Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm creating a Java program in which I implement the MergeSort algorithm. My code is the following (so far):

public void merge(Integer [] left, Integer[] right, Integer[] a) {

    int i = 0;                  // a[] index (A)
    int lIndex = 0;             // left[] index (B)
    int rIndex = 0;             // right[] index (C)

    // Begin main merge process
    while((lIndex < left.length) && (rIndex < right.length)) {
        if(left[lIndex] <= right[rIndex]) {
            a[i] = left[lIndex]; // Store it
            lIndex++; // Increase index of left[]
        else {
            a[i] = right[rIndex]; // Store it
            rIndex++; // Increase index of right[]
        i++; // Increase index of a[]
    if(i == lIndex) { // If the left array is sorted
        while(rIndex < right.length) { // Copy the contents of rhe right array to a[]
            a[i] = right[rIndex];
    else { // If the right array is sorted
        while(lIndex < left.length) { // Copy the contents of the left array to a[]
            a[i] = left[lIndex];

The problem is that every time I execute the function, the input array is returned partially sorted. I mean the majority of the elements are at their correct position but there are one or two that are placed wrong and also a couple of others that are duplicates of other elements! As I can't see what's really the problem, can anyone please help me? The implementation is a mini project for a lesson and I can't use int[ ] (let's say) instead of Integer[ ], in order to copy the contents of array A[ ] with the Arrays.copyOf() method. Thanks in advance and please forgive my syntax/spelling mistakes.

Note that the input array is always a power of 2 (2, 4, 8, 16 etc), so every time I divide by 2 to find the index of the middle element, I always get an even number.

share|improve this question

2 Answers 2

up vote 1 down vote accepted

From what I can tell, the problem is in your merge method, here:

if (i == lIndex) { // If the left array is sorted ...

i is not necessarily equal to lIndex when the left array is sorted. As a result, the final part of the merge is not always executed. The duplicate elements you're seeing are left over from the original array A in the positions that weren't overwritten because of this.

The correct condition is:

if (lIndex == left.length) { // If the left array is sorted ...
share|improve this answer
Thank you very much, that solved the problem! It turned out to be a misunderstanding of the pseudocode of MergeSort, which I studied from the book. –  PiXel1225 Mar 31 '13 at 12:13

I think your problem is here:

if(i == lIndex)

The way to check if you've run out of elements in a list is this:

if (lIndex == left.length)

In other words, if you take some elements from the left and some from the right, even if you exhaust the left array first, i will NOT be equal to lIndex when you've exhausted the left array. It will be greater.

share|improve this answer
Thank you very much for your answer. As I wrote to Ephemerality, it turned out to be a misunderstanding of the pseudocode of MergeSort, which I studied from the book. –  PiXel1225 Mar 31 '13 at 12:14

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.