private void DoUpdateMutable( object obj, object id, IClassPersister persister )
{
if( log.IsDebugEnabled )
{
log.Debug( "updating " + MessageHelper.InfoString( persister, id ) );
}
Key key = new Key( id, persister );
CheckUniqueness( key, obj );
if( persister.ImplementsLifecycle )
{
log.Debug( "calling onUpdate()" );
if( ( ( ILifecycle ) obj ).OnUpdate( this ) == LifecycleVeto.Veto )
{
log.Debug( "update vetoed by onUpdate()" );
Reassociate( obj, id, persister );
return;
}
}
// this is a transient object with existing persistent state not loaded by the session
new OnUpdateVisitor( this, id ).Process( obj, persister );
AddEntity( key, obj );
AddEntry( obj, Status.Loaded, null, id, persister.GetVersion( obj ), LockMode.None, true, persister, false );
}
/// <summary>
/// The entity instance is not in the session cache
/// </summary>
/// <param name="dr"></param>
/// <param name="i"></param>
/// <param name="persister"></param>
/// <param name="suffix"></param>
/// <param name="key"></param>
/// <param name="lockMode"></param>
/// <param name="optionalObjectKey"></param>
/// <param name="optionalObject"></param>
/// <param name="hydratedObjects"></param>
/// <param name="session"></param>
/// <returns></returns>
private object InstanceNotYetLoaded( IDataReader dr, int i, ILoadable persister, string suffix, Key key, LockMode lockMode, Key optionalObjectKey, object optionalObject, IList hydratedObjects, ISessionImplementor session )
{
object obj;
System.Type instanceClass = GetInstanceClass( dr, i, persister, key.Identifier, session );
if( optionalObjectKey != null && key.Equals( optionalObjectKey ) )
{
// its the given optional object
obj = optionalObject;
}
else
{
obj = session.Instantiate( instanceClass, key.Identifier );
}
// need to hydrate it
// grab its state from the DataReader and keep it in the Session
// (but don't yet initialize the object itself)
// note that we acquired LockMode.READ even if it was not requested
LockMode acquiredLockMode = lockMode == LockMode.None ? LockMode.Read : lockMode;
LoadFromResultSet( dr, i, obj, key, suffix, acquiredLockMode, persister, session );
// materialize associations (and initialize the object) later
hydratedObjects.Add( obj );
return obj;
}
/// <summary>
/// Invokes the method if this is something that the LazyInitializer can handle
/// without the underlying proxied object being instantiated.
/// </summary>
/// <param name="method">The name of the method/property to Invoke.</param>
/// <param name="args">The arguments to pass the method/property.</param>
/// <returns>
/// The result of the Invoke if the underlying proxied object is not needed. If the
/// underlying proxied object is needed then it returns the result <see cref="InvokeImplementation"/>
/// which indicates that the Proxy will need to forward to the real implementation.
/// </returns>
public virtual object Invoke( MethodBase method, object[ ] args, object proxy )
{
string methodName = method.Name;
int paramCount = method.GetParameters().Length;
if( paramCount == 0 )
{
if( !_overridesEquals && methodName == "GetHashCode" )
{
return IdentityHashCodeProvider.GetHashCode( proxy );
}
else if( method.Equals( _getIdentifierMethod ) )
{
return _id;
}
else if( methodName == "Finalize" )
{
return null;
}
}
else if( paramCount == 1 )
{
if( !_overridesEquals && methodName == "Equals" )
{
return args[0] == proxy;
}
else if( method.Equals( _setIdentifierMethod ) )
{
Initialize();
_id = args[ 0 ];
return InvokeImplementation;
}
}
else if( paramCount == 2)
{
// if the Proxy Engine delegates the call of GetObjectData to the Initializer
// then we need to handle it. Castle.DynamicProxy takes care of serializing
// proxies for us, but other providers might not.
if( methodName == "GetObjectData" )
{
SerializationInfo info = ( SerializationInfo ) args[ 0 ];
StreamingContext context = ( StreamingContext ) args[ 1 ]; // not used !?!
if( _target == null & _session != null )
{
Key key = new Key( _id, _session.Factory.GetPersister( _persistentClass ) );
_target = _session.GetEntity( key );
}
// let the specific LazyInitializer write its requirements for deserialization
// into the stream.
