V
UINT32 V : 1;
audio__setval((F), (V), AUDIO__PLAY|AUDIO__BALANCE)
#define audio_get_record_balance(F, V) \
audio__setval((F), (V), AUDIO__RECORD|AUDIO__BALANCE)
#define audio_get_play_samples(F, V) \
audio__setval((F), (V), AUDIO__PLAY|AUDIO__SAMPLES)
#define audio_get_record_samples(F, V) \
audio__setval((F), (V), AUDIO__RECORD|AUDIO__SAMPLES)
#define audio_get_play_error(F, V) \
audio__setval((F), (V), AUDIO__PLAY|AUDIO__ERROR)
#define audio_get_record_error(F, V) \
audio__setval((F), (V), AUDIO__RECORD|AUDIO__ERROR)
#define audio_get_play_eof(F, V) \
audio__setval((F), (V), AUDIO__PLAY|AUDIO__EOF)
#define audio_get_play_open(F, V) \
audio__setval((F), (V), AUDIO__PLAY|AUDIO__OPEN)
#define audio_get_record_open(F, V) \
audio__setval((F), (V), AUDIO__RECORD|AUDIO__OPEN)
#define audio_get_play_active(F, V) \
audio__setval((F), (V), AUDIO__PLAY|AUDIO__ACTIVE)
#define audio_get_record_active(F, V) \
audio__setval((F), (V), AUDIO__RECORD|AUDIO__ACTIVE)
#define audio_get_play_waiting(F, V) \
audio__setval((F), (V), AUDIO__PLAY|AUDIO__WAITING)
#define audio_get_record_waiting(F, V) \
audio__setval((F), (V), AUDIO__RECORD|AUDIO__WAITING)
#define audio_set_play_port(F, V) \
audio__setval((F), (V), AUDIO__SET|AUDIO__PLAY|AUDIO__PORT)
#define audio_set_record_port(F, V) \
audio__setval((F), (V), AUDIO__SET|AUDIO__RECORD|AUDIO__PORT)
#define audio_set_play_balance(F, V) \
audio__setval((F), (V), AUDIO__SET|AUDIO__PLAY|AUDIO__BALANCE)
#define audio_set_record_balance(F, V) \
audio__setval((F), (V), AUDIO__SET|AUDIO__RECORD|AUDIO__BALANCE)
#define audio_set_play_samples(F, V) \
audio__setval((F), (V), AUDIO__SET|AUDIO__PLAY|AUDIO__SAMPLES)
#define audio_set_record_samples(F, V) \
audio__setval((F), (V), AUDIO__SET|AUDIO__RECORD|AUDIO__SAMPLES)
#define audio_set_play_error(F, V) \
audio__setval((F), (V), AUDIO__SET|AUDIO__PLAY|AUDIO__ERROR)
#define audio_set_record_error(F, V) \
audio__setval((F), (V), AUDIO__SET|AUDIO__RECORD|AUDIO__ERROR)
#define audio_set_play_eof(F, V) \
audio__setval((F), (V), AUDIO__SET|AUDIO__PLAY|AUDIO__EOF)
#define audio_set_play_waiting(F, V) \
audio__setval((F), (V), AUDIO__SET|AUDIO__PLAY|AUDIO__WAITING)
#define audio_set_record_waiting(F, V) \
audio__setval((F), (V), AUDIO__SET|AUDIO__RECORD|AUDIO__WAITING)
#define audio_get_play_gain(F, V) \
audio__setgain((F), (V), AUDIO__PLAY|AUDIO__GAIN)
#define audio_get_record_gain(F, V) \
audio__setgain((F), (V), AUDIO__RECORD|AUDIO__GAIN)
#define audio_get_monitor_gain(F, V) \
audio__setgain((F), (V), AUDIO__MONGAIN)
#define audio_set_play_gain(F, V) \
audio__setgain((F), (V), AUDIO__SET|AUDIO__PLAY|AUDIO__GAIN)
#define audio_set_record_gain(F, V) \
audio__setgain((F), (V), AUDIO__SET|AUDIO__RECORD|AUDIO__GAIN)
#define audio_set_monitor_gain(F, V) \
audio__setgain((F), (V), AUDIO__SET|AUDIO__MONGAIN)
#define audio_get_play_port(F, V) \
