public static void Save(IValueSink sink, DeleteObjectRequest value) { sink.EnterSequence(); Value <ObjectId> .Save(sink, value.ObjectIdentifier); sink.LeaveSequence(); }
public static void Save(IValueSink sink, WritePropertyMultipleError value) { sink.EnterSequence(); Value<Error>.Save(sink, value.ErrorType); Value<ObjectPropertyReference>.Save(sink, value.FirstFailedWriteAttempt); sink.LeaveSequence(); }
public static void Save(IValueSink sink, RangeType value) { sink.EnterChoice((byte)value.Tag); switch (value.Tag) { case Tags.ByPosition: Value <ByPosition> .Save(sink, (ByPosition)value); break; case Tags.BySequenceNumber: Value <BySequenceNumber> .Save(sink, (BySequenceNumber)value); break; case Tags.ByTime: Value <ByTime> .Save(sink, (ByTime)value); break; default: throw new Exception(); } sink.LeaveChoice(); }
public static void Save(IValueSink sink, DeviceObjectReference value) { sink.EnterSequence(); Value<Option<ObjectId>>.Save(sink, value.DeviceIdentifier); Value<ObjectId>.Save(sink, value.ObjectIdentifier); sink.LeaveSequence(); }
public static void Save(IValueSink sink, UnconfirmedServiceRequest value) { sink.EnterChoice((byte)value.Tag); switch (value.Tag) { case Tags.IAm: Value <IAmWrapper> .Save(sink, (IAmWrapper)value); break; case Tags.IHave: Value <IHaveWrapper> .Save(sink, (IHaveWrapper)value); break; case Tags.UnconfirmedCOVNotification: Value <UnconfirmedCOVNotificationWrapper> .Save(sink, (UnconfirmedCOVNotificationWrapper)value); break; case Tags.UnconfirmedEventNotification: Value <UnconfirmedEventNotificationWrapper> .Save(sink, (UnconfirmedEventNotificationWrapper)value); break; case Tags.UnconfirmedPrivateTransfer: Value <UnconfirmedPrivateTransferWrapper> .Save(sink, (UnconfirmedPrivateTransferWrapper)value); break; case Tags.UnconfirmedTextMessage: Value <UnconfirmedTextMessageWrapper> .Save(sink, (UnconfirmedTextMessageWrapper)value); break; case Tags.TimeSynchronization: Value <TimeSynchronizationWrapper> .Save(sink, (TimeSynchronizationWrapper)value); break; case Tags.WhoHas: Value <WhoHasWrapper> .Save(sink, (WhoHasWrapper)value); break; case Tags.WhoIs: Value <WhoIsWrapper> .Save(sink, (WhoIsWrapper)value); break; case Tags.UtcTimeSynchronization: Value <UtcTimeSynchronizationWrapper> .Save(sink, (UtcTimeSynchronizationWrapper)value); break; default: throw new Exception(); } sink.LeaveChoice(); }
public static void Save(IValueSink sink, CreateObjectError value) { sink.EnterSequence(); Value<Error>.Save(sink, value.ErrorType); Value<uint>.Save(sink, value.FirstFailedElementNumber); sink.LeaveSequence(); }
public static void Save(IValueSink sink, VTDataAck value) { sink.EnterSequence(); Value<bool>.Save(sink, value.AllNewDataAccepted); Value<Option<uint>>.Save(sink, value.AcceptedOctetCount); sink.LeaveSequence(); }
public static void Save(IValueSink sink, ActionList value) { sink.EnterSequence(); Value <ReadOnlyArray <ActionCommand> > .Save(sink, value.Action); sink.LeaveSequence(); }
public static void Save(IValueSink sink, DailySchedule value) { sink.EnterSequence(); Value <ReadOnlyArray <TimeValue> > .Save(sink, value.DaySchedule); sink.LeaveSequence(); }
public static void Save(IValueSink sink, WhoHasRequest value) { sink.EnterSequence(); Value<Option<LimitsType>>.Save(sink, value.Limits); Value<ObjectType>.Save(sink, value.Object); sink.LeaveSequence(); }
