I have always been a good boy when writing my classes, prefixing all member variables with m_:

class Test {
    int m_int1;
    int m_int2;
    Test(int int1, int int2) : m_int1(int1), m_int2(int2) {}

int main() {
    Test t(10, 20); // Just an example

However, recently I forgot to do that and ended up writing:

class Test {
    int int1;
    int int2;
    // Very questionable, but of course I meant to assign ::int1 to this->int1!
    Test(int int1, int int2) : int1(int1), int2(int2) {}

Believe it or not, the code compiled with no errors/warnings and the assignments took place correctly! It was only when doing the final check before checking in my code when I realised what I had done.

My question is: why did my code compile? Is something like that allowed in the C++ standard, or is it simply a case of the compiler being clever? In case you were wondering, I was using Visual Studio 2008

  • 4
    Mangling your names is hardly what I'd consider being a "good boy". As you've found out, it's usually not necessary, and on the rare occasions where it is, we've got the this-> prefix. – jalf Mar 19 '10 at 11:05
  • Perhaps a dupe, see stackoverflow.com/questions/2227244/… – Abhay Mar 19 '10 at 11:05
  • 2
    @jalf: On the other hand some sort of member-var indicator can sometimes make reading code easier (I use trailing _ when it doesn't break existing convention). – Mark B Mar 19 '10 at 15:01
  • @Mark B: if your code's readability depends on knowing from its name alone whether a variable is a member or not, I'd say it's time to clean up and refactor. – jalf Mar 19 '10 at 17:18

Yes, it's valid. The names in the member initializer list are looked up in the context of the constructor's class so int1 finds the name of member variable.

The initializer expression is looked up in the context of the constructor itself so int1 finds the parameter which masks the member variables.


What you have done is standard C++. Only member variables or base classes may be initliazed in the initialization list, so the variable outside the paranthesis is unambiguous. Within the parenthesis, the typical scoping rules apply, and the members are overshadowed by the parameter names.

  • 1
    +1 This is the only answer that catagorically states this is standard C++ as well as giving an explanation. – Christopher Howlin Mar 19 '10 at 10:57

This is perfectly normal behavior. As AAT rightly pointed out, there is no ambiguity. The variables initialised by the list have to be class members. This is standard and works across all compliant compilers.

The only thing to remember while using a list like this is that a person who doesn't understand this kind of code may have to maintain it. There is nothing wrong with writing initialisation code like this as long as you know what you are doing.


I imagine this works because you were using int1 in the initialiser list, and the only things you can initialise are member variables => it was in fact unambiguous which variable was being initialised.

Whether all C++ compilers would be this forgiving is another matter!

  • IIRC g++ also authorise that :-). – p4bl0 Mar 19 '10 at 10:19
  • 11
    It is standard C++. – Michael Aaron Safyan Mar 19 '10 at 10:21
  • 1
    Thank you for the explanation. Of course only member variables can appear outside the parentheses in the initialisation list. But what is inside the parentheses is not perfectly clear. For example, if we have: Test(int int1) : int1(int1+1), int2(int1) {} now what does int1 on the second parentheses mean? Does it mean ::int1 or does it mean this->int1? – Andy Mar 19 '10 at 11:54
  • 1
    It's just the same as normal function call scoping: Parameters and local variables shadow the class members. – Mark B Mar 19 '10 at 14:59

What you have done is normal. This kind of implementation avoids you from even using the 'this' pointer (in this case).

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