@Override public Object start(final IApplicationContext context) throws Exception { final String[] cmdArguments = (String[]) context.getArguments().get(IApplicationContext.APPLICATION_ARGS); Map<String, String> args = null; try { args = processArgs(cmdArguments); } catch (final ArgumentException e) { System.err.println(e.getMessage()); System.err.println(usage()); return -1; } JUnitCore junit = new JUnitCore(); junit.addListener(new MyTextListener()); if (args.containsKey(ARG_XML_OUT)) { final File xmlResultFile = new File(args.get(ARG_XML_OUT)); JUnitXMLRunListener listener = new JUnitXMLRunListener(xmlResultFile); junit.addListener(listener); } logger.info("Starting regression test"); logger.info("Platform default encoding: " + Charset.defaultCharset()); logger.info("Common version: " + getBundleVersion(ProductConstants.PRODUCT_ID_COMMON)); logger.info("Designer version: " + getBundleVersion(ProductConstants.PRODUCT_ID_DESIGNER)); logger.info("Titan regression test version: " + getBundleVersion(REGRESSION_TEST_ID)); Result result = junit.run(MainTestSuite.class); printResult(result); return IApplication.EXIT_OK; }
public void testArgumentsService() throws Exception { assertNotNull(context); ServiceReference srv = context.getServiceReference(IApplicationContext.class.getName()); assertNotNull(srv); IApplicationContext iac = (IApplicationContext) context.getService(srv); Map arguments = iac.getArguments(); assertEquals("example.equinox.headless.application", arguments.get("eclipse.application")); }
protected Object startup(IApplicationContext context) throws Exception { // Get BundleContext bundleContext = Activator.getContext(); // Process Arguments final String[] args = mungeArguments((String[]) context.getArguments().get("application.args")); // $NON-NLS-1$ processArgs(args); createContainer(); createChannel(); connectContainer(); return IApplication.EXIT_OK; }
/* * (non-Javadoc) * * @see org.eclipse.equinox.app.IApplication#start(org.eclipse.equinox.app.IApplicationContext) */ public Object start(IApplicationContext context) throws Exception { try { final String[] args = mungeArguments((String[]) context.getArguments().get("application.args")); // $NON-NLS-1$ if (args.length == 1 && (args[0].equals("-help") || args[0].equals("-h"))) { // $NON-NLS-1$ //$NON-NLS-2$ usage(); return IApplication.EXIT_OK; } else if (args.length == 2 && (args[0].equals("-config") || args[0].equals("-c"))) { // $NON-NLS-1$ //$NON-NLS-2$ // Setup from configuration file (expected after -c <file> FileInputStream fis = null; try { fis = new FileInputStream(args[1]); setupServerFromConfig(new ServerConfigParser().load(fis)); } finally { if (fis != null) fis.close(); } } else { String hostname = SSLServerSOContainer.DEFAULT_HOST; int port = SSLServerSOContainer.DEFAULT_PORT; String name = SSLServerSOContainer.DEFAULT_NAME; int keepAlive = SSLServerSOContainer.DEFAULT_KEEPALIVE; switch (args.length) { case 4: keepAlive = Integer.parseInt(args[3]); case 3: hostname = args[2]; case 2: name = args[1]; if (!name.startsWith("/")) // $NON-NLS-1$ name = "/" + name; // $NON-NLS-1$ case 1: port = Integer.parseInt(args[0]); } setupServerFromParameters(hostname, port, name, keepAlive); } synchronized (this) { this.wait(); } return IApplication.EXIT_OK; } catch (final Exception e) { stop(); throw e; } }
@Override public Object start(IApplicationContext context) throws Exception { this.appContext = context; projectNames = new HashMap<String, IProject>(); importedProjects = new LinkedList<IProject>(); buildedProjects = new LinkedList<IProject>(); args = (String[]) appContext.getArguments().get("application.args"); // test only doDebugInitArgs(); try { doTheJobWith(); return STATUS_OK; } catch (Exception e) { System.out.println("net.sf.j2s.ui.cmdline Main Exception"); e.printStackTrace(); return STATUS_ERROR; } }
