'Declaration<DataMemberAttribute()> Public ReadOnly Property DataFields As DataFieldCollection
'UsageDim instance As StructuredDataType Dim value As DataFieldCollection value = instance.DataFields
[DataMember()] public DataFieldCollection DataFields {get;}
[DataMember()] public: property DataFieldCollection^ DataFields { DataFieldCollection^ get(); }
If any of the data fields is incomplete (its IsComplete property equals to false), the structured data type is also incomplete (the DataType.IsComplete property equals to false).
Relation of StructuredDataType and its constituents is shown on the following picture:
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This is one of the classes derived from DataType. The following picture shows the class hierarchy:
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// Shows how to process a data type, displaying some of its properties, recursively. using System; using System.Linq; using OpcLabs.BaseLib.DataTypeModel; using OpcLabs.EasyOpc.UA; using OpcLabs.EasyOpc.UA.OperationModel; using OpcLabs.EasyOpc.UA.Plugins.ComplexData; namespace UADocExamples.ComplexData._DataType { class Kind { public static void Main1() { // Define which server and node we will work with. UAEndpointDescriptor endpointDescriptor = "opc.tcp://opcua.demo-this.com:51210/UA/SampleServer"; // or "http://opcua.demo-this.com:51211/UA/SampleServer" (not in .NET Standard) // or "https://opcua.demo-this.com:51212/UA/SampleServer/" UANodeDescriptor nodeDescriptor = "nsu=http://test.org/UA/Data/;i=10239"; // [ObjectsFolder]/Data.Static.Scalar.StructureValue // Instantiate the client object. var client = new EasyUAClient(); // Read a node. We know that this node returns complex data, so we can type cast to UAGenericObject. UAGenericObject genericObject; try { genericObject = (UAGenericObject)client.ReadValue(endpointDescriptor, nodeDescriptor); } catch (UAException uaException) { Console.WriteLine("*** Failure: {0}", uaException.GetBaseException().Message); return; } // The data type is in the GenericData.DataType property of the UAGenericObject. DataType dataType = genericObject.GenericData.DataType; // Process the data type. We will inspect some of its properties, and dump them. ProcessDataType(dataType, maximumDepth: 2); } // Process the data type. It can be recursive in itself, so if you do not know the data type you are dealing with, // it is recommended to make safeguards against infinite looping or recursion - here, the maximumDepth. public static void ProcessDataType(DataType dataType, int maximumDepth) { if (maximumDepth == 0) return; Console.WriteLine(); Console.WriteLine("dataType.Name: {0}", dataType.Name); switch (dataType.Kind) { case DataTypeKind.Enumeration: Console.WriteLine("The data type is an enumeration."); var enumerationDataType = (EnumerationDataType) dataType; Console.WriteLine("It has {0} enumeration members.", enumerationDataType.EnumerationMembers.Count); Console.WriteLine("The names of the enumeration members are: {0}.", String.Join(", ", enumerationDataType.EnumerationMembers.Select(member => member.Name))); // Here you can process the members, or inspect SizeInBits etc. break; case DataTypeKind.Opaque: Console.WriteLine("The data type is opaque."); var opaqueDataType = (OpaqueDataType) dataType; Console.WriteLine("Its size is {0} bits.", opaqueDataType.SizeInBits); // There isn't much more you can learn about an opaque data type (well, it may have Description and // other common members). It is, after all, opaque... break; case DataTypeKind.Primitive: Console.WriteLine("The data type is primitive."); var primitiveDataType = (PrimitiveDataType) dataType; Console.WriteLine("Its .NET value type is \"{0}\".", primitiveDataType.ValueType); // There isn't much more you can learn about the primitive data type. break; case DataTypeKind.Sequence: Console.WriteLine("The data type is a sequence."); var sequenceDataType = (SequenceDataType) dataType; Console.WriteLine("Its length is {0} (-1 means that the length can vary).", sequenceDataType.Length); Console.WriteLine("A dump of the element data type follows."); ProcessDataType(sequenceDataType.ElementDataType, maximumDepth - 1); break; case DataTypeKind.Structured: Console.WriteLine("The data type is structured."); var structuredDataType = (StructuredDataType) dataType; Console.WriteLine("It has {0} data fields.", structuredDataType.DataFields.Count); Console.WriteLine("The names of the data fields are: {0}.", String.Join(", ", structuredDataType.DataFields.Select(field => field.Name))); Console.WriteLine("A dump of each of the data fields follows."); foreach (DataField dataField in structuredDataType.DataFields) { Console.WriteLine(); Console.WriteLine("dataField.Name: {0}", dataField.Name); // Note that every data field also has properties like IsLength, IsOptional, IsSwitch which might // be of interest but we are not dumping them here. ProcessDataType(dataField.DataType, maximumDepth - 1); } break; } } } }
