public Set /*<PCNode>*/ matchClass(Pattern simple_name_pattern) { Set this_class = matchSpecific(simple_name_pattern); Set this_class_names = new HashSet(); Iterator tsi = this_class.iterator(); while (tsi.hasNext()) { PCNode pc = (PCNode) tsi.next(); this_class_names.add(pc.name); } Iterator pi = parents.iterator(); while (pi.hasNext()) { PCNode parent = (PCNode) pi.next(); // System.out.println("Parent: "+parent); Set parent_class = parent.matchClass(simple_name_pattern); Iterator osi = parent_class.iterator(); while (osi.hasNext()) { PCNode pc = (PCNode) osi.next(); if (!this_class_names.contains(pc.name)) { this_class.add(pc); } } } if (abc.main.Debug.v().namePatternProcessing) System.out.println(this + ".matchClass " + simple_name_pattern.pattern() + ": " + this_class); return this_class; }
@Override protected EBNF clone() { /* * protected Map<NonTerminal, List<? extends EBNFBranch>> nonTerminals; * protected NonTerminal startSymbol; */ Map<NonTerminal, List<? extends EBNFBranch>> m = new HashMap<NonTerminal, List<? extends EBNFBranch>>(); Iterator<NonTerminal> nts = nonTerminals.keySet().iterator(); while (nts.hasNext()) { NonTerminal nt = nts.next().clone(); // travel through all registered non terminals List<EBNFBranch> l = new ArrayList<EBNFBranch>(); Iterator<? extends EBNFBranch> j = nonTerminals.get(nt).iterator(); while (j.hasNext()) { l.add(j.next().clone()); } m.put(nt, l); } return new EBNF(startSymbol.clone(), m); }
/** * 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(); } } } } }
protected void checkRoot(SimulatedArchivalUnit sau) { log.debug("checkRoot()"); CachedUrlSet set = sau.getAuCachedUrlSet(); Iterator setIt = set.flatSetIterator(); ArrayList childL = new ArrayList(1); CachedUrlSet cus = null; while (setIt.hasNext()) { cus = (CachedUrlSet) setIt.next(); childL.add(cus.getUrl()); } String urlRoot = sau.getUrlRoot(); String[] expectedA = new String[1]; expectedA[0] = urlRoot; assertIsomorphic(expectedA, childL); setIt = cus.flatSetIterator(); childL = new ArrayList(7); while (setIt.hasNext()) { childL.add(((CachedUrlSetNode) setIt.next()).getUrl()); } expectedA = new String[] { urlRoot + "/001file.html", urlRoot + "/001file.txt", urlRoot + "/002file.html", urlRoot + "/002file.txt", urlRoot + "/branch1", urlRoot + "/branch2", urlRoot + "/index.html" }; assertIsomorphic(expectedA, childL); }
public String getDocString() { StringBuffer buf = new StringBuffer(); buf.append("Example data: "); for (Iterator<String> it = sampleStrs.iterator(); it.hasNext(); ) { String tokStr = it.next(); buf.append("'" + tokStr + "'"); if (it.hasNext()) { buf.append(", "); } } return buf.toString(); }
public boolean down() { for (Iterator<DarkChannel> i = chls.iterator(); i.hasNext(); ) { DarkChannel ch = i.next(); if (ch.chan == sel) { if (i.hasNext()) { select(i.next().chan); return (true); } else { return (false); } } } return (false); }
private void printAnswersInlineXML(List<IN> doc, PrintWriter out) { final String background = flags.backgroundSymbol; String prevTag = background; for (Iterator<IN> wordIter = doc.iterator(); wordIter.hasNext(); ) { IN wi = wordIter.next(); String tag = StringUtils.getNotNullString(wi.get(AnswerAnnotation.class)); String before = StringUtils.getNotNullString(wi.get(BeforeAnnotation.class)); String current = StringUtils.getNotNullString(wi.get(CoreAnnotations.OriginalTextAnnotation.class)); if (!tag.equals(prevTag)) { if (!prevTag.equals(background) && !tag.equals(background)) { out.print("</"); out.print(prevTag); out.print('>'); out.print(before); out.print('<'); out.print(tag); out.print('>'); } else if (!prevTag.equals(background)) { out.print("</"); out.print(prevTag); out.print('>'); out.print(before); } else if (!tag.equals(background)) { out.print(before); out.print('<'); out.print(tag); out.print('>'); } } else { out.print(before); } out.print(current); String afterWS = StringUtils.getNotNullString(wi.get(AfterAnnotation.class)); if (!tag.equals(background) && !wordIter.hasNext()) { out.print("</"); out.print(tag); out.print('>'); prevTag = background; } else { prevTag = tag; } out.print(afterWS); } }
