int main( int argc, char* argv[]) { // informs test-listener about test-results CPPUNIT_NS::TestResult testResult; // register listener for collecting the test-results CPPUNIT_NS::TestResultCollector collectedResults; testResult.addListener( &collectedResults); // register listener for per-test progress output CPPUNIT_NS::BriefTestProgressListener progress; testResult.addListener( &progress); // insert test-suite at test-runner by registry CPPUNIT_NS::TestRunner testRunner; testRunner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest()); testRunner.run(testResult); // important stuff happens next std::ofstream xmlFileOut("reports/testResults.xml"); CPPUNIT_NS::XmlOutputter xmlOut( &collectedResults, xmlFileOut); xmlOut.write(); // return 0 if tests were successful return collectedResults.wasSuccessful() ? 0 : 1; }
int main( int argc, char* argv[] ) { util::CLoggerMgr::Config(util::Log4Cxx); // Create the event manager and test controller CPPUNIT_NS::TextTestResult controller; // Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // Add a listener that print dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); // Add the top suite to the test runner //CPPUNIT_NS::TextTestRunner runner; CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); runner.run( controller); // Print test in a compiler compatible format. CPPUNIT_NS::CompilerOutputter outputter( &result, CPPUNIT_NS::stdCOut() ); outputter.write(); util::CLoggerMgr::CleanLoggers(); system("pause"); return result.wasSuccessful() ? 0 : 1; }
int main() { // Create the event manager and test controller CPPUNIT_NS::TestResult controller; // Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener(&result); // Add a listener that print dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener(&progress); // Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; runner.addTest(CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest()); runner.run(controller); // output CPPUNIT_NS::CompilerOutputter outputter(&result, std::cerr); outputter.write(); // return status code return result.wasSuccessful() ? 0 : 1; }
int main(int argc, char *argv[]) { Logging::Logger::setGlobalLogger(new Logging::GenericLogger("testLogger")); // initialize the AlarmSystemInterfaceFactory ACSAlarmSystemInterfaceFactory::init(NULL); // Create the event manager and test controller CPPUNIT_NS::TestResult controller; // Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // Add a listener that print dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); // Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); runner.run( controller ); // Print test in a compiler compatible format. std::cout.flush(); CPPUNIT_NS::CompilerOutputter outputter( &result, std::cerr ); outputter.write(); // close the AlarmSystemInterfaceFactory ACSAlarmSystemInterfaceFactory::done(); return result.wasSuccessful() ? 0 : 1; }
int main(int argc, char* argv[]) { // Retrieve test path from command line first argument. Default to "" which resolve // to the top level suite. std::string testPath = (argc > 1) ? std::string(argv[1]) : std::string(""); // Create the event manager and test controller CPPUNIT_NS::TestResult controller; // Add a listener that collects test result CPPUNIT_NS::TestResultCollector result; controller.addListener(&result); // Add a listener that print dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener(&progress); // Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; runner.addTest(CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest()); runner.run(controller); // Print test in a compiler compatible format. CPPUNIT_NS::CompilerOutputter outputter(&result, CPPUNIT_NS::stdCOut()); outputter.write(); // Uncomment this for XML output std::ofstream file("cppunit-report.xml"); CPPUNIT_NS::XmlOutputter xml(&result, file); xml.write(); file.close(); return result.wasSuccessful() ? 0 : 1; }
int run_multi_cdn_strategy_test_case() { // Create the event manager and test controller CPPUNIT_NS::TestResult controller; // Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // Add a listener that print dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); // Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); runner.run( controller ); // Print test in a compiler compatible format. std::ofstream ofs("c:\\MultiCdnTestResult.txt"); CPPUNIT_NS::CompilerOutputter outputter( &result, ofs ); outputter.write(); return result.wasSuccessful() ? 0 : 1; }
