module GHC.CmmToAsm.SPARC.CodeGen.Gen32 (
getSomeReg,
getRegister
)
where
import GHC.Prelude
import GHC.CmmToAsm.SPARC.CodeGen.CondCode
import GHC.CmmToAsm.SPARC.CodeGen.Amode
import GHC.CmmToAsm.SPARC.CodeGen.Gen64
import GHC.CmmToAsm.SPARC.CodeGen.Base
import GHC.CmmToAsm.SPARC.Stack
import GHC.CmmToAsm.SPARC.Instr
import GHC.CmmToAsm.SPARC.Cond
import GHC.CmmToAsm.SPARC.AddrMode
import GHC.CmmToAsm.SPARC.Imm
import GHC.CmmToAsm.SPARC.Regs
import GHC.CmmToAsm.SPARC.Base
import GHC.CmmToAsm.Monad
import GHC.CmmToAsm.Format
import GHC.Platform.Reg
import GHC.Cmm
import Control.Monad (liftM)
import GHC.Data.OrdList
import GHC.Utils.Panic
getSomeReg :: CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg :: CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
expr = do
Register
r <- CmmExpr -> NatM Register
getRegister CmmExpr
expr
case Register
r of
Any Format
rep Reg -> InstrBlock
code -> do
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
rep
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg
tmp, Reg -> InstrBlock
code Reg
tmp)
Fixed Format
_ Reg
reg InstrBlock
code ->
forall (m :: * -> *) a. Monad m => a -> m a
return (Reg
reg, InstrBlock
code)
getRegister :: CmmExpr -> NatM Register
getRegister :: CmmExpr -> NatM Register
getRegister (CmmReg CmmReg
reg)
= do Platform
platform <- NatM Platform
getPlatform
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> Reg -> InstrBlock -> Register
Fixed (CmmType -> Format
cmmTypeFormat (Platform -> CmmReg -> CmmType
cmmRegType Platform
platform CmmReg
reg))
(Platform -> CmmReg -> Reg
getRegisterReg Platform
platform CmmReg
reg) forall a. OrdList a
nilOL)
getRegister tree :: CmmExpr
tree@(CmmRegOff CmmReg
_ Int
_)
= do Platform
platform <- NatM Platform
getPlatform
CmmExpr -> NatM Register
getRegister (Platform -> CmmExpr -> CmmExpr
mangleIndexTree Platform
platform CmmExpr
tree)
getRegister (CmmMachOp (MO_UU_Conv Width
W64 Width
W32)
[CmmMachOp (MO_U_Shr Width
W64) [CmmExpr
x,CmmLit (CmmInt Integer
32 Width
_)]]) = do
ChildCode64 InstrBlock
code Reg
rlo <- CmmExpr -> NatM ChildCode64
iselExpr64 CmmExpr
x
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ Format -> Reg -> InstrBlock -> Register
Fixed Format
II32 (Reg -> Reg
getHiVRegFromLo Reg
rlo) InstrBlock
code
getRegister (CmmMachOp (MO_SS_Conv Width
W64 Width
W32)
[CmmMachOp (MO_U_Shr Width
W64) [CmmExpr
x,CmmLit (CmmInt Integer
32 Width
_)]]) = do
ChildCode64 InstrBlock
code Reg
rlo <- CmmExpr -> NatM ChildCode64
iselExpr64 CmmExpr
x
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ Format -> Reg -> InstrBlock -> Register
Fixed Format
II32 (Reg -> Reg
getHiVRegFromLo Reg
rlo) InstrBlock
code
getRegister (CmmMachOp (MO_UU_Conv Width
W64 Width
W32) [CmmExpr
x]) = do
ChildCode64 InstrBlock
code Reg
rlo <- CmmExpr -> NatM ChildCode64
iselExpr64 CmmExpr
x
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ Format -> Reg -> InstrBlock -> Register
Fixed Format
II32 Reg
rlo InstrBlock
code
getRegister (CmmMachOp (MO_SS_Conv Width
W64 Width
W32) [CmmExpr
x]) = do
ChildCode64 InstrBlock
code Reg
rlo <- CmmExpr -> NatM ChildCode64
iselExpr64 CmmExpr
x
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ Format -> Reg -> InstrBlock -> Register
Fixed Format
II32 Reg
rlo InstrBlock
code
getRegister (CmmLit (CmmFloat Rational
f Width
W32)) = do
CLabel
lbl <- NatM CLabel
getNewLabelNat
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
II32
let code :: Reg -> InstrBlock
code Reg
dst = forall a. [a] -> OrdList a
toOL [
Section -> RawCmmStatics -> Instr
LDATA (SectionType -> CLabel -> Section
Section SectionType
ReadOnlyData CLabel
lbl) forall a b. (a -> b) -> a -> b
$ forall (a :: Bool). CLabel -> [CmmStatic] -> GenCmmStatics a
CmmStaticsRaw CLabel
lbl
[CmmLit -> CmmStatic
CmmStaticLit (Rational -> Width -> CmmLit
CmmFloat Rational
f Width
W32)],
Imm -> Reg -> Instr
SETHI (Imm -> Imm
HI (CLabel -> Imm
ImmCLbl CLabel
lbl)) Reg
tmp,
Format -> AddrMode -> Reg -> Instr
LD Format
II32 (Reg -> Imm -> AddrMode
AddrRegImm Reg
tmp (Imm -> Imm
LO (CLabel -> Imm
ImmCLbl CLabel
lbl))) Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
FF32 Reg -> InstrBlock
code)
getRegister (CmmLit (CmmFloat Rational
d Width
W64)) = do
CLabel
lbl <- NatM CLabel
getNewLabelNat
