#include "cmph.h" #include "cmph_structs.h" #include "chm.h" #include "bmz.h" #include "bmz8.h" #include "brz.h" #include "fch.h" #include "bdz.h" #include "bdz_ph.h" #include "chd_ph.h" #include "chd.h" #include #include #include //#define DEBUG #include "debug.h" const char *cmph_names[] = {"bmz", "bmz8", "chm", "brz", "fch", "bdz", "bdz_ph", "chd_ph", "chd", NULL }; typedef struct { void *vector; cmph_uint32 position; // access position when data is a vector } cmph_vector_t; /** * Support a vector of struct as the source of keys. * * E.g. The keys could be the fieldB's in a vector of struct rec where * struct rec is defined as: * struct rec { * fieldA; * fieldB; * fieldC; * } */ typedef struct { void *vector; /* Pointer to the vector of struct */ cmph_uint32 position; /* current position */ cmph_uint32 struct_size; /* The size of the struct */ cmph_uint32 key_offset; /* The byte offset of the key in the struct */ cmph_uint32 key_len; /* The length of the key */ } cmph_struct_vector_t; static cmph_io_adapter_t *cmph_io_vector_new(void * vector, cmph_uint32 nkeys); static void cmph_io_vector_destroy(cmph_io_adapter_t * key_source); static cmph_io_adapter_t *cmph_io_struct_vector_new(void * vector, cmph_uint32 struct_size, cmph_uint32 key_offset, cmph_uint32 key_len, cmph_uint32 nkeys); static void cmph_io_struct_vector_destroy(cmph_io_adapter_t * key_source); static int key_nlfile_read(void *data, char **key, cmph_uint32 *keylen) { FILE *fd = (FILE *)data; *key = NULL; *keylen = 0; while(1) { char buf[BUFSIZ]; char *c = fgets(buf, BUFSIZ, fd); if (c == NULL) return -1; if (feof(fd)) return -1; *key = (char *)realloc(*key, *keylen + strlen(buf) + 1); memcpy(*key + *keylen, buf, strlen(buf)); *keylen += (cmph_uint32)strlen(buf); if (buf[strlen(buf) - 1] != '\n') continue; break; } if ((*keylen) && (*key)[*keylen - 1] == '\n') { (*key)[(*keylen) - 1] = 0; --(*keylen); } return (int)(*keylen); } static int key_byte_vector_read(void *data, char **key, cmph_uint32 *keylen) { cmph_vector_t *cmph_vector = (cmph_vector_t *)data; cmph_uint8 **keys_vd = (cmph_uint8 **)cmph_vector->vector; size_t size; memcpy(keylen, keys_vd[cmph_vector->position], sizeof(*keylen)); size = *keylen; *key = (char *)malloc(size); memcpy(*key, keys_vd[cmph_vector->position] + sizeof(*keylen), size); cmph_vector->position = cmph_vector->position + 1; return (int)(*keylen); } static int key_struct_vector_read(void *data, char **key, cmph_uint32 *keylen) { cmph_struct_vector_t *cmph_struct_vector = (cmph_struct_vector_t *)data; char *keys_vd = (char *)cmph_struct_vector->vector; size_t size; *keylen = cmph_struct_vector->key_len; size = *keylen; *key = (char *)malloc(size); memcpy(*key, (keys_vd + (cmph_struct_vector->position * cmph_struct_vector->struct_size) + cmph_struct_vector->key_offset), size); cmph_struct_vector->position = cmph_struct_vector->position + 1; return (int)(*keylen); } static int key_vector_read(void *data, char **key, cmph_uint32 *keylen) { cmph_vector_t *cmph_vector = (cmph_vector_t *)data; char **keys_vd = (char **)cmph_vector->vector; size_t size; *keylen = (cmph_uint32)strlen(keys_vd[cmph_vector->position]); size = *keylen; *key = (char *)malloc(size + 1); strcpy(*key, keys_vd[cmph_vector->position]); cmph_vector->position = cmph_vector->position + 1; return (int)(*keylen); } static void key_nlfile_dispose(void *data, char *key, cmph_uint32 keylen) { free(key); } static void key_vector_dispose(void *data, char *key, cmph_uint32 