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I have quite a blocking problem which I don't understand. Generally, I'm making a kind of anthill simulation. There is one main passage inside divided into segments and from some of the segments ants can enter into chambers. All of these three classes (Passage, Segment, Chamber) have one common thing - collection of ants currently visiting them. So there is an abstract class AntHolder, which contains vector<Ant*> (only members relevant to the case are shown):

    class AntHolder
        std::vector<Ant*> ants;
        /* some other members here */

        virtual bool antEnter(Ant* ant) = 0;
        /* some other functions here */

The antEnter function is implemented differently in derived classes, but generally serves the purpose of adding ant to the ants. From the derived classes particularly I'm interested in AntChamber class (here also less important members were omitted):

    class AntChamber : public AntHolder
        int itemCapacity;
        int additionalCapacity;
        std::vector<Item*> items;

        bool hasFood;
        bool hasEgg;

        bool putItem(Item* item);
        virtual bool antEnter(Ant* ant);

The putItem function is similar to the antEnter function, but it adds Item objects to items collection. (Items are e.g. food, which are moved by ants from one chamber to another.) Below there is shown implementation of both functions:

    bool AntChamber::antEnter(Ant* ant)
        if (items.size() + ants.size() == itemCapacity + additionalCapacity) return false;

        return true;

    bool AntChamber::putItem(Item* item)
        if (items.size() == itemCapacity ||
            items.size() + ants.size() == itemCapacity + additionalCapacity)
            return false;

        if (item->getItemKind() == Food) hasFood = true; // Food == enum value
        else if (item->getItemKind() == Egg) hasEgg = true; // Egg == enum value

        return true;

You can clearly see, that they're almost identical. But when it comes to their effect, there is crucial, surprising difference, and that is the core of my problem.

Let's say I already have an AntChamber* chamber constructed. When I run the following piece of code:

    Item* item = new Item(Food);

, then after that both item and chamber->items.back() points to some memory with this object. But when I run the analogous piece of code:

    Ant* ant = new Ant(chamber);

, then after that ant point to the object, but chamber->ants.back() points to NULL!

I absolutely can't understand what is going on, especially, that both putItem and antEnter in fact do the same thing: push_back the pointer, which was passed by parameter. I have already tried to simulate such case in some simplier code, like:

    class A { };
    class B { };

    class C
        vector<A*> va;
        vector<B*> vb;
        A* vaBack() { return va.back(); }
        B* vbBack() { return vb.back(); }

        void addA(A* a) { va.push_back(a); }        
        void addB(B* b) { vb.push_back(b); }

    int main(int argc, char** argv)
        A* a = new A();
        B* b = new B();
        C* c = new C();

        cout << (unsigned int)a << endl;
        cout << (unsigned int)c->vaBack() << endl;

        cout << (unsigned int)b << endl;
        cout << (unsigned int)c->vbBack() << endl;

        delete c;
        delete b;
        delete a;

, but it appears to work just fine - none of pointers is 0x000000.

share|improve this question
Did you check the return value of chamber->antEnter(ant)); was not false? Since we do not have a Short, self contained example it is hard to pin down the problem: sscce.org –  Shafik Yaghmour May 29 '13 at 13:09
In antEnter, what are the values of itemCapacity and additionalCapacity? And did you really want to use itemCapacity in antEnter? –  Andy Thomas May 29 '13 at 13:11
@Shafik Yaghmour - I did. It's not the case. When I test it, both vectors are empty, ant both capacities are way higher - e.g. 10 + 5. As you see, I tried to simplify example, but my attempt has failed :) –  Sushi271 May 29 '13 at 13:17
@Sushi271 Ok, can you reduce your code to an SSCCE that reproduces the problem? It seems like the issue is in the part of the code we do not have. –  Shafik Yaghmour May 29 '13 at 13:19
@AndyThomas-Cramer - it's quite irrelevant to the case I think; but if you ask: the idea is, that you can fill chamber with items up to an itemCapacity limit, but some space must be left for ants, so they could come in. But if there is lesser items, than itemCapacity, then more ants can come in. So itemCapacity + additionalCapacity = totalCapacity, which can't be exceed by both ants and items. But ants have no other limits themselves, unlike items. –  Sushi271 May 29 '13 at 13:22

1 Answer 1

Oh My God, I'm sooo blind...

I did SSCCE, as Shafik Yaghmour advised and I noticed the problem while doing it.

I used a mental leap, saying, that chamber->items.back() or chamber->ants.back() are NULL, because in fact, they weren't! But they're protected in their classes, so I wrote in both classes a function to get to i-th item/ant. The problem was this function. It made a standard idiotproof protection against giving index out of vector's bonds, but made a mistake doing so:

    if (idx < 0 || ants.size() >= idx) return 0; // SHOULD BE <= !!!
    return ants[idx];

so it always returned 0... And I looked at this method maybe hundreds of times when looking for this problem, and never noticed anything wrong (till now).

Stupid mistake... Thank you very much Shafik.

share|improve this answer
That is one of the points of doing an SSCCE and I guessed you might figure it out on your own. In many cases trying to demonstrate the bug in a smaller example leads to figuring out the problem. –  Shafik Yaghmour May 29 '13 at 16:41

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