public static bool TryParse(string s, out QualifiedName qname) { try { string[] ss = s.Split(new[] { ':' }, 2); ushort ns = 0; string name = s; if (ss.Length > 1) { ns = ushort.Parse(ss[0]); name = ss[1]; } qname = new QualifiedName(name, ns); return false; } catch (Exception) { qname = new QualifiedName(string.Empty); return false; } }
public bool Equals(QualifiedName that) { return this == that; }
public virtual void Decode(IDecoder decoder) { decoder.PushNamespace("http://opcfoundation.org/UA/2008/02/Types.xsd"); NodeId = decoder.ReadNodeId("NodeId"); AttributeId = decoder.ReadUInt32("AttributeId"); IndexRange = decoder.ReadString("IndexRange"); DataEncoding = decoder.ReadQualifiedName("DataEncoding"); decoder.PopNamespace(); }
public virtual void Decode(IDecoder decoder) { decoder.PushNamespace("http://opcfoundation.org/UA/2008/02/Types.xsd"); ReferenceTypeId = decoder.ReadNodeId("ReferenceTypeId"); IsInverse = decoder.ReadBoolean("IsInverse"); IncludeSubtypes = decoder.ReadBoolean("IncludeSubtypes"); TargetName = decoder.ReadQualifiedName("TargetName"); decoder.PopNamespace(); }
public Variant(QualifiedName[] value) { this.Value = value; this.Type = VariantType.QualifiedName; this.ArrayDimensions = new int[value.Rank]; for (int i = 0; i < value.Rank; i++) { this.ArrayDimensions[i] = value.GetLength(i); } }
public Variant(QualifiedName value) { this.Value = value; this.Type = VariantType.QualifiedName; this.ArrayDimensions = null; }