import CmmExpr import FastBool #if !(MACHREGS_i386 || MACHREGS_x86_64 || MACHREGS_sparc || MACHREGS_powerpc) import Panic #endif import Reg #include "ghcautoconf.h" #include "stg/MachRegs.h" #if MACHREGS_i386 || MACHREGS_x86_64 # if MACHREGS_i386 # define eax 0 # define ebx 1 # define ecx 2 # define edx 3 # define esi 4 # define edi 5 # define ebp 6 # define esp 7 # endif # if MACHREGS_x86_64 # define rax 0 # define rbx 1 # define rcx 2 # define rdx 3 # define rsi 4 # define rdi 5 # define rbp 6 # define rsp 7 # define r8 8 # define r9 9 # define r10 10 # define r11 11 # define r12 12 # define r13 13 # define r14 14 # define r15 15 # endif # define fake0 16 # define fake1 17 # define fake2 18 # define fake3 19 # define fake4 20 # define fake5 21 # define xmm0 24 # define xmm1 25 # define xmm2 26 # define xmm3 27 # define xmm4 28 # define xmm5 29 # define xmm6 30 # define xmm7 31 # define xmm8 32 # define xmm9 33 # define xmm10 34 # define xmm11 35 # define xmm12 36 # define xmm13 37 # define xmm14 38 # define xmm15 39 # define ymm0 40 # define ymm1 41 # define ymm2 42 # define ymm3 43 # define ymm4 44 # define ymm5 45 # define ymm6 46 # define ymm7 47 # define ymm8 48 # define ymm9 49 # define ymm10 50 # define ymm11 51 # define ymm12 52 # define ymm13 53 # define ymm14 54 # define ymm15 55 # define zmm0 56 # define zmm1 57 # define zmm2 58 # define zmm3 59 # define zmm4 60 # define zmm5 61 # define zmm6 62 # define zmm7 63 # define zmm8 64 # define zmm9 65 # define zmm10 66 # define zmm11 67 # define zmm12 68 # define zmm13 69 # define zmm14 70 # define zmm15 71 #elif MACHREGS_powerpc # define r0 0 # define r1 1 # define r2 2 # define r3 3 # define r4 4 # define r5 5 # define r6 6 # define r7 7 # define r8 8 # define r9 9 # define r10 10 # define r11 11 # define r12 12 # define r13 13 # define r14 14 # define r15 15 # define r16 16 # define r17 17 # define r18 18 # define r19 19 # define r20 20 # define r21 21 # define r22 22 # define r23 23 # define r24 24 # define r25 25 # define r26 26 # define r27 27 # define r28 28 # define r29 29 # define r30 30 # define r31 31 # if MACHREGS_darwin # define f0 32 # define f1 33 # define f2 34 # define f3 35 # define f4 36 # define f5 37 # define f6 38 # define f7 39 # define f8 40 # define f9 41 # define f10 42 # define f11 43 # define f12 44 # define f13 45 # define f14 46 # define f15 47 # define f16 48 # define f17 49 # define f18 50 # define f19 51 # define f20 52 # define f21 53 # define f22 54 # define f23 55 # define f24 56 # define f25 57 # define f26 58 # define f27 59 # define f28 60 # define f29 61 # define f30 62 # define f31 63 # else # define fr0 32 # define fr1 33 # define fr2 34 # define fr3 35 # define fr4 36 # define fr5 37 # define fr6 38 # define fr7 39 # define fr8 40 # define fr9 