public void selectNext() { Iterator i = new SelectionIterator(this); if (m_actives.size() == 1) { boolean isFound = false; // loop the iterator in reverse order of drawing while (i.hasNext()) { GlyphObject object = (GlyphObject) i.next(); if (m_actives.isSelected(object)) { isFound = true; continue; } // if if (!isFound) { continue; } // if m_actives.unselectAll(); m_actives.addActive(object); return; } // while i } // if i = new SelectionIterator(this); if (i.hasNext()) { GlyphObject object = (GlyphObject) i.next(); m_actives.unselectAll(); m_actives.addActive(object); return; } // if }
// look up and apply coarts for given rels to each sign in result private void applyCoarts(List<String> coartRels, Collection<Sign> result) { List<Sign> inputSigns = new ArrayList<Sign>(result); result.clear(); List<Sign> outputSigns = new ArrayList<Sign>(inputSigns.size()); // for each rel, lookup coarts and apply to input signs, storing results in output signs for (Iterator<String> it = coartRels.iterator(); it.hasNext(); ) { String rel = it.next(); Collection<String> preds = (Collection<String>) _coartRelsToPreds.get(rel); if (preds == null) continue; // not expected Collection<Sign> coartResult = getSignsFromRelAndPreds(rel, preds); if (coartResult == null) continue; for (Iterator<Sign> it2 = coartResult.iterator(); it2.hasNext(); ) { Sign coartSign = it2.next(); // apply to each input for (int j = 0; j < inputSigns.size(); j++) { Sign sign = inputSigns.get(j); grammar.rules.applyCoart(sign, coartSign, outputSigns); } } // switch output to input for next iteration inputSigns.clear(); inputSigns.addAll(outputSigns); outputSigns.clear(); } // add results back result.addAll(inputSigns); }
/** * Remove this particular regex/subscriber pair (UNTESTED AND API MAY CHANGE). If regex is null, * all subscriptions for 'sub' are cancelled. If subscriber is null, any previous subscriptions * matching the regular expression will be cancelled. If both 'sub' and 'regex' are null, all * subscriptions will be cancelled. */ public void unsubscribe(String regex, ZCMSubscriber sub) { if (this.closed) throw new IllegalStateException(); synchronized (this) { for (Provider p : providers) p.unsubscribe(regex); } // TODO: providers don't seem to use anything beyond first channel synchronized (subscriptions) { // Find and remove subscriber from list for (Iterator<SubscriptionRecord> it = subscriptions.iterator(); it.hasNext(); ) { SubscriptionRecord sr = it.next(); if ((sub == null || sr.lcsub == sub) && (regex == null || sr.regex.equals(regex))) { it.remove(); } } // Find and remove subscriber from map for (String channel : subscriptionsMap.keySet()) { for (Iterator<SubscriptionRecord> it = subscriptionsMap.get(channel).iterator(); it.hasNext(); ) { SubscriptionRecord sr = it.next(); if ((sub == null || sr.lcsub == sub) && (regex == null || sr.regex.equals(regex))) { it.remove(); } } } } }
private void stepTimeout() { boolean updated = false; synchronized (channels) { Iterator<ChannelInfo> it = channels.values().iterator(); while (it.hasNext()) { ChannelInfo channel = it.next(); Iterator<UserInfo> removed = channel.stepTimeout(getTimeoutLimit()); if (removed != null) { updated = true; String channelName = channel.getChannelName(); while (removed.hasNext()) { UserInfo user = removed.next(); ServerLogger.getInstance() .channelLeaved(channelName, user.getUserName(), user.getInetSocketAddress()); } if (channel.isEmpty()) { it.remove(); ServerLogger.getInstance().channelRemoved(channelName); } } } if (updated) { updateChannelsCache(); } } }