keylen) { free(key); } static void key_nlfile_rewind(void *data) { FILE *fd = (FILE *)data; rewind(fd); } static void key_struct_vector_rewind(void *data) { cmph_struct_vector_t *cmph_struct_vector = (cmph_struct_vector_t *)data; cmph_struct_vector->position = 0; } static void key_vector_rewind(void *data) { cmph_vector_t *cmph_vector = (cmph_vector_t *)data; cmph_vector->position = 0; } static cmph_uint32 count_nlfile_keys(FILE *fd) { cmph_uint32 count = 0; rewind(fd); while(1) { char buf[BUFSIZ]; if (fgets(buf, BUFSIZ, fd) == NULL) break; if (feof(fd)) break; if (buf[strlen(buf) - 1] != '\n') continue; ++count; } rewind(fd); return count; } cmph_io_adapter_t *cmph_io_nlfile_adapter(FILE * keys_fd) { cmph_io_adapter_t * key_source = (cmph_io_adapter_t *)malloc(sizeof(cmph_io_adapter_t)); assert(key_source); key_source->data = (void *)keys_fd; key_source->nkeys = count_nlfile_keys(keys_fd); key_source->read = key_nlfile_read; key_source->dispose = key_nlfile_dispose; key_source->rewind = key_nlfile_rewind; return key_source; } void cmph_io_nlfile_adapter_destroy(cmph_io_adapter_t * key_source) { free(key_source); } cmph_io_adapter_t *cmph_io_nlnkfile_adapter(FILE * keys_fd, cmph_uint32 nkeys) { cmph_io_adapter_t * key_source = (cmph_io_adapter_t *)malloc(sizeof(cmph_io_adapter_t)); assert(key_source); key_source->data = (void *)keys_fd; key_source->nkeys = nkeys; key_source->read = key_nlfile_read; key_source->dispose = key_nlfile_dispose; key_source->rewind = key_nlfile_rewind; return key_source; } void cmph_io_nlnkfile_adapter_destroy(cmph_io_adapter_t * key_source) { free(key_source); } static cmph_io_adapter_t *cmph_io_struct_vector_new(void * vector, cmph_uint32 struct_size, cmph_uint32 key_offset, cmph_uint32 key_len, cmph_uint32 nkeys) { cmph_io_adapter_t * key_source = (cmph_io_adapter_t *)malloc(sizeof(cmph_io_adapter_t)); cmph_struct_vector_t * cmph_struct_vector = (cmph_struct_vector_t *)malloc(sizeof(cmph_struct_vector_t)); assert(key_source); assert(cmph_struct_vector); cmph_struct_vector->vector = vector; cmph_struct_vector->position = 0; cmph_struct_vector->struct_size = struct_size; cmph_struct_vector->key_offset = key_offset; cmph_struct_vector->key_len = key_len; key_source->data = (void *)cmph_struct_vector; key_source->nkeys = nkeys; return key_source; } static void cmph_io_struct_vector_destroy(cmph_io_adapter_t * key_source) { cmph_struct_vector_t *cmph_struct_vector = (cmph_struct_vector_t *)key_source->data; cmph_struct_vector->vector = NULL; free(cmph_struct_vector); free(key_source); } static cmph_io_adapter_t *cmph_io_vector_new(void * vector, cmph_uint32 nkeys) { cmph_io_adapter_t * key_source = (cmph_io_adapter_t *)malloc(sizeof(cmph_io_adapter_t)); cmph_vector_t * cmph_vector = (cmph_vector_t *)malloc(sizeof(cmph_vector_t)); assert(key_source); assert(cmph_vector); cmph_vector->vector = vector; cmph_vector->position = 0; key_source->data = (void *)cmph_vector; key_source->nkeys = nkeys; return key_source; } static void cmph_io_vector_destroy(cmph_io_adapter_t * key_source) { cmph_vector_t *cmph_vector = (cmph_vector_t *)key_source->data; cmph_vector->vector = NULL; free(cmph_vector); free(key_source); } cmph_io_adapter_t *cmph_io_byte_vector_adapter(cmph_uint8 ** vector, cmph_uint32 nkeys) { cmph_io_adapter_t * key_source = cmph_io_vector_new(vector, nkeys); key_source->read = key_byte_vector_read; key_source->dispose = key_vector_dispose; key_source->rewind = key_vector_rewind; return key_source; } void