# Leetcode 题解 - 搜索 * [Leetcode 题解 - 搜索](#leetcode-题解---搜索) * [BFS](#bfs) * [1. 计算在网格中从原点到特定点的最短路径长度](#1-计算在网格中从原点到特定点的最短路径长度) * [2. 组成整数的最小平方数数量](#2-组成整数的最小平方数数量) * [3. 最短单词路径](#3-最短单词路径) * [DFS](#dfs) * [1. 查找最大的连通面积](#1-查找最大的连通面积) * [2. 矩阵中的连通分量数目](#2-矩阵中的连通分量数目) * [3. 好友关系的连通分量数目](#3-好友关系的连通分量数目) * [4. 填充封闭区域](#4-填充封闭区域) * [5. 能到达的太平洋和大西洋的区域](#5-能到达的太平洋和大西洋的区域) * [Backtracking](#backtracking) * [1. 数字键盘组合](#1-数字键盘组合) * [2. IP 地址划分](#2-ip-地址划分) * [3. 在矩阵中寻找字符串](#3-在矩阵中寻找字符串) * [4. 输出二叉树中所有从根到叶子的路径](#4-输出二叉树中所有从根到叶子的路径) * [5. 排列](#5-排列) * [6. 含有相同元素求排列](#6-含有相同元素求排列) * [7. 组合](#7-组合) * [8. 组合求和](#8-组合求和) * [9. 含有相同元素的组合求和](#9-含有相同元素的组合求和) * [10. 1-9 数字的组合求和](#10-1-9-数字的组合求和) * [11. 子集](#11-子集) * [12. 含有相同元素求子集](#12-含有相同元素求子集) * [13. 分割字符串使得每个部分都是回文数](#13-分割字符串使得每个部分都是回文数) * [14. 数独](#14-数独) * [15. N 皇后](#15-n-皇后) 深度优先搜索和广度优先搜索广泛运用于树和图中,但是它们的应用远远不止如此。 ## BFS

广度优先搜索一层一层地进行遍历,每层遍历都是以上一层遍历的结果作为起点,遍历一个距离能访问到的所有节点。需要注意的是,遍历过的节点不能再次被遍历。 第一层: - 0 -\> {6,2,1,5} 第二层: - 6 -\> {4} - 2 -\> {} - 1 -\> {} - 5 -\> {3} 第三层: - 4 -\> {} - 3 -\> {} 每一层遍历的节点都与根节点距离相同。设 di 表示第 i 个节点与根节点的距离,推导出一个结论:对于先遍历的节点 i 与后遍历的节点 j,有 di <= dj。利用这个结论,可以求解最短路径等 **最优解** 问题:第一次遍历到目的节点,其所经过的路径为最短路径。应该注意的是,使用 BFS 只能求解无权图的最短路径,无权图是指从一个节点到另一个节点的代价都记为 1。 在程序实现 BFS 时需要考虑以下问题: - 队列:用来存储每一轮遍历得到的节点; - 标记:对于遍历过的节点,应该将它标记,防止重复遍历。 ### 1. 计算在网格中从原点到特定点的最短路径长度 1091\. Shortest Path in Binary Matrix(Medium) [Leetcode](https://leetcode.com/problems/shortest-path-in-binary-matrix/) / [力扣](https://leetcode-cn.com/problems/shortest-path-in-binary-matrix/) ```html [[1,1,0,1], [1,0,1,0], [1,1,1,1], [1,0,1,1]] ``` 题目描述:0 表示可以经过某个位置,求解从左上角到右下角的最短路径长度。 ```java public int shortestPathBinaryMatrix(int[][] grids) { if (grids == null || grids.length == 0 || grids[0].length == 0) { return -1; } int[][] direction = {{1, -1}, {1, 0}, {1, 1}, {0, -1}, {0, 1}, {-1, -1}, {-1, 0}, {-1, 1}}; int m = grids.length, n = grids[0].length; Queue> queue = new LinkedList<>(); queue.add(new Pair<>(0, 0)); int pathLength = 0; while (!queue.isEmpty()) { int size = queue.size(); pathLength++; while (size-- > 0) { Pair cur = queue.poll(); int cr = cur.getKey(), cc = cur.getValue(); if (grids[cr][cc] == 1) { continue; } if (cr == m - 1 && cc == n - 1) { return pathLength; } grids[cr][cc] = 1; // 标记 for (int[] d : direction) { int nr = cr + d[0], nc = cc + d[1]; if (nr < 0 || nr >= m || nc < 0 || nc >= n) { continue; } queue.add(new Pair<>(nr, nc)); } } } return -1; } ``` ### 2. 组成整数的最小平方数数量 279\. Perfect Squares (Medium) [Leetcode](https://leetcode.com/problems/perfect-squares/description/) / [力扣](https://leetcode-cn.com/problems/perfect-squares/description/) ```html For example, given n = 12, return 3 because 12 = 4 + 4 + 4; given n = 13, return 2 because 13 = 4 + 9. ``` 可以将每个整数看成图中的一个节点,如果两个整数之差为一个平方数,那么这两个整数所在的节点就有一条边。 要求解最小的平方数数量,就是求解从节点 n 到节点 0 的最短路径。 本题也可以用动态规划求解,在之后动态规划部分中会再次出现。 ```java public int numSquares(int n) { List squares = generateSquares(n); Queue queue = new LinkedList<>(); boolean[] marked = new boolean[n + 1]; queue.add(n); marked[n] = true; int level = 0; while (!queue.isEmpty()) { int size = queue.size(); level++; while (size-- > 0) { int cur = queue.poll(); for (int s : squares) { int next = cur - s; if (next < 0) { break; } if (next == 0) { return level; } if (marked[next]) { continue; } marked[next] = true; queue.add(next); } } } return n; } /** * 生成小于 n 的平方数序列 * @return 1,4,9,... */ private List generateSquares(int n) { List squares = new ArrayList<>(); int square = 1; int diff = 3; while (square <= n) { squares.add(square); square += diff; diff += 2; } return squares; } ``` ### 3. 