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Why is the parent (Store) deleted when I delete a child (Employee)?

I configure with convention Cascade.All.

The user input sequence is quite simple:

  • Start with empty database
  • Add a parent
  • Save, Load (Load = reload full object graph)
  • Add a child
  • Save, Load
  • Delete Child
  • Result: Empty database. (Parent deleted)

It could be a basic mapping mistake, as it's my first take on NHibernate. I want Store to be the aggregate root, and thought that by not setting Inverse on the Store.Staff property, then Store table would be responsible for saving, and hence the aggregate root. Is that a misconception? Actually if I use Inverse or not I still get the same result. So maybe that's not the problem, but I would like to understand that too.

And it's deliberate not to use a wider session scope, as I want to learn how to work with detached and transient entities.

Employee Delete Method:

class EmployeeRepository
        public static void Delete(Employee employee)
        {
            using (ISession session = FNH_Manager.OpenSession())
            {
                using (ITransaction transaction = session.BeginTransaction())
                {
                    if (employee.Id != 0)
                    {
                      var emp =  session.Get(typeof(Employee), employee.Id);

                      if (emp != null)
                      {
                        session.Delete(emp);
                        transaction.Commit();
                      }
                    }
                }
            }
        } 

Mappings

public class StoreMap : ClassMap<Store>
{
    public StoreMap()
    {
        Id(x => x.Id);
        Map(x =>  x.Name);
        HasMany(x => x.Staff)    // 1:m
            .Inverse()    // tried both with and without, what is correct?
            .Cascade.All();       
        HasManyToMany(x => x.Products)  // m:m
            .Cascade.All()
            .Table("StoreProduct");    
    }
}

public class EmployeeMap : ClassMap<Employee> 
{

    public EmployeeMap()
    {
        Id(x => x.Id);                // By default an int Id is generated as identity
        Map(x => x.FirstName);
        Map(x => x.LastName);
        References(x => x.Store);    // m:1
    }
}

public class ProductMap : ClassMap<Product>
{
    public ProductMap() 
    {
        Id(x => x.Id).GeneratedBy.Identity();
        Map(x => x.Name).Length(20);
        Map(x => x.Price).CustomSqlType("decimal").Precision(9).Scale(2);
        HasManyToMany(x => x.StoresStockedIn)
        .Cascade.All()
        .Inverse()
        .Table("StoreProduct");
     }

}

Entities:

   public class Store
    {
        public int Id { get; private set; }
        public string Name { get; set; }
        public IList<Product> Products { get; set; }
        public IList<Employee> Staff { get; set; }

        public Store()
        {
            Products = new List<Product>();
            Staff = new List<Employee>();
        }


        // AddProduct & AddEmployee is required. "NH needs you to set both sides before
        // it will save correctly" ??

        public void AddProduct(Product product)
        {
            product.StoresStockedIn.Add(this);
            Products.Add(product);
        }

        public void AddEmployee(Employee employee)
        {
            employee.Store = this;
            Staff.Add(employee);
        }
    }

   public class Employee
    {
        public int Id { get;  private set; }
        public string FirstName { get;  set; }
        public string LastName { get;  set; }
        public Store Store { get; set; }
    }

Program pseudo-code and resulting "SQL":

Program startup

Load: Stores stores = StoreRepository.GetAll()

NHibernate: SELECT this_.Id as Id3_0_, this_.Name as Name3_0_ FROM [Store] this_

Add parent: Add store to empty collection stores

Save: StoreRepository.SaveOrUpdate(stores)

NHibernate: SELECT store0_.Id as Id3_0_, store0_.Name as Name3_0_ FROM [Store] store0_ WHERE store0_.Id=@p0;@p0 = 0 [Type: Int32 (0)]
NHibernate: INSERT INTO [Store] (Name) VALUES (@p0); select SCOPE_IDENTITY();@p0 = NULL [Type: String (4000)]