private void printAnswersTokenizedInlineXML(List<IN> doc, PrintWriter out) { final String background = flags.backgroundSymbol; String prevTag = background; boolean first = true; for (Iterator<IN> wordIter = doc.iterator(); wordIter.hasNext(); ) { IN wi = wordIter.next(); String tag = StringUtils.getNotNullString(wi.get(AnswerAnnotation.class)); if (!tag.equals(prevTag)) { if (!prevTag.equals(background) && !tag.equals(background)) { out.print("</"); out.print(prevTag); out.print("> <"); out.print(tag); out.print('>'); } else if (!prevTag.equals(background)) { out.print("</"); out.print(prevTag); out.print("> "); } else if (!tag.equals(background)) { if (!first) { out.print(' '); } out.print('<'); out.print(tag); out.print('>'); } } else { if (!first) { out.print(' '); } } first = false; out.print(StringUtils.getNotNullString(wi.get(CoreAnnotations.OriginalTextAnnotation.class))); if (!wordIter.hasNext()) { if (!tag.equals(background)) { out.print("</"); out.print(tag); out.print('>'); } out.print(' '); prevTag = background; } else { prevTag = tag; } } out.println(); }
public boolean hasNext() { if (nextProc != null) return true; else { if (!names.hasNext()) return false; else { String processorName = names.next(); Processor processor; try { try { processor = (Processor) (processorCL.loadClass(processorName).newInstance()); } catch (ClassNotFoundException cnfe) { log.error("proc.processor.not.found", processorName); return false; } catch (ClassCastException cce) { log.error("proc.processor.wrong.type", processorName); return false; } catch (Exception e) { log.error("proc.processor.cant.instantiate", processorName); return false; } } catch (ClientCodeException e) { throw e; } catch (Throwable t) { throw new AnnotationProcessingError(t); } nextProc = processor; return true; } } }
protected void checkLeaf(SimulatedArchivalUnit sau) { log.debug("checkLeaf()"); String parent = sau.getUrlRoot() + "/branch1"; CachedUrlSetSpec spec = new RangeCachedUrlSetSpec(parent); CachedUrlSet set = sau.makeCachedUrlSet(spec); Iterator setIt = set.contentHashIterator(); ArrayList childL = new ArrayList(16); while (setIt.hasNext()) { childL.add(((CachedUrlSetNode) setIt.next()).getUrl()); } String[] expectedA = new String[] { parent, parent + "/001file.html", parent + "/001file.txt", parent + "/002file.html", parent + "/002file.txt", parent + "/branch1", parent + "/branch1/001file.html", parent + "/branch1/001file.txt", parent + "/branch1/002file.html", parent + "/branch1/002file.txt", parent + "/branch1/index.html", parent + "/branch2", parent + "/branch2/001file.html", parent + "/branch2/001file.txt", parent + "/branch2/002file.html", parent + "/branch2/002file.txt", parent + "/branch2/index.html", parent + "/index.html", }; assertIsomorphic(expectedA, childL); }
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 void rm(Channel chan) { synchronized (chls) { for (Iterator<DarkChannel> i = chls.iterator(); i.hasNext(); ) { DarkChannel c = i.next(); if (c.chan == chan) i.remove(); } } }
/** * Run all remaining processors on the procStateList that have not already run this round with * an empty set of annotations. */ public void runContributingProcs(RoundEnvironment re) { if (!onProcInterator) { Set<TypeElement> emptyTypeElements = Collections.emptySet(); while (innerIter.hasNext()) { ProcessorState ps = innerIter.next(); if (ps.contributed) callProcessor(ps.processor, emptyTypeElements, re); } } }
public Map<String, String> getFormatSpecifierDescriptions() { Map<String, String> m = new LinkedHashMap<String, String>(); Iterator<String> keys = scoreBoardValues.keySet().iterator(); while (keys.hasNext()) { String k = keys.next(); m.put(k, scoreBoardValues.get(k).getDescription()); } return m; }
