I have the following DataTemplate
<DataTemplate x:Key="ArchiveModeContentTemplate">
<Button Style="{x:Static ui:ButtonStyles.DrawingButtonLabel}" Grid.Row="1" Grid.Column="0" Foreground="{x:Static ui:UbiBrushes.UbiDarkBlue}"
Content="{StaticResource ValidateIcon48}" ui:StyleProperties.Label="{DynamicResource Archive}"
Command="{Binding ElementName=factory,Path=BuildPopup}">
<i:Interaction.Behaviors>
<pop:PopupFactory x:Name="factory" Factory="{Binding ConfirmArchivingFactory}" />
</i:Interaction.Behaviors>
</Button>
</DataTemplate>
PopupFactory has a Command BuildPopup. this Command is given to the button with a binding with ElementName.
The first time this dataTemplate is displayed, it work fine. The button get the command. But if this dataTemplate is unloaded then displayed again, the binding give to the button the command of the previous instance of PopupFactory and not the newly created instance.
I pass in the constructor of PopupFactory and it is attached to the new button. So it is not a problem of PopupFactory being shared between templates.
Why this is happening? is it a bug with a the xaml cache?
Edit
I have an even stranger bug now.
I changed the syntax to the following to have the binding elementName after the name declaration in the Xaml. Now the command is working correctly but the the second button which is using a binding RelativeSource to find a command named GoBack don't work anymore. I used snoop to check the binding and it complain that it can't find the command BuildPopup. WPF is getting crazy!
<Button Style="{x:Static ui:ButtonStyles.DrawingButtonLabel}" Grid.Row="1" Grid.Column="0" Foreground="{x:Static ui:UbiBrushes.UbiDarkBlue}"
Content="{StaticResource ValidateIcon48}" ui:StyleProperties.Label="{DynamicResource Archive}">
<i:Interaction.Behaviors>
<pop:PopupFactory x:Name="Archivefactory" Factory="{Binding ConfirmArchivingFactory}" IsSingleInstance="False" />
</i:Interaction.Behaviors>
<Button.Command>
<Binding ElementName="Archivefactory" Path="BuildPopup" />
</Button.Command>
</Button>
<Button Grid.Row="1" Grid.Column="1"
Style="{x:Static ui:ButtonStyles.DrawingButtonLabel}"
Content="{StaticResource CrossIcon48}"
Foreground="Green"
ui:StyleProperties.Label="{DynamicResource Cancel}"
Command="{Binding Path=GoBack, RelativeSource={RelativeSource AncestorType={x:Type ui:DrillDown}}}" />
Edit
Here the code of PopupFactory
public class PopupFactory : Behavior<UIElement>
{
public ICommand BuildPopup { get; private set; }
private bool _canExecute;
private IDisposable _canexecuteSubscription = null;
public IObservable<bool> CanExecuteSource
{
get { return (IObservable<bool>)GetValue(CanExecuteSourceProperty); }
set { SetValue(CanExecuteSourceProperty, value); }
}
// Using a DependencyProperty as the backing store for CanExecute. This enables animation, styling, binding, etc...
public static readonly DependencyProperty CanExecuteSourceProperty =
DependencyProperty.Register("CanExecute", typeof(IObservable<bool>), typeof(PopupFactory), new PropertyMetadata(null));
private static void OnCanExecuteSourceChanged(DependencyObject obj, DependencyPropertyChangedEventArgs arg)
{
var factory = obj as PopupFactory;
factory._canexecuteSubscription?.Dispose();
if (arg.NewValue != null)
{
factory._canexecuteSubscription = ((IObservable<bool>)arg.NewValue)
.ObserveOnDispatcher()
.Subscribe(factory.UpdateCanExecute);
}
}
private void UpdateCanExecute(bool value)
{
_canExecute = value;
((RelayCommand<object>)BuildPopup).RaiseCanExecuteChanged();
}
public IFactory Factory
{
get { return (IFactory)GetValue(FactoryProperty); }
set { SetValue(FactoryProperty, value); }
}
// Using a DependencyProperty as the backing store for Factory. This enables animation, styling, binding, etc...
