This is trying to insert null into Comment.BlogArticleID.
The following GenericADOException appeared: "could not insert: [NHibernate__OneToMany.BO.Comment][SQL: INSERT INTO Comment (Name) VALUES (?); select SCOPE_IDENTITY()]"
The following Inner-Exception appeared: "Cannot insert the value NULL into column 'BlogArticleID', table 'Relationships_Test_OneToMany.dbo.Comment'; column does not allow nulls. INSERT fails.\r\nThe statement has been terminated."
I need a unidirectional mapping. The answer provided yet is talking about bi-directional mapping.
Does NHibernate cascade save works with native ID generator?
BlogArticle{ID, Name}, where in case of ID, Identitity=true.
Comment{ID, Name, BlogArticleID}, where in case of ID, Identitity=true.
<hibernate-mapping
xmlns="urn:nhibernate-mapping-2.2"
assembly="NHibernate__OneToMany.BO"
namespace="NHibernate__OneToMany.BO"
default-access="property">
<class name="Comment" table="Comment">
<id name="ID">
<generator class="native" />
</id>
<property name="Name" />
</class>
</hibernate-mapping>
public class Comment
{
private int _id;
public virtual int ID
{
get { return _id; }
set { _id = value; }
}
public Comment()
{
}
public Comment(string name)
{
this._name = name;
}
private string _name;
public virtual string Name
{
get { return _name; }
set { _name = value; }
}
}
<hibernate-mapping
xmlns="urn:nhibernate-mapping-2.2"
namespace="NHibernate__OneToMany.BO"
assembly="NHibernate__OneToMany.BO"
default-access="property">
<class name="BlogArticle" table="BlogArticle">
<id name="ID">
<generator class="native" />
</id>
<property name="Name" column="Name" />
<bag name="Comments" cascade="all" >
<key column="BlogArticleID" />
<one-to-many class="Comment" />
</bag>
</class>
</hibernate-mapping>
public class BlogArticle
{
private int _id;
public virtual int ID
{
get { return _id; }
set { _id = value; }
}
private string _name;
public virtual string Name
{
get { return _name; }
set { _name = value; }
}
private IList _depts;
public virtual IList Comments
{
get { return _depts; }
set { _depts = value; }
}
}
class Program
{
static void Main(string[] args)
{
BlogArticle ba = new BlogArticle();
ba.Name = "Humanity";
ba.Comments = new List<Comment>();
ba.Comments.Add(new Comment("Comm1"));
ba.Comments.Add(new Comment("Comm2"));
ba.Comments.Add(new Comment("Comm3"));
Repository<BlogArticle> rep = new Repository<BlogArticle>();
rep.Save(ba);
}
}
public class Repository<T> : IRepository<T>
{
ISession _session;
public Repository()
{
_session = SessionFactoryManager.SessionFactory.OpenSession();
}
private void Commit()
{
if (_session.Transaction.IsActive)
{
_session.Transaction.Commit();
}
}
private void Rollback()
{
if (_session.Transaction.IsActive)
{
_session.Transaction.Rollback();
//_session.Clear();
}
}
private void BeginTransaction()
{
_session.BeginTransaction();
}
public void Save(T obj)
{
try
{
this.BeginTransaction();
_session.Save(obj);
this.Commit();
}
catch (Exception ex)
{
this.Rollback();
throw ex;
}
}
void IRepository<T>.Save(IList<T> objs)
{
try
{
this.BeginTransaction();
for (Int32 I = 0; I < objs.Count; ++I)
{
_session.Save(objs[I]);
}
this.Commit();
}
catch (Exception ex)
{
this.Rollback();
throw ex;
}
}
void IRepository<T>.Update(T obj)
{
try
{
this.BeginTransaction();
_session.Update(obj);
this.Commit();
}
catch (Exception ex)
{
this.Rollback();
throw ex;
}
}
void IRepository<T>.Update(IList<T> objs)
{
try
{
this.BeginTransaction();
for (Int32 I = 0; I < objs.Count; ++I)
{
_session.Update(objs[I]);
}
this.Commit();
}
catch (Exception ex)
{
this.Rollback();
throw ex;
}
}
void IRepository<T>.Delete(T obj)
{
try
{
this.BeginTransaction();
_session.Delete(obj);
this.Commit();
}
catch (Exception ex)
{
this.Rollback();
throw ex;
}
}
void IRepository<T>.Delete(IList<T> objs)
{
try
{
this.BeginTransaction();
for (Int32 I = 0; I < objs.Count; ++I)
{
_session.Delete(objs[I]);
}
this.Commit();
}
catch (Exception ex)
{
this.Rollback();
throw ex;
}
}
T IRepository<T>.Load<T>(object id)
{
return _session.Load<T>(id);
}
public IList<T> Get<T>(int pageIndex, int pageSize)
{
ICriteria criteria = _session.CreateCriteria(typeof(T));
criteria.SetFirstResult(pageIndex * pageSize);
if (pageSize > 0)
{
criteria.SetMaxResults(pageSize);
}
return criteria.List<T>();
}
public T Get<T>(object id)
{
return _session.Get<T>(id);
}
public IList<T> Get<T>()
{
return Get<T>(0, 0);
}
public IList<T> Get<T>(string propertyName, bool Ascending)
{
Order cr1 = new Order(propertyName, Ascending);
IList<T> objsResult = _session.CreateCriteria(typeof(T)).AddOrder(cr1).List<T>();
return objsResult;
}
public IList<T> Find<T>(IList<string> strs)
{
System.Collections.Generic.IList<NHibernate.Criterion.ICriterion> objs = new System.Collections.Generic.List<ICriterion>();
foreach (string s in strs)
{
NHibernate.Criterion.ICriterion cr1 = NHibernate.Criterion.Expression.Sql(s);
objs.Add(cr1);
}
ICriteria criteria = _session.CreateCriteria(typeof(T));
foreach (ICriterion rest in objs)
_session.CreateCriteria(typeof(T)).Add(rest);
criteria.SetFirstResult(0);
return criteria.List<T>();
}
public void Detach(T item)
{
_session.Evict(item);
}
}
The key column of the associated class (Comment.BlogArticleID) must be nullable in the database. NHibernate will insert rows leaving this column NULL and then perform an update to set the key.
Adding not-null="true" to the key element would not work, as this attribute is only used by the schema export tool.
Note that the failing insert includes a select for the generated identity for the new child row.