N - O
The semantics of what is being required are all wrong, and you shouldn't use a static-const for that.
A static is an object or integral type which has static storage duration and internal linkage.
A const is an object that does not change its value throughout application's lifetime, any attempt to change it results in UD . ( the overwhelming majority of such cases is a pretty well defined crash )
As a result of this question dangerous workarounds have been proposed to mimic the implied behavior. In most of examples a static-const-reference is given a somehow hidden static which is assignable at runtime, e.g. this.
Apart from the difficulties in maintaining such code, the problem remains that declared semantics are not actually enforced.
For example in keeping the value const throughout the application runtime can be hacked by doing const_cast<int &>(A::T) = 42
, which is perfectly valid, perfectly define code since the referenced type is not const.
What is being sought after here is an class that permits to be initialized only once throughout the application, has internal linkage, and the lifetime of the application.
So just do a template class that does that:
template<typename V> class fixation
{
bool init = true;
V val;
public:
fixation(V const & v) : init(true), val(v) {}
fixation & operator=( fixation arg)
{
if(init )
{
this->val = arg.val;
}
this->init = false;
return *this;
}
V get()
{
return val;
}
};
struct A
{
static fixation<int> T;
};
How to handle the case that it is called a second time, that is an implementation decision. In this example the value is totally ignored. Others may prefer to throw an exception, do an assertion, ... etc.