rnd
double rnd;
rnd = (rand() + 1) / (double)(RAND_MAX + 1);
t = (uint32_t)(intval * rnd);
rnd: 2, /* rounding control field */
rnd: 2, /* rounding control */
uint rnd[(128 - sizeof(struct timeval)) / sizeof(uint)];
(void) read(fd, rdat.rnd, sizeof(rdat.rnd));
return ((fp_rnd)cw.rnd);
oldrnd = (fp_rnd)cw.rnd;
cw.rnd = newrnd;
return ((fp_rnd)cw.rnd);
oldrnd = (fp_rnd)cw.rnd;
cw.rnd = newrnd;
arc4_rekey(rnd, sizeof (rnd));
explicit_bzero(rnd, sizeof (rnd));
uint8_t rnd[ARC4_KEYSZ + ARC4_IVSZ];
if (getentropy(rnd, sizeof (rnd)) == -1)
arc4_init(rnd, sizeof (rnd));
if ((rnd = (unsigned char *) malloc(keybytes)) == NULL) {
free(rnd);
free(rnd);
krb5_nfold((keybytes * 2) * 8, combined, keybytes * 8, rnd);
printf(" %02x", (unsigned char) rnd[i]);
randbits.data = (char *) rnd;
memset(rnd, 0, keybytes);
free(rnd);
unsigned char *r1, *r2, *combined, *rnd, *output;
clock_t rnd, frac;
(void) random_get_pseudo_bytes((uint8_t *)&rnd, sizeof (rnd));
rnd &= (1ul << (NBBY * sizeof (rnd) - 1)) - 1;
intv = (rnd % intv) + 1;
if ((intv = intv - frac + rnd % (2 * frac + 1)) <= 0)
uint8_t rnd;
(void) random_get_pseudo_bytes(&rnd, sizeof (rnd));
rnd = (rnd & 0xF) + 8;
assoc->ipsa_softexpiretime -= rnd;
assoc->ipsa_softaddlt -= rnd;
int rnd, rval = RSEQ_OK, i;
rnd = random() % num;
rval = func(rseq, num, arg, flags, sarg1, rnd);
rnd = min + (additive % (tswtcl_data->avg_rate - min + 1));
if (aminusc >= rnd) {
rnd = min + (additive % (tswtcl_data->avg_rate - min + 1));
if (aminusp >= rnd) {
} else if ((cfg_parms->pminusc + aminusp) >= rnd) {
uint32_t min = 0, additive, rnd;
ulong_t rnd; /* random factor */
rnd = (((long)curthread >> PTR24_LSB) ^ (long)MUTEX_GETTICK());
cur_backoff = (uint_t)(rnd % (backoff - mutex_backoff_base + 1)) +
pfpsd->fp_direction = GSR_IM(gsr) ? GSR_IRND(gsr) : fsr.rnd;
#define rnd fsr.rnd
unsigned int rnd : 2; /* rounding direction */