最短单词路径 127\. Word Ladder (Medium) [Leetcode](https://leetcode.com/problems/word-ladder/description/) / [力扣](https://leetcode-cn.com/problems/word-ladder/description/) ```html Input: beginWord = "hit", endWord = "cog", wordList = ["hot","dot","dog","lot","log","cog"] Output: 5 Explanation: As one shortest transformation is "hit" -> "hot" -> "dot" -> "dog" -> "cog", return its length 5. ``` ```html Input: beginWord = "hit" endWord = "cog" wordList = ["hot","dot","dog","lot","log"] Output: 0 Explanation: The endWord "cog" is not in wordList, therefore no possible transformation. ``` 题目描述:找出一条从 beginWord 到 endWord 的最短路径,每次移动规定为改变一个字符,并且改变之后的字符串必须在 wordList 中。 ```java public int ladderLength(String beginWord, String endWord, List wordList) { wordList.add(beginWord); int N = wordList.size(); int start = N - 1; int end = 0; while (end < N && !wordList.get(end).equals(endWord)) { end++; } if (end == N) { return 0; } List[] graphic = buildGraphic(wordList); return getShortestPath(graphic, start, end); } private List[] buildGraphic(List wordList) { int N = wordList.size(); List[] graphic = new List[N]; for (int i = 0; i < N; i++) { graphic[i] = new ArrayList<>(); for (int j = 0; j < N; j++) { if (isConnect(wordList.get(i), wordList.get(j))) { graphic[i].add(j); } } } return graphic; } private boolean isConnect(String s1, String s2) { int diffCnt = 0; for (int i = 0; i < s1.length() && diffCnt <= 1; i++) { if (s1.charAt(i) != s2.charAt(i)) { diffCnt++; } } return diffCnt == 1; } private int getShortestPath(List[] graphic, int start, int end) { Queue queue = new LinkedList<>(); boolean[] marked = new boolean[graphic.length]; queue.add(start); marked[start] = true; int path = 1; while (!queue.isEmpty()) { int size = queue.size(); path++; while (size-- > 0) { int cur = queue.poll(); for (int next : graphic[cur]) { if (next == end) { return path; } if (marked[next]) { continue; } marked[next] = true; queue.add(next); } } } return 0; } ``` ## DFS

广度优先搜索一层一层遍历,每一层得到的所有新节点,要用队列存储起来以备下一层遍历的时候再遍历。 而深度优先搜索在得到一个新节点时立即对新节点进行遍历:从节点 0 出发开始遍历,得到到新节点 6 时,立马对新节点 6 进行遍历,得到新节点 4;如此反复以这种方式遍历新节点,直到没有新节点了,此时返回。返回到根节点 0 的情况是,继续对根节点 0 进行遍历,得到新节点 2,然后继续以上步骤。 从一个节点出发,使用 DFS 对一个图进行遍历时,能够遍历到的节点都是从初始节点可达的,DFS 常用来求解这种 **可达性** 问题。 在程序实现 DFS 时需要考虑以下问题: - 栈:用栈来保存当前节点信息,当遍历新节点返回时能够继续遍历当前节点。可以使用递归栈。 - 标记:和 BFS 一样同样需要对已经遍历过的节点进行标记。 ### 1. 查找最大的连通面积 695\. Max Area of Island (Medium) [Leetcode](https://leetcode.com/problems/max-area-of-island/description/) / [力扣](https://leetcode-cn.com/problems/max-area-of-island/description/) ```html [[0,0,1,0,0,0,0,1,0,0,0,0,0], [0,0,0,0,0,0,0,1,1,1,0,0,0], [0,1,1,0,1,0,0,0,0,0,0,0,0], [0,1,0,0,1,1,0,0,1,0,1,0,0], [0,1,0,0,1,1,0,0,1,1,1,0,0], [0,0,0,0,0,0,0,0,0,0,1,0,0], [0,0,0,0,0,0,0,1,1,1,0,0,0], [0,0,0,0,0,0,0,1,1,0,0,0,0]] ``` ```java private int m, n; private int[][] direction = {{0, 1}, {0, -1}, {1, 0}, {-1, 0}}; public int maxAreaOfIsland(int[][] grid) { if (grid == null || grid.length == 0) { return 0; } m = grid.length; n = grid[0].length; int maxArea = 0; for (int i = 0; i < m; i++) { for (int j = 0; j < n; j++) { maxArea = Math.max(maxArea, dfs(grid, i, j)); } } return maxArea; } private int dfs(int[][] grid, int r, int c) { if (r < 0 || r >= m || c < 0 || c >= n || grid[r][c] == 0) { return 0; } grid[r][c] = 0; int area = 1; for (int[] d : direction) { area += dfs(grid, r + d[0], c + d[1]); } return area; } ``` ### 2. 矩阵中的连通分量数目 200\. Number of Islands (Medium) [Leetcode](https://leetcode.com/problems/number-of-islands/description/) / [力扣](https://leetcode-cn.com/problems/number-of-islands/description/) ```html Input: 11000 11000 00100 00011 Output: 3 ``` 可以将矩阵表示看成一张有向图。 ```java private int m, n; private int[][] direction = {{0, 1}, {0, -1}, {1, 0}, {-1, 0}}; public int numIslands(char[][] grid) { if (grid == null || grid.length == 0) { return 0; } m = grid.length; n = grid[0].length; int islandsNum = 0; for (int i = 0; i < m; i++) { for (int j = 0; j < n; j++) { if (grid[i][j] != '0') { dfs(grid, i, j); islandsNum++; } } } return islandsNum; } private void dfs(char[][] grid, int i, int j) { if (i < 0 || i >= m || j < 0 || j >= n || grid[i][j] == '0') { return; } grid[i][j] = '0'; for (int[] d : direction) { dfs(grid, i + d[0], j + d[1]); } } ``` ### 3. 好友关系的连通分量数目 547\. Friend Circles (Medium) [Leetcode](https://leetcode.com/problems/friend-circles/description/) / [力扣](https://leetcode-cn.com/problems/friend-circles/description/) ```html Input: [[1,1,0], [1,1,0], [0,0,1]] Output: 2 Explanation:The 0th and 1st students are direct friends, so they are in a friend circle. The 2nd student himself is in a friend circle. So return 2. ``` 题目描述:好友关系可以看成是一个无向图,例如第 0 个人与第 1 个人是好友,那么 M[0][1] 和 M[1][0] 的值都为 1。 ```java private int n; public int findCircleNum(int[][] M) { n = M.length; int circleNum = 0; boolean[] hasVisited = new boolean[n]; for (int i = 0; i < n; i++) { if (!hasVisited[i]) { dfs(M, i, hasVisited); circleNum++; } } return circleNum; } private void dfs(int[][] M, int i, boolean[] hasVisited) { hasVisited[i] = true; for (int k = 0; k < n; k++) { if (M[i][k] == 1 && !hasVisited[k]) { dfs(M, k, hasVisited); } } } ``` ### 4. 填充封闭区域 130\. Surrounded Regions (Medium) [Leetcode](https://leetcode.com/problems/surrounded-regions/description/) / [力扣](https://leetcode-cn.com/problems/surrounded-regions/description/) ```html For example, X X X X X O O X X X O X X O X X After running your function, the board should be: X X X X X X X X X X X X X O X X ``` 题目描述:使被 'X' 包围的 'O' 转换为 'X'。 先填充最外侧,剩下的就是里侧了。 ```java private int[][] direction = {{0, 1}, {0, -1}, {1, 0}, {-1, 0}}; private int m, n; public void solve(char[][] board) { if (board == null || board.length == 0) { return; } m = board.length; n = board[0].length; for (int i = 0; i < m; i++) { dfs(board, i, 0); dfs(board, i, n - 1); } for (int i = 0; i < n; i++) { dfs(board, 0, i); dfs(board, m - 1, i); } for (int i = 0; i < m; i++) { for (int j = 0; j < n; j++) { if (board[i][j] == 'T') { board[i][j] = 'O'; } else if (board[i][j] == 'O') { board[i][j] = 'X'; } } } } private void dfs(char[][] board, int r, int c) { if (r < 0 || r >= m || c < 0 || c >= n || board[r][c] != 'O') { return; } board[r][c] = 'T'; for (int[] d : direction) { dfs(board, r + d[0], c + d[1]); } } ``` ### 5. 能到达的太平洋和大西洋的区域 417\. Pacific Atlantic Water Flow (Medium) [Leetcode](https://leetcode.com/problems/pacific-atlantic-water-flow/description/) / [力扣](https://leetcode-cn.com/problems/pacific-atlantic-water-flow/description/) ```html Given the following 5x5 matrix: Pacific ~ ~ ~ ~ ~ ~ 1 2 2 3 (5) * ~ 3 2 3 (4) (4) * ~ 2 4 (5) 3 1 * ~ (6) (7) 1 4 5 * ~ (5) 1 1 2 4 * * * * * * Atlantic Return: [[0, 4], [1, 3], [1, 4], [2, 2], [3, 0], [3, 1], [4, 0]] (positions with parentheses in above matrix). ``` 左边和上边是太平洋,右边和下边是大西洋,内部的数字代表海拔,海拔高的地方的水能够流到低的地方,求解水能够流到太平洋和大西洋的所有位置。 ```java private int m, n; private int[][] matrix; private int[][] direction = {{0, 1}, {0, -1}, {1, 0}, {-1, 0}}; public List> pacificAtlantic(int[][] matrix) { List> ret = new ArrayList<>(); if (matrix == null || matrix.length == 0) { return ret; } m = matrix.length; n = matrix[0].length; this.matrix = matrix; boolean[][] canReachP = new boolean[m][n]; boolean[][] canReachA = new boolean[m][n]; for (int i = 0; i < m; i++) { dfs(i, 0, canReachP); dfs(i, n - 1, canReachA); } for (int i = 0; i < n; i++) { dfs(0, i, canReachP); dfs(m - 1, i, canReachA); } for (int i = 0; i < m; i++) { for (int j = 0; j < n; j++) { if (canReachP[i][j] && canReachA[i][j]) { ret.add(Arrays.asList(i, j)); } } } return ret; } private void dfs(int r, int c, boolean[][] canReach) { if (canReach[r][c]) { return; } canReach[r][c] = true; for (int[] d : direction) { int nextR = d[0] + r; int nextC = d[1] + c; if (nextR < 0 || nextR >= m || nextC < 0 || nextC >= n || matrix[r][c] > matrix[nextR][nextC]) { continue; } dfs(nextR, nextC, canReach); } } ``` ## Backtracking Backtracking(回溯)属于 DFS。 - 普通 DFS 主要用在 **可达性问题** ,这种问题只需要执行到特点的位置然后返回即可。 - 而 Backtracking 主要用于求解 **排列组合** 问题,例如有 { 'a','b','c' } 三个字符,求解所有由这三个字符排列得到的字符串,这种问题在执行到特定的位置返回之后还会继续执行求解过程。 因为 Backtracking 不是立即返回,而要继续求解,因此在程序实现时,需要注意对元素的标记问题: - 在访问一个新元素进入新的递归调用时,需要将新元素标记为已经访问,这样才能在继续递归调用时不用重复访问该元素; - 但是在递归返回时,需要将元素标记为未访问,因为只需要保证在一个递归链中不同时访问一个元素,可以访问已经访问过但是不在当前递归链中的元素。 ### 1. 数字键盘组合 17\. Letter Combinations of a Phone Number (Medium) [Leetcode](https://leetcode.com/problems/letter-combinations-of-a-phone-number/description/) / [力扣](https://leetcode-cn.com/problems/letter-combinations-of-a-phone-number/description/)

```html Input:Digit string "23" Output: ["ad", "ae", "af", "bd", "be", "bf", "cd", "ce", "cf"]. ``` ```java private static final String[] KEYS = {"", "", "abc", "def", "ghi", "jkl", "mno", "pqrs", "tuv", "wxyz"}; public List letterCombinations(String digits) { List combinations = new ArrayList<>(); if (digits == null || digits.length() == 0) { return combinations; } doCombination(new StringBuilder(), combinations, digits); return combinations; } private void doCombination(StringBuilder prefix, List combinations, final String digits) { if (prefix.length() == digits.length()) { combinations.add(prefix.toString()); return; } int curDigits = digits.charAt(prefix.length()) - '0'; String letters = KEYS[curDigits]; for (char c : letters.toCharArray()) { prefix.append(c); // 添加 doCombination(prefix, combinations, digits); prefix.deleteCharAt(prefix.length() - 1); // 删除 } } ``` ### 2. IP 地址划分 93\. Restore IP Addresses(Medium) [Leetcode](https://leetcode.com/problems/restore-ip-addresses/description/) / [力扣](https://leetcode-cn.com/problems/restore-ip-addresses/description/) ```html Given "25525511135", return ["255.255.11.135", "255.255.111.35"]. ``` ```java public List restoreIpAddresses(String s) { List addresses = new ArrayList<>(); StringBuilder tempAddress = new StringBuilder(); doRestore(0, tempAddress, addresses, s); return addresses; } private void doRestore(int k, StringBuilder tempAddress, List addresses, String s) { if (k == 4 || s.length() == 0) { if (k == 4 && s.length() == 0) { addresses.add(tempAddress.toString()); } return; } for (int i = 0; i < s.length() && i <= 2; i++) { if (i != 0 && s.charAt(0) == '0') { break; } String part = s.substring(0, i + 1); if (Integer.valueOf(part) <= 255) { if (tempAddress.length() != 0) { part = "." + part; } tempAddress.append(part); doRestore(k + 1, tempAddress, addresses, s.substring(i + 1)); tempAddress.delete(tempAddress.length() - part.length(), tempAddress.length()); } } } ``` ### 3. 