示例#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))
示例#2
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def multiply_and_send_result(number1, number2):
    result = multiplication.multiply(number1, number2)
    callback_url = '{url}?number={number}'.format(url=CALLBACK_URL,
                                                  number=result)
    response = requests.get(callback_url)

    if not response:
        logger.error(
            'Multiplication result could not be sent to given callback.')
        return False

    return True
示例#3
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def calculate(a):
    return multiply(a, a)
示例#4
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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")

示例#5
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文件: app.py 项目: tsungic/w19a
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")
示例#6
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def divide_simple(dividend, divisor):
	len_dividend = len(dividend)
	len_divisor = len(divisor)

	# 1. 生成除数的倍数表(1-9)
	len_substractor = 9
	tbl_substractor = []
	tbl_substractor.append(divisor)
	for i in xrange(2,len_substractor+1):
		num, _, power_ten = multiply(divisor, i)
		tbl_substractor.append(num + [0] * power_ten)

	quotient = []
	remainder = dividend[:len_divisor-1]
	len_remainder = len_divisor -1

	# 2. 将除法换算成阶梯型减法
	for i in xrange(len_divisor-1, len_dividend):
		if len_remainder == 0 and dividend[i] == 0:
			if len(quotient) > 0:
				quotient.append(0)
			continue

		remainder.append(dividend[i])
		subtractor_idx = None

		min_idx = 0
		max_idx = len_substractor-1

		if not is_smaller_or_equal(tbl_substractor[min_idx], remainder):
			if len(quotient) > 0:
				quotient.append(0)
			continue

		if is_smaller_or_equal(tbl_substractor[max_idx], remainder):
			subtractor_idx = max_idx

		else:
			# 二分法查找:比remainder小的最大substractor
			while min_idx<=max_idx:
				mid_idx = (min_idx + max_idx) / 2

				if is_smaller_or_equal(tbl_substractor[mid_idx], remainder):
					min_idx = mid_idx+1
					subtractor_idx = mid_idx
				else:
					max_idx = mid_idx-1

		# if not is_smaller_or_equal(divisor, remainder):
		# 	if len(quotient) > 0:
		# 		quotient.append(0)
		# 	continue
		#
		# for i in xrange(len_substractor):
		# 	if is_smaller_or_equal(tbl_substractor[-1-i], remainder):
		# 		subtractor_idx = -1-i+len_substractor
		# 		break

		if subtractor_idx is None:
			continue

		digit_quotient = subtractor_idx+1
		quotient.append(digit_quotient)

		subtractor = tbl_substractor[subtractor_idx]

		for i, digit_substractor in enumerate(subtractor[::-1]):
			digit_remainder = remainder[-1 - i]

			# 从右往左按位做减法,若不够减向高位借1
			if digit_remainder < digit_substractor:
				remainder[-2 - i] -= 1  # 左边是高位
				remainder[-1 - i] = digit_remainder + 10 - digit_substractor

			else:
				remainder[-1 - i] = digit_remainder - digit_substractor

		# 高位的0去掉
		remainder = list_strip_zero(remainder)

	return quotient, remainder
示例#7
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文件: main.py 项目: Aaryamann171/calc
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))
示例#8
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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))
示例#9
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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
示例#10
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choice = True
iteration = 0
while (choice == True):
    a = input("enter your number: ")
    while (1):

        try:
            a = float(a)
            break
        except:
            print("only numbers allowed")
            a = input("enter your  number: ")

    if (option == '1'):
        result = add(a, result)
    if (option == '2' and iteration == 0):
        result = subtract(a, result)
    elif (option == '2'):
        result = subtract(result, a)
    if (option == '3'):
        result = multiply(a, result)
    if (option == '4' and iteration == 0):
        result = divide(a, result)
    elif (option == '4'):
        result = divide(result, a)
    iteration = iteration + 1
    choice = input(
        "do you want to add one more number to youe operation y/n : ") == "y"

print("your result", result)
示例#11
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文件: app.py 项目: nighatm/W19A
import addition
import subtraction
import multiplication
import divide

