I need to search a WPF control hierarchy for controls that match a given name or type. How can I do this?
22 Answers
I combined the template format used by John Myczek and Tri Q's algorithm above to create a findChild Algorithm that can be used on any parent. Keep in mind that recursively searching a tree downwards could be a lengthy process. I've only spot-checked this on a WPF application, please comment on any errors you might find and I'll correct my code.
WPF Snoop is a useful tool in looking at the visual tree - I'd strongly recommend using it while testing or using this algorithm to check your work.
There is a small error in Tri Q's Algorithm. After the child is found, if childrenCount is > 1 and we iterate again we can overwrite the properly found child. Therefore I added a if (foundChild != null) break;
into my code to deal with this condition.
/// <summary>
/// Finds a Child of a given item in the visual tree.
/// </summary>
/// <param name="parent">A direct parent of the queried item.</param>
/// <typeparam name="T">The type of the queried item.</typeparam>
/// <param name="childName">x:Name or Name of child. </param>
/// <returns>The first parent item that matches the submitted type parameter or null if not found</returns>
public static T FindChild<T>(DependencyObject parent, string childName)
where T : DependencyObject
{
// Confirm parent and childName are valid.
if (parent == null) return null;
T foundChild = null;
int childrenCount = VisualTreeHelper.GetChildrenCount(parent);
for (int i = 0; i < childrenCount; i++)
{
var child = VisualTreeHelper.GetChild(parent, i);
// If the child is not of the request child type child
T childType = child as T;
if (childType == null)
{
// recursively drill down the tree
foundChild = FindChild<T>(child, childName);
// If the child is found, break so we do not overwrite the found child.
if (foundChild != null) break;
}
else if (!string.IsNullOrEmpty(childName))
{
var frameworkElement = child as FrameworkElement;
// If the child's name is set for search
if (frameworkElement != null && frameworkElement.Name == childName)
{
// if the child's name is of the request name
foundChild = (T)child;
break;
}
}
else
{
// child element found.
foundChild = (T)child;
break;
}
}
return foundChild;
}
Call it like this:
TextBox foundTextBox =
UIHelper.FindChild<TextBox>(Application.Current.MainWindow, "myTextBoxName");
Note Application.Current.MainWindow
can be any parent window.
-
@CrimsonX: Maybe I'm doing this wrong... I had a similar need where I needed to get to a control (ListBox) inside a ContentControl (Expander). The above code didn't work for me as is.. I had to update the above code to see if a leaf node (GetChildrenCount => 0) is a ContentControl. If yes, check if the content matches the name+type criteria.– GishuCommented Mar 24, 2010 at 2:36
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@Gishu - I think it should work for this purpose. Can you copy & paste your code to show how you're using the call? I would expect it should be FindChild<ListBox>(Expander myExpanderName, "myListBoxName").– CrimsonXCommented Mar 24, 2010 at 15:38
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3@CrimsonX I think I found another corner case. I was trying to find the PART_SubmenuPlaceholder in the RibbonApplicationMenuItem, but the code above was not working. To resolve it, I needed to add the following: if (name == ElementName) else { foundChild = FindChild(child, name) if (foundChild != null) break; } Commented May 29, 2012 at 15:56
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8Please be carefull, there is a bug or more in the answer. It will stop as soon as it will reach a child of the searched type. I think you should consider/prioritize other answers. Commented Feb 6, 2014 at 16:26
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2This code is great, but it won't work if you are not looking for a specific type of element, for example if you pass
FrameworkElement
as T, it's gonna return null as soon as first loop ends. so you gonna need do some modifications.– x-6-2-5Commented Nov 21, 2017 at 21:09
You can also find an element by name using FrameworkElement.FindName(string).
Given:
<UserControl ...>
<TextBlock x:Name="myTextBlock" />
</UserControl>
In the code-behind file, you could write:
var myTextBlock = (TextBlock)this.FindName("myTextBlock");
Of course, because it's defined using x:Name, you could just reference the generated field, but perhaps you want to look it up dynamically rather than statically.
This approach is also available for templates, in which the named item appears multiple times (once per usage of the template).
