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regular-expression-matching.py
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regular-expression-matching.py
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# Time: O(m * n)
# Space: O(n)
#
# 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
#
# dp with rolling window
class Solution:
# @return a boolean
def isMatch(self, s, p):
k = 3
result = [[False for j in xrange(len(p) + 1)] for i in xrange(k)]
result[0][0] = True
for i in xrange(2, len(p) + 1):
if p[i-1] == '*':
result[0][i] = result[0][i-2]
for i in xrange(1,len(s) + 1):
if i > 1:
result[0][0] = False
for j in xrange(1, len(p) + 1):
if p[j-1] != '*':
result[i % k][j] = result[(i-1) % k][j-1] and (s[i-1] == p[j-1] or p[j-1] == '.')
else:
result[i % k][j] = result[i % k][j-2] or (result[(i-1) % k][j] and (s[i-1] == p[j-2] or p[j-2] == '.'))
return result[len(s) % k][len(p)]
# dp
# Time: O(m * n)
# Space: O(m * n)
class Solution2:
# @return a boolean
def isMatch(self, s, p):
result = [[False for j in xrange(len(p) + 1)] for i in xrange(len(s) + 1)]
result[0][0] = True
for i in xrange(2, len(p) + 1):
if p[i-1] == '*':
result[0][i] = result[0][i-2]
for i in xrange(1,len(s) + 1):
for j in xrange(1, len(p) + 1):
if p[j-1] != '*':
result[i][j] = result[i-1][j-1] and (s[i-1] == p[j-1] or p[j-1] == '.')
else:
result[i][j] = result[i][j-2] or (result[i-1][j] and (s[i-1] == p[j-2] or p[j-2] == '.'))
return result[len(s)][len(p)]
# iteration
class Solution3:
# @return a boolean
def isMatch(self, s, p):
p_ptr, s_ptr, last_s_ptr, last_p_ptr = 0, 0, -1, -1
last_ptr = []
while s_ptr < len(s):
if p_ptr < len(p) and (p_ptr == len(p) - 1 or p[p_ptr + 1] != '*') and \
(s_ptr < len(s) and (p[p_ptr] == s[s_ptr] or p[p_ptr] == '.')):
s_ptr += 1
p_ptr += 1
elif p_ptr < len(p) - 1 and (p_ptr != len(p) - 1 and p[p_ptr + 1] == '*'):
p_ptr += 2
last_ptr.append([s_ptr, p_ptr])
elif last_ptr:
[last_s_ptr, last_p_ptr] = last_ptr.pop()
while last_ptr and p[last_p_ptr - 2] != s[last_s_ptr] and p[last_p_ptr - 2] != '.':
[last_s_ptr, last_p_ptr] = last_ptr.pop()
if p[last_p_ptr - 2] == s[last_s_ptr] or p[last_p_ptr - 2] == '.':
last_s_ptr += 1
s_ptr = last_s_ptr
p_ptr = last_p_ptr
last_ptr.append([s_ptr, p_ptr])
else:
return False
else:
return False
while p_ptr < len(p) - 1 and p[p_ptr] == '.' and p[p_ptr + 1] == '*':
p_ptr += 2
return p_ptr == len(p)
# recursive
class Solution4:
# @return a boolean
def isMatch(self, s, p):
if not p:
return not s
if len(p) == 1 or p[1] != '*':
if len(s) > 0 and (p[0] == s[0] or p[0] == '.'):
return self.isMatch(s[1:], p[1:])
else:
return False
else:
while len(s) > 0 and (p[0] == s[0] or p[0] == '.'):
if self.isMatch(s, p[2:]):
return True
s = s[1:]
return self.isMatch(s, p[2:])
if __name__ == "__main__":
print Solution3().isMatch("abab", "a*b*")
print Solution().isMatch("aaaaaaaaaaaaab", "a*a*a*a*a*a*a*a*a*a*c")
print Solution().isMatch("aa","a")
print Solution().isMatch("aa","aa")
print Solution().isMatch("aaa","aa")
print Solution().isMatch("aa", "a*")
print Solution().isMatch("aa", ".*")
print Solution().isMatch("ab", ".*")
print Solution().isMatch("aab", "c*a*b")