--
-----------------------------------------------------------------------------
-#include "nativeGen/NCG.h"
module RegAllocInfo (
+ -- shared code
+ shortcutStatic,
+
+ -- machine specific
RegUsage(..),
noUsage,
regUsage,
patchJump,
isRegRegMove,
- JumpDest, canShortcut, shortcutJump, shortcutStatic,
+ JumpDest,
+ canShortcut,
+ shortcutJump,
- maxSpillSlots,
mkSpillInstr,
mkLoadInstr,
mkRegRegMoveInstr,
- mkBranchInstr
+ mkBranchInstr,
+
+ maxSpillSlots,
+ spillSlotToOffset
) where
+#include "nativeGen/NCG.h"
#include "HsVersions.h"
import BlockId
import Constants ( rESERVED_C_STACK_BYTES )
import FastBool
--- -----------------------------------------------------------------------------
--- RegUsage type
-
--- @regUsage@ returns the sets of src and destination registers used
--- by a particular instruction. Machine registers that are
--- pre-allocated to stgRegs are filtered out, because they are
--- uninteresting from a register allocation standpoint. (We wouldn't
--- want them to end up on the free list!) As far as we are concerned,
--- the fixed registers simply don't exist (for allocation purposes,
--- anyway).
-
--- regUsage doesn't need to do any trickery for jumps and such. Just
--- state precisely the regs read and written by that insn. The
--- consequences of control flow transfers, as far as register
--- allocation goes, are taken care of by the register allocator.
-
-data RegUsage = RU [Reg] [Reg]
-
-noUsage :: RegUsage
-noUsage = RU [] []
-
-regUsage :: Instr -> RegUsage
-
-interesting (VirtualRegI _) = True
-interesting (VirtualRegHi _) = True
-interesting (VirtualRegF _) = True
-interesting (VirtualRegD _) = True
-interesting (RealReg i) = isFastTrue (freeReg i)
-
-
-#if alpha_TARGET_ARCH
-regUsage instr = case instr of
- SPILL reg slot -> usage ([reg], [])
- RELOAD slot reg -> usage ([], [reg])
- LD B reg addr -> usage (regAddr addr, [reg, t9])
- LD Bu reg addr -> usage (regAddr addr, [reg, t9])
--- LD W reg addr -> usage (regAddr addr, [reg, t9]) : UNUSED
--- LD Wu reg addr -> usage (regAddr addr, [reg, t9]) : UNUSED
- LD sz reg addr -> usage (regAddr addr, [reg])
- LDA reg addr -> usage (regAddr addr, [reg])
- LDAH reg addr -> usage (regAddr addr, [reg])
- LDGP reg addr -> usage (regAddr addr, [reg])
- LDI sz reg imm -> usage ([], [reg])
- ST B reg addr -> usage (reg : regAddr addr, [t9, t10])
--- ST W reg addr -> usage (reg : regAddr addr, [t9, t10]) : UNUSED
- ST sz reg addr -> usage (reg : regAddr addr, [])
- CLR reg -> usage ([], [reg])
- ABS sz ri reg -> usage (regRI ri, [reg])
- NEG sz ov ri reg -> usage (regRI ri, [reg])
- ADD sz ov r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SADD sz sc r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SUB sz ov r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SSUB sz sc r1 ar r2 -> usage (r1 : regRI ar, [r2])
- MUL sz ov r1 ar r2 -> usage (r1 : regRI ar, [r2])
- DIV sz un r1 ar r2 -> usage (r1 : regRI ar, [r2, t9, t10, t11, t12])
- REM sz un r1 ar r2 -> usage (r1 : regRI ar, [r2, t9, t10, t11, t12])
- NOT ri reg -> usage (regRI ri, [reg])
- AND r1 ar r2 -> usage (r1 : regRI ar, [r2])
- ANDNOT r1 ar r2 -> usage (r1 : regRI ar, [r2])
- OR r1 ar r2 -> usage (r1 : regRI ar, [r2])
- ORNOT r1 ar r2 -> usage (r1 : regRI ar, [r2])
- XOR r1 ar r2 -> usage (r1 : regRI ar, [r2])
- XORNOT r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SLL r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SRL r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SRA r1 ar r2 -> usage (r1 : regRI ar, [r2])
- ZAP r1 ar r2 -> usage (r1 : regRI ar, [r2])
- ZAPNOT r1 ar r2 -> usage (r1 : regRI ar, [r2])
- CMP co r1 ar r2 -> usage (r1 : regRI ar, [r2])
- FCLR reg -> usage ([], [reg])
- FABS r1 r2 -> usage ([r1], [r2])
- FNEG sz r1 r2 -> usage ([r1], [r2])
- FADD sz r1 r2 r3 -> usage ([r1, r2], [r3])
- FDIV sz r1 r2 r3 -> usage ([r1, r2], [r3])
- FMUL sz r1 r2 r3 -> usage ([r1, r2], [r3])
- FSUB sz r1 r2 r3 -> usage ([r1, r2], [r3])
- CVTxy sz1 sz2 r1 r2 -> usage ([r1], [r2])
- FCMP sz co r1 r2 r3 -> usage ([r1, r2], [r3])
- FMOV r1 r2 -> usage ([r1], [r2])
-
-
- -- We assume that all local jumps will be BI/BF/BR. JMP must be out-of-line.