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
II32
let code :: Reg -> InstrBlock
code Reg
dst = forall a. [a] -> OrdList a
toOL [
Section -> RawCmmStatics -> Instr
LDATA (SectionType -> CLabel -> Section
Section SectionType
ReadOnlyData CLabel
lbl) forall a b. (a -> b) -> a -> b
$ forall (a :: Bool). CLabel -> [CmmStatic] -> GenCmmStatics a
CmmStaticsRaw CLabel
lbl
[CmmLit -> CmmStatic
CmmStaticLit (Rational -> Width -> CmmLit
CmmFloat Rational
d Width
W64)],
Imm -> Reg -> Instr
SETHI (Imm -> Imm
HI (CLabel -> Imm
ImmCLbl CLabel
lbl)) Reg
tmp,
Format -> AddrMode -> Reg -> Instr
LD Format
II64 (Reg -> Imm -> AddrMode
AddrRegImm Reg
tmp (Imm -> Imm
LO (CLabel -> Imm
ImmCLbl CLabel
lbl))) Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
FF64 Reg -> InstrBlock
code)
getRegister (CmmMachOp MachOp
mop [CmmExpr
x])
= case MachOp
mop of
MO_F_Neg Width
W32 -> Format -> (Reg -> Reg -> Instr) -> CmmExpr -> NatM Register
trivialUFCode Format
FF32 (Format -> Reg -> Reg -> Instr
FNEG Format
FF32) CmmExpr
x
MO_F_Neg Width
W64 -> Format -> (Reg -> Reg -> Instr) -> CmmExpr -> NatM Register
trivialUFCode Format
FF64 (Format -> Reg -> Reg -> Instr
FNEG Format
FF64) CmmExpr
x
MO_S_Neg Width
rep -> Format -> (RI -> Reg -> Instr) -> CmmExpr -> NatM Register
trivialUCode (Width -> Format
intFormat Width
rep) (Bool -> Bool -> Reg -> RI -> Reg -> Instr
SUB Bool
False Bool
False Reg
g0) CmmExpr
x
MO_Not Width
rep -> Format -> (RI -> Reg -> Instr) -> CmmExpr -> NatM Register
trivialUCode (Width -> Format
intFormat Width
rep) (Bool -> Reg -> RI -> Reg -> Instr
XNOR Bool
False Reg
g0) CmmExpr
x
MO_FF_Conv Width
W64 Width
W32 -> CmmExpr -> NatM Register
coerceDbl2Flt CmmExpr
x
MO_FF_Conv Width
W32 Width
W64 -> CmmExpr -> NatM Register
coerceFlt2Dbl 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_UU_Conv Width
from Width
to
| Width
from forall a. Eq a => a -> a -> Bool
== Width
to -> Format -> CmmExpr -> NatM Register
conversionNop (Width -> Format
intFormat Width
to) CmmExpr
x
MO_UU_Conv Width
W16 Width
W8 -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
W8 (Bool -> Reg -> RI -> Reg -> Instr
AND Bool
False) CmmExpr
x (CmmLit -> CmmExpr
CmmLit (Integer -> Width -> CmmLit
CmmInt Integer
255 Width
W8))
MO_UU_Conv Width
W32 Width
W8 -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
W8 (Bool -> Reg -> RI -> Reg -> Instr
AND Bool
False) CmmExpr
x (CmmLit -> CmmExpr
CmmLit (Integer -> Width -> CmmLit
CmmInt Integer
255 Width
W8))
MO_UU_Conv Width
W32 Width
W16
-> do Reg
tmpReg <- Format -> NatM Reg
getNewRegNat Format
II32
(Reg
xReg, InstrBlock
xCode) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
let code :: Reg -> InstrBlock
code Reg
dst
= InstrBlock
xCode
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL
[ Reg -> RI -> Reg -> Instr
SLL Reg
xReg (Imm -> RI
RIImm forall a b. (a -> b) -> a -> b
$ Int -> Imm
ImmInt Int
16) Reg
tmpReg
, Reg -> RI -> Reg -> Instr
SRL Reg
tmpReg (Imm -> RI
RIImm forall a b. (a -> b) -> a -> b
$ Int -> Imm
ImmInt Int
16) Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return forall a b. (a -> b) -> a -> b
$ Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code
MO_UU_Conv Width
W8 Width
W16 -> Format -> CmmExpr -> NatM Register
conversionNop (Width -> Format
intFormat Width
W16) CmmExpr
x
MO_UU_Conv Width
W8 Width
W32 -> Format -> CmmExpr -> NatM Register
conversionNop (Width -> Format
intFormat Width
W32) CmmExpr
x
MO_UU_Conv Width
W16 Width
W32 -> Format -> CmmExpr -> NatM Register
conversionNop (Width -> Format
intFormat Width
W32) CmmExpr
x
MO_SS_Conv Width
W16 Width
W8 -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
W8 (Bool -> Reg -> RI -> Reg -> Instr
AND Bool
False) CmmExpr
x (CmmLit -> CmmExpr
CmmLit (Integer -> Width -> CmmLit
CmmInt Integer
255 Width
W8))
MO_SS_Conv Width
W32 Width
W8 -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
W8 (Bool -> Reg -> RI -> Reg -> Instr
AND Bool
False) CmmExpr
x (CmmLit -> CmmExpr
CmmLit (Integer -> Width -> CmmLit
CmmInt Integer
255 Width
W8))
MO_SS_Conv Width
W32 Width
W16 -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
W16 (Bool -> Reg -> RI -> Reg -> Instr
AND Bool
False) CmmExpr
x (CmmLit -> CmmExpr
CmmLit (Integer -> Width -> CmmLit
CmmInt Integer
