public static void create(Dia dia) { Connector.connect(); Connector.update("INSERT INTO dia (data)" + " VALUES ('" + dia.getData() + "'); "); Connector.close(); }
public static void update(Dia dia) { Connector.connect(); Connector.update( "UPDATE dia SET iddia = " + dia.getIdDia() + ", data ='" + dia.getData() + "';"); Connector.close(); }
@Test public void testTwoBinary() throws ConnectorException { Passthrough p1 = new Passthrough(2); QueueSink qs1 = new QueueSink(2); Connector.connect(p1, qs1, 0, 1); Connector.connect(p1, qs1, 1, 0); Pushable push1 = p1.getPushableInput(0); Pushable push2 = p1.getPushableInput(1); for (int k = 0; k < 2; k++) { Queue<Object> queue1 = qs1.getQueue(0); Queue<Object> queue2 = qs1.getQueue(1); for (int i = 0; i < 5; i++) { push1.push(i); push2.push(2 * i + 1); Utilities.queueContains(i, queue2); Utilities.queueContains(2 * i + 1, queue1); } p1.reset(); qs1.reset(); } }
public static Dia read(Date data) { Dia dia = null; Connector.connect(); ResultSet resultSet = Connector.query("SELECT * FROM dia WHERE data ='" + data + "';"); try { if (resultSet.next()) { dia = new Dia(); dia.setIdDia(resultSet.getLong("iddia")); dia.setData(resultSet.getDate("data")); } } catch (Exception e) { System.out.println(e.getMessage()); } Connector.close(); return dia; }
@Test public void testThreeUnary1() throws ConnectorException { Passthrough p1 = new Passthrough(1); QueueSink qs1 = new QueueSink(1); Connector.connect(p1, qs1); Pushable push1 = p1.getPushableInput(0); for (int k = 0; k < 2; k++) { Queue<Object> queue = qs1.getQueue(0); for (int i = 0; i < 5; i++) { push1.push(i); Utilities.queueContains(i, queue); } p1.reset(); qs1.reset(); } }
public static ArrayList<Dia> getAll() { ArrayList<Dia> lista = new ArrayList<Dia>(); Dia dia = null; Connector.connect(); ResultSet resultSet = Connector.query("SELECT * FROM dia;"); try { while (resultSet.next()) { dia = new Dia(); dia.setIdDia(resultSet.getLong("iddia")); dia.setData(resultSet.getDate("data")); lista.add(dia); } } catch (Exception e) { System.out.println(e.getMessage()); } Connector.close(); return lista; }
public static void main(String[] args) { // Create a Connector object and open the connection to the server Connector server = new Connector(); boolean success = server.connect("MNP", "0a34d4ea3cc0da36ee91172b9cccb621"); if (success == false) { System.out.println("Fatal error: could not open connection to server"); System.exit(1); } DataTable data = server.getData(); int rowCount = data.getRowCount(); for (int row = 0; row < rowCount; ++row) { for (int col = 0; col < 4; ++col) { if (col > 0) { System.out.print(","); } System.out.print(data.getCell(row, col)); } System.out.println(); } }
/** * Connects and invokes the various methods. * * @param info The configuration information */ CreateImage(ConfigurationInfo info) { if (info == null) { info = new ConfigurationInfo(); info.setHostName(hostName); info.setPassword(password); info.setUserName(userName); info.setDatasetId(datasetId); info.setImageId(imageId); } connector = new Connector(info); try { connector.connect(); image = loadImage(info.getImageId()); CreateNewImage(info); } catch (Exception e) { e.printStackTrace(); } finally { try { connector.disconnect(); // Be sure to disconnect } catch (Exception e) { e.printStackTrace(); } } }
/** * Factory method that makes a TCP connection and returns a corresponding <code>Receiver</code>. * * @param connector Connector to use to make the connection to the server. * @param address The address of this ClientReceiver - can be used with {@link * FanOutServerSender#send(Address, Message)}. * @return The ClientReceiver. * @throws CommunicationException If failed to connect. */ public static ClientReceiver connect(Connector connector, Address address) throws CommunicationException { return new ClientReceiver(new SocketWrapper(connector.connect(address))); }
public static void delete(long idDia) { Connector.connect(); Connector.update("DELETE FROM dia WHERE iddia=" + idDia + ";"); Connector.close(); }