module X86.Instr (Instr(..), Operand(..), PrefetchVariant(..), JumpDest,
getJumpDestBlockId, canShortcut, shortcutStatics,
shortcutJump, i386_insert_ffrees, allocMoreStack,
maxSpillSlots, archWordSize)
where
#include "HsVersions.h"
#include "nativeGen/NCG.h"
import X86.Cond
import X86.Regs
import Instruction
import Size
import RegClass
import Reg
import TargetReg
import BlockId
import CodeGen.Platform
import Cmm
import FastString
import FastBool
import Outputable
import Platform
import BasicTypes (Alignment)
import CLabel
import DynFlags
import UniqSet
import Unique
import UniqSupply
import Control.Monad
import Data.Maybe (fromMaybe)
archWordSize :: Bool -> Size
archWordSize is32Bit
| is32Bit = II32
| otherwise = II64
instance Instruction Instr where
regUsageOfInstr = x86_regUsageOfInstr
patchRegsOfInstr = x86_patchRegsOfInstr
isJumpishInstr = x86_isJumpishInstr
jumpDestsOfInstr = x86_jumpDestsOfInstr
patchJumpInstr = x86_patchJumpInstr
mkSpillInstr = x86_mkSpillInstr
mkLoadInstr = x86_mkLoadInstr
takeDeltaInstr = x86_takeDeltaInstr
isMetaInstr = x86_isMetaInstr
mkRegRegMoveInstr = x86_mkRegRegMoveInstr
takeRegRegMoveInstr = x86_takeRegRegMoveInstr
mkJumpInstr = x86_mkJumpInstr
mkStackAllocInstr = x86_mkStackAllocInstr
mkStackDeallocInstr = x86_mkStackDeallocInstr
data Instr
= COMMENT FastString
| LOCATION Int Int Int String
| LDATA Section (Alignment, CmmStatics)
| NEWBLOCK BlockId
| DELTA Int
| MOV Size Operand Operand
| CMOV Cond Size Operand Reg
| MOVZxL Size Operand Operand
| MOVSxL Size Operand Operand
| LEA Size Operand Operand
| ADD Size Operand Operand
| ADC Size Operand Operand
| SUB Size Operand Operand
| SBB Size Operand Operand
| MUL Size Operand Operand
| MUL2 Size Operand
| IMUL Size Operand Operand
| IMUL2 Size Operand
| DIV Size Operand
| IDIV Size Operand
| ADD_CC Size Operand Operand
| SUB_CC Size Operand Operand
| AND Size Operand Operand
| OR Size Operand Operand
| XOR Size Operand Operand
| NOT Size Operand
| NEGI Size Operand
| BSWAP Size Reg
| SHL Size Operand Operand
| SAR Size Operand Operand
| SHR Size Operand Operand
| BT Size Imm Operand
| NOP
| GMOV Reg Reg
| GLD Size AddrMode Reg
| GST Size Reg AddrMode
| GLDZ Reg
| GLD1 Reg
| GFTOI Reg Reg
| GDTOI Reg Reg
| GITOF Reg Reg
| GITOD Reg Reg
| GDTOF Reg Reg
| GADD Size Reg Reg Reg
| GDIV Size Reg Reg Reg
| GSUB Size Reg Reg Reg
| GMUL Size Reg Reg Reg
| GCMP Cond Reg Reg
| GABS Size Reg Reg
| GNEG Size Reg Reg
| GSQRT Size Reg Reg
| GSIN Size CLabel CLabel Reg Reg
| GCOS Size CLabel CLabel Reg Reg
| GTAN Size CLabel CLabel Reg Reg
| GFREE
| CVTSS2SD Reg Reg
| CVTSD2SS Reg Reg
| CVTTSS2SIQ Size Operand Reg
| CVTTSD2SIQ Size Operand Reg
| CVTSI2SS Size Operand Reg
| CVTSI2SD Size Operand Reg
| FDIV Size Operand Operand
| SQRT Size Operand Reg
| TEST Size Operand Operand
| CMP Size Operand Operand
| SETCC Cond Operand
| PUSH Size Operand
