module PPC.Regs (
virtualRegSqueeze,
realRegSqueeze,
mkVirtualReg,
regDotColor,
Imm(..),
strImmLit,
litToImm,
AddrMode(..),
addrOffset,
spRel,
argRegs,
allArgRegs,
callClobberedRegs,
allMachRegNos,
classOfRealReg,
showReg,
allFPArgRegs,
fits16Bits,
makeImmediate,
fReg,
r0, sp, r3, r4, r27, r28, r30,
tmpReg,
f1, f20, f21,
allocatableRegs
)
where
#include "nativeGen/NCG.h"
#include "HsVersions.h"
import Reg
import RegClass
import Size
import Cmm
import CLabel ( CLabel )
import Unique
import CodeGen.Platform
import DynFlags
import Outputable
import FastBool
import FastTypes
import Platform
import Data.Word ( Word8, Word16, Word32 )
import Data.Int ( Int8, Int16, Int32 )
virtualRegSqueeze :: RegClass -> VirtualReg -> FastInt
virtualRegSqueeze cls vr
= case cls of
RcInteger
-> case vr of
VirtualRegI{} -> _ILIT(1)
VirtualRegHi{} -> _ILIT(1)
_other -> _ILIT(0)
RcDouble
-> case vr of
VirtualRegD{} -> _ILIT(1)
VirtualRegF{} -> _ILIT(0)
_other -> _ILIT(0)
_other -> _ILIT(0)
realRegSqueeze :: RegClass -> RealReg -> FastInt
realRegSqueeze cls rr
= case cls of
RcInteger
-> case rr of
RealRegSingle regNo
| regNo < 32 -> _ILIT(1)
| otherwise -> _ILIT(0)
RealRegPair{} -> _ILIT(0)
RcDouble
-> case rr of
RealRegSingle regNo
| regNo < 32 -> _ILIT(0)
| otherwise -> _ILIT(1)
RealRegPair{} -> _ILIT(0)
_other -> _ILIT(0)
mkVirtualReg :: Unique -> Size -> VirtualReg
mkVirtualReg u size
| not (isFloatSize size) = VirtualRegI u
| otherwise
= case size of
FF32 -> VirtualRegD u
FF64 -> VirtualRegD u
_ -> panic "mkVirtualReg"
regDotColor :: RealReg -> SDoc
regDotColor reg
= case classOfRealReg reg of
RcInteger -> text "blue"
RcFloat -> text "red"
RcDouble -> text "green"
RcDoubleSSE -> text "yellow"
data Imm
= ImmInt Int
| ImmInteger Integer
| ImmCLbl CLabel
| ImmLit SDoc
| ImmIndex CLabel Int
| ImmFloat Rational
| ImmDouble Rational
| ImmConstantSum Imm Imm
| ImmConstantDiff Imm Imm
| LO Imm
| HI Imm
| HA Imm
strImmLit :: String -> Imm
strImmLit s = ImmLit (text s)
litToImm :: CmmLit -> Imm
litToImm (CmmInt i w) = ImmInteger (narrowS w i)
litToImm (CmmFloat f W32) = ImmFloat f
litToImm (CmmFloat f W64) = ImmDouble f
litToImm (CmmLabel l) = ImmCLbl l
litToImm (CmmLabelOff l off) = ImmIndex l off
litToImm (CmmLabelDiffOff l1 l2 off)
= ImmConstantSum
(ImmConstantDiff (ImmCLbl l1) (ImmCLbl l2))
(ImmInt off)
litToImm _ = panic "PPC.Regs.litToImm: no match"
data AddrMode
= AddrRegReg Reg Reg
| AddrRegImm Reg Imm
addrOffset :: AddrMode -> Int -> Maybe AddrMode
addrOffset addr off
= case addr of
AddrRegImm r (ImmInt n)
| fits16Bits n2 -> Just (AddrRegImm r (ImmInt n2))
| otherwise -> Nothing
where n2 = n + off
AddrRegImm r (ImmInteger n)
| fits16Bits n2 -> Just (AddrRegImm r (ImmInt (fromInteger n2)))
| otherwise -> Nothing
where n2 = n + toInteger off
_ -> Nothing
spRel :: DynFlags
-> Int
-> AddrMode
spRel dflags n = AddrRegImm sp (ImmInt (n * wORD_SIZE dflags))
argRegs :: RegNo -> [Reg]
argRegs 0 = []
argRegs 1 = map regSingle [3]
argRegs 2 = map regSingle [3,4]
argRegs 3 = map regSingle [3..5]
argRegs 4 = map regSingle [3..6]
argRegs 5 = map regSingle [3..7]
argRegs 6 = map regSingle [3..8]
argRegs 7 = map regSingle [3..9]
argRegs 8 = map regSingle [3..10]
argRegs _ = panic "MachRegs.argRegs(powerpc): don't know about >8 arguments!"
