode64 code
RegCode64 OrdList Instr
code Reg
rhi Reg
rlo)
iselExpr64 (CmmMachOp (MO_Sub Width
_) [CmmExpr
e1,CmmExpr
e2]) = do
RegCode64 OrdList Instr
code1 Reg
r1hi Reg
r1lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
e1
RegCode64 OrdList Instr
code2 Reg
r2hi Reg
r2lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
e2
Reg64 Reg
rhi Reg
rlo <- NatM Reg64
getNewReg64
let
code :: OrdList Instr
code = OrdList Instr
code1 OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
code2 OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
r1lo) (Reg -> Operand
OpReg Reg
rlo),
Format -> Operand -> Operand -> Instr
SUB Format
II32 (Reg -> Operand
OpReg Reg
r2lo) (Reg -> Operand
OpReg Reg
rlo),
Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
r1hi) (Reg -> Operand
OpReg Reg
rhi),
Format -> Operand -> Operand -> Instr
SBB Format
II32 (Reg -> Operand
OpReg Reg
r2hi) (Reg -> Operand
OpReg Reg
rhi) ]
RegCode64 (OrdList Instr) -> NatM (RegCode64 (OrdList Instr))
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> Reg -> Reg -> RegCode64 (OrdList Instr)
forall code. code -> Reg -> Reg -> RegCode64 code
RegCode64 OrdList Instr
code Reg
rhi Reg
rlo)
iselExpr64 (CmmMachOp (MO_UU_Conv Width
_ Width
W64) [CmmExpr
expr]) = do
Reg -> OrdList Instr
code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
expr
Reg64 Reg
r_dst_hi Reg
r_dst_lo <- NatM Reg64
getNewReg64
RegCode64 (OrdList Instr) -> NatM (RegCode64 (OrdList Instr))
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (RegCode64 (OrdList Instr) -> NatM (RegCode64 (OrdList Instr)))
-> RegCode64 (OrdList Instr) -> NatM (RegCode64 (OrdList Instr))
forall a b. (a -> b) -> a -> b
$ OrdList Instr -> Reg -> Reg -> RegCode64 (OrdList Instr)
forall code. code -> Reg -> Reg -> RegCode64 code
RegCode64 (Reg -> OrdList Instr
code Reg
r_dst_lo OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
MOV Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
0)) (Reg -> Operand
OpReg Reg
r_dst_hi))
Reg
r_dst_hi
Reg
r_dst_lo
iselExpr64 (CmmMachOp (MO_SS_Conv Width
W32 Width
W64) [CmmExpr
expr]) = do
Reg -> OrdList Instr
code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
expr
Reg64 Reg
r_dst_hi Reg
r_dst_lo <- NatM Reg64
getNewReg64
RegCode64 (OrdList Instr) -> NatM (RegCode64 (OrdList Instr))
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (RegCode64 (OrdList Instr) -> NatM (RegCode64 (OrdList Instr)))
-> RegCode64 (OrdList Instr) -> NatM (RegCode64 (OrdList Instr))
forall a b. (a -> b) -> a -> b
$ OrdList Instr -> Reg -> Reg -> RegCode64 (OrdList Instr)
forall code. code -> Reg -> Reg -> RegCode64 code
RegCode64 (Reg -> OrdList Instr
code Reg
r_dst_lo OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
r_dst_lo) (Reg -> Operand
OpReg Reg
eax) OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Instr
CLTD Format
II32 OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
eax) (Reg -> Operand
OpReg Reg
r_dst_lo) OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
edx) (Reg -> Operand
OpReg Reg
r_dst_hi))
Reg
r_dst_hi
Reg
r_dst_lo
iselExpr64 CmmExpr
expr
= do
Platform
platform <- NatM Platform
getPlatform
String -> SDoc -> NatM (RegCode64 (OrdList Instr))
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"iselExpr64(i386)" (Platform -> CmmExpr -> SDoc
forall env a. OutputableP env a => env -> a -> SDoc
pdoc Platform
platform CmmExpr
expr)
getRegister :: CmmExpr -> NatM Register
getRegister :: CmmExpr -> NatM Register
getRegister CmmExpr
e = do Platform
platform <- NatM Platform
getPlatform
Bool
is32Bit <- NatM Bool
is32BitPlatform
Platform -> Bool -> CmmExpr -> NatM Register
getRegister' Platform
platform Bool
is32Bit CmmExpr
e
getRegister' :: Platform -> Bool -> CmmExpr -> NatM Register
getRegister' :: Platform -> Bool -> CmmExpr -> NatM Register
getRegister' Platform
_ Bool
is32Bit (CmmReg CmmReg
reg)
= case CmmReg
reg of
CmmGlobal (GlobalRegUse GlobalReg
PicBaseReg CmmType
_)
| Bool
is32Bit ->
do Reg
reg' <- Format -> NatM Reg
getPicBaseNat (Bool -> Format
archWordFormat Bool
is32Bit)
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> Reg -> OrdList Instr -> Register
Fixed (Bool -> Format
archWordFormat Bool
is32Bit) Reg
reg' OrdList Instr
forall a. OrdList a
nilOL)
CmmReg
_ ->
do
let
fmt :: Format
fmt = CmmType -> Format
cmmTypeFormat (CmmReg -> CmmType
cmmRegType CmmReg
reg)
format :: Format
format = Format
fmt
Platform
platform <- NCGConfig -> Platform
ncgPlatform (NCGConfig -> Platform) -> NatM NCGConfig -> NatM Platform
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NatM NCGConfig
getConfig
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> Reg -> OrdList Instr -> Register
Fixed Format
format
(Platform -> CmmReg -> Reg
getRegisterReg Platform
platform CmmReg
reg)
OrdList Instr
forall a. OrdList a
nilOL)
getRegister' Platform
platform Bool
is32Bit (CmmRegOff CmmReg
r Int
n)
= Platform -> Bool -> CmmExpr -> NatM Register
getRegister' Platform
platform Bool
is32Bit (CmmExpr -> NatM Register) -> CmmExpr -> NatM Register
forall a b. (a -> b) -> a -> b
$ CmmReg -> Int -> CmmExpr
mangleIndexTree CmmReg
r Int
n
getRegister' Platform
platform Bool
is32Bit (CmmMachOp (MO_AlignmentCheck Int
align Width
_) [CmmExpr
e])
= Int -> Register -> Register
addAlignmentCheck Int
align (Register -> Register) -> NatM Register -> NatM Register
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Platform -> Bool -> CmmExpr -> NatM Register
getRegister' Platform
platform Bool
is32Bit CmmExpr
e
getRegister' Platform
_ Bool
is32Bit (CmmMachOp (MO_UU_Conv Width
W64 Width
W32)
[CmmMachOp (MO_U_Shr Width
W64) [CmmExpr
x,CmmLit (CmmInt Integer
32 Width
_)]])
| Bool
is32Bit = do
RegCode64 OrdList Instr
code Reg
rhi Reg
_rlo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
x
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Register -> NatM Register) -> Register -> NatM Register
forall a b. (a -> b) -> a -> b
$ Format -> Reg -> OrdList Instr -> Register
Fixed Format
II32 Reg
rhi OrdList Instr
code
getRegister' Platform
_ Bool
is32Bit (CmmMachOp (MO_SS_Conv Width
W64 Width
W32)
[CmmMachOp (MO_U_Shr Width
W64) [CmmExpr
x,CmmLit (CmmInt Integer
32 Width
_)]])
| Bool
is32Bit = do
RegCode64 OrdList Instr
code Reg
rhi Reg
_rlo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
x
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Register -> NatM Register) -> Register -> NatM Register
forall a b. (a -> b) -> a -> b
$ Format -> Reg -> OrdList Instr -> Register
Fixed Format
II32 Reg
rhi OrdList Instr
code
getRegister' Platform
_ Bool
is32Bit (CmmMachOp (MO_UU_Conv Width
W64 Width
W32) [CmmExpr
x])
| Bool
is32Bit = do
RegCode64 OrdList Instr
code Reg
_rhi Reg
rlo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
x
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Register -> NatM Register) -> Register -> NatM Register
forall a b. (a -> b) -> a -> b
$ Format -> Reg -> OrdList Instr -> Register
Fixed Format
II32 Reg
rlo OrdList Instr
code
getRegister' Platform
_ Bool
is32Bit (CmmMachOp (MO_SS_Conv Width
W64 Width
W32) [CmmExpr
x])
| Bool
is32Bit = do
RegCode64 OrdList Instr
code Reg
_rhi Reg
rlo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
x
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Register -> NatM Register) -> Register -> NatM Register
forall a b. (a -> b) -> a -> b
$ Format -> Reg -> OrdList Instr -> Register
Fixed Format
II32 Reg
rlo OrdList Instr
code
getRegister' Platform
_ Bool
_ (CmmLit lit :: CmmLit
lit@(CmmFloat Rational
f Width
w)) =
NatM Register
float_const_sse2 where
float_const_sse2 :: NatM Register
float_const_sse2
| Rational
f Rational -> Rational -> Bool
forall a. Eq a => a -> a -> Bool
== Rational
0.0 = do
let
format :: Format
format = Width -> Format
floatFormat Width
w
code :: Reg -> OrdList Instr
code Reg
dst = Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
XOR Format
format (Reg -> Operand
OpReg Reg
dst) (Reg -> Operand
OpReg Reg
dst))
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
format Reg -> OrdList Instr
code)
| Bool
otherwise = do
Amode AddrMode
addr OrdList Instr
code <- Alignment -> CmmLit -> NatM Amode
memConstant (Int -> Alignment
mkAlignment (Int -> Alignment) -> Int -> Alignment
forall a b. (a -> b) -> a -> b
$ Width -> Int
widthInBytes Width
w) CmmLit
lit
Width -> AddrMode -> OrdList Instr -> NatM Register
loadFloatAmode Width
w AddrMode
addr OrdList Instr
code
getRegister' Platform
_ Bool
_ (CmmMachOp (MO_UU_Conv Width
W8 Width
W32) [CmmLoad CmmExpr
addr CmmType
_ AlignmentSpec
_]) = do
Reg -> OrdList Instr
code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOVZxL Format
II8) CmmExpr
addr
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II32 Reg -> OrdList Instr
code)
getRegister' Platform
_ Bool
_ (CmmMachOp (MO_SS_Conv Width
W8 Width
W32) [CmmLoad CmmExpr
addr CmmType
_ AlignmentSpec
_]) = do
Reg -> OrdList Instr
code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOVSxL Format
II8) CmmExpr
addr
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II32 Reg -> OrdList Instr
code)
getRegister' Platform
_ Bool
_ (CmmMachOp (MO_UU_Conv Width
W16 Width
W32) [CmmLoad CmmExpr
addr CmmType
_ AlignmentSpec
_]) = do
Reg -> OrdList Instr
code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOVZxL Format
II16) CmmExpr
addr
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II32 Reg -> OrdList Instr
code)
getRegister' Platform
_ Bool
_ (CmmMachOp (MO_SS_Conv Width
W16 Width
W32) [CmmLoad CmmExpr
addr CmmType
_ AlignmentSpec
_]) = do
Reg -> OrdList Instr
code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOVSxL Format
II16) CmmExpr
addr
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II32 Reg -> OrdList Instr
code)
getRegister' Platform
_ Bool
is32Bit (CmmMachOp (MO_UU_Conv Width
W8 Width
W64) [CmmLoad CmmExpr
addr CmmType
_ AlignmentSpec
_])
| Bool -> Bool
not Bool
is32Bit = do
Reg -> OrdList Instr
code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOVZxL Format
II8) CmmExpr
addr
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II64 Reg -> OrdList Instr
code)
getRegister' Platform
_ Bool
is32Bit (CmmMachOp (MO_SS_Conv Width
W8 Width
W64) [CmmLoad CmmExpr
addr CmmType
_ AlignmentSpec
_])
| Bool -> Bool
not Bool
is32Bit = do
Reg -> OrdList Instr
code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOVSxL Format
II8) CmmExpr
addr
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II64 Reg -> OrdList Instr
code)
getRegister' Platform
_ Bool
is32Bit (CmmMachOp (MO_UU_Conv Width
W16 Width
W64) [CmmLoad CmmExpr
addr CmmType
_ AlignmentSpec
_])
| Bool -> Bool
not Bool
is32Bit = do
Reg -> OrdList Instr
code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOVZxL Format
II16) CmmExpr
addr
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II64 Reg -> OrdList Instr
code)
getRegister' Platform
_ Bool
is32Bit (CmmMachOp (MO_SS_Conv Width
W16 Width
W64) [CmmLoad CmmExpr
addr CmmType
_ AlignmentSpec
_])
| Bool -> Bool
not Bool
is32Bit = do
Reg -> OrdList Instr
code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOVSxL Format
II16) CmmExpr
addr
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II64 Reg -> OrdList Instr
code)
getRegister' Platform
_ Bool
is32Bit (CmmMachOp (MO_UU_Conv Width
W32 Width
W64) [CmmLoad CmmExpr
addr CmmType
_ AlignmentSpec
_])
| Bool -> Bool
not Bool
is32Bit = do
Reg -> OrdList Instr
code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOV Format
II32) CmmExpr
addr
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II64 Reg -> OrdList Instr
code)
getRegister' Platform
_ Bool
is32Bit (CmmMachOp (MO_SS_Conv Width
W32 Width
W64) [CmmLoad CmmExpr
addr CmmType
_ AlignmentSpec
_])
| Bool -> Bool
not Bool
is32Bit = do
Reg -> OrdList Instr
code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOVSxL Format
II32) CmmExpr
addr
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II64 Reg -> OrdList Instr
code)
getRegister' Platform
_ Bool
is32Bit (CmmMachOp (MO_Add Width
W64) [CmmReg (CmmGlobal (GlobalRegUse GlobalReg
PicBaseReg CmmType
_)),
CmmLit CmmLit
displacement])
| Bool -> Bool
not Bool
is32Bit =
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Register -> NatM Register) -> Register -> NatM Register
forall a b. (a -> b) -> a -> b
$ Format -> (Reg -> OrdList Instr) -> Register
Any Format
II64 (\Reg
dst -> Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Instr -> OrdList Instr) -> Instr -> OrdList Instr
forall a b. (a -> b) -> a -> b
$
Format -> Operand -> Operand -> Instr
LEA Format
II64 (AddrMode -> Operand
OpAddr (Imm -> AddrMode
ripRel (CmmLit -> Imm
litToImm CmmLit
displacement))) (Reg -> Operand
OpReg Reg
dst))
getRegister' Platform
platform Bool
is32Bit (CmmMachOp MachOp
mop [CmmExpr
x]) =
case MachOp
mop of
MO_F_Neg Width
w -> Width -> CmmExpr -> NatM Register
sse2NegCode Width
w CmmExpr
x
MO_S_Neg Width
w -> (Format -> Operand -> Instr) -> Format -> NatM Register
triv_ucode Format -> Operand -> Instr
NEGI (Width -> Format
intFormat Width
w)
MO_Not Width
w -> (Format -> Operand -> Instr) -> Format -> NatM Register
triv_ucode Format -> Operand -> Instr
NOT (Width -> Format
intFormat Width
w)
MO_UU_Conv Width
W32 Width
W8 -> Width -> CmmExpr -> NatM Register
toI8Reg Width
W32 CmmExpr
x
MO_SS_Conv Width
W32 Width
W8 -> Width -> CmmExpr -> NatM Register
toI8Reg Width
W32 CmmExpr
x
MO_XX_Conv Width
W32 Width
W8 -> Width -> CmmExpr -> NatM Register
toI8Reg Width
W32 CmmExpr
x
MO_UU_Conv Width
W16 Width
W8 -> Width -> CmmExpr -> NatM Register
toI8Reg Width
W16 CmmExpr
x
MO_SS_Conv Width
W16 Width
W8 -> Width -> CmmExpr -> NatM Register
toI8Reg Width
W16 CmmExpr
x
MO_XX_Conv Width
W16 Width
W8 -> Width -> CmmExpr -> NatM Register
toI8Reg Width
W16 CmmExpr
x
MO_UU_Conv Width
W32 Width
W16 -> Width -> CmmExpr -> NatM Register
toI16Reg Width
W32 CmmExpr
x
MO_SS_Conv Width
W32 Width
W16 -> Width -> CmmExpr -> NatM Register
toI16Reg Width
W32 CmmExpr
x
MO_XX_Conv Width
W32 Width
W16 -> Width -> CmmExpr -> NatM Register
toI16Reg Width
W32 CmmExpr
x
MO_UU_Conv Width
W64 Width
W32 | Bool -> Bool
not Bool
is32Bit -> Format -> CmmExpr -> NatM Register
conversionNop Format
II64 CmmExpr
x
MO_SS_Conv Width
W64 Width
W32 | Bool -> Bool
not Bool
is32Bit -> Format -> CmmExpr -> NatM Register
conversionNop Format
II64 CmmExpr
x
MO_XX_Conv Width
W64 Width
W32 | Bool -> Bool
not Bool
is32Bit -> Format -> CmmExpr -> NatM Register
conversionNop Format
II64 CmmExpr
x
MO_UU_Conv Width
W64 Width
W16 | Bool -> Bool
not Bool
is32Bit -> Width -> CmmExpr -> NatM Register
toI16Reg Width
W64 CmmExpr
x
MO_SS_Conv Width
W64 Width
W16 | Bool -> Bool
not Bool
is32Bit -> Width -> CmmExpr -> NatM Register
toI16Reg Width
W64 CmmExpr
x
MO_XX_Conv Width
W64 Width
W16 | Bool -> Bool
not Bool
is32Bit -> Width -> CmmExpr -> NatM Register
toI16Reg Width
W64 CmmExpr
x
MO_UU_Conv Width
W64 Width
W8 | Bool -> Bool
not Bool
is32Bit -> Width -> CmmExpr -> NatM Register
toI8Reg Width
W64 CmmExpr
x
MO_SS_Conv Width
W64 Width
W8 | Bool -> Bool
not Bool
is32Bit -> Width -> CmmExpr -> NatM Register
toI8Reg Width
W64 CmmExpr
x
MO_XX_Conv Width
W64 Width
W8 | Bool -> Bool
not Bool
is32Bit -> Width -> CmmExpr -> NatM Register
toI8Reg Width
W64 CmmExpr
x
MO_UU_Conv Width
rep1 Width
rep2 | Width
rep1 Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
rep2 -> Format -> CmmExpr -> NatM Register
conversionNop (Width -> Format
intFormat Width
rep1) CmmExpr
x
MO_SS_Conv Width
rep1 Width
rep2 | Width
rep1 Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
rep2 -> Format -> CmmExpr -> NatM Register
conversionNop (Width -> Format
intFormat Width
rep1) CmmExpr
x
MO_XX_Conv Width
rep1 Width
rep2 | Width
rep1 Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
rep2 -> Format -> CmmExpr -> NatM Register
conversionNop (Width -> Format
intFormat Width
rep1) CmmExpr
x
MO_UU_Conv Width
W8 Width
W32 -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W8 Width
W32 Format -> Operand -> Operand -> Instr
MOVZxL CmmExpr
x
MO_UU_Conv Width
W16 Width
W32 -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W16 Width
W32 Format -> Operand -> Operand -> Instr
MOVZxL CmmExpr
x
MO_UU_Conv Width
W8 Width
W16 -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W8 Width
W16 Format -> Operand -> Operand -> Instr
MOVZxL CmmExpr
x
MO_SS_Conv Width
W8 Width
W32 -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W8 Width
W32 Format -> Operand -> Operand -> Instr
MOVSxL CmmExpr
x
MO_SS_Conv Width
W16 Width
W32 -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W16 Width
W32 Format -> Operand -> Operand -> Instr
MOVSxL CmmExpr
x
MO_SS_Conv Width
W8 Width
W16 -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W8 Width
W16 Format -> Operand -> Operand -> Instr
MOVSxL CmmExpr
x
MO_XX_Conv Width
W8 Width
W32
| Bool
is32Bit -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W8 Width
W32 Format -> Operand -> Operand -> Instr
MOVZxL CmmExpr
x
| Bool
otherwise -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W8 Width
W32 Format -> Operand -> Operand -> Instr
MOV CmmExpr
x
MO_XX_Conv Width
W8 Width
W16
| Bool
is32Bit -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W8 Width
W16 Format -> Operand -> Operand -> Instr
MOVZxL CmmExpr
x
| Bool
otherwise -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W8 Width
W16 Format -> Operand -> Operand -> Instr
MOV CmmExpr
x
MO_XX_Conv Width
W16 Width
W32 -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W16 Width
W32 Format -> Operand -> Operand -> Instr
MOV CmmExpr
x
MO_UU_Conv Width
W8 Width
W64 | Bool -> Bool
not Bool
is32Bit -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W8 Width
W64 Format -> Operand -> Operand -> Instr
MOVZxL CmmExpr
x
MO_UU_Conv Width
W16 Width
W64 | Bool -> Bool
not Bool
is32Bit -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W16 Width
W64 Format -> Operand -> Operand -> Instr
MOVZxL CmmExpr
x
MO_UU_Conv Width
W32 Width
W64 | Bool -> Bool
not Bool
is32Bit -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W32 Width
W64 Format -> Operand -> Operand -> Instr
MOVZxL CmmExpr
x
MO_SS_Conv Width
W8 Width
W64 | Bool -> Bool
not Bool
is32Bit -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W8 Width
W64 Format -> Operand -> Operand -> Instr
MOVSxL CmmExpr
x
MO_SS_Conv Width
W16 Width
W64 | Bool -> Bool
not Bool
is32Bit -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W16 Width
W64 Format -> Operand -> Operand -> Instr
MOVSxL CmmExpr
x
MO_SS_Conv Width
W32 Width
W64 | Bool -> Bool
not Bool
is32Bit -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W32 Width
W64 Format -> Operand -> Operand -> Instr
MOVSxL CmmExpr
x
MO_XX_Conv Width
W8 Width
W64 | Bool -> Bool
not Bool
is32Bit -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W8 Width
W64 Format -> Operand -> Operand -> Instr
MOV CmmExpr
x
MO_XX_Conv Width
W16 Width
W64 | Bool -> Bool
not Bool
is32Bit -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W16 Width
W64 Format -> Operand -> Operand -> Instr
MOV CmmExpr
x
MO_XX_Conv Width
W32 Width
W64 | Bool -> Bool
not Bool
is32Bit -> Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
W32 Width
W64 Format -> Operand -> Operand -> Instr
MOV CmmExpr
x
MO_FF_Conv Width
W32 Width
W64 -> Width -> CmmExpr -> NatM Register
coerceFP2FP Width
W64 CmmExpr
x
MO_FF_Conv Width
W64 Width
W32 -> Width -> CmmExpr -> NatM Register
coerceFP2FP Width
W32 CmmExpr
x
MO_FS_Conv Width
from Width
to -> Width -> Width -> CmmExpr -> NatM Register
coerceFP2Int Width
from Width
to CmmExpr
x
MO_SF_Conv Width
from Width
to -> Width -> Width -> CmmExpr -> NatM Register
coerceInt2FP Width
from Width
to CmmExpr
x
MO_V_Insert {} -> NatM Register
forall a. NatM a
needLlvm
MO_V_Extract {} -> NatM Register
forall a. NatM a
needLlvm
MO_V_Add {} -> NatM Register
forall a. NatM a
needLlvm
MO_V_Sub {} -> NatM Register
forall a. NatM a
needLlvm
MO_V_Mul {} -> NatM Register
forall a. NatM a
needLlvm
MO_VS_Quot {} -> NatM Register
forall a. NatM a
needLlvm
MO_VS_Rem {} -> NatM Register
forall a. NatM a
needLlvm
MO_VS_Neg {} -> NatM Register
forall a. NatM a
needLlvm
MO_VU_Quot {} -> NatM Register
forall a. NatM a
needLlvm
MO_VU_Rem {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Insert {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Extract {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Add {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Sub {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Mul {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Quot {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Neg {} -> NatM Register
forall a. NatM a
needLlvm
MachOp
_other -> String -> SDoc -> NatM Register
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"getRegister" (MachOp -> SDoc
pprMachOp MachOp
mop)
where
triv_ucode :: (Format -> Operand -> Instr) -> Format -> NatM Register
triv_ucode :: (Format -> Operand -> Instr) -> Format -> NatM Register
triv_ucode Format -> Operand -> Instr
instr Format
format = Format -> (Operand -> Instr) -> CmmExpr -> NatM Register
trivialUCode Format
format (Format -> Operand -> Instr
instr Format
format) CmmExpr
x
integerExtend :: Width -> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr -> NatM Register
integerExtend :: Width
-> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> NatM Register
integerExtend Width
from Width
to Format -> Operand -> Operand -> Instr
instr CmmExpr
expr = do
(Reg
reg,OrdList Instr
e_code) <- if Width
from Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W8 then CmmExpr -> NatM (Reg, OrdList Instr)
getByteReg CmmExpr
expr
else CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
expr
let
code :: Reg -> OrdList Instr
code Reg
dst =
OrdList Instr
e_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
instr (Width -> Format
intFormat Width
from) (Reg -> Operand
OpReg Reg
reg) (Reg -> Operand
OpReg Reg
dst)
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any (Width -> Format
intFormat Width
to) Reg -> OrdList Instr
code)
toI8Reg :: Width -> CmmExpr -> NatM Register
toI8Reg :: Width -> CmmExpr -> NatM Register
toI8Reg Width
new_rep CmmExpr
expr
= do Reg -> OrdList Instr
codefn <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
expr
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any (Width -> Format
intFormat Width
new_rep) Reg -> OrdList Instr
codefn)
toI16Reg :: Width -> CmmExpr -> NatM Register
toI16Reg = Width -> CmmExpr -> NatM Register
toI8Reg
conversionNop :: Format -> CmmExpr -> NatM Register
conversionNop :: Format -> CmmExpr -> NatM Register
conversionNop Format
new_format CmmExpr
expr
= do Register
e_code <- Platform -> Bool -> CmmExpr -> NatM Register
getRegister' Platform
platform Bool
is32Bit CmmExpr
expr
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Register -> Format -> Register
swizzleRegisterRep Register
e_code Format
new_format)
getRegister' Platform
_ Bool
is32Bit (CmmMachOp MachOp
mop [CmmExpr
x, CmmExpr
y]) =
case MachOp
mop of
MO_F_Eq Width
_ -> Bool -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Bool
is32Bit Cond
EQQ CmmExpr
x CmmExpr
y
MO_F_Ne Width
_ -> Bool -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Bool
is32Bit Cond
NE CmmExpr
x CmmExpr
y
MO_F_Gt Width
_ -> Bool -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Bool
is32Bit Cond
GTT CmmExpr
x CmmExpr
y
MO_F_Ge Width
_ -> Bool -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Bool
is32Bit Cond
GE CmmExpr
x CmmExpr
y
MO_F_Lt Width
_ -> Bool -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Bool
is32Bit Cond
GTT CmmExpr
y CmmExpr
x
MO_F_Le Width
_ -> Bool -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Bool
is32Bit Cond
GE CmmExpr
y CmmExpr
x
MO_Eq Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
EQQ CmmExpr
x CmmExpr
y
MO_Ne Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
NE CmmExpr
x CmmExpr
y
MO_S_Gt Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
GTT CmmExpr
x CmmExpr
y
MO_S_Ge Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
GE CmmExpr
x CmmExpr
y
MO_S_Lt Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
LTT CmmExpr
x CmmExpr
y
MO_S_Le Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
LE CmmExpr
x CmmExpr
y
MO_U_Gt Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
GU CmmExpr
x CmmExpr
y
MO_U_Ge Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
GEU CmmExpr
x CmmExpr
y
MO_U_Lt Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
LU CmmExpr
x CmmExpr
y
MO_U_Le Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
LEU CmmExpr
x CmmExpr
y
MO_F_Add Width
w -> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialFCode_sse2 Width
w Format -> Operand -> Operand -> Instr
ADD CmmExpr
x CmmExpr
y
MO_F_Sub Width
w -> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialFCode_sse2 Width
w Format -> Operand -> Operand -> Instr
SUB CmmExpr
x CmmExpr
y
MO_F_Quot Width
w -> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialFCode_sse2 Width
w Format -> Operand -> Operand -> Instr
FDIV CmmExpr
x CmmExpr
y
MO_F_Mul Width
w -> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialFCode_sse2 Width
w Format -> Operand -> Operand -> Instr
MUL CmmExpr
x CmmExpr
y
MO_Add Width
rep -> Width -> CmmExpr -> CmmExpr -> NatM Register
add_code Width
rep CmmExpr
x CmmExpr
y
MO_Sub Width
rep -> Width -> CmmExpr -> CmmExpr -> NatM Register
sub_code Width
rep CmmExpr
x CmmExpr
y
MO_S_Quot Width
rep -> Width -> Bool -> Bool -> CmmExpr -> CmmExpr -> NatM Register
div_code Width
rep Bool
True Bool
True CmmExpr
x CmmExpr
y
MO_S_Rem Width
rep -> Width -> Bool -> Bool -> CmmExpr -> CmmExpr -> NatM Register
div_code Width
rep Bool
True Bool
False CmmExpr
x CmmExpr
y
MO_U_Quot Width
rep -> Width -> Bool -> Bool -> CmmExpr -> CmmExpr -> NatM Register
div_code Width
rep Bool
False Bool
True CmmExpr
x CmmExpr
y
MO_U_Rem Width
rep -> Width -> Bool -> Bool -> CmmExpr -> CmmExpr -> NatM Register
div_code Width
rep Bool
False Bool
False CmmExpr
x CmmExpr
y
MO_S_MulMayOflo Width
rep -> Width -> CmmExpr -> CmmExpr -> NatM Register
imulMayOflo Width
rep CmmExpr
x CmmExpr
y
MO_Mul Width
W8 -> CmmExpr -> CmmExpr -> NatM Register
imulW8 CmmExpr
x CmmExpr
y
MO_Mul Width
rep -> Width -> (Format -> Operand -> Operand -> Instr) -> NatM Register
triv_op Width
rep Format -> Operand -> Operand -> Instr
IMUL
MO_And Width
rep -> Width -> (Format -> Operand -> Operand -> Instr) -> NatM Register
triv_op Width
rep Format -> Operand -> Operand -> Instr
AND
MO_Or Width
rep -> Width -> (Format -> Operand -> Operand -> Instr) -> NatM Register
triv_op Width
rep Format -> Operand -> Operand -> Instr
OR
MO_Xor Width
rep -> Width -> (Format -> Operand -> Operand -> Instr) -> NatM Register
triv_op Width
rep Format -> Operand -> Operand -> Instr
XOR
MO_Shl Width
rep -> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
shift_code Width
rep Format -> Operand -> Operand -> Instr
SHL CmmExpr
x CmmExpr
y
MO_U_Shr Width
rep -> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
shift_code Width
rep Format -> Operand -> Operand -> Instr
SHR CmmExpr
x CmmExpr
y
MO_S_Shr Width
rep -> Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
shift_code Width
rep Format -> Operand -> Operand -> Instr
SAR CmmExpr
x CmmExpr
y
MO_V_Insert {} -> NatM Register
forall a. NatM a
needLlvm
MO_V_Extract {} -> NatM Register
forall a. NatM a
needLlvm
MO_V_Add {} -> NatM Register
forall a. NatM a
needLlvm
MO_V_Sub {} -> NatM Register
forall a. NatM a
needLlvm
MO_V_Mul {} -> NatM Register
forall a. NatM a
needLlvm
MO_VS_Quot {} -> NatM Register
forall a. NatM a
needLlvm
MO_VS_Rem {} -> NatM Register
forall a. NatM a
needLlvm
MO_VS_Neg {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Insert {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Extract {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Add {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Sub {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Mul {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Quot {} -> NatM Register
forall a. NatM a
needLlvm
MO_VF_Neg {} -> NatM Register
forall a. NatM a
needLlvm
MachOp
_other -> String -> SDoc -> NatM Register
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"getRegister(x86) - binary CmmMachOp (1)" (MachOp -> SDoc
pprMachOp MachOp
mop)
where
triv_op :: Width -> (Format -> Operand -> Operand -> Instr) -> NatM Register
triv_op Width
width Format -> Operand -> Operand -> Instr
instr = Width
-> (Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
width Operand -> Operand -> Instr
op ((Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
forall a. a -> Maybe a
Just Operand -> Operand -> Instr
op) CmmExpr
x CmmExpr
y
where op :: Operand -> Operand -> Instr
op = Format -> Operand -> Operand -> Instr
instr (Width -> Format
intFormat Width
width)
imulW8 :: CmmExpr -> CmmExpr -> NatM Register
imulW8 :: CmmExpr -> CmmExpr -> NatM Register
imulW8 CmmExpr
arg_a CmmExpr
arg_b = do
(Reg
a_reg, OrdList Instr
a_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
arg_a
Reg -> OrdList Instr
b_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
arg_b
let code :: OrdList Instr
code = OrdList Instr
a_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> OrdList Instr
b_code Reg
eax OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [ Format -> Operand -> Instr
IMUL2 Format
format (Reg -> Operand
OpReg Reg
a_reg) ]
format :: Format
format = Width -> Format
intFormat Width
W8
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> Reg -> OrdList Instr -> Register
Fixed Format
format Reg
eax OrdList Instr
code)
imulMayOflo :: Width -> CmmExpr -> CmmExpr -> NatM Register
imulMayOflo :: Width -> CmmExpr -> CmmExpr -> NatM Register
imulMayOflo Width
W8 CmmExpr
a CmmExpr
b = do
(Reg
a_reg, OrdList Instr
a_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
a
(Reg
b_reg, OrdList Instr
b_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
b
let
code :: OrdList Instr
code = OrdList Instr
a_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
b_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Format -> Operand -> Operand -> Instr
MOVSxL Format
II8 (Reg -> Operand
OpReg Reg
a_reg) (Reg -> Operand
OpReg Reg
a_reg),
Format -> Operand -> Operand -> Instr
MOVSxL Format
II8 (Reg -> Operand
OpReg Reg
b_reg) (Reg -> Operand
OpReg Reg
b_reg),
Format -> Operand -> Operand -> Instr
IMUL Format
II32 (Reg -> Operand
OpReg Reg
b_reg) (Reg -> Operand
OpReg Reg
a_reg),
Format -> Operand -> Operand -> Instr
MOVSxL Format
II8 (Reg -> Operand
OpReg Reg
a_reg) (Reg -> Operand
OpReg Reg
eax),
Format -> Operand -> Operand -> Instr
CMP Format
II16 (Reg -> Operand
OpReg Reg
a_reg) (Reg -> Operand
OpReg Reg
eax),
Cond -> Operand -> Instr
SETCC Cond
NE (Reg -> Operand
OpReg Reg
eax)
]
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> Reg -> OrdList Instr -> Register
Fixed Format
II8 Reg
eax OrdList Instr
code)
imulMayOflo Width
rep CmmExpr
a CmmExpr
b = do
(Reg
a_reg, OrdList Instr
a_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
a
Reg -> OrdList Instr
b_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
b
let
shift_amt :: Int
shift_amt = case Width
rep of
Width
W16 -> Int
15
Width
W32 -> Int
31
Width
W64 -> Int
63
Width
w -> String -> Int
forall a. HasCallStack => String -> a
panic (String
"shift_amt: " String -> String -> String
forall a. [a] -> [a] -> [a]
++ Width -> String
forall a. Show a => a -> String
show Width
w)
format :: Format
format = Width -> Format
intFormat Width
rep
code :: OrdList Instr
code = OrdList Instr
a_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> OrdList Instr
b_code Reg
eax OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Format -> Operand -> Instr
IMUL2 Format
format (Reg -> Operand
OpReg Reg
a_reg),
Format -> Operand -> Operand -> Instr
SAR Format
format (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
shift_amt)) (Reg -> Operand
OpReg Reg
eax),
Format -> Operand -> Operand -> Instr
SUB Format
format (Reg -> Operand
OpReg Reg
edx) (Reg -> Operand
OpReg Reg
eax)
]
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> Reg -> OrdList Instr -> Register
Fixed Format
format Reg
eax OrdList Instr
code)
shift_code :: Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
shift_code :: Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
shift_code Width
width Format -> Operand -> Operand -> Instr
instr CmmExpr
x (CmmLit CmmLit
lit)
| CmmInt Integer
n Width
_ <- CmmLit
lit
, Integer
n Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
>= Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Width -> Int
widthInBits Width
width)
= CmmExpr -> NatM Register
getRegister (CmmExpr -> NatM Register) -> CmmExpr -> NatM Register
forall a b. (a -> b) -> a -> b
$ CmmLit -> CmmExpr
CmmLit (CmmLit -> CmmExpr) -> CmmLit -> CmmExpr
forall a b. (a -> b) -> a -> b
$ Integer -> Width -> CmmLit
CmmInt Integer