在矩阵中寻找字符串 79\. Word Search (Medium) [Leetcode](https://leetcode.com/problems/word-search/description/) / [力扣](https://leetcode-cn.com/problems/word-search/description/) ```html For example, Given board = [ ['A','B','C','E'], ['S','F','C','S'], ['A','D','E','E'] ] word = "ABCCED", -> returns true, word = "SEE", -> returns true, word = "ABCB", -> returns false. ``` ```java private final static int[][] direction = {{1, 0}, {-1, 0}, {0, 1}, {0, -1}}; private int m; private int n; public boolean exist(char[][] board, String word) { if (word == null || word.length() == 0) { return true; } if (board == null || board.length == 0 || board[0].length == 0) { return false; } m = board.length; n = board[0].length; boolean[][] hasVisited = new boolean[m][n]; for (int r = 0; r < m; r++) { for (int c = 0; c < n; c++) { if (backtracking(0, r, c, hasVisited, board, word)) { return true; } } } return false; } private boolean backtracking(int curLen, int r, int c, boolean[][] visited, final char[][] board, final String word) { if (curLen == word.length()) { return true; } if (r < 0 || r >= m || c < 0 || c >= n || board[r][c] != word.charAt(curLen) || visited[r][c]) { return false; } visited[r][c] = true; for (int[] d : direction) { if (backtracking(curLen + 1, r + d[0], c + d[1], visited, board, word)) { return true; } } visited[r][c] = false; return false; } ``` ### 4. 输出二叉树中所有从根到叶子的路径 257\. Binary Tree Paths (Easy) [Leetcode](https://leetcode.com/problems/binary-tree-paths/description/) / [力扣](https://leetcode-cn.com/problems/binary-tree-paths/description/) ```html 1 / \ 2 3 \ 5 ``` ```html ["1->2->5", "1->3"] ``` ```java public List binaryTreePaths(TreeNode root) { List paths = new ArrayList<>(); if (root == null) { return paths; } List values = new ArrayList<>(); backtracking(root, values, paths); return paths; } private void backtracking(TreeNode node, List values, List paths) { if (node == null) { return; } values.add(node.val); if (isLeaf(node)) { paths.add(buildPath(values)); } else { backtracking(node.left, values, paths); backtracking(node.right, values, paths); } values.remove(values.size() - 1); } private boolean isLeaf(TreeNode node) { return node.left == null && node.right == null; } private String buildPath(List values) { StringBuilder str = new StringBuilder(); for (int i = 0; i < values.size(); i++) { str.append(values.get(i)); if (i != values.size() - 1) { str.append("->"); } } return str.toString(); } ``` ### 5. 排列 46\. Permutations (Medium) [Leetcode](https://leetcode.com/problems/permutations/description/) / [力扣](https://leetcode-cn.com/problems/permutations/description/) ```html [1,2,3] have the following permutations: [ [1,2,3], [1,3,2], [2,1,3], [2,3,1], [3,1,2], [3,2,1] ] ``` ```java public List> permute(int[] nums) { List> permutes = new ArrayList<>(); List permuteList = new ArrayList<>(); boolean[] hasVisited = new boolean[nums.length]; backtracking(permuteList, permutes, hasVisited, nums); return permutes; } private void backtracking(List permuteList, List> permutes, boolean[] visited, final int[] nums) { if (permuteList.size() == nums.length) { permutes.add(new ArrayList<>(permuteList)); // 重新构造一个 List return; } for (int i = 0; i < visited.length; i++) { if (visited[i]) { continue; } visited[i] = true; permuteList.add(nums[i]); backtracking(permuteList, permutes, visited, nums); permuteList.remove(permuteList.size() - 1); visited[i] = false; } } ``` ### 6. 含有相同元素求排列 47\. Permutations II (Medium) [Leetcode](https://leetcode.com/problems/permutations-ii/description/) / [力扣](https://leetcode-cn.com/problems/permutations-ii/description/) ```html [1,1,2] have the following unique permutations: [[1,1,2], [1,2,1], [2,1,1]] ``` 数组元素可能含有相同的元素,进行排列时就有可能出现重复的排列,要求重复的排列只返回一个。 