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I recently noticed a class in C++0x that calls for an explicit default constructor. However, I'm failing to come up with a scenario in which a default constructor can be called implicitly. It seems like a rather pointless specifier. I thought maybe it would disallow Class c; in favor of Class c = Class(); but that does not appear to be the case.

Some relevant quotes from the C++0x FCD, since it is easier for me to navigate [similar text exists in C++03, if not in the same places] [class.conv.ctor]

A default constructor may be an explicit constructor; such a constructor will be used to perform default-initialization or value initialization (8.5).

It goes on to provide an example of an explicit default constructor, but it simply mimics the example I provided above.

8.5.6 [decl.init]

To default-initialize an object of type T means:

— if T is a (possibly cv-qualified) class type (Clause 9), the default constructor for T is called (and the initialization is ill-formed if T has no accessible default constructor);

8.5.7 [decl.init]

To value-initialize an object of type T means:

— if T is a (possibly cv-qualified) class type (Clause 9) with a user-provided constructor (12.1), then the default constructor for T is called (and the initialization is ill-formed if T has no accessible default constructor);

In both cases, the standard calls for the default constructor to be called. But that is what would happen if the default constructor were non-explicit. For completeness sake:

8.5.11 [decl.init]

If no initializer is specified for an object, the object is default-initialized;

From what I can tell, this just leaves conversion from no data. Which doesn't make sense. The best I can come up with would be the following:

void function(Class c);
int main() {
  function(); //implicitly convert from no parameter to a single parameter

But obviously that isn't the way C++ handles default arguments. What else is there that would make explicit Class(); behave differently from Class();?

The specific example that generated this question was std::function [ func.wrap.func]. It requires several converting constructors, none of which are marked explicit, but the default constructor is.

share|improve this question
As soon as I hit post, I think I came up with an explanation. But I'll wait for confirmation of my suspicions, since this seems like a useful question anyhow. – Dennis Zickefoose May 14 '10 at 19:21
up vote 18 down vote accepted

This declares an explicit default constructor:

struct A {
  explicit A(int a1 = 0);

A a = 0; /* not allowed */
A b; /* allowed */
A c(0); /* allowed */

In case there is no parameter, like in the following example, the explicit is redundant.

struct A {
  /* explicit is redundant. */
  explicit A();

In some C++0x draft, i believe it was n3035, it made a difference in the following way:

A a = {}; /* error! */
A b{}; /* alright */

void function(A a);
void f() { function({}); /* error! */ }

But in the FCD, they changed this (though, i suspect that they didn't have this particular reason in mind) in that all three cases value-initialize the respective object. Value-initialization doesn't do the overload-resolution dance and thus won't fail on explicit constructors.

share|improve this answer
Okay. Then the explicit constructor for std::function is simply a hold over from that version of the draft? It was this explanation that I finally figured out after writing the question, but neither the provided example nor std::function() took an optional parameter, so I wasn't entirely convinced. – Dennis Zickefoose May 14 '10 at 19:35
This seems to have changed a bit, see CWG 1518. Recent versions of g++ and clang++ reject function({}) for non-defaulted explicit default constructors, even in C++11 mode. – dyp Apr 13 '15 at 20:02

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