/** * ** Returns a String representation of all key/values ** @param sbuff The StringBuffer to write * the key/values to, or null ** for a new one ** @return A String representation of all * key/values */ public StringBuffer getArgString(StringBuffer sbuff) { StringBuffer sb = (sbuff != null) ? sbuff : new StringBuffer(); for (Iterator i = this.getKeyValList().iterator(); i.hasNext(); ) { KeyVal kv = (KeyVal) i.next(); sb.append(kv.toString()); if (i.hasNext()) { sb.append("&"); } } return sb; }
DBObject isMasterCmd() { DBCollection collection = _mongo.getDB("admin").getCollection("$cmd"); Iterator<DBObject> i = collection.__find(_isMaster, null, 0, 1, 0); if (i == null || !i.hasNext()) throw new MongoException("no result for ismaster query?"); DBObject res = i.next(); if (i.hasNext()) throw new MongoException("what's going on"); return res; }
// get signs using an additional arg for a target rel private Collection<Sign> getSignsFromPredAndTargetRel(String pred, String targetRel) { Collection<Word> words = (Collection<Word>) _predToWords.get(pred); String specialTokenConst = null; // for robustness, when using supertagger, add words for pred sans sense index int dotIndex = -1; if (_supertagger != null && !Character.isDigit(pred.charAt(0)) && // skip numbers (dotIndex = pred.lastIndexOf('.')) > 0 && pred.length() > dotIndex + 1 && pred.charAt(dotIndex + 1) != '_') // skip titles, eg Mr._Smith { String barePred = pred.substring(0, dotIndex); Collection<Word> barePredWords = (Collection<Word>) _predToWords.get(barePred); if (words == null) words = barePredWords; else if (barePredWords != null) { Set<Word> unionWords = new HashSet<Word>(words); unionWords.addAll(barePredWords); words = unionWords; } } if (words == null) { specialTokenConst = tokenizer.getSpecialTokenConstant(tokenizer.isSpecialToken(pred)); if (specialTokenConst == null) return null; // lookup words with pred = special token const Collection<Word> specialTokenWords = (Collection<Word>) _predToWords.get(specialTokenConst); // replace special token const with pred if (specialTokenWords == null) return null; words = new ArrayList<Word>(specialTokenWords.size()); for (Iterator<Word> it = specialTokenWords.iterator(); it.hasNext(); ) { Word stw = it.next(); Word w = Word.createSurfaceWord(stw, pred); words.add(w); } } List<Sign> retval = new ArrayList<Sign>(); for (Iterator<Word> it = words.iterator(); it.hasNext(); ) { Word w = it.next(); try { SignHash signs = getSignsFromWord(w, specialTokenConst, pred, targetRel); retval.addAll(signs.asSignSet()); } // shouldn't happen catch (LexException exc) { System.err.println("Unexpected lex exception for word " + w + ": " + exc); } } return retval; }
public void testStoreNodeState() throws Exception { TimeBase.setSimulated(100); CachedUrlSet mcus = new MockCachedUrlSet(mau, new RangeCachedUrlSetSpec("http://www.example.com")); CrawlState crawl = new CrawlState(1, 2, 123); List polls = new ArrayList(2); PollState poll1 = new PollState(1, "sdf", "jkl", 2, 123, Deadline.at(456), false); PollState poll2 = new PollState(2, "abc", "def", 3, 321, Deadline.at(654), false); polls.add(poll1); polls.add(poll2); NodeState nodeState = new NodeStateImpl(mcus, 123321, crawl, polls, repository); ((NodeStateImpl) nodeState).setState(NodeState.DAMAGE_AT_OR_BELOW); repository.storeNodeState(nodeState); String filePath = LockssRepositoryImpl.mapAuToFileLocation(tempDirPath, mau); filePath = LockssRepositoryImpl.mapUrlToFileLocation( filePath, "http://www.example.com/" + HistoryRepositoryImpl.NODE_FILE_NAME); File xmlFile = new