def merge(arr, l, m, r): 
    n1 = m - l + 1
    n2 = r- m 

    L = [0] * (n1) 
    R = [0] * (n2) 
    print(l,m)
    # Copy data to temp arrays L[] and R[] 
    for i in range(0 , n1): 
        L[i] = arr[l + i] 
  
    for j in range(0 , n2): 
        R[j] = arr[m + 1 + j] 
  
    i = 0     # Initial index of first subarray 
    j = 0     # Initial index of second subarray 
    k = l     # Initial index of merged subarray 
  
    while i < n1 and j < n2 : 
        if L[i] <= R[j]: 
            arr[k] = L[i] 
            i += 1
        else: 
            arr[k] = R[j] 
            j += 1
        k += 1
  
    # Copy the remaining elements of L[], if there 
    # are any 
    while i < n1: 
        arr[k] = L[i] 
        i += 1
        k += 1
  
    # Copy the remaining elements of R[], if there 
    # are any 
    while j < n2: 
        arr[k] = R[j] 
        j += 1
        k += 1
  

def mergeSort(arr,l,r): 
    if l < r: 
        m = int((l+(r-1))/2)
        mergeSort(arr, l, m) 
        mergeSort(arr, m+1, r) 
    	merge(arr, l, m, r) 
  
  
arr = [12, 11, 13, 5, 6, 7] 
n = len(arr) 
print ("Given array is") 
for i in range(n): 
    print ("%d" %arr[i]), 
  
mergeSort(arr,0,n-1) 
print ("\n\nSorted array is") 
for i in range(n): 
    print ("%d" %arr[i]),