- BI cond reg lbl -> usage ([reg], [])
- BF cond reg lbl -> usage ([reg], [])
- JMP reg addr hint -> RU (mkRegSet (filter interesting (regAddr addr))) freeRegSet
-
- BSR _ n -> RU (argRegSet n) callClobberedRegSet
- JSR reg addr n -> RU (argRegSet n) callClobberedRegSet
-
- _ -> noUsage
-
- where
- usage (src, dst) = RU (mkRegSet (filter interesting src))
- (mkRegSet (filter interesting dst))
-
- interesting (FixedReg _) = False
- interesting _ = True
-
- regAddr (AddrReg r1) = [r1]
- regAddr (AddrRegImm r1 _) = [r1]
- regAddr (AddrImm _) = []
-
- regRI (RIReg r) = [r]
- regRI _ = []
-
-#endif /* alpha_TARGET_ARCH */
--- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
-#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
-
-regUsage instr = case instr of
- MOV sz src dst -> usageRW src dst
- MOVZxL sz src dst -> usageRW src dst
- MOVSxL sz src dst -> usageRW src dst
- LEA sz src dst -> usageRW src dst
- ADD sz src dst -> usageRM src dst
- ADC sz src dst -> usageRM src dst
- SUB sz src dst -> usageRM src dst
- IMUL sz src dst -> usageRM src dst
- IMUL2 sz src -> mkRU (eax:use_R src) [eax,edx]
- MUL sz src dst -> usageRM src dst
- DIV sz op -> mkRU (eax:edx:use_R op) [eax,edx]
- IDIV sz op -> mkRU (eax:edx:use_R op) [eax,edx]
- AND sz src dst -> usageRM src dst
- OR sz src dst -> usageRM src dst
- XOR sz (OpReg src) (OpReg dst)
- | src == dst -> mkRU [] [dst]
- XOR sz src dst -> usageRM src dst
- NOT sz op -> usageM op
- NEGI sz op -> usageM op
- SHL sz imm dst -> usageRM imm dst
- SAR sz imm dst -> usageRM imm dst
- SHR sz imm dst -> usageRM imm dst
- BT sz imm src -> mkRUR (use_R src)
-
- PUSH sz op -> mkRUR (use_R op)
- POP sz op -> mkRU [] (def_W op)
- TEST sz src dst -> mkRUR (use_R src ++ use_R dst)
- CMP sz src dst -> mkRUR (use_R src ++ use_R dst)
- SETCC cond op -> mkRU [] (def_W op)
- JXX cond lbl -> mkRU [] []
- JXX_GBL cond lbl -> mkRU [] []
- JMP op -> mkRUR (use_R op)
- JMP_TBL op ids -> mkRUR (use_R op)
- CALL (Left imm) params -> mkRU params callClobberedRegs
- CALL (Right reg) params -> mkRU (reg:params) callClobberedRegs
- CLTD sz -> mkRU [eax] [edx]
- NOP -> mkRU [] []
-
-#if i386_TARGET_ARCH
- GMOV src dst -> mkRU [src] [dst]
- GLD sz src dst -> mkRU (use_EA src) [dst]
- GST sz 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]
-
- GADD sz s1 s2 dst -> mkRU [s1,s2] [dst]
- GSUB sz s1 s2 dst -> mkRU [s1,s2] [dst]
- GMUL sz s1 s2 dst -> mkRU [s1,s2] [dst]
- GDIV sz s1 s2 dst -> mkRU [s1,s2] [dst]
-
- GCMP sz src1 src2 -> mkRUR [src1,src2]
- GABS sz src dst -> mkRU [src] [dst]
- GNEG sz src dst -> mkRU [src] [dst]
- GSQRT sz src dst -> mkRU [src] [dst]
- GSIN sz _ _ src dst -> mkRU [src] [dst]
- GCOS sz _ _ src dst -> mkRU [src] [dst]
- GTAN sz _ _ src dst -> mkRU [src] [dst]
-#endif
-
-#if x86_64_TARGET_ARCH
- 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 sz src dst -> usageRM src dst
-#endif
-
- FETCHGOT reg -> mkRU [] [reg]
- FETCHPC reg -> mkRU [] [reg]
-
- COMMENT _ -> noUsage
- DELTA _ -> noUsage
- SPILL reg slot -> mkRU [reg] []
- RELOAD slot reg -> mkRU [] [reg]
+#if alpha_TARGET_ARCH
+import Alpha.RegInfo
- _other -> panic "regUsage: unrecognised instr"
+#elif i386_TARGET_ARCH || x86_64_TARGET_ARCH
+import X86.RegInfo
- where
- -- 2 operand form; first operand Read; second Written
- usageRW :: Operand -> Operand -> RegUsage
- usageRW op (OpReg reg) = mkRU (use_R op) [reg]
- usageRW op (OpAddr ea) = mkRUR (use_R op ++ use_EA ea)
-
- -- 2 operand form; first operand Read; second Modified
- 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)
-
- -- 1 operand form; operand Modified
- usageM :: Operand -> RegUsage
- usageM (OpReg reg) = mkRU [reg] [reg]
- usageM (OpAddr ea) = mkRUR (use_EA ea)
-
- -- Registers defd when an operand is written.
- def_W (OpReg reg) = [reg]
- def_W (OpAddr ea) = []
-
- -- Registers used when an operand is read.
