#include "test-lib.h" #include "lib-oid.h" #include "oidmap.h" #include "hash.h" #include "hex.h" /* * Elements we will put in oidmap structs are made of a key: the entry.oid * field, which is of type struct object_id, and a value: the name field (could * be a refname for example). */ struct test_entry { struct oidmap_entry entry; char name[FLEX_ARRAY]; }; static const char *const key_val[][2] = { { "11", "one" }, { "22", "two" }, { "33", "three" } }; static void setup(void (*f)(struct oidmap *map)) { struct oidmap map = OIDMAP_INIT; int ret = 0; for (size_t i = 0; i < ARRAY_SIZE(key_val); i++){ struct test_entry *entry; FLEX_ALLOC_STR(entry, name, key_val[i][1]); if ((ret = get_oid_arbitrary_hex(key_val[i][0], &entry->entry.oid))) { free(entry); break; } entry = oidmap_put(&map, entry); if (!check(entry == NULL)) free(entry); } if (!ret) f(&map); oidmap_free(&map, 1); } static void t_replace(struct oidmap *map) { struct test_entry *entry, *prev; FLEX_ALLOC_STR(entry, name, "un"); if (get_oid_arbitrary_hex("11", &entry->entry.oid)) return; prev = oidmap_put(map, entry); if (!check(prev != NULL)) return; check_str(prev->name, "one"); free(prev); FLEX_ALLOC_STR(entry, name, "deux"); if (get_oid_arbitrary_hex("22", &entry->entry.oid)) return; prev = oidmap_put(map, entry); if (!check(prev != NULL)) return; check_str(prev->name, "two"); free(prev); } static void t_get(struct oidmap *map) { struct test_entry *entry; struct object_id oid; if (get_oid_arbitrary_hex("22", &oid)) return; entry = oidmap_get(map, &oid); if (!check(entry != NULL)) return; check_str(entry->name, "two"); if (get_oid_arbitrary_hex("44", &oid)) return; check(oidmap_get(map, &oid) == NULL); if (get_oid_arbitrary_hex("11", &oid)) return; entry = oidmap_get(map, &oid); if (!check(entry != NULL)) return; check_str(entry->name, "one"); } static void t_remove(struct oidmap *map) { struct test_entry *entry; struct object_id oid; if (get_oid_arbitrary_hex("11", &oid)) return; entry = oidmap_remove(map, &oid); if (!check(entry != NULL)) return; check_str(entry->name, "one"); check(oidmap_get(map, &oid) == NULL); free(entry); if (get_oid_arbitrary_hex("22", &oid)) return; entry = oidmap_remove(map, &oid); if (!check(entry != NULL)) return; check_str(entry->name, "two"); check(oidmap_get(map, &oid) == NULL); free(entry); if (get_oid_arbitrary_hex("44", &oid)) return; check(oidmap_remove(map, &oid) == NULL); } static int key_val_contains(struct test_entry *entry, char seen[]) { for (size_t i = 0; i < ARRAY_SIZE(key_val); i++) { struct object_id oid; if (get_oid_arbitrary_hex(key_val[i][0], &oid)) return -1; if (oideq(&entry->entry.oid, &oid)) { if (seen[i]) return 2; seen[i] = 1; return 0; } } return 1; } static void t_iterate(struct oidmap *map) { struct oidmap_iter iter; struct test_entry *entry; char seen[ARRAY_SIZE(key_val)] = { 0 }; int count = 0; oidmap_iter_init(map, &iter); while ((entry = oidmap_iter_next(&iter))) { int ret; if (!check_int((ret = key_val_contains(entry, seen)), ==, 0)) { switch (ret) { case -1: break; /* error message handled by get_oid_arbitrary_hex() */ case 1: test_msg("obtained entry was not given in the input\n" " name: %s\n oid: %s\n", entry->name, oid_to_hex(&entry->entry.oid)); break; case 2: test_msg("duplicate entry detected\n" " name: %s\n oid: %s\n", entry->name, oid_to_hex(&entry->entry.oid)); break; default: test_msg("BUG: invalid return value (%d) from key_val_contains()", ret); break; } } else { count++; } } check_int(count, ==, ARRAY_SIZE(key_val)); check_int(hashmap_get_size(&map->map), ==, ARRAY_SIZE(key_val)); } int cmd_main(int argc UNUSED, const char **argv UNUSED) { TEST(setup(t_replace), "replace works"); TEST(setup(t_get), "get works"); TEST(setup(t_remove), "remove works"); TEST(setup(t_iterate), "iterate works"); return test_done(); }