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6For this to work you don't necessarily have to add the "x:" to the name attribute. Commented Jul 19, 2011 at 22:12
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3This doesnt seem to always work. I have UserControls which are combined together programmatically in nested grids as the contents of a properties window. CrimsonX's answer works fine however.– MattCommented Apr 25, 2018 at 7:55
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8This won't work for elements within ItemControls, ListBoxes, etc.– SorensenCommented Apr 30, 2018 at 14:04
You can use the VisualTreeHelper to find controls. Below is a method that uses the VisualTreeHelper to find a parent control of a specified type. You can use the VisualTreeHelper to find controls in other ways as well.
public static class UIHelper
{
/// <summary>
/// Finds a parent of a given item on the visual tree.
/// </summary>
/// <typeparam name="T">The type of the queried item.</typeparam>
/// <param name="child">A direct or indirect child of the queried item.</param>
/// <returns>The first parent item that matches the submitted type parameter.
/// If not matching item can be found, a null reference is being returned.</returns>
public static T FindVisualParent<T>(DependencyObject child)
where T : DependencyObject
{
// get parent item
DependencyObject parentObject = VisualTreeHelper.GetParent(child);
// we’ve reached the end of the tree
if (parentObject == null) return null;
// check if the parent matches the type we’re looking for
T parent = parentObject as T;
if (parent != null)
{
return parent;
}
else
{
// use recursion to proceed with next level
return FindVisualParent<T>(parentObject);
}
}
}
Call it like this:
Window owner = UIHelper.FindVisualParent<Window>(myControl);
-
2
I may be just repeating everyone else but I do have a pretty piece of code that extends the DependencyObject class with a method FindChild() that will get you the child by type and name. Just include and use.
public static class UIChildFinder
{
public static DependencyObject FindChild(this DependencyObject reference, string childName, Type childType)
{
DependencyObject foundChild = null;
if (reference != null)
{
int childrenCount = VisualTreeHelper.GetChildrenCount(reference);
for (int i = 0; i < childrenCount; i++)
{
var child = VisualTreeHelper.GetChild(reference, i);
// If the child is not of the request child type child
if (child.GetType() != childType)
{
// recursively drill down the tree
foundChild = FindChild(child, childName, childType);
if (foundChild != null) break;
}
else if (!string.IsNullOrEmpty(childName))
{
var frameworkElement = child as FrameworkElement;
// If the child's name is set for search
if (frameworkElement != null && frameworkElement.Name == childName)
{
// if the child's name is of the request name
foundChild = child;
break;
}
}
else
{
// child element found.
foundChild = child;
break;
}
}
}
return foundChild;
}
}
Hope you find it useful.
-
2Per my post above, there is a small implementation error in your code: stackoverflow.com/questions/636383/wpf-ways-to-find-controls/…– CrimsonXCommented Nov 19, 2009 at 2:13
If you want to find ALL controls of a specific type, you might be interested in this snippet too
public static IEnumerable<T> FindVisualChildren<T>(DependencyObject parent)
where T : DependencyObject
{
int childrenCount = VisualTreeHelper.GetChildrenCount(parent);
for (int i = 0; i < childrenCount; i++)
{
var child = VisualTreeHelper.GetChild(parent, i);
var childType = child as T;
if (childType != null)
{
yield return (T)child;
}
foreach (var other in FindVisualChildren<T>(child))
{
yield return other;
}
}
}
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3Good one but ensure control is loaded otherwise GetChildrenCount will return 0. Commented May 30, 2012 at 21:09
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@UrbanEsc, why do you cast
child
a second time? If you havechildType
of typeT
, you can write inside theif
:yield return childType
... no? Commented Oct 26, 2016 at 15:19 -
@MassimilianoKraus Hey, sorry for the late response, but you are right. I attribute it to me rewriting this snippet several times, and thus this might be a fragment of a different check– user604613Commented Oct 2, 2017 at 13:21
My extensions to the code.
- Added overloads to find one child by type, by type and criteria (predicate), find all children of type which meet the criteria
- the FindChildren method is an iterator in addition to being an extension method for DependencyObject
- FindChildren walks logical sub-trees also. See Josh Smith's post linked in the blog post.
Source: https://code.google.com/p/gishu-util/source/browse/#git%2FWPF%2FUtilities
Explanatory blog post : http://madcoderspeak.blogspot.com/2010/04/wpf-find-child-control-of-specific-type.html
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-1 Exactly what I was about to implement (predicate, iterator, and extension method), but there's a 404 on the source link. Will change to +1 if code is included here, or source link is fixed! Commented Jul 19, 2014 at 19:41
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@cod3monk3y - Git migration killed the link it seems :) Here you go.. code.google.com/p/gishu-util/source/browse/…– GishuCommented Jul 21, 2014 at 10:06
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I guess this is the code, because the original link is empty. github.com/dmjensen/gishu-util– DevidCommented Nov 4, 2020 at 13:27
This will dismiss some elements - you should extend it like this in order to support a wider array of controls. For a brief discussion, have a look here
/// <summary>
/// Helper methods for UI-related tasks.
