mirror of
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synced 2024-12-18 20:02:17 +03:00
386 lines
8.9 KiB
C
386 lines
8.9 KiB
C
#include <errno.h>
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#include <time.h>
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#include "support.h"
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#include "std/c_alloc.h"
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#include "std/c_rbtree.h"
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typedef struct test_s {
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int key;
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int number;
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} test_t;
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static c_rbtree_t *tree = NULL;
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static int data_cmp(const void *key, const void *data) {
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test_t *a, *b;
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a = (test_t *) key;
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b = (test_t *) data;
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if (a->key < b->key) {
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return -1;
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} else if (a->key > b->key) {
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return 1;
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}
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return 0;
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}
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static int key_cmp(const void *key, const void *data) {
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int a;
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test_t *b;
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a = POINTER_TO_INT(key);
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b = (test_t *) data;
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if (a < b->key) {
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return -1;
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} else if (a > b->key) {
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return 1;
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}
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return 0;
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}
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static int visitor(void *obj, void *data) {
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test_t *a = NULL;
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test_t *b = NULL;
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a = (test_t *) obj;
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b = (test_t *) data;
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if (a->key == b->key) {
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a->number = 42;
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}
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return 0;
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}
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static void destructor(void *data) {
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test_t *freedata = NULL;
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freedata = (test_t *) data;
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SAFE_FREE(freedata);
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}
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static void setup(void) {
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fail_if(c_rbtree_create(&tree, key_cmp, data_cmp) < 0, "Setup failed");
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}
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static void setup_complete_tree(void) {
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int i = 0;
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fail_if(c_rbtree_create(&tree, key_cmp, data_cmp) < 0, "Setup failed");
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for (i = 0; i < 100; i++) {
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test_t *testdata = NULL;
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testdata = c_malloc(sizeof(test_t));
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fail_if(testdata == NULL, NULL);
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testdata->key = i;
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fail_if(c_rbtree_insert(tree, (void *) testdata) < 0, "Setup failed");
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}
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}
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static void teardown(void) {
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c_rbtree_destroy(tree, destructor);
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c_rbtree_free(tree);
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tree = NULL;
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unsetenv("CSYNC_NOMEMORY");
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}
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START_TEST (check_c_rbtree_create_free)
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{
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fail_unless(c_rbtree_create(&tree, key_cmp, data_cmp) == 0, NULL);
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fail_unless(tree->size == 0, NULL);
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fail_unless(c_rbtree_free(tree) == 0, NULL);
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tree = NULL;
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}
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END_TEST
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START_TEST (check_c_rbtree_create_null)
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{
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fail_unless(c_rbtree_create(NULL, key_cmp, data_cmp) < 0, NULL);
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fail_unless(c_rbtree_create(&tree, NULL, data_cmp) < 0, NULL);
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fail_unless(c_rbtree_create(&tree, key_cmp, NULL) < 0, NULL);
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}
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END_TEST
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#ifdef CSYNC_MEM_NULL_TESTS
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START_TEST (check_c_rbtree_create_nomem)
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{
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setenv("CSYNC_NOMEMORY", "1", 1);
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fail_unless(c_rbtree_create(&tree, key_cmp, data_cmp) < 0, NULL);
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unsetenv("CSYNC_NOMEMORY");
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}
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END_TEST
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#endif
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START_TEST (check_c_rbtree_free_null)
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{
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fail_unless(c_rbtree_free(NULL) < 0, NULL);
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}
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END_TEST
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START_TEST (check_c_rbtree_insert_delete)
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{
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c_rbnode_t *node = NULL;
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test_t *testdata = NULL;
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fail_unless(c_rbtree_create(&tree, key_cmp, data_cmp) == 0, NULL);
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testdata = c_malloc(sizeof(test_t));
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testdata->key = 42;
