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intersection-of-two-arrays.py
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intersection-of-two-arrays.py
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# Time: O(m + n)
# Space: O(min(m, n))
# Given two arrays, write a function to compute their intersection.
#
# Example:
# Given nums1 = [1, 2, 2, 1], nums2 = [2, 2], return [2].
#
# Note:
# Each element in the result must be unique.
# The result can be in any order.
# Hash solution.
class Solution(object):
def intersection(self, nums1, nums2):
"""
:type nums1: List[int]
:type nums2: List[int]
:rtype: List[int]
"""
if len(nums1) > len(nums2):
return self.intersection(nums2, nums1)
lookup = set()
for i in nums1:
lookup.add(i)
res = []
for i in nums2:
if i in lookup:
res += i,
lookup.discard(i)
return res
def intersection2(self, nums1, nums2):
"""
:type nums1: List[int]
:type nums2: List[int]
:rtype: List[int]
"""
return list(set(nums1) & set(nums2))
# Time: O(max(m, n) * log(max(m, n)))
# Space: O(1)
# Binary search solution.
class Solution2(object):
def intersection(self, nums1, nums2):
"""
:type nums1: List[int]
:type nums2: List[int]
:rtype: List[int]
"""
if len(nums1) > len(nums2):
return self.intersection(nums2, nums1)
def binary_search(compare, nums, left, right, target):
while left < right:
mid = left + (right - left) / 2
if compare(nums[mid], target):
right = mid
else:
left = mid + 1
return left
nums1.sort(), nums2.sort()
res = []
left = 0
for i in nums1:
left = binary_search(lambda x, y: x >= y, nums2, left, len(nums2), i)
if left != len(nums2) and nums2[left] == i:
res += i,
left = binary_search(lambda x, y: x > y, nums2, left, len(nums2), i)
return res
# Time: O(max(m, n) * log(max(m, n)))
# Space: O(1)
# Two pointers solution.
class Solution3(object):
def intersection(self, nums1, nums2):
"""
:type nums1: List[int]
:type nums2: List[int]
:rtype: List[int]
"""
nums1.sort(), nums2.sort()
res = []
it1, it2 = 0, 0
while it1 < len(nums1) and it2 < len(nums2):
if nums1[it1] < nums2[it2]:
it1 += 1
elif nums1[it1] > nums2[it2]:
it2 += 1
else:
if not res or res[-1] != nums1[it1]:
res += nums1[it1],
it1 += 1
it2 += 1
return res