In my C++ class they were discussing how to create an assignment operator. At the end of the assignment was the line "return *this," which they said returned a reference to the object that "this" points to. Why does it return a reference? If "this" is being dereferenced, shouldn't it just return the object?
A function returns a reference if its declaration (i.e. its signature) tells so.
So (assuming a
then it returns a value (with copying, etc..)
But if it is declared as
a reference is returned.
It returns the current instance of the type MyClass you are in. It's returned as reference because the assignment operator was explicitly told to return a reference.
In C++ the * always means a value, in fact you can look to en English interpretation for these operators as follows:
So when you say
Just be sure that the function itself that the hosts the returning is not a reference function. Please remember that in C++ you can create functions with the & or the * operators as well.
Every dereferenced pointer is a reference to its pointee, else you'd 'loose' the pointee you're pointing to.
Invoke method twice on the same object, using a pointer and a reference:
Invoke method on distinct objects; original and copy:
That means, if you return a reference from an operator method which has MyClass (rvalue) instead of MyClass& (lvalue) as return type, a copy of *this (MyClass&) is created by reference (leaving aside return value optimizations and rvalue references). This is useful for non modifying const methods such as + and - which have a new value as result while leaving the object on which this method was invoked unmodified.
Operators like += and your assignment operator modify the object inplace by convention and should therefore return a reference to allow expressions like primitive types support it, since a temporary copy may vanish and cause unexpected results:
Consider this expression:
The result r is 28 (added and shifted inplace). What is the value of i? 28 too, what else.
But what if hypothetically int::operator+= would return a copy of itself instead of a reference to itself?
The result r would be 28 too.
But the value of i? It would be 7, since the inplace left shift was applied to a temporary int returned from the addition which gets assigned to r after that.
Continuing the assumption, the error may have the same effect (except for the value in i) as this expression:
But luckily, the compiler will complain, that he doesn't have an lvalue reference from (i + 3) to do the shift/assignment operation.
But play with this: