# Find the Kth smallest element. looping

I try to find k-th minimum element using my code, but can't fix an error in my code. When it try to make partitioning for [0, 0, 2] with pivot = 0 it's looping.

``````import java.util.Arrays;

public class OrderStat {

public static void main(String[] args) {
int[] uA = {13, 32, 28, 17, 2, 0, 14, 34, 35, 0};
System.out.println("Initial array: " + Arrays.toString(uA));
int kth = 3; // We will try to find 3rd smallest element(or 2nd if we will count from 0).
int result = getKthSmallestElement(uA, 0, uA.length - 1, kth - 1);
System.out.println(String.format("The %d smallest element is %d", kth, result));

System.out.println("-------------------------------------");
Arrays.sort(uA);
System.out.println("Sorted array for check: " + Arrays.toString(uA));
}

private static int getKthSmallestElement(int[] uA, int start, int end, int kth) {
int l = start;
int r = end;
int pivot = uA[start];
System.out.println("===================");
System.out.println(String.format("start=%d end=%d", start, end));
System.out.println("pivot = " + pivot);

//ERROR HERE: When we will work with [0, 0, 2] part of array with pivot = 0 it will give us infinite loop;
while (l < r) {
while (uA[l] < pivot) {
l++;
}
while (uA[r] > pivot) {
r--;
}
if (l < r) {
int tmp = uA[l];
uA[l] = uA[r];
uA[r] = tmp;
}
}
System.out.println("After partitioning: " + Arrays.toString(uA) + "\n");

if (l < kth)
return getKthSmallestElement(uA, l + 1, end, kth);
else if (l > kth)
return getKthSmallestElement(uA, start, l - 1, kth);

return uA[l];
}

}
``````

Explain me, please, how to fix this problem.

-
Any particular reason you can't sort the array and then pick the kth-smallest? I suppose you aren't allowed to use `Arrays.sort` ? –  durron597 Nov 2 '12 at 21:25
@durron597: I think the OP is trying to implement the algorithm associated with finding the k-th order statistics –  Sujay Nov 2 '12 at 21:30
@durron597 Probably, since `Arrays.sort()` is invoked later for cross-checking the results. –  biziclop Nov 2 '12 at 21:31
Just a general hint on debugging infinite loops. Start your code in a debugger, let it run for a couple of seconds (until you know the code should've normally finished), then suspend execution and examine where you are. Then execute a couple of steps one by one to see what's causing the loop not to end. –  biziclop Nov 2 '12 at 21:34
@bizclop I understand what is the reason of infinite looping: we can't quit from the while loop because left and right pointers both shown at 0 with pivot = 0 and it dowsn't allow us to move pointers. But I don't understand how to fix it. –  user485553 Nov 2 '12 at 22:30

After swapping

``````if (l < r) {
int tmp = uA[l];
uA[l] = uA[r];
uA[r] = tmp;
}
``````

you need to move `l` and `r` (or at least one of them, to make any progress) to the next position (`++l; --r;`). Otherwise, if both values are equal to the pivot, you loop infinitely.

A correct partitioning that is also usable in a quicksort would be

``````// make sure to call it only with valid indices, 0 <= start <= end < array.length
private int partition(int[] array, int start, int end) {
// trivial case, single element array - garbage if end < start
if(end <= start) return start;
int pivot = array[start]; // not a good choice of pivot in general, but meh
int left = start+1, right = end;
while(left < right) {
// move left index to first entry larger than pivot or right
while(left < right && array[left] <= pivot) ++left;
// move right index to last entry not larger than pivot or left
while(right > left && array[right] > pivot) --right;
// Now, either
// left == right, or
// left < right and array[right] <= pivot < array[left]
if (left < right) {
int tmp = array[left];
array[left] = array[right];
array[right] = tmp;
// move on
++left;
--right;
}
}
// Now left >= right.
// If left == right, we don't know whether array[left] is larger than the pivot or not,
// but array[left-1] certainly is not larger than the pivot.
// If left > right, we just swapped and incremented before exiting the loop,
// so then left == right+1 and array[right] <= pivot < array[left].
if (left > right || array[left] > pivot) {
--left;
}
// Now array[i] <= pivot for start <= i <= left, and array[j] > pivot for left < j <= end
// swap pivot in its proper place in the sorted array
array[start] = array[left];
array[left] = pivot;
// return pivot position
return left;
}
``````

Then you can find the k-th smallest element in an array

``````int findKthSmallest(int array, int k) {
if (k < 1) throw new IllegalArgumentException("k must be positive");
if (array.length < k) throw new IllegalArgumentException("Array too short");
int left = 0, right = array.length-1, p;
--k; // 0-based indices
while(true) {
p = partition(array, left, right);
if (p == k) return array[p];
if (p < k) {
left = p+1;
k -= left;
} else {
right = p-1;
}
}
// dummy return, never reached
return 0;
}
``````
-
I understand what are you talking about: it's like a quick sort. But if you try Initial array: [8, 18, 36, 24, 14, 39, 16, 16, 14, 11] with l++; r--; after swapping you will get incorrect result because pivot element will be at incorrect possition. –  user485553 Nov 2 '12 at 22:16
@user485553 That's why one usually swaps the pivot element in its correct position in the sorted array. One can omit that when one only wants the k-th smallest element, but it's a bit complicated to reckon with all possibilities. I've added a correct (well, I haven't compiled or tested, only proved it correct in my head) version. –  Daniel Fischer Nov 2 '12 at 22:46