resolution
struct resolution *rp, *p;
TAILQ_ENTRY(resolution) next;
typedef TAILQ_HEAD(edid_resolution, resolution) edid_res_list_t;
struct resolution *rp;
struct resolution *rp;
struct resolution *rp;
struct resolution *rp;
uint8_t resolution;
sc->resolution = 4;
sc->resolution = val;
fifo_put(sc, sc->resolution);
sc->vsc_config.u.abs.res = abs.resolution;
#define EM(m, ps) (int)((((float)(m)*(ps) * resolution) / POINT))
extern int resolution; /* resolution of ditroff */
int resolution = 720; /* resolution of ditroff */
nps = EFFPS(((eht[p2]*9)/10+(resolution/POINT-1))/(resolution/POINT));
int32_t x = (int)(value->resolution).xres,
y = (int)(value->resolution).yres;
int8_t units = (int8_t)(value->resolution).units;
result->resolution.xres = v->resolution.xres;
result->resolution.yres = v->resolution.yres;
result->resolution.units = v->resolution.units;
v.resolution.xres = xres;
v.resolution.yres = yres;
v.resolution.units = units;
*x = value->resolution.xres;
*y = value->resolution.yres;
*units = value->resolution.units;
value->resolution.xres = atoi(parts[1]);
value->resolution.yres = atoi(parts[2]);
value->resolution.units = PAPI_RES_PER_INCH;
value->resolution.units = PAPI_RES_PER_CM;
values[i]->resolution.xres,
values[i]->resolution.yres,
values[i]->resolution.units == PAPI_RES_PER_CM ?
} resolution;
hrtime_t resolution);
txg_delay(dsl_pool_t *dp, uint64_t txg, hrtime_t delay, hrtime_t resolution)
&tx->tx_sync_lock, delay, resolution, 0);
if (resolution > 1) {
expiration += resolution - 1;
expiration = (expiration / resolution) * resolution;
if (resolution == 1)
hrtime_t expiration, hrtime_t resolution, int flags)
ASSERT(resolution > 0);
cyclic_init(cyc_backend_t *be, hrtime_t resolution)
CYC_PTRACE("init", be, resolution);
cyclic_resolution = resolution;
extern void cyclic_init(cyc_backend_t *be, hrtime_t resolution);
int resolution;
resolution = (*pops->psm_clkinit)(0);
if (resolution != 0) {
return (resolution);
resolution = (*pops->psm_clkinit)(hz);
return (resolution);
uint_t reading, resolution;
resolution = IA32_THERM_STATUS_RESOLUTION(sensor->cs_status);
resolution = 0;
sensor->cs_resolution = resolution;
hrtime_t resolution = NANOSEC / sys_tick_freq;
if (resolution == 0)
resolution = 1;
cyclic_init(&cbe, resolution);