print("Please choose an operation")
print("1: Addition")
print("2: Subtraction")
print("3: Multiplication")
print("4: Division")

try:
    userChoice = int(input ("Enter Choice 1 or 2 or 3 or 4  :  "))
except:
    print ('You have entered an invalid option.')
else:
     if userChoice in ('1', '2', '3', '4'  ):
        number1 = int(input("Enter first number: "))
        number2 = int(input ("Enter second number: "))
        if (userChoice == '1'):
            print( "Result is: " str(addition.add(number1, number2)))
        elif (userChoice == '2'):
            print("Result is: " str(subtraction.subtract(number1, number2)))
        elif (userChoice == '3'):
            print ("Result is: " str(multiplication.multiply(number1, number2)))
        elif (userChoice == '4'):
            print("Result is: " str(divide.division(number1,number2)))    
    else:
        print("Invalid user input")
def choose():
	while True:
		print("Welcome to my python calculator. What would you like to do? ")
		print("1. Addition")
		print("2. Subtraction")
		print("3. Multiplication")
		print("4. Division")


		thislist = []
		y = True

		while True:
			try:
				user_selection = int(input("My choice is: "))
				if user_selection > 0 and user_selection < 5:
					break
				else:
					print("Only integers between 1 and 4 are allowed. Try again")
			# CalculatorInputError
			except ValueError:
				print("Only integers between 1 and 4 are allowed. Try again")

		while True:
			n1 = input("Type the number and press enter: ")
			print("To calculate type '=': ")
			
			if n1 == "=":
				break
			else:
				n1 = int(n1)
				thislist.append(n1)
		
		if user_selection == 1:
			answer = add(thislist)
			print("answer: " + str(answer))
			

		elif user_selection == 2:
			answer = subtract(thislist)
			print("answer: " + str(answer))
			

		elif user_selection == 3:
			answer = multiply(thislist)
			print("answer: " + str(answer))
			

		elif user_selection == 4:
			for x in range(len(thislist) - 1):
				if thislist[x] == 0:
					print("cannot divide by zero")
					print("")
					choose()
			answer = divide(thislist)
			print("answer: " + str(answer))

		else:
			print("Invalid selection. please try again")

		print("")
示例#13
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文件: main.py 项目: revanth23/demo1
import add, subtract, multiplication, divide, modulus

print(
    "<-- Mathematical Program -->\n1.Addition\n2.Subtraction\n3.Multiplication\n4.Division\n5.Modulus"
)
inp = int(input("Enter your choice->"))
if (inp == 1):
    print(add.add())
elif (inp == 2):
    print(subtract.subtract())
elif (inp == 3):
    print(multiplication.multiply())
elif (inp == 4):
    print(divide.div())
elif (inp == 5):
    print(modulus.mod())
else:
    print("Invalid choice")
示例#14
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from multiplication import multiply
from division import divide
from register import *

a = int(input())
b = int(input())

r_a = store_in_register(a)
r_b = store_in_register(b)

if DEBUG:
    print(r_a, r_b)

binary_product = multiply(r_a, r_b)
binary_quotient, binary_remainder = divide(r_a, r_b)
decimal_product = convert_decimal(binary_product)
decimal_quotient = convert_decimal(binary_quotient)
decimal_remainder = convert_decimal(binary_remainder)

print("decimal product:", decimal_product)
print("decimal_quotient:", decimal_quotient)
print("decimal_remainder:", decimal_remainder)
print("binary_product:", binary_product)
print("binary_quotient", binary_quotient)
print("binary_remainder", binary_remainder)

assert (decimal_product == convert_to_decimal(binary_product))
assert (decimal_quotient == convert_to_decimal(binary_quotient))
assert (decimal_remainder == convert_to_decimal(binary_remainder))
示例#15
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    def test_multiplication(self):
        self.assertEqual(multiplication.multiply(2, 2), 4)

        self.assertEqual(multiplication.multiply(10, 2), 20)