/** * Finds the original field name(s), appending the first one to the out line, and any additional * alternatives to the extra lines. */ private void originalFieldName( String className, String obfuscatedFieldName, String type, StringBuffer outLine, List extraOutLines) { int extraIndent = -1; // Class name -> obfuscated field names. Map fieldMap = (Map) classFieldMap.get(className); if (fieldMap != null) { // Obfuscated field names -> fields. Set fieldSet = (Set) fieldMap.get(obfuscatedFieldName); if (fieldSet != null) { // Find all matching fields. Iterator fieldInfoIterator = fieldSet.iterator(); while (fieldInfoIterator.hasNext()) { FieldInfo fieldInfo = (FieldInfo) fieldInfoIterator.next(); if (fieldInfo.matches(type)) { // Is this the first matching field? if (extraIndent < 0) { extraIndent = outLine.length(); // Append the first original name. if (verbose) { outLine.append(fieldInfo.type).append(' '); } outLine.append(fieldInfo.originalName); } else { // Create an additional line with the proper // indentation. StringBuffer extraBuffer = new StringBuffer(); for (int counter = 0; counter < extraIndent; counter++) { extraBuffer.append(' '); } // Append the alternative name. if (verbose) { extraBuffer.append(fieldInfo.type).append(' '); } extraBuffer.append(fieldInfo.originalName); // Store the additional line. extraOutLines.add(extraBuffer); } } } } } // Just append the obfuscated name if we haven't found any matching // fields. if (extraIndent < 0) { outLine.append(obfuscatedFieldName); } }
public boolean hasNext() { try { return iterator.hasNext(); } catch (Throwable t) { if ("ServiceConfigurationError".equals(t.getClass().getSimpleName())) { log.error("proc.bad.config.file", t.getLocalizedMessage()); } throw new Abort(t); } }
List<String> auUrls(ArchivalUnit au) { List<String> res = new ArrayList<String>(); for (Iterator iter = au.getAuCachedUrlSet().contentHashIterator(); iter.hasNext(); ) { CachedUrlSetNode cusn = (CachedUrlSetNode) iter.next(); if (cusn.hasContent()) { res.add(cusn.getUrl()); } } return res; }
public void draw() { if (_pointLists.size() <= 0) return; pushStyle(); noFill(); PVector vec; PVector firstVec; PVector screenPos = new PVector(); int colorIndex = 0; // draw the hand lists Iterator<Map.Entry> itrList = _pointLists.entrySet().iterator(); while (itrList.hasNext()) { strokeWeight(2); stroke(_colorList[colorIndex % (_colorList.length - 1)]); ArrayList curList = (ArrayList) itrList.next().getValue(); // draw line firstVec = null; Iterator<PVector> itr = curList.iterator(); beginShape(); while (itr.hasNext()) { vec = itr.next(); if (firstVec == null) firstVec = vec; // calc the screen pos context.convertRealWorldToProjective(vec, screenPos); vertex(screenPos.x, screenPos.y); } endShape(); // draw current pos of the hand if (firstVec != null) { strokeWeight(8); context.convertRealWorldToProjective(firstVec, screenPos); point(screenPos.x, screenPos.y); } colorIndex++; } popStyle(); }
public ShowComp() throws InterruptedException, IOException { super("CONNECTED COMPUTERS"); int x = 0, d = 20; mb = new JMenuBar(); File = new JMenu("File"); mb.add(File); exit = new JMenuItem("Exit"); exit.addActionListener(this); File.add(exit); ta = new JTextArea(); ta.setBounds(20, 30, 315, 470); ta.setEditable(false); add(ta); setJMenuBar(mb); sel = new JLabel("The connected computers are.."); sel.setBounds(15, 5, 300, 30); add(sel); b1 = new JButton("<< BACK"); b1.setBounds(140, 510, 100, 30); b1.setToolTipText("Back to main page"); b1.addActionListener(this); add(b1); setLayout(null); while (x < 360) { x = x + d; setBounds(675, 50, x, 600); this.show(); } // setVisible(true); String s = "192.168.0.", temp = null; Printer printer = new Printer(); printer.start(); Connector connector = new Connector(printer); connector.start(); LinkedList targets = new LinkedList(); for (int i = 1; i <= 255; i++) { temp = s + Integer.toString(i); Target t = new Target(temp); targets.add(t); connector.add(t); } Thread.sleep(2000); connector.shutdown(); connector.join(); for (Iterator i = targets.iterator(); i.hasNext(); ) { Target t = (Target) i.next(); if (!t.shown) t.show(); } setDefaultCloseOperation(DISPOSE_ON_CLOSE); }