AddSerializationInfo( info, context );
// don't need a return value for proxy.
return null;
}
}
return InvokeImplementation;
}
private IList DoQuery(
ISessionImplementor session,
QueryParameters queryParameters,
object optionalObject,
object optionalId,
object[ ] optionalCollectionKeys,
bool returnProxies
)
{
RowSelection selection = queryParameters.RowSelection;
int maxRows = HasMaxRows( selection ) ?
selection.MaxRows :
int.MaxValue;
ILoadable[ ] persisters = Persisters;
int cols = persisters.Length;
ArrayList hydratedObjects = cols > 0 ? new ArrayList() : null;
IList results = new ArrayList();
IDbCommand st = PrepareQueryCommand(
ApplyLocks( SqlString, queryParameters.LockModes, session.Factory.Dialect ),
queryParameters, false, session );
IDataReader rs = GetResultSet( st, selection, session );
try
{
if( optionalCollectionKeys != null )
{
HandleEmptyCollections( optionalCollectionKeys, rs, session );
}
Key[ ] keys = new Key[cols]; // we can reuse it each time
if( log.IsDebugEnabled )
{
log.Debug( "processing result set" );
}
int count;
for( count = 0; count < maxRows && rs.Read(); count++ )
{
object result = GetRowFromResultSet(
rs,
session,
queryParameters,
hydratedObjects,
optionalObject,
optionalId,
keys,
returnProxies );
results.Add( result );
}
if( log.IsDebugEnabled )
{
log.Debug( string.Format( "done processing result set ({0} rows)", count ) );
}
}
catch( Exception sqle )
{
ADOExceptionReporter.LogExceptions( sqle );
throw;
}
finally
{
session.Batcher.CloseQueryCommand( st, rs );
}
InitializeEntitiesAndCollections( hydratedObjects, rs, session );
return results; // GetResultList( results );
}
/// <summary>
/// Resolve any ids for currently loaded objects, duplications within the <c>IDataReader</c>,
/// etc. Instanciate empty objects to be initialized from the <c>IDataReader</c>. Return an
/// array of objects (a row of results) and an array of booleans (by side-effect) that determine
/// wheter the corresponding object should be initialized
/// </summary>
/// <param name="rs"></param>
/// <param name="persisters"></param>
/// <param name="suffixes"></param>
/// <param name="keys"></param>
/// <param name="optionalObject"></param>
/// <param name="optionalObjectKey"></param>
/// <param name="session"></param>
/// <param name="hydratedObjects"></param>
/// <param name="lockModes"></param>
/// <returns></returns>
private object[ ] GetRow(
IDataReader rs,
ILoadable[ ] persisters,
string[ ] suffixes,
Key[ ] keys,
object optionalObject,
Key optionalObjectKey,
LockMode[ ] lockModes,
IList hydratedObjects,
ISessionImplementor session )
{
int cols = persisters.Length;
if( log.IsDebugEnabled )
{
log.Debug( "result row: " + StringHelper.ToString( keys ) );
}
object[ ] rowResults = new object[cols];
for( int i = 0; i < cols; i++ )
{
object obj = null;
Key key = keys[ i ];
if( keys[ i ] == null )
{
// do nothing
}
else
{
//If the object is already loaded, return the loaded one
obj = session.GetEntity( key );
if( obj != null )
{
//its already loaded so dont need to hydrate it
InstanceAlreadyLoaded( rs, i, persisters[ i ], suffixes[ i ], key, obj, lockModes[ i ], session );
}
else
{
obj = InstanceNotYetLoaded( rs, i, persisters[ i ], suffixes[ i ], key, lockModes[ i ], optionalObjectKey, optionalObject, hydratedObjects, session );
}
}
rowResults[ i ] = obj;
}
return rowResults;
}
private object DoSave(
object obj,
object id,
IClassPersister persister,
bool useIdentityColumn,
Cascades.CascadingAction cascadeAction,
object anything )
{
if( log.IsDebugEnabled )
{
log.Debug( "saving " + MessageHelper.InfoString( persister, id ) );
}
Key key;
if( useIdentityColumn )
{
// if the id is generated by the database, we assign the key later
key = null;
}
else
{
key = new Key( id, persister );
object old = GetEntity( key );
if( old != null )
{
EntityEntry e = GetEntry( old );
if( e.Status == Status.Deleted )
{
ForceFlush( e );
}
else
{
throw new NonUniqueObjectException( id, persister.MappedClass );
}
}
persister.SetIdentifier( obj, id );
}
// Sub-insertions should occur before containing insertsion so
// Try to do the callback not
if( persister.ImplementsLifecycle )
{
log.Debug( "calling OnSave()" );
if( ( ( ILifecycle ) obj ).OnSave( this ) == LifecycleVeto.Veto )
{
log.Debug( "insertion vetoed by OnSave()" );
return id;
}
}
return DoSave( obj, key, persister, false, useIdentityColumn, cascadeAction, anything );
}
public void CreateWithWrongTypeOfId()
{
IClassPersister persister = new TestingClassPersister();
Key key = new Key(1L, persister);
}
/// <summary>
/// Create a "temporary" entry for a newly instantiated entity. The entity is
/// uninitialized, but we need the mapping from id to instance in order to guarantee
/// uniqueness.