int main(int argc, char* argv[]) { // informs test-listener about testresults CPPUNIT_NS::TestResult testresult; // register listener for collecting the test-results CPPUNIT_NS::TestResultCollector collectedresults; testresult.addListener (&collectedresults); // register listener for per-test progress output CPPUNIT_NS::BriefTestProgressListener progress; testresult.addListener (&progress); // insert test-suite at test-runner by registry CPPUNIT_NS::TestRunner testrunner; testrunner.addTest (CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest ()); testrunner.run(testresult); // output results in compiler-format CPPUNIT_NS::CompilerOutputter compileroutputter(&collectedresults, std::cerr); compileroutputter.write (); // Output XML for Jenkins CPPunit plugin ofstream xmlFileOut("cppTestBasicMathResults.xml"); XmlOutputter xmlOut(&collectedresults, xmlFileOut); xmlOut.write(); // return 0 if tests were successful return collectedresults.wasSuccessful() ? 0 : 1; }
int main( int argc, char **argv ) { argc = 0; std::cout << "Running " << argv[argc] << std::endl; // イベントマネージャを作成する CPPUNIT_NS::TestResult controller; // テスト結果を収集するオブジェクトを作成する CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // テスト実行時に進行状況を表示するオブジェクトを作成する //CPPUNIT_NS::BriefTestProgressListener progress; //controller.addListener( &progress ); // テストランナーにテストを設定する CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry( ).makeTest( ) ); runner.run( controller ); // テスト結果を出力する CPPUNIT_NS::TextOutputter outputter( &result, std::cout ); outputter.write( ); // テストに成功した場合に 0 を返し,失敗したら 1 を返す return( result.wasSuccessful( ) ? 0 : 1 ); }
int main( int ac, char **av ) { // イベント・マネージャとテスト・コントローラを生成する CPPUNIT_NS::TestResult controller; // テスト結果収集リスナをコントローラにアタッチする CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // 「.」で進行状況を出力するリスナをアタッチする CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); // テスト・ランナーにテスト群を与え、テストする CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); runner.run( controller ); // テスト結果を標準出力に吐き出す CPPUNIT_NS::CompilerOutputter outputter( &result, CPPUNIT_NS::stdCOut() ); outputter.write(); return result.wasSuccessful() ? 0 : 1; }
int main( int, char ** ) { // create the event manager and test controller CPPUNIT_NS::TestResult controller; // add a listner that collects test results CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // add a listener that prints dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); //CPPUNIT_NS::TextTestProgressListener textprog; //controller.addListener( &textprog ); // add the top suite to the test runner. CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); runner.run( controller ); // output results in a compiler compatible format CPPUNIT_NS::CompilerOutputter outputter( &result, CPPUNIT_NS::stdCOut() ); //CPPUNIT_NS::TextOutputter outputter( &result, CPPUNIT_NS::stdCOut() ); //CPPUNIT_NS::XmlOutputter outputter( &result, CPPUNIT_NS::stdCOut() ); outputter.write(); return result.wasSuccessful() ? 0 : 1; }
int main(int argc, char** argv) { try { CPPUNIT_NS::TestResult controller; CPPUNIT_NS::TestResultCollector result; controller.addListener(&result); CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener(&progress); CPPUNIT_NS::TestRunner runner; runner.addTest(CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest()); runner.run(controller); CPPUNIT_NS::CompilerOutputter outputter(&result, CPPUNIT_NS::stdCOut()); outputter.write(); return result.wasSuccessful() ? 0 : -1; } catch(const std::exception& exc) { std::cout << exc.what() << std::endl; } catch(...) { std::cout << "Unknown exception." << std::endl; } return -1; }
int main(void) { // informs test-listener about testresults CPPUNIT_NS::TestResult testresult; // register listener for collecting the test-results CPPUNIT_NS::TestResultCollector collectedresults; testresult.addListener(&collectedresults); // register listener for per-test progress output CPPUNIT_NS::BriefTestProgressListener progress; testresult.addListener(&progress); // insert test-suite at test-runner by registry CPPUNIT_NS::TestRunner testrunner; testrunner.addTest(CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest()); testrunner.run(testresult); // output results in compiler-format CPPUNIT_NS::CompilerOutputter compileroutputter(&collectedresults, std::cerr); compileroutputter.write(); // return 0 if tests were successful return collectedresults.wasSuccessful() ? 0 : 1; }
int main(int argc, char* argv[]) { // Create the event manager and test controller CPPUNIT_NS::TestResult controller; // Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // Add a listener that print dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); // Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry("All Tests").makeTest() ); runner.run( controller ); // Print test in a text format. CPPUNIT_NS::TextOutputter outputter( &result, CPPUNIT_NS::stdCOut() ); outputter.write(); // This for XML output std::ofstream file( "TestResult.xml" ); CPPUNIT_NS::XmlOutputter xml( &result, file ); xml.setStyleSheet( "report.xsl" ); xml.write(); file.close(); return result.wasSuccessful() ? 0 : 1; }