@Override protected void run() { Iterator<ChatRoomProviderWrapper> chatRoomProviders = mucService.getChatRoomProviders(); while (chatRoomProviders.hasNext()) { ChatRoomProviderWrapper provider = chatRoomProviders.next(); providerAdded(provider, true); } if (getStatus() != QUERY_CANCELED) setStatus(QUERY_COMPLETED); }
/** * Returns the index of the contact in the contact results list. * * @param contact the contact. * @return the index of the contact in the contact results list. */ public synchronized int indexOf(ChatRoomSourceContact contact) { Iterator<ChatRoomSourceContact> it = contactResults.iterator(); int i = 0; while (it.hasNext()) { if (contact.equals(it.next())) { return i; } i++; } return -1; }
String filter(String[] args, boolean include) { verifyCommand(args, String.format(_filterHelp, args[0]), null, 3, 3); Collection<String> list = new ArrayList<String>(Processor.split(args[1])); Pattern pattern = Pattern.compile(args[2]); for (Iterator<String> i = list.iterator(); i.hasNext(); ) { if (pattern.matcher(i.next()).matches() == include) i.remove(); } return Processor.join(list); }
public List getUserList() { List<Map> list = new ArrayList<Map>(); try { /* String apiUrl=rallyApiHost+"/user?query="+ "((TeamMemberships%20%3D%20https%3A%2F%2Frally1.rallydev.com%2Fslm%2Fwebservice%2F1.34%2Fproject%2F6169133135)%20or%20"+ "(TeamMemberships%20%3D%20https%3A%2F%2Frally1.rallydev.com%2Fslm%2Fwebservice%2F1.34%2Fproject%2F6083311244))"+ "&fetch=true&order=Name&start=1&pagesize=100"; */ String apiUrl = rallyApiHost + "/user?query=(Disabled%20=%20false)" + "&fetch=true&order=Name&start=1&pagesize=100"; log.info("apiUrl=" + apiUrl); String responseXML = getRallyXML(apiUrl); 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("//Object"); List xlist = xpath.selectNodes(root); Iterator iter = xlist.iterator(); while (iter.hasNext()) { Map map = new HashMap(); Element item = (Element) iter.next(); String userRef = item.getAttribute("ref").getValue(); String userName = item.getAttribute("refObjectName").getValue(); String userObjectId = item.getChildText("ObjectID"); map.put("userRef", userRef); map.put("userObjectId", userObjectId); map.put("userName", userName); list.add(map); } } catch (Exception ex) { log.error("", ex); } return list; }
@Override public String toString() { Set<NonTerminal> nts = getNonTerminals(); Iterator<NonTerminal> i = nts.iterator(); String s = ""; String start = getNonTerminalDef(getStartSymbol()) + "\n"; while (i.hasNext()) { s += getNonTerminalDef(i.next()) + "\n"; } return start + s.replace(start, ""); }
public ProcessorState next() { if (!onProcInterator) { if (innerIter.hasNext()) return innerIter.next(); else onProcInterator = true; } if (psi.processorIterator.hasNext()) { ProcessorState ps = new ProcessorState( psi.processorIterator.next(), log, source, JavacProcessingEnvironment.this); psi.procStateList.add(ps); return ps; } else throw new NoSuchElementException(); }
public Set /*<PCNode>*/ matchSpecific(Pattern simple_name_pattern) { Set matches = new HashSet(); Iterator ii = inners.keySet().iterator(); while (ii.hasNext()) { String inner = (String) ii.next(); // System.out.print("Matching "+inner+" against "+simple_name_pattern.pattern()+": "); if (simple_name_pattern.matcher(inner).matches()) { // System.out.println("true"); matches.add(inners.get(inner)); } else { // System.out.println("false"); } } return matches; }