/// </summary>
/// <param name="key"></param>
/// <param name="obj"></param>
/// <param name="lockMode"></param>
public void AddUninitializedEntity( Key key, object obj, LockMode lockMode )
{
AddEntity( key, obj );
AddEntry( obj, Status.Loading, null, key.Identifier, null, lockMode, true, null, false ); //temporary
}
/// <summary>
/// Load the data for the object with the specified id into a newly created
/// object. A new key will be assigned to the object. If the class supports
/// lazy initialization, return a proxy instead, leaving the real work for
/// later. This should return an existing proxy where appropriate.
/// </summary>
/// <param name="clazz">The <see cref="System.Type"/> of the object to load.</param>
/// <param name="id">The identifier of the object in the database.</param>
/// <param name="checkDeleted">
/// A boolean indicating if NHiberate should check if the object has or has not been deleted.
/// </param>
/// <param name="allowProxyCreation">A boolean indicating if it is allowed to return a Proxy instead of an instance of the <see cref="System.Type"/>.</param>
/// <returns>
/// An loaded instance of the object or a proxy of the object is proxies are allowed.
/// </returns>
/// <remarks>
/// If the parameter <c>checkDeleted</c> is <c>false</c> it is possible to return an object that has
/// been deleted by the user in this <see cref="ISession"/>. If the parameter <c>checkDeleted</c> is
/// <c>true</c> and the object has been deleted then an <see cref="ObjectDeletedException"/> will be
/// thrown.
/// </remarks>
private object DoLoadByClass( System.Type clazz, object id, bool checkDeleted, bool allowProxyCreation )
{
if( log.IsDebugEnabled )
{
log.Debug( "loading " + MessageHelper.InfoString( clazz, id ) );
}
IClassPersister persister = GetClassPersister( clazz );
if( !persister.HasProxy )
{
// this class has no proxies (so do a shortcut)
return DoLoad( clazz, id, null, LockMode.None, checkDeleted );
}
else
{
Key key = new Key( id, persister );
object proxy = null;
if( GetEntity( key ) != null )
{
// return existing object or initialized proxy (unless deleted)
return ProxyFor(
persister,
key,
DoLoad( clazz, id, null, LockMode.None, checkDeleted )
);
}
else if( ( proxy = proxiesByKey[ key ] ) != null )
{
// return existing uninitizlied proxy
return NarrowProxy( proxy, persister, key, null );
}
else if( allowProxyCreation )
{
// return new uninitailzed proxy
proxy = persister.CreateProxy( id, this );
if( persister.IsBatchLoadable )
{
batchLoadableEntityKeys[ key ] = Marker;
}
proxiesByKey[ key ] = proxy;
return proxy;
}
else
{
// return a newly loaded object
return DoLoad( clazz, id, null, LockMode.None, checkDeleted );
}
}
}
/// <summary>
/// If the existing proxy is insufficiently "narrow" (derived), instantiate a
/// new proxy and overwrite the registration of the old one. This breaks == and
/// occurs only for "class" proxies rather than "interface" proxies.
/// </summary>
/// <param name="proxy"></param>
/// <param name="persister"></param>
/// <param name="key"></param>
/// <param name="obj"></param>
/// <returns></returns>
public object NarrowProxy( object proxy, IClassPersister persister, Key key, object obj )
{
if( !persister.ConcreteProxyClass.IsAssignableFrom( proxy.GetType() ) )
{
if( log.IsWarnEnabled )
{
log.Warn(
"Narrowing proxy to " + persister.ConcreteProxyClass + " - this operation breaks =="
);
}
if( obj != null )
{
proxiesByKey.Remove( key );
return obj;
}
else
{
proxy = persister.CreateProxy( key.Identifier, this );
proxiesByKey[ key ] = proxy;
return proxy;
}
}
else
{
return proxy;
}
}
/// <summary>
/// Grab the existing proxy for an instance, if one exists.