// @Override public Object startX(IApplicationContext context) throws Exception { final Display display = PlatformUI.createDisplay(); final TakariWorkbenchAdvisor advisor = new TakariWorkbenchAdvisor(); display.addListener(SWT.OpenDocument, advisor.getOpenDocumentHandler()); // FIXME: Check unhandled arguments for a pom.xml file and treat like an // OpenDocument for (String arg : (String[]) context.getArguments().get(IApplicationContext.APPLICATION_ARGS)) { File f = new File(arg); if (f.exists()) { if ("pom.xml".equals(f.getName())) { Event e = new Event(); e.text = arg; advisor.getOpenDocumentHandler().handleEvent(e); } else if (f.isDirectory() && (f = new File(f, "pom.xml")).exists()) { Event e = new Event(); e.text = f.getPath(); advisor.getOpenDocumentHandler().handleEvent(e); } } } try { int returnCode = PlatformUI.createAndRunWorkbench(display, advisor); if (returnCode == PlatformUI.RETURN_RESTART) { return IApplication.EXIT_RESTART; } return IApplication.EXIT_OK; } finally { Location loc = Platform.getInstanceLocation(); if (loc != null) { loc.release(); } display.dispose(); } }
public Object start(IApplicationContext context) throws Exception { String[] args = (String[]) context.getArguments().get(IApplicationContext.APPLICATION_ARGS); main(args); return null; }
@Override public Object start(final IApplicationContext context) throws Exception { final String[] args = (String[]) context.getArguments().get(IApplicationContext.APPLICATION_ARGS); return start(args); }
@Override public Object start(IApplicationContext context) throws Exception { String[] args = (String[]) context.getArguments().get(IApplicationContext.APPLICATION_ARGS); // Options options = new EclipseOptions(); return PrimeMain.analyze(args, null); }
/** {@inheritDoc} */ @Override public Object start(final IApplicationContext context) throws Exception { // Display configuration info synchronized (Application.class) { final String version = (String) context.getBrandingBundle().getHeaders().get("Bundle-Version"); bundle_version = context.getBrandingName() + " " + version; } // Create parser for arguments and run it. final String args[] = (String[]) context.getArguments().get("application.args"); final ArgParser parser = new ArgParser(); final BooleanOption help_opt = new BooleanOption(parser, "-help", "Display help"); final BooleanOption version_opt = new BooleanOption(parser, "-version", "Display version info"); parser.addEclipseParameters(); try { parser.parse(args); } catch (final Exception ex) { System.out.println(ex.getMessage() + "\n" + parser.getHelp()); return IApplication.EXIT_OK; } if (help_opt.get()) { System.out.println(bundle_version + "\n\n" + parser.getHelp()); return IApplication.EXIT_OK; } if (version_opt.get()) { System.out.println(bundle_version); return IApplication.EXIT_OK; } final Logger log = Logger.getLogger(getClass().getName()); try { // Display config info final Bundle bundle = context.getBrandingBundle(); log.info(bundle_version); LogConfigurator.configureFromPreferences(); log.config("Scan config : " + ScanSystemPreferences.getScanConfigPath()); log.config("Simulation config : " + ScanSystemPreferences.getSimulationConfigPath()); log.config( "Server host:port : " + ScanSystemPreferences.getServerHost() + ":" + ScanSystemPreferences.getServerPort()); log.config("Pre-scan commands : " + Arrays.toString(ScanSystemPreferences.getPreScanPaths())); log.config( "Post-scan commands: " + Arrays.toString(ScanSystemPreferences.getPostScanPaths())); log.config("Script paths : " + Arrays.toString(ScanSystemPreferences.getScriptPaths())); // Start server final int port = ScanSystemPreferences.getServerPort(); server = new ScanServerImpl(); server.start(); log.config("Scan Server REST interface on