int main(int argc, char **argv) { test_prepare(); test_allow(); test_0(); getchar(); #if 1 test_allowed_read(); getchar(); test_allowed_write(); getchar(); test_destroy(); test_prepare(); test_allow(); test_0(); getchar(); #endif test_not_allowed_read(); getchar(); test_not_allowed_write(); getchar(); test_destroy(); return (0); }
int main() { flint_randinit(st); fmpz_init_set_ui( two__64, UWORD(1)<<32 ); fmpz_mul( two__64, two__64, two__64 ); int i; test_0( WORD(0) ); for(i=100;i--;) test_0( R() ); fmpz_clear(two__64); flint_printf("Test passed\n"); return 0; }
int main () { test_0 (); test_1 (); return 0; }
int main(int argc, char **argv) { auto r_0 = gsl_setup_rng(atoi(argv[2])); const vector<double> u_0 = gsl_runif(atoi(argv[1]), r_0); for (int i = 0; i < 4; i++) { test_0(u_0, i); } return 0; }
int main(int argc, char** argv) { if (argc == 2) { test_0(argv[1]); return 0; } test_1(); test_2(); test_3(); test_4(); test_5(); return 0; }
static int run_test (int, char*[]) { #ifndef NDEBUG // silence stderr output from invocations of the RW_ASSERT() macro // that are expected to fail by design (i.e., that's what this test // exercises) fclose (stderr); test_0 (); test_1 (); test_2 (); test_3 (); #else // if defined (NDEBUG) rw_assert (0, 0, __LINE__, "macro NDEBUG #defined, cannot test"); #endif // NDEBUG return exit_status; }
/* The main testfunction. Returns 0 if any error is found in the cfg */ int kfg_testit (KFG kfg, int quiet_mode) { cfg = kfg; quiet = (quiet_mode == 1); error_found = 0; diagnostic ("Consistency test of cfg and PAG-interface "); /* do the tests */ if (0 != kfg_num_nodes (cfg)) { if (error_found < 100) test_1 (); if (error_found < 100) test_2 (); if (error_found < 100) test_3 (); if (error_found < 100) test_4 (); if (error_found < 100) test_5 (); if (error_found < 100) test_6 (); if (error_found < 100) test_7 (); if (error_found < 100) test_8 (); if (error_found < 100) test_9 (); if (error_found < 100) test_10 (); if (error_found < 100) test_11 (); if (error_found < 100) test_12 (); if (error_found < 100) test_13 (); } /* tests for empty cfg's */ else test_0 (); if (error_found == 0) diagnostic (" excellent!\n"); else diagnostic (" ** errors found **\n"); return (error_found == 0); }
int main(int argc, char *argv[]) { test_0(); return 0; }
int main(int argc, char *argv[]) { test_0(atoi(argv[1])); return 0; }