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I am trying to write a Queue implementation for my coursework.

Here is the part that is relevant:

template<class GenericType>
void QueueType<GenericType>::Enqueue(GenericType item) {

    if (isFull()) {

    }
    else{
        rear = (rear + 1) % maxQue;
        items[rear] = item;
    }
}

and:

template<class GenericType>
void QueueType<GenericType>::Dequeue(GenericType &item){
    if(isEmpty()){

    }else{
        front = (front + 1) & maxQue;
        item = items[front];
    }  
}

I also have a class called MyType and this has only one field which is public, type: int and field name: value.

So:

class MyType{
    int value;
}

And here is my main method:

int main(int argc, char** argv) {

    MyType myOne;
    myOne.value = 1;

    MyType variable;

    QueueType<MyType> myQ();

    myQ.Enqueue(myOne);
    myQ.Dequeue(variable);
    cout<<variable.value;
}

When I execute this code, the value I get is: 0. But I am expecting it to be 1?

Can anyone please explain my what I am missing?

Small edit: The fact that the code advances before retrieving the item is correct. The front is initialized to -1.

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closed as too localized by ecatmur, WhozCraig, David Segonds, stealthyninja, sra Nov 24 '12 at 11:42

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2  
I also see a few things that you may want to review in general. First, why are you checking for fullness if you are doing modular arithmetic on the queue? Those two strategies seem mutually exclusive, not to mention modular arithmetic on any kind of collection seems unsound. Also, in your front calculation, did you meant to say % instead of & ? –  RonaldBarzell Nov 23 '12 at 17:36
    
Thanks but I guess it is not about that, because initially the front is in -1. It is alright like this. –  Koray Tugay Nov 23 '12 at 17:36
    
@user1161318 Because if the queue is full ( the constructor has a limit ) it should not add anything to the queue. –  Koray Tugay Nov 23 '12 at 17:37
    
That part is fine, it's mixing that with modulo. The modulo implements a wrap-around storage strategy so that if an item exceeds the maximum bound it wraps around the front (think like a 24-hour clock). But if the queue is already being checked for fullness, why do this? –  RonaldBarzell Nov 23 '12 at 17:40
    
@user116... Thanks for the tip. Yes I meant % not &. How did that code work anyway? :) front = front & maxQue? How does it even compile.. Thanks it works fine now. –  Koray Tugay Nov 23 '12 at 17:42

2 Answers 2

up vote 1 down vote accepted

There's one error shown in your code, which is prematurely advancing front in Dequeue().

However, that is not the immediate cause of your problems. The problem most likely is in the code that you didn't show. You didn't show the implementations of isFull() and isEmpty().

Suppose isEmpty() is correct, but isFull() is erroneous, deeming the queue to be full from the onset. Nothing will ever be added, so the queue will always be empty. Your Dequeue() function won't do anything other than check for emptiness. Dequeue() is a no-op because the queue is always empty. Suppose isEmpty() is erroneous, deeming the queue to be empty even when it isn't. Your Dequeue() will once again be a no-op.

I suggest putting some debug print statements as the then parts of those if (isFull()) and if (isEmpty()) statements.

There are yet other problems with your code, at least as shown. It's not a good idea to silently ignoring errors such as requesting to enqueue something when the queue is full, or requesting to dequeue something when the queue is empty. Your Dequeue() is particularly problematic, as you have found. You need to do something when the queue is empty.

  • Throw an exception to indicate the queue is empty, or
  • Return a flag saying nothing was dequeued, or
  • Set the argument to some dummy (but valid) reference to indicate that nothing was dequeued, or
  • Make the function return a pointer rather than modify an argument, returning a null pointer to indicate nothing was dequeued, or
  • Make the function return something more advanced such as a Boost::optional.
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To all who are trying to help:

The answer is in the comments. Thank you.

@user1161318 has helped me.

Thanks.

Most of you guys are in the wrong direction. There is nothing wrong with advancing before retrieving the item or isFull implementation. ( There have been a few answers but they are deleted now. It seems this will go for sometime. )

So please check the comments first.

Thank you for helping.

share|improve this answer
    
Posting all the code would've prevented the confusion. :-) You should do that next time because frequently errors are not where you expect them to be. You initially thought that pass-by-reference was somehow the problem. It looked, because of the %, like you were implementing a ring-buffer queue, which is a very common implementation. And those need a separate flag for either fullness or emptyness because those two conditions are not distinguishable. –  Omnifarious Nov 23 '12 at 18:12
    
Right, thanks. I tried to keep it short, but it was not a good idea I guess. –  Koray Tugay Nov 23 '12 at 18:12

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