/// (otherwise return the instance)
/// </summary>
/// <param name="persister"></param>
/// <param name="key"></param>
/// <param name="impl"></param>
/// <returns></returns>
public object ProxyFor( IClassPersister persister, Key key, object impl )
{
if( !persister.HasProxy || key == null )
{
return impl;
}
object proxy = proxiesByKey[ key ];
if( proxy != null )
{
return NarrowProxy( proxy, persister, key, impl );
}
else
{
return impl;
}
}
private EntityEntry Reassociate( object obj, object id, IClassPersister persister )
{
if( log.IsDebugEnabled )
{
log.Debug( "reassociating transient instance: " + MessageHelper.InfoString( persister, id ) );
}
Key key = new Key( id, persister );
CheckUniqueness( key, obj );
AddEntity( key, obj );
Object[ ] values = persister.GetPropertyValues( obj );
TypeFactory.DeepCopy( values, persister.PropertyTypes, persister.PropertyUpdateability, values );
object version = Versioning.GetVersion( values, persister );
EntityEntry newEntry = AddEntry( obj, Status.Loaded, values, id, version, LockMode.None, true, persister, false );
new OnLockVisitor( this, id ).Process( obj, persister );
return newEntry;
}
private void CheckUniqueness( Key key, object obj )
{
object entity = GetEntity( key );
if( entity == obj )
{
throw new AssertionFailure( "object already associated in DoSave()" );
}
if( entity != null )
{
throw new NonUniqueObjectException( key.Identifier, key.MappedClass );
}
}
/// <summary>
/// Used only by Replicate
/// </summary>
/// <param name="obj"></param>
/// <param name="id"></param>
/// <param name="version"></param>
/// <param name="replicationMode"></param>
/// <param name="persister"></param>
private void DoReplicate( object obj, object id, object version, ReplicationMode replicationMode, IClassPersister persister )
{
if( log.IsDebugEnabled )
{
log.Debug( "replicating changes to " + MessageHelper.InfoString( persister, id ) );
}
new OnReplicateVisitor( this, id ).Process( obj, persister );
Key key = new Key( id, persister );
AddEntity( key, obj );
AddEntry( obj, Status.Loaded, null, id, version, LockMode.None, true, persister, true );
cascading++;
try
{
// do cascade
Cascades.Cascade( this, persister, obj, Cascades.CascadingAction.ActionReplicate, CascadePoint.CascadeOnUpdate, replicationMode );
}
finally
{
cascading--;
}
}
/// <summary>
///
/// </summary>
/// <param name="key"></param>
/// <returns></returns>
public object GetEntity( Key key )
{
return entitiesByKey[ key ];
}
/// <summary>
/// Actually do all the hard work of loading up an object
/// </summary>
/// <param name="theClass"></param>
/// <param name="id"></param>
/// <param name="optionalObject"></param>
/// <param name="lockMode"></param>
/// <param name="checkDeleted"></param>
/// <returns></returns>
/// <remarks>
/// 1. see if it is already loaded
/// 2. see if it is cached
/// 3. actually go to the database
/// </remarks>
private object DoLoad( System.Type theClass, object id, object optionalObject, LockMode lockMode, bool checkDeleted )
{
//DONT need to flush before a load by id, because ids are constant
if( log.IsDebugEnabled )
{
log.Debug( "attempting to resolve " + MessageHelper.InfoString( theClass, id ) );
}
IClassPersister persister = GetClassPersister( theClass );
Key key = new Key( id, persister );
if( optionalObject != null )
{
persister.SetIdentifier( optionalObject, id );
}
// LOOK FOR LOADED OBJECT
// Look for Status.Loaded object
object old = GetEntity( key );
if( old != null )
{
//if this object was already loaded
EntityEntry oldEntry = GetEntry( old );
Status status = oldEntry.Status;
if( checkDeleted && ( status == Status.Deleted || status == Status.Gone ) )
{
throw new ObjectDeletedException( "The object with that id was deleted", id, theClass );
}
UpgradeLock( old, oldEntry, lockMode );
if( log.IsDebugEnabled )
{
log.Debug( "resolved object in session cache " + MessageHelper.InfoString( persister, id ) );
}
return old;
}
else
{
// check to see if we know already that it does not exist:
if( nonExists.Contains( key ) )
{
log.Debug( "entity does not exist" );
return null;
}
// LOOK IN CACHE
CacheEntry entry = persister.HasCache && lockMode.LessThan( LockMode.Read ) ?