public static void Save(IValueSink sink, EventParameter value) { sink.EnterChoice((byte)value.Tag); switch (value.Tag) { case Tags.ChangeOfBitstring: Value <ChangeOfBitstring> .Save(sink, (ChangeOfBitstring)value); break; case Tags.ChangeOfState: Value <ChangeOfState> .Save(sink, (ChangeOfState)value); break; case Tags.ChangeOfValue: Value <ChangeOfValue> .Save(sink, (ChangeOfValue)value); break; case Tags.CommandFailure: Value <CommandFailure> .Save(sink, (CommandFailure)value); break; case Tags.FloatingLimit: Value <FloatingLimit> .Save(sink, (FloatingLimit)value); break; case Tags.OutOfRange: Value <OutOfRange> .Save(sink, (OutOfRange)value); break; case Tags.ChangeOfLifeSafety: Value <ChangeOfLifeSafety> .Save(sink, (ChangeOfLifeSafety)value); break; case Tags.Extended: Value <Extended> .Save(sink, (Extended)value); break; case Tags.BufferReady: Value <BufferReady> .Save(sink, (BufferReady)value); break; case Tags.UnsignedRange: Value <UnsignedRange> .Save(sink, (UnsignedRange)value); break; default: throw new Exception(); } sink.LeaveChoice(); }
public static void Save(IValueSink sink, ReadPropertyConditionalRequest value) { sink.EnterSequence(); Value<ObjectSelectionCriteriaType>.Save(sink, value.ObjectSelectionCriteria); Value<Option<ReadOnlyArray<PropertyReference>>>.Save(sink, value.ListOfPropertyReferences); sink.LeaveSequence(); }
public static void Save(IValueSink sink, AtomicReadFileRequest value) { sink.EnterSequence(); Value<ObjectId>.Save(sink, value.FileIdentifier); Value<AccessMethodType>.Save(sink, value.AccessMethod); sink.LeaveSequence(); }
public static void Save(IValueSink sink, ReadAccessResult value) { sink.EnterSequence(); Value<ObjectId>.Save(sink, value.ObjectIdentifier); Value<Option<ReadOnlyArray<ListOfResultsType>>>.Save(sink, value.ListOfResults); sink.LeaveSequence(); }
public static void Save(IValueSink sink, TimeStamp value) { sink.EnterChoice((byte)value.Tag); switch (value.Tag) { case Tags.Time: Value <TimeWrapper> .Save(sink, (TimeWrapper)value); break; case Tags.SequenceNumber: Value <SequenceNumberWrapper> .Save(sink, (SequenceNumberWrapper)value); break; case Tags.DateTime: Value <DateTimeWrapper> .Save(sink, (DateTimeWrapper)value); break; default: throw new Exception(); } sink.LeaveChoice(); }
public static void Save(IValueSink sink, ReadAccessSpecification value) { sink.EnterSequence(); Value<ObjectId>.Save(sink, value.ObjectIdentifier); Value<ReadOnlyArray<PropertyReference>>.Save(sink, value.ListOfPropertyReferences); sink.LeaveSequence(); }
public static void Save(IValueSink sink, VTOpenAck value) { sink.EnterSequence(); Value <byte> .Save(sink, value.RemoteVTSessionIdentifier); sink.LeaveSequence(); }
public static void Save(IValueSink sink, Prescale value) { sink.EnterSequence(); Value<uint>.Save(sink, value.Multiplier); Value<uint>.Save(sink, value.ModuloDivide); sink.LeaveSequence(); }
public static void Save(IValueSink sink, TimeValue value) { sink.EnterSequence(); Value<Time>.Save(sink, value.Time); Value<GenericValue>.Save(sink, value.Value); sink.LeaveSequence(); }
public static void Save(IValueSink sink, DateAndTime value) { sink.EnterSequence(); Value<Date>.Save(sink, value.Date); Value<Time>.Save(sink, value.Time); sink.LeaveSequence(); }
public static void Save(IValueSink sink, ReadPropertyMultipleAck value) { sink.EnterSequence(); Value <ReadOnlyArray <ReadAccessResult> > .Save(sink, value.ListOfReadAccessResults); sink.LeaveSequence(); }
public static void Save(IValueSink sink, WhoIsRequest value) { sink.EnterSequence(); Value<Option<uint>>.Save(sink, value.DeviceInstanceRangeLowLimit); Value<Option<uint>>.Save(sink, value.DeviceInstanceRangeHighLimit); sink.LeaveSequence(); }
