Early proposals leading to the feature's introduction explain that this is to avoid parsing problems.
Here's just one of the examples presented therein:
Unfortunately, this makes initializers of the “( expression-list )” form ambiguous at the time that the declaration is being parsed:
struct S {
int i(x); // data member with initializer
// ...
static int x;
};
struct T {
int i(x); // member function declaration
// ...
typedef int x;
};
One possible solution is to rely on the existing rule that, if a declaration could be an object or a function, then it’s a function:
struct S {
int i(j); // ill-formed...parsed as a member function,
// type j looked up but not found
// ...
static int j;
};
A similar solution would be to apply another existing rule, currently used only in templates, that if T could be a type or something else, then it’s something else; and we can use “typename” if we really mean a type:
struct S {
int i(x); // unabmiguously a data member
int j(typename y); // unabmiguously a member function
};
Both of those solutions introduce subtleties that are likely to be misunderstood by many users (as evidenced by the many questions on comp.lang.c++ about why “int i();” at block scope doesn’t declare a default-initialized int).
The solution proposed in this paper is to allow only initializers of the “= initializer-clause” and “{ initializer-list }” forms. That solves the ambiguity problem in most cases. [..]
(for{and)for}. No need to refactor everything.