module SPARC.CodeGen (
cmmTopCodeGen,
generateJumpTableForInstr,
InstrBlock
)
where
#include "HsVersions.h"
#include "nativeGen/NCG.h"
#include "../includes/MachDeps.h"
import SPARC.Base
import SPARC.CodeGen.Sanity
import SPARC.CodeGen.Amode
import SPARC.CodeGen.CondCode
import SPARC.CodeGen.Gen64
import SPARC.CodeGen.Gen32
import SPARC.CodeGen.Base
import SPARC.Ppr ()
import SPARC.Instr
import SPARC.Imm
import SPARC.AddrMode
import SPARC.Regs
import SPARC.Stack
import Instruction
import Size
import NCGMonad
import BlockId
import Cmm
import CmmUtils
import Hoopl
import PIC
import Reg
import CLabel
import CPrim
import BasicTypes
import DynFlags
import FastString
import OrdList
import Outputable
import Platform
import Unique
import Control.Monad ( mapAndUnzipM )
cmmTopCodeGen :: RawCmmDecl
-> NatM [NatCmmDecl CmmStatics Instr]
cmmTopCodeGen (CmmProc info lab live graph)
= do let blocks = toBlockListEntryFirst graph
(nat_blocks,statics) <- mapAndUnzipM basicBlockCodeGen blocks
let proc = CmmProc info lab live (ListGraph $ concat nat_blocks)
let tops = proc : concat statics
return tops
cmmTopCodeGen (CmmData sec dat) = do
return [CmmData sec dat]
basicBlockCodeGen :: CmmBlock
-> NatM ( [NatBasicBlock Instr]
, [NatCmmDecl CmmStatics Instr])
basicBlockCodeGen block = do
let (CmmEntry id, nodes, tail) = blockSplit block
stmts = blockToList nodes
mid_instrs <- stmtsToInstrs stmts
tail_instrs <- stmtToInstrs tail
let instrs = mid_instrs `appOL` tail_instrs
let
(top,other_blocks,statics)
= foldrOL mkBlocks ([],[],[]) instrs
mkBlocks (NEWBLOCK id) (instrs,blocks,statics)
= ([], BasicBlock id instrs : blocks, statics)
mkBlocks (LDATA sec dat) (instrs,blocks,statics)
= (instrs, blocks, CmmData sec dat:statics)
mkBlocks instr (instrs,blocks,statics)
= (instr:instrs, blocks, statics)
blocksChecked
= map (checkBlock block)
$ BasicBlock id top : other_blocks
return (blocksChecked, statics)
stmtsToInstrs :: [CmmNode e x] -> NatM InstrBlock
stmtsToInstrs stmts
= do instrss <- mapM stmtToInstrs stmts
return (concatOL instrss)
stmtToInstrs :: CmmNode e x -> NatM InstrBlock
stmtToInstrs stmt = do
dflags <- getDynFlags
case stmt of
CmmComment s -> return (unitOL (COMMENT s))
CmmAssign reg src
| isFloatType ty -> assignReg_FltCode size reg src
| isWord64 ty -> assignReg_I64Code reg src
| otherwise -> assignReg_IntCode size reg src
where ty = cmmRegType dflags reg
size = cmmTypeSize ty
CmmStore addr src
| isFloatType ty -> assignMem_FltCode size addr src
| isWord64 ty -> assignMem_I64Code addr src
| otherwise -> assignMem_IntCode size addr src
where ty = cmmExprType dflags src
size = cmmTypeSize ty
CmmUnsafeForeignCall target result_regs args
-> genCCall target result_regs args
CmmBranch id -> genBranch id
CmmCondBranch arg true false -> do b1 <- genCondJump true arg
b2 <- genBranch false
return (b1 `appOL` b2)
CmmSwitch arg ids -> do dflags <- getDynFlags
