leetcode-problemset/leetcode/originData/minimum-time-to-make-array-sum-at-most-x.json

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            "title": "Minimum Time to Make Array Sum At Most x",
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            "content": "<p>You are given two <strong>0-indexed</strong> integer arrays <code>nums1</code> and <code>nums2</code> of equal length. Every second, for all indices <code>0 &lt;= i &lt; nums1.length</code>, value of <code>nums1[i]</code> is incremented by <code>nums2[i]</code>. <strong>After</strong> this is done, you can do the following operation:</p>\n\n<ul>\n\t<li>Choose an index <code>0 &lt;= i &lt; nums1.length</code> and make <code>nums1[i] = 0</code>.</li>\n</ul>\n\n<p>You are also given an integer <code>x</code>.</p>\n\n<p>Return <em>the <strong>minimum</strong> time in which you can make the sum of all elements of </em><code>nums1</code><em> to be<strong> less than or equal</strong> to </em><code>x</code>, <em>or </em><code>-1</code><em> if this is not possible.</em></p>\n\n<p>&nbsp;</p>\n<p><strong class=\"example\">Example 1:</strong></p>\n\n<pre>\n<strong>Input:</strong> nums1 = [1,2,3], nums2 = [1,2,3], x = 4\n<strong>Output:</strong> 3\n<strong>Explanation:</strong> \nFor the 1st second, we apply the operation on i = 0. Therefore nums1 = [0,2+2,3+3] = [0,4,6]. \nFor the 2nd second, we apply the operation on i = 1. Therefore nums1 = [0+1,0,6+3] = [1,0,9]. \nFor the 3rd second, we apply the operation on i = 2. Therefore nums1 = [1+1,0+2,0] = [2,2,0]. \nNow sum of nums1 = 4. It can be shown that these operations are optimal, so we return 3.\n\n</pre>\n\n<p><strong class=\"example\">Example 2:</strong></p>\n\n<pre>\n<strong>Input:</strong> nums1 = [1,2,3], nums2 = [3,3,3], x = 4\n<strong>Output:</strong> -1\n<strong>Explanation:</strong> It can be shown that the sum of nums1 will always be greater than x, no matter which operations are performed.\n</pre>\n\n<p>&nbsp;</p>\n<p><strong>Constraints:</strong></p>\n\n<ul>\n\t<li><code><font face=\"monospace\">1 &lt;= nums1.length &lt;= 10<sup>3</sup></font></code></li>\n\t<li><code>1 &lt;= nums1[i] &lt;= 10<sup>3</sup></code></li>\n\t<li><code>0 &lt;= nums2[i] &lt;= 10<sup>3</sup></code></li>\n\t<li><code>nums1.length == nums2.length</code></li>\n\t<li><code>0 &lt;= x &lt;= 10<sup>6</sup></code></li>\n</ul>\n",
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                    "code": "class Solution(object):\n    def minimumTime(self, nums1, nums2, x):\n        \"\"\"\n        :type nums1: List[int]\n        :type nums2: List[int]\n        :type x: int\n        :rtype: int\n        \"\"\"\n        ",
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                    "code": "# @param {Integer[]} nums1\n# @param {Integer[]} nums2\n# @param {Integer} x\n# @return {Integer}\ndef minimum_time(nums1, nums2, x)\n    \nend",
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                    "lang": "Rust",
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                    "code": "impl Solution {\n    pub fn minimum_time(nums1: Vec<i32>, nums2: Vec<i32>, x: i32) -> i32 {\n        \n    }\n}",
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                    "code": "defmodule Solution do\n  @spec minimum_time(nums1 :: [integer], nums2 :: [integer], x :: integer) :: integer\n  def minimum_time(nums1, nums2, x) do\n\n  end\nend",
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                "<div class=\"_1l1MA\">It can be proven that in the optimal solution, for each index <code>i</code>, we only need to set <code>nums1[i]</code> to <code>0</code> at most once. (If we have to set it twice, we can simply remove the earlier set and all the operations “shift left” by <code>1</code>.)</div>",
                "<div class=\"_1l1MA\">It can also be proven that if we select several indexes <code>i<sub>1</sub>, i<sub>2</sub>, ..., i<sub>k</sub></code> and set <code>nums1[i<sub>1</sub>], nums1[i<sub>2</sub>], ..., nums1[i<sub>k</sub>]</code> to <code>0</code>, it’s always optimal to set them in the order of <code>nums2[i<sub>1</sub>] <= nums2[i<sub>2</sub>] <= ... <= nums2[i<sub>k</sub>]</code> (the larger the increase is, the later we should set it to <code>0</code>).</div>",
                "<div class=\"_1l1MA\">Let’s sort all the values by <code>nums2</code> (in non-decreasing order). Let <code>dp[i][j]</code> represent the maximum total value that can be reduced if we do <code>j</code> operations on the first <code>i</code> elements. Then we have <code>dp[i][0] = 0</code> (for all <code>i = 0, 1, ..., n</code>) and <code>dp[i][j] = max(dp[i - 1][j], dp[i - 1][j - 1] + nums2[i - 1] * j + nums1[i - 1])</code> (for <code>1 <= i <= n</code> and <code>1 <= j <= i</code>).</div>",
                "<div class=\"_1l1MA\">The answer is the minimum value of <code>t</code>, such that <code>0 <= t <= n</code> and <code>sum(nums1) + sum(nums2) * t - dp[n][t] <= x</code>, or <code>-1</code> if it doesn’t exist.</div>"
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