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I came across a code snippet

const int& reference_to_const_int = 20;
cout<<"\n  reference_to_const_int = "<<reference_to_const_int<<endl;     

This code compiles & executes with output :-

reference_to_const_int = 20

This is something strange in for me. As I know reference do not occupy memory & they are aliases to other variables. hence we cannot say

int& reference_to_int = 30;

The above statement shall not compile giving error :-

 error: invalid initialization of non-const reference of type ‘int&’ from an rvalue of type ‘int’

What exactly is happening in the "const int&" case? A full explanation is desired.

Kindly help.


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Read this: herbsutter.com/2008/01/01/… –  Ferdinand Beyer May 29 '12 at 15:16
Giving it a bit more thought, it seems like it would have to be legal. If it wasn't, you'd never really be able to set it without making more variables. –  Mr. Llama May 29 '12 at 15:17
@GigaWatt: What is the "it" you are talking about? Believe me, if "it" should be legal, it would be. :) –  Ferdinand Beyer May 29 '12 at 15:24
References do occupy memory. References are similar to pointers, except you don't need to explicitly dereference them and can't change what they point to. References take up memory just like pointers do. If you have a reference as a member of a class it has to take up memory to record which object it refers to (e.g. by storing its address, as a pointer would.) –  Jonathan Wakely May 29 '12 at 15:35
@GigaWatt: C++ differs between initialization and assignment. const int &x = 50; is not "setting" (assigning), but rather initialization. –  phresnel May 29 '12 at 15:55

2 Answers 2

up vote 9 down vote accepted

A temporary is created, and it's legal to bind a const reference to it, but illegal to bind it to a non-const one.

It's just like:

const int& reference_to_const_int = int(20);  //LEGAL
      int& reference_to_const_int = int(20);  //ILLEGAL

A const reference extends the life of a temporary, that's why this works. It's just a rule of the language.

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doesn't the temporary go out of scope after the assignment statement so the print statement references an int which has gone out of scope? –  Florian Sowade May 29 '12 at 15:14
@FlorianSowade no, const references extend the life of a temporary. –  Luchian Grigore May 29 '12 at 15:14
But beware, const references do not extend lifetime in ALL cases. And also note that Microsoft C++ compilers break the rules and do allow binding non-const references to temporaries. –  Ben Voigt May 29 '12 at 15:19
@BenVoigt ah I only learned the VC++ part recently, and turned off all language extensions in MSVS. Best decision I took recently. –  Luchian Grigore May 29 '12 at 15:20
Specifically, automatic const references extend the life of the temporary (and I think namespace scope const references do too, I just can't be bothered to check). Data members of const reference type don't extend temporaries bound to them, so don't try this trick in an initializer list. –  Steve Jessop May 29 '12 at 15:20

This behavior is easier to understand when we look at what happens when we bind a reference to a temporary object. If we write

const int& reference_to_const_int = 20; //A temporay object int(20) is created.

the compiler transforms above code into something like this:

int temp = 20;
const int& reference_to_const_int = temp;

If reference_to_const_int were not const, then we could assign a new value to reference_to_const_int. Doing so would not change literal 20 but would instead change temp, which is a temporary object and hence inaccessible. Allowing only const references to be bound to values requiring temporaries avoids the problem entirely because a const reference is read-only.

Why do C++ allows const references to accept temporary objects or RVALUES (like literals)?

The most common places we see references are as function arguments or return values. When a reference is used as a function argument, any modification to the reference inside the function will cause changes to the argument outside the function.

If function can expect/accept temporary objects or literals as inputs and if the function respects const-ness of the object, making the argument a const reference will allow the function to be used in all situations.

Temporary objects are always const, so if you don’t use a const reference, that argument won’t be accepted by the compiler.

void f(int&) {}
void g(const int&) {}
int main() 
    //f(1); //Error
    g(1); //OK 
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