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I use the following code to compare arithmetic types. The class template equal compares the given arguments for equality and stores the result in the member variable result. The class template also provides a cast operator to bool in order to be evaluated in conditional statements. I also provide a template deduction guide in order to not have to cast the arguments manually when constructing an equal object. This works always when equal is evaluated from non-templated functions, but fails to compile in function templates when the expression gets negated by operator!(), at least on the current clang compiler (11.0.1). However, it compiles with gcc and msvc. In the code example, the compilation fails in the function template dummy():

#include <algorithm>
#include <concepts>
#include <limits>
#include <type_traits>

template<typename T>
inline constexpr auto abs(T value) -> T
{
    if (value < 0)
        return -1 * value;
    return value;
}


template<std::integral T>
inline constexpr auto integersEqual(const T lref, const T rref) noexcept -> bool
{
    return lref == rref;
}

template<std::floating_point T>
inline constexpr auto floatingPointsEqual(const T lref, const T rref) noexcept -> bool
{
    constexpr T epsilon = std::numeric_limits<T>::epsilon() * 1000;
    return abs(lref - rref) <=
           (epsilon * std::max<T>(abs(lref), abs(rref)));
}

template<typename T>
inline constexpr auto arithmeticEqual(const T lref, const T rref) noexcept -> bool
{
    if constexpr (std::is_integral_v<T>)
    {
        return integersEqual(lref, rref);
    }
    else
    {
        return floatingPointsEqual(lref, rref);
    }
}

template<typename T>
class equal final
{
public:
    inline constexpr equal(const T lref, const T rref) noexcept : result(arithmeticEqual(lref, rref)) {}
    inline constexpr operator bool() const noexcept
    {
        return result;
    }
    inline constexpr auto operator!() const noexcept -> bool
    {
        return !result;
    }

private:
    const bool result;
};

// deduction guides for equal
template<typename T1, typename T2>
equal(T1, T2) -> equal<std::common_type_t<std::decay_t<T1>, std::decay_t<T2>>>;

template<typename T1, typename T2>
auto dummy(const T1 t1, const T2 t2) -> bool
{
    return !equal(t1, t2);                                                            // <- This line fails. If not negated, it works
    //return equal(t1, t2) == false;                                                  // this works
    //return !equal<std::common_type_t<std::decay_t<T1>, std::decay_t<T2>>>(t1, t2);  // this works as well
}


auto main() -> int
{
    return dummy(12, 13);
}

(Link to compiler explorer: https://godbolt.org/z/PMcMab)

Compilation fails with the following error message:

<source>:67:12: error: invalid argument type 'equal' to unary expression
    return !equal(t1, t2); 

Adding the operator!() to the class template equal does not solve this issue. My question is: why doesn't clang accept this code? I don't see a problem with this code. Is this a bug in clang? Usually clang follows the standard more strictly than the other compilers, so I was wondering if both gcc and msvc are accepting this code but really shouldn't. I am suspecting the template argument deduction to be the culprit, since providing a concrete template arguments resolves the issue. Does the deduction fail for some reason I am not aware of?

15
  • Not the solution but an observation: using another custom name for your deduction guide compiles fine for clang.
    – Secundi
    Mar 4, 2021 at 7:55
  • return !static_cast<bool>(equal(t1, t2)); solves the issue on caller side but it should work without it since your lambda explicitly states the boolean return type. For me it seems, that clang has an issue here.
    – Secundi
    Mar 4, 2021 at 8:06
  • @Secundi Could you explain to me what you mean by "custom name"? I didn't know that it was possible to use a different name for a deduction guide than for the template that is being deduced. When I tried to rename the deduction guide, it didn't compile. What is the syntax?
    – kamshi
    Mar 5, 2021 at 0:46
  • You can write template <class T1, class T2, class U1, class U2> constexpr auto custom_equal(T1, T2) -> equal<std::common_type_t<std::decay_t<T1>, std::decay_t<T2>>>;
    – Secundi
    Mar 5, 2021 at 7:04
  • If I try your example, I get the following error (which makes sense): "candidate template ignored: couldn't infer template argument 'U1' constexpr auto custom_equal(T1, T2) -> equal<std::common_type_t<std::decay_t<T1>, std::decay_t<T2>>>;" When I remove the parameters U1 and U2, I get the warning "warning: inline function 'custom_equal<int, int>' is not defined [-Wundefined-inline] constexpr auto custom_equal(T1, T2) -> equal<std::common_type_t<std::decay_t<T1>, std::decay_t<T2>>>;", and can see in the assembly that clang interprets the call in dummy as a function call instead.
    – kamshi
    Mar 5, 2021 at 9:36

1 Answer 1

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I kinda think it is a bug in clang. I fiddled around with this for a while.

I tried:

return equal( t1, t2 ).operator !();

which clang didn't like, but the other compilers did.

Clang said:

<source>:69:27: error: member reference base type 'equal' is not a structure or union
    return equal( t1, t2 ).operator !();

an interesting error.

Also if you just do this:

bool dummy2( int t1, unsigned t2)
{
    return !equal(t1, t2);
}

it compiles fine. So it has something to do with the deduction guide in combination with the invocation of the deduction guide inside of a template method.

Finally, this compiles:

template<typename T1, typename T2>
auto dummy(const T1 t1, const T2 t2) -> bool
{
    typedef decltype( equal(t1, t2) ) _TyEqual;
    static_assert( std::is_same_v< _TyEqual, equal< std::common_type_t<std::decay_t<T1>, std::decay_t<T2>>>> );
    return !_TyEqual(t1, t2);
}

which coupled with the other errors makes me think that the error is that clang uses some intermediate type of some sort when applying the deduction guide. Once you spell out the type to clang, it likes it...

Anyway, interesting problem and I gained a bit of knowledge about deduction guides in the process.

4
  • The error message is indeed very interesting. I added the following method to the class equal:' inline constexpr auto b() -> bool {return result;}' When I try to invoke this method in the dummy template as 'return equal(t1, t2).b();', I get the same error message about equal not being a structure or union. If I store the result in a temporary variable, and invoke the method b(), it works. Really seems like a clang bug to me now.
    – kamshi
    Mar 5, 2021 at 0:54
  • I agree. Will you give them a bug?
    – David Bien
    Mar 5, 2021 at 5:53
  • Yes, I am going to do so soon. Since self-registration on the llvm bug-tracker is disabled, I had to wait for them to approve my registration. I just received a mail from them, so I will search the bug tracker first for this error, and if I think this issue hasn't been reported yet, shrink this example down to the bare minimum and submit it. After I have submitted it, I will post the link to the bug ticket here, and if they recognize it as a bug, accept your answer as "the solution". Thank you again for your valuable hints.
    – kamshi
    Mar 5, 2021 at 9:05
  • While I was coming up with a shrinked down example for the bug tracker, I also tried to compile the code with the current trunk of clang, which works. Guess I should have tried that out beforehand. It seems to me that this issue has been adressed already, so I will not create a new bug ticket for this issue and instead hope that the next release (probably 11.0.2) will fix this issue.
    – kamshi
    Mar 5, 2021 at 9:49

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