module SPARC.CodeGen.Gen32 (
getSomeReg,
getRegister
)
where
import SPARC.CodeGen.CondCode
import SPARC.CodeGen.Amode
import SPARC.CodeGen.Gen64
import SPARC.CodeGen.Base
import SPARC.Stack
import SPARC.Instr
import SPARC.Cond
import SPARC.AddrMode
import SPARC.Imm
import SPARC.Regs
import SPARC.Base
import NCGMonad
import Size
import Reg
import OldCmm
import Control.Monad (liftM)
import OrdList
import Outputable
getSomeReg :: CmmExpr -> NatM (Reg, InstrBlock)
getSomeReg expr = do
r <- getRegister expr
case r of
Any rep code -> do
tmp <- getNewRegNat rep
return (tmp, code tmp)
Fixed _ reg code ->
return (reg, code)
getRegister :: CmmExpr -> NatM Register
getRegister (CmmReg reg)
= return (Fixed (cmmTypeSize (cmmRegType reg))
(getRegisterReg reg) nilOL)
getRegister tree@(CmmRegOff _ _)
= getRegister (mangleIndexTree tree)
getRegister (CmmMachOp (MO_UU_Conv W64 W32)
[CmmMachOp (MO_U_Shr W64) [x,CmmLit (CmmInt 32 _)]]) = do
ChildCode64 code rlo <- iselExpr64 x
return $ Fixed II32 (getHiVRegFromLo rlo) code
getRegister (CmmMachOp (MO_SS_Conv W64 W32)
[CmmMachOp (MO_U_Shr W64) [x,CmmLit (CmmInt 32 _)]]) = do
ChildCode64 code rlo <- iselExpr64 x
return $ Fixed II32 (getHiVRegFromLo rlo) code
getRegister (CmmMachOp (MO_UU_Conv W64 W32) [x]) = do
ChildCode64 code rlo <- iselExpr64 x
return $ Fixed II32 rlo code
getRegister (CmmMachOp (MO_SS_Conv W64 W32) [x]) = do
ChildCode64 code rlo <- iselExpr64 x
return $ Fixed II32 rlo code
getRegister (CmmLit (CmmFloat f W32)) = do
lbl <- getNewLabelNat
tmp <- getNewRegNat II32
let code dst = toOL [
LDATA ReadOnlyData $ Statics lbl
[CmmStaticLit (CmmFloat f W32)],
SETHI (HI (ImmCLbl lbl)) tmp,
LD II32 (AddrRegImm tmp (LO (ImmCLbl lbl))) dst]
return (Any FF32 code)
getRegister (CmmLit (CmmFloat d W64)) = do
lbl <- getNewLabelNat
tmp <- getNewRegNat II32
let code dst = toOL [
LDATA ReadOnlyData $ Statics lbl
[CmmStaticLit (CmmFloat d W64)],
SETHI (HI (ImmCLbl lbl)) tmp,
LD II64 (AddrRegImm tmp (LO (ImmCLbl lbl))) dst]
return (Any FF64 code)
getRegister (CmmMachOp mop [x])
= case mop of
MO_F_Neg W32 -> trivialUFCode FF32 (FNEG FF32) x
MO_F_Neg W64 -> trivialUFCode FF64 (FNEG FF64) x
MO_S_Neg rep -> trivialUCode (intSize rep) (SUB False False g0) x
MO_Not rep -> trivialUCode (intSize rep) (XNOR False g0) x
MO_FF_Conv W64 W32 -> coerceDbl2Flt x
MO_FF_Conv W32 W64 -> coerceFlt2Dbl x
MO_FS_Conv from to -> coerceFP2Int from to x
MO_SF_Conv from to -> coerceInt2FP from to x
MO_UU_Conv from to
| from == to -> conversionNop (intSize to) x
MO_UU_Conv W16 W8 -> trivialCode W8 (AND False) x (CmmLit (CmmInt 255 W8))
MO_UU_Conv W32 W8 -> trivialCode W8 (AND False) x (CmmLit (CmmInt 255 W8))
MO_UU_Conv W32 W16
-> do tmpReg <- getNewRegNat II32
(xReg, xCode) <- getSomeReg x
let code dst
= xCode
`appOL` toOL
[ SLL xReg (RIImm $ ImmInt 16) tmpReg
, SRL tmpReg (RIImm $ ImmInt 16) dst]
return $ Any II32 code
MO_UU_Conv W8 W16 -> conversionNop (intSize W16) x
MO_UU_Conv W8 W32 -> conversionNop (intSize W32) x
MO_UU_Conv W16 W32 -> conversionNop (intSize W32) x
MO_SS_Conv W16 W8 -> trivialCode W8 (AND False) x (CmmLit (CmmInt 255 W8))