65535 Width
W16))
MO_SS_Conv Width
W8 Width
W16 -> Width -> Width -> CmmExpr -> NatM Register
integerExtend Width
W8 Width
W16 CmmExpr
x
MO_SS_Conv Width
W8 Width
W32 -> Width -> Width -> CmmExpr -> NatM Register
integerExtend Width
W8 Width
W32 CmmExpr
x
MO_SS_Conv Width
W16 Width
W32 -> Width -> Width -> CmmExpr -> NatM Register
integerExtend Width
W16 Width
W32 CmmExpr
x
MachOp
_ -> forall a. String -> a
panic (String
"Unknown unary mach op: " forall a. [a] -> [a] -> [a]
++ forall a. Show a => a -> String
show MachOp
mop)
getRegister (CmmMachOp MachOp
mop [CmmExpr
x, CmmExpr
y])
= case MachOp
mop of
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
W32 -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
GU CmmExpr
x CmmExpr
y
MO_U_Ge Width
W32 -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
GEU CmmExpr
x CmmExpr
y
MO_U_Lt Width
W32 -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
LU CmmExpr
x CmmExpr
y
MO_U_Le Width
W32 -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
LEU CmmExpr
x CmmExpr
y
MO_U_Gt Width
W16 -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
GU CmmExpr
x CmmExpr
y
MO_U_Ge Width
W16 -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
GEU CmmExpr
x CmmExpr
y
MO_U_Lt Width
W16 -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
LU CmmExpr
x CmmExpr
y
MO_U_Le Width
W16 -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
LEU CmmExpr
x CmmExpr
y
MO_Add Width
W32 -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
W32 (Bool -> Bool -> Reg -> RI -> Reg -> Instr
ADD Bool
False Bool
False) CmmExpr
x CmmExpr
y
MO_Sub Width
W32 -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
W32 (Bool -> Bool -> Reg -> RI -> Reg -> Instr
SUB 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_S_Quot Width
W32 -> Bool -> Bool -> CmmExpr -> CmmExpr -> NatM Register
idiv Bool
True Bool
False CmmExpr
x CmmExpr
y
MO_U_Quot Width
W32 -> Bool -> Bool -> CmmExpr -> CmmExpr -> NatM Register
idiv Bool
False Bool
False CmmExpr
x CmmExpr
y
MO_S_Rem Width
W32 -> Bool -> CmmExpr -> CmmExpr -> NatM Register
irem Bool
True CmmExpr
x CmmExpr
y
MO_U_Rem Width
W32 -> Bool -> CmmExpr -> CmmExpr -> NatM Register
irem Bool
False CmmExpr
x CmmExpr
y
MO_F_Eq Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Cond
EQQ CmmExpr
x CmmExpr
y
MO_F_Ne Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Cond
NE CmmExpr
x CmmExpr
y
MO_F_Gt Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Cond
GTT CmmExpr
x CmmExpr
y
MO_F_Ge Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Cond
GE CmmExpr
x CmmExpr
y
MO_F_Lt Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Cond
LTT CmmExpr
x CmmExpr
y
MO_F_Le Width
_ -> Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Cond
LE CmmExpr
x CmmExpr
y
MO_F_Add Width
w -> Width
-> (Format -> Reg -> Reg -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialFCode Width
w Format -> Reg -> Reg -> Reg -> Instr
FADD CmmExpr
x CmmExpr
y
MO_F_Sub Width
w -> Width
-> (Format -> Reg -> Reg -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialFCode Width
w Format -> Reg -> Reg -> Reg -> Instr
FSUB CmmExpr
x CmmExpr
y
MO_F_Mul Width
w -> Width
-> (Format -> Reg -> Reg -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialFCode Width
w Format -> Reg -> Reg -> Reg -> Instr
FMUL CmmExpr
x CmmExpr
y
MO_F_Quot Width
w -> Width
-> (Format -> Reg -> Reg -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialFCode Width
w Format -> Reg -> Reg -> Reg -> Instr
FDIV CmmExpr
x CmmExpr
y
MO_And Width
rep -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
rep (Bool -> Reg -> RI -> Reg -> Instr
AND Bool
False) CmmExpr
x CmmExpr
y
MO_Or Width
rep -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
rep (Bool -> Reg -> RI -> Reg -> Instr
OR Bool
False) CmmExpr
x CmmExpr
y
MO_Xor Width
rep -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
rep (Bool -> Reg -> RI -> Reg -> Instr
XOR Bool
False) CmmExpr
x CmmExpr
y
MO_Mul Width
rep -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
rep (Bool -> Reg -> RI -> Reg -> Instr
SMUL Bool
False) CmmExpr
x CmmExpr
y
MO_Shl Width
rep -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
rep Reg -> RI -> Reg -> Instr
SLL CmmExpr
x CmmExpr
y
MO_U_Shr Width