41 # define fr10 42 # define fr11 43 # define fr12 44 # define fr13 45 # define fr14 46 # define fr15 47 # define fr16 48 # define fr17 49 # define fr18 50 # define fr19 51 # define fr20 52 # define fr21 53 # define fr22 54 # define fr23 55 # define fr24 56 # define fr25 57 # define fr26 58 # define fr27 59 # define fr28 60 # define fr29 61 # define fr30 62 # define fr31 63 # endif #elif MACHREGS_sparc # define g0 0 # define g1 1 # define g2 2 # define g3 3 # define g4 4 # define g5 5 # define g6 6 # define g7 7 # define o0 8 # define o1 9 # define o2 10 # define o3 11 # define o4 12 # define o5 13 # define o6 14 # define o7 15 # define l0 16 # define l1 17 # define l2 18 # define l3 19 # define l4 20 # define l5 21 # define l6 22 # define l7 23 # define i0 24 # define i1 25 # define i2 26 # define i3 27 # define i4 28 # define i5 29 # define i6 30 # define i7 31 # define f0 32 # define f1 33 # define f2 34 # define f3 35 # define f4 36 # define f5 37 # define f6 38 # define f7 39 # define f8 40 # define f9 41 # define f10 42 # define f11 43 # define f12 44 # define f13 45 # define f14 46 # define f15 47 # define f16 48 # define f17 49 # define f18 50 # define f19 51 # define f20 52 # define f21 53 # define f22 54 # define f23 55 # define f24 56 # define f25 57 # define f26 58 # define f27 59 # define f28 60 # define f29 61 # define f30 62 # define f31 63 #endif callerSaves :: GlobalReg -> Bool #ifdef CALLER_SAVES_Base callerSaves BaseReg = True #endif #ifdef CALLER_SAVES_R1 callerSaves (VanillaReg 1 _) = True #endif #ifdef CALLER_SAVES_R2 callerSaves (VanillaReg 2 _) = True #endif #ifdef CALLER_SAVES_R3 callerSaves (VanillaReg 3 _) = True #endif #ifdef CALLER_SAVES_R4 callerSaves (VanillaReg 4 _) = True #endif #ifdef CALLER_SAVES_R5 callerSaves (VanillaReg 5 _) = True #endif #ifdef CALLER_SAVES_R6 callerSaves (VanillaReg 6 _) = True #endif #ifdef CALLER_SAVES_R7 callerSaves (VanillaReg 7 _) = True #endif #ifdef CALLER_SAVES_R8 callerSaves (VanillaReg 8 _) = True #endif #ifdef CALLER_SAVES_R9 callerSaves (VanillaReg 9 _) = True #endif #ifdef CALLER_SAVES_R10 callerSaves (VanillaReg 10 _) = True #endif #ifdef CALLER_SAVES_F1 callerSaves (FloatReg 1) = True #endif #ifdef CALLER_SAVES_F2 callerSaves (FloatReg 2) = True #endif #ifdef CALLER_SAVES_F3 callerSaves (FloatReg 3) = True #endif #ifdef CALLER_SAVES_F4 callerSaves (FloatReg 4) = True #endif #ifdef CALLER_SAVES_F5 callerSaves (FloatReg 5) = True #endif #ifdef CALLER_SAVES_F6 callerSaves (FloatReg 6) = True #endif #ifdef CALLER_SAVES_D1 callerSaves (DoubleReg 1) = True #endif #ifdef CALLER_SAVES_D2 callerSaves (DoubleReg 2) = True #endif #ifdef CALLER_SAVES_D3 callerSaves (DoubleReg 3) = True #endif #ifdef CALLER_SAVES_D4 callerSaves (DoubleReg 4) = True #endif #ifdef CALLER_SAVES_D5 