Starting to implement hashtree algorithm.

This commit is contained in:
davi 2005-09-23 22:31:02 +00:00
parent 5c679aeb77
commit 12445eb287
3 changed files with 96 additions and 98 deletions

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@ -1,7 +1,7 @@
#include "graph.h" #include "graph.h"
#include "chm.h" #include "hashtree.h"
#include "cmph_structs.h" #include "cmph_structs.h"
#include "chm_structs.h" #include "hastree_structs.h"
#include "hash.h" #include "hash.h"
#include "bitbool.h" #include "bitbool.h"
@ -14,77 +14,73 @@
//#define DEBUG //#define DEBUG
#include "debug.h" #include "debug.h"
static int chm_gen_edges(cmph_config_t *mph); hashtree_config_data_t *hashtree_config_new()
static void chm_traverse(chm_config_data_t *chm, cmph_uint8 *visited, cmph_uint32 v);
chm_config_data_t *chm_config_new()
{ {
chm_config_data_t *chm; hashtree_config_data_t *hashtree;
chm = (chm_config_data_t *)malloc(sizeof(chm_config_data_t)); hashtree = (hashtree_config_data_t *)malloc(sizeof(hashtree_config_data_t));
assert(chm); if (!hashtree) return NULL;
memset(chm,0,sizeof(chm_config_data_t)); memset(hashtree, 0, sizeof(hashtree_config_data_t));
chm->hashfuncs[0] = CMPH_HASH_JENKINS; hashtree->hashfuncs[0] = CMPH_HASH_JENKINS;
chm->hashfuncs[1] = CMPH_HASH_JENKINS; hashtree->hashfuncs[1] = CMPH_HASH_JENKINS;
chm->g = NULL; hashtree->hashfuncs[2] = CMPH_HASH_JENKINS;
chm->graph = NULL; hashtree->memory = 32 * 1024 * 1024;
chm->hashes = NULL; return hashtree;
return chm;
} }
void chm_config_destroy(cmph_config_t *mph) void hashtree_config_destroy(cmph_config_t *mph)
{ {
chm_config_data_t *data = (chm_config_data_t *)mph->data; hashtree_config_data_t *data = (hashtree_config_data_t *)mph->data;
DEBUGP("Destroying algorithm dependent data\n"); DEBUGP("Destroying algorithm dependent data\n");
free(data); free(data);
} }
void chm_config_set_hashfuncs(cmph_config_t *mph, CMPH_HASH *hashfuncs) void hashtree_config_set_hashfuncs(cmph_config_t *mph, CMPH_HASH *hashfuncs)
{ {
chm_config_data_t *chm = (chm_config_data_t *)mph->data; hashtree_config_data_t *hashtree = (hashtree_config_data_t *)mph->data;
CMPH_HASH *hashptr = hashfuncs; CMPH_HASH *hashptr = hashfuncs;
cmph_uint32 i = 0; cmph_uint32 i = 0;
while(*hashptr != CMPH_HASH_COUNT) while(*hashptr != CMPH_HASH_COUNT)
{ {
if (i >= 2) break; //chm only uses two hash functions if (i >= 3) break; //hashtree only uses three hash functions
chm->hashfuncs[i] = *hashptr; hashtree->hashfuncs[i] = *hashptr;
++i, ++hashptr; ++i, ++hashptr;
} }
} }
cmph_t *chm_new(cmph_config_t *mph, float c) cmph_t *hashtree_new(cmph_config_t *mph, float c)
{ {
cmph_t *mphf = NULL; cmph_t *mphf = NULL;
chm_data_t *chmf = NULL; hashtree_data_t *hashtreef = NULL;
cmph_uint32 i; cmph_uint32 i;
cmph_uint32 iterations = 20; cmph_uint32 iterations = 20;
cmph_uint8 *visited = NULL; cmph_uint8 *visited = NULL;
chm_config_data_t *chm = (chm_config_data_t *)mph->data; hashtree_config_data_t *hashtree = (hashtree_config_data_t *)mph->data;
chm->m = mph->key_source->nkeys; hashtree->m = mph->key_source->nkeys;
chm->n = ceil(c * mph->key_source->nkeys); hashtree->n = ceil(c * mph->key_source->nkeys);
