seniordesign-ui Changeset - 2f841e844536 · protofusion repositories

Changeset - 2f841e844536

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mkanning@CL-ENS241-10.cedarville.edu - 13 years ago 2013-02-14 15:21:33
mkanning@CL-ENS241-10.cedarville.edu

fixed the problem of two forms being created. still need to fix the addToChart()
and addMarker()

2 files changed with 7 insertions and 7 deletions:

Demo.WindowsForms/Forms/MainForm.cs

Demo.WindowsForms/Source/Program.cs

0 comments (0 inline, 0 general)

Demo.WindowsForms/Forms/MainForm.cs

➞

Show inline comments

@@ @@ -2180,642 +2180,642 @@ namespace Demo.WindowsForms @@
+        }
         private void buttonZoomDown_Click(object sender, EventArgs e)
+        {
             MainMap.Zoom = ((int)(MainMap.Zoom + 0.99)) - 1;
+        }
         // engage some live demo
         //private void RealTimeChanged(object sender, EventArgs e)
         //{
         //   objects.Markers.Clear();
         //   polygons.Polygons.Clear();
         //   routes.Routes.Clear();
         //   //// start performance test
         //   //if(rbtnPerf.Checked)
         //   //{
         //   //   timerPerf.Interval = 44;
         //   //   timerPerf.Start();
         //   //}
         //   //else
         //   //{
         //   //   // stop performance test
         //   //   timerPerf.Stop();
         //   //}
         //   // start realtime transport tracking demo
         //   //if(rbtnFlight.Checked)
         //   //{
         //   //   if(!flightWorker.IsBusy)
         //   //   {
         //   //      firstLoadFlight = true;
         //   //      flightWorker.RunWorkerAsync();
         //   //   }
         //   //}
         //   //else
         //   //{
         //   //   if(flightWorker.IsBusy)
         //   //   {
         //   //      flightWorker.CancelAsync();
         //   //   }
         //   //}
         //   // vehicle demo
         //   //if(rbtnVehicle.Checked)
         //   //{
         //   //   if(!transportWorker.IsBusy)
         //   //   {
         //   //      firstLoadTrasport = true;
         //   //      transportWorker.RunWorkerAsync();
         //   //   }
         //   //}
         //   //else
         //   //{
         //   //   if(transportWorker.IsBusy)
         //   //   {
         //   //      transportWorker.CancelAsync();
         //   //   }
         //   //}
         //   // start live tcp/ip connections demo
         //   if(rbtnTcpIp.Checked)
         //   {
         //      GridConnections.Visible = true;
         //      checkBoxTcpIpSnap.Visible = true;
         //      checkBoxTraceRoute.Visible = true;
         //      GridConnections.Refresh();
         //      if(!connectionsWorker.IsBusy)
         //      {
         //         //if(MainMap.Provider != MapType.GoogleMap)
         //         //{
         //         //   MainMap.MapType = MapType.GoogleMap;
         //         //}
         //         MainMap.Zoom = 5;
         //         connectionsWorker.RunWorkerAsync();
         //      }
         //   }
         //   else
         //   {
         //      CountryStatusView.Clear();
         //      GridConnections.Visible = false;
         //      checkBoxTcpIpSnap.Visible = false;
         //      checkBoxTraceRoute.Visible = false;
         //      if(connectionsWorker.IsBusy)
         //      {
         //         connectionsWorker.CancelAsync();
         //      }
         //      if(ipInfoSearchWorker.IsBusy)
         //      {
         //         ipInfoSearchWorker.CancelAsync();
         //      }
         //      if(iptracerWorker.IsBusy)
         //      {
         //         iptracerWorker.CancelAsync();
         //      }
         //   }
         //}
         // export mobile gps log to gpx file
         private void buttonExportToGpx_Click(object sender, EventArgs e)
+        {
             try
+            {
                 using (SaveFileDialog sfd = new SaveFileDialog())
+                {
                     sfd.Filter = "GPX (*.gpx)|*.gpx";
                     sfd.FileName = "mobile gps log";
                     DateTime? date = null;
                     DateTime? dateEnd = null;
                     if (MobileLogFrom.Checked)
+                    {
                         date = MobileLogFrom.Value.ToUniversalTime();
                         sfd.FileName += " from " + MobileLogFrom.Value.ToString("yyyy-MM-dd HH-mm");
+                    }
                     if (MobileLogTo.Checked)
+                    {
                         dateEnd = MobileLogTo.Value.ToUniversalTime();
                         sfd.FileName += " to " + MobileLogTo.Value.ToString("yyyy-MM-dd HH-mm");
+                    }
                     if (sfd.ShowDialog() == DialogResult.OK)
+                    {
                         var log = Stuff.GetRoutesFromMobileLog(mobileGpsLog, date, dateEnd, 3.3);
                         if (log != null)
+                        {
                             if (MainMap.Manager.ExportGPX(log, sfd.FileName))
+                            {
