public _IVisitor4_182(GenericReplicationSession _enclosing, IReplicationProviderInside sourceProvider, IReplicationProviderInside targetProvider) { this._enclosing = _enclosing; this.sourceProvider = sourceProvider; this.targetProvider = targetProvider; }
public _ICounterpartFinder_248(GenericReplicationSession _enclosing, IReplicationProviderInside sourceProvider, IReplicationProviderInside targetProvider) { this._enclosing = _enclosing; this.sourceProvider = sourceProvider; this.targetProvider = targetProvider; }
public virtual void Test() { if (!A().Provider().SupportsMultiDimensionalArrays()) { return; } if (!B().Provider().SupportsMultiDimensionalArrays()) { return; } ArrayHolder h1 = new ArrayHolder("h1"); ArrayHolder h2 = new ArrayHolder("h2"); h1._array = new ArrayHolder[] { h1 }; h2._array = new ArrayHolder[] { h1, h2, null }; h1._arrayN = new ArrayHolder[][] { new ArrayHolder[] { h1 } }; h2._arrayN = new ArrayHolder[][] { new ArrayHolder[] { h1, null }, new ArrayHolder [] { null, h2 }, new ArrayHolder[] { null, null } }; //TODO Fix ReflectArray.shape() and test with innermost arrays of varying sizes: {{h1}, {null, h2}, {null}} B().Provider().StoreNew(h2); B().Provider().StoreNew(h1); B().Provider().Commit(); IReplicationSession replication = new GenericReplicationSession(A().Provider(), B ().Provider(), null, _fixtures.reflector); replication.Replicate(h2); //Traverses to h1. replication.Commit(); IEnumerator objects = A().Provider().GetStoredObjects(typeof(ArrayHolder)).GetEnumerator (); CheckNext(objects); CheckNext(objects); Assert.IsFalse(objects.MoveNext()); }
public virtual void Test() { Replicated obj1 = new Replicated("1"); Replicated obj2 = new Replicated("2"); Replicated obj3 = new Replicated("3"); obj1.SetLink(obj2); obj2.SetLink(obj3); obj3.SetLink(obj1); _peerA.StoreNew(obj1); //_peerA.transientProviderSpecificStore(obj2); //_peerA.transientProviderSpecificStore(obj3); IReplicationSession replication = new GenericReplicationSession(_peerA, _peerB); replication.Replicate(obj1); Assert.IsTrue(_peerA.ActivatedObjects().Contains(obj1)); Assert.IsTrue(_peerA.ActivatedObjects().Contains(obj2)); Assert.IsTrue(_peerA.ActivatedObjects().Contains(obj3)); _peerA = null; _peerB = null; }
protected virtual void ActualTest() { if (!A().Provider().SupportsHybridCollection()) { return; } if (!B().Provider().SupportsHybridCollection()) { return; } CollectionHolder h1 = new CollectionHolder("h1"); CollectionHolder h2 = new CollectionHolder("h2"); h1.Map()["key"] = "value"; h1.Map()["key2"] = h1; h1.Map()[h1] = "value2"; h2.Map()["key"] = h1; h2.Map()[h2] = h1; h1.List().Add("one"); h1.List().Add(h1); h2.List().Add("two"); h2.List().Add(h1); h2.List().Add(h2); h1.Set().Add("one"); h1.Set().Add(h1); h2.Set().Add("two"); h2.Set().Add(h1); h2.Set().Add(h2); B().Provider().StoreNew(h2); B().Provider().StoreNew(h1); IReplicationSession replication = new GenericReplicationSession(A().Provider(), B ().Provider()); replication.Replicate(h2); //Traverses to h1. replication.Commit(); IEnumerator objects = A().Provider().GetStoredObjects(typeof(CollectionHolder)).GetEnumerator (); Check(NextCollectionHolder(objects), h1, h2); Check(NextCollectionHolder(objects), h1, h2); }
public _IVisitor4_286(GenericReplicationSession _enclosing, IReplicationProviderInside destination) { this._enclosing = _enclosing; this.destination = destination; }
public _IBlock4_73(GenericReplicationSession _enclosing) { this._enclosing = _enclosing; }
public _IBlock4_108(GenericReplicationSession _enclosing, IBlock4 block) { this._enclosing = _enclosing; this.block = block; }
private void InitState() { CheckEmpty(A().Provider()); CheckEmpty(B().Provider()); A().Provider().StoreNew(new Replicated("oldFromA")); B().Provider().StoreNew(new Replicated("oldFromB")); A().Provider().Commit(); B().Provider().Commit(); IReplicationSession replication = new GenericReplicationSession(A().Provider(), B ().Provider()); ReplicateQueryingFrom(replication, A().Provider(), B().Provider()); ReplicateQueryingFrom(replication, B().Provider(), A().Provider()); replication.Commit(); }
private void DoIt() { InitState(); PrintProvidersContent("before changes"); PerformChanges(); PrintProvidersContent("after changes"); IReplicationEventListener listener = new _IReplicationEventListener_170(this); //Default replication behaviour. IReplicationSession replication = new GenericReplicationSession(A().Provider(), B ().Provider(), listener, _fixtures.reflector); if (_direction.Size() == 1) { if (_direction.Contains(AStuff)) { replication.SetDirection(B().Provider(), A().Provider()); } if (_direction.Contains(BStuff)) { replication.SetDirection(A().Provider(), B().Provider()); } } Out("DIRECTION: " + _direction); bool successful = TryToReplicate(replication); replication.Commit(); PrintProvidersContent("after replication"); if (successful) { CheckNames(); } Clean(); }
private void InitState() { CheckEmpty(A().Provider()); CheckEmpty(B().Provider()); A().Provider().StoreNew(new Replicated("oldFromA")); B().Provider().StoreNew(new Replicated("oldFromB")); A().Provider().Commit(); B().Provider().Commit(); PrintProvidersContent("init state"); IReplicationSession replication = new GenericReplicationSession(A().Provider(), B ().Provider(), null, _fixtures.reflector); ReplicateQueryingFrom(replication, A().Provider(), B().Provider()); ReplicateQueryingFrom(replication, B().Provider(), A().Provider()); replication.Commit(); }