/// </summary>
public static class UIHelper
{
/// <summary>
/// Finds a parent of a given item on the visual tree.
/// </summary>
/// <typeparam name="T">The type of the queried item.</typeparam>
/// <param name="child">A direct or indirect child of the
/// queried item.</param>
/// <returns>The first parent item that matches the submitted
/// type parameter. If not matching item can be found, a null
/// reference is being returned.</returns>
public static T TryFindParent<T>(DependencyObject child)
where T : DependencyObject
{
//get parent item
DependencyObject parentObject = GetParentObject(child);
//we've reached the end of the tree
if (parentObject == null) return null;
//check if the parent matches the type we're looking for
T parent = parentObject as T;
if (parent != null)
{
return parent;
}
else
{
//use recursion to proceed with next level
return TryFindParent<T>(parentObject);
}
}
/// <summary>
/// This method is an alternative to WPF's
/// <see cref="VisualTreeHelper.GetParent"/> method, which also
/// supports content elements. Do note, that for content element,
/// this method falls back to the logical tree of the element!
/// </summary>
/// <param name="child">The item to be processed.</param>
/// <returns>The submitted item's parent, if available. Otherwise
/// null.</returns>
public static DependencyObject GetParentObject(DependencyObject child)
{
if (child == null) return null;
ContentElement contentElement = child as ContentElement;
if (contentElement != null)
{
DependencyObject parent = ContentOperations.GetParent(contentElement);
if (parent != null) return parent;
FrameworkContentElement fce = contentElement as FrameworkContentElement;
return fce != null ? fce.Parent : null;
}
//if it's not a ContentElement, rely on VisualTreeHelper
return VisualTreeHelper.GetParent(child);
}
}
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5By convention, I would expect any
Try*
method to returnbool
and have anout
parameter that returns the type in question, as with:bool IDictionary.TryGetValue(TKey key, out TValue value)
Commented Sep 25, 2009 at 12:51 -
@DrewNoakes what do you suggest Philipp to call it, then? Also, even with such an expectation I find his code both clear and clear to use.– ANevesCommented Sep 15, 2014 at 19:13
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1@ANeves, in this case I would just call it
FindParent
. This name to me implies that it could returnnull
. TheTry*
prefix is used throughout the BCL in the way I describe above. Also note that most of the other answers here use theFind*
naming convention. It's only a minor point though :) Commented Sep 16, 2014 at 11:07
I edited CrimsonX's code as it was not working with superclass types:
public static T FindChild<T>(DependencyObject depObj, string childName)
where T : DependencyObject
{
// Confirm obj is valid.
if (depObj == null) return null;
// success case
if (depObj is T && ((FrameworkElement)depObj).Name == childName)
return depObj as T;
for (int i = 0; i < VisualTreeHelper.GetChildrenCount(depObj); i++)
{
DependencyObject child = VisualTreeHelper.GetChild(depObj, i);
//DFS
T obj = FindChild<T>(child, childName);
if (obj != null)
return obj;
}
return null;
}
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1If you pass this method a
DependencyObject
that is not aFrameworkElement
it can throw an Exception. Also usingGetChildrenCount
on every iteration of thefor
loop sounds like a bad idea. Commented Sep 9, 2015 at 15:32 -
1well, this is from 5 years ago, so I don't even know if it works anymore :)– andrespCommented Sep 10, 2015 at 11:30
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I just mentioned it, because I stumbled upon it and other could as well ;) Commented Sep 10, 2015 at 11:44
Whilst I love recursion in general, it's not as efficient as iteration when programming in C#, so perhaps the following solution is neater than the one suggested by John Myczek? This searches up a hierarchy from a given control to find an ancestor control of a particular type.