| POP Size Operand
| JMP Operand [Reg]
| JXX Cond BlockId
| JXX_GBL Cond Imm
| JMP_TBL Operand
[Maybe BlockId]
Section
CLabel
| CALL (Either Imm Reg) [Reg]
| CLTD Size
| FETCHGOT Reg
| FETCHPC Reg
| POPCNT Size Operand Reg
| BSF Size Operand Reg
| BSR Size Operand Reg
| PREFETCH PrefetchVariant Size Operand
| LOCK Instr
| XADD Size Operand Operand
| CMPXCHG Size Operand Operand
| MFENCE
data PrefetchVariant = NTA | Lvl0 | Lvl1 | Lvl2
data Operand
= OpReg Reg
| OpImm Imm
| OpAddr AddrMode
x86_regUsageOfInstr :: Platform -> Instr -> RegUsage
x86_regUsageOfInstr platform instr
= case instr of
MOV _ src dst -> usageRW src dst
CMOV _ _ src dst -> mkRU (use_R src [dst]) [dst]
MOVZxL _ src dst -> usageRW src dst
MOVSxL _ src dst -> usageRW src dst
LEA _ src dst -> usageRW src dst
ADD _ src dst -> usageRM src dst
ADC _ src dst -> usageRM src dst
SUB _ src dst -> usageRM src dst
SBB _ src dst -> usageRM src dst
IMUL _ src dst -> usageRM src dst
IMUL2 _ src -> mkRU (eax:use_R src []) [eax,edx]
MUL _ src dst -> usageRM src dst
MUL2 _ src -> mkRU (eax:use_R src []) [eax,edx]
DIV _ op -> mkRU (eax:edx:use_R op []) [eax,edx]
IDIV _ op -> mkRU (eax:edx:use_R op []) [eax,edx]
ADD_CC _ src dst -> usageRM src dst
SUB_CC _ src dst -> usageRM src dst
AND _ src dst -> usageRM src dst
OR _ src dst -> usageRM src dst
XOR _ (OpReg src) (OpReg dst)
| src == dst -> mkRU [] [dst]
XOR _ src dst -> usageRM src dst
NOT _ op -> usageM op
BSWAP _ reg -> mkRU [reg] [reg]
NEGI _ op -> usageM op
SHL _ imm dst -> usageRM imm dst
SAR _ imm dst -> usageRM imm dst
SHR _ imm dst -> usageRM imm dst
BT _ _ src -> mkRUR (use_R src [])
PUSH _ op -> mkRUR (use_R op [])
POP _ op -> mkRU [] (def_W op)
TEST _ src dst -> mkRUR (use_R src $! use_R dst [])
CMP _ src dst -> mkRUR (use_R src $! use_R dst [])
SETCC _ op -> mkRU [] (def_W op)
JXX _ _ -> mkRU [] []
JXX_GBL _ _ -> mkRU [] []
JMP op regs -> mkRUR (use_R op regs)
JMP_TBL op _ _ _ -> mkRUR (use_R op [])
CALL (Left _) params -> mkRU params (callClobberedRegs platform)
CALL (Right reg) params -> mkRU (reg:params) (callClobberedRegs platform)
CLTD _ -> mkRU [eax] [edx]
NOP -> mkRU [] []
GMOV src dst -> mkRU [src] [dst]
GLD _ src dst -> mkRU (use_EA src []) [dst]
GST _ src dst -> mkRUR (src : use_EA dst [])
GLDZ dst -> mkRU [] [dst]
GLD1 dst -> mkRU [] [dst]
GFTOI src dst -> mkRU [src] [dst]
GDTOI src dst -> mkRU [src] [dst]
GITOF src dst -> mkRU [src] [dst]
GITOD src dst -> mkRU [src] [dst]
GDTOF src dst -> mkRU [src] [dst]
GADD _ s1 s2 dst -> mkRU [s1,s2] [dst]
GSUB _ s1 s2 dst -> mkRU [s1,s2] [dst]
GMUL _ s1 s2 dst -> mkRU [s1,s2] [dst]
GDIV _ s1 s2 dst -> mkRU [s1,s2] [dst]
GCMP _ src1 src2 -> mkRUR [src1,src2]
GABS _ src dst -> mkRU [src] [dst]
GNEG _ src dst -> mkRU [src] [dst]
GSQRT _ src dst -> mkRU [src] [dst]
GSIN _ _ _ src dst -> mkRU [src] [dst]
GCOS _ _ _ src dst -> mkRU [src] [dst]
GTAN _ _ _ src dst -> mkRU [src] [dst]
