/* SPDX-License-Identifier: LGPL-2.1+ */ /*** This file is part of systemd Copyright 2013 Daniel Buch ***/ #include "alloc-util.h" #include "env-util.h" #include "hashmap.h" #include "log.h" #include "string-util.h" #include "strv.h" #include "util.h" static bool arg_slow = false; void test_hashmap_funcs(void); static void test_hashmap_replace(void) { Hashmap *m; char *val1, *val2, *val3, *val4, *val5, *r; log_info("%s", __func__); m = hashmap_new(&string_hash_ops); val1 = strdup("val1"); assert_se(val1); val2 = strdup("val2"); assert_se(val2); val3 = strdup("val3"); assert_se(val3); val4 = strdup("val4"); assert_se(val4); val5 = strdup("val5"); assert_se(val5); hashmap_put(m, "key 1", val1); hashmap_put(m, "key 2", val2); hashmap_put(m, "key 3", val3); hashmap_put(m, "key 4", val4); hashmap_replace(m, "key 3", val1); r = hashmap_get(m, "key 3"); assert_se(streq(r, "val1")); hashmap_replace(m, "key 5", val5); r = hashmap_get(m, "key 5"); assert_se(streq(r, "val5")); free(val1); free(val2); free(val3); free(val4); free(val5); hashmap_free(m); } static void test_hashmap_copy(void) { Hashmap *m, *copy; char *val1, *val2, *val3, *val4, *r; log_info("%s", __func__); val1 = strdup("val1"); assert_se(val1); val2 = strdup("val2"); assert_se(val2); val3 = strdup("val3"); assert_se(val3); val4 = strdup("val4"); assert_se(val4); m = hashmap_new(&string_hash_ops); hashmap_put(m, "key 1", val1); hashmap_put(m, "key 2", val2); hashmap_put(m, "key 3", val3); hashmap_put(m, "key 4", val4); copy = hashmap_copy(m); r = hashmap_get(copy, "key 1"); assert_se(streq(r, "val1")); r = hashmap_get(copy, "key 2"); assert_se(streq(r, "val2")); r = hashmap_get(copy, "key 3"); assert_se(streq(r, "val3")); r = hashmap_get(copy, "key 4"); assert_se(streq(r, "val4")); hashmap_free_free(copy); hashmap_free(m); } static void test_hashmap_get_strv(void) { Hashmap *m; char **strv; char *val1, *val2, *val3, *val4; log_info("%s", __func__); val1 = strdup("val1"); assert_se(val1); val2 = strdup("val2"); assert_se(val2); val3 = strdup("val3"); assert_se(val3); val4 = strdup("val4"); assert_se(val4); m = hashmap_new(&string_hash_ops); hashmap_put(m, "key 1", val1); hashmap_put(m, "key 2", val2); hashmap_put(m, "key 3", val3); hashmap_put(m, "key 4", val4); strv = hashmap_get_strv(m); #ifndef ORDERED strv = strv_sort(strv); #endif assert_se(streq(strv[0], "val1")); assert_se(streq(strv[1], "val2")); assert_se(streq(strv[2], "val3")); assert_se(streq(strv[3], "val4")); strv_free(strv); hashmap_free(m); } static void test_hashmap_move_one(void) { Hashmap *m, *n; char *val1, *val2, *val3, *val4, *r; log_info("%s", __func__); val1 = strdup("val1"); assert_se(val1); val2 = strdup("val2"); assert_se(val2); val3 = strdup("val3"); assert_se(val3); val4 = strdup("val4"); assert_se(val4); m = hashmap_new(&string_hash_ops); n = hashmap_new(&string_hash_ops); hashmap_put(m, "key 1", val1); hashmap_put(m, "key 2", val2); hashmap_put(m, "key 3", val3); hashmap_put(m, "key 4", val4); assert_se(hashmap_move_one(n, NULL, "key 3") == -ENOENT); assert_se(hashmap_move_one(n, m, "key 5") == -ENOENT); assert_se(hashmap_move_one(n, m, "key 3") == 0); assert_se(hashmap_move_one(n, m, "key 4") == 0); r = hashmap_get(n, "key 3"); assert_se(r && streq(r, "val3")); r = hashmap_get(n, "key 4"); assert_se(r && streq(r, "val4")); r = hashmap_get(m, "key 3"); assert_se(!r); assert_se(hashmap_move_one(n, m, "key 