leetcode-problemset/leetcode/originData/describe-the-painting.json

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            "content": "<p>There is a long and thin painting that can be represented by a number line. The painting was painted with multiple overlapping segments where each segment was painted with a <strong>unique</strong> color. You are given a 2D integer array <code>segments</code>, where <code>segments[i] = [start<sub>i</sub>, end<sub>i</sub>, color<sub>i</sub>]</code> represents the <strong>half-closed segment</strong> <code>[start<sub>i</sub>, end<sub>i</sub>)</code> with <code>color<sub>i</sub></code> as the color.</p>\n\n<p>The colors in the overlapping segments of the painting were <strong>mixed</strong> when it was painted. When two or more colors mix, they form a new color that can be represented as a <strong>set</strong> of mixed colors.</p>\n\n<ul>\n\t<li>For example, if colors <code>2</code>, <code>4</code>, and <code>6</code> are mixed, then the resulting mixed color is <code>{2,4,6}</code>.</li>\n</ul>\n\n<p>For the sake of simplicity, you should only output the <strong>sum</strong> of the elements in the set rather than the full set.</p>\n\n<p>You want to <strong>describe</strong> the painting with the <strong>minimum</strong> number of non-overlapping <strong>half-closed segments</strong> of these mixed colors. These segments can be represented by the 2D array <code>painting</code> where <code>painting[j] = [left<sub>j</sub>, right<sub>j</sub>, mix<sub>j</sub>]</code> describes a <strong>half-closed segment</strong> <code>[left<sub>j</sub>, right<sub>j</sub>)</code> with the mixed color <strong>sum</strong> of <code>mix<sub>j</sub></code>.</p>\n\n<ul>\n\t<li>For example, the painting created with <code>segments = [[1,4,5],[1,7,7]]</code> can be described by <code>painting = [[1,4,12],[4,7,7]]</code> because:\n\n\t<ul>\n\t\t<li><code>[1,4)</code> is colored <code>{5,7}</code> (with a sum of <code>12</code>) from both the first and second segments.</li>\n\t\t<li><code>[4,7)</code> is colored <code>{7}</code> from only the second segment.</li>\n\t</ul>\n\t</li>\n</ul>\n\n<p>Return <em>the 2D array </em><code>painting</code><em> describing the finished painting (excluding any parts that are <strong>not </strong>painted). You may return the segments in <strong>any order</strong></em>.</p>\n\n<p>A <strong>half-closed segment</strong> <code>[a, b)</code> is the section of the number line between points <code>a</code> and <code>b</code> <strong>including</strong> point <code>a</code> and <strong>not including</strong> point <code>b</code>.</p>\n\n<p>&nbsp;</p>\n<p><strong class=\"example\">Example 1:</strong></p>\n<img alt=\"\" src=\"https://assets.leetcode.com/uploads/2021/06/18/1.png\" style=\"width: 529px; height: 241px;\" />\n<pre>\n<strong>Input:</strong> segments = [[1,4,5],[4,7,7],[1,7,9]]\n<strong>Output:</strong> [[1,4,14],[4,7,16]]\n<strong>Explanation: </strong>The painting can be described as follows:\n- [1,4) is colored {5,9} (with a sum of 14) from the first and third segments.\n- [4,7) is colored {7,9} (with a sum of 16) from the second and third segments.\n</pre>\n\n<p><strong class=\"example\">Example 2:</strong></p>\n<img alt=\"\" src=\"https://assets.leetcode.com/uploads/2021/06/18/2.png\" style=\"width: 532px; height: 219px;\" />\n<pre>\n<strong>Input:</strong> segments = [[1,7,9],[6,8,15],[8,10,7]]\n<strong>Output:</strong> [[1,6,9],[6,7,24],[7,8,15],[8,10,7]]\n<strong>Explanation: </strong>The painting can be described as follows:\n- [1,6) is colored 9 from the first segment.\n- [6,7) is colored {9,15} (with a sum of 24) from the first and second segments.\n- [7,8) is colored 15 from the second segment.\n- [8,10) is colored 7 from the third segment.\n</pre>\n\n<p><strong class=\"example\">Example 3:</strong></p>\n<img alt=\"\" src=\"https://assets.leetcode.com/uploads/2021/07/04/c1.png\" style=\"width: 529px; height: 289px;\" />\n<pre>\n<strong>Input:</strong> segments = [[1,4,5],[1,4,7],[4,7,1],[4,7,11]]\n<strong>Output:</strong> [[1,4,12],[4,7,12]]\n<strong>Explanation: </strong>The painting can be described as follows:\n- [1,4) is colored {5,7} (with a sum of 12) from the first and se
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                    "code": "/**\n * Return an array of arrays of size *returnSize.\n * The sizes of the arrays are returned as *returnColumnSizes array.\n * Note: Both returned array and *columnSizes array must be malloced, assume caller calls free().\n */\nlong long** splitPainting(int** segments, int segmentsSize, int* segmentsColSize, int* returnSize, int** returnColumnSizes) {\n    \n}",
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                    "code": "func splitPainting(segments [][]int) [][]int64 {\n    \n}",
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                    "code": "# @param {Integer[][]} segments\n# @return {Integer[][]}\ndef split_painting(segments)\n    \nend",
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                    "code": "impl Solution {\n    pub fn split_painting(segments: Vec<Vec<i32>>) -> Vec<Vec<i64>> {\n        \n    }\n}",
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            "hints": [
                "Can we sort the segments in a way to help solve the problem?",
                "How can we dynamically keep track of the sum of the current segment(s)?"
