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I just had an interview. I was asked what is a "forward declaration". I was then asked if they were dangers associated with forward declarations.

I could not answer to the second question. A search on the net didn't show up any interesting result.

So, do someone know any dangers associated with the use of forward declarations ?

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2  
There are no dangers just that forward declaring a type makes that type an Incomplete type for compiler which restricts how you can use that type in the particular TU. This is by no means a restriction though. –  Alok Save Jan 17 '13 at 14:34
    
@thang giving such answer on an interview will surely get you hired :P –  Dariusz Jan 17 '13 at 14:43
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6 Answers

up vote 7 down vote accepted

Well, apart from the issues about duplication...

... there is at least one sore spot in the Standard.

If you call delete on a pointer to an incomplete type, you get undefined behavior. In practice, the destructor may not get called.

We can see that on LiveWorkSpace using the following command and sample:

// -std=c++11 -Wall -W -pedantic -O2

#include <iostream>

struct ForwardDeclared;

void throw_away(ForwardDeclared* fd) {
   delete fd;
}

struct ForwardDeclared {
   ~ForwardDeclared() {
      std::cout << "Hello, World!\n";
   }
};

int main() {
   ForwardDeclared* fd = new ForwardDeclared();
   throw_away(fd);
}

Diagnosis:

Compilation finished with warnings:
 source.cpp: In function 'void throw_away(ForwardDeclared*)':
 source.cpp:6:11: warning: possible problem detected in invocation of delete operator: [enabled by default]
 source.cpp:5:6: warning: 'fd' has incomplete type [enabled by default] 
 source.cpp:3:8: warning: forward declaration of 'struct ForwardDeclared' [enabled by default]
 source.cpp:6:11: note: neither the destructor nor the class-specific operator delete will be called, even if they are declared when the class is defined

Don't you want to thank your compiler for warning you ;) ?

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accepted by popular vote, thanks ! Readers should also have a look to other answers. –  Offirmo Jan 18 '13 at 16:47
    
@Offirmo: do not feel any pressure to accept any answer at all. This is your question, and you should only accept an answer if it satisfied you and you are certainly not obliged to accept the one with the most votes. Your problem, your rules. –  Matthieu M. Jan 18 '13 at 16:58
    
I didn't phrase it well. This question is "open", not targeted at a particular problem. Your answer is very good and outlines what seems to be the biggest danger (most people agree). So you deserve to be the answer. Now the rare templates cases of Luchian are interesting, too, and should be read for a complete answer. I can't select multiple answers so please everyone upvote Luchian's answer together with this one. –  Offirmo Jan 19 '13 at 2:09
    
@Offirmo: let's upvote Luchian's answer then so it moves closer to the top ;) –  Matthieu M. Jan 19 '13 at 14:22
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I'd say any danger is eclipsed by the gains. There are some though, mostly related to refactoring.

  • renaming classes impacts all forward-declarations. This of course also comes with includes, but the error is generated in a different place, so harder to spot.
  • moving classes from a namespace to another, coupled with using directives, can wreck havoc (mysterious errors, hard to spot and fix) - of course, the using directives are bad to start off with, but no code is perfect, right?*
  • templates - to forward declare templates (esp. user-defined ones) you'll need the signature, which leads to code duplication.

Consider

template<class X = int> class Y;
int main()
{
    Y<> * y;
}

//actual definition of the template
class Z
{  
};
template<class X = Z> //vers 1.1, changed the default from int to Z
class Y
{};

The class Z was changed afterwards as the default template argument, but the original forward declaration is still with int.

*I've recently ran into this:

Original:

Definition:

//3rd party code
namespace A  
{
   struct X {};
}

and forward declaration:

//my code
namespace A { struct X; }

After refactoring:

//3rd party code
namespace B
{
   struct X {};
}
namespace A
{
   using ::B::X;
}

This obviously rendered my code invalid, but the error wasn't at the actual place and the fix was, to say the least, fishy.

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4  
“wreak havoc”, not “wreck hazard” –  Konrad Rudolph Jan 17 '13 at 14:38
2  
Opening a third-party namespace and adding forward declarations for their classes isn't something I'd mention in an interview. –  Potatoswatter Jan 17 '13 at 14:44
    
"gloat", not "bloat". Unless you had beans recently... –  thang Jan 17 '13 at 14:52
    
@thang dammit... –  Luchian Grigore Jan 17 '13 at 14:53
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If a pointer to incomplete class type is passed to delete, an operator delete overload may be overlooked.

That's all I got… and to be bitten, you would have to do that yet nothing else in the source file that would cause an "incomplete type" compiler error.

EDIT: Following the lead of the other guys, I'd say the difficulty (may be considered danger) is ensuring that the forward declaration, in fact matches the real declaration. For functions and templates, argument lists have to be kept in sync.

And you need to delete the forward declaration when removing the thing it declares, or it sits around and crufts up the namespace. But even in such cases, the compiler will point at it in the error messages if it gets in the way.

The bigger danger is not having a forward declaration. A major disadvantage of nested classes is that they cannot be forward declared (well, they can inside the enclosing class scope, but that's only brief).

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The only danger of forward-declaring something is when you do the forward declaration outside of a header or in a non-shared header, and the signature of the forward declaration differs from the actual signature of whatever being forward-declared. If you do it in extern "C", there would be no name mangling to check the signature at link time, so you may end up with undefined behavior when the signatures do not match.

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Another danger of forward declarations is that it makes it easier to violate the One Definition Rule. Assuming that you have a.h forward declaring class B (which is supposed to be in b.h and b.cpp), but inside a.cpp you actually include b2.h which declares a different class B than b.h, then you get to undefined behaviour.

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The first way is to reorder our function calls so add is defined before main:

That way, by the time main() calls add(), it will already know what add is. Because this is such a simple program, this change is relatively easy to do. However, in a large program, it would be extremely tedious trying to decipher which functions called which other functions so they could be declared in the correct order.

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