Load: stores = StoreRepository.GetAll()

NHibernate: SELECT this_.Id as Id3_0_, this_.Name as Name3_0_ FROM [Store] this_
NHibernate: SELECT products0_.Store_id as Store2_1_, products0_.Product_id as Product1_1_, product1_.Id as Id1_0_, product1_.Name as Name1_0_, product1_.Price as Price1_0_ FROM StoreProduct products0_ left outer join [Product] product1_ on products0_.Product_id=product1_.Id WHERE products0_.Store_id=@p0;@p0 = 16 [Type: Int32 (0)]
NHibernate: SELECT staff0_.Store_id as Store4_1_, staff0_.Id as Id1_, staff0_.Id as Id0_0_, staff0_.FirstName as FirstName0_0_, staff0_.LastName as LastName0_0_, staff0_.Store_id as Store4_0_0_ FROM [Employee] staff0_ WHERE staff0_.Store_id=@p0;@p0 = 16 [Type: Int32 (0)]

Add child: to empty child collection, for selected store

Save: StoreRepository.SaveOrUpdate(stores)

NHibernate: SELECT store0_.Id as Id3_0_, store0_.Name as Name3_0_ FROM [Store] store0_ WHERE store0_.Id=@p0;@p0 = 16 [Type: Int32 (0)]
NHibernate: SELECT products0_.Store_id as Store2_1_, products0_.Product_id as Product1_1_, product1_.Id as Id1_0_, product1_.Name as Name1_0_, product1_.Price as Price1_0_ FROM StoreProduct products0_ left outer join [Product] product1_ on products0_.Product_id=product1_.Id WHERE products0_.Store_id=@p0;@p0 = 16 [Type: Int32 (0)]
NHibernate: SELECT staff0_.Store_id as Store4_1_, staff0_.Id as Id1_, staff0_.Id as Id0_0_, staff0_.FirstName as FirstName0_0_, staff0_.LastName as LastName0_0_, staff0_.Store_id as Store4_0_0_ FROM [Employee] staff0_ WHERE staff0_.Store_id=@p0;@p0 = 16 [Type: Int32 (0)]
NHibernate: INSERT INTO [Employee] (FirstName, LastName, Store_id) VALUES (@p0, @p1, @p2); select SCOPE_IDENTITY();@p0 = NULL [Type: String (4000)], @p1 = NULL [Type: String (4000)], @p2 = 16 [Type: Int32 (0)]

Load: stores = StoreRepository.GetAll()

NHibernate: SELECT this_.Id as Id3_0_, this_.Name as Name3_0_ FROM [Store] this_
NHibernate: SELECT products0_.Store_id as Store2_1_, products0_.Product_id as Product1_1_, product1_.Id as Id1_0_, product1_.Name as Name1_0_, product1_.Price as Price1_0_ FROM StoreProduct products0_ left outer join [Product] product1_ on products0_.Product_id=product1_.Id WHERE products0_.Store_id=@p0;@p0 = 16 [Type: Int32 (0)]
NHibernate: SELECT staff0_.Store_id as Store4_1_, staff0_.Id as Id1_, staff0_.Id as Id0_0_, staff0_.FirstName as FirstName0_0_, staff0_.LastName as LastName0_0_, staff0_.Store_id as Store4_0_0_ FROM [Employee] staff0_ WHERE staff0_.Store_id=@p0;@p0 = 16 [Type: Int32 (0)]

Delete child: (Delete Employee for selected store) EmployeeRepository.Delete(employee)