3") == -EEXIST); hashmap_free_free(m); hashmap_free_free(n); } static void test_hashmap_move(void) { Hashmap *m, *n; char *val1, *val2, *val3, *val4, *r; log_info("%s", __func__); val1 = strdup("val1"); assert_se(val1); val2 = strdup("val2"); assert_se(val2); val3 = strdup("val3"); assert_se(val3); val4 = strdup("val4"); assert_se(val4); m = hashmap_new(&string_hash_ops); n = hashmap_new(&string_hash_ops); hashmap_put(n, "key 1", strdup(val1)); hashmap_put(m, "key 1", val1); hashmap_put(m, "key 2", val2); hashmap_put(m, "key 3", val3); hashmap_put(m, "key 4", val4); assert_se(hashmap_move(n, NULL) == 0); assert_se(hashmap_move(n, m) == 0); assert_se(hashmap_size(m) == 1); r = hashmap_get(m, "key 1"); assert_se(r && streq(r, "val1")); r = hashmap_get(n, "key 1"); assert_se(r && streq(r, "val1")); r = hashmap_get(n, "key 2"); assert_se(r && streq(r, "val2")); r = hashmap_get(n, "key 3"); assert_se(r && streq(r, "val3")); r = hashmap_get(n, "key 4"); assert_se(r && streq(r, "val4")); hashmap_free_free(m); hashmap_free_free(n); } static void test_hashmap_update(void) { Hashmap *m; char *val1, *val2, *r; log_info("%s", __func__); m = hashmap_new(&string_hash_ops); val1 = strdup("old_value"); assert_se(val1); val2 = strdup("new_value"); assert_se(val2); hashmap_put(m, "key 1", val1); r = hashmap_get(m, "key 1"); assert_se(streq(r, "old_value")); assert_se(hashmap_update(m, "key 2", val2) == -ENOENT); r = hashmap_get(m, "key 1"); assert_se(streq(r, "old_value")); assert_se(hashmap_update(m, "key 1", val2) == 0); r = hashmap_get(m, "key 1"); assert_se(streq(r, "new_value")); free(val1); free(val2); hashmap_free(m); } static void test_hashmap_put(void) { Hashmap *m = NULL; int valid_hashmap_put; void *val1 = (void*) "val 1"; void *val2 = (void*) "val 2"; _cleanup_free_ char* key1 = NULL; log_info("%s", __func__); assert_se(hashmap_ensure_allocated(&m, &string_hash_ops) >= 0); assert_se(m); valid_hashmap_put = hashmap_put(m, "key 1", val1); assert_se(valid_hashmap_put == 1); assert_se(hashmap_put(m, "key 1", val1) == 0); assert_se(hashmap_put(m, "key 1", val2) == -EEXIST); key1 = strdup("key 1"); assert_se(hashmap_put(m, key1, val1) == 0); assert_se(hashmap_put(m, key1, val2) == -EEXIST); hashmap_free(m); } static void test_hashmap_remove(void) { _cleanup_hashmap_free_ Hashmap *m = NULL; char *r; log_info("%s", __func__); r = hashmap_remove(NULL, "key 1"); assert_se(r == NULL); m = hashmap_new(&string_hash_ops); assert_se(m); r = hashmap_remove(m, "no such key"); assert_se(r == NULL); hashmap_put(m, "key 1", (void*) "val 1"); hashmap_put(m, "key 2", (void*) "val 2"); r = hashmap_remove(m, "key 1"); assert_se(streq(r, "val 1")); r = hashmap_get(m, "key 2"); assert_se(streq(r, "val 2")); assert_se(!hashmap_get(m, "key 1")); } static void test_hashmap_remove2(void) { _cleanup_hashmap_free_free_free_ Hashmap *m = NULL; char key1[] = "key 1"; char key2[] = "key 2"; char val1[] = "val 1"; char val2[] = "val 2"; void *r, *r2; log_info("%s", __func__); r = hashmap_remove2(NULL, "key 1", &r2); assert_se(r == NULL); m = hashmap_new(&string_hash_ops); assert_se(m); r = hashmap_remove2(m, "no such key", &r2); assert_se(r == NULL); hashmap_put(m, strdup(key1), strdup(val1)); hashmap_put(m, strdup(key2), strdup(val2)); r = hashmap_remove2(m, key1, &r2); assert_se(streq(r, val1)); assert_se(streq(r2, key1)); free(r); free(r2); r = hashmap_get(m, key2); assert_se(streq(r, val2)); assert_se(!hashmap_get(m, key1)); } static void test_hashmap_remove_value(void) { _cleanup_hashmap_free_ Hashmap *m = NULL; char *r; char val1[] = "val 1"; char val2[] = "val 2"; log_info("%s", __func__); r = hashmap_remove_value(NULL, "key 1", val1); assert_se(r == NULL); m = hashmap_new(&string_hash_ops); assert_se(m); r = hashmap_remove_value(m, "key 1", val1); assert_se(r == NULL); hashmap_put(m, "key 1", val1); hashmap_put(m, "key 2", val2); r = hashmap_remove_value(m, "key 1", val1); assert_se(streq(r, "val 1")); r = hashmap_get(m, "key 2"); assert_se(streq(r, "val 2")); assert_se(!hashmap_get(m, "key 1")); r = hashmap_remove_value(m, "key 2", val1); assert_se(r == NULL); r = hashmap_get(m, "key 2"); assert_se(streq(r, "val 2")); assert_se(!hashmap_get(m, "key 1")); } static void test_hashmap_remove_and_put(void) { _cleanup_hashmap_free_ Hashmap *m = NULL; int valid; char *r; log_info("%s", __func__); m = hashmap_new(&string_hash_ops); assert_se(m); valid = hashmap_remove_and_put(m, "invalid key", "new key", NULL); assert_se(valid == -ENOENT); valid = hashmap_put(m, "key 1", (void*) (const char *) "val 1"); assert_se(valid == 1); valid = hashmap_remove_and_put(NULL, "key 1", "key 2", (void*) (const char *) "val 2"); assert_se(valid == -ENOENT); valid = hashmap_remove_and_put(m, "key 1", "key 2", (void*) (const char *) "val 2"); assert_se(valid == 0); r = hashmap_get(m, "key 2"); assert_se(streq(r, "val 2")); assert_se(!hashmap_get(m, "key 1")); valid = hashmap_put(m, "key 3", (void*) (const char *) "val 3"); assert_se(valid == 1); valid = hashmap_remove_and_put(m, "key 3", "key 2", (void*) (const char *) "val 2"); assert_se(valid == -EEXIST); } static void test_hashmap_remove_and_replace(void) { _cleanup_hashmap_free_ Hashmap *m = NULL; int valid; void *key1 = UINT_TO_PTR(1); void *key2 = UINT_TO_PTR(2); void *key3 = UINT_TO_PTR(3); void *r; int i, j; log_info("%s", __func__); m = hashmap_new(&trivial_hash_ops); assert_se(m); valid = hashmap_remove_and_replace(m, key1, key2, NULL); assert_se(valid == -ENOENT); valid = hashmap_put(m, key1, key1); assert_se(valid == 1); valid = hashmap_remove_and_replace(NULL, key1, key2, key2); assert_se(valid == -ENOENT); valid = hashmap_remove_and_replace(m, key1, key2, key2); assert_se(valid == 0); r = hashmap_get(m, key2); assert_se(r == key2); assert_se(!hashmap_get(m, key1)); valid = hashmap_put(m, key3, key3); assert_se(valid == 1); valid = hashmap_remove_and_replace(m, key3, key2, key2); assert_se(valid == 0); r = hashmap_get(m, key2); assert_se(r == key2); assert_se(!hashmap_get(m, key3)); /* Repeat this test several times to increase the chance of hitting * the less likely case in hashmap_remove_and_replace where it * compensates for the backward shift. */ for (i = 0; i < 20; i++) { hashmap_clear(m); for (j = 1; j < 7; j++) hashmap_put(m, UINT_TO_PTR(10*i + j), UINT_TO_PTR(10*i + j)); valid = hashmap_remove_and_replace(m, UINT_TO_PTR(10*i + 1), UINT_TO_PTR(10*i + 2), UINT_TO_PTR(10*i + 2)); assert_se(valid == 0); assert_se(!hashmap_get(m, UINT_TO_PTR(10*i + 1))); for (j = 2; j < 7; j++) { r = hashmap_get(m, UINT_TO_PTR(10*i + j)); assert_se(r == UINT_TO_PTR(10*i + j)); } } } static void test_hashmap_ensure_allocated(void) { Hashmap *m; int valid_hashmap; log_info("%s", __func__); m = hashmap_new(&string_hash_ops); valid_hashmap = hashmap_ensure_allocated(&m, &string_hash_ops); assert_se(valid_hashmap == 0); assert_se(m); hashmap_free(m); } static void test_hashmap_foreach_key(void) { Hashmap *m; Iterator i; bool key_found[] = { false, false, false, false }; const char *s; const char *key; static const char key_table[] = "key 1\0" "key 2\0" "key 3\0" "key 4\0"; log_info("%s", __func__); m = hashmap_new(&string_hash_ops); NULSTR_FOREACH(key, key_table) hashmap_put(m, key, (void*) (const char*) "my dummy val"); HASHMAP_FOREACH_KEY(s, key, m, i) { assert(s); if (!key_found[0] && streq(key, "key 1")) key_found[0] = true; else if (!key_found[1] && streq(key, "key 2")) key_found[1] = true; else if (!key_found[2] && streq(key, "key 3")) key_found[2] = true; else if (!key_found[3] && streq(key, "fail")) key_found[3] = true; } assert_se(m); assert_se(key_found[0] && key_found[1] && key_found[2] && !key_found[3]); hashmap_free(m); } static void test_hashmap_foreach(void) { Hashmap *m; Iterator i; bool value_found[] = { false, false, false, false }; char *val1, *val2, *val3, *val4, *s; unsigned count; log_info("%s", __func__); val1 = strdup("my val1"); assert_se(val1); val2 = strdup("my val2"); assert_se(val2); val3 = strdup("my val3"); assert_se(val3); val4 = strdup("my val4"); assert_se(val4); m = NULL; count = 0; HASHMAP_FOREACH(s, m, i) count++; assert_se(count == 0); m = hashmap_new(&string_hash_ops); count = 0; HASHMAP_FOREACH(s, m, i) count++; assert_se(count == 0); hashmap_put(m, "Key 1", val1); hashmap_put(m, "Key 2", val2); hashmap_put(m, "Key 3", val3); hashmap_put(m, "Key 4", val4); HASHMAP_FOREACH(s, m, i) { if (!value_found[0] && streq(s, val1)) value_found[0] = true; else if (!value_found[1] && streq(s, val2)) value_found[1] = true; else if (!value_found[2] && streq(s, val3)) value_found[2] = true; else if (!value_found[3] && streq(s, val4)) value_found[3] = true; } assert_se(m); assert_se(value_found[0] && value_found[1] && value_found[2] && value_found[3]); hashmap_free_free(m); } static void test_hashmap_merge(void) { Hashmap *m; Hashmap *n; char *val1, *val2, *val3, *val4, *r; log_info("%s", __func__); val1 = strdup("my val1"); assert_se(val1); val2 = strdup("my val2"); assert_se(val2); val3 = strdup("my val3"); assert_se(val3); val4 = strdup("my val4"); assert_se(val4); n = hashmap_new(&string_hash_ops); m = hashmap_new(&string_hash_ops); hashmap_put(m, "Key 1", val1); hashmap_put(m, "Key 2", val2); hashmap_put(n, "Key 3", val3); hashmap_put(n, "Key 4", val4); assert_se(hashmap_merge(m, n) == 0); r = hashmap_get(m, "Key 3"); assert_se(r && streq(r, "my val3")); r = hashmap_get(m, "Key 4"); assert_se(r && streq(r, "my val4")); assert_se(n); assert_se(m); hashmap_free(n); hashmap_free_free(m); } static void test_hashmap_contains(void) { Hashmap *m; char *val1; log_info("%s", __func__); val1 = strdup("my val"); assert_se(val1); m = hashmap_new(&string_hash_ops); assert_se(!hashmap_contains(m, "Key 1")); hashmap_put(m, "Key 1", val1); assert_se(hashmap_contains(m, "Key 1")); assert_se(!hashmap_contains(m, "Key 2")); assert_se(!hashmap_contains(NULL, "Key 1")); assert_se(m); hashmap_free_free(m); } static void test_hashmap_isempty(void) { Hashmap *m; char *val1; log_info("%s", __func__); val1 = strdup("my val"); assert_se(val1); m = hashmap_new(&string_hash_ops); assert_se(hashmap_isempty(m)); hashmap_put(m, "Key 