243. Shortest Word Distance

时间:2023-03-09 03:27:15
243. Shortest Word Distance

题目:

Given a list of words and two words word1 and word2, return the shortest distance between these two words in the list.

For example,
Assume that words = ["practice", "makes", "perfect", "coding", "makes"].

Given word1 = “coding”word2 = “practice”, return 3.
Given word1 = "makes"word2 = "coding", return 1.

Note:
You may assume that word1 does not equal to word2, and word1 and word2 are both in the list.

链接: http://leetcode.com/problemset/algorithms/

题解:

找两个单词在数组中的距离。这个题比较没有意义...就跟找两个字母的距离一样。乍看题目还以为是word ladder。设置两个变量,分别代表每个单词的lastIndex,之后就是判断和计算了。也可以用一个变量来记录。

Time Complexity - O(n), Space Complexity - O(1)

public class Solution {

    public int shortestDistance(String[] words, String word1, String word2) {

        if(words == null || words.length == 0 || word1 == null || word2 == null)

            return Integer.MAX_VALUE;

        int minDistance = Integer.MAX_VALUE;

        int word1Index = -1, word2Index = -2;

        for(int i = 0; i < words.length; i++) {

            if(words[i].equals(word1))

                word1Index = i;

            if(words[i].equals(word2))

                word2Index = i;

            if(word1Index >= 0 && word2Index >= 0)

                minDistance = Math.min(minDistance, Math.abs(word1Index - word2Index));

        }

        return minDistance;

    }

}

二刷:

使用两个变量存下 word1和word2在数组中的位置,然后进行计算。

Java:

Time Complexity - O(n), Space Complexity - O(1)

public class Solution {

    public int shortestDistance(String[] words, String word1, String word2) {

        if (words == null || words.length < 2 || word1 == null || word2 == null) {

            return Integer.MAX_VALUE;

        }

        int word1Pos = -1, word2Pos = -1, minDistance = Integer.MAX_VALUE;

        for (int i = 0; i < words.length; i++) {

            String curWord = words[i];

            if (curWord.equals(word1) || curWord.equals(word2)) {

                if (curWord.equals(word1)) {

                    word1Pos = i;

                }

                if (curWord.equals(word2)) {

                    word2Pos = i;

                }

                if (word1Pos >= 0 && word2Pos >= 0) {

                    minDistance = Math.min(minDistance, Math.abs(word1Pos - word2Pos));

                }

            }

        }

        return minDistance;

    }

}

三刷:

Java:

public class Solution {

    public int shortestDistance(String[] words, String word1, String word2) {

        int minDist = Integer.MAX_VALUE;

        int word1Idx = -1, word2Idx = -1;

        for (int i = 0; i < words.length; i++) {

            if (words[i].equals(word1)) {

                word1Idx = i;

                if (word2Idx >= 0) minDist = Math.min(minDist, i - word2Idx);

            } else if (words[i].equals(word2)) {

                word2Idx = i;

                if (word1Idx >= 0) minDist = Math.min(minDist, i - word1Idx);

            }

        }

        return minDist;

    }

}

Reference:

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