static void Main(string[] args) { m_Listener = new OscAddressManager(); m_Listener.Attach("/testA", TestMethodA); m_Listener.Attach("/testB", TestMethodB); m_Receiver = new OscReceiver(IPAddress.IPv6Any, IPAddress.Parse("FF02::2"), 12345); m_Sender = new OscSender(IPAddress.Parse("FF02::2"), 12345); m_Thread = new Thread(new ThreadStart(ListenLoop)); Console.WriteLine("Connecting"); m_Receiver.Connect(); m_Sender.Connect(); m_Thread.Start(); Console.WriteLine(); Console.WriteLine("Sending message to A"); Console.WriteLine(); m_Sender.Send(new OscMessage("/testA", "Hello from sender (test1)")); Thread.CurrentThread.Join(100); Console.WriteLine(); Console.WriteLine("Press any key to send the next message"); Console.ReadKey(true); Console.WriteLine(); Console.WriteLine("Sending message to B"); Console.WriteLine(); m_Sender.Send(new OscMessage("/testB", "Hello from sender (test2)")); Thread.CurrentThread.Join(100); Console.WriteLine(); Console.WriteLine("Press any key to send the next message"); Console.ReadKey(true); Console.WriteLine(); Console.WriteLine("Sending message to A and B"); Console.WriteLine(); m_Sender.Send(new OscMessage("/*", "Hello from sender (test3)")); Thread.CurrentThread.Join(100); Console.WriteLine(); Console.WriteLine("Press any key to exit"); Console.ReadKey(true); Console.WriteLine("Shutting down"); m_Receiver.Close(); m_Thread.Join(); m_Sender.Close(); }
/// <summary> /// Sends the new deformed mesh to be drawn /// </summary> private void UpdateMesh() { var vertices = this.currentFaceModel.CalculateVerticesForAlignment(this.currentFaceAlignment); byte[] b = new byte[vertices.Count * 3 * 2]; for (int i = 0; i < vertices.Count; i++) { var vert = vertices[i]; this.theGeometry.Positions[i] = new Point3D(vert.X, vert.Y, -vert.Z); var bytes = BitConverter.GetBytes((short)((vert.X) * 1000)); b[i * 3 * 2 + 0] = bytes[0]; b[i * 3 * 2 + 1] = bytes[1]; bytes = BitConverter.GetBytes((short)((vert.Y) * 1000)); b[i * 3 * 2 + 2] = bytes[0]; b[i * 3 * 2 + 3] = bytes[1]; bytes = BitConverter.GetBytes((short)(-(vert.Z) * 1000)); b[i * 3 * 2 + 4] = bytes[0]; b[i * 3 * 2 + 5] = bytes[1]; } var address = "/osceleton2/hdface"; OscMessage message = new OscMessage(address, b); if (oscSender != null) { oscSender.Send(message); } }
private void sendOSCMessage_Click(object sender, RoutedEventArgs e) { if (string.IsNullOrWhiteSpace(this.oscMessage.Text)) { return; } //var packet = Rug.Osc.OscPacket.Parse(this.oscMessage.Text); // var parsed = OscMessage.Parse(this.oscMessage.Text); var message = this.oscMessage.Text.Split(' '); if (message.Length <= 0) { return; } var address = message[0]; if (message.Length <= 1) { oscSender.Send(new OscMessage(message[0])); } else { // oscSender.Send(new OscMessage(message[0], message.Skip(1).Cast<int>().ToArray())); oscSender.Send(new OscMessage("/sourcepreset", 1)); } }
private void timer1_Tick(object sender, EventArgs e) { try { // parse the message OscPacket msg = OscPacket.Parse(m_MessageBox.Text); // write the parsed message AppendLine(msg.ToString()); // if the sender exists if (m_Sender != null) { for (int i = 0, j = (int)m_SendCount.Value; i < j; i++) { // send m_Sender.Send(msg); } } else { AppendLine("Sender is not connected"); } } catch (Exception ex) { // explicitly tell the user why the message failed to parse AppendLine("Error parsing message"); AppendLine(ex.Message); AppendLine(""); } }
static void Main(string[] args) { Console.WriteLine("OSC Client."); Console.WriteLine("周波数[Hz] 再生時間[msec]"); // 送信先はローカルホスト var address = IPAddress.Parse("127.0.0.1"); // 送信先のポートを指定 using var oscSender = new OscSender(address, 2345); // 接続 oscSender.Connect(); //// 無限ループにしてメッセージ送信 //while (true) //{ // var msg = Console.ReadLine(); // oscSender.Send(new OscMessage("/test", msg.ToString())); //} while (true) { var msg = Console.ReadLine().Split(" "); if (int.TryParse(msg[0], out int freq) && int.TryParse(msg[1], out int time)) { //Console.Beep(freq, time); oscSender.Send(new OscMessage("/beep", freq, time)); } } }
