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This question already has an answer here:

In C++ sometimes I see declarations like below:

return_type function_name(  datatype parameter1, datatype parameter2  ) const
{ /*................*/}

What does this const type qualifier exact do in this case?

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marked as duplicate by Ciro Santilli 巴拿馬文件 六四事件 法轮功, soon, Juan Lopes, Raphael Miedl, ydaetskcoR Apr 26 '15 at 21:24

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

up vote 8 down vote accepted

$9.3.1/3 states-

"A nonstatic member function may be declared const, volatile, or const volatile. These cvqualifiers affect the type of the this pointer (9.3.2). They also affect the function type (8.3.5) of the member function; a member function declared const is a const member function, a member function declared volatile is a volatile member function and a member function declared const volatile is a const volatile member function."

So here is the summary:

a) A const qualifier can be used only for class non static member functions

b) cv qualification for function participate in overloading

struct X{
   int x;
   void f() const{
      cout << typeid(this).name();
      // this->x = 2;  // error
   void f(){
      cout << typeid(this).name();
      this->x = 2;    // ok

int main(){
   X x;
   x.f();         // Calls non const version as const qualification is required
                  // to match parameter to argument for the const version

   X const xc;
   xc.f();        // Calls const version as this is an exact match (identity 
                  // conversion)
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+ 1 for the normative reference! – Dmitrii Bundin Dec 20 '14 at 5:50

The const qualifier at the end of a member function declaration indicates that the function can be called on objects which are themselves const. const member functions promise not to change the state of any non-mutable data members.

const member functions can also, of course, be called on non-const objects (and still make the same promise).

Member functions can be overloaded on const-ness as well. For example:

class A {
    A(int val) : mValue(val) {}

    int value() const { return mValue; }
    void value(int newVal) { mValue = newVal; }

    int mValue;

A obj1(1);
const A obj2(2);

obj1.value(3);  // okay
obj2.value(3);  // Forbidden--can't call non-const function on const object
obj1.value(obj2.value());  // Calls non-const on obj1 after calling const on obj2
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It means that it doesn't modify the object, so you can call that method with a const object.


class MyClass {
   int ConvertToInteger() const;


Means that if you have

const MyClass myClass;

you can call

int cValue = myClass.ConvertToInteger();

without a compile error, because the method declaration indicates it doesn't change the object's data.

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