int main( int argc, char* argv[] ) { // Create the event manager and test controller CPPUNIT_NS::TestResult controller; // Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // Add a listener that print dots as test run. //CPPUNIT_NS::BriefTestProgressListener progress; //controller.addListener( &progress ); //controller.push // Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); runner.run( controller ); // Print test in a compiler compatible format. CPPUNIT_NS::CompilerOutputter outputter( &result, std::cerr ); outputter.write(); return result.wasSuccessful() ? 0 : 1; }
int main(int argc, const char * argv[]) { OptionsParser parser; if (parser.ParseOptions(argc, argv) < 0 || parser.m_Help) { parser.Usage(argv[0]); return -1; } if (parser.m_List) { CPPUNIT_NS::Test *test = CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest(); for (int i = 0; i < test->getChildTestCount(); i++) { printf("test %s\n", test->getChildTestAt(i)->getName().c_str()); for (int j = 0; j < test->getChildTestAt(i)->getChildTestCount(); j++) { printf("test %s\n", test->getChildTestAt(i)->getChildTestAt(j)->getName().c_str()); } } return 0; } CPPUNIT_NS::TestResult controller; // Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // Add a listener that print dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); CPPUNIT_NS::TestRunner runner; // Add the single test to the test runner if (parser.m_RunSingle) { runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest()->findTest(parser.m_TestName)); // Add the top suite to the test runner } else { runner.addTest(CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest()); } runner.run( controller ); // Print test in a compiler compatible format. CPPUNIT_NS::CompilerOutputter outputter( &result, CPPUNIT_NS::stdCOut() ); outputter.write(); return result.wasSuccessful() ? 0 : 1; }
int runCppunitTestSuite(TestResultOutputType outputType) { icl_core::os::lxrtStartup(); icl_core::logging::initialize(); // Informiert Test-Listener ueber Testresultate CPPUNIT_NS::TestResult testresult; // Listener zum Sammeln der Testergebnisse registrieren CPPUNIT_NS::TestResultCollector collectedresults; testresult.addListener(&collectedresults); // Test-Suite ueber die Registry im Test-Runner einfuegen CPPUNIT_NS::TestRunner testrunner; testrunner.addTest(CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest()); // Resultate ausgeben switch (outputType) { case eTROT_Text: { icl_core::TestListener progress; testresult.addListener(&progress); testrunner.run(testresult); CPPUNIT_NS::TextOutputter textoutputter(&collectedresults, std::cerr); textoutputter.write(); break; } case eTROT_Compiler: { icl_core::TestListener progress; testresult.addListener(&progress); testrunner.run(testresult); CPPUNIT_NS::CompilerOutputter compileroutputter(&collectedresults, std::cerr); compileroutputter.write(); break; } case eTROT_Xml: { testrunner.run(testresult); CPPUNIT_NS::XmlOutputter xmloutputter(&collectedresults, std::cerr, "UTF-8"); xmloutputter.write(); break; } } icl_core::logging::shutdown(); icl_core::os::lxrtShutdown(); // Rueckmeldung, ob Tests erfolgreich waren return collectedresults.wasSuccessful() ? 0 : 1; }
int main( int argc, char* argv[] ) { // Create the event manager and test controller CPPUNIT_NS::TestResult controller; TimedTestListener ttlistener; // Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); controller.addListener( &ttlistener); // Add a listener that print dots as test run. //CPPUNIT_NS::BriefTestProgressListener progress; //controller.addListener( &progress ); //controller.push // Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; if ( argc == 1 ) { runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); } if ( argc == 2 ) { runner.addTest(CPPUNIT_NS::TestFactoryRegistry::getRegistry(argv[1]).makeTest()); } runner.run( controller ); // Print test in a compiler compatible format. CPPUNIT_NS::CompilerOutputter outputter( &result, std::cerr ); outputter.write(); //XML Output std::ofstream xmlFileOut("cpptestresults.xml"); CPPUNIT_NS::XmlOutputter xmlOut(&result, xmlFileOut); XmlTimedTestOutputterHook *xmlTimeHook = new XmlTimedTestOutputterHook(&ttlistener); xmlOut.addHook(xmlTimeHook); xmlOut.write(); delete xmlTimeHook; return result.wasSuccessful() ? 0 : 1; }