1", val1); assert_se(!hashmap_isempty(m)); assert_se(m); hashmap_free_free(m); } static void test_hashmap_size(void) { Hashmap *m; char *val1, *val2, *val3, *val4; log_info("%s", __func__); val1 = strdup("my val"); assert_se(val1); val2 = strdup("my val"); assert_se(val2); val3 = strdup("my val"); assert_se(val3); val4 = strdup("my val"); assert_se(val4); assert_se(hashmap_size(NULL) == 0); assert_se(hashmap_buckets(NULL) == 0); m = hashmap_new(&string_hash_ops); hashmap_put(m, "Key 1", val1); hashmap_put(m, "Key 2", val2); hashmap_put(m, "Key 3", val3); hashmap_put(m, "Key 4", val4); assert_se(m); assert_se(hashmap_size(m) == 4); assert_se(hashmap_buckets(m) >= 4); hashmap_free_free(m); } static void test_hashmap_get(void) { Hashmap *m; char *r; char *val; log_info("%s", __func__); val = strdup("my val"); assert_se(val); r = hashmap_get(NULL, "Key 1"); assert_se(r == NULL); m = hashmap_new(&string_hash_ops); hashmap_put(m, "Key 1", val); r = hashmap_get(m, "Key 1"); assert_se(streq(r, val)); r = hashmap_get(m, "no such key"); assert_se(r == NULL); assert_se(m); hashmap_free_free(m); } static void test_hashmap_get2(void) { Hashmap *m; char *r; char *val; char key_orig[] = "Key 1"; void *key_copy; log_info("%s", __func__); val = strdup("my val"); assert_se(val); key_copy = strdup(key_orig); assert_se(key_copy); r = hashmap_get2(NULL, key_orig, &key_copy); assert_se(r == NULL); m = hashmap_new(&string_hash_ops); hashmap_put(m, key_copy, val); key_copy = NULL; r = hashmap_get2(m, key_orig, &key_copy); assert_se(streq(r, val)); assert_se(key_orig != key_copy); assert_se(streq(key_orig, key_copy)); r = hashmap_get2(m, "no such key", NULL); assert_se(r == NULL); assert_se(m); hashmap_free_free_free(m); } static void crippled_hashmap_func(const void *p, struct siphash *state) { return trivial_hash_func(INT_TO_PTR(PTR_TO_INT(p) & 0xff), state); } static const struct hash_ops crippled_hashmap_ops = { .hash = crippled_hashmap_func, .compare = trivial_compare_func, }; static void test_hashmap_many(void) { Hashmap *h; unsigned i, j; void *v, *k; const struct { const struct hash_ops *ops; unsigned n_entries; } tests[] = { { .ops = NULL, .n_entries = arg_slow ? 1 << 20 : 240 }, { .ops = &crippled_hashmap_ops, .n_entries = arg_slow ? 1 << 14 : 140 }, }; log_info("%s (%s)", __func__, arg_slow ? "slow" : "fast"); for (j = 0; j < ELEMENTSOF(tests); j++) { assert_se(h = hashmap_new(tests[j].ops)); for (i = 1; i < tests[j].n_entries*3; i+=3) { assert_se(hashmap_put(h, UINT_TO_PTR(i), UINT_TO_PTR(i)) >= 0); assert_se(PTR_TO_UINT(hashmap_get(h, UINT_TO_PTR(i))) == i); } for (i = 1; i < tests[j].n_entries*3; i++) assert_se(hashmap_contains(h, UINT_TO_PTR(i)) == (i % 3 == 1)); log_info("%u <= %u * 0.8 = %g", hashmap_size(h), hashmap_buckets(h), hashmap_buckets(h) * 0.8); assert_se(hashmap_size(h) <= hashmap_buckets(h) * 0.8); assert_se(hashmap_size(h) == tests[j].n_entries); while (!hashmap_isempty(h)) { k = hashmap_first_key(h); v = hashmap_remove(h, k); assert_se(v == k); } hashmap_free(h); } } static void test_hashmap_first(void) { _cleanup_hashmap_free_ Hashmap *m = NULL; log_info("%s", __func__); m = hashmap_new(&string_hash_ops); assert_se(m); assert_se(!hashmap_first(m)); assert_se(hashmap_put(m, "key 1", (void*) "val 1") == 1); assert_se(streq(hashmap_first(m), "val 1")); assert_se(hashmap_put(m, "key 2", (void*) "val 