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My WPF application generates sets of data which may have a different number of columns each time. Included in the output is a description of each column that will be used to apply formatting. A simplified version of the output might be something like:

class Data
{
    IList<ColumnDescription> ColumnDescriptions { get; set; }
    string[][] Rows { get; set; }
}

This class is set as the DataContext on a WPF DataGrid but I actually create the columns programmatically:

for (int i = 0; i < data.ColumnDescriptions.Count; i++)
{
    dataGrid.Columns.Add(new DataGridTextColumn
    {
        Header = data.ColumnDescriptions[i].Name,
        Binding = new Binding(string.Format("[{0}]", i))
    });
}

Is there any way to replace this code with data bindings in the XAML file instead?

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6 Answers 6

up vote 36 down vote accepted

Here's a workaround for Binding Columns in the DataGrid. Since the Columns property is ReadOnly, like everyone noticed, I made an Attached Property called BindableColumns which updates the Columns in the DataGrid everytime the collection changes through the CollectionChanged event.

If we have this Collection of DataGridColumn's

public ObservableCollection<DataGridColumn> ColumnCollection
{
    get;
    private set;
}

Then we can bind BindableColumns to the ColumnCollection like this

<DataGrid Name="dataGrid"
          local:DataGridColumnsBehavior.BindableColumns="{Binding ColumnCollection}"
          AutoGenerateColumns="False"
          ...>

The Attached Property BindableColumns

public class DataGridColumnsBehavior
{
    public static readonly DependencyProperty BindableColumnsProperty =
        DependencyProperty.RegisterAttached("BindableColumns",
                                            typeof(ObservableCollection<DataGridColumn>),
                                            typeof(DataGridColumnsBehavior),
                                            new UIPropertyMetadata(null, BindableColumnsPropertyChanged));
    private static void BindableColumnsPropertyChanged(DependencyObject source, DependencyPropertyChangedEventArgs e)
    {
        DataGrid dataGrid = source as DataGrid;
        ObservableCollection<DataGridColumn> columns = e.NewValue as ObservableCollection<DataGridColumn>;
        dataGrid.Columns.Clear();
        if (columns == null)
        {
            return;
        }
        foreach (DataGridColumn column in columns)
        {
            dataGrid.Columns.Add(column);
        }
        columns.CollectionChanged += (sender, e2) =>
        {
            NotifyCollectionChangedEventArgs ne = e2 as NotifyCollectionChangedEventArgs;
            if (ne.Action == NotifyCollectionChangedAction.Reset)
            {
                dataGrid.Columns.Clear();
                foreach (DataGridColumn column in ne.NewItems)
                {
                    dataGrid.Columns.Add(column);
                }
            }
            else if (ne.Action == NotifyCollectionChangedAction.Add)
            {
                foreach (DataGridColumn column in ne.NewItems)
                {
                    dataGrid.Columns.Add(column);
                }
            }
            else if (ne.Action == NotifyCollectionChangedAction.Move)
            {
                dataGrid.Columns.Move(ne.OldStartingIndex, ne.NewStartingIndex);
            }
            else if (ne.Action == NotifyCollectionChangedAction.Remove)
            {
                foreach (DataGridColumn column in ne.OldItems)
                {
                    dataGrid.Columns.Remove(column);
                }
            }
            else if (ne.Action == NotifyCollectionChangedAction.Replace)
            {
                dataGrid.Columns[ne.NewStartingIndex] = ne.NewItems[0] as DataGridColumn;
            }
        };
    }
    public static void SetBindableColumns(DependencyObject element, ObservableCollection<DataGridColumn> value)
    {
        element.SetValue(BindableColumnsProperty, value);
    }
    public static ObservableCollection<DataGridColumn> GetBindableColumns(DependencyObject element)
    {
        return (ObservableCollection<DataGridColumn>)element.GetValue(BindableColumnsProperty);
    }
}
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3  
This is the correct answer, Bravo! –  A.R. Jul 12 '12 at 12:13
1  
nice solution for MVVM pattern –  user841612 Apr 18 '13 at 14:17
1  
A perfect solution! Probably you need to do a few other things in BindableColumnsPropertyChanged: 1. Check dataGrid for null before accessing it and throw an exception with good explanation about binding only to DataGrid. 2. Check e.OldValue for null and unsubscribe from CollectionChanged event to prevent memory leaks. Just for your convince. –  Mike Eshva Oct 23 '13 at 13:01
2  
You register an event handler with the CollectionChanged event of the columns collection, however you never unregister it. That way, the DataGrid will be kept alive for as long as the view-model exists, even if the control template that contained the DataGrid in the first place has been replaced meanwhile. Is there any guaranteed way of unregistering that event handler again when the DataGrid is not required any longer? –  O. R. Mapper Dec 29 '13 at 0:06
1  
@O. R. Mapper: Theoretically there is but it does not work: WeakEventManager<ObservableCollection<DataGridColumn>, NotifyCollectionChangedEventArgs>.AddHandler(columns, "CollectionChanged", (s, ne) => { switch.... }); –  too Jul 22 at 10:09
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I've continued my research and have not found any reasonable way to do this. The Columns property on the DataGrid isn't something I can bind against, in fact it's read only.

Bryan suggested something might be done with AutoGenerateColumns so I had a look. It uses simple .Net reflection to look at the properties of the objects in ItemsSource and generates a column for each one. Perhaps I could generate a type on the fly with a property for each column but this is getting way off track.