callerSaves (DoubleReg 5) = True #endif #ifdef CALLER_SAVES_D6 callerSaves (DoubleReg 6) = True #endif #ifdef CALLER_SAVES_L1 callerSaves (LongReg 1) = True #endif #ifdef CALLER_SAVES_Sp callerSaves Sp = True #endif #ifdef CALLER_SAVES_SpLim callerSaves SpLim = True #endif #ifdef CALLER_SAVES_Hp callerSaves Hp = True #endif #ifdef CALLER_SAVES_HpLim callerSaves HpLim = True #endif #ifdef CALLER_SAVES_CCCS callerSaves CCCS = True #endif #ifdef CALLER_SAVES_CurrentTSO callerSaves CurrentTSO = True #endif #ifdef CALLER_SAVES_CurrentNursery callerSaves CurrentNursery = True #endif callerSaves _ = False activeStgRegs :: [GlobalReg] activeStgRegs = [ #ifdef REG_Base BaseReg #endif #ifdef REG_Sp ,Sp #endif #ifdef REG_Hp ,Hp #endif #ifdef REG_R1 ,VanillaReg 1 VGcPtr #endif #ifdef REG_R2 ,VanillaReg 2 VGcPtr #endif #ifdef REG_R3 ,VanillaReg 3 VGcPtr #endif #ifdef REG_R4 ,VanillaReg 4 VGcPtr #endif #ifdef REG_R5 ,VanillaReg 5 VGcPtr #endif #ifdef REG_R6 ,VanillaReg 6 VGcPtr #endif #ifdef REG_R7 ,VanillaReg 7 VGcPtr #endif #ifdef REG_R8 ,VanillaReg 8 VGcPtr #endif #ifdef REG_R9 ,VanillaReg 9 VGcPtr #endif #ifdef REG_R10 ,VanillaReg 10 VGcPtr #endif #ifdef REG_SpLim ,SpLim #endif #if MAX_REAL_XMM_REG != 0 #ifdef REG_F1 ,FloatReg 1 #endif #ifdef REG_D1 ,DoubleReg 1 #endif #ifdef REG_XMM1 ,XmmReg 1 #endif #ifdef REG_YMM1 ,YmmReg 1 #endif #ifdef REG_ZMM1 ,ZmmReg 1 #endif #ifdef REG_F2 ,FloatReg 2 #endif #ifdef REG_D2 ,DoubleReg 2 #endif #ifdef REG_XMM2 ,XmmReg 2 #endif #ifdef REG_YMM2 ,YmmReg 2 #endif #ifdef REG_ZMM2 ,ZmmReg 2 #endif #ifdef REG_F3 ,FloatReg 3 #endif #ifdef REG_D3 ,DoubleReg 3 #endif #ifdef REG_XMM3 ,XmmReg 3 #endif #ifdef REG_YMM3 ,YmmReg 3 #endif #ifdef REG_ZMM3 ,ZmmReg 3 #endif #ifdef REG_F4 ,FloatReg 4 #endif #ifdef REG_D4 ,DoubleReg 4 #endif #ifdef REG_XMM4 ,XmmReg 4 #endif #ifdef REG_YMM4 ,YmmReg 4 #endif #ifdef REG_ZMM4 ,ZmmReg 4 #endif #ifdef REG_F5 ,FloatReg 5 #endif #ifdef REG_D5 ,DoubleReg 5 #endif #ifdef REG_XMM5 ,XmmReg 5 #endif #ifdef REG_YMM5 ,YmmReg 5 #endif #ifdef REG_ZMM5 ,ZmmReg 5 #endif #ifdef REG_F6 ,FloatReg 6 #endif #ifdef REG_D6 ,DoubleReg 6 #endif #ifdef REG_XMM6 ,XmmReg 6 #endif #ifdef REG_YMM6 ,YmmReg 6 #endif #ifdef REG_ZMM6 ,ZmmReg 6 #endif #else /* MAX_REAL_XMM_REG == 0 */ #ifdef REG_F1 ,FloatReg 1 #endif #ifdef REG_F2 ,FloatReg 2 #endif #ifdef REG_F3 ,FloatReg 3 #endif #ifdef REG_F4 ,FloatReg 4 #endif #ifdef REG_F5 ,FloatReg 5 #endif #ifdef REG_F6 ,FloatReg 6 #endif #ifdef REG_D1 ,DoubleReg 1 #endif #ifdef REG_D2 ,DoubleReg 2 #endif #ifdef REG_D3 ,DoubleReg 3 #endif #ifdef REG_D4 ,DoubleReg 4 #endif #ifdef REG_D5 ,DoubleReg 5 #endif #ifdef REG_D6 ,DoubleReg 6 #endif #endif /* MAX_REAL_XMM_REG == 0 */ ] haveRegBase :: Bool #ifdef REG_Base haveRegBase = True #else haveRegBase = False #endif -- | Returns 'Nothing' if