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Presumably not. Here is my use case:

I have two classes A & B.

class A
{
    B *b_;
};        

class B
{
public:
    B(): b_string_("") {};

private:    
    std::string b_string_;
};

I want b_ to always point to a B object. I want b_ to point to an "empty" B object instead of nullptr so that I can always dereference *b_ in a defined manner to get an empty b_->b_string. So I thought I would create a global "null B object": const B null_b. But I can't (naturally) use this A ctor:

A(): b_(&null_b) {};

since b_ cannot point to a const variable. If not a "null B object", b_ needs to point to mutable B objects.

Making the global non-const solves the problem but I want the protection of const so I can guarantee the "null object" never changes.

FWIW, this involves a large project where b_ is pointing to an vector of B objects in another class. I could add an empty B object to that vector but that strikes me as kludgy.

Is there a method or pattern to solve my problem?

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1  
I probably shouldn't suggest this but... const_cast ? –  Borgleader Aug 1 '13 at 19:26
    
Are you looking for Flyweight? But, bear in mind that all pointers would logically be const –  sehe Aug 1 '13 at 19:26
    
@Borgleader how would that help here? You can't at runtime decide to const_cast the pointer to be const (if it points to your Nil Object) –  sehe Aug 1 '13 at 19:27
    
Yes it can, iff it's a pointer to const. –  n.m. Aug 1 '13 at 19:35
    
You can't really get away from the fact that dereferncing a non-const pointer can modify the target. This can happen so what do you want to happen? Abort or something? –  Neil Kirk Aug 1 '13 at 19:48

3 Answers 3

up vote 5 down vote accepted

Instead of holding a pointer to a B object, create a base class with virtual methods and store pointers to that. Derive both your B class and a Null_B class from it, but don't let methods on Null_B do modifications. Now even though your Null_B object won't be const, it doesn't matter anymore.

As an extra layer of protection you could make any attempt to modify the null_b object throw an exception so that you can detect and find your logic error.

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1  
A working example (except that Null_B derrives directly from B) here: ideone.com/m5ezfh –  Bill Aug 1 '13 at 20:48
    
@bill and markransom -- Thanks that is going to work. Thanks for the code Bill! It made it immediately obvious. :) –  Macbeth's Enigma Aug 1 '13 at 20:59

You can't have a "non-const" pointer point at a const object. And unfortunately, using const_cast to remove the const-ness of the object will mean that some code later can try to modify the object. (Note that it's undefined behaviour to cast away const unless the original object is non-const, so technically, the compiler is allowed to generated code that crash if this happens. Unfortunately, many cases, it WON'T crash when the object is something more complex than const char * or const int [] - allowing the code to happly continue after overwriting your object that you didn't want to be written).

However, since the B class has a b_string_ member that is private, no outside object could touch it, so you could ensure that any usage of b_string_ is done through a virtual function (or multiple virtual functions), then derive another class from B where the, and the virtual function(s) says "Sorry, you can't do that" when the code tries to modify b_string in the derived object.

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The const_cast is UB in the first place, unless you know the pointee is actually mutable –  sehe Aug 1 '13 at 19:37
    
Yes, my point was that if you cast away the constness, it doesn't stop someone from modifying it - it being UB is kind of beside the point at that stage, since the reason for making it const is presumably that you don't want it modified - and given average in most systems, it probably won't crash, so it will just happily work along with the object being accessible and weird things happening. –  Mats Petersson Aug 1 '13 at 19:44
1  
Modifying it could very well crash the application. In fact this is precisely what happens when you write through a const char* in the average hello-world level app. I guess my point is "UB is never beside the point" –  sehe Aug 1 '13 at 20:09
    
And you know of an OS/Compiler combination where it does? I'm not saying it can't happen, just that I'm not aware of such a combination. –  Mats Petersson Aug 1 '13 at 20:10
    
See my edited link. It segfaults –  sehe Aug 1 '13 at 20:12

Well, maybe it's totally off the point, but... Could you use instance of B instead of pointer to B inside A? This would solve potential nullptr dereferencing.

EDIT well, if B is too big, then you can create a lightweight wrapper around it, and store instance of that wrapper inside A. The wrapper would provide you something meaningful if B is nullptr.

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No -- I have to point to this rather complex structure in the real project. Not only would I not want the overhead of copying I need to update it and not a copy. –  Macbeth's Enigma Aug 1 '13 at 19:35
    
Thanks for your help! I think in essence Mark and Bill's solution was a short and sweet wrapper around the null object that you were suggesting. –  Macbeth's Enigma Aug 1 '13 at 21:06

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