220927

# sum = 0 # n = int(input()) # y = input().split() # # for i in range(len(y)): # y[i] = int(y[i]) # if y[i] % 2 == 0: # sum += 1 # print(sum) # sum = 0 # n = int(input()) # for i in range(n+1): # if i % 10 == 1: # sum += 1 # print(sum) # sum = 0 # n = int(input()) # y = input().split() # max = -9999999 # for i in range(len(y)): # y[i] = int(y[i]) # if max < y[i]: # max = y[i] # print(max) # y.sort() # print(y[len(y)-1]) # n = int(input()) # for i in range(1, n+1): # if n%i == 0: # print(i, end=' ') # sum = 0 # n = int(input()) # for i in range(1, n+1): # if n%i == 0: # sum += 1 # # if sum == 2: # print('prime') # else: # print('not prime') # n, k = input().split() # n=int(n) # k=int(k) # print(n**k) # sum = 0 # n = int(input()) # # for i in range(9999999999): # n //= 10 # sum += 1 # if n== 0: # break # print(sum) # sum = 0 # a, b = input().split() # a=int(a) # b=int(b) # for i in range (a, b+1): # if i%2==0: # sum -= i # print('-', i, sep='', end='') # else: # sum += i # print('+', i, sep='', end='') # print('=', sum, sep='') # n = int(input()) # for i in range(1, 1000000000): # if i*i >= n: # print(n-((i-1)*(i-1)), i-1) # break # array: List # Linked List # [Data:Link] # data = [] # print(type(data)) # # data.append(10) # data.append(5) # data.append(30) # # print(data) # data.sort() # print(data) # data.append('HELLO') # print(data) # data.append([10, 20, 30]) # print(data) # data = [] # data.append([1, 2, 3]) # data.append([4, 5, 6]) # data.append([7, 8, 9]) # print(data) # # for i in range(len(data)): # for j in range(len(data[i])): # print(data[i][j], end=' ') # print() # def d_b(): # print('HELLO!') # # def oo(): # print('WORLD') # # def sum(x, y): # print('summation result is', end='>>>') # return x+y # x, y = input().split() # x = int(x) # y = int(y) # print(sum(x, y)) # import matplotlib.pyplot as plt # plt.plot([10, 5, 20, 4]) # plt.plot([20, 30, 40, 10]) # plt.show() # x=int(input()) # y=input().split() # # for j in range(x): # for i in range(len(y)): # print(y[(i+j)%x], end=' ') # print() # def draw(x, data): # for i in range(x): # for j in range(x): # print(data[(i+j)%x], end=' ') # print() # x = int(input()) # y = input().split() # draw(x, y)