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Maximum XOR for Each Query

Mary-Kate Olsen
Release: 2024-11-10 17:41:02
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Maximum XOR for Each Query

1829. Maximum XOR for Each Query

Difficulty: Medium

Topics: Array, Bit Manipulation, Prefix Sum

You are given a sorted array nums of n non-negative integers and an integer maximumBit. You want to perform the following query n times:

  • Find a non-negative integer k < 2maximumBit such that nums[0] XOR nums[1] XOR ... XOR nums[nums.length-1] XOR k is maximized. k is the answer to the ith query.
  • Remove the last element from the current array nums.

Return an array answer, where answer[i] is the answer to the ith query.

Example 1:

  • Input: nums = [0,1,1,3], maximumBit = 2
  • Output: [0,3,2,3]
  • Explanation: The queries are answered as follows:
    • 1stst query: nums = [0,1,1,3], k = 0 since 0 XOR 1 XOR 1 XOR 3 XOR 0 = 3.
    • 2nd query: nums = [0,1,1], k = 3 since 0 XOR 1 XOR 1 XOR 3 = 3.
    • 3rd query: nums = [0,1], k = 2 since 0 XOR 1 XOR 2 = 3.
    • 4th query: nums = [0], k = 3 since 0 XOR 3 = 3.

Example 2:

  • Input: nums = [2,3,4,7], maximumBit = 3
  • Output: [5,2,6,5]
  • Explanation: The queries are answered as follows:
    • 1stst query: nums = [2,3,4,7], k = 5 since 2 XOR 3 XOR 4 XOR 7 XOR 5 = 7.
    • 2nd query: nums = [2,3,4], k = 2 since 2 XOR 3 XOR 4 XOR 2 = 7.
    • 3rd query: nums = [2,3], k = 6 since 2 XOR 3 XOR 6 = 7.
    • 4th query: nums = [2], k = 5 since 2 XOR 5 = 7.

Example 3:

  • Input: nums = [0,1,2,2,5,7], maximumBit = 3
  • Output: [4,3,6,4,6,7]

Constraints:

  • nums.length == n
  • 1 <= n <= 105
  • 1 <= maximumBit <= 20
  • 0 <= nums[i] < 2maximumBit
  • nums​​​ is sorted in ascending order.

Hint:

  1. Note that the maximum possible XOR result is always 2(maximumBit) - 1
  2. So the answer for a prefix is the XOR of that prefix XORed with 2(maximumBit)-1

Solution:

We need to efficiently calculate the XOR of elements in the array and maximize the result using a value k such that k is less than 2^maximumBit. Here's the approach for solving this problem:

Observations and Approach

  1. Maximizing XOR:
    The maximum number we can XOR with any prefix sum for maximumBit bits is ( 2^{text{maximumBit}} - 1 ). This is because XORing with a number of all 1s (i.e., 111...1 in binary) will always maximize the result.

  2. Prefix XOR Calculation:
    Instead of recalculating the XOR for each query, we can maintain a cumulative XOR for the entire array. Since XOR has the property that A XOR B XOR B = A, removing the last element from the array can be achieved by XORing out that element from the cumulative XOR.

  3. Algorithm:

    • Compute the XOR of all elements in nums initially. Let's call this currentXOR.
    • For each query (from last to first):
      • Calculate the optimal value of k for that query by XORing currentXOR with maxNum where maxNum = 2^maximumBit - 1.
      • Append k to the result list.
      • Remove the last element from nums by XORing it out of currentXOR.
    • The result list will contain the answers in reverse order, so reverse it at the end.

Let's implement this solution in PHP: 1829. Maximum XOR for Each Query






Explanation:

  1. Calculate maxNum:

    • maxNum is calculated as 2^maximumBit - 1, which is the number with all 1s in binary for the specified bit length.
  2. Initial XOR Calculation:

    • We XOR all elements in nums to get the cumulative XOR (currentXOR), representing the XOR of all numbers in the array.
  3. Iterate Backwards:

    • We start from the last element in nums and calculate the maximum XOR for each step:
      • currentXOR ^ maxNum gives the maximum k for the current state.
      • Append k to answer.
    • We then XOR the last element of nums with currentXOR to "remove" it from the XOR sum for the next iteration.
  4. Return the Answer:

    • Since we processed the list in reverse, answer will contain the values in reverse order, so the final list is already arranged correctly for our requirements.

Complexity Analysis

  • Time Complexity: O(n), since we compute the initial XOR in O(n) and each query is processed in constant time.
  • Space Complexity: O(n), for storing the answer.

This code is efficient and should handle the upper limits of the constraints well.

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