- use_R (OpReg reg) = [reg]
- use_R (OpImm imm) = []
- use_R (OpAddr ea) = use_EA ea
-
- -- Registers used to compute an effective address.
- use_EA (ImmAddr _ _) = []
- use_EA (AddrBaseIndex base index _) =
- use_base base $! use_index index
- where use_base (EABaseReg r) x = r : x
- use_base _ x = x
- use_index EAIndexNone = []
- use_index (EAIndex i _) = [i]
-
- mkRUR src = src' `seq` RU src' []
- where src' = filter interesting src
-
- mkRU src dst = src' `seq` dst' `seq` RU src' dst'
- where src' = filter interesting src
- dst' = filter interesting dst
-
-#endif /* i386_TARGET_ARCH || x86_64_TARGET_ARCH */
--- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
-#if sparc_TARGET_ARCH
-
-regUsage instr = case instr of
- SPILL reg slot -> usage ([reg], [])
- RELOAD slot reg -> usage ([], [reg])
-
- LD sz addr reg -> usage (regAddr addr, [reg])
- ST sz reg addr -> usage (reg : regAddr addr, [])
- ADD x cc r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SUB x cc r1 ar r2 -> usage (r1 : regRI ar, [r2])
- UMUL cc r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SMUL cc r1 ar r2 -> usage (r1 : regRI ar, [r2])
- UDIV cc r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SDIV cc r1 ar r2 -> usage (r1 : regRI ar, [r2])
- RDY rd -> usage ([], [rd])
- WRY r1 r2 -> usage ([r1, r2], [])
- AND b r1 ar r2 -> usage (r1 : regRI ar, [r2])
- ANDN b r1 ar r2 -> usage (r1 : regRI ar, [r2])
- OR b r1 ar r2 -> usage (r1 : regRI ar, [r2])
- ORN b r1 ar r2 -> usage (r1 : regRI ar, [r2])
- XOR b r1 ar r2 -> usage (r1 : regRI ar, [r2])
- XNOR b r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SLL r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SRL r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SRA r1 ar r2 -> usage (r1 : regRI ar, [r2])
- SETHI imm reg -> usage ([], [reg])
- FABS s r1 r2 -> usage ([r1], [r2])
- FADD s r1 r2 r3 -> usage ([r1, r2], [r3])
- FCMP e s r1 r2 -> usage ([r1, r2], [])
- FDIV s r1 r2 r3 -> usage ([r1, r2], [r3])
- FMOV s r1 r2 -> usage ([r1], [r2])
- FMUL s r1 r2 r3 -> usage ([r1, r2], [r3])
- FNEG s r1 r2 -> usage ([r1], [r2])
- FSQRT s r1 r2 -> usage ([r1], [r2])
- FSUB s r1 r2 r3 -> usage ([r1, r2], [r3])
- FxTOy s1 s2 r1 r2 -> usage ([r1], [r2])
-
- JMP addr -> usage (regAddr addr, [])
- JMP_TBL addr ids -> usage (regAddr addr, [])
-
- CALL (Left imm) n True -> noUsage
- CALL (Left imm) n False -> usage (argRegs n, callClobberedRegs)
- CALL (Right reg) n True -> usage ([reg], [])
- CALL (Right reg) n False -> usage (reg : (argRegs n), callClobberedRegs)
-
- _ -> noUsage
- where
- usage (src, dst) = RU (filter interesting src)
- (filter interesting dst)
-
- regAddr (AddrRegReg r1 r2) = [r1, r2]
- regAddr (AddrRegImm r1 _) = [r1]
-
- regRI (RIReg r) = [r]
- regRI _ = []
-
-#endif /* sparc_TARGET_ARCH */
--- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
-#if powerpc_TARGET_ARCH
-
-regUsage instr = case instr of
- SPILL reg slot -> usage ([reg], [])
- RELOAD slot reg -> usage ([], [reg])
-
- LD sz reg addr -> usage (regAddr addr, [reg])
- LA sz reg addr -> usage (regAddr addr, [reg])
- ST sz reg addr -> usage (reg : regAddr addr, [])
- STU sz reg addr -> usage (reg : regAddr addr, [])
- LIS reg imm -> usage ([], [reg])
- LI reg imm -> usage ([], [reg])
- MR reg1 reg2 -> usage ([reg2], [reg1])
- CMP sz reg ri -> usage (reg : regRI ri,[])
- CMPL sz reg ri -> usage (reg : regRI ri,[])
- BCC cond lbl -> noUsage
- BCCFAR cond lbl -> noUsage
- MTCTR reg -> usage ([reg],[])
- BCTR targets -> noUsage
- BL imm params -> usage (params, callClobberedRegs)
- BCTRL params -> usage (params, callClobberedRegs)
- ADD reg1 reg2 ri -> usage (reg2 : regRI ri, [reg1])
- ADDC reg1 reg2 reg3-> usage ([reg2,reg3], [reg1])
- ADDE reg1 reg2 reg3-> usage ([reg2,reg3], [reg1])
- ADDIS reg1 reg2 imm -> usage ([reg2], [reg1])
- SUBF reg1 reg2 reg3-> usage ([reg2,reg3], [reg1])
- MULLW reg1 reg2 ri -> usage (reg2 : regRI ri, [reg1])
- DIVW reg1 reg2 reg3-> usage ([reg2,reg3], [reg1])
- DIVWU reg1 reg2 reg3-> usage ([reg2,reg3], [reg1])
- MULLW_MayOflo reg1 reg2 reg3
- -> usage ([reg2,reg3], [reg1])
- AND reg1 reg2 ri -> usage (reg2 : regRI ri, [reg1])
- OR reg1 reg2 ri -> usage (reg2 : regRI ri, [reg1])
- XOR reg1 reg2 ri -> usage (reg2 : regRI ri, [reg1])
- XORIS reg1 reg2 imm -> usage ([reg2], [reg1])
- EXTS siz reg1 reg2 -> usage ([reg2], [reg1])
