Logo Questions Linux Laravel Mysql Ubuntu Git Menu
 

How to add a Blend Behavior in a Style Setter

I have crated a Blend behavior for Button. How can I set that to all of my Buttons in the app.

<Button ...>
  <i:Interaction.Behaviors>
    <local:MyBehavior />
  </i:Interaction.Behaviors>
</Button>

However, when I try:

<Style>
  <Setter Property="i:Interaction.Behaviors">
    <Setter.Value>
      <local:MyBehavior />
    </Setter.Value>
  </Setter>
</Style>

I get the error

The property "Behaviors" does not have an accessible setter.

like image 469
Jobi Joy Avatar asked Oct 30 '09 03:10

Jobi Joy


3 Answers

I had the same problem and I've come up with a solution. I found this question after I solved it and I see that my solution bears a lot in common with Mark's. However, this approach is a little different.

The main problem is that behaviors and triggers associate with a specific object and so you cannot use the same instance of a behavior for multiple different associated objects. When you define your behavior inline XAML enforces this one-to-one relationship. However, when you try to set a behavior in a style, the style can be re-used for all the objects it applies to and this will throw exceptions in the base behavior classes. In fact the authors went to considerable effort to prevent us from even trying to do this, knowing that it wouldn't work.

The first problem is that we cannot even construct a behavior setter value because the constructor is internal. So we need our own behavior and trigger collection classes.

The next problem is that the behavior and trigger attached properties don't have setters and so they can only be added to with in-line XAML. This problem we solve with our own attached properties that manipulate the primary behavior and trigger properties.

The third problem is that our behavior collection is only good for a single style target. This we solve by utilizing a little-used XAML feature x:Shared="False" which creates a new copy of the resource each time it is referenced.

The final problem is that behaviors and triggers are not like other style setters; we don't want to replace the old behaviors with the new behaviors because they could do wildly different things. So if we accept that once you add a behavior you cannot take it away (and that's the way behaviors currently work), we can conclude that behaviors and triggers should be additive and this can be handled by our attached properties.

Here is a sample using this approach:

<Grid>
    <Grid.Resources>
        <sys:String x:Key="stringResource1">stringResource1</sys:String>
        <local:Triggers x:Key="debugTriggers" x:Shared="False">
            <i:EventTrigger EventName="MouseLeftButtonDown">
                <local:DebugAction Message="DataContext: {0}" MessageParameter="{Binding}"/>
                <local:DebugAction Message="ElementName: {0}" MessageParameter="{Binding Text, ElementName=textBlock2}"/>
                <local:DebugAction Message="Mentor: {0}" MessageParameter="{Binding Text, RelativeSource={RelativeSource AncestorType={x:Type FrameworkElement}}}"/>
            </i:EventTrigger>
        </local:Triggers>
        <Style x:Key="debugBehavior" TargetType="FrameworkElement">
            <Setter Property="local:SupplementaryInteraction.Triggers" Value="{StaticResource debugTriggers}"/>
        </Style>
    </Grid.Resources>
    <StackPanel DataContext="{StaticResource stringResource1}">
        <TextBlock Name="textBlock1" Text="textBlock1" Style="{StaticResource debugBehavior}"/>
        <TextBlock Name="textBlock2" Text="textBlock2" Style="{StaticResource debugBehavior}"/>
        <TextBlock Name="textBlock3" Text="textBlock3" Style="{StaticResource debugBehavior}"/>
    </StackPanel>
</Grid>

The example uses triggers but behaviors work the same way. In the example, we show:

  • the style can be applied to multiple text blocks
  • several types of data binding all work correctly
  • a debug action that generates text in the output window

Here's an example behavior, our DebugAction. More properly it is an action but through the abuse of language we call behaviors, triggers and actions "behaviors".