File(filePath); assertTrue(xmlFile.exists()); nodeState = null; nodeState = repository.loadNodeState(mcus); assertSame(mcus, nodeState.getCachedUrlSet()); assertEquals(123321, nodeState.getAverageHashDuration()); assertEquals(1, nodeState.getCrawlState().getType()); assertEquals(2, nodeState.getCrawlState().getStatus()); assertEquals(123, nodeState.getCrawlState().getStartTime()); assertEquals(NodeState.DAMAGE_AT_OR_BELOW, nodeState.getState()); Iterator pollIt = nodeState.getActivePolls(); assertTrue(pollIt.hasNext()); PollState loadedPoll = (PollState) pollIt.next(); assertEquals(1, loadedPoll.getType()); assertEquals("sdf", loadedPoll.getLwrBound()); assertEquals("jkl", loadedPoll.getUprBound()); assertEquals(2, loadedPoll.getStatus()); assertEquals(123, loadedPoll.getStartTime()); assertEquals(456, loadedPoll.getDeadline().getExpirationTime()); assertTrue(pollIt.hasNext()); loadedPoll = (PollState) pollIt.next(); assertEquals(2, loadedPoll.getType()); assertEquals("abc", loadedPoll.getLwrBound()); assertEquals("def", loadedPoll.getUprBound()); assertEquals(3, loadedPoll.getStatus()); assertEquals(321, loadedPoll.getStartTime()); assertEquals(654, loadedPoll.getDeadline().getExpirationTime()); assertFalse(pollIt.hasNext()); TimeBase.setReal(); }
public void run() { super.run(); // save the last set of active JVMs Set lastActiveVms = activeVms; try { // get the current set of active JVMs activeVms = (HashSet) vmManager.activeVms(); } catch (MonitorException e) { // XXX: use logging api System.err.println("MonitoredHostProvider: polling task " + "caught MonitorException:"); e.printStackTrace(); // mark the HostManager as errored and notify listeners setLastException(e); fireDisconnectedEvents(); } if (activeVms.isEmpty()) { return; } Set startedVms = new HashSet(); Set terminatedVms = new HashSet(); for (Iterator i = activeVms.iterator(); i.hasNext(); /* empty */ ) { Integer vmid = (Integer) i.next(); if (!lastActiveVms.contains(vmid)) { // a new file has been detected, add to set startedVms.add(vmid); } } for (Iterator i = lastActiveVms.iterator(); i.hasNext(); /* empty */ ) { Object o = i.next(); if (!activeVms.contains(o)) { // JVM has terminated, remove it from the active list terminatedVms.add(o); } } if (!startedVms.isEmpty() || !terminatedVms.isEmpty()) { fireVmStatusChangedEvents(activeVms, startedVms, terminatedVms); } }
void close() { try { if (mySelector != null) mySelector.close(); } catch (IOException e) { } mySelector = null; // run down open connections and sockets. Iterator<ServerSocketChannel> i = Acceptors.values().iterator(); while (i.hasNext()) { try { i.next().close(); } catch (IOException e) { } } // 29Sep09: We create an ArrayList of the existing connections, then iterate over // that to call unbind on them. This is because an unbind can trigger a reconnect, // which will add to the Connections HashMap, causing a ConcurrentModificationException. // XXX: The correct behavior here would be to latch the various reactor methods to return // immediately if the reactor is shutting down. ArrayList<EventableChannel> conns = new ArrayList<EventableChannel>(); Iterator<EventableChannel> i2 = Connections.values().iterator(); while (i2.hasNext()) { EventableChannel ec = i2.next(); if (ec != null) { conns.add(ec); } } Connections.clear(); ListIterator<EventableChannel> i3 = conns.listIterator(0); while (i3.hasNext()) { EventableChannel ec = i3.next(); eventCallback(ec.getBinding(), EM_CONNECTION_UNBOUND, null); ec.close(); EventableSocketChannel sc = (EventableSocketChannel) ec; if (sc != null && sc.isAttached()) DetachedConnections.add(sc); } ListIterator<EventableSocketChannel> i4 = DetachedConnections.listIterator(0); while (i4.hasNext()) { EventableSocketChannel ec = i4.next(); ec.cleanup(); } DetachedConnections.clear(); }