public static readonly DependencyProperty FactoryProperty =
DependencyProperty.Register("Factory", typeof(IFactory), typeof(PopupFactory), new PropertyMetadata(null, OnFactoryChanged));
private static void OnFactoryChanged(DependencyObject obj, DependencyPropertyChangedEventArgs arg)
{
var factory = obj as PopupFactory;
((RelayCommand<object>)factory.BuildPopup).RaiseCanExecuteChanged();
}
public UIElement PlacementTarget
{
get { return (UIElement)GetValue(PlacementTargetProperty); }
set { SetValue(PlacementTargetProperty, value); }
}
// Using a DependencyProperty as the backing store for PlacementTarget. This enables animation, styling, binding, etc...
public static readonly DependencyProperty PlacementTargetProperty =
DependencyProperty.Register("PlacementTarget", typeof(UIElement), typeof(PopupFactory), new PropertyMetadata(null));
public PlacementMode Placement
{
get { return (PlacementMode)GetValue(PlacementProperty); }
set { SetValue(PlacementProperty, value); }
}
// Using a DependencyProperty as the backing store for Placement. This enables animation, styling, binding, etc...
public static readonly DependencyProperty PlacementProperty =
DependencyProperty.Register("Placement", typeof(PlacementMode), typeof(PopupFactory), new PropertyMetadata(PlacementMode.Center));
public bool IsSingleInstance
{
get { return (bool)GetValue(IsSingleInstanceProperty); }
set { SetValue(IsSingleInstanceProperty, value); }
}
// Using a DependencyProperty as the backing store for IsSingleInsance. This enables animation, styling, binding, etc...
public static readonly DependencyProperty IsSingleInstanceProperty =
DependencyProperty.Register("IsSingleInstance", typeof(bool), typeof(PopupFactory), new PropertyMetadata(false));
private bool _singleInstanceShowed = false;
public PopupFactory()
{
BuildPopup = new RelayCommand<object>((f) =>
{
ShowPopup(f);
}, (p) =>
{
return _canExecute && Factory != null && !_singleInstanceShowed;
});
UpdateCanExecute(true);
}
public IOverlayContainer ShowPopup(object parameter)
{
var param = new PopupParameter() { Owner = AssociatedObject };
UIElement target = PlacementTarget != null ? PlacementTarget : AssociatedObject;
var item = Factory.Build(parameter);
param.Content = item.Item;
param.Owner = AssociatedObject;
param.RemoveCondition = item.DisposeStream;
var container = OverlayManager.ShowPopup(param);
var placement = new PopupRelativePlacement(container as FrameworkElement, target,
Placement, false);
item.PostFactory?.Invoke();
if (IsSingleInstance)
{
_singleInstanceShowed = true;
OverlayManager.PopupOperations.Where((op) => op.Id == container.Id && op.Operationtype == OverlayOperation.OpType.PopupRemoved)
.Once((_) =>
{
_singleInstanceShowed = false;
((RelayCommand<object>)BuildPopup).RaiseCanExecuteChanged();
});
}
return container;
}
}
Problem solved.
I moved the PopupFactory Behavior to a visual parent of the button. This way, the behavior is created before the button and WPF don't mess up the name resolution during the binding.
Here is my code, I am writing a simple WPF application with Dependency property, I fail in the data binding for those sub property, but works in those normal property such as string, int. Any idea?
<!-- Work -->
<TextBlock Grid.Column="1" VerticalAlignment="Center" Text="{Binding address}"/>
<!-- Not work -->
<TextBlock Grid.Column="1" VerticalAlignment="Center" Text="{Binding child.Name}"/>
public class Child
{
public String Name { get; set; }
}
public Child child
{
get { return (Child)GetValue(childProperty); }
set { SetValue(childProperty, value); }
}
public static readonly DependencyProperty childProperty =
DependencyProperty.Register("child", typeof(Child), typeof(MainWindow), new PropertyMetadata(null));
public String address
{
get { return (String)GetValue(addressProperty); }
set { SetValue(addressProperty, value); }
}
public static readonly DependencyProperty addressProperty =
DependencyProperty.Register("address", typeof(String), typeof(MainWindow), new PropertyMetadata(null));
I have a user control which exposes a property which is a long. I'd like to instantiate this control and bind to the exposed property in a data template.
