private void EqualsTestHelper(List <ListItemForTest> list_1, List <ListItemForTest> list_2)
{
list_1.add(new ListItemForTest("A"));
list_1.add(new ListItemForTest("B"));
list_1.add(new ListItemForTest("C"));
list_2.add(new ListItemForTest("A"));
list_2.add(new ListItemForTest("B"));
list_2.add(new ListItemForTest("C"));
Assert.AreEqual(list_1, list_2);
}
public Net(ushort initPort, IList <string> initPeers)
{
// For each peer name in the command-line arguments,
// create a Peer object to represent and track that peer.
foreach (string peerName in initPeers)
{
peers.Add(new Peer(this, peerName));
//peerList.add(peerName);
}
//Console.WriteLine(peers.Count);
for (int i = 0; i < peers.Count; i++)
{
peerList.add(peers[i].betterName);
}
// Bind our UDP socket to the specified (or default) port
// allowing us to send and receive network datagrams.
if (initPort == 0)
{
initPort = NetConf.defaultPort;
}
// Like println in Java
Console.WriteLine("Binding to port " + initPort);
sock.bind(new QHostAddress(QHostAddress.SpecialAddress.Any),
initPort);
sock.readyRead.connect(this, "receive()");
// Save some identifying information for printfs and such.
myPort = initPort;
myName = QHostInfo.localHostName() + ":" + myPort;
// Create a timer to trigger repeating "pings"
// we send out to to all our peers.
QTimer timer = new QTimer(this);
timer.timeout.connect(this, "pingAllPeers()");
timer.start(1000); // ping once every second
}
public void func_6022_a(IUpdatePlayerListBox iupdateplayerlistbox)
{
field_9010_p.add(iupdateplayerlistbox);
}
public void addCommand(string s, ICommandListener icommandlistener)
{
commands.add(new ServerCommand(s, icommandlistener));
}
