# Difference between creating object with () or without

i just run into the problem

error: request for member ‘show’ in ‘myWindow’, which is of non-class type ‘MainGUIWindow()’


when trying to compile a simple qt-application:

#include <QApplication>
#include "gui/MainGUIWindow.h"

int main( int argc, char** argv )
{
QApplication app( argc, argv );

MainGUIWindow myWindow();
myWindow.show();

return app.exec();
}


I solved this by replacing

MainGUIWindow myWindow();


by

MainGUIWindow myWindow;


but I don't understand the difference. My question: What is the difference?

Regards, Dirk

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@FredOverflow This is not a duplicate of that issue, the case with new is different as Amen below has pointed out. I don't know if there is another issue somewhere it may be a duplicate of. –  CashCow Feb 25 '11 at 11:43
before anyone else gets the wrong idea, this is not a duplicate. The titles are similar, but the questions are entirely different. One is about the different initalization rules in C++, the other is about why code intended to instantiate an object is instead parsed as a function declaration. –  jalf Feb 25 '11 at 11:43
Actually, this is a dupe of stackoverflow.com/questions/1424510/… –  sbi Feb 25 '11 at 11:44
Better duplicate because this more closely matches this question: Is no parentheses on a C++ constructor with no arguments a language standard?. This isn't really the most vexing parse, it's just a slightly vexing parse. –  Charles Bailey Mar 1 '11 at 8:05

The other answers correctly state that the parentheses version is actually a function declaration. To understand it intuitively, suppose you wrote MainGUIWindow f(); Looks more like a function, doesn't it? :) The more interesting question is what is the difference between

MainGIUWindow* p = new MainGIUWindow;


and

MainGIUWindow* p = new MainGIUWindow();


The version with parentheses is called value-initialization, whereas the version without is called default-initialization. For non-POD classes there is no differnce between the two. For POD-structs, however, value-initialization involes setting all members to 0,

my2c

Addition: In general, if some syntactic construct can be interpreted both as a declaration and something else, the compiler always resolves the ambiguity in favor of the declaration.

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most interesting answer here. –  Yossarian Feb 25 '11 at 11:25
@Yossarian: You just got my rep from 9990 to 10K! Thanks :) –  Armen Tsirunyan Feb 25 '11 at 11:26
This is called the "most vexing parse". –  Zac Howland Feb 25 '11 at 11:32
The more vexing parse comes when you try to create an instance of a class that takes one member and you pass in what you think is a temporary, especially a problem when it has an implicit constructor –  CashCow Feb 25 '11 at 11:42
Cong-rats and other rodents for crossing the 10k barrier, but this is a dupe. I suppose there's many "most vexing parse" questions out there. (I marked the first one that seemed a match.) –  sbi Feb 25 '11 at 11:51

The following:

MainGUIWindow myWindow();


declares a function that takes no arguments and returns MainGUIWindow. I.e. myWindow is a function name.

MainGUIWindow myWindow;


on the other hand creates an object myWindow of type MainGUIWindow.

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The difference is, that

MainGUIWindow myWindow();


declares function myWindow, which takes no parameters and returns MainGUIWindow, whereas

MainGUIWindow myWindow;


creates new object of type MainGUIWindow, calling it's default constructor.

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One of the guidelines for C++ compilers, in order to resolve code ambiguities, is: when something can be a function declaration, it is a function declaration. So when the compiler sees:

MainGUIWindow myWindow();


It understands you are declaring a function called myWindow, that takes no parameters and returns a MainGUIWindow. Obviously this is not what you want.

Just remove the parenthesis and you will be fine:

MainGUIWindow myWindow; // Create an object called myWindow, of type MainGUIWindow

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s/defining/declaring/ –  Péter Török Feb 25 '11 at 11:22

There is no real problems with the situation you have described. You remove the parentheses and bingo! it works.

The "most vexing parse" is a much bigger issue when it takes a single parameter and you want to pass in a temporary, eg

class Foo
{
public:
explicit Foo( const Bar& bar );
};

Foo foo( Bar() );


will not create an instance of a Foo but will also declare a function that takes a function-pointer, and this one really does often sting you.

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In C++ every expression that looks like a function declaration is a declaration of a function. Consider more complex sample that in your question:

#include <iostream>

struct X
{
X( int value ) : x(value) {}
int x;
};

struct Y
{
Y( const X& x ) : y(x.x) {}
int y;
};

int main()
{
int test = 10;
Y var( X(test) );                 // 1
std::cout << var.y << std::endl;  // 2

return 0;
}


At first glance (1) is a declaration of the local variable var which should be initialized with a temporary of a type X. But this looks like a function declaration for a compiler and you will get an error in (2):

 error: request for member ‘y’ in ‘var’, which is of non-class type ‘Y(X)’


The compiler considers that (1) is the function with name var:

Y                var(             X                     test            );
^- return value  ^-function name  ^-type of an argument ^-argument name


Now, how to say to the compiler that you do not want to declare a function? You could use additional parentheses as follows:

Y var( (X(test)) );


In your case MainGUIWindow myWindow() for the compiler looks like function declaration:

MainGUIWindow    myWindow(        void                  )
^- return value  ^-function name  ^-type of an argument

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