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nextcloud-desktop/csync/tests/std_tests/check_std_c_rbtree.c
Jocelyn Turcotte b8dee63d7a Remove superfluous error checking from csync_create and csync_init 
Given that we control all call sites, the only way that this can fail is during
OOM. Also remove the code in csync itself to make sure that it's obvious that
any new error case wouldn't be handled by call sites.
2016-02-25 20:53:13 +01:00

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/*
* libcsync -- a library to sync a directory with another
*
* Copyright (c) 2008-2013 by Andreas Schneider <asn@cryptomilk.org>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include <errno.h>
#include <time.h>
#include "torture.h"
#include "std/c_alloc.h"
#include "std/c_rbtree.h"
typedef struct test_s {
int key;
int number;
} test_t;
static int data_cmp(const void *key, const void *data) {
test_t *a, *b;
a = (test_t *) key;
b = (test_t *) data;
if (a->key < b->key) {
return -1;
} else if (a->key > b->key) {
return 1;
}
return 0;
}
static int key_cmp(const void *key, const void *data) {
int a;
test_t *b;
a = POINTER_TO_INT(key);
b = (test_t *) data;
if (a < b->key) {
return -1;
} else if (a > b->key) {
return 1;
}
return 0;
}
static int visitor(void *obj, void *data) {
test_t *a;
test_t *b;
a = (test_t *) obj;
b = (test_t *) data;
if (a->key == b->key) {
a->number = 42;
}
return 0;
}
static void destructor(void *data) {
test_t *freedata = NULL;
freedata = (test_t *) data;
SAFE_FREE(freedata);
}
static void setup(void **state) {
c_rbtree_t *tree = NULL;
c_rbtree_create(&tree, key_cmp, data_cmp);
*state = tree;
}
static void setup_complete_tree(void **state) {
c_rbtree_t *tree = NULL;
int i = 0;
int rc;
c_rbtree_create(&tree, key_cmp, data_cmp);
for (i = 0; i < 100; i++) {
test_t *testdata = NULL;
testdata = c_malloc(sizeof(test_t));
assert_non_null(testdata);
testdata->key = i;
rc = c_rbtree_insert(tree, (void *) testdata);
assert_int_equal(rc, 0);
}
*state = tree;
}
static void teardown(void **state) {
c_rbtree_t *tree = *state;
c_rbtree_destroy(tree, destructor);
c_rbtree_free(tree);
*state = NULL;
}
static void check_c_rbtree_create_free(void **state)
{
c_rbtree_t *tree = NULL;
int rc;
(void) state; /* unused */
c_rbtree_create(&tree, key_cmp, data_cmp);
assert_int_equal(tree->size, 0);
rc = c_rbtree_free(tree);
assert_int_equal(rc, 0);
}
static void check_c_rbtree_free_null(void **state)
{
int rc;
(void) state; /* unused */
rc = c_rbtree_free(NULL);
assert_int_equal(rc, -1);
}
static void check_c_rbtree_insert_delete(void **state)
{
c_rbtree_t *tree = NULL;
c_rbnode_t *node = NULL;
test_t *testdata = NULL;
int rc;
(void) state; /* unused */
c_rbtree_create(&tree, key_cmp, data_cmp);
testdata = malloc(sizeof(test_t));
testdata->key = 42;
rc = c_rbtree_insert(tree, (void *) testdata);
assert_int_equal(rc, 0);
node = c_rbtree_head(tree);
assert_non_null(node);
testdata = c_rbtree_node_data(node);
SAFE_FREE(testdata);
rc = c_rbtree_node_delete(node);
assert_int_equal(rc, 0);
c_rbtree_free(tree);
}
static void check_c_rbtree_insert_random(void **state)
{
c_rbtree_t *tree = *state;
int i = 0, rc;
for (i = 0; i < 100; i++) {
test_t *testdata = NULL;
testdata = malloc(sizeof(test_t));
assert_non_null(testdata);
testdata->key = i;
rc = c_rbtree_insert(tree, testdata);
assert_int_equal(rc, 0);
}
rc = c_rbtree_check_sanity(tree);
assert_int_equal(rc, 0);
}
static void check_c_rbtree_insert_duplicate(void **state)
{
c_rbtree_t *tree = *state;
test_t *testdata;
int rc;
testdata = malloc(sizeof(test_t));
assert_non_null(testdata);
