[fio.git] / lib / zipf.c

#include <math.h>
#include <string.h>
#include "zipf.h"
#include "../minmax.h"
#include "../hash.h"

#define ZIPF_MAX_GEN	10000000UL

static void zipf_update(struct zipf_state *zs)
{
	uint64_t to_gen;
	unsigned int i;

	/*
	 * It can become very costly to generate long sequences. Just cap it at
	 * 10M max, that should be doable in 1-2s on even slow machines.
	 * Precision will take a slight hit, but nothing major.
	 */
	to_gen = min(zs->nranges, (uint64_t) ZIPF_MAX_GEN);

	for (i = 0; i < to_gen; i++)
		zs->zetan += pow(1.0 / (double) (i + 1), zs->theta);
}

static void shared_rand_init(struct zipf_state *zs, uint64_t nranges,
			     unsigned int seed)
{
	memset(zs, 0, sizeof(*zs));
	zs->nranges = nranges;

	init_rand_seed(&zs->rand, seed, 0);
	zs->rand_off = __rand(&zs->rand);
}

void zipf_init(struct zipf_state *zs, uint64_t nranges, double theta,
	       unsigned int seed)
{
	shared_rand_init(zs, nranges, seed);

	zs->theta = theta;
	zs->zeta2 = pow(1.0, zs->theta) + pow(0.5, zs->theta);

	zipf_update(zs);
}

uint64_t zipf_next(struct zipf_state *zs)
{
	double alpha, eta, rand_uni, rand_z;
	unsigned long long n = zs->nranges;
	unsigned long long val;

	alpha = 1.0 / (1.0 - zs->theta);
	eta = (1.0 - pow(2.0 / n, 1.0 - zs->theta)) / (1.0 - zs->zeta2 / zs->zetan);

	rand_uni = (double) __rand(&zs->rand) / (double) FRAND32_MAX;
	rand_z = rand_uni * zs->zetan;

	if (rand_z < 1.0)
		val = 1;
	else if (rand_z < (1.0 + pow(0.5, zs->theta)))
		val = 2;
	else
		val = 1 + (unsigned long long)(n * pow(eta*rand_uni - eta + 1.0, alpha));

	val--;

	if (!zs->disable_hash)
		val = __hash_u64(val);

	return (val + zs->rand_off) % zs->nranges;
}

void pareto_init(struct zipf_state *zs, uint64_t nranges, double h,
		 unsigned int seed)
{
	shared_rand_init(zs, nranges, seed);
	zs->pareto_pow = log(h) / log(1.0 - h);
}

uint64_t pareto_next(struct zipf_state *zs)
{
	double rand = (double) __rand(&zs->rand) / (double) FRAND32_MAX;
	unsigned long long n;

	n = (zs->nranges - 1) * pow(rand, zs->pareto_pow);

	if (!zs->disable_hash)
		n = __hash_u64(n);

	return (n + zs->rand_off)  % zs->nranges;
}

void zipf_disable_hash(struct zipf_state *zs)
{
	zs->disable_hash = true;
}
Commit	Line	Data
e25839d4 JA	1	#include <math.h>
e25839d4 JA	2	#include <string.h>
e25839d4 JA	3	#include "zipf.h"
e25839d4 JA	4	#include "../minmax.h"
ed1860cd	5	#include "../hash.h"
e25839d4	6
e6f735f0	7	#define ZIPF_MAX_GEN 10000000UL
e25839d4 JA	8
	9	static void zipf_update(struct zipf_state *zs)
	10	{
abb60c32	11	uint64_t to_gen;
e25839d4 JA	12	unsigned int i;
e25839d4 JA	13
4c9060e3 JA	14	/*
4c9060e3 JA	15	* It can become very costly to generate long sequences. Just cap it at
e4839591 JA	16	* 10M max, that should be doable in 1-2s on even slow machines.
e4839591 JA	17	* Precision will take a slight hit, but nothing major.
4c9060e3	18	*/
761c2729	19	to_gen = min(zs->nranges, (uint64_t) ZIPF_MAX_GEN);
e25839d4	20
4c9060e3 JA	21	for (i = 0; i < to_gen; i++)
4c9060e3 JA	22	zs->zetan += pow(1.0 / (double) (i + 1), zs->theta);
e25839d4 JA	23	}
e25839d4 JA	24
abb60c32	25	static void shared_rand_init(struct zipf_state *zs, uint64_t nranges,
2316296a	26	unsigned int seed)
b2b0b753 JA	27	{
	28	memset(zs, 0, sizeof(*zs));
	29	zs->nranges = nranges;
	30
c3546b53	31	init_rand_seed(&zs->rand, seed, 0);
b2b0b753 JA	32	zs->rand_off = __rand(&zs->rand);
	33	}
	34
abb60c32	35	void zipf_init(struct zipf_state *zs, uint64_t nranges, double theta,
2316296a	36	unsigned int seed)
e25839d4	37	{
2316296a	38	shared_rand_init(zs, nranges, seed);
e25839d4	39
e25839d4	40	zs->theta = theta;
1442ba18	41	zs->zeta2 = pow(1.0, zs->theta) + pow(0.5, zs->theta);
e25839d4	42
4c9060e3	43	zipf_update(zs);
e25839d4 JA	44	}
e25839d4 JA	45
abb60c32	46	uint64_t zipf_next(struct zipf_state *zs)
e25839d4	47	{
e25839d4 JA	48	double alpha, eta, rand_uni, rand_z;
	49	unsigned long long n = zs->nranges;
	50	unsigned long long val;
	51
	52	alpha = 1.0 / (1.0 - zs->theta);
	53	eta = (1.0 - pow(2.0 / n, 1.0 - zs->theta)) / (1.0 - zs->zeta2 / zs->zetan);
	54
c3546b53	55	rand_uni = (double) __rand(&zs->rand) / (double) FRAND32_MAX;
e25839d4 JA	56	rand_z = rand_uni * zs->zetan;
	57
	58	if (rand_z < 1.0)
	59	val = 1;
	60	else if (rand_z < (1.0 + pow(0.5, zs->theta)))
	61	val = 2;
	62	else
	63	val = 1 + (unsigned long long)(n * pow(eta*rand_uni - eta + 1.0, alpha));
	64
8c5e96a4 JA	65	val--;
8c5e96a4 JA	66
8348daf9	67	if (!zs->disable_hash)
8c5e96a4	68	val = __hash_u64(val);
8348daf9	69
8c5e96a4	70	return (val + zs->rand_off) % zs->nranges;
e25839d4	71	}
925fee33	72
abb60c32	73	void pareto_init(struct zipf_state *zs, uint64_t nranges, double h,
2316296a	74	unsigned int seed)
925fee33	75	{
2316296a	76	shared_rand_init(zs, nranges, seed);
925fee33	77	zs->pareto_pow = log(h) / log(1.0 - h);
925fee33 JA	78	}
925fee33 JA	79
abb60c32	80	uint64_t pareto_next(struct zipf_state *zs)
925fee33	81	{
c3546b53	82	double rand = (double) __rand(&zs->rand) / (double) FRAND32_MAX;
8c5e96a4 JA	83	unsigned long long n;
	84
	85	n = (zs->nranges - 1) * pow(rand, zs->pareto_pow);
925fee33	86
8348daf9	87	if (!zs->disable_hash)
8c5e96a4	88	n = __hash_u64(n);
8348daf9	89
8c5e96a4	90	return (n + zs->rand_off) % zs->nranges;
8348daf9 JA	91	}
	92
	93	void zipf_disable_hash(struct zipf_state *zs)
	94	{
	95	zs->disable_hash = true;
925fee33	96	}