public static void Save(IValueSink sink, UTCTimeSynchronizationRequest value) { sink.EnterSequence(); Value <DateAndTime> .Save(sink, value.Time); sink.LeaveSequence(); }
public static void Save(IValueSink sink, PriorityValue value) { sink.EnterChoice((byte)value.Tag); switch (value.Tag) { case Tags.Null: Value <NullWrapper> .Save(sink, (NullWrapper)value); break; case Tags.Real: Value <RealWrapper> .Save(sink, (RealWrapper)value); break; case Tags.Binary: Value <BinaryWrapper> .Save(sink, (BinaryWrapper)value); break; case Tags.Integer: Value <IntegerWrapper> .Save(sink, (IntegerWrapper)value); break; case Tags.ConstructedValue: Value <ConstructedValueWrapper> .Save(sink, (ConstructedValueWrapper)value); break; default: throw new Exception(); } sink.LeaveChoice(); }
public static void Save(IValueSink sink, CalendarEntry value) { sink.EnterChoice((byte)value.Tag); switch (value.Tag) { case Tags.Date: Value <DateWrapper> .Save(sink, (DateWrapper)value); break; case Tags.DateRange: Value <DateRangeWrapper> .Save(sink, (DateRangeWrapper)value); break; case Tags.WeekNDay: Value <WeekNDayWrapper> .Save(sink, (WeekNDayWrapper)value); break; default: throw new Exception(); } sink.LeaveChoice(); }
public static void Save(IValueSink sink, CreateObjectRequest value) { sink.EnterSequence(); Value<ObjectSpecifierType>.Save(sink, value.ObjectSpecifier); Value<Option<ReadOnlyArray<PropertyValue>>>.Save(sink, value.ListOfInitialValues); sink.LeaveSequence(); }
public static void Save(IValueSink sink, VTOpenRequest value) { sink.EnterSequence(); Value<VTClass>.Save(sink, value.VtClass); Value<byte>.Save(sink, value.LocalVTSessionIdentifier); sink.LeaveSequence(); }
public static void Save(IValueSink sink, AuthenticateAck value) { sink.EnterSequence(); Value <uint> .Save(sink, value.ModifiedRandomNumber); sink.LeaveSequence(); }
public static void Save(IValueSink sink, VTCloseRequest value) { sink.EnterSequence(); Value <ReadOnlyArray <byte> > .Save(sink, value.ListOfRemoteVTSessionIdentifiers); sink.LeaveSequence(); }
public PriorityValue( IAvaloniaObject owner, StyledPropertyBase <T> property, IValueSink sink, IPriorityValueEntry <T> existing) : this(owner, property, sink) { existing.Reparent(this); _entries.Add(existing); if (existing is IBindingEntry binding && existing.Priority == BindingPriority.LocalValue) { // Bit of a special case here: if we have a local value binding that is being // promoted to a priority value we need to make sure the binding is subscribed // even if we've got a batch operation in progress because otherwise we don't know // whether the binding or a subsequent SetValue with local priority will win. A // notification won't be sent during batch update anyway because it will be // caught and stored for later by the ValueStore. binding.Start(ignoreBatchUpdate: true); } var v = existing.GetValue(); if (v.HasValue) { _value = v; Priority = existing.Priority; } }
public static void Save(IValueSink sink, ConfirmedEventNotificationRequest value) { sink.EnterSequence(); Value <uint> .Save(sink, value.ProcessIdentifier); Value <ObjectId> .Save(sink, value.InitiatingDeviceIdentifier); Value <ObjectId> .Save(sink, value.EventObjectIdentifier); Value <TimeStamp> .Save(sink, value.TimeStamp); Value <uint> .Save(sink, value.NotificationClass); Value <byte> .Save(sink, value.Priority); Value <EventType> .Save(sink, value.EventType); Value <Option <string> > .Save(sink, value.MessageText); Value <NotifyType> .Save(sink, value.NotifyType); Value <Option <bool> > .Save(sink, value.AckRequired); Value <Option <EventState> > .Save(sink, value.FromState); Value <EventState> .Save(sink, value.ToState); Value <Option <NotificationParameters> > .Save(sink, value.EventValues); sink.LeaveSequence(); }