rep -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
rep Reg -> RI -> Reg -> Instr
SRL CmmExpr
x CmmExpr
y
MO_S_Shr Width
rep -> Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
rep Reg -> RI -> Reg -> Instr
SRA CmmExpr
x CmmExpr
y
MachOp
_ -> forall a. HasCallStack => String -> SDoc -> a
pprPanic String
"getRegister(sparc) - binary CmmMachOp (1)" (MachOp -> SDoc
pprMachOp MachOp
mop)
getRegister (CmmLoad CmmExpr
mem CmmType
pk AlignmentSpec
_) = do
Amode AddrMode
src InstrBlock
code <- CmmExpr -> NatM Amode
getAmode CmmExpr
mem
let
code__2 :: Reg -> InstrBlock
code__2 Reg
dst = InstrBlock
code forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> AddrMode -> Reg -> Instr
LD (CmmType -> Format
cmmTypeFormat CmmType
pk) AddrMode
src Reg
dst
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any (CmmType -> Format
cmmTypeFormat CmmType
pk) Reg -> InstrBlock
code__2)
getRegister (CmmLit (CmmInt Integer
i Width
_))
| forall a. Integral a => a -> Bool
fits13Bits Integer
i
= let
src :: Imm
src = Int -> Imm
ImmInt (forall a. Num a => Integer -> a
fromInteger Integer
i)
code :: Reg -> InstrBlock
code Reg
dst = forall a. a -> OrdList a
unitOL (Bool -> Reg -> RI -> Reg -> Instr
OR Bool
False Reg
g0 (Imm -> RI
RIImm Imm
src) Reg
dst)
in
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code)
getRegister (CmmLit CmmLit
lit)
= let imm :: Imm
imm = CmmLit -> Imm
litToImm CmmLit
lit
code :: Reg -> InstrBlock
code Reg
dst = forall a. [a] -> OrdList a
toOL [
Imm -> Reg -> Instr
SETHI (Imm -> Imm
HI Imm
imm) Reg
dst,
Bool -> Reg -> RI -> Reg -> Instr
OR Bool
False Reg
dst (Imm -> RI
RIImm (Imm -> Imm
LO Imm
imm)) Reg
dst]
in forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code)
getRegister CmmExpr
_
= forall a. String -> a
panic String
"SPARC.CodeGen.Gen32.getRegister: no match"
integerExtend
:: Width
-> Width
-> CmmExpr
-> NatM Register
integerExtend :: Width -> Width -> CmmExpr -> NatM Register
integerExtend Width
from Width
to CmmExpr
expr
= do
(Reg
reg, InstrBlock
e_code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
expr
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
II32
let bitCount :: Int
bitCount
= case (Width
from, Width
to) of
(Width
W8, Width
W32) -> Int
24
(Width
W16, Width
W32) -> Int
16
(Width
W8, Width
W16) -> Int
24
(Width, Width)
_ -> forall a. String -> a
panic String
"SPARC.CodeGen.Gen32: no match"
let code :: Reg -> InstrBlock
code Reg
dst
= InstrBlock
e_code
forall a. OrdList a -> a -> OrdList a
`snocOL` Reg -> RI -> Reg -> Instr
SLL Reg
reg (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
bitCount)) Reg
tmp
forall a. OrdList a -> a -> OrdList a
`snocOL` Reg -> RI -> Reg -> Instr
SRA Reg
tmp (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
bitCount)) Reg
dst
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any (Width -> Format
intFormat Width
to) Reg -> InstrBlock
code)
conversionNop
:: Format -> CmmExpr -> NatM Register
conversionNop :: Format -> CmmExpr -> NatM Register
conversionNop Format
new_rep CmmExpr
expr
= do Register
e_code <- CmmExpr -> NatM Register
getRegister CmmExpr
expr
forall (m :: * -> *) a. Monad m => a -> m a
return (Register -> Format -> Register
setFormatOfRegister Register
e_code Format
new_rep)
idiv :: Bool -> Bool -> CmmExpr -> CmmExpr -> NatM Register
idiv :: Bool -> Bool -> CmmExpr -> CmmExpr -> NatM Register
idiv Bool
False Bool
cc CmmExpr
x CmmExpr
y
= do
(Reg
a_reg, InstrBlock
a_code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
(Reg
b_reg, InstrBlock
b_code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
y
let code :: Reg -> InstrBlock
code Reg
dst
= InstrBlock
a_code
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` InstrBlock
b_code
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL
[ Reg -> Reg -> Instr
WRY Reg
g0 Reg
g0
, Bool -> Reg -> RI -> Reg -> Instr
UDIV Bool
cc Reg
a_reg (Reg -> RI
RIReg Reg
b_reg) Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code)
idiv Bool
True Bool
cc CmmExpr
x CmmExpr
y
= do
(Reg
a_reg, InstrBlock
a_code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
(Reg
b_reg, InstrBlock
b_code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
y
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
II32
let code :: Reg -> InstrBlock
