X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=includes%2Fstg%2FRegs.h;fp=includes%2Fstg%2FRegs.h;h=fb26254d5a54d7769cf56b5afa05a6d75b78123a;hb=a2a67cd520b9841114d69a87a423dabcb3b4368e;hp=0000000000000000000000000000000000000000;hpb=5d379cbe65e406d5c3a848fe7fcd090cafbfeb78;p=ghc-hetmet.git diff --git a/includes/stg/Regs.h b/includes/stg/Regs.h new file mode 100644 index 0000000..fb26254 --- /dev/null +++ b/includes/stg/Regs.h @@ -0,0 +1,667 @@ +/* ----------------------------------------------------------------------------- + * + * (c) The GHC Team, 1998-2004 + * + * Registers in the STG machine. + * + * The STG machine has a collection of "registers", each one of which + * may or may not correspond to an actual machine register when + * running code. + * + * The register set is backed by a table in memory (struct + * StgRegTable). If a particular STG register is not mapped to a + * machine register, then the apprpriate slot in this table is used + * instead. + * + * This table is itself pointed to by another register, BaseReg. If + * BaseReg is not in a machine register, then the register table is + * used from an absolute location (MainCapability). + * + * ---------------------------------------------------------------------------*/ + +#ifndef REGS_H +#define REGS_H + +typedef struct { + StgWord stgEagerBlackholeInfo; + StgFunPtr stgGCEnter1; + StgFunPtr stgGCFun; +} StgFunTable; + +/* + * Vanilla registers are given this union type, which is purely so + * that we can cast the vanilla reg to a variety of types with the + * minimum of syntax. eg. R1.w instead of (StgWord)R1. + */ +typedef union { + StgWord w; + StgAddr a; + StgChar c; + StgFloat f; + StgInt i; + StgPtr p; +} StgUnion; + +/* + * This is the table that holds shadow-locations for all the STG + * registers. The shadow locations are used when: + * + * 1) the particular register isn't mapped to a real machine + * register, probably because there's a shortage of real registers. + * 2) caller-saves registers are saved across a CCall + */ +typedef struct StgRegTable_ { + StgUnion rR1; + StgUnion rR2; + StgUnion rR3; + StgUnion rR4; + StgUnion rR5; + StgUnion rR6; + StgUnion rR7; + StgUnion rR8; + StgUnion rR9; /* used occasionally by heap/stack checks */ + StgUnion rR10; /* used occasionally by heap/stack checks */ + StgFloat rF1; + StgFloat rF2; + StgFloat rF3; + StgFloat rF4; + StgDouble rD1; + StgDouble rD2; + StgWord64 rL1; + StgPtr rSp; + StgPtr rSpLim; + StgPtr rHp; + StgPtr rHpLim; + struct StgTSO_ *rCurrentTSO; + struct step_ *rNursery; + struct bdescr_ *rCurrentNursery; /* Hp/HpLim point into this block */ + struct bdescr_ *rCurrentAlloc; /* for allocation using allocate() */ + StgWord rHpAlloc; /* number of *bytes* being allocated in heap */ + StgWord rRet; // holds the return code of the thread +} StgRegTable; + +#if IN_STG_CODE + +/* + * Registers Hp and HpLim are global across the entire system, and are + * copied into the RegTable before executing a thread. + * + * Registers Sp and SpLim are saved in the TSO for the + * thread, but are copied into the RegTable before executing a thread. + * + * All other registers are "general purpose", and are used for passing + * arguments to functions, and returning values. The code generator + * knows how many of these are in real registers, and avoids + * generating code that uses non-real registers. General purpose + * registers are never saved when returning to the scheduler, instead + * we save whatever is live at the time on the stack, and restore it + * later. This should reduce the context switch time, amongst other + * things. + * + * For argument passing, the stack will be used in preference to + * pseudo-registers if the architecture has too few general purpose + * registers. + * + * Some special RTS functions like newArray and the Integer primitives + * expect their arguments to be in registers R1-Rn, so we use these + * (pseudo-)registers in those cases. + */ + +/* + * Locations for saving per-thread registers. + */ + +#define SAVE_Sp (CurrentTSO->sp) +#define SAVE_SpLim (CurrentTSO->splim) + +#define SAVE_Hp (BaseReg->rHp) + +#define SAVE_CurrentTSO (BaseReg->rCurrentTSO) +#define SAVE_CurrentNursery (BaseReg->rCurrentNursery) +#define SAVE_HpAlloc (BaseReg->rHpAlloc) + +/* We sometimes need to save registers across a C-call, eg. if they + * are clobbered in the standard calling convention. We define the + * save locations for all registers in the register table. + */ + +#define SAVE_R1 (BaseReg->rR1) +#define SAVE_R2 (BaseReg->rR2) +#define SAVE_R3 (BaseReg->rR3) +#define SAVE_R4 (BaseReg->rR4) +#define SAVE_R5 (BaseReg->rR5) +#define SAVE_R6 (BaseReg->rR6) +#define SAVE_R7 (BaseReg->rR7) +#define SAVE_R8 (BaseReg->rR8) + +#define SAVE_F1 (BaseReg->rF1) +#define SAVE_F2 (BaseReg->rF2) +#define SAVE_F3 (BaseReg->rF3) +#define SAVE_F4 (BaseReg->rF4) + +#define SAVE_D1 (BaseReg->rD1) +#define SAVE_D2 (BaseReg->rD2) + +#define SAVE_L1 (BaseReg->rL1) + +/* ----------------------------------------------------------------------------- + * Emit the GCC-specific register declarations for each machine + * register being used. If any STG register isn't mapped to a machine + * register, then map it to an offset from BaseReg. + * + * First, the general purpose registers. The idea is, if a particular + * general-purpose STG register can't be mapped to a real machine + * register, it won't be used at all. Instead, we'll use the stack. + * + * This is an improvement on the way things used to be done, when all + * registers were mapped to locations in the register table, and stuff + * was being shifted from the stack to the register table and back + * again for no good reason (on register-poor architectures). + */ + +/* define NO_REGS to omit register declarations - used in RTS C code + * that needs all the STG definitions but not the global register + * settings. + */ +#define GLOBAL_REG_DECL(type,name,reg) register type name REG(reg); + +#if defined(REG_R1) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgUnion,R1,REG_R1) +#else +# define R1 (BaseReg->rR1) +#endif + +#if defined(REG_R2) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgUnion,R2,REG_R2) +#else +# define R2 (BaseReg->rR2) +#endif + +#if defined(REG_R3) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgUnion,R3,REG_R3) +#else +# define R3 (BaseReg->rR3) +#endif + +#if