private void MapInheritanceTree(Type classType, ClassMappingBase mapping, IList<Member> mappedMembers) { var discriminatorSet = HasDiscriminator(mapping); var isDiscriminated = cfg.IsDiscriminated(classType) || discriminatorSet; var mappingTypesWithLogicalParents = GetMappingTypesWithLogicalParents(); foreach (var inheritedClass in mappingTypesWithLogicalParents .Where(x => x.Value != null && x.Value.Type == classType) .Select(x => x.Key)) { var tempMapping = mapping as ClassMapping; var tempIsNull = tempMapping == null; if (isDiscriminated && !discriminatorSet && !tempIsNull) { var discriminatorColumn = cfg.GetDiscriminatorColumn(classType); var discriminator = new DiscriminatorMapping { ContainingEntityType = classType, }; discriminator.Set(x => x.Type, Layer.Defaults, new TypeReference(typeof(string))); var columnMapping = new ColumnMapping(); columnMapping.Set(x => x.Name, Layer.Defaults, discriminatorColumn); discriminator.AddColumn(Layer.Defaults, columnMapping); tempMapping.Set(x => x.Discriminator, Layer.Defaults, discriminator); discriminatorSet = true; } SubclassMapping subclassMapping; if(!tempIsNull && tempMapping.IsUnionSubclass) { subclassMapping = new SubclassMapping(SubclassType.UnionSubclass); subclassMapping.Set(x => x.Type, Layer.Defaults, inheritedClass.Type); } else if(!isDiscriminated) { subclassMapping = new SubclassMapping(SubclassType.JoinedSubclass); subclassMapping.Set(x => x.Type, Layer.Defaults, inheritedClass.Type); subclassMapping.Set(x => x.Key, Layer.Defaults, new KeyMapping()); var columnMapping = new ColumnMapping(); columnMapping.Set(x => x.Name, Layer.Defaults, mapping.Type.Name + "_id"); subclassMapping.Key.AddColumn(Layer.Defaults, columnMapping); } else { subclassMapping = new SubclassMapping(SubclassType.Subclass); subclassMapping.Set(x => x.Type, Layer.Defaults, inheritedClass.Type); } // track separate set of properties for each sub-tree within inheritance hierarchy var subclassMembers = new List<Member>(mappedMembers); MapSubclass(subclassMembers, subclassMapping, inheritedClass); mapping.AddSubclass(subclassMapping); MergeMap(inheritedClass.Type, subclassMapping, subclassMembers); } }
private void MapInheritanceTree(Type classType, ClassMappingBase mapping, IList<string> mappedProperties) { var discriminatorSet = false; var isDiscriminated = expressions.IsDiscriminated(classType); foreach (var inheritedClass in mappingTypes.Where(q => q.Type.BaseType == classType && !expressions.IsConcreteBaseType(q.Type.BaseType))) { if (isDiscriminated && !discriminatorSet && mapping is ClassMapping) { var discriminatorColumn = expressions.DiscriminatorColumn(classType); var discriminator = new DiscriminatorMapping { ContainingEntityType = classType, Type = new TypeReference(typeof(string)) }; discriminator.AddDefaultColumn(new ColumnMapping { Name = discriminatorColumn }); ((ClassMapping)mapping).Discriminator = discriminator; discriminatorSet = true; } ISubclassMapping subclassMapping; var subclassStrategy = expressions.SubclassStrategy(classType); if (subclassStrategy == SubclassStrategy.JoinedSubclass) { // TODO: This id name should be removed. Ideally it needs to be set by a // default and be overridable by a convention (preferably the ForeignKey convention // that already exists) var subclass = new JoinedSubclassMapping { Type = inheritedClass.Type }; subclass.Key = new KeyMapping(); subclass.Key.AddDefaultColumn(new ColumnMapping { Name = mapping.Type.Name + "_id" }); subclassMapping = subclass; } else subclassMapping = new SubclassMapping(); MapSubclass(mappedProperties, subclassMapping, inheritedClass); mapping.AddSubclass(subclassMapping); MergeMap(inheritedClass.Type, (ClassMappingBase)subclassMapping, mappedProperties); } }
private void MapInheritanceTree(Type classType, ClassMappingBase mapping, IList<Member> mappedMembers) { var discriminatorSet = HasDiscriminator(mapping); var isDiscriminated = cfg.IsDiscriminated(classType) || discriminatorSet; var mappingTypesWithLogicalParents = GetMappingTypesWithLogicalParents(); foreach (var inheritedClass in mappingTypesWithLogicalParents .Where(x => x.Value != null && x.Value.Type == classType) .Select(x => x.Key)) { if (isDiscriminated && !discriminatorSet && mapping is ClassMapping) { var discriminatorColumn = cfg.GetDiscriminatorColumn(classType); var discriminator = new DiscriminatorMapping { ContainingEntityType = classType, Type = new TypeReference(typeof(string)) }; discriminator.AddDefaultColumn(new ColumnMapping { Name = discriminatorColumn }); ((ClassMapping)mapping).Discriminator = discriminator; discriminatorSet = true; } SubclassMapping subclassMapping; if (!isDiscriminated) { subclassMapping = new SubclassMapping(SubclassType.JoinedSubclass) { Type = inheritedClass.Type }; subclassMapping.Key = new KeyMapping(); subclassMapping.Key.AddDefaultColumn(new ColumnMapping { Name = mapping.Type.Name + "_id" }); } else subclassMapping = new SubclassMapping(SubclassType.Subclass) { Type = inheritedClass.Type }; // track separate set of properties for each sub-tree within inheritance hierarchy var subclassMembers = new List<Member>(mappedMembers); MapSubclass(subclassMembers, subclassMapping, inheritedClass); mapping.AddSubclass(subclassMapping); MergeMap(inheritedClass.Type, subclassMapping, subclassMembers); } }
private void MapInheritanceTree(Type classType, ClassMappingBase mapping, IList<Member> mappedMembers) { var discriminatorSet = false; var isDiscriminated = cfg.IsDiscriminated(classType); foreach (var inheritedClass in mappingTypes.Where(q => q.Type.BaseType == classType && !cfg.IsConcreteBaseType(q.Type.BaseType))) { if (isDiscriminated && !discriminatorSet && mapping is ClassMapping) { var discriminatorColumn = cfg.GetDiscriminatorColumn(classType); var discriminator = new DiscriminatorMapping { ContainingEntityType = classType, Type = new TypeReference(typeof(string)) }; discriminator.AddDefaultColumn(new ColumnMapping { Name = discriminatorColumn }); ((ClassMapping)mapping).Discriminator = discriminator; discriminatorSet = true; } SubclassMapping subclassMapping; var subclassStrategy = cfg.GetSubclassStrategy(classType); if (subclassStrategy == SubclassStrategy.JoinedSubclass) { subclassMapping = new SubclassMapping(SubclassType.JoinedSubclass); subclassMapping.Key = new KeyMapping(); subclassMapping.Key.AddDefaultColumn(new ColumnMapping { Name = mapping.Type.Name + "_id" }); } else subclassMapping = new SubclassMapping(SubclassType.Subclass); // track separate set of properties for each sub-tree within inheritance hierarchy var subclassMembers = new List<Member>(mappedMembers); MapSubclass(subclassMembers, subclassMapping, inheritedClass); mapping.AddSubclass(subclassMapping); MergeMap(inheritedClass.Type, subclassMapping, subclassMembers); } }