// returns a macro adder for the given morph item private MacroAdder getMacAdder(MorphItem mi) { // check map MacroAdder retval = macAdderMap.get(mi); if (retval != null) return retval; // set up macro adder IntHashSetMap macrosFromLex = new IntHashSetMap(); String[] newMacroNames = mi.getMacros(); List<MacroItem> macroItems = new ArrayList<MacroItem>(); for (int i = 0; i < newMacroNames.length; i++) { Set<FeatureStructure> featStrucs = (Set<FeatureStructure>) _macros.get(newMacroNames[i]); if (featStrucs != null) { for (Iterator<FeatureStructure> fsIt = featStrucs.iterator(); fsIt.hasNext(); ) { FeatureStructure fs = fsIt.next(); macrosFromLex.put(fs.getIndex(), fs); } } MacroItem macroItem = _macroItems.get(newMacroNames[i]); if (macroItem != null) { macroItems.add(macroItem); } else { // should be checked earlier too System.err.println( "Warning: macro " + newMacroNames[i] + " not found for word '" + mi.getWord() + "'"); } } retval = new MacroAdder(macrosFromLex, macroItems); // update map and return macAdderMap.put(mi, retval); return retval; }
// get signs with additional args for a known special token const, target pred and target rel private SignHash getSignsFromWord( Word w, String specialTokenConst, String targetPred, String targetRel) throws LexException { Collection<MorphItem> morphItems = (specialTokenConst == null) ? (Collection<MorphItem>) _words.get(w) : null; if (morphItems == null) { // check for special tokens if (specialTokenConst == null) { specialTokenConst = tokenizer.getSpecialTokenConstant(tokenizer.isSpecialToken(w.getForm())); targetPred = w.getForm(); } if (specialTokenConst != null) { Word key = Word.createSurfaceWord(w, specialTokenConst); morphItems = (Collection<MorphItem>) _words.get(key); } // otherwise throw lex exception if (morphItems == null) throw new LexException(w + " not in lexicon"); } SignHash result = new SignHash(); for (Iterator<MorphItem> MI = morphItems.iterator(); MI.hasNext(); ) { getWithMorphItem(w, MI.next(), targetPred, targetRel, result); } return result; }
// look up and apply coarts for w to each sign in result @SuppressWarnings("unchecked") private void applyCoarts(Word w, SignHash result) throws LexException { List<Sign> inputSigns = new ArrayList<Sign>(result.asSignSet()); result.clear(); List<Sign> outputSigns = new ArrayList<Sign>(inputSigns.size()); // for each surface attr, lookup coarts and apply to input signs, storing results in output // signs for (Iterator<Pair<String, String>> it = w.getSurfaceAttrValPairs(); it.hasNext(); ) { Pair<String, String> p = it.next(); String attr = (String) p.a; if (!_indexedCoartAttrs.contains(attr)) continue; String val = (String) p.b; Word coartWord = Word.createWord(attr, val); SignHash coartResult = getSignsFromWord(coartWord, null, null, null); for (Iterator<Sign> it2 = coartResult.iterator(); it2.hasNext(); ) { Sign coartSign = it2.next(); // apply to each input for (int j = 0; j < inputSigns.size(); j++) { Sign sign = inputSigns.get(j); grammar.rules.applyCoart(sign, coartSign, outputSigns); } } // switch output to input for next iteration inputSigns.clear(); inputSigns.addAll(outputSigns); outputSigns.clear(); } // add results back result.addAll(inputSigns); }