defined(REG_R4) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgUnion,R4,REG_R4) +#else +# define R4 (BaseReg->rR4) +#endif + +#if defined(REG_R5) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgUnion,R5,REG_R5) +#else +# define R5 (BaseReg->rR5) +#endif + +#if defined(REG_R6) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgUnion,R6,REG_R6) +#else +# define R6 (BaseReg->rR6) +#endif + +#if defined(REG_R7) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgUnion,R7,REG_R7) +#else +# define R7 (BaseReg->rR7) +#endif + +#if defined(REG_R8) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgUnion,R8,REG_R8) +#else +# define R8 (BaseReg->rR8) +#endif + +#if defined(REG_R9) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgUnion,R9,REG_R9) +#else +# define R9 (BaseReg->rR9) +#endif + +#if defined(REG_R10) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgUnion,R10,REG_R10) +#else +# define R10 (BaseReg->rR10) +#endif + +#if defined(REG_F1) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgFloat,F1,REG_F1) +#else +#define F1 (BaseReg->rF1) +#endif + +#if defined(REG_F2) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgFloat,F2,REG_F2) +#else +#define F2 (BaseReg->rF2) +#endif + +#if defined(REG_F3) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgFloat,F3,REG_F3) +#else +#define F3 (BaseReg->rF3) +#endif + +#if defined(REG_F4) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgFloat,F4,REG_F4) +#else +#define F4 (BaseReg->rF4) +#endif + +#if defined(REG_D1) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgDouble,D1,REG_D1) +#else +#define D1 (BaseReg->rD1) +#endif + +#if defined(REG_D2) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgDouble,D2,REG_D2) +#else +#define D2 (BaseReg->rD2) +#endif + +#if defined(REG_L1) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgWord64,L1,REG_L1) +#else +#define L1 (BaseReg->rL1) +#endif + +/* + * If BaseReg isn't mapped to a machine register, just use the global + * address of the current register table (CurrentRegTable in + * concurrent Haskell, MainRegTable otherwise). + */ + +/* A capability is a combination of a FunTable and a RegTable. In STG + * code, BaseReg normally points to the RegTable portion of this + * structure, so that we can index both forwards and backwards to take + * advantage of shorter instruction forms on some archs (eg. x86). + * This is a cut-down version of the Capability structure; the full + * version is defined in Capability.h. + */ +struct PartCapability_ { + StgFunTable f; + StgRegTable r; +}; + +/* No such thing as a MainCapability under THREADED_RTS - each thread must have + * its own Capability. + */ +#if IN_STG_CODE && !(defined(THREADED_RTS) && !defined(NOSMP)) +extern W_ MainCapability[]; +#endif + +/* + * Assigning to BaseReg (the ASSIGN_BaseReg macro): this happens on + * return from a "safe" foreign call, when the thread might be running + * on a new Capability. Obviously if BaseReg is not a register, then + * we are restricted to a single Capability (this invariant is enforced + * in Capability.c:initCapabilities), and assigning to BaseReg can be omitted. + */ + +#if defined(REG_Base) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(StgRegTable *,BaseReg,REG_Base) +#define ASSIGN_BaseReg(e) (BaseReg = (e)) +#else +#if defined(THREADED_RTS) && !defined(NOSMP) +#error BaseReg must be in a register for THREADED_RTS +#endif +#define BaseReg (&((struct PartCapability_ *)MainCapability)->r) +#define ASSIGN_BaseReg(e) (e) +#endif + +#if defined(REG_Sp) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(P_,Sp,REG_Sp) +#else +#define Sp (BaseReg->rSp) +#endif + +#if defined(REG_SpLim) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(P_,SpLim,REG_SpLim) +#else +#define SpLim (BaseReg->rSpLim) +#endif + +#if defined(REG_Hp) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(P_,Hp,REG_Hp) +#else +#define Hp (BaseReg->rHp) +#endif + +#if defined(REG_HpLim) && !defined(NO_GLOBAL_REG_DECLS) +#error HpLim cannot be in a register +#else +#define HpLim (BaseReg->rHpLim) +#endif + +#if defined(REG_CurrentTSO) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(struct _StgTSO *,CurrentTSO,REG_CurrentTSO) +#else +#define CurrentTSO (BaseReg->rCurrentTSO) +#endif + +#if defined(REG_CurrentNursery) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(bdescr *,CurrentNursery,REG_CurrentNursery) +#else +#define CurrentNursery (BaseReg->rCurrentNursery) +#endif + +#if defined(REG_HpAlloc) && !defined(NO_GLOBAL_REG_DECLS) +GLOBAL_REG_DECL(bdescr *,HpAlloc,REG_HpAlloc) +#else +#define HpAlloc (BaseReg->rHpAlloc) +#endif + +/* ----------------------------------------------------------------------------- + Get absolute function pointers from the register table, to save + code space. On x86, + + jmp *-12(%ebx) + + is shorter than + + jmp absolute_address + + as long as the offset is within the range of a signed byte + (-128..+127). So we pick some common absolute_addresses and put + them in the register table. As a bonus, linking time should also + be reduced. + + Other possible candidates in order of importance: + + stg_upd_frame_info + stg_CAF_BLACKHOLE_info + stg_IND_STATIC_info + + anything else probably isn't worth the effort. + + -------------------------------------------------------------------------- */ + + +#define FunReg ((StgFunTable *)((void *)BaseReg - STG_FIELD_OFFSET(struct PartCapability_, r))) + +#define stg_EAGER_BLACKHOLE_info (FunReg->stgEagerBlackholeInfo) +#define stg_gc_enter_1 (FunReg->stgGCEnter1) +#define stg_gc_fun (FunReg->stgGCFun) + +/* ----------------------------------------------------------------------------- + For any registers which are denoted "caller-saves" by the C calling + convention, we have to emit code to save and restore them across C + calls. + -------------------------------------------------------------------------- */ + +#ifdef CALLER_SAVES_R1 +#define CALLER_SAVE_R1 SAVE_R1 = R1; +#define CALLER_RESTORE_R1 R1 = SAVE_R1; +#else +#define CALLER_SAVE_R1 /* nothing */ +#define CALLER_RESTORE_R1 /* nothing */ +#endif + +#ifdef CALLER_SAVES_R2 +#define CALLER_SAVE_R2 SAVE_R2 = R2; +#define CALLER_RESTORE_R2 R2 = SAVE_R2; +#else +#define CALLER_SAVE_R2 /* nothing */ +#define CALLER_RESTORE_R2 /* nothing */ +#endif + +#ifdef CALLER_SAVES_R3 +#define CALLER_SAVE_R3 SAVE_R3 = R3; +#define CALLER_RESTORE_R3 R3 = SAVE_R3; +#else +#define CALLER_SAVE_R3 /* nothing */ +#define