A pretty theoretical question...Why constant references do not behave the same way as constant pointers and I can actually change the object they are pointing to? They really seem like another plain variable declaration. Why would I ever use them? This is a short example that I run which compiles and runs with no errors:

int main (){
    int i=0;
    int y=1;    
    int&const icr=i;
    icr=y;          // Can change the object it is pointing to so it's not like a const pointer...
    icr=99;         // Can assign another value but the value is not assigned to y...
    int x=9;
    cout<<"icr: "<<icr<<", y:"<<y<<endl; 

The clearest answer. Does “X& const x” make any sense?

No, it is nonsense

To find out what the above declaration means, read it right-to-left: “x is a const reference to a X”. But that is redundant — references are always const, in the sense that you can never reseat a reference to make it refer to a different object. Never. With or without the const.

In other words, “X& const x” is functionally equivalent to “X& x”. Since you’re gaining nothing by adding the const after the &, you shouldn’t add it: it will confuse people — the const will make some people think that the X is const, as if you had said “const X& x”.

  • 3
    X& const x is ill-formed, this is a mistake in the FAQ – M.M Sep 3 '18 at 7:03

The statement icr=y; does not make the reference refer to y; it assigns the value of y to the variable that icr refers to, i.

References are inherently const, that is you can't change what they refer to. There are 'const references' which are really 'references to const', that is you can't change the value of the object they refer to. They are declared const int& or int const& rather than int& const though.

  • So a reference to a const can also be seen as a constant reference to a const? That makes a lot of sense now. – Dasaru Sep 27 '12 at 23:07
  • 2
    @Dasaru: Yes, it can, but a reference to non-const can also be seen as a constant reference to non-const, as the reference itself is always const, independently from if it references a const or not. – Kaiserludi Jan 12 '15 at 13:04

What is a constant reference (not a reference to a constant)
A Constant Reference is actually a Reference to a Constant.

A constant reference/ Reference to a constant is denoted by:

int const &i = j; //or Alternatively
const int &i = j;
i = 1;            //Compilation Error

It basically means, you cannot modify the value of type object to which the Reference Refers.
For Example:
Trying to modify value(assign 1) of variable j through const reference, i will results in error:

assignment of read-only reference ‘i’

icr=y;          // Can change the object it is pointing to so it's not like a const pointer...

Doesn't change the reference, it assigns the value of the type to which the reference refers. References cannot be made to refer any other variable than the one they are bound to at Initialization.

First statement assigns the value y to i
Second statement assigns the value 99 to i

  • How & why statement like const int& a=3; valid? – Destructor Jul 17 '15 at 17:40
  • 5
    Wait, const Type& is equivalent to Type const&? – Tyler Sep 20 '15 at 1:42

By "constant reference" I am guessing you really mean "reference to constant data". Pointers on the other hand, can be a constant pointer (the pointer itself is constant, not the data it points to), a pointer to constant data, or both.

  • 1
    The sample code actually refers to a constant reference (int & const icr = i;) not a reference to a constant. – Void Sep 14 '11 at 18:07
  • I assumed the poster wasn't clear because of where the const was placed in the code. – Poodlehat Sep 14 '11 at 19:22

This code is ill-formed:

int&const icr=i;

Reference: C++17 [dcl.ref]/1:

Cv-qualified references are ill-formed except when the cv-qualifiers are introduced through the use of a typedef-name or decltype-specifier, in which case the cv-qualifiers are ignored.

This rule has been present in all standardized versions of C++. Because the code is ill-formed:

  • you should not use it, and
  • there is no associated behaviour.

The compiler should reject the program; and if it doesn't, the executable's behaviour is completely undefined.

NB: Not sure how none of the other answers mentioned this yet... nobody's got access to a compiler?


As it mentioned in another answers, a reference is inherently const.

int &ref = obj;

Once you initialized a reference with an object, you can't unbound this reference with its object it refers to. A reference works just like an alias.

When you declare a const reference, it is nothing but a reference which refers to a const object.

const int &ref = obj;

The declarative sentences above like const and int is determining the available features of the object which will be referenced by the reference. To be more clear, I want to show you the pointer equivalent of a const reference;

const int *const ptr = &obj;

So the above line of code is equivalent to a const reference in its working way. Additionally, there is a one last point which I want to mention;

A reference must be initialized only with an object

So when you do this, you are going to get an error;

int  &r = 0; // Error: a nonconst reference cannot be initialized to a literal

This rule has one exception. If the reference is declared as const, then you can initialize it with literals as well;

const int  &r = 0; // a valid approach

First I think int&const icr=i; is just int& icr = i, Modifier 'const' makes no sense(It just means you cannot make the reference refer to other variable).

const int x = 10;
// int& const y = x; // Compiler error here

Second, constant reference just means you cannot change the value of variable through reference.

const int x = 10;
const int& y = x;
//y = 20; // Compiler error here

Third, Constant references can bind right-value. Compiler will create a temp variable to bind the reference.

float x = 10;
const int& y = x;
const int& z = y + 10;
cout << (long long)&x << endl; //print 348791766212
cout << (long long)&y << endl; //print 348791766276
cout << (long long)&z << endl; //print 348791766340

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