When I bind an ItemsSource of a ListBox to a List the binding engine holds on to the list elements after the control is gone. This causes all the list elements to stay in memory. The problem goes away when using an ObservalbleCollection. Why does this happen?

The xaml inside the window tag

        <ContentControl Name="ContentControl">
            <ListBox ItemsSource="{Binding List, Mode=TwoWay}" DisplayMemberPath="Name"/>
        <Button Click="Button_Click">GC</Button>

Code behind:

public MainWindow()
        DataContext = new ViewModel();

private void Button_Click(object sender, RoutedEventArgs e)
        this.DataContext = null;
        ContentControl.Content = null;


class ViewModel : INotifyPropertyChanged
    //Implementation of INotifyPropertyChanged ...

    //Introducing ObservableCollection as type resolves the problem
    private IEnumerable<Person> _list = 
            new List<Person> { new Person { Name = "one" }, new Person { Name = "two" } };

    public IEnumerable<Person> List
        get { return _list; }
            _list = value;

class Person
    public string Name { get; set; }

Edit: To check the leaking of the person istances, I used ANTS and .Net memory profiler. Both show that after pushing the GC-button only the binding engine is holding reference to the person objects.

  • What do you mean by "control is gone"? Has it become invisible? Was it unloaded ? – helb Oct 22 '13 at 7:20
  • How you know about memory leaks here? What tool have you used to profile this? – dev hedgehog Oct 22 '13 at 7:23
  • how to identify that memory is going leaks in case when you are using List. – J R B Oct 22 '13 at 7:29
  • you should change the List from IEnumerable<Person> to ObservableCollection<Person> – makc Oct 22 '13 at 14:36

Ahhh got you. Now I understand what you mean.

You set the Content to null and so you kill the compelte ListBox but still the ItemsSource binds to List and so ListBox memory is not completely released.

That is unfortunately a well known issue and also well documented on MSDN.

If you are not binding to a DependencyProperty or a object that implements INotifyPropertyChanged or ObservableCollection then the binding can leak memory, and you will have to unbind when you are done.

This is because if the object is not a DependencyProperty or does not implement INotifyPropertyChanged or not implementing INotifyCollectionChanged (Normal list is not implementing this) then it uses the ValueChanged event via the PropertyDescriptors AddValueChanged method. This causes the CLR to create a strong reference from the PropertyDescriptor to the object and in most cases the CLR will keep a reference to the PropertyDescriptor in a global table.

Because the binding must continue to listen for changes. This behavior keeps the reference alive between the PropertyDescriptor and the object as the target remains in use. This can cause a memory leak in the object and any object to which the object refers.

The question is...is Person implementing INotifyPropertyChanged?

  • Person is not implementing INotifyPropertyChanged. But I understood the well-known problem differently. I understood that the class that is providing the property should implement INotifyPropertyChanged, which it does. "it uses the ValueChanged event via the PropertyDescriptors AddValueChanged method" makes only sense when the class providing the property is meant, right? – user1182735 Oct 22 '13 at 8:16
  • No, not really, you are almost there. Think like this: Every property in a ViewModel has a type. That type might be another class which shall implement INotifyPropertyChanged. ViewModel itself should implement INotifyPropertyChanged too. When Binding inits it takes the type of the property and seeks for interfaces like INotifyPropertyChanged or INotifyCollectionChanged. List<> is at type has no interface while ObservableCollection does. If no interface found it will take a strong reference (Not in every case). Sometimes Binding takes a weak reference. To sum up its the type that owns property. – dev hedgehog Oct 22 '13 at 8:45
  • I am very grateful that you take time to respond to my question. I tested your original theory that is has something to do with "is Person implementing INotifyPropertyChanged". It has not. Whether the person objects are kept in memory is indepented of whether Person implements INotifyPropertyChanged. It does only depend on the type of the list. Type List means it stays, type ObservableCollection means it goes away. – user1182735 Oct 22 '13 at 10:32
  • My understanding of the problem of static references to the ValueChanged-event is this: ValueChanged is an event of a PropertyDescriptor which represents a property -- the property of the binding source object. The Binding source in this example is the ViewModel. But, it is of type INotifyPropertyChanged, therefore the issue does not apply here. – user1182735 Oct 22 '13 at 10:40
  • Read again what I wrote. Of course it is not changing anything when you even implement INotifyPropertyChanged in Person. You keep misunderstanding what I am saying. The Binding itself looks at the type of the property which is in your case List<..> and it asks that type if it has interfaces implement. It doesnt so the Binding creates a strong reference in your case. If the type of the property was a class that did implement INotifyPropertyChanged such as Person alone (not in a list and with implemented interface) it would work. List is a class without INotifyCollectionChanged interface. – dev hedgehog Oct 22 '13 at 10:51

I had a look at your example with JustTrace memory profiler and apart from an obvious question why would you kill view model / nullify DataContext and leave view running (in 99.9% of cases you'd kill View and DataContext - hence ViewModel and Bindings go of of scope automatically) here's what I found.

It will work fine if you modify your example to:

  • replace DataContext with new instance of view model, as expected, existing instances of Person go out of scope as MS.Internal.Data.DataBingingEngine flushes all bindings, even they were strong refs not managed by WeakPropertyChangedEventManager , or:
  • ViewModel to replace List with new instance of IEnumerable i.e. new Person[0]/simply null and raise INCP.PropertyChanged("List") on the ViewModel

Above modifications prove you can safely use IEnumerable/IEnumerable in binding. BTW, Person class doesn't need to implement INPC neither - TypeDescriptor binding/Mode=OneTime don't make any difference in this case, I verified that too. BTW, bindings to IEnumerable/IEnumerable/IList are wrapped into EnumerableCollectionView internal class. Unfortunatelly, I didn;t have a chance to go through MS.Internal/System.ComponentModel code to find out why ObservableCollection works when setting DataContext = null, probably because Microsoft guys did a special handing when unsubscribing from CollectionChanged. Feel free to waste few precious lifetime hours on going through MS.Internal/ComponentModel :) Hope It helps

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