2") == 1); #ifdef ORDERED assert_se(streq(hashmap_first(m), "val 1")); assert_se(hashmap_remove(m, "key 1")); assert_se(streq(hashmap_first(m), "val 2")); #endif } static void test_hashmap_first_key(void) { _cleanup_hashmap_free_ Hashmap *m = NULL; log_info("%s", __func__); m = hashmap_new(&string_hash_ops); assert_se(m); assert_se(!hashmap_first_key(m)); assert_se(hashmap_put(m, "key 1", NULL) == 1); assert_se(streq(hashmap_first_key(m), "key 1")); assert_se(hashmap_put(m, "key 2", NULL) == 1); #ifdef ORDERED assert_se(streq(hashmap_first_key(m), "key 1")); assert_se(hashmap_remove(m, "key 1") == NULL); assert_se(streq(hashmap_first_key(m), "key 2")); #endif } static void test_hashmap_steal_first_key(void) { _cleanup_hashmap_free_ Hashmap *m = NULL; log_info("%s", __func__); m = hashmap_new(&string_hash_ops); assert_se(m); assert_se(!hashmap_steal_first_key(m)); assert_se(hashmap_put(m, "key 1", NULL) == 1); assert_se(streq(hashmap_steal_first_key(m), "key 1")); assert_se(hashmap_isempty(m)); } static void test_hashmap_steal_first(void) { _cleanup_hashmap_free_ Hashmap *m = NULL; int seen[3] = {}; char *val; log_info("%s", __func__); m = hashmap_new(&string_hash_ops); assert_se(m); assert_se(hashmap_put(m, "key 1", (void*) "1") == 1); assert_se(hashmap_put(m, "key 2", (void*) "22") == 1); assert_se(hashmap_put(m, "key 3", (void*) "333") == 1); while ((val = hashmap_steal_first(m))) seen[strlen(val) - 1]++; assert_se(seen[0] == 1 && seen[1] == 1 && seen[2] == 1); assert_se(hashmap_isempty(m)); } static void test_hashmap_clear_free_free(void) { _cleanup_hashmap_free_ Hashmap *m = NULL; log_info("%s", __func__); m = hashmap_new(&string_hash_ops); assert_se(m); assert_se(hashmap_put(m, strdup("key 1"), NULL) == 1); assert_se(hashmap_put(m, strdup("key 2"), NULL) == 1); assert_se(hashmap_put(m, strdup("key 3"), NULL) == 1); hashmap_clear_free_free(m); assert_se(hashmap_isempty(m)); } static void test_hashmap_reserve(void) { _cleanup_hashmap_free_ Hashmap *m = NULL; log_info("%s", __func__); m = hashmap_new(&string_hash_ops); assert_se(hashmap_reserve(m, 1) == 0); assert_se(hashmap_buckets(m) < 1000); assert_se(hashmap_reserve(m, 1000) == 0); assert_se(hashmap_buckets(m) >= 1000); assert_se(hashmap_isempty(m)); assert_se(hashmap_put(m, "key 1", (void*) "val 1") == 1); assert_se(hashmap_reserve(m, UINT_MAX) == -ENOMEM); assert_se(hashmap_reserve(m, UINT_MAX - 1) == -ENOMEM); } void test_hashmap_funcs(void) { #if 0 /// UNNEEDED by elogind int r; #endif // 0 log_parse_environment(); log_open(); #if 0 /// UNNEEDED by elogind r = getenv_bool("SYSTEMD_SLOW_TESTS"); arg_slow = r >= 0 ? r : SYSTEMD_SLOW_TESTS_DEFAULT; #endif // 0 test_hashmap_copy(); test_hashmap_get_strv(); test_hashmap_move_one(); test_hashmap_move(); test_hashmap_replace(); test_hashmap_update(); test_hashmap_put(); test_hashmap_remove(); test_hashmap_remove2(); test_hashmap_remove_value(); test_hashmap_remove_and_put(); test_hashmap_remove_and_replace(); test_hashmap_ensure_allocated(); test_hashmap_foreach(); test_hashmap_foreach_key(); test_hashmap_contains(); test_hashmap_merge(); test_hashmap_isempty(); test_hashmap_get(); test_hashmap_get2(); test_hashmap_size(); test_hashmap_many(); test_hashmap_first(); test_hashmap_first_key(); test_hashmap_steal_first_key(); test_hashmap_steal_first(); test_hashmap_clear_free_free(); test_hashmap_reserve(); }