public class DebugAction : TriggerAction<DependencyObject>
{
    public string Message
    {
        get { return (string)GetValue(MessageProperty); }
        set { SetValue(MessageProperty, value); }
    }

    public static readonly DependencyProperty MessageProperty =
        DependencyProperty.Register("Message", typeof(string), typeof(DebugAction), new UIPropertyMetadata(""));

    public object MessageParameter
    {
        get { return (object)GetValue(MessageParameterProperty); }
        set { SetValue(MessageParameterProperty, value); }
    }

    public static readonly DependencyProperty MessageParameterProperty =
        DependencyProperty.Register("MessageParameter", typeof(object), typeof(DebugAction), new UIPropertyMetadata(null));

    protected override void Invoke(object parameter)
    {
        Debug.WriteLine(Message, MessageParameter, AssociatedObject, parameter);
    }
}

Finally, our collections and attached properties to make this all work. By analogy with Interaction.Behaviors, the property you target is called SupplementaryInteraction.Behaviors because by setting this property, you will add behaviors to Interaction.Behaviors and likewise for triggers.

public class Behaviors : List<Behavior>
{
}

public class Triggers : List<TriggerBase>
{
}

public static class SupplementaryInteraction
{
    public static Behaviors GetBehaviors(DependencyObject obj)
    {
        return (Behaviors)obj.GetValue(BehaviorsProperty);
    }

    public static void SetBehaviors(DependencyObject obj, Behaviors value)
    {
        obj.SetValue(BehaviorsProperty, value);
    }

    public static readonly DependencyProperty BehaviorsProperty =
        DependencyProperty.RegisterAttached("Behaviors", typeof(Behaviors), typeof(SupplementaryInteraction), new UIPropertyMetadata(null, OnPropertyBehaviorsChanged));

    private static void OnPropertyBehaviorsChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
    {
        var behaviors = Interaction.GetBehaviors(d);
        foreach (var behavior in e.NewValue as Behaviors) behaviors.Add(behavior);
    }

    public static Triggers GetTriggers(DependencyObject obj)
    {
        return (Triggers)obj.GetValue(TriggersProperty);
    }

    public static void SetTriggers(DependencyObject obj, Triggers value)
    {
        obj.SetValue(TriggersProperty, value);
    }

    public static readonly DependencyProperty TriggersProperty =
        DependencyProperty.RegisterAttached("Triggers", typeof(Triggers), typeof(SupplementaryInteraction), new UIPropertyMetadata(null, OnPropertyTriggersChanged));

    private static void OnPropertyTriggersChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
    {
        var triggers = Interaction.GetTriggers(d);
        foreach (var trigger in e.NewValue as Triggers) triggers.Add(trigger);
    }
}

and there you have it, fully-functional behaviors and triggers applied through styles.

like image 84
Rick Sladkey Avatar answered Oct 13 '22 21:10

Rick Sladkey


Summing answers and this great article Blend Behaviors in Styles, I came to this generic short and convinient solution:

I made generic class, which could be inherited by any behavior.

public class AttachableForStyleBehavior<TComponent, TBehavior> : Behavior<TComponent>
        where TComponent : System.Windows.DependencyObject
        where TBehavior : AttachableForStyleBehavior<TComponent, TBehavior> , new ()
    {
        public static DependencyProperty IsEnabledForStyleProperty =
            DependencyProperty.RegisterAttached("IsEnabledForStyle", typeof(bool),
            typeof(AttachableForStyleBehavior<TComponent, TBehavior>), new FrameworkPropertyMetadata(false, OnIsEnabledForStyleChanged)); 

        public bool IsEnabledForStyle
        {
            get { return (bool)GetValue(IsEnabledForStyleProperty); }
            set { SetValue(IsEnabledForStyleProperty, value); }
        }

        private static void OnIsEnabledForStyleChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
        {
            UIElement uie = d as UIElement;

            if (uie != null)
            {
                var behColl = Interaction.GetBehaviors(uie);
                var existingBehavior = behColl.FirstOrDefault(b => b.GetType() ==
                      typeof(TBehavior)) as TBehavior;

                if ((bool)e.NewValue == false && existingBehavior != null)
                {
                    behColl.Remove(existingBehavior);
                }

                else if ((bool)e.NewValue == true && existingBehavior == null)
                {
                    behColl.Add(new TBehavior());
                }    
            }
        }
    }

