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I like to give helpful errors / messages, and I also want to do so for my static_asserts. The problem is, that they depend on template parameters. Normally, those parameters will get displayed on way or an other due to the error raised, but they are either obscure or not grouped so they make sense. Example:

template<class T>
struct fake_dependency{
  static bool const value = false;
};

template<class T, class Tag>
struct Foo{
  Foo(){}

  template<class OtherTag>
  Foo(Foo<T, OtherTag> const&){
    static_assert(fake_dependency<T>::value, "Cannot create Foo<T,Tag> from Foo<T,OtherTag>.");
  }
};

int main(){
    Foo<int, struct TagA> fA;
    Foo<int, struct TagB> fB(fA);
}

Output on MSVC:

src\main.cpp(74): error C2338: Cannot create Foo<T,Tag> from Foo<T,OtherTag>.
          src\main.cpp(84) : see reference to function template instantiation 'Foo<T,Tag>::Foo<main::TagA>(const Foo<T,main::TagA> &)' being compiled
          with
          [
              T=int,
              Tag=main::TagB
          ]

One tag is mentioned in the function template itself, the other below with the class template. Not so nice. Lets see what GCC outputs:

prog.cpp: In constructor 'Foo<T, Tag>::Foo(const Foo<T, OtherTag>&) [with OtherTag = main()::TagA, T = int, Tag = main()::TagB]':
prog.cpp:18:32:   instantiated from here
prog.cpp:12:5: error: static assertion failed: "Cannot create Foo<T,Tag> from Foo<T,OtherTag>."

Much better, but still not really where the static_assert is. And now imagine some more parameters, or more templates, or both. shivers

One way to work around that is to use an intermediate struct, which takes both Tags as template parameters:

template<class Tag, class OtherTag>
struct static_Foo_assert{
    static_assert(fake_dependency<Tag>::value, "Cannot create Foo<T,Tag> from Foo<T,OtherTag>.");
};

template<class T, class Tag>
struct Foo{
  Foo(){}

  template<class OtherTag>
  Foo(Foo<T, OtherTag> const&){
      static_Foo_assert<Tag, OtherTag> x;
  }
};

Now lets see the output again:

src\main.cpp(70): error C2338: Cannot create Foo<T,Tag> from Foo<T,OtherTag>.
          src\main.cpp(79) : see reference to class template instantiation 'static_Foo_assert<Tag,OtherTag>' being compiled
          with
          [
              Tag=main::TagB,
              OtherTag=main::TagA
          ]

Much better! Here's what GCC says:

prog.cpp: In instantiation of 'static_Foo_assert<main()::TagB, main()::TagA>':
prog.cpp:17:40:   instantiated from 'Foo<T, Tag>::Foo(const Foo<T, OtherTag>&) [with OtherTag = main()::TagA, T = int, Tag = main()::TagB]'
prog.cpp:23:32:   instantiated from here
prog.cpp:8:5: error: static assertion failed: "Cannot create Foo<T,Tag> from Foo<T,OtherTag>."

Looks not bad. The problem: I need to create such a struct for every template, since the error message in static_assert needs to be a string literal...

Now, for my question: Can we somehow include the type names directly into the static_assert? Like

static_assert(..., "Cannot create Foo<" T "," Tag "> from Foo<" T "," OtherTag ">.");

Example output:

Cannot create Foo<int,main::TagA> from Foo<int,main::TagB>.

Or, if that isn't achievable, can we somehow make the error message an extra template parameter, as to make it passable?

share|improve this question
6  
I would like to see the compilers become better here. It must be possible to show the condition that failed. It could say note: in static_assert check for fake_dependency<T>::value [with T = ...] (in the brackets, it enumerates all template parameters used in the expression). Let's hope! – Johannes Schaub - litb Jun 20 '11 at 17:43
    
@Johannes: I think that could be done with constexpr expression templates, don't you think? Like you can already disassembly runtime expressions / conditions like the Check unit-testing framework does. – Xeo Jun 20 '11 at 18:10
    
Too bad concepts didn't make into C++0x that would greatly reduce the need as it stands typeid or dyanamic_cast are the only way to determine type and both require an instance which you don't have with a template arg. – AJG85 Jun 21 '11 at 14:06
    
@AJ: Actually, the typeid operator is perfectly valid on types only: typeid(int) for example. But the problem is, that static_assert wants a literal string. :( – Xeo Jun 21 '11 at 14:13
    
Do you know all your types in advance? If so you can create an error template with specializations for each type. – Dean Povey Oct 5 '11 at 8:01

My Hack

Code:

template <typename Assertion>
struct AssertValue : AssertionChecker<Assertion::value, Assertion>
{
    static_assert(AssertionValue, "Assertion failed <see below for more information>");
    static bool const value = Assertion::value;
};

It allows for you to check any ::value assertion and dump the types if it failed.

Usage:

// Bad indentation used to show parts
static_assert(
    AssertValue<
        std::my_check<
            T0, decltype(*somethingComplicated), T7::value_type
        >
    >, 
    "something horrible happened"
);

where std::my_check<...>::value is the boolean result of the check

Example

For a full SSCCE example see: IDEOne Example

The Example's error message:

prog.cpp: In instantiation of 'AssertValue<std::is_base_of<IMyInterface, MyBadType> >':
prog.cpp:37:69:   instantiated from 'void MyFunction(IteratorType, IteratorType) [with IteratorType = __gnu_cxx::__normal_iterator<MyBadType*, std::vector<MyBadType> >]'
prog.cpp:60:38:   instantiated from here
prog.cpp:9:5: error: static assertion failed: "Assertion failed <see below for more information>"
prog.cpp: In function 'void MyFunction(IteratorType, IteratorType) [with IteratorType = __gnu_cxx::__normal_iterator<MyBadType*, std::vector<MyBadType> >]':
prog.cpp:60:38:   instantiated from here
prog.cpp:39:5: error: static assertion failed: "iterator passed does not reference IMyInterface items"

Explanation

If the assertion fails, it will print the template arguments of AssertValue and therefore print the full template expansion of your check. For example, if you were checking a std::is_base_of it will print the full type of the check, e.g.: std::is_base_of<IMyInterface, MyBadType>. Then you know exactly what types were used in the failed assertion.

The only problem is that this only works on templates that put their result in ::value. However type_traits mostly uses this and is the goto standard.

share|improve this answer
    
Not as nice as I'd like it, but not bad either. I think you mean <see above ... though, judging from GCC and MSVC errors. – Xeo Nov 13 '12 at 18:08
    
@Xeo I did see below because I think MSVC puts the failed assert first before dumping out the types... GCC does the opposite – Bob Fincheimer Nov 13 '12 at 18:09
    
Right, I looked at the wrong error output in my question. – Xeo Nov 13 '12 at 18:10
2  
Ideone example not present anymore... ideone.com/AcwsCA And response code is not complete, AssertionChecker missing – Ghita May 13 '14 at 15:16

It's possible to get a string literal passed in as a template non-type parameter, with a little bit of hoop-jumping. But since the second argument to static_assert is constrained to be a string literal rather than, say, an address constant expression, this unfortunately is not much use.

Sadly I suspect your best bet is to lobby the committee or the compiler writers to extend the facility.

share|improve this answer

std::type_info has a member const char* name():

#include <typeinfo>
using namespace std;

//...

const char* name = type_info(T).name();
share|improve this answer
2  
Not a string-literal, and as such can not be used in static_assert. Also, the "name" is compiler and/or platform dependent. :/ – Xeo Aug 18 '11 at 21:33

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