I'm seeing xaml errors in the resource file. The ambiguous "must have derivative of panel as the root element". And when I run this in a debugger, I see that the value of TeamIdx is -1 and is not being set.
<DataTemplate x:Key="TeamScheduleTemplate">
<Grid HorizontalAlignment="Left" Width="400" Height="600">
<Team:ScheduleControl TeamIdx="{Binding Idx}" />
</Grid>
</DataTemplate>
public sealed partial class ScheduleControl : UserControl
{
public static readonly DependencyProperty TeamIdxProperty =
DependencyProperty.Register(
"TeamIdx",
typeof(long),
typeof(ScheduleControl),
new PropertyMetadata((long)-1));
public long TeamIdx
{
get { return (long)GetValue(TeamIdxProperty); }
set { SetValue(TeamIdxProperty, value); }
}
public ScheduleControl()
{
this.InitializeComponent();
var team = TeamLookup.GetTeam(TeamIdx);
}
}
Edit: It turns out that the binding doesn't happen until after the control is constructed. In retrospect, this makes total sense. The solution I used is below:
public sealed partial class ScheduleControl : UserControl
{
public static readonly DependencyProperty TeamIdxProperty =
DependencyProperty.Register(
"TeamIdx",
typeof(long),
typeof(ScheduleControl),
new PropertyMetadata(
(long)-1,
OnTeamIdxChanged));
public long TeamIdx
{
get { return (long)GetValue(TeamIdxProperty); }
set { SetValue(TeamIdxProperty, value); }
}
private static void OnTeamIdxChanged(DependencyObject sender, DependencyPropertyChangedEventArgs e)
{
var target = (ScheduleControl)sender;
target.OnTeamIdxChanged((long)e.NewValue);
}
private void OnTeamIdxChanged(long id)
{
var model = FindModel(id);
this.DataContext = model;
}
public ScheduleControl()
{
this.InitializeComponent();
}
}
How can I Add a dependency property to a text box and bind the dependency property to a Boolean property in silver light. my Boolean property is in my view model.
ImageSearchIsFocused is the property which allows me to set the focus on a text box.
<TextBox Text="{Binding ImgSearch, Mode=TwoWay, UpdateSourceTrigger=PropertyChanged}">
<i:Interaction.Behaviors>
<common:FocusBehavior HasInitialFocus="True" IsFocused="{Binding ImageSearchIsFocused, Mode=TwoWay}" ></common:FocusBehavior>
</i:Interaction.Behaviors>
</TextBox>
ImageIsFocused Property
bool _ImageSearchIsFocused;
public bool ImageSearchIsFocused
{
get { return _ImageSearchIsFocused; }
set
{
_ImageSearchIsFocused = value;
NotifyPropertyChanged("ImageSearchIsFocused");
}
}
If you want to add a dependency property, you're going to have the subclass the TextBox and add the dependency property to your subclass. Then you can bind that to whatever you like:
public class MyTextBox : TextBox
{
public static readonly DependencyProperty MyBooleanValueProperty = DependencyProperty.Register(
"MyBooleanValue", typeof(bool), typeof(MyTextBox),
new PropertyMetadata(new PropertyChangedCallback(MyBooleanValueChanged)));
public bool MyBooleanValue
{
get { return (bool)GetValue(MyBooleanValueProperty); }
set { SetValue(MyBooleanValueProperty, value); }
}
private static void MyBooleanValueChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
var propValue = (bool)e.NewValue;
var control = d as MyTextBox;
// do something useful
}
}
I'm trying to bind to a Readonly property with OneWayToSource as mode, but it seems this cannot be done in XAML:
<controls:FlagThingy IsModified="{Binding FlagIsModified,
ElementName=container,
Mode=OneWayToSource}" />
I get:
The property 'FlagThingy.IsModified' cannot be set because it does not have an accessible set accessor.
IsModified is a readonly DependencyProperty on FlagThingy. I want to bind that value to the FlagIsModified property on the container.
To be clear:
FlagThingy.IsModified --> container.FlagIsModified
------ READONLY ----- ----- READWRITE --------
Is this possible using just XAML?
Update: Well, I fixed this case by setting the binding on the container and not on the FlagThingy. But I'd still like to know if this is possible.
Some research results for OneWayToSource...
Option # 1.
