I have to implement a multi threaded Merge Sort and Quick sort in Java for my algorithms class and compare them to my single threaded versions. However, I have never multithreaded before.

Is the code I have able to be multi threaded or do I have to start again?

Here is my code for the single thread algorithms Merge Sort. the sort() method is part of the strategy pattern I have to implement.

``````    @Override
public int[] sort(int[] list) {
int array_size = list.length;
list = msort(list, 0, array_size-1);
return list;
}

int[] msort(int numbers[], int left, int right) {
int mid;
if (left<right) {
mid = (right + left) / 2;
msort(numbers, left, mid);
msort(numbers, mid+1, right);
merge(numbers, left, mid, mid+1, right);
}
return numbers;
}

void merge(int numbers[], int startA, int endA, int startB, int endB) {
int finalStart = startA;
int finalEnd = endB;
int indexC = 0;
int[] listC = new int[numbers.length];

while(startA <= endA && startB <= endB){
if(numbers[startA] < numbers[startB]){
listC[indexC] = numbers[startA];
startA = startA+1;
}
else{
listC[indexC] = numbers[startB];
startB = startB +1;
}
indexC++;
}

if(startA <= endA){
for(int i = startA; i < endA; i++){
listC[indexC]= numbers[i];
indexC++;
}
}

indexC = 0;
for(int i = finalStart; i <= finalEnd; i++){
numbers[i]=listC[indexC];
indexC++;
}
}
``````

Here is my quick sort

``````    @Override
public int[] sort(int[] list) {
int[] array = quickSort(list, 0, list.length-1);
return array;
}
int partition(int arr[], int left, int right)
{
int i = left, j = right;
int tmp;
int pivot = arr[(left + right) / 2];

while (i <= j) {
while (arr[i] < pivot)
i++;
while (arr[j] > pivot)
j--;
if (i <= j) {
tmp = arr[i];
arr[i] = arr[j];
arr[j] = tmp;
i++;
j--;
}
};

return i;
}

int[] quickSort(int arr[], int left, int right) {
int index = partition(arr, left, right);
if (left < index - 1)
quickSort(arr, left, index - 1);
if (index < right)
quickSort(arr, index, right);
return arr;
}
``````

Cheers!

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hey mitch, i dont recall asking anyone to write code for me. thanks for taking the time to post though –  Mike Feb 20 '12 at 0:32

Short answer - yes, these algorithms can be converted to be multi-threaded without starting from scratch (so far as I can see).

The key elements that make these "easy" to parallelize are:

• There are two recursive calls within each implementation
• Those two recursive calls operate on separate pieces of data - they shouldn't conflict with each other (e.g. even when working inside the same array, they're operating on different indices)
• The method making those recursive calls cannot proceed until both are complete
• That it doesn't matter which order those two calls are made in

Some more advice, not sure how useful this will be:

• If you put both recursive calls into a new thread, then the current thread will be idle while waiting for them both to complete
• When the number of elements left to work on is small, the overheads of threading may be higher than the gains.
• You might want to throttle the number of threads being used for this task in general - you might want to use some form of thread pool or work queue, with a fixed number of threads.
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sorry for the extremely late acceptance I did really appreciate your answer –  Mike Jul 2 '12 at 20:00