public void SendTest() { try { // This is the ip address we are going to send to IPAddress address = IPAddress.Loopback; // This is the port we are going to send to int port = 12345; // Create a new sender instance using (OscSender sender = new OscSender(address, port)) { // Connect the sender socket sender.Connect(); // Send a new message sender.Send(new OscMessage("/test", 1, 2, 3, 4)); } } catch (Exception ex) { Assert.Fail(ex.Message); } }
private void sendvalue(string s, int i) { using (OscSender sender = new OscSender(IPAddress.Parse("192.168.1.75"), 3032)) { sender.Connect(); sender.Send(new OscMessage(s, i)); } }
protected async Task <T> Send <T>(string path, int timeout = DEFAULT_500_MS_TIMEOUT, params object[] args) { //wait for the messages to complete being sent await Task.Run(() => _sender.WaitForAllMessagesToComplete()); if (args == null || args.Length == 0) { _sender.Send(new OscMessage(path)); } else { _sender.Send(new OscMessage(path, args)); } OscPacket packet = await RecieveOSC(timeout); return(FormatResponsePacket <T>(packet?.ToString(), path)); }
private void sendcommand(string s) { using (OscSender sender = new OscSender(IPAddress.Parse("192.168.1.75"), 3032)) { sender.Connect(); sender.Send(new OscMessage(s)); sender.Close(); } }
private void FilterAndSend(OscPacket data, byte[] mask, int x, int y, int listenPort) { if (mask[x + (y * width)] == 0) { //TODO: find the matching subject from the package and remove the others var filteredData = FindMatchingSubject(data, x, y); oscSender.Send(filteredData); UpdateFilteredImagesSources(x, y, listenPort); } }
public void SendMessage(string str, int num) { var mess = new OscMessage(str, num); using (OscSender sender = new OscSender(address, port)) { sender.Connect(); sender.Send(mess); } }
public override void SendChatMessage(RestreamChatMessage message) { try { sender.Send(new OscMessage("/RCH_Message", message.GetAsOneLiner())); } catch (System.Net.Sockets.SocketException) { Console.WriteLine("ERROR ! The port " + PortOut + " is used by some an other application."); } }
public void SendFermata() { var mess = new OscMessage(tempoAddr, 0); Console.WriteLine(string.Format("Sending tempo {0}", 0)); using (OscSender sender = new OscSender(address, port)) { sender.Connect(); sender.Send(mess); } }
public void Send(string path, List <MidiMapping> data) { var msg = new List <string>(data.Count); foreach (var midiMapping in data) { msg.Add(midiMapping.ToString()); } //sender.Send(new OscMessage(path, msg.Substring(0,msg.Length-1))); sender.Send(new OscMessage(path, msg.ToArray())); }
private async void KinectCycle() { while (kinectHandler.IsKinectOpen) { var point = trackingStrategy.DetectSinglePerson(kinectHandler.GetDepthFrame()); if (point.HasValue) { oscSender?.Send(new OscMessage("/DTDT", point.Value.X, point.Value.Y)); } await Task.Delay(KinectRefreshRate); } }
static void Main(string[] args) { IPAddress remote = IPAddress.Parse("192.168.2.4"); int remotePort = 5000; if (!System.Net.NetworkInformation.NetworkInterface.GetIsNetworkAvailable()) { Console.WriteLine("No network connections available"); return; } // Get host name String strHostName = Dns.GetHostName(); // Find host by name IPHostEntry iphostentry = Dns.GetHostEntry(strHostName); NetworkInterface[] interfaces = NetworkInterface.GetAllNetworkInterfaces(); foreach (NetworkInterface adapter in interfaces) { var ipProps = adapter.GetIPProperties(); foreach (var ip in ipProps.UnicastAddresses) { if ((adapter.OperationalStatus == OperationalStatus.Up) && (ip.Address.AddressFamily == AddressFamily.InterNetwork)) { Console.WriteLine(ip.Address.ToString().PadRight(20) + adapter.Description.ToString()); try { using (OscSender sender = new OscSender(ip.Address, remote, remotePort)) { sender.Connect(); sender.Send(new OscMessage("/test", 1, 2, 3)); } } catch (Exception ex) { Console.WriteLine("Exception while sending"); Console.WriteLine(ex.Message); } Console.WriteLine(); } } } Console.ReadKey(true); }
private void broadcastNewLocation(int i) { System.Console.WriteLine($"Position: {i}"); //labelSensor.Content = $"Sensor: {i}"; using (OscSender sender = new OscSender(Address, Port)) { sender.Connect(); sender.Send(new OscMessage("/quadrant", i)); } }
