def test_incorrect_numerals():
"""is_roman_numeral should return False for strings that are not roman numerals."""
for numeral in incorrect_numerals:
assert Roman.is_roman_numeral(numeral) == False
with pytest.raises(ValueError):
Roman(numeral)
def test_bad_type():
"""is_roman_numeral should raise TypeError for non-string arguments"""
for numeral in (None, 0, 1, 1.0):
with pytest.raises(TypeError):
Roman.is_roman_numeral(numeral)
for obj in (None, 1.0):
with pytest.raises(TypeError):
Roman(numeral)
class RomanTests(unittest.TestCase):
def setUp(self):
self.roman = Roman()
def test_input_1_should_return_I(self):
result = self.roman.convert(1)
self.assertEqual(result, 'I')
def test_input_2_should_return_II(self):
result = self.roman.convert(2)
self.assertEqual(result, 'II')
def test_input_3_should_return_III(self):
result = self.roman.convert(3)
self.assertEqual(result, 'III')
def test_input_4_should_return_IV(self):
result = self.roman.convert(4)
self.assertEqual(result, 'IV')
def test_input_5_should_return_V(self):
result = self.roman.convert(5)
self.assertEqual(result, 'V')
def test_input_6_should_return_VI(self):
result = self.roman.convert(6)
self.assertEqual(result, 'VI')
def test_input_7_should_return_VII(self):
result = self.roman.convert(7)
self.assertEqual(result, 'VII')
def test_input_8_should_return_VIII(self):
result = self.roman.convert(8)
self.assertEqual(result, 'VIII')
def test_input_9_should_return_IX(self):
result = self.roman.convert(9)
self.assertEqual(result, 'IX')
def test_input_10_should_return_X(self):
result = self.roman.convert(10)
self.assertEqual(result, 'X')
def test_exceptions(self):
ancient = 'The ancient Romans did not recognize 0 as a number neither did they include negative numbers'
try:
_ = Roman.convert_to_roman(0)
self.fail('Should get an exception for non-positive values')
except ValueError as ex:
self.assertEqual(ancient, str(ex))
try:
_ = Roman.convert_to_roman(-22)
self.fail('Should get an exception for non-positive values')
except ValueError as ex:
self.assertEqual(ancient, str(ex))
try:
_ = Roman.convert_to_decimal('T') # T unknown
self.fail('Should get an exception for unrecognized characters')
except ValueError as ex:
self.assertEqual('Not found', str(ex))
try:
_ = Roman.convert_to_decimal(
'IIII') # III is 3 and cannot be followed by anything
self.fail('Should get an exception for unrecognized characters')
except ValueError as ex:
self.assertEqual('Wrong level', str(ex))
try:
# not following the convention - XX is 20 and cannot be followed by 50
_ = Roman.convert_to_decimal('XXL')
self.fail('Should get an exception for unrecognized characters')
except ValueError as ex:
self.assertEqual('Wrong level', str(ex))
try:
_ = Roman.convert_to_decimal(
'MMCCXXC') # 2220 cannot be followed by 100
self.fail('Should get an exception for unrecognized characters')
except ValueError as ex:
self.assertEqual('Wrong level', str(ex))
try:
_ = Roman.convert_to_decimal(
'I^'
) # with the current convention I can never be followed by a ^
self.fail('Should get an exception for unrecognized characters')
except ValueError as ex:
self.assertEqual('Not found', str(ex))
try:
_ = Roman.convert_to_decimal('V^MMMDCCCLXXXVIIIR') # R unknown
self.fail('Should get an exception for unrecognized characters')
except ValueError as ex:
self.assertEqual('Not found', str(ex))
def test_adding_x_to_x(self):
""" Test adding 10 + 10 """
numeral_a = Roman('x')
numeral_b = Roman('x')
self.assertEqual('xx', numeral_a.add(numeral_b))
self.assertEqual('xx', numeral_b.add(numeral_a))
class TestRoman(unittest.TestCase):
def setUp(self):
self.roman = Roman()
def tearDown(self):
pass
def test_get_value_by_symbol(self):
self.assertEqual(self.roman.get_value_by_symbol("I"), 1)
self.assertEqual(self.roman.get_value_by_symbol("V"), 5)
self.assertEqual(self.roman.get_value_by_symbol("X"), 10)
self.assertEqual(self.roman.get_value_by_symbol("L"), 50)
self.assertEqual(self.roman.get_value_by_symbol("C"), 100)
self.assertEqual(self.roman.get_value_by_symbol("D"), 500)
self.assertEqual(self.roman.get_value_by_symbol("M"), 1000)
def test_roman_to_arabic(self):
self.assertEqual(self.roman.roman_to_arabic('II'), 2)
self.assertEqual(self.roman.roman_to_arabic('MCMIII'), 1903)
with self.assertRaises(InvalidSyntaxException):
self.roman.roman_to_arabic("IIII")
def test_4000_handled_gracefully(self):
number = Roman('4000')
self.assertFalse(number.is_within_bounds())
self.assertFalse(number.is_valid)
self.assertEquals(number.invalid_reason, '4000 is out of bounds.')