NHibernate: SELECT employee0_.Id as Id0_1_, employee0_.FirstName as FirstName0_1_, employee0_.LastName as LastName0_1_, employee0_.Store_id as Store4_0_1_, store1_.Id as Id3_0_, store1_.Name as Name3_0_ FROM [Employee] employee0_ left outer join [Store] store1_ on employee0_.Store_id=store1_.Id WHERE employee0_.Id=@p0;@p0 = 35 [Type: Int32 (0)]
NHibernate: SELECT products0_.Store_id as Store2_1_, products0_.Product_id as Product1_1_, product1_.Id as Id1_0_, product1_.Name as Name1_0_, product1_.Price as Price1_0_ FROM StoreProduct products0_ left outer join [Product] product1_ on products0_.Product_id=product1_.Id WHERE products0_.Store_id=@p0;@p0 = 16 [Type: Int32 (0)]
NHibernate: SELECT staff0_.Store_id as Store4_1_, staff0_.Id as Id1_, staff0_.Id as Id0_0_, staff0_.FirstName as FirstName0_0_, staff0_.LastName as LastName0_0_, staff0_.Store_id as Store4_0_0_ FROM [Employee] staff0_ WHERE staff0_.Store_id=@p0;@p0 = 16 [Type: Int32 (0)]
NHibernate: DELETE FROM [Employee] WHERE Id = @p0;@p0 = 35 [Type: Int32 (0)]
NHibernate: DELETE FROM [Store] WHERE Id = @p0;@p0 = 16 [Type: Int32 (0)]

Load: stores = StoreRepository.GetAll()

NHibernate: SELECT this_.Id as Id3_0_, this_.Name as Name3_0_ FROM [Store] this_

(no result, database is empty)


EDIT1:

SQL WITHOUT Inverse

Program startup

Load: Stores stores = StoreRepository.GetAll()

NHibernate: SELECT this_.Id as Id3_0_, this_.Name as Name3_0_ FROM [Store] this_

Add parent: Add store to empty collection stores

Save: StoreRepository.SaveOrUpdate(stores)

NHibernate: SELECT store0_.Id as Id3_0_, store0_.Name as Name3_0_ FROM [Store] store0_ WHERE store0_.Id=@p0;@p0 = 0 [Type: Int32 (0)]
NHibernate: INSERT INTO [Store] (Name) VALUES (@p0); select SCOPE_IDENTITY();@p0 = NULL [Type: String (4000)]

Load: stores = StoreRepository.GetAll()

NHibernate: SELECT this_.Id as Id3_0_, this_.Name as Name3_0_ FROM [Store] this_
NHibernate: SELECT products0_.Store_id as Store2_1_, products0_.Product_id as Product1_1_, product1_.Id as Id1_0_, product1_.Name as Name1_0_, product1_.Price as Price1_0_ FROM StoreProduct products0_ left outer join [Product] product1_ on products0_.Product_id=product1_.Id WHERE products0_.Store_id=@p0;@p0 = 1 [Type: Int32 (0)]
NHibernate: SELECT staff0_.Store_id as Store4_1_, staff0_.Id as Id1_, staff0_.Id as Id0_0_, staff0_.FirstName as FirstName0_0_, staff0_.LastName as LastName0_0_, staff0_.Store_id as Store4_0_0_ FROM [Employee] staff0_ WHERE staff0_.Store_id=@p0;@p0 = 1 [Type: Int32 (0)]

Add child: to empty child collection, for selected store

Save: StoreRepository.SaveOrUpdate(stores)

