In C++, how do you declare a static member function of a class to be const
with respect to the static member variables of that class?
Consider the following simple example.
myclass.h:
class myclass
{
myclass()
{
myint = 0;
}
~myclass() { }
int myint;
static int my_static_int;
void foo(const int yourint) const;
static void bar(const int newint );
};
myclass.cpp:
myclass::my_static_int = 0;
void myclass::foo(const int yourint) const
{
if (yourint <= myint + my_static_int)
std::cerr << "yourint <= myint + my_static_int";
else
std::cerr << "yourint > myint + my_static_int";
bar( yourint );
}
void myclass:bar(const int newint)
{
my_static_int = newint;
}
main.cpp
...
myclass A;
A.foo(4);
A.foo(4);
..
The output would be:
yourint > myint + my_static_int
yourint <= myint + my_static_int
Clearly, bar
can be used within const
member functions to change the static member variables of the class and thus change the result of const member function foo
.
Can you declare bar
to be const with respect to my_static_int
?
const
.const
only means that the function won't modify any non-mutable
member variables, not that it will "have the same output" every time you call it. For instance, what if you had astatic
variable in aconst
member function and incremented it on every call and returned it? It would still beconst
but return a different value every time.const
. I actually demonstrated my understanding in the question. On the contrary, you evidently failed to read my question, as your "comment" merely proposed merely another example of what my question is asking.const
shouldn't change anything in the class, which is wrong. That's what I was referring to when I said you misunderstoodconst
.bar
to be const with respect to a static variable by noting that the standard doesn't provide such a declaration. Whether or not the effect can be simulated is irrelevant to the fact that there is no such declaration.