                                 MessageBox.Show("GPX saved: " + sfd.FileName, "GMap.NET", MessageBoxButtons.OK, MessageBoxIcon.Information);
+                            }
+                        }
+                    }
+                }
+            }
             catch (Exception ex)
+            {
                 MessageBox.Show("GPX failed to save: " + ex.Message, "GMap.NET", MessageBoxButtons.OK, MessageBoxIcon.Error);
+            }
+        }
         // load gpx file
         private void btnLoadGPX_Click(object sender, EventArgs e)
+        {
             using (FileDialog dlg = new OpenFileDialog())
+            {
                 dlg.CheckPathExists = true;
                 dlg.CheckFileExists = false;
                 dlg.AddExtension = true;
                 dlg.DefaultExt = "gpx";
                 dlg.ValidateNames = true;
                 dlg.Title = "GMap.NET: open gpx log";
                 dlg.Filter = "gpx files (*.gpx)|*.gpx";
                 dlg.FilterIndex = 1;
                 dlg.RestoreDirectory = true;
                 if (dlg.ShowDialog() == DialogResult.OK)
+                {
                     try
+                    {
                         string gpx = File.ReadAllText(dlg.FileName);
                         gpxType r = MainMap.Manager.DeserializeGPX(gpx);
                         if (r != null)
+                        {
                             if (r.trk.Length > 0)
+                            {
                                 foreach (var trk in r.trk)
+                                {
                                     List<PointLatLng> points = new List<PointLatLng>();
                                     foreach (var seg in trk.trkseg)
+                                    {
                                         foreach (var p in seg.trkpt)
+                                        {
                                             points.Add(new PointLatLng((double)p.lat, (double)p.lon));
+                                        }
+                                    }
                                     GMapRoute rt = new GMapRoute(points, string.Empty);
+                                    {
                                         rt.Stroke = new Pen(Color.FromArgb(144, Color.Red));
                                         rt.Stroke.Width = 5;
                                         rt.Stroke.DashStyle = System.Drawing.Drawing2D.DashStyle.DashDot;
+                                    }
                                     routes.Routes.Add(rt);
+                                }
                                 MainMap.ZoomAndCenterRoutes(null);
+                            }
+                        }
+                    }
                     catch (Exception ex)
+                    {
                         Debug.WriteLine("GPX import: " + ex.ToString());
                         MessageBox.Show("Error importing gpx: " + ex.Message, "GMap.NET", MessageBoxButtons.OK, MessageBoxIcon.Warning);
+                    }
+                }
+            }
+        }
         // enable/disable host tracing
         //private void checkBoxTraceRoute_CheckedChanged(object sender, EventArgs e)
         //{
         //   TryTraceConnection = checkBoxTraceRoute.Checked;
         //   if(!TryTraceConnection)
         //   {
         //      if(iptracerWorker.IsBusy)
         //      {
         //         iptracerWorker.CancelAsync();
         //      }
         //      routes.Routes.Clear();
         //   }
         //}
         //private void GridConnections_DoubleClick(object sender, EventArgs e)
         //{
         //   GridConnections.ClearSelection();
         //}
         // open disk cache location
         private void button17_Click(object sender, EventArgs e)
+        {
             try
+            {
                 string argument = "/select, \"" + MainMap.CacheLocation + "TileDBv5\"";
                 System.Diagnostics.Process.Start("explorer.exe", argument);
+            }
             catch (Exception ex)
+            {
                 MessageBox.Show("Failed to open: " + ex.Message, "GMap.NET", MessageBoxButtons.OK, MessageBoxIcon.Error);
+            }
+        }
         #endregion
         #region graph functions
         #region chart coloring
         //this method clears the background of all charts
         private void ResetChartColors()
+        {
             chrtTopLeft.BackColor = Color.LightGray;
             chrtTopRight.BackColor = Color.LightGray;
             chrtBottomLeft.BackColor = Color.LightGray;
             chrtBottomRight.BackColor = Color.LightGray;
+        }
         //highlight Top Left chart on click
         //set text box values based on this chart
         private void chrtTopLeft_Click(object sender, EventArgs e)
+        {
             ResetChartColors();
             chrtTopLeft.BackColor = Color.Gray;
             tboxChartData.Text = "Altitude";
             tboxCurrent.Text = "";
             tboxAverage.Text = "";
             tboxMax.Text = "";
