intersection-of-two-arrays-ii.py

# If the given array is not sorted and the memory is unlimited:
#   - Time:  O(m + n)
#   - Space: O(min(m, n))
# elif the given array is already sorted:
#   if m << n or m >> n:
#     - Time:  O(min(m, n) * log(max(m, n)))
#     - Space: O(1)
#   else:
#     - Time:  O(m + n)
#     - Soace: O(1)
# else: (the given array is not sorted and the memory is limited)
#     - Time:  O(max(m, n) * log(max(m, n)))
#     - Space: O(1)

import collections


class Solution(object):
    def intersect(self, nums1, nums2):
        """
        :type nums1: List[int]
        :type nums2: List[int]
        :rtype: List[int]
        """
        if len(nums1) > len(nums2):
            return self.intersect(nums2, nums1)

        lookup = collections.defaultdict(int)
        for i in nums1:
            lookup[i] += 1

        res = []
        for i in nums2:
            if lookup[i] > 0:
                res += i,
                lookup[i] -= 1

        return res

    def intersect2(self, nums1, nums2):
        """
        :type nums1: List[int]
        :type nums2: List[int]
        :rtype: List[int]
        """
        c = collections.Counter(nums1) & collections.Counter(nums2)
        intersect = []
        for i in c:
            intersect.extend([i] * c[i])
        return intersect


# If the given array is already sorted, and the memory is limited, and (m << n or m >> n).
# Time:  O(min(m, n) * log(max(m, n)))
# Space: O(1)
# Binary search solution.
class Solution(object):
    def intersect(self, nums1, nums2):
        """
        :type nums1: List[int]
        :type nums2: List[int]
        :rtype: List[int]
        """
        if len(nums1) > len(nums2):
            return self.intersect(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()  # Make sure it is sorted, doesn't count in time.

        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 += 1

        return res


# If the given array is already sorted, and the memory is limited or m ~ n.
# Time:  O(m + n)
# Space: O(1)
# Two pointers solution.
class Solution(object):
    def intersect(self, nums1, nums2):
        """
        :type nums1: List[int]
        :type nums2: List[int]
        :rtype: List[int]
        """
        nums1.sort(), nums2.sort()  # Make sure it is sorted, doesn't count in time.

        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:
                res += nums1[it1],
                it1 += 1
                it2 += 1

        return res


# If the given array is not sorted, and the memory is limited.
# Time:  O(max(m, n) * log(max(m, n)))
# Space: O(1)
# Two pointers solution.
class Solution(object):
    def intersect(self, nums1, nums2):
        """
        :type nums1: List[int]
        :type nums2: List[int]
        :rtype: List[int]
        """
        nums1.sort(), nums2.sort()  # O(max(m, n) * log(max(m, n)))

        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:
                res += nums1[it1],
                it1 += 1
                it2 += 1

        return res