this global register is not stored -- in a real machine register, otherwise returns @'Just' reg@, where -- reg is the machine register it is stored in. globalRegMaybe :: GlobalReg -> Maybe RealReg #if MACHREGS_i386 || MACHREGS_x86_64 || MACHREGS_sparc || MACHREGS_powerpc # ifdef REG_Base globalRegMaybe BaseReg = Just (RealRegSingle REG_Base) # endif # ifdef REG_R1 globalRegMaybe (VanillaReg 1 _) = Just (RealRegSingle REG_R1) # endif # ifdef REG_R2 globalRegMaybe (VanillaReg 2 _) = Just (RealRegSingle REG_R2) # endif # ifdef REG_R3 globalRegMaybe (VanillaReg 3 _) = Just (RealRegSingle REG_R3) # endif # ifdef REG_R4 globalRegMaybe (VanillaReg 4 _) = Just (RealRegSingle REG_R4) # endif # ifdef REG_R5 globalRegMaybe (VanillaReg 5 _) = Just (RealRegSingle REG_R5) # endif # ifdef REG_R6 globalRegMaybe (VanillaReg 6 _) = Just (RealRegSingle REG_R6) # endif # ifdef REG_R7 globalRegMaybe (VanillaReg 7 _) = Just (RealRegSingle REG_R7) # endif # ifdef REG_R8 globalRegMaybe (VanillaReg 8 _) = Just (RealRegSingle REG_R8) # endif # ifdef REG_R9 globalRegMaybe (VanillaReg 9 _) = Just (RealRegSingle REG_R9) # endif # ifdef REG_R10 globalRegMaybe (VanillaReg 10 _) = Just (RealRegSingle REG_R10) # endif # ifdef REG_F1 globalRegMaybe (FloatReg 1) = Just (RealRegSingle REG_F1) # endif # ifdef REG_F2 globalRegMaybe (FloatReg 2) = Just (RealRegSingle REG_F2) # endif # ifdef REG_F3 globalRegMaybe (FloatReg 3) = Just (RealRegSingle REG_F3) # endif # ifdef REG_F4 globalRegMaybe (FloatReg 4) = Just (RealRegSingle REG_F4) # endif # ifdef REG_F5 globalRegMaybe (FloatReg 5) = Just (RealRegSingle REG_F5) # endif # ifdef REG_F6 globalRegMaybe (FloatReg 6) = Just (RealRegSingle REG_F6) # endif # ifdef REG_D1 globalRegMaybe (DoubleReg 1) = # if MACHREGS_sparc Just (RealRegPair REG_D1 (REG_D1 + 1)) # else Just (RealRegSingle REG_D1) # endif # endif # ifdef REG_D2 globalRegMaybe (DoubleReg 2) = # if MACHREGS_sparc Just (RealRegPair REG_D2 (REG_D2 + 1)) # else Just (RealRegSingle REG_D2) # endif # endif # ifdef REG_D3 globalRegMaybe (DoubleReg 3) = # if MACHREGS_sparc Just (RealRegPair REG_D3 (REG_D3 + 1)) # else Just (RealRegSingle REG_D3) # endif # endif # ifdef REG_D4 globalRegMaybe (DoubleReg 4) = # if MACHREGS_sparc Just (RealRegPair REG_D4 (REG_D4 + 1)) # else Just (RealRegSingle REG_D4) # endif # endif # ifdef REG_D5 globalRegMaybe (DoubleReg 5) = # if MACHREGS_sparc Just (RealRegPair REG_D5 (REG_D5 + 1)) # else Just (RealRegSingle REG_D5) # endif # endif # ifdef REG_D6 globalRegMaybe (DoubleReg 6) = # if MACHREGS_sparc Just (RealRegPair REG_D6 (REG_D6 + 1)) # else Just (RealRegSingle REG_D6) # endif # endif # if MAX_REAL_XMM_REG != 0 # ifdef REG_XMM1 globalRegMaybe (XmmReg 1) = Just (RealRegSingle REG_XMM1) # endif # ifdef REG_XMM2 globalRegMaybe (XmmReg 2) = Just (RealRegSingle REG_XMM2) # endif # ifdef REG_XMM3 globalRegMaybe (XmmReg 3) = Just (RealRegSingle REG_XMM3) # endif # ifdef REG_XMM4 globalRegMaybe (XmmReg 4) = Just (RealRegSingle REG_XMM4) # endif # ifdef REG_XMM5 globalRegMaybe (XmmReg 5) = Just (RealRegSingle REG_XMM5) # endif # ifdef REG_XMM6 globalRegMaybe (XmmReg 6) = Just (RealRegSingle REG_XMM6) # endif # endif # if MAX_REAL_YMM_REG != 0 # ifdef REG_YMM1 globalRegMaybe (YmmReg 1) = Just (RealRegSingle REG_YMM1) # endif # ifdef REG_YMM2 globalRegMaybe (YmmReg 2) = Just (RealRegSingle REG_YMM2) # endif # ifdef REG_YMM3 globalRegMaybe (YmmReg 3) = Just (RealRegSingle REG_YMM3) # endif # ifdef REG_YMM4 globalRegMaybe (YmmReg 4) = Just (RealRegSingle REG_YMM4) # endif # ifdef REG_YMM5 globalRegMaybe (YmmReg 5) = Just (RealRegSingle REG_YMM5) # endif # ifdef REG_YMM6 globalRegMaybe (YmmReg 6) = Just (RealRegSingle REG_YMM6) # endif # endif # if MAX_REAL_ZMM_REG != 0 # ifdef REG_ZMM1 globalRegMaybe (ZmmReg 1) = Just (RealRegSingle REG_ZMM1) # endif # ifdef REG_ZMM2 globalRegMaybe (ZmmReg 2) = Just (RealRegSingle REG_ZMM2) # endif # ifdef REG_ZMM3 globalRegMaybe (ZmmReg 3) = Just (RealRegSingle REG_ZMM3) # endif # ifdef REG_ZMM4 globalRegMaybe (ZmmReg 4) = Just (RealRegSingle REG_ZMM4) # endif # ifdef REG_ZMM5 globalRegMaybe (ZmmReg 5) = Just (RealRegSingle REG_ZMM5) # endif # ifdef REG_ZMM6 globalRegMaybe (ZmmReg 6) = Just (RealRegSingle REG_ZMM6) # endif # endif # ifdef REG_Sp globalRegMaybe Sp = Just (RealRegSingle REG_Sp) # endif # ifdef REG_Lng1 globalRegMaybe (LongReg 1) = Just (RealRegSingle REG_Lng1) # endif # ifdef REG_Lng2 globalRegMaybe (LongReg 2) = Just (RealRegSingle REG_Lng2) # endif # ifdef REG_SpLim globalRegMaybe SpLim = Just (RealRegSingle REG_SpLim) # endif # ifdef REG_Hp globalRegMaybe Hp = Just (RealRegSingle REG_Hp) # endif # ifdef REG_HpLim globalRegMaybe HpLim = Just (RealRegSingle REG_HpLim) # endif # ifdef REG_CurrentTSO globalRegMaybe CurrentTSO = Just (RealRegSingle REG_CurrentTSO) # endif # ifdef REG_CurrentNursery globalRegMaybe CurrentNursery = Just (RealRegSingle REG_CurrentNursery) # endif globalRegMaybe _ = Nothing #elif MACHREGS_NO_REGS globalRegMaybe _ = Nothing #else globalRegMaybe = panic "globalRegMaybe not defined for this platform" #endif freeReg :: RegNo -> FastBool #if MACHREGS_i386 || MACHREGS_x86_64 # if MACHREGS_i386 freeReg esp = fastBool False -- %esp is the C stack pointer freeReg esi = fastBool False -- Note [esi/edi not allocatable] freeReg edi = fastBool False # endif # if MACHREGS_x86_64 freeReg rsp = fastBool False -- %rsp is the C stack pointer # endif {- Note [esi/edi not allocatable] %esi is mapped to R1, so %esi would normally be allocatable while it is not being used for R1. However, %esi has no 8-bit version on x86, and the linear