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scramble-string.py
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scramble-string.py
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# Time: O(n^4)
# Space: O(n^3)
#
# Given a string s1, we may represent it as a binary tree by partitioning it to two non-empty substrings recursively.
#
# Below is one possible representation of s1 = "great":
#
# great
# / \
# gr eat
# / \ / \
# g r e at
# / \
# a t
# To scramble the string, we may choose any non-leaf node and swap its two children.
#
# For example, if we choose the node "gr" and swap its two children, it produces a scrambled string "rgeat".
#
# rgeat
# / \
# rg eat
# / \ / \
# r g e at
# / \
# a t
# We say that "rgeat" is a scrambled string of "great".
#
# Similarly, if we continue to swap the children of nodes "eat" and "at", it produces a scrambled string "rgtae".
#
# rgtae
# / \
# rg tae
# / \ / \
# r g ta e
# / \
# t a
# We say that "rgtae" is a scrambled string of "great".
#
# Given two strings s1 and s2 of the same length, determine if s2 is a scrambled string of s1.
#
# DP solution
# Time: O(n^4)
# Space: O(n^3)
class Solution:
# @return a boolean
def isScramble(self, s1, s2):
if not s1 or not s2 or len(s1) != len(s2):
return False
if s1 == s2:
return True
result = [[[False for j in xrange(len(s2))] for i in xrange(len(s1))] for n in xrange(len(s1) + 1)]
for i in xrange(len(s1)):
for j in xrange(len(s2)):
if s1[i] == s2[j]:
result[1][i][j] = True
for n in xrange(2, len(s1) + 1):
for i in xrange(len(s1) - n + 1):
for j in xrange(len(s2) - n + 1):
for k in xrange(1, n):
if result[k][i][j] and result[n - k][i + k][j + k] or\
result[k][i][j + n - k] and result[n - k][i + k][j]:
result[n][i][j] = True
break
return result[n][0][0]
if __name__ == "__main__":
print Solution().isScramble("rgtae", "great")