To expand @ildjarn's comment, the semantics of the global built-in
= are universally set; it is called when initializing a new instance of a class with an rvalue of some kind, and calls the appropriate constructor (based on the compile-time type of the rvalue), which is a nice way of providing c-style initialization instead of strictly requiring all variables to be initialized by an explicit call to a constructor. Overloading the global operator would change too much of the underlying semantics of the language while providing little to know real benefit--you'd be fundamentally changing how, which, and whether constructors are called, and if you feel like you have a reason to do that through overloading the global
=, there's a good chance you're wrong.
operator= is overloadable because it's operating on an already existing and initialized lvalue of its class, and there are obvious cases where you would want custom behavior in modifying a pre-existing object (like only copying certain members from the rvalue while recalculating others and leaving still others alone, or properly disposing of resources held by pointer to take hold of a new resource without leaking memory).
Where the member
operator= deals with a complete lvalue object, the built-in starts with nothing but an appropriately sized block of memory and an rvalue. Constructors of all shapes and forms are the language-provided interfaces for modifying the behavior of the built-in
= without ceding control of the semantics themselves to you. I'd be interested to see what you feel you need to accomplish by overloading global
= that couldn't be done with a constructor.