register allocator is not sophisticated enough to handle this irregularity (we need more RegClasses). The graph-colouring allocator also cannot handle this - it was designed with more flexibility in mind, but the current implementation is restricted to the same set of classes as the linear allocator. Hence, on x86 esi and edi are treated as not allocatable. -} -- split patterns in two functions to prevent overlaps freeReg r = freeRegBase r freeRegBase :: RegNo -> FastBool # ifdef REG_Base freeRegBase REG_Base = fastBool False # endif # ifdef REG_Sp freeRegBase REG_Sp = fastBool False # endif # ifdef REG_SpLim freeRegBase REG_SpLim = fastBool False # endif # ifdef REG_Hp freeRegBase REG_Hp = fastBool False # endif # ifdef REG_HpLim freeRegBase REG_HpLim = fastBool False # endif -- All other regs are considered to be "free", because we can track -- their liveness accurately. freeRegBase _ = fastBool True #elif MACHREGS_powerpc freeReg 0 = fastBool False -- Hack: r0 can't be used in all insns, -- but it's actually free freeReg 1 = fastBool False -- The Stack Pointer # if !MACHREGS_darwin -- most non-darwin powerpc OSes use r2 as a TOC pointer or something like that freeReg 2 = fastBool False # endif # ifdef REG_Base freeReg REG_Base = fastBool False # endif # ifdef REG_R1 freeReg REG_R1 = fastBool False # endif # ifdef REG_R2 freeReg REG_R2 = fastBool False # endif # ifdef REG_R3 freeReg REG_R3 = fastBool False # endif # ifdef REG_R4 freeReg REG_R4 = fastBool False # endif # ifdef REG_R5 freeReg REG_R5 = fastBool False # endif # ifdef REG_R6 freeReg REG_R6 = fastBool False # endif # ifdef REG_R7 freeReg REG_R7 = fastBool False # endif # ifdef REG_R8 freeReg REG_R8 = fastBool False # endif # ifdef REG_R9 freeReg REG_R9 = fastBool False # endif # ifdef REG_R10 freeReg REG_R10 = fastBool False # endif # ifdef REG_F1 freeReg REG_F1 = fastBool False # endif # ifdef REG_F2 freeReg REG_F2 = fastBool False # endif # ifdef REG_F3 freeReg REG_F3 = fastBool False # endif # ifdef REG_F4 freeReg REG_F4 = fastBool False # endif # ifdef REG_F5 freeReg REG_F5 = fastBool False # endif # ifdef REG_F6 freeReg REG_F6 = fastBool False # endif # ifdef REG_D1 freeReg REG_D1 = fastBool False # endif # ifdef REG_D2 freeReg REG_D2 = fastBool False # endif # ifdef REG_D3 freeReg REG_D3 = fastBool False # endif # ifdef REG_D4 freeReg REG_D4 = fastBool False # endif # ifdef REG_D5 freeReg REG_D5 = fastBool False # endif # ifdef REG_D6 freeReg REG_D6 = fastBool False # endif # ifdef REG_Sp freeReg REG_Sp = fastBool False # endif # ifdef REG_Su freeReg REG_Su = fastBool False # endif # ifdef REG_SpLim freeReg REG_SpLim = fastBool False # endif # ifdef REG_Hp freeReg REG_Hp = fastBool False # endif # ifdef REG_HpLim freeReg REG_HpLim = fastBool False # endif freeReg _ = fastBool