/// <summary> /// Compares for reference AND value equality. /// </summary> /// <param name="obj">The object to compare with this instance.</param> /// <returns> /// <c>true</c> if both operands are equal; otherwise, <c>false</c>. /// </returns> public bool Equals(TrackJamTarget obj) { bool ivarsEqual = true; if (obj.GetType() != this.GetType()) { return(false); } if (!this._trackJam.Equals(obj._trackJam)) { ivarsEqual = false; } if (this._emitterID != obj._emitterID) { ivarsEqual = false; } if (this._beamID != obj._beamID) { ivarsEqual = false; } return(ivarsEqual); }
public virtual void Reflection(StringBuilder sb) { sb.AppendLine("<ElectronicEmissionBeamData>"); try { sb.AppendLine("<beamDataLength type=\"byte\">" + this._beamDataLength.ToString(CultureInfo.InvariantCulture) + "</beamDataLength>"); sb.AppendLine("<beamIDNumber type=\"byte\">" + this._beamIDNumber.ToString(CultureInfo.InvariantCulture) + "</beamIDNumber>"); sb.AppendLine("<beamParameterIndex type=\"ushort\">" + this._beamParameterIndex.ToString(CultureInfo.InvariantCulture) + "</beamParameterIndex>"); sb.AppendLine("<fundamentalParameterData>"); this._fundamentalParameterData.Reflection(sb); sb.AppendLine("</fundamentalParameterData>"); sb.AppendLine("<beamFunction type=\"byte\">" + this._beamFunction.ToString(CultureInfo.InvariantCulture) + "</beamFunction>"); sb.AppendLine("<trackJamTargets type=\"byte\">" + this._trackJamTargets.Count.ToString(CultureInfo.InvariantCulture) + "</trackJamTargets>"); sb.AppendLine("<highDensityTrackJam type=\"byte\">" + this._highDensityTrackJam.ToString(CultureInfo.InvariantCulture) + "</highDensityTrackJam>"); sb.AppendLine("<pad4 type=\"byte\">" + this._pad4.ToString(CultureInfo.InvariantCulture) + "</pad4>"); sb.AppendLine("<jammingModeSequence type=\"uint\">" + this._jammingModeSequence.ToString(CultureInfo.InvariantCulture) + "</jammingModeSequence>"); for (int idx = 0; idx < this._trackJamTargets.Count; idx++) { sb.AppendLine("<trackJamTargets" + idx.ToString(CultureInfo.InvariantCulture) + " type=\"TrackJamTarget\">"); TrackJamTarget aTrackJamTarget = (TrackJamTarget)this._trackJamTargets[idx]; aTrackJamTarget.Reflection(sb); sb.AppendLine("</trackJamTargets" + idx.ToString(CultureInfo.InvariantCulture) + ">"); } sb.AppendLine("</ElectronicEmissionBeamData>"); } catch (Exception e) { if (PduBase.TraceExceptions) { Trace.WriteLine(e); Trace.Flush(); } this.RaiseExceptionOccured(e); if (PduBase.ThrowExceptions) { throw e; } } }
public virtual int GetMarshalledSize() { int marshalSize = 0; marshalSize += 1; // this._beamDataLength marshalSize += 1; // this._beamIDNumber marshalSize += 2; // this._beamParameterIndex marshalSize += this._fundamentalParameterData.GetMarshalledSize(); // this._fundamentalParameterData marshalSize += 1; // this._beamFunction marshalSize += 1; // this._numberOfTrackJamTargets marshalSize += 1; // this._highDensityTrackJam marshalSize += 1; // this._pad4 marshalSize += 4; // this._jammingModeSequence for (int idx = 0; idx < this._trackJamTargets.Count; idx++) { TrackJamTarget listElement = (TrackJamTarget)this._trackJamTargets[idx]; marshalSize += listElement.GetMarshalledSize(); } return(marshalSize); }
public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { this._beamDataLength = dis.ReadUnsignedByte(); this._beamIDNumber = dis.ReadUnsignedByte(); this._beamParameterIndex = dis.ReadUnsignedShort(); this._fundamentalParameterData.Unmarshal(dis); this._beamFunction = dis.ReadUnsignedByte(); this._numberOfTrackJamTargets = dis.ReadUnsignedByte(); this._highDensityTrackJam = dis.ReadUnsignedByte(); this._pad4 = dis.ReadUnsignedByte(); this._jammingModeSequence = dis.ReadUnsignedInt(); for (int idx = 0; idx < this.NumberOfTrackJamTargets; idx++) { TrackJamTarget anX = new TrackJamTarget(); anX.Unmarshal(dis); this._trackJamTargets.Add(anX); } } catch (Exception e) { if (PduBase.TraceExceptions) { Trace.WriteLine(e); Trace.Flush(); } this.RaiseExceptionOccured(e); if (PduBase.ThrowExceptions) { throw e; } } } }
public virtual void Marshal(DataOutputStream dos) { if (dos != null) { try { dos.WriteUnsignedByte((byte)this._beamDataLength); dos.WriteUnsignedByte((byte)this._beamIDNumber); dos.WriteUnsignedShort((ushort)this._beamParameterIndex); this._fundamentalParameterData.Marshal(dos); dos.WriteUnsignedByte((byte)this._beamFunction); dos.WriteUnsignedByte((byte)this._trackJamTargets.Count); dos.WriteUnsignedByte((byte)this._highDensityTrackJam); dos.WriteUnsignedByte((byte)this._pad4); dos.WriteUnsignedInt((uint)this._jammingModeSequence); for (int idx = 0; idx < this._trackJamTargets.Count; idx++) { TrackJamTarget aTrackJamTarget = (TrackJamTarget)this._trackJamTargets[idx]; aTrackJamTarget.Marshal(dos); } } catch (Exception e) { if (PduBase.TraceExceptions) { Trace.WriteLine(e); Trace.Flush(); } this.RaiseExceptionOccured(e); if (PduBase.ThrowExceptions) { throw e; } } } }
/// <summary> /// Compares for reference AND value equality. /// </summary> /// <param name="obj">The object to compare with this instance.</param> /// <returns> /// <c>true</c> if both operands are equal; otherwise, <c>false</c>. /// </returns> public bool Equals(TrackJamTarget obj) { bool ivarsEqual = true; if (obj.GetType() != this.GetType()) { return false; } if (!this._trackJam.Equals(obj._trackJam)) { ivarsEqual = false; } if (this._emitterID != obj._emitterID) { ivarsEqual = false; } if (this._beamID != obj._beamID) { ivarsEqual = false; } return ivarsEqual; }