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存量题库数据更新 2023-12-09 18:42:21 +08:00			"content": "<p>There is a long and thin painting that can be represented by a number line. The painting was painted with multiple overlapping segments where each segment was painted with a <strong>unique</strong> color. You are given a 2D integer array <code>segments</code>, where <code>segments[i] = [start<sub>i</sub>, end<sub>i</sub>, color<sub>i</sub>]</code> represents the <strong>half-closed segment</strong> <code>[start<sub>i</sub>, end<sub>i</sub>)</code> with <code>color<sub>i</sub></code> as the color.</p>\n\n<p>The colors in the overlapping segments of the painting were <strong>mixed</strong> when it was painted. When two or more colors mix, they form a new color that can be represented as a <strong>set</strong> of mixed colors.</p>\n\n<ul>\n\t<li>For example, if colors <code>2</code>, <code>4</code>, and <code>6</code> are mixed, then the resulting mixed color is <code>{2,4,6}</code>.</li>\n</ul>\n\n<p>For the sake of simplicity, you should only output the <strong>sum</strong> of the elements in the set rather than the full set.</p>\n\n<p>You want to <strong>describe</strong> the painting with the <strong>minimum</strong> number of non-overlapping <strong>half-closed segments</strong> of these mixed colors. These segments can be represented by the 2D array <code>painting</code> where <code>painting[j] = [left<sub>j</sub>, right<sub>j</sub>, mix<sub>j</sub>]</code> describes a <strong>half-closed segment</strong> <code>[left<sub>j</sub>, right<sub>j</sub>)</code> with the mixed color <strong>sum</strong> of <code>mix<sub>j</sub></code>.</p>\n\n<ul>\n\t<li>For example, the painting created with <code>segments = [[1,4,5],[1,7,7]]</code> can be described by <code>painting = [[1,4,12],[4,7,7]]</code> because:\n\n\t<ul>\n\t\t<li><code>[1,4)</code> is colored <code>{5,7}</code> (with a sum of <code>12</code>) from both the first and second segments.</li>\n\t\t<li><code>[4,7)</code> is colored <code>{7}</code> from only the second segment.</li>\n\t</ul>\n\t</li>\n</ul>\n\n<p>Return <em>the 2D array </em><code>painting</code><em> describing the finished painting (excluding any parts that are <strong>not </strong>painted). You may return the segments in <strong>any order</strong></em>.</p>\n\n<p>A <strong>half-closed segment</strong> <code>[a, b)</code> is the section of the number line between points <code>a</code> and <code>b</code> <strong>including</strong> point <code>a</code> and <strong>not including</strong> point <code>b</code>.</p>\n\n<p> </p>\n<p><strong class=\"example\">Example 1:</strong></p>\n<img alt=\"\" src=\"https://assets.leetcode.com/uploads/2021/06/18/1.png\" style=\"width: 529px; height: 241px;\" />\n<pre>\n<strong>Input:</strong> segments = [[1,4,5],[4,7,7],[1,7,9]]\n<strong>Output:</strong> [[1,4,14],[4,7,16]]\n<strong>Explanation: </strong>The painting can be described as follows:\n- [1,4) is colored {5,9} (with a sum of 14) from the first and third segments.\n- [4,7) is colored {7,9} (with a sum of 16) from the second and third segments.\n</pre>\n\n<p><strong class=\"example\">Example 2:</strong></p>\n<img alt=\"\" src=\"https://assets.leetcode.com/uploads/2021/06/18/2.png\" style=\"width: 532px; height: 219px;\" />\n<pre>\n<strong>Input:</strong> segments = [[1,7,9],[6,8,15],[8,10,7]]\n<strong>Output:</strong> [[1,6,9],[6,7,24],[7,8,15],[8,10,7]]\n<strong>Explanation: </strong>The painting can be described as follows:\n- [1,6) is colored 9 from the first segment.