I just corrected a bug using this:


Now I'd like to understand what it means, and why it works!

up vote 190 down vote accepted

COM is the grand father of .NET. They had pretty lofty goals with it, one of the things that COM does but .NET completely skips is providing threading guarantees for a class. A COM class can publish what kind of threading requirements it has. And the COM infrastructure makes sure those requirements are met.

This is completely absent in .NET. You can use a Queue<> object for example in multiple threads but if you don't lock properly, you'll have a nasty bug in your code that is very hard to diagnose.

The exact details of COM threading are too large to fit in a post. I'll focus on the specifics of your question. A thread that creates COM objects has to tell COM what kind of support it wants to give to COM classes that have restricted threading options. The vast majority of those classes only support so-called Apartment threading, their interface methods can only safely be called from the same thread that created the instance. In other words, they announce "I don't support threading whatsoever, please take care of never calling me from the wrong thread". Even if the client code actually does call it from another thread.

There are two kinds, STA (Single Threaded Apartment) and MTA. It is specified in the CoInitializeEx() call, a function that must be called by any thread that does anything with COM. The CLR makes that call automatically whenever it starts a thread. For the main startup thread of your program, it gets the value to pass from the [STAThread] or [MTAThread] attribute on your Main() method. Default is MTA. For threads that you create yourself it is determined by your call to SetApartmentState(). Default is MTA. Threadpool threads are always MTA, that cannot be changed.

There's lots of code in Windows that requires an STA. Notable examples are the Clipboard, Drag + Drop and the shell dialogs (like OpenFileDialog). The UI thread of a WPF or Windows Forms project should always be STA, as does any thread that creates a window.

The promise you make to COM that your thread is STA however does require you to follow the single-thread apartment contract. They are pretty stiff and you can get pretty hard to diagnose trouble when you break the contract. Requirements are that you never block the thread for any amount of time and that you pump a message loop. The latter requirement is met by a WPF or Winforms' UI thread but you will need to take care of it yourself if you create your own STA thread. The common diagnostic for breaking the contract is deadlock.

There's quite a bit of support built-in the CLR to support these requirements btw, helping you to keep out of trouble. The lock statement for example will pump a message loop when it blocks on an STA thread. Most synchronization classes do as well, Mutex being a notable exception. This however only takes care of the never-block requirement, you still need to create your own message loop. Application.Run() in both WPF and Winforms.

I've previously contributed an answer that contains more details about the significance of having a message loop to keep COM happy. You'll find the post here.

  • 2
    Excellent answer! The bug that I resolved was for a thread that I created for a long-running report builder which used WPF controls to build parts of the report, so that makes sense, though I'm not aware that that thread has a message loop on it. – Benjol Nov 12 '10 at 23:33
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    I seriously had to read the MSDN post several times to understand it, Your answer is very clear and well written. Thank you! – ak3nat0n Apr 26 '11 at 4:20
  • 4
    this response is thorough and awesome. – Joshua Evensen Jul 8 '13 at 20:33

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