foo is returning some reference to an object of type "int". We won't care about where that "int" came from and we'll just assume it exists.
The first line,
int& intRef = foo(), creates
intRef which also refers to exactly the same object of type "int" as is referenced by the return value of
The second line, the value of
intVal is replaced by the value of the object referred to by the returned reference.
In response to your comments:
You seem to be getting very confused between pointers and references. References are just like aliases for an object. Doing anything to a reference will actually affect the object it refers to.
There is no such thing as dereferencing a reference. You can only dereference pointers. Dereferencing is the act of using the unary
* operator to get the object pointed at by a point. For example, if you have a
int* p, you can do
*p to get the object that it points at. This is dereferencing
The only time you can do
* on a reference is if the object it refers to is a pointer (or if it overloads
operator*). In your case, since
foo returns an
int&, we can't dereference it. The expression
*foo() just won't compile. That's because the return value of
foo has type "int" which is not a pointer and doesn't overload
For all intents and purposes, you can treat the reference returned from
foo as simply being the object it refers to. Assigning this value to
intVal is really no different to assigning
intVal in the following code:
int x = 5;
intVal = x;
As I'm sure you understand,
intVal is given the value of
x. This is defined simply by the standard:
In simple assignment (
=), the value of the expression replaces that of the object referred to by the left operand.
No conversion needs to occur at all because both sides of the operator are the same type.
This is really no different to your situation. You just have:
intVal = some_ref_to_int;
some_ref_to_int is the expression
foo(). The fact that it's a reference doesn't matter.
intVal receives the value of the object that the reference denotes.