0 Width
width
| Bool
otherwise = do
Reg -> OrdList Instr
x_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
x
let
format :: Format
format = Width -> Format
intFormat Width
width
code :: Reg -> OrdList Instr
code Reg
dst
= Reg -> OrdList Instr
x_code Reg
dst OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
instr Format
format (Imm -> Operand
OpImm (CmmLit -> Imm
litToImm CmmLit
lit)) (Reg -> Operand
OpReg Reg
dst)
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
format Reg -> OrdList Instr
code)
shift_code Width
width Format -> Operand -> Operand -> Instr
instr CmmExpr
x CmmExpr
y = do
Reg -> OrdList Instr
x_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
x
let format :: Format
format = Width -> Format
intFormat Width
width
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
format
Reg -> OrdList Instr
y_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
y
let
code :: OrdList Instr
code = Reg -> OrdList Instr
x_code Reg
tmp OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> OrdList Instr
y_code Reg
ecx OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
instr Format
format (Reg -> Operand
OpReg Reg
ecx) (Reg -> Operand
OpReg Reg
tmp)
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> Reg -> OrdList Instr -> Register
Fixed Format
format Reg
tmp OrdList Instr
code)
add_code :: Width -> CmmExpr -> CmmExpr -> NatM Register
add_code :: Width -> CmmExpr -> CmmExpr -> NatM Register
add_code Width
rep CmmExpr
x (CmmLit (CmmInt Integer
y Width
_))
| Integer -> Bool
is32BitInteger Integer
y
, Width
rep Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
/= Width
W8
= Width -> CmmExpr -> Integer -> NatM Register
add_int Width
rep CmmExpr
x Integer
y
add_code Width
rep CmmExpr
x CmmExpr
y = Width
-> (Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
rep (Format -> Operand -> Operand -> Instr
ADD Format
format) ((Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
forall a. a -> Maybe a
Just (Format -> Operand -> Operand -> Instr
ADD Format
format)) CmmExpr
x CmmExpr
y
where format :: Format
format = Width -> Format
intFormat Width
rep
sub_code :: Width -> CmmExpr -> CmmExpr -> NatM Register
sub_code :: Width -> CmmExpr -> CmmExpr -> NatM Register
sub_code Width
rep CmmExpr
x (CmmLit (CmmInt Integer
y Width
_))
| Integer -> Bool
is32BitInteger (-Integer
y)
, Width
rep Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
/= Width
W8
= Width -> CmmExpr -> Integer -> NatM Register
add_int Width
rep CmmExpr
x (-Integer
y)
sub_code Width
rep CmmExpr
x CmmExpr
y = Width
-> (Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
rep (Format -> Operand -> Operand -> Instr
SUB (Width -> Format
intFormat Width
rep)) Maybe (Operand -> Operand -> Instr)
forall a. Maybe a
Nothing CmmExpr
x CmmExpr
y
add_int :: Width -> CmmExpr -> Integer -> NatM Register
add_int Width
width CmmExpr
x Integer
y = do
(Reg
x_reg, OrdList Instr
x_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
x
let
format :: Format
format = Width -> Format
intFormat Width
width
imm :: Imm
imm = Int -> Imm
ImmInt (Integer -> Int
forall a. Num a => Integer -> a
fromInteger Integer
y)
code :: Reg -> OrdList Instr
code Reg
dst
= OrdList Instr
x_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
LEA Format
format
(AddrMode -> Operand
OpAddr (EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
x_reg) EAIndex
EAIndexNone Imm
imm))
(Reg -> Operand
OpReg Reg
dst)
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
format Reg -> OrdList Instr
code)
div_code :: Width -> Bool -> Bool -> CmmExpr -> CmmExpr -> NatM Register
div_code Width
W8 Bool
signed Bool
quotient CmmExpr
x CmmExpr
y = do
let widen :: MachOp
widen | Bool
signed = Width -> Width -> MachOp
MO_SS_Conv Width
W8 Width
W16
| Bool
otherwise = Width -> Width -> MachOp
MO_UU_Conv Width
W8 Width
W16
Width -> Bool -> Bool -> CmmExpr -> CmmExpr -> NatM Register
div_code
Width
W16
Bool
signed
Bool
quotient
(MachOp -> [CmmExpr] -> CmmExpr
CmmMachOp MachOp
widen [CmmExpr
x])
(MachOp -> [CmmExpr] -> CmmExpr
CmmMachOp MachOp
widen [CmmExpr
y])
div_code Width
width Bool
signed Bool
quotient CmmExpr
x CmmExpr
y = do
(Operand
y_op, OrdList Instr
y_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getRegOrMem CmmExpr
y
Reg -> OrdList Instr
x_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
x
let
format :: Format
format = Width -> Format
intFormat Width
width
widen :: Instr
widen | Bool
signed = Format -> Instr
CLTD Format
format
| Bool
otherwise = Format -> Operand -> Operand -> Instr
XOR Format
format (Reg -> Operand
OpReg Reg
edx) (Reg -> Operand
OpReg Reg
edx)
instr :: Format -> Operand -> Instr
instr | Bool
signed = Format -> Operand -> Instr
IDIV
| Bool
otherwise = Format -> Operand -> Instr
DIV
code :: OrdList Instr
code = OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> OrdList Instr
x_code Reg
eax OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [Instr
widen, Format -> Operand -> Instr
instr Format
format Operand
y_op]
result :: Reg
result | Bool
quotient = Reg
eax
| Bool
otherwise = Reg
edx
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> Reg -> OrdList Instr -> Register
Fixed Format
format Reg
result OrdList Instr
code)
getRegister' Platform
_plat Bool
_is32Bit (CmmMachOp MachOp
mop [CmmExpr
x, CmmExpr
y, CmmExpr
z]) =
case MachOp
mop of
MO_FMA FMASign
var Width
w -> Width -> FMASign -> CmmExpr -> CmmExpr -> CmmExpr -> NatM Register
genFMA3Code Width
w FMASign
var CmmExpr
x CmmExpr
y CmmExpr
z
MachOp
_other -> String -> SDoc -> NatM Register
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"getRegister(x86) - ternary CmmMachOp (1)"
(MachOp -> SDoc
pprMachOp MachOp
mop)
getRegister' Platform
_ Bool
_ (CmmLoad CmmExpr
mem CmmType
pk AlignmentSpec
_)
| CmmType -> Bool
isFloatType CmmType
pk
= do
Amode AddrMode
addr OrdList Instr
mem_code <- CmmExpr -> NatM Amode
getAmode CmmExpr
mem
Width -> AddrMode -> OrdList Instr -> NatM Register
loadFloatAmode (CmmType -> Width
typeWidth CmmType
pk) AddrMode
addr OrdList Instr
mem_code
getRegister' Platform
_ Bool
is32Bit (CmmLoad CmmExpr
mem CmmType
pk AlignmentSpec
_)
| Bool
is32Bit Bool -> Bool -> Bool
&& Bool -> Bool
not (CmmType -> Bool
isWord64 CmmType
pk)
= do
Reg -> OrdList Instr
code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode Operand -> Operand -> Instr
instr CmmExpr
mem
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
format Reg -> OrdList Instr
code)
where
width :: Width
width = CmmType -> Width
typeWidth CmmType
pk
format :: Format
format = Width -> Format
intFormat Width
width
instr :: Operand -> Operand -> Instr
instr = case Width
width of
Width
W8 -> Format -> Operand -> Operand -> Instr
MOVZxL Format
II8
Width
_other -> Format -> Operand -> Operand -> Instr
MOV Format
format
getRegister' Platform
_ Bool
is32Bit (CmmLoad CmmExpr
mem CmmType
pk AlignmentSpec
_)
| Bool -> Bool
not Bool
is32Bit
= do
Reg -> OrdList Instr
code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOV Format
format) CmmExpr
mem
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
format Reg -> OrdList Instr
code)
where format :: Format
format = Width -> Format
intFormat (Width -> Format) -> Width -> Format
forall a b. (a -> b) -> a -> b
$ CmmType -> Width
typeWidth CmmType
pk
getRegister' Platform
_ Bool
is32Bit (CmmLit (CmmInt Integer
0 Width
width))
= let
format :: Format
format = Width -> Format
intFormat Width
width
format1 :: Format
format1 = if Bool
is32Bit then Format
format
else case Format
format of
Format
II64 -> Format
II32
Format
_ -> Format
format
code :: Reg -> OrdList Instr
code Reg
dst
= Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
XOR Format
format1 (Reg -> Operand
OpReg Reg
dst) (Reg -> Operand
OpReg Reg
dst))
in
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
format Reg -> OrdList Instr
code)
getRegister' Platform
platform Bool
is32Bit (CmmLit CmmLit
lit)
| CmmLit -> Bool
is_label CmmLit
lit
, Bool -> Bool
not Bool
is32Bit
= do let format :: Format
format = CmmType -> Format
cmmTypeFormat (Platform -> CmmLit -> CmmType
cmmLitType Platform
platform CmmLit
lit)
imm :: Imm
imm = CmmLit -> Imm
litToImm CmmLit
lit
op :: Operand
op = AddrMode -> Operand
OpAddr (EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex EABase
EABaseRip EAIndex
EAIndexNone Imm
imm)
code :: Reg -> OrdList Instr
code Reg
dst = Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
LEA Format
format Operand
op (Reg -> Operand
OpReg Reg
dst))
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
format Reg -> OrdList Instr
code)
where
is_label :: CmmLit -> Bool
is_label (CmmLabel {}) = Bool
True
is_label (CmmLabelOff {}) = Bool
True
is_label (CmmLabelDiffOff {}) = Bool
True
is_label CmmLit
_ = Bool
False
getRegister' Platform
platform Bool
is32Bit (CmmLit CmmLit
lit)
| Bool -> Bool
not Bool
is32Bit, CmmType -> Bool
isWord64 (Platform -> CmmLit -> CmmType
cmmLitType Platform
platform CmmLit
lit), Bool -> Bool
not (CmmLit -> Bool
isBigLit CmmLit
lit)
= let
imm :: Imm
imm = CmmLit -> Imm
litToImm CmmLit
lit
code :: Reg -> OrdList Instr
code Reg
dst = Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
II32 (Imm -> Operand
OpImm Imm
imm) (Reg -> Operand
OpReg Reg
dst))
in
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II64 Reg -> OrdList Instr
code)
where
isBigLit :: CmmLit -> Bool
isBigLit (CmmInt Integer
i Width
_) = Integer
i Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
< Integer
0 Bool -> Bool -> Bool
|| Integer
i Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
> Integer
0xffffffff
isBigLit CmmLit
_ = Bool
False
getRegister' Platform
platform Bool
_ (CmmLit CmmLit
lit)
= do let format :: Format
format = CmmType -> Format
cmmTypeFormat (Platform -> CmmLit -> CmmType
cmmLitType Platform
platform CmmLit
lit)
imm :: Imm
imm = CmmLit -> Imm
litToImm CmmLit
lit
code :: Reg -> OrdList Instr
code Reg
dst = Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
format (Imm -> Operand
OpImm Imm
imm) (Reg -> Operand
OpReg Reg
dst))
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
format Reg -> OrdList Instr
code)
getRegister' Platform
platform Bool
_ CmmExpr
other
| CmmExpr -> Bool
isVecExpr CmmExpr
other = NatM Register
forall a. NatM a
needLlvm
| Bool
otherwise = String -> SDoc -> NatM Register
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"getRegister(x86)" (Platform -> CmmExpr -> SDoc
forall env a. OutputableP env a => env -> a -> SDoc
pdoc Platform
platform CmmExpr
other)
intLoadCode :: (Operand -> Operand -> Instr) -> CmmExpr
-> NatM (Reg -> InstrBlock)
intLoadCode :: (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode Operand -> Operand -> Instr
instr CmmExpr
mem = do
Amode AddrMode
src OrdList Instr
mem_code <- CmmExpr -> NatM Amode
getAmode CmmExpr
mem
(Reg -> OrdList Instr) -> NatM (Reg -> OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (\Reg
dst -> OrdList Instr
mem_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Operand -> Operand -> Instr
instr (AddrMode -> Operand
OpAddr AddrMode
src) (Reg -> Operand
OpReg Reg
dst))
getAnyReg :: CmmExpr -> NatM (Reg -> InstrBlock)
getAnyReg :: CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
expr = do
Register
r <- CmmExpr -> NatM Register
getRegister CmmExpr
expr
Register -> NatM (Reg -> OrdList Instr)
anyReg Register
r
anyReg :: Register -> NatM (Reg -> InstrBlock)
anyReg :: Register -> NatM (Reg -> OrdList Instr)
anyReg (Any Format
_ Reg -> OrdList Instr
code) = (Reg -> OrdList Instr) -> NatM (Reg -> OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return Reg -> OrdList Instr
code
anyReg (Fixed Format
rep Reg
reg OrdList Instr
fcode) = (Reg -> OrdList Instr) -> NatM (Reg -> OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (\Reg
dst -> OrdList Instr
fcode OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> Reg -> Reg -> Instr
reg2reg Format
rep Reg
reg Reg
dst)
getByteReg :: CmmExpr -> NatM (Reg, InstrBlock)
getByteReg :: CmmExpr -> NatM (Reg, OrdList Instr)
getByteReg CmmExpr
expr = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
if Bool
is32Bit
then do Register
r <- CmmExpr -> NatM Register
getRegister CmmExpr
expr
case Register
r of
Any Format
rep Reg -> OrdList Instr
code -> do
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
rep
(Reg, OrdList Instr) -> NatM (Reg, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg
tmp, Reg -> OrdList Instr
code Reg
tmp)
Fixed Format
rep Reg
reg OrdList Instr
code
| Reg -> Bool
isVirtualReg Reg
reg -> (Reg, OrdList Instr) -> NatM (Reg, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg
reg,OrdList Instr
code)
| Bool
otherwise -> do
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
rep
(Reg, OrdList Instr) -> NatM (Reg, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg
tmp, OrdList Instr
code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> Reg -> Reg -> Instr
reg2reg Format
rep Reg
reg Reg
tmp)
else CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
expr
getNonClobberedReg :: CmmExpr -> NatM (Reg, InstrBlock)
getNonClobberedReg :: CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
expr = do
Register
r <- CmmExpr -> NatM Register
getRegister CmmExpr
expr
Platform
platform <- NCGConfig -> Platform
ncgPlatform (NCGConfig -> Platform) -> NatM NCGConfig -> NatM Platform
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NatM NCGConfig
getConfig
case Register
r of
Any Format
rep Reg -> OrdList Instr
code -> do
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
rep
(Reg, OrdList Instr) -> NatM (Reg, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg
tmp, Reg -> OrdList Instr
code Reg
tmp)
Fixed Format
rep Reg
reg OrdList Instr
code
| Reg
reg Reg -> [Reg] -> Bool
forall a. Eq a => a -> [a] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`elem` Platform -> [Reg]
instrClobberedRegs Platform
platform
-> do
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
rep
(Reg, OrdList Instr) -> NatM (Reg, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg
tmp, OrdList Instr
code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> Reg -> Reg -> Instr
reg2reg Format
rep Reg
reg Reg
tmp)
| Bool
otherwise ->
(Reg, OrdList Instr) -> NatM (Reg, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg
reg, OrdList Instr
code)
reg2reg :: Format -> Reg -> Reg -> Instr
reg2reg :: Format -> Reg -> Reg -> Instr
reg2reg Format
format Reg
src Reg
dst = Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
src) (Reg -> Operand
OpReg Reg
dst)
getAmode :: CmmExpr -> NatM Amode
getAmode :: CmmExpr -> NatM Amode
getAmode CmmExpr
e = do
Platform
platform <- NatM Platform
getPlatform
let is32Bit :: Bool
is32Bit = Platform -> Bool
target32Bit Platform
platform
case CmmExpr
e of
CmmRegOff CmmReg
r Int
n
-> CmmExpr -> NatM Amode
getAmode (CmmExpr -> NatM Amode) -> CmmExpr -> NatM Amode
forall a b. (a -> b) -> a -> b
$ CmmReg -> Int -> CmmExpr
mangleIndexTree CmmReg
r Int
n
CmmMachOp (MO_Add Width
W64) [CmmReg (CmmGlobal (GlobalRegUse GlobalReg
PicBaseReg CmmType
_)), CmmLit CmmLit
displacement]
| Bool -> Bool
not Bool
is32Bit
-> Amode -> NatM Amode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Amode -> NatM Amode) -> Amode -> NatM Amode
forall a b. (a -> b) -> a -> b
$ AddrMode -> OrdList Instr -> Amode
Amode (Imm -> AddrMode
ripRel (CmmLit -> Imm
litToImm CmmLit
displacement)) OrdList Instr
forall a. OrdList a
nilOL
CmmMachOp (MO_Sub Width
_rep) [CmmExpr
x, CmmLit lit :: CmmLit
lit@(CmmInt Integer
i Width
_)]
| Platform -> CmmLit -> Bool
is32BitLit Platform
platform CmmLit
lit
-> do
(Reg
x_reg, OrdList Instr
x_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
x
let off :: Imm
off = Int -> Imm
ImmInt (-(Integer -> Int
forall a. Num a => Integer -> a
fromInteger Integer
i))
Amode -> NatM Amode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode -> OrdList Instr -> Amode
Amode (EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
x_reg) EAIndex
EAIndexNone Imm
off) OrdList Instr
x_code)
CmmMachOp (MO_Add Width
_rep) [CmmExpr
x, CmmLit CmmLit
lit]
| Platform -> CmmLit -> Bool
is32BitLit Platform
platform CmmLit
lit
-> do
(Reg
x_reg, OrdList Instr
x_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
x
let off :: Imm
off = CmmLit -> Imm
litToImm CmmLit
lit
Amode -> NatM Amode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode -> OrdList Instr -> Amode
Amode (EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
x_reg) EAIndex
EAIndexNone Imm
off) OrdList Instr
x_code)
CmmMachOp (MO_Add Width
rep) [a :: CmmExpr
a@(CmmMachOp (MO_Shl Width
_) [CmmExpr]
_), b :: CmmExpr
b@(CmmLit CmmLit
_)]
-> CmmExpr -> NatM Amode
getAmode (MachOp -> [CmmExpr] -> CmmExpr
CmmMachOp (Width -> MachOp
MO_Add Width
rep) [CmmExpr
b,CmmExpr
a])
CmmMachOp (MO_Add Width
_) [CmmRegOff CmmReg
x Int
offset, CmmMachOp (MO_Shl Width
_) [CmmExpr
y, CmmLit (CmmInt Integer
shift Width
_)]]
| Integer
shift Integer -> Integer -> Bool
forall a. Eq a => a -> a -> Bool
== Integer
0 Bool -> Bool -> Bool
|| Integer
shift Integer -> Integer -> Bool
forall a. Eq a => a -> a -> Bool
== Integer
1 Bool -> Bool -> Bool
|| Integer
shift Integer -> Integer -> Bool
forall a. Eq a => a -> a -> Bool
== Integer
2 Bool -> Bool -> Bool
|| Integer
shift Integer -> Integer -> Bool
forall a. Eq a => a -> a -> Bool
== Integer
3
-> CmmExpr -> CmmExpr -> Integer -> Integer -> NatM Amode
x86_complex_amode (CmmReg -> CmmExpr
CmmReg CmmReg
x) CmmExpr
y Integer
shift (Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
offset)
CmmMachOp (MO_Add Width
_) [CmmExpr
x, CmmMachOp (MO_Shl Width
_) [CmmExpr
y, CmmLit (CmmInt Integer
shift Width
_)]]
| Integer
shift Integer -> Integer -> Bool
forall a. Eq a => a -> a -> Bool
== Integer
0 Bool -> Bool -> Bool
|| Integer
shift Integer -> Integer -> Bool
forall a. Eq a => a -> a -> Bool
== Integer
1 Bool -> Bool -> Bool
|| Integer
shift Integer -> Integer -> Bool
forall a. Eq a => a -> a -> Bool
== Integer
2 Bool -> Bool -> Bool
|| Integer
shift Integer -> Integer -> Bool
forall a. Eq a => a -> a -> Bool
== Integer
3
-> CmmExpr -> CmmExpr -> Integer -> Integer -> NatM Amode
x86_complex_amode CmmExpr
x CmmExpr
y Integer
shift Integer
0
CmmMachOp (MO_Add Width
_) [CmmExpr
x, CmmMachOp (MO_Add Width
_) [CmmMachOp (MO_Shl Width
_)
[CmmExpr
y, CmmLit (CmmInt Integer
shift Width
_)], CmmLit (CmmInt Integer
offset Width
_)]]
| Integer
shift Integer -> Integer -> Bool
forall a. Eq a => a -> a -> Bool
== Integer
0 Bool -> Bool -> Bool
|| Integer
shift Integer -> Integer -> Bool
forall a. Eq a => a -> a -> Bool
== Integer
1 Bool -> Bool -> Bool
|| Integer
shift Integer -> Integer -> Bool
forall a. Eq a => a -> a -> Bool
== Integer
2 Bool -> Bool -> Bool
|| Integer
shift Integer -> Integer -> Bool
forall a. Eq a => a -> a -> Bool
== Integer
3
Bool -> Bool -> Bool
&& Integer -> Bool
is32BitInteger Integer
offset
-> CmmExpr -> CmmExpr -> Integer -> Integer -> NatM Amode
x86_complex_amode CmmExpr
x CmmExpr
y Integer
shift Integer
offset
CmmMachOp (MO_Add Width
_) [CmmExpr
x,CmmExpr
y]
| Bool -> Bool
not (CmmExpr -> Bool
isLit CmmExpr
y)
-> CmmExpr -> CmmExpr -> Integer -> Integer -> NatM Amode
x86_complex_amode CmmExpr
x CmmExpr
y Integer
0 Integer
0
CmmLit CmmLit
lit
| Bool -> Bool
not Bool
is32Bit
, CmmLit -> Bool
is_label CmmLit
lit
-> Amode -> NatM Amode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode -> OrdList Instr -> Amode
Amode (EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex EABase
EABaseRip EAIndex
EAIndexNone (CmmLit -> Imm
litToImm CmmLit
lit)) OrdList Instr
forall a. OrdList a
nilOL)
CmmLit CmmLit
lit
| Platform -> CmmLit -> Bool
is32BitLit Platform
platform CmmLit
lit
-> Amode -> NatM Amode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode -> OrdList Instr -> Amode
Amode (Imm -> Int -> AddrMode
ImmAddr (CmmLit -> Imm
litToImm CmmLit
lit) Int
0) OrdList Instr
forall a. OrdList a
nilOL)
CmmLit (CmmLabelOff CLabel
l Int
off)
-> CmmExpr -> NatM Amode
getAmode (MachOp -> [CmmExpr] -> CmmExpr
CmmMachOp (Width -> MachOp
MO_Add Width
W64) [ CmmLit -> CmmExpr
CmmLit (CLabel -> CmmLit
CmmLabel CLabel
l)
, CmmLit -> CmmExpr
CmmLit (Integer -> Width -> CmmLit
CmmInt (Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
off) Width
W64)
])
CmmLit (CmmLabelDiffOff CLabel
l1 CLabel
l2 Int
off Width
w)
-> CmmExpr -> NatM Amode
getAmode (MachOp -> [CmmExpr] -> CmmExpr
CmmMachOp (Width -> MachOp
MO_Add Width
W64) [ CmmLit -> CmmExpr
CmmLit (CLabel -> CLabel -> Int -> Width -> CmmLit
CmmLabelDiffOff CLabel
l1 CLabel
l2 Int
0 Width
w)
, CmmLit -> CmmExpr
CmmLit (Integer -> Width -> CmmLit
CmmInt (Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
off) Width
W64)
])
CmmExpr
_ -> do
(Reg
reg,OrdList Instr
code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
e
Amode -> NatM Amode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode -> OrdList Instr -> Amode
Amode (EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
reg) EAIndex
EAIndexNone (Int -> Imm
ImmInt Int
0)) OrdList Instr
code)
where
is_label :: CmmLit -> Bool
is_label (CmmLabel{}) = Bool
True
is_label (CmmLabelOff{}) = Bool
True
is_label (CmmLabelDiffOff{}) = Bool
True
is_label CmmLit
_ = Bool
False
getSimpleAmode :: CmmExpr -> NatM Amode
getSimpleAmode :: CmmExpr -> NatM Amode
getSimpleAmode CmmExpr
addr = NatM Bool
is32BitPlatform NatM Bool -> (Bool -> NatM Amode) -> NatM Amode
forall a b. NatM a -> (a -> NatM b) -> NatM b
forall (m :: * -> *) a b. Monad m => m a -> (a -> m b) -> m b
>>= \case
Bool
False -> CmmExpr -> NatM Amode
getAmode CmmExpr
addr
Bool
True -> do
Reg -> OrdList Instr
addr_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
addr
NCGConfig
config <- NatM NCGConfig
getConfig
Reg
addr_r <- Format -> NatM Reg
getNewRegNat (Width -> Format
intFormat (NCGConfig -> Width
ncgWordWidth NCGConfig
config))
let amode :: AddrMode
amode = EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
addr_r) EAIndex
EAIndexNone (Int -> Imm
ImmInt Int
0)
Amode -> NatM Amode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Amode -> NatM Amode) -> Amode -> NatM Amode
forall a b. (a -> b) -> a -> b
$! AddrMode -> OrdList Instr -> Amode
Amode AddrMode
amode (Reg -> OrdList Instr
addr_code Reg
addr_r)
x86_complex_amode :: CmmExpr -> CmmExpr -> Integer -> Integer -> NatM Amode
x86_complex_amode :: CmmExpr -> CmmExpr -> Integer -> Integer -> NatM Amode
x86_complex_amode CmmExpr
base CmmExpr
index Integer
shift Integer
offset
= do (Reg
x_reg, OrdList Instr
x_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
base
(Reg
y_reg, OrdList Instr
y_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
index
let
code :: OrdList Instr
code = OrdList Instr
x_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
y_code
base :: Int
base = case Integer
shift of Integer
0 -> Int
1; Integer
1 -> Int
2; Integer
2 -> Int
4; Integer
3 -> Int
8;
Integer
n -> String -> Int
forall a. HasCallStack => String -> a
panic (String -> Int) -> String -> Int
forall a b. (a -> b) -> a -> b
$ String
"x86_complex_amode: unhandled shift! (" String -> String -> String
forall a. [a] -> [a] -> [a]
++ Integer -> String
forall a. Show a => a -> String
show Integer
n String -> String -> String
forall a. [a] -> [a] -> [a]
++ String
")"
Amode -> NatM Amode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode -> OrdList Instr -> Amode
Amode (EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
x_reg) (Reg -> Int -> EAIndex
EAIndex Reg
y_reg Int
base) (Int -> Imm
ImmInt (Integer -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral Integer
offset)))
OrdList Instr
code)
getNonClobberedOperand :: CmmExpr -> NatM (Operand, InstrBlock)
getNonClobberedOperand :: CmmExpr -> NatM (Operand, OrdList Instr)
getNonClobberedOperand (CmmLit CmmLit
lit) =
if CmmLit -> Bool
isSuitableFloatingPointLit CmmLit
lit
then do
let CmmFloat Rational
_ Width
w = CmmLit
lit
Amode AddrMode
addr OrdList Instr
code <- Alignment -> CmmLit -> NatM Amode
memConstant (Int -> Alignment
mkAlignment (Int -> Alignment) -> Int -> Alignment
forall a b. (a -> b) -> a -> b
$ Width -> Int
widthInBytes Width
w) CmmLit
lit
(Operand, OrdList Instr) -> NatM (Operand, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode -> Operand
OpAddr AddrMode
addr, OrdList Instr
code)
else do
Platform
platform <- NatM Platform
getPlatform
if Platform -> CmmLit -> Bool
is32BitLit Platform
platform CmmLit
lit Bool -> Bool -> Bool
&& Bool -> Bool
not (CmmType -> Bool
isFloatType (Platform -> CmmLit -> CmmType
cmmLitType Platform
platform CmmLit
lit))
then (Operand, OrdList Instr) -> NatM (Operand, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Imm -> Operand
OpImm (CmmLit -> Imm
litToImm CmmLit
lit), OrdList Instr
forall a. OrdList a
nilOL)
else CmmExpr -> NatM (Operand, OrdList Instr)
getNonClobberedOperand_generic (CmmLit -> CmmExpr
CmmLit CmmLit
lit)
getNonClobberedOperand (CmmLoad CmmExpr
mem CmmType
pk AlignmentSpec
_) = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
if (if Bool
is32Bit then Bool -> Bool
not (CmmType -> Bool
isWord64 CmmType
pk) else Bool
True)
then do
Platform
platform <- NCGConfig -> Platform
ncgPlatform (NCGConfig -> Platform) -> NatM NCGConfig -> NatM Platform
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NatM NCGConfig
getConfig
Amode AddrMode
src OrdList Instr
mem_code <- CmmExpr -> NatM Amode
getAmode CmmExpr
mem
(AddrMode
src',OrdList Instr
save_code) <-
if (Platform -> AddrMode -> Bool
amodeCouldBeClobbered Platform
platform AddrMode
src)
then do
Reg
tmp <- Format -> NatM Reg
getNewRegNat (Bool -> Format
archWordFormat Bool
is32Bit)
(AddrMode, OrdList Instr) -> NatM (AddrMode, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
tmp) EAIndex
EAIndexNone (Int -> Imm
ImmInt Int
0),
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
LEA (Bool -> Format
archWordFormat Bool
is32Bit)
(AddrMode -> Operand
OpAddr AddrMode
src)
(Reg -> Operand
OpReg Reg
tmp)))
else
(AddrMode, OrdList Instr) -> NatM (AddrMode, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode
src, OrdList Instr
forall a. OrdList a
nilOL)
(Operand, OrdList Instr) -> NatM (Operand, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode -> Operand
OpAddr AddrMode
src', OrdList Instr
mem_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
save_code)
else
CmmExpr -> NatM (Operand, OrdList Instr)
getNonClobberedOperand_generic (CmmExpr -> CmmType -> AlignmentSpec -> CmmExpr
CmmLoad CmmExpr
mem CmmType
pk AlignmentSpec
NaturallyAligned)
getNonClobberedOperand CmmExpr
e = CmmExpr -> NatM (Operand, OrdList Instr)
getNonClobberedOperand_generic CmmExpr
e
getNonClobberedOperand_generic :: CmmExpr -> NatM (Operand, InstrBlock)
getNonClobberedOperand_generic :: CmmExpr -> NatM (Operand, OrdList Instr)
getNonClobberedOperand_generic CmmExpr
e = do
(Reg
reg, OrdList Instr
code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
e
(Operand, OrdList Instr) -> NatM (Operand, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg -> Operand
OpReg Reg
reg, OrdList Instr
code)
amodeCouldBeClobbered :: Platform -> AddrMode -> Bool
amodeCouldBeClobbered :: Platform -> AddrMode -> Bool
amodeCouldBeClobbered Platform
platform AddrMode
amode = (Reg -> Bool) -> [Reg] -> Bool
forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
any (Platform -> Reg -> Bool
regClobbered Platform
platform) (AddrMode -> [Reg]
addrModeRegs AddrMode
amode)
regClobbered :: Platform -> Reg -> Bool
regClobbered :: Platform -> Reg -> Bool
regClobbered Platform
platform (RegReal (RealRegSingle Int
rr)) = Platform -> Int -> Bool
freeReg Platform
platform Int
rr
regClobbered Platform
_ Reg
_ = Bool
False
getOperand :: CmmExpr -> NatM (Operand, InstrBlock)
getOperand :: CmmExpr -> NatM (Operand, OrdList Instr)
getOperand (CmmLit CmmLit
lit) = do
Bool
use_sse2 <- NatM Bool
sse2Enabled
if (Bool
use_sse2 Bool -> Bool -> Bool
&& CmmLit -> Bool
isSuitableFloatingPointLit CmmLit
lit)
then do
let CmmFloat Rational
_ Width
w = CmmLit
lit
Amode AddrMode
addr OrdList Instr
code <- Alignment -> CmmLit -> NatM Amode
memConstant (Int -> Alignment
mkAlignment (Int -> Alignment) -> Int -> Alignment
forall a b. (a -> b) -> a -> b
$ Width -> Int
widthInBytes Width
w) CmmLit
lit
(Operand, OrdList Instr) -> NatM (Operand, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode -> Operand
OpAddr AddrMode
addr, OrdList Instr
code)
else do
Platform
platform <- NatM Platform
getPlatform
if Platform -> CmmLit -> Bool
is32BitLit Platform
platform CmmLit
lit Bool -> Bool -> Bool
&& Bool -> Bool
not (CmmType -> Bool
isFloatType (Platform -> CmmLit -> CmmType
cmmLitType Platform
platform CmmLit
lit))
then (Operand, OrdList Instr) -> NatM (Operand, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Imm -> Operand
OpImm (CmmLit -> Imm
litToImm CmmLit
lit), OrdList Instr
forall a. OrdList a
nilOL)
else CmmExpr -> NatM (Operand, OrdList Instr)
getOperand_generic (CmmLit -> CmmExpr
CmmLit CmmLit
lit)
getOperand (CmmLoad CmmExpr
mem CmmType
pk AlignmentSpec
_) = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
Bool
use_sse2 <- NatM Bool
sse2Enabled
if (Bool -> Bool
not (CmmType -> Bool
isFloatType CmmType
pk) Bool -> Bool -> Bool
|| Bool
use_sse2) Bool -> Bool -> Bool
&& (if Bool
is32Bit then Bool -> Bool
not (CmmType -> Bool
isWord64 CmmType
pk) else Bool
True)
then do
Amode AddrMode
src OrdList Instr
mem_code <- CmmExpr -> NatM Amode
getAmode CmmExpr
mem
(Operand, OrdList Instr) -> NatM (Operand, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode -> Operand
OpAddr AddrMode
src, OrdList Instr
mem_code)
else
CmmExpr -> NatM (Operand, OrdList Instr)
getOperand_generic (CmmExpr -> CmmType -> AlignmentSpec -> CmmExpr
CmmLoad CmmExpr
mem CmmType
pk AlignmentSpec
NaturallyAligned)
getOperand CmmExpr
e = CmmExpr -> NatM (Operand, OrdList Instr)
getOperand_generic CmmExpr
e
getOperand_generic :: CmmExpr -> NatM (Operand, InstrBlock)
getOperand_generic :: CmmExpr -> NatM (Operand, OrdList Instr)
getOperand_generic CmmExpr
e = do
(Reg
reg, OrdList Instr
code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
e
(Operand, OrdList Instr) -> NatM (Operand, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg -> Operand
OpReg Reg
reg, OrdList Instr
code)
isOperand :: Platform -> CmmExpr -> Bool
isOperand :: Platform -> CmmExpr -> Bool
isOperand Platform
_ (CmmLoad CmmExpr
_ CmmType
_ AlignmentSpec
_) = Bool
True
isOperand Platform
platform (CmmLit CmmLit
lit)
= Platform -> CmmLit -> Bool
is32BitLit Platform
platform CmmLit
lit
Bool -> Bool -> Bool
|| CmmLit -> Bool
isSuitableFloatingPointLit CmmLit
lit
isOperand Platform
_ CmmExpr
_ = Bool
False
addAlignmentCheck :: Int -> Register -> Register
addAlignmentCheck :: Int -> Register -> Register
addAlignmentCheck Int
align Register
reg =
case Register
reg of
Fixed Format
fmt Reg
reg OrdList Instr
code -> Format -> Reg -> OrdList Instr -> Register
Fixed Format
fmt Reg
reg (OrdList Instr
code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Format -> Reg -> OrdList Instr
check Format
fmt Reg
reg)
Any Format
fmt Reg -> OrdList Instr
f -> Format -> (Reg -> OrdList Instr) -> Register
Any Format
fmt (\Reg
reg -> Reg -> OrdList Instr
f Reg
reg OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Format -> Reg -> OrdList Instr
check Format
fmt Reg
reg)
where
check :: Format -> Reg -> InstrBlock
check :: Format -> Reg -> OrdList Instr
check Format
fmt Reg
reg =
Bool -> OrdList Instr -> OrdList Instr
forall a. HasCallStack => Bool -> a -> a
assert (Bool -> Bool
not (Bool -> Bool) -> Bool -> Bool
forall a b. (a -> b) -> a -> b
$ Format -> Bool
isFloatFormat Format
fmt) (OrdList Instr -> OrdList Instr) -> OrdList Instr -> OrdList Instr
forall a b. (a -> b) -> a -> b
$
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [ Format -> Operand -> Operand -> Instr
TEST Format
fmt (Imm -> Operand
OpImm (Imm -> Operand) -> Imm -> Operand
forall a b. (a -> b) -> a -> b
$ Int -> Imm
ImmInt (Int -> Imm) -> Int -> Imm
forall a b. (a -> b) -> a -> b
$ Int
alignInt -> Int -> Int
forall a. Num a => a -> a -> a
-Int
1) (Reg -> Operand
OpReg Reg
reg)
, Cond -> Imm -> Instr
JXX_GBL Cond
NE (Imm -> Instr) -> Imm -> Instr
forall a b. (a -> b) -> a -> b
$ CLabel -> Imm
ImmCLbl CLabel
mkBadAlignmentLabel
]
memConstant :: Alignment -> CmmLit -> NatM Amode
memConstant :: Alignment -> CmmLit -> NatM Amode
memConstant Alignment
align CmmLit
lit = do
CLabel
lbl <- NatM CLabel
getNewLabelNat
let rosection :: Section
rosection = SectionType -> CLabel -> Section
Section SectionType
ReadOnlyData CLabel
lbl
NCGConfig
config <- NatM NCGConfig
getConfig
Platform
platform <- NatM Platform
getPlatform
(AddrMode
addr, OrdList Instr
addr_code) <- if Platform -> Bool
target32Bit Platform
platform
then do CmmExpr
dynRef <- NCGConfig -> ReferenceKind -> CLabel -> NatM CmmExpr
forall (m :: * -> *).
CmmMakeDynamicReferenceM m =>
NCGConfig -> ReferenceKind -> CLabel -> m CmmExpr
cmmMakeDynamicReference
NCGConfig
config
ReferenceKind
DataReference
CLabel
lbl
Amode AddrMode
addr OrdList Instr
addr_code <- CmmExpr -> NatM Amode
getAmode CmmExpr
dynRef
(AddrMode, OrdList Instr) -> NatM (AddrMode, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode
addr, OrdList Instr
addr_code)
else (AddrMode, OrdList Instr) -> NatM (AddrMode, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Imm -> AddrMode
ripRel (CLabel -> Imm
ImmCLbl CLabel
lbl), OrdList Instr
forall a. OrdList a
nilOL)
let code :: OrdList Instr
code =
Section -> (Alignment, RawCmmStatics) -> Instr
LDATA Section
rosection (Alignment
align, CLabel -> [CmmStatic] -> RawCmmStatics
forall (rawOnly :: Bool).
CLabel -> [CmmStatic] -> GenCmmStatics rawOnly
CmmStaticsRaw CLabel
lbl [CmmLit -> CmmStatic
CmmStaticLit CmmLit
lit])
Instr -> OrdList Instr -> OrdList Instr
forall a. a -> OrdList a -> OrdList a
`consOL` OrdList Instr
addr_code
Amode -> NatM Amode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode -> OrdList Instr -> Amode
Amode AddrMode
addr OrdList Instr
code)
loadFloatAmode :: Width -> AddrMode -> InstrBlock -> NatM Register
loadFloatAmode :: Width -> AddrMode -> OrdList Instr -> NatM Register
loadFloatAmode Width
w AddrMode
addr OrdList Instr
addr_code = do
let format :: Format
format = Width -> Format
floatFormat Width
w
code :: Reg -> OrdList Instr
code Reg
dst = OrdList Instr
addr_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
MOV Format
format (AddrMode -> Operand
OpAddr AddrMode
addr) (Reg -> Operand
OpReg Reg
dst)
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
format Reg -> OrdList Instr
code)
isSuitableFloatingPointLit :: CmmLit -> Bool
isSuitableFloatingPointLit :: CmmLit -> Bool
isSuitableFloatingPointLit (CmmFloat Rational
f Width
_) = Rational
f Rational -> Rational -> Bool
forall a. Eq a => a -> a -> Bool
/= Rational
0.0
isSuitableFloatingPointLit CmmLit
_ = Bool
False
getRegOrMem :: CmmExpr -> NatM (Operand, InstrBlock)
getRegOrMem :: CmmExpr -> NatM (Operand, OrdList Instr)
getRegOrMem e :: CmmExpr
e@(CmmLoad CmmExpr
mem CmmType
pk AlignmentSpec
_) = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
Bool
use_sse2 <- NatM Bool
sse2Enabled
if (Bool -> Bool
not (CmmType -> Bool
isFloatType CmmType
pk) Bool -> Bool -> Bool
|| Bool
use_sse2) Bool -> Bool -> Bool
&& (if Bool
is32Bit then Bool -> Bool
not (CmmType -> Bool
isWord64 CmmType
pk) else Bool
True)
then do
Amode AddrMode
src OrdList Instr
mem_code <- CmmExpr -> NatM Amode
getAmode CmmExpr
mem
(Operand, OrdList Instr) -> NatM (Operand, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (AddrMode -> Operand
OpAddr AddrMode
src, OrdList Instr
mem_code)
else do
(Reg
reg, OrdList Instr
code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
e
(Operand, OrdList Instr) -> NatM (Operand, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg -> Operand
OpReg Reg
reg, OrdList Instr
code)
getRegOrMem CmmExpr
e = do
(Reg
reg, OrdList Instr
code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
e
(Operand, OrdList Instr) -> NatM (Operand, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg -> Operand
OpReg Reg
reg, OrdList Instr
code)
is32BitLit :: Platform -> CmmLit -> Bool
is32BitLit :: Platform -> CmmLit -> Bool
is32BitLit Platform
platform CmmLit
_lit
| Platform -> Bool
target32Bit Platform
platform = Bool
True
is32BitLit Platform
platform CmmLit
lit =
case CmmLit
lit of
CmmInt Integer
i Width
W64 -> Integer -> Bool
is32BitInteger Integer
i
CmmLabel CLabel
_ -> Bool
low_image
CmmLabelOff CLabel
_ Int
off -> Bool
low_image Bool -> Bool -> Bool
&& Integer -> Bool
is32BitInteger (Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
off)
CmmLabelDiffOff CLabel
_ CLabel
_ Int
off Width
_ -> Bool
low_image Bool -> Bool -> Bool
&& Integer -> Bool
is32BitInteger (Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral Int
off)
CmmLit
_ -> Bool
True
where
low_image :: Bool
low_image =
case Platform -> OS
platformOS Platform
platform of
OS
OSMinGW32 -> Bool
False
OS
_ -> Bool
True
getCondCode :: CmmExpr -> NatM CondCode
getCondCode :: CmmExpr -> NatM CondCode
getCondCode (CmmMachOp MachOp
mop [CmmExpr
x, CmmExpr
y])
=
case MachOp
mop of
MO_F_Eq Width
W32 -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
EQQ CmmExpr
x CmmExpr
y
MO_F_Ne Width
W32 -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
NE CmmExpr
x CmmExpr
y
MO_F_Gt Width
W32 -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
GTT CmmExpr
x CmmExpr
y
MO_F_Ge Width
W32 -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
GE CmmExpr
x CmmExpr
y
MO_F_Lt Width
W32 -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
GTT CmmExpr
y CmmExpr
x
MO_F_Le Width
W32 -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
GE CmmExpr
y CmmExpr
x
MO_F_Eq Width
W64 -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
EQQ CmmExpr
x CmmExpr
y
MO_F_Ne Width
W64 -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
NE CmmExpr
x CmmExpr
y
MO_F_Gt Width
W64 -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
GTT CmmExpr
x CmmExpr
y
MO_F_Ge Width
W64 -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
GE CmmExpr
x CmmExpr
y
MO_F_Lt Width
W64 -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
GTT CmmExpr
y CmmExpr
x
MO_F_Le Width
W64 -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
GE CmmExpr
y CmmExpr
x
MachOp
_ -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condIntCode (MachOp -> Cond
machOpToCond MachOp
mop) CmmExpr
x CmmExpr
y
getCondCode CmmExpr
other = do
Platform
platform <- NatM Platform
getPlatform
String -> SDoc -> NatM CondCode
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"getCondCode(2)(x86,x86_64)" (Platform -> CmmExpr -> SDoc
forall env a. OutputableP env a => env -> a -> SDoc
pdoc Platform
platform CmmExpr
other)
machOpToCond :: MachOp -> Cond
machOpToCond :: MachOp -> Cond
machOpToCond MachOp
mo = case MachOp
mo of
MO_Eq Width
_ -> Cond
EQQ
MO_Ne Width
_ -> Cond
NE
MO_S_Gt Width
_ -> Cond
GTT
MO_S_Ge Width
_ -> Cond
GE
MO_S_Lt Width
_ -> Cond
LTT
MO_S_Le Width
_ -> Cond
LE
MO_U_Gt Width
_ -> Cond
GU
MO_U_Ge Width
_ -> Cond
GEU
MO_U_Lt Width
_ -> Cond
LU
MO_U_Le Width
_ -> Cond
LEU
MachOp
_other -> String -> SDoc -> Cond
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"machOpToCond" (MachOp -> SDoc
pprMachOp MachOp
mo)
condIntCode :: Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condIntCode :: Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condIntCode Cond
cond CmmExpr
x CmmExpr
y = do Platform
platform <- NatM Platform
getPlatform
Platform -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condIntCode' Platform
platform Cond
cond CmmExpr
x CmmExpr
y
condIntCode' :: Platform -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condIntCode' :: Platform -> Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condIntCode' Platform
platform Cond
cond (CmmLoad CmmExpr
x CmmType
pk AlignmentSpec
_) (CmmLit CmmLit
lit)
| Platform -> CmmLit -> Bool
is32BitLit Platform
platform CmmLit
lit = do
Amode AddrMode
x_addr OrdList Instr
x_code <- CmmExpr -> NatM Amode
getAmode CmmExpr
x
let
imm :: Imm
imm = CmmLit -> Imm
litToImm CmmLit
lit
code :: OrdList Instr
code = OrdList Instr
x_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
CMP (CmmType -> Format
cmmTypeFormat CmmType
pk) (Imm -> Operand
OpImm Imm
imm) (AddrMode -> Operand
OpAddr AddrMode
x_addr)
CondCode -> NatM CondCode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Bool -> Cond -> OrdList Instr -> CondCode
CondCode Bool
False Cond
cond OrdList Instr
code)
condIntCode' Platform
platform Cond
cond (CmmMachOp (MO_And Width
_) [CmmExpr
x,CmmExpr
o2]) (CmmLit (CmmInt Integer
0 Width
pk))
| (CmmLit lit :: CmmLit
lit@(CmmInt Integer
mask Width
_)) <- CmmExpr
o2, Platform -> CmmLit -> Bool
is32BitLit Platform
platform CmmLit
lit
= do
(Reg
x_reg, OrdList Instr
x_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
x
let
code :: OrdList Instr
code = OrdList Instr
x_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
TEST (Width -> Format
intFormat Width
pk) (Imm -> Operand
OpImm (Integer -> Imm
ImmInteger Integer
mask)) (Reg -> Operand
OpReg Reg
x_reg)
CondCode -> NatM CondCode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Bool -> Cond -> OrdList Instr -> CondCode
CondCode Bool
False Cond
cond OrdList Instr
code)
condIntCode' Platform
_ Cond
cond CmmExpr
x (CmmLit (CmmInt Integer
0 Width
pk)) = do
(Reg
x_reg, OrdList Instr
x_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
x
let
code :: OrdList Instr
code = OrdList Instr
x_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
TEST (Width -> Format
intFormat Width
pk) (Reg -> Operand
OpReg Reg
x_reg) (Reg -> Operand
OpReg Reg
x_reg)
CondCode -> NatM CondCode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Bool -> Cond -> OrdList Instr -> CondCode
CondCode Bool
False Cond
cond OrdList Instr
code)
condIntCode' Platform
platform Cond
cond CmmExpr
x CmmExpr
y
| Platform -> CmmExpr -> Bool
isOperand Platform
platform CmmExpr
y = do
(Reg
x_reg, OrdList Instr
x_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
x
(Operand
y_op, OrdList Instr
y_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getOperand CmmExpr
y
let
code :: OrdList Instr
code = OrdList Instr
x_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
y_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
CMP (CmmType -> Format
cmmTypeFormat (Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform CmmExpr
x)) Operand
y_op (Reg -> Operand
OpReg Reg
x_reg)
CondCode -> NatM CondCode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Bool -> Cond -> OrdList Instr -> CondCode
CondCode Bool
False Cond
cond OrdList Instr
code)
| Platform -> CmmExpr -> Bool
isOperand Platform
platform CmmExpr
x
, Just Cond
revcond <- Cond -> Maybe Cond
maybeFlipCond Cond
cond = do
(Reg
y_reg, OrdList Instr
y_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
y
(Operand
x_op, OrdList Instr
x_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getOperand CmmExpr
x
let
code :: OrdList Instr
code = OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
x_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
CMP (CmmType -> Format
cmmTypeFormat (Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform CmmExpr
x)) Operand
x_op (Reg -> Operand
OpReg Reg
y_reg)
CondCode -> NatM CondCode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Bool -> Cond -> OrdList Instr -> CondCode
CondCode Bool
False Cond
revcond OrdList Instr
code)
condIntCode' Platform
platform Cond
cond CmmExpr
x CmmExpr
y = do
(Reg
y_reg, OrdList Instr
y_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
y
(Operand
x_op, OrdList Instr
x_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getRegOrMem CmmExpr
x
let
code :: OrdList Instr
code = OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
x_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
CMP (CmmType -> Format
cmmTypeFormat (Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform CmmExpr
x)) (Reg -> Operand
OpReg Reg
y_reg) Operand
x_op
CondCode -> NatM CondCode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Bool -> Cond -> OrdList Instr -> CondCode
CondCode Bool
False Cond
cond OrdList Instr
code)
condFltCode :: Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode :: Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
cond CmmExpr
x CmmExpr
y
= NatM CondCode
condFltCode_sse2
where
condFltCode_sse2 :: NatM CondCode
condFltCode_sse2 = do
Platform
platform <- NatM Platform
getPlatform
(Reg
x_reg, OrdList Instr
x_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
x
(Operand
y_op, OrdList Instr
y_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getOperand CmmExpr
y
let
code :: OrdList Instr
code = OrdList Instr
x_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
y_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
CMP (Width -> Format
floatFormat (Width -> Format) -> Width -> Format
forall a b. (a -> b) -> a -> b
$ Platform -> CmmExpr -> Width
cmmExprWidth Platform
platform CmmExpr
x) Operand
y_op (Reg -> Operand
OpReg Reg
x_reg)
CondCode -> NatM CondCode
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Bool -> Cond -> OrdList Instr -> CondCode
CondCode Bool
True (Cond -> Cond
condToUnsigned Cond
cond) OrdList Instr
code)
assignMem_IntCode :: Format -> CmmExpr -> CmmExpr -> NatM InstrBlock
assignReg_IntCode :: Format -> CmmReg -> CmmExpr -> NatM InstrBlock
assignMem_FltCode :: Format -> CmmExpr -> CmmExpr -> NatM InstrBlock
assignReg_FltCode :: Format -> CmmReg -> CmmExpr -> NatM InstrBlock
assignMem_IntCode :: Format -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
assignMem_IntCode Format
pk CmmExpr
addr (CmmMachOp MachOp
op [CmmLoad CmmExpr
addr2 CmmType
_ AlignmentSpec
_,
CmmLit (CmmInt Integer
i Width
_)])
| CmmExpr
addr CmmExpr -> CmmExpr -> Bool
forall a. Eq a => a -> a -> Bool
== CmmExpr
addr2, Format
pk Format -> Format -> Bool
forall a. Eq a => a -> a -> Bool
/= Format
II64 Bool -> Bool -> Bool
|| Integer -> Bool
is32BitInteger Integer
i,
Just Format -> Operand -> Operand -> Instr
instr <- MachOp -> Maybe (Format -> Operand -> Operand -> Instr)
check MachOp
op
= do Amode AddrMode
amode OrdList Instr
code_addr <- CmmExpr -> NatM Amode
getAmode CmmExpr
addr
let code :: OrdList Instr
code = OrdList Instr
code_addr OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
instr Format
pk (Imm -> Operand
OpImm (Int -> Imm
ImmInt (Integer -> Int
forall a b. (Integral a, Num b) => a -> b
fromIntegral Integer
i))) (AddrMode -> Operand
OpAddr AddrMode
amode)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
code
where
check :: MachOp -> Maybe (Format -> Operand -> Operand -> Instr)
check (MO_Add Width
_) = (Format -> Operand -> Operand -> Instr)
-> Maybe (Format -> Operand -> Operand -> Instr)
forall a. a -> Maybe a
Just Format -> Operand -> Operand -> Instr
ADD
check (MO_Sub Width
_) = (Format -> Operand -> Operand -> Instr)
-> Maybe (Format -> Operand -> Operand -> Instr)
forall a. a -> Maybe a
Just Format -> Operand -> Operand -> Instr
SUB
check MachOp
_ = Maybe (Format -> Operand -> Operand -> Instr)
forall a. Maybe a
Nothing
assignMem_IntCode Format
pk CmmExpr
addr CmmExpr
src = do
Platform
platform <- NatM Platform
getPlatform
Amode AddrMode
addr OrdList Instr
code_addr <- CmmExpr -> NatM Amode
getAmode CmmExpr
addr
(OrdList Instr
code_src, Operand
op_src) <- Platform -> CmmExpr -> NatM (OrdList Instr, Operand)
get_op_RI Platform
platform CmmExpr
src
let
code :: OrdList Instr
code = OrdList Instr
code_src OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
code_addr OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
MOV Format
pk Operand
op_src (AddrMode -> Operand
OpAddr AddrMode
addr)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
code
where
get_op_RI :: Platform -> CmmExpr -> NatM (InstrBlock,Operand)
get_op_RI :: Platform -> CmmExpr -> NatM (OrdList Instr, Operand)
get_op_RI Platform
platform (CmmLit CmmLit
lit) | Platform -> CmmLit -> Bool
is32BitLit Platform
platform CmmLit
lit
= (OrdList Instr, Operand) -> NatM (OrdList Instr, Operand)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
forall a. OrdList a
nilOL, Imm -> Operand
OpImm (CmmLit -> Imm
litToImm CmmLit
lit))
get_op_RI Platform
_ CmmExpr
op
= do (Reg
reg,OrdList Instr
code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
op
(OrdList Instr, Operand) -> NatM (OrdList Instr, Operand)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
code, Reg -> Operand
OpReg Reg
reg)
assignReg_IntCode :: Format -> CmmReg -> CmmExpr -> NatM (OrdList Instr)
assignReg_IntCode Format
pk CmmReg
reg (CmmLoad CmmExpr
src CmmType
_ AlignmentSpec
_) = do
Reg -> OrdList Instr
load_code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOV Format
pk) CmmExpr
src
Platform
platform <- NCGConfig -> Platform
ncgPlatform (NCGConfig -> Platform) -> NatM NCGConfig -> NatM Platform
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NatM NCGConfig
getConfig
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg -> OrdList Instr
load_code (Platform -> CmmReg -> Reg
getRegisterReg Platform
platform CmmReg
reg))
assignReg_IntCode Format
_ CmmReg
reg CmmExpr
src = do
Platform
platform <- NCGConfig -> Platform
ncgPlatform (NCGConfig -> Platform) -> NatM NCGConfig -> NatM Platform
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NatM NCGConfig
getConfig
Reg -> OrdList Instr
code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg -> OrdList Instr
code (Platform -> CmmReg -> Reg
getRegisterReg Platform
platform CmmReg
reg))
assignMem_FltCode :: Format -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
assignMem_FltCode Format
pk CmmExpr
addr CmmExpr
src = do
(Reg
src_reg, OrdList Instr
src_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
src
Amode AddrMode
addr OrdList Instr
addr_code <- CmmExpr -> NatM Amode
getAmode CmmExpr
addr
let
code :: OrdList Instr
code = OrdList Instr
src_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
addr_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
MOV Format
pk (Reg -> Operand
OpReg Reg
src_reg) (AddrMode -> Operand
OpAddr AddrMode
addr)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
code
assignReg_FltCode :: Format -> CmmReg -> CmmExpr -> NatM (OrdList Instr)
assignReg_FltCode Format
_ CmmReg
reg CmmExpr
src = do
Reg -> OrdList Instr
src_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
Platform
platform <- NCGConfig -> Platform
ncgPlatform (NCGConfig -> Platform) -> NatM NCGConfig -> NatM Platform
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NatM NCGConfig
getConfig
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg -> OrdList Instr
src_code (Platform -> CmmReg -> Reg
getRegisterReg Platform
platform CmmReg
reg))
genJump :: CmmExpr -> [Reg] -> NatM InstrBlock
genJump :: CmmExpr -> [Reg] -> NatM (OrdList Instr)
genJump (CmmLoad CmmExpr
mem CmmType
_ AlignmentSpec
_) [Reg]
regs = do
Amode AddrMode
target OrdList Instr
code <- CmmExpr -> NatM Amode
getAmode CmmExpr
mem
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Operand -> [Reg] -> Instr
JMP (AddrMode -> Operand
OpAddr AddrMode
target) [Reg]
regs)
genJump (CmmLit CmmLit
lit) [Reg]
regs =
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Operand -> [Reg] -> Instr
JMP (Imm -> Operand
OpImm (CmmLit -> Imm
litToImm CmmLit
lit)) [Reg]
regs))
genJump CmmExpr
expr [Reg]
regs = do
(Reg
reg,OrdList Instr
code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
expr
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Operand -> [Reg] -> Instr
JMP (Reg -> Operand
OpReg Reg
reg) [Reg]
regs)
genBranch :: BlockId -> InstrBlock
genBranch :: Label -> OrdList Instr
genBranch = [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL ([Instr] -> OrdList Instr)
-> (Label -> [Instr]) -> Label -> OrdList Instr
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Label -> [Instr]
mkJumpInstr
genCondBranch
:: BlockId
-> BlockId
-> BlockId
-> CmmExpr
-> NatM InstrBlock
genCondBranch :: Label -> Label -> Label -> CmmExpr -> NatM (OrdList Instr)
genCondBranch Label
bid Label
id Label
false CmmExpr
expr = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
Bool -> Label -> Label -> Label -> CmmExpr -> NatM (OrdList Instr)
genCondBranch' Bool
is32Bit Label
bid Label
id Label
false CmmExpr
expr
genCondBranch' :: Bool -> BlockId -> BlockId -> BlockId -> CmmExpr
-> NatM InstrBlock
genCondBranch' :: Bool -> Label -> Label -> Label -> CmmExpr -> NatM (OrdList Instr)
genCondBranch' Bool
is32Bit Label
_bid Label
true Label
false (CmmMachOp MachOp
mop [CmmExpr
e1,CmmExpr
e2])
| Bool
is32Bit, Just Width
W64 <- MachOp -> Maybe Width
maybeIntComparison MachOp
mop = do
RegCode64 OrdList Instr
code1 Reg
r1hi Reg
r1lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
e1
RegCode64 OrdList Instr
code2 Reg
r2hi Reg
r2lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
e2
let cond :: Cond
cond = MachOp -> Cond
machOpToCond MachOp
mop :: Cond
Reg
tmp1 <- Format -> NatM Reg
getNewRegNat Format
II32
Reg
tmp2 <- Format -> NatM Reg
getNewRegNat Format
II32
let cmpCode :: OrdList Instr
cmpCode = Cond
-> Label
-> Label
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> OrdList Instr
intComparison Cond
cond Label
true Label
false Reg
r1hi Reg
r1lo Reg
r2hi Reg
r2lo Reg
tmp1 Reg
tmp2
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
code1 OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
code2 OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
cmpCode
where
intComparison :: Cond
-> Label
-> Label
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> OrdList Instr
intComparison Cond
cond Label
true Label
false Reg
r1_hi Reg
r1_lo Reg
r2_hi Reg
r2_lo Reg
tmp1 Reg
tmp2 =
case Cond
cond of
Cond
ALWAYS -> String -> OrdList Instr
forall a. HasCallStack => String -> a
panic String
"impossible"
Cond
NEG -> String -> OrdList Instr
forall a. HasCallStack => String -> a
panic String
"impossible"
Cond
POS -> String -> OrdList Instr
forall a. HasCallStack => String -> a
panic String
"impossible"
Cond
CARRY -> String -> OrdList Instr
forall a. HasCallStack => String -> a
panic String
"impossible"
Cond
OFLO -> String -> OrdList Instr
forall a. HasCallStack => String -> a
panic String
"impossible"
Cond
PARITY -> String -> OrdList Instr
forall a. HasCallStack => String -> a
panic String
"impossible"
Cond
NOTPARITY -> String -> OrdList Instr
forall a. HasCallStack => String -> a
panic String
"impossible"
Cond
EQQ -> OrdList Instr
cmpExact
Cond
NE -> OrdList Instr
cmpExact
Cond
GE -> OrdList Instr
cmpGE
Cond
GEU -> OrdList Instr
cmpGE
Cond
GTT -> Cond
-> Label
-> Label
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> OrdList Instr
intComparison Cond
GE Label
false Label
true Reg
r2_hi Reg
r2_lo Reg
r1_hi Reg
r1_lo Reg
tmp1 Reg
tmp2
Cond
GU -> Cond
-> Label
-> Label
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> OrdList Instr
intComparison Cond
GEU Label
false Label
true Reg
r2_hi Reg
r2_lo Reg
r1_hi Reg
r1_lo Reg
tmp1 Reg
tmp2
Cond
LE -> Cond
-> Label
-> Label
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> OrdList Instr
intComparison Cond
GE Label
true Label
false Reg
r2_hi Reg
r2_lo Reg
r1_hi Reg
r1_lo Reg
tmp1 Reg
tmp2
Cond
LEU -> Cond
-> Label
-> Label
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> OrdList Instr
intComparison Cond
GEU Label
true Label
false Reg
r2_hi Reg
r2_lo Reg
r1_hi Reg
r1_lo Reg
tmp1 Reg
tmp2
Cond
LTT -> Cond
-> Label
-> Label
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> OrdList Instr
intComparison Cond
GE Label
false Label
true Reg
r1_hi Reg
r1_lo Reg
r2_hi Reg
r2_lo Reg
tmp1 Reg
tmp2
Cond
LU -> Cond
-> Label
-> Label
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> Reg
-> OrdList Instr
intComparison Cond
GEU Label
false Label
true Reg
r1_hi Reg
r1_lo Reg
r2_hi Reg
r2_lo Reg
tmp1 Reg
tmp2
where
cmpExact :: OrdList Instr
cmpExact :: OrdList Instr
cmpExact =
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
r1_hi) (Reg -> Operand
OpReg Reg
tmp1)
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
r1_lo) (Reg -> Operand
OpReg Reg
tmp2)
, Format -> Operand -> Operand -> Instr
XOR Format
II32 (Reg -> Operand
OpReg Reg
r2_hi) (Reg -> Operand
OpReg Reg
tmp1)
, Format -> Operand -> Operand -> Instr
XOR Format
II32 (Reg -> Operand
OpReg Reg
r2_lo) (Reg -> Operand
OpReg Reg
tmp2)
, Format -> Operand -> Operand -> Instr
OR Format
II32 (Reg -> Operand
OpReg Reg
tmp1) (Reg -> Operand
OpReg Reg
tmp2)
, Cond -> Label -> Instr
JXX Cond
cond Label
true
, Cond -> Label -> Instr
JXX Cond
ALWAYS Label
false
]
cmpGE :: OrdList Instr
cmpGE = [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
r1_hi) (Reg -> Operand
OpReg Reg
tmp1)
, Format -> Operand -> Operand -> Instr
CMP Format
II32 (Reg -> Operand
OpReg Reg
r2_lo) (Reg -> Operand
OpReg Reg
r1_lo)
, Format -> Operand -> Operand -> Instr
SBB Format
II32 (Reg -> Operand
OpReg Reg
r2_hi) (Reg -> Operand
OpReg Reg
tmp1)
, Cond -> Label -> Instr
JXX Cond
cond Label
true
, Cond -> Label -> Instr
JXX Cond
ALWAYS Label
false ]
genCondBranch' Bool
_ Label
bid Label
id Label
false CmmExpr
bool = do
CondCode Bool
is_float Cond
cond OrdList Instr
cond_code <- CmmExpr -> NatM CondCode
getCondCode CmmExpr
bool
Bool
use_sse2 <- NatM Bool
sse2Enabled
if Bool -> Bool
not Bool
is_float Bool -> Bool -> Bool
|| Bool -> Bool
not Bool
use_sse2
then
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
cond_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Cond -> Label -> Instr
JXX Cond
cond Label
id OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Label -> OrdList Instr
genBranch Label
false)
else do
let jmpFalse :: OrdList Instr
jmpFalse = Label -> OrdList Instr
genBranch Label
false
code :: OrdList Instr
code
= case Cond
cond of
Cond
NE -> OrdList Instr
or_unordered
Cond
GU -> OrdList Instr
plain_test
Cond
GEU -> OrdList Instr
plain_test
Cond
LTT ->
Bool -> SDoc -> OrdList Instr -> OrdList Instr
forall a. HasCallStack => Bool -> SDoc -> a -> a
assertPpr Bool
False (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"Should have been turned into >")
OrdList Instr
and_ordered
Cond
LE ->
Bool -> SDoc -> OrdList Instr -> OrdList Instr
forall a. HasCallStack => Bool -> SDoc -> a -> a
assertPpr Bool
False (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"Should have been turned into >=")
OrdList Instr
and_ordered
Cond
_ -> OrdList Instr
and_ordered
plain_test :: OrdList Instr
plain_test = Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (
Cond -> Label -> Instr
JXX Cond
cond Label
id
) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
jmpFalse
or_unordered :: OrdList Instr
or_unordered = [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Cond -> Label -> Instr
JXX Cond
cond Label
id,
Cond -> Label -> Instr
JXX Cond
PARITY Label
id
] OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
jmpFalse
and_ordered :: OrdList Instr
and_ordered = [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Cond -> Label -> Instr
JXX Cond
PARITY Label
false,
Cond -> Label -> Instr
JXX Cond
cond Label
id,
Cond -> Label -> Instr
JXX Cond
ALWAYS Label
false
]
(CFG -> CFG) -> NatM ()
updateCfgNat (\CFG
cfg -> CFG -> (EdgeWeight -> EdgeWeight) -> Label -> Label -> CFG
adjustEdgeWeight CFG
cfg (EdgeWeight -> EdgeWeight -> EdgeWeight
forall a. Num a => a -> a -> a
+EdgeWeight
3) Label
bid Label
false)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
cond_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
code)
genForeignCall
:: ForeignTarget
-> [CmmFormal]
-> [CmmActual]
-> BlockId
-> NatM (InstrBlock, Maybe BlockId)
genForeignCall :: ForeignTarget
-> [LocalReg]
-> [CmmExpr]
-> Label
-> NatM (OrdList Instr, Maybe Label)
genForeignCall ForeignTarget
target [LocalReg]
dst [CmmExpr]
args Label
bid = do
case ForeignTarget
target of
PrimTarget CallishMachOp
prim -> Label
-> CallishMachOp
-> [LocalReg]
-> [CmmExpr]
-> NatM (OrdList Instr, Maybe Label)
genPrim Label
bid CallishMachOp
prim [LocalReg]
dst [CmmExpr]
args
ForeignTarget CmmExpr
addr ForeignConvention
conv -> (,Maybe Label
forall a. Maybe a
Nothing) (OrdList Instr -> (OrdList Instr, Maybe Label))
-> NatM (OrdList Instr) -> NatM (OrdList Instr, Maybe Label)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Label
-> CmmExpr
-> ForeignConvention
-> [LocalReg]
-> [CmmExpr]
-> NatM (OrdList Instr)
genCCall Label
bid CmmExpr
addr ForeignConvention
conv [LocalReg]
dst [CmmExpr]
args
genPrim
:: BlockId
-> CallishMachOp
-> [CmmFormal]
-> [CmmActual]
-> NatM (InstrBlock, Maybe BlockId)
genPrim :: Label
-> CallishMachOp
-> [LocalReg]
-> [CmmExpr]
-> NatM (OrdList Instr, Maybe Label)
genPrim Label
bid (MO_AtomicRMW Width
width AtomicMachOp
amop) [LocalReg
dst] [CmmExpr
addr, CmmExpr
n]
= Label
-> Width
-> AtomicMachOp
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr, Maybe Label)
genAtomicRMW Label
bid Width
width AtomicMachOp
amop LocalReg
dst CmmExpr
addr CmmExpr
n
genPrim Label
bid (MO_Ctz Width
width) [LocalReg
dst] [CmmExpr
src]
= Label
-> Width
-> LocalReg
-> CmmExpr
-> NatM (OrdList Instr, Maybe Label)
genCtz Label
bid Width
width LocalReg
dst CmmExpr
src
genPrim Label
bid CallishMachOp
prim [LocalReg]
dst [CmmExpr]
args
= (,Maybe Label
forall a. Maybe a
Nothing) (OrdList Instr -> (OrdList Instr, Maybe Label))
-> NatM (OrdList Instr) -> NatM (OrdList Instr, Maybe Label)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Label
-> CallishMachOp -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genSimplePrim Label
bid CallishMachOp
prim [LocalReg]
dst [CmmExpr]
args
genSimplePrim
:: BlockId
-> CallishMachOp
-> [CmmFormal]
-> [CmmActual]
-> NatM InstrBlock
genSimplePrim :: Label
-> CallishMachOp -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genSimplePrim Label
bid (MO_Memcpy Int
align) [] [CmmExpr
dst,CmmExpr
src,CmmExpr
n] = Label
-> Int -> CmmExpr -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genMemCpy Label
bid Int
align CmmExpr
dst CmmExpr
src CmmExpr
n
genSimplePrim Label
bid (MO_Memmove Int
align) [] [CmmExpr
dst,CmmExpr
src,CmmExpr
n] = Label
-> Int -> CmmExpr -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
forall p.