CALLER_RESTORE_R3 /* nothing */ +#endif + +#ifdef CALLER_SAVES_R4 +#define CALLER_SAVE_R4 SAVE_R4 = R4; +#define CALLER_RESTORE_R4 R4 = SAVE_R4; +#else +#define CALLER_SAVE_R4 /* nothing */ +#define CALLER_RESTORE_R4 /* nothing */ +#endif + +#ifdef CALLER_SAVES_R5 +#define CALLER_SAVE_R5 SAVE_R5 = R5; +#define CALLER_RESTORE_R5 R5 = SAVE_R5; +#else +#define CALLER_SAVE_R5 /* nothing */ +#define CALLER_RESTORE_R5 /* nothing */ +#endif + +#ifdef CALLER_SAVES_R6 +#define CALLER_SAVE_R6 SAVE_R6 = R6; +#define CALLER_RESTORE_R6 R6 = SAVE_R6; +#else +#define CALLER_SAVE_R6 /* nothing */ +#define CALLER_RESTORE_R6 /* nothing */ +#endif + +#ifdef CALLER_SAVES_R7 +#define CALLER_SAVE_R7 SAVE_R7 = R7; +#define CALLER_RESTORE_R7 R7 = SAVE_R7; +#else +#define CALLER_SAVE_R7 /* nothing */ +#define CALLER_RESTORE_R7 /* nothing */ +#endif + +#ifdef CALLER_SAVES_R8 +#define CALLER_SAVE_R8 SAVE_R8 = R8; +#define CALLER_RESTORE_R8 R8 = SAVE_R8; +#else +#define CALLER_SAVE_R8 /* nothing */ +#define CALLER_RESTORE_R8 /* nothing */ +#endif + +#ifdef CALLER_SAVES_R9 +#define CALLER_SAVE_R9 SAVE_R9 = R9; +#define CALLER_RESTORE_R9 R9 = SAVE_R9; +#else +#define CALLER_SAVE_R9 /* nothing */ +#define CALLER_RESTORE_R9 /* nothing */ +#endif + +#ifdef CALLER_SAVES_R10 +#define CALLER_SAVE_R10 SAVE_R10 = R10; +#define CALLER_RESTORE_R10 R10 = SAVE_R10; +#else +#define CALLER_SAVE_R10 /* nothing */ +#define CALLER_RESTORE_R10 /* nothing */ +#endif + +#ifdef CALLER_SAVES_F1 +#define CALLER_SAVE_F1 SAVE_F1 = F1; +#define CALLER_RESTORE_F1 F1 = SAVE_F1; +#else +#define CALLER_SAVE_F1 /* nothing */ +#define CALLER_RESTORE_F1 /* nothing */ +#endif + +#ifdef CALLER_SAVES_F2 +#define CALLER_SAVE_F2 SAVE_F2 = F2; +#define CALLER_RESTORE_F2 F2 = SAVE_F2; +#else +#define CALLER_SAVE_F2 /* nothing */ +#define CALLER_RESTORE_F2 /* nothing */ +#endif + +#ifdef CALLER_SAVES_F3 +#define CALLER_SAVE_F3 SAVE_F3 = F3; +#define CALLER_RESTORE_F3 F3 = SAVE_F3; +#else +#define CALLER_SAVE_F3 /* nothing */ +#define CALLER_RESTORE_F3 /* nothing */ +#endif + +#ifdef CALLER_SAVES_F4 +#define CALLER_SAVE_F4 SAVE_F4 = F4; +#define CALLER_RESTORE_F4 F4 = SAVE_F4; +#else +#define CALLER_SAVE_F4 /* nothing */ +#define CALLER_RESTORE_F4 /* nothing */ +#endif + +#ifdef CALLER_SAVES_D1 +#define CALLER_SAVE_D1 SAVE_D1 = D1; +#define CALLER_RESTORE_D1 D1 = SAVE_D1; +#else +#define CALLER_SAVE_D1 /* nothing */ +#define CALLER_RESTORE_D1 /* nothing */ +#endif + +#ifdef CALLER_SAVES_D2 +#define CALLER_SAVE_D2 SAVE_D2 = D2; +#define CALLER_RESTORE_D2 D2 = SAVE_D2; +#else +#define CALLER_SAVE_D2 /* nothing */ +#define CALLER_RESTORE_D2 /* nothing */ +#endif + +#ifdef CALLER_SAVES_L1 +#define CALLER_SAVE_L1 SAVE_L1 = L1; +#define CALLER_RESTORE_L1 L1 = SAVE_L1; +#else +#define CALLER_SAVE_L1 /* nothing */ +#define CALLER_RESTORE_L1 /* nothing */ +#endif + +#ifdef CALLER_SAVES_Sp +#define CALLER_SAVE_Sp SAVE_Sp = Sp; +#define CALLER_RESTORE_Sp Sp = SAVE_Sp; +#else +#define CALLER_SAVE_Sp /* nothing */ +#define CALLER_RESTORE_Sp /* nothing */ +#endif + +#ifdef CALLER_SAVES_SpLim +#define CALLER_SAVE_SpLim SAVE_SpLim = SpLim; +#define CALLER_RESTORE_SpLim SpLim = SAVE_SpLim; +#else +#define CALLER_SAVE_SpLim /* nothing */ +#define