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leetcode-problemset/leetcode-cn/originData/double-modular-exponentiation.json
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"categoryTitle": "Algorithms",
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"title": "Double Modular Exponentiation",
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"content": "<p>You are given a <strong>0-indexed</strong> 2D array <code>variables</code> where <code>variables[i] = [a<sub>i</sub>, b<sub>i</sub>, c<sub>i,</sub> m<sub>i</sub>]</code>, and an integer <code>target</code>.</p>\n\n<p>An index <code>i</code> is <strong>good</strong> if the following formula holds:</p>\n\n<ul>\n\t<li><code>0 &lt;= i &lt; variables.length</code></li>\n\t<li><code>((a<sub>i</sub><sup>b<sub>i</sub></sup> % 10)<sup>c<sub>i</sub></sup>) % m<sub>i</sub> == target</code></li>\n</ul>\n\n<p>Return <em>an array consisting of <strong>good</strong> indices in <strong>any order</strong></em>.</p>\n\n<p>&nbsp;</p>\n<p><strong class=\"example\">Example 1:</strong></p>\n\n<pre>\n<strong>Input:</strong> variables = [[2,3,3,10],[3,3,3,1],[6,1,1,4]], target = 2\n<strong>Output:</strong> [0,2]\n<strong>Explanation:</strong> For each index i in the variables array:\n1) For the index 0, variables[0] = [2,3,3,10], (2<sup>3</sup> % 10)<sup>3</sup> % 10 = 2.\n2) For the index 1, variables[1] = [3,3,3,1], (3<sup>3</sup> % 10)<sup>3</sup> % 1 = 0.\n3) For the index 2, variables[2] = [6,1,1,4], (6<sup>1</sup> % 10)<sup>1</sup> % 4 = 2.\nTherefore we return [0,2] as the answer.\n</pre>\n\n<p><strong class=\"example\">Example 2:</strong></p>\n\n<pre>\n<strong>Input:</strong> variables = [[39,3,1000,1000]], target = 17\n<strong>Output:</strong> []\n<strong>Explanation:</strong> For each index i in the variables array:\n1) For the index 0, variables[0] = [39,3,1000,1000], (39<sup>3</sup> % 10)<sup>1000</sup> % 1000 = 1.\nTherefore we return [] as the answer.\n</pre>\n\n<p>&nbsp;</p>\n<p><strong>Constraints:</strong></p>\n\n<ul>\n\t<li><code>1 &lt;= variables.length &lt;= 100</code></li>\n\t<li><code>variables[i] == [a<sub>i</sub>, b<sub>i</sub>, c<sub>i</sub>, m<sub>i</sub>]</code></li>\n\t<li><code>1 &lt;= a<sub>i</sub>, b<sub>i</sub>, c<sub>i</sub>, m<sub>i</sub> &lt;= 10<sup>3</sup></code></li>\n\t<li><code><font face=\"monospace\">0 &lt;= target &lt;= 10<sup>3</sup></font></code></li>\n</ul>\n",
"translatedTitle": "双模幂运算",