/** * The run method lives for the life of the JobTracker, and removes Jobs that are not still * running, but which finished a long time ago. */ public void run() { while (shouldRun) { try { Thread.sleep(RETIRE_JOB_CHECK_INTERVAL); } catch (InterruptedException ie) { } synchronized (jobs) { synchronized (jobInitQueue) { synchronized (jobsByArrival) { for (Iterator it = jobs.keySet().iterator(); it.hasNext(); ) { String jobid = (String) it.next(); JobInProgress job = (JobInProgress) jobs.get(jobid); if (job.getStatus().getRunState() != JobStatus.RUNNING && job.getStatus().getRunState() != JobStatus.PREP && (job.getFinishTime() + RETIRE_JOB_INTERVAL < System.currentTimeMillis())) { it.remove(); jobInitQueue.remove(job); jobsByArrival.remove(job); } } } } } } }
private void deleteJsonJobs(ApplicationInfo appInfo, List<CIJob> selectedJobs) throws PhrescoException { try { if (CollectionUtils.isEmpty(selectedJobs)) { return; } Gson gson = new Gson(); List<CIJob> jobs = getJobs(appInfo); if (CollectionUtils.isEmpty(jobs)) { return; } // all values Iterator<CIJob> iterator = jobs.iterator(); // deletable values for (CIJob selectedInfo : selectedJobs) { while (iterator.hasNext()) { CIJob itrCiJob = iterator.next(); if (itrCiJob.getName().equals(selectedInfo.getName())) { iterator.remove(); break; } } } writeJsonJobs(appInfo, jobs, CI_CREATE_NEW_JOBS); } catch (Exception e) { throw new PhrescoException(e); } }
/** Closes all open sockets and stops the internal server thread that processes messages. */ public void close() { ServerThread st = server; if (st != null) { st.close(); try { st.join(); } catch (InterruptedException ex) { logger.warn(ex); } server = null; for (Iterator it = sockets.values().iterator(); it.hasNext(); ) { SocketEntry entry = (SocketEntry) it.next(); try { synchronized (entry) { entry.getSocket().close(); } logger.debug("Socket to " + entry.getPeerAddress() + " closed"); } catch (IOException iox) { // ingore logger.debug(iox); } } if (socketCleaner != null) { socketCleaner.cancel(); } socketCleaner = null; } }
/** * Find a matching client SUBSCRIBE to the incoming notify. NOTIFY requests are matched to such * SUBSCRIBE requests if they contain the same "Call-ID", a "To" header "tag" parameter which * matches the "From" header "tag" parameter of the SUBSCRIBE, and the same "Event" header field. * Rules for comparisons of the "Event" headers are described in section 7.2.1. If a matching * NOTIFY request contains a "Subscription-State" of "active" or "pending", it creates a new * subscription and a new dialog (unless they have already been created by a matching response, as * described above). * * @param notifyMessage */ public SIPClientTransaction findSubscribeTransaction(SIPRequest notifyMessage) { synchronized (clientTransactions) { Iterator<SIPClientTransaction> it = clientTransactions.iterator(); String thisToTag = notifyMessage.getTo().getTag(); if (thisToTag == null) return null; Event eventHdr = (Event) notifyMessage.getHeader(EventHeader.NAME); if (eventHdr == null) return null; while (it.hasNext()) { SIPClientTransaction ct = (SIPClientTransaction) it.next(); // SIPRequest sipRequest = ct.getOriginalRequest(); String fromTag = ct.from.getTag(); Event hisEvent = ct.event; // Event header is mandatory but some slopply clients // dont include it. if (hisEvent == null) continue; if (ct.method.equals(Request.SUBSCRIBE) && fromTag.equalsIgnoreCase(thisToTag) && hisEvent != null && eventHdr.match(hisEvent) && notifyMessage.getCallId().getCallId().equalsIgnoreCase(ct.callId.getCallId())) return ct; } } return null; }