So you could simply reuse it with lot of components like this:

public class ComboBoxBehaviour : AttachableForStyleBehavior<ComboBox, ComboBoxBehaviour>
    { ... }

And in XAML enough to declare:

 <Style TargetType="ComboBox">
            <Setter Property="behaviours:ComboBoxBehaviour.IsEnabledForStyle" Value="True"/>

So basicly the AttachableForStyleBehavior class made xaml things, registering the instance of behavior for each component in style. For more details, please see the link.

like image 29
Roma Borodov Avatar answered Oct 13 '22 21:10

Roma Borodov


1.Create Attached Property

public static class DataGridCellAttachedProperties
{
    //Register new attached property
    public static readonly DependencyProperty IsSingleClickEditModeProperty =
        DependencyProperty.RegisterAttached("IsSingleClickEditMode", typeof(bool), typeof(DataGridCellAttachedProperties), new UIPropertyMetadata(false, OnPropertyIsSingleClickEditModeChanged));

    private static void OnPropertyIsSingleClickEditModeChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
    {
        var dataGridCell = d as DataGridCell;
        if (dataGridCell == null)
            return;

        var isSingleEditMode = GetIsSingleClickEditMode(d);
        var behaviors =  Interaction.GetBehaviors(d);
        var singleClickEditBehavior = behaviors.SingleOrDefault(x => x is SingleClickEditDataGridCellBehavior);

        if (singleClickEditBehavior != null && !isSingleEditMode)
            behaviors.Remove(singleClickEditBehavior);
        else if (singleClickEditBehavior == null && isSingleEditMode)
        {
            singleClickEditBehavior = new SingleClickEditDataGridCellBehavior();
            behaviors.Add(singleClickEditBehavior);
        }
    }

    public static bool GetIsSingleClickEditMode(DependencyObject obj)
    {
        return (bool) obj.GetValue(IsSingleClickEditModeProperty);
    }

    public static void SetIsSingleClickEditMode(DependencyObject obj, bool value)
    {
        obj.SetValue(IsSingleClickEditModeProperty, value);
    }
}

2.Create a Behavior

public class SingleClickEditDataGridCellBehavior:Behavior<DataGridCell>
        {
            protected override void OnAttached()
            {
                base.OnAttached();
                AssociatedObject.PreviewMouseLeftButtonDown += DataGridCellPreviewMouseLeftButtonDown;
            }

            protected override void OnDetaching()
            {
                base.OnDetaching();
                AssociatedObject.PreviewMouseLeftButtonDown += DataGridCellPreviewMouseLeftButtonDown;
            }

            void DataGridCellPreviewMouseLeftButtonDown(object sender, System.Windows.Input.MouseButtonEventArgs e)
            {
                 DataGridCell cell = sender as DataGridCell;
                if (cell != null && !cell.IsEditing && !cell.IsReadOnly)
                {
                    if (!cell.IsFocused)
                    {
                        cell.Focus();
                    }
                    DataGrid dataGrid = LogicalTreeWalker.FindParentOfType<DataGrid>(cell); //FindVisualParent<DataGrid>(cell);
                    if (dataGrid != null)
                    {
                        if (dataGrid.SelectionUnit != DataGridSelectionUnit.FullRow)
                        {
                            if (!cell.IsSelected)
                                cell.IsSelected = true;
                        }
                        else
                        {
                            DataGridRow row =  LogicalTreeWalker.FindParentOfType<DataGridRow>(cell); //FindVisualParent<DataGridRow>(cell);
                            if (row != null && !row.IsSelected)
                            {
                                row.IsSelected = true;
                            }
                        }
                    }
                }
            }    
        }

3.Create a Style and set the attached property

        <Style TargetType="{x:Type DataGridCell}">
            <Setter Property="Behaviors:DataGridCellAttachedProperties.IsSingleClickEditMode" Value="True"/>
        </Style>
like image 19
Roman Dvoskin Avatar answered Oct 13 '22 20:10

Roman Dvoskin