# Sorting a stack in ascending order in C, using two stacks

I was given a task to sort numbers in stack `a` of integers in ascending order using two stacks `a` and `b`.

Using eleven operations:

1. sa : `swap a` - swap the first 2 elements at the top of stack `a`
2. sb : `swap b` - swap the first 2 elements at the top of stack `b`.
3. ss : `sa` and `sb` at the same time.
4. pa : `push a` - take the first element at the top of `b` and put it at the top of `a`.
5. pb : `push b` - take the first element at the top of `a` and put it at the top of `b`.
6. ra : `rotate a` - shift up all elements of stack `a` by 1. The first element becomes the last one.
7. rb : `rotate b` - shift up all elements of stack `b` by 1. The first element becomes the last one.
8. rr : `ra` and `rb` at the same time.
9. rra : reverse `rotate a` - shift down all elements of stack `a` by 1. The last element becomes the first one.
10. rrb : reverse `rotate b` - shift down all elements of stack `b` by 1. The last element becomes the first one.
11. rrr : `rra` and `rrb` at the same time.

My sorting function

``````void    sorts_stack(stack *a, stack *b)
{
int     srt;

srt = is_not_sorted(a);
if (srt)
{
if (a->list[srt] == top(a) && a->list[srt] > a->list)
{
rotate_ra_rb(a->list, a->size); //ra : rotate a
putstr("ra\n");
}
else if (a->list[srt] == top(a) && a->list[srt] > a->list[srt - 1])
{
swap_sa_sb(a->list, a->size);//sa : swap a
putstr("sa\n");
}
else if (a->list[srt] > a->list[srt - 1])
{
putstr("pb\n"); //pb : push b
push_pb(a, b);
}
sorts_stack(a, b);
}
else if (b->size > 0)
{
if (top(a) < top(b))
{
push_pa(a, b); //pa : push a
putstr("pa\n");
}
else if ((top(a) > top(b)) && b->size != 0)
{
push_pa(a, b); //pa : push a
putstr("pa\n");
}
sorts_stack(a, b);
}
}
``````

my function sort the stack, I think it takes too many steps to sort. I need suggestions or advice on how to make it sort the stack with less steps taken. complete online code

• @Polikdir how is this a duplicate?, the two questions are totally different. – TenTen Peter Jul 2 '16 at 22:53

Given two stacks A and B, where A is filled with a random permutation of elements and B is empty, and one temporary variable T able to hold one element (and a counter but the counter doesn't count) you can sort A in ascending order into B by:

1. move all elements from A to B but keep the largest element in T
2. move all elements from B to A
3. put element in T on the stack B
4. Loop until A is empty
1. move all elements from A to B but keep the largest element in T
2. move all elements from B to A except the biggest one(s) on the bottom (here is the place where the counter comes handy to keep the number of already sorted elements in B)
3. put element in T on the stack B

You can (and should) put all of it in a single loop, of course.

This is really a two queue problem, since the rotate operations effectively turn a stack into a queue. In this case a bottom up merge sort can be performed, which would be relatively fast.

Using a linked list (instead of an array) to implement the stack / queue would speed up the rotates.

Here is a solution in Java.

``````public class SortStack {

Stack<Integer> stack1;
Stack<Integer> stack2;

public Stack<Integer> sort(Stack<Integer> stack) {
this.stack1 = stack;
stack2 = new Stack<>();
putSmallestAtBottom();
empty2BackTo1();
return stack1;
}

private void putSmallestAtBottom() {
/*Pop a number from stack1
* Compare it top item in stack2
* If stack2 item is bigger, move it stack1
* Keep doing this
* Once thats done push that smaller num to stack 2
* Keep repeating until stack 1 is empty*/
while (stack1.isEmpty() == false) {
int num = stack1.pop();
while (stack2.isEmpty() == false && stack2.peek() > num) {
stack1.push(stack2.pop());
}
stack2.push(num);
}
}

private void empty2BackTo1() {
while (stack2.isEmpty() == false) {
stack1.push(stack2.pop());
}
}
}
``````