package LeetCode_1720 /** * 1720. Decode XORed Array * https://leetcode.com/problems/decode-xored-array/ * There is a hidden integer array arr that consists of n non-negative integers. It was encoded into another integer array encoded of length n - 1, such that encoded[i] = arr[i] XOR arr[i + 1]. For example, if arr = [1,0,2,1], then encoded = [1,2,3]. You are given the encoded array. You are also given an integer first, that is the first element of arr, i.e. arr[0]. Return the original array arr. It can be proved that the answer exists and is unique. Example 1: Input: encoded = [1,2,3], first = 1 Output: [1,0,2,1] Explanation: If arr = [1,0,2,1], then first = 1 and encoded = [1 XOR 0, 0 XOR 2, 2 XOR 1] = [1,2,3] Example 2: Input: encoded = [6,2,7,3], first = 4 Output: [4,2,0,7,4] Constraints: 1. 2 <= n <= 104 2. encoded.length == n - 1 3. 0 <= encoded[i] <= 105 4. 0 <= first <= 105 * */ class Solution { /* * Solution: XOR the same number twice, all operations on this number will be cancel:a xor b xor a = b; * because encoded[i] = result[i] xor result[i+1], * so we add: encoded[i] xor result[i+1] in both side => * encoded[i] xor encoded[i] xor result[i+1] = result[i] xor result[i+1] xor encoded[i] xor result[i+1], * then get: * result[i+1] = result[i] xor encoded[i]; * Time:O(n), Space:O(1) * */ fun decode(encoded: IntArray, first: Int): IntArray { val result = IntArray(encoded.size + 1) result[0] = first for (i in encoded.indices) { result[i + 1] = encoded[i].xor(result[i]) } return result } }