Label -> p -> CmmExpr -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genMemMove Label
bid Int
align CmmExpr
dst CmmExpr
src CmmExpr
n
genSimplePrim Label
bid (MO_Memcmp Int
align) [LocalReg
res] [CmmExpr
dst,CmmExpr
src,CmmExpr
n] = Label
-> Int
-> LocalReg
-> CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
forall p.
Label
-> p
-> LocalReg
-> CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genMemCmp Label
bid Int
align LocalReg
res CmmExpr
dst CmmExpr
src CmmExpr
n
genSimplePrim Label
bid (MO_Memset Int
align) [] [CmmExpr
dst,CmmExpr
c,CmmExpr
n] = Label
-> Int -> CmmExpr -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genMemSet Label
bid Int
align CmmExpr
dst CmmExpr
c CmmExpr
n
genSimplePrim Label
_ CallishMachOp
MO_ReadBarrier [] [] = OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
forall a. OrdList a
nilOL
genSimplePrim Label
_ CallishMachOp
MO_WriteBarrier [] [] = OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
forall a. OrdList a
nilOL
genSimplePrim Label
_ CallishMachOp
MO_Touch [] [CmmExpr
_] = OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
forall a. OrdList a
nilOL
genSimplePrim Label
_ (MO_Prefetch_Data Int
n) [] [CmmExpr
src] = Int -> CmmExpr -> NatM (OrdList Instr)
genPrefetchData Int
n CmmExpr
src
genSimplePrim Label
_ (MO_BSwap Width
width) [LocalReg
dst] [CmmExpr
src] = Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genByteSwap Width
width LocalReg
dst CmmExpr
src
genSimplePrim Label
bid (MO_BRev Width
width) [LocalReg
dst] [CmmExpr
src] = Label -> Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genBitRev Label
bid Width
width LocalReg
dst CmmExpr
src
genSimplePrim Label
bid (MO_PopCnt Width
width) [LocalReg
dst] [CmmExpr
src] = Label -> Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genPopCnt Label
bid Width
width LocalReg
dst CmmExpr
src
genSimplePrim Label
bid (MO_Pdep Width
width) [LocalReg
dst] [CmmExpr
src,CmmExpr
mask] = Label
-> Width -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPdep Label
bid Width
width LocalReg
dst CmmExpr
src CmmExpr
mask
genSimplePrim Label
bid (MO_Pext Width
width) [LocalReg
dst] [CmmExpr
src,CmmExpr
mask] = Label
-> Width -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPext Label
bid Width
width LocalReg
dst CmmExpr
src CmmExpr
mask
genSimplePrim Label
bid (MO_Clz Width
width) [LocalReg
dst] [CmmExpr
src] = Label -> Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genClz Label
bid Width
width LocalReg
dst CmmExpr
src
genSimplePrim Label
bid (MO_UF_Conv Width
width) [LocalReg
dst] [CmmExpr
src] = Label -> Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genWordToFloat Label
bid Width
width LocalReg
dst CmmExpr
src
genSimplePrim Label
_ (MO_AtomicRead Width
w MemoryOrdering
mo) [LocalReg
dst] [CmmExpr
addr] = Width
-> MemoryOrdering -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genAtomicRead Width
w MemoryOrdering
mo LocalReg
dst CmmExpr
addr
genSimplePrim Label
_ (MO_AtomicWrite Width
w MemoryOrdering
mo) [] [CmmExpr
addr,CmmExpr
val] = Width
-> MemoryOrdering -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genAtomicWrite Width
w MemoryOrdering
mo CmmExpr
addr CmmExpr
val
genSimplePrim Label
bid (MO_Cmpxchg Width
width) [LocalReg
dst] [CmmExpr
addr,CmmExpr
old,CmmExpr
new] = Label
-> Width
-> LocalReg
-> CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genCmpXchg Label
bid Width
width LocalReg
dst CmmExpr
addr CmmExpr
old CmmExpr
new
genSimplePrim Label
_ (MO_Xchg Width
width) [LocalReg
dst] [CmmExpr
addr, CmmExpr
value] = Width -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genXchg Width
width LocalReg
dst CmmExpr
addr CmmExpr
value
genSimplePrim Label
_ (MO_AddWordC Width
w) [LocalReg
r,LocalReg
c] [CmmExpr
x,CmmExpr
y] = Width
-> (Format -> Operand -> Operand -> Instr)
-> (Format -> Maybe (Operand -> Operand -> Instr))
-> Cond
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genAddSubRetCarry Width
w Format -> Operand -> Operand -> Instr
ADD_CC (Maybe (Operand -> Operand -> Instr)
-> Format -> Maybe (Operand -> Operand -> Instr)
forall a b. a -> b -> a
const Maybe (Operand -> Operand -> Instr)
forall a. Maybe a
Nothing) Cond
CARRY LocalReg
r LocalReg
c CmmExpr
x CmmExpr
y
genSimplePrim Label
_ (MO_SubWordC Width
w) [LocalReg
r,LocalReg
c] [CmmExpr
x,CmmExpr
y] = Width
-> (Format -> Operand -> Operand -> Instr)
-> (Format -> Maybe (Operand -> Operand -> Instr))
-> Cond
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genAddSubRetCarry Width
w Format -> Operand -> Operand -> Instr
SUB_CC (Maybe (Operand -> Operand -> Instr)
-> Format -> Maybe (Operand -> Operand -> Instr)
forall a b. a -> b -> a
const Maybe (Operand -> Operand -> Instr)
forall a. Maybe a
Nothing) Cond
CARRY LocalReg
r LocalReg
c CmmExpr
x CmmExpr
y
genSimplePrim Label
_ (MO_AddIntC Width
w) [LocalReg
r,LocalReg
c] [CmmExpr
x,CmmExpr
y] = Width
-> (Format -> Operand -> Operand -> Instr)
-> (Format -> Maybe (Operand -> Operand -> Instr))
-> Cond
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genAddSubRetCarry Width
w Format -> Operand -> Operand -> Instr
ADD_CC ((Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
forall a. a -> Maybe a
Just ((Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr))
-> (Format -> Operand -> Operand -> Instr)
-> Format
-> Maybe (Operand -> Operand -> Instr)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Format -> Operand -> Operand -> Instr
ADD_CC) Cond
OFLO LocalReg
r LocalReg
c CmmExpr
x CmmExpr
y
genSimplePrim Label
_ (MO_SubIntC Width
w) [LocalReg
r,LocalReg
c] [CmmExpr
x,CmmExpr
y] = Width
-> (Format -> Operand -> Operand -> Instr)
-> (Format -> Maybe (Operand -> Operand -> Instr))
-> Cond
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genAddSubRetCarry Width
w Format -> Operand -> Operand -> Instr
SUB_CC (Maybe (Operand -> Operand -> Instr)
-> Format -> Maybe (Operand -> Operand -> Instr)
forall a b. a -> b -> a
const Maybe (Operand -> Operand -> Instr)
forall a. Maybe a
Nothing) Cond
OFLO LocalReg
r LocalReg
c CmmExpr
x CmmExpr
y
genSimplePrim Label
_ (MO_Add2 Width
w) [LocalReg
h,LocalReg
l] [CmmExpr
x,CmmExpr
y] = Width
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genAddWithCarry Width
w LocalReg
h LocalReg
l CmmExpr
x CmmExpr
y
genSimplePrim Label
_ (MO_U_Mul2 Width
w) [LocalReg
h,LocalReg
l] [CmmExpr
x,CmmExpr
y] = Width
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genUnsignedLargeMul Width
w LocalReg
h LocalReg
l CmmExpr
x CmmExpr
y
genSimplePrim Label
_ (MO_S_Mul2 Width
w) [LocalReg
c,LocalReg
h,LocalReg
l] [CmmExpr
x,CmmExpr
y] = Width
-> LocalReg
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genSignedLargeMul Width
w LocalReg
c LocalReg
h LocalReg
l CmmExpr
x CmmExpr
y
genSimplePrim Label
_ (MO_S_QuotRem Width
w) [LocalReg
q,LocalReg
r] [CmmExpr
x,CmmExpr
y] = Width
-> Bool
-> LocalReg
-> LocalReg
-> Maybe CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genQuotRem Width
w Bool
True LocalReg
q LocalReg
r Maybe CmmExpr
forall a. Maybe a
Nothing CmmExpr
x CmmExpr
y
genSimplePrim Label
_ (MO_U_QuotRem Width
w) [LocalReg
q,LocalReg
r] [CmmExpr
x,CmmExpr
y] = Width
-> Bool
-> LocalReg
-> LocalReg
-> Maybe CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genQuotRem Width
w Bool
False LocalReg
q LocalReg
r Maybe CmmExpr
forall a. Maybe a
Nothing CmmExpr
x CmmExpr
y
genSimplePrim Label
_ (MO_U_QuotRem2 Width
w) [LocalReg
q,LocalReg
r] [CmmExpr
hx,CmmExpr
lx,CmmExpr
y] = Width
-> Bool
-> LocalReg
-> LocalReg
-> Maybe CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genQuotRem Width
w Bool
False LocalReg
q LocalReg
r (CmmExpr -> Maybe CmmExpr
forall a. a -> Maybe a
Just CmmExpr
hx) CmmExpr
lx CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_F32_Fabs [LocalReg
dst] [CmmExpr
src] = Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genFloatAbs Width
W32 LocalReg
dst CmmExpr
src
genSimplePrim Label
_ CallishMachOp
MO_F64_Fabs [LocalReg
dst] [CmmExpr
src] = Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genFloatAbs Width
W64 LocalReg
dst CmmExpr
src
genSimplePrim Label
_ CallishMachOp
MO_F32_Sqrt [LocalReg
dst] [CmmExpr
src] = Format -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genFloatSqrt Format
FF32 LocalReg
dst CmmExpr
src
genSimplePrim Label
_ CallishMachOp
MO_F64_Sqrt [LocalReg
dst] [CmmExpr
src] = Format -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genFloatSqrt Format
FF64 LocalReg
dst CmmExpr
src
genSimplePrim Label
bid CallishMachOp
MO_F32_Sin [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"sinf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Cos [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"cosf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Tan [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"tanf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Exp [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"expf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_ExpM1 [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"expm1f") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Log [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"logf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Log1P [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"log1pf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Asin [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"asinf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Acos [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"acosf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Atan [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"atanf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Sinh [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"sinhf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Cosh [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"coshf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Tanh [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"tanhf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Pwr [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"powf") [LocalReg
dst] [CmmExpr
x,CmmExpr
y]
genSimplePrim Label
bid CallishMachOp
MO_F32_Asinh [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"asinhf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Acosh [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"acoshf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F32_Atanh [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"atanhf") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Sin [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"sin") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Cos [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"cos") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Tan [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"tan") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Exp [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"exp") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_ExpM1 [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"expm1") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Log [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"log") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Log1P [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"log1p") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Asin [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"asin") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Acos [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"acos") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Atan [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"atan") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Sinh [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"sinh") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Cosh [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"cosh") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Tanh [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"tanh") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Pwr [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"pow") [LocalReg
dst] [CmmExpr
x,CmmExpr
y]
genSimplePrim Label
bid CallishMachOp
MO_F64_Asinh [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"asinh") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Acosh [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"acosh") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_F64_Atanh [LocalReg
dst] [CmmExpr
src] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"atanh") [LocalReg
dst] [CmmExpr
src]
genSimplePrim Label
bid CallishMachOp
MO_SuspendThread [LocalReg
tok] [CmmExpr
rs,CmmExpr
i] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genRTSCCall Label
bid (String -> FastString
fsLit String
"suspendThread") [LocalReg
tok] [CmmExpr
rs,CmmExpr
i]
genSimplePrim Label
bid CallishMachOp
MO_ResumeThread [LocalReg
rs] [CmmExpr
tok] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genRTSCCall Label
bid (String -> FastString
fsLit String
"resumeThread") [LocalReg
rs] [CmmExpr
tok]
genSimplePrim Label
_ CallishMachOp
MO_I64_ToI [LocalReg
dst] [CmmExpr
src] = LocalReg -> CmmExpr -> NatM (OrdList Instr)
genInt64ToInt LocalReg
dst CmmExpr
src
genSimplePrim Label
_ CallishMachOp
MO_I64_FromI [LocalReg
dst] [CmmExpr
src] = LocalReg -> CmmExpr -> NatM (OrdList Instr)
genIntToInt64 LocalReg
dst CmmExpr
src
genSimplePrim Label
_ CallishMachOp
MO_W64_ToW [LocalReg
dst] [CmmExpr
src] = LocalReg -> CmmExpr -> NatM (OrdList Instr)
genWord64ToWord LocalReg
dst CmmExpr
src
genSimplePrim Label
_ CallishMachOp
MO_W64_FromW [LocalReg
dst] [CmmExpr
src] = LocalReg -> CmmExpr -> NatM (OrdList Instr)
genWordToWord64 LocalReg
dst CmmExpr
src
genSimplePrim Label
_ CallishMachOp
MO_x64_Neg [LocalReg
dst] [CmmExpr
src] = LocalReg -> CmmExpr -> NatM (OrdList Instr)
genNeg64 LocalReg
dst CmmExpr
src
genSimplePrim Label
_ CallishMachOp
MO_x64_Add [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genAdd64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_x64_Sub [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genSub64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
bid CallishMachOp
MO_x64_Mul [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (String -> FastString
fsLit String
"hs_mul64") [LocalReg
dst] [CmmExpr
x,CmmExpr
y]
genSimplePrim Label
bid CallishMachOp
MO_I64_Quot [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (String -> FastString
fsLit String
"hs_quotInt64") [LocalReg
dst] [CmmExpr
x,CmmExpr
y]
genSimplePrim Label
bid CallishMachOp
MO_I64_Rem [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (String -> FastString
fsLit String
"hs_remInt64") [LocalReg
dst] [CmmExpr
x,CmmExpr
y]
genSimplePrim Label
bid CallishMachOp
MO_W64_Quot [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (String -> FastString
fsLit String
"hs_quotWord64") [LocalReg
dst] [CmmExpr
x,CmmExpr
y]
genSimplePrim Label
bid CallishMachOp
MO_W64_Rem [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (String -> FastString
fsLit String
"hs_remWord64") [LocalReg
dst] [CmmExpr
x,CmmExpr
y]
genSimplePrim Label
_ CallishMachOp
MO_x64_And [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genAnd64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_x64_Or [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genOr64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_x64_Xor [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genXor64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_x64_Not [LocalReg
dst] [CmmExpr
src] = LocalReg -> CmmExpr -> NatM (OrdList Instr)
genNot64 LocalReg
dst CmmExpr
src
genSimplePrim Label
bid CallishMachOp
MO_x64_Shl [LocalReg
dst] [CmmExpr
x,CmmExpr
n] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (String -> FastString
fsLit String
"hs_uncheckedShiftL64") [LocalReg
dst] [CmmExpr
x,CmmExpr
n]
genSimplePrim Label
bid CallishMachOp
MO_I64_Shr [LocalReg
dst] [CmmExpr
x,CmmExpr
n] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (String -> FastString
fsLit String
"hs_uncheckedIShiftRA64") [LocalReg
dst] [CmmExpr
x,CmmExpr
n]
genSimplePrim Label
bid CallishMachOp
MO_W64_Shr [LocalReg
dst] [CmmExpr
x,CmmExpr
n] = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (String -> FastString
fsLit String
"hs_uncheckedShiftRL64") [LocalReg
dst] [CmmExpr
x,CmmExpr
n]
genSimplePrim Label
_ CallishMachOp
MO_x64_Eq [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genEq64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_x64_Ne [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genNe64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_I64_Ge [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genGeInt64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_I64_Gt [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genGtInt64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_I64_Le [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genLeInt64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_I64_Lt [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genLtInt64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_W64_Ge [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genGeWord64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_W64_Gt [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genGtWord64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_W64_Le [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genLeWord64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
MO_W64_Lt [LocalReg
dst] [CmmExpr
x,CmmExpr
y] = LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genLtWord64 LocalReg
dst CmmExpr
x CmmExpr
y
genSimplePrim Label
_ CallishMachOp
op [LocalReg]
dst [CmmExpr]
args = do
Platform
platform <- NCGConfig -> Platform
ncgPlatform (NCGConfig -> Platform) -> NatM NCGConfig -> NatM Platform
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NatM NCGConfig
getConfig
String -> SDoc -> NatM (OrdList Instr)
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"genSimplePrim: unhandled primop" ((SDoc, [LocalReg], [SDoc]) -> SDoc
forall a. Outputable a => a -> SDoc
ppr (CallishMachOp -> SDoc
pprCallishMachOp CallishMachOp
op, [LocalReg]
dst, (CmmExpr -> SDoc) -> [CmmExpr] -> [SDoc]
forall a b. (a -> b) -> [a] -> [b]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap (Platform -> CmmExpr -> SDoc
forall env a. OutputableP env a => env -> a -> SDoc
pdoc Platform
platform) [CmmExpr]
args))
evalArgs :: BlockId -> [CmmActual] -> NatM (InstrBlock, [CmmActual])
evalArgs :: Label -> [CmmExpr] -> NatM (OrdList Instr, [CmmExpr])
evalArgs Label
bid [CmmExpr]
actuals
| (CmmExpr -> Bool) -> [CmmExpr] -> Bool
forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
any CmmExpr -> Bool
mightContainMachOp [CmmExpr]
actuals = do
[(OrdList Instr, CmmExpr)]
regs_blks <- (CmmExpr -> NatM (OrdList Instr, CmmExpr))
-> [CmmExpr] -> NatM [(OrdList Instr, CmmExpr)]
forall (t :: * -> *) (m :: * -> *) a b.
(Traversable t, Monad m) =>
(a -> m b) -> t a -> m (t b)
forall (m :: * -> *) a b. Monad m => (a -> m b) -> [a] -> m [b]
mapM CmmExpr -> NatM (OrdList Instr, CmmExpr)
evalArg [CmmExpr]
actuals
(OrdList Instr, [CmmExpr]) -> NatM (OrdList Instr, [CmmExpr])
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return ([OrdList Instr] -> OrdList Instr
forall a. [OrdList a] -> OrdList a
concatOL ([OrdList Instr] -> OrdList Instr)
-> [OrdList Instr] -> OrdList Instr
forall a b. (a -> b) -> a -> b
$ ((OrdList Instr, CmmExpr) -> OrdList Instr)
-> [(OrdList Instr, CmmExpr)] -> [OrdList Instr]
forall a b. (a -> b) -> [a] -> [b]
map (OrdList Instr, CmmExpr) -> OrdList Instr
forall a b. (a, b) -> a
fst [(OrdList Instr, CmmExpr)]
regs_blks, ((OrdList Instr, CmmExpr) -> CmmExpr)
-> [(OrdList Instr, CmmExpr)] -> [CmmExpr]
forall a b. (a -> b) -> [a] -> [b]
map (OrdList Instr, CmmExpr) -> CmmExpr
forall a b. (a, b) -> b
snd [(OrdList Instr, CmmExpr)]
regs_blks)
| Bool
otherwise = (OrdList Instr, [CmmExpr]) -> NatM (OrdList Instr, [CmmExpr])
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
forall a. OrdList a
nilOL, [CmmExpr]
actuals)
where
mightContainMachOp :: CmmExpr -> Bool
mightContainMachOp (CmmReg CmmReg
_) = Bool
False
mightContainMachOp (CmmRegOff CmmReg
_ Int
_) = Bool
False
mightContainMachOp (CmmLit CmmLit
_) = Bool
False
mightContainMachOp CmmExpr
_ = Bool
True
evalArg :: CmmActual -> NatM (InstrBlock, CmmExpr)
evalArg :: CmmExpr -> NatM (OrdList Instr, CmmExpr)
evalArg CmmExpr
actual = do
Platform
platform <- NatM Platform
getPlatform
LocalReg
lreg <- CmmType -> NatM LocalReg
newLocalReg (CmmType -> NatM LocalReg) -> CmmType -> NatM LocalReg
forall a b. (a -> b) -> a -> b
$ Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform CmmExpr
actual
(OrdList Instr
instrs, Maybe Label
bid1) <- Label -> CmmNode O O -> NatM (OrdList Instr, Maybe Label)
forall (e :: Extensibility) (x :: Extensibility).
Label -> CmmNode e x -> NatM (OrdList Instr, Maybe Label)
stmtToInstrs Label
bid (CmmNode O O -> NatM (OrdList Instr, Maybe Label))
-> CmmNode O O -> NatM (OrdList Instr, Maybe Label)
forall a b. (a -> b) -> a -> b
$ CmmReg -> CmmExpr -> CmmNode O O
CmmAssign (LocalReg -> CmmReg
CmmLocal LocalReg
lreg) CmmExpr
actual
Bool -> NatM ()
forall (m :: * -> *). (HasCallStack, Applicative m) => Bool -> m ()
massert (Maybe Label -> Bool
forall a. Maybe a -> Bool
isNothing Maybe Label
bid1)
(OrdList Instr, CmmExpr) -> NatM (OrdList Instr, CmmExpr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
instrs, CmmReg -> CmmExpr
CmmReg (CmmReg -> CmmExpr) -> CmmReg -> CmmExpr
forall a b. (a -> b) -> a -> b
$ LocalReg -> CmmReg
CmmLocal LocalReg
lreg)
newLocalReg :: CmmType -> NatM LocalReg
newLocalReg :: CmmType -> NatM LocalReg
newLocalReg CmmType
ty = Unique -> CmmType -> LocalReg
LocalReg (Unique -> CmmType -> LocalReg)
-> NatM Unique -> NatM (CmmType -> LocalReg)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NatM Unique
forall (m :: * -> *). MonadUnique m => m Unique
getUniqueM NatM (CmmType -> LocalReg) -> NatM CmmType -> NatM LocalReg
forall a b. NatM (a -> b) -> NatM a -> NatM b
forall (f :: * -> *) a b. Applicative f => f (a -> b) -> f a -> f b
<*> CmmType -> NatM CmmType
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure CmmType
ty
genPrimCCall
:: BlockId
-> FastString
-> [CmmFormal]
-> [CmmActual]
-> NatM InstrBlock
genPrimCCall :: Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid FastString
lbl_txt [LocalReg]
dsts [CmmExpr]
args = do
NCGConfig
config <- NatM NCGConfig
getConfig
let lbl :: CLabel
lbl = UnitId -> FastString -> CLabel
mkCmmCodeLabel UnitId
primUnitId FastString
lbl_txt
CmmExpr
addr <- NCGConfig -> ReferenceKind -> CLabel -> NatM CmmExpr
forall (m :: * -> *).
CmmMakeDynamicReferenceM m =>
NCGConfig -> ReferenceKind -> CLabel -> m CmmExpr
cmmMakeDynamicReference NCGConfig
config ReferenceKind
CallReference CLabel
lbl
let conv :: ForeignConvention
conv = CCallConv
-> [ForeignHint]
-> [ForeignHint]
-> CmmReturnInfo
-> ForeignConvention
ForeignConvention CCallConv
CCallConv [] [] CmmReturnInfo
CmmMayReturn
Label
-> CmmExpr
-> ForeignConvention
-> [LocalReg]
-> [CmmExpr]
-> NatM (OrdList Instr)
genCCall Label
bid CmmExpr
addr ForeignConvention
conv [LocalReg]
dsts [CmmExpr]
args
genLibCCall
:: BlockId
-> FastString
-> [CmmFormal]
-> [CmmActual]
-> NatM InstrBlock
genLibCCall :: Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid FastString
lbl_txt [LocalReg]
dsts [CmmExpr]
args = do
NCGConfig
config <- NatM NCGConfig
getConfig
let lbl :: CLabel
lbl = FastString
-> Maybe Int -> ForeignLabelSource -> FunctionOrData -> CLabel
mkForeignLabel FastString
lbl_txt Maybe Int
forall a. Maybe a
Nothing ForeignLabelSource
ForeignLabelInThisPackage FunctionOrData
IsFunction
CmmExpr
addr <- NCGConfig -> ReferenceKind -> CLabel -> NatM CmmExpr
forall (m :: * -> *).
CmmMakeDynamicReferenceM m =>
NCGConfig -> ReferenceKind -> CLabel -> m CmmExpr
cmmMakeDynamicReference NCGConfig
config ReferenceKind
CallReference CLabel
lbl
let conv :: ForeignConvention
conv = CCallConv
-> [ForeignHint]
-> [ForeignHint]
-> CmmReturnInfo
-> ForeignConvention
ForeignConvention CCallConv
CCallConv [] [] CmmReturnInfo
CmmMayReturn
Label
-> CmmExpr
-> ForeignConvention
-> [LocalReg]
-> [CmmExpr]
-> NatM (OrdList Instr)
genCCall Label
bid CmmExpr
addr ForeignConvention
conv [LocalReg]
dsts [CmmExpr]
args
genRTSCCall
:: BlockId
-> FastString
-> [CmmFormal]
-> [CmmActual]
-> NatM InstrBlock
genRTSCCall :: Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genRTSCCall Label
bid FastString
lbl_txt [LocalReg]
dsts [CmmExpr]
args = do
NCGConfig
config <- NatM NCGConfig
getConfig
let lbl :: CLabel
lbl = FastString
-> Maybe Int -> ForeignLabelSource -> FunctionOrData -> CLabel
mkForeignLabel FastString
lbl_txt Maybe Int
forall a. Maybe a
Nothing ForeignLabelSource
ForeignLabelInThisPackage FunctionOrData
IsFunction
CmmExpr
addr <- NCGConfig -> ReferenceKind -> CLabel -> NatM CmmExpr
forall (m :: * -> *).
CmmMakeDynamicReferenceM m =>
NCGConfig -> ReferenceKind -> CLabel -> m CmmExpr
cmmMakeDynamicReference NCGConfig
config ReferenceKind
CallReference CLabel
lbl
let conv :: ForeignConvention
conv = CCallConv
-> [ForeignHint]
-> [ForeignHint]
-> CmmReturnInfo
-> ForeignConvention
ForeignConvention CCallConv
CCallConv [] [] CmmReturnInfo
CmmMayReturn
Label
-> CmmExpr
-> ForeignConvention
-> [LocalReg]
-> [CmmExpr]
-> NatM (OrdList Instr)
genCCall Label
bid CmmExpr
addr ForeignConvention
conv [LocalReg]
dsts [CmmExpr]
args
genCCall
:: BlockId
-> CmmExpr
-> ForeignConvention
-> [CmmFormal]
-> [CmmActual]
-> NatM InstrBlock
genCCall :: Label
-> CmmExpr
-> ForeignConvention
-> [LocalReg]
-> [CmmExpr]
-> NatM (OrdList Instr)
genCCall Label
bid CmmExpr
addr ForeignConvention
conv [LocalReg]
dest_regs [CmmExpr]
args = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
(OrdList Instr
instrs0, [CmmExpr]
args') <- Label -> [CmmExpr] -> NatM (OrdList Instr, [CmmExpr])
evalArgs Label
bid [CmmExpr]
args
OrdList Instr
instrs1 <- if Bool
is32Bit
then CmmExpr
-> ForeignConvention
-> [LocalReg]
-> [CmmExpr]
-> NatM (OrdList Instr)
genCCall32 CmmExpr
addr ForeignConvention
conv [LocalReg]
dest_regs [CmmExpr]
args'
else CmmExpr
-> ForeignConvention
-> [LocalReg]
-> [CmmExpr]
-> NatM (OrdList Instr)
genCCall64 CmmExpr
addr ForeignConvention
conv [LocalReg]
dest_regs [CmmExpr]
args'
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
instrs0 OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
instrs1)
genCCall32 :: CmmExpr
-> ForeignConvention
-> [CmmFormal]
-> [CmmActual]
-> NatM InstrBlock
genCCall32 :: CmmExpr
-> ForeignConvention
-> [LocalReg]
-> [CmmExpr]
-> NatM (OrdList Instr)
genCCall32 CmmExpr
addr conv :: ForeignConvention
conv@(ForeignConvention CCallConv
_ [ForeignHint]
argHints [ForeignHint]
_ CmmReturnInfo
_) [LocalReg]
dest_regs [CmmExpr]
args = do
NCGConfig
config <- NatM NCGConfig
getConfig
let platform :: Platform
platform = NCGConfig -> Platform
ncgPlatform NCGConfig
config
args_hints :: [(CmmExpr, ForeignHint)]
args_hints = [CmmExpr] -> [ForeignHint] -> [(CmmExpr, ForeignHint)]
forall a b. [a] -> [b] -> [(a, b)]
zip [CmmExpr]
args ([ForeignHint]
argHints [ForeignHint] -> [ForeignHint] -> [ForeignHint]
forall a. [a] -> [a] -> [a]
++ ForeignHint -> [ForeignHint]
forall a. a -> [a]
repeat ForeignHint
NoHint)
prom_args :: [CmmExpr]
prom_args = ((CmmExpr, ForeignHint) -> CmmExpr)
-> [(CmmExpr, ForeignHint)] -> [CmmExpr]
forall a b. (a -> b) -> [a] -> [b]
map (Platform -> Width -> (CmmExpr, ForeignHint) -> CmmExpr
maybePromoteCArg Platform
platform Width
W32) [(CmmExpr, ForeignHint)]
args_hints
arg_size_bytes :: CmmType -> Int
arg_size_bytes :: CmmType -> Int
arg_size_bytes CmmType
ty = Int -> Int -> Int
forall a. Ord a => a -> a -> a
max (Width -> Int
widthInBytes (CmmType -> Width
typeWidth CmmType
ty)) (Width -> Int
widthInBytes (Platform -> Width
wordWidth Platform
platform))
roundTo :: a -> a -> a
roundTo a
a a
x | a
x a -> a -> a
forall a. Integral a => a -> a -> a
`mod` a
a a -> a -> Bool
forall a. Eq a => a -> a -> Bool
== a
0 = a
x
| Bool
otherwise = a
x a -> a -> a
forall a. Num a => a -> a -> a
+ a
a a -> a -> a
forall a. Num a => a -> a -> a
- (a
x a -> a -> a
forall a. Integral a => a -> a -> a
`mod` a
a)
push_arg :: CmmActual
-> NatM InstrBlock
push_arg :: CmmExpr -> NatM (OrdList Instr)
push_arg CmmExpr
arg
| CmmType -> Bool
isWord64 CmmType
arg_ty = do
RegCode64 OrdList Instr
code Reg
r_hi Reg
r_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
arg
Int
delta <- NatM Int
getDeltaNat
Int -> NatM ()
setDeltaNat (Int
delta Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
8)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return ( OrdList Instr
code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [Format -> Operand -> Instr
PUSH Format
II32 (Reg -> Operand
OpReg Reg
r_hi), Int -> Instr
DELTA (Int
delta Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
4),
Format -> Operand -> Instr
PUSH Format
II32 (Reg -> Operand
OpReg Reg
r_lo), Int -> Instr
DELTA (Int
delta Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
8),
Int -> Instr
DELTA (Int
deltaInt -> Int -> Int
forall a. Num a => a -> a -> a
-Int
8)]
)
| CmmType -> Bool
isFloatType CmmType
arg_ty = do
(Reg
reg, OrdList Instr
code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
arg
Int
delta <- NatM Int
getDeltaNat
Int -> NatM ()
setDeltaNat (Int
deltaInt -> Int -> Int
forall a. Num a => a -> a -> a
-Int
size)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [Format -> Operand -> Operand -> Instr
SUB Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
size)) (Reg -> Operand
OpReg Reg
esp),
Int -> Instr
DELTA (Int
deltaInt -> Int -> Int
forall a. Num a => a -> a -> a
-Int
size),
let addr :: AddrMode
addr = EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
esp)
EAIndex
EAIndexNone
(Int -> Imm
ImmInt Int
0)
format :: Format
format = Width -> Format
floatFormat (CmmType -> Width
typeWidth CmmType
arg_ty)
in
Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
reg) (AddrMode -> Operand
OpAddr AddrMode
addr)
]
)
| Bool
otherwise = do
Bool -> NatM ()
forall (m :: * -> *). (HasCallStack, Applicative m) => Bool -> m ()
massert ((CmmType -> Width
typeWidth CmmType
arg_ty) Width -> Width -> Bool
forall a. Ord a => a -> a -> Bool
<= Width
W32)
(Operand
operand, OrdList Instr
code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getOperand CmmExpr
arg
Int
delta <- NatM Int
getDeltaNat
Int -> NatM ()
setDeltaNat (Int
deltaInt -> Int -> Int
forall a. Num a => a -> a -> a
-Int
size)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Instr
PUSH Format
II32 Operand
operand OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Int -> Instr
DELTA (Int
deltaInt -> Int -> Int
forall a. Num a => a -> a -> a
-Int
size))
where
arg_ty :: CmmType
arg_ty = Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform CmmExpr
arg
size :: Int
size = CmmType -> Int
arg_size_bytes CmmType
arg_ty
let
sizes :: [Int]
sizes = (CmmExpr -> Int) -> [CmmExpr] -> [Int]
forall a b. (a -> b) -> [a] -> [b]
map (CmmType -> Int
arg_size_bytes (CmmType -> Int) -> (CmmExpr -> CmmType) -> CmmExpr -> Int
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform) ([CmmExpr] -> [CmmExpr]
forall a. [a] -> [a]
reverse [CmmExpr]
args)
raw_arg_size :: Int
raw_arg_size = [Int] -> Int
forall a. Num a => [a] -> a
forall (t :: * -> *) a. (Foldable t, Num a) => t a -> a
sum [Int]
sizes Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Platform -> Int
platformWordSizeInBytes Platform
platform
arg_pad_size :: Int
arg_pad_size = (Int -> Int -> Int
forall a. Integral a => a -> a -> a
roundTo Int
16 (Int -> Int) -> Int -> Int
forall a b. (a -> b) -> a -> b
$ Int
raw_arg_size) Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
raw_arg_size
tot_arg_size :: Int
tot_arg_size = Int
raw_arg_size Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
arg_pad_size Int -> Int -> Int
forall a. Num a => a -> a -> a
- Platform -> Int
platformWordSizeInBytes Platform
platform
Int
delta0 <- NatM Int
getDeltaNat
Int -> NatM ()
setDeltaNat (Int
delta0 Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
arg_pad_size)
[OrdList Instr]
push_codes <- (CmmExpr -> NatM (OrdList Instr))
-> [CmmExpr] -> NatM [OrdList Instr]
forall (t :: * -> *) (m :: * -> *) a b.
