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I'm building a WPF app that connects to a SQL Server database using LINQ to SQL.

The main window of the app contains a ListView containing a series of detail views. The ItemSource of the ListView is bound to a collection of detail view model objects exposed as a property on the root view model. Each detail view model object composes several ICommand properties as well as a property exposing a detail model object, which in turn exposes the various data fields shown in the UI.

Analysis with the ANTS memory profiler shows that the objects being leaked are those contained in the detail model object, and some UI classes to which they are bound. Instances of these objects from previous refreshes are not being garbage collected.

ANTS has a tool that allows the user to trace chains of reference to identify why unwanted memory is being retained. When I use it, I find that all of the chains that show up have an ICommand in them. Accordingly, I've removed the offending ICommand, and found that the memory leak disappears.

Unfortunately, I need the ICommand to implement some important functionality. What is really confusing me is how it has a reference to the detail model object in the first place- they are two completely separate instance variables in the detail view model object.

Here is the constructor of the detail view model object (The reference to the RootViewModel is used for callbacks in some of the methods connected to the ICommands. I originally suspected that this might be causing a circular chain of references that might be the cause of the problem, but removing it doesn't seem to have any effect.)

public CarDataViewModel(CarData carDataItem, RootViewModel parentViewModel)
    {

        _parentViewModel = parentViewModel;
        CarDataModel = carDataItem;
        CompetingCheckboxStatus = CarDataModel.CurrentCar.Competing;
        AcknowledgeAlarm = new ParameterlessCommand(AcknowledgeAlarmClicked);
        Acknowledge = new ParameterlessCommand(AcknowledgeClicked);
        ShowReport = new ParameterlessCommand(ShowReportClicked);
        Cancel = new ParameterlessCommand(CancelClicked);
    }

Here's the xaml where the bindings are set up - AcknowledgeAlarm is the ICommand, CarDataModel is the detail model object:

<ListView x:Name="itemGridView"Grid.Row="1"ScrollViewer.HorizontalScrollBarVisibility="Disabled" ItemsSource="{Binding CarDataViewModels}" IsSynchronizedWithCurrentItem="True" Margin="0,0,0,0">
        <ListView.ItemTemplate>
            <DataTemplate>
                </DataTemplate.Resources>
                <Button Command="{Binding AcknowledgeAlarm}">
                    <Border DataContext="{Binding CarDataModel}" BorderBrush="{StaticResource GrayFadeBrush}" Background="White" BorderThickness="5">
                        <Grid> . . .
  • I suspect this might be related to the CanExecuteChanged event in ParameterlessCommand. Can you show how that's implemented? – Daniel Oct 16 '12 at 17:16
  • It's public event EventHandler CanExecuteChanged;, protected virtual void OnCanExecuteChanged(EventArgs args) { if (CanExecuteChanged != null) { CanExecuteChanged(this, args); } } - sorry for formatting, can't seem to add returns – Rich Tolley Oct 17 '12 at 9:51
10

The CanExecuteChanged event handler is likely implicated in the leak.

WPF expects ICommand implementations to use weak references to the event handlers. You're using a normal .NET event which uses strong references, which can cause this leak.

The way you are creating the ParameterlessCommand instance seems to imply that CanExecute will always be true, and you don't need the event at all. Are you actually firing the event anywhere, or is OnCanExecuteChanged unused code?

If not, replace the event definition with:

public event EventHandler CanExecuteChanged { add {} remove {} }

This way the event does not store any handlers, and the view model avoids having a strong reference to the UI elements.

If you need to raise the event, the easiest solution is to use CommandManager.RequerySuggested, which matches the weak event semantics expected for ICommand:

public event EventHandler CanExecuteChanged {
    add {
        CommandManager.RequerySuggested += value;
    }
    remove {
        CommandManager.RequerySuggested -= value;
    }
}

Another thing you should do is implement INotifyPropertyChanged in your view model (if you haven't done so already), and use that instead of having individual NameChanged etc. events for each property. This is because the logic in WPF dealing with the individual properties causes memory leaks when there is a reference from the view model back to the UI elements: http://support.microsoft.com/kb/938416

AFAIK you need to implement INotifyPropertyChanged even if you don't actually have any change events.


My guess is that fixing either of these two problems will make the leak disappear: the incorrectly implemented CanExecuteChanged causes a strong reference from view model to view, which is exactly the circumstance under which the lack of INotifyPropertyChanged causes a leak.

But it's a good idea to fix both issues; not just one of them.

  • Thanks! That sorted it. – Rich Tolley Oct 18 '12 at 9:36
2

One of the "new" challenges that programmers must deal with when using MVVM is that the ViewModel doesn't automatically clean itself up. If you set a property which causes a view to load, then change that property, the old object is not necessarily automatically disposed. It may sit on the GC for a long time before it's cleaned up.

It's especially tempting to use LINQ to build your ViewModel collections, but you must be very careful. LINQ will return new instances of your objects on each call, potentially creating memory leaks and state problems.

All that said, I don't see nearly enough information in this question to help you identify the source of your leak (and far too much irrelevant information). Your best bet is to standardize your ViewModel creation pattern, using Factory or something similar, so that you are only generating a new instance of a ViewModel when you intend to and so that you can keep track of instances and kill them as needed.

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