genSwitch dflags arg ids
CmmCall { cml_target = arg } -> genJump arg
_
-> panic "stmtToInstrs: statement should have been cps'd away"
jumpTableEntry :: DynFlags -> Maybe BlockId -> CmmStatic
jumpTableEntry dflags Nothing = CmmStaticLit (CmmInt 0 (wordWidth dflags))
jumpTableEntry _ (Just blockid) = CmmStaticLit (CmmLabel blockLabel)
where blockLabel = mkAsmTempLabel (getUnique blockid)
assignMem_IntCode :: Size -> CmmExpr -> CmmExpr -> NatM InstrBlock
assignMem_IntCode pk addr src = do
(srcReg, code) <- getSomeReg src
Amode dstAddr addr_code <- getAmode addr
return $ code `appOL` addr_code `snocOL` ST pk srcReg dstAddr
assignReg_IntCode :: Size -> CmmReg -> CmmExpr -> NatM InstrBlock
assignReg_IntCode _ reg src = do
dflags <- getDynFlags
r <- getRegister src
let dst = getRegisterReg (targetPlatform dflags) reg
return $ case r of
Any _ code -> code dst
Fixed _ freg fcode -> fcode `snocOL` OR False g0 (RIReg freg) dst
assignMem_FltCode :: Size -> CmmExpr -> CmmExpr -> NatM InstrBlock
assignMem_FltCode pk addr src = do
dflags <- getDynFlags
Amode dst__2 code1 <- getAmode addr
(src__2, code2) <- getSomeReg src
tmp1 <- getNewRegNat pk
let
pk__2 = cmmExprType dflags src
code__2 = code1 `appOL` code2 `appOL`
if sizeToWidth pk == typeWidth pk__2
then unitOL (ST pk src__2 dst__2)
else toOL [ FxTOy (cmmTypeSize pk__2) pk src__2 tmp1
, ST pk tmp1 dst__2]
return code__2
assignReg_FltCode :: Size -> CmmReg -> CmmExpr -> NatM InstrBlock
assignReg_FltCode pk dstCmmReg srcCmmExpr = do
dflags <- getDynFlags
let platform = targetPlatform dflags
srcRegister <- getRegister srcCmmExpr
let dstReg = getRegisterReg platform dstCmmReg
return $ case srcRegister of
Any _ code -> code dstReg
Fixed _ srcFixedReg srcCode -> srcCode `snocOL` FMOV pk srcFixedReg dstReg
genJump :: CmmExpr -> NatM InstrBlock
genJump (CmmLit (CmmLabel lbl))
= return (toOL [CALL (Left target) 0 True, NOP])
where
target = ImmCLbl lbl
genJump tree
= do
(target, code) <- getSomeReg tree
return (code `snocOL` JMP (AddrRegReg target g0) `snocOL` NOP)
genBranch :: BlockId -> NatM InstrBlock
genBranch = return . toOL . mkJumpInstr
genCondJump
:: BlockId
-> CmmExpr
-> NatM InstrBlock
genCondJump bid bool = do
CondCode is_float cond code <- getCondCode bool
return (
code `appOL`
toOL (
if is_float
then [NOP, BF cond False bid, NOP]
else [BI cond False bid, NOP]
)
)
genSwitch :: DynFlags -> CmmExpr -> [Maybe BlockId] -> NatM InstrBlock
genSwitch dflags expr ids
| gopt Opt_PIC dflags
= error "MachCodeGen: sparc genSwitch PIC not finished\n"
| otherwise
= do (e_reg, e_code) <- getSomeReg expr
base_reg <- getNewRegNat II32
offset_reg <- getNewRegNat II32
dst <- getNewRegNat II32
label <- getNewLabelNat
return $ e_code `appOL`
toOL
[
SETHI (HI (ImmCLbl label)) base_reg
, OR False base_reg (RIImm $ LO $ ImmCLbl label) base_reg
, SLL e_reg (RIImm $ ImmInt 2) offset_reg