- NEG reg1 reg2 -> usage ([reg2], [reg1])
- NOT reg1 reg2 -> usage ([reg2], [reg1])
- SLW reg1 reg2 ri -> usage (reg2 : regRI ri, [reg1])
- SRW reg1 reg2 ri -> usage (reg2 : regRI ri, [reg1])
- SRAW reg1 reg2 ri -> usage (reg2 : regRI ri, [reg1])
- RLWINM reg1 reg2 sh mb me
- -> usage ([reg2], [reg1])
- FADD sz r1 r2 r3 -> usage ([r2,r3], [r1])
- FSUB sz r1 r2 r3 -> usage ([r2,r3], [r1])
- FMUL sz r1 r2 r3 -> usage ([r2,r3], [r1])
- FDIV sz r1 r2 r3 -> usage ([r2,r3], [r1])
- FNEG r1 r2 -> usage ([r2], [r1])
- FCMP r1 r2 -> usage ([r1,r2], [])
- FCTIWZ r1 r2 -> usage ([r2], [r1])
- FRSP r1 r2 -> usage ([r2], [r1])
- MFCR reg -> usage ([], [reg])
- MFLR reg -> usage ([], [reg])
- FETCHPC reg -> usage ([], [reg])
- _ -> noUsage
- where
- usage (src, dst) = RU (filter interesting src)
- (filter interesting dst)
- regAddr (AddrRegReg r1 r2) = [r1, r2]
- regAddr (AddrRegImm r1 _) = [r1]
-
- regRI (RIReg r) = [r]
- regRI _ = []
-#endif /* powerpc_TARGET_ARCH */
-
-
--- -----------------------------------------------------------------------------
--- Determine the possible destinations from the current instruction.
-
--- (we always assume that the next instruction is also a valid destination;
--- if this isn't the case then the jump should be at the end of the basic
--- block).
-
-jumpDests :: Instr -> [BlockId] -> [BlockId]
-jumpDests insn acc
- = case insn of
-#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
- JXX _ id -> id : acc
- JMP_TBL _ ids -> ids ++ acc
#elif powerpc_TARGET_ARCH
- BCC _ id -> id : acc
- BCCFAR _ id -> id : acc
- BCTR targets -> targets ++ acc
-#elif sparc_TARGET_ARCH
- BI _ _ id -> id : acc
- BF _ _ id -> id : acc
- JMP_TBL _ ids -> ids ++ acc
-#else
-#error "RegAllocInfo.jumpDests not finished"
-#endif
- _other -> acc
+import PPC.RegInfo
-
--- | Check whether a particular instruction is a jump, branch or call instruction (jumpish)
--- We can't just use jumpDests above because the jump might take its arg,
--- so the instr won't contain a blockid.
---
-isJumpish :: Instr -> Bool
-isJumpish instr
- = case instr of
-#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
- JMP{} -> True
- JXX{} -> True
- JXX_GBL{} -> True
- JMP_TBL{} -> True
- CALL{} -> True
-
-#elif powerpc_TARGET_ARCH
- BCC{} -> True
- BCCFAR{} -> True
- JMP{} -> True
-
-#elif sparc_TARGET_ARCH
- BI{} -> True
- BF{} -> True
- JMP{} -> True
- JMP_TBL{} -> True
- CALL{} -> True
-#else
-#error "RegAllocInfo.isJumpish: not implemented for this architecture"
-#endif
- _ -> False
-
-
--- | Change the destination of this jump instruction
--- Used in joinToTargets in the linear allocator, when emitting fixup code
--- for join points.
-patchJump :: Instr -> BlockId -> BlockId -> Instr
-patchJump insn old new
- = case insn of
-#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
- JXX cc id | id == old -> JXX cc new
- JMP_TBL op ids -> error "Cannot patch JMP_TBL"
-#elif powerpc_TARGET_ARCH
- BCC cc id | id == old -> BCC cc new
- BCCFAR cc id | id == old -> BCCFAR cc new
- BCTR targets -> error "Cannot patch BCTR"
#elif sparc_TARGET_ARCH
- BI cc annul id
- | id == old -> BI cc annul new
-
- BF cc annul id
- | id == old -> BF cc annul new
-#else
-#error "RegAllocInfo.patchJump not finished"
-#endif
- _other -> insn
-
-data JumpDest = DestBlockId BlockId | DestImm Imm
+import SPARC.RegInfo
-canShortcut :: Instr -> Maybe JumpDest
-#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
-canShortcut (JXX ALWAYS id) = Just (DestBlockId id)
-canShortcut (JMP (OpImm imm)) = Just (DestImm imm)
#endif
-canShortcut _ = Nothing
-shortcutJump :: (BlockId -> Maybe JumpDest) -> Instr -> Instr
-#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
-shortcutJump fn insn@(JXX cc id) =
- case fn id of
- Nothing -> insn
- Just (DestBlockId id') -> shortcutJump fn (JXX cc id')
- Just (DestImm imm) -> shortcutJump fn (JXX_GBL cc imm)
-#endif
-shortcutJump fn other = other
-- Here because it knows about JumpDest
shortcutStatic :: (BlockId -> Maybe JumpDest) -> CmmStatic -> CmmStatic
Just (DestImm (ImmCLbl lbl)) -> lbl
_other -> panic "shortBlockId"
--- -----------------------------------------------------------------------------
--- 'patchRegs' function
-
--- 'patchRegs' takes an instruction and applies the given mapping to
--- all the register references.
