Merge sort is a sorting technique based on divide and conquer technique. With worst-case time complexity being Ο(n log n), it is one of the most respected algorithms.
| Best | Average | Worst | Memory | Stable |
|---|---|---|---|---|
| n log(n) | n log(n) | n log(n) | n | Yes |
procedure merge( var a as array, var b as array )
var c as array
while ( a and b have elements )
if ( a[0] > b[0] )
add b[0] to the end of c
remove b[0] from b
else
add a[0] to the end of c
remove a[0] from a
end if
end while
while ( a has elements )
add a[0] to the end of c
remove a[0] from a
end while
while ( b has elements )
add b[0] to the end of c
remove b[0] from b
end while
return c
end procedure
procedure mergeDesc( var a as array, var b as array )
var c as array
while ( a and b have elements )
if ( a[0] < b[0] )
add b[0] to the end of c
remove b[0] from b
else
add a[0] to the end of c
remove a[0] from a
end if
end while
while ( a has elements )
add a[0] to the end of c
remove a[0] from a
end while
while ( b has elements )
add b[0] to the end of c
remove b[0] from b
end while
return c
end procedure
procedure mergeSort( var a as array )
if ( n == 1 ) return a
var l1 as array = a[0] ... a[n/2]
var l2 as array = a[n/2+1] ... a[n]
l1 = mergeSort( l1 )
l2 = mergeSort( l2 )
return merge( l1, l2 )
end procedure
procedure mergeSortDesc( var a as array )
if ( n == 1 ) return a
var l1 as array = a[0] ... a[n/2]
var l2 as array = a[n/2+1] ... a[n]
l1 = mergeSortDesc( l1 )
l2 = mergeSortDesc( l2 )
return mergeDesc( l1, l2 )
end procedure
# Python program for implementation of MergeSort Acsending and Descending
def mergeSort(arr):
if len(arr) >1:
mid = len(arr)//2 #Finding the mid of the array
L = arr[:mid] # Dividing the array elements
R = arr[mid:] # into 2 halves
mergeSort(L) # Sorting the first half
mergeSort(R) # Sorting the second half
i = j = k = 0
# Copy data to temp arrays L[] and R[]
while i < len(L) and j < len(R):
if L[i] < R[j]:
arr[k] = L[i]
i+=1
else:
arr[k] = R[j]
j+=1
k+=1
# Checking if any element was left
while i < len(L):
arr[k] = L[i]
i+=1
k+=1
while j < len(R):
arr[k] = R[j]
j+=1
k+=1
def mergeSortDesc(arr):
if len(arr) >1:
mid = len(arr)//2 #Finding the mid of the array
L = arr[:mid] # Dividing the array elements
R = arr[mid:] # into 2 halves
mergeSortDesc(L) # Sorting the first half
mergeSortDesc(R) # Sorting the second half
i = j = k = 0
# Copy data to temp arrays L[] and R[]
while i < len(L) and j < len(R):
if L[i] > R[j]:
arr[k] = L[i]
i+=1
else:
arr[k] = R[j]
j+=1
k+=1
# Checking if any element was left
while i < len(L):
arr[k] = L[i]
i+=1
k+=1
while j < len(R):
arr[k] = R[j]
j+=1
k+=1
arr = [12, 11, 13, 5, 6, 7]
print ("Given array is", end="\n")
print(arr)
mergeSort(arr)
print("Sorted array is: ", end="\n")
print(arr)
arr = [12, 11, 13, 5, 6, 7]
print ("Given array is", end="\n")
print(arr)
mergeSortDesc(arr)
print("Sorted array is: ", end="\n")
print(arr)// C++ program for Merge Sort
#include <iostream>
using namespace std;
// Merges two subarrays of arr[].