(Traversable t, Monad m) =>
(a -> m b) -> t a -> m (t b)
forall (m :: * -> *) a b. Monad m => (a -> m b) -> [a] -> m [b]
mapM CmmExpr -> NatM (OrdList Instr)
push_arg ([CmmExpr] -> [CmmExpr]
forall a. [a] -> [a]
reverse [CmmExpr]
prom_args)
Int
delta <- NatM Int
getDeltaNat
Bool -> NatM ()
forall (m :: * -> *). (HasCallStack, Applicative m) => Bool -> m ()
massert (Int
delta Int -> Int -> Bool
forall a. Eq a => a -> a -> Bool
== Int
delta0 Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
tot_arg_size)
(OrdList Instr
callinsns,ForeignConvention
cconv) <-
case CmmExpr
addr of
CmmLit (CmmLabel CLabel
lbl)
->
(OrdList Instr, ForeignConvention)
-> NatM (OrdList Instr, ForeignConvention)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Either Imm Reg -> [Reg] -> Instr
CALL (Imm -> Either Imm Reg
forall a b. a -> Either a b
Left Imm
fn_imm) []), ForeignConvention
conv)
where fn_imm :: Imm
fn_imm = CLabel -> Imm
ImmCLbl CLabel
lbl
CmmExpr
_
-> do { (Reg
dyn_r, OrdList Instr
dyn_c) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
addr
; Bool -> NatM ()
forall (m :: * -> *). (HasCallStack, Applicative m) => Bool -> m ()
massert (CmmType -> Bool
isWord32 (Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform CmmExpr
addr))
; (OrdList Instr, ForeignConvention)
-> NatM (OrdList Instr, ForeignConvention)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
dyn_c OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Either Imm Reg -> [Reg] -> Instr
CALL (Reg -> Either Imm Reg
forall a b. b -> Either a b
Right Reg
dyn_r) [], ForeignConvention
conv) }
let push_code :: OrdList Instr
push_code
| Int
arg_pad_size Int -> Int -> Bool
forall a. Eq a => a -> a -> Bool
/= Int
0
= [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [Format -> Operand -> Operand -> Instr
SUB Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
arg_pad_size)) (Reg -> Operand
OpReg Reg
esp),
Int -> Instr
DELTA (Int
delta0 Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
arg_pad_size)]
OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [OrdList Instr] -> OrdList Instr
forall a. [OrdList a] -> OrdList a
concatOL [OrdList Instr]
push_codes
| Bool
otherwise
= [OrdList Instr] -> OrdList Instr
forall a. [OrdList a] -> OrdList a
concatOL [OrdList Instr]
push_codes
pop_size :: Int
pop_size
| ForeignConvention CCallConv
StdCallConv [ForeignHint]
_ [ForeignHint]
_ CmmReturnInfo
_ <- ForeignConvention
cconv = Int
arg_pad_size
| Bool
otherwise = Int
tot_arg_size
call :: OrdList Instr
call = OrdList Instr
callinsns OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL (
(if Int
pop_sizeInt -> Int -> Bool
forall a. Eq a => a -> a -> Bool
==Int
0 then [] else
[Format -> Operand -> Operand -> Instr
ADD Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
pop_size)) (Reg -> Operand
OpReg Reg
esp)])
[Instr] -> [Instr] -> [Instr]
forall a. [a] -> [a] -> [a]
++
[Int -> Instr
DELTA Int
delta0]
)
Int -> NatM ()
setDeltaNat Int
delta0
let
assign_code :: [LocalReg] -> OrdList Instr
assign_code [] = OrdList Instr
forall a. OrdList a
nilOL
assign_code [LocalReg
dest]
| CmmType -> Bool
isFloatType CmmType
ty =
let tmp_amode :: AddrMode
tmp_amode = EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
esp)
EAIndex
EAIndexNone
(Int -> Imm
ImmInt Int
0)
fmt :: Format
fmt = Width -> Format
floatFormat Width
w
in [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [ Format -> Operand -> Operand -> Instr
SUB Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
b)) (Reg -> Operand
OpReg Reg
esp),
Int -> Instr
DELTA (Int
delta0 Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
b),
Format -> AddrMode -> Instr
X87Store Format
fmt AddrMode
tmp_amode,
Format -> Operand -> Operand -> Instr
MOV Format
fmt (AddrMode -> Operand
OpAddr AddrMode
tmp_amode) (Reg -> Operand
OpReg Reg
r_dest),
Format -> Operand -> Operand -> Instr
ADD Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
b)) (Reg -> Operand
OpReg Reg
esp),
Int -> Instr
DELTA Int
delta0]
| CmmType -> Bool
isWord64 CmmType
ty = [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
eax) (Reg -> Operand
OpReg Reg
r_dest),
Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
edx) (Reg -> Operand
OpReg Reg
r_dest_hi)]
| Bool
otherwise = Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV (Width -> Format
intFormat Width
w)
(Reg -> Operand
OpReg Reg
eax)
(Reg -> Operand
OpReg Reg
r_dest))
where
ty :: CmmType
ty = LocalReg -> CmmType
localRegType LocalReg
dest
w :: Width
w = CmmType -> Width
typeWidth CmmType
ty
b :: Int
b = Width -> Int
widthInBytes Width
w
r_dest_hi :: Reg
r_dest_hi = Reg -> Reg
getHiVRegFromLo Reg
r_dest
r_dest :: Reg
r_dest = LocalReg -> Reg
getLocalRegReg LocalReg
dest
assign_code [LocalReg]
many = String -> SDoc -> OrdList Instr
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"genForeignCall.assign_code - too many return values:" ([LocalReg] -> SDoc
forall a. Outputable a => a -> SDoc
ppr [LocalReg]
many)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
push_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
call OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[LocalReg] -> OrdList Instr
assign_code [LocalReg]
dest_regs)
genCCall64 :: CmmExpr
-> ForeignConvention
-> [CmmFormal]
-> [CmmActual]
-> NatM InstrBlock
genCCall64 :: CmmExpr
-> ForeignConvention
-> [LocalReg]
-> [CmmExpr]
-> NatM (OrdList Instr)
genCCall64 CmmExpr
addr conv :: ForeignConvention
conv@(ForeignConvention CCallConv
_ [ForeignHint]
argHints [ForeignHint]
_ CmmReturnInfo
_) [LocalReg]
dest_regs [CmmExpr]
args = do
Platform
platform <- NatM Platform
getPlatform
let args_hints :: [(CmmExpr, ForeignHint)]
args_hints = [CmmExpr] -> [ForeignHint] -> [(CmmExpr, ForeignHint)]
forall a b. [a] -> [b] -> [(a, b)]
zip [CmmExpr]
args ([ForeignHint]
argHints [ForeignHint] -> [ForeignHint] -> [ForeignHint]
forall a. [a] -> [a] -> [a]
++ ForeignHint -> [ForeignHint]
forall a. a -> [a]
repeat ForeignHint
NoHint)
let prom_args :: [CmmExpr]
prom_args = ((CmmExpr, ForeignHint) -> CmmExpr)
-> [(CmmExpr, ForeignHint)] -> [CmmExpr]
forall a b. (a -> b) -> [a] -> [b]
map (Platform -> Width -> (CmmExpr, ForeignHint) -> CmmExpr
maybePromoteCArg Platform
platform Width
W32) [(CmmExpr, ForeignHint)]
args_hints
let load_args :: [CmmExpr]
-> [Reg]
-> [Reg]
-> InstrBlock
-> InstrBlock
-> NatM ([CmmExpr],[Reg],[Reg],InstrBlock,InstrBlock)
load_args :: [CmmExpr]
-> [Reg]
-> [Reg]
-> OrdList Instr
-> OrdList Instr
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
load_args [CmmExpr]
args [] [] OrdList Instr
code OrdList Instr
acode =
([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return ([CmmExpr]
args, [], [], OrdList Instr
code, OrdList Instr
acode)
load_args [] [Reg]
aregs [Reg]
fregs OrdList Instr
code OrdList Instr
acode =
([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return ([], [Reg]
aregs, [Reg]
fregs, OrdList Instr
code, OrdList Instr
acode)
load_args (CmmExpr
arg : [CmmExpr]
rest) [Reg]
aregs [Reg]
fregs OrdList Instr
code OrdList Instr
acode
| CmmType -> Bool
isFloatType CmmType
arg_rep = case [Reg]
fregs of
[] -> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
push_this_arg
(Reg
r:[Reg]
rs) -> do
(OrdList Instr
code',OrdList Instr
acode') <- Reg -> NatM (OrdList Instr, OrdList Instr)
reg_this_arg Reg
r
[CmmExpr]
-> [Reg]
-> [Reg]
-> OrdList Instr
-> OrdList Instr
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
load_args [CmmExpr]
rest [Reg]
aregs [Reg]
rs OrdList Instr
code' OrdList Instr
acode'
| Bool
otherwise = case [Reg]
aregs of
[] -> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
push_this_arg
(Reg
r:[Reg]
rs) -> do
(OrdList Instr
code',OrdList Instr
acode') <- Reg -> NatM (OrdList Instr, OrdList Instr)
reg_this_arg Reg
r
[CmmExpr]
-> [Reg]
-> [Reg]
-> OrdList Instr
-> OrdList Instr
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
load_args [CmmExpr]
rest [Reg]
rs [Reg]
fregs OrdList Instr
code' OrdList Instr
acode'
where
push_this_arg :: NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
push_this_arg = do
([CmmExpr]
args',[Reg]
ars,[Reg]
frs,OrdList Instr
code',OrdList Instr
acode')
<- [CmmExpr]
-> [Reg]
-> [Reg]
-> OrdList Instr
-> OrdList Instr
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
load_args [CmmExpr]
rest [Reg]
aregs [Reg]
fregs OrdList Instr
code OrdList Instr
acode
([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (CmmExpr
argCmmExpr -> [CmmExpr] -> [CmmExpr]
forall a. a -> [a] -> [a]
:[CmmExpr]
args', [Reg]
ars, [Reg]
frs, OrdList Instr
code', OrdList Instr
acode')
reg_this_arg :: Reg -> NatM (OrdList Instr, OrdList Instr)
reg_this_arg Reg
r
| Platform -> CmmExpr -> Bool
isOperand Platform
platform CmmExpr
arg = do
Reg -> OrdList Instr
arg_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
arg
(OrdList Instr, OrdList Instr)
-> NatM (OrdList Instr, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
code, (OrdList Instr
acode OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> OrdList Instr
arg_code Reg
r))
| (CmmExpr -> Bool) -> [CmmExpr] -> Bool
forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
all (Platform -> CmmExpr -> Bool
isOperand Platform
platform) [CmmExpr]
rest = do
Reg -> OrdList Instr
arg_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
arg
(OrdList Instr, OrdList Instr)
-> NatM (OrdList Instr, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> OrdList Instr
arg_code Reg
r,OrdList Instr
acode)
| Bool
otherwise = do
Reg -> OrdList Instr
arg_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
arg
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
arg_fmt
let
code' :: OrdList Instr
code' = OrdList Instr
code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> OrdList Instr
arg_code Reg
tmp
acode' :: OrdList Instr
acode' = OrdList Instr
acode OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> Reg -> Reg -> Instr
reg2reg Format
arg_fmt Reg
tmp Reg
r
(OrdList Instr, OrdList Instr)
-> NatM (OrdList Instr, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
code',OrdList Instr
acode')
arg_rep :: CmmType
arg_rep = Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform CmmExpr
arg
arg_fmt :: Format
arg_fmt = CmmType -> Format
cmmTypeFormat CmmType
arg_rep
load_args_win :: [CmmExpr]
-> [Reg]
-> [Reg]
-> [(Reg, Reg)]
-> InstrBlock
-> NatM ([CmmExpr],[Reg],[Reg],InstrBlock,InstrBlock)
load_args_win :: [CmmExpr]
-> [Reg]
-> [Reg]
-> [(Reg, Reg)]
-> OrdList Instr
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
load_args_win [CmmExpr]
args [Reg]
usedInt [Reg]
usedFP [] OrdList Instr
code
= ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return ([CmmExpr]
args, [Reg]
usedInt, [Reg]
usedFP, OrdList Instr
code, OrdList Instr
forall a. OrdList a
nilOL)
load_args_win [] [Reg]
usedInt [Reg]
usedFP [(Reg, Reg)]
_ OrdList Instr
code
= ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return ([], [Reg]
usedInt, [Reg]
usedFP, OrdList Instr
code, OrdList Instr
forall a. OrdList a
nilOL)
load_args_win (CmmExpr
arg : [CmmExpr]
rest) [Reg]
usedInt [Reg]
usedFP
((Reg
ireg, Reg
freg) : [(Reg, Reg)]
regs) OrdList Instr
code
| CmmType -> Bool
isFloatType CmmType
arg_rep = do
Reg -> OrdList Instr
arg_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
arg
[CmmExpr]
-> [Reg]
-> [Reg]
-> [(Reg, Reg)]
-> OrdList Instr
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
load_args_win [CmmExpr]
rest (Reg
ireg Reg -> [Reg] -> [Reg]
forall a. a -> [a] -> [a]
: [Reg]
usedInt) (Reg
freg Reg -> [Reg] -> [Reg]
forall a. a -> [a] -> [a]
: [Reg]
usedFP) [(Reg, Reg)]
regs
(OrdList Instr
code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> OrdList Instr
arg_code Reg
freg OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
MOV Format
II64 (Reg -> Operand
OpReg Reg
freg) (Reg -> Operand
OpReg Reg
ireg))
| Bool
otherwise = do
Reg -> OrdList Instr
arg_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
arg
[CmmExpr]
-> [Reg]
-> [Reg]
-> [(Reg, Reg)]
-> OrdList Instr
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
load_args_win [CmmExpr]
rest (Reg
ireg Reg -> [Reg] -> [Reg]
forall a. a -> [a] -> [a]
: [Reg]
usedInt) [Reg]
usedFP [(Reg, Reg)]
regs
(OrdList Instr
code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> OrdList Instr
arg_code Reg
ireg)
where
arg_rep :: CmmType
arg_rep = Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform CmmExpr
arg
arg_size :: Int
arg_size = Int
8
push_args :: [CmmExpr] -> OrdList Instr -> NatM (OrdList Instr)
push_args [] OrdList Instr
code = OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
code
push_args (CmmExpr
arg:[CmmExpr]
rest) OrdList Instr
code
| CmmType -> Bool
isFloatType CmmType
arg_rep = do
(Reg
arg_reg, OrdList Instr
arg_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
arg
Int
delta <- NatM Int
getDeltaNat
Int -> NatM ()
setDeltaNat (Int
deltaInt -> Int -> Int
forall a. Num a => a -> a -> a
-Int
arg_size)
let code' :: OrdList Instr
code' = OrdList Instr
code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
arg_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Format -> Operand -> Operand -> Instr
SUB (Width -> Format
intFormat (Platform -> Width
wordWidth Platform
platform)) (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
arg_size)) (Reg -> Operand
OpReg Reg
rsp),
Int -> Instr
DELTA (Int
deltaInt -> Int -> Int
forall a. Num a => a -> a -> a
-Int
arg_size),
Format -> Operand -> Operand -> Instr
MOV (Width -> Format
floatFormat Width
width) (Reg -> Operand
OpReg Reg
arg_reg) (AddrMode -> Operand
OpAddr (Platform -> Int -> AddrMode
spRel Platform
platform Int
0))]
[CmmExpr] -> OrdList Instr -> NatM (OrdList Instr)
push_args [CmmExpr]
rest OrdList Instr
code'
| Bool
otherwise = do
Bool -> NatM ()
forall (m :: * -> *). (HasCallStack, Applicative m) => Bool -> m ()
massert (Width
width Width -> Width -> Bool
forall a. Ord a => a -> a -> Bool
<= Width
W64)
(Operand
arg_op, OrdList Instr
arg_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getOperand CmmExpr
arg
Int
delta <- NatM Int
getDeltaNat
Int -> NatM ()
setDeltaNat (Int
deltaInt -> Int -> Int
forall a. Num a => a -> a -> a
-Int
arg_size)
let code' :: OrdList Instr
code' = OrdList Instr
code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
arg_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Format -> Operand -> Instr
PUSH Format
II64 Operand
arg_op,
Int -> Instr
DELTA (Int
deltaInt -> Int -> Int
forall a. Num a => a -> a -> a
-Int
arg_size)]
[CmmExpr] -> OrdList Instr -> NatM (OrdList Instr)
push_args [CmmExpr]
rest OrdList Instr
code'
where
arg_rep :: CmmType
arg_rep = Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform CmmExpr
arg
width :: Width
width = CmmType -> Width
typeWidth CmmType
arg_rep
leaveStackSpace :: Int -> NatM (OrdList Instr)
leaveStackSpace Int
n = do
Int
delta <- NatM Int
getDeltaNat
Int -> NatM ()
setDeltaNat (Int
delta Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
n Int -> Int -> Int
forall a. Num a => a -> a -> a
* Int
arg_size)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Format -> Operand -> Operand -> Instr
SUB Format
II64 (Imm -> Operand
OpImm (Int -> Imm
ImmInt (Int
n Int -> Int -> Int
forall a. Num a => a -> a -> a
* Platform -> Int
platformWordSizeInBytes Platform
platform))) (Reg -> Operand
OpReg Reg
rsp),
Int -> Instr
DELTA (Int
delta Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
n Int -> Int -> Int
forall a. Num a => a -> a -> a
* Int
arg_size)]
([CmmExpr]
stack_args, [Reg]
int_regs_used, [Reg]
fp_regs_used, OrdList Instr
load_args_code, OrdList Instr
assign_args_code)
<-
if Platform -> OS
platformOS Platform
platform OS -> OS -> Bool
forall a. Eq a => a -> a -> Bool
== OS
OSMinGW32
then [CmmExpr]
-> [Reg]
-> [Reg]
-> [(Reg, Reg)]
-> OrdList Instr
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
load_args_win [CmmExpr]
prom_args [] [] (Platform -> [(Reg, Reg)]
allArgRegs Platform
platform) OrdList Instr
forall a. OrdList a
nilOL
else do
([CmmExpr]
stack_args, [Reg]
aregs, [Reg]
fregs, OrdList Instr
load_args_code, OrdList Instr
assign_args_code)
<- [CmmExpr]
-> [Reg]
-> [Reg]
-> OrdList Instr
-> OrdList Instr
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
load_args [CmmExpr]
prom_args (Platform -> [Reg]
allIntArgRegs Platform
platform)
(Platform -> [Reg]
allFPArgRegs Platform
platform)
OrdList Instr
forall a. OrdList a
nilOL OrdList Instr
forall a. OrdList a
nilOL
let used_regs :: t a -> [a] -> [a]
used_regs t a
rs [a]
as = Int -> [a] -> [a]
forall a. Int -> [a] -> [a]
dropTail (t a -> Int
forall a. t a -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length t a
rs) [a]
as
fregs_used :: [Reg]
fregs_used = [Reg] -> [Reg] -> [Reg]
forall {t :: * -> *} {a} {a}. Foldable t => t a -> [a] -> [a]
used_regs [Reg]
fregs (Platform -> [Reg]
allFPArgRegs Platform
platform)
aregs_used :: [Reg]
aregs_used = [Reg] -> [Reg] -> [Reg]
forall {t :: * -> *} {a} {a}. Foldable t => t a -> [a] -> [a]
used_regs [Reg]
aregs (Platform -> [Reg]
allIntArgRegs Platform
platform)
([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
-> NatM ([CmmExpr], [Reg], [Reg], OrdList Instr, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return ([CmmExpr]
stack_args, [Reg]
aregs_used, [Reg]
fregs_used, OrdList Instr
load_args_code
, OrdList Instr
assign_args_code)
let
arg_regs_used :: [Reg]
arg_regs_used = [Reg]
int_regs_used [Reg] -> [Reg] -> [Reg]
forall a. [a] -> [a] -> [a]
++ [Reg]
fp_regs_used
arg_regs :: [Reg]
arg_regs = [Reg
eax] [Reg] -> [Reg] -> [Reg]
forall a. [a] -> [a] -> [a]
++ [Reg]
arg_regs_used
sse_regs :: Int
sse_regs = [Reg] -> Int
forall a. [a] -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length [Reg]
fp_regs_used
arg_stack_slots :: Int
arg_stack_slots = if Platform -> OS
platformOS Platform
platform OS -> OS -> Bool
forall a. Eq a => a -> a -> Bool
== OS
OSMinGW32
then [CmmExpr] -> Int
forall a. [a] -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length [CmmExpr]
stack_args Int -> Int -> Int
forall a. Num a => a -> a -> a
+ [(Reg, Reg)] -> Int
forall a. [a] -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length (Platform -> [(Reg, Reg)]
allArgRegs Platform
platform)
else [CmmExpr] -> Int
forall a. [a] -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length [CmmExpr]
stack_args
tot_arg_size :: Int
tot_arg_size = Int
arg_size Int -> Int -> Int
forall a. Num a => a -> a -> a
* Int
arg_stack_slots
let word_size :: Int
word_size = Platform -> Int
platformWordSizeInBytes Platform
platform
(Int
real_size, OrdList Instr
adjust_rsp) <-
if (Int
tot_arg_size Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
word_size) Int -> Int -> Int
forall a. Integral a => a -> a -> a
`rem` Int
16 Int -> Int -> Bool
forall a. Eq a => a -> a -> Bool
== Int
0
then (Int, OrdList Instr) -> NatM (Int, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Int
tot_arg_size, OrdList Instr
forall a. OrdList a
nilOL)
else do
Int
delta <- NatM Int
getDeltaNat
Int -> NatM ()
setDeltaNat (Int
delta Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
word_size)
(Int, OrdList Instr) -> NatM (Int, OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Int
tot_arg_size Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
word_size, [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Format -> Operand -> Operand -> Instr
SUB Format
II64 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
word_size)) (Reg -> Operand
OpReg Reg
rsp),
Int -> Instr
DELTA (Int
delta Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
word_size) ])
OrdList Instr
push_code <- [CmmExpr] -> OrdList Instr -> NatM (OrdList Instr)
push_args ([CmmExpr] -> [CmmExpr]
forall a. [a] -> [a]
reverse [CmmExpr]
stack_args) OrdList Instr
forall a. OrdList a
nilOL
OrdList Instr
lss_code <- if Platform -> OS
platformOS Platform
platform OS -> OS -> Bool
forall a. Eq a => a -> a -> Bool
== OS
OSMinGW32
then Int -> NatM (OrdList Instr)
leaveStackSpace ([(Reg, Reg)] -> Int
forall a. [a] -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length (Platform -> [(Reg, Reg)]
allArgRegs Platform
platform))
else OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
forall a. OrdList a
nilOL
Int
delta <- NatM Int
getDeltaNat
(OrdList Instr
callinsns,ForeignConvention
_cconv) <- case CmmExpr
addr of
CmmLit (CmmLabel CLabel
lbl) ->
(OrdList Instr, ForeignConvention)
-> NatM (OrdList Instr, ForeignConvention)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Either Imm Reg -> [Reg] -> Instr
CALL (Imm -> Either Imm Reg
forall a b. a -> Either a b
Left (CLabel -> Imm
ImmCLbl CLabel
lbl)) [Reg]
arg_regs), ForeignConvention
conv)
CmmExpr
_ -> do
(Reg
dyn_r, OrdList Instr
dyn_c) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
addr
(OrdList Instr, ForeignConvention)
-> NatM (OrdList Instr, ForeignConvention)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
dyn_c OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Either Imm Reg -> [Reg] -> Instr
CALL (Reg -> Either Imm Reg
forall a b. b -> Either a b
Right Reg
dyn_r) [Reg]
arg_regs, ForeignConvention
conv)
let
assign_eax :: Int -> OrdList Instr
assign_eax Int
n = Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
n)) (Reg -> Operand
OpReg Reg
eax))
let call :: OrdList Instr
call = OrdList Instr
callinsns OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL (
(if Int
real_sizeInt -> Int -> Bool
forall a. Eq a => a -> a -> Bool
==Int
0 then [] else
[Format -> Operand -> Operand -> Instr
ADD (Width -> Format
intFormat (Platform -> Width
platformWordWidth Platform
platform)) (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
real_size)) (Reg -> Operand
OpReg Reg
esp)])
[Instr] -> [Instr] -> [Instr]
forall a. [a] -> [a] -> [a]
++
[Int -> Instr
DELTA (Int
delta Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
real_size)]
)
Int -> NatM ()
setDeltaNat (Int
delta Int -> Int -> Int
forall a. Num a => a -> a -> a
+ Int
real_size)
let
assign_code :: [LocalReg] -> OrdList Instr
assign_code [] = OrdList Instr
forall a. OrdList a
nilOL
assign_code [LocalReg
dest] =
case CmmType -> Width
typeWidth CmmType
rep of
Width
W32 | CmmType -> Bool
isFloatType CmmType
rep -> Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV (Width -> Format
floatFormat Width
W32)
(Reg -> Operand
OpReg Reg
xmm0)
(Reg -> Operand
OpReg Reg
r_dest))
Width
W64 | CmmType -> Bool
isFloatType CmmType
rep -> Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV (Width -> Format
floatFormat Width
W64)
(Reg -> Operand
OpReg Reg
xmm0)
(Reg -> Operand
OpReg Reg
r_dest))
Width
_ -> Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV (CmmType -> Format
cmmTypeFormat CmmType
rep) (Reg -> Operand
OpReg Reg
rax) (Reg -> Operand
OpReg Reg
r_dest))
where
rep :: CmmType
rep = LocalReg -> CmmType
localRegType LocalReg
dest
r_dest :: Reg
r_dest = Platform -> CmmReg -> Reg
getRegisterReg Platform
platform (LocalReg -> CmmReg
CmmLocal LocalReg
dest)
assign_code [LocalReg]
_many = String -> OrdList Instr
forall a. HasCallStack => String -> a
panic String
"genForeignCall.assign_code many"
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
adjust_rsp OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
push_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
load_args_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
assign_args_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
lss_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Int -> OrdList Instr
assign_eax Int
sse_regs OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
call OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[LocalReg] -> OrdList Instr
assign_code [LocalReg]
dest_regs)
maybePromoteCArg :: Platform -> Width -> (CmmExpr, ForeignHint) -> CmmExpr
maybePromoteCArg :: Platform -> Width -> (CmmExpr, ForeignHint) -> CmmExpr
maybePromoteCArg Platform
platform Width
wto (CmmExpr
arg, ForeignHint
hint)
| Width
wfrom Width -> Width -> Bool
forall a. Ord a => a -> a -> Bool
< Width
wto = case ForeignHint
hint of
ForeignHint
SignedHint -> MachOp -> [CmmExpr] -> CmmExpr
CmmMachOp (Width -> Width -> MachOp
MO_SS_Conv Width
wfrom Width
wto) [CmmExpr
arg]
ForeignHint
_ -> MachOp -> [CmmExpr] -> CmmExpr
CmmMachOp (Width -> Width -> MachOp
MO_UU_Conv Width
wfrom Width
wto) [CmmExpr
arg]
| Bool
otherwise = CmmExpr
arg
where
wfrom :: Width
wfrom = Platform -> CmmExpr -> Width
cmmExprWidth Platform
platform CmmExpr
arg
genSwitch :: CmmExpr -> SwitchTargets -> NatM InstrBlock
genSwitch :: CmmExpr -> SwitchTargets -> NatM (OrdList Instr)
genSwitch CmmExpr
expr SwitchTargets
targets = do
NCGConfig
config <- NatM NCGConfig
getConfig
let platform :: Platform
platform = NCGConfig -> Platform
ncgPlatform NCGConfig
config
expr_w :: Width
expr_w = Platform -> CmmExpr -> Width
cmmExprWidth Platform
platform CmmExpr
expr
indexExpr0 :: CmmExpr
indexExpr0 = Platform -> CmmExpr -> Int -> CmmExpr
cmmOffset Platform
platform CmmExpr
expr Int
offset
indexExpr :: CmmExpr
indexExpr = MachOp -> [CmmExpr] -> CmmExpr
CmmMachOp
(Width -> Width -> MachOp
MO_UU_Conv Width
expr_w (Platform -> Width
platformWordWidth Platform
platform))
[CmmExpr
indexExpr0]
if NCGConfig -> Bool
ncgPIC NCGConfig
config
then do
(Reg
reg,OrdList Instr
e_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
indexExpr
CLabel
lbl <- NatM CLabel
getNewLabelNat
let is32bit :: Bool
is32bit = Platform -> Bool
target32Bit Platform
platform
os :: OS
os = Platform -> OS
platformOS Platform
platform
rosection :: Section
rosection = case OS
os of
OS
OSDarwin | Bool -> Bool
not Bool
is32bit -> SectionType -> CLabel -> Section
Section SectionType
Text CLabel
lbl
OS
_ -> SectionType -> CLabel -> Section
Section SectionType
ReadOnlyData CLabel
lbl
CmmExpr
dynRef <- NCGConfig -> ReferenceKind -> CLabel -> NatM CmmExpr
forall (m :: * -> *).
CmmMakeDynamicReferenceM m =>
NCGConfig -> ReferenceKind -> CLabel -> m CmmExpr
cmmMakeDynamicReference NCGConfig
config ReferenceKind
DataReference CLabel
lbl
(Reg
tableReg,OrdList Instr
t_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg (CmmExpr -> NatM (Reg, OrdList Instr))
-> CmmExpr -> NatM (Reg, OrdList Instr)
forall a b. (a -> b) -> a -> b
$ CmmExpr
dynRef
let op :: Operand
op = AddrMode -> Operand
OpAddr (EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
tableReg)
(Reg -> Int -> EAIndex
EAIndex Reg
reg (Platform -> Int
platformWordSizeInBytes Platform
platform)) (Int -> Imm
ImmInt Int
0))
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
e_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
t_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Format -> Operand -> Operand -> Instr
ADD (Width -> Format
intFormat (Platform -> Width
platformWordWidth Platform
platform)) Operand
op (Reg -> Operand
OpReg Reg
tableReg),
Operand -> [Maybe JumpDest] -> Section -> CLabel -> Instr
JMP_TBL (Reg -> Operand
OpReg Reg
tableReg) [Maybe JumpDest]
ids Section
rosection CLabel
lbl
]
else do
(Reg
reg,OrdList Instr
e_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
indexExpr
CLabel
lbl <- NatM CLabel
getNewLabelNat
let is32bit :: Bool
is32bit = Platform -> Bool
target32Bit Platform
platform
if Bool
is32bit
then let op :: Operand
op = AddrMode -> Operand
OpAddr (EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex EABase
EABaseNone (Reg -> Int -> EAIndex
EAIndex Reg
reg (Platform -> Int
platformWordSizeInBytes Platform
platform)) (CLabel -> Imm
ImmCLbl CLabel
lbl))
jmp_code :: Instr
jmp_code = Operand -> [Maybe JumpDest] -> Section -> CLabel -> Instr
JMP_TBL Operand
op [Maybe JumpDest]
ids (SectionType -> CLabel -> Section
Section SectionType
ReadOnlyData CLabel
lbl) CLabel
lbl
in OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
e_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL Instr
jmp_code
else do
Reg
tableReg <- Format -> NatM Reg
getNewRegNat (Width -> Format
intFormat (Platform -> Width
platformWordWidth Platform
platform))
Reg
targetReg <- Format -> NatM Reg
getNewRegNat (Width -> Format
intFormat (Platform -> Width
platformWordWidth Platform
platform))
let op :: Operand
op = AddrMode -> Operand
OpAddr (EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
tableReg) (Reg -> Int -> EAIndex
EAIndex Reg
reg (Platform -> Int
platformWordSizeInBytes Platform
platform)) (Int -> Imm
ImmInt Int
0))
code :: OrdList Instr
code = OrdList Instr
e_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
LEA (Bool -> Format
archWordFormat Bool
is32bit) (AddrMode -> Operand
OpAddr (EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex EABase
EABaseRip EAIndex
EAIndexNone (CLabel -> Imm
ImmCLbl CLabel
lbl))) (Reg -> Operand
OpReg Reg
tableReg)
, Format -> Operand -> Operand -> Instr
MOV (Bool -> Format
archWordFormat Bool
is32bit) Operand
op (Reg -> Operand
OpReg Reg
targetReg)
, Operand -> [Maybe JumpDest] -> Section -> CLabel -> Instr
JMP_TBL (Reg -> Operand
OpReg Reg
targetReg) [Maybe JumpDest]
ids (SectionType -> CLabel -> Section
Section SectionType
ReadOnlyData CLabel
lbl) CLabel
lbl
]
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
code
where
(Int
offset, [Maybe Label]
blockIds) = SwitchTargets -> (Int, [Maybe Label])
switchTargetsToTable SwitchTargets
targets
ids :: [Maybe JumpDest]
ids = (Maybe Label -> Maybe JumpDest)
-> [Maybe Label] -> [Maybe JumpDest]
forall a b. (a -> b) -> [a] -> [b]
map ((Label -> JumpDest) -> Maybe Label -> Maybe JumpDest
forall a b. (a -> b) -> Maybe a -> Maybe b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap Label -> JumpDest
DestBlockId) [Maybe Label]
blockIds
generateJumpTableForInstr :: NCGConfig -> Instr -> Maybe (NatCmmDecl (Alignment, RawCmmStatics) Instr)
generateJumpTableForInstr :: NCGConfig
-> Instr -> Maybe (NatCmmDecl (Alignment, RawCmmStatics) Instr)
generateJumpTableForInstr NCGConfig
config (JMP_TBL Operand
_ [Maybe JumpDest]
ids Section
section CLabel
lbl)
= let getBlockId :: JumpDest -> Label
getBlockId (DestBlockId Label
id) = Label
id
getBlockId JumpDest
_ = String -> Label
forall a. HasCallStack => String -> a
panic String
"Non-Label target in Jump Table"
blockIds :: [Maybe Label]
blockIds = (Maybe JumpDest -> Maybe Label)
-> [Maybe JumpDest] -> [Maybe Label]
forall a b. (a -> b) -> [a] -> [b]
map ((JumpDest -> Label) -> Maybe JumpDest -> Maybe Label
forall a b. (a -> b) -> Maybe a -> Maybe b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap JumpDest -> Label
getBlockId) [Maybe JumpDest]
ids
in NatCmmDecl (Alignment, RawCmmStatics) Instr
-> Maybe (NatCmmDecl (Alignment, RawCmmStatics) Instr)
forall a. a -> Maybe a
Just (NCGConfig
-> [Maybe Label]
-> Section
-> CLabel
-> NatCmmDecl (Alignment, RawCmmStatics) Instr
forall h g.