code Reg
dst
= InstrBlock
a_code
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` InstrBlock
b_code
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL
[ Reg -> RI -> Reg -> Instr
SRA Reg
a_reg (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
16)) Reg
tmp
, Reg -> RI -> Reg -> Instr
SRA Reg
tmp (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
16)) Reg
tmp
, Reg -> Reg -> Instr
WRY Reg
tmp Reg
g0
, Bool -> Reg -> RI -> Reg -> Instr
SDIV Bool
cc Reg
a_reg (Reg -> RI
RIReg Reg
b_reg) Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code)
irem :: Bool -> CmmExpr -> CmmExpr -> NatM Register
irem :: Bool -> CmmExpr -> CmmExpr -> NatM Register
irem Bool
False CmmExpr
x CmmExpr
y
= do
(Reg
a_reg, InstrBlock
a_code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
(Reg
b_reg, InstrBlock
b_code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
y
Reg
tmp_reg <- Format -> NatM Reg
getNewRegNat Format
II32
let code :: Reg -> InstrBlock
code Reg
dst
= InstrBlock
a_code
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` InstrBlock
b_code
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL
[ Reg -> Reg -> Instr
WRY Reg
g0 Reg
g0
, Bool -> Reg -> RI -> Reg -> Instr
UDIV Bool
False Reg
a_reg (Reg -> RI
RIReg Reg
b_reg) Reg
tmp_reg
, Bool -> Reg -> RI -> Reg -> Instr
UMUL Bool
False Reg
tmp_reg (Reg -> RI
RIReg Reg
b_reg) Reg
tmp_reg
, Bool -> Bool -> Reg -> RI -> Reg -> Instr
SUB Bool
False Bool
False Reg
a_reg (Reg -> RI
RIReg Reg
tmp_reg) Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code)
irem Bool
True CmmExpr
x CmmExpr
y
= do
(Reg
a_reg, InstrBlock
a_code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
(Reg
b_reg, InstrBlock
b_code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
y
Reg
tmp1_reg <- Format -> NatM Reg
getNewRegNat Format
II32
Reg
tmp2_reg <- Format -> NatM Reg
getNewRegNat Format
II32
let code :: Reg -> InstrBlock
code Reg
dst
= InstrBlock
a_code
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` InstrBlock
b_code
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL
[ Reg -> RI -> Reg -> Instr
SRA Reg
a_reg (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
16)) Reg
tmp1_reg
, Reg -> RI -> Reg -> Instr
SRA Reg
tmp1_reg (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
16)) Reg
tmp1_reg
, Reg -> Reg -> Instr
WRY Reg
tmp1_reg Reg
g0
, Bool -> Reg -> RI -> Reg -> Instr
SDIV Bool
False Reg
a_reg (Reg -> RI
RIReg Reg
b_reg) Reg
tmp2_reg
, Bool -> Reg -> RI -> Reg -> Instr
SMUL Bool
False Reg
tmp2_reg (Reg -> RI
RIReg Reg
b_reg) Reg
tmp2_reg
, Bool -> Bool -> Reg -> RI -> Reg -> Instr
SUB Bool
False Bool
False Reg
a_reg (Reg -> RI
RIReg Reg
tmp2_reg) Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code)
imulMayOflo :: Width -> CmmExpr -> CmmExpr -> NatM Register
imulMayOflo :: Width -> CmmExpr -> CmmExpr -> NatM Register
imulMayOflo Width
rep CmmExpr
a CmmExpr
b
= do
(Reg
a_reg, InstrBlock
a_code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
a
(Reg
b_reg, InstrBlock
b_code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
b
Reg
res_lo <- Format -> NatM Reg
getNewRegNat Format
II32
Reg
res_hi <- Format -> NatM Reg
getNewRegNat Format
II32
let shift_amt :: Int
shift_amt = case Width
rep of
Width
W32 -> Int
31
Width
W64 -> Int
63
Width
_ -> forall a. String -> a
panic String
"shift_amt"
let code :: Reg -> InstrBlock
code Reg
dst = InstrBlock
a_code forall a. OrdList a -> OrdList a -> OrdList a
`appOL` InstrBlock
b_code forall a. OrdList a -> OrdList a -> OrdList a
`appOL`
forall a. [a] -> OrdList a
toOL [
Bool -> Reg -> RI -> Reg -> Instr
SMUL Bool
False Reg
a_reg (Reg -> RI
RIReg Reg
b_reg) Reg
res_lo,
Reg -> Instr
RDY Reg
res_hi,
Reg -> RI -> Reg -> Instr
SRA Reg
res_lo (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
shift_amt)) Reg
res_lo,
Bool -> Bool -> Reg -> RI -> Reg -> Instr
SUB Bool
False Bool
False Reg
res_lo (Reg -> RI
RIReg Reg
res_hi) Reg
dst
]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code)
trivialCode
:: Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode :: Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode Width
_ Reg -> RI -> Reg -> Instr
instr CmmExpr
x (CmmLit (CmmInt Integer
y Width
_))
| forall a. Integral a => a -> Bool
