I've noticed a discrepancy in the way quicksort is called recursively.
One way is
quicksort(Array, left, right) x = partition(Array, left, right) quicksort(Array, left, x-1) quicksort(Array, x+1, right) partition(array, left, right) pivotIndex := choose-pivot(array, left, right) pivotValue := array[pivotIndex] swap array[pivotIndex] and array[right] storeIndex := left for i from left to right - 1 if array[i] ≤ pivotValue swap array[i] and array[storeIndex] storeIndex := storeIndex + 1 swap array[storeIndex] and array[right] // Move pivot to its final place return storeIndex
This makes sense because quicksort works by partitioning the other elements around the pivot so the element Array[x] should be in its final position. Therefore the range [left, partion-1] and [partition+1, right] remains.
The other way
quicksort(Array, left, right) x = partition(Array, left, right) quicksort(Array, left, x) quicksort(Array, x+1, right) PARTITION(A,p,r) x A[p] i p - 1 j r + 1 while TRUE do repeat j j - 1 until A[j] x repeat i i + 1 until A[i] x if i < j then exchange A[i] A[j] else return j
Notice the -1 is missing. These seems to suggest that the array was partitioned correctly but no single element is in its final position. These two ways are not interchangeable, if I put in a -1 in the second way an input array is improperly sorted.
What causes the difference? Obviously it's somewhere in the partition method, does it have to do with Hoare's or Lumuto's algorithm was used?