cmph_io_byte_vector_adapter_destroy(cmph_io_adapter_t * key_source) { cmph_io_vector_destroy(key_source); } cmph_io_adapter_t *cmph_io_struct_vector_adapter(void * vector, cmph_uint32 struct_size, cmph_uint32 key_offset, cmph_uint32 key_len, cmph_uint32 nkeys) { cmph_io_adapter_t * key_source = cmph_io_struct_vector_new(vector, struct_size, key_offset, key_len, nkeys); key_source->read = key_struct_vector_read; key_source->dispose = key_vector_dispose; key_source->rewind = key_struct_vector_rewind; return key_source; } void cmph_io_struct_vector_adapter_destroy(cmph_io_adapter_t * key_source) { cmph_io_struct_vector_destroy(key_source); } cmph_io_adapter_t *cmph_io_vector_adapter(char ** vector, cmph_uint32 nkeys) { cmph_io_adapter_t * key_source = cmph_io_vector_new(vector, nkeys); key_source->read = key_vector_read; key_source->dispose = key_vector_dispose; key_source->rewind = key_vector_rewind; return key_source; } void cmph_io_vector_adapter_destroy(cmph_io_adapter_t * key_source) { cmph_io_vector_destroy(key_source); } cmph_config_t *cmph_config_new(cmph_io_adapter_t *key_source) { cmph_config_t *mph = NULL; mph = __config_new(key_source); assert(mph); mph->algo = CMPH_CHM; // default value mph->data = chm_config_new(); return mph; } void cmph_config_set_algo(cmph_config_t *mph, CMPH_ALGO algo) { if (algo != mph->algo) { switch (mph->algo) { case CMPH_CHM: chm_config_destroy(mph); break; case CMPH_BMZ: bmz_config_destroy(mph); break; case CMPH_BMZ8: bmz8_config_destroy(mph); break; case CMPH_BRZ: brz_config_destroy(mph); break; case CMPH_FCH: fch_config_destroy(mph); break; case CMPH_BDZ: bdz_config_destroy(mph); break; case CMPH_BDZ_PH: bdz_ph_config_destroy(mph); break; case CMPH_CHD_PH: chd_ph_config_destroy(mph); break; case CMPH_CHD: chd_config_destroy(mph); break; default: assert(0); } switch(algo) { case CMPH_CHM: mph->data = chm_config_new(); break; case CMPH_BMZ: mph->data = bmz_config_new(); break; case CMPH_BMZ8: mph->data = bmz8_config_new(); break; case CMPH_BRZ: mph->data = brz_config_new(); break; case CMPH_FCH: mph->data = fch_config_new(); break; case CMPH_BDZ: mph->data = bdz_config_new(); break; case CMPH_BDZ_PH: mph->data = bdz_ph_config_new(); break; case CMPH_CHD_PH: mph->data = chd_ph_config_new(); break; case CMPH_CHD: mph->data = chd_config_new(mph); break; default: assert(0); } } mph->algo = algo; } void cmph_config_set_tmp_dir(cmph_config_t *mph, cmph_uint8 *tmp_dir) { if (mph->algo == CMPH_BRZ) { brz_config_set_tmp_dir(mph, tmp_dir); } } void cmph_config_set_mphf_fd(cmph_config_t *mph, FILE *mphf_fd) { if (mph->algo == CMPH_BRZ) { brz_config_set_mphf_fd(mph, mphf_fd); } } void cmph_config_set_b(cmph_config_t *mph, cmph_uint32 b) { if (mph->algo == CMPH_BRZ) { brz_config_set_b(mph, b); } else if (mph->algo == CMPH_BDZ) { bdz_config_set_b(mph, b); } else if (mph->algo == CMPH_CHD_PH) { chd_ph_config_set_b(mph, b); } else if (mph->algo == CMPH_CHD) { chd_config_set_b(mph, b); } } void cmph_config_set_keys_per_bin(cmph_config_t *mph, cmph_uint32 keys_per_bin) { if (mph->algo == CMPH_CHD_PH) { chd_ph_config_set_keys_per_bin(mph, keys_per_bin); } else if (mph->algo == CMPH_CHD) { chd_config_set_keys_per_bin(mph, keys_per_bin); } } void cmph_config_set_memory_availability(cmph_config_t *mph, cmph_uint32 memory_availability) { if (mph->algo == CMPH_BRZ) { brz_config_set_memory_availability(mph, memory_availability); } } void cmph_config_destroy(cmph_config_t *mph) { if(mph) { DEBUGP("Destroying mph