CVTSS2SD src dst -> mkRU [src] [dst]
CVTSD2SS src dst -> mkRU [src] [dst]
CVTTSS2SIQ _ src dst -> mkRU (use_R src []) [dst]
CVTTSD2SIQ _ src dst -> mkRU (use_R src []) [dst]
CVTSI2SS _ src dst -> mkRU (use_R src []) [dst]
CVTSI2SD _ src dst -> mkRU (use_R src []) [dst]
FDIV _ src dst -> usageRM src dst
FETCHGOT reg -> mkRU [] [reg]
FETCHPC reg -> mkRU [] [reg]
COMMENT _ -> noUsage
LOCATION{} -> noUsage
DELTA _ -> noUsage
POPCNT _ src dst -> mkRU (use_R src []) [dst]
BSF _ src dst -> mkRU (use_R src []) [dst]
BSR _ src dst -> mkRU (use_R src []) [dst]
PREFETCH _ _ src -> mkRU (use_R src []) []
LOCK i -> x86_regUsageOfInstr platform i
XADD _ src dst -> usageMM src dst
CMPXCHG _ src dst -> usageRMM src dst (OpReg eax)
MFENCE -> noUsage
_other -> panic "regUsage: unrecognised instr"
where
usageRW :: Operand -> Operand -> RegUsage
usageRW op (OpReg reg) = mkRU (use_R op []) [reg]
usageRW op (OpAddr ea) = mkRUR (use_R op $! use_EA ea [])
usageRW _ _ = panic "X86.RegInfo.usageRW: no match"
usageRM :: Operand -> Operand -> RegUsage
usageRM op (OpReg reg) = mkRU (use_R op [reg]) [reg]
usageRM op (OpAddr ea) = mkRUR (use_R op $! use_EA ea [])
usageRM _ _ = panic "X86.RegInfo.usageRM: no match"
usageMM :: Operand -> Operand -> RegUsage
usageMM (OpReg src) (OpReg dst) = mkRU [src, dst] [src, dst]
usageMM (OpReg src) (OpAddr ea) = mkRU (use_EA ea [src]) [src]
usageMM _ _ = panic "X86.RegInfo.usageMM: no match"
usageRMM :: Operand -> Operand -> Operand -> RegUsage
usageRMM (OpReg src) (OpReg dst) (OpReg reg) = mkRU [src, dst, reg] [dst, reg]
usageRMM (OpReg src) (OpAddr ea) (OpReg reg) = mkRU (use_EA ea [src, reg]) [reg]
usageRMM _ _ _ = panic "X86.RegInfo.usageRMM: no match"
usageM :: Operand -> RegUsage
usageM (OpReg reg) = mkRU [reg] [reg]
usageM (OpAddr ea) = mkRUR (use_EA ea [])
usageM _ = panic "X86.RegInfo.usageM: no match"
def_W (OpReg reg) = [reg]
def_W (OpAddr _ ) = []
def_W _ = panic "X86.RegInfo.def_W: no match"
use_R (OpReg reg) tl = reg : tl
use_R (OpImm _) tl = tl
use_R (OpAddr ea) tl = use_EA ea tl
use_EA (ImmAddr _ _) tl = tl
use_EA (AddrBaseIndex base index _) tl =
use_base base $! use_index index tl
where use_base (EABaseReg r) tl = r : tl
use_base _ tl = tl
use_index EAIndexNone tl = tl
use_index (EAIndex i _) tl = i : tl
mkRUR src = src' `seq` RU src' []
where src' = filter (interesting platform) src
mkRU src dst = src' `seq` dst' `seq` RU src' dst'
where src' = filter (interesting platform) src
dst' = filter (interesting platform) dst
interesting :: Platform -> Reg -> Bool
interesting _ (RegVirtual _) = True
interesting platform (RegReal (RealRegSingle i)) = isFastTrue (freeReg platform i)
interesting _ (RegReal (RealRegPair{})) = panic "X86.interesting: no reg pairs on this arch"
x86_patchRegsOfInstr :: Instr -> (Reg -> Reg) -> Instr
x86_patchRegsOfInstr instr env
= case instr of