// First subarray is arr[l..m]
// Second subarray is arr[m+1..r]
void merge(int arr[], int l, int m, int r)
{
int i, j, k;
int n1 = m - l + 1;
int n2 = r - m;
/* create temp arrays */
int L[n1], R[n2];
/* Copy data to temp arrays L[] and R[] */
for (i = 0; i < n1; i++)
L[i] = arr[l + i];
for (j = 0; j < n2; j++)
R[j] = arr[m + 1 + j];
/* Merge the temp arrays back into arr[l..r]*/
i = 0; // Initial index of first subarray
j = 0; // Initial index of second subarray
k = l; // Initial index of merged subarray
while (i < n1 && j < n2) {
if (L[i] <= R[j]) {
arr[k] = L[i];
i++;
}
else {
arr[k] = R[j];
j++;
}
k++;
}
/* Copy the remaining elements of L[], if there
are any */
while (i < n1) {
arr[k] = L[i];
i++;
k++;
}
/* Copy the remaining elements of R[], if there
are any */
while (j < n2) {
arr[k] = R[j];
j++;
k++;
}
}
// l is for left index and r is right index of the
// sub-array of arr to be sorted */
void mergeSort(int arr[], int l, int r)
{
if (l < r) {
// Same as (l+r)/2, but avoids overflow for
// large l and h
int m = l + (r - l) / 2;
// Sort first and second halves
mergeSort(arr, l, m);
mergeSort(arr, m + 1, r);
merge(arr, l, m, r);
}
}
/* UTILITY FUNCTIONS
Function to print an array */
void printArray(int A[], int size)
{
int i;
for (i = 0; i < size; i++)
cout << A[i] << " ";
}
// Driver code
int main()
{
int arr[] = { 12, 11, 13, 5, 6, 7 };
int arr_size = sizeof(arr) / sizeof(arr[0]);
cout << "Given array is \n";
printArray(arr, arr_size);
mergeSort(arr, 0, arr_size - 1);
cout << "\nSorted array is \n";
printArray(arr, arr_size);
return 0;
}// C program for Merge Sort
#include <stdio.h>
void merge(int arr[], int l, int m, int r)
{
int i, j, k;
int n1 = m - l + 1;
int n2 = r - m;
/* create temp arrays */
int L[n1], R[n2];
/* Copy data to temp arrays L[] and R[] */
for (i = 0; i < n1; i++)
L[i] = arr[l + i];
for (j = 0; j < n2; j++)
R[j] = arr[m + 1 + j];
/* Merge the temp arrays back into arr[l..r]*/
i = 0; // Initial index of first subarray
j = 0; // Initial index of second subarray
k = l; // Initial index of merged subarray
while (i < n1 && j < n2) {
if (L[i] <= R[j]) {
arr[k] = L[i];
i++;
}
else {
arr[k] = R[j];
j++;
}
k++;
}
/* Copy the remaining elements of L[], if there
are any */
while (i < n1) {
arr[k] = L[i];
i++;
k++;
}
/* Copy the remaining elements of R[], if there
are any */
while (j < n2) {
arr[k] = R[j];
j++;
k++;
}
}
/* l is for left index and r is right index of the
sub-array of arr to be sorted */
void mergeSort(int arr[], int l, int r)
{
if (l < r) {
// Same as (l+r)/2, but avoids overflow for
// large l and h
int m = l + (r - l) / 2;
// Sort first and second halves
mergeSort(arr, l, m);
mergeSort(arr, m + 1, r);
merge(arr, l, m, r);
}
}
/* Function to print an array */
void printArray(int A[], int size)
{
int i;
for (i = 0; i < size; i++)
printf("%d ", A[i]);
printf(" ");
}
// Driver code
int main()
{
int arr[] = { 12, 11, 13, 5, 6, 7 };
int arr_size = sizeof(arr) / sizeof(arr[0]);
printf("Given array is ");
printArray(arr, arr_size);
mergeSort(arr, 0, arr_size - 1);
printf("\nSorted array is ");
printArray(arr, arr_size);
return 0;
}// Java program for implementation of MergeSort
class MergeSort
{
void merge(int arr[], int l, int m, int r)
{
// Find sizes of two subarrays to be merged
int n1 = m - l + 1;
int n2 = r - m;
/* Create temp arrays */
int L[] = new int [n1];
int R[] = new int [n2];
/*Copy data to temp arrays*/
for (int i=0; i<n1; ++i)
L[i] = arr[l + i];
for (int j=0; j<n2; ++j)
R[j] = arr[m + 1+ j];
/* Merge the temp arrays */
// Initial indexes of first and second subarrays
int i = 0, j = 0;
// Initial index of merged subarry array
int k = l;
while (i < n1 && j < n2)
{
if (L[i] <= R[j])
{
arr[k] = L[i];
i++;
}
else
{
arr[k] = R[j];
j++;
}
k++;
}
/* Copy remaining elements of L[] if any */
while (i < n1)
{
arr[k] = L[i];
i++;
k++;
}
/* Copy remaining elements of R[] if any */