MO_SS_Conv W32 W8 -> trivialCode W8 (AND False) x (CmmLit (CmmInt 255 W8))
MO_SS_Conv W32 W16 -> trivialCode W16 (AND False) x (CmmLit (CmmInt 65535 W16))
MO_SS_Conv W8 W16 -> integerExtend W8 W16 x
MO_SS_Conv W8 W32 -> integerExtend W8 W32 x
MO_SS_Conv W16 W32 -> integerExtend W16 W32 x
_ -> panic ("Unknown unary mach op: " ++ show mop)
getRegister (CmmMachOp mop [x, y])
= case mop of
MO_Eq _ -> condIntReg EQQ x y
MO_Ne _ -> condIntReg NE x y
MO_S_Gt _ -> condIntReg GTT x y
MO_S_Ge _ -> condIntReg GE x y
MO_S_Lt _ -> condIntReg LTT x y
MO_S_Le _ -> condIntReg LE x y
MO_U_Gt W32 -> condIntReg GU x y
MO_U_Ge W32 -> condIntReg GEU x y
MO_U_Lt W32 -> condIntReg LU x y
MO_U_Le W32 -> condIntReg LEU x y
MO_U_Gt W16 -> condIntReg GU x y
MO_U_Ge W16 -> condIntReg GEU x y
MO_U_Lt W16 -> condIntReg LU x y
MO_U_Le W16 -> condIntReg LEU x y
MO_Add W32 -> trivialCode W32 (ADD False False) x y
MO_Sub W32 -> trivialCode W32 (SUB False False) x y
MO_S_MulMayOflo rep -> imulMayOflo rep x y
MO_S_Quot W32 -> idiv True False x y
MO_U_Quot W32 -> idiv False False x y
MO_S_Rem W32 -> irem True x y
MO_U_Rem W32 -> irem False x y
MO_F_Eq _ -> condFltReg EQQ x y
MO_F_Ne _ -> condFltReg NE x y
MO_F_Gt _ -> condFltReg GTT x y
MO_F_Ge _ -> condFltReg GE x y
MO_F_Lt _ -> condFltReg LTT x y
MO_F_Le _ -> condFltReg LE x y
MO_F_Add w -> trivialFCode w FADD x y
MO_F_Sub w -> trivialFCode w FSUB x y
MO_F_Mul w -> trivialFCode w FMUL x y
MO_F_Quot w -> trivialFCode w FDIV x y
MO_And rep -> trivialCode rep (AND False) x y
MO_Or rep -> trivialCode rep (OR False) x y
MO_Xor rep -> trivialCode rep (XOR False) x y
MO_Mul rep -> trivialCode rep (SMUL False) x y
MO_Shl rep -> trivialCode rep SLL x y
MO_U_Shr rep -> trivialCode rep SRL x y
MO_S_Shr rep -> trivialCode rep SRA x y
_ -> pprPanic "getRegister(sparc) - binary CmmMachOp (1)" (pprMachOp mop)
where
getRegister (CmmLoad mem pk) = do
Amode src code <- getAmode mem
let
code__2 dst = code `snocOL` LD (cmmTypeSize pk) src dst
return (Any (cmmTypeSize pk) code__2)
getRegister (CmmLit (CmmInt i _))
| fits13Bits i
= let
src = ImmInt (fromInteger i)
code dst = unitOL (OR False g0 (RIImm src) dst)
in
return (Any II32 code)
getRegister (CmmLit lit)
= let imm = litToImm lit
code dst = toOL [
SETHI (HI imm) dst,
OR False dst (RIImm (LO imm)) dst]
in return (Any II32 code)
getRegister _
= panic "SPARC.CodeGen.Gen32.getRegister: no match"
integerExtend
:: Width
-> Width
-> CmmExpr
-> NatM Register
integerExtend from to expr
= do
(reg, e_code) <- getSomeReg expr
tmp <- getNewRegNat II32
let bitCount
= case (from, to) of
(W8, W32) -> 24
(W16, W32) -> 16
(W8, W16) -> 24
_ -> panic "SPARC.CodeGen.Gen32: no match"
let code dst
= e_code
`snocOL` SLL reg (RIImm (ImmInt bitCount)) tmp
`snocOL` SRA tmp (RIImm (ImmInt bitCount)) dst
return (Any (intSize to) code)
conversionNop
:: Size -> CmmExpr -> NatM Register
conversionNop new_rep expr
= do e_code <- getRegister expr
return (setSizeOfRegister e_code new_rep)
idiv :: Bool -> Bool -> CmmExpr -> CmmExpr -> NatM Register
idiv False cc x y
= do
(a_reg, a_code) <- getSomeReg x
(b_reg, b_code) <- getSomeReg y
let code dst
= a_code
`appOL` b_code