MOV sz src dst -> patch2 (MOV sz) src dst
CMOV cc sz src dst -> CMOV cc sz (patchOp src) (env dst)
MOVZxL sz src dst -> patch2 (MOVZxL sz) src dst
MOVSxL sz src dst -> patch2 (MOVSxL sz) src dst
LEA sz src dst -> patch2 (LEA sz) src dst
ADD sz src dst -> patch2 (ADD sz) src dst
ADC sz src dst -> patch2 (ADC sz) src dst
SUB sz src dst -> patch2 (SUB sz) src dst
SBB sz src dst -> patch2 (SBB sz) src dst
IMUL sz src dst -> patch2 (IMUL sz) src dst
IMUL2 sz src -> patch1 (IMUL2 sz) src
MUL sz src dst -> patch2 (MUL sz) src dst
MUL2 sz src -> patch1 (MUL2 sz) src
IDIV sz op -> patch1 (IDIV sz) op
DIV sz op -> patch1 (DIV sz) op
ADD_CC sz src dst -> patch2 (ADD_CC sz) src dst
SUB_CC sz src dst -> patch2 (SUB_CC sz) src dst
AND sz src dst -> patch2 (AND sz) src dst
OR sz src dst -> patch2 (OR sz) src dst
XOR sz src dst -> patch2 (XOR sz) src dst
NOT sz op -> patch1 (NOT sz) op
BSWAP sz reg -> BSWAP sz (env reg)
NEGI sz op -> patch1 (NEGI sz) op
SHL sz imm dst -> patch1 (SHL sz imm) dst
SAR sz imm dst -> patch1 (SAR sz imm) dst
SHR sz imm dst -> patch1 (SHR sz imm) dst
BT sz imm src -> patch1 (BT sz imm) src
TEST sz src dst -> patch2 (TEST sz) src dst
CMP sz src dst -> patch2 (CMP sz) src dst
PUSH sz op -> patch1 (PUSH sz) op
POP sz op -> patch1 (POP sz) op
SETCC cond op -> patch1 (SETCC cond) op
JMP op regs -> JMP (patchOp op) regs
JMP_TBL op ids s lbl-> JMP_TBL (patchOp op) ids s lbl
GMOV src dst -> GMOV (env src) (env dst)
GLD sz src dst -> GLD sz (lookupAddr src) (env dst)
GST sz src dst -> GST sz (env src) (lookupAddr dst)
GLDZ dst -> GLDZ (env dst)
GLD1 dst -> GLD1 (env dst)
GFTOI src dst -> GFTOI (env src) (env dst)
GDTOI src dst -> GDTOI (env src) (env dst)
GITOF src dst -> GITOF (env src) (env dst)
GITOD src dst -> GITOD (env src) (env dst)
GDTOF src dst -> GDTOF (env src) (env dst)
GADD sz s1 s2 dst -> GADD sz (env s1) (env s2) (env dst)
GSUB sz s1 s2 dst -> GSUB sz (env s1) (env s2) (env dst)
GMUL sz s1 s2 dst -> GMUL sz (env s1) (env s2) (env dst)
GDIV sz s1 s2 dst -> GDIV sz (env s1) (env s2) (env dst)
GCMP sz src1 src2 -> GCMP sz (env src1) (env src2)
GABS sz src dst -> GABS sz (env src) (env dst)
GNEG sz src dst -> GNEG sz (env src) (env dst)
GSQRT sz src dst -> GSQRT sz (env src) (env dst)
GSIN sz l1 l2 src dst -> GSIN sz l1 l2 (env src) (env dst)
GCOS sz l1 l2 src dst -> GCOS sz l1 l2 (env src) (env dst)
GTAN sz l1 l2 src dst -> GTAN sz l1 l2 (env src) (env dst)
CVTSS2SD src dst -> CVTSS2SD (env src) (env dst)
CVTSD2SS src dst -> CVTSD2SS (env src) (env dst)
CVTTSS2SIQ sz src dst -> CVTTSS2SIQ sz (patchOp src) (env dst)
CVTTSD2SIQ sz src dst -> CVTTSD2SIQ sz (patchOp src) (env dst)
CVTSI2SS sz src dst -> CVTSI2SS sz (patchOp src) (env dst)
CVTSI2SD sz src dst -> CVTSI2SD sz (patchOp src) (env dst)
FDIV sz src dst -> FDIV sz (patchOp src) (patchOp dst)
CALL (Left _) _ -> instr
CALL (Right reg) p -> CALL (Right (env reg)) p