CALLER_RESTORE_SpLim /* nothing */ +#endif + +#ifdef CALLER_SAVES_Hp +#define CALLER_SAVE_Hp SAVE_Hp = Hp; +#define CALLER_RESTORE_Hp Hp = SAVE_Hp; +#else +#define CALLER_SAVE_Hp /* nothing */ +#define CALLER_RESTORE_Hp /* nothing */ +#endif + +#ifdef CALLER_SAVES_Base +#ifdef THREADED_RTS +#error "Can't have caller-saved BaseReg with THREADED_RTS" +#endif +#define CALLER_SAVE_Base /* nothing */ +#define CALLER_RESTORE_Base BaseReg = &MainRegTable; +#else +#define CALLER_SAVE_Base /* nothing */ +#define CALLER_RESTORE_Base /* nothing */ +#endif + +#ifdef CALLER_SAVES_CurrentTSO +#define CALLER_SAVE_CurrentTSO SAVE_CurrentTSO = CurrentTSO; +#define CALLER_RESTORE_CurrentTSO CurrentTSO = SAVE_CurrentTSO; +#else +#define CALLER_SAVE_CurrentTSO /* nothing */ +#define CALLER_RESTORE_CurrentTSO /* nothing */ +#endif + +#ifdef CALLER_SAVES_CurrentNursery +#define CALLER_SAVE_CurrentNursery SAVE_CurrentNursery = CurrentNursery; +#define CALLER_RESTORE_CurrentNursery CurrentNursery = SAVE_CurrentNursery; +#else +#define CALLER_SAVE_CurrentNursery /* nothing */ +#define CALLER_RESTORE_CurrentNursery /* nothing */ +#endif + +#ifdef CALLER_SAVES_HpAlloc +#define CALLER_SAVE_HpAlloc SAVE_HpAlloc = HpAlloc; +#define CALLER_RESTORE_HpAlloc HpAlloc = SAVE_HpAlloc; +#else +#define CALLER_SAVE_HpAlloc /* nothing */ +#define CALLER_RESTORE_HpAlloc /* nothing */ +#endif + +#endif /* IN_STG_CODE */ + +/* ---------------------------------------------------------------------------- + Handy bunches of saves/restores + ------------------------------------------------------------------------ */ + +#if IN_STG_CODE + +#define CALLER_SAVE_USER \ + CALLER_SAVE_R1 \ + CALLER_SAVE_R2 \ + CALLER_SAVE_R3 \ + CALLER_SAVE_R4 \ + CALLER_SAVE_R5 \ + CALLER_SAVE_R6 \ + CALLER_SAVE_R7 \ + CALLER_SAVE_R8 \ + CALLER_SAVE_F1 \ + CALLER_SAVE_F2 \ + CALLER_SAVE_F3 \ + CALLER_SAVE_F4 \ + CALLER_SAVE_D1 \ + CALLER_SAVE_D2 \ + CALLER_SAVE_L1 + + /* Save Base last, since the others may + be addressed relative to it */ +#define CALLER_SAVE_SYSTEM \ + CALLER_SAVE_Sp \ + CALLER_SAVE_SpLim \ + CALLER_SAVE_Hp \ + CALLER_SAVE_CurrentTSO \ + CALLER_SAVE_CurrentNursery \ + CALLER_SAVE_Base + +#define CALLER_RESTORE_USER \ + CALLER_RESTORE_R1 \ + CALLER_RESTORE_R2 \ + CALLER_RESTORE_R3 \ + CALLER_RESTORE_R4 \ + CALLER_RESTORE_R5 \ + CALLER_RESTORE_R6 \ + CALLER_RESTORE_R7 \ + CALLER_RESTORE_R8 \ + CALLER_RESTORE_F1 \ + CALLER_RESTORE_F2 \ + CALLER_RESTORE_F3 \ + CALLER_RESTORE_F4 \ + CALLER_RESTORE_D1 \ + CALLER_RESTORE_D2 \ + CALLER_RESTORE_L1 + + /* Restore Base first, since the others may + be addressed relative to it */ +#define CALLER_RESTORE_SYSTEM \ + CALLER_RESTORE_Base \ + CALLER_RESTORE_Sp \ + CALLER_RESTORE_SpLim \ + CALLER_RESTORE_Hp \ + CALLER_RESTORE_CurrentTSO \ + CALLER_RESTORE_CurrentNursery + +#else /* not IN_STG_CODE */ + +#define CALLER_SAVE_USER /* nothing */ +#define CALLER_SAVE_SYSTEM /* nothing */ +#define CALLER_RESTORE_USER /* nothing */ +#define CALLER_RESTORE_SYSTEM /* nothing */ + +#endif /* IN_STG_CODE */ +#define CALLER_SAVE_ALL \ + CALLER_SAVE_SYSTEM \ + CALLER_SAVE_USER + +#define CALLER_RESTORE_ALL \ + CALLER_RESTORE_SYSTEM \ + CALLER_RESTORE_USER + +#endif /* REGS_H */