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Basically this is a follow up of this question about most vexing parse. I can understand that this is due to the ambiguity between the function declaration and variable definition.

But in Comeau online, I just tired the following.

class T{


    T(int i){

    int fun1(){
        return 1;


int main()
    T myT(10); // I thought it'd be a function declaration that takes an int and returns a type T
    myT.fun1(); // and a compiler error out here.

But it compiles fine and there were no errors. I looked into the standard docs but couldn't come to a reasoning.

So, what am I missing here?

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why would you expect any different, you are correctly constructing an instance of T – Nim May 8 '11 at 8:15

3 Answers 3

up vote 5 down vote accepted

The 10 cannot be a parameter type name, so this must be a variable declaration.

The compiler must choose a function declaration when it can do that, but in many cases like this it cannot and there is no ambiguity.

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Because 10 is not a type. :)

This would be a Most Vexing Parse:

T myT(T());
// T() gets interpreted as function pointer argument to a function returning T();
// This is equivalent to:
T myT(T (*fn)());

Another variety of the Most Vexing Parse is this one:

unsigned char c = 42;
T myT(int(c));
// int(c) gets interpreted as an int argument called c.
// This is equivalent to:
T myT(int c);
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Yeah... :) Stupid me... – liaK May 8 '11 at 8:18

It's not a vexing parse because you used an integer literal rather than, say:

T myT(T());

As in this complete example:

#include <iostream>

struct T { int f() { return 1; } };

int main(int argc, char** argv) {
    T t(T());
    std::cout << t.f() << '\n';
    return 0;

Which is ambiguous because it could mean:

  • myT is a T initialised with a default-constructed T; or
  • myT is a function returning a T and taking one argument of type T(), which denotes a zero-argument function whose return type is also T.

The latter interpretation is the default one, which is why a compiler error results from attempting to use the newly declared function as though it were the object you expected it to be.

See the Wikipedia article about it.

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