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I'm having trouble storing std::cout in a std::shared_ptr<std::ostream>.

Since this obviously shouldn't be done:

std::shared_ptr<std::ostream> p_cout(&std::cout);

And this isn't even possible since it's not possible to copy a std::ostream:

std::shared_ptr<std::ostream> p_cout = std::make_shared<std::ostream>(std::cout);

Does someone know a legal workaround?

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    @Tim: I'm sorry to hear that your chosen framework mandates the passing of streams wrapped in shared_ptrs! – Lightness Races BY-SA 3.0 Jun 20 '13 at 19:16
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    @LightnessRacesinOrbit Why? You think it is bad design? Because I'm co-designing the framework, but it seems to me the best option. – Tim Jun 20 '13 at 20:14
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    @Tim: You haven't even finished designing the framework, and already you've found yourself performing ghastly mutations to your client code in order to work around limitations of the framework's API; yes, I'd say that's bad design! Why does the library need to accept smart pointers? It cannot take ownership of the objects. Maybe have it be a template and take a T* or perhaps a P, where P can be substituted by any pointer-like type. – Lightness Races BY-SA 3.0 Jun 20 '13 at 21:37
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    @LightnessRacesinOrbit Since an std::shared_ptr counts its references, besides it dereferences. A plain reference won't work since the class needs to function without a stream to. – Tim Jun 21 '13 at 8:48
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    @LightnessRacesinOrbit It's a member of a class. So it needs to be stored. – Tim Jun 21 '13 at 9:26
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The requirement you have is strange, but you can of course store a pointer to std::ostream in a shared_ptr<std::ostream> provided, you take care of a proper disposer action:, e.g.: std::shared_ptr<std::ostream>(&std::cout, [](void*) {});

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this obviously shouldn't be done:

std::shared_ptr<std::ostream> p_cout(&std::cout);

Indeed, this should never be done. The reason is because you don't have ownership of std::cout and thus when your last shared_ptr goes out of scope it tries to delete std::cout (which is plain evil). But you already knew that.

The solution, if you must absolutely use a shared_ptr (which I assume is a matter of API compatibility), is to use a custom deleter that does nothing:

shared_ptr<std::ostream> p_cout(&std::cout, [](std::ostream*){});
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shared_ptr will take ownership of the pointer you give it. This means your program will eventually try to delete std::cout (when that last copy of a the initial shared_ptr goes out of scope). This is not something you want to do.

Since you do not need to control the lifetime to std::cout, you could simply pass a std::ostream raw pointer or reference around.

  • Ofcourse, the reason for the question... Note the example what shouldn't be done. – Tim Jun 20 '13 at 17:43

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