FETCHGOT reg -> FETCHGOT (env reg)
FETCHPC reg -> FETCHPC (env reg)
NOP -> instr
COMMENT _ -> instr
LOCATION {} -> instr
DELTA _ -> instr
JXX _ _ -> instr
JXX_GBL _ _ -> instr
CLTD _ -> instr
POPCNT sz src dst -> POPCNT sz (patchOp src) (env dst)
BSF sz src dst -> BSF sz (patchOp src) (env dst)
BSR sz src dst -> BSR sz (patchOp src) (env dst)
PREFETCH lvl size src -> PREFETCH lvl size (patchOp src)
LOCK i -> LOCK (x86_patchRegsOfInstr i env)
XADD sz src dst -> patch2 (XADD sz) src dst
CMPXCHG sz src dst -> patch2 (CMPXCHG sz) src dst
MFENCE -> instr
_other -> panic "patchRegs: unrecognised instr"
where
patch1 :: (Operand -> a) -> Operand -> a
patch1 insn op = insn $! patchOp op
patch2 :: (Operand -> Operand -> a) -> Operand -> Operand -> a
patch2 insn src dst = (insn $! patchOp src) $! patchOp dst
patchOp (OpReg reg) = OpReg $! env reg
patchOp (OpImm imm) = OpImm imm
patchOp (OpAddr ea) = OpAddr $! lookupAddr ea
lookupAddr (ImmAddr imm off) = ImmAddr imm off
lookupAddr (AddrBaseIndex base index disp)
= ((AddrBaseIndex $! lookupBase base) $! lookupIndex index) disp
where
lookupBase EABaseNone = EABaseNone
lookupBase EABaseRip = EABaseRip
lookupBase (EABaseReg r) = EABaseReg $! env r
lookupIndex EAIndexNone = EAIndexNone
lookupIndex (EAIndex r i) = (EAIndex $! env r) i
x86_isJumpishInstr
:: Instr -> Bool
x86_isJumpishInstr instr
= case instr of
JMP{} -> True
JXX{} -> True
JXX_GBL{} -> True
JMP_TBL{} -> True
CALL{} -> True
_ -> False
x86_jumpDestsOfInstr
:: Instr
-> [BlockId]
x86_jumpDestsOfInstr insn
= case insn of
JXX _ id -> [id]
JMP_TBL _ ids _ _ -> [id | Just id <- ids]
_ -> []
x86_patchJumpInstr
:: Instr -> (BlockId -> BlockId) -> Instr
x86_patchJumpInstr insn patchF
= case insn of
JXX cc id -> JXX cc (patchF id)
JMP_TBL op ids section lbl
-> JMP_TBL op (map (fmap patchF) ids) section lbl
_ -> insn
x86_mkSpillInstr
:: DynFlags
-> Reg
-> Int
-> Int
-> Instr
x86_mkSpillInstr dflags reg delta slot
= let off = spillSlotToOffset platform slot delta
in
case targetClassOfReg platform reg of
RcInteger -> MOV (archWordSize is32Bit)
(OpReg reg) (OpAddr (spRel dflags off))
RcDouble -> GST FF80 reg (spRel dflags off)
RcDoubleSSE -> MOV FF64 (OpReg reg) (OpAddr (spRel dflags off))
_ -> panic "X86.mkSpillInstr: no match"
where platform = targetPlatform dflags
is32Bit = target32Bit platform
x86_mkLoadInstr
:: DynFlags
-> Reg
-> Int
-> Int
-> Instr
x86_mkLoadInstr dflags reg delta slot
= let off = spillSlotToOffset platform slot delta
in
case targetClassOfReg platform reg of
RcInteger -> MOV (archWordSize is32Bit)
(OpAddr (spRel dflags off)) (OpReg reg)
RcDouble -> GLD FF80 (spRel dflags off) reg
RcDoubleSSE -> MOV FF64 (OpAddr (spRel dflags off)) (OpReg reg)
_ -> panic "X86.x86_mkLoadInstr"
where platform = targetPlatform dflags
is32Bit = target32Bit platform
spillSlotSize :: Platform -> Int
spillSlotSize dflags = if is32Bit then 12 else 8
