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I have two stacks(which follows LIFO). I would like to know if i can write a C program to use these two stacks work like a queue(FIFO).

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Wouldn't it be easier just to use a queue? –  David Heffernan Feb 5 '11 at 9:19
I guess, because a LIFO reverse the elements coming in, if you use two LIFO's you'll reverse them two times. But that won't work if the push and pops aren't synchronized. –  onemasse Feb 5 '11 at 9:20
@David Heffernan: Sometimes Stacks are implemented in Hardware. –  Sen Feb 5 '11 at 9:28

3 Answers 3

up vote 4 down vote accepted

One stack is used to insert new elements into the queue. The other stack is used to remove elements. When the output stack is empty, the input stack is reversed and becomes the new output stack.

In pseudo-C:

typedef struct { stack in, stack out } queue.

void insert(queue *q, void *data) {
  push(q->in, data);

void* remove(queue *q) {
  if (empty(q->out)) {
    while (!empty(q->in)) { // q->out = reversed q->in
      push(q->out, pop(q->in)); 
  return pop(q->out);  // assumes that it returns NULL if q->out is empty

This is asymptotically the same complexity as a regular queue, but each element is touched several times. Since you're working in C, why not use a regular ring-buffer?

Edit: This is indeed the way Okasaki's functional queues work that @bdonlan's answer mentioned.

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One such technique is described in:

Chris Okasaki (1995). Simple and efficient purely functional queues and deques. Journal of Functional Programming, 5, pp 583-592

Fulltext is available in postscript format. This technique is described in terms of functional programming, but there is no fundamental reason why you could not implement it in C as well.

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(Why not just use a queue?)

Basically you use one stack B to reverse the order of the elements in an other stack B, by popping all elements from A and pushing them into B. When you are done, the first object that you will pop from B would be the first that you pushed into the original A.

If you push the elements 1, 2, 3, 4 into A in this order, you'll get:

A: 1, 2, 3, 4 (top)

Pop everything and push into B:

B: 4, 3, 2, 1 (top)

If you start popping B, you'll get in order:

1, 2, 3, 4

The compound operation is a FIFO-like structure. However, it has none of the flexibility of a proper FIFO, since it only works in passes. It might be useful in code for low-end microcontrollers where implementing a heap is an issue, but you should not use stacks like that on any modern (i.e. post 1980) computer.

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Its like sometimes stacks will be implemented in hardware so if it is possible to get the queue functionality by using these stacks, then it will be much more efficient than the software counterpart. –  Sen Feb 5 '11 at 9:30
Could you please elaborate on However, it has none of the flexibility of a proper FIFO, since it only works in passes –  Sen Feb 5 '11 at 9:32
The hardware implementation would have to be n^2 faster than a software queue. Sure that's probably true for small sizes, but not in general. –  Falmarri Feb 5 '11 at 10:05
If you have two stacks at your disposal, you can amortize the operations so they become essentially as cheap as in a normal FIFO queue, like in @nominolo's answer. If you have hardware-assisted stacks that are doing this, I'd expect it to be an order of magnitude faster than a software FIFO. –  I GIVE CRAP ANSWERS Feb 5 '11 at 11:26

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