NHibernate: SELECT store0_.Id as Id3_0_, store0_.Name as Name3_0_ FROM [Store] store0_ WHERE store0_.Id=@p0;@p0 = 1 [Type: Int32 (0)]
NHibernate: SELECT products0_.Store_id as Store2_1_, products0_.Product_id as Product1_1_, product1_.Id as Id1_0_, product1_.Name as Name1_0_, product1_.Price as Price1_0_ FROM StoreProduct products0_ left outer join [Product] product1_ on products0_.Product_id=product1_.Id WHERE products0_.Store_id=@p0;@p0 = 1 [Type: Int32 (0)]
NHibernate: SELECT staff0_.Store_id as Store4_1_, staff0_.Id as Id1_, staff0_.Id as Id0_0_, staff0_.FirstName as FirstName0_0_, staff0_.LastName as LastName0_0_, staff0_.Store_id as Store4_0_0_ FROM [Employee] staff0_ WHERE staff0_.Store_id=@p0;@p0 = 1 [Type: Int32 (0)]
NHibernate: INSERT INTO [Employee] (FirstName, LastName, Store_id) VALUES (@p0, @p1, @p2); select SCOPE_IDENTITY();@p0 = NULL [Type: String (4000)], @p1 = NULL [Type: String (4000)], @p2 = 1 [Type: Int32 (0)]
NHibernate: UPDATE [Employee] SET Store_id = @p0 WHERE Id = @p1;@p0 = 1 [Type: Int32 (0)], @p1 = 1 [Type: Int32 (0)]

Load: stores = StoreRepository.GetAll()

NHibernate: SELECT this_.Id as Id3_0_, this_.Name as Name3_0_ FROM [Store] this_
NHibernate: SELECT products0_.Store_id as Store2_1_, products0_.Product_id as Product1_1_, product1_.Id as Id1_0_, product1_.Name as Name1_0_, product1_.Price as Price1_0_ FROM StoreProduct products0_ left outer join [Product] product1_ on products0_.Product_id=product1_.Id WHERE products0_.Store_id=@p0;@p0 = 1 [Type: Int32 (0)]
NHibernate: SELECT staff0_.Store_id as Store4_1_, staff0_.Id as Id1_, staff0_.Id as Id0_0_, staff0_.FirstName as FirstName0_0_, staff0_.LastName as LastName0_0_, staff0_.Store_id as Store4_0_0_ FROM [Employee] staff0_ WHERE staff0_.Store_id=@p0;@p0 = 1 [Type: Int32 (0)]

Delete child: (Delete Employee for selected store) EmployeeRepository.Delete(employee)

NHibernate: SELECT employee0_.Id as Id0_1_, employee0_.FirstName as FirstName0_1_, employee0_.LastName as LastName0_1_, employee0_.Store_id as Store4_0_1_, store1_.Id as Id3_0_, store1_.Name as Name3_0_ FROM [Employee] employee0_ left outer join [Store] store1_ on employee0_.Store_id=store1_.Id WHERE employee0_.Id=@p0;@p0 = 1 [Type: Int32 (0)]
NHibernate: SELECT products0_.Store_id as Store2_1_, products0_.Product_id as Product1_1_, product1_.Id as Id1_0_, product1_.Name as Name1_0_, product1_.Price as Price1_0_ FROM StoreProduct products0_ left outer join [Product] product1_ on products0_.Product_id=product1_.Id WHERE products0_.Store_id=@p0;@p0 = 1 [Type: Int32 (0)]
NHibernate: SELECT staff0_.Store_id as Store4_1_, staff0_.Id as Id1_, staff0_.Id as Id0_0_, staff0_.FirstName as FirstName0_0_, staff0_.LastName as LastName0_0_, staff0_.Store_id as Store4_0_0_ FROM [Employee] staff0_ WHERE staff0_.Store_id=@p0;@p0 = 1 [Type: Int32 (0)]
NHibernate: UPDATE [Employee] SET Store_id = null WHERE Store_id = @p0;@p0 = 1 [Type: Int32 (0)]
NHibernate: DELETE FROM [Employee] WHERE Id = @p0;@p0 = 1 [Type: Int32 (0)]
NHibernate: DELETE FROM [Store] WHERE Id = @p0;@p0 = 1 [Type: Int32 (0)]

Load: stores = StoreRepository.GetAll()

NHibernate: SELECT this_.Id as Id3_0_, this_.Name as Name3_0_ FROM [Store] this_

(Still; no result, database is empty)

