public ServiceDescriptionTable(byte[] data, int offset) { _Descs = new List <DescriptorBase>(); int i = 0; int tmp = 0; _Sid = data[(i++) + offset] << 8; _Sid |= data[(i++) + offset]; tmp = data[(i++) + offset]; _EitSched = (tmp & 0x02) != 0; _EitPresentFollowing = (tmp & 0x01) != 0; _Len = data[(i++) + offset] << 8; _Len |= data[(i++) + offset]; _RunningStatus = _Len >> 13; _FreeCA = (_Len & 0x1000) != 0; _Len &= 0x0fff; while (i < Length) { DescriptorBase desc = DescriptorFactory.CreateDescriptor(data, i + offset); _Descs.Add(desc); i += desc.Length; } }
/// <summary> /// Показать AccessDescriptorEditor /// </summary> /// <param name="ad">Ссылка на AccessDescriptor</param> /// <param name="selectedItemPanelName">Имя выбранной панели</param> public DescriptorCommonEditor(DescriptorBase ad, string selectedItemPanelName) { InitializeComponent(); FillPanelsList(); _assignedAccessDescriptor = ad; _accessDescriptorName.Text = _assignedAccessDescriptor.GetName(); _usePanelPowerFormula.IsChecked = _assignedAccessDescriptor.GetUsePanelPowerFormulaFlag(); _powerFormula.Text = _assignedAccessDescriptor.GetPowerFormula(); // Если в AccessDescriptor не указана панель - берём текущую, выделенную в дереве и устанавливаем её // в качестве панели AccessDescriptor (для ускорения заполнения полей) var selectedPanel = Profile.PanelStorage.GetPanelById(_assignedAccessDescriptor.GetAssignedPanelId()); if (selectedPanel != null) { _assignedPanel.Text = selectedPanel.Name; } else { if (selectedItemPanelName != null) { _assignedPanel.Text = selectedItemPanelName; } } Localize(); }
public static IElementDefinition Create(DescriptorBase descriptor, IElementConfiguration configuration) { switch (descriptor) { case AppenderDescriptor appenderDescriptor: return(CreateAppenderDefinition(appenderDescriptor, configuration)); case FilterDescriptor filterDescriptor: return(CreateFilterDefinition(filterDescriptor)); case LoggerDescriptor loggerDescriptor: return(CreateLoggerDefinition(loggerDescriptor, configuration)); case MappingDescriptor mappingDescriptor: return(new MappingDefinition()); case RendererDescriptor rendererDescriptor: return(new RendererDefinition()); case ParamDescriptor paramDescriptor: return(new ParamDefinition(configuration)); default: throw new ArgumentException($"Property definitions do not exist for {descriptor.GetType().Name}"); } }
internal static IWindowSizeLocation Create(DescriptorBase descriptor) { switch (descriptor) { case AppenderDescriptor appenderDescriptor: return(new AppenderWindowSizeLocation()); case FilterDescriptor filterDescriptor: return(CreateFilterSizeLocation(filterDescriptor)); case LoggerDescriptor loggerDescriptor: return(new LoggerWindowSizeLocation()); case MappingDescriptor mappingDescriptor: return(new FilterWindowSizeLocation()); case RendererDescriptor rendererDescriptor: return(new RendererWindowSizeLocation()); case ParamDescriptor paramDescriptor: return(new StringMatchFilterWindowSizeLocation()); default: throw new ArgumentException($"Window size & locations do not exist for {descriptor.GetType().Name}"); } }
private void AddDescriptorToList(DescriptorBase accessDescriptor) { var lbi = new ListBoxItem { Content = Profile.PanelStorage.GetPanelById(accessDescriptor.GetAssignedPanelId()).Name + "." + accessDescriptor.GetName(), Tag = accessDescriptor }; _dependendDescriptorList.Items.Add(lbi); }