"translatedContent": "<p>给你一个下标从 <strong>0 </strong>开始的二维数组 <code>variables</code> ,其中 <code>variables[i] = [a<sub>i</sub>, b<sub>i</sub>, c<sub>i,</sub> m<sub>i</sub>]</code>,以及一个整数 <code>target</code> 。</p>\n\n<p>如果满足以下公式,则下标 <code>i</code> 是 <strong>好下标</strong></p>\n\n<ul>\n\t<li><code>0 &lt;= i &lt; variables.length</code></li>\n\t<li><code>((a<sub>i</sub><sup>b<sub>i</sub></sup> % 10)<sup>c<sub>i</sub></sup>) % m<sub>i</sub> == target</code></li>\n</ul>\n\n<p>返回一个由<strong> 好下标 </strong>组成的数组,<strong>顺序不限</strong> 。</p>\n\n<p>&nbsp;</p>\n\n<p><strong class=\"example\">示例 1</strong></p>\n\n<pre>\n<strong>输入:</strong>variables = [[2,3,3,10],[3,3,3,1],[6,1,1,4]], target = 2\n<strong>输出:</strong>[0,2]\n<strong>解释:</strong>对于 variables 数组中的每个下标 i \n1) 对于下标 0 variables[0] = [2,3,3,10] (2<sup>3</sup> % 10)<sup>3</sup> % 10 = 2 。\n2) 对于下标 1 variables[1] = [3,3,3,1] (3<sup>3</sup> % 10)<sup>3</sup> % 1 = 0 。\n3) 对于下标 2 variables[2] = [6,1,1,4] (6<sup>1</sup> % 10)<sup>1</sup> % 4 = 2 。\n因此返回 [0,2] 作为答案。\n</pre>\n\n<p><strong class=\"example\">示例 2</strong></p>\n\n<pre>\n<strong>输入:</strong>variables = [[39,3,1000,1000]], target = 17\n<strong>输出:</strong>[]\n<strong>解释:</strong>对于 variables 数组中的每个下标 i \n1) 对于下标 0 variables[0] = [39,3,1000,1000] (39<sup>3</sup> % 10)<sup>1000</sup> % 1000 = 1 。\n因此返回 [] 作为答案。\n</pre>\n\n<p>&nbsp;</p>\n\n<p><strong>提示:</strong></p>\n\n<ul>\n\t<li><code>1 &lt;= variables.length &lt;= 100</code></li>\n\t<li><code>variables[i] == [a<sub>i</sub>, b<sub>i</sub>, c<sub>i</sub>, m<sub>i</sub>]</code></li>\n\t<li><code>1 &lt;= a<sub>i</sub>, b<sub>i</sub>, c<sub>i</sub>, m<sub>i</sub> &lt;= 10<sup>3</sup></code></li>\n\t<li><code><font face=\"monospace\">0 &lt;= target &lt;= 10<sup>3</sup></font></code></li>\n</ul>\n",
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target=\\\"_blank\\\">itertools<\\/a><\\/p>\"],\"php\":[\"PHP\",\"<p><code>PHP 8.2<\\/code>.<\\/p>\\r\\n\\r\\n<p>With bcmath module.<\\/p>\"],\"typescript\":[\"TypeScript\",\"<p>TypeScript 5.7.3<\\/p>\\r\\n\\r\\n<p>Compile Options: --alwaysStrict --strictBindCallApply --strictFunctionTypes --target ES2024<\\/p>\\r\\n\\r\\n<p><a href=\\\"https:\\/\\/lodash.com\\\" target=\\\"_blank\\\">lodash.js<\\/a> \\u5e93\\u5df2\\u7ecf\\u9ed8\\u8ba4\\u88ab\\u5305\\u542b\\u3002<\\/p>\\r\\n\\r\\n<p> \\u60a8\\u53ef\\u4f7f\\u7528 <a href=\\\"https:\\/\\/datastructures-js.info\\/docs\\\" target=\\\"_blank\\\"> datastructures-js <\\/a>\\u5e93\\u6240\\u63d0\\u4f9b\\u7684\\u6570\\u636e\\u7ed3\\u6784\\u3002<\\/p>\"],\"racket\":[\"Racket\",\"<p><a href=\\\"https:\\/\\/docs.racket-lang.org\\/guide\\/performance.html#%28tech._c%29\\\" target=\\\"_blank\\\">Racket CS<\\/a> v8.15<\\/p>\\r\\n\\r\\n<p>\\u4f7f\\u7528 #lang racket<\\/p>\\r\\n\\r\\n<p>\\u5df2\\u9884\\u5148 (require data\\/gvector data\\/queue 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target=\\\"_blank\\\">\\u300c\\u4ed3\\u9889\\u7f16\\u7a0b\\u8bed\\u8a00\\u5f00\\u53d1\\u6307\\u5357\\u300d<\\/a><\\/p>\"]}",
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