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According to ISO C++ 2003 standard section 8.3.2

"references to references are not allowed"

But I have tried following code in Visual C++ and Ideone, and both compilers are running this code successfully.

Ideone GCC C++4.3.2

int main() 
    int i=2;
    int &ref_i=i;
    int &ref_ref_i=ref_i; // should be an error according to c++ 2003 standard

    return 0;

I am really confused after looking at this behavior of compilers; can someone explain this?

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up vote 14 down vote accepted

You do not create a reference-to-reference in your code.

It is just another int&, i.e. both are references to an int

(T.C. shows an example of an illegal C++03 reference to reference)

The C++11 Standard section § 8.3.2 explicitly shows this by an example (disallowing references of references, of course, did not change between C++03 and C++11, but reference collapsing is new in C++11) :

If a typedef-name (7.1.3 , 14.1) or a decltype-specifier ( denotes a type TR that is a reference to a type T, an attempt to create the type “lvalue reference to cv TR” creates the type “lvalue reference to T”, while an attempt to create the type “rvalue reference to cv TR” creates the type TR.

int i;
typedef int& LRI;
typedef int&& RRI; 

LRI& r1 = i; // r1 has the type int&
const LRI& r2 = i; // r2 has the type int& 
const LRI&& r3 = i; // r3 has the type int&
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You are quoting the C++11 standard. The question is about C++03. – T.C. Jul 27 '14 at 8:12
True, edited to make it clear (ie same apply) – quantdev Jul 27 '14 at 8:25
Um, reference collapsing is definitely a C++11 addition. – T.C. Jul 27 '14 at 8:30

References to references are illegal in C++03, but you are not creating one.

The following code attempts to create a reference to reference:

int main(){
    int c = 0;
    typedef int & IREF;
    int & c1 = c;
    IREF & c2 = c1;
    int & & c3 = c1;

...and fails miserably when g++ is put in C++03 mode:

> g++-4.9 -std=c++03 -O2 -Wall -pedantic -pthread main.cpp
main.cpp: In function 'int main()':
main.cpp:5:12: error: cannot declare reference to 'IREF {aka int&}'
     IREF & c2 = c1;
main.cpp:6:13: error: cannot declare reference to 'int&', which is not a typedef or a template type argument
     int & & c3 = c1;

As noted in another answer, C++11 added new reference collapsing rules to make IREF & c2 = c1; well-formed but not int & & c3 = c1;, int & being neither a typedef-name nor a decltype-specifier.

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int & & c3 is not well-formed in C++11. Reference collapsing occurs when you declare a reference to a typedef or a template parameter, but not when you attempt to create the reference "directly". – Brian Jul 27 '14 at 14:38

It is not a reference to a reference, after the reference declaration, using the name in an expression behaves as using the name of the object itself.

5 Expressions 6. If an expression initially has the type “reference to T” (8.3.2, 8.5.3), the type is adjusted to “T” prior to any further analysis, the expression designates the object or function denoted by the reference, and the expression is an lvalue.

So when you do this:

int &ref_ref_i=ref_i;

ref_ref is actually a reference to the original variable i.

If you tried to do something like this instead:

int i = 6;
int &ri = i;
int &&ri = ri;

You would get a compiler error, like the the quote you wrote suggests.

Note: This answer applies to C++ 2003 and prior standards only and does not take into account rvalue references.

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xvalue is another C++11 addition... – T.C. Jul 27 '14 at 8:14
@T.C., the quote is from C++11 standard, I couldn't find any older ones. But it shows the way references behave after declaration. – imreal Jul 27 '14 at 8:15
@T.C. Edited the answer to quote C++03 – imreal Jul 27 '14 at 8:36

After you have done:

int i=2;
int &ref_i=i;

then i and ref_i are alternative names for the same variable. It's not useful to say that one of them is a reference and one of them isn't, as there is no possible program that can distinguish "which is which".

That code is identical in effect to:

int ref_i = 2;
int &i = ref_i;
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