public static T FindVisualAncestorOfType<T>(this DependencyObject Elt)
where T : DependencyObject
{
for (DependencyObject parent = VisualTreeHelper.GetParent(Elt);
parent != null; parent = VisualTreeHelper.GetParent(parent))
{
T result = parent as T;
if (result != null)
return result;
}
return null;
}
Call it like this to find the Window
containing a control called ExampleTextBox
:
Window window = ExampleTextBox.FindVisualAncestorOfType<Window>();
exciton80... I was having a problem with your code not recursing through usercontrols. It was hitting the Grid root and throwing an error. I believe this fixes it for me:
public static object[] FindControls(this FrameworkElement f, Type childType, int maxDepth)
{
return RecursiveFindControls(f, childType, 1, maxDepth);
}
private static object[] RecursiveFindControls(object o, Type childType, int depth, int maxDepth = 0)
{
List<object> list = new List<object>();
var attrs = o.GetType().GetCustomAttributes(typeof(ContentPropertyAttribute), true);
if (attrs != null && attrs.Length > 0)
{
string childrenProperty = (attrs[0] as ContentPropertyAttribute).Name;
if (String.Equals(childrenProperty, "Content") || String.Equals(childrenProperty, "Children"))
{
var collection = o.GetType().GetProperty(childrenProperty).GetValue(o, null);
if (collection is System.Windows.Controls.UIElementCollection) // snelson 6/6/11
{
foreach (var c in (IEnumerable)collection)
{
if (c.GetType().FullName == childType.FullName)
list.Add(c);
if (maxDepth == 0 || depth < maxDepth)
list.AddRange(RecursiveFindControls(
c, childType, depth + 1, maxDepth));
}
}
else if (collection != null && collection.GetType().BaseType.Name == "Panel") // snelson 6/6/11; added because was skipping control (e.g., System.Windows.Controls.Grid)
{
if (maxDepth == 0 || depth < maxDepth)
list.AddRange(RecursiveFindControls(
collection, childType, depth + 1, maxDepth));
}
}
}
return list.ToArray();
}
Here's my code to find controls by Type while controlling how deep we go into the hierarchy (maxDepth == 0 means infinitely deep).
public static class FrameworkElementExtension
{
public static object[] FindControls(
this FrameworkElement f, Type childType, int maxDepth)
{
return RecursiveFindControls(f, childType, 1, maxDepth);
}
private static object[] RecursiveFindControls(
object o, Type childType, int depth, int maxDepth = 0)
{
List<object> list = new List<object>();
var attrs = o.GetType()
.GetCustomAttributes(typeof(ContentPropertyAttribute), true);
if (attrs != null && attrs.Length > 0)
{
string childrenProperty = (attrs[0] as ContentPropertyAttribute).Name;
foreach (var c in (IEnumerable)o.GetType()
.GetProperty(childrenProperty).GetValue(o, null))
{
if (c.GetType().FullName == childType.FullName)
list.Add(c);
if (maxDepth == 0 || depth < maxDepth)
list.AddRange(RecursiveFindControls(
c, childType, depth + 1, maxDepth));
}
}
return list.ToArray();
}
}
I have a sequence function like this (which is completely general):
public static IEnumerable<T> SelectAllRecursively<T>(this IEnumerable<T> items, Func<T, IEnumerable<T>> func)
{
return (items ?? Enumerable.Empty<T>()).SelectMany(o => new[] { o }.Concat(SelectAllRecursively(func(o), func)));
}
Getting immediate children:
public static IEnumerable<DependencyObject> FindChildren(this DependencyObject obj)
{
return Enumerable.Range(0, VisualTreeHelper.GetChildrenCount(obj))
.Select(i => VisualTreeHelper.GetChild(obj, i));
}
Finding all children down the hiararchical tree:
public static IEnumerable<DependencyObject> FindAllChildren(this DependencyObject obj)
{
return obj.FindChildren().SelectAllRecursively(o => o.FindChildren());
}
You can call this on the Window to get all controls.
After you have the collection, you can use LINQ (i.e. OfType, Where).
Since the question is general enough that it might attract people looking for answers to very trivial cases: if you just want a child rather than a descendant, you can use Linq:
private void ItemsControlItem_Loaded(object sender, RoutedEventArgs e)
{
if (SomeCondition())
{
var children = (sender as Panel).Children;
var child = (from Control child in children
where child.Name == "NameTextBox"
select child).First();
child.Focus();
}
}
or of course the obvious for loop iterating over Children.