             tboxMin.Text = "";
+        }
         //highlight Top Right chart on click
         //set text box values based on this chart
         private void chrtTopRight_Click(object sender, EventArgs e)
+        {
             ResetChartColors();
             chrtTopRight.BackColor = Color.Gray;
             tboxChartData.Text = "Humidity";
             tboxCurrent.Text = "";
             tboxAverage.Text = "";
             tboxMax.Text = "";
             tboxMin.Text = "";
+        }
         //highlight Bottom Left chart on click
         //set text box values based on this chart
         private void chrtBottomLeft_Click(object sender, EventArgs e)
+        {
             ResetChartColors();
             chrtBottomLeft.BackColor = Color.Gray;
             tboxChartData.Text = "Pressure";
             tboxCurrent.Text = "";
             tboxAverage.Text = "";
             tboxMax.Text = "";
             tboxMin.Text = "";
+        }
         //highlight Bottom Right chart on click
         //set text box values based on this chart
         private void chrtBottomRight_Click(object sender, EventArgs e)
+        {
             ResetChartColors();
             chrtBottomRight.BackColor = Color.Gray;
             tboxChartData.Text = "Map";
             tboxCurrent.Text = "";
             tboxAverage.Text = "";
             tboxMax.Text = "";
             tboxMin.Text = "";
+        }
         #endregion
         public void PrepareGraphs(){
             //set up for graphs MDKEdit
             // http://www.youtube.com/watch?v=zTod4-Fg6Ew - split containers
             // http://www.youtube.com/watch?v=bMXtgPk875I - chart controls
             chrtTopLeft.ChartAreas.Add("altitudeArea");
             chrtTopLeft.Series.Add("altitudeTrend");
             chrtTopRight.ChartAreas.Add("humidityArea");
             chrtTopRight.Series.Add("humidityTrend");
             chrtBottomLeft.Series.Add("pressureTrend");
             chrtBottomLeft.ChartAreas.Add("pressureArea");
             chrtBottomRight.ChartAreas.Add("velocityArea");
             chrtBottomRight.Series.Add("velocityTrend");
             // declare all series, data points to be modified dynamically at run
             //---------prep altitude area BEGIN
             chrtTopLeft.Series["altitudeTrend"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line;
             chrtTopLeft.Series["altitudeTrend"].Color = Color.Green;
             System.Windows.Forms.DataVisualization.Charting.AxisName.X.Equals("Time");
             System.Windows.Forms.DataVisualization.Charting.AxisName.Y.Equals("Altitude");
             ///required initial value
             chrtTopLeft.Series["altitudeTrend"].Points.AddXY(0, 0);
             //---------prep altitude area END
             //-----------prep humidity area BEGIN
             chrtTopRight.Series["humidityTrend"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line;
             chrtTopRight.Series["humidityTrend"].Color = Color.Red;
             System.Windows.Forms.DataVisualization.Charting.AxisName.X.Equals("Time");
             System.Windows.Forms.DataVisualization.Charting.AxisName.Y.Equals("Humidity");
             ///required initial value
             chrtTopRight.Series["humidityTrend"].Points.AddXY(0, 0);
             //-----------prep humidity area END
             //-----------prep pressure area BEGIN
             chrtBottomLeft.Series["pressureTrend"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line;
             chrtBottomLeft.Series["pressureTrend"].Color = Color.Blue;
             System.Windows.Forms.DataVisualization.Charting.AxisName.X.Equals("Time");
             System.Windows.Forms.DataVisualization.Charting.AxisName.Y.Equals("Pressure");
             ///required initial value
             chrtBottomLeft.Series["pressureTrend"].Points.AddXY(0, 0);
             //-----------prep pressure area END
             //----------prep velocity area BEGIN
             chrtBottomRight.Series["velocityTrend"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line;
             chrtBottomRight.Series["velocityTrend"].Color = Color.Green;
             System.Windows.Forms.DataVisualization.Charting.AxisName.X.Equals("Time");
             System.Windows.Forms.DataVisualization.Charting.AxisName.Y.Equals("Altitude");
             ///required initial value
             chrtBottomRight.Series["velocityTrend"].Points.AddXY(0, 0);
             //----------prep velocity area END
             //put chart displays in a ready state
             ResetChartColors();
+        }
         string latitude;
         string longitude;
         //handle line of input data and put into chart
         //parses transmissions and saves data to CSV file
         public void ParseIncomingData(string rawDataReceived)
+        {
             //check to see if data should be processed
             if (!cboxCollectData.Checked)
+            {
                 return;
+            }
             //if (!cboxCollectData.Checked)
             //{
             //    return;