http://localhost:" + port + "/index.html"); final ScanWebServer httpd = new ScanWebServer(bundle.getBundleContext(), server, port); // TODO // final PVAccessServer pva = new PVAccessServer(server); // pva.initializeServerContext(); // Register console commands ConsoleCommands commands = new ConsoleCommands(server); final BundleContext bundle_context = bundle.getBundleContext(); bundle_context.registerService(CommandProvider.class.getName(), commands, null); // Keep running... run.await(); server.stop(); httpd.stop(); // pva.destroyServerContext(); // Release commands commands = null; } catch (Exception ex) { log.log(Level.SEVERE, "Exiting on error", ex); return Integer.valueOf(-1); } return EXIT_OK; }
public E4Workbench createE4Workbench( IApplicationContext applicationContext, final Display display) { args = (String[]) applicationContext.getArguments().get(IApplicationContext.APPLICATION_ARGS); IEclipseContext appContext = createDefaultContext(); appContext.set(Display.class, display); appContext.set(Realm.class, DisplayRealm.getRealm(display)); appContext.set( UISynchronize.class, new UISynchronize() { @Override public void syncExec(Runnable runnable) { if (display != null && !display.isDisposed()) { display.syncExec(runnable); } } @Override public void asyncExec(Runnable runnable) { if (display != null && !display.isDisposed()) { display.asyncExec(runnable); } } }); appContext.set(IApplicationContext.class, applicationContext); // This context will be used by the injector for its // extended data suppliers ContextInjectionFactory.setDefault(appContext); // Get the factory to create DI instances with IContributionFactory factory = appContext.get(IContributionFactory.class); // Install the life-cycle manager for this session if there's one // defined Optional<String> lifeCycleURI = getArgValue(IWorkbench.LIFE_CYCLE_URI_ARG, applicationContext, false); lifeCycleURI.ifPresent( lifeCycleURIValue -> { lcManager = factory.create(lifeCycleURIValue, appContext); if (lcManager != null) { // Let the manager manipulate the appContext if desired ContextInjectionFactory.invoke(lcManager, PostContextCreate.class, appContext, null); } }); Optional<String> forcedPerspectiveId = getArgValue(PERSPECTIVE_ARG_NAME, applicationContext, false); forcedPerspectiveId.ifPresent( forcedPerspectiveIdValue -> appContext.set(E4Workbench.FORCED_PERSPECTIVE_ID, forcedPerspectiveIdValue)); String showLocation = getLocationFromCommandLine(); if (showLocation != null) { appContext.set(E4Workbench.FORCED_SHOW_LOCATION, showLocation); } // Create the app model and its context MApplication appModel = loadApplicationModel(applicationContext, appContext); appModel.setContext(appContext); boolean isRtl = ((Window.getDefaultOrientation() & SWT.RIGHT_TO_LEFT) != 0); appModel.getTransientData().put(E4Workbench.RTL_MODE, isRtl); // for compatibility layer: set the application in the OSGi service // context (see Workbench#getInstance()) if (!E4Workbench.getServiceContext().containsKey(MApplication.class)) { // first one wins. E4Workbench.getServiceContext().set(MApplication.class, appModel); } // Set the app's context after adding itself appContext.set(MApplication.class, appModel); // adds basic services to the contexts initializeServices(appModel); // let the life cycle manager add to the model if (lcManager != null) { ContextInjectionFactory.invoke(lcManager, ProcessAdditions.class, appContext, null); ContextInjectionFactory.invoke(lcManager, ProcessRemovals.class, appContext, null); } // Create the addons IEclipseContext addonStaticContext = EclipseContextFactory.create(); for (MAddon addon : appModel.getAddons()) { addonStaticContext.set(MAddon.class, addon); Object obj = factory.create(addon.getContributionURI(), appContext, addonStaticContext); addon.setObject(obj); } // Parse