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I started looking at std::common_type and am not exactly sure about its purpose and its functionality. A few things still strike me as odd:

  • Order of arguments is important: common_type<Foo, Bar, Baz> might be different from common_type<Baz, Foo, Bar>. Either might compile, the other might not. While this is clear from the way common_type is defined, it feels strange and unintuitive. Is this for lack of a universal solution or intended?
  • Instantiation can result in a compiler error instead of something I can handle. How to check if common_type will actually compile? is_convertible is not enough as common_type might be specialized?
  • There is still no way to figure out the common type in a situation like this:

    struct Baz;
    struct Bar { int m; };
    struct Foo { int m; }; 
    struct Baz { Baz(const Bar&); Baz(const Foo&); };

    The recommended solution would be to specialize common_type which is tedious. Is there a better solution?

For reference see § Table 57 in N3242.

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1 Answer 1

up vote 12 down vote accepted

std::common_type was introduced for use with std::duration --- if you add a std::duration<int> and a std::duration<short> then the result should be std::duration<int>. Rather than specifying an endless stream of allowed pairings, the decision was made to delegate to a separate template which found the result using the core language rules applicable to the ?: arithmetic-if operator.

People then saw that this template might be generally useful, and it was added as std::common_type, and extended to handle an arbitrary number of types. In the C++0x library it is only used for pairs of types though.

You should be able to use the new SFINAE rules to detect whether or not some instantiation of std::common_type is valid. I haven't tried though. In most cases if there isn't a "common type" then there isn't anything meaningful you can do anyway, so a compile error is reasonable.

std::common_type is not magic --- it follows the rules of ?:. If true?a:b will compile, std::common_type<decltype(a),decltype(b)>::type will give you the type of the result.

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Can you provide a link, reference or example to the new SFINAE rules? Also, any ideas on my last point? I do understand why common_type isn't able to produce an answer to common_type<Bar, Foo> still I would find it useful and intuitive. –  pmr Jun 28 '11 at 10:23
SFINAE is described in 14.8.2, especially paragraphs 5-8. It's not particularly clear, but "if substitution results in an invalid type or expression, type deduction fails" from paragraph 8 is a key part. Basically, if you write a function template that depends on common_type<A,B>::type being available, where at least one of A and B are template parameters of that function template then that function is not considered for overload resolution of common_type<A,B>::type is not valid. If you provide an alternative overload of the function then that will be chosen instead. –  Anthony Williams Jun 28 '11 at 10:42
If you want common_type<Bar,Foo>::type to yield Baz then you must specialize common_type yourself. Otherwise, how can the compiler know which of the many types that can be constructed from both Foo and Bar to use? e.g. boost::any can be constructed from anything at all. –  Anthony Williams Jun 28 '11 at 10:44
Ah, that the resolution could be ambiguous didn't occur to me. I haven't managed to get SFINAE working with common_type though. An example is here: pastebin.com/UiEKNRzL But I'll open a new question after closer examination. –  pmr Jun 28 '11 at 12:20
Upvoted. And I'll add: common_type is more of a library builder's tool, than a library user's tool. The library user typically uses common_type only if the library author has designed common_type into his library's interface. The library author can choose to use common_type or not, depending on whether common_type is actually useful for his library or not. –  Howard Hinnant Jun 28 '11 at 12:58

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