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I use template mixins in C++ a lot, but I'm wondering why the technique isn't used more. It seems like the ultimate in reuse. This mix of power and efficiency is one of the reasons I really love C++ and can't see myself moving to a JIT language.

This article: http://www.thinkbottomup.com.au/site/blog/C%20%20_Mixins_-_Reuse_through_inheritance_is_good is a good backgrounder if you don't know what they are, and puts the case so clearly in terms of reuse and performance.

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JIT languages can be just as powerful as C++ for all but the most processor-intensive applications. –  GManNickG Jan 6 '12 at 8:58
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@GMan: I think the JIT reference is irrelevant to the question. It's a good question - it's an interesting design pattern which I've never seen in any of the code bases that I've worked on. –  Skizz Jan 6 '12 at 9:14
    
@Skizz: It's totally irrelevant, I agree; but it's there. –  GManNickG Jan 6 '12 at 9:20
    
+1: Never realized that this kind of technique can be used to implement mixins in C++ ! –  neuro Jan 6 '12 at 9:35
    
I don't know any way of doing this in a JIT language. I'm not sure if that relates to them being JIT languages. –  Jesse Pepper Jan 6 '12 at 9:53

2 Answers 2

The problem with mixins is... construction.

class Base1 { public: Base1(Dummy volatile&, int); };

class Base2 { public: Base2(Special const&, Special const&); };

And now, my super mixin:

template <typename T>
struct Mixin: T {};

Do you notice the issue here ? How the hell am I supposed to pass the arguments to the constructor of the base class ? What kind of constructor should Mixin propose ?

It's a hard problem, and it has not been solved until C++11 which enhanced the language to get perfect forwarding.

// std::foward is in <utility>

template <typename T>
struct Mixin: T {
  template <typename... Args>
  explicit Mixin(Args&&... args): T(std::forward<Args>(args...)) {}
};

Note: double checks are welcome

So now we can really use mixins... and just have to change people habits :)

Of course, whether we actually want to is a totally different subject.

One of the issues with mixins (that the poor article you reference happily skip over) is the dependency isolation you completely lose... and the fact that users of LoggingTask are then bound to write template methods. In very large code bases, more attention is given to dependencies than to performance, because dependencies burn human cycles while performance only burn CPU cycles... and those are usually cheaper.

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That overstates the practical problem a bit - can forward a small finite number of arguments with a little tedium (template <typename X> explicit Mixin(const X& x) : T(x) { } template <X, Y> explicit Mixin(X&, Y&) : T(x,y) { }...), or a large finite number with a bit of ugly preprocessor invocation.... –  Tony D Jan 6 '12 at 9:40
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@TonyDelroy: oh believe me people have tried. Given the combinations of const, volatile and & vs "value", it soon becomes untractable. Of course, for "one" particular case, it may work quite well, in general though it's difficult. And of course, as stated in the larger paragraph, while it's now technically feasible, it might still not be desirable for other reasons. –  Matthieu M. Jan 6 '12 at 9:45
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@Skizz You just answered your own question. RAII is way more popular and considered rather useful. –  pmr Jan 6 '12 at 9:59
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@Matthieu: why are users of LoggingTask bound to write template methods? The article included a mixin to add the polymorphic base class, doesn't that work? –  Steve Jessop Jan 6 '12 at 11:31
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@Matthieu: They've offered that shim, though. If you want to avoid virtual calls, you write template functions. If you want to avoid template functions, you use TaskAdapter and pass it as an ITask&. They aren't claiming you can do both at once, but then neither does anybody else, and they do let you pick your preference. I agree about the constructors, I just don't think your additional criticism is justified. That said, there should probably be another polymorphic adapter, that takes the task it wraps by reference rather than by inheritance, to ease the boundary between the styles. –  Steve Jessop Jan 6 '12 at 13:25

Templates require implementation to be visible in the translation unit, not just at link time (C++11 addresses that if you'll only use a pointer or reference to instantiations). This is a major issue for low-level code in enterprise environments: changes to the implementation will trigger (might or might not be automatically) massive numbers of libraries and clients to recompile, rather than just need relinking.

Also, each template instantiation creates a distinct type, which means functions intended to work on any of the template instantions have to be able to accept them - either themselves being forced to be templated, or they need a form of handover to runtime polymorphism (which is often easy enough to do: just need an abstract base class expressing the set of supported operations, and some "get me a accessor" function that returns a derived object with a pointer to the template instantiation and related entires in the virtual dispatch table).

Anyway, these issues are typically manageable, but the techniques to manage the coupling, dependencies and interfaces involved are a lot less publicised, understood and readily available than the simple mixin technique itself. Same is true of templates and policy class BTW.

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I see the use of abstract interfaces as the primary way of avoiding coupling and thus compilation worries. I think it's a fair comment though. Our team is relatively small, but I do wonder if code bases need to necessarily be so huge and coupled. –  Jesse Pepper Jan 6 '12 at 9:57
    
If I had to crown a way "primary", I'd definitely go with plain old out-of-line implementation (sans virtual dispatch), but both pImpl and abstract interfaces have their place too. Anyway, these things can be managed. Another technique is to have a non-templated front-end for the specific template instantiation you want, with the template directly supporting the out-of-line implementation but not visible via the header. Lots of options to reduce or control coupling, as well as options for facilitating easy movement between runtime and compiletime polymorphism. –  Tony D Jan 6 '12 at 10:12

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