Beispiel #1
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def calculate():
    print('What would you like to do?')
    print('1. add')
    print('2. subtract')
    print('3. multiply')
    print('4. divide')

    print()
    try:
        operation = int(input(''))
    except ValueError:
        operation = int(input('That is not valid input. Please enter 1, 2, 3 or 4: '))
    finally:
        while(operation != 1 and operation != 2 and operation != 3 and operation != 4):    #the function would not work properly with the
            operation = int(input('That is not valid input. Please enter 1, 2, 3 or 4: '))     #while loop nested in an except statement
    if(operation == 1):
        print('You chose to add.')
        result = addition.add()
    elif(operation == 2):
        print('You chose to subtract.')
        result = subtraction.subtract()
    elif(operation == 3):
        print('You chose to multiply.')
        result = multiplication.multiply()
    elif(operation == 4):
        print('You chose to divide.')
        result = division.divide()
    print()
    print('The result is ' + str(result))
Beispiel #2
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def method():
    while True:
        print("Welcome to the simple calculator in python")
        op = input("Enter the operator: ")
        thislist = []
        a = True

        while a == True:
            n1 = input("enter the number: ")
            print("To calculate type '=': ")
            if n1 == "=":
                a = False
            else:
                n1 = float(n1)
                thislist.append(n1)

        if op == "+":
            answer = addition.add(thislist)
            print("result: " + str(answer))
            print(thislist)
        elif op == "-":
            answer = subtraction.sub(thislist)
            print("result: " + str(answer))
        elif op == "*":
            answer = multiplication.mul(thislist)
            print("result: " + str(answer))
        elif op == "/":
            answer = division.div(thislist)
            print("result: " + str(answer))
        else:
            print("Invalid operator")

        print(" ")
 def test_basic(self):
     input_a = [1, 1, 1, 1, 1, 1, 0, 1]
     input_b = [0, 0, 0, 0, 1, 1, 0, 1]
     output_number_add = addition.add(input_a, input_b)
     output_number_imp_add = addition.imp_add(input_a, input_b)
     expected_number = [1, 0, 0, 0, 0, 1, 0, 1, 0]
     self.assertEqual(output_number_add, expected_number)
     self.assertEqual(output_number_imp_add, expected_number)
Beispiel #4
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def buyLotsOfFruit(orderList):
    """
        orderList: List of (fruit, numPounds) tuples

    Returns cost of order
    :rtype: integer
    """
    totalCost = 0.0
    for item in orderList:
        totalCost = addition.add(totalCost, fruitPrices[item[0]] * item[1])
    return totalCost
Beispiel #5
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def server():
    hosted_services = ['add', 'mult']
    serversocket = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
    serversocket.bind(("localhost", 5000))
    serversocket.listen(5)
    print "RPC Server Listening"
    while 1:
        (clientsocket, address) = serversocket.accept()
        data = clientsocket.recv(1024)
        inp = data.split(",")
        if inp[0] in hosted_services:
            if inp[0] == "add":
                clientsocket.send(str(add(int(inp[1]), int(inp[2]))))
            elif inp[0] == "mult":
                clientsocket.send(str(mult(int(inp[1]), int(inp[2]))))
        else:
            clientsocket.send("Service Not Hosted by RPC Server")
Beispiel #6
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 def test_add_2(self):
     test_param1 = "abcdefg"
     test_param2 = 20
     result = addition.add(test_param1, test_param2)
     # self.assertTrue(isinstance(result,ValueError))
     self.assertIsInstance(result, ValueError)
Beispiel #7
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def test_add():
    assert addition.add(2, 3) == 5
Beispiel #8
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choice = input("Enter 1 for addition, 2 for subtraction, 3 for multiplication,4 for division,and 5 for modulo :")
a = int(input("enter the first number:"))
b = int(input("enter the second number:"))
if choice == "1":
	import addition as a1
	a1.add(a, b)
if choice == "2":
	import subtraction as s1
	s1.sub(a, b)
if choice == "3":
	import multiplication_function as m1
	m1.mul(a, b)
if choice == "4":
	import Division as d1
	d1.div(a, b)
if choice == "5":
	import modulus as m2
	m2.mod(a, b)
	
import addition

addition.add(10, 20)
addition.add(30, 40)

import os

os.mkdir("Info")
Beispiel #10
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import addition
import multiplication
import subtract
import division
print("1: Addition, 2: Subtraction, 3: Multiplication, 4: Division")

inp = input("Enter the choice: ")

