1894. Find the Student that Will Replace the Chalk
Description
There are n students in a class numbered from 0 to n - 1. The teacher will give each student a problem starting with the student number 0, then the student number 1, and so on until the teacher reaches the student number n - 1. After that, the teacher will restart the process, starting with the student number 0 again.
You are given a 0-indexed integer array chalk and an integer k. There are initially k pieces of chalk. When the student number i is given a problem to solve, they will use chalk[i] pieces of chalk to solve that problem. However, if the current number of chalk pieces is strictly less than chalk[i], then the student number i will be asked to replace the chalk.
Return the index of the student that will replace the chalk pieces.
Example 1:
Input: chalk = [5,1,5], k = 22 Output: 0 Explanation: The students go in turns as follows: - Student number 0 uses 5 chalk, so k = 17. - Student number 1 uses 1 chalk, so k = 16. - Student number 2 uses 5 chalk, so k = 11. - Student number 0 uses 5 chalk, so k = 6. - Student number 1 uses 1 chalk, so k = 5. - Student number 2 uses 5 chalk, so k = 0. Student number 0 does not have enough chalk, so they will have to replace it.
Example 2:
Input: chalk = [3,4,1,2], k = 25 Output: 1 Explanation: The students go in turns as follows: - Student number 0 uses 3 chalk so k = 22. - Student number 1 uses 4 chalk so k = 18. - Student number 2 uses 1 chalk so k = 17. - Student number 3 uses 2 chalk so k = 15. - Student number 0 uses 3 chalk so k = 12. - Student number 1 uses 4 chalk so k = 8. - Student number 2 uses 1 chalk so k = 7. - Student number 3 uses 2 chalk so k = 5. - Student number 0 uses 3 chalk so k = 2. Student number 1 does not have enough chalk, so they will have to replace it.
Constraints:
chalk.length == n1 <= n <= 1051 <= chalk[i] <= 1051 <= k <= 109
Solutions
Solution: Simulation
- Time complexity: O(n)
- Space complexity: O(1)
JavaScript
/**
* @param {number[]} chalk
* @param {number} k
* @return {number}
*/
const chalkReplacer = function (chalk, k) {
const roundOfChalk = chalk.reduce((total, count) => total + count);
let remainChalk = k % roundOfChalk;
if (remainChalk === 0) return 0;
for (const [index, element] of chalk.entries()) {
remainChalk -= element;
if (remainChalk >= 0) continue;
return index;
}
return 0;
};