Exemplo n.º 1
0
 public ViewModel()
 {
     Current = this;
     PrimarySerial.NewMessageReceived += PrimarySerial_NewMessageReceived;
     if (IsDebugMode)
     {
         DispatcherTimer dt = new DispatcherTimer() { Interval = TimeSpan.FromSeconds(1) };
         dt.Tick += delegate
         {
             if (IsRandomizerEnabled)
             {
                 double val = rnd.NextDouble();
                 if (Calibrator.ActiveCalibrationSub != null)
                     val = val * 10 + (double)Calibrator.ActiveCalibrationSub.ResponsePoint.OD * 150 + 120;
                 Message msg = new Message(ParticipantID.Reactor_1, ParticipantID.MCP, MessageType.Data, string.Format("{0}\t{1}\t{2}", DimensionSymbol.Biomass, val, Unit.BiomassConcentration));
                 PrimarySerial.InterpretMessage(msg.Raw);
             }
         };
         dt.Start();
     }
     //data collection
     StartTime = DateTime.Now;
     DataSource = new EnumerableDataSource(SensorDataSet);
     DataSource.DataToPoint = new Func<object, Point>(dp => new Point(((dp as DataPoint).Time - StartTime).TotalSeconds, (dp as DataPoint).YValue));
 }
Exemplo n.º 2
0
 public void ActivatePlot(DataLogBase.CalculateRuntimeMethodDelegate  calculateRuntimeMethod)
 {
     IsPlotActivated = true;
     try
     {
         SensorDataSet.Clear();
     }
     catch { }
     //create the data source
     DataSource = new EnumerableDataSource(SensorDataSet);
     DataSource.DataToPoint = new Func<object, Point>(dp => new Point(calculateRuntimeMethod.Invoke((dp as DataPoint).Time), (dp as DataPoint).YValue));
     string[] lines = File.ReadAllLines(_FilePath);
     for (int i = 1; i < lines.Length; i++)
     {
         DataPoint dp = new DataPoint(lines[i]);
         try
         {
             SensorDataSet.Add(dp);
         }
         catch
         {
             //TODO: this feels dirty
         }
     }
 }
 public BiomassSensorInformation()
 {
     ResponseCurve = new List<BiomassResponseData>();
     ODDataSource = new EnumerableDataSource(ResponseDataSet);
     ODDataSource.DataToPoint = new Func<object, Point>(rd => new Point((rd as BiomassResponseData).Analog, (rd as BiomassResponseData).OD));
     CDWDataSource = new EnumerableDataSource(ResponseDataSet);
     CDWDataSource.DataToPoint = new Func<object, Point>(rd => new Point((rd as BiomassResponseData).Analog, (rd as BiomassResponseData).CDW));
 }
		public override PointDataSourceBase TryBuild(object data)
		{
			IEnumerable sequence = data as IEnumerable;
			if (sequence != null)
			{
				EnumerableDataSource ds = new EnumerableDataSource(sequence);
				return ds;
			}

			return null;
		}
Exemplo n.º 5
0
        private ObservableCollection<DataPoint> _SensorDataSet = new ObservableCollection<DataPoint>(); //contains all datapoints