-
-patchRegs :: Instr -> (Reg -> Reg) -> Instr
-
-#if alpha_TARGET_ARCH
-
-patchRegs instr env = case instr of
- SPILL reg slot -> SPILL (env reg) slot
- RELOAD slot reg -> RELOAD slot (env reg)
- LD sz reg addr -> LD sz (env reg) (fixAddr addr)
- LDA reg addr -> LDA (env reg) (fixAddr addr)
- LDAH reg addr -> LDAH (env reg) (fixAddr addr)
- LDGP reg addr -> LDGP (env reg) (fixAddr addr)
- LDI sz reg imm -> LDI sz (env reg) imm
- ST sz reg addr -> ST sz (env reg) (fixAddr addr)
- CLR reg -> CLR (env reg)
- ABS sz ar reg -> ABS sz (fixRI ar) (env reg)
- NEG sz ov ar reg -> NEG sz ov (fixRI ar) (env reg)
- ADD sz ov r1 ar r2 -> ADD sz ov (env r1) (fixRI ar) (env r2)
- SADD sz sc r1 ar r2 -> SADD sz sc (env r1) (fixRI ar) (env r2)
- SUB sz ov r1 ar r2 -> SUB sz ov (env r1) (fixRI ar) (env r2)
- SSUB sz sc r1 ar r2 -> SSUB sz sc (env r1) (fixRI ar) (env r2)
- MUL sz ov r1 ar r2 -> MUL sz ov (env r1) (fixRI ar) (env r2)
- DIV sz un r1 ar r2 -> DIV sz un (env r1) (fixRI ar) (env r2)
- REM sz un r1 ar r2 -> REM sz un (env r1) (fixRI ar) (env r2)
- NOT ar reg -> NOT (fixRI ar) (env reg)
- AND r1 ar r2 -> AND (env r1) (fixRI ar) (env r2)
- ANDNOT r1 ar r2 -> ANDNOT (env r1) (fixRI ar) (env r2)
- OR r1 ar r2 -> OR (env r1) (fixRI ar) (env r2)
- ORNOT r1 ar r2 -> ORNOT (env r1) (fixRI ar) (env r2)
- XOR r1 ar r2 -> XOR (env r1) (fixRI ar) (env r2)
- XORNOT r1 ar r2 -> XORNOT (env r1) (fixRI ar) (env r2)
- SLL r1 ar r2 -> SLL (env r1) (fixRI ar) (env r2)
- SRL r1 ar r2 -> SRL (env r1) (fixRI ar) (env r2)
- SRA r1 ar r2 -> SRA (env r1) (fixRI ar) (env r2)
- ZAP r1 ar r2 -> ZAP (env r1) (fixRI ar) (env r2)
- ZAPNOT r1 ar r2 -> ZAPNOT (env r1) (fixRI ar) (env r2)
- CMP co r1 ar r2 -> CMP co (env r1) (fixRI ar) (env r2)
- FCLR reg -> FCLR (env reg)
- FABS r1 r2 -> FABS (env r1) (env r2)
- FNEG s r1 r2 -> FNEG s (env r1) (env r2)
- FADD s r1 r2 r3 -> FADD s (env r1) (env r2) (env r3)
- FDIV s r1 r2 r3 -> FDIV s (env r1) (env r2) (env r3)
- FMUL s r1 r2 r3 -> FMUL s (env r1) (env r2) (env r3)
- FSUB s r1 r2 r3 -> FSUB s (env r1) (env r2) (env r3)
- CVTxy s1 s2 r1 r2 -> CVTxy s1 s2 (env r1) (env r2)
- FCMP s co r1 r2 r3 -> FCMP s co (env r1) (env r2) (env r3)
- FMOV r1 r2 -> FMOV (env r1) (env r2)
- BI cond reg lbl -> BI cond (env reg) lbl
- BF cond reg lbl -> BF cond (env reg) lbl
- JMP reg addr hint -> JMP (env reg) (fixAddr addr) hint
- JSR reg addr i -> JSR (env reg) (fixAddr addr) i
- _ -> instr
- where
- fixAddr (AddrReg r1) = AddrReg (env r1)
- fixAddr (AddrRegImm r1 i) = AddrRegImm (env r1) i
- fixAddr other = other
-
- fixRI (RIReg r) = RIReg (env r)
- fixRI other = other
-
-#endif /* alpha_TARGET_ARCH */
--- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
-#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
-
-patchRegs instr env = case instr of
- MOV sz src dst -> patch2 (MOV sz) src 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
- 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
- IDIV sz op -> patch1 (IDIV sz) op
- DIV sz op -> patch1 (DIV sz) op
- 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
- 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 -> patch1 JMP op
- JMP_TBL op ids -> patch1 JMP_TBL op $ ids
