# merge sort with insertion sort

I was implementing a merge sort in Algorithms in Java 4th edition. My basic merge sort works, and I want to improve the algorithm by using insertion sort when the array size is less than 7. I thought it is obvious an efficient improvement, but actually the original one is faster than the improved one for large data.

Here is my improved merge sort, CUTOFF = 7:

``````private static void merge(Comparable[] a, Comparable[] aux, int lo, int mid, int hi) {

// Copy to aux[]
for (int i = lo; i <= hi; i++) {
aux[i] = a[i];
}

// Merge back to a[]
int i = lo, j = mid + 1;
for (int k = lo; k <= hi; k++) {
if      (i > mid)              a[k] = aux[j++];
else if (j > hi)               a[k] = aux[i++];
else if (less(aux[i], aux[j])) a[k] = aux[i++];
else                           a[k] = aux[j++];
}
}

private static void sort(Comparable[] a, Comparable[] aux, int lo, int hi) {

// #1 improvement
// Stop condition for this recursion.
// This time we add a CUTOFF, when the items in array
// is less than 7, we will use insertion sort.
if (hi <= lo + CUTOFF - 1) {
Insertion.sort(a, lo, hi);
return;
}

int mid = lo + (hi - lo) / 2;
sort(a, aux, lo, mid);
sort(a, aux, mid + 1, hi);
if (!less(a[mid+1], a[mid])) return;
merge(a, aux, lo, mid, hi);
}

public static void sort(Comparable[] a) {
Comparable[] aux = new Comparable[a.length];
sort(a, aux, 0, a.length - 1);
}
``````

The insertion sort code:

``````public static void sort(Comparable[] a, int lo, int hi) {
for (int i = lo; i <= hi; i++) {
for (int j = i; j > 0 && less(a[j], a[j - 1]); j--) {
exch(a, j, j - 1);
}
}
}
``````

I used a SortCompare.java to compare the execute time:

``````public class SortCompare {

public static double time(String alg, Comparable[] a) {
Stopwatch timer = new Stopwatch();
if (alg.equals("Insertion")) Insertion.sort(a);
if (alg.equals("Selection")) Selection.sort(a);
if (alg.equals("Shell")) Shell.sort(a);
if (alg.equals("Merge")) Merge.sort(a);
if (alg.equals("MergeWithImprovements")) MergeWithImprovements.sort(a);
//if (alg.equals("Quick")) Quick.sort(a);
//if (alg.equals("Heap")) Heap.sort(a);
if (alg.equals("InsertionWithSentinel")) InsertionWithSentinel.sort(a);
return timer.elapsedTime();
}

public static double timeRandomInput(String alg, int N, int T) {
// Use alg to sort T random arrays of length N.
double total = 0.0;
Double[] a = new Double[N];
for (int t = 0; t < T; t++) {
for (int i = 0; i < N; i++) {
a[i] = StdRandom.uniform();
}
total += time(alg, a);
}
}

public static void main(String[] args) {
String alg1 = args[0];
String alg2 = args[1];
int N = Integer.parseInt(args[2]);
int T = Integer.parseInt(args[3]);
double t1 = timeRandomInput(alg1, N, T);  // Total for alg1
double t2 = timeRandomInput(alg2, N, T);
StdOut.printf("For %d random Doubles\n   %s is", N, alg1);
StdOut.printf(" %.1f times faster than %s\n", t2/t1, alg2);
}
}
``````

I generated 100 arrays with 10000 elements each. The original merge sort is 30 times faster than the improved one!

-
Interesting, if you're not gonna ask any question, go and work on it, as you didn't ask any question, yet. –  Azad Aug 6 '13 at 1:57
isn't this same algorithm is present in java? –  AKS Aug 6 '13 at 16:29

You insertion sort function is definitely wrong. Note the `j > 0` end condition. You pass in `[lo..hi]` but your code can iterate `j` all the way down to `1`. I think you want something like:

``````public static void sort(Comparable[] a, int lo, int hi) {
for (int i = lo + 1; i <= hi; i++) {
for (int j = i; j > lo && less(a[j], a[j - 1]); j--) {
exch(a, j, j - 1);
}
}
}
``````
-
Oh, this is definitely the problem. I forgot to check this. Thanks! –  Eric Zhang Aug 6 '13 at 3:25