// Shows how to obtain object describing the data type of complex data node with OPC UA Complex Data plug-in.
using System;
using Microsoft.Extensions.DependencyInjection;
using OpcLabs.BaseLib.DataTypeModel;
using OpcLabs.BaseLib.OperationModel.Generic;
using OpcLabs.EasyOpc.UA;
using OpcLabs.EasyOpc.UA.AddressSpace;
using OpcLabs.EasyOpc.UA.AddressSpace.Standard;
using OpcLabs.EasyOpc.UA.InformationModel;
using OpcLabs.EasyOpc.UA.Plugins.ComplexData;
namespace UADocExamples.ComplexData._IEasyUAClientComplexData
{
class ResolveDataType
{
public static void Main1()
{
// Define which server we will work with.
UAEndpointDescriptor endpointDescriptor =
"opc.tcp://opcua.demo-this.com:51210/UA/SampleServer";
// or "http://opcua.demo-this.com:51211/UA/SampleServer" (currently not supported)
// or "https://opcua.demo-this.com:51212/UA/SampleServer/"
// Instantiate the client object.
var client = new EasyUAClient();
// Obtain the data type ID.
//
// In many cases, you would be able to obtain the data type ID of a particular node by reading its DataType
// attribute, or easier, by calling the extension method ReadDataType on the IEasyUAClient interface.
// The sample server, however, shows a more advanced approach in which the data type ID refers to an abstract
// data type, and the actual values are then sub-types of this base data type. This abstract data type does not
// have any encodings associated with it and it is therefore not possible to extract its description from the
// server. We therefore use a hard-coded data type ID for one of the sub-types in this example.
//
// The code to obtain the data type ID for given node would normally look like this:
// UANodeId dataTypeId = client.ReadDataType(
// endpointDescriptor,
// "nsu=http://test.org/UA/Data/ ;i=10239"); // [ObjectsFolder]/Data.Static.Scalar.StructureValue
//
UANodeId dataTypeId = "nsu=http://test.org/UA/Data/ ;i=9440"; // ScalarValueDataType
// Get the IEasyUAClientComplexData service from the client. This is needed for advanced complex data
// operations.
IEasyUAClientComplexData complexData = client.GetService<IEasyUAClientComplexData>();
// Resolve the data type ID to the data type object, containing description of the data type.
ValueResult<DataType> dataTypeResult = complexData.ResolveDataType(
new UAModelNodeDescriptor(endpointDescriptor, dataTypeId),
UABrowseNames.DefaultBinary);
// Check if the operation succeeded. Use the ThrowIfFailed method instead if you want exception be thrown.
if (!dataTypeResult.Succeeded)
{
Console.WriteLine("*** Failure: {0}", dataTypeResult.ErrorMessageBrief);
return;
}
// The actual data type is in the Value property.
// Display basic information about what we have obtained.
Console.WriteLine(dataTypeResult.Value);
// If we want to see the whole hierarchy of the received data type, we can format it with the "V" (verbose)
// specifier. In the debugger, you can view the same by displaying the private DebugView property.
Console.WriteLine();
Console.WriteLine("{0:V}", dataTypeResult.Value);
// For processing the internals of the data type, refer to examples for GenericData class.
// Example output (truncated):
//
//ScalarValueDataType = structured
//
//ScalarValueDataType = structured
// [BooleanValue] Boolean = primitive(System.Boolean)
// [ByteStringValue] ByteString = primitive(System.Byte[])
// [ByteValue] Byte = primitive(System.Byte)
// [DateTimeValue] DateTime = primitive(System.DateTime)
// [DoubleValue] Double = primitive(System.Double)
// [EnumerationValue] Int32 = primitive(System.Int32)
// [ExpandedNodeIdValue] ExpandedNodeId = structured
// [ByteString] optional ByteStringNodeId = structured
// [Identifier] ByteString = primitive(System.Byte[])
// [NamespaceIndex] UInt16 = primitive(System.UInt16)
// [FourByte] optional FourByteNodeId = structured
// [Identifier] UInt16 = primitive(System.UInt16)
// [NamespaceIndex] Byte = primitive(System.Byte)
// [Guid] optional GuidNodeId = structured
// [Identifier] Guid = primitive(System.Guid)
// [NamespaceIndex] UInt16 = primitive(System.UInt16)
// [NamespaceURI] optional CharArray = primitive(System.String)
// [NamespaceURISpecified] switch Bit = primitive(System.Boolean)
// [NodeIdType] switch NodeIdType = enumeration(6)
// TwoByte = 0
// FourByte = 1
// Numeric = 2
// String = 3
// Guid = 4
// ByteString = 5
// [Numeric] optional NumericNodeId = structured
// [Identifier] UInt32 = primitive(System.UInt32)
// [NamespaceIndex] UInt16 = primitive(System.UInt16)
// [ServerIndex] optional UInt32 = primitive(System.UInt32)
// [ServerIndexSpecified] switch Bit = primitive(System.Boolean)
// [String] optional StringNodeId = structured
// [Identifier] CharArray = primitive(System.String)
// [NamespaceIndex] UInt16 = primitive(System.UInt16)
// [TwoByte] optional TwoByteNodeId = structured
// [Identifier] Byte = primitive(System.Byte)
// [FloatValue] Float = primitive(System.Single)
// [GuidValue] Guid = primitive(System.Guid)
// [Int16Value] Int16 = primitive(System.Int16)
// [Int32Value] Int32 = primitive(System.Int32)
// [Int64Value] Int64 = primitive(System.Int64)
// [Integer] Variant = structured
// [ArrayDimensions] optional sequence[*] of Int32 = primitive(System.Int32)
// [ArrayDimensionsSpecified] switch sequence[1] of Bit = primitive(System.Boolean)
// [ArrayLength] length optional Int32 = primitive(System.Int32)
// [ArrayLengthSpecified] switch sequence[1] of Bit = primitive(System.Boolean)
// [Boolean] optional sequence[*] of Boolean = primitive(System.Boolean)
// [Byte] optional sequence[*] of Byte = primitive(System.Byte)
