1

I've got an ASP.NET usercontrol with a panel that I'm using to hide and show the content, that is,

<asp:Panel runat="server" ID=pnlContainer">
    <!-- Some fairly uninteresting content -->
</asp:Panel>

I've got a visible property as an overrider, that is,

    public override bool Visible 
    {
        get { return pnlContainer.Visible; }
        set { pnlContainer.Visible = value;  } 
    }

When I set it I get a stack overflow exception BUT when I change the keyword to new, that is,

    public new bool Visible 
    {
        get { return pnlContainer.Visible; }
        set { pnlContainer.Visible = value;  } 
    }

Everything works fine. Why is this? I think I've just got a generally poor understanding of these keywords and it's showing here.

Also:

If I put no keyword on - Visual Studio gives a warning saying that either the new or the override keyword should be used as I am masking an already existing member on the user control.

In a way, my strange practice of using a panel to control the visible on the user control isn't the issue here. With help of the contributors it's clearly mad and shouldn't be done. But the issue that interested me was that the override and new keywords behaved in such different ways and the reasons for this.

8
  • It looks like you're overriding the Panel Containers implimentation of the Visible property, and setting it inside itself is causing an infinate loop. Oct 31, 2012 at 16:31
  • What's pnlContainer (i.e. is it a member variable of some sort)?
    – Kiril
    Oct 31, 2012 at 16:31
  • No the panel container is in a user control. Won't the user control be the naming container in this case? Oct 31, 2012 at 16:32
  • Does this specifically happen only when you use the set method, and not the get method?
    – tmesser
    Oct 31, 2012 at 16:33
  • It depends on where you are defining the property, but my guess is that you are overriding the Visible property for something that already has a Visible property. Is this in a custom control or something? Oct 31, 2012 at 16:35

2 Answers 2

6

The difference is summarized on the Microsoft page Knowing When to Use Override and New Keywords (C# Programming Guide).

Review the section of code indicated there. It is also listed below:

public static void TestCars2()
{
    Car[] cars = new Car[3];
    cars[0] = new Car();
    cars[1] = new ConvertibleCar();
    cars[2] = new Minivan();
}

foreach (Car vehicle in cars)
{
    System.Console.WriteLine("Car object: " + vehicle.GetType());
    vehicle.DescribeCar();
    System.Console.WriteLine("----------");
}

The same principle is getting applied to your source. The .NET framework treats all controls on the page as a collection of base Control classes. Control.Visible is a virtual property.

This means: when the ASP.NET framework invokes Control.Visible for all controls, the only Control.Visible property that is invoked from your source is the one marked as override, which is what people typically think of with standard polymorphism. Otherwise, if you declare your property as new, when the ASP.NET framework invokes Control.Visible, your property is never called.

Thus the override results in a stack overflow exception since you are then calling your panel.Visible, which is recursively calling itself many times.

2
  • Is there a way that .Visible can be overridden for only the .Visible property of the User Control? Or does specifying new effectively do that? Just curious. Oct 31, 2012 at 17:44
  • That's sort of what the new keyword does. It overrides the property just for the user control. I find it a bit dangerous to use the new keyword in general though. You can run into many issues down the road as exhibited by the hoardes of stackoverflow.com posts related to it. Oct 31, 2012 at 17:50
0

The new keyword hides an inherited member (see Knowing When to Use Override and New Keywords (C# Programming Guide) for an example).

So when you apply new in this case, at some point the object is then being referenced as its base class, and the base class setter is being called instead of your derived class setter (which has an infinite loop because your setter calls itself).

0

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