protected String getRallyAPIError(String responseXML) { String errorMsg = ""; try { org.jdom.input.SAXBuilder bSAX = new org.jdom.input.SAXBuilder(); org.jdom.Document doc = bSAX.build(new StringReader(responseXML)); Element root = doc.getRootElement(); XPath xpath = XPath.newInstance("//Errors"); List xlist = xpath.selectNodes(root); Iterator iter = xlist.iterator(); while (iter.hasNext()) { Element item = (Element) iter.next(); errorMsg = item.getChildText("OperationResultError"); } } catch (Exception e) { errorMsg = e.toString(); } return errorMsg; }
private V3LcapMessage makeTestVoteMessage(Collection voteBlocks) throws IOException { mPollMgr.setStateDir("key", tempDir); V3LcapMessage msg = new V3LcapMessage( "ArchivalID_2", "key", "Plug42", m_testBytes, m_testBytes, V3LcapMessage.MSG_VOTE, 987654321, m_testID, tempDir, theDaemon); // Set msg vote blocks. for (Iterator ix = voteBlocks.iterator(); ix.hasNext(); ) { msg.addVoteBlock((VoteBlock) ix.next()); } msg.setHashAlgorithm(LcapMessage.getDefaultHashAlgorithm()); msg.setArchivalId(m_archivalID); msg.setPluginVersion("PlugVer42"); return msg; }
private void writeContent(final int end, final List childElements, final int depth) throws IOException { // sets index to end for (final Iterator i = childElements.iterator(); i.hasNext(); ) { final Element element = (Element) i.next(); final int elementBegin = element.begin; if (elementBegin >= end) break; if (indentAllElements) { writeText(elementBegin, depth); writeElement(element, depth, end, false, false); } else { if (inlinable(element)) continue; // skip over elements that can be inlined. writeText(elementBegin, depth); final String elementName = element.getName(); if (elementName == HTMLElementName.PRE || elementName == HTMLElementName.TEXTAREA) { writeElement(element, depth, end, true, true); } else if (elementName == HTMLElementName.SCRIPT) { writeElement(element, depth, end, true, false); } else { writeElement( element, depth, end, false, !removeLineBreaks && containsOnlyInlineLevelChildElements(element)); } } } writeText(end, depth); }
public static void main(String[] args) { try { if (args.length == 1) { URL url = new URL(args[0]); System.out.println("Content-Type: " + url.openConnection().getContentType()); // Vector links = extractLinks(url); // for (int n = 0; n < links.size(); n++) { // System.out.println((String) links.elementAt(n)); // } Set links = extractLinksWithText(url).entrySet(); Iterator it = links.iterator(); while (it.hasNext()) { Map.Entry en = (Map.Entry) it.next(); String strLink = (String) en.getKey(); String strText = (String) en.getValue(); System.out.println(strLink + " \"" + strText + "\" "); } return; } else if (args.length == 2) { writeURLtoFile(new URL(args[0]), args[1]); return; } } catch (Exception e) { System.err.println("An error occured: "); e.printStackTrace(); // System.err.println(e.toString()); } System.err.println("Usage: java SaveURL <url> [<file>]"); System.err.println("Saves a URL to a file."); System.err.println("If no file is given, extracts hyperlinks on url to console."); }
public synchronized void messageReceived(int to, Message m) { DrainMsg mhMsg = (DrainMsg) m; log.debug( "incoming: localDest: " + to + " type:" + mhMsg.get_type() + " hops:" + (16 - mhMsg.get_ttl()) + " seqNo:" + mhMsg.get_seqNo() + " source:" + mhMsg.get_source() + " finalDest:" + mhMsg.get_dest()); // lets assume that the network cannot buffer more than 25 drain msgs from a single source at a // time (should be more than reasonable) if (seqNos.containsKey(new Integer(mhMsg.get_source()))) { int oldSeqNo = ((Integer) seqNos.get(new Integer(mhMsg.get_source()))).intValue(); int