145 lines
3.2 KiB
C++
145 lines
3.2 KiB
C++
#include <uhub.h>
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#include <util/rbtree.h>
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#define MAX_NODES 10000
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static struct rb_tree* tree = NULL;
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int test_tree_compare(const void* a, const void* b)
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{
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return strcmp((const char*) a, (const char*) b);
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}
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EXO_TEST(rbtree_create_destroy, {
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int ok = 0;
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struct rb_tree* atree;
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atree = rb_tree_create(test_tree_compare, &hub_malloc, &hub_free);
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if (atree) ok = 1;
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rb_tree_destroy(atree);
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return ok;
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});
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EXO_TEST(rbtree_create_1, {
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tree = rb_tree_create(test_tree_compare, &hub_malloc, &hub_free);
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return tree != NULL;
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});
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EXO_TEST(rbtree_size_0, { return rb_tree_size(tree) == 0; });
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EXO_TEST(rbtree_insert_1, {
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return rb_tree_insert(tree, "one", "1");
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});
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EXO_TEST(rbtree_insert_2, {
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return rb_tree_insert(tree, "two", "2");
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});
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EXO_TEST(rbtree_insert_3, {
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return rb_tree_insert(tree, "three", "3");
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});
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EXO_TEST(rbtree_insert_3_again, {
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return !rb_tree_insert(tree, "three", "3-again");
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});
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EXO_TEST(rbtree_size_1, { return rb_tree_size(tree) == 3; });
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static int test_check_search(const char* key, const char* expect)
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{
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const char* value = (const char*) rb_tree_get(tree, key);
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if (!value) return !expect;
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if (!expect) return 0;
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return strcmp(value, expect) == 0;
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}
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EXO_TEST(rbtree_search_1, { return test_check_search("one", "1"); });
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EXO_TEST(rbtree_search_2, { return test_check_search("two", "2"); });
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EXO_TEST(rbtree_search_3, { return test_check_search("three", "3"); });
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EXO_TEST(rbtree_search_4, { return test_check_search("four", NULL); });
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EXO_TEST(rbtree_remove_1, {
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return rb_tree_remove(tree, "one");
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});
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EXO_TEST(rbtree_size_2, { return rb_tree_size(tree) == 2; });
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EXO_TEST(rbtree_remove_2, {
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return rb_tree_remove(tree, "two");
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});
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EXO_TEST(rbtree_remove_3, {
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return rb_tree_remove(tree, "three");
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});
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EXO_TEST(rbtree_remove_3_again, {
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return !rb_tree_remove(tree, "three");
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});
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EXO_TEST(rbtree_search_5, { return test_check_search("one", NULL); });
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EXO_TEST(rbtree_search_6, { return test_check_search("two", NULL); });
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EXO_TEST(rbtree_search_7, { return test_check_search("three", NULL); });
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EXO_TEST(rbtree_search_8, { return test_check_search("four", NULL); });
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EXO_TEST(rbtree_size_3, { return rb_tree_size(tree) == 0; });
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EXO_TEST(rbtree_insert_10000, {
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int i;
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for (i = 0; i < MAX_NODES ; i++)
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{
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const char* key = strdup(uhub_itoa(i));
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const char* val = strdup(uhub_itoa(i + 16384));
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if (!rb_tree_insert(tree, key, val))
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return 0;
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}
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return 1;
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});
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EXO_TEST(rbtree_size_4, { return rb_tree_size(tree) == MAX_NODES ; });
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EXO_TEST(rbtree_check_10000, {
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int i;
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for (i = 0; i < MAX_NODES ; i++)
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{
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char* key = strdup(uhub_itoa(i));
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const char* expect = uhub_itoa(i + 16384);
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if (!test_check_search(key, expect))
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return 0;
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hub_free(key);
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}
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return 1;
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});
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EXO_TEST(rbtree_iterate_10000, {
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int i = 0;
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struct rb_node* n = (struct rb_node*) rb_tree_first(tree);
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while (n)
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{
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struct rb_node* p = n;
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n = (struct rb_node*) rb_tree_next(tree);
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i++;
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}
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return i == MAX_NODES ;
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});
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static void free_node(struct rb_node* n)
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{
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hub_free((void*) n->key);
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hub_free((void*) n->value);
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}
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EXO_TEST(rbtree_remove_5000, {
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int i = 0;
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struct rb_node* n = (struct rb_node*) rb_tree_first(tree);
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for (i = 0; i < MAX_NODES ; i += 2)
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{
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const char* key = uhub_itoa(i);
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rb_tree_remove_node(tree, key, &free_node);
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}
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return 1;
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});
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