def test_add_string_and_number(self):
"""
Test the addition of a string and a float returns them as one
concatenated string (in which the float is converted to a string)
"""
result = calc.add2('abc', '5.5')
self.assertEqual(result, 'abc5.5')
def test_add_string_and_integer(self):
"""
Test the addition of a string and an integer returns them as one
concatenated string (in which the integer is converted to a string)
"""
result = calc.add2('abc', 3)
self.assertEqual(result, 'abc3')
def test_add_strings(self):
"""
Test the addition of two strings returns the two strings as one
concatenated string
"""
result = calc.add2('abc', 'def')
self.assertEqual(result, 'abcdef')
def test_add_string_and_number(self):
"""
Test the addition of a string and a float returns them as one
concatenated string (in which the float is converted to a string)
"""
result = calc.add2('abc', '5.5')
self.assertEqual(result, 'abc5.5')
def test_add_strings(self):
"""
Test the addition of two strings returns the two strings as one
concatenated string
"""
result = calc.add2('abc', 'def')
self.assertEqual(result, 'abcdef')
def test_add_string_and_integer(self):
"""
Test the addition of a string and an integer returns them as one
concatenated string (in which the integer is converted to a string)
"""
result = calc.add2('abc', 3)
self.assertEqual(result, 'abc3')
def test_add_integers(self):
result = calc.add2(1, 2)
self.assertEqual(result, 3)
'''
A simple command line tool that takes 2 values and adds them together using
the calc.py library's 'add2' function.
'''
import sys
import calc
argnumbers = len(sys.argv) - 1
if argnumbers == 2 :
print("")
print("The RESULT is " + str(calc.add2(str(sys.argv[1]), str(sys.argv[2]))))
print("")
sys.exit(0)
if argnumbers != 2 :
print("")
print("You entered " + str(argnumbers) + " value/s.")
print("")
print("Usage: 'add2vals X Y' where X and Y are individual values.")
print(" If add2vals is not in your path, usage is './add2vals X Y'.")
print(" If unbundled, usage is 'python add2vals.py X Y'.")
print("")
sys.exit(1)
def test_add_neg_and_pos_num(self):
"""
Test the addition of a negative number and a positive number
"""
result = calc.add2(3, -2)
self.assertEqual(result, 1)
'''
A simple command line tool that takes 2 values and adds them together using
the calc.py library's 'add2' function.
'''
import sys
import calc
argnumbers = len(sys.argv) - 1
if argnumbers == 2 :
print("")
print("The result is " + str(calc.add2(str(sys.argv[1]), str(sys.argv[2])) + 1))
print("")
sys.exit(0)
if argnumbers != 2 :
print("")
print("You entered " + str(argnumbers) + " value/s.")
print("")
print("Usage: 'add2vals X Y' where X and Y are individual values.")
print(" If add2vals is not in your path, usage is './add2vals X Y'.")
print(" If unbundled, usage is 'python add2vals.py X Y'.")
print("")
sys.exit(1)
print "Invalid operand! Try again!" exit(0) break i+=1 while(i<len(ch)): if ch[i]>='0' and ch[i]<='9' or ch[i]=='.' or ch[i]== '-': n2+=ch[i] i+=1 """ if ch[opf]=='+' : Ans=op.add2(float(n1),float(n2)) print "\n",n1+ch[opf]+n2,"=",Ans elif ch[opf]=='-' : Ans=op.sub2(float(n1),float(n2)) print "\n",n1+ch[opf]+n2,"=",Ans elif ch[opf]=='/' : Ans=op.div2(float(n1),float(n2)) print "\n",n1+ch[opf]+n2,"=",Ans elif ch[opf]=='*' : Ans=op.mul2(float(n1),float(n2)) print "\n",n1+ch[opf]+n2,"=",Ans elif ch[opf]=='%' : Ans=op.rem1(float(n1),float(n2)) print "\n",n1+ch[opf]+n2,"=",Ans elif ch[opf]=='^' : Ans=op.pow(float(n1),float(n2))
def test_add_strings(self):
"""
Test adding two strings become one string
"""
result = calc.add2("hello", "there")
self.assertEqual(result, "hellothere")
def test_add_floats(self):
"""
Test that the addition of two floats returns the correct result
"""
result = calc.add2('10.5', 2)
self.assertEqual(result, 12.5)
def test_add2(self):
self.assertEqual(calc.add2(7), 9)
'''
A simple command line tool that takes 2 values and adds them together using
the calc.py library's 'add2' function.