public static void Save(IValueSink sink, ReinitializeDeviceRequest value) { sink.EnterSequence(); Value<ReinitializedStateOfDeviceType>.Save(sink, value.ReinitializedStateOfDevice); Value<Option<string>>.Save(sink, value.Password); sink.LeaveSequence(); }
public static void Save(IValueSink sink, RecipientProcess value) { sink.EnterSequence(); Value<Recipient>.Save(sink, value.Recipient); Value<uint>.Save(sink, value.ProcessIdentifier); sink.LeaveSequence(); }
public static void Save(IValueSink sink, AddressBinding value) { sink.EnterSequence(); Value<ObjectId>.Save(sink, value.DeviceObjectIdentifier); Value<NetworkAddress>.Save(sink, value.DeviceAddress); sink.LeaveSequence(); }
public static void Save(IValueSink sink, NetworkAddress value) { sink.EnterSequence(); Value<ushort>.Save(sink, value.NetworkNumber); Value<byte[]>.Save(sink, value.MacAddress); sink.LeaveSequence(); }
public static void Save(IValueSink sink, PropertyReference value) { sink.EnterSequence(); Value<PropertyIdentifier>.Save(sink, value.PropertyIdentifier); Value<Option<uint>>.Save(sink, value.PropertyArrayIndex); sink.LeaveSequence(); }
public static void Save(IValueSink sink, AtomicReadFileAck value) { sink.EnterSequence(); Value<bool>.Save(sink, value.EndOfFile); Value<AccessMethodType>.Save(sink, value.AccessMethod); sink.LeaveSequence(); }
public static void Save(IValueSink sink, GetEventInformationAck value) { sink.EnterSequence(); Value<ReadOnlyArray<ListOfEventSummariesType>>.Save(sink, value.ListOfEventSummaries); Value<bool>.Save(sink, value.MoreEvents); sink.LeaveSequence(); }
public static void Save(IValueSink sink, VTCloseError value) { sink.EnterSequence(); Value<Error>.Save(sink, value.ErrorType); Value<Option<ReadOnlyArray<byte>>>.Save(sink, value.ListOfVTSessionIdentifiers); sink.LeaveSequence(); }
public static void Save(IValueSink sink, GetEventInformationRequest value) { sink.EnterSequence(); Value <Option <ObjectId> > .Save(sink, value.LastReceivedObjectIdentifier); sink.LeaveSequence(); }
public static void Save(IValueSink sink, SetpointReference value) { sink.EnterSequence(); Value <Option <ObjectPropertyReference> > .Save(sink, value.Reference); sink.LeaveSequence(); }
public static void Save(IValueSink sink, SessionKey value) { sink.EnterSequence(); Value<byte[]>.Save(sink, value.Key); Value<NetworkAddress>.Save(sink, value.PeerAddress); sink.LeaveSequence(); }
public static void Save(IValueSink sink, WritePropertyMultipleRequest value) { sink.EnterSequence(); Value <ReadOnlyArray <WriteAccessSpecification> > .Save(sink, value.ListOfwriteAccessSpecifications); sink.LeaveSequence(); }
public static void Save(IValueSink sink, LogRecord value) { sink.EnterSequence(); Value<DateAndTime>.Save(sink, value.Timestamp); Value<LogDatumType>.Save(sink, value.LogDatum); Value<Option<StatusFlags>>.Save(sink, value.StatusFlags); sink.LeaveSequence(); }
public static void Save(IValueSink sink, SpecialEvent value) { sink.EnterSequence(); Value<PeriodType>.Save(sink, value.Period); Value<ReadOnlyArray<TimeValue>>.Save(sink, value.ListOfTimeValues); Value<uint>.Save(sink, value.EventPriority); sink.LeaveSequence(); }