}
}
}
# Shows how to obtain object describing the data type of complex data node with OPC UA Complex Data plug-in.
# The QuickOPC package is needed. Install it using "pip install opclabs_quickopc".
import opclabs_quickopc
# Import .NET namespaces.
from Microsoft.Extensions.DependencyInjection import *
from System import *
from OpcLabs.EasyOpc.UA import *
from OpcLabs.EasyOpc.UA.AddressSpace import *
from OpcLabs.EasyOpc.UA.AddressSpace.Standard import *
#from OpcLabs.EasyOpc.UA.Extensions import *
from OpcLabs.EasyOpc.UA.InformationModel import *
from OpcLabs.EasyOpc.UA.Plugins.ComplexData import *
endpointDescriptor = UAEndpointDescriptor('opc.tcp://opcua.demo-this.com:51210/UA/SampleServer')
# or 'http://opcua.demo-this.com:51211/UA/SampleServer' (currently not supported)
# or 'https://opcua.demo-this.com:51212/UA/SampleServer/'
# Instantiate the client object.
client = EasyUAClient()
# Obtain the data type ID.
#
# In many cases, you would be able to obtain the data type ID of a particular node by reading its DataType
# attribute, or easier, by calling the extension method ReadDataType on the IEasyUAClient interface.
# The sample server, however, shows a more advanced approach in which the data type ID refers to an abstract
# data type, and the actual values are then sub-types of this base data type. This abstract data type does not
# have any encodings associated with it and it is therefore not possible to extract its description from the
# server. We therefore use a hard-coded data type ID for one of the sub-types in this example.
#
# The code to obtain the data type ID for given node would normally look like this:
# dataTypeId = IEasyUAClientExtension2.ReadDataType(client,
# endpointDescriptor,
# UANodeDescriptor('nsu=http://test.org/UA/Data/ ;i=10239')) # [ObjectsFolder]/Data.Static.Scalar.StructureValue
dataTypeId = UANodeId('nsu=http://test.org/UA/Data/ ;i=9440') # ScalarValueDataType
# Get the IEasyUAClientComplexData service from the client. This is needed for advanced complex data
# operations.
complexData = ServiceProviderServiceExtensions.GetService[IEasyUAClientComplexData](client)
if complexData is None:
print('The client complex data service is not available.')
exit()
# Resolve the data type ID to the data type object, containing description of the data type.
dataTypeResult = IEasyUAClientComplexDataExtension.ResolveDataType(complexData,
UAModelNodeDescriptor(endpointDescriptor, UANodeDescriptor(dataTypeId)),
UABrowseNames.DefaultBinary)
# Check if the operation succeeded. Use the ThrowIfFailed method instead if you want exception be thrown.
if not dataTypeResult.Succeeded:
print('*** Failure: ', dataTypeResult.ErrorMessageBrief)
exit()
# The actual data type is in the Value property.
# Display basic information about what we have obtained.
print(dataTypeResult.Value)
# If we want to see the whole hierarchy of the received data type, we can format it with the "V" (verbose)
# specifier. In the debugger, you can view the same by displaying the private DebugView property.
print()
print(String.Format('{0:V}', dataTypeResult.Value))
# For processing the internals of the data type, refer to examples for GenericData class.
print()
print('Finished.')
' Shows how to obtain object describing the data type of complex data node with OPC UA Complex Data plug-in.
Imports System
Imports Microsoft.Extensions.DependencyInjection
Imports OpcLabs.BaseLib.DataTypeModel
Imports OpcLabs.BaseLib.OperationModel.Generic
Imports OpcLabs.EasyOpc.UA
Imports OpcLabs.EasyOpc.UA.AddressSpace
Imports OpcLabs.EasyOpc.UA.AddressSpace.Standard
Imports OpcLabs.EasyOpc.UA.InformationModel
Imports OpcLabs.EasyOpc.UA.Plugins.ComplexData
Namespace ComplexData._IEasyUAClientComplexData
Friend Class ResolveDataType
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" (currently not supported)
' or "https://opcua.demo-this.com:51212/UA/SampleServer/"
' Instantiate the client object.