             //}
             /* sample stansmission
             KD8TDF-9>APRS,WIDE2-1:/151916z3944.87N/08348.75WO005/0.013 SV:09 A-30.5 B45.64 C99542
                                           ^char 31 ^char 40            ^60
             */
             //TODO: verify index charcter accuracy with real transmission
             int indexStart = rawDataReceived.IndexOf("z");
             int indexEnd = rawDataReceived.IndexOf("N/");
             latitude = rawDataReceived.Substring(indexStart + 1, indexEnd - indexStart - 1);
             indexStart = rawDataReceived.IndexOf("N/");
             indexEnd = rawDataReceived.IndexOf("WO");
             longitude = rawDataReceived.Substring(indexStart + 2, indexEnd - indexStart - 2);
             addMarkerFromTransmit(latitude, longitude);
+            //addMarkerFromTransmit(latitude, longitude);
             AddText(rawDataReceived + "\r\n");
             rawDataReceived = rawDataReceived.Substring(59); //remove APRS overhead from string
             //place each datum in its own variable
             string[] dataTransmission;
             dataTransmission = rawDataReceived.Split(' ');
             //parse out the data type - should be a single letter
             string typeCode;
             double data;
             string csvData = "";
             //loop through all datums in the transmission and send them to the chart builder
             for (int i = 1; i < dataTransmission.Length; i++)
+            {
                 typeCode = dataTransmission[i].Substring(0, 1);
                 data = double.Parse(dataTransmission[i].Substring(1));
                 addToChart(typeCode, data);
+                //addToChart(typeCode, data);
                 csvData += typeCode + data + ",";
+            }
             //write the data to CSV file
             WriteToCSV(csvData);
+        }
         //write the data to CSV file
         private void WriteToCSV(string data)
+        {
             using (StreamWriter writer = new StreamWriter("debug.csv", true))
+            {
                 writer.WriteLine(data);
+            }
+        }
         //method to insert parsed data into the charts
         //TODO: add inserts for all charts. altitude is finished and is a template
         private void addToChart(string dataType, double data)
+        {
             ///data types organized by listing in google doc
             //MASTER MODULE DATA VALUES
             if (dataType.Equals("t"))  //board temperature
+            {
+            }
             else if (dataType.Equals("L"))  //battery level
+            {
+            }
             else if (dataType.Equals("X"))  //Latitude accuracy
+            {
+            }
             else if (dataType.Equals("Y"))  //Longitude accuracy
+            {
+            }
             else if (dataType.Equals("V"))  //Velocity
+            {
                 chrtBottomRight.Series.FindByName("velocityTrend").Points.AddY(data);
+            }
             else if (dataType.Equals("I"))  //Info/error Message
+            {
+            }
             //ATMOSPHERIC MODULE DATA VALUES
             else if (dataType.Equals("l"))  //battery level
+            {
+            }
             else if (dataType.Equals("C"))  //battery level
+            {
+            }
             else if (dataType.Equals("H"))  //Humidity
+            {
                 chrtTopRight.Series.FindByName("humidityTrend").Points.AddY(data);
+            }
             else if (dataType.Equals("P"))  //Pressure
+            {
                 chrtBottomLeft.Series.FindByName("pressureTrend").Points.AddY(data);
+            }
             else if (dataType.Equals("A"))  //Altitude
+            {
                 chrtTopLeft.Series.FindByName("altitudeTrend").Points.AddY(data);
+            }
             //GEIGER MODULE DATA VALUES
             else if (dataType.Equals("l"))  //battery level
+            {
+            }
             else if (dataType.Equals("R"))  //radiation (CPM)
+            {
+            }
             // CAMERA MODULE DATA VALUES
             else if (dataType.Equals("l"))  //battery level
+            {
+            }
             else  //invalid data type
+            {
+            }
+        }
         // add marker from an APRS transmission - MDKEdit
         private void addMarkerFromTransmit(string lat, string lng)
+        {
             double latitude = double.Parse(lat), longitude = double.Parse(lng);
             PointLatLng APRSloc = new PointLatLng();
             APRSloc.Lat = latitude;
             APRSloc.Lng = longitude;
             GMarkerGoogle m = new GMarkerGoogle(APRSloc, GMarkerGoogleType.blue_small);
             Placemark? p = null;
             if (xboxPlacemarkInfo.Checked)
+            {
                 GeoCoderStatusCode status;
                 var ret = GMapProviders.GoogleMap.GetPlacemark(currentMarker.Position, out status);
                 if (status == GeoCoderStatusCode.G_GEO_SUCCESS && ret != null)
+                {
                     p = ret;