with algo %s\n", cmph_names[mph->algo]); switch (mph->algo) { case CMPH_CHM: chm_config_destroy(mph); break; case CMPH_BMZ: /* included -- Fabiano */ bmz_config_destroy(mph); break; case CMPH_BMZ8: /* included -- Fabiano */ bmz8_config_destroy(mph); break; case CMPH_BRZ: /* included -- Fabiano */ brz_config_destroy(mph); break; case CMPH_FCH: /* included -- Fabiano */ fch_config_destroy(mph); break; case CMPH_BDZ: /* included -- Fabiano */ bdz_config_destroy(mph); break; case CMPH_BDZ_PH: /* included -- Fabiano */ bdz_ph_config_destroy(mph); break; case CMPH_CHD_PH: /* included -- Fabiano */ chd_ph_config_destroy(mph); break; case CMPH_CHD: /* included -- Fabiano */ chd_config_destroy(mph); break; default: assert(0); } __config_destroy(mph); } } void cmph_config_set_verbosity(cmph_config_t *mph, cmph_uint32 verbosity) { mph->verbosity = verbosity; } void cmph_config_set_hashfuncs(cmph_config_t *mph, CMPH_HASH *hashfuncs) { switch (mph->algo) { case CMPH_CHM: chm_config_set_hashfuncs(mph, hashfuncs); break; case CMPH_BMZ: /* included -- Fabiano */ bmz_config_set_hashfuncs(mph, hashfuncs); break; case CMPH_BMZ8: /* included -- Fabiano */ bmz8_config_set_hashfuncs(mph, hashfuncs); break; case CMPH_BRZ: /* included -- Fabiano */ brz_config_set_hashfuncs(mph, hashfuncs); break; case CMPH_FCH: /* included -- Fabiano */ fch_config_set_hashfuncs(mph, hashfuncs); break; case CMPH_BDZ: /* included -- Fabiano */ bdz_config_set_hashfuncs(mph, hashfuncs); break; case CMPH_BDZ_PH: /* included -- Fabiano */ bdz_ph_config_set_hashfuncs(mph, hashfuncs); break; case CMPH_CHD_PH: /* included -- Fabiano */ chd_ph_config_set_hashfuncs(mph, hashfuncs); break; case CMPH_CHD: /* included -- Fabiano */ chd_config_set_hashfuncs(mph, hashfuncs); break; default: break; } return; } void cmph_config_set_graphsize(cmph_config_t *mph, double c) { mph->c = c; return; } cmph_t *cmph_new(cmph_config_t *mph) { cmph_t *mphf = NULL; double c = mph->c; DEBUGP("Creating mph with algorithm %s\n", cmph_names[mph->algo]); switch (mph->algo) { case CMPH_CHM: DEBUGP("Creating chm hash\n"); mphf = chm_new(mph, c); break; case CMPH_BMZ: /* included -- Fabiano */ DEBUGP("Creating bmz hash\n"); mphf = bmz_new(mph, c); break; case CMPH_BMZ8: /* included -- Fabiano */ DEBUGP("Creating bmz8 hash\n"); mphf = bmz8_new(mph, c); break; case CMPH_BRZ: /* included -- Fabiano */ DEBUGP("Creating brz hash\n"); if (c >= 2.0) brz_config_set_algo(mph, CMPH_FCH); else brz_config_set_algo(mph, CMPH_BMZ8); mphf = brz_new(mph, c); break; case CMPH_FCH: /* included -- Fabiano */ DEBUGP("Creating fch hash\n"); mphf = fch_new(mph, c); break; case CMPH_BDZ: /* included -- Fabiano */ DEBUGP("Creating bdz hash\n"); mphf = bdz_new(mph, c); break; case CMPH_BDZ_PH: /* included -- Fabiano */ DEBUGP("Creating bdz_ph hash\n"); mphf = bdz_ph_new(mph, c); break; case CMPH_CHD_PH: /* included -- Fabiano */ DEBUGP("Creating chd_ph hash\n"); mphf = chd_ph_new(mph, c); break; case CMPH_CHD: /* included -- Fabiano */ DEBUGP("Creating chd hash\n"); mphf = chd_new(mph, c); break; default: assert(0); } return mphf; } int cmph_dump(cmph_t *mphf, FILE *f) { switch (mphf->algo) { case CMPH_CHM: return chm_dump(mphf, f); case CMPH_BMZ: /* included -- Fabiano */ return bmz_dump(mphf, f); case CMPH_BMZ8: /* included -- Fabiano */ return bmz8_dump(mphf, f); case CMPH_BRZ: /* included -- Fabiano */ return brz_dump(mphf, f); case CMPH_FCH: /* included -- Fabiano */ return fch_dump(mphf, f); case CMPH_BDZ: /* included -- Fabiano */ return bdz_dump(mphf, f); case CMPH_BDZ_PH: /* included -- Fabiano */ return bdz_ph_dump(mphf, f); case CMPH_CHD_PH: /* included -- Fabiano */ return chd_ph_dump(mphf, f); case CMPH_CHD: /* included -- Fabiano */ return chd_dump(mphf, f); default: assert(0); } assert(0); return 0; } cmph_t *cmph_load(FILE *f) { cmph_t *mphf = NULL; DEBUGP("Loading mphf generic parts\n"); mphf = __cmph_load(f); if (mphf == NULL) return NULL; DEBUGP("Loading mphf algorithm dependent parts\n"); switch (mphf->algo) { case CMPH_CHM: chm_load(f, mphf); break; case CMPH_BMZ: /* included -- Fabiano */ DEBUGP("Loading bmz algorithm dependent parts\n"); bmz_load(f, mphf); break; case CMPH_BMZ8: /* included -- Fabiano */ DEBUGP("Loading bmz8 algorithm dependent parts\n"); bmz8_load(f, mphf); break; case CMPH_BRZ: /* included -- Fabiano */ DEBUGP("Loading brz algorithm dependent parts\n"); brz_load(f, mphf); break; case CMPH_FCH: /* included -- Fabiano */ DEBUGP("Loading fch algorithm dependent parts\n"); fch_load(f, mphf); break; case CMPH_BDZ: /* included -- Fabiano */ DEBUGP("Loading bdz algorithm dependent parts\n"); bdz_load(f, mphf); break; case CMPH_BDZ_PH: /* included -- Fabiano */ DEBUGP("Loading bdz_ph algorithm dependent parts\n"); bdz_ph_load(f, mphf); break; case CMPH_CHD_PH: /* included -- Fabiano */ DEBUGP("Loading chd_ph algorithm dependent parts\n"); chd_ph_load(f, mphf); break; case CMPH_CHD: /* included -- Fabiano */ DEBUGP("Loading chd algorithm dependent parts\n"); chd_load(f, mphf); break; default: assert(0); } DEBUGP("Loaded mphf\n"); return mphf; } cmph_uint32 cmph_search(cmph_t *mphf, const char *key, cmph_uint32 keylen) { DEBUGP("mphf algorithm: %u \n", mphf->algo); switch(mphf->algo) { case CMPH_CHM: return chm_search(mphf, key, keylen); case CMPH_BMZ: /* included -- Fabiano */ DEBUGP("bmz algorithm search\n"); return bmz_search(mphf, key, keylen); case CMPH_BMZ8: /* included -- Fabiano */ DEBUGP("bmz8 algorithm search\n"); return bmz8_search(mphf, key, keylen); case CMPH_BRZ: /* included -- Fabiano */ DEBUGP("brz algorithm search\n"); return brz_search(mphf, key, keylen); case CMPH_FCH: /* included -- Fabiano */ DEBUGP("fch algorithm search\n"); return fch_search(mphf, key, keylen); case CMPH_BDZ: /* included -- Fabiano */ DEBUGP("bdz algorithm search\n"); return bdz_search(mphf, key, keylen); case CMPH_BDZ_PH: /* included -- Fabiano */ DEBUGP("bdz_ph algorithm search\n"); return bdz_ph_search(mphf, key, keylen); case CMPH_CHD_PH: /* included -- Fabiano */ DEBUGP("chd_ph algorithm search\n"); return chd_ph_search(mphf, key, keylen); case CMPH_CHD: /* included -- Fabiano */ DEBUGP("chd algorithm search\n"); return chd_search(mphf, key, keylen); default: assert(0); } assert(0); return 0; } cmph_uint32 cmph_size(cmph_t *mphf) { return mphf->size; } void cmph_destroy(cmph_t *mphf) { switch(mphf->algo) { case CMPH_CHM: chm_destroy(mphf); return; case CMPH_BMZ: /* included -- Fabiano */ bmz_destroy(mphf); return; case CMPH_BMZ8: /* included -- Fabiano */ bmz8_destroy(mphf); return; case CMPH_BRZ: /* included -- Fabiano */ brz_destroy(mphf); return; case CMPH_FCH: /* included -- Fabiano */ fch_destroy(mphf); return; case CMPH_BDZ: /* included -- Fabiano */ bdz_destroy(mphf); return; case CMPH_BDZ_PH: /* included -- Fabiano */ bdz_ph_destroy(mphf); return; case CMPH_CHD_PH: /* included -- Fabiano */ chd_ph_destroy(mphf); return; case CMPH_CHD: /* included -- Fabiano */ chd_destroy(mphf); return; default: assert(0); } assert(0); return; } /** \fn