int test_function_set_new_and_destroy(void)
{
int i;
setup_function_set();
mu_check(fs != NULL);
for (i = 0; i < 9; i++) {
mu_print("function number: %d\t", fs->functions[i]->function);
mu_print("arity: %d\n", fs->functions[i]->arity);
}
teardown_function_set();
return 0;
}
int main(int argc, char* argv[]) {
parse_args(argc, argv);
mu_run_suites();
// Clean up OpenSSL junk
ERR_remove_state(0);
ERR_free_strings();
EVP_cleanup();
CRYPTO_cleanup_all_ex_data();
mu_print(MU_SUMMARY, "\n"
"Tests done:\n"
"\t%d test suite(s) passed, %d failed, %d skipped.\n"
"\t%d test case(s) passed, %d failed.\n"
"\t%d check(s) passed, %d failed.\n"
"\n",
mutest_passed_suites, mutest_failed_suites,
mutest_skipped_suites,
mutest_passed_cases, mutest_failed_cases,
mutest_passed_checks, mutest_failed_checks);
return (mutest_failed_suites + mutest_skipped_suites) ? 1 : 0;
}
int test_point_crossover(void)
{
int i;
struct test *t;
struct tree *t1;
struct tree *t2;
char *t1_before;
char *t2_before;
char *t1_after;
char *t2_after;
/* setup */
t = malloc(sizeof(struct test));
test_setup_function_set(t);
test_setup_terminal_set(t);
for (i = 0; i < 1; i++) {
/* generate tree 1 and 2 */
t1 = tree_generate(FULL, t->fs, t->ts, 1);
t2 = tree_generate(FULL, t->fs, t->ts, 1);
/* before crossover */
mu_print("BEFORE:\n");
t1_before = tree_string(t1);
t2_before = tree_string(t2);
mu_print("t1 tree: %s\n", t1_before);
mu_print("t2 tree: %s\n", t2_before);
mu_print("t1 size: %d depth %d\n", t1->size, t1->depth);
mu_print("t2 size: %d depth %d\n", t2->size, t2->depth);
/* crossover */
point_crossover(t1, t2);
/* after crossover */
mu_print("AFTER:\n");
t1_after = tree_string(t1);
t2_after = tree_string(t2);
mu_print("t1 tree: %s\n", t1_after);
mu_print("t2 tree: %s\n", t2_after);
mu_print("t1 size: %d depth %d\n", t1->size, t1->depth);
mu_print("t2 size: %d depth %d\n", t2->size, t2->depth);
mu_print("\n");
/* clean up */
tree_destroy(t1);
tree_destroy(t2);
free(t1_before);
free(t2_before);
free(t1_after);
free(t2_after);
}
/* clean up */
test_teardown_function_set(t);
test_teardown_terminal_set(t);
free(t);
return 0;
}
int test_point_crossover(void)
{
int i;
char *t1_before;
char *t2_before;
char *t1_after;
char *t2_after;
for (i = 0; i < 1; i++) {
setup();
mu_print("BEFORE:\n");
t1_before = tree_string(t1);
t2_before = tree_string(t2);
mu_print("t1 tree: %s\n", t1_before);
mu_print("t2 tree: %s\n", t2_before);
mu_print("t1 size: %d depth %d\n", t1->size, t1->depth);
mu_print("t2 size: %d depth %d\n", t2->size, t2->depth);
point_crossover(t1, t2);
mu_print("AFTER:\n");
t1_after = tree_string(t1);
t2_after = tree_string(t2);
mu_print("t1 tree: %s\n", t1_after);
mu_print("t2 tree: %s\n", t2_after);
mu_print("t1 size: %d depth %d\n", t1->size, t1->depth);
mu_print("t2 size: %d depth %d\n", t2->size, t2->depth);
mu_print("\n");
teardown();
free(t1_before);
free(t2_before);
free(t1_after);
free(t2_after);
}
setup();
mu_print("BEFORE:\n");
tree_print(t1);
tree_print(t2);
point_crossover(t1, t2);
mu_print("AFTER:\n");
tree_print(t1);
tree_print(t2);
mu_print("\n\nBEFORE:\n");
tree_print(t1);
tree_print(t2);
point_crossover(t1, t2);
mu_print("AFTER:\n");
tree_print(t1);
tree_print(t2);
teardown();
return 0;
}