+                }
+            }
             objects.Markers.Add(m);
+        }
         #endregion
         #region cross theading
         //these are for function calls across threads
         delegate void SetTextDelegate(string value);
         public void AddText(string value)
+        {
             if (InvokeRequired)
+            {
                 Invoke(new SetTextDelegate(AddText), value);
+            }
             else
+            {
                 tboxMessageBox.AppendText(value);// += value;
+            }
+        }
         delegate void ChartDataDelegate(string dataType, double data);
         public void AddDataToChart(string dataType, double data)
+        {
             if (InvokeRequired)
+            {
                 Invoke(new ChartDataDelegate(AddDataToChart), dataType, data);
+            }
             else
+            {
                 addToChart(dataType, data);
+            }
+        }
         #endregion
         #region testing
         //click event on the test button
         //currently simulates serial inputs
         string testData;
         int testIteration = 0;
         double testLat = 39.751248, testLng = -83.809848, testVelocity = 5.8, testAltitude = 100, testPressure = 700, testHumidity = 38;
         private void btnTest_Click(object sender, EventArgs e)
+        {
             testLat += GetRandomNumber(-.005, .015);
             testLng += GetRandomNumber(-.005, .015);
             testVelocity += GetRandomNumber(1, 15);
             testAltitude += GetRandomNumber(50, 150);
             testPressure -= GetRandomNumber(10, 50);
             testHumidity -= GetRandomNumber(1, 3);
             switch (testIteration)
+            {
                 case 0:
                     testData = "KD8TDF-9>APRS,WIDE2-1:/151916z" + testLat + "N/" + testLng + "WO005/0.013 V" + testVelocity + " A" + testAltitude+" H"+testHumidity+" P"+testPressure;
                     ParseIncomingData(testData);
                     break;
                 case 1:
                     testData = "KD8TDF-9>APRS,WIDE2-1:/151916z" + testLat + "N/" + testLng + "WO005/0.013 V" + testVelocity + " A" + testAltitude + " H" + testHumidity + " P" + testPressure;
                     ParseIncomingData(testData);
                     break;
                 case 2:
                     testData = "KD8TDF-9>APRS,WIDE2-1:/151916z" + testLat + "N/" + testLng + "WO005/0.013 V" + testVelocity + " A" + testAltitude + " H" + testHumidity + " P" + testPressure;
                     ParseIncomingData(testData);
                     break;
                 case 3:
                     testData = "KD8TDF-9>APRS,WIDE2-1:/151916z" + testLat + "N/" + testLng + "WO005/0.013 V" + testVelocity + " A" + testAltitude + " H" + testHumidity + " P" + testPressure;
                     ParseIncomingData(testData);
                     break;
                 case 4:
                     testData = "KD8TDF-9>APRS,WIDE2-1:/151916z" + testLat + "N/" + testLng + "WO005/0.013 V" + testVelocity + " A" + testAltitude + " H" + testHumidity + " P" + testPressure;
                     ParseIncomingData(testData);
                     break;
                 case 5:
                     testData = "KD8TDF-9>APRS,WIDE2-1:/151916z" + testLat + "N/" + testLng + "WO005/0.013 V" + testVelocity + " A" + testAltitude + " H" + testHumidity + " P" + testPressure;
                     ParseIncomingData(testData);
                     break;
                 case 6:
                     testData = "KD8TDF-9>APRS,WIDE2-1:/151916z" + testLat + "N/" + testLng + "WO005/0.013 V" + testVelocity + " A" + testAltitude + " H" + testHumidity + " P" + testPressure;
                     ParseIncomingData(testData);
                     break;
                 case 7:
                     testData = "KD8TDF-9>APRS,WIDE2-1:/151916z" + testLat + "N/" + testLng + "WO005/0.013 V" + testVelocity + " A" + testAltitude + " H" + testHumidity + " P" + testPressure;
                     ParseIncomingData(testData);
                     break;
                 case 8:
                     testData = "KD8TDF-9>APRS,WIDE2-1:/151916z" + testLat + "N/" + testLng + "WO005/0.013 V" + testVelocity + " A" + testAltitude + " H" + testHumidity + " P" + testPressure;
                     ParseIncomingData(testData);
                     break;
                 case 9:
                     testData = "KD8TDF-9>APRS,WIDE2-1:/151916z" + testLat + "N/" + testLng + "WO005/0.013 V" + testVelocity + " A" + testAltitude + " H" + testHumidity + " P" + testPressure;
                     ParseIncomingData(testData);
                     break;
                 default:
                     break;
+            }
             testIteration++;
+        }
         public double GetRandomNumber(double minimum, double maximum)
+        {
             Random random = new Random();
             return random.NextDouble() * (maximum - minimum) + minimum;
+        }
         #endregion
+    }
+}
 //TODO: CSV logging, offline caching

Demo.WindowsForms/Source/Program.cs

➞

Show inline comments

 using System;
 using System.Collections;
 using System.Collections.Generic;
 using System.Diagnostics;
 using System.Net;
 using System.Net.NetworkInformation;
 using System.Runtime.InteropServices;
 using System.Text;
 using System.Windows.Forms;
 using System.IO;
 using System.IO.Ports;
 using System.Threading;
 namespace Demo.WindowsForms
+{
    class Program
+   {
       /// <summary>
       /// The main entry point for the application.
       /// </summary>
       ///
        // Instantiate the communications port
        private SerialPort port = new SerialPort("COM1", 9600, Parity.None, 8, StopBits.One);
        static MainForm windowGUI;
       [STAThread]
       static void Main()
+      {
           Application.SetCompatibleTextRenderingDefault(false);
           var program = new Program();
           windowGUI = new MainForm();
           program.SerialInitialize();
          Application.EnableVisualStyles();
-         Application.Run(new MainForm());
+         Application.Run(windowGUI);
+      }
       //inits the serial port and event handler
       private void SerialInitialize()
+      {
           // http://msmvps.com/blogs/coad/archive/2005/03/23/SerialPort-_2800_RS_2D00_232-Serial-COM-Port_2900_-in-C_2300_-.NET.aspx
           // Attach a method to be called when there is data waiting in the port's buffer
           port.DataReceived += new SerialDataReceivedEventHandler(ReceiveData);
           // Open the port for communications
           port.Open();
+      }
       //process received data
       private void ReceiveData(object sender, SerialDataReceivedEventArgs e)
+      {
           // Show all the incoming data in the port's buffer
           string testChk = port.ReadLine();
           windowGUI.ParseIncomingData(testChk);
+      }
+   }
    public class Dummy
+   {
+   }
    class IpInfo
+   {
       public string Ip;
       //public int Port;
       //public TcpState State;
       //public string ProcessName;
       public string CountryName;
       public string RegionName;
       public string City;
       public double Latitude;
       public double Longitude;
       public DateTime CacheTime;
       //public DateTime StatusTime;
       //public bool TracePoint;
+   }
    struct IpStatus
+   {
       private string countryName;
       public string CountryName
+      {
          get
+         {
             return countryName;
+         }
          set
+         {
             countryName = value;
+         }
+      }
       private int connectionsCount;
       public int ConnectionsCount
+      {
          get
+         {
             return connectionsCount;
+         }
          set
+         {
             connectionsCount = value;
+         }
+      }
+   }
    class DescendingComparer : IComparer<IpStatus>
+   {
       public bool SortOnlyCountryName = false;
       public int Compare(IpStatus x, IpStatus y)
+      {
          int r = 0;
          if(!SortOnlyCountryName)
+         {
             r = y.ConnectionsCount.CompareTo(x.ConnectionsCount);
+         }
          if(r == 0)
+         {
             return x.CountryName.CompareTo(y.CountryName);
+         }
          return r;
+      }
+   }
    class TraceRoute
+   {
       readonly static string Data = "aaaaaaaaaaaaaaaaaaaaaaaaaaaaaaaa";
       readonly static byte[] DataBuffer;
       readonly static int timeout = 8888;
       static TraceRoute()
+      {
          DataBuffer = Encoding.ASCII.GetBytes(Data);
+      }
       public static List<PingReply> GetTraceRoute(string hostNameOrAddress)
+      {