Since this problem is so easily sovled in code I will stick with a simple extension method I call whenever the data context is updated with new columns:

public static void GenerateColumns(this DataGrid dataGrid, IEnumerable<ColumnSchema> columns)
{
    dataGrid.Columns.Clear();

    int index = 0;
    foreach (var column in columns)
    {
        dataGrid.Columns.Add(new DataGridTextColumn
        {
            Header = column.Name,
            Binding = new Binding(string.Format("[{0}]", index++))
        });
    }
}

// E.g. myGrid.GenerateColumns(schema);
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What does index do? –  Phil Gan Feb 2 '11 at 16:26
1  
The highest voted and accepted solution is not the best one! Two years later the answer would be: msmvps.com/blogs/deborahk/archive/2011/01/23/… –  Mikhail Apr 18 '11 at 18:08
3  
No, It would not. Not the provided link anyway, because the result of that solution is completely different! –  321X Aug 10 '11 at 19:59
2  
Seems like Mealek's solution is much more universal, and is useful in situations where direct use of C# code is problematic, e.g. in ControlTemplates. –  EFraim Dec 7 '11 at 18:59
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I have found a blog article by Deborah Kurata with a nice trick how to show variable number of columns in a DataGrid:

Populating a DataGrid with Dynamic Columns in a Silverlight Application using MVVM

Basically, she creates a DataGridTemplateColumn and puts ItemsControl inside that displays multiple columns.

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It works perfectly for both Silverlight and WPF! –  Mikhail Apr 18 '11 at 18:02
    
It's by far not the same result as the programmed version!! –  321X Aug 10 '11 at 19:58
    
@321X: Could you please elaborate on what the observed differences are (and also specify what you mean by programmed version, as all the solutions to this are programmed), please? –  O. R. Mapper Dec 29 '13 at 0:09
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I managed to make it possible to dynamically add a column using just a line of code like this:

MyItemsCollection.AddPropertyDescriptor(
    new DynamicPropertyDescriptor<User, int>("Age", x => x.Age));

Regarding to the question, this is not a XAML-based solution (since as mentioned there is no reasonable way to do it), neither it is a solution which would operate directly with DataGrid.Columns. It actually operates with DataGrid bound ItemsSource, which implements ITypedList and as such provides custom methods for PropertyDescriptor retrieval. In one place in code you can define "data rows" and "data columns" for your grid.

If you would have:

IList<string> ColumnNames { get; set; }
//dict.key is column name, dict.value is value
Dictionary<string, string> Rows { get; set; }

you could use for example:

var descriptors= new List<PropertyDescriptor>();
//retrieve column name from preprepared list or retrieve from one of the items in dictionary
foreach(var columnName in ColumnNames)
    descriptors.Add(new DynamicPropertyDescriptor<Dictionary, string>(ColumnName, x => x[columnName]))
MyItemsCollection = new DynamicDataGridSource(Rows, descriptors) 

and your grid using binding to MyItemsCollection would be populated with corresponding columns. Those columns can be modified (new added or existing removed) at runtime dynamically and grid will automatically refresh it's columns collection.

DynamicPropertyDescriptor mentioned above is just an upgrade to regular PropertyDescriptor and provides strongly-typed columns definition with some additional options. DynamicDataGridSource would otherwise work just fine event with basic PropertyDescriptor.

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You can create a usercontrol with the grid definition and define 'child' controls with varied column definitions in xaml. The parent needs a dependency property for columns and a method for loading the columns:

Parent:


public ObservableCollection<DataGridColumn> gridColumns
{
  get
  {
    return (ObservableCollection<DataGridColumn>)GetValue(ColumnsProperty);
  }
  set
  {
    SetValue(ColumnsProperty, value);
  }
}
public static readonly DependencyProperty ColumnsProperty =
  DependencyProperty.Register("gridColumns",
  typeof(ObservableCollection<DataGridColumn>),
  typeof(parentControl),
  new PropertyMetadata(new ObservableCollection<DataGridColumn>()));

public void LoadGrid()
{
  if (gridColumns.Count > 0)
    myGrid.Columns.Clear();

  foreach (DataGridColumn c in gridColumns)
  {
    myGrid.Columns.Add(c);
  }
}

Child Xaml:


<local:parentControl x:Name="deGrid">           
  <local:parentControl.gridColumns>
    <toolkit:DataGridTextColumn Width="Auto" Header="1" Binding="{Binding Path=.}" />
    <toolkit:DataGridTextColumn Width="Auto" Header="2" Binding="{Binding Path=.}" />
  </local:parentControl.gridColumns>  
</local:parentControl>

And finally, the tricky part is finding where to call 'LoadGrid'.
I am struggling with this but got things to work by calling after InitalizeComponent in my window constructor (childGrid is x:name in window.xaml):

childGrid.deGrid.LoadGrid();

Related blog entry

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You might be able to do this with AutoGenerateColumns and a DataTemplate. I'm not positive if it would work without a lot of work, you would have to play around with it. Honestly if you have a working solution already I wouldn't make the change just yet unless there's a big reason. The DataGrid control is getting very good but it still needs some work (and I have a lot of learning left to do) to be able to do dynamic tasks like this easily.

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My reason is that coming from ASP.Net I'm new to what can be done with decent data binding and I'm not sure where it's limits are. I'll have a play with AutoGenerateColumns, thanks. –  Generic Error Nov 26 '08 at 20:37
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