NCGConfig
-> [Maybe Label]
-> Section
-> CLabel
-> GenCmmDecl (Alignment, RawCmmStatics) h g
createJumpTable NCGConfig
config [Maybe Label]
blockIds Section
section CLabel
lbl)
generateJumpTableForInstr NCGConfig
_ Instr
_ = Maybe (NatCmmDecl (Alignment, RawCmmStatics) Instr)
forall a. Maybe a
Nothing
createJumpTable :: NCGConfig -> [Maybe BlockId] -> Section -> CLabel
-> GenCmmDecl (Alignment, RawCmmStatics) h g
createJumpTable :: forall h g.
NCGConfig
-> [Maybe Label]
-> Section
-> CLabel
-> GenCmmDecl (Alignment, RawCmmStatics) h g
createJumpTable NCGConfig
config [Maybe Label]
ids Section
section CLabel
lbl
= let jumpTable :: [CmmStatic]
jumpTable
| NCGConfig -> Bool
ncgPIC NCGConfig
config =
let ww :: Width
ww = NCGConfig -> Width
ncgWordWidth NCGConfig
config
jumpTableEntryRel :: Maybe Label -> CmmStatic
jumpTableEntryRel Maybe Label
Nothing
= CmmLit -> CmmStatic
CmmStaticLit (Integer -> Width -> CmmLit
CmmInt Integer
0 Width
ww)
jumpTableEntryRel (Just Label
blockid)
= CmmLit -> CmmStatic
CmmStaticLit (CLabel -> CLabel -> Int -> Width -> CmmLit
CmmLabelDiffOff CLabel
blockLabel CLabel
lbl Int
0 Width
ww)
where blockLabel :: CLabel
blockLabel = Label -> CLabel
blockLbl Label
blockid
in (Maybe Label -> CmmStatic) -> [Maybe Label] -> [CmmStatic]
forall a b. (a -> b) -> [a] -> [b]
map Maybe Label -> CmmStatic
jumpTableEntryRel [Maybe Label]
ids
| Bool
otherwise = (Maybe Label -> CmmStatic) -> [Maybe Label] -> [CmmStatic]
forall a b. (a -> b) -> [a] -> [b]
map (NCGConfig -> Maybe Label -> CmmStatic
jumpTableEntry NCGConfig
config) [Maybe Label]
ids
in Section
-> (Alignment, RawCmmStatics)
-> GenCmmDecl (Alignment, RawCmmStatics) h g
forall d h g. Section -> d -> GenCmmDecl d h g
CmmData Section
section (Int -> Alignment
mkAlignment Int
1, CLabel -> [CmmStatic] -> RawCmmStatics
forall (rawOnly :: Bool).
CLabel -> [CmmStatic] -> GenCmmStatics rawOnly
CmmStaticsRaw CLabel
lbl [CmmStatic]
jumpTable)
extractUnwindPoints :: [Instr] -> [UnwindPoint]
[Instr]
instrs =
[ CLabel -> Map GlobalReg (Maybe UnwindExpr) -> UnwindPoint
UnwindPoint CLabel
lbl Map GlobalReg (Maybe UnwindExpr)
unwinds | UNWIND CLabel
lbl Map GlobalReg (Maybe UnwindExpr)
unwinds <- [Instr]
instrs]
condIntReg :: Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg :: Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
cond CmmExpr
x CmmExpr
y = do
CondCode Bool
_ Cond
cond OrdList Instr
cond_code <- Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condIntCode Cond
cond CmmExpr
x CmmExpr
y
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
II8
let
code :: Reg -> OrdList Instr
code Reg
dst = OrdList Instr
cond_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Cond -> Operand -> Instr
SETCC Cond
cond (Reg -> Operand
OpReg Reg
tmp),
Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
tmp) (Reg -> Operand
OpReg Reg
dst)
]
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II32 Reg -> OrdList Instr
code)
condFltReg :: Bool -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg :: Bool -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Bool
is32Bit Cond
cond CmmExpr
x CmmExpr
y = NatM Register
condFltReg_sse2
where
condFltReg_sse2 :: NatM Register
condFltReg_sse2 = do
CondCode Bool
_ Cond
cond OrdList Instr
cond_code <- Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
cond CmmExpr
x CmmExpr
y
Reg
tmp1 <- Format -> NatM Reg
getNewRegNat (Bool -> Format
archWordFormat Bool
is32Bit)
Reg
tmp2 <- Format -> NatM Reg
getNewRegNat (Bool -> Format
archWordFormat Bool
is32Bit)
let
code :: Reg -> OrdList Instr
code Reg
dst =
OrdList Instr
cond_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
(case Cond
cond of
Cond
NE -> Reg -> OrdList Instr
or_unordered Reg
dst
Cond
GU -> Reg -> OrdList Instr
plain_test Reg
dst
Cond
GEU -> Reg -> OrdList Instr
plain_test Reg
dst
Cond
LTT -> Bool -> SDoc -> OrdList Instr -> OrdList Instr
forall a. HasCallStack => Bool -> SDoc -> a -> a
assertPpr Bool
False (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"Should have been turned into >") (OrdList Instr -> OrdList Instr) -> OrdList Instr -> OrdList Instr
forall a b. (a -> b) -> a -> b
$
Reg -> OrdList Instr
and_ordered Reg
dst
Cond
LE -> Bool -> SDoc -> OrdList Instr -> OrdList Instr
forall a. HasCallStack => Bool -> SDoc -> a -> a
assertPpr Bool
False (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"Should have been turned into >=") (OrdList Instr -> OrdList Instr) -> OrdList Instr -> OrdList Instr
forall a b. (a -> b) -> a -> b
$
Reg -> OrdList Instr
and_ordered Reg
dst
Cond
_ -> Reg -> OrdList Instr
and_ordered Reg
dst)
plain_test :: Reg -> OrdList Instr
plain_test Reg
dst = [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Cond -> Operand -> Instr
SETCC Cond
cond (Reg -> Operand
OpReg Reg
tmp1),
Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
tmp1) (Reg -> Operand
OpReg Reg
dst)
]
or_unordered :: Reg -> OrdList Instr
or_unordered Reg
dst = [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Cond -> Operand -> Instr
SETCC Cond
cond (Reg -> Operand
OpReg Reg
tmp1),
Cond -> Operand -> Instr
SETCC Cond
PARITY (Reg -> Operand
OpReg Reg
tmp2),
Format -> Operand -> Operand -> Instr
OR Format
II8 (Reg -> Operand
OpReg Reg
tmp1) (Reg -> Operand
OpReg Reg
tmp2),
Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
tmp2) (Reg -> Operand
OpReg Reg
dst)
]
and_ordered :: Reg -> OrdList Instr
and_ordered Reg
dst = [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Cond -> Operand -> Instr
SETCC Cond
cond (Reg -> Operand
OpReg Reg
tmp1),
Cond -> Operand -> Instr
SETCC Cond
NOTPARITY (Reg -> Operand
OpReg Reg
tmp2),
Format -> Operand -> Operand -> Instr
AND Format
II8 (Reg -> Operand
OpReg Reg
tmp1) (Reg -> Operand
OpReg Reg
tmp2),
Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
tmp2) (Reg -> Operand
OpReg Reg
dst)
]
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
II32 Reg -> OrdList Instr
code)
trivialCode :: Width -> (Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
-> CmmExpr -> CmmExpr -> NatM Register
trivialCode :: Width
-> (Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
width Operand -> Operand -> Instr
instr Maybe (Operand -> Operand -> Instr)
m CmmExpr
a CmmExpr
b
= do Platform
platform <- NatM Platform
getPlatform
Platform
-> Width
-> (Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode' Platform
platform Width
width Operand -> Operand -> Instr
instr Maybe (Operand -> Operand -> Instr)
m CmmExpr
a CmmExpr
b
trivialCode' :: Platform -> Width -> (Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
-> CmmExpr -> CmmExpr -> NatM Register
trivialCode' :: Platform
-> Width
-> (Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode' Platform
platform Width
width Operand -> Operand -> Instr
_ (Just Operand -> Operand -> Instr
revinstr) (CmmLit CmmLit
lit_a) CmmExpr
b
| Platform -> CmmLit -> Bool
is32BitLit Platform
platform CmmLit
lit_a = do
Reg -> OrdList Instr
b_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
b
let
code :: Reg -> OrdList Instr
code Reg
dst
= Reg -> OrdList Instr
b_code Reg
dst OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Operand -> Operand -> Instr
revinstr (Imm -> Operand
OpImm (CmmLit -> Imm
litToImm CmmLit
lit_a)) (Reg -> Operand
OpReg Reg
dst)
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any (Width -> Format
intFormat Width
width) Reg -> OrdList Instr
code)
trivialCode' Platform
_ Width
width Operand -> Operand -> Instr
instr Maybe (Operand -> Operand -> Instr)
_ CmmExpr
a CmmExpr
b
= Format
-> (Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
genTrivialCode (Width -> Format
intFormat Width
width) Operand -> Operand -> Instr
instr CmmExpr
a CmmExpr
b
genTrivialCode :: Format -> (Operand -> Operand -> Instr)
-> CmmExpr -> CmmExpr -> NatM Register
genTrivialCode :: Format
-> (Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
genTrivialCode Format
rep Operand -> Operand -> Instr
instr CmmExpr
a CmmExpr
b = do
(Operand
b_op, OrdList Instr
b_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getNonClobberedOperand CmmExpr
b
Reg -> OrdList Instr
a_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
a
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
rep
let
code :: Reg -> OrdList Instr
code Reg
dst
| Reg
dst Reg -> Operand -> Bool
`regClashesWithOp` Operand
b_op =
OrdList Instr
b_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
rep Operand
b_op (Reg -> Operand
OpReg Reg
tmp)) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> OrdList Instr
a_code Reg
dst OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Operand -> Operand -> Instr
instr (Reg -> Operand
OpReg Reg
tmp) (Reg -> Operand
OpReg Reg
dst)
| Bool
otherwise =
OrdList Instr
b_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> OrdList Instr
a_code Reg
dst OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Operand -> Operand -> Instr
instr Operand
b_op (Reg -> Operand
OpReg Reg
dst)
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
rep Reg -> OrdList Instr
code)
regClashesWithOp :: Reg -> Operand -> Bool
Reg
reg regClashesWithOp :: Reg -> Operand -> Bool
`regClashesWithOp` OpReg Reg
reg2 = Reg
reg Reg -> Reg -> Bool
forall a. Eq a => a -> a -> Bool
== Reg
reg2
Reg
reg `regClashesWithOp` OpAddr AddrMode
amode = (Reg -> Bool) -> [Reg] -> Bool
forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
any (Reg -> Reg -> Bool
forall a. Eq a => a -> a -> Bool
==Reg
reg) (AddrMode -> [Reg]
addrModeRegs AddrMode
amode)
Reg
_ `regClashesWithOp` Operand
_ = Bool
False
genFMA3Code :: Width
-> FMASign
-> CmmExpr -> CmmExpr -> CmmExpr -> NatM Register
genFMA3Code :: Width -> FMASign -> CmmExpr -> CmmExpr -> CmmExpr -> NatM Register
genFMA3Code Width
w FMASign
signs CmmExpr
x CmmExpr
y CmmExpr
z = do
let rep :: Format
rep = Width -> Format
floatFormat Width
w
(Reg
y_reg, OrdList Instr
y_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getNonClobberedReg CmmExpr
y
(Operand
z_op, OrdList Instr
z_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getNonClobberedOperand CmmExpr
z
Reg -> OrdList Instr
x_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
x
Reg
x_tmp <- Format -> NatM Reg
getNewRegNat Format
rep
let
fma213 :: Operand -> Reg -> Reg -> Instr
fma213 = Format
-> FMASign -> FMAPermutation -> Operand -> Reg -> Reg -> Instr
FMA3 Format
rep FMASign
signs FMAPermutation
FMA213
code, code_direct, code_mov :: Reg -> InstrBlock
code_direct :: Reg -> OrdList Instr
code_direct Reg
dst = Reg -> OrdList Instr
x_code Reg
dst OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Operand -> Reg -> Reg -> Instr
fma213 Operand
z_op Reg
y_reg Reg
dst
code_mov :: Reg -> OrdList Instr
code_mov Reg
dst = Reg -> OrdList Instr
x_code Reg
x_tmp OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Operand -> Reg -> Reg -> Instr
fma213 Operand
z_op Reg
y_reg Reg
x_tmp OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
MOV Format
rep (Reg -> Operand
OpReg Reg
x_tmp) (Reg -> Operand
OpReg Reg
dst)
code :: Reg -> OrdList Instr
code Reg
dst =
OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
OrdList Instr
z_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
( if Bool
arg_regs_conflict then Reg -> OrdList Instr
code_mov Reg
dst else Reg -> OrdList Instr
code_direct Reg
dst )
where
arg_regs_conflict :: Bool
arg_regs_conflict =
Reg
y_reg Reg -> Reg -> Bool
forall a. Eq a => a -> a -> Bool
== Reg
dst Bool -> Bool -> Bool
||
case Operand
z_op of
OpReg Reg
z_reg -> Reg
z_reg Reg -> Reg -> Bool
forall a. Eq a => a -> a -> Bool
== Reg
dst
OpAddr AddrMode
amode -> Reg
dst Reg -> [Reg] -> Bool
forall a. Eq a => a -> [a] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`elem` AddrMode -> [Reg]
addrModeRegs AddrMode
amode
OpImm {} -> Bool
False
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
rep Reg -> OrdList Instr
code)
trivialUCode :: Format -> (Operand -> Instr)
-> CmmExpr -> NatM Register
trivialUCode :: Format -> (Operand -> Instr) -> CmmExpr -> NatM Register
trivialUCode Format
rep Operand -> Instr
instr CmmExpr
x = do
Reg -> OrdList Instr
x_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
x
let
code :: Reg -> OrdList Instr
code Reg
dst =
Reg -> OrdList Instr
x_code Reg
dst OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Operand -> Instr
instr (Reg -> Operand
OpReg Reg
dst)
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
rep Reg -> OrdList Instr
code)
trivialFCode_sse2 :: Width -> (Format -> Operand -> Operand -> Instr)
-> CmmExpr -> CmmExpr -> NatM Register
trivialFCode_sse2 :: Width
-> (Format -> Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialFCode_sse2 Width
pk Format -> Operand -> Operand -> Instr
instr CmmExpr
x CmmExpr
y
= Format
-> (Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
genTrivialCode Format
format (Format -> Operand -> Operand -> Instr
instr Format
format) CmmExpr
x CmmExpr
y
where format :: Format
format = Width -> Format
floatFormat Width
pk
coerceInt2FP :: Width -> Width -> CmmExpr -> NatM Register
coerceInt2FP :: Width -> Width -> CmmExpr -> NatM Register
coerceInt2FP Width
from Width
to CmmExpr
x = NatM Register
coerce_sse2
where
coerce_sse2 :: NatM Register
coerce_sse2 = do
(Operand
x_op, OrdList Instr
x_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getOperand CmmExpr
x
let
opc :: Format -> Operand -> Reg -> Instr
opc = case Width
to of Width
W32 -> Format -> Operand -> Reg -> Instr
CVTSI2SS; Width
W64 -> Format -> Operand -> Reg -> Instr
CVTSI2SD
Width
n -> String -> Format -> Operand -> Reg -> Instr
forall a. HasCallStack => String -> a
panic (String -> Format -> Operand -> Reg -> Instr)
-> String -> Format -> Operand -> Reg -> Instr
forall a b. (a -> b) -> a -> b
$ String
"coerceInt2FP.sse: unhandled width ("
String -> String -> String
forall a. [a] -> [a] -> [a]
++ Width -> String
forall a. Show a => a -> String
show Width
n String -> String -> String
forall a. [a] -> [a] -> [a]
++ String
")"
code :: Reg -> OrdList Instr
code Reg
dst = OrdList Instr
x_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> Operand -> Reg -> Instr
opc (Width -> Format
intFormat Width
from) Operand
x_op Reg
dst
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any (Width -> Format
floatFormat Width
to) Reg -> OrdList Instr
code)
coerceFP2Int :: Width -> Width -> CmmExpr -> NatM Register
coerceFP2Int :: Width -> Width -> CmmExpr -> NatM Register
coerceFP2Int Width
from Width
to CmmExpr
x = NatM Register
coerceFP2Int_sse2
where
coerceFP2Int_sse2 :: NatM Register
coerceFP2Int_sse2 = do
(Operand
x_op, OrdList Instr
x_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getOperand CmmExpr
x
let
opc :: Format -> Operand -> Reg -> Instr
opc = case Width
from of Width
W32 -> Format -> Operand -> Reg -> Instr
CVTTSS2SIQ; Width
W64 -> Format -> Operand -> Reg -> Instr
CVTTSD2SIQ;
Width
n -> String -> Format -> Operand -> Reg -> Instr
forall a. HasCallStack => String -> a
panic (String -> Format -> Operand -> Reg -> Instr)
-> String -> Format -> Operand -> Reg -> Instr
forall a b. (a -> b) -> a -> b
$ String
"coerceFP2Init.sse: unhandled width ("
String -> String -> String
forall a. [a] -> [a] -> [a]
++ Width -> String
forall a. Show a => a -> String
show Width
n String -> String -> String
forall a. [a] -> [a] -> [a]
++ String
")"
code :: Reg -> OrdList Instr
code Reg
dst = OrdList Instr
x_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> Operand -> Reg -> Instr
opc (Width -> Format
intFormat Width
to) Operand
x_op Reg
dst
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any (Width -> Format
intFormat Width
to) Reg -> OrdList Instr
code)
coerceFP2FP :: Width -> CmmExpr -> NatM Register
coerceFP2FP :: Width -> CmmExpr -> NatM Register
coerceFP2FP Width
to CmmExpr
x = do
(Reg
x_reg, OrdList Instr
x_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
x
let
opc :: Reg -> Reg -> Instr
opc = case Width
to of Width
W32 -> Reg -> Reg -> Instr
CVTSD2SS; Width
W64 -> Reg -> Reg -> Instr
CVTSS2SD;
Width
n -> String -> Reg -> Reg -> Instr
forall a. HasCallStack => String -> a
panic (String -> Reg -> Reg -> Instr) -> String -> Reg -> Reg -> Instr
forall a b. (a -> b) -> a -> b
$ String
"coerceFP2FP: unhandled width ("
String -> String -> String
forall a. [a] -> [a] -> [a]
++ Width -> String
forall a. Show a => a -> String
show Width
n String -> String -> String
forall a. [a] -> [a] -> [a]
++ String
")"
code :: Reg -> OrdList Instr
code Reg
dst = OrdList Instr
x_code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Reg -> Reg -> Instr
opc Reg
x_reg Reg
dst
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any ( Width -> Format
floatFormat Width
to) Reg -> OrdList Instr
code)
sse2NegCode :: Width -> CmmExpr -> NatM Register
sse2NegCode :: Width -> CmmExpr -> NatM Register
sse2NegCode Width
w CmmExpr
x = do
let fmt :: Format
fmt = Width -> Format
floatFormat Width
w
Reg -> OrdList Instr
x_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
x
let
const :: CmmLit
const = case Format
fmt of
Format
FF32 -> Integer -> Width -> CmmLit
CmmInt Integer
0x80000000 Width
W32
Format
FF64 -> Integer -> Width -> CmmLit
CmmInt Integer
0x8000000000000000 Width
W64
x :: Format
x@Format
II8 -> Format -> CmmLit
forall {a} {a}. Show a => a -> a
wrongFmt Format
x
x :: Format
x@Format
II16 -> Format -> CmmLit
forall {a} {a}. Show a => a -> a
wrongFmt Format
x
x :: Format
x@Format
II32 -> Format -> CmmLit
forall {a} {a}. Show a => a -> a
wrongFmt Format
x
x :: Format
x@Format
II64 -> Format -> CmmLit
forall {a} {a}. Show a => a -> a
wrongFmt Format
x
where
wrongFmt :: a -> a
wrongFmt a
x = String -> a
forall a. HasCallStack => String -> a
panic (String -> a) -> String -> a
forall a b. (a -> b) -> a -> b
$ String
"sse2NegCode: " String -> String -> String
forall a. [a] -> [a] -> [a]
++ a -> String
forall a. Show a => a -> String
show a
x
Amode AddrMode
amode OrdList Instr
amode_code <- Alignment -> CmmLit -> NatM Amode
memConstant (Int -> Alignment
mkAlignment (Int -> Alignment) -> Int -> Alignment
forall a b. (a -> b) -> a -> b
$ Width -> Int
widthInBytes Width
w) CmmLit
const
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
fmt
let
code :: Reg -> OrdList Instr
code Reg
dst = Reg -> OrdList Instr
x_code Reg
dst OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
amode_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [
Format -> Operand -> Operand -> Instr
MOV Format
fmt (AddrMode -> Operand
OpAddr AddrMode
amode) (Reg -> Operand
OpReg Reg
tmp),
Format -> Operand -> Operand -> Instr
XOR Format
fmt (Reg -> Operand
OpReg Reg
tmp) (Reg -> Operand
OpReg Reg
dst)
]
Register -> NatM Register
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> OrdList Instr) -> Register
Any Format
fmt Reg -> OrdList Instr
code)
isVecExpr :: CmmExpr -> Bool
isVecExpr :: CmmExpr -> Bool
isVecExpr (CmmMachOp (MO_V_Insert {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_V_Extract {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_V_Add {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_V_Sub {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_V_Mul {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_VS_Quot {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_VS_Rem {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_VS_Neg {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_VF_Insert {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_VF_Extract {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_VF_Add {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_VF_Sub {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_VF_Mul {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_VF_Quot {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp (MO_VF_Neg {}) [CmmExpr]
_) = Bool
True
isVecExpr (CmmMachOp MachOp
_ [CmmExpr
e]) = CmmExpr -> Bool
isVecExpr CmmExpr
e
isVecExpr CmmExpr
_ = Bool
False
needLlvm :: NatM a
needLlvm :: forall a. NatM a
needLlvm =
String -> NatM a
forall a. HasCallStack => String -> a
sorry (String -> NatM a) -> String -> NatM a
forall a b. (a -> b) -> a -> b
$ [String] -> String
unlines [String
"The native code generator does not support vector"
,String
"instructions. Please use -fllvm."]
invertCondBranches :: Maybe CFG
-> LabelMap a
-> [NatBasicBlock Instr]
-> [NatBasicBlock Instr]
invertCondBranches :: forall a.
Maybe CFG
-> LabelMap a -> [NatBasicBlock Instr] -> [NatBasicBlock Instr]
invertCondBranches Maybe CFG
Nothing LabelMap a
_ [NatBasicBlock Instr]
bs = [NatBasicBlock Instr]
bs
invertCondBranches (Just CFG
cfg) LabelMap a
keep [NatBasicBlock Instr]
bs =
[NatBasicBlock Instr] -> [NatBasicBlock Instr]
invert [NatBasicBlock Instr]
bs
where
invert :: [NatBasicBlock Instr] -> [NatBasicBlock Instr]
invert :: [NatBasicBlock Instr] -> [NatBasicBlock Instr]
invert (BasicBlock Label
lbl1 [Instr]
ins:b2 :: NatBasicBlock Instr
b2@(BasicBlock Label
lbl2 [Instr]
_):[NatBasicBlock Instr]
bs)
|
Just (Instr
jmp1,Instr
jmp2) <- [Instr] -> Maybe (Instr, Instr)
forall a. [a] -> Maybe (a, a)
last2 [Instr]
ins
, JXX Cond
cond1 Label
target1 <- Instr
jmp1
, Label
target1 Label -> Label -> Bool
forall a. Eq a => a -> a -> Bool
== Label
lbl2
, JXX Cond
ALWAYS Label
target2 <- Instr
jmp2
, Just EdgeInfo
edgeInfo1 <- Label -> Label -> CFG -> Maybe EdgeInfo
getEdgeInfo Label
lbl1 Label
target1 CFG
cfg
, Just EdgeInfo
edgeInfo2 <- Label -> Label -> CFG -> Maybe EdgeInfo
getEdgeInfo Label
lbl1 Label
target2 CFG
cfg
, EdgeInfo -> TransitionSource
transitionSource EdgeInfo
edgeInfo1 TransitionSource -> TransitionSource -> Bool
forall a. Eq a => a -> a -> Bool
== EdgeInfo -> TransitionSource
transitionSource EdgeInfo
edgeInfo2
, CmmSource {trans_cmmNode :: TransitionSource -> CmmNode O C
trans_cmmNode = CmmNode O C
cmmCondBranch} <- EdgeInfo -> TransitionSource
transitionSource EdgeInfo
edgeInfo1
, CmmCondBranch (CmmMachOp MachOp
op [CmmExpr]
_args) Label
_ Label
_ Maybe Bool
_ <- CmmNode O C
cmmCondBranch
, Just Width
_ <- MachOp -> Maybe Width
maybeIntComparison MachOp
op
, Just Cond
invCond <- Cond -> Maybe Cond
maybeInvertCond Cond
cond1
= let jumps :: [Instr]
jumps =
case () of
()
_ | Bool -> Bool
not (KeyOf LabelMap -> LabelMap a -> Bool
forall a. KeyOf LabelMap -> LabelMap a -> Bool
forall (map :: * -> *) a. IsMap map => KeyOf map -> map a -> Bool
mapMember KeyOf LabelMap
Label
target1 LabelMap a
keep)
-> [Cond -> Label -> Instr
JXX Cond
invCond Label
target2]
| EdgeInfo -> EdgeWeight
edgeWeight EdgeInfo
edgeInfo2 EdgeWeight -> EdgeWeight -> Bool
forall a. Ord a => a -> a -> Bool
> EdgeInfo -> EdgeWeight
edgeWeight EdgeInfo
edgeInfo1
-> [Cond -> Label -> Instr
JXX Cond
invCond Label
target2, Cond -> Label -> Instr
JXX Cond
ALWAYS Label
target1]
| Bool
otherwise
-> [Instr
jmp1, Instr
jmp2]
in
(Label -> [Instr] -> NatBasicBlock Instr
forall i. Label -> [i] -> GenBasicBlock i
BasicBlock Label
lbl1
(Int -> [Instr] -> [Instr]
forall a. Int -> [a] -> [a]
dropTail Int
2 [Instr]
ins [Instr] -> [Instr] -> [Instr]
forall a. [a] -> [a] -> [a]
++ [Instr]
jumps))
NatBasicBlock Instr
-> [NatBasicBlock Instr] -> [NatBasicBlock Instr]
forall a. a -> [a] -> [a]
: [NatBasicBlock Instr] -> [NatBasicBlock Instr]
invert (NatBasicBlock Instr
b2NatBasicBlock Instr
-> [NatBasicBlock Instr] -> [NatBasicBlock Instr]
forall a. a -> [a] -> [a]
:[NatBasicBlock Instr]
bs)
invert (NatBasicBlock Instr
b:[NatBasicBlock Instr]
bs) = NatBasicBlock Instr
b NatBasicBlock Instr
-> [NatBasicBlock Instr] -> [NatBasicBlock Instr]
forall a. a -> [a] -> [a]
: [NatBasicBlock Instr] -> [NatBasicBlock Instr]
invert [NatBasicBlock Instr]
bs
invert [] = []
genAtomicRMW
:: BlockId
-> Width
-> AtomicMachOp
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (InstrBlock, Maybe BlockId)
genAtomicRMW :: Label
-> Width
-> AtomicMachOp
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr, Maybe Label)
genAtomicRMW Label
bid Width
width AtomicMachOp
amop LocalReg
dst CmmExpr
addr CmmExpr
n = do
Amode AddrMode
amode OrdList Instr
addr_code <-
if AtomicMachOp
amop AtomicMachOp -> [AtomicMachOp] -> Bool
forall a. Eq a => a -> [a] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`elem` [AtomicMachOp
AMO_Add, AtomicMachOp
AMO_Sub]
then CmmExpr -> NatM Amode
getAmode CmmExpr
addr
else CmmExpr -> NatM Amode
getSimpleAmode CmmExpr
addr
Reg
arg <- Format -> NatM Reg
getNewRegNat Format
format
Reg -> OrdList Instr
arg_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
n
Platform
platform <- NCGConfig -> Platform
ncgPlatform (NCGConfig -> Platform) -> NatM NCGConfig -> NatM Platform
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NatM NCGConfig
getConfig
let dst_r :: Reg
dst_r = Platform -> CmmReg -> Reg
getRegisterReg Platform
platform (LocalReg -> CmmReg
CmmLocal LocalReg
dst)
(OrdList Instr
code, Label
lbl) <- Reg -> Reg -> AddrMode -> NatM (OrdList Instr, Label)
op_code Reg
dst_r Reg
arg AddrMode
amode
(OrdList Instr, Maybe Label) -> NatM (OrdList Instr, Maybe Label)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
addr_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> OrdList Instr
arg_code Reg
arg OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
code, Label -> Maybe Label
forall a. a -> Maybe a
Just Label
lbl)
where
op_code :: Reg
-> Reg
-> AddrMode
-> NatM (OrdList Instr,BlockId)
op_code :: Reg -> Reg -> AddrMode -> NatM (OrdList Instr, Label)
op_code Reg
dst_r Reg
arg AddrMode
amode = case AtomicMachOp
amop of
AtomicMachOp
AMO_Add -> (OrdList Instr, Label) -> NatM (OrdList Instr, Label)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return ((OrdList Instr, Label) -> NatM (OrdList Instr, Label))
-> (OrdList Instr, Label) -> NatM (OrdList Instr, Label)
forall a b. (a -> b) -> a -> b
$ ([Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [ Instr -> Instr
LOCK (Format -> Operand -> Operand -> Instr
XADD Format
format (Reg -> Operand
OpReg Reg
arg) (AddrMode -> Operand
OpAddr AddrMode
amode))
, Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
arg) (Reg -> Operand
OpReg Reg
dst_r)
], Label
bid)
AtomicMachOp
AMO_Sub -> (OrdList Instr, Label) -> NatM (OrdList Instr, Label)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return ((OrdList Instr, Label) -> NatM (OrdList Instr, Label))
-> (OrdList Instr, Label) -> NatM (OrdList Instr, Label)
forall a b. (a -> b) -> a -> b
$ ([Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [ Format -> Operand -> Instr
NEGI Format
format (Reg -> Operand
OpReg Reg
arg)
, Instr -> Instr
LOCK (Format -> Operand -> Operand -> Instr
XADD Format
format (Reg -> Operand
OpReg Reg
arg) (AddrMode -> Operand
OpAddr AddrMode
amode))
, Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
arg) (Reg -> Operand
OpReg Reg
dst_r)
], Label
bid)
AtomicMachOp
AMO_And -> (Operand -> Operand -> OrdList Instr)
-> NatM (OrdList Instr, Label)
cmpxchg_code (\ Operand
src Operand
dst -> Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Instr -> OrdList Instr) -> Instr -> OrdList Instr
forall a b. (a -> b) -> a -> b
$ Format -> Operand -> Operand -> Instr
AND Format
format Operand
src Operand
dst)
AtomicMachOp
AMO_Nand -> (Operand -> Operand -> OrdList Instr)
-> NatM (OrdList Instr, Label)
cmpxchg_code (\ Operand
src Operand
dst -> [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [ Format -> Operand -> Operand -> Instr
AND Format
format Operand
src Operand
dst
, Format -> Operand -> Instr
NOT Format
format Operand
dst
])
AtomicMachOp
AMO_Or -> (Operand -> Operand -> OrdList Instr)
-> NatM (OrdList Instr, Label)
cmpxchg_code (\ Operand
src Operand
dst -> Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Instr -> OrdList Instr) -> Instr -> OrdList Instr
forall a b. (a -> b) -> a -> b
$ Format -> Operand -> Operand -> Instr
OR Format
format Operand
src Operand
dst)
AtomicMachOp
AMO_Xor -> (Operand -> Operand -> OrdList Instr)
-> NatM (OrdList Instr, Label)
cmpxchg_code (\ Operand
src Operand
dst -> Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Instr -> OrdList Instr) -> Instr -> OrdList Instr
forall a b. (a -> b) -> a -> b
$ Format -> Operand -> Operand -> Instr
XOR Format
format Operand
src Operand
dst)
where
cmpxchg_code :: (Operand -> Operand -> OrdList Instr)
-> NatM (OrdList Instr, BlockId)
cmpxchg_code :: (Operand -> Operand -> OrdList Instr)
-> NatM (OrdList Instr, Label)
cmpxchg_code Operand -> Operand -> OrdList Instr
instrs = do
Label
lbl1 <- NatM Label
getBlockIdNat
Label
lbl2 <- NatM Label
getBlockIdNat
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
format
Label -> Label -> NatM ()
addImmediateSuccessorNat Label
bid Label
lbl1
Label -> Label -> NatM ()
addImmediateSuccessorNat Label
lbl1 Label
lbl2
(CFG -> CFG) -> NatM ()
updateCfgNat (Label -> Label -> EdgeWeight -> CFG -> CFG
addWeightEdge Label
lbl1 Label
lbl1 EdgeWeight
0)
(OrdList Instr, Label) -> NatM (OrdList Instr, Label)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return ((OrdList Instr, Label) -> NatM (OrdList Instr, Label))
-> (OrdList Instr, Label) -> NatM (OrdList Instr, Label)
forall a b. (a -> b) -> a -> b
$ ([Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
format (AddrMode -> Operand
OpAddr AddrMode
amode) (Reg -> Operand
OpReg Reg
eax)
, Cond -> Label -> Instr
JXX Cond
ALWAYS Label
lbl1
, Label -> Instr
NEWBLOCK Label
lbl1
, Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
eax) (Reg -> Operand
OpReg Reg
dst_r)
, Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
eax) (Reg -> Operand
OpReg Reg
tmp)
]
OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Operand -> Operand -> OrdList Instr
instrs (Reg -> Operand
OpReg Reg
arg) (Reg -> Operand
OpReg Reg
tmp) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Instr -> Instr
LOCK (Format -> Operand -> Operand -> Instr
CMPXCHG Format
format (Reg -> Operand
OpReg Reg
tmp) (AddrMode -> Operand
OpAddr AddrMode
amode))
, Cond -> Label -> Instr
JXX Cond
NE Label
lbl1
, Cond -> Label -> Instr
JXX Cond
ALWAYS Label
lbl2
, Label -> Instr
NEWBLOCK Label
lbl2
],
Label
lbl2)
format :: Format
format = Width -> Format
intFormat Width
width
genCtz :: BlockId -> Width -> LocalReg -> CmmExpr -> NatM (InstrBlock, Maybe BlockId)
genCtz :: Label
-> Width
-> LocalReg
-> CmmExpr
-> NatM (OrdList Instr, Maybe Label)
genCtz Label
bid Width
width LocalReg
dst CmmExpr
src = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
if Bool
is32Bit Bool -> Bool -> Bool
&& Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W64
then Label -> LocalReg -> CmmExpr -> NatM (OrdList Instr, Maybe Label)
genCtz64_32 Label
bid LocalReg
dst CmmExpr
src
else (,Maybe Label
forall a. Maybe a
Nothing) (OrdList Instr -> (OrdList Instr, Maybe Label))
-> NatM (OrdList Instr) -> NatM (OrdList Instr, Maybe Label)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genCtzGeneric Width
width LocalReg
dst CmmExpr
src
genCtz64_32
:: BlockId
-> LocalReg
-> CmmExpr
-> NatM (InstrBlock, Maybe BlockId)
genCtz64_32 :: Label -> LocalReg -> CmmExpr -> NatM (OrdList Instr, Maybe Label)
genCtz64_32 Label
bid LocalReg
dst CmmExpr
src = do
RegCode64 OrdList Instr
vcode Reg
rhi Reg
rlo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
src
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
Label
lbl1 <- NatM Label
getBlockIdNat
Label
lbl2 <- NatM Label
getBlockIdNat
Reg
tmp_r <- Format -> NatM Reg
getNewRegNat Format
II64
Weights
weights <- NatM Weights
getCfgWeights
(CFG -> CFG) -> NatM ()
updateCfgNat (Label -> Label -> EdgeWeight -> CFG -> CFG
addWeightEdge Label
bid Label
lbl1 EdgeWeight
110 (CFG -> CFG) -> (CFG -> CFG) -> CFG -> CFG
forall b c a. (b -> c) -> (a -> b) -> a -> c
.