These options already talk about traversing the Visual Tree in C#. Its possible to traverse the visual tree in xaml as well using RelativeSource markup extension. msdn
find by type
Binding="{Binding RelativeSource={RelativeSource Mode=FindAncestor, AncestorType={x:Type <TypeToFind>}}}"
Here is a solution that uses a flexible predicate:
public static DependencyObject FindChild(DependencyObject parent, Func<DependencyObject, bool> predicate)
{
if (parent == null) return null;
int childrenCount = VisualTreeHelper.GetChildrenCount(parent);
for (int i = 0; i < childrenCount; i++)
{
var child = VisualTreeHelper.GetChild(parent, i);
if (predicate(child))
{
return child;
}
else
{
var foundChild = FindChild(child, predicate);
if (foundChild != null)
return foundChild;
}
}
return null;
}
You can for example call it like this:
var child = FindChild(parent, child =>
{
var textBlock = child as TextBlock;
if (textBlock != null && textBlock.Name == "MyTextBlock")
return true;
else
return false;
}) as TextBlock;
To find an ancestor of a given type from code, you can use:
[CanBeNull]
public static T FindAncestor<T>(DependencyObject d) where T : DependencyObject
{
while (true)
{
d = VisualTreeHelper.GetParent(d);
if (d == null)
return null;
var t = d as T;
if (t != null)
return t;
}
}
This implementation uses iteration instead of recursion which can be slightly faster.
If you're using C# 7, this can be made slightly shorter:
[CanBeNull]
public static T FindAncestor<T>(DependencyObject d) where T : DependencyObject
{
while (true)
{
d = VisualTreeHelper.GetParent(d);
if (d == null)
return null;
if (d is T t)
return t;
}
}
I can't find my control with @CrimsonX or @Drew Noakes methods, because my ControlTemplate is located in a separated XAML file. I have found the control using the following method:
private Image backImage;
private void Diagram_Loaded(object sender, System.Windows.RoutedEventArgs e)
{
// here is the example of the ControlTemplate declaration
//<ControlTemplate x:Key="DiagramControlTemplate1" TargetType="{x:Type Diagram}">
var ctrlTemplate = (ControlTemplate)FindResource("DiagramControlTemplate1");
// diagram is the x:Name of TemplatedControl and, "backImage" is the name of control that I want to find.
var imageControl = ctrlTemplate.FindName("backImage", diagram);
if (imageControl != null)
{
this.backImage = (Image)imageControl;
}
}
This is working for me.
This code just fixes @CrimsonX answer's bug:
public static T FindChild<T>(DependencyObject parent, string childName)
where T : DependencyObject
{
// Confirm parent and childName are valid.
if (parent == null) return null;
T foundChild = null;
int childrenCount = VisualTreeHelper.GetChildrenCount(parent);
for (int i = 0; i < childrenCount; i++)
{
var child = VisualTreeHelper.GetChild(parent, i);
// If the child is not of the request child type child
T childType = child as T;
if (childType == null)
{
// recursively drill down the tree
foundChild = FindChild<T>(child, childName);
// If the child is found, break so we do not overwrite the found child.
if (foundChild != null) break;
}
else if (!string.IsNullOrEmpty(childName))
{
var frameworkElement = child as FrameworkElement;
// If the child's name is set for search
if (frameworkElement != null && frameworkElement.Name == childName)
{
// if the child's name is of the request name
foundChild = (T)child;
break;
}
// recursively drill down the tree
foundChild = FindChild<T>(child, childName);
// If the child is found, break so we do not overwrite the found child.
if (foundChild != null) break;
else
{
// child element found.
foundChild = (T)child;
break;
}
}
return foundChild;
}
You just need to continue calling the method recursively if types are matching but names don't (this happens when you pass FrameworkElement
as T
). otherwise it's gonna return null
and that's wrong.
-
This snippet throws an error in VS as currently presented. Downvoting. In short, it lacks a default return state.– KrythicCommented May 27, 2021 at 17:24
Here are some methods that I use frequently..