在实现上,和 Permutations 不同的是要先排序,然后在添加一个元素时,判断这个元素是否等于前一个元素,如果等于,并且前一个元素还未访问,那么就跳过这个元素。 ```java public List> permuteUnique(int[] nums) { List> permutes = new ArrayList<>(); List permuteList = new ArrayList<>(); Arrays.sort(nums); // 排序 boolean[] hasVisited = new boolean[nums.length]; backtracking(permuteList, permutes, hasVisited, nums); return permutes; } private void backtracking(List permuteList, List> permutes, boolean[] visited, final int[] nums) { if (permuteList.size() == nums.length) { permutes.add(new ArrayList<>(permuteList)); return; } for (int i = 0; i < visited.length; i++) { if (i != 0 && nums[i] == nums[i - 1] && !visited[i - 1]) { continue; // 防止重复 } if (visited[i]){ continue; } visited[i] = true; permuteList.add(nums[i]); backtracking(permuteList, permutes, visited, nums); permuteList.remove(permuteList.size() - 1); visited[i] = false; } } ``` ### 7. 组合 77\. Combinations (Medium) [Leetcode](https://leetcode.com/problems/combinations/description/) / [力扣](https://leetcode-cn.com/problems/combinations/description/) ```html If n = 4 and k = 2, a solution is: [ [2,4], [3,4], [2,3], [1,2], [1,3], [1,4], ] ``` ```java public List> combine(int n, int k) { List> combinations = new ArrayList<>(); List combineList = new ArrayList<>(); backtracking(combineList, combinations, 1, k, n); return combinations; } private void backtracking(List combineList, List> combinations, int start, int k, final int n) { if (k == 0) { combinations.add(new ArrayList<>(combineList)); return; } for (int i = start; i <= n - k + 1; i++) { // 剪枝 combineList.add(i); backtracking(combineList, combinations, i + 1, k - 1, n); combineList.remove(combineList.size() - 1); } } ``` ### 8. 组合求和 39\. Combination Sum (Medium) [Leetcode](https://leetcode.com/problems/combination-sum/description/) / [力扣](https://leetcode-cn.com/problems/combination-sum/description/) ```html given candidate set [2, 3, 6, 7] and target 7, A solution set is: [[7],[2, 2, 3]] ``` ```java public List> combinationSum(int[] candidates, int target) { List> combinations = new ArrayList<>(); backtracking(new ArrayList<>(), combinations, 0, target, candidates); return combinations; } private void backtracking(List tempCombination, List> combinations, int start, int target, final int[] candidates) { if (target == 0) { combinations.add(new ArrayList<>(tempCombination)); return; } for (int i = start; i < candidates.length; i++) { if (candidates[i] <= target) { tempCombination.add(candidates[i]); backtracking(tempCombination, combinations, i, target - candidates[i], candidates); tempCombination.remove(tempCombination.size() - 1); } } } ``` ### 9. 含有相同元素的组合求和 40\. Combination Sum II (Medium) [Leetcode](https://leetcode.com/problems/combination-sum-ii/description/) / [力扣](https://leetcode-cn.com/problems/combination-sum-ii/description/) ```html For example, given candidate set [10, 1, 2, 7, 6, 1, 5] and target 8, A solution set is: [ [1, 7], [1, 2, 5], [2, 6], [1, 1, 6] ] ``` ```java public List> combinationSum2(int[] candidates, int target) { List> combinations = new ArrayList<>(); Arrays.sort(candidates); backtracking(new ArrayList<>(), combinations, new boolean[candidates.length], 0, target, candidates); return combinations; } private void backtracking(List tempCombination, List> combinations, boolean[] hasVisited, int start, int target, final int[] candidates) { if (target == 0) { combinations.add(new ArrayList<>(tempCombination)); return; } for (int i = start; i < candidates.length; i++) { if (i != 0 && candidates[i] == candidates[i - 1] && !hasVisited[i - 1]) { continue; } if (candidates[i] <= target) { tempCombination.add(candidates[i]); hasVisited[i] = true; backtracking(tempCombination, combinations, hasVisited, i + 1, target - candidates[i], candidates); hasVisited[i] = false; tempCombination.remove(tempCombination.size() - 1); } } } ``` ### 10. 