private OpenNETCF.AppSettings.SettingGroup GetGroup(OpenNETCF.AppSettings.SettingsFile settingFile, string groupName) { if ( !settingFile.Groups.Contains(groupName) ) { settingFile.Groups.Add(groupName); } return settingFile.Groups[groupName]; }
protected void Open(OpenNETCF.IO.FileAccess access, OpenNETCF.IO.FileShare share) { m_hPort = FileEx.CreateFile(m_portName, access, share, IO.FileCreateDisposition.OpenExisting, 0); if((int)m_hPort == -1) { throw new Win32.WinAPIException("Cannot open driver", Marshal.GetLastWin32Error()); } }
/// <summary>Calculates distance of two positions in given unit</summary> /// <param name="pos1">A position</param> /// <param name="pos2">A position</param> /// <param name="unit">The unit to get result in</param> /// <returns>Distance between given points in given unit; 0 if <paramref name="unit"/> is not one of the <see cref="OpenNETCF.IO.Serial.GPS.Units"/> values.</returns> /// <exception cref="ArgumentException"><see cref="Latitude"/> or <paramref name="Longitude"/> of <paramref name="pos1"/> or <paramref name="pos2"/> is null.</exception> public static decimal CalculateDistance(GpsPosition pos1, GpsPosition pos2, OpenNETCF.IO.Serial.GPS.Units unit) { if (!pos1.Longitude.HasValue || !pos1.Latitude.HasValue) throw new ArgumentException(GPSTracka.Properties.Resources.err_PositionIsNull, "pos1"); if (!pos2.Longitude.HasValue || !pos2.Latitude.HasValue) throw new ArgumentException(GPSTracka.Properties.Resources.err_PositionIsNull, "pos2"); var ret = GpsPoint.CalculateDistance(new GpsPoint(pos1.Latitude.Value, pos1.Longitude.Value, pos1.Altitude), new GpsPoint(pos2.Latitude.Value, pos1.Longitude.Value, pos2.Altitude)); switch (unit) { case OpenNETCF.IO.Serial.GPS.Units.Kilometers: return ret; case OpenNETCF.IO.Serial.GPS.Units.Knots: return ret / 1.85200m; case OpenNETCF.IO.Serial.GPS.Units.Miles: return ret / 1.609344m; default: throw new ArgumentException("Invalid enum argument"); } }
public GpsAutoDiscoveryEventArgs(States state,string gpsport,OpenNETCF.IO.Serial.BaudRates gpsbauds) { this.state=state; this.gpsport=gpsport; this.gpsbauds=gpsbauds; }
protected virtual void OnAutoDiscovery(OpenNETCF.IO.Serial.GPS.AutoDiscoverStates state, string port, OpenNETCF.IO.Serial.BaudRates bauds) { if (GpsAutoDiscovery!=null) GpsAutoDiscovery(this,state,port,bauds); }
private void gps_Movement(object sender, OpenNETCF.IO.Serial.GPS.Movement mov) { OnMovement(new GpsMovementEventArgs(mov.SpeedKph)); }
/// <summary> /// Determines the location at which the content should be displayed, on the control, based on the indicated alignment value. /// </summary> /// <param name="alignment">The <see cref="T:OpenNETCF.Drawing.ContentAlignment"/> that represents how the content should be positioned on the control.</param> /// <param name="contentSize">The <see cref="T:System.Drawing.SizeF"/> containing the width and height of the content to display on the control.</param> /// <param name="clipRect">The <see cref="T:System.Drawing.Rectangle"/> that represents the allotted area in which the content may be displayed.</param> /// <returns>A <see cref="T:System.Drawing.Point"/> containing the x and y coordinates at which the content should be displayed.</returns> private Point GetLocationFromContentAlignment(OpenNETCF.Drawing.ContentAlignment alignment, SizeF contentSize, Rectangle clipRect) { byte x = 0; Point point = Point.Empty; // Vertical Alignment if ((((int)alignment) & 0xF00) > 0) // Bottom { point.Y = (int)(clipRect.Height - contentSize.Height); x = (byte)((int)alignment >> 8); } else if ((((int)alignment) & 0x0F0) > 0) // Middle { point.Y = (int)(((float)clipRect.Height / 2) - (contentSize.Height / 2)); x = (byte)((int)alignment >> 4); } else if ((((int)alignment) & 0x00F) > 0) // Top { point.Y = 0; x = (byte)((int)alignment); } // Horizontal Alignment if ((x & 0x2) > 0) // Center { point.X = (int)(((float)clipRect.Width / 2) - (contentSize.Width / 2)); } else if ((x & 0x1) > 0) // Left { point.X = 0; } else if ((x & 0x4) > 0) // Right { point.X = (int)(clipRect.Width - contentSize.Width); } // Ensure that the x coordinate is greater than or equal to zero. if (point.X < 0) { point.X = 0; } // Ensure that the y coordinate is greater than or equal to zero. if (point.Y < 0) { point.Y = 0; } // Offset the x and y coordinates based on the clip rectangle. point.X += clipRect.X; point.Y += clipRect.Y; return point; }
public OpenNETCF.ORM.Test.Entities.Book[] GetBooksOfType(OpenNETCF.ORM.Test.Entities.BookType type) { throw new NotImplementedException(); }
protected bool GetCommStatusFlag( OpenNETCF.IO.Serial.CommModemStatusFlags statusFlag ) { AssertOpenPort(); uint modemStatus = 0; _port.m_CommAPI.GetCommModemStatus( _port.hPort, ref modemStatus ); return ( (uint)statusFlag & modemStatus ) != 0; }
private void gps_GpsSentence(object sender, OpenNETCF.IO.Serial.GPS.GpsSentenceEventArgs e) { gpsTxt.Text = e.Sentence + " "; }
private void gps_GpsCommState(object sender, OpenNETCF.IO.Serial.GPS.GpsCommStateEventArgs e) { switch (e.State) { case OpenNETCF.IO.Serial.GPS.States.Running: gpsTxt.Text = "GPS Started"; Application.DoEvents(); break; case OpenNETCF.IO.Serial.GPS.States.Stopped: gpsTxt.Text = "GPS Stop"; Application.DoEvents(); break; } }
private void SaveValue(OpenNETCF.AppSettings.SettingsFile settingFile, string groupName, string key, object value) { OpenNETCF.AppSettings.Setting setting = this.GetGroup(settingFile, groupName).Settings[key]; setting.Value = value; }
private object LoadValue(OpenNETCF.AppSettings.SettingsFile settingFile, string groupName, string key, object defaultValue) { OpenNETCF.AppSettings.Setting setting = this.GetGroup(settingFile, groupName).Settings[key]; return (setting.Value != null ? setting.Value : defaultValue); }