コード例 #1
0
        public byte[] ToByteArray()
        {
            WTAPI packet = this;
            int   num    = Marshal.SizeOf <WTAPI>(packet);

            byte[] array  = new byte[num];
            IntPtr intPtr = Marshal.AllocHGlobal(num);

            Marshal.StructureToPtr <WTAPI>(packet, intPtr, false);
            Marshal.Copy(intPtr, array, 0, num);
            Marshal.FreeHGlobal(intPtr);
            return(array);
        }
コード例 #2
0
 public WTTelemetryInfo(WTAPI telemetryData, WTAPI lastTelemetryData)
 {
     _telemetryData     = telemetryData;
     _lastTelemetryData = lastTelemetryData;
 }
コード例 #3
0
        /// <summary>
        /// The thread funktion to poll the telemetry data and send TelemetryUpdated events.
        /// </summary>
        private void Run()
        {
            WTAPI     lastTelemetryData = new WTAPI();
            Session   session           = new Session();
            WebClient wc           = new WebClient();
            Stopwatch sw           = new Stopwatch();
            Stopwatch rollSmoothSW = new Stopwatch();

            sw.Start();
            rollSmoothSW.Start();

            while (!isStopped)
            {
                try
                {
                    string json = wc.DownloadString(indicatorsURL);
                    Dictionary <string, object> indicators = JsonConvert.DeserializeObject <Dictionary <string, object> >(json);
//                    json = wc.DownloadString(stateURL);
//                    Dictionary<string, object> state = JsonConvert.DeserializeObject<Dictionary<string, object>>(json);

                    float deg2rad = (float)Math.PI / 180.0f;
                    bool  valid   = (bool)indicators["valid"];
                    if (valid)
                    {
                        float pitch = (float)(double)indicators["aviahorizon_pitch"];
                        float roll  = (float)(double)indicators["aviahorizon_roll"];
                        float yaw   = (float)(double)indicators["compass"] * deg2rad;
                        float speed = (float)(double)indicators["speed"];


                        telemetryData.Pitch = pitch;


                        float absRoll = Math.Abs(roll);

                        if (absRoll > 130.0f)
                        {
                            rollSmoothSW.Restart();
                        }

                        float smoothTime = 300.0f;
                        if (rollSmoothSW.ElapsedMilliseconds > smoothTime)
                        {
                            telemetryData.Roll = LoopAngle(roll, 90.0f);
                        }
                        else
                        {
                            float minLerp = 0.0001f;
                            float maxLerp = 1.0f;
                            float lerp    = minLerp + ((rollSmoothSW.ElapsedMilliseconds / smoothTime) * (maxLerp - minLerp));

                            lerp = 0.02f;
                            telemetryData.Roll = Lerp(telemetryData.Roll, LoopAngle(roll, 90.0f), lerp);
                        }


                        pitch *= deg2rad;
                        roll  *= deg2rad;

                        Vector3 fwd = new Vector3(
                            (float)Math.Cos(yaw) * (float)Math.Cos(pitch),
                            (float)Math.Sin(yaw) * (float)Math.Cos(pitch),
                            (float)Math.Sin(pitch));

                        fwd = Vector3.Normalize(fwd);
                        float temp = fwd.Y;
                        fwd.Y = fwd.Z;
                        fwd.Z = temp;

                        Vector3 velocity = fwd * speed;

                        velocity = Vector3.Lerp(lastVelocity, velocity, 0.5f);

                        Vector3 acceleration = velocity - lastVelocity;
                        lastVelocity = velocity;

                        Quaternion orientationQ = Quaternion.CreateFromAxisAngle(fwd, roll);

                        Matrix4x4 orientation = Matrix4x4.CreateFromQuaternion(orientationQ);

                        Matrix4x4 orientationInv = new Matrix4x4();

                        Matrix4x4.Invert(orientation, out orientationInv);

                        Vector3 localAcceleration = Vector3.Transform(acceleration, orientationInv);

                        telemetryData.AccG[0] = acceleration.X;
                        telemetryData.AccG[1] = acceleration.Y;
                        telemetryData.AccG[2] = acceleration.Z;

                        // otherwise we are connected
                        IsConnected = true;

                        IsRunning = true;

                        sw.Restart();

                        TelemetryEventArgs args = new TelemetryEventArgs(
                            new WTTelemetryInfo(telemetryData, lastTelemetryData));
                        RaiseEvent(OnTelemetryUpdate, args);

                        lastTelemetryData = telemetryData;
                    }
                    else if (sw.ElapsedMilliseconds > 500)
                    {
                        IsRunning = false;
                    }
                }
                catch (Exception e)
                {
                    LogError("WarThunderTelemetryProvider Exception while processing data", e);
                    IsConnected = false;
                    IsRunning   = false;
                    Thread.Sleep(1000);
                }
            }

            IsConnected = false;
            IsRunning   = false;
        }