DEBUGP("m (edges): %u n (vertices): %u c: %f\n", chm->m, chm->n, c); DEBUGP("m (edges): %u n (vertices): %u c: %f\n", hashtree->m, hashtree->n, c);
chm->graph = graph_new(chm->n, chm->m); hashtree->graph = graph_new(hashtree->n, hashtree->m);
DEBUGP("Created graph\n"); DEBUGP("Created graph\n");
chm->hashes = (hash_state_t **)malloc(sizeof(hash_state_t *)*3); hashtree->hashes = (hash_state_t **)malloc(sizeof(hash_state_t *)*3);
for(i = 0; i < 3; ++i) chm->hashes[i] = NULL; for(i = 0; i < 3; ++i) hashtree->hashes[i] = NULL;
//Mapping step //Mapping step
if (mph->verbosity) if (mph->verbosity)
{ {
fprintf(stderr, "Entering mapping step for mph creation of %u keys with graph sized %u\n", chm->m, chm->n); fprintf(stderr, "Entering mapping step for mph creation of %u keys with graph sized %u\n", hashtree->m, hashtree->n);
} }
while(1) while(1)
{ {
int ok; int ok;
chm->hashes[0] = hash_state_new(chm->hashfuncs[0], chm->n); hashtree->hashes[0] = hash_state_new(hashtree->hashfuncs[0], hashtree->n);
chm->hashes[1] = hash_state_new(chm->hashfuncs[1], chm->n); hashtree->hashes[1] = hash_state_new(hashtree->hashfuncs[1], hashtree->n);
ok = chm_gen_edges(mph); ok = hashtree_gen_edges(mph);
if (!ok) if (!ok)
{ {
--iterations; --iterations;
hash_state_destroy(chm->hashes[0]); hash_state_destroy(hashtree->hashes[0]);
chm->hashes[0] = NULL; hashtree->hashes[0] = NULL;
hash_state_destroy(chm->hashes[1]); hash_state_destroy(hashtree->hashes[1]);
chm->hashes[1] = NULL; hashtree->hashes[1] = NULL;
DEBUGP("%u iterations remaining\n", iterations); DEBUGP("%u iterations remaining\n", iterations);
if (mph->verbosity) if (mph->verbosity)
{ {
@ -96,7 +92,7 @@ cmph_t *chm_new(cmph_config_t *mph, float c)
} }
if (iterations == 0) if (iterations == 0)
{ {
graph_destroy(chm->graph); graph_destroy(hashtree->graph);
return NULL; return NULL;
} }
@ -106,34 +102,34 @@ cmph_t *chm_new(cmph_config_t *mph, float c)
fprintf(stderr, "Starting assignment step\n"); fprintf(stderr, "Starting assignment step\n");
} }
DEBUGP("Assignment step\n"); DEBUGP("Assignment step\n");
visited = (char *)malloc(chm->n/8 + 1); visited = (char *)malloc(hashtree->n/8 + 1);
memset(visited, 0, chm->n/8 + 1); memset(visited, 0, hashtree->n/8 + 1);
free(chm->g); free(hashtree->g);
chm->g = malloc(chm->n * sizeof(cmph_uint32)); hashtree->g = malloc(hashtree->n * sizeof(cmph_uint32));
assert(chm->g); assert(hashtree->g);
for (i = 0; i < chm->n; ++i) for (i = 0; i < hashtree->n; ++i)
{ {
if (!GETBIT(visited,i)) if (!GETBIT(visited,i))
{ {
chm->g[i] = 0; hashtree->g[i] = 0;
chm_traverse(chm, visited, i); hashtree_traverse(hashtree, visited, i);
} }
} }
graph_destroy(chm->graph); graph_destroy(hashtree->graph);
free(visited); free(visited);
chm->graph = NULL; hashtree->graph = NULL;
mphf = (cmph_t *)malloc(sizeof(cmph_t)); mphf = (cmph_t *)malloc(sizeof(cmph_t));
mphf->algo = mph->algo; mphf->algo = mph->algo;
chmf = (chm_data_t *)malloc(sizeof(chm_data_t)); hashtreef = (hashtree_data_t *)malloc(sizeof(hashtree_data_t));
chmf->g = chm->g; hashtreef->g = hashtree->g;
chm->g = NULL; //transfer memory ownership hashtree->g = NULL; //transfer memory ownership
chmf->hashes = chm->hashes; hashtreef->hashes = hashtree->hashes;