Usage:
// Starts the search from thisUiElement (might be a UserContol, Window, etc..)
var combobox = thisUiElement.ChildOfType<ComboBox>();
var employeesListBox = thisUiElement.ChildOfName("EmployeesListBox");
// Starts the search from MainWindow to find the first DataGrid
var dataGrid = WpfUtils.ChildOfType<DataGrid>();
// Starts the search from MainWindow to find the all ListViews
List<ComboBox> allListViews = WpfUtils.ChildOfType<ListView>();
// Starts the search from MainWindow to find the element of name EmployeesComboBox
var combobox = WpfUtils.ChildOfName("EmployeesComboBox");
Implementation:
/*
using System.Collections.Generic;
using System.Windows;
using System.Windows.Media;
namespace WpfUtilities;
*/
public static class WpfUtils{
public static Window AppMainWindow =>
Application.Current?.MainWindow;
#region Find By Type
// Start the search from MainWindow, example usage: var combobox = WpfUtils.ChildOfType<ComboBox>();
public static T ChildOfType<T>() where T : DependencyObject =>
ChildOfType<T>(AppMainWindow);
/// This will return the first child of type T
public static T ChildOfType<T>(this DependencyObject parent)
where T : DependencyObject
{
if (parent == null) return null;
T child = default;
var numVisuals = VisualTreeHelper.GetChildrenCount(parent);
for (var i = 0; i < numVisuals; i++)
{
var v = VisualTreeHelper.GetChild(parent, i);
child = v as T ?? v.ChildOfType<T>();
if (child != null)
break;
}
return child;
}
// Start the search from MainWindow, example usage: List<ComboBox> comboboxes = WpfUtils.ChildOfType<ComboBox>();
public static IEnumerable<T> ChildrenOfType<T>() where T : DependencyObject =>
ChildrenOfType<T>(AppMainWindow);
/// This will not break the search when finding the first kid of type T, but it will keep searching to return all kids of type T
public static IEnumerable<T> ChildrenOfType<T>(
this DependencyObject parent) where T : DependencyObject
{
if (parent == null) yield break;
var numVisuals = VisualTreeHelper.GetChildrenCount(parent);
for (var i = 0; i < numVisuals; i++)
{
var child = VisualTreeHelper.GetChild(parent, i);
if (child is T dependencyObject)
yield return dependencyObject;
foreach (var childOfChild in child.ChildrenOfType<T>())
yield return childOfChild;
}
}
#endregion
#region Find By Name
/// If parent is null, the search will start from MainWindow, example usage: var combobox = WpfUtils.ChildOfName("EmployeesCombobox");
public static FrameworkElement ChildOfName(string childName,
DependencyObject parent = null)
{
parent ??= AppMainWindow;
object child = null;
var numVisuals = VisualTreeHelper.GetChildrenCount(parent);
for (var i = 0; i < numVisuals; i++)
{
var v = VisualTreeHelper.GetChild(parent, i);
child = v is FrameworkElement f && f.Name == childName
? f
: ChildOfName(childName, v);
if (child != null)
break;
}
return child as FrameworkElement;
}
#endregion
#region
// Yet another useful method, if you are writing code in a .xaml.cs file and you want to get the parent of a type.. example usage: this.ParentOfType<Grid>(); this.ParentOfType<UserControl>(); this.ParentOfType<Window>();
public static T ParentOfType<T>(this DependencyObject child) where T : DependencyObject
{
var parentDepObj = child;
do
{
parentDepObj = VisualTreeHelper.GetParent(parentDepObj);
if (parentDepObj is T parent) return parent;
} while (parentDepObj != null);
return null;
}
#endregion
}
To everyone who has trouble FindName
of your dynamically generated element... it is because your element was not registered. You need to call RegisterName
first.
See: https://learn.microsoft.com/en-us/dotnet/api/system.windows.frameworkelement.registername
Observe the following example, assume a custom control named Hello
:
Hello myHello = new Hello();
//myHello.Name = "HelloWorld"; // system doesn't even care
myHello.Visibility = Visibility.Visible;
RegisterName("HelloWorld", myHello);
someGrid.Children.Add(myHello);
With RegisterName
, you will be able to find the dynamically generated element.
Note: When using FindName
and RegisterName
the system doesn't even care about the property Name
. IMHO, Name
is purely just there for display purposes only in the visual tree.
I was able to find objects by name using below code.
stkMultiChildControl = stkMulti.FindChild<StackPanel>("stkMultiControl_" + couter.ToString());
Try this
<TextBlock x:Name="txtblock" FontSize="24" >Hai Welcom to this page
</TextBlock>
Code Behind
var txtblock = sender as Textblock;
txtblock.Foreground = "Red"
-
This does not answer I need to search a WPF control hierarchy for controls that match a given name or type. How can I do this? Commented Sep 8, 2021 at 7:44