C++ allows to overload = operator only as a member function not as a global function.

Bruce Eckel says that if it was possible to define operator= globally, then you might attempt to redefine the built-in = sign. and due to this reason you can overload = operator only as a member function.

if C++ has already defined = operator then why the other operators like + - etc... are not defined by C++ as they can be overloaded as a non-member function. ?

  • The semantics of = are (usually) obvious. The semantics of the others are not -- what would - do for e.g. std::string? – ildjarn Jan 3 '12 at 20:12
  • Many many duplicates on this one, let me find one... – Xeo Jan 3 '12 at 20:12
  • and your question is? – Daniel A. White Jan 3 '12 at 20:12
  • that means only operator = is predefined by C++...is it so? – Amol Sharma Jan 3 '12 at 20:13
  • The copy assignment operator is automatically declared and defined if needed by the compiler. – Xeo Jan 3 '12 at 20:18

The compiler generates a default copy assignment operator (operator=) for all classes that do not define their own. That means that a global overload won't be selected under any circumstances.


Because assignment has a clear meaning for any type, the other operators do not.


Seems like it would be really hard to implement an operator=() from outside the class without reference to the specific implementation and the private members.

Operators like '+', however, sometimes have to be defined at the global level. Consider a complex number class. I can define complex::operator+(float) from inside my class, but I must define operator+(float, complex) from outside because the first operand doesn't have the type of my class.

Edit: I should have mentioned also that it's often easy to define global operators like operator+ without reference to specific implementation details by using other operators defined in the class. For example:

complex operator+(float lhs, complex rhs) {return complex(lhs, 0)+rhs;}
  • A common way to implement it is copy-and-swap idiom. No special access needed. – UncleBens Jan 3 '12 at 20:49
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    And global operator+ is commonly implemented in terms of member += :) complex operator+(complex a, const complex& b) { return a += b; } – UncleBens Jan 3 '12 at 20:52
  • The big difference here is that operator+ is producing a temporary of whatever type you like, independently of the type of lhs. = is assignment (or initialization), returning a reference to the written-to field, and the equivalent to lhs must be the same base type as the return value, or you'd be dereferencing the return incorrectly. At that point, what can you do with a global overload of = that can't be done with class-defined type conversion operators and operator=? – matthias Jan 3 '12 at 21:13

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.

The class-member 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.

  • Initialization and assignment are two completely different things. – fredoverflow Jan 3 '12 at 20:45
  • When will the global = operator be called with an existing object as an lvalue? I can't think of a case where assignment wouldn't happen through the member operator=, regardless of whether it's user-defined or compiler-synthesized? EDIT: Well, the built-in types call a built-in =, but again, your interface to that operation is the type conversion operators, like operator int(). You don't modify integer assignment, you just describe how to coalesce your new type to int. – matthias Jan 3 '12 at 20:48
  • And that interface holds for any assignment to a type you're not defining. If you have access to the type you want to assign your new type to, you can write an ExistingType::operator=(NewType&) method. If you don't, you can write an NewType::operator ExistingType() method. What would changing the global built-in = do that overloading one or both of these member methods couldn't? Either way, you're going to end up storing an ExistingType, and I can't see how changing that semantic would make sense. – matthias Jan 3 '12 at 20:57

The = operator (when used as initialization) is deeply tied to constructors; when you code SomeClass a = b; some constructor of SomeClass is called.

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    How? Initialization and assignment are two completely different things. – fredoverflow Jan 3 '12 at 20:13
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    I agree, but when you code SomeClass a = b; a constructor is involved (and the syntax don't show that). – Basile Starynkevitch Jan 3 '12 at 20:16
  • I think it would be better to say "a single equals sign" because SomeClass a = b; isn't using the assignment operator, though you do use the equals sign – Seth Carnegie Jan 3 '12 at 20:24
  • Agreed. Edited my answer accordingly. – Basile Starynkevitch Jan 3 '12 at 20:28
  • @Basile : Your edit is backwards -- = when used as initialization is deeply tied to constructors; when used as assignment it is not. – ildjarn Jan 4 '12 at 19:06

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