# reversing a queue in a non-conventional way

Suppose I have a queue filled with some type of elements, and they are filled in such a way that if any two elements are the assessed as the same by a designated comparer, they will be adjacent to each other.

Now I want to reverse the queue in the following way: If all elements in the queue are unique, then reverse it as the normal definition of reverse.

If there are some elements that are the same (and they will be adjacent to each other given how they are filled in), reverse the queue but keep the relative position of the non-unique elements intact.

A diagram might be easier to understand what the problem is.

If a queue is as the following:

``````[11 22 33 44 55]
``````

and my comparer compares two integers by looking at their first digit, then the reverse of the queue above would be:

``````[55 44 33 22 11]
``````

However, if my input queue is:

``````[11 22 23 44 55]
``````

the reverse should be:

``````[55 44 22 23 11]
``````

given the comparer.

I am trying to do this in a recursive way with only one stack as an additional auxiliary storage. However, I am having difficulty figuring out a correct and effective way. Could you please help? Thank you very much!

PS: The reason I am using a stack as extra storage is because reversing a queue in the conventional way is done most easily with a stack (dequeue and push all into stack, then pop and enqueue back into the queue).

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22 and 23 are not different elements? –  JavaNewb Mar 22 '13 at 4:25
It must be a typo. –  Joe Frambach Mar 22 '13 at 4:27
@JavaNewb No they are not different, since the comparer only looks at the first digit in this example. –  Enzo Mar 22 '13 at 4:27
@joeframbach It is not a typo. The definition of "being the same" is given by a particular comparer, it is not necessarily the conventional way of defining the same. –  Enzo Mar 22 '13 at 4:28
Oh, I get it. Sorry. –  Joe Frambach Mar 22 '13 at 4:30
show 1 more comment

Approach 1)

First reverse the whole Queue (without consideration of equality of 21,22 etc), then reverse each individual block (i.e. 21,22 etc) using a stack. This can be done iteratively.

This is similar to the reverse words in a sentence problem (famous interview question).

(See worked out example and pseudo code below)

Approach 2)

If you want to absolutely do recursion, then I would suggest you use a Queue as your auxiliary storage, not a stack.

You enque a block into the auxiliary queue, recursively reverse the rest of the list, and then enqueu the elements back into the main queue.

The code will be something like this (handwavy pseudo)

``````StrangeReverse(Queue <T> q) {
Queue<T> aux;
// this removes first block from q, and places them in aux
while (elem_of_first_block(q)) {
aux.Enque(elem);
}
// Recursively reverse the rest of the q.
StrangeReverse(q);

// place the first block back in q, at the end.
// in the order they appeared originally.
while (aux.HasElements()) {
q.Enque(aux.Deque());
}
}
``````

The recursive version can be converted to iterative, by having a stack of queues! You create a queue out of each block, and stack them up. Then pop the stack, the use the queues.

A worked out example of Approach 1

`[11, 12, 21, 22, 43, 44]`

Reverse this (either using the stack or by a recursive method)

`[44, 43, 22, 21, 12, 11]`

Now reverse each block:

`push 44, the 43.`

`Stack = [44, 43]. Queue = [22, 21, 12, 11]`

Now Enque by popping from the stack

`Stack = [], Queue = [22, 21, 12, 11, 43, 44]`

`push 22, 21`

`Stack = [22, 21], Queue = [12, 11, 43, 44]`

Enque by popping the stack.

`Stack = [], Queue = [12, 11, 43, 44, 21, 22]`

Finally we get

`[43, 44, 21, 22, 11, 12]`

Note: to determine a block you might need a peek method on the Queue.

Pseudo code of Approach 1

``````void StrangeReverse(Queue<T> q) {
Stack<T> s;
int count = q.Count();
if (count < 2) return;
for (i = 0; i < count; i++) {
T elem = q.Deque();
s.Push(elem);
}
while (s.HasElements()) {
T elem = s.Pop();
q.Enque(elem);
}
// Now the queue has been reversed,
// in the normal fashion.
ReverseBlocks(q);
}

void ReverseBlocks(Queue<T> q) {
int reversed = 0;
int count = q.Count();
while (reversed < count) {
reversed += ReverseSingleBlock(q);
}
}

int ReverseSingleBlock(Queue <T> q) {
Stack <T> s;
T prevElem = q.Deque();
s.Push(prevElem);
T curElem = q.Peek();
while(curElem == prevElem) {
s.Push(curElem);
q.Deque();
prevElem = curElem;
curElem = q.Peek();
}
int count = 0;
while(s.HasElements()) {
T elem = s.Pop();
q.Enque(elem);
count++;
}
return count;
}
``````
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@Enzo: This answer is not helpful? Not even worth commenting? :-) –  Knoothe Mar 22 '13 at 17:29
Sorry! I was dealing with other issues earlier... This is very helpful and exactly what I wanted! Thank you so much! Given approach 1 I think doing this iteratively would be better! Thank you again! –  Enzo Mar 22 '13 at 18:10
@Enzo: No worries. Glad to have helped :-) –  Knoothe Mar 22 '13 at 18:15

still assuming: enque -> [11,21,22,23,30] -> deque/peek
should be better now:

``````first = queue.peek();
start = true;
while (queue.peek() != first || start) {
start = false;
el = queue.deque();
if (el.compare(queue.peek())) {
stack.push(el);
while (el.compare(queue.peek())) {
el1 = queue.dequeue();
if (first.compare(el1)) {
first = el1;
}
stack.push(el1);
}
while (!stack.isEmpty()) {
queue.enque(stack.pop());
}
} else {
queue.enque(el);
}
}
while (!queue.isEmpty()) {
stack.push(queue.deque());
}
while (!stack.isEmpty()) {
queue.enque(stack.pop());
}
``````

so first i'm rotating the queue, changing the order of the "equivalent" elements and finally i'm doing an ordinary queue reverse

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this would only work if the number of non-unique items are two I think. For example, it would not work on this: [11 21 22 23 33 44] –  Enzo Mar 22 '13 at 4:37