tg = sigma.element(); wl = worklists.get(tg); if (wl.isEmpty()) {
void add(WaitingOnSocketPacket wosp) { if (list.size() > DNS_MAXIMUM_WAITING) { Log.d(TAG, "Dropping socket due to space constraints: " + list.element().socket); list.element().socket.close(); list.remove(); } while (!list.isEmpty() && list.element().ageSeconds() > DNS_TIMEOUT_SEC) { Log.d(TAG, "Timeout on socket " + list.element().socket); list.element().socket.close(); list.remove(); } list.add(wosp); }
void add(WaitingOnSocketPacket wosp) { if (list.size() > 1024) { Log.d(TAG, "Dropping socket due to space constraints: " + list.element().socket); list.element().socket.close(); list.remove(); } while (!list.isEmpty() && list.element().ageSeconds() > 10) { Log.d(TAG, "Timeout on socket " + list.element().socket); list.element().socket.close(); list.remove(); } list.add(wosp); }
void add(TcpProvider.WaitingOnSocketPacket wosp) { try { if (list.size() > 1024) { Log.d(TAG, "Dropping socket due to space constraints: " + list.element().socket); list.element().socket.close(); list.remove(); } while (!list.isEmpty() && list.element().ageSeconds() > 10) { Log.d(TAG, "Timeout on socket " + list.element().socket); list.element().socket.close(); list.remove(); } list.add(wosp); } catch (Exception ignored) { } }
public synchronized T element() { return list.element(); }
@Override public String getFocusLine() { return lineQueue.element(); }
@Override public T element() { lock.lock(); try { return super.element(); } finally { lock.unlock(); } }
LinkedList<ArrayList<String>> partials = new LinkedList<ArrayList<String>>(); ArrayList<String> list = new ArrayList<String>(); list.add("Test"); // Create a shallow copy and add a reference to that into the linked list partials.add(new ArrayList<String>(list)); list.add("Another element"); // Prints 1, because the lists are distinct System.out.println(partials.element().size());
@Override public T element() { return Pure4J.returnImmutable(((LinkedList<T>)wrapped).element()); }
@Override public Object element() { if (!_directAccess && isDelayLoad()) { load(); } return super.element(); }
@Override public Object element() { if (!_directAccess && isDelayLoad()) { load(); } return super.element(); }
@Override public Object element() { if (!_directAccess && isDelayLoad()) { load(); } return super.element(); }
@Override public Object element() { if (!_directAccess && isDelayLoad()) { load(); } return super.element(); }
@Override public Item next() throws Exception { while (input.hasNext()) { int _type = input.next(); switch (_type) { case XMLStreamReader.START_ELEMENT : if (startName != null) { hierarchy.push(startName); startName = input.getLocalName(); return returnNest(hierarchy.element()); } startName = input.getLocalName(); break; case XMLStreamReader.CHARACTERS : value = input.getText(); break; case XMLStreamReader.END_ELEMENT : String _name = input.getLocalName(); if (startName != null && startName.equals(_name)) { startName = null; return returnProperty(_name, value); } if (_name.equals(hierarchy.element())) { hierarchy.pop(); return returnUnnest(); } break; } } return null; }
@Override public Item next() throws Exception { while (input.hasNext()) { int _type = input.next(); switch (_type) { case XMLStreamReader.START_ELEMENT : if (startName != null) { hierarchy.push(startName); startName = input.getLocalName(); return returnNest(hierarchy.element()); } startName = input.getLocalName(); break; case XMLStreamReader.CHARACTERS : value = input.getText(); break; case XMLStreamReader.END_ELEMENT : String _name = input.getLocalName(); if (startName != null && startName.equals(_name)) { startName = null; return returnProperty(_name, value); } if (_name.equals(hierarchy.element())) { hierarchy.pop(); return returnUnnest(); } break; } } return null; }
@Override public Item next() throws Exception { while (input.hasNext()) { int _type = input.next(); switch (_type) { case XMLStreamReader.START_ELEMENT : if (startName != null) { hierarchy.push(startName); startName = input.getLocalName(); return returnNest(hierarchy.element()); } startName = input.getLocalName(); break; case XMLStreamReader.CHARACTERS : value = input.getText(); break; case XMLStreamReader.END_ELEMENT : String _name = input.getLocalName(); if (startName != null && startName.equals(_name)) { startName = null; return returnProperty(_name, value); } if (_name.equals(hierarchy.element())) { hierarchy.pop(); return returnUnnest(); } break; } } return null; }
"pets.getFirst(): " + pets.getFirst()); System.out.println( "pets.element(): " + pets.element());
@Override public Item next() throws Exception { int _eventType; while ((_eventType = nextEvent()) != XmlPullParser.END_DOCUMENT) { switch (_eventType) { case XmlPullParser.START_TAG : if (startName != null) { hierarchy.push(startName); startName = input.getName(); return returnNest(hierarchy.element()); } startName = input.getName(); break; case XmlPullParser.TEXT : value = input.getText(); break; case XmlPullParser.END_TAG : String _name = input.getName(); if (startName != null && startName.equals(_name)) { startName = null; return returnProperty(_name, value); } if (_name.equals(hierarchy.element())) { hierarchy.pop(); return returnUnnest(); } break; } } return null; }
@Override protected File advance() throws NoSuchElementException { final FileIterator current = stack.element(); try { final File file = current.advance(); if (file == null) { stack.pop(); return advance(); } if (file.isDirectory()) { stack.push(new FileIterator(file)); } return file; } catch (final NoSuchElementException e) { stack.pop(); return advance(); } } }
@Override public Item next() throws Exception { int _eventType; while ((_eventType = nextEvent()) != XmlPullParser.END_DOCUMENT) { switch (_eventType) { case XmlPullParser.START_TAG : if (startName != null) { hierarchy.push(startName); startName = input.getName(); return returnNest(hierarchy.element()); } startName = input.getName(); break; case XmlPullParser.TEXT : value = input.getText(); break; case XmlPullParser.END_TAG : String _name = input.getName(); if (startName != null && startName.equals(_name)) { startName = null; return returnProperty(_name, value); } if (_name.equals(hierarchy.element())) { hierarchy.pop(); return returnUnnest(); } break; } } return null; }