1-9 数字的组合求和 216\. Combination Sum III (Medium) [Leetcode](https://leetcode.com/problems/combination-sum-iii/description/) / [力扣](https://leetcode-cn.com/problems/combination-sum-iii/description/) ```html Input: k = 3, n = 9 Output: [[1,2,6], [1,3,5], [2,3,4]] ``` 从 1-9 数字中选出 k 个数不重复的数,使得它们的和为 n。 ```java public List> combinationSum3(int k, int n) { List> combinations = new ArrayList<>(); List path = new ArrayList<>(); backtracking(k, n, 1, path, combinations); return combinations; } private void backtracking(int k, int n, int start, List tempCombination, List> combinations) { if (k == 0 && n == 0) { combinations.add(new ArrayList<>(tempCombination)); return; } if (k == 0 || n == 0) { return; } for (int i = start; i <= 9; i++) { tempCombination.add(i); backtracking(k - 1, n - i, i + 1, tempCombination, combinations); tempCombination.remove(tempCombination.size() - 1); } } ``` ### 11. 子集 78\. Subsets (Medium) [Leetcode](https://leetcode.com/problems/subsets/description/) / [力扣](https://leetcode-cn.com/problems/subsets/description/) 找出集合的所有子集,子集不能重复,[1, 2] 和 [2, 1] 这种子集算重复 ```java public List> subsets(int[] nums) { List> subsets = new ArrayList<>(); List tempSubset = new ArrayList<>(); for (int size = 0; size <= nums.length; size++) { backtracking(0, tempSubset, subsets, size, nums); // 不同的子集大小 } return subsets; } private void backtracking(int start, List tempSubset, List> subsets, final int size, final int[] nums) { if (tempSubset.size() == size) { subsets.add(new ArrayList<>(tempSubset)); return; } for (int i = start; i < nums.length; i++) { tempSubset.add(nums[i]); backtracking(i + 1, tempSubset, subsets, size, nums); tempSubset.remove(tempSubset.size() - 1); } } ``` ### 12. 含有相同元素求子集 90\. Subsets II (Medium) [Leetcode](https://leetcode.com/problems/subsets-ii/description/) / [力扣](https://leetcode-cn.com/problems/subsets-ii/description/) ```html For example, If nums = [1,2,2], a solution is: [ [2], [1], [1,2,2], [2,2], [1,2], [] ] ``` ```java public List> subsetsWithDup(int[] nums) { Arrays.sort(nums); List> subsets = new ArrayList<>(); List tempSubset = new ArrayList<>(); boolean[] hasVisited = new boolean[nums.length]; for (int size = 0; size <= nums.length; size++) { backtracking(0, tempSubset, subsets, hasVisited, size, nums); // 不同的子集大小 } return subsets; } private void backtracking(int start, List tempSubset, List> subsets, boolean[] hasVisited, final int size, final int[] nums) { if (tempSubset.size() == size) { subsets.add(new ArrayList<>(tempSubset)); return; } for (int i = start; i < nums.length; i++) { if (i != 0 && nums[i] == nums[i - 1] && !hasVisited[i - 1]) { continue; } tempSubset.add(nums[i]); hasVisited[i] = true; backtracking(i + 1, tempSubset, subsets, hasVisited, size, nums); hasVisited[i] = false; tempSubset.remove(tempSubset.size() - 1); } } ``` ### 13. 