chm->hashes = NULL; //transfer memory ownership hashtree->hashes = NULL; //transfer memory ownership
chmf->n = chm->n; hashtreef->n = hashtree->n;
chmf->m = chm->m; hashtreef->m = hashtree->m;
mphf->data = chmf; mphf->data = hashtreef;
mphf->size = chm->m; mphf->size = hashtree->m;
DEBUGP("Successfully generated minimal perfect hash\n"); DEBUGP("Successfully generated minimal perfect hash\n");
if (mph->verbosity) if (mph->verbosity)
{ {
@ -142,34 +138,34 @@ cmph_t *chm_new(cmph_config_t *mph, float c)
return mphf; return mphf;
} }
static void chm_traverse(chm_config_data_t *chm, cmph_uint8 *visited, cmph_uint32 v) static void hashtree_traverse(hashtree_config_data_t *hashtree, cmph_uint8 *visited, cmph_uint32 v)
{ {
graph_iterator_t it = graph_neighbors_it(chm->graph, v); graph_iterator_t it = graph_neighbors_it(hashtree->graph, v);
cmph_uint32 neighbor = 0; cmph_uint32 neighbor = 0;
SETBIT(visited,v); SETBIT(visited,v);
DEBUGP("Visiting vertex %u\n", v); DEBUGP("Visiting vertex %u\n", v);
while((neighbor = graph_next_neighbor(chm->graph, &it)) != GRAPH_NO_NEIGHBOR) while((neighbor = graph_next_neighbor(hashtree->graph, &it)) != GRAPH_NO_NEIGHBOR)
{ {
DEBUGP("Visiting neighbor %u\n", neighbor); DEBUGP("Visiting neighbor %u\n", neighbor);
if(GETBIT(visited,neighbor)) continue; if(GETBIT(visited,neighbor)) continue;
DEBUGP("Visiting neighbor %u\n", neighbor); DEBUGP("Visiting neighbor %u\n", neighbor);
DEBUGP("Visiting edge %u->%u with id %u\n", v, neighbor, graph_edge_id(chm->graph, v, neighbor)); DEBUGP("Visiting edge %u->%u with id %u\n", v, neighbor, graph_edge_id(hashtree->graph, v, neighbor));
chm->g[neighbor] = graph_edge_id(chm->graph, v, neighbor) - chm->g[v]; hashtree->g[neighbor] = graph_edge_id(hashtree->graph, v, neighbor) - hashtree->g[v];
DEBUGP("g is %u (%u - %u mod %u)\n", chm->g[neighbor], graph_edge_id(chm->graph, v, neighbor), chm->g[v], chm->m); DEBUGP("g is %u (%u - %u mod %u)\n", hashtree->g[neighbor], graph_edge_id(hashtree->graph, v, neighbor), hashtree->g[v], hashtree->m);
chm_traverse(chm, visited, neighbor); hashtree_traverse(hashtree, visited, neighbor);
} }
} }
static int chm_gen_edges(cmph_config_t *mph) static int hashtree_gen_edges(cmph_config_t *mph)
{ {
cmph_uint32 e; cmph_uint32 e;
chm_config_data_t *chm = (chm_config_data_t *)mph->data; hashtree_config_data_t *hashtree = (hashtree_config_data_t *)mph->data;
int cycles = 0; int cycles = 0;
DEBUGP("Generating edges for %u vertices with hash functions %s and %s\n", chm->n, cmph_hash_names[chm->hashfuncs[0]], cmph_hash_names[chm->hashfuncs[1]]); DEBUGP("Generating edges for %u vertices with hash functions %s and %s\n", hashtree->n, cmph_hash_names[hashtree->hashfuncs[0]], cmph_hash_names[hashtree->hashfuncs[1]]);
graph_clear_edges(chm->graph); graph_clear_edges(hashtree->graph);
mph->key_source->rewind(mph->key_source->data); mph->key_source->rewind(mph->key_source->data);
for (e = 0; e < mph->key_source->nkeys; ++e) for (e = 0; e < mph->key_source->nkeys; ++e)
{ {
@ -177,9 +173,9 @@ static int chm_gen_edges(cmph_config_t *mph)
cmph_uint32 keylen; cmph_uint32 keylen;
char *key; char *key;