-
-#if i386_TARGET_ARCH
- 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)
-
- 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)
-#endif
-
-#if x86_64_TARGET_ARCH
- CVTSS2SD src dst -> CVTSS2SD (env src) (env dst)
- CVTSD2SS src dst -> CVTSD2SS (env src) (env dst)
- CVTTSS2SIQ src dst -> CVTTSS2SIQ (patchOp src) (env dst)
- CVTTSD2SIQ src dst -> CVTTSD2SIQ (patchOp src) (env dst)
- CVTSI2SS src dst -> CVTSI2SS (patchOp src) (env dst)
- CVTSI2SD src dst -> CVTSI2SD (patchOp src) (env dst)
- FDIV sz src dst -> FDIV sz (patchOp src) (patchOp dst)
-#endif
-
- CALL (Left imm) _ -> instr
- CALL (Right reg) p -> CALL (Right (env reg)) p
-
- FETCHGOT reg -> FETCHGOT (env reg)
- FETCHPC reg -> FETCHPC (env reg)
-
- NOP -> instr
- COMMENT _ -> instr
- DELTA _ -> instr
- SPILL reg slot -> SPILL (env reg) slot
- RELOAD slot reg -> RELOAD slot (env reg)
-
- JXX _ _ -> instr
- JXX_GBL _ _ -> instr
- CLTD _ -> instr
-
- _other -> panic "patchRegs: unrecognised instr"
-
- where
- patch1 insn op = insn $! patchOp op
- 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
-
-#endif /* i386_TARGET_ARCH || x86_64_TARGET_ARCH*/
--- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
-#if sparc_TARGET_ARCH
-
-patchRegs instr env = case instr of
- SPILL reg slot -> SPILL (env reg) slot
- RELOAD slot reg -> RELOAD slot (env reg)
- LD sz addr reg -> LD sz (fixAddr addr) (env reg)
- ST sz reg addr -> ST sz (env reg) (fixAddr addr)
- ADD x cc r1 ar r2 -> ADD x cc (env r1) (fixRI ar) (env r2)
- SUB x cc r1 ar r2 -> SUB x cc (env r1) (fixRI ar) (env r2)
- UMUL cc r1 ar r2 -> UMUL cc (env r1) (fixRI ar) (env r2)
- SMUL cc r1 ar r2 -> SMUL cc (env r1) (fixRI ar) (env r2)
- UDIV cc r1 ar r2 -> UDIV cc (env r1) (fixRI ar) (env r2)
- SDIV cc r1 ar r2 -> SDIV cc (env r1) (fixRI ar) (env r2)
- RDY rd -> RDY (env rd)
- WRY r1 r2 -> WRY (env r1) (env r2)
- AND b r1 ar r2 -> AND b (env r1) (fixRI ar) (env r2)
- ANDN b r1 ar r2 -> ANDN b (env r1) (fixRI ar) (env r2)
- OR b r1 ar r2 -> OR b (env r1) (fixRI ar) (env r2)
- ORN b r1 ar r2 -> ORN b (env r1) (fixRI ar) (env r2)
- XOR b r1 ar r2 -> XOR b (env r1) (fixRI ar) (env r2)
- XNOR b r1 ar r2 -> XNOR b (env r1) (fixRI ar) (env r2)
- SLL r1 ar r2 -> SLL (env r1) (fixRI ar) (env r2)
- SRL r1 ar r2 -> SRL (env r1) (fixRI ar) (env r2)
- SRA r1 ar r2 -> SRA (env r1) (fixRI ar) (env r2)
- SETHI imm reg -> SETHI imm (env reg)
- FABS s r1 r2 -> FABS s (env r1) (env r2)
- FADD s r1 r2 r3 -> FADD s (env r1) (env r2) (env r3)
- FCMP e s r1 r2 -> FCMP e s (env r1) (env r2)
- FDIV s r1 r2 r3 -> FDIV s (env r1) (env r2) (env r3)
- FMOV s r1 r2 -> FMOV s (env r1) (env r2)
- FMUL s r1 r2 r3 -> FMUL s (env r1) (env r2) (env r3)
- FNEG s r1 r2 -> FNEG s (env r1) (env r2)
- FSQRT s r1 r2 -> FSQRT s (env r1) (env r2)
- FSUB s r1 r2 r3 -> FSUB s (env r1) (env r2) (env r3)
- FxTOy s1 s2 r1 r2 -> FxTOy s1 s2 (env r1) (env r2)
-
- JMP addr -> JMP (fixAddr addr)
- JMP_TBL addr ids -> JMP_TBL (fixAddr addr) ids
-
- CALL (Left i) n t -> CALL (Left i) n t
- CALL (Right r) n t -> CALL (Right (env r)) n t
- _ -> instr
- where
- fixAddr (AddrRegReg r1 r2) = AddrRegReg (env r1) (env r2)
