from functools import reduce
def find_remainder(arr,n):
sum_1=reduce(lambda x,y: x*y,arr)
remainder=sum_1%n
print(remainder)
arr=[100,10,5,25,35,14]
n=11
find_remainder(arr,n)
Solve Problems by Coding Solutions - A Complete solution for python programming
from functools import reduce
def find_remainder(arr,n):
sum_1=reduce(lambda x,y: x*y,arr)
remainder=sum_1%n
print(remainder)
arr=[100,10,5,25,35,14]
n=11
find_remainder(arr,n)
def construct(n, m, a):
ind = 0
for i in range(n):
if (a[i]!=-1):
ind = i
break
for i in range(ind-1, -1, -1):
if (a[i]==-1):
a[i]=(a[i + 1]-1 + m)% m
for i in range(ind + 1, n):
if(a[i]==-1):
a[i]=(a[i-1]+1)% m
print(*a)
n, m = 6, 7
a =[5, -1, -1, 1, 2, 3]
construct(n, m, a)
def stopping_station( p, n):
num = 1
dem = 1
s = p
while p != 1:
dem *= p
p-=1
t = n - s + 1
while t != (n-2 * s + 1):
num *= t
t-=1
if (n - s + 1) >= s:
return int(num/dem)
else:
return -1
num = stopping_station(4, 12)
if num != -1:
print(num)
else:
print("Not Possible")
import re
phoneNumRegex = re.compile(r'\d\d\d-\d\d\d-\d\d\d\d')
mo = phoneNumRegex.search('My number is 415-555-4242.')
print('Phone number found: ' + mo.group())
import turtle
color1 = 'yellow'
color2 = ''
color3 = 'skyblue'
color4 = ''
s = turtle.getscreen()
t = turtle.Turtle()
def x():
t.pensize(20)
t.fillcolor(color1)
t.begin_fill()
t.right(90)
t.forward(50)
t.right(180)
t.circle(40, -180)
t.right(180)
t.forward(200)
t.right(180)
t.circle(100, -180)
t.backward(20)
t.left(15)
t.circle(500, -20)
t.backward(20)
t.circle(40, -180)
t.left(7)
t.backward(50)
t.up()
t.left(90)
t.forward(10)
t.right(90)
t.down()
t.right(240)
t.circle(50, -70)
t.end_fill()
def glass():
t.up()
t.right(230)
t.forward(100)
t.left(90)
t.forward(20)
t.right(90)
t.down()
t.fillcolor(color3)
t.begin_fill()
t.right(150)
t.circle(90, -55)
t.right(180)
t.forward(1)
t.right(180)
t.circle(10, -65)
t.right(180)
t.forward(110)
t.right(180)
t.circle(50, -190)
t.right(170)
t.forward(80)
t.right(180)
t.circle(45, -30)
t.end_fill()
def y():
t.up()
t.right(60)
t.forward(100)
t.right(90)
t.forward(75)
t.fillcolor(color1)
t.begin_fill()
t.down()
t.forward(30)
t.right(255)
t.circle(300, -30)
t.right(260)
t.forward(30)
t.end_fill()
x()
glass()
y()
turtle.done()