if inp == "1":
    addition.add()
elif inp == "3":
    multiplication.multiplication()
elif inp == "2":
    subtract.subtraction()
elif inp == "4":
    division.division()
else:
    print("Invalid input")
def main():
    addition.add(20, 10)
    addition.add(30, 70)
Beispiel #12
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from addition import add
from subtraction import sub 
from division import div
from multiple import mult

print ("Welcome to Calculator Function")
print ("Choose option from menu:")
print ("1. Add")
print ("2. Subtract")
print ("3. Multiply")
print ("4. Division")

choice = int(input("Enter choice (1/2/3/4): "))

num1 = float(input("Enter 1st number: "))
num2 = float(input("Enter 2nd number: "))

if(choice is 1):
    print (add(num1,num2))

if (choice is 2):
    print (sub(num1, num2))

if(choice is 3):
    print (mult(num1,num2))

if (choice is 4):
    print (div(num1,num2))
#Menu file
import addition,subtract,multiplication,division,modulus



print("This program is for add,sub,mult and divide\n1.Addition\n2.Subtraction\n3.Multiplication\n4.Division\n5.Modulus")
s=int(input("Enter your choice:"))
if(s==1):
	print(addition.add())
elif(s==2):
	print(subtract.sub())
elif(s==3):
	print(multiplication.mult())
elif(s==4):
	print(division.div())
elif(s==5):
	print(modulus.mod())
else:
	print("Invalid input")	
Beispiel #14
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def test_simple_add():
    assert add(1, 2) == 3
    assert add(1, 1) == 2
    assert add(105, 321) == 426
Beispiel #15
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# Example 021: Python modules

import addition
import math as math_library

result = addition.add(3, 4, 5)
print(result)

print('Number pi: {}'.format(math_library.pi))
print('Definitions inside addition module: {}'.format(dir(addition)))
Beispiel #16
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print("This is the main file")
import addition
import Division
import multiplication
import subtraction
import modulus

op = input(
    "Select operation you wish to perform:\n 1.Addtion\n 2.Subraction\n 3. Multiplication\n 4. Division\n 5.Modulus\n"
)
a = input("Enter the first number: ")
b = input("Enter the second number: ")
if (op == 1):
    print(addition.add(a, b))
elif (op == 2):
    print(subtraction.sub(a, b))
elif (op == 3):
    print(multiplication.multiply(a, b))
elif (op == 4):
    print(Division.div(a, b))
elif (op == 5):
    print(modulus.mod(a, b))
def main_loop():
	print("Welcome to the simple calculator. Please select from the following options:")

	print()

	print("1. Addition")
	print("2. Subtraction")
	print("3. Multiplication")
	print("4. Division")

	print()

	user_selection = 0

	while True:
		try:
			user_selection = int(input("Please enter your selection: "))
			print()
			if (user_selection < 1 or user_selection > 4):
				raise CalculatorInputError("**Please enter a valid option**\n")
			else:
				break
		except CalculatorInputError as err:
			print(err)
			continue
		except ValueError:
			print("\n**Please enter an integer**\n")
			continue		

	while True:
		try:
			n1 = int(input("Please enter your first number: "))
			print()
			break		
		except ValueError:  # No custom error is necessary here
			print("\n**Please enter a valid number**\n")
			continue

	while True:
		try:
			n2 = int(input("Please enter your second number: "))
			print()
			break			
		except ValueError:  # No custom error is necessary here
			print("\n**Please enter a valid number**\n")
			continue

	if user_selection == 1:
		addition.add(n1, n2)

	elif user_selection == 2:
		subtraction.subtract(n1, n2)

	elif user_selection == 3:
		multiplication.multiply(n1, n2)

	elif user_selection == 4:
		division.divide(n1, n2)

	print()

	while True:
		try:
			response = input("Would you like to perform a new operation (y/n): ")
			if (response != "y" and response != "n"):
				raise CalculatorInputError("\n**Please enter a valid option**\n")
			else:
				if (response == "y"):
					print("\n**\n")		
					main_loop()
				else:
					quit()
		except CalculatorInputError as err:
			print(err)
			continue
def main():
	a_num = sys.stdin.readline().split(' ')
	b_num = sys.stdin.readline().split(' ')
	print addition.add(a_num,b_num)
	print addition.imp_add(a_num,b_num)
Beispiel #19
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def test_invalid_add():
    assert add(-5, 5) is None
Beispiel #20
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 def test_add4(self):
     test_param1 = ""
     test_param2 = 20
     result = addition.add(test_param1, test_param2)
     self.assertEqual(result, "Please enter numbers.")
Beispiel #21
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from addition import add
from subtraction import sub
from multiplication import multi
from division import div
from modulo import mod