- fixAddr (AddrRegImm r1 i) = AddrRegImm (env r1) i
-
- fixRI (RIReg r) = RIReg (env r)
- fixRI other = other
-
-#endif /* sparc_TARGET_ARCH */
--- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
-#if powerpc_TARGET_ARCH
-
-patchRegs instr env = case instr of
- SPILL reg slot -> SPILL (env reg) slot
- RELOAD slot reg -> RELOAD slot (env reg)
-
- LD sz reg addr -> LD sz (env reg) (fixAddr addr)
- LA sz reg addr -> LA sz (env reg) (fixAddr addr)
- ST sz reg addr -> ST sz (env reg) (fixAddr addr)
- STU sz reg addr -> STU sz (env reg) (fixAddr addr)
- LIS reg imm -> LIS (env reg) imm
- LI reg imm -> LI (env reg) imm
- MR reg1 reg2 -> MR (env reg1) (env reg2)
- CMP sz reg ri -> CMP sz (env reg) (fixRI ri)
- CMPL sz reg ri -> CMPL sz (env reg) (fixRI ri)
- BCC cond lbl -> BCC cond lbl
- BCCFAR cond lbl -> BCCFAR cond lbl
- MTCTR reg -> MTCTR (env reg)
- BCTR targets -> BCTR targets
- BL imm argRegs -> BL imm argRegs -- argument regs
- BCTRL argRegs -> BCTRL argRegs -- cannot be remapped
- ADD reg1 reg2 ri -> ADD (env reg1) (env reg2) (fixRI ri)
- ADDC reg1 reg2 reg3-> ADDC (env reg1) (env reg2) (env reg3)
- ADDE reg1 reg2 reg3-> ADDE (env reg1) (env reg2) (env reg3)
- ADDIS reg1 reg2 imm -> ADDIS (env reg1) (env reg2) imm
- SUBF reg1 reg2 reg3-> SUBF (env reg1) (env reg2) (env reg3)
- MULLW reg1 reg2 ri -> MULLW (env reg1) (env reg2) (fixRI ri)
- DIVW reg1 reg2 reg3-> DIVW (env reg1) (env reg2) (env reg3)
- DIVWU reg1 reg2 reg3-> DIVWU (env reg1) (env reg2) (env reg3)
- MULLW_MayOflo reg1 reg2 reg3
- -> MULLW_MayOflo (env reg1) (env reg2) (env reg3)
- AND reg1 reg2 ri -> AND (env reg1) (env reg2) (fixRI ri)
- OR reg1 reg2 ri -> OR (env reg1) (env reg2) (fixRI ri)
- XOR reg1 reg2 ri -> XOR (env reg1) (env reg2) (fixRI ri)
- XORIS reg1 reg2 imm -> XORIS (env reg1) (env reg2) imm
- EXTS sz reg1 reg2 -> EXTS sz (env reg1) (env reg2)
- NEG reg1 reg2 -> NEG (env reg1) (env reg2)
- NOT reg1 reg2 -> NOT (env reg1) (env reg2)
- SLW reg1 reg2 ri -> SLW (env reg1) (env reg2) (fixRI ri)
- SRW reg1 reg2 ri -> SRW (env reg1) (env reg2) (fixRI ri)
- SRAW reg1 reg2 ri -> SRAW (env reg1) (env reg2) (fixRI ri)
- RLWINM reg1 reg2 sh mb me
- -> RLWINM (env reg1) (env reg2) sh mb me
- FADD sz r1 r2 r3 -> FADD sz (env r1) (env r2) (env r3)
- FSUB sz r1 r2 r3 -> FSUB sz (env r1) (env r2) (env r3)
- FMUL sz r1 r2 r3 -> FMUL sz (env r1) (env r2) (env r3)
- FDIV sz r1 r2 r3 -> FDIV sz (env r1) (env r2) (env r3)
- FNEG r1 r2 -> FNEG (env r1) (env r2)
- FCMP r1 r2 -> FCMP (env r1) (env r2)
- FCTIWZ r1 r2 -> FCTIWZ (env r1) (env r2)
- FRSP r1 r2 -> FRSP (env r1) (env r2)
- MFCR reg -> MFCR (env reg)
- MFLR reg -> MFLR (env reg)
- FETCHPC reg -> FETCHPC (env reg)
- _ -> instr
- where
- fixAddr (AddrRegReg r1 r2) = AddrRegReg (env r1) (env r2)
- fixAddr (AddrRegImm r1 i) = AddrRegImm (env r1) i
-
- fixRI (RIReg r) = RIReg (env r)
- fixRI other = other
-#endif /* powerpc_TARGET_ARCH */
-
--- -----------------------------------------------------------------------------
--- Detecting reg->reg moves
-
--- The register allocator attempts to eliminate reg->reg moves whenever it can,
--- by assigning the src and dest temporaries to the same real register.