/** Method to dump debugging information */ private void dumpAll(Map map, int lvmid) { if (DEBUG) { Set keys = map.keySet(); System.err.println("Dump for " + lvmid); int j = 0; for (Iterator i = keys.iterator(); i.hasNext(); j++) { Monitor monitor = (Monitor) map.get(i.next()); System.err.println(j + "\t" + monitor.getName() + "=" + monitor.getValue()); } System.err.println("nextEntry = " + nextEntry + " pollForEntry = " + pollForEntry); System.err.println("Buffer info:"); System.err.println("buffer = " + buffer); } }
protected void setupScoreBoardValues() { new ScoreBoardValue( "%sbto", "ScoreBoard Timeout Owner", getScoreBoard(), ScoreBoard.EVENT_TIMEOUT_OWNER) { public String getValue() { return getScoreBoard().getTimeoutOwner(); } }; new ScoreBoardValue( "%sbip", "ScoreBoard Is In Period", getScoreBoard(), ScoreBoard.EVENT_IN_PERIOD) { public String getValue() { return String.valueOf(getScoreBoard().isInPeriod()); } }; new ScoreBoardValue( "%sbio", "ScoreBoard Is In Overtime", getScoreBoard(), ScoreBoard.EVENT_IN_OVERTIME) { public String getValue() { return String.valueOf(getScoreBoard().isInOvertime()); } }; new ScoreBoardValue( "%sbos", "ScoreBoard Is Score Official", getScoreBoard(), ScoreBoard.EVENT_OFFICIAL_SCORE) { public String getValue() { return String.valueOf(getScoreBoard().isOfficialScore()); } }; setupTeamValues("1", Team.ID_1); setupTeamValues("2", Team.ID_2); setupClockValues("p", Clock.ID_PERIOD); setupClockValues("j", Clock.ID_JAM); setupClockValues("l", Clock.ID_LINEUP); setupClockValues("t", Clock.ID_TIMEOUT); setupClockValues("i", Clock.ID_INTERMISSION); StringBuffer patternBuffer = new StringBuffer(); Iterator<String> patterns = scoreBoardValues.keySet().iterator(); while (patterns.hasNext()) patternBuffer.append(patterns.next() + "|"); String specifiersRegex = patternBuffer.toString().replaceAll("[|]$", ""); formatPattern = Pattern.compile(specifiersRegex); eventPattern = Pattern.compile("^\\s*(" + specifiersRegex + ")"); conditionPattern = Pattern.compile("(" + specifiersRegex + ")(?:(" + comparatorRegex + ")(\\S+))?"); }
public List getProjectList() { List<Map> list = new ArrayList<Map>(); try { String apiUrl = rallyApiHost + "/project?" + "fetch=true&order=Name&start=1&pagesize=200"; log.info("rallyApiUrl:" + apiUrl); String responseXML = getRallyXML(apiUrl); 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("//Object"); List xlist = xpath.selectNodes(root); Iterator iter = xlist.iterator(); while (iter.hasNext()) { Map map = new HashMap(); Element item = (Element) iter.next(); String objId = item.getChildText("ObjectID"); String name = item.getChildText("Name"); String state = item.getChildText("State"); map.put("objId", objId); map.put("name", name); map.put("state", state); list.add(map); } } catch (Exception ex) { log.error("ERROR: ", ex); } return list; }
public JilterStatus eoh() { logger.debug("jilter eoh()"); // includeBCC is false if RCPT TO does not contain at least one field in TO, FROM and CC // this is a safety check as sometimes, RCPT TO is something differently entirely // and does not contain the actual recipients in the email MilterServerService milterService = Config.getConfig().getMilterServerService(); if (milterService.getIncludeBCC() && includeBCC) { logger.debug("including BCC addresses"); // check to see if address is flagged to ignore if (rcpts.size() > 0) { Iterator<String> i = rcpts.iterator(); while (i.hasNext()) { String rcpt = i.next(); if (shouldIgnoreBCCAddress(rcpt)) { logger.debug("ignore include bcc address {address='" + rcpt + "'}"); i.remove(); } } } if (rcpts.size() > 0) { try { for (int j = 0; j < rcpts.size(); j++) { if (j == 0) { bos.write("bcc: ".getBytes()); } else { bos.write(",".getBytes()); } bos.write(rcpts.get(j).getBytes()); } bos.write("\n".getBytes()); } catch (IOException io) { logger.error("jilter failed to write end of header data", io); } } } return JilterStatus.SMFIS_CONTINUE; }