          var ret = GetTraceRoute(hostNameOrAddress, 1);
          return ret;
+      }
       private static List<PingReply> GetTraceRoute(string hostNameOrAddress, int ttl)
+      {
          List<PingReply> result = new List<PingReply>();
          using(Ping pinger = new Ping())
+         {
             PingOptions pingerOptions = new PingOptions(ttl, true);
             PingReply reply = pinger.Send(hostNameOrAddress, timeout, DataBuffer, pingerOptions);
             //Debug.WriteLine("GetTraceRoute[" + hostNameOrAddress + "]: " + reply.RoundtripTime + "ms " + reply.Address + " -> " + reply.Status);
             if(reply.Status == IPStatus.Success)
+            {
                result.Add(reply);
+            }
             else if(reply.Status == IPStatus.TtlExpired)
+            {
                // add the currently returned address
                result.Add(reply);
                // recurse to get the next address...
                result.AddRange(GetTraceRoute(hostNameOrAddress, ttl + 1));
+            }
             else
+            {
                Debug.WriteLine("GetTraceRoute: " + hostNameOrAddress + " - " + reply.Status);
+            }
+         }
          return result;
+      }
+   }
 #if !MONO
    #region Managed IP Helper API
    public struct TcpTable : IEnumerable<TcpRow>
+   {
       #region Private Fields
       private IEnumerable<TcpRow> tcpRows;
       #endregion
       #region Constructors
       public TcpTable(IEnumerable<TcpRow> tcpRows)
+      {
          this.tcpRows = tcpRows;
+      }
       #endregion
       #region Public Properties
       public IEnumerable<TcpRow> Rows
+      {
          get
+         {
             return this.tcpRows;
+         }
+      }
       #endregion
       #region IEnumerable<TcpRow> Members
       public IEnumerator<TcpRow> GetEnumerator()
+      {
          return this.tcpRows.GetEnumerator();
+      }
       #endregion
       #region IEnumerable Members
       IEnumerator IEnumerable.GetEnumerator()
+      {
          return this.tcpRows.GetEnumerator();
+      }
       #endregion
+   }
    public struct TcpRow
+   {
       #region Private Fields
       private IPEndPoint localEndPoint;
       private IPEndPoint remoteEndPoint;
       private TcpState state;
       private int processId;
       #endregion
       #region Constructors
       public TcpRow(IpHelper.TcpRow tcpRow)
+      {
          this.state = tcpRow.state;
          this.processId = tcpRow.owningPid;
          int localPort = (tcpRow.localPort1 << 8) + (tcpRow.localPort2) + (tcpRow.localPort3 << 24) + (tcpRow.localPort4 << 16);
          long localAddress = tcpRow.localAddr;
          this.localEndPoint = new IPEndPoint(localAddress, localPort);
          int remotePort = (tcpRow.remotePort1 << 8) + (tcpRow.remotePort2) + (tcpRow.remotePort3 << 24) + (tcpRow.remotePort4 << 16);
          long remoteAddress = tcpRow.remoteAddr;
          this.remoteEndPoint = new IPEndPoint(remoteAddress, remotePort);
+      }
       #endregion
       #region Public Properties
       public IPEndPoint LocalEndPoint
+      {
          get
+         {
             return this.localEndPoint;
+         }
+      }
       public IPEndPoint RemoteEndPoint
+      {
          get
+         {
             return this.remoteEndPoint;
+         }
+      }
       public TcpState State
+      {
          get
+         {
             return this.state;
+         }
+      }
       public int ProcessId
+      {
          get
+         {
             return this.processId;
+         }
+      }
       #endregion
+   }
    public static class ManagedIpHelper
+   {
