internal new static TaskTravelDurationDataSet Read(StateBinaryReader reader, VehicleSchedule schedule) { TaskTravelDurationDataSet result = new TaskTravelDurationDataSet(); result.DoRead(reader, schedule); return(result); }
internal static Measurement Read(StateBinaryReader reader, VehicleSchedule schedule, VehicleScheduleData data) { RootTask task = schedule.GetTasks()[reader.ReadInt()]; Measurement result = MeasurementSurrogate.Read(reader, data, task); result.DoRead(reader, schedule, data); return(result); }
protected virtual void DoRead(StateBinaryReader reader, VehicleSchedule schedule) { int count = reader.ReadInt(); for (int i = 0; i < count; i++) { int taskIndex = reader.ReadInt(); RootTask task = schedule.GetTasks()[taskIndex]; _data.Add(task, DurationDataSet.Read(reader)); } }
protected override void DoRead(StateBinaryReader reader, VehicleSchedule schedule, VehicleScheduleData data) { base.DoRead(reader, schedule, data); _startDistance = null; if (ScheduleStopwatch.GetSchemaVersion(typeof(VehicleScheduleData)) >= 2) { if (reader.ReadBool()) { _startDistance = reader.ReadFloat(); } } }
internal void Read(StateBinaryReader reader) { _connectedBuildings.Clear(); _additionalDemands.Clear(); _connectedStations.Clear(); if (ScheduleStopwatch.GetSchemaVersion(typeof(StationDemandManager)) >= 3) { int count = reader.ReadInt(); for (int i = 0; i < count; i++) { VehicleStation station = reader.ReadBuilding <VehicleStation>(); UniqueList <IStorageNetworkNode> demandList = null; int countList = reader.ReadInt(); if (countList > 0 && station != null) { demandList = GetOrCreateDemandsList(station); } for (int j = 0; j < countList; j++) { IStorageNetworkNode node = reader.ReadBuilding <Building>() as IStorageNetworkNode; if (demandList != null && node != null) { demandList.Add(node); _connectedBuildings.Add(node.Building); } } } count = reader.ReadInt(); for (int i = 0; i < count; i++) { VehicleStation station = reader.ReadBuilding <VehicleStation>(); UniqueList <VehicleStation> stationList = null; int countList = reader.ReadInt(); if (countList > 0 && station != null) { stationList = GetOrCreateConnectedStationsList(station); } for (int j = 0; j < countList; j++) { VehicleStation connStation = reader.ReadBuilding <VehicleStation>(); if (stationList != null && connStation != null) { stationList.Add(connStation); _connectedBuildings.Add(connStation); } } } } }
internal void Read(StateBinaryReader reader) { _vehiclesData.Clear(); int count = reader.ReadInt(); for (int i = 0; i < count; i++) { int vehicleId = reader.ReadInt(); Vehicle vehicle = LazyManager <VehicleManager> .Current.FindById(vehicleId); _vehiclesData.Add(vehicle, VehicleScheduleData.Read(reader, vehicle)); } }
internal static VehicleScheduleData Read(StateBinaryReader reader, Vehicle vehicle) { VehicleScheduleData result = new VehicleScheduleData(vehicle) { _travelData = TaskTravelDurationDataSet.Read(reader, vehicle.Schedule), _stationLoadingData = TaskDurationDataSet.Read(reader, vehicle.Schedule) }; if (reader.ReadBool()) { result._measurement = Measurement.Read(reader, vehicle.Schedule, result); } return(result); }
internal static Measurement Read(StateBinaryReader reader, VehicleScheduleData data, RootTask task) { byte id = reader.ReadByte(); switch (id) { case 0: return(new StationLoadingMeasurement(data, task)); case 1: return(new TravelMeasurement(data, task)); } throw new ArgumentException("Unknown id " + id.ToString()); }
internal static DurationDataSet Read(StateBinaryReader reader) { DurationDataSet result = new DurationDataSet(); int count = reader.ReadInt(); for (int i = 0; i < count; i++) { TimeSpan span = new TimeSpan(reader.ReadLong()); result._durationData.Put(span); result._runningSum += span; } result._totalCount = reader.ReadInt(); result._totalSum = new TimeSpan(reader.ReadLong()); return(result); }
protected override void Read(StateBinaryReader reader) { _readVersion = null; try { int antVersion = SchemaVersion <ScheduleStopwatch> .Get(); if (antVersion < 3) { _readVersion = reader.ReadByte(); } VehicleScheduleDataManager.Current.Read(reader); LazyManager <StationDemandManager> .Current.Read(reader); } catch (Exception e) { logger.Log(UnityEngine.LogType.Error, "Error when loading ScheduleStopwatch data"); logger.LogException(e); } _readVersion = null; }
protected override void DoRead(StateBinaryReader reader, VehicleSchedule schedule) { base.DoRead(reader, schedule); if (ScheduleStopwatch.GetSchemaVersion(typeof(TaskDurationDataSet)) >= 2) { int count = reader.ReadInt(); for (int i = 0; i < count; i++) { int taskIndex = reader.ReadInt(); float value = reader.ReadFloat(); if (taskIndex > -1) { _distanceData.Add(schedule.GetTasks()[taskIndex], value); } else { ScheduleStopwatch.logger.Log(UnityEngine.LogType.Warning, "RootTask index = -1"); } } } }
protected override void Read(StateBinaryReader reader) { OldSchoolStyleManager.Current.Enabled = reader.ReadBool(); }
public void Read(StateBinaryReader reader) { }
protected virtual void DoRead(StateBinaryReader reader, VehicleSchedule schedule, VehicleScheduleData data) { startTime = new DateTime(reader.ReadLong()); }