// Control definition
public partial class FlagThingy : UserControl
{
public static readonly DependencyProperty IsModifiedProperty =
DependencyProperty.Register("IsModified", typeof(bool), typeof(FlagThingy), new PropertyMetadata());
}
<controls:FlagThingy x:Name="_flagThingy" />
// Binding Code
Binding binding = new Binding();
binding.Path = new PropertyPath("FlagIsModified");
binding.ElementName = "container";
binding.Mode = BindingMode.OneWayToSource;
_flagThingy.SetBinding(FlagThingy.IsModifiedProperty, binding);
Option # 2
// Control definition
public partial class FlagThingy : UserControl
{
public static readonly DependencyProperty IsModifiedProperty =
DependencyProperty.Register("IsModified", typeof(bool), typeof(FlagThingy), new PropertyMetadata());
public bool IsModified
{
get { return (bool)GetValue(IsModifiedProperty); }
set { throw new Exception("An attempt ot modify Read-Only property"); }
}
}
<controls:FlagThingy IsModified="{Binding Path=FlagIsModified,
ElementName=container, Mode=OneWayToSource}" />
Option # 3 (True read-only dependency property)
System.ArgumentException: 'IsModified' property cannot be data-bound.
// Control definition
public partial class FlagThingy : UserControl
{
private static readonly DependencyPropertyKey IsModifiedKey =
DependencyProperty.RegisterReadOnly("IsModified", typeof(bool), typeof(FlagThingy), new PropertyMetadata());
public static readonly DependencyProperty IsModifiedProperty =
IsModifiedKey.DependencyProperty;
}
<controls:FlagThingy x:Name="_flagThingy" />
// Binding Code
Same binding code...
Reflector gives the answer:
internal static BindingExpression CreateBindingExpression(DependencyObject d, DependencyProperty dp, Binding binding, BindingExpressionBase parent)
{
FrameworkPropertyMetadata fwMetaData = dp.GetMetadata(d.DependencyObjectType) as FrameworkPropertyMetadata;
if (((fwMetaData != null) && !fwMetaData.IsDataBindingAllowed) || dp.ReadOnly)
{
throw new ArgumentException(System.Windows.SR.Get(System.Windows.SRID.PropertyNotBindable, new object[] { dp.Name }), "dp");
}
....
This is a limitation of WPF and it is by design. It is reported on Connect here:
OneWayToSource binding from a readonly dependency property
I made a solution to dynamically be able to push read-only dependency properties to the source called PushBinding which I blogged about here. The example below does OneWayToSource Bindings from the read-only DP's ActualWidth and ActualHeight to the Width and Height properties of the DataContext
<TextBlock Name="myTextBlock">
<pb:PushBindingManager.PushBindings>
<pb:PushBinding TargetProperty="ActualHeight" Path="Height"/>
<pb:PushBinding TargetProperty="ActualWidth" Path="Width"/>
</pb:PushBindingManager.PushBindings>
</TextBlock>
PushBinding works by using two Dependency Properties, Listener and Mirror. Listener is bound OneWay to the TargetProperty and in the PropertyChangedCallback it updates the Mirror property which is bound OneWayToSource to whatever was specified in the Binding.
Demo Project can be Downloaded Here.
It contains source code and short sample usage.
