def calculate(): if symbol == '+': add.add() elif symbol == '-': sub.sub() elif symbol == '*': mul.mul() elif symbol == '/': div.div() else: print('Please use mathematical symbol')
# Create a package Calculator having four files add.py, sub.py, mul.py # and div.py with functions to perform addition, subtraction, # multiplication and division respectively. Import Calculator package # in your code and implement simple calculator. from add import add from sub import sub from mul import mul from div import div print(add(7,5)) print(sub(17,15)) print(mul(8,3)) print(div(7,5))
def euler(list): j = [] for i in range(13, len(list)): a = mul(list[i - 13: i]) j.append(a) return max(j)
import mul print(mul.mul(7, 8)) print(__name__)
import mul if __name__ == "__main__": print(mul.mul(10, 10))
def __call__(self, x, train=False): branches = [] for i in six.moves.range(self.branch_num): branches.append(self['branch{}'.format(i)](x, train=train)) x = self.identity(x, train=train) return mul(*branches, train=train) + x
import mul print(mul.mul(5, 4)) print(__name__)
def test_function(self): result = mul.mul(2, 4) self.assertEqual(result, 8)
1 for '+' 2 for '-' 3 for 'x' 4 for '/' """) return [x,y,op] def output(result): print "The result is:", result if __name__ == "__main__": print "Hello Dummy Cal!" # get input from user result = None while result is None: (x, y, op) = getUserInput() if op == 1: result = add(x, y) elif op == 2: result = sub(x, y) elif op == 3: result = mul(x, y) elif op == 4: result = div(x, y) else: print "Please enter a valid operator" # output result. output(result)
import add import sub import mul import div c = add.add(2,3) print(c) d = sub.sub(2,3) print(d) a = mul.mul(2,3) print(a) b = div.div(2,3) print(b)
from add import add from mul import mul from Division import div from subtract import subtract print("Calculations") add(4,3) print(subtract(4,2)) print(div(4,2)) print(mul(4,2))
resp = [] trec = [] dc = [] import mul f = open('digit', 'r') for line in f: a = line b = len(a) e = 0 while e < (b - 12): f = e+13 c = a[e:f] for i in c: trec.append(int(i)) k = (mul.mul(trec)) resp.append(k) e = e + 1 pp = trec dc.append(pp) trec = [] print(max(resp))
import div_u import mul print("Enter two space seperated numbers") a,b = map(int,input().split()) f = open("result.txt", "w") f.write(div_u._div(a,b)+"\n") f.write("--------------------"+"\n") f.write(mul.mul(a,b)+"\n") f.close()
def test_m(): assert mul.mul(2, 3) == 6, 'false'
import add import sub import mul import div import exp import sqrt a = int(input("a-> ")) b = int(input("b-> ")) print("a+b") print(add.add(a, b)) print("a-b") print(sub.sub(a, b)) print("a*b") print(mul.mul(a, b)) print("a/b") print(div.div(a, b)) print("a^(b)") print(exp.exp(a, b)) print("sqrt(a)") print(sqrt.sqrt(a))
def thissub(num1, num2): thisnum = num1 - num2 return thisnum def thismul(num1, num2): thisnum = num1 * num2 return thisnum def thisdiv(num1, num2): thisnum = num1 / num2 return thisnum if __name__ == "__main__": a = 10 b = 10 #These num of import print 'result add :', add.add(a, b) #add모듈의 함수 print 'result sub :', sub.sub(a, b) #sub모듈의 함수 print 'result mul :', mul.mul(a, b) #mul모듈의 함수 print 'result div :', div.div(a, b) #div모듈의 함수 #These thisnum of calc.py module print 'this is result add :', thisadd(a, b) #현재 모듈의 함수 print 'this is result sub :', thissub(a, b) #현재 모듈의 함수 print 'this is result mul :', thismul(a, b) #현재 모듈의 함수 print 'this is result div :', thisdiv(a, b) #현재 모듈의 함수
import ad import sub import mul import div print(ad.ad(6, 3)) print(sub.sub(6, 3)) print(mul.mul(6, 3)) print(div.div(6, 3))
""" num1, num2 = input(": ").split() print(num1) print(num2) print("------") """ import sum import mul import dec import div number1 = input("num1 : ") number2 = input("num2 : ") sum.sum(int(number1), int(number2)) dec.dec(int(number1), int(number2)) mul.mul(int(number1), int(number2)) div.div(int(number1), int(number2))
from add import add from sub import sub from mul import mul from divide import divide add() sub() mul() divide()