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subsets-ii.py
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subsets-ii.py
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# Time: O(n * 2^n)
# Space: O(1)
# Given a collection of integers that might contain duplicates, S, return all possible subsets.
#
# Note:
# Elements in a subset must be in non-descending order.
# The solution set must not contain duplicate subsets.
# For example,
# If S = [1,2,2], a solution is:
#
# [
# [2],
# [1],
# [1,2,2],
# [2,2],
# [1,2],
# []
# ]
class Solution(object):
def subsetsWithDup(self, nums):
"""
:type nums: List[int]
:rtype: List[List[int]]
"""
nums.sort()
result = [[]]
previous_size = 0
for i in xrange(len(nums)):
size = len(result)
for j in xrange(size):
# Only union non-duplicate element or new union set.
if i == 0 or nums[i] != nums[i - 1] or j >= previous_size:
result.append(list(result[j]))
result[-1].append(nums[i])
previous_size = size
return result
# Time: O(n * 2^n) ~ O((n * 2^n)^2)
# Space: O(1)
class Solution2(object):
def subsetsWithDup(self, nums):
"""
:type nums: List[int]
:rtype: List[List[int]]
"""
result = []
i, count = 0, 1 << len(nums)
nums.sort()
while i < count:
cur = []
for j in xrange(len(nums)):
if i & 1 << j:
cur.append(nums[j])
if cur not in result:
result.append(cur)
i += 1
return result
# Time: O(n * 2^n) ~ O((n * 2^n)^2)
# Space: O(1)
class Solution3(object):
def subsetsWithDup(self, nums):
"""
:type nums: List[int]
:rtype: List[List[int]]
"""
result = []
self.subsetsWithDupRecu(result, [], sorted(nums))
return result
def subsetsWithDupRecu(self, result, cur, nums):
if not nums:
if cur not in result:
result.append(cur)
else:
self.subsetsWithDupRecu(result, cur, nums[1:])
self.subsetsWithDupRecu(result, cur + [nums[0]], nums[1:])
if __name__ == "__main__":
print Solution().subsetsWithDup([1, 2, 2])