True #elif MACHREGS_sparc -- SPARC regs used by the OS / ABI -- %g0(r0) is always zero freeReg g0 = fastBool False -- %g5(r5) - %g7(r7) -- are reserved for the OS freeReg g5 = fastBool False freeReg g6 = fastBool False freeReg g7 = fastBool False -- %o6(r14) -- is the C stack pointer freeReg o6 = fastBool False -- %o7(r15) -- holds the C return address freeReg o7 = fastBool False -- %i6(r30) -- is the C frame pointer freeReg i6 = fastBool False -- %i7(r31) -- is used for C return addresses freeReg i7 = fastBool False -- %f0(r32) - %f1(r32) -- are C floating point return regs freeReg f0 = fastBool False freeReg f1 = fastBool False {- freeReg regNo -- don't release high half of double regs | regNo >= f0 , regNo < NCG_FirstFloatReg , regNo `mod` 2 /= 0 = fastBool False -} # ifdef REG_Base freeReg REG_Base = fastBool False # endif # ifdef REG_R1 freeReg REG_R1 = fastBool False # endif # ifdef REG_R2 freeReg REG_R2 = fastBool False # endif # ifdef REG_R3 freeReg REG_R3 = fastBool False # endif # ifdef REG_R4 freeReg REG_R4 = fastBool False # endif # ifdef REG_R5 freeReg REG_R5 = fastBool False # endif # ifdef REG_R6 freeReg REG_R6 = fastBool False # endif # ifdef REG_R7 freeReg REG_R7 = fastBool False # endif # ifdef REG_R8 freeReg REG_R8 = fastBool False # endif # ifdef REG_R9 freeReg REG_R9 = fastBool False # endif # ifdef REG_R10 freeReg REG_R10 = fastBool False # endif # ifdef REG_F1 freeReg REG_F1 = fastBool False # endif # ifdef REG_F2 freeReg REG_F2 = fastBool False # endif # ifdef REG_F3 freeReg REG_F3 = fastBool False # endif # ifdef REG_F4 freeReg REG_F4 = fastBool False # endif # ifdef REG_F5 freeReg REG_F5 = fastBool False # endif # ifdef REG_F6 freeReg REG_F6 = fastBool False # endif # ifdef REG_D1 freeReg REG_D1 = fastBool False # endif # ifdef REG_D1_2 freeReg REG_D1_2 = fastBool False # endif # ifdef REG_D2 freeReg REG_D2 = fastBool False # endif # ifdef REG_D2_2 freeReg REG_D2_2 = fastBool False # endif # ifdef REG_D3 freeReg REG_D3 = fastBool False # endif # ifdef REG_D3_2 freeReg REG_D3_2 = fastBool False # endif # ifdef REG_D4 freeReg REG_D4 = fastBool False # endif # ifdef REG_D4_2 freeReg REG_D4_2 = fastBool False # endif # ifdef REG_D5 freeReg REG_D5 = fastBool False # endif # ifdef REG_D5_2 freeReg REG_D5_2 = fastBool False # endif # ifdef REG_D6 freeReg REG_D6 = fastBool False # endif # ifdef REG_D6_2 freeReg REG_D6_2 = fastBool False # endif # ifdef REG_Sp freeReg REG_Sp = fastBool False # endif # ifdef REG_Su freeReg REG_Su = fastBool False # endif # ifdef REG_SpLim freeReg REG_SpLim = fastBool False # endif # ifdef REG_Hp freeReg REG_Hp = fastBool False # endif # ifdef REG_HpLim freeReg REG_HpLim = fastBool False # endif freeReg _ = fastBool True #else freeReg = panic "freeReg not defined for this platform" #endif