Program window

Store collection and child collection of selected store is bound to BindingSource/DataGridView/BindingNavigator like this:

enter image description here


EDIT2

    private static ISessionFactory CreateSessionFactory()
    {
        if (sessionFactory == null)
        {                              
            return Fluently.Configure()
                .Database(MsSqlConfiguration.MsSql2008
                .ConnectionString(Properties.Settings.Default.FnhDbString)
                .Cache(c => c
                    .UseQueryCache()).ShowSql())
                .Mappings(m => m.FluentMappings.AddFromAssemblyOf<EmployeeMap>()  
                .Conventions.Add(FluentNHibernate.Conventions.Helpers.DefaultLazy.Never())
                .Conventions.Add(FluentNHibernate.Conventions.Helpers.DefaultCascade.All())
                .ExportTo("D:/VB/"))              
                .ExposeConfiguration(c => cfg = c)
                .BuildSessionFactory();
        }
        return sessionFactory; 
    }

EDIT3

I have now tried all different mappings below (1-6). Without cascade-convention, I get exception on all alternatives. Am I forced to delete references manually? I thought it should not be required.

// For all alternatives, configuration does not specify cascade-convention.

//  HasMany(x => x.Staff);   // 1. add store, save, load, add employee, 
                             // save: TransientObjectException; Employee
    HasMany(x => x.Staff).Inverse();       // 2. As 1
//  HasMany(x => x.Staff).Cascade.All();   // 3. Add store, Save, Load, Add Employee, Save, Load, 
                                           // Delete Employee: ObjectDeletedException
//  HasMany(x => x.Staff).Inverse().Cascade.All();              // 4. As 3
//  HasMany(x => x.Staff).Inverse().Cascade.AllDeleteOrphan();  // 5.  As 3/4
//  HasMany(x => x.Staff).Cascade.None();                       // 6. As 1/2

// Exception of 1) 
// On StoreRepositorySaveOrUpdate(stores): TransientObjectException: 
// object references an unsaved transient instance - save the transient instance before flushing. 
// Type: FNHib_Test.Entities.Employee, Entity: FNHib_Test.Entities.Employee

// Exception of 3) 
// On EmployeeRepository.Delete(employee);    transaction.Commit()
// ObjectDeletedException was unhandled: 
// deleted object would be re-saved by cascade 
// (remove deleted object from associations)[FNHib_Test.Entities.Employee#1]

EDIT5:

Findings to above exceptions:

1) Store is aggregate root ( No Inverse set). Since no cascade: I need to handle added children manually on saving aggregate. (OK)

2) Employee is aggregate root (Inverse set). Still, since no cascade: I need to handle added Employee manually, simply because the stores collection contain both persistent and transient entities. So the clue of 1 and 2 is simply that cascade = none. Inverse is irrelevant. (OK)

3) Store is aggregate root (No inverse set). Cascade=all, and it works in both directions, not only from the aggregate root? So we can not delete the child without first removing it's reference to the parent. (Maybe OK).

4) Same reason as 3. Inverse makes no difference on the cascade. (Maybe OK)

5) Same reason as 3.

6) Same as 1.

If this is the conclusion. Then it means we are forced to remove the reference between bidirectional entities before delete of child. No matter the setting of Inverse.

So: I can't see that Inverse has ANY effect on a bidirectional relationship. ?


EDIT6:

(breathe..) Even setting the emp.Store = null; It still gives ObjectDeletedException: deleted object would be re-saved by cascade (remove deleted object from associations)[FNHib_Test.Entities.Employee#1]

This was with mapping; HasMany(x => x.Staff).Cascade.All();

    public static void Delete(Employee employee)
    {
        using (ISession session = FNH_Manager.OpenSession())
        {
            using (ITransaction transaction = session.BeginTransaction())
            {
                employee.Store = null;
                if (employee.Id != 0) 
                { 
                  // var emp =  session.Get(typeof(Employee), employee.Id);
                  Employee emp = session.Get<Employee>( employee.Id);
                  if (emp != null)
                  {
                    emp.Store = null;
                    session.Delete(emp);
                    transaction.Commit();
                  } 
                }
            }
        }
    } 