public static void Save(IValueSink sink, VTDataRequest value) { sink.EnterSequence(); Value<byte>.Save(sink, value.VtSessionIdentifier); Value<byte[]>.Save(sink, value.VtNewData); Value<uint>.Save(sink, value.VtDataFlag); sink.LeaveSequence(); }
public static void Save(IValueSink sink, DeviceCommunicationControlRequest value) { sink.EnterSequence(); Value<Option<ushort>>.Save(sink, value.TimeDuration); Value<EnableDisableType>.Save(sink, value.EnableDisable); Value<Option<string>>.Save(sink, value.Password); sink.LeaveSequence(); }
public static void Save(IValueSink sink, IHaveRequest value) { sink.EnterSequence(); Value<ObjectId>.Save(sink, value.DeviceIdentifier); Value<ObjectId>.Save(sink, value.ObjectIdentifier); Value<string>.Save(sink, value.ObjectName); sink.LeaveSequence(); }
/// <summary> /// Saves an option value to a sink /// </summary> /// <param name="sink">The sink to save to</param> /// <param name="option">The option to save</param> public static void Save(IValueSink sink, Option <T> option) { sink.EnterOption(option.HasValue); if (option.HasValue) { Value <T> .Save(sink, option.Value); } }
public static void Save(IValueSink sink, VTSession value) { sink.EnterSequence(); Value<byte>.Save(sink, value.LocalVtSessionID); Value<byte>.Save(sink, value.RemoteVtSessionID); Value<NetworkAddress>.Save(sink, value.RemoteVtAddress); sink.LeaveSequence(); }
public static void Save(IValueSink sink, VTCloseError value) { sink.EnterSequence(); Value <Error> .Save(sink, value.ErrorType); Value <Option <ReadOnlyArray <byte> > > .Save(sink, value.ListOfVTSessionIdentifiers); sink.LeaveSequence(); }
public static void Save(IValueSink sink, WhoIsRequest value) { sink.EnterSequence(); Value <Option <uint> > .Save(sink, value.DeviceInstanceRangeLowLimit); Value <Option <uint> > .Save(sink, value.DeviceInstanceRangeHighLimit); sink.LeaveSequence(); }
public static void Save(IValueSink sink, BufferReady value) { sink.EnterSequence(); Value <uint> .Save(sink, value.NotificationThreshold); Value <uint> .Save(sink, value.PreviousNotificationCount); sink.LeaveSequence(); }
public static void Save(IValueSink sink, AddressBinding value) { sink.EnterSequence(); Value <ObjectId> .Save(sink, value.DeviceObjectIdentifier); Value <NetworkAddress> .Save(sink, value.DeviceAddress); sink.LeaveSequence(); }
public static void Save(IValueSink sink, ChangeOfBitstring value) { sink.EnterSequence(); Value <BitString56> .Save(sink, value.ReferencedBitstring); Value <StatusFlags> .Save(sink, value.StatusFlags); sink.LeaveSequence(); }
public static void Save(IValueSink sink, ChangeOfState value) { sink.EnterSequence(); Value <PropertyStates> .Save(sink, value.NewState); Value <StatusFlags> .Save(sink, value.StatusFlags); sink.LeaveSequence(); }
public static void Save(IValueSink sink, VTDataAck value) { sink.EnterSequence(); Value <bool> .Save(sink, value.AllNewDataAccepted); Value <Option <uint> > .Save(sink, value.AcceptedOctetCount); sink.LeaveSequence(); }
public static void Save(IValueSink sink, ChangeOfValue value) { sink.EnterSequence(); Value <NewValue> .Save(sink, value.NewValue); Value <StatusFlags> .Save(sink, value.StatusFlags); sink.LeaveSequence(); }
public static void Save(IValueSink sink, Error value) { sink.EnterSequence(); Value <ErrorClassType> .Save(sink, value.ErrorClass); Value <ErrorCodeType> .Save(sink, value.ErrorCode); sink.LeaveSequence(); }
public static void Save(IValueSink sink, PropertyReference value) { sink.EnterSequence(); Value <PropertyIdentifier> .Save(sink, value.PropertyIdentifier); Value <Option <uint> > .Save(sink, value.PropertyArrayIndex); sink.LeaveSequence(); }