void test__rb_tree_iterator_prev__last(void** state) { _rb_tree_t* pt_rb_tree = _create_rb_tree("int"); _rb_tree_iterator_t it_iter; int elem = 10; _rb_tree_init(pt_rb_tree, NULL); _rb_tree_insert_unique(pt_rb_tree, &elem); elem = 3; _rb_tree_insert_unique(pt_rb_tree, &elem); it_iter = _rb_tree_iterator_prev(_rb_tree_end(pt_rb_tree)); assert_true(*(int*)_rb_tree_iterator_get_pointer(it_iter) == 10); it_iter = _rb_tree_iterator_prev(it_iter); assert_true(*(int*)_rb_tree_iterator_get_pointer(it_iter) == 3); _rb_tree_destroy(pt_rb_tree); }
/** * Get data value pointer referenced by iterator. */ const void* _set_iterator_get_pointer(set_iterator_t it_iter) { assert(_GET_SET_CONTAINER_TYPE(it_iter) == _SET_CONTAINER); assert(_GET_SET_ITERATOR_TYPE(it_iter) == _BIDIRECTIONAL_ITERATOR); #ifdef CSTL_SET_AVL_TREE return _avl_tree_iterator_get_pointer(it_iter); #else return _rb_tree_iterator_get_pointer(it_iter); #endif }
void test__rb_tree_iterator_get_pointer__end(void** state) { _rb_tree_t* pt_rb_tree = _create_rb_tree("int"); _rb_tree_iterator_t it_iter; _rb_tree_init(pt_rb_tree, NULL); it_iter = _rb_tree_end(pt_rb_tree); expect_assert_failure(_rb_tree_iterator_get_pointer(it_iter)); _rb_tree_destroy(pt_rb_tree); }
void test__rb_tree_iterator_get_pointer__c_builtin(void** state) { _rb_tree_t* pt_rb_tree = _create_rb_tree("int"); _rb_tree_iterator_t it_iter; int elem = 12; _rb_tree_init(pt_rb_tree, NULL); _rb_tree_insert_unique(pt_rb_tree, &elem); it_iter = _rb_tree_begin(pt_rb_tree); assert_true(*(int*)_rb_tree_iterator_get_pointer(it_iter) == 12); _rb_tree_destroy(pt_rb_tree); }
void test__rb_tree_iterator_get_pointer__null_tree(void** state) { _rb_tree_t* pt_rb_tree = _create_rb_tree("int"); _rb_tree_iterator_t it_iter; _rb_tree_init(pt_rb_tree, NULL); it_iter = _rb_tree_begin(pt_rb_tree); it_iter._t_pos._t_treepos._pt_tree = NULL; expect_assert_failure(_rb_tree_iterator_get_pointer(it_iter)); _rb_tree_destroy(pt_rb_tree); }
void test__rb_tree_iterator_get_pointer__libcstl_builtin(void** state) { _rb_tree_t* pt_rb_tree = _create_rb_tree("vector_t<int>"); _rb_tree_iterator_t it_iter; vector_t* pvec = create_vector(int); _rb_tree_init(pt_rb_tree, NULL); vector_init_n(pvec, 10); _rb_tree_insert_unique(pt_rb_tree, pvec); it_iter = _rb_tree_begin(pt_rb_tree); assert_true(vector_size((vector_t*)_rb_tree_iterator_get_pointer(it_iter)) == 10); _rb_tree_destroy(pt_rb_tree); }
void test__rb_tree_iterator_get_pointer__cstr(void** state) { _rb_tree_t* pt_rb_tree = _create_rb_tree("char*"); _rb_tree_iterator_t it_iter; string_t* pstr = create_string(); string_init_cstr(pstr, "abc"); _rb_tree_init(pt_rb_tree, NULL); _rb_tree_insert_unique(pt_rb_tree, pstr); it_iter = _rb_tree_begin(pt_rb_tree); assert_true(strcmp((char*)_rb_tree_iterator_get_pointer(it_iter), "abc") == 0); _rb_tree_destroy(pt_rb_tree); }
const void* _multimap_iterator_get_pointer( const struct _tagmultimap* cpt_multimap, const multimap_iterator_t* cpt_iterator) { assert(cpt_multimap != NULL && cpt_iterator != NULL); assert( _GET_MULTIMAP_CONTAINER_TYPE(cpt_iterator) == _MULTIMAP_CONTAINER && _GET_MULTIMAP_ITERATOR_TYPE(cpt_iterator) == _BIDIRECTIONAL_ITERATOR && _GET_MULTIMAP_CONTAINER(cpt_iterator) == cpt_multimap); #ifdef CSTL_MULTIMAP_AVL_TREE return _avl_tree_iterator_get_pointer( _GET_MULTIMAP_AVL_TREE(cpt_multimap), cpt_iterator); #else return _rb_tree_iterator_get_pointer( _GET_MULTIMAP_RB_TREE(cpt_multimap), cpt_iterator); #endif }
void test__rb_tree_iterator_get_pointer__user_define(void** state) { _rb_tree_t* pt_rb_tree = NULL; _rb_tree_iterator_t it_iter; _test__rb_tree_iterator_get_pointer__user_define_t elem; type_register(_test__rb_tree_iterator_get_pointer__user_define_t, NULL, NULL, NULL, NULL); pt_rb_tree = _create_rb_tree("_test__rb_tree_iterator_get_pointer__user_define_t"); _rb_tree_init(pt_rb_tree, NULL); elem.elem = 100; _rb_tree_insert_unique(pt_rb_tree, &elem); it_iter = _rb_tree_begin(pt_rb_tree); assert_true(((_test__rb_tree_iterator_get_pointer__user_define_t*)_rb_tree_iterator_get_pointer(it_iter))->elem == 100); _rb_tree_destroy(pt_rb_tree); }