        #endregion Fields

        #region Constructors

        public ViewModel()
        {
            Current = this;
            PrimarySerial.NewMessageReceived += PrimarySerial_NewMessageReceived;
            if (IsDebugMode)
            {
                DispatcherTimer dt = new DispatcherTimer() { Interval = TimeSpan.FromSeconds(1) };
                dt.Tick += delegate
                {
                    if (IsRandomizerEnabled)
                    {
                        double val = rnd.NextDouble();
                        if (Calibrator.ActiveCalibrationSub != null)
                            val = val * 10 + (double)Calibrator.ActiveCalibrationSub.ResponsePoint.Percent * 150 + 120;
                            switch (Calibrator.CalibrationTarget)
                            {
                                case MCP.Calibration.CalibrationTarget.Oxygen:
                                    PrimarySerial.InterpretMessage(new Message(ParticipantID.Reactor_1, ParticipantID.MCP, MessageType.Data, string.Format("{0}\t{1}\t{2}", DimensionSymbol.O2_Saturation, val, Unit.Analog)).Raw);
                                    break;
                                case MCP.Calibration.CalibrationTarget.Carbon_Dioxide:
                                    PrimarySerial.InterpretMessage(new Message(ParticipantID.Reactor_1, ParticipantID.MCP, MessageType.Data, string.Format("{0}\t{1}\t{2}", DimensionSymbol.CO2_Saturation, val, Unit.Analog)).Raw);
                                    break;
                                case MCP.Calibration.CalibrationTarget.CHx:
                                    PrimarySerial.InterpretMessage(new Message(ParticipantID.Reactor_1, ParticipantID.MCP, MessageType.Data, string.Format("{0}\t{1}\t{2}", DimensionSymbol.CHx_Saturation, val, Unit.Analog)).Raw);
                                    break;
                                default:
                                    break;
                            }
                    }
                };
                dt.Start();
            }
            //data collection
            StartTime = DateTime.Now;
            DataSource = new EnumerableDataSource(SensorDataSet);
            DataSource.DataToPoint = new Func<object, Point>(rd => new Point(((rd as DataPoint).Time - StartTime).TotalSeconds, (rd as DataPoint).YValue - SensorDataSet.First().YValue));
        }
Exemplo n.º 6
0
 public Subcalibration(int setpoint, int duration, string symbol, string unit)
 {
     this.Setpoint = setpoint;
     this.Duration = duration;
     this.Symbol = symbol;
     this.Unit = unit;
     DataSource = new EnumerableDataSource(SensorDataSet);
     DataSource.DataToPoint = new Func<object, Point>(rd => new Point(((rd as DataPoint).Time - SensorDataSet.First().Time).TotalSeconds, (rd as DataPoint).YValue - SensorDataSet.First().YValue));
 }
 public GasSensorInformation()
 {
     ResponseCurve = new List<GasSensorResponseData>();
     DataSource = new EnumerableDataSource(ResponseDataSet);
     DataSource.DataToPoint = new Func<object, System.Windows.Point>(rd => new Point((rd as GasSensorResponseData).Analog, (rd as GasSensorResponseData).Percent));
 }
Exemplo n.º 8
0
        private ObservableCollection<PumpResponseData> _ResponseDataSet = new ObservableCollection<PumpResponseData>(); //contains all datapoints

        #endregion Fields

        #region Constructors

        public PumpInformation()
        {
            ResponseCurve = new List<PumpResponseData>();
            DataSource = new EnumerableDataSource(ResponseDataSet);
            DataSource.DataToPoint = new Func<object,System.Windows.Point>(rd => new Point((rd as PumpResponseData).Setpoint, (rd as PumpResponseData).Response));
        }
        /// <summary>
        /// 柱状图
        /// </summary>
        /// <param name="gvColumn"></param>
        /// <param name="ColumnScroll"></param>
        /// <param name="LineScroll"></param>
        public void Column()
        {
            #region 活动范围
            //活动范围
            if (RangeList.Count > 0)
            {
                
                List<ClusteredBarData> data = new List<ClusteredBarData>();
                Color[] colors = new Color[] { Colors.Red, Colors.Blue, Colors.Yellow };
               
                foreach (var item in RangeList)
                {
                    ClusteredBarData cbd = new ClusteredBarData();
                    List<BarData> barDatas = new List<BarData>();
                    string date = Convert.ToDateTime(item.Key).ToString("yyyy/MM/dd");
                    cbd.X = dateAxis.ConvertToDouble(Convert.ToDateTime(date));
                    BarData bd = new BarData { YMin =Convert.ToDouble(item.Value2), YMax =Convert.ToDouble(item.Value) };
                    bd.BrushColor = colors[0];
                    barDatas.Add(bd);
                    cbd.BarDatas = barDatas;
                    data.Add(cbd);
                }
                EnumerableDataSource<ClusteredBarData> value = new EnumerableDataSource<ClusteredBarData>(data);
                value.SetXMapping(k => k.X);
                value.SetYMapping(k => k.BarDatas[0].YMax);

                DataContext = value;
            }
            #endregion
        }