Label -> Label -> EdgeWeight -> CFG -> CFG
addWeightEdge Label
lbl1 Label
lbl2 EdgeWeight
110 (CFG -> CFG) -> (CFG -> CFG) -> CFG -> CFG
forall b c a. (b -> c) -> (a -> b) -> a -> c
.
Weights -> Label -> Label -> CFG -> CFG
addImmediateSuccessor Weights
weights Label
bid Label
lbl2)
let instrs :: OrdList Instr
instrs = OrdList Instr
vcode OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
([ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
rhi) (Reg -> Operand
OpReg Reg
tmp_r)
, Format -> Operand -> Operand -> Instr
OR Format
II32 (Reg -> Operand
OpReg Reg
rlo) (Reg -> Operand
OpReg Reg
tmp_r)
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
64)) (Reg -> Operand
OpReg Reg
dst_r)
, Cond -> Label -> Instr
JXX Cond
EQQ Label
lbl2
, Cond -> Label -> Instr
JXX Cond
ALWAYS Label
lbl1
, Label -> Instr
NEWBLOCK Label
lbl1
, Format -> Operand -> Reg -> Instr
BSF Format
II32 (Reg -> Operand
OpReg Reg
rhi) Reg
dst_r
, Format -> Operand -> Operand -> Instr
ADD Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
32)) (Reg -> Operand
OpReg Reg
dst_r)
, Format -> Operand -> Reg -> Instr
BSF Format
II32 (Reg -> Operand
OpReg Reg
rlo) Reg
tmp_r
, Cond -> Format -> Operand -> Reg -> Instr
CMOV Cond
NE Format
II32 (Reg -> Operand
OpReg Reg
tmp_r) Reg
dst_r
, Cond -> Label -> Instr
JXX Cond
ALWAYS Label
lbl2
, Label -> Instr
NEWBLOCK Label
lbl2
])
(OrdList Instr, Maybe Label) -> NatM (OrdList Instr, Maybe Label)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr
instrs, Label -> Maybe Label
forall a. a -> Maybe a
Just Label
lbl2)
genCtzGeneric :: Width -> LocalReg -> CmmExpr -> NatM InstrBlock
genCtzGeneric :: Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genCtzGeneric Width
width LocalReg
dst CmmExpr
src = do
Reg -> OrdList Instr
code_src <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
NCGConfig
config <- NatM NCGConfig
getConfig
let bw :: Int
bw = Width -> Int
widthInBits Width
width
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
if NCGConfig -> Maybe BmiVersion
ncgBmiVersion NCGConfig
config Maybe BmiVersion -> Maybe BmiVersion -> Bool
forall a. Ord a => a -> a -> Bool
>= BmiVersion -> Maybe BmiVersion
forall a. a -> Maybe a
Just BmiVersion
BMI2
then do
Reg
src_r <- Format -> NatM Reg
getNewRegNat (Width -> Format
intFormat Width
width)
let instrs :: OrdList Instr
instrs = OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
appOL (Reg -> OrdList Instr
code_src Reg
src_r) (OrdList Instr -> OrdList Instr) -> OrdList Instr -> OrdList Instr
forall a b. (a -> b) -> a -> b
$ case Width
width of
Width
W8 -> [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
OR Format
II32 (Imm -> Operand
OpImm (Integer -> Imm
ImmInteger Integer
0xFFFFFF00)) (Reg -> Operand
OpReg Reg
src_r)
, Format -> Operand -> Reg -> Instr
TZCNT Format
II32 (Reg -> Operand
OpReg Reg
src_r) Reg
dst_r
]
Width
W16 -> [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Reg -> Instr
TZCNT Format
II16 (Reg -> Operand
OpReg Reg
src_r) Reg
dst_r
, Format -> Operand -> Operand -> Instr
MOVZxL Format
II16 (Reg -> Operand
OpReg Reg
dst_r) (Reg -> Operand
OpReg Reg
dst_r)
]
Width
_ -> Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Instr -> OrdList Instr) -> Instr -> OrdList Instr
forall a b. (a -> b) -> a -> b
$ Format -> Operand -> Reg -> Instr
TZCNT (Width -> Format
intFormat Width
width) (Reg -> Operand
OpReg Reg
src_r) Reg
dst_r
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
instrs
else do
let format :: Format
format = if Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W8 then Format
II16 else Width -> Format
intFormat Width
width
Reg
src_r <- Format -> NatM Reg
getNewRegNat Format
format
Reg
tmp_r <- Format -> NatM Reg
getNewRegNat Format
format
let instrs :: OrdList Instr
instrs = Reg -> OrdList Instr
code_src Reg
src_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
([ Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
src_r) (Reg -> Operand
OpReg Reg
src_r) | Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W8 ] [Instr] -> [Instr] -> [Instr]
forall a. [a] -> [a] -> [a]
++
[ Format -> Operand -> Reg -> Instr
BSF Format
format (Reg -> Operand
OpReg Reg
src_r) Reg
tmp_r
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
bw)) (Reg -> Operand
OpReg Reg
dst_r)
, Cond -> Format -> Operand -> Reg -> Instr
CMOV Cond
NE Format
format (Reg -> Operand
OpReg Reg
tmp_r) Reg
dst_r
])
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
instrs
genMemCpy
:: BlockId
-> Int
-> CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM InstrBlock
genMemCpy :: Label
-> Int -> CmmExpr -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genMemCpy Label
bid Int
align CmmExpr
dst CmmExpr
src CmmExpr
arg_n = do
let libc_memcpy :: NatM (OrdList Instr)
libc_memcpy = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"memcpy") [] [CmmExpr
dst,CmmExpr
src,CmmExpr
arg_n]
case CmmExpr
arg_n of
CmmLit (CmmInt Integer
n Width
_) -> do
Maybe (OrdList Instr)
mcode <- Int
-> CmmExpr -> CmmExpr -> Integer -> NatM (Maybe (OrdList Instr))
genMemCpyInlineMaybe Int
align CmmExpr
dst CmmExpr
src Integer
n
case Maybe (OrdList Instr)
mcode of
Maybe (OrdList Instr)
Nothing -> NatM (OrdList Instr)
libc_memcpy
Just OrdList Instr
c -> OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure OrdList Instr
c
CmmExpr
_ -> NatM (OrdList Instr)
libc_memcpy
genMemCpyInlineMaybe
:: Int
-> CmmExpr
-> CmmExpr
-> Integer
-> NatM (Maybe InstrBlock)
genMemCpyInlineMaybe :: Int
-> CmmExpr -> CmmExpr -> Integer -> NatM (Maybe (OrdList Instr))
genMemCpyInlineMaybe Int
align CmmExpr
dst CmmExpr
src Integer
n = do
NCGConfig
config <- NatM NCGConfig
getConfig
let
platform :: Platform
platform = NCGConfig -> Platform
ncgPlatform NCGConfig
config
maxAlignment :: Alignment
maxAlignment = Platform -> Alignment
wordAlignment Platform
platform
effectiveAlignment :: Alignment
effectiveAlignment = Alignment -> Alignment -> Alignment
forall a. Ord a => a -> a -> a
min (Int -> Alignment
alignmentOf Int
align) Alignment
maxAlignment
format :: Format
format = Width -> Format
intFormat (Width -> Format) -> (Int -> Width) -> Int -> Format
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Int -> Width
widthFromBytes (Int -> Format) -> Int -> Format
forall a b. (a -> b) -> a -> b
$ Alignment -> Int
alignmentBytes Alignment
effectiveAlignment
let sizeBytes :: Integer
sizeBytes :: Integer
sizeBytes = Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Format -> Int
formatInBytes Format
format)
let insns :: Integer
insns = Integer
2 Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
* ((Integer
n Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
+ Integer
sizeBytes Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
- Integer
1) Integer -> Integer -> Integer
forall a. Integral a => a -> a -> a
`div` Integer
sizeBytes)
go :: Reg -> Reg -> Reg -> Integer -> OrdList Instr
go :: Reg -> Reg -> Reg -> Integer -> OrdList Instr
go Reg
dst Reg
src Reg
tmp Integer
i
| Integer
i Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
>= Integer
sizeBytes =
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
format (AddrMode -> Operand
OpAddr AddrMode
src_addr) (Reg -> Operand
OpReg Reg
tmp)) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
tmp) (AddrMode -> Operand
OpAddr AddrMode
dst_addr)) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> Reg -> Reg -> Integer -> OrdList Instr
go Reg
dst Reg
src Reg
tmp (Integer
i Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
- Integer
sizeBytes)
| Integer
i Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
>= Integer
4 =
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
II32 (AddrMode -> Operand
OpAddr AddrMode
src_addr) (Reg -> Operand
OpReg Reg
tmp)) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
tmp) (AddrMode -> Operand
OpAddr AddrMode
dst_addr)) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> Reg -> Reg -> Integer -> OrdList Instr
go Reg
dst Reg
src Reg
tmp (Integer
i Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
- Integer
4)
| Integer
i Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
>= Integer
2 =
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOVZxL Format
II16 (AddrMode -> Operand
OpAddr AddrMode
src_addr) (Reg -> Operand
OpReg Reg
tmp)) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
II16 (Reg -> Operand
OpReg Reg
tmp) (AddrMode -> Operand
OpAddr AddrMode
dst_addr)) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> Reg -> Reg -> Integer -> OrdList Instr
go Reg
dst Reg
src Reg
tmp (Integer
i Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
- Integer
2)
| Integer
i Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
>= Integer
1 =
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (AddrMode -> Operand
OpAddr AddrMode
src_addr) (Reg -> Operand
OpReg Reg
tmp)) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
II8 (Reg -> Operand
OpReg Reg
tmp) (AddrMode -> Operand
OpAddr AddrMode
dst_addr)) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> Reg -> Reg -> Integer -> OrdList Instr
go Reg
dst Reg
src Reg
tmp (Integer
i Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
- Integer
1)
| Bool
otherwise = OrdList Instr
forall a. OrdList a
nilOL
where
src_addr :: AddrMode
src_addr = EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
src) EAIndex
EAIndexNone
(Integer -> Imm
ImmInteger (Integer
n Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
- Integer
i))
dst_addr :: AddrMode
dst_addr = EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
dst) EAIndex
EAIndexNone
(Integer -> Imm
ImmInteger (Integer
n Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
- Integer
i))
if Integer
insns Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
> Word -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral (NCGConfig -> Word
ncgInlineThresholdMemcpy NCGConfig
config)
then Maybe (OrdList Instr) -> NatM (Maybe (OrdList Instr))
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure Maybe (OrdList Instr)
forall a. Maybe a
Nothing
else do
Reg -> OrdList Instr
code_dst <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
dst
Reg
dst_r <- Format -> NatM Reg
getNewRegNat Format
format
Reg -> OrdList Instr
code_src <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
Reg
src_r <- Format -> NatM Reg
getNewRegNat Format
format
Reg
tmp_r <- Format -> NatM Reg
getNewRegNat Format
format
Maybe (OrdList Instr) -> NatM (Maybe (OrdList Instr))
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (Maybe (OrdList Instr) -> NatM (Maybe (OrdList Instr)))
-> Maybe (OrdList Instr) -> NatM (Maybe (OrdList Instr))
forall a b. (a -> b) -> a -> b
$ OrdList Instr -> Maybe (OrdList Instr)
forall a. a -> Maybe a
Just (OrdList Instr -> Maybe (OrdList Instr))
-> OrdList Instr -> Maybe (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
code_dst Reg
dst_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> OrdList Instr
code_src Reg
src_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> Reg -> Reg -> Integer -> OrdList Instr
go Reg
dst_r Reg
src_r Reg
tmp_r (Integer -> Integer
forall a. Num a => Integer -> a
fromInteger Integer
n)
genMemSet
:: BlockId
-> Int
-> CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM InstrBlock
genMemSet :: Label
-> Int -> CmmExpr -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genMemSet Label
bid Int
align CmmExpr
dst CmmExpr
arg_c CmmExpr
arg_n = do
let libc_memset :: NatM (OrdList Instr)
libc_memset = Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"memset") [] [CmmExpr
dst,CmmExpr
arg_c,CmmExpr
arg_n]
case (CmmExpr
arg_c,CmmExpr
arg_n) of
(CmmLit (CmmInt Integer
c Width
_), CmmLit (CmmInt Integer
n Width
_)) -> do
Maybe (OrdList Instr)
mcode <- Int
-> CmmExpr -> Integer -> Integer -> NatM (Maybe (OrdList Instr))
genMemSetInlineMaybe Int
align CmmExpr
dst Integer
c Integer
n
case Maybe (OrdList Instr)
mcode of
Maybe (OrdList Instr)
Nothing -> NatM (OrdList Instr)
libc_memset
Just OrdList Instr
c -> OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure OrdList Instr
c
(CmmExpr, CmmExpr)
_ -> NatM (OrdList Instr)
libc_memset
genMemSetInlineMaybe
:: Int
-> CmmExpr
-> Integer
-> Integer
-> NatM (Maybe InstrBlock)
genMemSetInlineMaybe :: Int
-> CmmExpr -> Integer -> Integer -> NatM (Maybe (OrdList Instr))
genMemSetInlineMaybe Int
align CmmExpr
dst Integer
c Integer
n = do
NCGConfig
config <- NatM NCGConfig
getConfig
let
platform :: Platform
platform = NCGConfig -> Platform
ncgPlatform NCGConfig
config
maxAlignment :: Alignment
maxAlignment = Platform -> Alignment
wordAlignment Platform
platform
effectiveAlignment :: Alignment
effectiveAlignment = Alignment -> Alignment -> Alignment
forall a. Ord a => a -> a -> a
min (Int -> Alignment
alignmentOf Int
align) Alignment
maxAlignment
format :: Format
format = Width -> Format
intFormat (Width -> Format) -> (Int -> Width) -> Int -> Format
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Int -> Width
widthFromBytes (Int -> Format) -> Int -> Format
forall a b. (a -> b) -> a -> b
$ Alignment -> Int
alignmentBytes Alignment
effectiveAlignment
c2 :: Integer
c2 = Integer
c Integer -> Int -> Integer
forall a. Bits a => a -> Int -> a
`shiftL` Int
8 Integer -> Integer -> Integer
forall a. Bits a => a -> a -> a
.|. Integer
c
c4 :: Integer
c4 = Integer
c2 Integer -> Int -> Integer
forall a. Bits a => a -> Int -> a
`shiftL` Int
16 Integer -> Integer -> Integer
forall a. Bits a => a -> a -> a
.|. Integer
c2
c8 :: Integer
c8 = Integer
c4 Integer -> Int -> Integer
forall a. Bits a => a -> Int -> a
`shiftL` Int
32 Integer -> Integer -> Integer
forall a. Bits a => a -> a -> a
.|. Integer
c4
insns :: Integer
insns = (Integer
n Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
+ Integer
sizeBytes Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
- Integer
1) Integer -> Integer -> Integer
forall a. Integral a => a -> a -> a
`div` Integer
sizeBytes
sizeBytes :: Integer
sizeBytes :: Integer
sizeBytes = Int -> Integer
forall a b. (Integral a, Num b) => a -> b
fromIntegral (Format -> Int
formatInBytes Format
format)
gen4 :: AddrMode -> Integer -> (InstrBlock, Integer)
gen4 :: AddrMode -> Integer -> (OrdList Instr, Integer)
gen4 AddrMode
addr Integer
size
| Integer
size Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
>= Integer
4 =
(Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
II32 (Imm -> Operand
OpImm (Integer -> Imm
ImmInteger Integer
c4)) (AddrMode -> Operand
OpAddr AddrMode
addr)), Integer
4)
| Integer
size Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
>= Integer
2 =
(Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
II16 (Imm -> Operand
OpImm (Integer -> Imm
ImmInteger Integer
c2)) (AddrMode -> Operand
OpAddr AddrMode
addr)), Integer
2)
| Integer
size Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
>= Integer
1 =
(Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
II8 (Imm -> Operand
OpImm (Integer -> Imm
ImmInteger Integer
c)) (AddrMode -> Operand
OpAddr AddrMode
addr)), Integer
1)
| Bool
otherwise = (OrdList Instr
forall a. OrdList a
nilOL, Integer
0)
gen8 :: AddrMode -> Reg -> InstrBlock
gen8 :: AddrMode -> Reg -> OrdList Instr
gen8 AddrMode
addr Reg
reg8byte =
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
reg8byte) (AddrMode -> Operand
OpAddr AddrMode
addr))
go4 :: Reg -> Integer -> InstrBlock
go4 :: Reg -> Integer -> OrdList Instr
go4 Reg
dst Integer
left =
if Integer
left Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
<= Integer
0 then OrdList Instr
forall a. OrdList a
nilOL
else OrdList Instr
curMov OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> Integer -> OrdList Instr
go4 Reg
dst (Integer
left Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
- Integer
curWidth)
where
possibleWidth :: Integer
possibleWidth = [Integer] -> Integer
forall a. Ord a => [a] -> a
forall (t :: * -> *) a. (Foldable t, Ord a) => t a -> a
minimum [Integer
left, Integer
sizeBytes]
dst_addr :: AddrMode
dst_addr = EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
dst) EAIndex
EAIndexNone (Integer -> Imm
ImmInteger (Integer
n Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
- Integer
left))
(OrdList Instr
curMov, Integer
curWidth) = AddrMode -> Integer -> (OrdList Instr, Integer)
gen4 AddrMode
dst_addr Integer
possibleWidth
go8 :: Reg -> Reg -> Integer -> InstrBlock
go8 :: Reg -> Reg -> Integer -> OrdList Instr
go8 Reg
dst Reg
reg8byte Integer
left =
if Integer
possibleWidth Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
>= Integer
8 then
let curMov :: OrdList Instr
curMov = AddrMode -> Reg -> OrdList Instr
gen8 AddrMode
dst_addr Reg
reg8byte
in OrdList Instr
curMov OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> Reg -> Integer -> OrdList Instr
go8 Reg
dst Reg
reg8byte (Integer
left Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
- Integer
8)
else Reg -> Integer -> OrdList Instr
go4 Reg
dst Integer
left
where
possibleWidth :: Integer
possibleWidth = [Integer] -> Integer
forall a. Ord a => [a] -> a
forall (t :: * -> *) a. (Foldable t, Ord a) => t a -> a
minimum [Integer
left, Integer
sizeBytes]
dst_addr :: AddrMode
dst_addr = EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
dst) EAIndex
EAIndexNone (Integer -> Imm
ImmInteger (Integer
n Integer -> Integer -> Integer
forall a. Num a => a -> a -> a
- Integer
left))
if Integer -> Word
forall a. Num a => Integer -> a
fromInteger Integer
insns Word -> Word -> Bool
forall a. Ord a => a -> a -> Bool
> NCGConfig -> Word
ncgInlineThresholdMemset NCGConfig
config
then Maybe (OrdList Instr) -> NatM (Maybe (OrdList Instr))
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure Maybe (OrdList Instr)
forall a. Maybe a
Nothing
else do
Reg -> OrdList Instr
code_dst <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
dst
Reg
dst_r <- Format -> NatM Reg
getNewRegNat Format
format
if Format
format Format -> Format -> Bool
forall a. Eq a => a -> a -> Bool
== Format
II64 Bool -> Bool -> Bool
&& Integer
n Integer -> Integer -> Bool
forall a. Ord a => a -> a -> Bool
>= Integer
8
then do
Reg -> OrdList Instr
code_imm8byte <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg (CmmLit -> CmmExpr
CmmLit (Integer -> Width -> CmmLit
CmmInt Integer
c8 Width
W64))
Reg
imm8byte_r <- Format -> NatM Reg
getNewRegNat Format
II64
Maybe (OrdList Instr) -> NatM (Maybe (OrdList Instr))
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Maybe (OrdList Instr) -> NatM (Maybe (OrdList Instr)))
-> Maybe (OrdList Instr) -> NatM (Maybe (OrdList Instr))
forall a b. (a -> b) -> a -> b
$ OrdList Instr -> Maybe (OrdList Instr)
forall a. a -> Maybe a
Just (OrdList Instr -> Maybe (OrdList Instr))
-> OrdList Instr -> Maybe (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
code_dst Reg
dst_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> OrdList Instr
code_imm8byte Reg
imm8byte_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> Reg -> Integer -> OrdList Instr
go8 Reg
dst_r Reg
imm8byte_r (Integer -> Integer
forall a. Num a => Integer -> a
fromInteger Integer
n)
else
Maybe (OrdList Instr) -> NatM (Maybe (OrdList Instr))
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Maybe (OrdList Instr) -> NatM (Maybe (OrdList Instr)))
-> Maybe (OrdList Instr) -> NatM (Maybe (OrdList Instr))
forall a b. (a -> b) -> a -> b
$ OrdList Instr -> Maybe (OrdList Instr)
forall a. a -> Maybe a
Just (OrdList Instr -> Maybe (OrdList Instr))
-> OrdList Instr -> Maybe (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
code_dst Reg
dst_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> Integer -> OrdList Instr
go4 Reg
dst_r (Integer -> Integer
forall a. Num a => Integer -> a
fromInteger Integer
n)
genMemMove :: BlockId -> p -> CmmActual -> CmmActual -> CmmActual -> NatM InstrBlock
genMemMove :: forall p.
Label -> p -> CmmExpr -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genMemMove Label
bid p
_align CmmExpr
dst CmmExpr
src CmmExpr
n = do
Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"memmove") [] [CmmExpr
dst,CmmExpr
src,CmmExpr
n]
genMemCmp :: BlockId -> p -> CmmFormal -> CmmActual -> CmmActual -> CmmActual -> NatM InstrBlock
genMemCmp :: forall p.
Label
-> p
-> LocalReg
-> CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genMemCmp Label
bid p
_align LocalReg
res CmmExpr
dst CmmExpr
src CmmExpr
n = do
Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genLibCCall Label
bid (String -> FastString
fsLit String
"memcmp") [LocalReg
res] [CmmExpr
dst,CmmExpr
src,CmmExpr
n]
genPrefetchData :: Int -> CmmExpr -> NatM (OrdList Instr)
genPrefetchData :: Int -> CmmExpr -> NatM (OrdList Instr)
genPrefetchData Int
n CmmExpr
src = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
let
format :: Format
format = Bool -> Format
archWordFormat Bool
is32Bit
genPrefetch :: CmmExpr -> (Operand -> Instr) -> NatM (OrdList Instr)
genPrefetch CmmExpr
inRegSrc Operand -> Instr
prefetchCTor = do
Reg -> OrdList Instr
code_src <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
inRegSrc
Reg
src_r <- Format -> NatM Reg
getNewRegNat Format
format
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
code_src Reg
src_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
(Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Operand -> Instr
prefetchCTor (AddrMode -> Operand
OpAddr
((EABase -> EAIndex -> Imm -> AddrMode
AddrBaseIndex (Reg -> EABase
EABaseReg Reg
src_r ) EAIndex
EAIndexNone (Int -> Imm
ImmInt Int
0)))) ))
case Int
n of
Int
0 -> CmmExpr -> (Operand -> Instr) -> NatM (OrdList Instr)
genPrefetch CmmExpr
src ((Operand -> Instr) -> NatM (OrdList Instr))
-> (Operand -> Instr) -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ PrefetchVariant -> Format -> Operand -> Instr
PREFETCH PrefetchVariant
NTA Format
format
Int
1 -> CmmExpr -> (Operand -> Instr) -> NatM (OrdList Instr)
genPrefetch CmmExpr
src ((Operand -> Instr) -> NatM (OrdList Instr))
-> (Operand -> Instr) -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ PrefetchVariant -> Format -> Operand -> Instr
PREFETCH PrefetchVariant
Lvl2 Format
format
Int
2 -> CmmExpr -> (Operand -> Instr) -> NatM (OrdList Instr)
genPrefetch CmmExpr
src ((Operand -> Instr) -> NatM (OrdList Instr))
-> (Operand -> Instr) -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ PrefetchVariant -> Format -> Operand -> Instr
PREFETCH PrefetchVariant
Lvl1 Format
format
Int
3 -> CmmExpr -> (Operand -> Instr) -> NatM (OrdList Instr)
genPrefetch CmmExpr
src ((Operand -> Instr) -> NatM (OrdList Instr))
-> (Operand -> Instr) -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ PrefetchVariant -> Format -> Operand -> Instr
PREFETCH PrefetchVariant
Lvl0 Format
format
Int
l -> String -> SDoc -> NatM (OrdList Instr)
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"genPrefetchData: unexpected prefetch level" (Int -> SDoc
forall a. Outputable a => a -> SDoc
ppr Int
l)
genByteSwap :: Width -> LocalReg -> CmmExpr -> NatM InstrBlock
genByteSwap :: Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genByteSwap Width
width LocalReg
dst CmmExpr
src = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
let format :: Format
format = Width -> Format
intFormat Width
width
case Width
width of
Width
W64 | Bool
is32Bit -> do
let Reg64 Reg
dst_hi Reg
dst_lo = HasDebugCallStack => LocalReg -> Reg64
LocalReg -> Reg64
localReg64 LocalReg
dst
RegCode64 OrdList Instr
vcode Reg
rhi Reg
rlo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
src
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
vcode OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
rlo) (Reg -> Operand
OpReg Reg
dst_hi),
Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
rhi) (Reg -> Operand
OpReg Reg
dst_lo),
Format -> Reg -> Instr
BSWAP Format
II32 Reg
dst_hi,
Format -> Reg -> Instr
BSWAP Format
II32 Reg
dst_lo ]
Width
W16 -> do
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
Reg -> OrdList Instr
code_src <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
code_src Reg
dst_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Reg -> Instr
BSWAP Format
II32 Reg
dst_r) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
SHR Format
II32 (Imm -> Operand
OpImm (Imm -> Operand) -> Imm -> Operand
forall a b. (a -> b) -> a -> b
$ Int -> Imm
ImmInt Int
16) (Reg -> Operand
OpReg Reg
dst_r))
Width
_ -> do
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
Reg -> OrdList Instr
code_src <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
code_src Reg
dst_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Reg -> Instr
BSWAP Format
format Reg
dst_r)
genBitRev :: BlockId -> Width -> CmmFormal -> CmmActual -> NatM InstrBlock
genBitRev :: Label -> Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genBitRev Label
bid Width
width LocalReg
dst CmmExpr
src = do
Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (Width -> FastString
bRevLabel Width
width) [LocalReg
dst] [CmmExpr
src]
genPopCnt :: BlockId -> Width -> LocalReg -> CmmExpr -> NatM InstrBlock
genPopCnt :: Label -> Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genPopCnt Label
bid Width
width LocalReg
dst CmmExpr
src = do
NCGConfig
config <- NatM NCGConfig
getConfig
let
platform :: Platform
platform = NCGConfig -> Platform
ncgPlatform NCGConfig
config
format :: Format
format = Width -> Format
intFormat Width
width
NatM Bool
sse4_2Enabled NatM Bool -> (Bool -> NatM (OrdList Instr)) -> NatM (OrdList Instr)
forall a b. NatM a -> (a -> NatM b) -> NatM b
forall (m :: * -> *) a b. Monad m => m a -> (a -> m b) -> m b
>>= \case
Bool
True -> do
Reg -> OrdList Instr
code_src <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
Reg
src_r <- Format -> NatM Reg
getNewRegNat Format
format
let dst_r :: Reg
dst_r = Platform -> CmmReg -> Reg
getRegisterReg Platform
platform (LocalReg -> CmmReg
CmmLocal LocalReg
dst)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
code_src Reg
src_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
(if Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W8 then
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
src_r) (Reg -> Operand
OpReg Reg
src_r)) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Reg -> Instr
POPCNT Format
II16 (Reg -> Operand
OpReg Reg
src_r) Reg
dst_r)
else
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Reg -> Instr
POPCNT Format
format (Reg -> Operand
OpReg Reg
src_r) Reg
dst_r)) OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
(if Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W8 Bool -> Bool -> Bool
|| Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W16 then
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Instr
MOVZxL Format
II16 (Reg -> Operand
OpReg Reg
dst_r) (Reg -> Operand
OpReg Reg
dst_r))
else OrdList Instr
forall a. OrdList a
nilOL)
Bool
False ->
Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (Width -> FastString
popCntLabel Width
width) [LocalReg
dst] [CmmExpr
src]
genPdep :: BlockId -> Width -> LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genPdep :: Label
-> Width -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPdep Label
bid Width
width LocalReg
dst CmmExpr
src CmmExpr
mask = do
NCGConfig
config <- NatM NCGConfig
getConfig
let
platform :: Platform
platform = NCGConfig -> Platform
ncgPlatform NCGConfig
config
format :: Format
format = Width -> Format
intFormat Width
width
if NCGConfig -> Maybe BmiVersion
ncgBmiVersion NCGConfig
config Maybe BmiVersion -> Maybe BmiVersion -> Bool
forall a. Ord a => a -> a -> Bool
>= BmiVersion -> Maybe BmiVersion
forall a. a -> Maybe a
Just BmiVersion
BMI2
then do
Reg -> OrdList Instr
code_src <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
Reg -> OrdList Instr
code_mask <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
mask
Reg
src_r <- Format -> NatM Reg
getNewRegNat Format
format
Reg
mask_r <- Format -> NatM Reg
getNewRegNat Format
format
let dst_r :: Reg
dst_r = Platform -> CmmReg -> Reg
getRegisterReg Platform
platform (LocalReg -> CmmReg
CmmLocal LocalReg
dst)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
code_src Reg
src_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> OrdList Instr
code_mask Reg
mask_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
( if Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W8 Bool -> Bool -> Bool
|| Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W16 then
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOVZxL Format
format (Reg -> Operand
OpReg Reg
src_r ) (Reg -> Operand
OpReg Reg
src_r )
, Format -> Operand -> Operand -> Instr
MOVZxL Format
format (Reg -> Operand
OpReg Reg
mask_r) (Reg -> Operand
OpReg Reg
mask_r)
, Format -> Operand -> Operand -> Reg -> Instr
PDEP Format
II32 (Reg -> Operand
OpReg Reg
mask_r) (Reg -> Operand
OpReg Reg
src_r ) Reg
dst_r
, Format -> Operand -> Operand -> Instr
MOVZxL Format
format (Reg -> Operand
OpReg Reg
dst_r) (Reg -> Operand
OpReg Reg
dst_r)
]
else
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Reg -> Instr
PDEP Format
format (Reg -> Operand
OpReg Reg
mask_r) (Reg -> Operand
OpReg Reg
src_r) Reg
dst_r)
)
else
Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (Width -> FastString
pdepLabel Width
width) [LocalReg
dst] [CmmExpr
src,CmmExpr
mask]
genPext :: BlockId -> Width -> LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genPext :: Label
-> Width -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPext Label
bid Width
width LocalReg
dst CmmExpr
src CmmExpr
mask = do
NCGConfig
config <- NatM NCGConfig
getConfig
if NCGConfig -> Maybe BmiVersion
ncgBmiVersion NCGConfig
config Maybe BmiVersion -> Maybe BmiVersion -> Bool
forall a. Ord a => a -> a -> Bool
>= BmiVersion -> Maybe BmiVersion
forall a. a -> Maybe a
Just BmiVersion
BMI2
then do
let format :: Format
format = Width -> Format
intFormat Width
width
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
Reg -> OrdList Instr
code_src <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
Reg -> OrdList Instr
code_mask <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
mask
Reg
src_r <- Format -> NatM Reg
getNewRegNat Format
format
Reg
mask_r <- Format -> NatM Reg
getNewRegNat Format
format
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
code_src Reg
src_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> OrdList Instr
code_mask Reg
mask_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
(if Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W8 Bool -> Bool -> Bool
|| Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W16 then
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOVZxL Format
format (Reg -> Operand
OpReg Reg
src_r ) (Reg -> Operand
OpReg Reg
src_r )
, Format -> Operand -> Operand -> Instr
MOVZxL Format
format (Reg -> Operand
OpReg Reg
mask_r) (Reg -> Operand
OpReg Reg
mask_r)
, Format -> Operand -> Operand -> Reg -> Instr
PEXT Format
II32 (Reg -> Operand
OpReg Reg
mask_r) (Reg -> Operand
OpReg Reg
src_r ) Reg
dst_r
, Format -> Operand -> Operand -> Instr
MOVZxL Format
format (Reg -> Operand
OpReg Reg
dst_r) (Reg -> Operand
OpReg Reg
dst_r)
]
else
Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Operand -> Reg -> Instr
PEXT Format
format (Reg -> Operand
OpReg Reg
mask_r) (Reg -> Operand
OpReg Reg
src_r) Reg
dst_r)
)
else
Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (Width -> FastString
pextLabel Width
width) [LocalReg
dst] [CmmExpr
src,CmmExpr
mask]
genClz :: BlockId -> Width -> CmmFormal -> CmmActual -> NatM InstrBlock
genClz :: Label -> Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genClz Label
bid Width
width LocalReg
dst CmmExpr
src = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
NCGConfig
config <- NatM NCGConfig
getConfig
if Bool
is32Bit Bool -> Bool -> Bool
&& Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W64
then
Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (Width -> FastString
clzLabel Width
width) [LocalReg
dst] [CmmExpr
src]
else do
Reg -> OrdList Instr
code_src <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
if NCGConfig -> Maybe BmiVersion
ncgBmiVersion NCGConfig
config Maybe BmiVersion -> Maybe BmiVersion -> Bool
forall a. Ord a => a -> a -> Bool
>= BmiVersion -> Maybe BmiVersion
forall a. a -> Maybe a
Just BmiVersion
BMI2
then do
Reg
src_r <- Format -> NatM Reg
getNewRegNat (Width -> Format
intFormat Width
width)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
appOL (Reg -> OrdList Instr
code_src Reg
src_r) (OrdList Instr -> OrdList Instr) -> OrdList Instr -> OrdList Instr
forall a b. (a -> b) -> a -> b
$ case Width
width of
Width
W8 -> [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
src_r) (Reg -> Operand
OpReg Reg
src_r)
, Format -> Operand -> Reg -> Instr
LZCNT Format
II32 (Reg -> Operand
OpReg Reg
src_r) Reg
dst_r
, Format -> Operand -> Operand -> Instr
SUB Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
24)) (Reg -> Operand
OpReg Reg
dst_r)
]
Width
W16 -> [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Reg -> Instr
LZCNT Format
II16 (Reg -> Operand
OpReg Reg
src_r) Reg
dst_r
, Format -> Operand -> Operand -> Instr
MOVZxL Format
II16 (Reg -> Operand
OpReg Reg
dst_r) (Reg -> Operand
OpReg Reg
dst_r)
]
Width
_ -> Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL (Format -> Operand -> Reg -> Instr
LZCNT (Width -> Format
intFormat Width
width) (Reg -> Operand
OpReg Reg
src_r) Reg
dst_r)
else do
let format :: Format
format = if Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W8 then Format
II16 else Width -> Format
intFormat Width
width
let bw :: Int
bw = Width -> Int
widthInBits Width
width
Reg
src_r <- Format -> NatM Reg
getNewRegNat Format
format
Reg
tmp_r <- Format -> NatM Reg
getNewRegNat Format
format
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
code_src Reg