void cmph_pack(cmph_t *mphf, void *packed_mphf); * \brief Support the ability to pack a perfect hash function into a preallocated contiguous memory space pointed by packed_mphf. * \param mphf pointer to the resulting mphf * \param packed_mphf pointer to the contiguous memory area used to store the resulting mphf. The size of packed_mphf must be at least cmph_packed_size() */ void cmph_pack(cmph_t *mphf, void *packed_mphf) { // packing algorithm type to be used in cmph.c cmph_uint32 * ptr = (cmph_uint32 *) packed_mphf; *ptr++ = mphf->algo; DEBUGP("mphf->algo = %u\n", mphf->algo); switch(mphf->algo) { case CMPH_CHM: chm_pack(mphf, ptr); break; case CMPH_BMZ: /* included -- Fabiano */ bmz_pack(mphf, ptr); break; case CMPH_BMZ8: /* included -- Fabiano */ bmz8_pack(mphf, ptr); break; case CMPH_BRZ: /* included -- Fabiano */ brz_pack(mphf, ptr); break; case CMPH_FCH: /* included -- Fabiano */ fch_pack(mphf, ptr); break; case CMPH_BDZ: /* included -- Fabiano */ bdz_pack(mphf, ptr); break; case CMPH_BDZ_PH: /* included -- Fabiano */ bdz_ph_pack(mphf, ptr); break; case CMPH_CHD_PH: /* included -- Fabiano */ chd_ph_pack(mphf, ptr); break; case CMPH_CHD: /* included -- Fabiano */ chd_pack(mphf, ptr); break; default: assert(0); } return; } /** \fn cmph_uint32 cmph_packed_size(cmph_t *mphf); * \brief Return the amount of space needed to pack mphf. * \param mphf pointer to a mphf * \return the size of the packed function or zero for failures */ cmph_uint32 cmph_packed_size(cmph_t *mphf) { switch(mphf->algo) { case CMPH_CHM: return chm_packed_size(mphf); case CMPH_BMZ: /* included -- Fabiano */ return bmz_packed_size(mphf); case CMPH_BMZ8: /* included -- Fabiano */ return bmz8_packed_size(mphf); case CMPH_BRZ: /* included -- Fabiano */ return brz_packed_size(mphf); case CMPH_FCH: /* included -- Fabiano */ return fch_packed_size(mphf); case CMPH_BDZ: /* included -- Fabiano */ return bdz_packed_size(mphf); case CMPH_BDZ_PH: /* included -- Fabiano */ return bdz_ph_packed_size(mphf); case CMPH_CHD_PH: /* included -- Fabiano */ return chd_ph_packed_size(mphf); case CMPH_CHD: /* included -- Fabiano */ return chd_packed_size(mphf); default: assert(0); } return 0; // FAILURE } /** cmph_uint32 cmph_search(void *packed_mphf, const char *key, cmph_uint32 keylen); * \brief Use the packed mphf to do a search. * \param packed_mphf pointer to the packed mphf * \param key key to be hashed * \param keylen key length in bytes * \return The mphf value */ cmph_uint32 cmph_search_packed(void *packed_mphf, const char *key, cmph_uint32 keylen) { cmph_uint32 *ptr = (cmph_uint32 *)packed_mphf; // fprintf(stderr, "algo:%u\n", *ptr); switch(*ptr) { case CMPH_CHM: return chm_search_packed(++ptr, key, keylen); case CMPH_BMZ: /* included -- Fabiano */ return bmz_search_packed(++ptr, key, keylen); case CMPH_BMZ8: /* included -- Fabiano */ return bmz8_search_packed(++ptr, key, keylen); case CMPH_BRZ: /* included -- Fabiano */ return brz_search_packed(++ptr, key, keylen); case CMPH_FCH: /* included -- Fabiano */ return fch_search_packed(++ptr, key, keylen); case CMPH_BDZ: /* included -- Fabiano */ return bdz_search_packed(++ptr, key, keylen); case CMPH_BDZ_PH: /* included -- Fabiano */ return bdz_ph_search_packed(++ptr, key, keylen); case CMPH_CHD_PH: /* included -- Fabiano */ return chd_ph_search_packed(++ptr, key, keylen); case CMPH_CHD: /* included -- Fabiano */ return chd_search_packed(++ptr, key, keylen); default: assert(0); } return 0; // FAILURE }