Wrote this:
Usage:
<TextBox Text="{Binding Text}"
p:OneWayToSource.Bind="{p:Paths From={x:Static Validation.HasErrorProperty},
To=SomeDataContextProperty}" />
Code:
using System;
using System.Windows;
using System.Windows.Data;
using System.Windows.Markup;
public static class OneWayToSource
{
public static readonly DependencyProperty BindProperty = DependencyProperty.RegisterAttached(
"Bind",
typeof(ProxyBinding),
typeof(OneWayToSource),
new PropertyMetadata(default(Paths), OnBindChanged));
public static void SetBind(this UIElement element, ProxyBinding value)
{
element.SetValue(BindProperty, value);
}
[AttachedPropertyBrowsableForChildren(IncludeDescendants = false)]
[AttachedPropertyBrowsableForType(typeof(UIElement))]
public static ProxyBinding GetBind(this UIElement element)
{
return (ProxyBinding)element.GetValue(BindProperty);
}
private static void OnBindChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
((ProxyBinding)e.OldValue)?.Dispose();
}
public class ProxyBinding : DependencyObject, IDisposable
{
private static readonly DependencyProperty SourceProxyProperty = DependencyProperty.Register(
"SourceProxy",
typeof(object),
typeof(ProxyBinding),
new PropertyMetadata(default(object), OnSourceProxyChanged));
private static readonly DependencyProperty TargetProxyProperty = DependencyProperty.Register(
"TargetProxy",
typeof(object),
typeof(ProxyBinding),
new PropertyMetadata(default(object)));
public ProxyBinding(DependencyObject source, DependencyProperty sourceProperty, string targetProperty)
{
var sourceBinding = new Binding
{
Path = new PropertyPath(sourceProperty),
Source = source,
Mode = BindingMode.OneWay,
};
BindingOperations.SetBinding(this, SourceProxyProperty, sourceBinding);
var targetBinding = new Binding()
{
Path = new PropertyPath($"{nameof(FrameworkElement.DataContext)}.{targetProperty}"),
Mode = BindingMode.OneWayToSource,
Source = source
};
BindingOperations.SetBinding(this, TargetProxyProperty, targetBinding);
}
public void Dispose()
{
BindingOperations.ClearAllBindings(this);
}
private static void OnSourceProxyChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
d.SetCurrentValue(TargetProxyProperty, e.NewValue);
}
}
}
[MarkupExtensionReturnType(typeof(OneWayToSource.ProxyBinding))]
public class Paths : MarkupExtension
{
public DependencyProperty From { get; set; }
public string To { get; set; }
public override object ProvideValue(IServiceProvider serviceProvider)
{
var provideValueTarget = (IProvideValueTarget)serviceProvider.GetService(typeof(IProvideValueTarget));
var targetObject = (UIElement)provideValueTarget.TargetObject;
return new OneWayToSource.ProxyBinding(targetObject, this.From, this.To);
}
}
Have not tested it in styles and templates yet, guess it needs special casing.
Here is another implementation for binding to Validation.HasError
public static class OneWayToSource
{
public static readonly DependencyProperty BindingsProperty = DependencyProperty.RegisterAttached(
"Bindings",
typeof(OneWayToSourceBindings),
typeof(OneWayToSource),
new PropertyMetadata(default(OneWayToSourceBindings), OnBinidngsChanged));
public static void SetBindings(this FrameworkElement element, OneWayToSourceBindings value)
{
element.SetValue(BindingsProperty, value);
}
[AttachedPropertyBrowsableForChildren(IncludeDescendants = false)]
[AttachedPropertyBrowsableForType(typeof(FrameworkElement))]
public static OneWayToSourceBindings GetBindings(this FrameworkElement element)
{
return (OneWayToSourceBindings)element.GetValue(BindingsProperty);
}
private static void OnBinidngsChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
((OneWayToSourceBindings)e.OldValue)?.ClearValue(OneWayToSourceBindings.ElementProperty);
((OneWayToSourceBindings)e.NewValue)?.SetValue(OneWayToSourceBindings.ElementProperty, d);
}
}
public class OneWayToSourceBindings : FrameworkElement
{
private static readonly PropertyPath DataContextPath = new PropertyPath(nameof(DataContext));
private static readonly PropertyPath HasErrorPath = new PropertyPath($"({typeof(Validation).Name}.{Validation.HasErrorProperty.Name})");
public static readonly DependencyProperty HasErrorProperty = DependencyProperty.Register(
