#define INIT uintptr_t sav_addr = addr #define FINI \ dyn->isize = addr - sav_addr; \ dyn->insts[ninst].x64.addr = addr; \ if (ninst) dyn->insts[ninst - 1].x64.size = dyn->insts[ninst].x64.addr - dyn->insts[ninst - 1].x64.addr #define MESSAGE(A, ...) \ do { \ } while (0) #define MAYSETFLAGS() dyn->insts[ninst].x64.may_set = 1 #define READFLAGS(A) \ dyn->insts[ninst].x64.use_flags = A; \ dyn->f.dfnone = 1; \ dyn->f.pending = SF_SET #define READFLAGS_FUSION(A, s1, s2, s3, s4, s5) \ if (BOX64ENV(dynarec_nativeflags) && ninst > 0) { \ int prev = ninst - 1; \ while (prev && dyn->insts[prev].no_scratch_usage) \ prev -= 1; \ if (!dyn->insts[prev].nat_flags_nofusion) { \ if ((A) == (X_ZF)) \ dyn->insts[ninst].nat_flags_fusion = 1; \ else if (dyn->insts[prev].nat_flags_carry && ((A) == (X_CF) || (A) == (X_CF | X_ZF))) \ dyn->insts[ninst].nat_flags_fusion = 1; \ else if (dyn->insts[prev].nat_flags_sign && ((A) == (X_SF | X_OF) || (A) == (X_SF | X_OF | X_ZF))) \ dyn->insts[ninst].nat_flags_fusion = 1; \ } \ } \ READFLAGS(A); #define SETFLAGS(A, B, FUSION) \ dyn->insts[ninst].x64.set_flags = A; \ dyn->insts[ninst].x64.state_flags = (B) & ~SF_DF; \ dyn->f.pending = (B) & SF_SET_PENDING; \ dyn->f.dfnone = ((B) & SF_SET) ? (((B) == SF_SET_NODF) ? 0 : 1) : 0; \ dyn->insts[ninst].nat_flags_nofusion = (FUSION) #define EMIT(A) dyn->native_size += 4 #define JUMP(A, C) \ add_jump(dyn, ninst); \ add_next(dyn, (uintptr_t)A); \ SMEND(); \ dyn->insts[ninst].x64.jmp = A; \ dyn->insts[ninst].x64.jmp_cond = C; \ dyn->insts[ninst].x64.jmp_insts = 0 #define BARRIER(A) \ if (A != BARRIER_MAYBE) { \ fpu_purgecache(dyn, ninst, 0, x1, x2, x3); \ dyn->insts[ninst].x64.barrier = A; \ } else \ dyn->insts[ninst].barrier_maybe = 1 #define SET_HASCALLRET() dyn->insts[ninst].x64.has_callret = 1 #define NEW_INST \ ++dyn->size; \ memset(&dyn->insts[ninst], 0, sizeof(instruction_native_t)); \ dyn->insts[ninst].x64.addr = ip; \ dyn->e.combined1 = dyn->e.combined2 = 0; \ dyn->e.swapped = 0; \ dyn->e.barrier = 0; \ for (int i = 0; i < 16; ++i) \ dyn->e.olds[i].v = 0; \ dyn->insts[ninst].f_entry = dyn->f; \ dyn->insts[ninst].vector_sew_entry = dyn->vector_sew; \ dyn->inst_sew = dyn->vector_sew; \ dyn->inst_vlmul = VECTOR_LMUL1; \ dyn->inst_vl = 0; \ if (ninst) \ dyn->insts[ninst - 1].x64.size = dyn->insts[ninst].x64.addr - dyn->insts[ninst - 1].x64.addr; #define INST_EPILOG \ dyn->insts[ninst].f_exit = dyn->f; \ dyn->insts[ninst].e = dyn->e; \ dyn->insts[ninst].vector_sew_exit = dyn->vector_sew; \ dyn->insts[ninst].x64.has_next = (ok > 0) ? 1 : 0; #define INST_NAME(name) #define DEFAULT \ --dyn->size; \ *ok = -1; \ if (ninst) { dyn->insts[ninst - 1].x64.size = ip - dyn->insts[ninst - 1].x64.addr; } \ if (BOX64ENV(dynarec_log) >= LOG_INFO || dyn->need_dump || BOX64ENV(dynarec_missing)) \ if (!dyn->size || BOX64ENV(dynarec_log) > LOG_INFO || dyn->need_dump) { \ dynarec_log(LOG_NONE, "%p: Dynarec stopped because of %s Opcode ", (void*)ip, rex.is32bits ? "x86" : "x64"); \ zydis_dec_t* dec = rex.is32bits ? my_context->dec32 : my_context->dec; \ if (dec) { \ dynarec_log_prefix(0, LOG_NONE, "%s", DecodeX64Trace(dec, dyn->insts[ninst].x64.addr, 1)); \ } else { \ dynarec_log_prefix(0, LOG_NONE, "%02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X", \ PKip(0), PKip(1), PKip(2), PKip(3), PKip(4), PKip(5), PKip(6), PKip(7), PKip(8), PKip(9), \ PKip(10), PKip(11), PKip(12), PKip(13), PKip(14)); \ } \ PrintFunctionAddr(ip, " => "); \ dynarec_log_prefix(0, LOG_NONE, "\n"); \ } #define SET_ELEMENT_WIDTH(s1, sew, set) \ do { \ if ((sew) != VECTOR_SEWANY && (set)) \ dyn->vector_sew = (sew); \ else if (dyn->vector_sew == VECTOR_SEWNA && (set)) \ dyn->vector_sew = VECTOR_SEW8; \ } while (0) // mark opcode as "unaligned" possible only if the current address is not marked as already unaligned #define IF_UNALIGNED(A) if ((dyn->insts[ninst].unaligned = (is_addr_unaligned(A) ? 0 : 1))) #define IF_ALIGNED(A) if ((dyn->insts[ninst].unaligned = (is_addr_unaligned(A) ? 1 : 0))) #define NATIVE_RESTORE_X87PC() #define X87_CHECK_PRECISION(A) \ do { \ if (dyn->need_x87check) dyn->insts[ninst].x87precision = 1; \ } while (0) #define SCRATCH_USAGE(usage) \ do { \ dyn->insts[ninst].no_scratch_usage = !usage; \ } while (0)