where is32Bit = target32Bit dflags
maxSpillSlots :: DynFlags -> Int
maxSpillSlots dflags
= ((rESERVED_C_STACK_BYTES dflags 64) `div` spillSlotSize (targetPlatform dflags)) 1
stackAlign :: Int
stackAlign = 16
spillSlotToOffset :: Platform -> Int -> Int
spillSlotToOffset platform slot
= 64 + spillSlotSize platform * slot
x86_takeDeltaInstr
:: Instr
-> Maybe Int
x86_takeDeltaInstr instr
= case instr of
DELTA i -> Just i
_ -> Nothing
x86_isMetaInstr
:: Instr
-> Bool
x86_isMetaInstr instr
= case instr of
COMMENT{} -> True
LOCATION{} -> True
LDATA{} -> True
NEWBLOCK{} -> True
DELTA{} -> True
_ -> False
x86_mkRegRegMoveInstr
:: Platform
-> Reg
-> Reg
-> Instr
x86_mkRegRegMoveInstr platform src dst
= case targetClassOfReg platform src of
RcInteger -> case platformArch platform of
ArchX86 -> MOV II32 (OpReg src) (OpReg dst)
ArchX86_64 -> MOV II64 (OpReg src) (OpReg dst)
_ -> panic "x86_mkRegRegMoveInstr: Bad arch"
RcDouble -> GMOV src dst
RcDoubleSSE -> MOV FF64 (OpReg src) (OpReg dst)
_ -> panic "X86.RegInfo.mkRegRegMoveInstr: no match"
x86_takeRegRegMoveInstr
:: Instr
-> Maybe (Reg,Reg)
x86_takeRegRegMoveInstr (MOV _ (OpReg r1) (OpReg r2))
= Just (r1,r2)
x86_takeRegRegMoveInstr _ = Nothing
x86_mkJumpInstr
:: BlockId
-> [Instr]
x86_mkJumpInstr id
= [JXX ALWAYS id]
x86_mkStackAllocInstr
:: Platform
-> Int
-> Instr
x86_mkStackAllocInstr platform amount
= case platformArch platform of
ArchX86 -> SUB II32 (OpImm (ImmInt amount)) (OpReg esp)
ArchX86_64 -> SUB II64 (OpImm (ImmInt amount)) (OpReg rsp)
_ -> panic "x86_mkStackAllocInstr"
x86_mkStackDeallocInstr
:: Platform
-> Int
-> Instr
x86_mkStackDeallocInstr platform amount
= case platformArch platform of
ArchX86 -> ADD II32 (OpImm (ImmInt amount)) (OpReg esp)
ArchX86_64 -> ADD II64 (OpImm (ImmInt amount)) (OpReg rsp)
_ -> panic "x86_mkStackDeallocInstr"
i386_insert_ffrees
:: [GenBasicBlock Instr]
-> [GenBasicBlock Instr]
i386_insert_ffrees blocks
| any (any is_G_instr) [ instrs | BasicBlock _ instrs <- blocks ]
= map insertGFREEs blocks
| otherwise
= blocks
where
insertGFREEs (BasicBlock id insns)
= BasicBlock id (insertBeforeNonlocalTransfers GFREE insns)
insertBeforeNonlocalTransfers :: Instr -> [Instr] -> [Instr]
insertBeforeNonlocalTransfers insert insns
= foldr p [] insns
where p insn r = case insn of
CALL _ _ -> insert : insn : r
JMP _ _ -> insert : insn : r
JXX_GBL _ _ -> panic "insertBeforeNonlocalTransfers: cannot handle JXX_GBL"
_ -> insn : r
is_G_instr :: Instr -> Bool
is_G_instr instr
= case instr of
GMOV{} -> True
GLD{} -> True
GST{} -> True
GLDZ{} -> True
GLD1{} -> True
GFTOI{} -> True
GDTOI{} -> True
GITOF{} -> True
GITOD{} -> True
GDTOF{} -> True
GADD{} -> True
GDIV{} -> True
GSUB{} -> True
GMUL{} -> True
GCMP{} -> True
GABS{} -> True
GNEG{} -> True
GSQRT{} -> True
GSIN{} -> True
GCOS{} -> True
GTAN{} -> True
GFREE -> panic "is_G_instr: GFREE (!)"
