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I'm doing some revision of my C++, and I'm dealing with operator overloading at the minute, specifically the "="(assignment) operator. I was looking online and came across multiple topics discussing it. In my own notes, I have all my examples taken down as something like

class Foo
        int x;  
        int y;  
        void operator=(const Foo&);  
void Foo::operator=(const Foo &rhs)
    x = rhs.x;  
    y = rhs.y;  

In all the references I found online, I noticed that the operator returns a reference to the source object. Why is the correct way to return a reference to the object as opposed to the nothing at all?

share|improve this question
The correct way is whatever way implements the semantics you want; the idiomatic way is certainly to return T& (Foo& in your example). – ildjarn Jan 30 '12 at 23:08
@MooingDuck, I guess I phrased the question wrong. I was going on the assumption that my notes were wrong, but wanted to know why more than which was correct. – maccard Jan 30 '12 at 23:12
up vote 16 down vote accepted

The usual form returns a reference to the target object to allow assignment chaining. Otherwise, it wouldn't be possible to do:

Foo a, b, c;
// ...
a = b = c;

Still, keep in mind that getting right the assigment operator is tougher than it might seem.

share|improve this answer
Never knew about the Copy and Swap part. I've always just checked for self assignment, assigned values, and returned void, I guess there's more to this than I was expecting. Accepting your answer for pointing out the Copy&Swap Thanks for the response. – maccard Jan 30 '12 at 23:20

The return type doesn't matter when you're just performing a single assignment in a statement like this:

x = y;

It starts to matter when you do this:

if ((x = y)) {

... and really matters when you do this:

x = y = z;

That's why you return the current object: to allow chaining assignments with the correct associativity. It's a good general practice.

share|improve this answer
I don't understand why you say "it starts to matter". Either it matters or it doesn't. Can you please elaborate? – balajeerc Jun 20 '15 at 6:15
@balajeerc: "It starts to matter" in English is read to mean "it matters in the latter situation but not the former". In other words, "when changing from situation A to B, importance ('mattering') goes from zero to nonzero". In straight assignment the return does not matter. Inside a conditional it matters if the thing you return is true or false, but not exactly which object it is. In the chained assignments case, you really want the return to be the current object because the results would be counterintuitive otherwise. – Borealid Jun 23 '15 at 19:42

Your assignment operator should always do these three things:

  1. Take a const-reference input (const MyClass &rhs) as the right hand side of the assignment. The reason for this should be obvious, since we don't want to accidentally change that value; we only want to change what's on the left hand side.

  2. Always return a reference to the newly altered left hand side, return *this. This is to allow operator chaining, e.g. a = b = c;.

  3. Always check for self assignment (this == &rhs). This is especially important when your class does its own memory allocation.

    MyClass& MyClass::operator=(const MyClass &rhs) {
        // Check for self-assignment!
        if (this == &rhs) // Same object?
            return *this; // Yes, so skip assignment, and just return *this.
        ... // Deallocate, allocate new space, copy values, etc...
        return *this; //Return self
share|improve this answer
Checking for self-assignment is a naive solution, the correct one is copy-and-swap. – Matteo Italia Jan 30 '12 at 23:18
Thanks for the response, but I was only trying to make a simple example by leaving out the self assignment check. I understood everything bar the returning a reference. – maccard Jan 30 '12 at 23:23
@MatteoItalia Copy-and-swap can be expensive. For example, assignment of one large vector to another cannot reuse the target's memory if copy-and-swap is used. – Sebastian Redl Apr 1 at 10:04

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