nameof(HasError),
typeof(bool),
typeof(OneWayToSourceBindings),
new FrameworkPropertyMetadata(default(bool), FrameworkPropertyMetadataOptions.BindsTwoWayByDefault));
internal static readonly DependencyProperty ElementProperty = DependencyProperty.Register(
"Element",
typeof(UIElement),
typeof(OneWayToSourceBindings),
new PropertyMetadata(default(UIElement), OnElementChanged));
private static readonly DependencyProperty HasErrorProxyProperty = DependencyProperty.RegisterAttached(
"HasErrorProxy",
typeof(bool),
typeof(OneWayToSourceBindings),
new PropertyMetadata(default(bool), OnHasErrorProxyChanged));
public bool HasError
{
get { return (bool)this.GetValue(HasErrorProperty); }
set { this.SetValue(HasErrorProperty, value); }
}
private static void OnHasErrorProxyChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
d.SetCurrentValue(HasErrorProperty, e.NewValue);
}
private static void OnElementChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
if (e.NewValue == null)
{
BindingOperations.ClearBinding(d, DataContextProperty);
BindingOperations.ClearBinding(d, HasErrorProxyProperty);
}
else
{
var dataContextBinding = new Binding
{
Path = DataContextPath,
Mode = BindingMode.OneWay,
Source = e.NewValue
};
BindingOperations.SetBinding(d, DataContextProperty, dataContextBinding);
var hasErrorBinding = new Binding
{
Path = HasErrorPath,
Mode = BindingMode.OneWay,
Source = e.NewValue
};
BindingOperations.SetBinding(d, HasErrorProxyProperty, hasErrorBinding);
}
}
}
Usage in xaml
<StackPanel>
<TextBox Text="{Binding Value, UpdateSourceTrigger=PropertyChanged}">
<local:OneWayToSource.Bindings>
<local:OneWayToSourceBindings HasError="{Binding HasError}" />
</local:OneWayToSource.Bindings>
</TextBox>
<CheckBox IsChecked="{Binding HasError, Mode=OneWay}" />
</StackPanel>
This implementation is specific to binding Validation.HasError
Here's another attached property solution based on SizeObserver detailed here Pushing read-only GUI properties back into ViewModel
public static class MouseObserver
{
public static readonly DependencyProperty ObserveProperty = DependencyProperty.RegisterAttached(
"Observe",
typeof(bool),
typeof(MouseObserver),
new FrameworkPropertyMetadata(OnObserveChanged));
public static readonly DependencyProperty ObservedMouseOverProperty = DependencyProperty.RegisterAttached(
"ObservedMouseOver",
typeof(bool),
typeof(MouseObserver));
public static bool GetObserve(FrameworkElement frameworkElement)
{
return (bool)frameworkElement.GetValue(ObserveProperty);
}
public static void SetObserve(FrameworkElement frameworkElement, bool observe)
{
frameworkElement.SetValue(ObserveProperty, observe);
}
public static bool GetObservedMouseOver(FrameworkElement frameworkElement)
{
return (bool)frameworkElement.GetValue(ObservedMouseOverProperty);
}
public static void SetObservedMouseOver(FrameworkElement frameworkElement, bool observedMouseOver)
{
frameworkElement.SetValue(ObservedMouseOverProperty, observedMouseOver);
}
private static void OnObserveChanged(DependencyObject dependencyObject, DependencyPropertyChangedEventArgs e)
{
var frameworkElement = (FrameworkElement)dependencyObject;
if ((bool)e.NewValue)
{
frameworkElement.MouseEnter += OnFrameworkElementMouseOverChanged;
frameworkElement.MouseLeave += OnFrameworkElementMouseOverChanged;
UpdateObservedMouseOverForFrameworkElement(frameworkElement);
}
else
{
frameworkElement.MouseEnter -= OnFrameworkElementMouseOverChanged;
frameworkElement.MouseLeave -= OnFrameworkElementMouseOverChanged;
}
}
private static void OnFrameworkElementMouseOverChanged(object sender, MouseEventArgs e)
{
UpdateObservedMouseOverForFrameworkElement((FrameworkElement)sender);
}
private static void UpdateObservedMouseOverForFrameworkElement(FrameworkElement frameworkElement)
{
frameworkElement.SetCurrentValue(ObservedMouseOverProperty, frameworkElement.IsMouseOver);
}
}
Declare attached property in control
<ListView ItemsSource="{Binding SomeGridItems}"
ut:MouseObserver.Observe="True"
ut:MouseObserver.ObservedMouseOver="{Binding IsMouseOverGrid, Mode=OneWayToSource}">
WPF will not use the CLR property setter, but seems it does some odd validation based on it.