private void keyPressedEvent(object sender, LaunchpadKeyEventArgs e) { if (e.GetY() < num_colourRows && e.GetY() >= 0) { if (e.GetX() < 8) { // this is a coloured exec row, assuming row -1 and column 8 are not part of the selection ColourExecRow.writeLowlightToRow(lInt, ColourExecRow.colours, e.GetY()); // write low_light to entire row } else { // end group selection button } lInt.setLED(e.GetX(), e.GetY(), ColourExecRow.colours[e.GetX()].highlight); } else { lInt.setLED(e.GetX(), e.GetY(), ColourExecRow.colours[0].highlight); // white for non-colour rows } if (e.GetX() == 8) { osc.Send(new OscMessage($"/rpc", "3H")); } int oscX = e.GetX() + 2; if (oscX == 10) { oscX = 1; // shift the end circle buttons to the front } else { oscX++; // otherwise shift +1 to ignore the soft pallete } int oscY = e.GetY() + 1; osc.Send(new OscMessage($"/exec/{textBox_execPage.Text}/{oscX + oscY * 10}", 1)); // updated to increments of 10 }
public void SendTempo(int t) { if (t != lastSentTempo) { var mess = new OscMessage(tempoAddr, t); Console.WriteLine(string.Format("Sending tempo {0}", t)); using (OscSender sender = new OscSender(address, port)) { sender.Connect(); sender.Send(mess); } lastSentTempo = t; } }
// Method run every tick. Should be 50 ticks per second. private void OnTick() { // Get the robot number. string TeamNumber = ""; foreach (ConfigurationSetting Configuration in ConfigurationList) { if (Configuration.Setting == "Team Number") { TeamNumber = Configuration.Value; } } // Sends all the driver station data. OscSenderInstance.Send(new OscMessage("/" + TeamNumber + "/EnableState", (int)RobotEnableState, (int)RobotDriveMode)); }
public void SendPan(double p) { if (p != lastSentPan) { int val = (int)(p * 100); var mess = new OscMessage(panAddr, val); Console.WriteLine(string.Format("Sending pan {0}", val)); using (OscSender sender = new OscSender(address, port)) { sender.Connect(); sender.Send(mess); } lastSentPan = p; } }
private void SendFunction(object sender, RoutedEventArgs e) { Console.WriteLine("送信処理"); // 送信先はローカルホスト var address = IPAddress.Parse("127.0.0.1"); // 送信先のポートを指定 using var oscSender = new OscSender(address, 2345); var msg = "from Wpf."; // 接続 oscSender.Connect(); oscSender.Send(new OscMessage("/test", msg)); viewModel.OscText = "asdfg"; viewModel.BgColor = new SolidColorBrush(Color.FromArgb(0xFF, 0x00, 0xFF, 0x00)); }
public void SendVolume(double v) { if (v != lastSentVolume) { int val = (int)(v * 100); var mess = new OscMessage(volumeAddr, val); Console.WriteLine(string.Format("Sending volume {0}", val)); using (OscSender sender = new OscSender(address, port)) { sender.Connect(); sender.Send(mess); } lastSentPan = v; } }
private void Application_SlideShowNextClick(PowerPoint.SlideShowWindow Wn, PowerPoint.Effect nEffect) { //throw new NotImplementedException(); // PowerPointスライドの「ノート」部分を取得する。 string note = Wn.View.Slide.NotesPage.Shapes.Placeholders[2].TextFrame.TextRange.Text; string noteT = note.Trim(); if (noteT != "") { oscSender.Connect(); Debug.WriteLine("つなげた"); oscSender.Send(new OscMessage("/scene", noteT)); //oscSender.Send(new OscMessage("/change", int.Parse(noteT))); Debug.WriteLine(noteT + ":"); this.oscSender.Close(); Debug.WriteLine("とじた"); } }
private void SendCurrentPositions() { // send the quaternions of each finger. string[] coords = { "X", "Y", "Z", "W" }; object[] featureValues = new object[hand.HandBones.Length * 4]; int boneIndex = 0; foreach (var t in hand.HandBones) { for (int i = 0; i < 4; i++) { featureValues[boneIndex * 4 + i] = (t.localRotation[i]); } boneIndex++; } //send the quaternion. OscMessage message = new OscMessage("/predict", featureValues); sender.Send(message); }
