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I am reading about references in C++. It says that int& a = 5 gives compile time error.

In Thinking in C++ - Bruce Eckel, author says that compiler must first allocate the storage for an int and produce the address to bind to the reference. The storage must be const because changing it would make no sense.

I am confused at this point. I am not able to understand the logic behind it. Why can't be change the content in the storage? I understand that it's invalid as per C++ rules, but why?

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possible duplicate of How come a non-const reference cannot bind to a temporary object? –  legends2k Oct 15 '13 at 7:55

3 Answers 3

int& a = 5;

In order for the above code to work, int& needs to bind to a temporary object of type int created out of the expression 5. But binding int& to a temporay didn't appeal to Bjarne Stroustrup — and he gave an example, similar to the following, to illustrate his point:

void f(int &i) { ++i; }

float x = 10.0;
f(x); 
std::cout << x <<< std::endl;

What will the std::cout print1? Looks like it will print 11.

It feels, ++i is changing the argument x, but it doesn't. This is one reason why the creator of C++ didn't permit temporaries to bind to non-const reference.

However, you can do this:

int const & i = 10;
int const & j = x; //x is float

And since C++11, you can do this:

int && i = 10;
int && i = x; //x is float

Hope that helps.


1. assuming int& can bind to the temporary created out of x.

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+1 for the f() example: THIS. I've occasionally wondered about why l-refs can't bind to temporaries myself, but never thought of that one. Thanks for broadening my horizons :-) –  Angew Oct 15 '13 at 8:04
    
Thanks for replying. So what I conclude from your answer is that Bjarne Stroustrup just made it like that. I just want to make sure I am not missing some logic that is there behind this whole concept! –  Neeraj Gangwar Oct 16 '13 at 18:08

"The storage must be const because changing it would make no sense."

If you want a be a reference to a const value, you must declare it as const, because a is referencing to a temporary constant value, and changing it is not possible.

const int &a = 123;
a = 1000; // `a` is referencing to temporary 123, it is not possible to change it
          // We can not change 123 to 1000
          // Infact, we can change a variable which its value is 123 to 1000
          // Here `a` is not a normal variable, it's a reference to a const
          // Generally, `int &a` can not bind to a temporary object

For non-const bindings:

int x = 1;
int &a = x;

a is a reference to a lvalue. Simple speaking, it's an alias name for another variable, so on the right hand you should give a variable. The reference a can not change and bind to another variable after it's first binding;

In C++11, you can reference to temporary objects/values by rvalue references:

int &&a = 123;
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What you can do is

int b=5;
int &a=b;

or

const int& a = 5;
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