7

I have an InfoPath form which I need to conditionally disable it's OnChange events. Since it's not possible to bind the event handlers after the form has loaded, I'm forced to rely on a global counter which indicates whether an OnChange event should be executed. Inside each OnChange event, I check whether SuppressEventsCount == 0 before performing any actions. To suppress events during the execution of some function or another, I simply set SuppressEventsCount++, and -- again when the function exits. The biggest problem with doing this is that it's not exception safe. So I had the bright idea to wrap the SuppressEvents counter in a class which implements iDisposable

using(SuppressEvents s = new SuppressEvents()){
   // OnChange events fired here are ignored
} // OnChange events enabled again

This is working, but it's still not as ideal as a c++ solution which doesn't require the use of the "using" directive at all.

Is there some way to either:

  1. Trigger a destructor or some function the moment an object goes out of scope, OR
  2. Prevent the SuppressEvents object from being initialised outside of a "using" directive entirely
2

In relation to question 2, it might be possible to get around it by providing a different interface to consumers of the code. Instead of providing a public class that implements IDisposable, and hoping they wrap it in a using, you could provide a static method that takes a function to execute in a "suppressed" context:

public static class EventSuppressor {
    public void Suppress(Action action) {
        using (var s = new SuppressActions()) {
            action();
        }
    }

    private class SuppressActions : IDisposable {
        ...
    }
}

Then consumers can use this as follows:

EventSuppressor.Suppress(() => {
    // OnChange events fired here are ignored
}) // OnChange events enabled again

Of course, you have to work out whether this design is appropriate, as this will result in extra function calls, compiler generated classes and closures etc.

7

No and no. using is the closest you can get to RAII (more accurately, we are talking about the resource release that follows a RAII-idiom object being destructed).

To answer your points more directly:

  1. IDisposable (and by extension using) was created exactly because there is no way to do that in .NET.
  2. using is syntactic sugar that gets compiled as try/finally and only requires that the object is IDisposable, so you cannot distinguish between usage inside a using statement and out of it.
1

To answer your two questions:

  1. No, there is not, Garbage Collection in .NET is not deterministic in nature
  2. No, you can not, the using clause gets translated into a try/finally block type of code, and in any case you cannot detect that it is constructed from any of those two constructs, compared to outside
1

If you can move from C# to C++.NET (still 100% .NET if compiled with clr:safe), then you can use msclr::auto_handle which acts just like a smart pointer such as auto_ptr etc...

What it really does behind the scene in IL is a bunch of try/fault commands but this is all completely invisible to the developer and user. The whole process is simply better IMO.

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