def test_lps_expansion(self): p = Palindrome() assert_equal(p.longest_palindrome_substring('', LPS_EXPANSION), '') assert_equal(p.longest_palindrome_substring('a', LPS_EXPANSION), 'a') assert_equal(p.longest_palindrome_substring('ab', LPS_EXPANSION), 'a') assert_equal(p.longest_palindrome_substring('abc', LPS_EXPANSION), 'a') assert_equal(p.longest_palindrome_substring('ababa', LPS_EXPANSION), 'ababa') assert_equal(p.longest_palindrome_substring('abaaba', LPS_EXPANSION), 'abaaba') assert_equal(p.longest_palindrome_substring('abcfgcba', LPS_EXPANSION), 'a') assert_equal(p.longest_palindrome_substring(s, LPS_EXPANSION), 'ranynar') assert_equal(p.longest_palindrome_substring(r, LPS_EXPANSION), r)
def test_lps_lcs(self): p = Palindrome() assert_equal(p.longest_palindrome_substring('', LPS_LCS), '') assert_equal(p.longest_palindrome_substring('a', LPS_LCS), 'a') assert_equal(p.longest_palindrome_substring('ab', LPS_LCS), 'a') assert_equal(p.longest_palindrome_substring('abc', LPS_LCS), 'a') assert_equal(p.longest_palindrome_substring('ababa', LPS_LCS), 'ababa') assert_equal(p.longest_palindrome_substring('abaaba', LPS_LCS), 'abaaba') assert_equal(p.longest_palindrome_substring('abcfgcba', LPS_LCS), 'a') assert_equal(p.longest_palindrome_substring(s, LPS_LCS), 'ranynar') assert_equal(p.longest_palindrome_substring(r, LPS_LCS), r)
def test_lps_manacher(self): p = Palindrome() assert_equal(p.longest_palindrome_substring('', LPS_MANACHER), '') assert_equal(p.longest_palindrome_substring('a', LPS_MANACHER), 'a') assert_equal(p.longest_palindrome_substring('ab', LPS_MANACHER), 'a') assert_equal(p.longest_palindrome_substring('abc', LPS_MANACHER), 'a') assert_equal(p.longest_palindrome_substring('ababa', LPS_MANACHER), 'ababa') assert_equal(p.longest_palindrome_substring('abaaba', LPS_MANACHER), 'abaaba') assert_equal(p.longest_palindrome_substring('abcfgcba', LPS_MANACHER), 'a') assert_equal(p.longest_palindrome_substring(s, LPS_MANACHER), 'ranynar') assert_equal(p.longest_palindrome_substring(r, LPS_MANACHER), r)
def normal(): try: if args.in_file: with open(args.in_file) as file_in: text = file_in.read() else: text = input('Enter the text for constructing palindromes:\n') palindrome = Palindrome(text) list_pal = palindrome.create_list_pal() if args.out_file: with open(args.out_file, 'w') as file_out: file_out.write('\n'.join(list_pal)) else: print('Constructed palindromes:') for i in list_pal: print(i) except Exception as e: sys.exit("Error: {0}".format(e))
import pytest from palindrome import Palindrome p1 = Palindrome() def test_true(): assert p1.palindrome('abba') == True assert p1.palindrome('abcba') == True assert p1.palindrome('1234321') == True assert p1.palindrome('123321') == True assert p1.palindrome(')(*&*()') == True assert p1.palindrome(')(**()') == True def test_false(): assert p1.palindrome('ab') == False assert p1.palindrome('abca') == False assert p1.palindrome('1234') == False assert p1.palindrome('!@#$%^') == False def test_typeerror(): with pytest.raises(TypeError) as e_info: p1.palindrome(1) p1.palindrome(1.0) p1.palindrome(123456789010)
def test(): lever = Palindrome.test() if not lever: print("Test is passed") else: print("Test fails")
def setUp(self): self.p1 = Palindrome('abcd') self.p2 = Palindrome('abcdedcba')
def setUp(self): ''' Set up method to run before each test case ''' self.new_palindrome = Palindrome("Madam")
def test_save_multiple_palindromes(self): self.new_palindrome.save_palindrome() test_palindrome = Palindrome("level") test_palindrome.save_palindrome() self.assertEqual(len(Palindrome.palindrome_list), 2)
def setUp(self): print("SETUP") self.palindrome = Palindrome("344")
class TestTestCase(unittest.TestCase): def setUp(self): self.pal = Palindrome() def test_generate_permutations(self): result = self.pal.generate_permutations("a b") self.assertTrue(result == ["a","b","ab","ba"]) result = self.pal.generate_permutations("a b c") self.assertTrue(result == ['a', 'b', 'c', 'ab', 'ac', 'ba', 'bc', 'ca', 'cb', 'abc', 'acb', 'bac', 'bca', 'cab', 'cba']) def test_check_palindromes(self): self.assertTrue(self.pal.check_palindrome("a")) self.assertTrue(self.pal.check_palindrome("9")) self.assertTrue(self.pal.check_palindrome("aa")) self.assertTrue(self.pal.check_palindrome("aba")) self.assertTrue(self.pal.check_palindrome("abba")) self.assertTrue(self.pal.check_palindrome("1234321")) self.assertFalse(self.pal.check_palindrome("ab")) self.assertFalse(self.pal.check_palindrome("98")) self.assertFalse(self.pal.check_palindrome("abca")) self.assertFalse(self.pal.check_palindrome("abcda")) self.assertFalse(self.pal.check_palindrome("1234521")) def test_look_for_palindromes(self): result = self.pal.look_for_palindromes(["ab","aba","abcb","abcba"]) self.assertTrue(result == ["aba","abcba"])
def setUp(self): self.palindrome = Palindrome()
def test_palindrome_palindromeTrue(self): p = Palindrome() self.assertTrue(p.is_palindrome(121)) self.assertTrue(p.is_palindrome(11)) self.assertTrue(p.is_palindrome(12521)) self.assertTrue(p.is_palindrome(1))
def test_types(self): p = Palindrome() self.assertRaises(TypeError, p.is_palindrome, '121') self.assertRaises(TypeError, p.is_palindrome, [123]) self.assertRaises(TypeError, p.is_palindrome, 12.21)
def test_palindrome_Zero(self): p = Palindrome() self.assertTrue(p.is_palindrome(0))
def test_palindrome_notPalindromeNeg(self): p = Palindrome() self.assertFalse(p.is_palindrome(-121))
def test_palindrome_palindromeFalse(self): p = Palindrome() self.assertFalse(p.is_palindrome(12)) self.assertFalse(p.is_palindrome(11222))
from armstrong import Armstrong from factor import Factor from factorial import Factorial from fibonacci import Fibonacci from palindrome import Palindrome from prime import Prime print("Armstrong", bool(Armstrong(153))) print("Fibonacci", [i for i in Fibonacci(5)]) print("Palindrome", bool(Palindrome(12321))) print("Prime", bool(Prime(10007))) print("Factors", [i for i in Factor(23)]) print("Factorial", Factorial(6)())
def main(): P = Palindrome() ans = P.get_largest_palindrome_product_of_two_numbers_by_keta(3) print ans