zs->nranges = f.nranges;
}
+static void shared_rand_init(struct zipf_state *zs, unsigned long nranges)
+{
+ memset(zs, 0, sizeof(*zs));
+ zs->nranges = nranges;
+
+ init_rand(&zs->rand);
+ zs->rand_off = __rand(&zs->rand);
+}
+
void zipf_init(struct zipf_state *zs, unsigned long nranges, double theta)
{
unsigned int i;
- memset(zs, 0, sizeof(*zs));
+ shared_rand_init(zs, nranges);
- zs->nranges = nranges;
zs->theta = theta;
for (i = 1; i <= 2; i++)
zs->zeta2 += pow(1.0 / (double) i, zs->theta);
- init_rand(&zs->rand);
-
zipf_load_gen_zeta(zs);
}
else
val = 1 + (unsigned long long)(n * pow(eta*rand_uni - eta + 1.0, alpha));
- return __hash_long(val - 1) % zs->nranges;
+ return (__hash_long(val - 1) + zs->rand_off) % zs->nranges;
}
void pareto_init(struct zipf_state *zs, unsigned long nranges, double h)
{
- memset(zs, 0, sizeof(*zs));
-
- zs->nranges = nranges;
+ shared_rand_init(zs, nranges);
zs->pareto_pow = log(h) / log(1.0 - h);
-
- init_rand(&zs->rand);
}
unsigned long long pareto_next(struct zipf_state *zs)
double rand = (double) __rand(&zs->rand) / (double) FRAND_MAX;
unsigned long long n = zs->nranges - 1;
- return __hash_long(n * pow(rand, zs->pareto_pow)) % zs->nranges;
+ return (__hash_long(n * pow(rand, zs->pareto_pow)) + zs->rand_off) % zs->nranges;
}