out parameters from both the command line and/or the product // definition (if any) and put them in the context Optional<String> xmiURI = getArgValue(IWorkbench.XMI_URI_ARG, applicationContext, false); xmiURI.ifPresent( xmiURIValue -> { appContext.set(IWorkbench.XMI_URI_ARG, xmiURIValue); }); setCSSContextVariables(applicationContext, appContext); Optional<String> rendererFactoryURI = getArgValue(E4Workbench.RENDERER_FACTORY_URI, applicationContext, false); rendererFactoryURI.ifPresent( rendererFactoryURIValue -> { appContext.set(E4Workbench.RENDERER_FACTORY_URI, rendererFactoryURIValue); }); // This is a default arg, if missing we use the default rendering engine Optional<String> presentationURI = getArgValue(IWorkbench.PRESENTATION_URI_ARG, applicationContext, false); appContext.set( IWorkbench.PRESENTATION_URI_ARG, presentationURI.orElse(PartRenderingEngine.engineURI)); // Instantiate the Workbench (which is responsible for // 'running' the UI (if any)... return workbench = new E4Workbench(appModel, appContext); }
/* * (non-Javadoc) * @see org.eclipse.equinox.app.IApplication#start(org.eclipse.equinox.app.IApplicationContext context) */ public Object start(IApplicationContext context) throws Exception { System.out.println("S2MaterializerApplication.start"); Display display = PlatformUI.createDisplay(); try { // look and see if there's a splash shell we can parent off of Shell shell = WorkbenchPlugin.getSplashShell(display); if (shell != null) { // should should set the icon and message for this shell to be the // same as the chooser dialog - this will be the guy that lives in // the task bar and without these calls you'd have the default icon // with no message. shell.setText(ChooseWorkspaceDialog.getWindowTitle()); shell.setImages(Dialog.getDefaultImages()); } // // if ( !checkInstanceLocation( shell ) ) // { // WorkbenchPlugin.unsetSplashShell( display ); // Platform.endSplash(); // return EXIT_OK; // } String[] args = (String[]) context.getArguments().get(IApplicationContext.APPLICATION_ARGS); String s2ProjectURL = null; String nexusBaseURL = null; for (int i = 0; i < args.length - 1; i++) { if (ARG_DESCRIPTOR_URL.equals(args[i])) { s2ProjectURL = args[i + 1]; } if (ARG_NEXUS_BASE_URL.equals(args[i])) { nexusBaseURL = args[i + 1]; } } if (s2ProjectURL == null || nexusBaseURL == null) { System.err.println( "Syntax: " + ARG_DESCRIPTOR_URL + " <descriptor url> " + ARG_NEXUS_BASE_URL + " <nexus server url>"); return EXIT_OK; } NexusFacade.setMainNexusServerData( nexusBaseURL, null /* username */, null /* password */, new NullProgressMonitor()); // Dump some useful debug info :) System.out.println(PROP_LAUNCHER + "=" + System.getProperty(PROP_LAUNCHER)); System.out.println(PROP_VM + "=" + System.getProperty(PROP_VM)); System.out.println(PROP_VMARGS + "=" + System.getProperty(PROP_VMARGS)); System.out.println(PROP_COMMANDS + "=" + System.getProperty(PROP_COMMANDS)); // Save the current workspace location in the eclipse preferences Location instanceLoc = Platform.getInstanceLocation(); File workspaceFile = new File(instanceLoc.getURL().getFile()); Preferences node = new ConfigurationScope().getNode(IDEWorkbenchPlugin.IDE_WORKBENCH); node.put(IDE.Preferences.RECENT_WORKSPACES, workspaceFile.getCanonicalPath()); node.putInt( IDE.Preferences.RECENT_WORKSPACES_PROTOCOL, PERS_ENCODING_VERSION_CONFIG_PREFS_NO_COMMAS); node.flush(); // create the workbench with this advisor and run it until it exits // N.B. createWorkbench remembers the advisor, and also registers // the workbench globally so that all UI plug-ins can find it using // PlatformUI.getWorkbench() or AbstractUIPlugin.getWorkbench() int returnCode = PlatformUI.createAndRunWorkbench( display, new S2MaterializerWorkbenchAdvisor(s2ProjectURL)); // the workbench doesn't