def test_number_of_digits_in_9999(self):
number = Roman(9999)
self.assertEquals(number.number_of_digits(), 4)
def test_equal(self):
for i in range(1, 2000):
self.assertEqual(str(Roman(i)), text[i]) # Здесь, по сути,
def test_false(self):
self.assertFalse(Roman(5) == Roman(6))
def test_incorrect_integers():
"""Zero and negative integers are not supported."""
for number in incorrect_integers:
with pytest.raises(ValueError):
Roman(number)
class TestRomanToArabic(unittest.TestCase):
def setUp(self):
self.r = Roman()
'''
Aide-memoire
------------
I 1 (one) (unus)
V 5 (five) (quinque)
X 10 (ten) (decem)
L 50 (fifty) (quinquaginta)
C 100 (one hundred) (centum)
D 500 (five hundred) (quingenti)
M 1000 (one thousand) (mille)
'''
def test_IVXLCDM(self):
'''
Test all uppercase digits in one test for brevity.
'''
for numeral, decimal in [('I', 1), ('V', 5), ('X', 10), ('L', 50), ('C', 100), ('D', 500), ('M', 1000)]:
number = Roman(numeral)
self.assertEquals(number.decimal, decimal)
def test_lowercase_digits(self):
'''
Test all uppercase digits in one test for brevity.
'''
for numeral, decimal in [('i', 1), ('v', 5), ('x', 10), ('l', 50), ('c', 100), ('d', 500), ('m', 1000)]:
number = Roman(numeral)
self.assertEquals(number.decimal, decimal)
number = Roman('x')
self.assertEquals(number.decimal, 10)
def test_two_ones_make_two(self):
number = Roman('II')
self.assertEquals(number.decimal, 2)
def test_iv_equals_four(self):
number = Roman('iv')
self.assertEquals(number.decimal, 4)
def test_i_before_v_worth_minus_one(self):
value = self.r.get_roman_value('i', 'v')
self.assertEquals(value, -1)
def test_i_on_its_own_worth_one(self):
value = self.r.get_roman_value('i', None)
self.assertEquals(value, 1)
def test_v_before_i_worth_five(self):
value = self.r.get_roman_value('v', 'i')
self.assertEquals(value, 5)
def test_iiii_also_equals_four(self):
number = Roman('iiii')
self.assertEquals(number.decimal, 4)
def test_four_cs_1925(self):
number = Roman('MDCCCCXXV')
self.assertEquals(number.decimal, 1925)
def test_subtractive_1925(self):
number = Roman('MCMXXV')
self.assertEquals(number.decimal, 1925)
def test_ic_violates_subtractive_principle(self):
'''
"The subtractive principle of the IX, XC, and CM in these examples is
that a numeral for 10^n may not precede a numeral larger than 10^n+1,
where n is an integer." --Wikipedia, Roman numerals
<http://en.wikipedia.org/wiki/Roman_numerals>
'''
self.assertTrue(self.r.violates_subtractive_principle('I', 'C'))
def test_ix_does_not_violate_subtractive_principle(self):
self.assertFalse(self.r.violates_subtractive_principle('I', 'X'))
def test_m_does_not_violate_subtractive_principle(self):
self.assertFalse(self.r.violates_subtractive_principle('M', None))
def test_violation_of_subtractive_principle_raises_exception(self):
self.assertRaises(Exception, self.r.get_roman_value, 'i', 'm')
def test_mim_not_valid(self):
number = Roman('MIM')
self.assertFalse(number.is_valid)
self.assertEqual(number.invalid_reason,
'I before M violates the subtractive principle.')
def test_MCMXCIX_valid(self):
number = Roman('MCMXCIX')
self.assertTrue(number.is_valid)
self.assertEquals(number.invalid_reason, None)
def test_vx_violates_subtractive_principle(self):
'''
"The numerals 5*10^n (V, L, D) may not precede a larger numeral at all"
--Wikipedia, Roman numerals
<http://en.wikipedia.org/wiki/Roman_numerals>
'''
self.assertTrue(self.r.violates_subtractive_principle('V', 'X'))
def test_vv_invalid(self):
number = Roman('VV')
self.assertFalse(number.is_valid)
self.assertEquals(number.invalid_reason,
'Cannot have two consecutive Vs.')