May be in your situation this can be ok:
public bool IsModified
{
get { return (bool)GetValue(IsModifiedProperty); }
set { throw new Exception("An attempt ot modify Read-Only property"); }
}
Hmmm... I'm not sure I agree with any of these solutions. How about specifying a coercion callback in your property registration that ignores external change? For instance, I needed to implement a read-only Position dependency property to get the position of a MediaElement control inside a user control. Here's how I did it:
public static readonly DependencyProperty PositionProperty = DependencyProperty.Register("Position", typeof(double), typeof(MediaViewer),
new FrameworkPropertyMetadata(0d, FrameworkPropertyMetadataOptions.BindsTwoWayByDefault | FrameworkPropertyMetadataOptions.Journal, OnPositionChanged, OnPositionCoerce));
private static void OnPositionChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
var ctrl = d as MediaViewer;
}
private static object OnPositionCoerce(DependencyObject d, object value)
{
var ctrl = d as MediaViewer;
var position = ctrl.MediaRenderer.Position.TotalSeconds;
if (ctrl.MediaRenderer.NaturalDuration.HasTimeSpan == false)
return 0d;
else
return Math.Min(position, ctrl.Duration);
}
public double Position
{
get { return (double)GetValue(PositionProperty); }
set { SetValue(PositionProperty, value); }
}
In other words, simply ignore the change and return the value backed by a different member that does not have a public modifier. -- In the above example, MediaRenderer is actually the private MediaElement control.
The way I worked around this limitation was to expose only a Binding property in my class, keeping the DependencyProperty private altogether. I implemented a "PropertyBindingToSource" write-only property (this one not a DependencyProperty) which can be set to a binding value in the xaml. In the setter for this write-only property I call to BindingOperations.SetBinding to link the binding to the DependencyProperty.
For the OP's specific example, it would look like this:
The FlatThingy implementation:
public partial class FlatThingy : UserControl
{
public FlatThingy()
{
InitializeComponent();
}
public Binding IsModifiedBindingToSource
{
set
{
if (value?.Mode != BindingMode.OneWayToSource)
{
throw new InvalidOperationException("IsModifiedBindingToSource must be set to a OneWayToSource binding");
}
BindingOperations.SetBinding(this, IsModifiedProperty, value);
}
}
public bool IsModified
{
get { return (bool)GetValue(IsModifiedProperty); }
private set { SetValue(IsModifiedProperty, value); }
}
private static readonly DependencyProperty IsModifiedProperty =
DependencyProperty.Register("IsModified", typeof(bool), typeof(FlatThingy), new PropertyMetadata(false));
private void Button_Click(object sender, RoutedEventArgs e)
{
IsModified = !IsModified;
}
}
Notice that the static readonly DependencyProperty object is private. In the control I added a button whose click is handled by Button_Click.
The use of the FlatThingy control in my window.xaml:
<Window x:Class="ReadOnlyBinding.MainWindow"
xmlns="http://schemas.microsoft.com/winfx/2006/xaml/presentation"
xmlns:x="http://schemas.microsoft.com/winfx/2006/xaml"
xmlns:d="http://schemas.microsoft.com/expression/blend/2008"
xmlns:mc="http://schemas.openxmlformats.org/markup-compatibility/2006"
xmlns:local="clr-namespace:ReadOnlyBinding"
mc:Ignorable="d"
DataContext="{x:Static local:ViewModel.Instance}"
Title="MainWindow" Height="450" Width="800">
<Grid>
<Grid.RowDefinitions>
<RowDefinition />
<RowDefinition />
</Grid.RowDefinitions>
<TextBlock Text="{Binding FlagIsModified}" Grid.Row="0" />
<local:FlatThingy IsModifiedBindingToSource="{Binding FlagIsModified, Mode=OneWayToSource}" Grid.Row="1" />
</Grid>
Note that I've also implemented a ViewModel for binding to that is not shown here. It exposes a DependencyProperty named "FlagIsModified" as you can glean from the source above.
It works great, allowing me to push information back into the ViewModel from the View in a loosely coupled manner, with the direction of that information flow explicitly defined.
You're doing the binding in the wrong direction right now. OneWayToSource will try and update FlagIsModified on container whenever IsModified changes on the control you are creating. You want the opposite, which is to have IsModified bind to container.FlagIsModified. For that you should use the binding mode OneWay
<controls:FlagThingy IsModified="{Binding FlagIsModified,
ElementName=container,
Mode=OneWay}" />
Full list of enumeration members: http://msdn.microsoft.com/en-us/library/system.windows.data.bindingmode.aspx