public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { this._recordType = dis.ReadUnsignedInt(); this._recordLength = dis.ReadUnsignedShort(); this._padding = dis.ReadUnsignedShort(); this._emitterNumber = dis.ReadUnsignedByte(); this._beamNumber = dis.ReadUnsignedByte(); this._stateIndicator = dis.ReadUnsignedByte(); this._padding2 = dis.ReadUnsignedInt(); this._azimuthOffset = dis.ReadFloat(); this._azimuthWidth = dis.ReadFloat(); this._azimuthPullRate = dis.ReadFloat(); this._azimuthPullAcceleration = dis.ReadFloat(); this._elevationOffset = dis.ReadFloat(); this._elevationWidth = dis.ReadFloat(); this._elevationPullRate = dis.ReadFloat(); this._elevationPullAcceleration = dis.ReadFloat(); this._padding3 = dis.ReadUnsignedInt(); } catch (Exception e) { #if DEBUG Trace.WriteLine(e); Trace.Flush(); #endif this.OnException(e); } } }
public new void unmarshal(DataInputStream dis) { base.unmarshal(dis); try { _requestID = dis.readUint(); _padding1 = dis.readUint(); _numberOfFixedDatumRecords = dis.readUint(); _numberOfVariableDatumRecords = dis.readUint(); for(int idx = 0; idx < _numberOfFixedDatumRecords; idx++) { FixedDatum anX = new FixedDatum(); anX.unmarshal(dis); _fixedDatums.Add(anX); }; for(int idx = 0; idx < _numberOfVariableDatumRecords; idx++) { VariableDatum anX = new VariableDatum(); anX.unmarshal(dis); _variableDatums.Add(anX); }; } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public new void unmarshal(DataInputStream dis) { base.unmarshal(dis); try { _requiredReliabilityService = dis.readByte(); _pad1 = dis.readUshort(); _pad2 = dis.readByte(); _requestID = dis.readUint(); _timeInterval = dis.readUint(); _numberOfFixedDatumRecords = dis.readUint(); _numberOfVariableDatumRecords = dis.readUint(); for(int idx = 0; idx < _numberOfFixedDatumRecords; idx++) { FixedDatum anX = new FixedDatum(); anX.unmarshal(dis); _fixedDatumRecords.Add(anX); }; for(int idx = 0; idx < _numberOfVariableDatumRecords; idx++) { VariableDatum anX = new VariableDatum(); anX.unmarshal(dis); _variableDatumRecords.Add(anX); }; } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { this._domain = dis.ReadUnsignedByte(); this._objectKind = dis.ReadUnsignedByte(); this._category = dis.ReadUnsignedByte(); this._subcategory = dis.ReadUnsignedByte(); } catch (Exception e) { #if DEBUG Trace.WriteLine(e); Trace.Flush(); #endif this.OnException(e); } } }
public void unmarshal(DataInputStream dis) { try { _systemDataLength = dis.readByte(); _numberOfBeams = dis.readByte(); _emissionsPadding2 = dis.readUshort(); _emitterSystem.unmarshal(dis); _location.unmarshal(dis); for(int idx = 0; idx < _numberOfBeams; idx++) { ElectronicEmissionBeamData anX = new ElectronicEmissionBeamData(); anX.unmarshal(dis); _beamDataRecords.Add(anX); }; } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public new void unmarshal(DataInputStream dis) { base.unmarshal(dis); try { _receivingEntityID.unmarshal(dis); _repairingEntityID.unmarshal(dis); _repair = dis.readUshort(); _padding2 = dis.readShort(); } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public new void unmarshal(DataInputStream dis) { base.unmarshal(dis); try { _entityId.unmarshal(dis); _radioId = dis.readUshort(); } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public void unmarshal(DataInputStream dis) { try { _horizontalDeflectionAngle = dis.readFloat(); _verticalDeflectionAngle = dis.readFloat(); } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public new void unmarshal(DataInputStream dis) { base.unmarshal(dis); try { _orginatingEntityID.unmarshal(dis); _infraredSignatureRepresentationIndex = dis.readUshort(); _acousticSignatureRepresentationIndex = dis.readUshort(); _radarCrossSectionSignatureRepresentationIndex = dis.readUshort(); _numberOfPropulsionSystems = dis.readUshort(); _numberOfVectoringNozzleSystems = dis.readUshort(); for(int idx = 0; idx < _numberOfPropulsionSystems; idx++) { PropulsionSystemData anX = new PropulsionSystemData(); anX.unmarshal(dis); _propulsionSystemData.Add(anX); }; for(int idx = 0; idx < _numberOfVectoringNozzleSystems; idx++) { VectoringNozzleSystemData