def test_no_two_fives(self):
self.assertTrue(self.r.two_consecutive_fives('L', 'L'))
def test_from_integer():
"""Roman(integer) makes a correct numeral."""
for numeral, value in known_numerals:
assert str(Roman(value)) == numeral
def test_correct_numerals():
"""is_roman_numeral should return True for correct roman numerals."""
for numeral in correct_numerals:
assert numeral == str(Roman(numeral))
def test_numeric():
assert 1 == Roman("I").numeric
assert 2 == Roman("II").numeric
assert 3 == Roman("III").numeric
assert 4 == Roman("IV").numeric
assert 5 == Roman("V").numeric
assert 6 == Roman("VI").numeric
assert 7 == Roman("VII").numeric
assert 8 == Roman("VIII").numeric
assert 9 == Roman("IX").numeric
assert 10 == Roman("X").numeric
assert 11 == Roman("XI").numeric
assert 12 == Roman("XII").numeric
assert 13 == Roman("XIII").numeric
assert 14 == Roman("XIV").numeric
assert 15 == Roman("XV").numeric
assert 16 == Roman("XVI").numeric
assert 17 == Roman("XVII").numeric
assert 18 == Roman("XVIII").numeric
assert 19 == Roman("XIX").numeric
assert 20 == Roman("XX").numeric
assert 30 == Roman("XXX").numeric
assert 40 == Roman("XL").numeric
assert 50 == Roman("L").numeric
assert 60 == Roman("LX").numeric
assert 70 == Roman("LXX").numeric
assert 80 == Roman("LXXX").numeric
assert 90 == Roman("XC").numeric
assert 100 == Roman("C").numeric
assert 101 == Roman("CI").numeric
assert 105 == Roman("CV").numeric
assert 110 == Roman("CX").numeric
assert 150 == Roman("CL").numeric
assert 200 == Roman("CC").numeric
assert 300 == Roman("CCC").numeric
assert 400 == Roman("CD").numeric
assert 500 == Roman("D").numeric
assert 600 == Roman("DC").numeric
assert 700 == Roman("DCC").numeric
assert 800 == Roman("DCCC").numeric
assert 900 == Roman("CM").numeric
assert 1000 == Roman("M").numeric
assert 2000 == Roman("MM").numeric
assert 2019 == Roman("MMXIX").numeric
def test_roman():
assert Roman(1).roman == "I"
assert Roman(2).roman == "II"
assert Roman(3).roman == "III"
assert Roman(4).roman == "IV"
assert Roman(5).roman == "V"
assert Roman(6).roman == "VI"
assert Roman(7).roman == "VII"
assert Roman(8).roman == "VIII"
assert Roman(9).roman == "IX"
assert Roman(10).roman == "X"
assert Roman(11).roman == "XI"
assert Roman(12).roman == "XII"
assert Roman(13).roman == "XIII"
assert Roman(14).roman == "XIV"
assert Roman(15).roman == "XV"
assert Roman(16).roman == "XVI"
assert Roman(17).roman == "XVII"
assert Roman(18).roman == "XVIII"
assert Roman(19).roman == "XIX"
assert Roman(20).roman == "XX"
assert Roman(30).roman == "XXX"
assert Roman(40).roman == "XL"
assert Roman(50).roman == "L"
assert Roman(60).roman == "LX"
assert Roman(70).roman == "LXX"
assert Roman(80).roman == "LXXX"
assert Roman(90).roman == "XC"
assert Roman(100).roman == "C"
assert Roman(101).roman == "CI"
assert Roman(105).roman == "CV"
assert Roman(110).roman == "CX"
assert Roman(150).roman == "CL"
assert Roman(200).roman == "CC"
assert Roman(300).roman == "CCC"
assert Roman(400).roman == "CD"
assert Roman(500).roman == "D"
assert Roman(600).roman == "DC"
assert Roman(700).roman == "DCC"
assert Roman(800).roman == "DCCC"
assert Roman(900).roman == "CM"
assert Roman(1000).roman == "M"
assert Roman(2000).roman == "MM"
assert Roman(2019).roman == "MMXIX"
def test_mult():
assert Roman("I") == Roman("I") * Roman("I")
assert Roman("IV") == Roman("II") * Roman("II")
assert Roman("IX") == Roman("III") * Roman("III")
def test_mult_int():
assert Roman("I") == Roman("I") * 1
assert Roman("IV") == Roman("II") * 2
assert Roman("IV") == 2 * Roman("II")
