#include "test-tool.h" #include "git-compat-util.h" #include "hashmap.h" #include "strbuf.h" struct test_entry { int padding; /* hashmap entry no longer needs to be the first member */ struct hashmap_entry ent; /* key and value as two \0-terminated strings */ char key[FLEX_ARRAY]; }; static const char *get_value(const struct test_entry *e) { return e->key + strlen(e->key) + 1; } static int test_entry_cmp(const void *cmp_data, const struct hashmap_entry *eptr, const struct hashmap_entry *entry_or_key, const void *keydata) { const int ignore_case = cmp_data ? *((int *)cmp_data) : 0; const struct test_entry *e1, *e2; const char *key = keydata; e1 = container_of(eptr, const struct test_entry, ent); e2 = container_of(entry_or_key, const struct test_entry, ent); if (ignore_case) return strcasecmp(e1->key, key ? key : e2->key); else return strcmp(e1->key, key ? key : e2->key); } static struct test_entry *alloc_test_entry(unsigned int hash, char *key, char *value) { size_t klen = strlen(key); size_t vlen = strlen(value); struct test_entry *entry = xmalloc(st_add4(sizeof(*entry), klen, vlen, 2)); hashmap_entry_init(&entry->ent, hash); memcpy(entry->key, key, klen + 1); memcpy(entry->key + klen + 1, value, vlen + 1); return entry; } #define HASH_METHOD_FNV 0 #define HASH_METHOD_I 1 #define HASH_METHOD_IDIV10 2 #define HASH_METHOD_0 3 #define HASH_METHOD_X2 4 #define TEST_SPARSE 8 #define TEST_ADD 16 #define TEST_SIZE 100000 static unsigned int hash(unsigned int method, unsigned int i, const char *key) { unsigned int hash = 0; switch (method & 3) { case HASH_METHOD_FNV: hash = strhash(key); break; case HASH_METHOD_I: hash = i; break; case HASH_METHOD_IDIV10: hash = i / 10; break; case HASH_METHOD_0: hash = 0; break; } if (method & HASH_METHOD_X2) hash = 2 * hash; return hash; } /* * Test performance of hashmap.[ch] * Usage: time echo "perfhashmap method rounds" | test-tool hashmap */ static void perf_hashmap(unsigned int method, unsigned int rounds) { struct hashmap map; char buf[16]; struct test_entry **entries; unsigned int *hashes; unsigned int i, j; ALLOC_ARRAY(entries, TEST_SIZE); ALLOC_ARRAY(hashes, TEST_SIZE); for (i = 0; i < TEST_SIZE; i++) { xsnprintf(buf, sizeof(buf), "%i", i); entries[i] = alloc_test_entry(0, buf, ""); hashes[i] = hash(method, i, entries[i]->key); } if (method & TEST_ADD) { /* test adding to the map */ for (j = 0; j < rounds; j++) { hashmap_init(&map, test_entry_cmp, NULL, 0); /* add entries */ for (i = 0; i < TEST_SIZE; i++) { hashmap_entry_init(&entries[i]->ent, hashes[i]); hashmap_add(&map, &entries[i]->ent); } hashmap_clear(&map); } } else { /* test map lookups */ hashmap_init(&map, test_entry_cmp, NULL, 0); /* fill the map (sparsely if specified) */ j = (method & TEST_SPARSE) ? TEST_SIZE / 10 : TEST_SIZE; for (i = 0; i < j; i++) { hashmap_entry_init(&entries[i]->ent, hashes[i]); hashmap_add(&map, &entries[i]->ent); } for (j = 0; j < rounds; j++) { for (i = 0; i < TEST_SIZE; i++) { hashmap_get_from_hash(&map, hashes[i], entries[i]->key); } } hashmap_clear(&map); } } #define DELIM " \t\r\n" /* * Read stdin line by line and print result of commands to stdout: * * hash key -> strhash(key) memhash(key) strihash(key) memihash(key) * put key value -> NULL / old value * get key -> NULL / value * remove key -> NULL / old value * iterate -> key1 value1\nkey2 value2\n... * size -> tablesize numentries * * perfhashmap method rounds -> test hashmap.[ch] performance */ int cmd__hashmap(int argc, const char **argv) { struct strbuf line = STRBUF_INIT; int icase; struct hashmap map = HASHMAP_INIT(test_entry_cmp, &icase); /* init hash map */ icase = argc > 1 && !strcmp("ignorecase", argv[1]); /* process commands from stdin */ while (strbuf_getline(&line, stdin) != EOF) { char *cmd, *p1 = NULL, *p2 = NULL; unsigned int hash = 0; struct test_entry *entry; /* break line into command and up to two parameters */ cmd = strtok(line.buf, DELIM); /* ignore empty lines */ if (!cmd || *cmd == '#') continue; p1 = strtok(NULL, DELIM); if (p1) { hash = icase ? strihash(p1) : strhash(p1); p2 = strtok(NULL, DELIM); } if (!strcmp("add", cmd) && p1 && p2) { /* create entry with key = p1, value = p2 */ entry = alloc_test_entry(hash, p1, p2); /* add to hashmap */ hashmap_add(&map, &entry->ent); } else if (!strcmp("put", cmd) && p1 && p2) { /* create entry with key = p1, value = p2 */ entry = alloc_test_entry(hash, p1, p2); /* add / replace entry */ entry = hashmap_put_entry(&map, entry, ent); /* print and free replaced entry, if any */ puts(entry ? get_value(entry) : "NULL"); free(entry); } else if (!strcmp("get", cmd) && p1) { /* lookup entry in hashmap */ entry = hashmap_get_entry_from_hash(&map, hash, p1, struct test_entry, ent); /* print result */ if (!entry) puts("NULL"); hashmap_for_each_entry_from(&map, entry, ent) puts(get_value(entry)); } else if (!strcmp("remove", cmd) && p1) { /* setup static key */ struct hashmap_entry key; struct hashmap_entry *rm; hashmap_entry_init(&key, hash); /* remove entry from hashmap */ rm = hashmap_remove(&map, &key, p1); entry = rm ? container_of(rm, struct test_entry, ent) : NULL; /* print result and free entry*/ puts(entry ? get_value(entry) : "NULL"); free(entry); } else if (!strcmp("iterate", cmd)) { struct hashmap_iter iter; hashmap_for_each_entry(&map, &iter, entry, ent /* member name */) printf("%s %s\n", entry->key, get_value(entry)); } else if (!strcmp("size", cmd)) { /* print table sizes */ printf("%u %u\n", map.tablesize, hashmap_get_size(&map)); } else if (!strcmp("intern", cmd) && p1) { /* test that strintern works */ const char *i1 = strintern(p1); const char *i2 = strintern(p1); if (strcmp(i1, p1)) printf("strintern(%s) returns %s\n", p1, i1); else if (i1 == p1) printf("strintern(%s) returns input pointer\n", p1); else if (i1 != i2) printf("strintern(%s) != strintern(%s)", i1, i2); else printf("%s\n", i1); } else if (!strcmp("perfhashmap", cmd) && p1 && p2) { perf_hashmap(atoi(p1), atoi(p2)); } else { printf("Unknown command %s\n", cmd); } } strbuf_release(&line); hashmap_clear_and_free(&map, struct test_entry, ent); return 0; }