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regex_matching.py
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regex_matching.py
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"""
Implement regular expression matching with support for '.' and '*'.
'.' Matches any single character.
'*' Matches zero or more of the preceding element.
The matching should cover the entire input string (not partial).
The function prototype should be:
bool isMatch(const char *s, const char *p)
Some examples:
isMatch("aa","a") → false
isMatch("aa","aa") → true
isMatch("aaa","aa") → false
isMatch("aa", "a*") → true
isMatch("aa", ".*") → true
isMatch("ab", ".*") → true
isMatch("aab", "c*a*b") → true
"""
import unittest
class Solution(object):
def is_match(self, s, p):
m, n = len(s) + 1, len(p) + 1
matches = [[False] * n for _ in range(m)]
# Match empty string with empty pattern
matches[0][0] = True
# Match empty string with .*
for i, element in enumerate(p[1:], 2):
matches[0][i] = matches[0][i - 2] and element == '*'
for i, ss in enumerate(s, 1):
for j, pp in enumerate(p, 1):
if pp != '*':
# The previous character has matched and the current one
# has to be matched. Two possible matches: the same or .
matches[i][j] = matches[i - 1][j - 1] and \
(ss == pp or pp == '.')
else:
# Horizontal look up [j - 2].
# Not use the character before *.
matches[i][j] |= matches[i][j - 2]
# Vertical look up [i - 1].
# Use at least one character before *.
# p a b *
# s 1 0 0 0
# a 0 1 0 1
# b 0 0 1 1
# b 0 0 0 ?
if ss == p[j - 2] or p[j - 2] == '.':
matches[i][j] |= matches[i - 1][j]
return matches[-1][-1]
class TestSolution(unittest.TestCase):
def test_none_0(self):
s = ""
p = ""
self.assertTrue(Solution().isMatch(s, p))
def test_none_1(self):
s = ""
p = "a"
self.assertFalse(Solution().isMatch(s, p))
def test_no_symbol_equal(self):
s = "abcd"
p = "abcd"
self.assertTrue(Solution().isMatch(s, p))
def test_no_symbol_not_equal_0(self):
s = "abcd"
p = "efgh"
self.assertFalse(Solution().isMatch(s, p))
def test_no_symbol_not_equal_1(self):
s = "ab"
p = "abb"
self.assertFalse(Solution().isMatch(s, p))
def test_symbol_0(self):
s = ""
p = "a*"
self.assertTrue(Solution().isMatch(s, p))
def test_symbol_1(self):
s = "a"
p = "ab*"
self.assertTrue(Solution().isMatch(s, p))
def test_symbol_2(self):
# E.g.
# s a b b
# p 1 0 0 0
# a 0 1 0 0
# b 0 0 1 0
# * 0 1 1 1
s = "abb"
p = "ab*"
self.assertTrue(Solution().isMatch(s, p))
if __name__ == "__main__":
unittest.main()