/*
* Copyright 2015 Kevin Herron
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.digitalpetri.opcua.stack.core.types.structured;
import com.digitalpetri.opcua.stack.core.Identifiers;
import com.digitalpetri.opcua.stack.core.serialization.DelegateRegistry;
import com.digitalpetri.opcua.stack.core.serialization.UaDecoder;
import com.digitalpetri.opcua.stack.core.serialization.UaEncoder;
import com.digitalpetri.opcua.stack.core.types.UaDataType;
import com.digitalpetri.opcua.stack.core.types.builtin.LocalizedText;
import com.digitalpetri.opcua.stack.core.types.builtin.NodeId;
import com.digitalpetri.opcua.stack.core.types.builtin.QualifiedName;
import com.digitalpetri.opcua.stack.core.types.builtin.unsigned.UInteger;
import com.digitalpetri.opcua.stack.core.types.enumerated.NodeClass;
@UaDataType("ReferenceTypeNode")
public class ReferenceTypeNode extends TypeNode {
public static final NodeId TypeId = Identifiers.ReferenceTypeNode;
public static final NodeId BinaryEncodingId = Identifiers.ReferenceTypeNode_Encoding_DefaultBinary;
public static final NodeId XmlEncodingId = Identifiers.ReferenceTypeNode_Encoding_DefaultXml;
protected final ReferenceNode[] _references;
protected final Boolean _isAbstract;
protected final Boolean _symmetric;
protected final LocalizedText _inverseName;
public ReferenceTypeNode() {
super(null, null, null, null, null, null, null, null);
this._references = null;
this._isAbstract = null;
this._symmetric = null;
this._inverseName = null;
}
public ReferenceTypeNode(NodeId _nodeId, NodeClass _nodeClass, QualifiedName _browseName, LocalizedText _displayName, LocalizedText _description, UInteger _writeMask, UInteger _userWriteMask, ReferenceNode[] _references, Boolean _isAbstract, Boolean _symmetric, LocalizedText _inverseName) {
super(_nodeId, _nodeClass, _browseName, _displayName, _description, _writeMask, _userWriteMask, _references);
this._references = _references;
this._isAbstract = _isAbstract;
this._symmetric = _symmetric;
this._inverseName = _inverseName;
}
public ReferenceNode[] getReferences() { return _references; }
public Boolean getIsAbstract() { return _isAbstract; }
public Boolean getSymmetric() { return _symmetric; }
public LocalizedText getInverseName() { return _inverseName; }
@Override
public NodeId getTypeId() { return TypeId; }
@Override
public NodeId getBinaryEncodingId() { return BinaryEncodingId; }
@Override
public NodeId getXmlEncodingId() { return XmlEncodingId; }
public static void encode(ReferenceTypeNode referenceTypeNode, UaEncoder encoder) {
encoder.encodeNodeId("NodeId", referenceTypeNode._nodeId);
encoder.encodeEnumeration("NodeClass", referenceTypeNode._nodeClass);
encoder.encodeQualifiedName("BrowseName", referenceTypeNode._browseName);
encoder.encodeLocalizedText("DisplayName", referenceTypeNode._displayName);
encoder.encodeLocalizedText("Description", referenceTypeNode._description);
encoder.encodeUInt32("WriteMask", referenceTypeNode._writeMask);
encoder.encodeUInt32("UserWriteMask", referenceTypeNode._userWriteMask);
encoder.encodeArray("References", referenceTypeNode._references, encoder::encodeSerializable);
encoder.encodeBoolean("IsAbstract", referenceTypeNode._isAbstract);
encoder.encodeBoolean("Symmetric", referenceTypeNode._symmetric);
encoder.encodeLocalizedText("InverseName", referenceTypeNode._inverseName);
}
public static ReferenceTypeNode decode(UaDecoder decoder) {
NodeId _nodeId = decoder.decodeNodeId("NodeId");
NodeClass _nodeClass = decoder.decodeEnumeration("NodeClass", NodeClass.class);
QualifiedName _browseName = decoder.decodeQualifiedName("BrowseName");
LocalizedText _displayName = decoder.decodeLocalizedText("DisplayName");
LocalizedText _description = decoder.decodeLocalizedText("Description");
UInteger _writeMask = decoder.decodeUInt32("WriteMask");
UInteger _userWriteMask = decoder.decodeUInt32("UserWriteMask");
ReferenceNode[] _references = decoder.decodeArray("References", decoder::decodeSerializable, ReferenceNode.class);
Boolean _isAbstract = decoder.decodeBoolean("IsAbstract");
Boolean _symmetric = decoder.decodeBoolean("Symmetric");
LocalizedText _inverseName = decoder.decodeLocalizedText("InverseName");
return new ReferenceTypeNode(_nodeId, _nodeClass, _browseName, _displayName, _description, _writeMask, _userWriteMask, _references, _isAbstract, _symmetric, _inverseName);
}
static {
DelegateRegistry.registerEncoder(ReferenceTypeNode::encode, ReferenceTypeNode.class, BinaryEncodingId, XmlEncodingId);
DelegateRegistry.registerDecoder(ReferenceTypeNode::decode, ReferenceTypeNode.class, BinaryEncodingId, XmlEncodingId);
}
}