#include "../wingetopt.h" #include #include #include #include #include #include #include #include "cmph.h" #include "hash.h" #ifdef WIN32 #define VERSION "0.2" #else #include "config.h" #endif void usage(const char *prg) { fprintf(stderr, "usage: %s [-v] [-h] [-V] [-k nkeys] [-f hash_function] [-g [-c value][-s seed] ] [-m file.mph] [-a algorithm] keysfile\n", prg); } void usage_long(const char *prg) { cmph_uint32 i; fprintf(stderr, "usage: %s [-v] [-h] [-V] [-k nkeys] [-f hash_function] [-g [-c value][-s seed] ] [-m file.mph] [-a algorithm] keysfile\n", prg); fprintf(stderr, "Minimum perfect hashing tool\n\n"); fprintf(stderr, " -h\t print this help message\n"); fprintf(stderr, " -c\t c value that determines the number of vertices in the graph\n"); fprintf(stderr, " -a\t algorithm - valid values are\n"); for (i = 0; i < CMPH_COUNT; ++i) fprintf(stderr, " \t * %s\n", cmph_names[i]); fprintf(stderr, " -f\t hash function (may be used multiple times) - valid values are\n"); for (i = 0; i < CMPH_HASH_COUNT; ++i) fprintf(stderr, " \t * %s\n", cmph_hash_names[i]); fprintf(stderr, " -V\t print version number and exit\n"); fprintf(stderr, " -v\t increase verbosity (may be used multiple times)\n"); fprintf(stderr, " -k\t number of keys\n"); fprintf(stderr, " -g\t generation mode\n"); fprintf(stderr, " -s\t random seed\n"); fprintf(stderr, " -m\t minimum perfect hash function file \n"); fprintf(stderr, " keysfile\t line separated file with keys\n"); } int main(int argc, char **argv) { char verbosity = 0; char generate = 0; char *mphf_file = NULL; FILE *mphf_fd = stdout; const char *keys_file = NULL; FILE *keys_fd; cmph_uint32 nkeys = UINT_MAX; cmph_uint32 seed = UINT_MAX; CMPH_HASH *hashes = NULL; cmph_uint32 nhashes = 0; cmph_uint32 i; CMPH_ALGO mph_algo = CMPH_CZECH; float c = 2.09; cmph_config_t *config = NULL; cmph_t *mphf = NULL; cmph_io_adapter_t *source; while (1) { char ch = getopt(argc, argv, "hVvgc:k:a:f:m:s:"); if (ch == -1) break; switch (ch) { case 's': { char *cptr; seed = strtoul(optarg, &cptr, 10); if(*cptr != 0) { fprintf(stderr, "Invalid seed %s\n", optarg); exit(1); } } break; case 'c': { char *endptr; c = strtod(optarg, &endptr); if(*endptr != 0) { fprintf(stderr, "Invalid c value %s\n", optarg); exit(1); } } break; case 'g': generate = 1; break; case 'k': { char *endptr; nkeys = strtoul(optarg, &endptr, 10); if(*endptr != 0) { fprintf(stderr, "Invalid number of keys %s\n", optarg); exit(1); } } break; case 'm': mphf_file = strdup(optarg); break; case 'v': ++verbosity; break; case 'V': printf("%s\n", VERSION); return 0; case 'h': usage_long(argv[0]); return 0; case 'a': { char valid = 0; for (i = 0; i < CMPH_COUNT; ++i) { if (strcmp(cmph_names[i], optarg) == 0) { mph_algo = i; valid = 1; break; } } if (!valid) { fprintf(stderr, "Invalid mph algorithm: %s\n", optarg); return -1; } } break; case 'f': { char valid = 0; for (i = 0; i < CMPH_HASH_COUNT; ++i) { if (strcmp(cmph_hash_names[i], optarg) == 0) { hashes = (CMPH_HASH *)realloc(hashes, sizeof(CMPH_HASH) * ( nhashes + 2 )); hashes[nhashes] = i; hashes[nhashes + 1] = CMPH_HASH_COUNT; ++nhashes; valid = 1; break; } } if (!valid) { fprintf(stderr, "Invalid hash function: %s\n", optarg); return -1; } } break; default: usage(argv[0]); return 1; } } if (optind != argc - 1) { usage(argv[0]); return 1; } keys_file = argv[optind]; if (seed == UINT_MAX) seed = (cmph_uint32)time(NULL); srand(seed); if (mphf_file == NULL) { mphf_file = (char *)malloc(strlen(keys_file) + 5); memcpy(mphf_file, keys_file, strlen(keys_file)); memcpy(mphf_file + strlen(keys_file), ".mph\0", 5); } keys_fd = fopen(keys_file, "r"); if (keys_fd == NULL) { fprintf(stderr, "Unable to open file %s: %s\n", keys_file, strerror(errno)); return -1; } if (seed == UINT_MAX) seed = (cmph_uint32)time(NULL); if(nkeys == UINT_MAX) source = cmph_io_nlfile_adapter(keys_fd); else source = cmph_io_nlnkfile_adapter(keys_fd, nkeys); if (generate) { //Create mphf config = cmph_config_new(source); cmph_config_set_algo(config, mph_algo); if (nhashes) cmph_config_set_hashfuncs(config, hashes); cmph_config_set_verbosity(config, verbosity); if(mph_algo == CMPH_BMZ && c >= 2.0) c=1.15; if (c != 0) cmph_config_set_graphsize(config, c); mphf = cmph_new(config); if (mphf == NULL) { fprintf(stderr, "Unable to create minimum perfect hashing function\n"); cmph_config_destroy(config); free(mphf_file); return -1; } mphf_fd = fopen(mphf_file, "w"); if (mphf_fd == NULL) { fprintf(stderr, "Unable to open output file %s: %s\n", mphf_file, strerror(errno)); free(mphf_file); return -1; } cmph_dump(mphf, mphf_fd); cmph_destroy(mphf); fclose(mphf_fd); } else { cmph_uint8 * hashtable = NULL; mphf_fd = fopen(mphf_file, "r"); if (mphf_fd == NULL) { fprintf(stderr, "Unable to open input file %s: %s\n", mphf_file, strerror(errno)); free(mphf_file); return -1; } mphf = cmph_load(mphf_fd); fclose(mphf_fd); if (!mphf) { fprintf(stderr, "Unable to parser input file %s\n", mphf_file); free(mphf_file); return -1; } hashtable = (cmph_uint8*)malloc(source->nkeys*sizeof(cmph_uint8)); memset(hashtable, 0, source->nkeys); //check all keys for (i = 0; i < source->nkeys; ++i) { cmph_uint32 h; char *buf; cmph_uint32 buflen = 0; source->read(source->data, &buf, &buflen); h = cmph_search(mphf, buf, buflen); if(hashtable[h])fprintf(stderr, "collision: %u\n",h); assert(hashtable[h]==0); hashtable[h] = 1; if (verbosity) { printf("%s -> %u\n", buf, h); } source->dispose(source->data, buf, buflen); } cmph_destroy(mphf); free(hashtable); } fclose(keys_fd); free(mphf_file); free(source); return 0; }