Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have come across a situation that conflicts with my current understanding of methods in C++.

I am working through Ivor Horton's "Beginning Visual C++ 2010" (Wrox Press). On page 449, Example 8_03, a method is defined as:

double Volume() const {
    return m_Length * m_Width * m_Height;

I had rearranged the modifiers as:

double **const** Volume() {
    return m_Length * m_Width * m_Height;

From my C# and Java background, I had expected the position of const to be irrelevant, but on compilation I received the error:

error C2662: 'CBox::Volume' : cannot convert 'this' pointer from 
             'const CBox' to 'CBox &'

The error disappears when I return the order to the way Ivor has it.

Does the order in fact make a difference and this not some exotic bug ? If order does matter, how does one remember the correct positions ?



share|improve this question
up vote 9 down vote accepted

When const is placed after the name of a member method, that is stating that the this pointer is what is constant. That is to say, the original declaration states that the method CBox::Volume() does not change the CBox object on which it is called.

The most likely source of error is that the CBox::Volume() function is being called on a const CBox, or inside another const method of that CBox.

share|improve this answer
Ah, yes! This was it exactly - the compiler was upset regarding this and const. So the fact that the const is appended to the end of the method is just a standard rule...const at end means this is const ? I guess the loosey-goosey world of Java/C# is too forgiving :) – Scott Davies Mar 10 '11 at 22:45
@Scott: Java isn't too forgiving, but it doesn't have type qualifiers. When using const it matters which part of a complex type it is that you're modifying int const * isn't the same as int * const, because the const-ness applies to different things. Similarly the position of the const in a member function declaration is meaningful. And note, "member function" - if you keep calling them methods, you'll keep unconsciously thinking of C++ as Java in a different hat, and it isn't :-) – Steve Jessop Mar 11 '11 at 0:04

In this case, a const after the member function name means the function itself is const--basically, it means you cannot modify the object within the member function. The const before the member function means the return type is const. (Though it can get complicated for return types, and I don't want to get into that here :) )

share|improve this answer

The const after the method name tells the compiler that the method will not modify any data members (mutable members are an exception).

The const before the method name applies to the return value. This tells the compiler that the method returns constant data. The const for the return type is primarily used with references and pointers.

share|improve this answer
Thanks Thomas! This helps. – Scott Davies Mar 10 '11 at 22:47

Edited To be more concise.

const in those two contexts is very different.

double Volume() const {
    return m_Length * m_Width * m_Height;

This is called when the instantiation of the object is const and returns a double. If you were to try and call that method with a non-const instance, it will not compile.

 const myClass obj;
 double d = obj.volume();
 myClass obj2;
 double d = obj2.volume(); // This Fails to compile

On the other hand ...

double const Volume() {
    return m_Length * m_Width * m_Height;

is called when the object isn't a const or if the previous definition doesn't exist.

myClass obj;
const double d = obj.volume();
const myClass obj2;
const double d = obj2.volume();

(I should mention as I was reminded below, returning a const built-in type such as double it doesn't really mean anything.)

When you have both of these declared the appropriate one will be called depending if the instance is const or not.

myClass obj;
const double d = obj.volume(); // This calls `const double volume()`
const myClass obj2;
double d = obj2.volume(); // This calls 'double volume() const`
share|improve this answer
Your last snippet is perhaps a bit misleading. The return value can be stored in a non-const double and subsequently changed. Returning a built-in type as const has no effect. – Troubadour Mar 10 '11 at 22:04
Yeah ... you know, I thought about that after the fact. With the built in type it's not so cut and dry. I'll edit to reflect that. – Brian Roach Mar 10 '11 at 22:09
This gives a somewhat false impression that obj has to be const to call the first, and that the result has to be assigned to a const double in the second case. (The second case should actually be rather pointless - G++ even warns that top level const qualifier is ignored on return type.) – UncleBens Mar 10 '11 at 22:10
I should have been far more concise, that should be better. – Brian Roach Mar 10 '11 at 22:27

Yes the order is important.

In C++ the position of the const keyword will have an impact on what item is "const". The same goes for the scope the const keyword is used in.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.