anX = new VectoringNozzleSystemData(); anX.unmarshal(dis); _vectoringSystemData.Add(anX); }; } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public new void unmarshal(DataInputStream dis) { base.unmarshal(dis); try { _minefieldID.unmarshal(dis); _requestingEntityID.unmarshal(dis); _requestID = dis.readByte(); _numberOfMissingPdus = dis.readByte(); for(int idx = 0; idx < _numberOfMissingPdus; idx++) { EightByteChunk anX = new EightByteChunk(); anX.unmarshal(dis); _missingPduSequenceNumbers.Add(anX); }; } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { for (int idx = 0; idx < this._otherParameters.Length; idx++) { this._otherParameters[idx] = dis.ReadByte(); } } catch (Exception e) { #if DEBUG Trace.WriteLine(e); Trace.Flush(); #endif this.OnException(e); } } }
public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { this._domainInitialXi = dis.ReadDouble(); this._domainFinalXi = dis.ReadDouble(); this._domainPointsXi = dis.ReadUnsignedShort(); this._interleafFactor = dis.ReadUnsignedByte(); this._axisType = dis.ReadUnsignedByte(); this._numberOfPointsOnXiAxis = dis.ReadUnsignedShort(); this._initialIndex = dis.ReadUnsignedShort(); } catch (Exception e) { #if DEBUG Trace.WriteLine(e); Trace.Flush(); #endif this.OnException(e); } } }
public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { this._frequency = dis.ReadFloat(); this._frequencyRange = dis.ReadFloat(); this._effectiveRadiatedPower = dis.ReadFloat(); this._pulseRepetitionFrequency = dis.ReadFloat(); this._pulseWidth = dis.ReadFloat(); this._beamAzimuthCenter = dis.ReadFloat(); this._beamAzimuthSweep = dis.ReadFloat(); this._beamElevationCenter = dis.ReadFloat(); this._beamElevationSweep = dis.ReadFloat(); this._beamSweepSync = dis.ReadFloat(); } catch (Exception e) { #if DEBUG Trace.WriteLine(e); Trace.Flush(); #endif this.OnException(e); } } }
public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { this._systemType = dis.ReadUnsignedShort(); this._systemName = dis.ReadUnsignedShort(); this._systemMode = dis.ReadUnsignedByte(); this._changeOptions = dis.ReadUnsignedByte(); } catch (Exception e) { #if DEBUG Trace.WriteLine(e); Trace.Flush(); #endif this.OnException(e); } } }
public void unmarshal(DataInputStream dis) { try { _antennaLocation.unmarshal(dis); _relativeAntennaLocation.unmarshal(dis); } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public void unmarshal(DataInputStream dis) { try { _parameterIndex = dis.readUshort(); _parameterValue = dis.readShort(); } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public new void unmarshal(DataInputStream dis) { base.unmarshal(dis); try { _requestID = dis.readUint(); _requiredReliabilityService = dis.readByte(); _pad1 = dis.readUshort(); _pad2 = dis.readByte(); _eventType = dis.readUshort(); _time = dis.readUint(); _numberOfRecords = dis.readUint(); for(int idx = 0; idx < _numberOfRecords; idx++) { FourByteChunk anX = new FourByteChunk(); anX.unmarshal(dis); _recordIDs.Add(anX); }; } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { this._segmentNumber = dis.ReadUnsignedByte(); this._segmentModification = dis.ReadUnsignedByte(); this._generalSegmentAppearance = dis.ReadUnsignedShort(); this._specificSegmentAppearance = dis.ReadUnsignedShort(); this._segmentLocation.Unmarshal(dis); this._segmentOrientation.Unmarshal(dis); this._segmentLength = dis.ReadUnsignedShort(); this._segmentWidth = dis.ReadUnsignedShort(); this._segmentHeight = dis.ReadUnsignedShort(); this._segmentDepth = dis.ReadUnsignedShort(); } catch (Exception e) { #if DEBUG Trace.WriteLine(e); Trace.Flush(); #endif this.OnException(e); } } }
public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { this._associationType = dis.ReadUnsignedByte(); this._padding4 = dis.ReadUnsignedByte(); this._associatedEntityID.Unmarshal(dis); this._associatedLocation.Unmarshal(dis); } catch (Exception e) { #if DEBUG Trace.WriteLine(e); Trace.Flush(); #endif this.OnException(e); } } }
