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leetcode-problemset/leetcode/originData/flood-fill.json
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{
"data": {
"question": {
"questionId": "733",
"questionFrontendId": "733",
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"title": "Flood Fill",
"titleSlug": "flood-fill",
"content": "<p>An image is represented by an <code>m x n</code> integer grid <code>image</code> where <code>image[i][j]</code> represents the pixel value of the image.</p>\n\n<p>You are also given three integers <code>sr</code>, <code>sc</code>, and <code>color</code>. You should perform a <strong>flood fill</strong> on the image starting from the pixel <code>image[sr][sc]</code>.</p>\n\n<p>To perform a <strong>flood fill</strong>, consider the starting pixel, plus any pixels connected <strong>4-directionally</strong> to the starting pixel of the same color as the starting pixel, plus any pixels connected <strong>4-directionally</strong> to those pixels (also with the same color), and so on. Replace the color of all of the aforementioned pixels with <code>color</code>.</p>\n\n<p>Return <em>the modified image after performing the flood fill</em>.</p>\n\n<p>&nbsp;</p>\n<p><strong class=\"example\">Example 1:</strong></p>\n<img alt=\"\" src=\"https://assets.leetcode.com/uploads/2021/06/01/flood1-grid.jpg\" style=\"width: 613px; height: 253px;\" />\n<pre>\n<strong>Input:</strong> image = [[1,1,1],[1,1,0],[1,0,1]], sr = 1, sc = 1, color = 2\n<strong>Output:</strong> [[2,2,2],[2,2,0],[2,0,1]]\n<strong>Explanation:</strong> From the center of the image with position (sr, sc) = (1, 1) (i.e., the red pixel), all pixels connected by a path of the same color as the starting pixel (i.e., the blue pixels) are colored with the new color.\nNote the bottom corner is not colored 2, because it is not 4-directionally connected to the starting pixel.\n</pre>\n\n<p><strong class=\"example\">Example 2:</strong></p>\n\n<pre>\n<strong>Input:</strong> image = [[0,0,0],[0,0,0]], sr = 0, sc = 0, color = 0\n<strong>Output:</strong> [[0,0,0],[0,0,0]]\n<strong>Explanation:</strong> The starting pixel is already colored 0, so no changes are made to the image.\n</pre>\n\n<p>&nbsp;</p>\n<p><strong>Constraints:</strong></p>\n\n<ul>\n\t<li><code>m == image.length</code></li>\n\t<li><code>n == image[i].length</code></li>\n\t<li><code>1 &lt;= m, n &lt;= 50</code></li>\n\t<li><code>0 &lt;= image[i][j], color &lt; 2<sup>16</sup></code></li>\n\t<li><code>0 &lt;= sr &lt; m</code></li>\n\t<li><code>0 &lt;= sc &lt; n</code></li>\n</ul>\n",
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"lang": "C++",
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"code": "class Solution {\npublic:\n vector<vector<int>> floodFill(vector<vector<int>>& image, int sr, int sc, int color) {\n \n }\n};",
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"lang": "Java",
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"code": "class Solution {\n public int[][] floodFill(int[][] image, int sr, int sc, int color) {\n \n }\n}",
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{
"lang": "Python",
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"code": "class Solution(object):\n def floodFill(self, image, sr, sc, color):\n \"\"\"\n :type image: List[List[int]]\n :type sr: int\n :type sc: int\n :type color: int\n :rtype: List[List[int]]\n \"\"\"\n ",
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"lang": "Python3",
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"code": "class Solution:\n def floodFill(self, image: List[List[int]], sr: int, sc: int, color: int) -> List[List[int]]:\n ",
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"lang": "C",
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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 */\nint** floodFill(int** image, int imageSize, int* imageColSize, int sr, int sc, int color, int* returnSize, int** returnColumnSizes) {\n \n}",
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"lang": "C#",
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"code": "public class Solution {\n public int[][] FloodFill(int[][] image, int sr, int sc, int color) {\n \n }\n}",
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"lang": "JavaScript",
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"code": "/**\n * @param {number[][]} image\n * @param {number} sr\n * @param {number} sc\n * @param {number} color\n * @return {number[][]}\n */\nvar floodFill = function(image, sr, sc, color) {\n \n};",
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"lang": "TypeScript",
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"code": "function floodFill(image: number[][], sr: number, sc: number, color: number): number[][] {\n \n};",
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"lang": "PHP",
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"code": "class Solution {\n\n /**\n * @param Integer[][] $image\n * @param Integer $sr\n * @param Integer $sc\n * @param Integer $color\n * @return Integer[][]\n */\n function floodFill($image, $sr, $sc, $color) {\n \n }\n}",
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"lang": "Swift",
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"code": "class Solution {\n func floodFill(_ image: [[Int]], _ sr: Int, _ sc: Int, _ color: Int) -> [[Int]] {\n \n }\n}",
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"lang": "Kotlin",
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"code": "class Solution {\n fun floodFill(image: Array<IntArray>, sr: Int, sc: Int, color: Int): Array<IntArray> {\n \n }\n}",
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"lang": "Dart",
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"code": "class Solution {\n List<List<int>> floodFill(List<List<int>> image, int sr, int sc, int color) {\n \n }\n}",
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"lang": "Go",
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"code": "func floodFill(image [][]int, sr int, sc int, color int) [][]int {\n \n}",
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"lang": "Ruby",
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"code": "# @param {Integer[][]} image\n# @param {Integer} sr\n# @param {Integer} sc\n# @param {Integer} color\n# @return {Integer[][]}\ndef flood_fill(image, sr, sc, color)\n \nend",
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"lang": "Scala",
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"code": "object Solution {\n def floodFill(image: Array[Array[Int]], sr: Int, sc: Int, color: Int): Array[Array[Int]] = {\n \n }\n}",
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"lang": "Rust",
"langSlug": "rust",
"code": "impl Solution {\n pub fn flood_fill(image: Vec<Vec<i32>>, sr: i32, sc: i32, color: i32) -> Vec<Vec<i32>> {\n \n }\n}",
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"lang": "Racket",
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"code": "(define/contract (flood-fill image sr sc color)\n (-> (listof (listof exact-integer?)) exact-integer? exact-integer? exact-integer? (listof (listof exact-integer?)))\n )",
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"lang": "Erlang",
"langSlug": "erlang",
"code": "-spec flood_fill(Image :: [[integer()]], Sr :: integer(), Sc :: integer(), Color :: integer()) -> [[integer()]].\nflood_fill(Image, Sr, Sc, Color) ->\n .",
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"lang": "Elixir",
"langSlug": "elixir",
"code": "defmodule Solution do\n @spec flood_fill(image :: [[integer]], sr :: integer, sc :: integer, color :: integer) :: [[integer]]\n def flood_fill(image, sr, sc, color) do\n \n end\nend",
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"Write a recursive function that paints the pixel if it's the correct color, then recurses on neighboring pixels."
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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. 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