, LD II32 (AddrRegReg base_reg offset_reg) dst
, JMP_TBL (AddrRegImm dst (ImmInt 0)) ids label
, NOP ]
generateJumpTableForInstr :: DynFlags -> Instr
-> Maybe (NatCmmDecl CmmStatics Instr)
generateJumpTableForInstr dflags (JMP_TBL _ ids label) =
let jumpTable = map (jumpTableEntry dflags) ids
in Just (CmmData ReadOnlyData (Statics label jumpTable))
generateJumpTableForInstr _ _ = Nothing
genCCall
:: ForeignTarget
-> [CmmFormal]
-> [CmmActual]
-> NatM InstrBlock
genCCall (PrimTarget MO_WriteBarrier) _ _
= do return nilOL
genCCall target dest_regs args0
= do
let args | PrimTarget mop <- target,
(mop == MO_Memcpy ||
mop == MO_Memset ||
mop == MO_Memmove)
= init args0
| otherwise
= args0
argcode_and_vregs <- mapM arg_to_int_vregs args
let (argcodes, vregss) = unzip argcode_and_vregs
let vregs = concat vregss
let n_argRegs = length allArgRegs
let n_argRegs_used = min (length vregs) n_argRegs
callinsns <- case target of
ForeignTarget (CmmLit (CmmLabel lbl)) _ ->
return (unitOL (CALL (Left (litToImm (CmmLabel lbl))) n_argRegs_used False))
ForeignTarget expr _
-> do (dyn_c, [dyn_r]) <- arg_to_int_vregs expr
return (dyn_c `snocOL` CALL (Right dyn_r) n_argRegs_used False)
PrimTarget mop
-> do res <- outOfLineMachOp mop
lblOrMopExpr <- case res of
Left lbl -> do
return (unitOL (CALL (Left (litToImm (CmmLabel lbl))) n_argRegs_used False))
Right mopExpr -> do
(dyn_c, [dyn_r]) <- arg_to_int_vregs mopExpr
return (dyn_c `snocOL` CALL (Right dyn_r) n_argRegs_used False)
return lblOrMopExpr
let argcode = concatOL argcodes
let (move_sp_down, move_sp_up)
= let diff = length vregs n_argRegs
nn = if odd diff then diff + 1 else diff
in if nn <= 0
then (nilOL, nilOL)
else (unitOL (moveSp (1*nn)), unitOL (moveSp (1*nn)))
let transfer_code
= toOL (move_final vregs allArgRegs extraStackArgsHere)
dflags <- getDynFlags
return
$ argcode `appOL`
move_sp_down `appOL`
transfer_code `appOL`
callinsns `appOL`
unitOL NOP `appOL`
move_sp_up `appOL`
assign_code (targetPlatform dflags) dest_regs
arg_to_int_vregs :: CmmExpr -> NatM (OrdList Instr, [Reg])
arg_to_int_vregs arg = do dflags <- getDynFlags
arg_to_int_vregs' dflags arg
arg_to_int_vregs' :: DynFlags -> CmmExpr -> NatM (OrdList Instr, [Reg])
arg_to_int_vregs' dflags arg
| isWord64 (cmmExprType dflags arg)
= do (ChildCode64 code r_lo) <- iselExpr64 arg
let r_hi = getHiVRegFromLo r_lo
return (code, [r_hi, r_lo])
| otherwise
= do (src, code) <- getSomeReg arg
let pk = cmmExprType dflags arg
case cmmTypeSize pk of
FF64 -> do
v1 <- getNewRegNat II32
v2 <- getNewRegNat II32
let code2 =
code `snocOL`
FMOV FF64 src f0 `snocOL`
ST FF32 f0 (spRel 16) `snocOL`
LD II32 (spRel 16) v1 `snocOL`
ST FF32 f1 (spRel 16) `snocOL`
LD II32 (spRel 16) v2
return (code2, [v1,v2])
FF32 -> do
v1 <- getNewRegNat II32
let code2 =
code `snocOL`
ST FF32 src (spRel 16) `snocOL`
LD II32 (spRel 16) v1
return (code2, [v1])
_ -> do