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fail_unless(c_rbtree_insert(tree, (void *) testdata) == 0, NULL);
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node = c_rbtree_head(tree);
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fail_if(node == NULL, NULL);
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testdata = c_rbtree_node_data(node);
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SAFE_FREE(testdata);
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fail_unless(c_rbtree_node_delete(node) == 0, NULL);
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c_rbtree_free(tree);
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tree = NULL;
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}
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END_TEST
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#ifdef CSYNC_MEM_NULL_TESTS
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START_TEST (check_c_rbtree_insert_nomem)
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{
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test_t *testdata = NULL;
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fail_unless(c_rbtree_create(&tree, key_cmp, data_cmp) == 0, NULL);
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testdata = c_malloc(sizeof(test_t));
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testdata->key = 42;
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setenv("CSYNC_NOMEMORY", "1", 1);
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fail_unless(c_rbtree_insert(tree, (void *) testdata) < 0, NULL);
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fail_unless(errno == ENOMEM, NULL);
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unsetenv("CSYNC_NOMEMORY");
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SAFE_FREE(testdata);
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c_rbtree_free(tree);
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tree = NULL;
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}
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END_TEST
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#endif
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START_TEST (check_c_rbtree_insert_random)
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{
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int i = 0, rc = -1;
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for (i = 0; i < 100; i++) {
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test_t *testdata = NULL;
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testdata = c_malloc(sizeof(test_t));
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fail_if(testdata == NULL, NULL);
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testdata->key = i;
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rc = c_rbtree_insert(tree, testdata);
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fail_unless(rc == 0, "c_rbtree_insert failed for %d with return code %d", i, rc);
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}
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rc = c_rbtree_check_sanity(tree);
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fail_unless(rc == 0, "c_rbtree_check_sanity failed with return code %d", rc);
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}
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END_TEST
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START_TEST (check_c_rbtree_insert_duplicate)
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{
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test_t *testdata = NULL;
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testdata = c_malloc(sizeof(test_t));
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fail_if(testdata == NULL, NULL);
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testdata->key = 42;
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fail_unless(c_rbtree_insert(tree, (void *) testdata) == 0, NULL);
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/* add again */
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testdata = c_malloc(sizeof(test_t));
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fail_if(testdata == NULL, NULL);
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testdata->key = 42;
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/* check for duplicate */
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fail_unless(c_rbtree_insert(tree, (void *) testdata) == 1, NULL);
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SAFE_FREE(testdata);
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}
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END_TEST
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START_TEST (check_c_rbtree_find)
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{
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int rc = -1, i = 42;
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c_rbnode_t *node = NULL;
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test_t *testdata = NULL;
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rc = c_rbtree_check_sanity(tree);
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fail_unless(rc == 0, "c_rbtree_check_sanity failed with return code %d", rc);
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/* find the node with the key 42 */
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node = c_rbtree_find(tree, (void *) &i);
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fail_if(node == NULL, NULL);
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testdata = (test_t *) c_rbtree_node_data(node);
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fail_unless(testdata->key == 42, NULL);
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}
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END_TEST
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START_TEST (check_c_rbtree_delete)
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{
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int rc = -1, i = 42;
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c_rbnode_t *node = NULL;
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test_t *freedata = NULL;
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rc = c_rbtree_check_sanity(tree);
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fail_unless(rc == 0, "c_rbtree_check_sanity failed with return code %d", rc);
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node = c_rbtree_find(tree, (void *) &i);
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fail_if(node == NULL, NULL);
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freedata = (test_t *) c_rbtree_node_data(node);
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SAFE_FREE(freedata);
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fail_unless(c_rbtree_node_delete(node) == 0, NULL);
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rc = c_rbtree_check_sanity(tree);
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fail_unless(rc == 0, "c_rbtree_check_sanity failed with return code %d", rc);
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}
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END_TEST
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START_TEST (check_c_rbtree_walk)
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{
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int rc = -1, i = 42;
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test_t *testdata = NULL;
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c_rbnode_t *node = NULL;
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rc = c_rbtree_check_sanity(tree);
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fail_unless(rc == 0, "c_rbtree_check_sanity failed with return code %d", rc);
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testdata = (test_t *) c_malloc(sizeof(test_t));
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testdata->key = 42;