support relaunch yet (bug 61809) so // for now restart is used, and exit data properties are checked // here to substitute in the relaunch return code if needed if (returnCode != PlatformUI.RETURN_RESTART) { return EXIT_OK; } // if the exit code property has been set to the relaunch code, then // return that code now, otherwise this is a normal restart String command_line = buildCommandLine(); System.out.println("New command line=" + command_line); System.setProperty(PROP_EXIT_DATA, command_line); System.out.println(PROP_EXIT_DATA + "=" + System.getProperty(PROP_EXIT_DATA)); System.setProperty(PROP_EXIT_CODE, "" + Integer.toString(EXIT_RELAUNCH)); System.out.println(PROP_EXIT_CODE + "=" + System.getProperty(PROP_EXIT_CODE)); return EXIT_RELAUNCH; } finally { if (display != null) { display.dispose(); } Location instanceLoc = Platform.getInstanceLocation(); if (instanceLoc != null) instanceLoc.release(); } }
/* * (non-Javadoc) * * @see org.eclipse.equinox.app.IApplication#start(org.eclipse.equinox.app.IApplicationContext context) */ @Override public Object start(IApplicationContext appContext) throws Exception { // Display display = createDisplay(); // processor must be created before we start event loop // DelayedEventsProcessor processor = new DelayedEventsProcessor(display); final Display display = PlatformUI.createDisplay(); final TakariWorkbenchAdvisor advisor = new TakariWorkbenchAdvisor(); display.addListener(SWT.OpenDocument, advisor.getOpenDocumentHandler()); // FIXME: Check unhandled arguments for a pom.xml file and treat like an // OpenDocument for (String arg : (String[]) appContext.getArguments().get(IApplicationContext.APPLICATION_ARGS)) { File f = new File(arg); if (f.exists()) { if ("pom.xml".equals(f.getName())) { Event e = new Event(); e.text = arg; advisor.getOpenDocumentHandler().handleEvent(e); } else if (f.isDirectory() && (f = new File(f, "pom.xml")).exists()) { Event e = new Event(); e.text = f.getPath(); advisor.getOpenDocumentHandler().handleEvent(e); } } } try { // look and see if there's a splash shell we can parent off of Shell shell = WorkbenchPlugin.getSplashShell(display); if (shell != null) { // should should set the icon and message for this shell to be the // same as the chooser dialog - this will be the guy that lives in // the task bar and without these calls you'd have the default icon // with no message. shell.setText(ChooseWorkspaceDialog.getWindowTitle()); shell.setImages(Window.getDefaultImages()); } Object instanceLocationCheck = checkInstanceLocation(shell, appContext.getArguments()); if (instanceLocationCheck != null) { WorkbenchPlugin.unsetSplashShell(display); appContext.applicationRunning(); return instanceLocationCheck; } // create the workbench with this advisor and run it until it exits // N.B. createWorkbench remembers the advisor, and also registers // the workbench globally so that all UI plug-ins can find it using // PlatformUI.getWorkbench() or AbstractUIPlugin.getWorkbench() // int returnCode = PlatformUI.createAndRunWorkbench(display, new // TakariWorkbenchAdvisor(processor)); int returnCode = PlatformUI.createAndRunWorkbench(display, advisor); // the workbench doesn't support relaunch yet (bug 61809) so // for now restart is used, and exit data properties are checked // here to substitute in the relaunch return code if needed if (returnCode != PlatformUI.RETURN_RESTART) { return EXIT_OK; } // if the exit code property has been set to the relaunch code, then // return that code now, otherwise this is a normal restart return EXIT_RELAUNCH.equals(Integer.getInteger(PROP_EXIT_CODE)) ? EXIT_RELAUNCH : EXIT_RESTART; } finally { if (display != null) { display.dispose(); } Location instanceLoc = Platform.getInstanceLocation(); if (instanceLoc != null) { instanceLoc.release(); } } }