_ -> False
allocMoreStack
:: Platform
-> Int
-> NatCmmDecl statics X86.Instr.Instr
-> UniqSM (NatCmmDecl statics X86.Instr.Instr)
allocMoreStack _ _ top@(CmmData _ _) = return top
allocMoreStack platform slots proc@(CmmProc info lbl live (ListGraph code)) = do
let entries = entryBlocks proc
uniqs <- replicateM (length entries) getUniqueM
let
delta = ((x + stackAlign 1) `quot` stackAlign) * stackAlign
where x = slots * spillSlotSize platform
alloc = mkStackAllocInstr platform delta
dealloc = mkStackDeallocInstr platform delta
new_blockmap :: BlockEnv BlockId
new_blockmap = mapFromList (zip entries (map mkBlockId uniqs))
insert_stack_insns (BasicBlock id insns)
| Just new_blockid <- mapLookup id new_blockmap
= [ BasicBlock id [alloc, JXX ALWAYS new_blockid]
, BasicBlock new_blockid block' ]
| otherwise
= [ BasicBlock id block' ]
where
block' = foldr insert_dealloc [] insns
insert_dealloc insn r = case insn of
JMP _ _ -> dealloc : insn : r
JXX_GBL _ _ -> panic "insert_dealloc: cannot handle JXX_GBL"
_other -> x86_patchJumpInstr insn retarget : r
where retarget b = fromMaybe b (mapLookup b new_blockmap)
new_code = concatMap insert_stack_insns code
return (CmmProc info lbl live (ListGraph new_code))
data JumpDest = DestBlockId BlockId | DestImm Imm
getJumpDestBlockId :: JumpDest -> Maybe BlockId
getJumpDestBlockId (DestBlockId bid) = Just bid
getJumpDestBlockId _ = Nothing
canShortcut :: Instr -> Maybe JumpDest
canShortcut (JXX ALWAYS id) = Just (DestBlockId id)
canShortcut (JMP (OpImm imm) _) = Just (DestImm imm)
canShortcut _ = Nothing
shortcutJump :: (BlockId -> Maybe JumpDest) -> Instr -> Instr
shortcutJump fn insn = shortcutJump' fn (setEmpty :: BlockSet) insn
where shortcutJump' fn seen insn@(JXX cc id) =
if setMember id seen then insn
else case fn id of
Nothing -> insn
Just (DestBlockId id') -> shortcutJump' fn seen' (JXX cc id')
Just (DestImm imm) -> shortcutJump' fn seen' (JXX_GBL cc imm)
where seen' = setInsert id seen
shortcutJump' _ _ other = other
shortcutStatics :: (BlockId -> Maybe JumpDest) -> (Alignment, CmmStatics) -> (Alignment, CmmStatics)
shortcutStatics fn (align, Statics lbl statics)
= (align, Statics lbl $ map (shortcutStatic fn) statics)
shortcutLabel :: (BlockId -> Maybe JumpDest) -> CLabel -> CLabel
shortcutLabel fn lab
| Just uq <- maybeAsmTemp lab = shortBlockId fn emptyUniqSet (mkBlockId uq)
| otherwise = lab
shortcutStatic :: (BlockId -> Maybe JumpDest) -> CmmStatic -> CmmStatic
shortcutStatic fn (CmmStaticLit (CmmLabel lab))
= CmmStaticLit (CmmLabel (shortcutLabel fn lab))
shortcutStatic fn (CmmStaticLit (CmmLabelDiffOff lbl1 lbl2 off))
= CmmStaticLit (CmmLabelDiffOff (shortcutLabel fn lbl1) lbl2 off)
shortcutStatic _ other_static
= other_static
shortBlockId
:: (BlockId -> Maybe JumpDest)
-> UniqSet Unique
-> BlockId
-> CLabel
shortBlockId fn seen blockid =
case (elementOfUniqSet uq seen, fn blockid) of
(True, _) -> mkAsmTempLabel uq
(_, Nothing) -> mkAsmTempLabel uq
(_, Just (DestBlockId blockid')) -> shortBlockId fn (addOneToUniqSet seen uq) blockid'
(_, Just (DestImm (ImmCLbl lbl))) -> lbl
(_, _other) -> panic "shortBlockId"
where uq = getUnique blockid