I was under the impression that static members of a class share their value between all instances of that class. My understanding seems to be lacking though, perhaps because of the inclusion of templates or constexpr in this example:

#include <iostream>
#include <array>

template <typename T, std::size_t maxSize>
class Foo
    unsigned int getLen() {
        return containerLen;
    static constexpr std::size_t containerLen = maxSize + 1;
    std::array<T, containerLen> arr;

int main()
    Foo<int, 10> foo1;
    std::cout << foo1.getLen() << std::endl;
    Foo<int, 12> foo2;
    std::cout << foo2.getLen() << std::endl;
    std::cout << foo1.getLen() << std::endl;

    return 0;

Which gives the following output:


I'm probably missing something obvious, but what is it that allows each instance of Foo to have a different value of containerLen?

  • That's because you have different and completely independent class instances of Foo, and each of them has it's own static members. Why would you expect them to be the same? maxSize is even a template parameter. – πάντα ῥεῖ Oct 20 at 18:58
  • Hint: TemplateType<Some Parameters> is a completely different type from TemplateType<Some Other Parameters> – NathanOliver Oct 20 at 18:59
  • Every instantiation of a template is a separate class, so what's your question? – bipll Oct 20 at 19:00

Foo<int, 10> and Foo<int, 12> are different classes - they just share the same template. All instances of Foo<int, 10> will share the same containerLen, as will all instances of Foo<int, 12>; but the two classes will not share a common value.

| improve this answer | |

Your error is consider Foo a class.

It's a class template, so Foo<int, 10> and Foo<int, 12> are different classes.

So there is a containerLen for Foo<int, 10> and a different containerLen for Foo<int, 12>.

If you want a common static member for all class templates, you can insert it in a common base class.

The following is a simple example

#include <iostream>

struct Foo
 { static int value; };

int Foo::value = 0u;

template <typename T>
struct Bar : public Foo // <-- all Bar classes inherit the same value
{ };

int main()
   Bar<int>  bi;
   Bar<long> bl;

   bi.value = 10;
   bl.value ++;

   std::cout << bi.value << std::endl; // print 11
   std::cout << bl.value << std::endl; // print 11
| improve this answer | |

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