// Shows how to process a data type, displaying some of its properties, recursively. class procedure Kind.Main; var Client: _EasyUAClient; DataType: OpcLabs_BaseLib_TLB._DataType; EndpointDescriptor: string; GenericObject: _UAGenericObject; NodeDescriptor: string; begin // Define which server and node we will work with. EndpointDescriptor := 'http://opcua.demo-this.com:51211/UA/SampleServer'; //or 'https://opcua.demo-this.com:51212/UA/SampleServer/'; //or 'opc.tcp://opcua.demo-this.com:51210/UA/SampleServer'; NodeDescriptor := 'nsu=http://test.org/UA/Data/;i=10239'; // [ObjectsFolder]/Data.Static.Scalar.StructureValue // Instantiate the client object Client := CoEasyUAClient.Create; // Read a node. We know that this node returns complex data, so we can type cast to UAGenericObject. try GenericObject := IUnknown(Client.ReadValue(EndpointDescriptor, NodeDescriptor)) as _UAGenericObject; except on E: EOleException do begin WriteLn(Format('*** Failure: %s', [E.GetBaseException.Message])); Exit; end; end; // The data type is in the GenericData.DataType property of the UAGenericObject. DataType := genericObject.GenericData.DataType; // Process the data type. We will inspect some of its properties, and dump them. ProcessDataType(DataType, 2); end; // Process the data type. It can be recursive in itself, so if you do not know the data type you are dealing with, // it is recommended to make safeguards against infinite looping or recursion - here, the maximumDepth. class procedure Kind.ProcessDataType(DataType: OpcLabs_BaseLib_TLB._DataType; MaximumDepth: Cardinal); var Count: Cardinal; DataField: _DataField; Element: OleVariant; ElementEnumerator: IEnumVARIANT; EnumerationMember: _EnumerationMember; EnumerationDataType: _EnumerationDataType; FieldNames: string; First: boolean; MemberNames: string; OpaqueDataType: _OpaqueDataType; PrimitiveDataType: _PrimitiveDataType; SequenceDataType: _SequenceDataType; StructuredDataType: _StructuredDataType; TypeName: WideString; begin if MaximumDepth = 0 then Exit; WriteLn; WriteLn('dataType.Name: ', DataType.Name); case DataType.Kind of DataTypeKind_Enumeration: begin WriteLn('The data type is an enumeration.'); EnumerationDataType := DataType as _EnumerationDataType; WriteLn(Format('It has %s enumeration members.', [EnumerationDataType.EnumerationMembers.Count])); ElementEnumerator := EnumerationDataType.EnumerationMembers.GetEnumerator; MemberNames := ''; First := True; while (ElementEnumerator.Next(1, Element, Count) = S_OK) do begin EnumerationMember := IUnknown(Element) as _EnumerationMember; if First then First := False else MemberNames := MemberNames + ', '; MemberNames := MemberNames + EnumerationMember.Name; end; WriteLn(Format('The names of the enumeration members are: %s.', [MemberNames])); // Here you can process the members, or inspect SizeInBits etc. end; DataTypeKind_Opaque: begin WriteLn('The data type is opaque.'); OpaqueDataType := DataType as _OpaqueDataType; WriteLn(Format('Its size is %s bits.', [OpaqueDataType.SizeInBits])); // There isn't much more you can learn about an opaque data type (well, it may have Description and // other common members). It is, after all, opaque... end; DataTypeKind_Primitive: begin WriteLn('The data type is primitive.'); PrimitiveDataType := DataType as _PrimitiveDataType; PrimitiveDataType.ValueType.Get_ToString(TypeName); WriteLn(Format('Its .NET value type is "%s".', [TypeName])); // There isn't much more you can learn about the primitive data type. end; DataTypeKind_Sequence: begin WriteLn('The data type is a sequence.'); SequenceDataType := DataType as _SequenceDataType; WriteLn(Format('Its length is %s (-1 means that the length can vary).', [SequenceDataType.Length.ToString])); WriteLn('A dump of the element data type follows.'); ProcessDataType(SequenceDataType.ElementDataType, MaximumDepth - 1); end; DataTypeKind_Structured: begin WriteLn('The data type is structured.'); StructuredDataType := DataType as _StructuredDataType; WriteLn(Format('It has %s data fields.', [StructuredDataType.DataFields.Count.ToString])); ElementEnumerator := StructuredDataType.DataFields.GetEnumerator; FieldNames := ''; First := True; while (ElementEnumerator.Next(1, Element, Count) = S_OK) do begin if First then First := False else FieldNames := FieldNames + ', '; FieldNames := FieldNames + Element.Name; end; WriteLn(Format('The names of the data fields are: %s.', [FieldNames])); WriteLn('A dump of each of the data fields follows.'); ElementEnumerator := StructuredDataType.DataFields.GetEnumerator; while (ElementEnumerator.Next(1, Element, Count) = S_OK) do begin DataField := IUnknown(Element) as _DataField; WriteLn; WriteLn(Format('dataField.Name: %s', [DataField.Name])); // Note that every data field also has properties like IsLength, IsOptional, IsSwitch which might // be of interest but we are not dumping them here. ProcessDataType(DataField.DataType, MaximumDepth - 1); end; end; end; end;
