1035. Uncrossed Lines
We write the integers of A
and B
(in the order they are given) on two separate horizontal lines.
Now, we may draw connecting lines : a straight line connecting two numbers A[i]
and B[j]
such that:
A[i] == B[j]
;- The line we draw does not intersect any other connecting (non-horizontal) line.
Note that a connecting lines cannot intersect even at the endpoints: each number can only belong to one connecting line.
Return the maximum number of connecting lines we can draw in this way.
Example 1:
Input: A = [1,4,2], B = [1,2,4]
Output: 2
Explanation: We can draw 2 uncrossed lines as in the diagram.
We cannot draw 3 uncrossed lines, because the line from A[1]=4 to B[2]=4 will intersect the line from A[2]=2 to B[1]=2.
Example 2:
Input: A = [2,5,1,2,5], B = [10,5,2,1,5,2]
Output: 3
Example 3:
Input: A = [1,3,7,1,7,5], B = [1,9,2,5,1]
Output: 2
Note:
1 <= A.length <= 500
1 <= B.length <= 500
1 <= A[i], B[i] <= 2000
# @lc code=start
using LeetCode
max_uncrossed_lines(nums1::Vector{Int}, nums2::Vector{Int}) =
longest_common_subsequence(nums1, nums2)
# @lc code=end
max_uncrossed_lines (generic function with 1 method)
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