int main( int argc, char **argv ) { // Create the event manager and test controller CPPUNIT_NS::TestResult controller; // Add a listener that colllects test result /* CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); */ CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // Add a listener that print dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); // Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); time_t tmbegin; time(&tmbegin); runner.run( controller ); time_t tmend; time(&tmend); cout << "used time: " << tmend-tmbegin << endl; //CPPUNIT_NS::OStream *xmlStream = new CPPUNIT_NS::OFileStream( "report.xml" ); //// Print test in a compiler compatible format. //CPPUNIT_NS::CompilerOutputter outputter( &result, CPPUNIT_NS::stdCOut() ); //outputter.write(); CPPUNIT_NS::CompilerOutputter outputter( &result,std::cout ); outputter.write(); //CPPUNIT_NS::XmlOutputter xmlOutputter( &result, *xmlStream ); //xmlOutputter.setStyleSheet( "report.xsl" ); //xmlOutputter.write(); getchar(); return 0/*result.wasSuccessful() ? 0 : 1*/; }
int main( int argc, char* argv[] ) { // Retreive test path from command line first argument. Default to "" which resolve // to the top level suite. std::string testPath = (argc > 1) ? std::string(argv[1]) : std::string(""); // Create the event manager and test controller CPPUNIT_NS::TestResult controller; // Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // Add a listener that print dots as test run. #ifdef WIN32 CPPUNIT_NS::TextTestProgressListener progress; #else CPPUNIT_NS::BriefTestProgressListener progress; #endif controller.addListener( &progress ); // Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); try { std::string test_path = testPath.empty() ? " all unit tests" : testPath; std::cerr << "Running " << test_path << std::endl; runner.run( controller, testPath ); std::cerr << std::endl; // Print test in a compiler compatible format. CPPUNIT_NS::CompilerOutputter outputter( &result, std::cerr ); outputter.write(); // Uncomment this for XML output // std::ofstream file( "tests.xml" ); // CPPUNIT_NS::XmlOutputter xml( &result, file ); // xml.setStyleSheet( "report.xsl" ); // xml.write(); // file.close(); } catch ( std::invalid_argument &e ) // Test path not resolved { std::cerr << std::endl << "ERROR: " << e.what() << std::endl; return 0; } return result.wasSuccessful() ? 0: 1; }
int main(){ CPPUNIT_NS::TestResult controller; CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); runner.run( controller ); return result.wasSuccessful() ? 0 : 1; }
int main(int argc, char **argv) { #if ENABLE_LOGGING == 1 mqscommon::LoggingConfigurator::configure(); #endif CPPUNIT_NS::TestResult testresult; CPPUNIT_NS::TestResultCollector collectedresults; testresult.addListener (&collectedresults); #if 0 CPPUNIT_NS::TestRunner runner; CPPUNIT_NS::TestFactoryRegistry ®istry = CPPUNIT_NS::TestFactoryRegistry::getRegistry(); runner.addTest( registry.makeTest() ); runner.run (testresult); std::ofstream outStream("out.xml"); CPPUNIT_NS::XmlOutputter xmloutputter (&collectedresults, outStream); //CPPUNIT_NS::XmlOutputter xmloutputter (&collectedresults, std::cout); xmloutputter.write (); bool wasSuccessful = collectedresults.wasSuccessful () ; #else CPPUNIT_NS::TextUi::TestRunner runner; CPPUNIT_NS::TestFactoryRegistry ®istry = CPPUNIT_NS::TestFactoryRegistry::getRegistry(); runner.addTest( registry.makeTest() ); CPPUNIT_NS::CompilerOutputter *outputter = new CPPUNIT_NS::CompilerOutputter(&runner.result(), std::cout); outputter->setLocationFormat("%p(%l) : "); //outputter->setWrapColumn(19); outputter->setNoWrap(); runner.setOutputter(outputter); bool wasSuccessful = runner.run("", false, // doWait true, // doPrintResult true // doPrintProgress ); #endif return !wasSuccessful; }
int main() { CPPUNIT_NS::TestResult tr; CPPUNIT_NS::TestResultCollector trc; tr.addListener(&trc); CPPUNIT_NS::BriefTestProgressListener progress; tr.addListener(&progress); CPPUNIT_NS::TestRunner runner; CPPUNIT_NS::TestFactoryRegistry ® = CppUnit::TestFactoryRegistry::getRegistry("Test"); runner.addTest(reg.makeTest()); runner.run(tr); CPPUNIT_NS::CompilerOutputter outputter(&trc, CPPUNIT_NS::stdCOut()); outputter.write(); }
int main() { GenericTest test; test.loadTile(); CPPUNIT_NS::TestResult testResult; CPPUNIT_NS::TestResultCollector testsCollector; testResult.addListener(&testsCollector); CPPUNIT_NS::BriefTestProgressListener progress; testResult.addListener(&progress); CPPUNIT_NS::TestRunner runner; runner.addTest(CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest()); runner.run(testResult); CPPUNIT_NS::CompilerOutputter outCompiler(&testsCollector, std::cerr); outCompiler.write(); return (testsCollector.wasSuccessful() ? 0 : 1); }
int main(int argc, char* argv[]) { TCHAR strExePath[MAX_PATH]; memset(strExePath, 0, MAX_PATH); GetModuleFileName(NULL, strExePath, MAX_PATH); string strExeFile; short*p = (short*)strExePath; while (*p) { strExeFile += (char)(*p); p++; } g_strFilePath = strExeFile.substr(0, strExeFile.find("project")) + "testcase\\"; // Create the event manager and test controller CPPUNIT_NS::TestResult controller; // Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // Add a listener that print dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); // Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry("All Tests").makeTest() ); runner.run( controller ); // Print test in a text format. CPPUNIT_NS::TextOutputter outputter( &result, CPPUNIT_NS::stdCOut() ); outputter.write(); // This for XML output std::ofstream file( "TestResult.xml" ); CPPUNIT_NS::XmlOutputter xml( &result, file ); xml.setStyleSheet( "report.xsl" ); xml.write(); file.close(); return result.wasSuccessful() ? 0 : 1; }