分割字符串使得每个部分都是回文数 131\. Palindrome Partitioning (Medium) [Leetcode](https://leetcode.com/problems/palindrome-partitioning/description/) / [力扣](https://leetcode-cn.com/problems/palindrome-partitioning/description/) ```html For example, given s = "aab", Return [ ["aa","b"], ["a","a","b"] ] ``` ```java public List> partition(String s) { List> partitions = new ArrayList<>(); List tempPartition = new ArrayList<>(); doPartition(s, partitions, tempPartition); return partitions; } private void doPartition(String s, List> partitions, List tempPartition) { if (s.length() == 0) { partitions.add(new ArrayList<>(tempPartition)); return; } for (int i = 0; i < s.length(); i++) { if (isPalindrome(s, 0, i)) { tempPartition.add(s.substring(0, i + 1)); doPartition(s.substring(i + 1), partitions, tempPartition); tempPartition.remove(tempPartition.size() - 1); } } } private boolean isPalindrome(String s, int begin, int end) { while (begin < end) { if (s.charAt(begin++) != s.charAt(end--)) { return false; } } return true; } ``` ### 14. 数独 37\. Sudoku Solver (Hard) [Leetcode](https://leetcode.com/problems/sudoku-solver/description/) / [力扣](https://leetcode-cn.com/problems/sudoku-solver/description/)

```java private boolean[][] rowsUsed = new boolean[9][10]; private boolean[][] colsUsed = new boolean[9][10]; private boolean[][] cubesUsed = new boolean[9][10]; private char[][] board; public void solveSudoku(char[][] board) { this.board = board; for (int i = 0; i < 9; i++) for (int j = 0; j < 9; j++) { if (board[i][j] == '.') { continue; } int num = board[i][j] - '0'; rowsUsed[i][num] = true; colsUsed[j][num] = true; cubesUsed[cubeNum(i, j)][num] = true; } backtracking(0, 0); } private boolean backtracking(int row, int col) { while (row < 9 && board[row][col] != '.') { row = col == 8 ? row + 1 : row; col = col == 8 ? 0 : col + 1; } if (row == 9) { return true; } for (int num = 1; num <= 9; num++) { if (rowsUsed[row][num] || colsUsed[col][num] || cubesUsed[cubeNum(row, col)][num]) { continue; } rowsUsed[row][num] = colsUsed[col][num] = cubesUsed[cubeNum(row, col)][num] = true; board[row][col] = (char) (num + '0'); if (backtracking(row, col)) { return true; } board[row][col] = '.'; rowsUsed[row][num] = colsUsed[col][num] = cubesUsed[cubeNum(row, col)][num] = false; } return false; } private int cubeNum(int i, int j) { int r = i / 3; int c = j / 3; return r * 3 + c; } ``` ### 15. N 皇后 51\. N-Queens (Hard) [Leetcode](https://leetcode.com/problems/n-queens/description/) / [力扣](https://leetcode-cn.com/problems/n-queens/description/)

在 n\*n 的矩阵中摆放 n 个皇后,并且每个皇后不能在同一行,同一列,同一对角线上,求所有的 n 皇后的解。 一行一行地摆放,在确定一行中的那个皇后应该摆在哪一列时,需要用三个标记数组来确定某一列是否合法,这三个标记数组分别为:列标记数组、45 度对角线标记数组和 135 度对角线标记数组。 45 度对角线标记数组的长度为 2 \* n - 1,通过下图可以明确 (r, c) 的位置所在的数组下标为 r + c。

135 度对角线标记数组的长度也是 2 \* n - 1,(r, c) 的位置所在的数组下标为 n - 1 - (r - c)。

```java private List> solutions; private char[][] nQueens; private boolean[] colUsed; private boolean[] diagonals45Used; private boolean[] diagonals135Used; private int n; public List> solveNQueens(int n) { solutions = new ArrayList<>(); nQueens = new char[n][n]; for (int i = 0; i < n; i++) { Arrays.fill(nQueens[i], '.'); } colUsed = new boolean[n]; diagonals45Used = new boolean[2 * n - 1]; diagonals135Used = new boolean[2 * n - 1]; this.n = n; backtracking(0); return solutions; } private void backtracking(int row) { if (row == n) { List list = new ArrayList<>(); for (char[] chars : nQueens) { list.add(new String(chars)); } solutions.add(list); return; } for (int col = 0; col < n; col++) { int diagonals45Idx = row + col; int diagonals135Idx = n - 1 - (row - col); if (colUsed[col] || diagonals45Used[diagonals45Idx] || diagonals135Used[diagonals135Idx]) { continue; } nQueens[row][col] = 'Q'; colUsed[col] = diagonals45Used[diagonals45Idx] = diagonals135Used[diagonals135Idx] = true; backtracking(row + 1); colUsed[col] = diagonals45Used[diagonals45Idx] = diagonals135Used[diagonals135Idx] = false; nQueens[row][col] = '.'; } } ```