protected ModelBase(XmlNode node, DescriptorBase descriptor) { Node = node; Descriptor = descriptor ?? throw new ArgumentNullException(nameof(descriptor)); if (Node != null && Node.Name != descriptor.ElementName) { throw new ArgumentException($"Specified node has incorrect element name ({Node.Name}) for {GetType().Name} ({descriptor.ElementName})."); } }
public void Create_ShouldCreateTheCorrectSizeLocation(DescriptorBase descriptorBase, string retentionKey, ResizeMode mode, SizeToContent sizeToContent, Size width, Size height) { IWindowSizeLocation windowSizeLocation = WindowSizeLocationFactory.Create(descriptorBase); Assert.AreEqual(retentionKey, windowSizeLocation.RetentionKey); Assert.AreEqual(mode, windowSizeLocation.ResizeMode); Assert.AreEqual(sizeToContent, windowSizeLocation.SizeToContent); Assert.AreEqual(width, windowSizeLocation.Width); Assert.AreEqual(height, windowSizeLocation.Height); }
private void FillConnectors(DescriptorBase accessDescriptor) { var conn = accessDescriptor.GetConnectors(this); foreach (var c in conn) { var assignment = (IAssignment)Activator.CreateInstance(GetAssignmentsType()); assignment.SetConnector(c); Connections.Add(assignment); } }
private GraphiteApiParameter(DescriptorBase descriptor, string name, TypeDescriptor type, MethodDescriptor method, bool urlParameter = false, bool querystring = false) { _descriptor = descriptor; Name = name; Type = type.Type; ActionMethod = method.MethodInfo; IsUrlParameter = urlParameter; IsQuerystring = querystring; IsOptional = querystring; }
private void Parse() { // ISO IEC 13818 seite 58 (pdf) _Descs.Clear(); _Streams.Clear(); _PcrPid = 0; int len = SectionSize - 4; // 4 byte CRC am Ende abziehen. int i = 8; // start der Daten. _PcrPid |= SectionData[i++] << 8; _PcrPid |= SectionData[i++]; _PcrPid &= 0x1fff; int piLen = 0; piLen |= SectionData[i++] << 8; piLen |= SectionData[i++]; piLen &= 0x0fff; // Ende der Daten: piLen += i; while (i < piLen) { DescriptorBase desc = DescriptorFactory.CreateDescriptor(SectionData, i); _Descs.Add(desc); i += desc.Length; } while (i < len) { ElementaryStream es = new ElementaryStream(SectionData, i); _Streams.Add(es); i += es.Length; } }
public LoggerModel(XmlNode node, bool isEnabled, DescriptorBase descriptor) : base(node, descriptor) { IsEnabled = isEnabled; }
public Guid RegisterAccessDescriptor(DescriptorBase ad) { _storage[ad.GetId()] = ad; return(ad.GetId()); }
public override void ImplementDeclaration(DescriptorBase container, System.Reflection.MemberInfo declSite) { }
public LampProcessor(DescriptorBase accessDescriptor) : base(accessDescriptor) { }
public ButtonPlusMinusProcessor(DescriptorBase accessDescriptor) : base(accessDescriptor) { }
public override void ImplementDeclaration(DescriptorBase container, PropertyInfo declSite) { ComponentDescriptor cd = container as ComponentDescriptor; if (cd == null) throw new ArgumentException("Cannot implement property " + declSite.Name + " as port because it is not declared inside a component!"); Channel boundChannel = (Channel)declSite.GetValue(cd.Instance, new object[0]); // Ignore unbound ports if (boundChannel == null) { AttributeInjector.InjectOnce( declSite.GetGetMethod(true), cd.Instance, new AssumeNotCalled()); return; } if (boundChannel is SignalBase) { SignalBase boundSignal = (SignalBase)boundChannel; SignalDescriptor boundSignalDesc = boundSignal.Descriptor; TypeDescriptor elType = boundSignalDesc.ElementType; Descriptor = new PortDescriptor( declSite, boundSignalDesc, elType, Direction); CreateChildPDs(Descriptor, boundSignalDesc); container.AddChild(Descriptor, Descriptor.DeclarationSite.Name); IPackageOrComponentDescriptor pcd = container as IPackageOrComponentDescriptor; if (pcd != null && elType.Package != null) pcd.AddDependency(elType.Package); IPortDescriptor port = cd.FindPort(declSite.Name); // Accesses to port-like properties are statically evaluated AttributeInjector.InjectOnce( declSite.GetGetMethod(true), cd.Instance, new StaticEvaluation(x => new SignalRef(port, SignalRef.EReferencedProperty.Instance))); } else { throw new NotImplementedException("Non-signal ports are not yet supported"); } }
