/// <summary> /// Generates a single vertex type predefinition /// </summary> /// <param name="aDefinition">The definition that has been created by the gql</param> /// <returns>The corresponding vertex type predefinition</returns> private VertexTypePredefinition GenerateAVertexTypePredefinition(GraphDBTypeDefinition aDefinition) { var result = new VertexTypePredefinition(aDefinition.Name); #region extends if (aDefinition.ParentType != null && aDefinition.ParentType.Length > 0) { result.SetSuperTypeName(aDefinition.ParentType); } #endregion #region abstract if (aDefinition.IsAbstract) { result.MarkAsAbstract(); } #endregion #region comment if (aDefinition.Comment != null && aDefinition.Comment.Length > 0) { result.SetComment(aDefinition.Comment); } #endregion #region attributes if (aDefinition.Attributes != null) { foreach (var aAttribute in aDefinition.Attributes) { result.AddUnknownAttribute(GenerateUnknownAttribute(aAttribute)); } } #endregion #region incoming edges if (aDefinition.BackwardEdgeNodes != null) { foreach (var aIncomingEdge in aDefinition.BackwardEdgeNodes) { result.AddIncomingEdge(GenerateAIncomingEdge(aIncomingEdge)); } } #endregion #region indices if (aDefinition.Indices != null) { foreach (var aIndex in aDefinition.Indices) { result.AddIndex(GenerateIndex(aIndex, aDefinition.Name)); } } #endregion return result; }
public VertexTypePredefinition ToVertexTypePredefinition() { VertexTypePredefinition VertexTypePreDef = new VertexTypePredefinition(this.VertexTypeName); if (this.IsAbstract) { VertexTypePreDef.MarkAsAbstract(); } if (this.IsSealed) { VertexTypePreDef.MarkAsSealed(); } VertexTypePreDef.SetComment(this.Comment); VertexTypePreDef.SetSuperTypeName(this.SuperVertexTypeName); if (this.Properties != null) { foreach (var Property in this.Properties) { VertexTypePreDef.AddProperty(Property.ToPropertyPredefinition()); } } if (this.BinaryProperties != null) { foreach (var BinaryProperty in this.BinaryProperties) { VertexTypePreDef.AddBinaryProperty(BinaryProperty.ToBinaryPropertyPredefinition()); } } if (this.Uniques != null) { foreach (var Unique in this.Uniques) { VertexTypePreDef.AddUnique(Unique.ToUniquePredefinition()); } } if (this.IncomingEdges != null) { foreach (var IncomingEdge in this.IncomingEdges) { VertexTypePreDef.AddIncomingEdge(IncomingEdge.ToIncomingEdgePredefinition()); } } if (this.OutgoingEdges != null) { foreach (var OutgoingEdge in this.OutgoingEdges) { VertexTypePreDef.AddOutgoingEdge(OutgoingEdge.ToOutgoingEdgePredefinition()); } } if (this.Indices != null) { foreach (var Index in this.Indices) { VertexTypePreDef.AddIndex(Index.ToIndexPredefinition()); } } return(VertexTypePreDef); }
public VertexTypePredefinition ToVertexTypePredefinition() { VertexTypePredefinition VertexTypePreDef = new VertexTypePredefinition(this.VertexTypeName); if (this.IsAbstract) VertexTypePreDef.MarkAsAbstract(); if (this.IsSealed) VertexTypePreDef.MarkAsSealed(); VertexTypePreDef.SetComment(this.Comment); VertexTypePreDef.SetSuperTypeName(this.SuperVertexTypeName); if (this.Properties != null) { foreach (var Property in this.Properties) { VertexTypePreDef.AddProperty(Property.ToPropertyPredefinition()); } } if (this.BinaryProperties != null) { foreach (var BinaryProperty in this.BinaryProperties) { VertexTypePreDef.AddBinaryProperty(BinaryProperty.ToBinaryPropertyPredefinition()); } } if (this.Uniques != null) { foreach (var Unique in this.Uniques) { VertexTypePreDef.AddUnique(Unique.ToUniquePredefinition()); } } if (this.IncomingEdges != null) { foreach (var IncomingEdge in this.IncomingEdges) { VertexTypePreDef.AddIncomingEdge(IncomingEdge.ToIncomingEdgePredefinition()); } } if (this.OutgoingEdges != null) { foreach (var OutgoingEdge in this.OutgoingEdges) { VertexTypePreDef.AddOutgoingEdge(OutgoingEdge.ToOutgoingEdgePredefinition()); } } if (this.Indices != null) { foreach (var Index in this.Indices) { VertexTypePreDef.AddIndex(Index.ToIndexPredefinition()); } } return VertexTypePreDef; }
/// <summary> /// Generates a single vertex type predefinition /// </summary> /// <param name="aDefinition">The definition that has been created by the gql</param> /// <returns>The corresponding vertex type predefinition</returns> private VertexTypePredefinition GenerateAVertexTypePredefinition(GraphDBTypeDefinition aDefinition) { var result = new VertexTypePredefinition(aDefinition.Name); #region extends if (aDefinition.ParentType != null && aDefinition.ParentType.Length > 0) { result.SetSuperTypeName(aDefinition.ParentType); } #endregion #region abstract if (aDefinition.IsAbstract) { result.MarkAsAbstract(); } #endregion #region comment if (aDefinition.Comment != null && aDefinition.Comment.Length > 0) { result.SetComment(aDefinition.Comment); } #endregion #region attributes if (aDefinition.Attributes != null) { foreach (var aAttribute in aDefinition.Attributes) { result.AddUnknownAttribute(GenerateUnknownAttribute(aAttribute)); } } #endregion #region incoming edges if (aDefinition.BackwardEdgeNodes != null) { foreach (var aIncomingEdge in aDefinition.BackwardEdgeNodes) { result.AddIncomingEdge(GenerateAIncomingEdge(aIncomingEdge)); } } #endregion #region indices if (aDefinition.Indices != null) { foreach (var aIndex in aDefinition.Indices) { result.AddIndex(GenerateIndex(aIndex, aDefinition.Name)); } } #endregion return(result); }