\n- [6,7) is colored {9,15} (with a sum of 24) from the first and second segments.\n- [7,8) is colored 15 from the second segment.\n- [8,10) is colored 7 from the third segment.\n</pre>\n\n<p><strong class=\"example\">Example 3:</strong></p>\n<img alt=\"\" src=\"https://assets.leetcode.com/uploads/2021/07/04/c1.png\" style=\"width: 529px; height: 289px;\" />\n<pre>\n<strong>Input:</strong> segments = [[1,4,5],[1,4,7],[4,7,1],[4,7,11]]\n<strong>Output:</strong> [[1,4,12],[4,7,12]]\n<strong>Explanation: </strong>The painting can be described as follows:\n- [1,4) is colored {5,7} (with a sum of 12) from the first and se
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存量题库数据更新 2023-12-09 18:42:21 +08:00			`"likes": 446,`
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存量题库数据更新 2023-12-09 18:42:21 +08:00			`"code": "/*\n Return an array of arrays of size returnSize.\n The sizes of the arrays are returned as returnColumnSizes array.\n Note: Both returned array and columnSizes array must be malloced, assume caller calls free().\n /\nlong long splitPainting(int segments, int segmentsSize, int* segmentsColSize, int* returnSize, int** returnColumnSizes) {\n \n}",`
add scripts and problemset 2022-03-27 18:27:43 +08:00			`"__typename": "CodeSnippetNode"`
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			`"code": "public class Solution {\n public IList<IList<long>> SplitPainting(int[][] segments) {\n \n }\n}",`
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存量题库数据更新 2023-12-09 18:42:21 +08:00			`"lang": "TypeScript",`
			`"langSlug": "typescript",`
			`"code": "function splitPainting(segments: number[][]): number[][] {\n \n};",`
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			`"lang": "PHP",`
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			`"code": "class Solution {\n\n /*\n @param Integer[][] $segments\n * @return Integer[][]\n */\n function splitPainting($segments) {\n \n }\n}",`
add scripts and problemset 2022-03-27 18:27:43 +08:00			`"__typename": "CodeSnippetNode"`
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			`"lang": "Swift",`
			`"langSlug": "swift",`
			`"code": "class Solution {\n func splitPainting(_ segments: [[Int]]) -> [[Int]] {\n \n }\n}",`
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存量题库数据更新 2023-12-09 18:42:21 +08:00			`"lang": "Kotlin",`
			`"langSlug": "kotlin",`
			`"code": "class Solution {\n fun splitPainting(segments: Array<IntArray>): List<List<Long>> {\n \n }\n}",`
add scripts and problemset 2022-03-27 18:27:43 +08:00			`"__typename": "CodeSnippetNode"`
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存量题库数据更新 2023-12-09 18:42:21 +08:00			`"lang": "Dart",`
			`"langSlug": "dart",`
			`"code": "class Solution {\n List<List<int>> splitPainting(List<List<int>> segments) {\n \n }\n}",`
add scripts and problemset 2022-03-27 18:27:43 +08:00			`"__typename": "CodeSnippetNode"`
			`},`
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存量题库数据更新 2023-12-09 18:42:21 +08:00			`"lang": "Go",`
			`"langSlug": "golang",`
			`"code": "func splitPainting(segments [][]int) [][]int64 {\n \n}",`
add scripts and problemset 2022-03-27 18:27:43 +08:00			`"__typename": "CodeSnippetNode"`
			`},`
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存量题库数据更新 2023-12-09 18:42:21 +08:00			`"lang": "Ruby",`
			`"langSlug": "ruby",`
