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The following program, compiled with g++ 4.6, yields the error

request for member ‘y’ in ‘a2’, which is of non-class type ‘A<B>(B)’

at its last line:

#include <iostream>

template <class T> class A
  T y;
  A(T x):y(x){}

class B
  int u;
  B(int v):u(v){}

int main()
  int v = 10;
  B b1(v);

  A<B> a1(b1);

  //does not work (the error is when a2 is used)
  A<B> a2(B(v));

  //A<B> a2((B(v)));

  std::cout << a1.y.u << " " << a2.y.u << std::endl;    

As can be seen from the working variant included in the code, adding parentheses around the arguments of the constructor of A solves the problem.

I have seen some related errors caused by a the interpretation of a constructor invocation as a function declaration, like when creating an object with no argument to its constructor, but with braces:

myclass myobj();

but it seems to me that

A<B> a2(B(v));

cannot be interpreted as a function declaration.

Someone can explain to me what is happening?

share|improve this question
It seems to me as a case of the most vexing parse. – Joachim Pileborg Jun 21 '12 at 12:54
up vote 8 down vote accepted

It's a case of most vexing parse where the compiler interprets A<B> a2(B(v)) as the declaration of a function. Such that:

A<B> is the return type
a2 is the function name
B is the type of the argument
v is the argument name

So, when you are doing

std::cout << a1.y.u << " " << a2.y.u << std::endl;

The compiler does not think of a2.y.u as a class, that's why you are getting the non-class type error.

Also, since double parenthesis aren't allowed in a function declaration, the version A<B> a2((B(v))); works because the compiler doesn't interprets it as a function declaration anymore, but as a variable declaration.

share|improve this answer
A more interesting question is how come that v being an integer variable, the expression A<B> a2(B(v)); can be parsed as a function declaration... (which is actually the question asked) --It seems clear from the comments at the end that the user already knew this was a case of the most-vexing-parse but wanted to know how the compiler got there. – David Rodríguez - dribeas Jun 21 '12 at 13:16
@DavidRodríguez-dribeas You are right, I added how the compiler interpreted the line itself. – Mesop Jun 21 '12 at 13:25
Wow, I hadn't realized the most vexing parse could get this bad. int foo(int (bar)) { return 0; } Why are parentheses allowed around the argument name? I had thought the most vexing parse only happened when the initializer could be parsed as a function type. Now I see that because parameter declarations can have parenthesis around the parameter name it's worse than that. I guess I'm surprised that they didn't go ahead and make 'disambiguating' parentheses legal for function declarations as well so we couldn't disambiguate: int foo((int (bar))) { return 0; } – bames53 Jun 21 '12 at 13:46
Apparently the parens are allowed because they're allowed in normal variable declarations: int main() { int (bar) = 0; } Why? – bames53 Jun 21 '12 at 13:50
@bames53 The same way they are needed in int (*f)() to declare a function pointer, I think they need to be uniformelly allowed in other situations. – pepper_chico Jun 21 '12 at 13:57

I think you're getting bit by the "most vexing parse", meaning that A<B> a2(B(v)); is getting parsed as function declaration instead of a variable declaration.

share|improve this answer

It is a function declaration:

A<B> a2(B(v));
//is same as:
A<B> a2(B v);

int foo(int v);
int foo(int (v));
share|improve this answer

As seen in the following code sample:

int a (int(v)) {
    return v;

int main() {
    std::cout << a(5); //prints 5

That line is indeed a declaration. In this example, the parameter is of type int and named v. Relating that to your code, the parameter is of type B and is named v. That's why you get the similar behaviour when you use double parentheses: because it's the same thing!

share|improve this answer
+1 At last, one answer that explains why that can be parsed as a function declaration. – David Rodríguez - dribeas Jun 21 '12 at 13:21

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