( CacheEntry ) persister.Cache.Get( id, Timestamp ) :
null;
if( entry != null )
{
return AssembleCacheEntry( entry, id, persister, optionalObject );
}
else
{
//GO TO DATABASE
if( log.IsDebugEnabled )
{
log.Debug( "object not resolved in any cache " + MessageHelper.InfoString( persister, id ) );
}
object result = persister.Load( id, optionalObject, lockMode, this );
if( result == null )
{
// remember it doesn't exist, in case of next time
AddNonExist( key );
}
return result;
}
}
}
private object RemoveEntity( Key key )
{
object retVal = entitiesByKey[ key ];
entitiesByKey.Remove( key );
return retVal;
}
public void Refresh( object obj, LockMode lockMode )
{
CheckIsOpen();
if( obj == null )
{
throw new ArgumentNullException( "obj", "attempted to refresh null" );
}
if( ReassociateIfUninitializedProxy( obj ) )
{
return;
}
object theObj = UnproxyAndReassociate( obj );
EntityEntry e = RemoveEntry( theObj );
IClassPersister persister;
object id;
if( e == null )
{
persister = GetPersister( theObj );
id = persister.GetIdentifier( theObj );
if( log.IsDebugEnabled )
{
log.Debug( "refreshing transient " + MessageHelper.InfoString( persister, id ) );
}
if( GetEntry( new Key( id, persister ) ) != null )
{
throw new PersistentObjectException(
"attempted to refresh transient instance when persistent instance was already associated with the Session: " +
MessageHelper.InfoString( persister, id ) );
}
}
else
{
if( log.IsDebugEnabled )
{
log.Debug( "refreshing " + MessageHelper.InfoString( e.Persister, e.Id ) );
}
if( !e.ExistsInDatabase )
{
throw new HibernateException( "this instance does not yet exist as a row in the database" );
}
persister = e.Persister;
id = e.Id;
Key key = new Key( id, persister );
RemoveEntity( key );
if( persister.HasCollections )
{
new EvictVisitor( this ).Process( obj, persister );
}
}
if( persister.HasCache )
{
persister.Cache.Remove( id );
}
EvictCachedCollections( persister, id );
object result = persister.Load( id, theObj, lockMode, this );
UnresolvableObjectException.ThrowIfNull( result, id, persister.MappedClass );
}
private object DoSave(
object theObj,
Key key,
IClassPersister persister,
bool replicate,
bool useIdentityColumn,
Cascades.CascadingAction cascadeAction,
object anything )
{
if( persister.ImplementsValidatable )
{
( ( IValidatable ) theObj ).Validate();
}
object id;
if( useIdentityColumn )
{
id = null;
ExecuteInserts();
}
else
{
id = key.Identifier;
}
// Put a placeholder in entries, so we don't recurse back to try and Save() the
// same object again. QUESTION: Should this be done before OnSave() is called?
// likewise, should it be done before OnUpdate()?
AddEntry( theObj, Status.Saving, null, id, null, LockMode.Write, useIdentityColumn, persister, false ); // okay if id is null here
// cascade-save to many-to-one BEFORE the parent is saved
cascading++;
try
{
Cascades.Cascade( this, persister, theObj, cascadeAction, CascadePoint.CascadeBeforeInsertAfterDelete, anything );
}
finally
{
cascading--;
}
object[ ] values = persister.GetPropertyValues( theObj );
IType[ ] types = persister.PropertyTypes;
bool substitute = false;
if( !replicate )
{
substitute = interceptor.OnSave( theObj, id, values, persister.PropertyNames, types );
// Keep the existing version number in the case of replicate!