' Shows how to process a data type, displaying some of its properties, recursively. Imports System Imports System.Linq Imports OpcLabs.BaseLib.DataTypeModel Imports OpcLabs.EasyOpc.UA Imports OpcLabs.EasyOpc.UA.OperationModel Imports OpcLabs.EasyOpc.UA.Plugins.ComplexData Namespace UADocExamples.ComplexData._DataType Friend Class Kind Public Shared Sub Main1() ' Define which server we will work with. Dim endpointDescriptor As UAEndpointDescriptor = "opc.tcp://opcua.demo-this.com:51210/UA/SampleServer" ' or "http://opcua.demo-this.com:51211/UA/SampleServer" (not in .NET Standard) ' or "https://opcua.demo-this.com:51212/UA/SampleServer/" ' Define which node we will work with. Dim nodeDescriptor As UANodeDescriptor = _ "nsu=http://test.org/UA/Data/;i=10239" ' [ObjectsFolder]/Data.Static.Scalar.StructureValue ' Instantiate the client object. Dim client = New EasyUAClient ' Read a node. We know that this node returns complex data, so we can type cast to UAGenericObject. Dim genericObject As UAGenericObject Try genericObject = CType(client.ReadValue(endpointDescriptor, nodeDescriptor), UAGenericObject) Catch uaException As UAException Console.WriteLine("*** Failure: {0}", uaException.GetBaseException.Message) Exit Sub End Try ' The data type is in the GenericData.DataType property of the UAGenericObject. Dim dataType As DataType = genericObject.GenericData.DataType ' Process the data type. We will inspect some of its properties, and dump them. ProcessDataType(dataType, maximumDepth:=2) End Sub ' Process the data type. It can be recursive in itself, so if you do not know the data type you are dealing with, ' it is recommended to make safeguards against infinite looping or recursion - here, the maximumDepth. Public Shared Sub ProcessDataType(dataType As DataType, ByVal maximumDepth As Integer) If (maximumDepth = 0) Then Return End If Console.WriteLine() Console.WriteLine("dataType.Name: {0}", dataType.Name) Select Case (dataType.Kind) Case DataTypeKind.Enumeration Console.WriteLine("The data type is an enumeration.") Dim enumerationDataType = CType(dataType, EnumerationDataType) Console.WriteLine("It has {0} enumeration members.", enumerationDataType.EnumerationMembers.Count) Console.WriteLine("The names of the enumeration members are: {0}.", _ String.Join(", ", enumerationDataType.EnumerationMembers.Select(Function(member) member.Name))) ' Here you can process the members, or inspect SizeInBits etc. Case DataTypeKind.Opaque Console.WriteLine("The data type is opaque.") Dim opaqueDataType = CType(dataType, OpaqueDataType) Console.WriteLine("Its size is {0} bits.", opaqueDataType.SizeInBits) ' There isn't much more you can learn about an opaque data type (well, it may have Description and ' other common members). It is, after all, opaque... Case DataTypeKind.Primitive Console.WriteLine("The data type is primitive.") Dim primitiveDataType = CType(dataType, PrimitiveDataType) Console.WriteLine("Its .NET value type is ""{0}"".", primitiveDataType.ValueType) ' There isn't much more you can learn about the primitive data type. Case DataTypeKind.Sequence Console.WriteLine("The data type is a sequence.") Dim sequenceDataType = CType(dataType, SequenceDataType) Console.WriteLine("Its length is {0} (-1 means that the length can vary).", sequenceDataType.Length) Console.WriteLine("A dump of the element data type follows.") ProcessDataType(sequenceDataType.ElementDataType, (maximumDepth - 1)) Case DataTypeKind.Structured Console.WriteLine("The data type is structured.") Dim structuredDataType = CType(dataType, StructuredDataType) Console.WriteLine("It has {0} data fields.", structuredDataType.DataFields.Count) Console.WriteLine("The names of the data fields are: {0}.", _ String.Join(", ", structuredDataType.DataFields.Select(Function(field) field.Name))) Console.WriteLine("A dump of each of the data fields follows.") For Each dataField As DataField In structuredDataType.DataFields Console.WriteLine() Console.WriteLine("dataField.Name: {0}", dataField.Name) ' Note that every data field also has properties like IsLength, IsOptional, IsSwitch which might ' be of interest but we are not dumping them here. ProcessDataType(dataField.DataType, (maximumDepth - 1)) Next End Select End Sub End Class End Namespace
Target Platforms: .NET Framework: Windows 7 with SP1, Windows Server 2012; .NET Core: Linux, Microsoft Windows