/// <summary> /// Handler for recognized speech events. /// </summary> /// <param name="sender">object sending the event.</param> /// <param name="e">event arguments.</param> private void SpeechRecognized(object sender, SpeechRecognizedEventArgs e) { // Speech utterance confidence below which we treat speech as if it hadn't been heard const double ConfidenceThreshold = 0.3; // Number of degrees in a right angle. const int DegreesInRightAngle = 90; // Number of pixels turtle should move forwards or backwards each time. const int DisplacementAmount = 60; this.ClearRecognitionHighlights(); if (e.Result.Confidence >= ConfidenceThreshold) { switch (e.Result.Semantics.Value.ToString()) { case "RED": forwardSpan.Foreground = Brushes.Red; forwardSpan.FontWeight = FontWeights.Bold; turtleTranslation.X = (playArea.Width + turtleTranslation.X + (DisplacementAmount * Displacements[this.curDirection].X)) % playArea.Width; turtleTranslation.Y = (playArea.Height + turtleTranslation.Y + (DisplacementAmount * Displacements[this.curDirection].Y)) % playArea.Height; break; case "BLUE": forwardSpan.Foreground = Brushes.Blue; backSpan.Foreground = Brushes.DeepSkyBlue; backSpan.FontWeight = FontWeights.Bold; turtleTranslation.X = (playArea.Width + turtleTranslation.X - (DisplacementAmount * Displacements[this.curDirection].X)) % playArea.Width; turtleTranslation.Y = (playArea.Height + turtleTranslation.Y - (DisplacementAmount * Displacements[this.curDirection].Y)) % playArea.Height; break; case "GREEN": forwardSpan.Foreground = Brushes.Green; leftSpan.Foreground = Brushes.DeepSkyBlue; leftSpan.FontWeight = FontWeights.Bold; this.curDirection = TurnLeft[this.curDirection]; // We take a left turn to mean a counter-clockwise right angle rotation for the displayed turtle. turtleRotation.Angle -= DegreesInRightAngle; break; case "ORANGE": forwardSpan.Foreground = Brushes.Orange; rightSpan.Foreground = Brushes.DeepSkyBlue; rightSpan.FontWeight = FontWeights.Bold; this.curDirection = TurnRight[this.curDirection]; // We take a right turn to mean a clockwise right angle rotation for the displayed turtle. turtleRotation.Angle += DegreesInRightAngle; break; } if (e.Result.Semantics.Value.ToString()[0] == '#') { var address = "/speech/color"; OscMessage message = new OscMessage(address, e.Result.Semantics.Value.ToString().Substring(1, 6)); if (oscSender != null) { oscSender.Send(message); } forwardSpan.Foreground = (SolidColorBrush)(new BrushConverter().ConvertFrom(e.Result.Semantics.Value.ToString())); } else if (e.Result.Semantics.Value.ToString()[0] == 'C') // command { var address = "/speech/command"; OscMessage message = new OscMessage(address, e.Result.Semantics.Value.ToString().Substring(1)); if (oscSender != null) { oscSender.Send(message); } } } }
//受信待受停止 public void Send(OscPacket packet) { PacketCounter++; oscSender.Send(packet); }
private void SendCurrentMessage() { oscSender.Send(selectedSendMessage); sendCounter.Increment(); }
public static void Send(OscCmd oscCmd) { if (oscMute) { switch (oscCmd.type) { case DataType.FLOAT: LogCtrl.Warning("Send OSC: " + oscCmd.oscAddress + " " + oscCmd.floatVal); break; case DataType.INT: LogCtrl.Warning("Send OSC: " + oscCmd.oscAddress + " " + oscCmd.intVal); break; default: LogCtrl.Warning("Send OSC: " + oscCmd.oscAddress + " " + oscCmd.stringVal); break; } return; } foreach (OscTarget target in oscTargets) { if (target.keyword == oscCmd.keyword) { using (OscSender sender = new OscSender(target.ip, target.port)) { sender.Connect(); if (oscCmd.type == DataType.INT) { sender.Send(new OscMessage(target.prefix + oscCmd.oscAddress, oscCmd.intVal)); } else if (oscCmd.type == DataType.FLOAT) { sender.Send(new OscMessage(target.prefix + oscCmd.oscAddress, oscCmd.floatVal)); } else { sender.Send(new OscMessage(target.prefix + oscCmd.oscAddress, oscCmd.stringVal)); } } switch (oscCmd.type) { case DataType.FLOAT: LogCtrl.Status("Send OSC: " + oscCmd.oscAddress + " " + oscCmd.floatVal); break; case DataType.INT: LogCtrl.Status("Send OSC: " + oscCmd.oscAddress + " " + oscCmd.intVal); break; default: LogCtrl.Status("Send OSC: " + oscCmd.oscAddress + " " + oscCmd.stringVal); break; } return; } } LogCtrl.Error("Couldn't find OSC target " + oscCmd.keyword + "."); }
public void Send(IPEndPoint endpoint, string oscAddress, string oscData) { oscSender.Send(endpoint, oscAddress, oscData); Debug.Log($"[DataStore] Send : {endpoint}, {oscAddress}, {oscData}"); }