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I need make a class, let's say FineStack, who should declare a structure able to manage different kind of Fines ( LightFine, SeriousFine ). The superclass for both is Fine.

The question is, do I really need templates? I thought it was not necessary, so this is what I thought:

-> declare Fine *fines; ( kind-of array of fines? ) And ... creating an array of Fine's objects (the superclass), it should be able to manage both LightFine and SeriousFine objects.

-> The problem is. How should I declare it? Fine should be an abstract class, so no instances could be created (instances should be either LightFine's or SeriousFine's ).

I got stuck with this, since I don't find the way to get it. I've read in multiple questions here in Stackoverflow, that you guys usually suggest to use std::vector , which makes you easier to manage this kind of stuff.

Should I go in that way and forget about the original idea?

I need a structure which should be able to handle any object from both subclasses, in any order (let's say .. 3 LightFine and 2 SeriousFine ... or alternatively each other from the start to the end of the structure ... whatever.

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5 Answers 5

up vote 10 down vote accepted

I would like to point you in the right direction and not just give you the whole shebang. If this doesn't help, please ask about what's troubling you:

Although Fine cannot be instantiated, you can point to it, so:

Fine* f1 = new LightFine();
Fine* f2 = new SeriousFine();

are both legal, because LightFine is-a Fine and SeriousFine is-a Fine.

Edit: I see this is not clear yet. If you read the above you can see that I can hold a pointer Fine*, yet have it "secretly" point to either LightFine or SeriousFine. That means, If I were to keep a bunch of Fine* pointers, some of them could be LightFine and some SeriousFine. i.e, I can do this:

Fine** fines = new Fine*[5];
f[0] = new LightFine();
f[1] = new SeriousFine();
...
for (int i=0; i<5; i++) {
    std::cout << fines[i]->toString() << std::endl;
}

and the output would be:

a light fine

a serious fine

...

if you do want to use a vector, it too should be of type vector<Fine*> and not vector<Fine>.

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Thank you very much for taking your time trying to help me. Let's hit the code one more time after your useful words ;) Excuse me for my poor English! –  Carlos Murdock Jan 30 '11 at 11:32
    
And how should look like FineStack's constructor? I try to initialize there the "fines" structure, without any success. Shouldn't I alocate enough space for all the Fine pointers? –  Carlos Murdock Jan 30 '11 at 11:59
1  
@Carlos see my edited answer. I suspect you're initializing an array of Fine instead of Fine*. –  Amir Rachum Jan 30 '11 at 12:01
    
:-) You've suspected well, and answered and helped me better! :-) Now it's all crystal-clear, I've learnt a lot ;) Thank you very much Amir. –  Carlos Murdock Jan 30 '11 at 12:09
    
@Carlos if this answer solved your problem, please consider accepting it. –  Amir Rachum Feb 1 '11 at 16:03

You can't have an array of Fines or a vector of fines because the Fine class is abstract (and it should really be).

The solution is to use either an array of pointers (like Fine **fines and fines = new Fine*[whatever-size-you-need]) or a vector of pointers (like std::vector<Fine*> fines). After that, you can instantiate any subclass of Fine with new and it will be implicitly upcasted to Fine* when you put it into the array/vector.

And you certainly don't need templates here, unless you have another (unrelated) reason to use them.

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Thank you very very much Sergey, have a nice day! ;) –  Carlos Murdock Jan 30 '11 at 12:10

In C++, polymorphism (the ability to have the same code work with objects of multiple different subclasses of a given parent class) is accomplished with pointers and references to base classes, not base class types themselves. If you come from a language like Java this might be confusing, because there all object references implicitly behave like pointers do in C++.

Ideally you should use vector<std::tr1::shared_ptr<Fine> >. The Boost documentation does a good job explaining why shared_ptr simplifies memory management; TR1's shared_ptr is essentially the same as Boost's except that it probably already comes with your compiler.

If you're content to do your own memory management, use vector<Fine*>. Don't use vector<Fine> -- that will cause object slicing.

What is object slicing? LightFine is (possibly) bigger than Fine, so it won't fit in the same amount of memory. If you declared Fine a; LightFine b; a = b; this will compile, but the entire LightFine object won't fit in a, so just the Fine subobject of b will be copied. Essentially the same thing happens when inserting a LightFine object into a vector<Fine>.

You won't be able to treat a as a LightFine object after that assignment, since its static type is just Fine, and all the LightFine "parts" have been discarded anyway. Also, treating a as a Fine object can produce unexpected behaviour -- for example Fine might have an internal data field that is repurposed by LightFine and thus contains an out-of-bounds value when interpreted by Fine's methods.

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Revised answer after my first had errors:

Will both LightFine and SeriousFine implement only the interface from Fine, or will they have additional methods that the FineStack will need to know about?

If the FineStack will only interact with the Fine objects using methods defined in Fine's interface, then I don't see a problem with your array approach, as long as you use Fine** fines (i.e. an array of pointers to Fines). Although, I'd tend to use a std::vector<Fine*> instead.

(I did have a comment here about dynamic_cast, but I've removed it after a couple of commentors suggested it was dangerous advice).

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really, the single point of the inheritance is that toString() method is declared as abstract in Fine class, and each of LightFine and SeriousFine has the proper toString() overrided. –  Carlos Murdock Jan 30 '11 at 11:30
    
... and you should be able to get the proper output (say: invoke dynamically the proper toString() ) through polimorfism. –  Carlos Murdock Jan 30 '11 at 11:31
    
No problems then :) Sounds like a textbook use of inheritance! –  Toby Jan 30 '11 at 11:32
    
Yeah, that's what it is ;) I'm preparing my c++ practical exam for the Uni, and still get stuck with some concepts ( 1st time I've ever struggled with C++ ) ... thanks Toby! Let's try all the stuff and how it reacts :P –  Carlos Murdock Jan 30 '11 at 11:34
1  
@Toby, vector<Fine> will cause object slicing and undefined behaviour -- please see my comment on his answer. Also, dynamic_cast should always be a last resort -- normally, whenever you need type-specific behaviour, you should call a virtual method that is implemented differently in each subclass. -1 for now. –  j_random_hacker Jan 30 '11 at 11:50

sounds like you should go with std::vector<Fine>

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Thank you very much for taking your time trying to help me. Let's hit the code one more time after your useful words ;) Excuse me for my poor English! –  Carlos Murdock Jan 30 '11 at 11:33
4  
-1 I'm afraid. vector<Fine> will cause object slicing (or it would if it could compile; the fact that Fine is an abstract class will almost certainly create a compile-time error). The right solution is to use pointers to Fine, or a vector of such (vector<Fine*>). –  j_random_hacker Jan 30 '11 at 11:47
    
mmm ... interesting. I'm getting stuck on how to initialize the structure (alocating the memory for all the Fines): –  Carlos Murdock Jan 30 '11 at 11:50
    
for(int i=0; i<FineStack::MAX; i++){ this->fines[i]=new Fine; } –  Carlos Murdock Jan 30 '11 at 11:50
1  
You don't want an array of Fines since theyre abstract. You want an array of pointers to Fines. –  Toby Jan 30 '11 at 12:10

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