mph->key_source->read(mph->key_source->data, &key, &keylen); mph->key_source->read(mph->key_source->data, &key, &keylen);
h1 = hash(chm->hashes[0], key, keylen) % chm->n; h1 = hash(hashtree->hashes[0], key, keylen) % hashtree->n;
h2 = hash(chm->hashes[1], key, keylen) % chm->n; h2 = hash(hashtree->hashes[1], key, keylen) % hashtree->n;
if (h1 == h2) if (++h2 >= chm->n) h2 = 0; if (h1 == h2) if (++h2 >= hashtree->n) h2 = 0;
if (h1 == h2) if (h1 == h2)
{ {
if (mph->verbosity) fprintf(stderr, "Self loop for key %u\n", e); if (mph->verbosity) fprintf(stderr, "Self loop for key %u\n", e);
@ -188,21 +184,21 @@ static int chm_gen_edges(cmph_config_t *mph)
} }
DEBUGP("Adding edge: %u -> %u for key %s\n", h1, h2, key); DEBUGP("Adding edge: %u -> %u for key %s\n", h1, h2, key);
mph->key_source->dispose(mph->key_source->data, key, keylen); mph->key_source->dispose(mph->key_source->data, key, keylen);
graph_add_edge(chm->graph, h1, h2); graph_add_edge(hashtree->graph, h1, h2);
} }
cycles = graph_is_cyclic(chm->graph); cycles = graph_is_cyclic(hashtree->graph);
if (mph->verbosity && cycles) fprintf(stderr, "Cyclic graph generated\n"); if (mph->verbosity && cycles) fprintf(stderr, "Cyclic graph generated\n");
DEBUGP("Looking for cycles: %u\n", cycles); DEBUGP("Looking for cycles: %u\n", cycles);
return ! cycles; return ! cycles;
} }
int chm_dump(cmph_t *mphf, FILE *fd) int hashtree_dump(cmph_t *mphf, FILE *fd)
{ {
char *buf = NULL; char *buf = NULL;
cmph_uint32 buflen; cmph_uint32 buflen;
cmph_uint32 two = 2; //number of hash functions cmph_uint32 two = 2; //number of hash functions
chm_data_t *data = (chm_data_t *)mphf->data; hashtree_data_t *data = (hashtree_data_t *)mphf->data;
__cmph_dump(mphf, fd); __cmph_dump(mphf, fd);
fwrite(&two, sizeof(cmph_uint32), 1, fd); fwrite(&two, sizeof(cmph_uint32), 1, fd);
@ -230,19 +226,19 @@ int chm_dump(cmph_t *mphf, FILE *fd)
return 1; return 1;
} }
void chm_load(FILE *f, cmph_t *mphf) void hashtree_load(FILE *f, cmph_t *mphf)
{ {
cmph_uint32 nhashes; cmph_uint32 nhashes;
char *buf = NULL; char *buf = NULL;
cmph_uint32 buflen; cmph_uint32 buflen;
cmph_uint32 i; cmph_uint32 i;
chm_data_t *chm = (chm_data_t *)malloc(sizeof(chm_data_t)); hashtree_data_t *hashtree = (hashtree_data_t *)malloc(sizeof(hashtree_data_t));
DEBUGP("Loading chm mphf\n"); DEBUGP("Loading hashtree mphf\n");
mphf->data = chm; mphf->data = hashtree;
fread(&nhashes, sizeof(cmph_uint32), 1, f); fread(&nhashes, sizeof(cmph_uint32), 1, f);
chm->hashes = (hash_state_t **)malloc(sizeof(hash_state_t *)*(nhashes + 1)); hashtree->hashes = (hash_state_t **)malloc(sizeof(hash_state_t *)*(nhashes + 1));
chm->hashes[nhashes] = NULL; hashtree->hashes[nhashes] = NULL;
DEBUGP("Reading %u hashes\n", nhashes); DEBUGP("Reading %u hashes\n", nhashes);
for (i = 0; i < nhashes; ++i) for (i = 0; i < nhashes; ++i)
{ {
@ -252,38 +248,38 @@ void chm_load(FILE *f, cmph_t *mphf)
buf = (char *)malloc(buflen); buf = (char *)malloc(buflen);
fread(buf, buflen, 1, f); fread(buf, buflen, 1, f);
state = hash_state_load(buf, buflen); state = hash_state_load(buf, buflen);
chm->hashes[i] = state; hashtree->hashes[i] = state;
free(buf); free(buf);
} }
DEBUGP("Reading m and n\n"); DEBUGP("Reading m and n\n");
