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#include <iostream>

class Y

class X
             void foo() {}
             friend Y::Y();

                    Y::Y();  //Statement 1

   std::cout << "Hello";

int main()
    X a;
    Y::Y();      //Statenent 2

The above program produces the output HelloHello on Dev c++ and codepad. But when i run on Code::Blocks it gives error remove the reduntant Y::

If i replace statement 1 and 2 withh Y(); , the program produces the output in all 3. Why so?

share|improve this question
Are you sure you are using the same warning flags on every compiler? – trojanfoe Aug 30 '13 at 12:30
@trojanfoe I am using all the IDE's default. I dont know anything about warning flags. – Shreyas Aug 30 '13 at 12:32
That's where you should start looking. – trojanfoe Aug 30 '13 at 12:33
Dev C++, codepad and Code::Blocks are not compilers, they are IDE's. What compiler(s) are you using? – OllieB Aug 30 '13 at 12:40
Is Y::Y(); undefined in C++ standard? Why the hell would it work on 1 compiler and produce error on others?(irrespective of the warning flags) – HAL Aug 30 '13 at 12:48
up vote 4 down vote accepted

Inside every class X, X can be used to refer to that class. This allows, for example,

struct X {
  struct Y {
    static int f();
int X::Y::f() {
  Y y;
  return 0;
int main() {
  return X::Y::f();

to work, even though Y appears to not be in scope inside the definition of X::Y::f.

The way the standard specifies this has changed. In the original C++ standard, Y was simply treated as a member of ::X::Y, and meant ::X::Y. This interpretation made it impossible to refer to a constructor, since X::X was always a type. As a result, in the first TC, the standard was changed to make X::X refer to a type's constructor (in most cases).

One of your compilers implements the original C++ rules, the other the newer rules.

By the original rules, Y::Y(); is just peachy. You're constructing a type. That type has an accessible constructor, so there is no issue.

By the newer rules, Y::Y(); is an error. You're calling a constructor, and you're not allowed to explicitly call a constructor.

For those interested, this is core language issue 147.

share|improve this answer
I am not sure that the current rules state what you way. In particular starts with In a lookup in which the constructor is an acceptable lookup result and goes on saying under which circumstances the constructor will be found. But the premise does not hold here, so in Y::Y(), Y::Y does not name the constructor. It specifically names that case: For example, the constructor is not an acceptable lookup result in an elaborated-type-specifier so the constructor would not be used in place of the injected-class-name. By the current standard, Y::Y is equivalent to Y or Y::Y::Y – David Rodríguez - dribeas Aug 30 '13 at 13:56
@DavidRodríguez-dribeas The text after the resolution of issue 147 did not include that. The text has been changed again later, and off hand, I am not sure in exactly which circumstances a constructor is now an acceptable lookup result, but that isn't the cause of the difference in compiler behaviour. – hvd Aug 30 '13 at 14:07
@DavidRodríguez-dribeas Core language issue 1310, if the proposed resolution is accepted, would make it unambiguous that Y::Y(); is an error, and the suggested new wording is supposed to match the intent of the current wording. – hvd Aug 30 '13 at 14:17
A constructor is a valid result of lookup, for example, when declaring a friend or forwarding constructors, or more commonly in an out of class definition of the constructor itself. I imagine there are other cases, but those are the ones that pop to mind. At any rate with the current standard (and the CD for 2014) the code is valid and should be accepted. From the 2003 standard up to the 2011 standard Y::Y() would name the constructor and your answer would apply – David Rodríguez - dribeas Aug 30 '13 at 14:51
@DavidRodríguez-dribeas As issue 1310 states, the standard does not actually define when a constructor is an acceptable lookup result. You suggest that in a context in which a constructor would always be an error, a constructor is not an acceptable lookup result, but the intent (according to that issue) is that a constructor is found whenever a function would be, even if that then results in an error. In other words, for purposes of lookup, a constructor is acceptable. – hvd Aug 30 '13 at 16:04

Y::Y(); is wrong in C++. It shouldn't be allowed even by Dev C++.

If you mean to call the constructor for class Y you just have to create an object of type Y, e.g.

Y my; //creates an object named my of type Y
Y my = Y(); //same as above
Y(); // creates a temporary object which is destroyed in the following line
share|improve this answer
Y my() is a function declaration. – jrok Aug 30 '13 at 13:07
What do you mean by wrong? I worked for me on GCC 4.4.5 – HAL Aug 30 '13 at 13:12
@HAL Compilers have bugs, too. – jrok Aug 30 '13 at 13:16
@jrok Sure, can you point us to something for more information or a bug report etc. – HAL Aug 30 '13 at 13:20
Y::Y(); is not wrong in C++98, where it means exactly the same thing as Y(); Older versions of compilers faithfully implement the C++98 rules where Y::Y is a valid way to refer to the type Y. – hvd Aug 30 '13 at 13:21
If i replace statement 1 and 2 withh Y(); , the program produces the output in all 3. Why so?

The output is produced by calling the function Y::Y(). You do this either in the constructor of an instance of the class X or by calling the function directly.

But let's look at the variant "Statement 1". The code

int main ()
    X a;

creates an unused variable. The compiler might optimize it away. In that case the constructor is not called. That's dependend on the compiler and the actual options used. When you call the function Y::Y() directly it can't be optimized away and you get always the output.

share|improve this answer
Did you read the question...? – crashmstr Aug 30 '13 at 13:38
@crashmstr What point did I miss? I described the Why? didn't I? – harper Aug 30 '13 at 13:58
I think the compiler won't optimize a away because of the sides effects (prints). (And IMHO your answer is perfectly relevant to the question) – johan d. Aug 30 '13 at 14:09
@harper He gets two "Hello"s, so it is not optimized, so your original version of your answer had nothing to do with the problem as asked. Also, the question really concerns why there is a difference between the three compilers tested (i.e. an error with one, or all work when code changed). – crashmstr Aug 30 '13 at 15:16

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