I was compiling a C++ program in Cygwin using g++ and I had a class whose constructor had no arguments. I had the lines:

MyClass myObj();

And when trying to compile it, I got the message:

error: request for member 'function1' in 'myObj', which is of non-class type 'MyClass ()()'

After a little research, I found that the fix was to change that first line to

MyClass myObj;

I could swear I've done empty constructor declarations with parentheses in C++ before. Is this probably a limitation of the compiler I'm using or does the language standard really say don't use parentheses for a constructor without arguments?


Although MyClass myObj(); could be parsed as an object definition with an empty initializer or a function declaration the language standard specifies that the ambiguity is always resolved in favour of the function declaration. An empty parentheses initializer is allowed in other contexts e.g. in a new expression or constructing a value-initialized temporary.


This is called the most vexing parse issue. When the parser sees

MyClass myObj();

It thinks you are declaring a function called myObj that has no parameters and returns a MyClass.

To get around it, use:

MyClass myObj;
  • Hi, apart from being allocated on stack and heap respectively, is there any difference between MyClass obj and MyClass *obj = new MyClass()? – SexyBeast Jan 11 '15 at 19:38
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    A few. The first declares obj as an object of type MyClass, and will automatically be freed when scope exits. The second declares obj as an object of type MyClass*, which must be manually freed, and will be available after the scope exits. – Peter Alexander Jan 12 '15 at 20:39
  • Yeah yeah, that's precisely the result of getting allocated on the stack and heap respectively, right? – SexyBeast Jan 12 '15 at 21:26
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    re "most vexing parse": also has a wikipedia page en.wikipedia.org/wiki/Most_vexing_parse – Trevor Boyd Smith May 26 '16 at 13:02

I found this in the C++ standard (§8.5.8):

An object whose initializer is an empty set of parentheses, i.e., (), shall be value-initialized.

[Note: since () is not permitted by the syntax for initializer,

X a ();

is not the declaration of an object of class X, but the declaration of a function taking no argument and returning an X. The form () is permitted in certain other initialization contexts (5.3.4, 5.2.3, 12.6.2). —end note ]


This is a fairly well known issue, and isn't compiler dependent. Essentially, what you were doing was declaring a function returning type MyObj. Not surprisingly, you couldn't call its constructor. See the C++ faq lite for a good explanation

  • To expand - it's only an issue in certain contexts. Write "throw myexceptionclass ();", for example, and there's no confusion. The language is ambiguous in Petes context, but disambiguating rules (the reason the language strictly isn't really ambiguous) pick one interpretation. Of course the disambiguating rules mean the language isn't really ambiguous - but parsing experts say it anyway, so I'm allowed too! The most common disambiguating rules in a lot of languages are for operator precedence and associativity - C and C++ are much more ambiguous, and there are some odd issues as a result. – Steve314 Feb 23 '10 at 14:22

Yet another most-vexing-parse hit. See for instance Sort function does not work with function object created on stack?

MyClass myObj();

That's parsed as a function declaration, the function is called myObj, takes no arguments and returns MyClass object. I've never seen a compiler accepting that. On the other hand MyClass* myPtr = new MyClass(); is acceptable, may be that got you confused?


Your line makes the compiler think you are declaring a function named myObj which takes no arguments and returns a MyClass. This ambiguity resolution is indeed annoying.


The standard does not require parentheses.

int* x = new int;

is legal syntax.

In your case myclass myobj(); is a function prototype. Whereas myclass myobj; is a variable.

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