public RootLoggerModel(XmlNode node, bool isEnabled, DescriptorBase descriptor) : base(node, isEnabled, descriptor) { }
protected NamedModel(XmlNode node, DescriptorBase descriptor) : base(node, descriptor) { }
public EncoderProcessor(DescriptorBase accessDescriptor) : base(accessDescriptor) { }
public AxisRangeProcessor(DescriptorBase accessDescriptor) : base(accessDescriptor) { }
public sealed override void ImplementDeclaration(DescriptorBase container, MemberInfo declSite) { ImplementDeclaration(container, (PropertyInfo)declSite); }
/// <summary> /// Implements the special treatment of a particular field or property. /// </summary> /// <param name="container">descriptor of containing component</param> /// <param name="declSite">found property</param> public abstract void ImplementDeclaration(DescriptorBase container, PropertyInfo declSite);
/// <summary> /// Implements the special treatment of a particular field or property. /// </summary> /// <param name="container">descriptor of containing component</param> /// <param name="declSite">found field or property</param> public virtual void ImplementDeclaration(DescriptorBase container, MemberInfo declSite) { throw new NotSupportedException("Declaration as member is not allowed"); }
private static bool IsSuitable(DescriptorBase accessDescriptor) { return(accessDescriptor is T); }
private void GenerateTypeDecls(DescriptorBase desc, IndentedTextWriter tw) { var types = desc.GetTypes().Where(t => (!t.IsConstrained || !t.IsComplete) && !t.CILType.IsPrimitive); var synthTypes = types.Where(t => !IsNotSynthesizable(t)); var nonSynthTypes = types.Where(t => IsNotSynthesizable(t)); foreach (var td in synthTypes) { tw.WriteLine("-- " + td.Name); GenerateTypeDecl(td, tw); } if (nonSynthTypes.Any()) { SwitchOffSynthesis(tw); foreach (var td in nonSynthTypes) { tw.WriteLine("-- " + td.Name); GenerateTypeDecl(td, tw); } SwitchOnSynthesis(tw); } }
bool IControlProcessor.IsAccessDesctiptorSuitable(DescriptorBase accessDescriptor) { return(IsSuitable(accessDescriptor)); }
public ButtonBinaryInputProcessor(DescriptorBase accessDescriptor) : base(accessDescriptor) { }
protected ControlProcessorBase(DescriptorBase accessDescriptor) { AccessDescriptor = accessDescriptor as T; AssignedAccessDescriptorId = accessDescriptor.GetId(); FillConnectors(accessDescriptor); }
public IndicatorProcessor(DescriptorBase accessDescriptor) : base(accessDescriptor) { }
public void Create_ShouldReturnTheCorrectDefinition(DescriptorBase descriptorBase, Type expectedDefinitionType) { Assert.IsInstanceOf(expectedDefinitionType, DefinitionFactory.Create(descriptorBase, Substitute.For <IElementConfiguration>())); }
public LedMatrixIndicatorProcessor(DescriptorBase accessDescriptor) : base(accessDescriptor) { FillSymbolLightedSegments(); LoadSegmentToPinMapping(); }
public SteppingMotorProcessor(DescriptorBase accessDescriptor) : base(accessDescriptor) { }
protected CollectorBase(DescriptorBase accessDescriptor) : base(accessDescriptor) { }