int main (int argc, char *argv[]) { if (argc > 1 && strcmp (argv[1], "-s") == 0) option_libc_scanf = 1; tests_start (); mp_trace_base = 16; check_z (); check_q (); check_f (); check_n (); check_misc (); unlink (TEMPFILE); tests_end (); exit (0); }
int main (int argc, char *argv[]) { if (argc > 1 && strcmp (argv[1], "-s") == 0) option_check_printf = 1; tests_start (); check_vfprintf_fp = fopen (CHECK_VFPRINTF_FILENAME, "w+"); ASSERT_ALWAYS (check_vfprintf_fp != NULL); check_z (); check_q (); check_f (); check_limb (); check_n (); check_misc (); ASSERT_ALWAYS (fclose (check_vfprintf_fp) == 0); unlink (CHECK_VFPRINTF_FILENAME); tests_end (); exit (0); }
int main(int argc, char **argv) { int j; int n_failed = 0; #define DO(fn) do { \ printf("."); fflush(stdout); \ if (fn) { \ ++n_failed; \ printf("%s failed\n", #fn); \ } \ } while (0) #define DO_N(n, fn) do { \ for (j = 0; j < (n); ++j) { \ DO(fn); \ } \ } while (0) DO(check_misc()); DO(check_open_close(1000, 1000)); DO(check_open_close(0, TIMEOUT_mHZ)); struct rand_cfg cfg1 = { .min_timeout = 1, .max_timeout = 100, .start_at = 5, .end_at = 1000, .n_timeouts = 1000, .max_step = 10, .relative = 0, .try_removing = 0, .finalize = 2, }; DO_N(300,check_randomized(&cfg1)); struct rand_cfg cfg2 = { .min_timeout = 20, .max_timeout = 1000, .start_at = 10, .end_at = 100, .n_timeouts = 1000, .max_step = 5, .relative = 1, .try_removing = 0, .finalize = 2, }; DO_N(300,check_randomized(&cfg2)); struct rand_cfg cfg2b = { .min_timeout = 20, .max_timeout = 1000, .start_at = 10, .end_at = 100, .n_timeouts = 1000, .max_step = 5, .relative = 1, .try_removing = 0, .finalize = 1, }; DO_N(300,check_randomized(&cfg2b)); struct rand_cfg cfg2c = { .min_timeout = 20, .max_timeout = 1000, .start_at = 10, .end_at = 100, .n_timeouts = 1000, .max_step = 5, .relative = 1, .try_removing = 0, .finalize = 0, }; DO_N(300,check_randomized(&cfg2c)); struct rand_cfg cfg3 = { .min_timeout = 2000, .max_timeout = ((uint64_t)1) << 50, .start_at = 100, .end_at = ((uint64_t)1) << 49, .n_timeouts = 1000, .max_step = 1<<31, .relative = 0, .try_removing = 0, .finalize = 2, }; DO_N(10,check_randomized(&cfg3)); struct rand_cfg cfg3b = { .min_timeout = ((uint64_t)1) << 50, .max_timeout = ((uint64_t)1) << 52, .start_at = 100, .end_at = ((uint64_t)1) << 53, .n_timeouts = 1000, .max_step = ((uint64_t)1)<<48, .relative = 0, .try_removing = 0, .finalize = 2, }; DO_N(10,check_randomized(&cfg3b)); struct rand_cfg cfg4 = { .min_timeout = 2000, .max_timeout = ((uint64_t)1) << 30, .start_at = 100, .end_at = ((uint64_t)1) << 26, .n_timeouts = 10000, .max_step = 1<<16, .relative = 0, .try_removing = 3, .finalize = 2, }; DO_N(10,check_randomized(&cfg4)); const timeout_t primes[] = { 2,3,5,7,11,13,17,19,23,29,31,37,41,43,47,53, 59,61,67,71,73,79,83,89,97 }; const timeout_t factors_of_1337[] = { 1, 7, 191, 1337 }; const timeout_t multiples_of_five[] = { 5, 10, 15, 20, 25, 30, 35, 40, 45, 50 }; struct intervals_cfg icfg1 = { .timeouts = primes, .n_timeouts = sizeof(primes)/sizeof(timeout_t), .start_at = 50, .end_at = 5322, .skip = 0, }; DO(check_intervals(&icfg1)); struct intervals_cfg icfg2 = { .timeouts = factors_of_1337, .n_timeouts = sizeof(factors_of_1337)/sizeof(timeout_t), .start_at = 50, .end_at = 50000, .skip = 0, }; DO(check_intervals(&icfg2)); struct intervals_cfg icfg3 = { .timeouts = multiples_of_five, .n_timeouts = sizeof(multiples_of_five)/sizeof(timeout_t), .start_at = 49, .end_at = 5333, .skip = 0, }; DO(check_intervals(&icfg3)); struct intervals_cfg icfg4 = { .timeouts = primes, .n_timeouts = sizeof(primes)/sizeof(timeout_t), .start_at = 50, .end_at = 5322, .skip = 16, }; DO(check_intervals(&icfg4)); if (n_failed) { puts("\nFAIL"); } else { puts("\nOK"); } return !!n_failed; }