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I have a C++ / CLI project that wraps an existing Library that makes use of ppl tasks. It encapsulate ppl in a way that client code do not require to include <ppltasks.h> and so, my C++ / CLI project can be built (you can't build C++ / CLI projects that include <ppltasks.h>).

The code runs perfectly fine when the callstack origin is from .Net code, but when my C++ / CLI code is called trough a ppl tasks continuation, the .net execution engine seems broken (static constructors are called multiple times, static members are totally broken etc.).

Is there a way to make this work (by capturing a context or semothing that I would restore before calling my C++ /CLI code)? Or do I need to change the design of my C++ native code and wrap .Net TPL objects Inside C++ native containers to avoid using ppl? (that is not exactly what I'd prefer).

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Could you include a small sample code that shows the issues? –  svick Jun 17 '13 at 12:25
    
It is a bit complicated, because the code spans between multiple files. But you can imagine the following : the context is a real time game server, where game instance creation is ordered trough an http rest api written in C#, and game logic and low latency communication is written in C++. You can see the game instance as a state machine running independantly, communicating its state with the clients trough UDP. When the game instance reach the game over state, the C# part of the program must be notified to cleanup correlation data between managed data structures and native game instances. –  Simon Ferquel Jun 17 '13 at 12:31
    
In pseudo code, we have something like : class gameInstance{ task_completion_event<void> _gameOverEv; void start(function<void(void)> onGameOver){ create_task(_gameOverEv).then([onGameOver](){onGameOver();}); // run a worker task using tpl } } –  Simon Ferquel Jun 17 '13 at 12:35
    
Pretty undiagnosable from the provided info. C++ code tends to always suffer from the initialization order fiasco, it doesn't get better when it is the CLR that triggers the initialization. Keeping this code in a separate pure unmanaged DLL is another approach. –  Hans Passant Jun 17 '13 at 13:42
    
That was what I have in mind, but I did require a mean to callback .Net code from asynchronous operations done in pure native C++ code. After some investigations, I found that the CLR was not able to dispatch the callbacks to the correct .Net AppDomain, and so it was the source of the multiple static constructor invocation. What I did was to modify my C++ / PPL code to use an abstract IAsyncService, and I implemented it in my C++/CLI project using .Net Tasks. I'm not doing too much Fine Grained parallelism so the overhead is quite acceptable (but not ideal). –  Simon Ferquel Jun 18 '13 at 21:30

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