if( persister.IsVersioned )
{
// IsUnsavedVersion bit below is NHibernate-specific
substitute = Versioning.SeedVersion(
values, persister.VersionProperty, persister.VersionType, persister.IsUnsavedVersion( values )
) || substitute;
}
}
if( persister.HasCollections )
{
// TODO: make OnReplicateVisitor extend WrapVisitor
if( replicate )
{
OnReplicateVisitor visitor = new OnReplicateVisitor( this, id );
visitor.ProcessValues( values, types );
}
WrapVisitor visitor2 = new WrapVisitor( this );
// substitutes into values by side-effect
visitor2.ProcessValues( values, types );
substitute = substitute || visitor2.IsSubstitutionRequired;
}
if( substitute )
{
persister.SetPropertyValues( theObj, values );
}
TypeFactory.DeepCopy( values, types, persister.PropertyUpdateability, values );
NullifyTransientReferences( values, types, useIdentityColumn, theObj );
CheckNullability( values, persister, false );
if( useIdentityColumn )
{
ScheduledIdentityInsertion insert = new ScheduledIdentityInsertion( values, theObj, persister, this );
Execute( insert );
id = insert.GeneratedId;
persister.SetIdentifier( theObj, id );
key = new Key( id, persister );
CheckUniqueness( key, theObj );
}
object version = Versioning.GetVersion( values, persister );
AddEntity( key, theObj );
AddEntry( theObj, Status.Loaded, values, id, version, LockMode.Write, useIdentityColumn, persister, replicate );
nonExists.Remove( key );
if( !useIdentityColumn )
{
insertions.Add( new ScheduledInsertion( id, values, theObj, version, persister, this ) );
}
// cascade-save to collections AFTER the collection owner was saved
cascading++;
try
{
Cascades.Cascade( this, persister, theObj, cascadeAction, CascadePoint.CascadeAfterInsertBeforeDelete, anything );
}
finally
{
cascading--;
}
return id;
}
public void PostDelete( object obj )
{
EntityEntry entry = RemoveEntry( obj );
if( entry == null )
{
throw new AssertionFailure( "possible nonthreadsafe access to session" );
}
entry.Status = Status.Gone;
entry.ExistsInDatabase = false;
Key key = new Key( entry.Id, entry.Persister );
RemoveEntity( key );
proxiesByKey.Remove( key );
}
private object GetRowFromResultSet(
IDataReader resultSet,
ISessionImplementor session,
QueryParameters queryParameters,
IList hydratedObjects,
object optionalObject,
object optionalId,
Key[ ] keys,
bool returnProxies )
{
ILoadable[ ] persisters = Persisters;
int cols = persisters.Length;
ICollectionPersister collectionPersister = CollectionPersister;
int collectionOwner = CollectionOwner;
string[ ] suffixes = Suffixes;
LockMode[ ] lockModeArray = GetLockModes( queryParameters.LockModes );
int[ ] owners = Owners;
// this is a CollectionInitializer and we are loading up a single collection
bool hasCollections = collectionPersister != null;
// this is a query and we are loading multiple instances of the same collection role
bool hasCollectionOwners = hasCollections && collectionOwner >= 0;
Key optionalObjectKey;
if( optionalObject != null )
{
optionalObjectKey = new Key( optionalId, session.GetPersister( optionalObject ) );
}
else
{
optionalObjectKey = null;
}
for( int i = 0; i < cols; i++ )
{
keys[ i ] = GetKeyFromResultSet(
i,
Persisters[ i ],
( i == cols - 1 ) ? optionalId : null,
resultSet,
session );
//TODO: the i==cols-1 bit depends upon subclass implementation (very bad)
}
if( owners != null )
{
RegisterNonExists( keys, owners, persisters, session );
}
// this call is side-effecty
object[ ] row = GetRow(
resultSet,
persisters,
suffixes,
keys,
optionalObject,
optionalObjectKey,
lockModeArray,
hydratedObjects,
session );
if( returnProxies )
{
for( int i = 0; i < cols; i++ )
{
// now get an existing proxy for each row element (if there is one)
row[ i ] = session.ProxyFor( persisters[ i ], keys[ i ], row[ i ] );
}
}
if( hasCollections )
{
//if null, owner will be retrieved from session
object owner = hasCollectionOwners ? row[ collectionOwner ] : null;
object key = owner != null
? keys[ collectionOwner ].Identifier : null;
ReadCollectionElement( owner, key, resultSet, session );
}
return GetResultColumnOrRow( row, resultSet, session );
}
/// <summary>
/// record the fact that this collection was dereferenced
/// </summary>
/// <param name="coll"></param>
private void UpdateUnreachableCollection( PersistentCollection coll )
{
CollectionEntry entry = GetCollectionEntry( coll );
if( log.IsDebugEnabled && entry.loadedPersister != null )
{
log.Debug( "collection dereferenced: " + MessageHelper.InfoString( entry.loadedPersister, entry.loadedKey ) );
}
// do a check
if( entry.loadedPersister != null && entry.loadedPersister.HasOrphanDelete )