while (j < n2)
{
arr[k] = R[j];
j++;
k++;
}
}
// Main function that sorts arr[l..r] using
// merge()
void sort(int arr[], int l, int r)
{
if (l < r)
{
// Find the middle point
int m = (l+r)/2;
// Sort first and second halves
sort(arr, l, m);
sort(arr , m+1, r);
// Merge the sorted halves
merge(arr, l, m, r);
}
}
/* A utility function to print array of size n */
static void printArray(int arr[])
{
int n = arr.length;
for (int i=0; i<n; ++i)
System.out.print(arr[i] + " ");
System.out.println();
}
// Driver method
public static void main(String args[])
{
int arr[] = {12, 11, 13, 5, 6, 7};
System.out.println("Given Array");
printArray(arr);
MergeSort ob = new MergeSort();
ob.sort(arr, 0, arr.length-1);
System.out.println("\nSorted array");
printArray(arr);
}
}// JavaScript program for implementation of MergeSort
function merge(arr, left, middle, right) {
// Find sizes of two subarrays to be merged
const n1 = middle - left + 1
const n2 = right - middle
/* Create temp arrays */
const L = Array(n1)
const R = Array(n2)
/*Copy data to temp arrays*/
for (let i = 0; i < n1; ++i) L[i] = arr[left + i]
for (let j = 0; j < n2; ++j) R[j] = arr[middle + 1 + j]
/* Merge the temp arrays */
// Initial indexes of first and second subarrays
let i = 0,
j = 0
// Initial index of merged subarray array
let k = left
while (i < n1 && j < n2) {
if (L[i] <= R[j]) {
arr[k] = L[i]
i++
} else {
arr[k] = R[j]
j++
}
k++
}
/* Copy remaining elements of L[] if any */
while (i < n1) {
arr[k] = L[i]
i++
k++
}
/* Copy remaining elements of R[] if any */
while (j < n2) {
arr[k] = R[j]
j++
k++
}
}
// Main function that sorts arr[l..r] using
// merge()
function sort(arr, left, right) {
if (left < right) {
// Find the middle poconst
const middle = Math.floor((left + right) / 2)
// Sort first and second halves
sort(arr, left, middle)
sort(arr, middle + 1, right)
// Merge the sorted halves
merge(arr, left, middle, right)
}
return arr
}
const arr = [12, 11, 13, 5, 6, 7]
console.log(sort(arr, 0, arr.length - 1))// Go program for implementation of MergeSort
package main
import "fmt"
// Merges two subarrays of arr[].
// First subarray is arr[l..m]
// Second subarray is arr[m+1..r]
func merge(arr []int, l int, m int, r int) {
n1 := m - l + 1
n2 := r - m
// create temp arrays
L := make([]int, n1)
R := make([]int, n2)
// Copy data to temp arrays L[] and R[]
for i := 0; i < n1; i++ {
L[i] = arr[l+i]
}
for j := 0; j < n2; j++ {
R[j] = arr[m+1+j]
}
// Merge the temp arrays back into arr[l..r]
// Initial index of first subarray
i := 0
// Initial index of second subarray
j := 0
// Initial index of merged subarray
k := l
for i < n1 && j < n2 {
if L[i] <= R[j] {
arr[k] = L[i]
i++
} else {
arr[k] = R[j]
j++
}
k++
}
// Copy the remaining elements of L[], if there
// are any
for i < n1 {
arr[k] = L[i]
i++
k++
}
// Copy the remaining elements of R[], if there
// are any
for j < n2 {
arr[k] = R[j]
j++
k++
}
}
// l is for left index and r is right index of the
// sub-array of arr to be sorted
func mergeSort(arr []int, l int, r int) {
if l < r {
// Same as (l+r)/2, but avoids overflow for
// large l and h
m := l + (r-l)/2
// Sort first and second halves
mergeSort(arr, l, m)
mergeSort(arr, m+1, r)
merge(arr, l, m, r)
}
}
// Driver code
func main() {
arr := []int{12, 11, 13, 5, 6, 7}
fmt.Println("Given array is")
fmt.Println(arr)
mergeSort(arr, 0, len(arr)-1)
fmt.Println("\nSorted array is")
fmt.Println(arr)
}# Ruby program for implementation of MergeSort
def merge_sort(arr)
return arr if arr.length <= 1
mid = arr.length / 2
left = merge_sort(arr[0...mid])
right = merge_sort(arr[mid..arr.length])
merge(left, right)
end
def merge(left, right)
if left.empty?
right
elsif right.empty?
left
elsif left.first < right.first
[left.first] + merge(left[1..left.length], right)
else
[right.first] + merge(left, right[1..right.length])
end
end
arr = [12, 11, 13, 5, 6, 7]
p merge_sort(arr)