int main(int argc, char** argv) { RUN_TEST_SUITE("Waypoint Control", testBelugaWaypointControlLaw()); RUN_TEST_SUITE("Low Level Control", testBelugaLowLevelControlLaw()); RUN_TEST_SUITE("Boundary Control", testBelugaBoundaryControlLaw()); std::cout << std::endl << "\tAll tests pass!" << std::endl; return OK; }
int main() { try { RUN_TEST_SUITE(FrameBufferTestSuite); RUN_TEST_SUITE(drawings); return 0; } catch(const char *x) { cout << x << endl; } }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(serializer_unittests, failedTestCount); return failedTestCount; }
int main(int argc, char *argv[]) { char **whitelist = &argv[1]; int whitelist_len = argc - 1; RUN_TEST_SUITE(utests, num_utests, whitelist, whitelist_len); }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(LOCK_UnitTests, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(iothubtransport_unittests, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(iothubclient_ll_uploadtoblob_ut, failedTestCount); return failedTestCount; }
int main(int argc, char *argv[]) { // Run test suite passing it all the args as whitelist of what tests to run. char **whitelist = &argv[1]; int whitelist_len = argc - 1; RUN_TEST_SUITE(utests, num_utests, whitelist, whitelist_len); }
int main(void) { size_t failedTestCount = 0; /** * Identify the test suite to run here. */ RUN_TEST_SUITE(dns_async_ut, failedTestCount); return failedTestCount; }
int main(void) { RUN_TEST_SUITE(CMockValue_tests); RUN_TEST_SUITE(MicroMockCallComparisonUnitTests); RUN_TEST_SUITE(MicroMockTest); RUN_TEST_SUITE(MicroMockValidateArgumentBufferTests); RUN_TEST_SUITE(NULLArgsStringificationTests); RUN_TEST_SUITE(MicroMockVoidVoidTest); RUN_TEST_SUITE(MicroMockStimTest); RUN_TEST_SUITE(MicroMockTestWithReturnAndParameters); return 0; }
int main(void) { size_t failedTestCount = 0; /** * Identify the test suite to run here. */ RUN_TEST_SUITE(tlsio_esp8266_ut, failedTestCount); return failedTestCount; }
int main(int argc, char** argv) { (void)argc; (void)argv; RUN_TEST_SUITE(Vector); RUN_TEST_SUITE(List); RUN_TEST_SUITE(Buffer); RUN_TEST_SUITE(String); RUN_TEST_SUITE(RBT); RUN_TEST_SUITE(Exn); RUN_TEST_SUITE(Set); RUN_TEST_SUITE(Map); return PRINT_TEST_RESULTS(); }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(MicroMockCallComparisonUnitTests, failedTestCount); RUN_TEST_SUITE(CMockValue_tests ,failedTestCount); RUN_TEST_SUITE(MicroMockCallComparisonUnitTests ,failedTestCount); RUN_TEST_SUITE(MicroMockTest ,failedTestCount); RUN_TEST_SUITE(MicroMockValidateArgumentBufferTests,failedTestCount); RUN_TEST_SUITE(NULLArgsStringificationTests ,failedTestCount); return failedTestCount; }
int main(int argc, char* argv[]) { // disable buffering on stdout. It causes a bad intermix of printf from this process and output from child processes setbuf(stdout,NULL); IOTHUB_CLIENT_TRANSPORT_PROVIDER protocol = NULL; size_t failedTestCount = 0; if (argc == 1) { char *env = getenv("E2E_PROTOCOL"); if (env && *env) { protocol = string_to_protocol(env); } else { protocol = string_to_protocol("AMQP"); } } else if (argc == 2) { protocol = string_to_protocol(argv[1]); } if (protocol == NULL) { printf("Usage: iothubclient_badnetwork_e2e [protocol]\r\n"); printf("protocol = one of [AMQP, AMQP-WS, MQTT, MQTT-WS, HTTP]\r\n"); printf("protocol can also be specified in the E2E_PROTOCOL env variable\r\n"); return -1; } else { set_badnetwork_test_protocol(protocol); RUN_TEST_SUITE(iothubclient_badnetwork_e2e, failedTestCount); return failedTestCount; } }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(string_token_ut, failedTestCount); return (int)failedTestCount; }
int run_tests(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(longhaul_tests, failedTestCount); return (int)failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(eventhubclient_ll_unittests, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(sasl_plain_ut, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(CRTAbstractions_UnitTests, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(ble_gatt_io_unittests, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(nodejs_binding_unittests, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(hsm_client_http_edge_ut, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(strings_unittests, failedTestCount); return (int)failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(JavaNanomsg_UnitTests, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(umock_c_unittests, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(sasl_anonymous_unittests, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(prov_sc_registration_state_ut, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(CommandDecoder_UnitTests, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(GBAlloc_For_Init_UnitTests, failedTestCount); return failedTestCount; }
int main(void) { size_t failedTestCount = 0; RUN_TEST_SUITE(dotnetcore_ut, failedTestCount); return failedTestCount; }