allArgRegs :: [Reg]
allArgRegs = map regSingle [3..10]
callClobberedRegs :: Platform -> [Reg]
callClobberedRegs platform
= case platformOS platform of
OSDarwin -> map regSingle (0:[2..12] ++ map fReg [0..13])
OSLinux -> map regSingle (0:[2..13] ++ map fReg [0..13])
_ -> panic "PPC.Regs.callClobberedRegs: not defined for this architecture"
allMachRegNos :: [RegNo]
allMachRegNos = [0..63]
classOfRealReg :: RealReg -> RegClass
classOfRealReg (RealRegSingle i)
| i < 32 = RcInteger
| otherwise = RcDouble
classOfRealReg (RealRegPair{})
= panic "regClass(ppr): no reg pairs on this architecture"
showReg :: RegNo -> String
showReg n
| n >= 0 && n <= 31 = "%r" ++ show n
| n >= 32 && n <= 63 = "%f" ++ show (n 32)
| otherwise = "%unknown_powerpc_real_reg_" ++ show n
allFPArgRegs :: Platform -> [Reg]
allFPArgRegs platform
= case platformOS platform of
OSDarwin -> map (regSingle . fReg) [1..13]
OSLinux -> map (regSingle . fReg) [1..8]
_ -> panic "PPC.Regs.allFPArgRegs: not defined for this architecture"
fits16Bits :: Integral a => a -> Bool
fits16Bits x = x >= 32768 && x < 32768
makeImmediate :: Integral a => Width -> Bool -> a -> Maybe Imm
makeImmediate rep signed x = fmap ImmInt (toI16 rep signed)
where
narrow W32 False = fromIntegral (fromIntegral x :: Word32)
narrow W16 False = fromIntegral (fromIntegral x :: Word16)
narrow W8 False = fromIntegral (fromIntegral x :: Word8)
narrow W32 True = fromIntegral (fromIntegral x :: Int32)
narrow W16 True = fromIntegral (fromIntegral x :: Int16)
narrow W8 True = fromIntegral (fromIntegral x :: Int8)
narrow _ _ = panic "PPC.Regs.narrow: no match"
narrowed = narrow rep signed
toI16 W32 True
| narrowed >= 32768 && narrowed < 32768 = Just narrowed
| otherwise = Nothing
toI16 W32 False
| narrowed >= 0 && narrowed < 65536 = Just narrowed
| otherwise = Nothing
toI16 _ _ = Just narrowed
fReg :: Int -> RegNo
fReg x = (32 + x)
r0, sp, r3, r4, r27, r28, r30, f1, f20, f21 :: Reg
r0 = regSingle 0
sp = regSingle 1
r3 = regSingle 3
r4 = regSingle 4
r27 = regSingle 27
r28 = regSingle 28
r30 = regSingle 30
f1 = regSingle $ fReg 1
f20 = regSingle $ fReg 20
f21 = regSingle $ fReg 21
allocatableRegs :: Platform -> [RealReg]
allocatableRegs platform
= let isFree i = isFastTrue (freeReg platform i)
in map RealRegSingle $ filter isFree allMachRegNos
tmpReg :: Platform -> Reg
tmpReg platform =
case platformArch platform of
ArchPPC -> regSingle 13
_ -> panic "PPC.Regs.tmpReg: unknowm arch"