fits13Bits Integer
y
= do
(Reg
src1, InstrBlock
code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
let
src2 :: Imm
src2 = Int -> Imm
ImmInt (forall a. Num a => Integer -> a
fromInteger Integer
y)
code__2 :: Reg -> InstrBlock
code__2 Reg
dst = InstrBlock
code forall a. OrdList a -> a -> OrdList a
`snocOL` Reg -> RI -> Reg -> Instr
instr Reg
src1 (Imm -> RI
RIImm Imm
src2) Reg
dst
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code__2)
trivialCode Width
_ Reg -> RI -> Reg -> Instr
instr CmmExpr
x CmmExpr
y = do
(Reg
src1, InstrBlock
code1) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
(Reg
src2, InstrBlock
code2) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
y
let
code__2 :: Reg -> InstrBlock
code__2 Reg
dst = InstrBlock
code1 forall a. OrdList a -> OrdList a -> OrdList a
`appOL` InstrBlock
code2 forall a. OrdList a -> a -> OrdList a
`snocOL`
Reg -> RI -> Reg -> Instr
instr Reg
src1 (Reg -> RI
RIReg Reg
src2) Reg
dst
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code__2)
trivialFCode
:: Width
-> (Format -> Reg -> Reg -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialFCode :: Width
-> (Format -> Reg -> Reg -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialFCode Width
pk Format -> Reg -> Reg -> Reg -> Instr
instr CmmExpr
x CmmExpr
y = do
Platform
platform <- NatM Platform
getPlatform
(Reg
src1, InstrBlock
code1) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
(Reg
src2, InstrBlock
code2) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
y
Reg
tmp <- Format -> NatM Reg
getNewRegNat Format
FF64
let
promote :: Reg -> Instr
promote Reg
x = Format -> Format -> Reg -> Reg -> Instr
FxTOy Format
FF32 Format
FF64 Reg
x Reg
tmp
pk1 :: CmmType
pk1 = Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform CmmExpr
x
pk2 :: CmmType
pk2 = Platform -> CmmExpr -> CmmType
cmmExprType Platform
platform CmmExpr
y
code__2 :: Reg -> InstrBlock
code__2 Reg
dst =
if CmmType
pk1 CmmType -> CmmType -> Bool
`cmmEqType` CmmType
pk2 then
InstrBlock
code1 forall a. OrdList a -> OrdList a -> OrdList a
`appOL` InstrBlock
code2 forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Reg -> Reg -> Reg -> Instr
instr (Width -> Format
floatFormat Width
pk) Reg
src1 Reg
src2 Reg
dst
else if CmmType -> Width
typeWidth CmmType
pk1 forall a. Eq a => a -> a -> Bool
== Width
W32 then
InstrBlock
code1 forall a. OrdList a -> a -> OrdList a
`snocOL` Reg -> Instr
promote Reg
src1 forall a. OrdList a -> OrdList a -> OrdList a
`appOL` InstrBlock
code2 forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Reg -> Reg -> Reg -> Instr
instr Format
FF64 Reg
tmp Reg
src2 Reg
dst
else
InstrBlock
code1 forall a. OrdList a -> OrdList a -> OrdList a
`appOL` InstrBlock
code2 forall a. OrdList a -> a -> OrdList a
`snocOL` Reg -> Instr
promote Reg
src2 forall a. OrdList a -> a -> OrdList a
`snocOL`
Format -> Reg -> Reg -> Reg -> Instr
instr Format
FF64 Reg
src1 Reg
tmp Reg
dst
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any (CmmType -> Format
cmmTypeFormat forall a b. (a -> b) -> a -> b
$ if CmmType
pk1 CmmType -> CmmType -> Bool
`cmmEqType` CmmType
pk2 then CmmType
pk1 else Width -> CmmType
cmmFloat Width
W64)
Reg -> InstrBlock
code__2)
trivialUCode
:: Format
-> (RI -> Reg -> Instr)
-> CmmExpr
-> NatM Register
trivialUCode :: Format -> (RI -> Reg -> Instr) -> CmmExpr -> NatM Register
trivialUCode Format
format RI -> Reg -> Instr
instr CmmExpr
x = do
(Reg
src, InstrBlock
code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
let
code__2 :: Reg -> InstrBlock
code__2 Reg
dst = InstrBlock
code forall a. OrdList a -> a -> OrdList a
`snocOL` RI -> Reg -> Instr
instr (Reg -> RI
RIReg Reg
src) Reg
dst
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
format Reg -> InstrBlock
code__2)
trivialUFCode
:: Format
-> (Reg -> Reg -> Instr)
-> CmmExpr
-> NatM Register
trivialUFCode :: Format -> (Reg -> Reg -> Instr) -> CmmExpr -> NatM Register
trivialUFCode Format
pk Reg -> Reg -> Instr
instr CmmExpr
x = do
(Reg
src, InstrBlock
code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
let
code__2 :: Reg -> InstrBlock
code__2 Reg
dst = InstrBlock
code forall a. OrdList a -> a -> OrdList a
`snocOL` Reg -> Reg -> Instr
instr Reg
src Reg
dst
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
