It is confirmed that in the upcoming c++20 standard, according to this reddit report from the recent Cologne ISO C++ Meeting, we will be able to specify a template's concept and for each class/function template, we will be able to set the constraints on its types. However, in documentations and tutorials (e.g. here), I could not find the correct syntax for the multi-type use-case.

Suppose we have a multi-type concept:

template<typename T1, typename T2>
concept AreEqComparable = requires(T1 a, T2 b) {
    { a == b } -> bool;

Let's say, I want to define a simple comparison function between two different types. How can I do that? More specifically, what should I write in the ??? part of the code below:

bool are_equal(T1 a, T2 b) { return a == b; }

I couldn't find any reference to this case in here, here, and even here. I have randomly tried something like:

/* 1 */ template<AreEqComparable T1, T2>
/* 2 */ AreEqComparable<T1, T2>
/* 3 */ template<AreEqComparable<T1, T2>>

But all of them throw syntax errors. I think the answer should lie somewhere in the specification P0557 by Bjarne Stroustrup, but I wasn't able to find it after a quick look.

  • I have not used concepts but did you try template<AreEqComparable T1, AreEqComparable T2>? Also IsEqComparable may be a better name (because it only applies to one parameter). – Galik Jul 11 '19 at 1:22
  • @Galik Tried that just now, doesn't work. – FalconUA Jul 11 '19 at 1:24

You can write it like this:

template <typename T1, typename T2>
    requires AreEqComparable<T1, T2>
bool are_equal(T1 a, T2 b)
    // ...

Here, we use a requires-clause to impose a requirement on the type template parameters.

  • Thanks, that works (I'm using online compiler wandbox). Are there more compact ways to write it? I mean in the template clause, without having to explicitly specify requires ...? – FalconUA Jul 11 '19 at 0:41
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    @FalconUA We can write template <typename T1, AreEqComparable<T1> T2>, but that is subtly different - it is actually AreEqComparable<T2, T1>. I am not really aware of a more compact version. – L. F. Jul 11 '19 at 0:42
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    @FalconUA, The TS originally had AreEqComparable{T1, T2} bool are_equal(…);, but no equivalent shorthand made it into C++20. – chris Jul 11 '19 at 0:52

You can write:

template <typename T1, AreEqComparable<T1> T2>
bool are_equal(T1, T2);

This is equivalent to:

template <typename T1, typename T2>
    requires AreEqComparable<T2, T1>
bool are_equal(T1, T2);

The types are flipped in the constraint here, AreEqComparable<T2, T1> instead of AreEqComparable<T1, T2>. This will certainly matter for many concepts, but probably not this one in particular since == itself becomes symmetric in C++20 (short of pathological cases which should not exist in real code). And if you want to be really sure that this symmetry is valid, you can always make it explicit in the concept (as EqualityComparableWith is in the working draft):

template<typename T1, typename T2>
concept AreEqComparable = requires(T1 a, T2 b) {
    { a == b } -> bool;
    { b == a } -> bool;

You can actually get the constraint you want in the correct order by flipping the order of the template parameters (h/t Matthieu M.):

template <typename T2, AreEqComparable<T2> T1>
bool are_equal(T1, T2);
  • It seems reasonable to require symmetry anyway. +1 from me. – L. F. Jul 11 '19 at 9:18
  • template <typename T1, AreEqComparable<T1> T2> is this really the correct syntax? It looks kinda off :O I was expecting something like template <typename T1, AreEqComparable<T1, T2>> – ruohola Jul 11 '19 at 9:52
  • @ruohola Yes, it's correct. We're introducing the type T2 with the partial-concept-id AreEqComparable<T1>. I don't know how the other syntax would introduce T2. – Barry Jul 11 '19 at 10:06
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    Why not write template <typename T2, AreEqComparable<T2> T1> bool are_equal(T1, T2) then? You'd get the arguments in the right order... – Matthieu M. Jul 11 '19 at 12:52
  • @MatthieuM. Oh, yeah. You can do that. – Barry Jul 11 '19 at 13:06

Yet another syntax that avoids introducing template parameters at all (at the cost of adding other redundancy):

bool are_equal(auto x,auto y)
  requires AreEqComparable<decltype(x),decltype(y)>
  {return x==y;}
  • Wow, is there any rule of where one can put the requires statement? – FalconUA Jul 11 '19 at 20:00
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    @FalconUA: After template<…>or after R f(…)—only for functions in the latter case, of course, which need not even be templates (they could be members of a class template, for instance). – Davis Herring Jul 11 '19 at 21:18
  • Fun fact, if you use class and name the parameters X, and Y, this is a full two characters shorter than a normal template declaration :-) (82 vs 84) – Barry Jul 12 '19 at 6:37
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    @Barry: Of course—but the other might be improved somehow, so I need insurance! – Davis Herring Jul 12 '19 at 9:13
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    @L.F.: Yes; even destructors can be constrained, and you can have more than one such prospective destructor. – Davis Herring Aug 22 '19 at 12:54

In GCC 8.2.0, concepts should be written like:

concept bool ConceptName = /* ... */

But C++ Templates: The Complete Guide doesn't mention the bool. Since the C++20 standard is not released, it's hard to say which is right.

For concepts that need one parameter (not necessarily type), there's a shorthand:

template <UnaryConceptName T>

For those that need two or more parameters, there's no shorthand:

template <typename T1, typename T2> requires BinaryConceptName<T1, T2>

typename can be replaced with specific type name.

By the way:

  1. The book I mentioned above gives a brief introduction to concepts.

  2. use -fconcepts in GCC to enable concepts.

  • 4
    concept bool was the syntax in the Concepts TS. C++20 will be just concept. – Barry Jul 12 '19 at 17:48

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