I'm trying to understand the usefulness of static_assert, and I want to know if it can help me in enforcing a design, and if so, how.

I have a general template class that hides its own implementation inside another template class which is partially specialized based on the size of the template type. Here's a brief outline of this design:

template <class T, size_t S = sizeof(T)>
struct Helper;

template <class T>
struct Helper<T, sizeof(long)>
    static T bar();

// ... other specializations ...

template <class T>
class Foo

    T bar()
        return Helper<T>::bar();

Foo is only supported if size of T is supported by a specialization of Helper. For example, Foo<long> and Foo<unsigned long> are both supported. However, suppose the user tries to construct a Foo<bool>. Normally, this would generate errors because the specialization of Helper for bool isn't defined, which is intended behaviour.

Is there any way to use static_assert in this design to provide more helpful errors to the user of this interface?

Additionally, I'd like to also restric the user from using a specific type, even though the size might be correct. For example, Foo<float> shouldn't be allowed. Right now, the only way I know of enforcing this is through a bold comment in the documentation. :)

  • Think more generally, is it just integer types that are supported? No char, bool, float, et al?
    – Rapptz
    Jul 16, 2013 at 14:29
  • Search SO for template type constraints or "concepts". A facility to do this was removed from C++11 at the last minute. There are less automatic ways to achieve similar results though.
    – luke
    Jul 16, 2013 at 14:29
  • @Rapptz, char, int, and long, along with their unsigned versions should be supported. The code would be identical for int, long, and unsigned long if sizeof(int) == sizeof(long) == sizeof(unsigned long).
    – Zeenobit
    Jul 16, 2013 at 14:31

3 Answers 3


If it can only work for a specialization of the template class, then have the default template class raise a static assert:

template <class T, size_t S = sizeof(T)>
struct Helper
   static_assert(sizeof(T) == -1, "You have to have a specialization for Helper!" );

The default template class will only be chosen if there isn't a better specialization, therefore the assert will be risen.

You can use the same technique to disallow types, but you'll need another template parameter that will be used for the static assert check.

template <class T, class G = T, size_t S = sizeof(T)>
struct Helper
   static_assert(sizeof(G) == -1, "You have to have a specialization for Helper!" );

template <class G>
struct Helper<float,G>
   static_assert(sizeof(G) == -1, "You can't use float !" );

template <>
struct Helper<int>
 //This is a good specialization

Then you can try it with these variables:

Helper<bool> a;  //"You have to have a specialization for Helper!"
Helper<float> b; //"You can't use float !"
Helper<int> c;   //compiles OK
  • 4
    I believe you want static_assert(false,...), so it always trips. static_assert prints the error if the first argument is false.
    – Dave S
    Jul 16, 2013 at 14:34
  • 16
    This won't work as is - you need to make the assertion dependent (such as static_assert(sizeof(T) == 0, ...);), otherwise it gets processed at point of declaration, not instantiation. Jul 16, 2013 at 14:39
  • @Angew have you checked? I'd expect it to fire at shallow instantiation at first. N.m. I checked: you're right :)
    – sehe
    Jul 16, 2013 at 14:44
  • I just tried this solution, and it doesn't work. It always raises an assertion whether or not the default specialization is used. Not sure if this behvaiour is dependant on the compiler.
    – Zeenobit
    Jul 16, 2013 at 14:47
  • 1
    @Zeenobit I've changed the solution to work properly. Need to add another "invisible" template argument Jul 16, 2013 at 15:25


std::is_base_of and std::is_convertible could help with your first issue and as for the second,

static_assert(!std::is_same<float,T>(),"type can't be float");

hopefully this helps someone else who stumbles upon this question, assuming OP probably found an answer in the 4 years since it was asked :)

  • 1
    I had to do std::is_same<X, Y>::value in VS2010 to avoid a C2057 expected constant expression error.
    – PitaJ
    Feb 24, 2021 at 22:56

I figured out a better solution for this problem by combining the answers and comments here.

I can define a static type checker like so:

template <class A, class B>
struct CheckTypes
    static const bool value = false;

template <class A>
struct CheckTypes<A, A>
    static const bool value = true;

Not sure if such a struct already exists in the standard library. Anyways, then in Foo, I can check for types and sizes using:

static_assert((sizeof(T) == sizeof(long) || sizeof(T) == sizeof(int)) && !CheckTypes<T, float>::value, "Error!");
  • 2
    it does, std::is_same
    – Kyle Lutz
    Jul 16, 2013 at 15:11
  • 1
    using sizeof isn't safe. it's just the size. long and int may be the same size, and a random structure that holds only an int will also have the same size. Jul 16, 2013 at 18:24

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