assert Roman("IX") == Roman("III") * 3
def setUp(self):
self.roman = Roman()
from roman import Roman
if __name__ == "__main__":
r1 = Roman("X")
r2 = Roman(5)
print(" Числа:", r1, r2, r1.arabic, r2.arabic)
print(" Сумма:", r1 + r2)
print(" Разность:", r1 - r2)
print("Произведение:", r1 * r2)
print(" Частное:", r1 // r2)
print("\nПреобразование без создания объекта:")
print(2016, "=", Roman.to_roman(2016))
print("MMXVI", "=", Roman.to_arabic("MMXVI"))
# -------------
# Пример вывода:
# Числа: X V 10 5
# Сумма: XV
# Разность: V
# Произведение: L
# Частное: II
#
# Преобразование без создания объекта:
# 2016 = MMXVI
# MMXVI = 2016
def test_inversion():
for i in range(1, 4000):
assert int(Roman(i)) == i
def roman():
return Roman()
def test_not_eq():
assert Roman(1) != Roman(2)
def test_number_of_digits_in_1(self):
number = Roman(1)
self.assertEquals(number.number_of_digits(), 1)
def test_sub():
assert Roman(3987) - Roman(18) == Roman(3969)
def test_add():
assert Roman("II") == Roman("I") + Roman("I")
assert Roman("IV") == Roman("II") + Roman("II")
assert Roman("V") == Roman("III") + Roman("II")
assert Roman("V") == Roman("II") + Roman("III")
assert Roman("M") == Roman("D") + Roman("D")
def setUp(self):
self.r = Roman()
def test_to_integer():
"""Roman(numeral) converts to the right integer."""
for numeral, value in known_numerals:
assert int(Roman(numeral)) == value
def setUp(self):
self.roman = Roman()
def test_eq():
for i in range(1, 4000):
assert Roman(i) == Roman(i)
def test_roman(self):
self.assertEqual(Roman.I, 1)
self.assertEqual(Roman.III, 3)
self.assertEqual(Roman.IV, 4)
self.assertEqual(Roman.V, 5)
self.assertEqual(Roman.VI, 6)
self.assertEqual(Roman.IX, 9)
self.assertEqual(Roman.XXIV, 24)
self.assertEqual(Roman.XXXI, 31)
self.assertEqual(Roman.CCCLXIX, 369)
self.assertEqual(Roman.CD, 400)
self.assertEqual(Roman.CDXLVIII, 448)
self.assertEqual(Roman.to_roman(1), 'I')
self.assertEqual(Roman.to_roman(3), 'III')
self.assertEqual(Roman.to_roman(4) , 'IV')
self.assertEqual(Roman.to_roman(5), 'V')
self.assertEqual(Roman.to_roman(6), 'VI')
self.assertEqual(Roman.to_roman(9), 'IX')
self.assertEqual(Roman.to_roman(24), 'XXIV')
self.assertEqual(Roman.to_roman(31), 'XXXI')
self.assertEqual(Roman.to_roman(369), 'CCCLXIX')
self.assertEqual(Roman.to_roman(400), 'CD')
self.assertEqual(Roman.to_roman(448), 'CDXLVIII')
def test_add():
assert Roman(3987) + Roman(12) == Roman(3999)
def test_roman_init():
assert Roman(5) == 'V'
assert Roman('IV') == 'IV'
assert Roman('MCMXL') + Roman('I') == Roman('MCMXLI')
def test_mul():
assert Roman(19) * Roman(12) == Roman(228)
def test_adding_xi_to_vi(self):
""" Test adding 11 + 6 """
numeral_a = Roman('xi')
numeral_b = Roman('vi')
self.assertEqual('xvii', numeral_a.add(numeral_b))
self.assertEqual('xvii', numeral_b.add(numeral_a))
def test_true(self):
self.assertTrue(Roman(5) == Roman(5))
def test_adding_l_to_i(self):
""" Test adding 50 + 1 """
numeral_a = Roman('l')
numeral_b = Roman('i')
self.assertEqual('li', numeral_a.add(numeral_b))
self.assertEqual('li', numeral_b.add(numeral_a))
def test_errors(self):
self.assertRaises(ValueError, Roman, -1)
with self.assertRaises(ValueError):
a = Roman(1000) + Roman(1000)
from roman import Roman
sum = 0
with open('p089_roman.txt', 'r') as file:
for line in file:
line = line.strip()
print(line)
roman = Roman(line)
print('Decimal: ', roman.to_decimal())
minimal = Roman(Roman(line).to_decimal()).to_str()
print('Minimal: ' + minimal)
saved = len(line) - len(minimal)
print('Saved: ', saved)
print()
sum += saved
print('Answer:', sum)
