If you define two separate identifiers of same name for different entities in the same name space, they might overlap.
C11 standard, chapter §6.2.1 states,
If an identifier designates two different entities in the same name
space, the scopes might overlap....
Refer Footnote: Why in this scenario, both
sums are in same name space
So, once you re-define the identifier with some other type,
....If so, the scope of one entity (the inner scope) will end
strictly before the scope of the other entity (the outer scope). Within the inner scope, the identifier designates the entity declared in the inner scope; the entity declared in the outer scope is hidden (and not visible) within the inner scope.
That means, essentially, in your case, inside function
sum(), when you're defining
int sum, basically you're shadowing the function
sum. After the re-definition,
sum is an identifier of type
int, in that function scope. Thus, inside the function
sum(), you cannot make a call to
sum() as that is an
int type now.
However, FWIW, the call to
main() (or, rather, outside
sum() itself) should be valid, as at that point,
int sum will be out of scope.
Solution: Change the
int sum variable name to something else.
Thanks to @pmg for the correction
As mentioned in the other answer by @juanchopanza, after changing the shadowing variable name, your program will compile and once you run it, you'll face infinite recursion due to the unconditional call to
sum() itself. You need to add some break condition to end (
return from) the recursion.
C11, chapter §6.2.3, name spaces, we can say, there are separate name spaces for various categories of identifiers, e.g. 1) label names 2) the tags of structures, unions, and enumerations, 3) the members of structures or unions and 4) all other identifiers.
So, in this particular case, the function
sum() and the
int sum definition will reside in the same name space, for the
sum() function scope