pk Reg -> InstrBlock
code__2)
coerceInt2FP :: Width -> Width -> CmmExpr -> NatM Register
coerceInt2FP :: Width -> Width -> CmmExpr -> NatM Register
coerceInt2FP Width
width1 Width
width2 CmmExpr
x = do
(Reg
src, InstrBlock
code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
let
code__2 :: Reg -> InstrBlock
code__2 Reg
dst = InstrBlock
code forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL [
Format -> Reg -> AddrMode -> Instr
ST (Width -> Format
intFormat Width
width1) Reg
src (Int -> AddrMode
spRel (-Int
2)),
Format -> AddrMode -> Reg -> Instr
LD (Width -> Format
intFormat Width
width1) (Int -> AddrMode
spRel (-Int
2)) Reg
dst,
Format -> Format -> Reg -> Reg -> Instr
FxTOy (Width -> Format
intFormat Width
width1) (Width -> Format
floatFormat Width
width2) Reg
dst Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any (Width -> Format
floatFormat forall a b. (a -> b) -> a -> b
$ Width
width2) Reg -> InstrBlock
code__2)
coerceFP2Int :: Width -> Width -> CmmExpr -> NatM Register
coerceFP2Int :: Width -> Width -> CmmExpr -> NatM Register
coerceFP2Int Width
width1 Width
width2 CmmExpr
x
= do let fformat1 :: Format
fformat1 = Width -> Format
floatFormat Width
width1
fformat2 :: Format
fformat2 = Width -> Format
floatFormat Width
width2
iformat2 :: Format
iformat2 = Width -> Format
intFormat Width
width2
(Reg
fsrc, InstrBlock
code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
Reg
fdst <- Format -> NatM Reg
getNewRegNat Format
fformat2
let code2 :: Reg -> InstrBlock
code2 Reg
dst
= InstrBlock
code
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL
[ Format -> Format -> Reg -> Reg -> Instr
FxTOy Format
fformat1 Format
iformat2 Reg
fsrc Reg
fdst
, Format -> Reg -> AddrMode -> Instr
ST Format
fformat2 Reg
fdst (Int -> AddrMode
spRel (-Int
2))
, Format -> AddrMode -> Reg -> Instr
LD Format
iformat2 (Int -> AddrMode
spRel (-Int
2)) Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
iformat2 Reg -> InstrBlock
code2)
coerceDbl2Flt :: CmmExpr -> NatM Register
coerceDbl2Flt :: CmmExpr -> NatM Register
coerceDbl2Flt CmmExpr
x = do
(Reg
src, InstrBlock
code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
FF32 (\Reg
dst -> InstrBlock
code forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> Format -> Reg -> Reg -> Instr
FxTOy Format
FF64 Format
FF32 Reg
src Reg
dst))
coerceFlt2Dbl :: CmmExpr -> NatM Register
coerceFlt2Dbl :: CmmExpr -> NatM Register
coerceFlt2Dbl CmmExpr
x = do
(Reg
src, InstrBlock
code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
FF64 (\Reg
dst -> InstrBlock
code forall a. OrdList a -> a -> OrdList a
`snocOL` Format -> Format -> Reg -> Reg -> Instr
FxTOy Format
FF32 Format
FF64 Reg
src Reg
dst))
condIntReg :: Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg :: Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg Cond
EQQ CmmExpr
x (CmmLit (CmmInt Integer
0 Width
_)) = do
(Reg
src, InstrBlock
code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
let
code__2 :: Reg -> InstrBlock
code__2 Reg
dst = InstrBlock
code forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL [
Bool -> Bool -> Reg -> RI -> Reg -> Instr
SUB Bool
False Bool
True Reg
g0 (Reg -> RI
RIReg Reg
src) Reg
g0,
Bool -> Bool -> Reg -> RI -> Reg -> Instr
SUB Bool
True Bool
False Reg
g0 (Imm -> RI
RIImm (Int -> Imm
ImmInt (-Int
1))) Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code__2)
condIntReg Cond
EQQ CmmExpr
x CmmExpr
y = do
(Reg
src1, InstrBlock
code1) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
(Reg
src2, InstrBlock
code2) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
y
let
code__2 :: Reg -> InstrBlock
code__2 Reg
dst = InstrBlock
code1 forall a. OrdList a -> OrdList a -> OrdList a
`appOL` InstrBlock
code2 forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL [
Bool -> Reg -> RI -> Reg -> Instr
XOR Bool
False Reg
src1 (Reg -> RI
RIReg Reg
src2) Reg
dst,
Bool -> Bool -> Reg -> RI -> Reg -> Instr
SUB Bool
False Bool
True Reg
g0 (Reg -> RI
RIReg Reg
dst) Reg
g0,
Bool -> Bool -> Reg -> RI -> Reg -> Instr
SUB Bool
True Bool
False Reg
g0 (Imm -> RI
RIImm (Int -> Imm
ImmInt (-Int
1))) Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code__2)
condIntReg Cond
NE CmmExpr
x (CmmLit (CmmInt Integer
