public void Copy(Source_Antenna from) { this.port = from.Port; this.antennaResult.Copy(from.antennaResult); this.antennaConfig.Copy(from.antennaConfig); }
public override object ConvertFrom ( System.ComponentModel.ITypeDescriptorContext context, System.Globalization.CultureInfo culture, Object value ) { if (String.IsNullOrEmpty(value as string)) { return(null); // TODO : supply err msg } String[] antennaData = (value as String).Split(new Char[] { ',' }); if (null == antennaData) { return(null); // TODO : supply err msg ~ improper arg } if (7 != antennaData.Length) // 8 with threshold value { return(null); // TODO : supply err msg ~ improper arg count } try { // TODO : split out parsing ? to better define which parms bad... Source_Antenna antenna = new Source_Antenna(byte.Parse(antennaData[0])); rfid.Constants.AntennaPortState state = (rfid.Constants.AntennaPortState)Enum.Parse ( typeof(rfid.Constants.AntennaPortState), antennaData[1].ToUpper( ) ); antenna.State = state; antenna.PowerLevel = UInt16.Parse(antennaData[2]); antenna.DwellTime = UInt16.Parse(antennaData[3]); antenna.NumberInventoryCycles = UInt16.Parse(antennaData[4]); antenna.PhysicalPort = byte.Parse(antennaData[5]); // Currently Rx is explicitly tied to Tx so cannot be set - ignore val // antenna.PhysicalRxPort = UInt32.Parse( antennaData[ 6 ] ); // now using global threshold not per antenna... // antenna.AntennaSenseThreshold = UInt32.Parse( antennaData[ 7 ] ); antenna.AntennaSenseThreshold = 0; // if using Source_Antenna to store, uses glob var return(antenna); } catch (Exception) { // TODO : supply err msg ~ bad arg return(null); } }
public override object ConvertFrom( System.ComponentModel.ITypeDescriptorContext context, System.Globalization.CultureInfo culture, Object value ) { if ( String.IsNullOrEmpty( value as string ) ) { return null; // TODO : supply err msg } String[ ] antennaData = ( value as String ).Split( new Char[ ] { ',' } ); if ( null == antennaData ) { return null; // TODO : supply err msg ~ improper arg } if ( 7 != antennaData.Length ) // 8 with threshold value { return null; // TODO : supply err msg ~ improper arg count } try { // TODO : split out parsing ? to better define which parms bad... Source_Antenna antenna = new Source_Antenna( byte.Parse( antennaData[ 0 ] ) ); rfid.Constants.AntennaPortState state = ( rfid.Constants.AntennaPortState ) Enum.Parse ( typeof( rfid.Constants.AntennaPortState ), antennaData[ 1 ].ToUpper( ) ); antenna.State = state; antenna.PowerLevel = UInt16.Parse(antennaData[2]); antenna.DwellTime = UInt16.Parse( antennaData[ 3 ] ); antenna.NumberInventoryCycles = UInt16.Parse( antennaData[ 4 ] ); antenna.PhysicalPort = byte.Parse( antennaData[ 5 ] ); // Currently Rx is explicitly tied to Tx so cannot be set - ignore val // antenna.PhysicalRxPort = UInt32.Parse( antennaData[ 6 ] ); // now using global threshold not per antenna... // antenna.AntennaSenseThreshold = UInt32.Parse( antennaData[ 7 ] ); antenna.AntennaSenseThreshold = 0; // if using Source_Antenna to store, uses glob var return antenna; } catch ( Exception ) { // TODO : supply err msg ~ bad arg return null; } }
public Source_Antenna ( Source_Antenna antenna ) : this(0) { this.Copy(antenna); }
public bool Equals(Source_Antenna rhs) { if (null == (System.Object)rhs) { return(false); } return (this.port == rhs.port && this.antennaResult.Equals(rhs.antennaResult) && this.antennaConfig.Equals(rhs.antennaResult)); }
public override bool Equals(System.Object obj) { if (null == obj) { return(false); } Source_Antenna rhs = obj as Source_Antenna; if (null == (System.Object)rhs) { return(false); } return(this.Equals(rhs)); }
public AntennaEditForm( LakeChabotReader reader, Source_Antenna antenna ) { this.reader = reader; this.antennaMaster = antenna; this.antennaActive = new Source_Antenna( antenna ); InitializeComponent( ); //Logic Port antennaNumberLabel.Text = String.Format( "Antenna {0}", antennaActive.Port ); //Status foreach (rfid.Constants.AntennaPortState item in Enum.GetValues( typeof( rfid.Constants.AntennaPortState ) )) { state.Items.Add(item); } state.Items.Remove(rfid.Constants.AntennaPortState.UNKNOWN); state.SelectedIndex = antennaActive.State == rfid.Constants.AntennaPortState.DISABLED ? 0 : 1; state.SelectedValueChanged += state_SelectedValueChanged; //clark. Set the limit of port number Aotomatically PhysicalPort.Minimum = Source_Antenna.PHY_MINIMUM; PhysicalPort.Maximum = Source_Antenna.PHY_MAXIMUM; PhysicalPort.DataBindings.Add( "Value", this.antennaActive, "PhysicalPort" ); dwellTime.Minimum = 0; dwellTime.Maximum = 1000000; dwellTime.DataBindings.Add( "Value", this.antennaActive, "DwellTime" ); inventoryCycles.Minimum = 0; inventoryCycles.Maximum = 1000000; inventoryCycles.DataBindings.Add( "Value", this.antennaActive, "NumberInventoryCycles" ); //Clark 2011.2.21 Cpoied from R1000 Tracer powerLevel.Minimum = Source_Antenna.POWER_MINIMUM; powerLevel.Maximum = Source_Antenna.POWER_MAXIMUM; powerLevel.DataBindings.Add( "Value", this.antennaActive, "PowerLevel" ); }
public override object ConvertTo ( System.ComponentModel.ITypeDescriptorContext context, System.Globalization.CultureInfo culture, object value, Type destinationType ) { if (typeof(string) == destinationType) { Source_Antenna antenna = value as Source_Antenna; if (null == antenna) { throw new ArgumentException("Expected a Source_Antenna", "value"); } StringBuilder sb = new StringBuilder( ); sb.AppendFormat ( "{0},{1},{2},{3},{4},{5}", // ,{7}", if with threshold value antenna.Port, antenna.State, antenna.PowerLevel, antenna.DwellTime, antenna.NumberInventoryCycles, antenna.PhysicalPort //antenna.AntennaSenseThreshold ); return(sb.ToString( )); } return(base.ConvertTo(context, culture, value, destinationType)); }
public Source_Antenna( Source_Antenna antenna ) : this(0) { this.Copy( antenna ); }
public bool Equals( Source_Antenna rhs ) { if ( null == ( System.Object ) rhs ) { return false; } return this.port == rhs.port && this.antennaResult.Equals( rhs.antennaResult ) && this.antennaConfig.Equals( rhs.antennaResult ); }
public void Copy( Source_Antenna from ) { this.port = from.Port; this.antennaResult.Copy( from.antennaResult ); this.antennaConfig.Copy( from.antennaConfig ); }