How to Solve Longest Unequal Adjacent Groups Subsequence I I Leetcode Problem - Interview Coder Guide
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How to Solve Longest Unequal Adjacent Groups Subsequence I I Problem

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Medium#3142
LeetCode Problem

Longest Unequal Adjacent Groups Subsequence II

You are given a string array words, and an array groups, both arrays having length n. The hamming distance between two strings of equal length is the number of positions at which the corresponding cha...

ArrayStringDynamic Programming

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Problem Breakdown

Understanding the Longest Unequal Adjacent Groups Subsequence I I Problem

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Problem Statement

You are given a string array words, and an array groups, both arrays having length n. The hamming distance between two strings of equal length is the number of positions at which the corresponding characters are different. You need to select the longest subsequence from an array of indices [0, 1, ..., n - 1], such that for the subsequence denoted as [i0, i1, ..., ik-1] having length k, the following holds: For adjacent indices in the subsequence, their corresponding groups are unequal, i.e., groups[ij] != groups[ij+1], for each j where 0 < j + 1 < k. words[ij] and words[ij+1] are equal in length, and the hamming distance between them is 1, where 0 < j + 1 < k, for all indices in the subsequence. Return a string array containing the words corresponding to the indices (in order) in the selected subsequence. If there are multiple answers, return any of them. Note: strings in words may be unequal in length.

MediumProblem #3142
LeetCode

Longest Unequal Adjacent Groups Subsequence II

Related Topics
ArrayStringDynamic Programming
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Examples

Example 1
INPUT
words = ["bab","dab","cab"], groups = [1,2,2]
OUTPUT
["bab","cab"]
EXPLANATION

A subsequence that can be selected is [0,2]. groups[0] != groups[2] words[0].length == words[2].length, and the hamming distance between them is 1. So, a valid answer is [words[0],words[2]] = ["bab","cab"]. Another subsequence that can be selected is [0,1]. groups[0] != groups[1] words[0].length == words[1].length, and the hamming distance between them is 1. So, another valid answer is [words[0],words[1]] = ["bab","dab"]. It can be shown that the length of the longest subsequence of indices that satisfies the conditions is 2.

Example 2
INPUT
words = ["a","b","c","d"], groups = [1,2,3,4]
OUTPUT
["a","b","c","d"]
EXPLANATION

We can select the subsequence [0,1,2,3]. It satisfies both conditions. Hence, the answer is [words[0],words[1],words[2],words[3]] = ["a","b","c","d"]. It has the longest length among all subsequences of indices that satisfy the conditions. Hence, it is the only answer.

Constraints

1 <= n == words.length == groups.length <= 1000
1 <= words[i].leng

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