`appOL` toOL
[ WRY g0 g0
, UDIV cc a_reg (RIReg b_reg) dst]
return (Any II32 code)
idiv True cc x y
= do
(a_reg, a_code) <- getSomeReg x
(b_reg, b_code) <- getSomeReg y
tmp <- getNewRegNat II32
let code dst
= a_code
`appOL` b_code
`appOL` toOL
[ SRA a_reg (RIImm (ImmInt 16)) tmp
, SRA tmp (RIImm (ImmInt 16)) tmp
, WRY tmp g0
, SDIV cc a_reg (RIReg b_reg) dst]
return (Any II32 code)
irem :: Bool -> CmmExpr -> CmmExpr -> NatM Register
irem False x y
= do
(a_reg, a_code) <- getSomeReg x
(b_reg, b_code) <- getSomeReg y
tmp_reg <- getNewRegNat II32
let code dst
= a_code
`appOL` b_code
`appOL` toOL
[ WRY g0 g0
, UDIV False a_reg (RIReg b_reg) tmp_reg
, UMUL False tmp_reg (RIReg b_reg) tmp_reg
, SUB False False a_reg (RIReg tmp_reg) dst]
return (Any II32 code)
irem True x y
= do
(a_reg, a_code) <- getSomeReg x
(b_reg, b_code) <- getSomeReg y
tmp1_reg <- getNewRegNat II32
tmp2_reg <- getNewRegNat II32
let code dst
= a_code
`appOL` b_code
`appOL` toOL
[ SRA a_reg (RIImm (ImmInt 16)) tmp1_reg
, SRA tmp1_reg (RIImm (ImmInt 16)) tmp1_reg
, WRY tmp1_reg g0
, SDIV False a_reg (RIReg b_reg) tmp2_reg
, SMUL False tmp2_reg (RIReg b_reg) tmp2_reg
, SUB False False a_reg (RIReg tmp2_reg) dst]
return (Any II32 code)
imulMayOflo :: Width -> CmmExpr -> CmmExpr -> NatM Register
imulMayOflo rep a b
= do
(a_reg, a_code) <- getSomeReg a
(b_reg, b_code) <- getSomeReg b
res_lo <- getNewRegNat II32
res_hi <- getNewRegNat II32
let shift_amt = case rep of
W32 -> 31
W64 -> 63
_ -> panic "shift_amt"
let code dst = a_code `appOL` b_code `appOL`
toOL [
SMUL False a_reg (RIReg b_reg) res_lo,
RDY res_hi,
SRA res_lo (RIImm (ImmInt shift_amt)) res_lo,
SUB False False res_lo (RIReg res_hi) dst
]
return (Any II32 code)
trivialCode
:: Width
-> (Reg -> RI -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialCode _ instr x (CmmLit (CmmInt y _))
| fits13Bits y
= do
(src1, code) <- getSomeReg x
let
src2 = ImmInt (fromInteger y)
code__2 dst = code `snocOL` instr src1 (RIImm src2) dst
return (Any II32 code__2)
trivialCode _ instr x y = do
(src1, code1) <- getSomeReg x
(src2, code2) <- getSomeReg y
let
code__2 dst = code1 `appOL` code2 `snocOL`
instr src1 (RIReg src2) dst
return (Any II32 code__2)
trivialFCode
:: Width
-> (Size -> Reg -> Reg -> Reg -> Instr)
-> CmmExpr
-> CmmExpr
-> NatM Register
trivialFCode pk instr x y = do
(src1, code1) <- getSomeReg x
(src2, code2) <- getSomeReg y
tmp <- getNewRegNat FF64
let
promote x = FxTOy FF32 FF64 x tmp
pk1 = cmmExprType x
pk2 = cmmExprType y
code__2 dst =
if pk1 `cmmEqType` pk2 then
code1 `appOL` code2 `snocOL`
instr (floatSize pk) src1 src2 dst
else if typeWidth pk1 == W32 then
code1 `snocOL` promote src1 `appOL` code2 `snocOL`
instr FF64 tmp src2 dst
else
code1 `appOL` code2 `snocOL` promote src2 `snocOL`
instr FF64 src1 tmp dst
return (Any (cmmTypeSize $ if pk1 `cmmEqType` pk2 then pk1 else cmmFloat W64)
code__2)
trivialUCode
:: Size
-> (RI -> Reg -> Instr)
-> CmmExpr
-> NatM Register
trivialUCode size instr x = do
(src, code) <- getSomeReg x
let
code__2 dst = code `snocOL` instr (RIReg src) dst
return (Any size code__2)
trivialUFCode
:: Size
-> (Reg -> Reg -> Instr)
