Troubleshooting Hybrid Applications
This topic lists some common problems that can occur when authoring hybrid applications, which use both WPF and Windows Forms technologies.
Controls may not overlap as you would expect. Windows Forms uses a separate HWND for each control. WPF uses one HWND for all content on a page. This implementation difference causes unexpected overlapping behaviors.
A Windows Forms control hosted in WPF always appears on top of the WPF content.
WPF content hosted in an ElementHost control appears at the z-order of the ElementHost control. It is possible to overlap ElementHost controls, but the hosted WPF content does not combine or interact.
The WindowsFormsHost and ElementHost classes can host only a single child control or element. To host more than one control or element, you must use a container as the child content. For example, you could add Windows Forms button and check box controls to a System.Windows.Forms.Panel control, and then assign the panel to a WindowsFormsHost control's Child property. However, you cannot add the button and check box controls separately to the same WindowsFormsHost control.
WPF and Windows Forms have different scaling models. Some WPF scaling transformations are meaningful to Windows Forms controls, but others are not. For example, scaling a Windows Forms control to 0 will work, but if you try to scale the same control back to a non-zero value, the control's size remains 0. For more information, see Layout Considerations for the WindowsFormsHost Element.
There may be confusion when working the WindowsFormsHost and ElementHost classes, because they include a hidden container. Both the WindowsFormsHost and ElementHost classes have a hidden container, called an adapter, which they use to host content. For the WindowsFormsHost element, the adapter derives from the System.Windows.Forms.ContainerControl class. For the ElementHost control, the adapter derives from the DockPanel element. When you see references to the adapter in other interoperation topics, this container is what is being discussed.
Focus works differently in WPF and Windows Forms, which means that focus issues may occur in a hybrid application. For example, if you have focus inside a WindowsFormsHost element, and you either minimize and restore the page or show a modal dialog box, focus inside the WindowsFormsHost element may be lost. The WindowsFormsHost element still has focus, but the control inside it may not.
Data validation is also affected by focus. Validation works in a WindowsFormsHost element, but it does not work as you tab out of the WindowsFormsHost element, or between two different WindowsFormsHost elements.
Some property mappings require extensive interpretation to bridge dissimilar implementations between the WPF and Windows Forms technologies. Property mappings enable your code to react to changes in fonts, colors, and other properties. In general, property mappings work by listening for either PropertyChanged events or OnPropertyChanged calls, and setting appropriate properties on either the child control or its adapter. For more information, see Windows Forms and WPF Property Mapping.
When the WindowsFormsHost.Child or ElementHost.Child property is assigned, several layout-related properties on the hosted content are set automatically. Changing these content properties can cause unexpected layout behaviors.
Your hosted content is docked to fill the WindowsFormsHost and ElementHost parent. To enable this fill behavior, several properties are set when you set the child property. The following table lists which content properties are set by the ElementHost and WindowsFormsHost classes.
Do not set these properties directly on the hosted content. For more information, see Layout Considerations for the WindowsFormsHost Element.
Navigation applications may not maintain user state. The WindowsFormsHost element recreates its controls when it is used in a navigation application. Recreating child controls occurs when the user navigates away from the page hosting the WindowsFormsHost element and then returns to it. Any content that has been typed in by the user will be lost.
When working with Windows Forms message loops, messages may not be processed as expected. The EnableWindowsFormsInterop method is called by the WindowsFormsHost constructor. This method adds a message filter to the WPF message loop. This filter calls the Control.PreProcessMessage method if a System.Windows.Forms.Control was the target of the message and translates/dispatches the message.
If you show a Window in a Windows Forms message loop with Application.Run, you cannot type anything unless you call the EnableModelessKeyboardInterop method. The EnableModelessKeyboardInterop method takes a Window and adds a System.Windows.Forms.IMessageFilter, which reroutes key-related messages to the WPF message loop. For more information, see Windows Forms and WPF Interoperability Input Architecture.
Not disposing classes properly can leak resources. In your hybrid applications, make sure that the WindowsFormsHost and ElementHost classes are disposed, or you could leak resources. Windows Forms disposes ElementHost controls when its non-modal Form parent closes. WPF disposes WindowsFormsHost elements when your application shuts down. It is possible to show a WindowsFormsHost element in a Window in a Windows Forms message loop. In this case, your code may not receive notification that your application is shutting down.
Microsoft Windows XP visual styles on a Windows Forms control may not be enabled. The Application.EnableVisualStyles method is called in the template for a Windows Forms application. Although this method is not called by default, if you use Visual Studio to create a project, you will get Microsoft Windows XP visual styles for controls, if version 6.0 of Comctl32.dll is available. You must call the EnableVisualStyles method before handles are created on the thread. For more information, see How to: Enable Visual Styles in a Hybrid Application.
Licensed Windows Forms controls that display licensing information in a message box to the user might cause unexpected behavior for a hybrid application. Some licensed controls show a dialog box in response to handle creation. For example, a licensed control might inform the user that a license is required, or that the user has three remaining trial uses of the control.
The WindowsFormsHost element derives from the HwndHost class, and the child control’s handle is created inside the BuildWindowCore method. The HwndHost class does not allow messages to be processed in the BuildWindowCore method, but displaying a dialog box causes messages to be sent. To enable this licensing scenario, call the Control.CreateControl method on the control before assigning it as the WindowsFormsHost element's child.
You can design your WPF content by using the WPF Designer for Visual Studio. The following sections list some common problems that can occur when authoring hybrid applications with the WPF Designer.
The BackColorTransparent property might not work as expected at design time.
If a WPF control is not on a visible parent, the WPF runtime ignores the BackColorTransparent value. The reason that BackColorTransparent might be ignored is because ElementHost object is created in a separate AppDomain. However, when you run the application, BackColorTransparent does work as expected.
If the obj folder is deleted, the Design-time Error List appears.
When you design using ElementHost, the Windows Forms Designer uses generated files in the Debug or Release folder within your project's obj folder. If you delete these files, the Design-time Error List appears. To fix this problem, rebuild your project. For more information, see Design-Time Errors in the Windows Forms Designer.
Interoperability in the WPF Designer
Windows Forms and WPF Interoperability Input Architecture
How to: Enable Visual Styles in a Hybrid Application
Layout Considerations for the WindowsFormsHost Element
Windows Forms and WPF Property Mapping
Design-Time Errors in the Windows Forms Designer
Migration and Interoperability