-
-isRegRegMove :: Instr -> Maybe (Reg,Reg)
-
-#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
--- TMP:
-isRegRegMove (MOV _ (OpReg r1) (OpReg r2)) = Just (r1,r2)
-
-#elif powerpc_TARGET_ARCH
-isRegRegMove (MR dst src) = Just (src,dst)
-
-#elif sparc_TARGET_ARCH
-isRegRegMove instr
- = case instr of
- ADD False False src (RIReg src2) dst
- | g0 == src2 -> Just (src, dst)
-
- FMOV FF64 src dst -> Just (src, dst)
- FMOV FF32 src dst -> Just (src, dst)
- _ -> Nothing
-#endif
-isRegRegMove _ = Nothing
-
--- -----------------------------------------------------------------------------
--- Generating spill instructions
-
-mkSpillInstr
- :: Reg -- register to spill
- -> Int -- current stack delta
- -> Int -- spill slot to use
- -> Instr
-mkSpillInstr reg delta slot
- = let off = spillSlotToOffset slot
- in
-#ifdef alpha_TARGET_ARCH
- {-Alpha: spill below the stack pointer (?)-}
- ST sz dyn (spRel (- (off `div` 8)))
-#endif
-#ifdef i386_TARGET_ARCH
- let off_w = (off-delta) `div` 4
- in case regClass reg of
- RcInteger -> MOV II32 (OpReg reg) (OpAddr (spRel off_w))
- _ -> GST FF80 reg (spRel off_w) {- RcFloat/RcDouble -}
-#endif
-#ifdef x86_64_TARGET_ARCH
- let off_w = (off-delta) `div` 8
- in case regClass reg of
- RcInteger -> MOV II64 (OpReg reg) (OpAddr (spRel off_w))
- RcDouble -> MOV FF64 (OpReg reg) (OpAddr (spRel off_w))
- -- ToDo: will it work to always spill as a double?
- -- does that cause a stall if the data was a float?
-#endif
-#ifdef sparc_TARGET_ARCH
- {-SPARC: spill below frame pointer leaving 2 words/spill-}
- let{off_w = 1 + (off `div` 4);
- sz = case regClass reg of {
- RcInteger -> II32;
- RcFloat -> FF32;
- RcDouble -> FF64;}}
- in ST sz reg (fpRel (negate off_w))
-#endif
-#ifdef powerpc_TARGET_ARCH
- let sz = case regClass reg of
- RcInteger -> II32
- RcDouble -> FF64
- in ST sz reg (AddrRegImm sp (ImmInt (off-delta)))
-#endif
-
-
-mkLoadInstr
- :: Reg -- register to load
- -> Int -- current stack delta
- -> Int -- spill slot to use
- -> Instr
-mkLoadInstr reg delta slot
- = let off = spillSlotToOffset slot
- in
-#if alpha_TARGET_ARCH
- LD sz dyn (spRel (- (off `div` 8)))
-#endif
-#if i386_TARGET_ARCH
- let off_w = (off-delta) `div` 4
- in case regClass reg of {
- RcInteger -> MOV II32 (OpAddr (spRel off_w)) (OpReg reg);
- _ -> GLD FF80 (spRel off_w) reg} {- RcFloat/RcDouble -}
-#endif
-#if x86_64_TARGET_ARCH
- let off_w = (off-delta) `div` 8
- in case regClass reg of
- RcInteger -> MOV II64 (OpAddr (spRel off_w)) (OpReg reg)
- _ -> MOV FF64 (OpAddr (spRel off_w)) (OpReg reg)
-#endif
-#if sparc_TARGET_ARCH
- let{off_w = 1 + (off `div` 4);
- sz = case regClass reg of {
- RcInteger -> II32;
- RcFloat -> FF32;
- RcDouble -> FF64}}
- in LD sz (fpRel (- off_w)) reg
-#endif
-#if powerpc_TARGET_ARCH
- let sz = case regClass reg of
- RcInteger -> II32
- RcDouble -> FF64
- in LD sz reg (AddrRegImm sp (ImmInt (off-delta)))
-#endif
-
-mkRegRegMoveInstr
- :: Reg
- -> Reg
- -> Instr
-mkRegRegMoveInstr src dst
-#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
- = case regClass src of
- RcInteger -> MOV wordSize (OpReg src) (OpReg dst)
-#if i386_TARGET_ARCH
- RcDouble -> GMOV src dst
-#else
- RcDouble -> MOV FF64 (OpReg src) (OpReg dst)
-#endif
-#elif powerpc_TARGET_ARCH
- = MR dst src
-#elif sparc_TARGET_ARCH
- = case regClass src of
- RcInteger -> ADD False False src (RIReg g0) dst
- RcDouble -> FMOV FF64 src dst
- RcFloat -> FMOV FF32 src dst
-#else
-#error ToDo: mkRegRegMoveInstr
-#endif
-
-mkBranchInstr
- :: BlockId
- -> [Instr]
-#if alpha_TARGET_ARCH
-mkBranchInstr id = [BR id]
-#endif
-
-#if i386_TARGET_ARCH || x86_64_TARGET_ARCH
-mkBranchInstr id = [JXX ALWAYS id]
-#endif
-
-#if sparc_TARGET_ARCH
-mkBranchInstr id = [BI ALWAYS False id, NOP]
-#endif
-
-#if powerpc_TARGET_ARCH
-mkBranchInstr id = [BCC ALWAYS id]
-#endif
-spillSlotSize :: Int
-spillSlotSize = IF_ARCH_i386(12, 8)
-maxSpillSlots :: Int
-maxSpillSlots = ((rESERVED_C_STACK_BYTES - 64) `div` spillSlotSize) - 1
--- convert a spill slot number to a *byte* offset, with no sign:
--- decide on a per arch basis whether you are spilling above or below
--- the C stack pointer.
-spillSlotToOffset :: Int -> Int
-spillSlotToOffset slot
- | slot >= 0 && slot < maxSpillSlots
- = 64 + spillSlotSize * slot
- | otherwise
- = pprPanic "spillSlotToOffset:"
- ( text "invalid spill location: " <> int slot
- $$ text "maxSpillSlots: " <> int maxSpillSlots)
projects / ghc-hetmet.git / blobdiff