-> CmmExpr
-> NatM Register
trivialUFCode pk instr x = do
(src, code) <- getSomeReg x
let
code__2 dst = code `snocOL` instr src dst
return (Any pk code__2)
coerceInt2FP :: Width -> Width -> CmmExpr -> NatM Register
coerceInt2FP width1 width2 x = do
(src, code) <- getSomeReg x
let
code__2 dst = code `appOL` toOL [
ST (intSize width1) src (spRel (2)),
LD (intSize width1) (spRel (2)) dst,
FxTOy (intSize width1) (floatSize width2) dst dst]
return (Any (floatSize $ width2) code__2)
coerceFP2Int :: Width -> Width -> CmmExpr -> NatM Register
coerceFP2Int width1 width2 x
= do let fsize1 = floatSize width1
fsize2 = floatSize width2
isize2 = intSize width2
(fsrc, code) <- getSomeReg x
fdst <- getNewRegNat fsize2
let code2 dst
= code
`appOL` toOL
[ FxTOy fsize1 isize2 fsrc fdst
, ST fsize2 fdst (spRel (2))
, LD isize2 (spRel (2)) dst]
return (Any isize2 code2)
coerceDbl2Flt :: CmmExpr -> NatM Register
coerceDbl2Flt x = do
(src, code) <- getSomeReg x
return (Any FF32 (\dst -> code `snocOL` FxTOy FF64 FF32 src dst))
coerceFlt2Dbl :: CmmExpr -> NatM Register
coerceFlt2Dbl x = do
(src, code) <- getSomeReg x
return (Any FF64 (\dst -> code `snocOL` FxTOy FF32 FF64 src dst))
condIntReg :: Cond -> CmmExpr -> CmmExpr -> NatM Register
condIntReg EQQ x (CmmLit (CmmInt 0 _)) = do
(src, code) <- getSomeReg x
let
code__2 dst = code `appOL` toOL [
SUB False True g0 (RIReg src) g0,
SUB True False g0 (RIImm (ImmInt (1))) dst]
return (Any II32 code__2)
condIntReg EQQ x y = do
(src1, code1) <- getSomeReg x
(src2, code2) <- getSomeReg y
let
code__2 dst = code1 `appOL` code2 `appOL` toOL [
XOR False src1 (RIReg src2) dst,
SUB False True g0 (RIReg dst) g0,
SUB True False g0 (RIImm (ImmInt (1))) dst]
return (Any II32 code__2)
condIntReg NE x (CmmLit (CmmInt 0 _)) = do
(src, code) <- getSomeReg x
let
code__2 dst = code `appOL` toOL [
SUB False True g0 (RIReg src) g0,
ADD True False g0 (RIImm (ImmInt 0)) dst]
return (Any II32 code__2)
condIntReg NE x y = do
(src1, code1) <- getSomeReg x
(src2, code2) <- getSomeReg y
let
code__2 dst = code1 `appOL` code2 `appOL` toOL [
XOR False src1 (RIReg src2) dst,
SUB False True g0 (RIReg dst) g0,
ADD True False g0 (RIImm (ImmInt 0)) dst]
return (Any II32 code__2)
condIntReg cond x y = do
bid1 <- liftM (\a -> seq a a) getBlockIdNat
bid2 <- liftM (\a -> seq a a) getBlockIdNat
CondCode _ cond cond_code <- condIntCode cond x y
let
code__2 dst
= cond_code
`appOL` toOL
[ BI cond False bid1
, NOP
, OR False g0 (RIImm (ImmInt 0)) dst
, BI ALWAYS False bid2
, NOP
, NEWBLOCK bid1
, OR False g0 (RIImm (ImmInt 1)) dst
, BI ALWAYS False bid2
, NOP
, NEWBLOCK bid2]
return (Any II32 code__2)
condFltReg :: Cond -> CmmExpr -> CmmExpr -> NatM Register
condFltReg cond x y = do
bid1 <- liftM (\a -> seq a a) getBlockIdNat
bid2 <- liftM (\a -> seq a a) getBlockIdNat
CondCode _ cond cond_code <- condFltCode cond x y
let
code__2 dst
= cond_code
`appOL` toOL
[ NOP
, BF cond False bid1
, NOP
, OR False g0 (RIImm (ImmInt 0)) dst
, BI ALWAYS False bid2
, NOP
, NEWBLOCK bid1
, OR False g0 (RIImm (ImmInt 1)) dst
, BI ALWAYS False bid2
, NOP
, NEWBLOCK bid2 ]
return (Any II32 code__2)