int _tmain(int argc, _TCHAR* argv[]) { CPPUNIT_NS::TestResult controller; CPPUNIT_NS::TestResultCollector result; controller.addListener(&result); CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener(&progress); CPPUNIT_NS::TestRunner runner; runner.addTest(CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest()); runner.run(controller); CPPUNIT_NS::CompilerOutputter outputter(&result, std::cerr); outputter.write(); return result.wasSuccessful() ? 0 : 1; }
int main() { /* Options for outputs */ int prec_def = 8; cout.precision(prec_def); //int wd = prec_def + 7; cout.setf(ios::floatfield); //cout.setf(ios::scientific); try { //////////////////////////////////////////////////////////////////// // Create the event manager and test controller CPPUNIT_NS::TestResult controller; // Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener(&result); // Add a listener that print dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener(&progress); // Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; runner.addTest(CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest()); runner.run(controller); // Print test in a compiler compatible format. CPPUNIT_NS::CompilerOutputter outputter(&result, CPPUNIT_NS::stdCOut()); outputter.write(); return result.wasSuccessful() ? 0 : 1; //////////////////////////////////////////////////////////////////// return EXIT_SUCCESS; } catch (const runtime_error& e) { cerr << e.what() << endl; return EXIT_FAILURE; } }
int _tmain(int argc, TCHAR* argv[], TCHAR* envp[]) { int nRetCode = 0; // initialize MFC and print and error on failure if (!AfxWinInit(::GetModuleHandle(NULL), NULL, ::GetCommandLine(), 0)) { // TODO: change error code to suit your needs cerr << _T("Fatal Error: MFC initialization failed") << endl; nRetCode = 1; } else { /** * This is the code running the tests. * Tests are found automatically once they are created with * CppUnit's macros, you don't need to run single tests here. */ CPPUNIT_NS::TestResult controller; // Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); // Add a listener that print dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); // Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); runner.run( controller ); // Print test in a compiler compatible format. CPPUNIT_NS::CompilerOutputter outputter( &result, CPPUNIT_NS::stdCOut() ); outputter.write(); } // Wait for user... getc(stdin); return nRetCode; }
int main( int ac, char **av ) { //--- Create the event manager and test controller CPPUNIT_NS::TestResult controller; //--- Add a listener that colllects test result CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); //--- Add a listener that print dots as test run. CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); //--- Add the top suite to the test runner CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); runner.run( controller ); return result.wasSuccessful() ? 0 : 1; }
int main(int argc, char* argv[]) { // Create the event manager and test controller CppUnit::TestResult controller; // Add a listener that colllects test result CppUnit::TestResultCollector result; controller.addListener( &result ); // Add a listener that print dots as test run. CppUnit::TextTestProgressListener progress; controller.addListener( &progress ); // Add the top suite to the test runner CppUnit::TestRunner runner; runner.addTest( CppUnit::TestFactoryRegistry::getRegistry().makeTest() ); try { std::cout << "Running "; CPPUNIT_NS::TestRunner runner; runner.addTest( CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest() ); runner.run( controller ); std::cerr << std::endl; // Print test in a compiler compatible format. CppUnit::CompilerOutputter outputter( &result, std::cerr ); outputter.write(); cin.get(); } catch ( std::invalid_argument &e ) // Test path not resolved { std::cerr << std::endl << "ERROR: " << e.what() << std::endl; return 0; } return result.wasSuccessful() ? 0 : 1; }
using namespace std int main() { CPPUNIT_NS::TestResult controller; CPPUNIT_NS::TestResultCollector result; controller.addListener( &result ); CPPUNIT_NS::BriefTestProgressListener progress; controller.addListener( &progress ); CPPUNIT_NS::TestRunner runner; runner.addTest(CPPUNIT_NS::TestFactoryRegistry::getRegistry().makeTest()); runner.run( controller ); CPPUNIT_NS::CompilerOutputter outputter( &result,CPPUNIT_NS::stdCOut() ); outputter.write(); return 0; }