fread(&(chm->n), sizeof(cmph_uint32), 1, f); fread(&(hashtree->n), sizeof(cmph_uint32), 1, f);
fread(&(chm->m), sizeof(cmph_uint32), 1, f); fread(&(hashtree->m), sizeof(cmph_uint32), 1, f);
chm->g = (cmph_uint32 *)malloc(sizeof(cmph_uint32)*chm->n); hashtree->g = (cmph_uint32 *)malloc(sizeof(cmph_uint32)*hashtree->n);
fread(chm->g, chm->n*sizeof(cmph_uint32), 1, f); fread(hashtree->g, hashtree->n*sizeof(cmph_uint32), 1, f);
#ifdef DEBUG #ifdef DEBUG
fprintf(stderr, "G: "); fprintf(stderr, "G: ");
for (i = 0; i < chm->n; ++i) fprintf(stderr, "%u ", chm->g[i]); for (i = 0; i < hashtree->n; ++i) fprintf(stderr, "%u ", hashtree->g[i]);
fprintf(stderr, "\n"); fprintf(stderr, "\n");
#endif #endif
return; return;
} }
cmph_uint32 chm_search(cmph_t *mphf, const char *key, cmph_uint32 keylen) cmph_uint32 hashtree_search(cmph_t *mphf, const char *key, cmph_uint32 keylen)
{ {
chm_data_t *chm = mphf->data; hashtree_data_t *hashtree = mphf->data;
cmph_uint32 h1 = hash(chm->hashes[0], key, keylen) % chm->n; cmph_uint32 h1 = hash(hashtree->hashes[0], key, keylen) % hashtree->n;
cmph_uint32 h2 = hash(chm->hashes[1], key, keylen) % chm->n; cmph_uint32 h2 = hash(hashtree->hashes[1], key, keylen) % hashtree->n;
DEBUGP("key: %s h1: %u h2: %u\n", key, h1, h2); DEBUGP("key: %s h1: %u h2: %u\n", key, h1, h2);
if (h1 == h2 && ++h2 >= chm->n) h2 = 0; if (h1 == h2 && ++h2 >= hashtree->n) h2 = 0;
DEBUGP("key: %s g[h1]: %u g[h2]: %u edges: %u\n", key, chm->g[h1], chm->g[h2], chm->m); DEBUGP("key: %s g[h1]: %u g[h2]: %u edges: %u\n", key, hashtree->g[h1], hashtree->g[h2], hashtree->m);
return (chm->g[h1] + chm->g[h2]) % chm->m; return (hashtree->g[h1] + hashtree->g[h2]) % hashtree->m;
} }
void chm_destroy(cmph_t *mphf) void hashtree_destroy(cmph_t *mphf)
{ {
chm_data_t *data = (chm_data_t *)mphf->data; hashtree_data_t *data = (hashtree_data_t *)mphf->data;
free(data->g); free(data->g);
hash_state_destroy(data->hashes[0]); hash_state_destroy(data->hashes[0]);
hash_state_destroy(data->hashes[1]); hash_state_destroy(data->hashes[1]);

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@ -8,6 +8,7 @@ typedef struct __hashtree_config_data_t hashtree_config_data_t;
hashtree_config_data_t *hashtree_config_new(); hashtree_config_data_t *hashtree_config_new();
void hashtree_config_set_hashfuncs(cmph_config_t *mph, CMPH_HASH *hashfuncs); void hashtree_config_set_hashfuncs(cmph_config_t *mph, CMPH_HASH *hashfuncs);
void hashtree_config_set_leaf_algo(cmph_config_t *mph, CMPH_ALGO leaf_algo);
void hashtree_config_destroy(cmph_config_t *mph); void hashtree_config_destroy(cmph_config_t *mph);
cmph_t *hashtree_new(cmph_config_t *mph, float c); cmph_t *hashtree_new(cmph_config_t *mph, float c);

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@ -17,6 +17,7 @@ struct __hashtree_data_t
struct __hashtree_config_data_t struct __hashtree_config_data_t
{ {
CMPH_ALGO leaf_algo;
CMPH_HASH hashfuncs[3]; CMPH_HASH hashfuncs[3];
cmph_uint32 m; //edges (words) count cmph_uint32 m; //edges (words) count
cmph_uint8 *size; //size[i] stores the number of edges represented by g[i] cmph_uint8 *size; //size[i] stores the number of edges represented by g[i]