package LeetCode_30 /** * 30. Substring with Concatenation of All Words * https://leetcode.com/problems/substring-with-concatenation-of-all-words/ * * You are given a string s and an array of strings words of the same length. * Return all starting indices of substring(s) in s that is a concatenation of each word in words exactly once, * in any order, and without any intervening characters. You can return the answer in any order. Example 1: Input: s = "barfoothefoobarman", words = ["foo","bar"] Output: [0,9] Explanation: Substrings starting at index 0 and 9 are "barfoo" and "foobar" respectively. The output order does not matter, returning [9,0] is fine too. Example 2: Input: s = "wordgoodgoodgoodbestword", words = ["word","good","best","word"] Output: [] Example 3: Input: s = "barfoofoobarthefoobarman", words = ["bar","foo","the"] Output: [6,9,12] Constraints: 1. 1 <= s.length <= 104 2. s consists of lower-case English letters. 3. 1 <= words.length <= 5000 4. 1 <= words[i].length <= 30 5. words[i] consists of lower-case English letters. * */ class Solution { /* * solution: HashMap, Time complexity:O(n*l), Space complexity:O(n), l is length of s, n is count of word * */ fun findSubstring(s: String, words: Array<String>): List<Int> { if (s == null || s.isEmpty() || words == null || words.isEmpty()) { return ArrayList() } val frequencyMap = HashMap<String, Int>() for (word in words) { frequencyMap.put(word, frequencyMap.getOrDefault(word, 0) + 1) } val result = ArrayList<Int>() val wordLength = words[0].length val totalWordCount = words.size var i = 0 //while (i <= s.length - wordLength * totalWordCount) { while (i < s.length) { val seedWord = HashMap<String, Int>() for (j in 0 until totalWordCount) { //check each word one by one val startIndex = i + j * wordLength var endIndex = startIndex + wordLength if (endIndex > s.lastIndex) { endIndex = s.lastIndex+1 } val curWord = s.substring(startIndex, endIndex) if (!frequencyMap.contains(curWord)) { break } seedWord.put(curWord, seedWord.getOrDefault(curWord, 0) + 1) println(seedWord) if (seedWord.get(curWord) ?: 0 > frequencyMap.getOrDefault(curWord, 0)) { //handle case: capcapmap,cap's frequency in frequencyMap is 1, so just need the second 'cap' break } //if j can go through the length of word if (j + 1 == totalWordCount) { result.add(i) } } i++ } return result } }