upperBound = mhMsg.get_seqNo() + 25; int wrappedUpperBound = 25 - (255 - mhMsg.get_seqNo()); if ((oldSeqNo >= mhMsg.get_seqNo() && oldSeqNo < upperBound) || (oldSeqNo >= 0 && oldSeqNo < wrappedUpperBound)) { log.debug( "Dropping message from " + mhMsg.get_source() + " with duplicate seqNo: " + mhMsg.get_seqNo()); return; } } seqNos.put(new Integer(mhMsg.get_source()), new Integer(mhMsg.get_seqNo())); if (to != spAddr && to != MoteIF.TOS_BCAST_ADDR && to != TOS_UART_ADDR) { log.debug("Dropping message not for me."); return; } HashSet promiscuousSet = (HashSet) idTable.get(new Integer(BCAST_ID)); HashSet listenerSet = (HashSet) idTable.get(new Integer(mhMsg.get_type())); if (listenerSet != null && promiscuousSet != null) { listenerSet.addAll(promiscuousSet); } else if (listenerSet == null && promiscuousSet != null) { listenerSet = promiscuousSet; } if (listenerSet == null) { log.debug("No Listener for type: " + mhMsg.get_type()); return; } for (Iterator it = listenerSet.iterator(); it.hasNext(); ) { MessageListener ml = (MessageListener) it.next(); ml.messageReceived(to, mhMsg); } }
// Prepare arguments for a javascript call. public static Collection prepare_call_args(Collection args) throws Exception { Object o; List<Object> new_args = new ArrayList<Object>(); Iterator iter = args.iterator(); // Transform elements of args so they can be joined to create a string representation // of a function call. while (iter.hasNext()) { o = iter.next(); if (o == null) { o = "null"; } else if (o instanceof String) { String s = (String) o; o = "'" + s.replace("'", "\\'").replace("\n", "+").replace("\r", "") + "'"; } // else if (o instanceof String) { String s = (String) o; o = "'" + URLEncoder.encode((String) // o, "ISO-8859-1") + "'"; } else if (o instanceof Number) { } else { throw new Exception("Invalid argument: '" + o + "'."); } new_args.add(o); } return new_args; }
@Override public void notifyResult(AuctionItem item) { if (registeredUsers.containsKey(item.getCreator_id())) { RMIClientIntf creator = registeredUsers.get(item.getCreator_id()); try { creator.callBack("Your Auction has produced the following results :\n "); creator.callBack(item.getResult()); } catch (RemoteException e) { System.out.println("Creator no longer online\n"); } } else { System.out.println("Creator id does not exist\n"); } // Normally an auction with no creator registered should not exist but since this is a // simplified implementation // We allow bids on auctions with no creator (usually the initialised ones) for testing // purposes. if (item.numberOfBids() != 0) { System.out.println("Notifying bidders"); Iterator<Bid> it = item.getBidders(); while (it.hasNext()) { Bid bidder = it.next(); if (registeredUsers.containsKey(bidder.getUserId())) { RMIClientIntf client = registeredUsers.get(bidder.getUserId()); try { client.callBack(item.getResult()); } catch (RemoteException e) { System.out.println("Bidder with id " + bidder.getUserId() + " no longer online\n"); } } else { System.out.println("User id does not exist\n"); } } } }
public Resource getResource(String id) { for (Iterator i = getResourceList().iterator(); i.hasNext(); ) { ResourceImpl resource = (ResourceImpl) i.next(); if (resource.getId().equals(id)) return resource; } return null; }
