Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I understand that constructors with one (non-default) parameter act like implicit convertors, which convert from that parameter type to the class type. However, explicit can be used to qualify any constructor, those with no parameters (default constructor) or those with 2 or more (non-default) parameters.

Why is explicit allowed on these constructors? Is there any example where this is useful to prevent implicit conversion of some sort?

share|improve this question
    
Why should it be prevented? –  Falmarri Dec 17 '10 at 2:20
    
Falmarri: If it is not prevented, is there some example where it is useful on a default constructor or >=2 parameter constructor? –  Ashwin Dec 17 '10 at 2:22
    
See Adrian's answer. Why should you prevent it? –  Falmarri Dec 17 '10 at 2:27
    
Falmarri: I am sorry if my query implied I "do not want" to use it on such constructors. Rather, I was curious to know "why" it is allowed. –  Ashwin Dec 17 '10 at 2:40

5 Answers 5

One reason certainly is because it doesn't hurt.

One reason where it's needed is, if you have default arguments for the first parameter. The constructor becomes a default constructor, but can still be used as converting constructor

struct A {
  explicit A(int = 0); // added it to a default constructor
};

C++0x makes actual use of it for multi parameter constructors. In C++0x, an initializer list can be used to initialize a class object. The philosophy is

  • if you use = { ... }, then you initialize the object with a sort of "compound value" that conceptually represents the abstract value of the object, and that you want to have converted to the type.

  • if you use a { ... } initializer, you directly call the constructors of the object, not necessarily wanting to specify a conversion.

Consider this example

struct String {
    // this is a non-converting constructor
    explicit A(int initialLength, int capacity);
};

struct Address {
    // converting constructor
    Address(string name, string street, string city);
};

String s = { 10, 15 }; // error!
String s1{10, 15}; // fine

Address a = { "litb", "nerdsway", "frankfurt" }; // fine

In this way, C++0x shows that the decision of C++03, to allow explicit on other constructors, wasn't a bad idea at all.

share|improve this answer
    
So, explicit on a multiparameter constructor gives a result similar to explicit on a copy constructor. –  James McNellis Dec 17 '10 at 4:47
1  
@James similar to explicit on any one-argument-callable constructor :) But the difference of list initialization is that it still considers an explicit constructor. When it is selected, a diagnostic is risen. Unlike T t = v which just ignores explicit constructors, possibly preferring a non-explicit constructor, which was deemed by the committee to be a bad thing. –  Johannes Schaub - litb Dec 17 '10 at 5:01
    
Oh. Yes. Silly me. –  James McNellis Dec 17 '10 at 5:03

It's probably just a convenience; there's no reason to dis-allow it, so why make life difficult for code generators, etc? If you checked, then code generation routines would have to have an extra step verifying how many parameters the constructor being generated has.

According to various sources, it has no effect at all when applied to constructors that cannot be called with exactly one argument.

share|improve this answer
1  
re "without exactly one parameter", you mean, no effect when applied to constructor that cannot be called with exactly one argument. there's a difference. ;-) –  Cheers and hth. - Alf Dec 17 '10 at 3:09
    
Subtle distinction, but okay :) Fixed. –  Adrian Petrescu Dec 17 '10 at 3:31

Perhaps it was to support maintainance. By using explicit on multi-argument constructors one might avoid inadvertently introducing implicit conversions when adding defaults to arguments. Although I don't believe that; instead, I think it's just that lots of things are allowed in C++ simply to not make the language definition more complex than it already it is.

Perhaps the most infamous case is returning a reference to non-static local variable. It would need additional complex rules to rule out all the "meaningless" things without affecting anything else. So it's just allowed, yielding UB if you use that reference.

Or for constructors, you're allowed to define any number of default constructors as long as their signatures differ, but with more than one it's rather difficult to have any of them invoked by default. :-)

A better question is perhaps, why is explicit not also allowed on conversion operators?

Well it will be, in C++0x. So there was no good reason why not. The actual reason for not allowing explicit on conversion operators might be as prosaic as oversight, or the struggle to get explicit adopted in the first place, or simple prioritization of the committee's time, or whatever.

Cheers & hth.,

share|improve this answer

According to the High Integrity C++ Coding Standard you should declare all sinlge parameter constructor as explicit for avoiding an incidentally usage in type conversions. In the case it is a multiple argument constructor suppose you have a constructor that accepts multiple parametres each one has a default value, converting the constructor in some kind of default constructor and also a conversion constructor:

class C { 
    public: 
    C( const C& );   // ok copy 
    constructor C(); // ok default constructor 
    C( int, int ); // ok more than one non-default argument 

    explicit C( int ); // prefer 
    C( double ); // avoid 
    C( float f, int i=0 ); // avoid, implicit conversion constructor 
    C( int i=0, float f=0.0 ); // avoid, default constructor, but 
                               // also a conversion constructor 
}; 
void bar( C const & ); 
void foo() 
{ 
    bar( 10 );  // compile error must be 'bar( C( 10 ) )' 
    bar( 0.0 ); // implicit conversion to C 
}
share|improve this answer

I agree that allowing things that are not necessarily making sense is simpler than adding all the complexity to catch them.

Just for the sake of discussion. I'm not that knowledgable in C++ details, so I'm wondering if the C++ standardization committee ever were considering an implicit keyword? This would naturally be opposite to explicit and make implicit type conversion non-default.

class SomeClass
{
public:
    implicit SomeClass(int i);
};

Without the keyword, the following would not be possible:

SomeClass foo = 6;

Would C++ be something completely different going this way instead of explicit?

This would of course lead us to the followup question if implicit should be disallowed for ctors with more than one argument...

share|improve this answer
    
This would be a fine idea, but it would definitely break backwards compatibility with any code, everywhere... At this point it's not an option. –  user451498 Mar 16 '13 at 14:50

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.