EAX
ucp->uc_mcontext.gregs[EAX] = (int) sc.sc_eax;
sc.sc_eax = (int) ucp->uc_mcontext.gregs[EAX];
grs[CS], grs[EAX], grs[EAX]);
{ "eax", EAX, MDB_TGT_R_EXPORT },
{ "ax", EAX, MDB_TGT_R_EXPORT | MDB_TGT_R_16 },
{ "ah", EAX, MDB_TGT_R_EXPORT | MDB_TGT_R_8H },
{ "al", EAX, MDB_TGT_R_EXPORT | MDB_TGT_R_8L },
dst[EAX] = src[REG_RAX];
disp_reg_line(ph, &pstatus, "ecx", ECX, "eax", EAX);
(void) Lputareg(Lwp, EAX, (prgreg_t)what);
ucp->uc_mcontext.gregs[EAX] = val;
ucp->uc_mcontext.gregs[EAX] = 1;
(void) printf("#define\tEAX_OFF\t0x%x\n", EAX * 4);
ps->pr_lwp.pr_reg[EAX] = cp->user.u_reg[EAX];
ps->pr_lwp.pr_reg[EAX] = cp->user.u_reg[EAX];
cp->user.u_reg[EAX] = ps->pr_lwp.pr_reg[EAX];
ucp->uc_mcontext.gregs[EAX] = eax;
#define regno(X) (EAX - X)
dst[REG_RAX] = (uint32_t)src[EAX];
dst[REG_RAX] = (uint32_t)src[EAX];
dst[EAX] = src[REG_RAX];
lwp->lwp_status.pr_reg[EAX] = prs32->pr_reg.lxr_ax;
#define R_RVAL1 EAX /* register holding a function return value */
P->status.pr_lwp.pr_reg[EAX] = sysindex;
EAX, EDX, ECX, EBX, ESI, EDI, EBP, ESP, // 32-bit
REGINFO( AL, "%al", AX, EAX, EAX_EDX),
REGINFO( AH, "%ah", AX, EAX, EAX_EDX),
REGINFO( AX, "%ax", AL, AH, EAX, EAX_EDX),
REGINFO(EAX, "%eax", AL, AH, AX, EAX_EDX),
REGINFO(EAX_EDX, "%eax:%edx", AL, AH, AX, EAX, DL, DH, DX, EDX),
REGSTORAGE(EAX), REGSTORAGE(EDX), REGSTORAGE(ECX), REGSTORAGE(EBX),
#define REG_EAX (&hardreg_storage_table[EAX])
static struct regclass regclass_32 = { "32-bit", { EAX, EDX, ECX, EBX, ESI, EDI, EBP }};
static struct regclass regclass_32_8 = { "32-bit bytes", { EAX, EDX, ECX, EBX }};
sc.sc_r0 = (int)ucp->uc_mcontext.gregs[EAX];
ucp->uc_mcontext.gregs[EAX] = (int)sc.sc_r0;
dst[REG_RAX] = (uint32_t)src[EAX];
grp[EAX] = (greg32_t)rp->r_rax;
dmc->gregs[REG_RAX] = (greg_t)(uint32_t)smc->gregs[EAX];
#define R_R0 EAX
#define REG_R0 EAX