src_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
([ Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
src_r) (Reg -> Operand
OpReg Reg
src_r) | Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W8 ] [Instr] -> [Instr] -> [Instr]
forall a. [a] -> [a] -> [a]
++
[ Format -> Operand -> Reg -> Instr
BSR Format
format (Reg -> Operand
OpReg Reg
src_r) Reg
tmp_r
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt (Int
2Int -> Int -> Int
forall a. Num a => a -> a -> a
*Int
bwInt -> Int -> Int
forall a. Num a => a -> a -> a
-Int
1))) (Reg -> Operand
OpReg Reg
dst_r)
, Cond -> Format -> Operand -> Reg -> Instr
CMOV Cond
NE Format
format (Reg -> Operand
OpReg Reg
tmp_r) Reg
dst_r
, Format -> Operand -> Operand -> Instr
XOR Format
format (Imm -> Operand
OpImm (Int -> Imm
ImmInt (Int
bwInt -> Int -> Int
forall a. Num a => a -> a -> a
-Int
1))) (Reg -> Operand
OpReg Reg
dst_r)
])
genWordToFloat :: BlockId -> Width -> CmmFormal -> CmmActual -> NatM InstrBlock
genWordToFloat :: Label -> Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genWordToFloat Label
bid Width
width LocalReg
dst CmmExpr
src =
Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (Width -> FastString
word2FloatLabel Width
width) [LocalReg
dst] [CmmExpr
src]
genAtomicRead :: Width -> MemoryOrdering -> LocalReg -> CmmExpr -> NatM InstrBlock
genAtomicRead :: Width
-> MemoryOrdering -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genAtomicRead Width
width MemoryOrdering
_mord LocalReg
dst CmmExpr
addr = do
Reg -> OrdList Instr
load_code <- (Operand -> Operand -> Instr)
-> CmmExpr -> NatM (Reg -> OrdList Instr)
intLoadCode (Format -> Operand -> Operand -> Instr
MOV (Width -> Format
intFormat Width
width)) CmmExpr
addr
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg -> OrdList Instr
load_code (LocalReg -> Reg
getLocalRegReg LocalReg
dst))
genAtomicWrite :: Width -> MemoryOrdering -> CmmExpr -> CmmExpr -> NatM InstrBlock
genAtomicWrite :: Width
-> MemoryOrdering -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genAtomicWrite Width
width MemoryOrdering
mord CmmExpr
addr CmmExpr
val = do
OrdList Instr
code <- Format -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
assignMem_IntCode (Width -> Format
intFormat Width
width) CmmExpr
addr CmmExpr
val
let needs_fence :: Bool
needs_fence = case MemoryOrdering
mord of
MemoryOrdering
MemOrderSeqCst -> Bool
True
MemoryOrdering
MemOrderRelease -> Bool
False
MemoryOrdering
MemOrderAcquire -> String -> SDoc -> Bool
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"genAtomicWrite: acquire ordering on write" SDoc
forall doc. IsOutput doc => doc
empty
MemoryOrdering
MemOrderRelaxed -> Bool
False
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ if Bool
needs_fence then OrdList Instr
code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Instr
MFENCE else OrdList Instr
code
genCmpXchg
:: BlockId
-> Width
-> LocalReg
-> CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM InstrBlock
genCmpXchg :: Label
-> Width
-> LocalReg
-> CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genCmpXchg Label
bid Width
width LocalReg
dst CmmExpr
addr CmmExpr
old CmmExpr
new = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
if Bool -> Bool
not (Bool
is32Bit Bool -> Bool -> Bool
&& Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W64)
then do
let format :: Format
format = Width -> Format
intFormat Width
width
Amode AddrMode
amode OrdList Instr
addr_code <- CmmExpr -> NatM Amode
getSimpleAmode CmmExpr
addr
Reg
newval <- Format -> NatM Reg
getNewRegNat Format
format
Reg -> OrdList Instr
newval_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
new
Reg
oldval <- Format -> NatM Reg
getNewRegNat Format
format
Reg -> OrdList Instr
oldval_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
old
Platform
platform <- NatM Platform
getPlatform
let dst_r :: Reg
dst_r = Platform -> CmmReg -> Reg
getRegisterReg Platform
platform (LocalReg -> CmmReg
CmmLocal LocalReg
dst)
code :: OrdList Instr
code = [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
oldval) (Reg -> Operand
OpReg Reg
eax)
, Instr -> Instr
LOCK (Format -> Operand -> Operand -> Instr
CMPXCHG Format
format (Reg -> Operand
OpReg Reg
newval) (AddrMode -> Operand
OpAddr AddrMode
amode))
, Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
eax) (Reg -> Operand
OpReg Reg
dst_r)
]
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
addr_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> OrdList Instr
newval_code Reg
newval OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` Reg -> OrdList Instr
oldval_code Reg
oldval
OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
code
else
Label
-> FastString -> [LocalReg] -> [CmmExpr] -> NatM (OrdList Instr)
genPrimCCall Label
bid (Width -> FastString
cmpxchgLabel Width
width) [LocalReg
dst] [CmmExpr
addr,CmmExpr
old,CmmExpr
new]
genXchg :: Width -> LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genXchg :: Width -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genXchg Width
width LocalReg
dst CmmExpr
addr CmmExpr
value = do
Bool
is32Bit <- NatM Bool
is32BitPlatform
Bool -> NatM () -> NatM ()
forall (f :: * -> *). Applicative f => Bool -> f () -> f ()
when (Bool
is32Bit Bool -> Bool -> Bool
&& Width
width Width -> Width -> Bool
forall a. Eq a => a -> a -> Bool
== Width
W64) (NatM () -> NatM ()) -> NatM () -> NatM ()
forall a b. (a -> b) -> a -> b
$
String -> NatM ()
forall a. HasCallStack => String -> a
panic String
"genXchg: 64bit atomic exchange not supported on 32bit platforms"
Amode AddrMode
amode OrdList Instr
addr_code <- CmmExpr -> NatM Amode
getSimpleAmode CmmExpr
addr
(Reg
newval, OrdList Instr
newval_code) <- CmmExpr -> NatM (Reg, OrdList Instr)
getSomeReg CmmExpr
value
let format :: Format
format = Width -> Format
intFormat Width
width
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
let code :: OrdList Instr
code = [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
newval) (Reg -> Operand
OpReg Reg
dst_r)
, Format -> Operand -> Reg -> Instr
XCHG Format
format (AddrMode -> Operand
OpAddr AddrMode
amode) Reg
dst_r
]
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
addr_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
newval_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
code
genFloatAbs :: Width -> LocalReg -> CmmExpr -> NatM InstrBlock
genFloatAbs :: Width -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genFloatAbs Width
width LocalReg
dst CmmExpr
src = do
let
format :: Format
format = Width -> Format
floatFormat Width
width
const :: CmmLit
const = case Width
width of
Width
W32 -> Integer -> Width -> CmmLit
CmmInt Integer
0x7fffffff Width
W32
Width
W64 -> Integer -> Width -> CmmLit
CmmInt Integer
0x7fffffffffffffff Width
W64
Width
_ -> String -> SDoc -> CmmLit
forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"genFloatAbs: invalid width" (Width -> SDoc
forall a. Outputable a => a -> SDoc
ppr Width
width)
Reg -> OrdList Instr
src_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
Amode AddrMode
amode OrdList Instr
amode_code <- Alignment -> CmmLit -> NatM Amode
memConstant (Int -> Alignment
mkAlignment (Int -> Alignment) -> Int -> Alignment
forall a b. (a -> b) -> a -> b
$ Width -> Int
widthInBytes Width
width) CmmLit
const
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
format
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
src_code Reg
dst_r OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
amode_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
format (AddrMode -> Operand
OpAddr AddrMode
amode) (Reg -> Operand
OpReg Reg
tmp)
, Format -> Operand -> Operand -> Instr
AND Format
format (Reg -> Operand
OpReg Reg
tmp) (Reg -> Operand
OpReg Reg
dst_r)
]
genFloatSqrt :: Format -> LocalReg -> CmmExpr -> NatM InstrBlock
genFloatSqrt :: Format -> LocalReg -> CmmExpr -> NatM (OrdList Instr)
genFloatSqrt Format
format LocalReg
dst CmmExpr
src = do
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
Reg -> OrdList Instr
src_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
src_code Reg
dst_r OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> Operand -> Reg -> Instr
SQRT Format
format (Reg -> Operand
OpReg Reg
dst_r) Reg
dst_r
genAddSubRetCarry
:: Width
-> (Format -> Operand -> Operand -> Instr)
-> (Format -> Maybe (Operand -> Operand -> Instr))
-> Cond
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM InstrBlock
genAddSubRetCarry :: Width
-> (Format -> Operand -> Operand -> Instr)
-> (Format -> Maybe (Operand -> Operand -> Instr))
-> Cond
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genAddSubRetCarry Width
width Format -> Operand -> Operand -> Instr
instr Format -> Maybe (Operand -> Operand -> Instr)
mrevinstr Cond
cond LocalReg
res_r LocalReg
res_c CmmExpr
arg_x CmmExpr
arg_y = do
Platform
platform <- NCGConfig -> Platform
ncgPlatform (NCGConfig -> Platform) -> NatM NCGConfig -> NatM Platform
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> NatM NCGConfig
getConfig
let format :: Format
format = Width -> Format
intFormat Width
width
Reg -> OrdList Instr
rCode <- Register -> NatM (Reg -> OrdList Instr)
anyReg (Register -> NatM (Reg -> OrdList Instr))
-> NatM Register -> NatM (Reg -> OrdList Instr)
forall (m :: * -> *) a b. Monad m => (a -> m b) -> m a -> m b
=<< Width
-> (Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
width (Format -> Operand -> Operand -> Instr
instr Format
format)
(Format -> Maybe (Operand -> Operand -> Instr)
mrevinstr Format
format) CmmExpr
arg_x CmmExpr
arg_y
Reg
reg_tmp <- Format -> NatM Reg
getNewRegNat Format
II8
let reg_c :: Reg
reg_c = Platform -> CmmReg -> Reg
getRegisterReg Platform
platform (LocalReg -> CmmReg
CmmLocal LocalReg
res_c)
reg_r :: Reg
reg_r = Platform -> CmmReg -> Reg
getRegisterReg Platform
platform (LocalReg -> CmmReg
CmmLocal LocalReg
res_r)
code :: OrdList Instr
code = Reg -> OrdList Instr
rCode Reg
reg_r OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Cond -> Operand -> Instr
SETCC Cond
cond (Reg -> Operand
OpReg Reg
reg_tmp) OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
reg_tmp) (Reg -> Operand
OpReg Reg
reg_c)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
code
genAddWithCarry
:: Width
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM InstrBlock
genAddWithCarry :: Width
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genAddWithCarry Width
width LocalReg
res_h LocalReg
res_l CmmExpr
arg_x CmmExpr
arg_y = do
Reg -> OrdList Instr
hCode <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg (CmmLit -> CmmExpr
CmmLit (Integer -> Width -> CmmLit
CmmInt Integer
0 Width
width))
let format :: Format
format = Width -> Format
intFormat Width
width
Reg -> OrdList Instr
lCode <- Register -> NatM (Reg -> OrdList Instr)
anyReg (Register -> NatM (Reg -> OrdList Instr))
-> NatM Register -> NatM (Reg -> OrdList Instr)
forall (m :: * -> *) a b. Monad m => (a -> m b) -> m a -> m b
=<< Width
-> (Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
width (Format -> Operand -> Operand -> Instr
ADD_CC Format
format)
((Operand -> Operand -> Instr)
-> Maybe (Operand -> Operand -> Instr)
forall a. a -> Maybe a
Just (Format -> Operand -> Operand -> Instr
ADD_CC Format
format)) CmmExpr
arg_x CmmExpr
arg_y
let reg_l :: Reg
reg_l = LocalReg -> Reg
getLocalRegReg LocalReg
res_l
reg_h :: Reg
reg_h = LocalReg -> Reg
getLocalRegReg LocalReg
res_h
code :: OrdList Instr
code = Reg -> OrdList Instr
hCode Reg
reg_h OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> OrdList Instr
lCode Reg
reg_l OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Operand -> Operand -> Instr
ADC Format
format (Imm -> Operand
OpImm (Integer -> Imm
ImmInteger Integer
0)) (Reg -> Operand
OpReg Reg
reg_h)
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
code
genSignedLargeMul
:: Width
-> LocalReg
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genSignedLargeMul :: Width
-> LocalReg
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genSignedLargeMul Width
width LocalReg
res_c LocalReg
res_h LocalReg
res_l CmmExpr
arg_x CmmExpr
arg_y = do
(Operand
y_reg, OrdList Instr
y_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getRegOrMem CmmExpr
arg_y
Reg -> OrdList Instr
x_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
arg_x
Reg
reg_tmp <- Format -> NatM Reg
getNewRegNat Format
II8
let format :: Format
format = Width -> Format
intFormat Width
width
reg_h :: Reg
reg_h = LocalReg -> Reg
getLocalRegReg LocalReg
res_h
reg_l :: Reg
reg_l = LocalReg -> Reg
getLocalRegReg LocalReg
res_l
reg_c :: Reg
reg_c = LocalReg -> Reg
getLocalRegReg LocalReg
res_c
code :: OrdList Instr
code = OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> OrdList Instr
x_code Reg
rax OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [ Format -> Operand -> Instr
IMUL2 Format
format Operand
y_reg
, Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
rdx) (Reg -> Operand
OpReg Reg
reg_h)
, Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
rax) (Reg -> Operand
OpReg Reg
reg_l)
, Cond -> Operand -> Instr
SETCC Cond
CARRY (Reg -> Operand
OpReg Reg
reg_tmp)
, Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
reg_tmp) (Reg -> Operand
OpReg Reg
reg_c)
]
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
code
genUnsignedLargeMul
:: Width
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genUnsignedLargeMul :: Width
-> LocalReg
-> LocalReg
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genUnsignedLargeMul Width
width LocalReg
res_h LocalReg
res_l CmmExpr
arg_x CmmExpr
arg_y = do
(Operand
y_reg, OrdList Instr
y_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getRegOrMem CmmExpr
arg_y
Reg -> OrdList Instr
x_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
arg_x
let format :: Format
format = Width -> Format
intFormat Width
width
reg_h :: Reg
reg_h = LocalReg -> Reg
getLocalRegReg LocalReg
res_h
reg_l :: Reg
reg_l = LocalReg -> Reg
getLocalRegReg LocalReg
res_l
code :: OrdList Instr
code = OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> OrdList Instr
x_code Reg
rax OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [Format -> Operand -> Instr
MUL2 Format
format Operand
y_reg,
Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
rdx) (Reg -> Operand
OpReg Reg
reg_h),
Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
rax) (Reg -> Operand
OpReg Reg
reg_l)]
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return OrdList Instr
code
genQuotRem
:: Width
-> Bool
-> LocalReg
-> LocalReg
-> Maybe CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM InstrBlock
genQuotRem :: Width
-> Bool
-> LocalReg
-> LocalReg
-> Maybe CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genQuotRem Width
width Bool
signed LocalReg
res_q LocalReg
res_r Maybe CmmExpr
m_arg_x_high CmmExpr
arg_x_low CmmExpr
arg_y = do
case Width
width of
Width
W8 -> do
let widen :: MachOp
widen | Bool
signed = Width -> Width -> MachOp
MO_SS_Conv Width
W8 Width
W16
| Bool
otherwise = Width -> Width -> MachOp
MO_UU_Conv Width
W8 Width
W16
arg_x_low_16 :: CmmExpr
arg_x_low_16 = MachOp -> [CmmExpr] -> CmmExpr
CmmMachOp MachOp
widen [CmmExpr
arg_x_low]
arg_y_16 :: CmmExpr
arg_y_16 = MachOp -> [CmmExpr] -> CmmExpr
CmmMachOp MachOp
widen [CmmExpr
arg_y]
m_arg_x_high_16 :: Maybe CmmExpr
m_arg_x_high_16 = (\CmmExpr
p -> MachOp -> [CmmExpr] -> CmmExpr
CmmMachOp MachOp
widen [CmmExpr
p]) (CmmExpr -> CmmExpr) -> Maybe CmmExpr -> Maybe CmmExpr
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Maybe CmmExpr
m_arg_x_high
Width
-> Bool
-> LocalReg
-> LocalReg
-> Maybe CmmExpr
-> CmmExpr
-> CmmExpr
-> NatM (OrdList Instr)
genQuotRem Width
W16 Bool
signed LocalReg
res_q LocalReg
res_r Maybe CmmExpr
m_arg_x_high_16 CmmExpr
arg_x_low_16 CmmExpr
arg_y_16
Width
_ -> do
let format :: Format
format = Width -> Format
intFormat Width
width
reg_q :: Reg
reg_q = LocalReg -> Reg
getLocalRegReg LocalReg
res_q
reg_r :: Reg
reg_r = LocalReg -> Reg
getLocalRegReg LocalReg
res_r
widen :: Instr
widen | Bool
signed = Format -> Instr
CLTD Format
format
| Bool
otherwise = Format -> Operand -> Operand -> Instr
XOR Format
format (Reg -> Operand
OpReg Reg
rdx) (Reg -> Operand
OpReg Reg
rdx)
instr :: Format -> Operand -> Instr
instr | Bool
signed = Format -> Operand -> Instr
IDIV
| Bool
otherwise = Format -> Operand -> Instr
DIV
(Operand
y_reg, OrdList Instr
y_code) <- CmmExpr -> NatM (Operand, OrdList Instr)
getRegOrMem CmmExpr
arg_y
Reg -> OrdList Instr
x_low_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
arg_x_low
Reg -> OrdList Instr
x_high_code <- case Maybe CmmExpr
m_arg_x_high of
Just CmmExpr
arg_x_high ->
CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
arg_x_high
Maybe CmmExpr
Nothing ->
(Reg -> OrdList Instr) -> NatM (Reg -> OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return ((Reg -> OrdList Instr) -> NatM (Reg -> OrdList Instr))
-> (Reg -> OrdList Instr) -> NatM (Reg -> OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr -> Reg -> OrdList Instr
forall a b. a -> b -> a
const (OrdList Instr -> Reg -> OrdList Instr)
-> OrdList Instr -> Reg -> OrdList Instr
forall a b. (a -> b) -> a -> b
$ Instr -> OrdList Instr
forall a. a -> OrdList a
unitOL Instr
widen
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (m :: * -> *) a. Monad m => a -> m a
return (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> OrdList Instr
x_low_code Reg
rax OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
Reg -> OrdList Instr
x_high_code Reg
rdx OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
[Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL [Format -> Operand -> Instr
instr Format
format Operand
y_reg,
Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
rax) (Reg -> Operand
OpReg Reg
reg_q),
Format -> Operand -> Operand -> Instr
MOV Format
format (Reg -> Operand
OpReg Reg
rdx) (Reg -> Operand
OpReg Reg
reg_r)]
genInt64ToInt :: LocalReg -> CmmExpr -> NatM InstrBlock
genInt64ToInt :: LocalReg -> CmmExpr -> NatM (OrdList Instr)
genInt64ToInt LocalReg
dst CmmExpr
src = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genInt64ToInt")
RegCode64 OrdList Instr
code Reg
_src_hi Reg
src_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
src
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
src_lo) (Reg -> Operand
OpReg Reg
dst_r)
genWord64ToWord :: LocalReg -> CmmExpr -> NatM InstrBlock
genWord64ToWord :: LocalReg -> CmmExpr -> NatM (OrdList Instr)
genWord64ToWord LocalReg
dst CmmExpr
src = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genWord64ToWord")
RegCode64 OrdList Instr
code Reg
_src_hi Reg
src_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
src
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
code OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
src_lo) (Reg -> Operand
OpReg Reg
dst_r)
genIntToInt64 :: LocalReg -> CmmExpr -> NatM InstrBlock
genIntToInt64 :: LocalReg -> CmmExpr -> NatM (OrdList Instr)
genIntToInt64 LocalReg
dst CmmExpr
src = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genIntToInt64")
let Reg64 Reg
dst_hi Reg
dst_lo = HasDebugCallStack => LocalReg -> Reg64
LocalReg -> Reg64
localReg64 LocalReg
dst
Reg -> OrdList Instr
src_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
src_code Reg
rax OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Instr
CLTD Format
II32
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
rax) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
rdx) (Reg -> Operand
OpReg Reg
dst_hi)
]
genWordToWord64 :: LocalReg -> CmmExpr -> NatM InstrBlock
genWordToWord64 :: LocalReg -> CmmExpr -> NatM (OrdList Instr)
genWordToWord64 LocalReg
dst CmmExpr
src = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genWordToWord64")
let Reg64 Reg
dst_hi Reg
dst_lo = HasDebugCallStack => LocalReg -> Reg64
LocalReg -> Reg64
localReg64 LocalReg
dst
Reg -> OrdList Instr
src_code <- CmmExpr -> NatM (Reg -> OrdList Instr)
getAnyReg CmmExpr
src
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ Reg -> OrdList Instr
src_code Reg
dst_lo
OrdList Instr -> Instr -> OrdList Instr
forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> Operand -> Operand -> Instr
XOR Format
II32 (Reg -> Operand
OpReg Reg
dst_hi) (Reg -> Operand
OpReg Reg
dst_hi)
genNeg64 :: LocalReg -> CmmExpr -> NatM InstrBlock
genNeg64 :: LocalReg -> CmmExpr -> NatM (OrdList Instr)
genNeg64 LocalReg
dst CmmExpr
src = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genNeg64")
let Reg64 Reg
dst_hi Reg
dst_lo = HasDebugCallStack => LocalReg -> Reg64
LocalReg -> Reg64
localReg64 LocalReg
dst
RegCode64 OrdList Instr
code Reg
src_hi Reg
src_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
src
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
src_lo) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
src_hi) (Reg -> Operand
OpReg Reg
dst_hi)
, Format -> Operand -> Instr
NEGI Format
II32 (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
ADC Format
II32 (Imm -> Operand
OpImm (Int -> Imm
ImmInt Int
0)) (Reg -> Operand
OpReg Reg
dst_hi)
, Format -> Operand -> Instr
NEGI Format
II32 (Reg -> Operand
OpReg Reg
dst_hi)
]
genAdd64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genAdd64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genAdd64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genAdd64")
let Reg64 Reg
dst_hi Reg
dst_lo = HasDebugCallStack => LocalReg -> Reg64
LocalReg -> Reg64
localReg64 LocalReg
dst
RegCode64 OrdList Instr
x_code Reg
x_hi Reg
x_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
x
RegCode64 OrdList Instr
y_code Reg
y_hi Reg
y_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
y
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
x_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_lo) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_hi) (Reg -> Operand
OpReg Reg
dst_hi)
, Format -> Operand -> Operand -> Instr
ADD Format
II32 (Reg -> Operand
OpReg Reg
y_lo) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
ADC Format
II32 (Reg -> Operand
OpReg Reg
y_hi) (Reg -> Operand
OpReg Reg
dst_hi)
]
genSub64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genSub64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genSub64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genSub64")
let Reg64 Reg
dst_hi Reg
dst_lo = HasDebugCallStack => LocalReg -> Reg64
LocalReg -> Reg64
localReg64 LocalReg
dst
RegCode64 OrdList Instr
x_code Reg
x_hi Reg
x_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
x
RegCode64 OrdList Instr
y_code Reg
y_hi Reg
y_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
y
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
x_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_lo) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_hi) (Reg -> Operand
OpReg Reg
dst_hi)
, Format -> Operand -> Operand -> Instr
SUB Format
II32 (Reg -> Operand
OpReg Reg
y_lo) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
SBB Format
II32 (Reg -> Operand
OpReg Reg
y_hi) (Reg -> Operand
OpReg Reg
dst_hi)
]
genAnd64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genAnd64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genAnd64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genAnd64")
let Reg64 Reg
dst_hi Reg
dst_lo = HasDebugCallStack => LocalReg -> Reg64
LocalReg -> Reg64
localReg64 LocalReg
dst
RegCode64 OrdList Instr
x_code Reg
x_hi Reg
x_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
x
RegCode64 OrdList Instr
y_code Reg
y_hi Reg
y_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
y
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
x_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_lo) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_hi) (Reg -> Operand
OpReg Reg
dst_hi)
, Format -> Operand -> Operand -> Instr
AND Format
II32 (Reg -> Operand
OpReg Reg
y_lo) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
AND Format
II32 (Reg -> Operand
OpReg Reg
y_hi) (Reg -> Operand
OpReg Reg
dst_hi)
]
genOr64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genOr64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genOr64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genOr64")
let Reg64 Reg
dst_hi Reg
dst_lo = HasDebugCallStack => LocalReg -> Reg64
LocalReg -> Reg64
localReg64 LocalReg
dst
RegCode64 OrdList Instr
x_code Reg
x_hi Reg
x_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
x
RegCode64 OrdList Instr
y_code Reg
y_hi Reg
y_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
y
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
x_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_lo) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_hi) (Reg -> Operand
OpReg Reg
dst_hi)
, Format -> Operand -> Operand -> Instr
OR Format
II32 (Reg -> Operand
OpReg Reg
y_lo) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
OR Format
II32 (Reg -> Operand
OpReg Reg
y_hi) (Reg -> Operand
OpReg Reg
dst_hi)
]
genXor64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genXor64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genXor64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genXor64")
let Reg64 Reg
dst_hi Reg
dst_lo = HasDebugCallStack => LocalReg -> Reg64
LocalReg -> Reg64
localReg64 LocalReg
dst
RegCode64 OrdList Instr
x_code Reg
x_hi Reg
x_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
x
RegCode64 OrdList Instr
y_code Reg
y_hi Reg
y_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
y
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
x_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_lo) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_hi) (Reg -> Operand
OpReg Reg
dst_hi)
, Format -> Operand -> Operand -> Instr
XOR Format
II32 (Reg -> Operand
OpReg Reg
y_lo) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
XOR Format
II32 (Reg -> Operand
OpReg Reg
y_hi) (Reg -> Operand
OpReg Reg
dst_hi)
]
genNot64 :: LocalReg -> CmmExpr -> NatM InstrBlock
genNot64 :: LocalReg -> CmmExpr -> NatM (OrdList Instr)
genNot64 LocalReg
dst CmmExpr
src = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genNot64")
let Reg64 Reg
dst_hi Reg
dst_lo = HasDebugCallStack => LocalReg -> Reg64
LocalReg -> Reg64
localReg64 LocalReg
dst
RegCode64 OrdList Instr
src_code Reg
src_hi Reg
src_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
src
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
src_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
src_lo) (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
src_hi) (Reg -> Operand
OpReg Reg
dst_hi)
, Format -> Operand -> Instr
NOT Format
II32 (Reg -> Operand
OpReg Reg
dst_lo)
, Format -> Operand -> Instr
NOT Format
II32 (Reg -> Operand
OpReg Reg
dst_hi)
]
genEq64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genEq64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genEq64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genEq64")
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
RegCode64 OrdList Instr
x_code Reg
x_hi Reg
x_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
x
RegCode64 OrdList Instr
y_code Reg
y_hi Reg
y_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
y
Reg64 Reg
tmp_hi Reg
tmp_lo <- NatM Reg64
getNewReg64
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
x_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_lo) (Reg -> Operand
OpReg Reg
tmp_lo)
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_hi) (Reg -> Operand
OpReg Reg
tmp_hi)
, Format -> Operand -> Operand -> Instr
XOR Format
II32 (Reg -> Operand
OpReg Reg
y_lo) (Reg -> Operand
OpReg Reg
tmp_lo)
, Format -> Operand -> Operand -> Instr
XOR Format
II32 (Reg -> Operand
OpReg Reg
y_hi) (Reg -> Operand
OpReg Reg
tmp_hi)
, Format -> Operand -> Operand -> Instr
OR Format
II32 (Reg -> Operand
OpReg Reg
tmp_lo) (Reg -> Operand
OpReg Reg
tmp_hi)
, Cond -> Operand -> Instr
SETCC Cond
EQQ (Reg -> Operand
OpReg Reg
dst_r)
, Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
dst_r) (Reg -> Operand
OpReg Reg
dst_r)
]
genNe64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genNe64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genNe64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genNe64")
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
RegCode64 OrdList Instr
x_code Reg
x_hi Reg
x_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
x
RegCode64 OrdList Instr
y_code Reg
y_hi Reg
y_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
y
Reg64 Reg
tmp_hi Reg
tmp_lo <- NatM Reg64
getNewReg64
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
x_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_lo) (Reg -> Operand
OpReg Reg
tmp_lo)
, Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_hi) (Reg -> Operand
OpReg Reg
tmp_hi)
, Format -> Operand -> Operand -> Instr
XOR Format
II32 (Reg -> Operand
OpReg Reg
y_lo) (Reg -> Operand
OpReg Reg
tmp_lo)
, Format -> Operand -> Operand -> Instr
XOR Format
II32 (Reg -> Operand
OpReg Reg
y_hi) (Reg -> Operand
OpReg Reg
tmp_hi)
, Format -> Operand -> Operand -> Instr
OR Format
II32 (Reg -> Operand
OpReg Reg
tmp_lo) (Reg -> Operand
OpReg Reg
tmp_hi)
, Cond -> Operand -> Instr
SETCC Cond
NE (Reg -> Operand
OpReg Reg
dst_r)
, Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
dst_r) (Reg -> Operand
OpReg Reg
dst_r)
]
genGtWord64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genGtWord64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genGtWord64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genGtWord64")
Cond -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPred64 Cond
LU LocalReg
dst CmmExpr
y CmmExpr
x
genLtWord64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genLtWord64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genLtWord64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genLtWord64")
Cond -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPred64 Cond
LU LocalReg
dst CmmExpr
x CmmExpr
y
genGeWord64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genGeWord64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genGeWord64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genGeWord64")
Cond -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPred64 Cond
GEU LocalReg
dst CmmExpr
x CmmExpr
y
genLeWord64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genLeWord64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genLeWord64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genLeWord64")
Cond -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPred64 Cond
GEU LocalReg
dst CmmExpr
y CmmExpr
x
genGtInt64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genGtInt64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genGtInt64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genGtInt64")
Cond -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPred64 Cond
LTT LocalReg
dst CmmExpr
y CmmExpr
x
genLtInt64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genLtInt64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genLtInt64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genLtInt64")
Cond -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPred64 Cond
LTT LocalReg
dst CmmExpr
x CmmExpr
y
genGeInt64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genGeInt64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genGeInt64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genGeInt64")
Cond -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPred64 Cond
GE LocalReg
dst CmmExpr
x CmmExpr
y
genLeInt64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genLeInt64 :: LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genLeInt64 LocalReg
dst CmmExpr
x CmmExpr
y = do
SDoc -> NatM ()
expect32BitPlatform (String -> SDoc
forall doc. IsLine doc => String -> doc
text String
"genLeInt64")
Cond -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPred64 Cond
GE LocalReg
dst CmmExpr
y CmmExpr
x
genPred64 :: Cond -> LocalReg -> CmmExpr -> CmmExpr -> NatM InstrBlock
genPred64 :: Cond -> LocalReg -> CmmExpr -> CmmExpr -> NatM (OrdList Instr)
genPred64 Cond
cond LocalReg
dst CmmExpr
x CmmExpr
y = do
Bool -> NatM ()
forall (m :: * -> *). (HasCallStack, Applicative m) => Bool -> m ()
massert (Cond
cond Cond -> [Cond] -> Bool
forall a. Eq a => a -> [a] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`elem` [Cond
LU,Cond
GEU,Cond
LTT,Cond
GE])
let dst_r :: Reg
dst_r = LocalReg -> Reg
getLocalRegReg LocalReg
dst
RegCode64 OrdList Instr
x_code Reg
x_hi Reg
x_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
x
RegCode64 OrdList Instr
y_code Reg
y_hi Reg
y_lo <- HasDebugCallStack => CmmExpr -> NatM (RegCode64 (OrdList Instr))
CmmExpr -> NatM (RegCode64 (OrdList Instr))
iselExpr64 CmmExpr
y
OrdList Instr -> NatM (OrdList Instr)
forall a. a -> NatM a
forall (f :: * -> *) a. Applicative f => a -> f a
pure (OrdList Instr -> NatM (OrdList Instr))
-> OrdList Instr -> NatM (OrdList Instr)
forall a b. (a -> b) -> a -> b
$ OrdList Instr
x_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` OrdList Instr
y_code OrdList Instr -> OrdList Instr -> OrdList Instr
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` [Instr] -> OrdList Instr
forall a. [a] -> OrdList a
toOL
[ Format -> Operand -> Operand -> Instr
MOV Format
II32 (Reg -> Operand
OpReg Reg
x_hi) (Reg -> Operand
OpReg Reg
dst_r)
, Format -> Operand -> Operand -> Instr
CMP Format
II32 (Reg -> Operand
OpReg Reg
y_lo) (Reg -> Operand
OpReg Reg
x_lo)
, Format -> Operand -> Operand -> Instr
SBB Format
II32 (Reg -> Operand
OpReg Reg
y_hi) (Reg -> Operand
OpReg Reg
dst_r)
, Cond -> Operand -> Instr
SETCC Cond
cond (Reg -> Operand
OpReg Reg
dst_r)
, Format -> Operand -> Operand -> Instr
MOVZxL Format
II8 (Reg -> Operand
OpReg Reg
dst_r) (Reg -> Operand
OpReg Reg
dst_r)
]