public AuthenticatorWindow() { SESecurityManager.addPasswordListener(this); // System.out.println( "AuthenticatorWindow"); Map cache = COConfigurationManager.getMapParameter(CONFIG_PARAM, new HashMap()); try { Iterator it = cache.entrySet().iterator(); while (it.hasNext()) { Map.Entry entry = (Map.Entry) it.next(); String key = (String) entry.getKey(); Map value = (Map) entry.getValue(); String user = new String((byte[]) value.get("user"), "UTF-8"); char[] pw = new String((byte[]) value.get("pw"), "UTF-8").toCharArray(); auth_cache.put(key, new authCache(key, new PasswordAuthentication(user, pw), true)); } } catch (Throwable e) { COConfigurationManager.setParameter(CONFIG_PARAM, new HashMap()); Debug.printStackTrace(e); } }
public ListIterator<ICFLibAnyObj> enumerateDetails(MssCFGenContext genContext) { final String S_ProcName = "CFBamMssCFIterateNumberTypeRef.enumerateDetails() "; if (genContext == null) { throw CFLib.getDefaultExceptionFactory() .newNullArgumentException(getClass(), S_ProcName, 1, "genContext"); } ICFLibAnyObj genDef = genContext.getGenDef(); if (genDef == null) { throw CFLib.getDefaultExceptionFactory() .newNullArgumentException(getClass(), S_ProcName, 1, "genContext.getGenDef()"); } List<ICFLibAnyObj> list = new LinkedList<ICFLibAnyObj>(); if (genDef instanceof ICFBamNumberTypeObj) { Iterator<ICFBamTableColObj> elements = ((ICFBamNumberTypeObj) genDef).getOptionalChildrenRef().iterator(); while (elements.hasNext()) { list.add(elements.next()); } } else { throw CFLib.getDefaultExceptionFactory() .newUnsupportedClassException( getClass(), S_ProcName, "genContext.getGenDef()", genDef, "ICFBamNumberTypeObj"); } return (list.listIterator()); }
public ListIterator<ICFLibAnyObj> enumerateDetails(MssCFGenContext genContext) { final String S_ProcName = "CFInternetMssCFIterateTSecGroupIncByGroup.enumerateDetails() "; if (genContext == null) { throw CFLib.getDefaultExceptionFactory() .newNullArgumentException(getClass(), S_ProcName, 1, "genContext"); } ICFLibAnyObj genDef = genContext.getGenDef(); if (genDef == null) { throw CFLib.getDefaultExceptionFactory() .newNullArgumentException(getClass(), S_ProcName, 1, "genContext.getGenDef()"); } List<ICFLibAnyObj> list = new LinkedList<ICFLibAnyObj>(); if (genDef instanceof ICFInternetTSecGroupObj) { Iterator<ICFSecurityTSecGroupIncludeObj> elements = ((ICFInternetTSecGroupObj) genDef).getRequiredChildrenIncByGroup().iterator(); while (elements.hasNext()) { list.add(elements.next()); } } else { throw CFLib.getDefaultExceptionFactory() .newUnsupportedClassException( getClass(), S_ProcName, "genContext.getGenDef()", genDef, "ICFInternetTSecGroupObj"); } return (list.listIterator()); }
public ListIterator<ICFLibAnyObj> enumerateDetails(MssCFGenContext genContext) { final String S_ProcName = "CFAsteriskMssCFIterateHostNodeConfFile.enumerateDetails() "; if (genContext == null) { throw CFLib.getDefaultExceptionFactory() .newNullArgumentException(getClass(), S_ProcName, 1, "genContext"); } ICFLibAnyObj genDef = genContext.getGenDef(); if (genDef == null) { throw CFLib.getDefaultExceptionFactory() .newNullArgumentException(getClass(), S_ProcName, 1, "genContext.getGenDef()"); } List<ICFLibAnyObj> list = new LinkedList<ICFLibAnyObj>(); if (genDef instanceof ICFAsteriskHostNodeObj) { Iterator<ICFAsteriskConfigurationFileObj> elements = ((ICFAsteriskHostNodeObj) genDef).getOptionalComponentsConfFile().iterator(); while (elements.hasNext()) { list.add(elements.next()); } } else { throw CFLib.getDefaultExceptionFactory() .newUnsupportedClassException( getClass(), S_ProcName, "genContext.getGenDef()", genDef, "ICFAsteriskHostNodeObj"); } return (list.listIterator()); }
public void display(Graphics2D g, AffineTransform a_trans) { Iterator i = createIterator(); while (i.hasNext()) { GlyphObject object = (GlyphObject) i.next(); object.display(g, a_trans); } // while }