I wonder if there can be a problem related to the entity-Id's not being set when I save transient instances. This is why I Load after each Save. But I don't know why they are not set. As I described here: NHibernate: How is identity Id updated when saving a transient instance?

share|improve this question

Don't use inverse in mapping for your case. Without inverse it should be fine.

share|improve this answer
    
hmm. Maybe I don't know the steps needed after I change the mappings. I do a SchemaExport.Drop & .Create. Is that needed at all, and do I need to do something else to make the new mapping effective? ..Above SQL was WITH Inverse. So if needed I will post the one without. – bretddog Feb 3 '11 at 18:44
    
Exporting schema should be enough to get the changes to reflect in there. – Mahesh Velaga Feb 3 '11 at 18:47
    
@bretddog: Yes, please post sql without inverse – Mahesh Velaga Feb 3 '11 at 19:05
    
Sorry I got held up. Please see EDIT1, without inverse. – bretddog Feb 3 '11 at 19:31

What do you mean by "I configure with convention Cascade.All"? Are you using a Fluent NHibernate convention? There's nothing I see in your mappings that would cause the Employee delete to be cascaded to the attached Store. I also don't see any reason why loading an Employee triggers loading the Store and its Staff and Products collection.

This change to the Delete method will probably fix the problem but it doesn't address the root cause:

                  if (emp != null)
                  {
                    emp.Store = null;
                    session.Delete(emp);
                    transaction.Commit();
                  }
share|improve this answer
    
Yes, I put the configuration in EDIT2. I guess it's a bit redundant, since I also specify cascade on the mappings, but that shouldn't hurt I would think..? ..Am I loading an Employee? I thought I was just loading the full aggregate from the root (Store) ? I'm simply using the StoreRepository.GetAll() – bretddog Feb 3 '11 at 20:23
    
I'm not familiar with that convention but my assumption is that it adds cascading to every entity, which would explain the behavior you're seeing. Remove it and see. – Jamie Ide Feb 4 '11 at 2:56
    
"would explain": Do you mean because it's bi-directional entities with cascade.all, then a delete will cascade in both directions of the relationship? I tried now without this convention (see EDIT3). All alternatives throw exception. I thought it should be possible to handle this without removing references manually..(?) – bretddog Feb 4 '11 at 12:12
    
Setting cascade-all on both sides of a relationship will cause cascades to happen in both directions. In order to delete an Employee, you have to remove it's reference to Store because Employee owns the relationship (the other side is marked inverse). – Jamie Ide Feb 4 '11 at 12:47
    
"on both sides": is it possible to set on only one side? It seems to me the cascade applies simply to the relationship, regardless of setting Inverse or not.. – bretddog Feb 4 '11 at 14:23
up vote 0 down vote accepted

Ok.. Finally.. I found at least a working solution. Not sure if this is how it's supposed to be solved though:

What is required is to delete the instance from the parent list. The child can still have reference to the parent, but not other way around. So, as shown below:

emp.Store.Staff.Remove(emp);

It seems a bit awkward. That's just a normal parent child-relation where we try to delete the child. But maybe someone else can elaborate with proper knowledge...

Btw, this is with the mapping: HasMany(x => x.Staff).Cascade.All();

    public static void Delete(Employee employee)
    {
        using (ISession session = FNH_Manager.OpenSession())
        {
            using (ITransaction transaction = session.BeginTransaction())
            {

                if (employee.Id != 0) 
                { 
                  Employee emp = session.Get<Employee>(employee.Id);

                  if (emp != null)
                  {
                    emp.Store.Staff.Remove(emp);
                    session.Delete(emp);
                    transaction.Commit();
                  } 
                }
            }
        }
    } 
share|improve this answer

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