print ("a=6, b=4")

print ("sum:", add(6, 4))
print ("difference:", sub(6, 4))
print ("product:", multi(6, 4))
print ("quotient:", div(6, 4))
print ("remainder:", mod(6, 4))
Beispiel #22
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 def test_add5(self):
     test_param1 = 0
     test_param2 = 0
     result = addition.add(test_param1, test_param2)
     self.assertEqual(result, 0)
import addition, message

addition.add(10, 20)  # 30
addition.add(30, 40)  # 70

message.display("Hello World")  # Hello World
Beispiel #24
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 def test_add_1(self):
     '''Sample doc string'''
     test_param1 = 10
     test_param2 = 20
     result = addition.add(test_param1, test_param2)
     self.assertEqual(result, 30)
Beispiel #25
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def multiply(x, y):
    return x * y


def divide(x, y):
    return x / y


#take input from user
print("Welcome to simple calculator, please select operation.")
print("1.Add")
print("2.Subtract")
print("3.Multiply")
print("4.Divide")
choice = input("Enter choice 1/2/3/4:")

num1 = int(input("Enter first number: "))
num2 = int(input("Enter the second number:"))

if choice == '1':
    print(num1, "+", num2, "=", add(num1, num2))
elif choice == '2':
    print(num1, "-", num2, "=", subtract(num1, num2))
elif choice == '3':
    print(num1, "x", num2, "=", multiply(num1, num2))
elif choice == '4':
    print(num1, "/", num2, "=", divide(num1, num2))
else:
    print("Invalid input")
Beispiel #26
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    def addition(self,x1,x2):
        return ad.add(x1,x2)
    


        
def main():
    a_num = sys.stdin.readline().split(' ')
    b_num = sys.stdin.readline().split(' ')
    print addition.add(a_num, b_num)
    print addition.imp_add(a_num, b_num)
Beispiel #28
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import multiplication
import addition
import division
import mod
import subtraction

x = 8
y = 5
result_of_subtraction = subtraction.sub(x, y)
result_of_addition = addition.add(x, y)
result_of_multiplication = multiplication.multiply(x, y)
result_of_division = division.divide(x, y)
result_of_mod = mod.mod(x, y)

print("X=8 and Y=5")
print("Result of subtraction: " + str(result_of_subtraction))
print("Result of addition: " + str(result_of_addition))
print("Result of multiplication: " + str(result_of_multiplication))
print("Result of division: " + str(result_of_division))
print("Result of mod: " + str(result_of_mod))
Beispiel #29
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import subtraction
import multiplication
import division

print("Please make a choice.  Select from:")
print("1 for add")
print("2 for subtract")
print("3 for multiply")
print("4 for divide")
if True:   
    choice = input("Enter selection(1, 2, 3, 4):")     
    if choice in ('1', '2', '3','4'):           
        num1 = float(input("Enter first number:"))
        num2 = float(input("Enter second number:"))
        if choice == '1':
            print(num1, "+", num2, "=", addition.add(num1,num2))
        elif choice == '2':
            print(num1, "-", num2, "=", subtraction.subtract(num1, num2))

        elif choice == '3':
            print(num1, "*", num2, "=", multiplication.multiply(num1, num2))

        elif choice == '4':
            try:
                print(num1, "/", num2, "=", division.divide(num1,num2))
            except ZeroDivisionError:
                print("You cannot divide by zero")  
        else:
            print("Invalid Input")

Beispiel #30
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#import addition
#import Add,Multiple
import Add, addition, Multiple
Add.add(10, 20)
addition.add(20, 30)
Multiple.mult(2, 3)
Beispiel #31
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import addition

for i in range(5):
    print(addition.add(i, i))
Beispiel #32
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from addition import add
from subtraction import sub
from division import div
from multiple import mult

print("Welcome to Calculator Function")
print("Choose option from menu:")
print("1. Add")
print("2. Subtract")
print("3. Multiply")
print("4. Division")

choice = int(input("Enter choice (1/2/3/4): "))

num1 = float(input("Enter 1st number: "))
num2 = float(input("Enter 2nd number: "))

if (choice is 1):
    print(add(num1, num2))

if (choice is 2):
    print(sub(num1, num2))

if (choice is 3):
    print(mult(num1, num2))

if (choice is 4):
    print(div(num1, num2))
Beispiel #33
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import addition
addition.add(10,20)
addition.add(10,50)
Beispiel #34
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import addition

addition.add(3, 4)