       public static readonly List<TcpRow> TcpRows = new List<TcpRow>();
       #region Public Methods
       public static void UpdateExtendedTcpTable(bool sorted)
+      {
          TcpRows.Clear();
          IntPtr tcpTable = IntPtr.Zero;
          int tcpTableLength = 0;
          if(IpHelper.GetExtendedTcpTable(tcpTable, ref tcpTableLength, sorted, IpHelper.AfInet, IpHelper.TcpTableType.OwnerPidConnections, 0) != 0)
+         {
             try
+            {
                tcpTable = Marshal.AllocHGlobal(tcpTableLength);
                if(IpHelper.GetExtendedTcpTable(tcpTable, ref tcpTableLength, true, IpHelper.AfInet, IpHelper.TcpTableType.OwnerPidConnections, 0) == 0)
+               {
                   IpHelper.TcpTable table = (IpHelper.TcpTable)Marshal.PtrToStructure(tcpTable, typeof(IpHelper.TcpTable));
                   IntPtr rowPtr = (IntPtr)((long)tcpTable + Marshal.SizeOf(table.Length));
                   for(int i = 0; i < table.Length; ++i)
+                  {
                      TcpRows.Add(new TcpRow((IpHelper.TcpRow)Marshal.PtrToStructure(rowPtr, typeof(IpHelper.TcpRow))));
                      rowPtr = (IntPtr)((long)rowPtr + Marshal.SizeOf(typeof(IpHelper.TcpRow)));
+                  }
+               }
+            }
             finally
+            {
                if(tcpTable != IntPtr.Zero)
+               {
                   Marshal.FreeHGlobal(tcpTable);
+               }
+            }
+         }
+      }
       #endregion
+   }
    #endregion
    #region P/Invoke IP Helper API
    /// <summary>
    /// <see cref="http://msdn2.microsoft.com/en-us/library/aa366073.aspx"/>
    /// </summary>
    public static class IpHelper
+   {
       #region Public Fields
       public const string DllName = "iphlpapi.dll";
       public const int AfInet = 2;
       #endregion
       #region Public Methods
       /// <summary>
       /// <see cref="http://msdn2.microsoft.com/en-us/library/aa365928.aspx"/>
       /// </summary>
       [DllImport(IpHelper.DllName, SetLastError = true)]
       public static extern uint GetExtendedTcpTable(IntPtr tcpTable, ref int tcpTableLength, bool sort, int ipVersion, TcpTableType tcpTableType, int reserved);
       #endregion
       #region Public Enums
       /// <summary>
       /// <see cref="http://msdn2.microsoft.com/en-us/library/aa366386.aspx"/>
       /// </summary>
       public enum TcpTableType
+      {
          BasicListener,
          BasicConnections,
          BasicAll,
          OwnerPidListener,
          OwnerPidConnections,
          OwnerPidAll,
          OwnerModuleListener,
          OwnerModuleConnections,
          OwnerModuleAll,
+      }
       #endregion
       #region Public Structs
       /// <summary>
       /// <see cref="http://msdn2.microsoft.com/en-us/library/aa366921.aspx"/>
       /// </summary>
       [StructLayout(LayoutKind.Sequential)]
       public struct TcpTable
+      {
          public uint Length;
          public TcpRow row;
+      }
       /// <summary>
       /// <see cref="http://msdn2.microsoft.com/en-us/library/aa366913.aspx"/>
       /// </summary>
       [StructLayout(LayoutKind.Sequential)]
       public struct TcpRow
+      {
          public TcpState state;
          public uint localAddr;
          public byte localPort1;
          public byte localPort2;
          public byte localPort3;
          public byte localPort4;
          public uint remoteAddr;
          public byte remotePort1;
          public byte remotePort2;
          public byte remotePort3;
          public byte remotePort4;

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