In both cases, the arrays decay to the pointer type, and your function is actually this:
void fun (char *a);
That is why its working.
I would like to emphasize that
void fun(char*) is exactly same as
void fun(char). The
10 doesn't make any difference at all. In fact,
10 is so unimportant and useless that you can even omit it completely as:
void fun (char a); //exactly same as `char*` or `char`.
That means, all the following function declarations are exactly same:
void fun(char a);
void fun(char a); //10 is unimportant in the above declaration
void fun(char *a); //same as above two declarations!
Hope that clarifies your doubt.
However, if you write this:
void fun (Char10 & a) ; //note &
then, its actually this:
void fun (char (&a)) ; //equivalent!
fun(b) wouldn't compile, as now
fun will accept ONLY array of EXACTLY size 10. And the array will not decay to pointer, it will be passed by reference.
char a, b;
char *c=new char;
fun(b); //error - type mismatch due to size of the array
fun(c); //error - type mismatch due to c being pointer.