5

I've found code in an open source project that basically looks like this:

template< typename... Args >
void expand_calls_hack(Args&&... args)
{}

template <unsigned int... Indices>
struct foo
{
  static void bar(some_tuple_type& t)
  {
    meta::expand_calls_hack((std::get<Indices>(t).doSomething(), 0)...);
  }
};

I figured this "construct" is used to call doSomething() for each of the tuple elements. However, it seems to me that the order of the calls to doSomething() is undefined, at least it would be with normal functions in C++03. This would be a bug, since the calls have side effects. I have two questions about this:

  1. What is the use of the (tupleElement.doSomething(), 0) - Is that the comma operator? I gather that it has something to do with using expand_calls_hack to expand the calls.

  2. How can this be fixed so that the calls are evaluated left-to-right? Note that I need that to compile on VC2013. I've tried expanding a list of lambdas and calling it sequentially, but I could not get that to compile.

I hope I've not left out too much context, but for the curious, the source of this code is on github here, line 419

1 Answer 1

5

The first part of the question is quite simple: std::get<I>(t).doSomething() may return void. As a result, you can't directly use this expression as an argument to expand_calls_hack(). Using the comma operator arranges for an argument to be present even if doSomething() returns void.

The order of function evaluations when invoking a variadic function template is not special, i.e., the evaluation order is undefined. However, it turns out that the order of evaluation of constructor arguments when using brace initialization is defined (see, e.g., this question). That is, you can guarantee the order of evaluation using something like this:

namespace meta {
    struct order {
        template <typename... T>
        order(T&&...) {}
    };
}
// ...
template <unsigned int... Indices>
struct foo
{
    template <typename T>
    static void bar(T&& t)
    {
        meta::expand_calls_hack((std::get<Indices>(t).doSomething(), 0)...);
        meta::order{(std::get<Indices>(t).doSomething(), 0)...};
    }
};

In the above function the use of expand_calls_hack() evaluates the expressions back to front on my system while the use of order evaluates them front to back as it has to. I think a similar effect can be achieved using an std::initializer_list<int> which would have the need effect of not requiring a variadic template: the arguments are all ints anyway:

namespace meta {
    struct init_order {
        init_order(std::initializer_list<int>) {}
    };
}

It would be used exactly the same as meta::order.

5
  • Thanks, this worked very well! Just out of curiosity, can I get rid of the the init_order type in the second example and just use std::initializer_list<int>{/*calls to expand here*/}?
    – ltjax
    Mar 22, 2015 at 14:59
  • 1
    I don't think std::initializer_list<T> has such a constructor. It is something magical which the compiler knows how to fill. Mar 22, 2015 at 15:04
  • 1
    @DietmarKühl You can do std::initializer_list<int> i = {1, 2, 3};. Also, a (void) cast on the result of doSomething() would be necessary in highly generic code.
    – T.C.
    Mar 22, 2015 at 16:32
  • @T.C.: returning void seems to be quite common. Overloading the comma operator is, fortunately rather uncommon and whether this use needs to be support is somewhat questionable. However, I only addressed the questions actually asked. It is useful to knw that an std::initializer_list<int> could be used. I guess now i needs to be used to acoid a warning. Mar 22, 2015 at 16:56
  • It has to be brace initalization it seems, using the new c++17 feature of not having to provide the type, you can directly write return std::tuple{do_something<I>()...}; Using return std::tuple(do_something<I>()...); does not guarantee the order (at least on VS19...
    – Marti Nito
    Jun 20, 2020 at 20:19

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