'''
import sys
import calc
argnumbers = len(sys.argv) - 1
if argnumbers == 2 :
print("")
print("The result is " + str(calc.add2(str(sys.argv[1]), str(sys.argv[2]))))
print("")
sys.exit(0)
if argnumbers != 2 :
print("")
print("You entered " + str(argnumbers) + " value/s.")
print("")
print("Usage: 'add2vals X Y' where X and Y are individual values.")
print(" If add2vals is not in your path, usage is './add2vals X Y'.")
print(" If unbundled, usage is 'python add2vals.py X Y'.")
print("")
sys.exit(1)
def test_add_floats(self):
result = calc.add2('10.5', 2)
self.assertEqual(result, 12.5)
def test_add_string_float(self):
"""
Test add one string and float number together return back as one concatened string in which float being convert to string
"""
result = calc.add2("glue", "4.6")
self.assertEqual(result, "glue4.6")
def test_add_floats(self):
"""
Test that the addition of two floats return the correct result
"""
result = calc.add2("2.3", "4.5")
self.assertEqual(result, 6.8)
def compute(a, b):
value = calc.add2(a, b)
log_result_in_file(a, b, value)
return value
def test_add_string_integer(self):
"""
Test add string and integer return them back as a concatened string in which interger being conver as string
"""
result = calc.add2("join", 5)
self.assertEqual(result, "join5")
def test_add_integers(self):
"""
Test that the addition of two integers returns the correct total
"""
result = calc.add2(1, 2)
self.assertEqual(result, 3)
""" A simple command line tool that takes 2 values and adds them together using
the calc.py library's 'add2' function. """
import sys
import calc
argnumbers = len(sys.argv) - 1
if argnumbers == 2:
print("")
print("The result is " +
str(calc.add2(str(sys.argv[1]), str(sys.argv[2]))))
print("")
sys.exit(0)
if argnumbers != 2:
print("")
print("You entered " + str(argnumbers) + " value/s.")
print("")
print("Usage: 'add2vals X Y' where X and Y are individual values.")
print(
" If add2vals is not in your path, usage is './add2vals X Y' ")
print(" If unbundled, usage is 'python add2vals.py X Y'.")
print("")
sys.exit(1)
import sys
import calc
argnumbers = len(sys.argv) - 1
if argnumbers == 2:
print("")
print("Result is " + str(calc.add2(str(sys.argv[1]), str(sys.argv[2]))))
print("")
sys.exit(0)
if argnumbers != 2:
print("")
print("Your entry " + str(argnumbers) + " value/s.")
print("")
print(" 'add2vals X Y' where X and Y are individual values.")
print(" If add2vals is not in your path, usage is './add2vals X Y'.")
print(" If unbundled, usage is 'python add2vals.py X Y'.")
print("")
sys.exit(1)
import calc as op
while (True):
print "MENU \n1.Add\n2.Subtract\n3.Divivde\n4.Multiply\n5.Remainder\n6.Power\n7.Exit\n\nEnter your choice for calculation :",
ch = input()
if ch == 7:
exit(0)
a = input("Enter first input :")
b = input("Enter second input :")
if ch == 1:
print "The sum is :", op.add2(a, b)
elif ch == 2:
print "The difference is :", op.sub2(a, b)
elif ch == 3:
print "The division result is :", op.div2(a, b)
elif ch == 4:
print "The product is :", op.mul2(a, b)
elif ch == 5:
print "The remainder is :", op.rem1(a, b)
elif ch == 6:
print "The result of a^b is :", op.pow(a, b)
else:
print "Invalid choice!!"
print "\n\n"
def test_add_float_string(self):
"""
Test that the addition of float and string returns float conatenate with string as string
"""
result = calc.add2('123.45', 'six')
self.assertEqual(result, '123.45six')
def test_add_floats(self):
"""
Test that the addition of two floats returns the correct result
"""
result = calc.add2('10.5', 2)
self.assertEqual(result, 12.5)
def test_add_strings(self):
result = calc.add2('abc', 'def')
self.assertEqual(result, 'abcdef')
def test_add_string_and_integer(self):
result = calc.add2('abc', 3)
self.assertEqual(result, 'abc3')
def test_add_string_and_number(self):
result = calc.add2('abc', '5.5')
self.assertEqual(result, 'abc5.5')
def test_add_integers(self):
"""
Test that the addition of two integers returns the correct total
"""
result = calc.add2(1, 2)
self.assertEqual(result, 3)
#!/usr/bin/python
import sys
import calc
#print(len(sys.argv))
argnum = len(sys.argv) - 1
if argnum == 2:
print(calc.add2(sys.argv[1], sys.argv[2]))
sys.exit(0)
else:
print("add2val usage is ./add2val arg1 arg2 !!!")
sys.exit(1)