testdata->key = 42;
rc = c_rbtree_insert(tree, (void *) testdata);
assert_int_equal(rc, 0);
/* add again */
testdata = malloc(sizeof(test_t));
assert_non_null(testdata);
testdata->key = 42;
/* check for duplicate */
rc = c_rbtree_insert(tree, (void *) testdata);
assert_int_equal(rc, 1);
free(testdata);
}
static void check_c_rbtree_find(void **state)
{
c_rbtree_t *tree = *state;
int rc, i = 42;
c_rbnode_t *node;
test_t *testdata;
rc = c_rbtree_check_sanity(tree);
assert_int_equal(rc, 0);
/* find the node with the key 42 */
node = c_rbtree_find(tree, (void *) &i);
assert_non_null(node);
testdata = (test_t *) c_rbtree_node_data(node);
assert_int_equal(testdata->key, 42);
}
static void check_c_rbtree_delete(void **state)
{
c_rbtree_t *tree = *state;
int rc, i = 42;
c_rbnode_t *node = NULL;
test_t *freedata = NULL;
rc = c_rbtree_check_sanity(tree);
assert_int_equal(rc, 0);
node = c_rbtree_find(tree, (void *) &i);
assert_non_null(node);
freedata = (test_t *) c_rbtree_node_data(node);
free(freedata);
rc = c_rbtree_node_delete(node);
assert_int_equal(rc, 0);
rc = c_rbtree_check_sanity(tree);
assert_int_equal(rc, 0);
}
static void check_c_rbtree_walk(void **state)
{
c_rbtree_t *tree = *state;
int rc, i = 42;
test_t *testdata;
c_rbnode_t *node;
rc = c_rbtree_check_sanity(tree);
assert_int_equal(rc, 0);
testdata = (test_t *) c_malloc(sizeof(test_t));
testdata->key = 42;
rc = c_rbtree_walk(tree, testdata, visitor);
assert_int_equal(rc, 0);
/* find the node with the key 42 */
node = c_rbtree_find(tree, (void *) &i);
assert_non_null(node);
free(testdata);
testdata = (test_t *) c_rbtree_node_data(node);
assert_int_equal(testdata->number, 42);
}
static void check_c_rbtree_walk_null(void **state)
{
c_rbtree_t *tree = *state;
int rc, i = 42;
test_t *testdata;
c_rbnode_t *node;
rc = c_rbtree_check_sanity(tree);
assert_int_equal(rc, 0);
testdata = (test_t *) malloc(sizeof(test_t));
testdata->key = 42;
rc = c_rbtree_walk(NULL, testdata, visitor);
assert_int_equal(rc, -1);
assert_int_equal(errno, EINVAL);
rc = c_rbtree_walk(tree, NULL, visitor);
assert_int_equal(rc, -1);
assert_int_equal(errno, EINVAL);
rc = c_rbtree_walk(tree, testdata, NULL);
assert_int_equal(rc, -1);
assert_int_equal(errno, EINVAL);
/* find the node with the key 42 */
node = c_rbtree_find(tree, (void *) &i);
assert_non_null(node);
free(testdata);
}
static void check_c_rbtree_dup(void **state)
{
c_rbtree_t *tree = *state;
c_rbtree_t *duptree = NULL;
int rc = -1;
duptree = c_rbtree_dup(tree);
assert_non_null(duptree);
rc = c_rbtree_check_sanity(duptree);
assert_int_equal(rc, 0);
c_rbtree_free(duptree);
}
#if 0
static void check_c_rbtree_x)
{
int rc = -1;
rc = c_rbtree_check_sanity(tree);
fail_unless(rc == 0, "c_rbtree_check_sanity failed with return code %d", rc);
}
#endif
int torture_run_tests(void)
{
const UnitTest tests[] = {
unit_test(check_c_rbtree_create_free),
unit_test(check_c_rbtree_free_null),
unit_test(check_c_rbtree_insert_delete),
unit_test_setup_teardown(check_c_rbtree_insert_random, setup, teardown),
unit_test_setup_teardown(check_c_rbtree_insert_duplicate, setup, teardown),
unit_test_setup_teardown(check_c_rbtree_find, setup_complete_tree, teardown),
unit_test_setup_teardown(check_c_rbtree_delete, setup_complete_tree, teardown),
unit_test_setup_teardown(check_c_rbtree_walk, setup_complete_tree, teardown),
unit_test_setup_teardown(check_c_rbtree_walk_null, setup_complete_tree, teardown),
unit_test_setup_teardown(check_c_rbtree_dup, setup_complete_tree, teardown),
};
return run_tests(tests);
}
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