public new void unmarshal(DataInputStream dis) { base.unmarshal(dis); try { _controlType = dis.readByte(); _communicationsChannelType = dis.readByte(); _sourceEntityID.unmarshal(dis); _sourceCommunicationsDeviceID = dis.readByte(); _sourceLineID = dis.readByte(); _transmitPriority = dis.readByte(); _transmitLineState = dis.readByte(); _command = dis.readByte(); _masterEntityID.unmarshal(dis); _masterCommunicationsDeviceID = dis.readUshort(); _intercomParametersLength = dis.readUint(); for(int idx = 0; idx < _intercomParametersLength; idx++) { IntercomCommunicationsParameters anX = new IntercomCommunicationsParameters(); anX.unmarshal(dis); _intercomParameters.Add(anX); }; } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public new void unmarshal(DataInputStream dis) { base.unmarshal(dis); try { _realWorldTime.unmarshal(dis); _simulationTime.unmarshal(dis); _requestID = dis.readUint(); } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public void unmarshal(DataInputStream dis) { try { _acousticName = dis.readUshort(); _function = dis.readByte(); _acousticIdNumber = dis.readByte(); } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { this._recordType = dis.ReadUnsignedByte(); this._variableParameterFields1 = dis.ReadDouble(); this._variableParameterFields2 = dis.ReadUnsignedInt(); this._variableParameterFields3 = dis.ReadUnsignedShort(); this._variableParameterFields4 = dis.ReadUnsignedByte(); } catch (Exception e) { #if DEBUG Trace.WriteLine(e); Trace.Flush(); #endif this.OnException(e); } } }
public new void unmarshal(DataInputStream dis) { base.unmarshal(dis); try { _entityID.unmarshal(dis); _forceId = dis.readByte(); _numberOfArticulationParameters = dis.readByte(); _entityType.unmarshal(dis); _alternativeEntityType.unmarshal(dis); _entityLinearVelocity.unmarshal(dis); _entityLocation.unmarshal(dis); _entityOrientation.unmarshal(dis); _entityAppearance = dis.readUint(); _deadReckoningParameters.unmarshal(dis); _marking.unmarshal(dis); _capabilities = dis.readUint(); for(int idx = 0; idx < _numberOfArticulationParameters; idx++) { ArticulationParameter anX = new ArticulationParameter(); anX.unmarshal(dis); _articulationParameters.Add(anX); }; } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { this._x = dis.ReadFloat(); this._y = dis.ReadFloat(); this._z = dis.ReadFloat(); } catch (Exception e) { #if DEBUG Trace.WriteLine(e); Trace.Flush(); #endif this.OnException(e); } } }
public void unmarshal(DataInputStream dis) { try { _hour = dis.readUint(); _timePastHour = dis.readUint(); } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { this._recordType = dis.ReadUnsignedInt(); this._recordLength = dis.ReadUnsignedShort(); this._ioStatus = dis.ReadUnsignedByte(); this._ioLinkType = dis.ReadUnsignedByte(); this._ioEffect.Unmarshal(dis); this._ioEffectDutyCycle = dis.ReadUnsignedByte(); this._ioEffectDuration = dis.ReadUnsignedShort(); this._ioProcess = dis.ReadUnsignedShort(); this._padding = dis.ReadUnsignedShort(); } catch (Exception e) { #if DEBUG Trace.WriteLine(e); Trace.Flush(); #endif this.OnException(e); } } }
public new void unmarshal(DataInputStream dis) { base.unmarshal(dis); try { _emittingEntityId.unmarshal(dis); _eventID.unmarshal(dis); _location.unmarshal(dis); _systemID.unmarshal(dis); _pad2 = dis.readUshort(); _fundamentalParameters.unmarshal(dis); } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }
public virtual void Unmarshal(DataInputStream dis) { if (dis != null) { try { this._recordType = dis.ReadUnsignedShort(); this._recordLength = dis.ReadUnsignedShort(); this._recordSpecificField = dis.ReadUnsignedInt(); } catch (Exception e) { #if DEBUG Trace.WriteLine(e); Trace.Flush(); #endif this.OnException(e); } } }
public new void unmarshal(DataInputStream dis) { base.unmarshal(dis); try { _objectID.unmarshal(dis); _referencedObjectID.unmarshal(dis); _updateNumber = dis.readUshort(); _forceID = dis.readByte(); _modifications = dis.readByte(); _objectType.unmarshal(dis); _objectLocation.unmarshal(dis); _objectOrientation.unmarshal(dis); _objectAppearance = dis.readDouble(); _requesterID.unmarshal(dis); _receivingID.unmarshal(dis); _pad2 = dis.readUint(); } // end try catch(Exception e) { Trace.WriteLine(e); Trace.Flush(); } }