0 Width
_)) = do
(Reg
src, InstrBlock
code) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
let
code__2 :: Reg -> InstrBlock
code__2 Reg
dst = InstrBlock
code forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL [
Bool -> Bool -> Reg -> RI -> Reg -> Instr
SUB Bool
False Bool
True Reg
g0 (Reg -> RI
RIReg Reg
src) Reg
g0,
Bool -> Bool -> Reg -> RI -> Reg -> Instr
ADD Bool
True Bool
False Reg
g0 (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
0)) Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code__2)
condIntReg Cond
NE CmmExpr
x CmmExpr
y = do
(Reg
src1, InstrBlock
code1) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
x
(Reg
src2, InstrBlock
code2) <- CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg CmmExpr
y
let
code__2 :: Reg -> InstrBlock
code__2 Reg
dst = InstrBlock
code1 forall a. OrdList a -> OrdList a -> OrdList a
`appOL` InstrBlock
code2 forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL [
Bool -> Reg -> RI -> Reg -> Instr
XOR Bool
False Reg
src1 (Reg -> RI
RIReg Reg
src2) Reg
dst,
Bool -> Bool -> Reg -> RI -> Reg -> Instr
SUB Bool
False Bool
True Reg
g0 (Reg -> RI
RIReg Reg
dst) Reg
g0,
Bool -> Bool -> Reg -> RI -> Reg -> Instr
ADD Bool
True Bool
False Reg
g0 (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
0)) Reg
dst]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code__2)
condIntReg Cond
cond CmmExpr
x CmmExpr
y = do
BlockId
bid1 <- forall (m :: * -> *) a1 r. Monad m => (a1 -> r) -> m a1 -> m r
liftM (\BlockId
a -> seq :: forall a b. a -> b -> b
seq BlockId
a BlockId
a) NatM BlockId
getBlockIdNat
BlockId
bid2 <- forall (m :: * -> *) a1 r. Monad m => (a1 -> r) -> m a1 -> m r
liftM (\BlockId
a -> seq :: forall a b. a -> b -> b
seq BlockId
a BlockId
a) NatM BlockId
getBlockIdNat
CondCode Bool
_ Cond
cond InstrBlock
cond_code <- Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condIntCode Cond
cond CmmExpr
x CmmExpr
y
let
code__2 :: Reg -> InstrBlock
code__2 Reg
dst
= InstrBlock
cond_code
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL
[ Cond -> Bool -> BlockId -> Instr
BI Cond
cond Bool
False BlockId
bid1
, Instr
NOP
, Bool -> Reg -> RI -> Reg -> Instr
OR Bool
False Reg
g0 (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
0)) Reg
dst
, Cond -> Bool -> BlockId -> Instr
BI Cond
ALWAYS Bool
False BlockId
bid2
, Instr
NOP
, BlockId -> Instr
NEWBLOCK BlockId
bid1
, Bool -> Reg -> RI -> Reg -> Instr
OR Bool
False Reg
g0 (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
1)) Reg
dst
, Cond -> Bool -> BlockId -> Instr
BI Cond
ALWAYS Bool
False BlockId
bid2
, Instr
NOP
, BlockId -> Instr
NEWBLOCK BlockId
bid2]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code__2)
condFltReg :: Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg :: Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg Cond
cond CmmExpr
x CmmExpr
y = do
BlockId
bid1 <- forall (m :: * -> *) a1 r. Monad m => (a1 -> r) -> m a1 -> m r
liftM (\BlockId
a -> seq :: forall a b. a -> b -> b
seq BlockId
a BlockId
a) NatM BlockId
getBlockIdNat
BlockId
bid2 <- forall (m :: * -> *) a1 r. Monad m => (a1 -> r) -> m a1 -> m r
liftM (\BlockId
a -> seq :: forall a b. a -> b -> b
seq BlockId
a BlockId
a) NatM BlockId
getBlockIdNat
CondCode Bool
_ Cond
cond InstrBlock
cond_code <- Cond -> CmmExpr -> CmmExpr -> NatM CondCode
condFltCode Cond
cond CmmExpr
x CmmExpr
y
let
code__2 :: Reg -> InstrBlock
code__2 Reg
dst
= InstrBlock
cond_code
forall a. OrdList a -> OrdList a -> OrdList a
`appOL` forall a. [a] -> OrdList a
toOL
[ Instr
NOP
, Cond -> Bool -> BlockId -> Instr
BF Cond
cond Bool
False BlockId
bid1
, Instr
NOP
, Bool -> Reg -> RI -> Reg -> Instr
OR Bool
False Reg
g0 (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
0)) Reg
dst
, Cond -> Bool -> BlockId -> Instr
BI Cond
ALWAYS Bool
False BlockId
bid2
, Instr
NOP
, BlockId -> Instr
NEWBLOCK BlockId
bid1
, Bool -> Reg -> RI -> Reg -> Instr
OR Bool
False Reg
g0 (Imm -> RI
RIImm (Int -> Imm
ImmInt Int
1)) Reg
dst
, Cond -> Bool -> BlockId -> Instr
BI Cond
ALWAYS Bool
False BlockId
bid2
, Instr
NOP
, BlockId -> Instr
NEWBLOCK BlockId
bid2 ]
forall (m :: * -> *) a. Monad m => a -> m a
return (Format -> (Reg -> InstrBlock) -> Register
Any Format
II32 Reg -> InstrBlock
code__2)