What is the real const meaning for the 2nd declaration foo:B() ?

int foo::A() const {
    return m_var; 

int const foo::B() {
    return m_var; 

For the 1st declaration I know for sure that it "protects" the member variable ie m_var.

But what the whole meaning of the 2nd declaration, which it just returns a constant int to the caller probably non-constant variable ? I mean does this make sense for any reason ?

  • 4
    Returning a const value makes no sense at all. – Some programmer dude Nov 18 '18 at 9:19
  • 1
    Not only that, the type of the expression f.B() for a made up foo f; is int. So I would say it makes negative sense for fundamentals value types. Pre C++11 there was marginal sense to do it for some user defined types. Now there is none. – StoryTeller - Unslander Monica Nov 18 '18 at 9:22
  • with or without the const, f.B() = 5; is an error, so its meaningless – largest_prime_is_463035818 Nov 18 '18 at 9:33
  • that is the wrong dupe. OP has two examples. First is a const method, the question is about the second. Voting to reopen – largest_prime_is_463035818 Nov 18 '18 at 9:44
  • @user463035818 I seriously disagree. The two dupes perfectly explained what the const keyword does for both of the code examples. – πάντα ῥεῖ Nov 18 '18 at 9:48

Case 1: The const after the function signature says that the function will not change the object. So you can use it on const objects (or with pointer to const or a const reference).

Case 2: The const before the function name is indeed about the return type. You are completely right: in practice it doesn't change anything for the object, since the return is in this snippet done by value, and this value in a temp that cannot be changed (e.g. a ++ or a -- would not be valid anyway because there's no lvalue).

Case 3: The const in the return type would make more sense with the return of a pointer to const or a const reference. In this case it would prevent the object state to be changed from outside.

Here a summary:

class foo {
    int A() const {   // const function
        return m_var; 
    int const B() {   // non const function, but const return type
        return m_var; 
    int const& C() const {   // non const function, but const reference return type
        return m_var; 
    int m_var; 

int main() {
    const foo x{}; 
    x.A();                // ok 
    //x.B();              // not ok -> function B() doesn't guarantee to leave x unchanged. 
    x.C();                // ok 
    const int& y = x.C(); // ok  (y will not alter m_var. 
    //int& z = x.C();       // not ok since z is not const 
    return 0;

online demo

Case 4: (thanks to HolyBlackCat for pointing it out). What make no difference for scalars in case 2 could perfectly make sense for classes. Suppose m_var would be of class bar :

class bar {
    void change_it() {}  
    void read_it() const {} 

Then the const return value would make a difference:

foo u{}; 
u.B();                // ok 
u.B().read_it();      // ok
u.B().change_it();    // not ok because of constness of B().  

online demo

  • If I remember correctly, const indeed has no effect when returning arithmetic types. But that's different for classes (e.g. const class instances can't be meaningfully moved from). Though I don't remember the details. – HolyBlackCat Nov 18 '18 at 10:45
  • @HolyBlackCat Thanks for pointing it out ! Indeed, it would make sense for a class. I've edited my answer and gave you credit for this additional case :-) – Christophe Nov 18 '18 at 11:08
  • Maybe it's worth mentioning that const class return values prevents moveing from them, so their usage is discouraged. – geza Nov 18 '18 at 11:17

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