audio__setval((F), (V), AUDIO__PLAY|AUDIO__PORT)
#define audio_get_record_port(F, V) \
audio__setval((F), (V), AUDIO__RECORD|AUDIO__PORT)
#define audio_get_play_balance(F, V) \
(void) printf("%8.3f", KBPS(V(p.ppp_ibytes)));
(void) printf("%8" PPP_COUNTER_F, V(p.ppp_ibytes));
V(p.ppp_ipackets),
V(vj.vjs_compressedin));
V(vj.vjs_uncompressedin),
V(vj.vjs_errorin));
V(vj.vjs_tossed),
V(p.ppp_ipackets) - V(vj.vjs_compressedin)
- V(vj.vjs_uncompressedin) - V(vj.vjs_errorin));
(void) printf(" | %8.3f", KBPS(V(p.ppp_obytes)));
(void) printf(" | %8" PPP_COUNTER_F, V(p.ppp_obytes));
V(p.ppp_opackets),
V(vj.vjs_compressed));
V(vj.vjs_packets) - V(vj.vjs_compressed),
V(p.ppp_opackets) - V(vj.vjs_packets));
V(vj.vjs_searches),
V(vj.vjs_misses));
#define SAVE_HRTIME_X(I, N, V) \
v.ui64 = V; \
#define SAVE_INT32_X(I, N, V) \
v.i32 = V; \
#define SAVE_UINT32_X(I, N, V) \
v.ui32 = V; \
#define SAVE_UINT64_X(I, N, V) \
v.ui64 = V; \
#define SAVE_STRING_X(I, N, V) \
v.str.addr.ptr = safe_strdup(V); \
v.str.len = (V) ? strlen(V) : 0; \
#define SAVE_CHAR_X(I, N, V) \
(void) asprintf(&v.str.addr.ptr, "%c", V); \
/* [E,C] */ TNS("inb",V), TS("in",V), TNS("outb",V), TS("out",V),
case V:
#define DIAG(T,V) {fprintf(stderr,T);mp_print(V,stderr);fputc('\n',stderr);}
#define DIAG(T,V)
goto V;
V:
#define OPTSET_SET_VAL(S, O, V) ((S).bits |= _OPT_TO_BIT(O), \
(S).val[(O)] = (V))
cd->prev_state = V;
if (cd->prev_state != E && cd->prev_state != V)
cd->prev_state = V;
if (cd->prev_state != E && cd->prev_state != V)
cd->prev_state = V;
if (cd->prev_state != E && cd->prev_state != V)
cd->prev_state = V;
if (cd->prev_state != E && cd->prev_state != V)
cd->prev_state = V;
if (cd->prev_state != E && cd->prev_state != V)
enum { E, CI, V, CF } prev_state;
enum { E, CI, V, CF } prev_state;
enum { E, CI, V, CF } prev_state;
enum { E, CI, V, CF } prev_state;
enum { E, CI, V, CF } prev_state;
V V Administration:/usr/admin:/bin/sh
ysadm ysadm * 0 0 System V Administration /usr/admin /bin/sh
_Static_assert(is_unsigned(V) == 1, "value V");
int V;
V = AMD_IOMMU_REG_GET64(&(devtbl_entry[0]), AMD_IOMMU_DEVTBL_V);
if (V == 0 && TV == 0) {
if (V == 1 && TV == 1) {
if (V == 0 && TV == 1) {
*msg_valid_state = CSR_BR((caddr_t)dev_hdl, PM_PME_MAPPING, V);
PME_TO_ACK_MAPPING, V);
*msg_valid_state = CSR_BR((caddr_t)dev_hdl, ERR_COR_MAPPING, V);
ERR_NONFATAL_MAPPING, V);
V);
CSR_BS((caddr_t)dev_hdl, PM_PME_MAPPING, V);
CSR_BS((caddr_t)dev_hdl, PME_TO_ACK_MAPPING, V);
CSR_BS((caddr_t)dev_hdl, ERR_COR_MAPPING, V);
CSR_BS((caddr_t)dev_hdl, ERR_NONFATAL_MAPPING, V);
CSR_BS((caddr_t)dev_hdl, ERR_FATAL_MAPPING, V);
CSR_BC((caddr_t)dev_hdl, PM_PME_MAPPING, V);
CSR_BC((caddr_t)dev_hdl, PME_TO_ACK_MAPPING, V);
CSR_BC((caddr_t)dev_hdl, ERR_COR_MAPPING, V);
CSR_BC((caddr_t)dev_hdl, ERR_NONFATAL_MAPPING, V);
CSR_BC((caddr_t)dev_hdl, ERR_FATAL_MAPPING, V);