{
Key key = new Key(
entry.loadedKey,
GetClassPersister( entry.loadedPersister.OwnerClass ) );
object owner = GetEntity( key );
if( owner == null )
{
throw new AssertionFailure( "owner not associated with session" );
}
EntityEntry e = GetEntry( owner );
// only collections belonging to deleted entities are allowed to be dereferenced in
// the case of orphan delete
if( e != null && e.Status != Status.Deleted && e.Status != Status.Gone )
{
throw new HibernateException( "You may not dereference an collection with cascade=\"all-delete-orphan\"" );
}
}
// do the work
entry.currentPersister = null;
entry.currentKey = null;
PrepareCollectionForUpdate( coll, entry );
}
private void RegisterNonExists(
Key[ ] keys,
int[ ] owners,
ILoadable[ ] persisters,
ISessionImplementor session
)
{
for( int i = 0; i < keys.Length; i++ )
{
int owner = owners[ i ];
if( owner > -1 )
{
Key ownerKey = keys[ owner ];
if( keys[ i ] == null && ownerKey != null )
{
session.AddNonExist( new Key( ownerKey.Identifier, persisters[ i ] ) );
}
}
}
}
/// <summary>
/// remove any hard references to the entity that are held by the infrastructure
/// (references held by application or other persistant instances are okay)
/// </summary>
/// <param name="obj"></param>
public void Evict( object obj )
{
CheckIsOpen();
if( obj is INHibernateProxy )
{
LazyInitializer li = NHibernateProxyHelper.GetLazyInitializer( ( INHibernateProxy ) obj );
object id = li.Identifier;
IClassPersister persister = GetClassPersister( li.PersistentClass );
Key key = new Key( id, persister );
proxiesByKey.Remove( key );
if( !li.IsUninitialized )
{
object entity = RemoveEntity( key );
if( entity != null )
{
EntityEntry e = RemoveEntry( entity );
DoEvict( e.Persister, entity );
}
}
}
else
{
EntityEntry e = RemoveEntry( obj );
if( e != null )
{
RemoveEntity( new Key( e.Id, e.Persister ) );
DoEvict( e.Persister, obj );
}
}
}
/// <summary>
/// The entity instance is already in the session cache
/// </summary>
private void InstanceAlreadyLoaded(
IDataReader rs,
int i,
ILoadable persister,
string suffix,
Key key,
object obj,
LockMode lockMode,
ISessionImplementor session )
{
if( !persister.MappedClass.IsAssignableFrom( obj.GetType() ) )
{
throw new WrongClassException( "loading object was of wrong class", key.Identifier, persister.MappedClass );
}
if( LockMode.None != lockMode && UpgradeLocks() )
{
// we don't need to worry about existing version being uninitialized
// because this block isn't called by a re-entrant load (re-entrant
// load _always_ have lock mode NONE
if( persister.IsVersioned && session.GetLockMode( obj ).LessThan( lockMode ) )
{
// we only check the version when _upgrading_ lock modes
CheckVersion( i, persister, key.Identifier, session.GetVersion( obj ), rs, session );
// we need to upgrade the lock mode to the mode requested
session.SetLockMode( obj, lockMode );
}
}
}
public void AddNonExist( Key key )
{
nonExists.Add( key );
}
/// <summary>
/// Hydrate the state of an object from the SQL <c>IDataReader</c>, into
/// an array of "hydrated" values (do not resolve associations yet),
/// and pass the hydrated state to the session.
/// </summary>
/// <param name="rs"></param>
/// <param name="i"></param>
/// <param name="obj"></param>
/// <param name="key"></param>
/// <param name="suffix"></param>
/// <param name="lockMode"></param>
/// <param name="rootPersister"></param>
/// <param name="session"></param>
private void LoadFromResultSet( IDataReader rs, int i, object obj, Key key, string suffix, LockMode lockMode, ILoadable rootPersister, ISessionImplementor session )
{
if( log.IsDebugEnabled )
{
log.Debug( "Initializing object from DataReader: " + key );
}
// add temp entry so that the next step is circular-reference
// safe - only needed because some types don't take proper
// advantage of two-phase-load (esp. components)
session.AddUninitializedEntity( key, obj, lockMode );
// Get the persister for the _subclass_
ILoadable persister = ( ILoadable ) session.GetPersister( obj );
// This is not very nice (and quite slow):
string[ ][ ] cols = persister == rootPersister ?
suffixedPropertyColumns[ i ] :
GetSuffixedPropertyAliases( persister, suffix );
object id = key.Identifier;
object[ ] values = Hydrate( rs, id, obj, persister, session, cols );
session.PostHydrate( persister, id, values, obj, lockMode );
}
private void AddEntity( Key key, object obj )
{
entitiesByKey[ key ] = obj;
if( key.IsBatchLoadable )
{
batchLoadableEntityKeys.Remove( key );
}
}
/// <summary>
/// Return the Underlying Persistent Object in a given <see cref="ISession"/>, or null.