Dim client = New EasyUAClient
' Obtain the data type ID.
'
' In many cases, you would be able to obtain the data type ID of a particular node by reading its DataType
' attribute, or easier, by calling the extension method ReadDataType on the IEasyUAClient interface. The sample
' server, however, shows a more advanced approach in which the data type ID refers to an abstract data type,
' and the actual values are then sub-types of this base data type. This abstract data type does not have any
' encodings associated with it and it is therefore not possible to extract its description from the server.
' We therefore use a hard-coded data type ID for one of the sub-types in this example.
'
' The code to obtain the data type ID for given node would normally look like this:
' UANodeId dataTypeId = client.ReadDataType(
' endpointDescriptor,
' "nsu=http://test.org/UA/Data/ ;i=10239"); // [ObjectsFolder]/Data.Static.Scalar.StructureValue
'
Dim dataTypeId As UANodeId = "nsu=http://test.org/UA/Data/ ;i=9440" ' ScalarValueDataType
' Get the IEasyUAClientComplexData service from the client. This is needed for advanced complex data
' operations.
Dim complexData As IEasyUAClientComplexData = client.GetService(Of IEasyUAClientComplexData)()
' Resolve the data type ID to the data type object, containing description of the data type.
Dim dataTypeResult As ValueResult(Of DataType) = complexData.ResolveDataType( _
New UAModelNodeDescriptor(endpointDescriptor, dataTypeId), _
UABrowseNames.DefaultBinary)
' Check if the operation succeeded. Use the ThrowIfFailed method instead if you want exception be thrown.
If Not dataTypeResult.Succeeded Then
Console.WriteLine("*** Failure: {0}", dataTypeResult.ErrorMessageBrief)
Exit Sub
End If
' The actual data type is in the Value property.
' Display basic information about what we have obtained.
Console.WriteLine(dataTypeResult.Value)
' If we want to see the whole hierarchy of the received data type, we can format it with the "V" (verbose)
' specifier. In the debugger, you can view the same by displaying the private DebugView property.
Console.WriteLine()
Console.WriteLine("{0:V}", dataTypeResult.Value)
' For processing the internals of the data type, refer to examples for GenericData class.
' Example output (truncated):
'
'ScalarValueDataType = structured
'
'ScalarValueDataType = structured
' [BooleanValue] Boolean = primitive(System.Boolean)
' [ByteStringValue] ByteString = primitive(System.Byte[])
' [ByteValue] Byte = primitive(System.Byte)
' [DateTimeValue] DateTime = primitive(System.DateTime)
' [DoubleValue] Double = primitive(System.Double)
' [EnumerationValue] Int32 = primitive(System.Int32)
' [ExpandedNodeIdValue] ExpandedNodeId = structured
' [ByteString] optional ByteStringNodeId = structured
' [Identifier] ByteString = primitive(System.Byte[])
' [NamespaceIndex] UInt16 = primitive(System.UInt16)
' [FourByte] optional FourByteNodeId = structured
' [Identifier] UInt16 = primitive(System.UInt16)
' [NamespaceIndex] Byte = primitive(System.Byte)
' [Guid] optional GuidNodeId = structured
' [Identifier] Guid = primitive(System.Guid)
' [NamespaceIndex] UInt16 = primitive(System.UInt16)
' [NamespaceURI] optional CharArray = primitive(System.String)
' [NamespaceURISpecified] switch Bit = primitive(System.Boolean)
' [NodeIdType] switch NodeIdType = enumeration(6)
' TwoByte = 0
' FourByte = 1
' Numeric = 2
' String = 3
' Guid = 4
' ByteString = 5
' [Numeric] optional NumericNodeId = structured
' [Identifier] UInt32 = primitive(System.UInt32)
' [NamespaceIndex] UInt16 = primitive(System.UInt16)
' [ServerIndex] optional UInt32 = primitive(System.UInt32)
' [ServerIndexSpecified] switch Bit = primitive(System.Boolean)
' [String] optional StringNodeId = structured
' [Identifier] CharArray = primitive(System.String)
' [NamespaceIndex] UInt16 = primitive(System.UInt16)
' [TwoByte] optional TwoByteNodeId = structured
' [Identifier] Byte = primitive(System.Byte)
' [FloatValue] Float = primitive(System.Single)
' [GuidValue] Guid = primitive(System.Guid)
' [Int16Value] Int16 = primitive(System.Int16)
' [Int32Value] Int32 = primitive(System.Int32)
' [Int64Value] Int64 = primitive(System.Int64)
' [Integer] Variant = structured
' [ArrayDimensions] optional sequence[*] of Int32 = primitive(System.Int32)
' [ArrayDimensionsSpecified] switch sequence[1] of Bit = primitive(System.Boolean)
' [ArrayLength] length optional Int32 = primitive(System.Int32)
' [ArrayLengthSpecified] switch sequence[1] of Bit = primitive(System.Boolean)
' [Boolean] optional sequence[*] of Boolean = primitive(System.Boolean)
' [Byte] optional sequence[*] of Byte = primitive(System.Byte)
End Sub
End Class
End Namespace
