admin管理员组文章数量:1530069
You are entering a competition, and are given two positive integers initialEnergy and initialExperience denoting your initial energy and initial experience respectively.
You are also given two 0-indexed integer arrays energy and experience, both of length n.
You will face n opponents in order. The energy and experience of the ith opponent is denoted by energy[i] and experience[i] respectively. When you face an opponent, you need to have both strictly greater experience and energy to defeat them and move to the next opponent if available.
Defeating the ith opponent increases your experience by experience[i], but decreases your energy by energy[i].
Before starting the competition, you can train for some number of hours. After each hour of training, you can either choose to increase your initial experience by one, or increase your initial energy by one.
Return the minimum number of training hours required to defeat all n opponents.
Example 1:
Input: initialEnergy = 5, initialExperience = 3, energy = [1,4,3,2], experience = [2,6,3,1] Output: 8 Explanation: You can increase your energy to 11 after 6 hours of training, and your experience to 5 after 2 hours of training. You face the opponents in the following order: - You have more energy and experience than the 0th opponent so you win. Your energy becomes 11 - 1 = 10, and your experience becomes 5 + 2 = 7. - You have more energy and experience than the 1st opponent so you win. Your energy becomes 10 - 4 = 6, and your experience becomes 7 + 6 = 13. - You have more energy and experience than the 2nd opponent so you win. Your energy becomes 6 - 3 = 3, and your experience becomes 13 + 3 = 16. - You have more energy and experience than the 3rd opponent so you win. Your energy becomes 3 - 2 = 1, and your experience becomes 16 + 1 = 17. You did a total of 6 + 2 = 8 hours of training before the competition, so we return 8. It can be proven that no smaller answer exists.
Example 2:
Input: initialEnergy = 2, initialExperience = 4, energy = [1], experience = [3] Output: 0 Explanation: You do not need any additional energy or experience to win the competition, so we return 0.
Constraints:
n == energy.length == experience.length1 <= n <= 1001 <= initialEnergy, initialExperience, energy[i], experience[i] <= 100
题目描述巨长……大概就是给了初始经验值和初始能量值,然后要打怪,打每个怪需要一定的能量值和经验值,并且需要自己的当前能量值和经验值都大于打怪需要的能量/经验值。题目就问你还差多少能量/经验值,那就无脑加加减减就行了。
class Solution {
public int minNumberOfHours(int initialEnergy, int initialExperience, int[] energy, int[] experience) {
int result = 0;
for (int i = 0; i < energy.length; i++) {
if (initialEnergy <= energy[i]) {
int diff = energy[i] - initialEnergy + 1;
result += diff;
initialEnergy += diff;
}
initialEnergy -= energy[i];
if (initialExperience <= experience[i]) {
int diff = experience[i] - initialExperience + 1;
result += diff;
initialExperience += diff;
}
initialExperience += experience[i];
}
return result;
}
}本文标签: MinimumLeetCodeHourscompetitionwin
版权声明:本文标题:LeetCode 2383. Minimum Hours of Training to Win a Competition 内容由热心网友自发贡献,该文观点仅代表作者本人, 转载请联系作者并注明出处:https://m.elefans.com/dianzi/1726693933a1080983.html, 本站仅提供信息存储空间服务,不拥有所有权,不承担相关法律责任。如发现本站有涉嫌抄袭侵权/违法违规的内容,一经查实,本站将立刻删除。
发表评论