			`"code": "# @param {Integer[][]} segments\n# @return {Integer[][]}\ndef split_painting(segments)\n \nend",`
add scripts and problemset 2022-03-27 18:27:43 +08:00			`"__typename": "CodeSnippetNode"`
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存量题库数据更新 2023-12-09 18:42:21 +08:00			`"lang": "Scala",`
			`"langSlug": "scala",`
			`"code": "object Solution {\n def splitPainting(segments: Array[Array[Int]]): List[List[Long]] = {\n \n }\n}",`
add scripts and problemset 2022-03-27 18:27:43 +08:00			`"__typename": "CodeSnippetNode"`
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存量题库数据更新 2023-12-09 18:42:21 +08:00			`"lang": "Rust",`
			`"langSlug": "rust",`
			`"code": "impl Solution {\n pub fn split_painting(segments: Vec<Vec<i32>>) -> Vec<Vec<i64>> {\n \n }\n}",`
add scripts and problemset 2022-03-27 18:27:43 +08:00			`"__typename": "CodeSnippetNode"`
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			`"lang": "Racket",`
			`"langSlug": "racket",`
存量题库数据更新 2023-12-09 18:42:21 +08:00			`"code": "(define/contract (split-painting segments)\n (-> (listof (listof exact-integer?)) (listof (listof exact-integer?)))\n )",`
add scripts and problemset 2022-03-27 18:27:43 +08:00			`"__typename": "CodeSnippetNode"`
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			`"lang": "Erlang",`
			`"langSlug": "erlang",`
			`"code": "-spec split_painting(Segments :: [[integer()]]) -> [[integer()]].\nsplit_painting(Segments) ->\n .",`
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			`{`
			`"lang": "Elixir",`
			`"langSlug": "elixir",`
存量题库数据更新 2023-12-09 18:42:21 +08:00			`"code": "defmodule Solution do\n @spec split_painting(segments :: [[integer]]) :: [[integer]]\n def split_painting(segments) do\n \n end\nend",`
add scripts and problemset 2022-03-27 18:27:43 +08:00			`"__typename": "CodeSnippetNode"`
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update 2023-12-09 19:57:46 +08:00			`"stats": "{\"totalAccepted\": \"11.3K\", \"totalSubmission\": \"23.2K\", \"totalAcceptedRaw\": 11350, \"totalSubmissionRaw\": 23237, \"acRate\": \"48.8%\"}",`
add scripts and problemset 2022-03-27 18:27:43 +08:00			`"hints": [`
			`"Can we sort the segments in a way to help solve the problem?",`
			`"How can we dynamically keep track of the sum of the current segment(s)?"`
			`],`
			`"solution": null,`
			`"status": null,`
			`"sampleTestCase": "[[1,4,5],[4,7,7],[1,7,9]]",`
			`"metaData": "{\n \"name\": \"splitPainting\",\n \"params\": [\n {\n \"name\": \"segments\",\n \"type\": \"integer[][]\"\n }\n ],\n \"return\": {\n \"type\": \"list<list<long>>\"\n }\n}",`
			`"judgerAvailable": true,`
			`"judgeType": "large",`
			`"mysqlSchemas": [],`
			`"enableRunCode": true,`
			`"enableTestMode": false,`
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存量题库数据更新 2023-12-09 18:42:21 +08:00			"envInfo": "{\"cpp\": [\"C++\", \"<p>Compiled with <code> clang 11 </code> using the latest C++ 20 standard.</p>\\r\\n\\r\\n<p>Your code is compiled with level two optimization (<code>-O2</code>). <a href=\\\"https://github.com/google/sanitizers/wiki/AddressSanitizer\\\" target=\\\"_blank\\\">AddressSanitizer</a> is also enabled to help detect out-of-bounds and use-after-free bugs.</p>\\r\\n\\r\\n<p>Most standard library headers are already included automatically for your convenience.</p>\"], \"java\": [\"Java\", \"<p><code>OpenJDK 17</code>. Java 8 features such as lambda expressions and stream API can be used. </p>\\r\\n\\r\\n<p>Most standard library headers are already included automatically for your convenience.