# Non recursive QuickSort

I'm curious to know has my implementation of non recursive QuickSort algorithm some drawbacks or hidden rocks. What should be modified in order to optimize it? And what problems could happen when comparing two objects in the way I do it?

``````public class QuickSort <T extends Number> {

private Integer first, last, boundLo, boundHi, pivot;
Integer temp[] = {0, 0};

public void sort(NewArrayList<T> vect) {
Deque<Integer[]> stack = new ArrayDeque<Integer[]>();

first = 0;
last = vect.size() - 1;
stack.push(new Integer[] {first, last});

while(!stack.isEmpty()) {
sortStep(vect, stack);
}
}

private void sortStep(NewArrayList<T> vect, Deque<Integer[]> stack) {
// initialize indices
temp = stack.pop();
first = temp[0];
last = temp[1];

boundLo = first;
boundHi = last;
pivot = last;

while(first < last) {
if(vect.get(first).doubleValue() >= vect.get(pivot).doubleValue()) {
last--;
if(first != last)
vect.swap(first, last);
vect.swap(last, pivot);
pivot--;
}
else first++;
}

if(boundLo < (pivot - 1))
stack.add(new Integer[] {boundLo, pivot - 1});

if(boundHi > (pivot + 1))
stack.add(new Integer[] {pivot + 1, boundHi});

}

}
``````

And is ArrayList the best collection for this kind of sort?

``````public class  NewArrayList<T> extends ArrayList<T> {

public NewArrayList() {
super();
}

public void swap(int index1, int index2) {
this.set(index1, this.set(index2, this.get(index1)));
}
}
``````

The code after modifying in consideration of the suggestions

``````public class QuickSort <T extends Number> {

private int first, last, boundLo, boundHi, pivot;
int temp[] = {0, 0};

public QuickSort() {
super();
}

public void sort(List<T> list) {

Deque<int[]> stack = new ArrayDeque<int[]>();

first = 0;
last = list.size() - 1;

stack.push(new int[] {first, last});

while(!stack.isEmpty()) {
sortStep(list, stack);
}
}

private void sortStep(List<T> list, Deque<int[]> stack) {

temp = stack.pop();
first = temp[0];
last = temp[1];

boundLo = first;
boundHi = last;
pivot = last;

while(first < last) {
if(list.get(first).doubleValue() >= list.get(pivot).doubleValue()) {
last--;
if(first != last)
Collections.swap(list, first, last);
Collections.swap(list, last, pivot);
pivot--;
}
else first++;
}

if(boundLo < (pivot - 1))
stack.add(new int[] {boundLo, pivot - 1});

if(boundHi > (pivot + 1))
stack.add(new int[] {pivot + 1, boundHi});
}

}
``````
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This is a good question, but it doesn't belong on SO. Try posting your question on codereview.stackexchange.com –  fvrghl Oct 1 '13 at 19:58
Don’t create a subclass of ArrayList just for adding a `swap` method. There is already `Collections.swap` which works for all lists. A good algorithm should work on the interface (in this case `List`) and not depend on a particular implementation. –  Holger Oct 1 '13 at 20:10
And don’t use `Integer[]` where `int[]` can do the same. –  Holger Oct 1 '13 at 20:13
Thanks to all for your answers! –  Yaroslav S. Oct 2 '13 at 12:11
This question appears to be off-topic because it is belongs on codereview. –  EJP Oct 2 '13 at 19:28
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