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I have this:

typedef void (*funcptr) (void);

int main(){

    funcptr(); //this can compile and run with no error . WHAT DOES IT MEAN? WHY NO ERRORS?

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Try to give your questions titles that actually tell us what you're asking. That way it's easier for people to find and answer the question, and others who have a similar question might be able to find it and read the existing answers. –  jalf Oct 1 '10 at 8:44

3 Answers 3

up vote 14 down vote accepted

The statement creates a funcptr instance by its default constructor* and discard it.

It is just similar to the code

int main () {

(Note: * Technically it performs default-initialization as not all types have constructors. Those types will return the default value (zero-initialized), e.g. 0. See C++98 §5.2.3/2 and §8.5/5 for what actually happens.)

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are you saying there are default constructors for all types? including primitive types and user defined types e.g. a type from typedef ? –  Johnyy Sep 30 '10 at 6:59
@John: All primitive types have a default-constructor, yes. User defined-types with at least one user-defined constructor don't have a default constructor unless one is defined explicitly. And the poorly named typedef does not define a type but merely introduce a type synonym. After typedef double foo, the expressions double() and foo() are equivalent. –  FredOverflow Sep 30 '10 at 7:04
Not correct. Only class types have constructors. Non-class types have no constructors. The expression in the OP, as well as double() expression has absolutely nothing to do with any constructors. The result of this expression is specified by the language standard without involving any constructors. –  AndreyT Sep 30 '10 at 7:09
@Johnyy: The syntax that you are using is formally a form of functional cast. In functional casts, the type name must consist of only one token. So, for example, you can't immediately use int *, and you can't use unsigned int in functional casts. But if you create a typedef name for the type, you'll be able to use it, since it becomes one token. –  AndreyT Sep 30 '10 at 7:13
@FredOverflow: The wording used in TC++PL is a well-known [deliberate] error. AFAIK, this was done to simplify the explanation. But formally speaking what Stroustrup states in this respect in TC++PL is plain incorrect. Only class types in C++ have constructors. That's how the language is defined. (The standard doesn't state it literally, i.e. there's no place in the document that would say exactly that, but nevertheless it is the case.) –  AndreyT Sep 30 '10 at 7:23

In C++ language, any expression of the form some_type() creates a value of type some_type. The value is value-initialized.

For example, expression int() creates a value-initialized value of type int. Value-initialization for int means zero initialization, meaning that int() evaluates to compile-time integer zero.

The same thing happens in your example. You created a value-initialized value of type funcptr. For pointer types, value-initialization means initialization with null-pointer.

(Note also, that it is absolutely incorrect to say that expressions like int(), double() or the one in your OP with non-class types use "default constructors". Non-class types have no constructors. The concept of initialization for non-class types is defined by the language specification without involving any "constructors".)

In other words, you are not really "playing with function pointer" in your code sample. You are creating a null function pointer value, but you are not doing anything else with it, which is why the code does not exhibit any problems. If you wanted to attempt a call through that function pointer, it would look as follows funcptr()() (note two pairs of ()), and this code would most certainly crash, since that's what usually happens when one attempts a call through a null function pointer value.

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There is no such thing as a temporary object of scalar type. int() denotes the value zero, not a temporary object bound to that value. –  FredOverflow Sep 30 '10 at 7:11
@FredOverflow: Yes, there is. You must be thinking about C, where th term object is synonymous with lvalue. In C++ the situation is totaly different. For example, this code const int &r = int() attaches the reference to a temporary object of type int. It is true that int() is an rvalue, but to claim that there's no temporary objects of scalar types is plain incorrect. –  AndreyT Sep 30 '10 at 7:15
@Fred: If I'm understanding you, you're saying this should work: template <int I> struct foo {}; foo<int()>;? Andrey is correct. –  GManNickG Sep 30 '10 at 7:18
@Andrey: Section 12.2 "Temporary Objects" starts with "Temporaries of class type are created in various contexts". I can't find any reference to temporaries of scalar type in the standard. Please enlighten me :) –  FredOverflow Sep 30 '10 at 7:25
@user25464: Well, yes and no. Expression T()() (where T is a type) creates a temporary object T() of type T and then applies operator () to it. In that sense funcptr()() is similar to double()(). But that's where similarity ends. If you do double()() you'll get a compile error, since you are trying to apply operator () to an object of type double. This is illegal. When you do funcptr()(), you are applying operator () to an object of function pointer type, which is perfectly legal. –  AndreyT May 18 '12 at 0:14

You are defining a datatype, funcptr, which is a function that takes no parameters and returns void. You are then creating an instance of it, but without an identifier, discarding it.

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