</p>\\r\\n<p>Includes <code>Pair</code> class from https://docs.oracle.com/javase/8/javafx/api/javafx/util/Pair.html.</p>\"], \"python\": [\"Python\", \"<p><code>Python 2.7.12</code>.</p>\\r\\n\\r\\n<p>Most libraries are already imported automatically for your convenience, such as <a href=\\\"https://docs.python.org/2/library/array.html\\\" target=\\\"_blank\\\">array</a>, <a href=\\\"https://docs.python.org/2/library/bisect.html\\\" target=\\\"_blank\\\">bisect</a>, <a href=\\\"https://docs.python.org/2/library/collections.html\\\" target=\\\"_blank\\\">collections</a>. If you need more libraries, you can import it yourself.</p>\\r\\n\\r\\n<p>For Map/TreeMap data structure, you may use <a href=\\\"http://www.grantjenks.com/docs/sortedcontainers/\\\" target=\\\"_blank\\\">sortedcontainers</a> library.</p>\\r\\n\\r\\n<p>Note that Python 2.7 <a href=\\\"https://www.python.org/dev/peps/pep-0373/\\\" target=\\\"_blank\\\">will not be maintained past 2020</a>. For the latest Python, please choose Python3 instead.</p>\"], \"c\": [\"C\", \"<p>Compiled with <code>gcc 8.2</code> using the gnu11 standard.</p>\\r\\n\\r\\n<p>Your code is compiled with level one optimization (<code>-O1</code>). <a href=\\\"https://github.com/google/sanitizers/wiki/AddressSanitizer\\\" target=\\\"_blank\\\">AddressSanitizer</a> is also enabled to help detect out-of-bounds and use-after-free bugs.</p>\\r\\n\\r\\n<p>Most standard library headers are already included automatically for your convenience.</p>\\r\\n\\r\\n<p>For hash table operations, you may use <a href=\\\"https://troydhanson.github.io/uthash/\\\" target=\\\"_blank\\\">uthash</a>. \\\"uthash.h\\\" is included by default. Below are some examples:</p>\\r\\n\\r\\n<p><b>1. Adding an item to a hash.</b>\\r\\n<pre>\\r\\nstruct hash_entry {\\r\\n int id; /* we'll use this field as the key /\\r\\n char name[10];\\r\\n UT_hash_handle hh; / makes this structure hashable /\\r\\n};\\r\\n\\r\\nstruct hash_entry users = NULL;\\r\\n\\r\\nvoid add_user(struct hash_entry s) {\\r\\n HASH_ADD_INT(users, id, s);\\r\\n}\\r\\n</pre>\\r\\n</p>\\r\\n\\r\\n<p><b>2. Looking up an item in a hash:</b>\\r\\n<pre>\\r\\nstruct hash_entry find_user(int user_id) {\\r\\n struct hash_entry s;\\r\\n HASH_FIND_INT(users, &user_id, s);\\r\\n return s;\\r\\n}\\r\\n</pre>\\r\\n</p>\\r\\n\\r\\n<p><b>3. Deleting an item in a hash:</b>\\r\\n<pre>\\r\\nvoid delete_user(struct hash_entry user) {\\r\\n HASH_DEL(users, user); \\r\\n}\\r\\n</pre>\\r\\n</p>\"], \"csharp\": [\"C#\", \"<p><a href=\\\"https://learn.microsoft.com/en-us/dotnet/csharp/whats-new/csharp-10\\\" target=\\\"_blank\\\">C# 10 with .NET 6 runtime</a></p>\"], \"javascript\": [\"JavaScript\", \"<p><code>Node.js 16.13.2</code>.</p>\\r\\n\\r\\n<p>Your code is run with <code>--harmony</code> flag, enabling <a href=\\\"http://node.green/\\\" target=\\\"_blank\\\">new ES6 features</a>.</p>\\r\\n\\r\\n<p><a href=\\\"https://lodash.com\\\" target=\\\"_blank\\\">lodash.js</a> library is included by default.</p>\\r\\n\\r\\n<p>For Priority Queue / Queue data structures, you may use 5.3.0 version of <a href=\\\"https://github.com/datastructures-js/priority-queue/tree/fb4fdb984834421279aeb081df7af624d17c2a03\\\" target=\\\"_blank\\\">datastructures-js/priority-queue</a> and 4.2.1 version of <a href=\\\"https://githu
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