/// </summary>
/// <param name="s">The Session to get the object from.</param>
/// <returns>The Persistent Object this proxy is Proxying, or <c>null</c>.</returns>
public object GetImplementation( ISessionImplementor s )
{
Key key = new Key( Identifier, s.Factory.GetPersister( PersistentClass ) );
return s.GetEntity( key );
}
private void DoDelete( object obj, EntityEntry entry, IClassPersister persister )
{
if( log.IsDebugEnabled )
{
log.Debug( "deleting " + MessageHelper.InfoString( persister, entry.Id ) );
}
IType[ ] propTypes = persister.PropertyTypes;
object version = entry.Version;
object[ ] loadedState;
if( entry.LoadedState == null )
{
//ie the object came in from Update()
loadedState = persister.GetPropertyValues( obj );
}
else
{
loadedState = entry.LoadedState;
}
entry.DeletedState = new object[loadedState.Length];
TypeFactory.DeepCopy( loadedState, propTypes, persister.PropertyUpdateability, entry.DeletedState );
interceptor.OnDelete( obj, entry.Id, entry.DeletedState, persister.PropertyNames, propTypes );
entry.Status = Status.Deleted; // before cascade and Lifecycle callback, so we are circular-reference safe
Key key = new Key( entry.Id, persister );
IList deletionsByOnDelete = null;
ISet nullifiablesAfterOnDelete = null;
// do Lifecycle callback before cascades, since this can veto
if( persister.ImplementsLifecycle )
{
ISet oldNullifiables = ( ISet ) nullifiables.Clone();
ArrayList oldDeletions = ( ArrayList ) deletions.Clone();
nullifiables.Add( key ); //the deletion of the parent is actually executed BEFORE any deletion from onDelete()
try
{
log.Debug( "calling onDelete()" );
if( ( ( ILifecycle ) obj ).OnDelete( this ) == LifecycleVeto.Veto )
{
//rollback deletion
entry.Status = Status.Loaded;
entry.DeletedState = null;
nullifiables = oldNullifiables;
log.Debug( "deletion vetoed by OnDelete()" );
return; // don't let it cascade
}
}
catch( Exception )
{
//rollback deletion
entry.Status = Status.Loaded;
entry.DeletedState = null;
nullifiables = oldNullifiables;
throw;
}
//note, the following assumes that onDelete() didn't cause the session to be flushed!
// TODO: add a better check that it doesn't
if( oldDeletions.Count > deletions.Count )
{
throw new HibernateException( "session was flushed during onDelete()" );
}
deletionsByOnDelete = Sublist( deletions, oldDeletions.Count, deletions.Count );
deletions = oldDeletions;
nullifiablesAfterOnDelete = nullifiables;
nullifiables = oldNullifiables;
}
cascading++;
try
{
// cascade-delete to collections "BEFORE" the collection owner is deleted
Cascades.Cascade( this, persister, obj, Cascades.CascadingAction.ActionDelete, CascadePoint.CascadeAfterInsertBeforeDelete, null );
}
finally
{
cascading--;
}
NullifyTransientReferences( entry.DeletedState, propTypes, false, obj );
// NH: commented out, seems illogical to check for nulls here
//CheckNullability( entry.DeletedState, persister, true );
nullifiables.Add( key );
ScheduledDeletion delete = new ScheduledDeletion( entry.Id, version, obj, persister, this );
deletions.Add( delete ); // Ensures that containing deletions happen before sub-deletions
if( persister.ImplementsLifecycle )
{
// after nullify, because we don't want to nullify references to subdeletions
nullifiables.AddAll( nullifiablesAfterOnDelete );
// after deletions.add(), to respect foreign key constraints
deletions.AddRange( deletionsByOnDelete );
}
cascading++;
try
{
// cascade-delete to many-to-one AFTER the parent was deleted
Cascades.Cascade( this, persister, obj, Cascades.CascadingAction.ActionDelete, CascadePoint.CascadeBeforeInsertAfterDelete );
}
finally
{
cascading--;
}
}
