# Why is my quicksort performance worse than my mergesort?

Am I missing something? The source is short, ready to run and commented for better understanding. I need to know what I'm doing wrong.

``````package com.company;

import java.io.IOException;
import java.util.*;

public class Main {

public static ArrayList<Integer> randomArrayList(int n)
{
ArrayList<Integer> list = new ArrayList<>();
Random random = new Random();

for (int i = 0; i < n; i++)
{
}
return list;
}

public static List<Integer> MergeSort(List<Integer> A) throws  Exception{

if (A.size()==1)
return A;

int mid = A.size()/2;

List<Integer> left = A.subList(0,mid);
List<Integer> right = A.subList(mid,A.size());

left = MergeSort(left);
right = MergeSort(right);
A = Merge(left,right);

return A;
}

public static List<Integer> Merge(List<Integer> L,List<Integer> R) throws  Exception{

List<Integer> output = new ArrayList<Integer>(Collections.nCopies(L.size() + R.size(), 0));

int i = 0; int j = 0; int k = 0;
while (i < L.size() && j < R.size()) {
if (L.get(i) < R.get(j)) {
output.set(k, L.get(i));
i=i+1;
}
else {
output.set(k, R.get(j));
j=j+1;
}
k++;
}
while (i < L.size()) {
output.set(k, L.get(i));
i=i+1;
k++;
}
while (j < R.size()) {
output.set(k, R.get(j));
j=j+1;
k++;
}

return output;
}

public static List<Integer> QuickSort(List<Integer> A) throws  Exception{

if (A.size()==1 || A.size()==0)
return A;

//The pivot is a random element of the array A
int randomIndex = new Random().nextInt(A.size());
Integer P = A.get(randomIndex);

//Swap first element of A with selected pivot
Integer tmp;
A.set(randomIndex,A.get(0));
A.set(0, P);

//Initiate i and l (partition analysis progress counters)
int l = 0, i = l + 1, r = A.size();

for (int j = l + 1; j < r; j++ ){
if (A.get(j)< P ){
//Swap A[j] and A[i]
tmp = A.get(j);
A.set(j,A.get(i));
A.set(i,tmp);
//Increase i by 1 (counting the pos of already partitioned)
i = i + 1;
}
}

//Swap A[l] (Pivot) and A[i-1] most left element bigger than pivot
tmp = A.get(l);
A.set(l,A.get(i-1));
A.set(i - 1, tmp);

QuickSort(A.subList(0,i-1));
QuickSort(A.subList(i,A.size()));

return A;
}
``````

In the main function I run 20 times both methods to compare. You can copy the two sections of the code and run it

``````    public static void main(String[] args) throws Exception{

long startTime, endTime, duration;

//Compare 20 times QuickSort vs MergeSort
for (int i=0;i<20;i++){

List<Integer> arreglo = randomArrayList(100000);

startTime = System.nanoTime();
QuickSort(arreglo);
endTime = System.nanoTime();

duration = (endTime - startTime)/1000000;
System.out.println("Quicksort: " + Long.toString(duration));

startTime = System.nanoTime();
MergeSort(arreglo);
endTime = System.nanoTime();

duration = (endTime - startTime)/1000000;
System.out.println("MergeSort: "+Long.toString(duration));

//System.out.println(Arrays.toString(QuickSort(arreglo).toArray()));
//System.out.println(Arrays.toString(MergeSort(arreglo).toArray()));
}
}
}
``````
• It's because you're not doing micro benchmark properly. Commented Jul 24, 2015 at 16:53
• Keep in mind that quick sort has a worst case performance of O(n²), whereas merge sort is always O(n log n). Commented Jul 24, 2015 at 16:58
• Try to move `new Random()` out of your `QuickSort` method Commented Jul 24, 2015 at 16:59
• I know that quicksort worst case performance is O(n²) but a random chose of the pivot gives you the average performance O(n log n) Commented Jul 24, 2015 at 17:01
• You should sort a copy of the input list for the first sort. As it is, the second sort routine is always being invoked with a list in sorted order. Commented Jul 24, 2015 at 20:25

Here's my comment as an answer: You are sorting the same list twice, so the second sort is always sorting an already-sorted list (which is almost always not the same list as was fed to the first sort).

Try this variant of your main code:

``````public static void main(String[] args) throws Exception{

long startTime, endTime, duration;

//Compare 20 times QuickSort vs MergeSort
for (int i=0;i<20;i++){

List<Integer> arreglo = randomArrayList(100000);
List<Integer> arreglo2 = new ArrayList<>(arreglo); // Make a copy

startTime = System.nanoTime();
QuickSort(arreglo);                                // Sort the original
endTime = System.nanoTime();

duration = (endTime - startTime)/1000000;
System.out.println("Quicksort: " + Long.toString(duration));

startTime = System.nanoTime();
MergeSort(arreglo2);                               // Sort the copy
endTime = System.nanoTime();

duration = (endTime - startTime)/1000000;
System.out.println("MergeSort: "+Long.toString(duration));
}
}
``````
• Using an int[] array instead of the ArrayList wrapper class will probably gain you a bit of performance. There is overhead with the generic List classes that may not get optimized away.

• Substituting something like (left + right) / 2 for your Random pivot code will also remove some overhead which will improve performance.

• QuickSort specific, using InsertionSort on smaller sub arrays is more efficient than the partitioning.

• Finally, avoiding recursive calls will lower stack usage which can benefit performance.

Here's some Javascript (sorry I don't have a Java version, you can translate it if you'd like). The implementation should be very fast.

``````/*
QUICK SORT IN PLACE
Use iterative approach with stack
Use insertion sort for small subsets
*/
function quickSortIP(arr) {
var stack = [];
var left = 0;
var right = arr.length - 1;
var i, j, swap, temp;
while(true) {
if(right - left <= 25){
for(j=left+1; j<=right; j++) {
swap = arr[j];
i = j-1;
while(i >= left && arr[i] > swap) {
arr[i+1] = arr[i--];
}
arr[i+1] = swap;
}
if(stack.length === 0)    break;
right = stack.pop();
left = stack.pop();
} else {
var median = (left + right) >> 1;
i = left + 1;
j = right;
swap = arr[median]; arr[median] = arr[i]; arr[i] = swap;
if(arr[left] > arr[right]) {
swap = arr[left]; arr[left] = arr[right]; arr[right] = swap;
} if(arr[i] > arr[right]) {
swap = arr[i]; arr[i] = arr[right]; arr[right] = swap;
} if(arr[left] > arr[i]) {
swap = arr[left]; arr[left] = arr[i]; arr[i] = swap;
}
temp = arr[i];
while(true){
do i++; while(arr[i] < temp);
do j--; while(arr[j] > temp);
if(j < i)    break;
swap = arr[i]; arr[i] = arr[j]; arr[j] = swap;
}
arr[left + 1] = arr[j];
arr[j] = temp;
if(right - i + 1 >= j - left){
stack.push(i);
stack.push(right);
right = j - 1;
}else{
stack.push(left);
stack.push(j - 1);
left = i;
}
}
}
return arr;
}
``````