v1 <- getNewRegNat II32
let code2 =
code `snocOL`
OR False g0 (RIReg src) v1
return (code2, [v1])
move_final :: [Reg] -> [Reg] -> Int -> [Instr]
move_final [] _ _
= []
move_final (v:vs) [] offset
= ST II32 v (spRel offset)
: move_final vs [] (offset+1)
move_final (v:vs) (a:az) offset
= OR False g0 (RIReg v) a
: move_final vs az offset
assign_code :: Platform -> [LocalReg] -> OrdList Instr
assign_code _ [] = nilOL
assign_code platform [dest]
= let rep = localRegType dest
width = typeWidth rep
r_dest = getRegisterReg platform (CmmLocal dest)
result
| isFloatType rep
, W32 <- width
= unitOL $ FMOV FF32 (regSingle $ fReg 0) r_dest
| isFloatType rep
, W64 <- width
= unitOL $ FMOV FF64 (regSingle $ fReg 0) r_dest
| not $ isFloatType rep
, W32 <- width
= unitOL $ mkRegRegMoveInstr platform (regSingle $ oReg 0) r_dest
| not $ isFloatType rep
, W64 <- width
, r_dest_hi <- getHiVRegFromLo r_dest
= toOL [ mkRegRegMoveInstr platform (regSingle $ oReg 0) r_dest_hi
, mkRegRegMoveInstr platform (regSingle $ oReg 1) r_dest]
| otherwise
= panic "SPARC.CodeGen.GenCCall: no match"
in result
assign_code _ _
= panic "SPARC.CodeGen.GenCCall: no match"
outOfLineMachOp
:: CallishMachOp
-> NatM (Either CLabel CmmExpr)
outOfLineMachOp mop
= do let functionName
= outOfLineMachOp_table mop
dflags <- getDynFlags
mopExpr <- cmmMakeDynamicReference dflags CallReference
$ mkForeignLabel functionName Nothing ForeignLabelInExternalPackage IsFunction
let mopLabelOrExpr
= case mopExpr of
CmmLit (CmmLabel lbl) -> Left lbl
_ -> Right mopExpr
return mopLabelOrExpr
outOfLineMachOp_table
:: CallishMachOp
-> FastString
outOfLineMachOp_table mop
= case mop of
MO_F32_Exp -> fsLit "expf"
MO_F32_Log -> fsLit "logf"
MO_F32_Sqrt -> fsLit "sqrtf"
MO_F32_Pwr -> fsLit "powf"
MO_F32_Sin -> fsLit "sinf"
MO_F32_Cos -> fsLit "cosf"
MO_F32_Tan -> fsLit "tanf"
MO_F32_Asin -> fsLit "asinf"
MO_F32_Acos -> fsLit "acosf"
MO_F32_Atan -> fsLit "atanf"
MO_F32_Sinh -> fsLit "sinhf"
MO_F32_Cosh -> fsLit "coshf"
MO_F32_Tanh -> fsLit "tanhf"
MO_F64_Exp -> fsLit "exp"
MO_F64_Log -> fsLit "log"
MO_F64_Sqrt -> fsLit "sqrt"
MO_F64_Pwr -> fsLit "pow"
MO_F64_Sin -> fsLit "sin"
MO_F64_Cos -> fsLit "cos"
MO_F64_Tan -> fsLit "tan"
MO_F64_Asin -> fsLit "asin"
MO_F64_Acos -> fsLit "acos"
MO_F64_Atan -> fsLit "atan"
MO_F64_Sinh -> fsLit "sinh"
MO_F64_Cosh -> fsLit "cosh"
MO_F64_Tanh -> fsLit "tanh"
MO_UF_Conv w -> fsLit $ word2FloatLabel w
MO_Memcpy -> fsLit "memcpy"
MO_Memset -> fsLit "memset"
MO_Memmove -> fsLit "memmove"
MO_BSwap w -> fsLit $ bSwapLabel w
MO_PopCnt w -> fsLit $ popCntLabel w
MO_S_QuotRem {} -> unsupported
MO_U_QuotRem {} -> unsupported
MO_U_QuotRem2 {} -> unsupported
MO_Add2 {} -> unsupported
MO_U_Mul2 {} -> unsupported
MO_WriteBarrier -> unsupported
MO_Touch -> unsupported
MO_Prefetch_Data -> unsupported
where unsupported = panic ("outOfLineCmmOp: " ++ show mop
++ " not supported here")