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rc = c_rbtree_walk(tree, testdata, visitor);
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fail_unless(rc == 0, NULL);
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/* find the node with the key 42 */
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node = c_rbtree_find(tree, (void *) &i);
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fail_if(node == NULL, NULL);
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SAFE_FREE(testdata);
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testdata = (test_t *) c_rbtree_node_data(node);
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fail_unless(testdata->number == 42, NULL);
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}
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END_TEST
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START_TEST (check_c_rbtree_walk_null)
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{
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int rc = -1, i = 42;
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test_t *testdata = NULL;
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c_rbnode_t *node = NULL;
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rc = c_rbtree_check_sanity(tree);
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fail_unless(rc == 0, "c_rbtree_check_sanity failed with return code %d", rc);
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testdata = (test_t *) c_malloc(sizeof(test_t));
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testdata->key = 42;
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rc = c_rbtree_walk(NULL, testdata, visitor);
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fail_unless(rc < 0, NULL);
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fail_unless(errno == EINVAL, NULL);
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rc = c_rbtree_walk(tree, NULL, visitor);
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fail_unless(rc < 0, NULL);
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fail_unless(errno == EINVAL, NULL);
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rc = c_rbtree_walk(tree, testdata, NULL);
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fail_unless(rc < 0, NULL);
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fail_unless(errno == EINVAL, NULL);
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/* find the node with the key 42 */
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node = c_rbtree_find(tree, (void *) &i);
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fail_if(node == NULL, NULL);
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SAFE_FREE(testdata);
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}
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END_TEST
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START_TEST (check_c_rbtree_dup)
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{
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int rc = -1;
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c_rbtree_t *duptree = NULL;
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duptree = c_rbtree_dup(tree);
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fail_if(duptree == NULL, NULL);
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rc = c_rbtree_check_sanity(duptree);
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fail_unless(rc == 0, "c_rbtree_check_sanity failed with return code %d", rc);
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c_rbtree_free(duptree);
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}
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END_TEST
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#if 0
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START_TEST (check_c_rbtree_x)
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{
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int rc = -1;
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rc = c_rbtree_check_sanity(tree);
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fail_unless(rc == 0, "c_rbtree_check_sanity failed with return code %d", rc);
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}
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END_TEST
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#endif
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static Suite *make_c_rbtree_suite(void) {
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Suite *s = suite_create("std:rbtree");
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create_case(s, "check_c_rbtree_create_free", check_c_rbtree_create_free);
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create_case(s, "check_c_rbtree_create_null", check_c_rbtree_create_null);
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create_case(s, "check_c_rbtree_free_null", check_c_rbtree_free_null);
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create_case(s, "check_c_rbtree_insert_delete", check_c_rbtree_insert_delete);
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create_case_fixture(s, "check_c_rbtree_insert_random", check_c_rbtree_insert_random, setup, teardown);
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create_case_fixture(s, "check_c_rbtree_insert_duplicate", check_c_rbtree_insert_duplicate, setup, teardown);
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create_case_fixture(s, "check_c_rbtree_find", check_c_rbtree_find, setup_complete_tree, teardown);
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create_case_fixture(s, "check_c_rbtree_delete", check_c_rbtree_delete, setup_complete_tree, teardown);
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create_case_fixture(s, "check_c_rbtree_walk", check_c_rbtree_walk, setup_complete_tree, teardown);
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create_case_fixture(s, "check_c_rbtree_walk_null", check_c_rbtree_walk_null, setup_complete_tree, teardown);
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create_case_fixture(s, "check_c_rbtree_dup", check_c_rbtree_dup, setup_complete_tree, teardown);
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#ifdef CSYNC_MEM_NULL_TESTS
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create_case(s, "check_c_rbtree_create_nomem", check_c_rbtree_create_nomem);
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create_case(s, "check_c_rbtree_insert_nomem", check_c_rbtree_insert_nomem);
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#endif
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return s;
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}
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int main(int argc, char **argv) {
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Suite *s = NULL;
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SRunner *sr = NULL;
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struct argument_s arguments;
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int nf;
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ZERO_STRUCT(arguments);
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cmdline_parse(argc, argv, &arguments);
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s = make_c_rbtree_suite();
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sr = srunner_create(s);
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if (arguments.nofork) {
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srunner_set_fork_status(sr, CK_NOFORK);
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}
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srunner_run_all(sr, CK_VERBOSE);
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nf = srunner_ntests_failed(sr);
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srunner_free(sr);
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return (nf == 0) ? EXIT_SUCCESS : EXIT_FAILURE;
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}
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