From abc26c5e5ab377379179dba63f93f7e2eef50353 Mon Sep 17 00:00:00 2001 From: StriveDD Date: Mon, 13 Mar 2023 21:26:29 +0800 Subject: [PATCH 1/3] =?UTF-8?q?=E6=B7=BB=E5=8A=A01020.=E9=A3=9E=E6=8A=B5?= =?UTF-8?q?=E7=9A=84=E6=95=B0=E9=87=8FJava=E7=89=88=E6=9C=AC=E7=9A=84?= =?UTF-8?q?=E4=BB=A3=E7=A0=81?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- problems/1020.飞地的数量.md | 125 +++++++++++++++++++++++++++++++ 1 file changed, 125 insertions(+) diff --git a/problems/1020.飞地的数量.md b/problems/1020.飞地的数量.md index 3da37376..ad848e73 100644 --- a/problems/1020.飞地的数量.md +++ b/problems/1020.飞地的数量.md @@ -144,6 +144,130 @@ public: } }; ``` +## 其他语言版本 + +**Java**: + +深度优先遍历版本: + +```java +class Solution { + // 四个方向 + private static final int[][] position = {{-1, 0}, {0, 1}, {1, 0}, {0, -1}}; + + // 深度优先遍历,把可以通向边缘部分的 1 全部标记成 true + public void dfs(int[][] grid, int row, int col, boolean[][] visited) { + for (int[] current: position) { + int newRow = row + current[0], newCol = col + current[1]; + // 下标越界直接跳过 + if (newRow < 0 || newRow >= grid.length || newCol < 0 || newCol >= grid[0].length) continue; + // 当前位置不是 1 或者已经被访问了就直接跳过 + if (grid[newRow][newCol] != 1 || visited[newRow][newCol]) continue; + visited[newRow][newCol] = true; + dfs(grid, newRow, newCol, visited); + } + } + + public int numEnclaves(int[][] grid) { + int rowSize = grid.length, colSize = grid[0].length, ans = 0; // ans 记录答案 + boolean[][] visited = new boolean[rowSize][colSize]; // 标记数组 + // 左侧边界和右侧边界查找 1 进行标记并进行深度优先遍历 + for (int row = 0; row < rowSize; row++) { + if (grid[row][0] == 1 && !visited[row][0]) { + visited[row][0] = true; + dfs(grid, row, 0, visited); + } + if (grid[row][colSize - 1] == 1 && !visited[row][colSize - 1]) { + visited[row][colSize - 1] = true; + dfs(grid, row, colSize - 1, visited); + } + } + // 上边界和下边界遍历,但是四个角不用遍历,因为上面已经遍历到了 + for (int col = 1; col < colSize - 1; col++) { + if (grid[0][col] == 1 && !visited[0][col]) { + visited[0][col] = true; + dfs(grid, 0, col, visited); + } + if (grid[rowSize - 1][col] == 1 && !visited[rowSize - 1][col]) { + visited[rowSize - 1][col] = true; + dfs(grid, rowSize - 1, col, visited); + } + } + // 查找没有标记过的 1,记录到 ans 中 + for (int row = 0; row < rowSize; row++) { + for (int col = 0; col < colSize; col++) { + if (grid[row][col] == 1 && !visited[row][col]) ++ans; + } + } + return ans; + } +} +``` + +广度优先遍历版本: + +```java +class Solution { + // 四个方向 + private static final int[][] position = {{-1, 0}, {0, 1}, {1, 0}, {0, -1}}; + + // 广度优先遍历,把可以通向边缘部分的 1 全部标记成 true + public void bfs(int[][] grid, Queue queue, boolean[][] visited) { + while (!queue.isEmpty()) { + int[] curPos = queue.poll(); + for (int[] current: position) { + int row = curPos[0] + current[0], col = curPos[1] + current[1]; + // 下标越界直接跳过 + if (row < 0 || row >= grid.length || col < 0 || col >= grid[0].length) + continue; + // 当前位置不是 1 或者已经被访问了就直接跳过 + if (visited[row][col] || grid[row][col] == 0) continue; + visited[row][col] = true; + queue.add(new int[]{row, col}); + } + } + } + + public int numEnclaves(int[][] grid) { + int rowSize = grid.length, colSize = grid[0].length, ans = 0; // ans 记录答案 + boolean[][] visited = new boolean[rowSize][colSize]; // 标记数组 + Queue queue = new ArrayDeque<>(); + // 左侧边界和右侧边界查找 1 进行标记并进行深度优先遍历 + for (int row = 0; row < rowSize; row++) { + if (grid[row][0] == 1) { + visited[row][0] = true; + queue.add(new int[]{row, 0}); + } + if (grid[row][colSize - 1] == 1) { + visited[row][colSize - 1] = true; + queue.add(new int[]{row, colSize - 1}); + } + } + // 上边界和下边界遍历,但是四个角不用遍历,因为上面已经遍历到了 + for (int col = 1; col < colSize - 1; col++) { + if (grid[0][col] == 1) { + visited[0][col] = true; + queue.add(new int[]{0, col}); + } + if (grid[rowSize - 1][col] == 1 && !visited[rowSize - 1][col]) { + visited[rowSize - 1][col] = true; + queue.add(new int[]{rowSize - 1, col}); + } + } + bfs(grid, queue, visited); + // 查找没有标记过的 1,记录到 ans 中 + for (int row = 0; row < rowSize; row++) { + for (int col = 0; col < colSize; col++) { + if (grid[row][col] == 1 && !visited[row][col]) ++ans; + } + } + return ans; + } +} +``` + + + ## 类似题目 * 1254. 统计封闭岛屿的数目 @@ -153,3 +277,4 @@ public: + From d1eccfba1a51880bece8edba08894000591eb3e0 Mon Sep 17 00:00:00 2001 From: StriveDD Date: Tue, 14 Mar 2023 19:05:39 +0800 Subject: [PATCH 2/3] =?UTF-8?q?=E6=B7=BB=E5=8A=A00417.=E5=A4=AA=E5=B9=B3?= =?UTF-8?q?=E6=B4=8B=E5=A4=A7=E8=A5=BF=E6=B4=8B=E6=B0=B4=E6=B5=81=E9=97=AE?= =?UTF-8?q?=E9=A2=98.md=E7=9A=84Java=E7=89=88=E6=9C=AC=E4=BB=A3=E7=A0=81?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- .../0417.太平洋大西洋水流问题.md | 124 +++++++++++++++++- problems/1020.飞地的数量.md | 3 +- 2 files changed, 123 insertions(+), 4 deletions(-) diff --git a/problems/0417.太平洋大西洋水流问题.md b/problems/0417.太平洋大西洋水流问题.md index f936399b..0ec8ebf9 100644 --- a/problems/0417.太平洋大西洋水流问题.md +++ b/problems/0417.太平洋大西洋水流问题.md @@ -230,17 +230,137 @@ for (int j = 0; j < m; j++) { dfs (heights, pacific, 0, j); // 遍历最左列,接触太平洋 dfs (heights, atlantic, n - 1, j); // 遍历最右列,接触大西洋 } -``` +``` 那么本题整体的时间复杂度其实是: 2 * n * m + n * m ,所以最终时间复杂度为 O(n * m) 。 空间复杂度为:O(n * m) 这个就不难理解了。开了几个 n * m 的数组。 - ## 其他语言版本 +### Java + +深度优先遍历: + +```Java +class Solution { + // 四个位置 + private static final int[][] position = {{-1, 0}, {0, 1}, {1, 0}, {0, -1}}; + + /** + * @param heights 题目给定的二维数组 + * @param row 当前位置的行号 + * @param col 当前位置的列号 + * @param sign 记录是哪一条河,两条河中可以一个为 0,一个为 1 + * @param visited 记录这个位置可以到哪条河 + */ + public void dfs(int[][] heights, int row, int col, int sign, boolean[][][] visited) { + for (int[] current: position) { + int curRow = row + current[0], curCol = col + current[1]; + // 越界 + if (curRow < 0 || curRow >= heights.length || curCol < 0 || curCol >= heights[0].length) + continue; + // 高度不合适或者已经被访问过了 + if (heights[curRow][curCol] < heights[row][col] || visited[curRow][curCol][sign]) continue; + visited[curRow][curCol][sign] = true; + dfs(heights, curRow, curCol, sign, visited); + } + } + + public List> pacificAtlantic(int[][] heights) { + int rowSize = heights.length, colSize = heights[0].length; + List> ans = new ArrayList<>(); + // 记录 [row, col] 位置是否可以到某条河,可以为 true,反之为 false; + // 假设太平洋的标记为 1,大西洋为 0 + boolean[][][] visited = new boolean[rowSize][colSize][2]; + for (int row = 0; row < rowSize; row++) { + visited[row][colSize - 1][0] = true; + visited[row][0][1] = true; + dfs(heights, row, colSize - 1, 0, visited); + dfs(heights, row, 0, 1, visited); + } + for (int col = 0; col < colSize; col++) { + visited[rowSize - 1][col][0] = true; + visited[0][col][1] = true; + dfs(heights, rowSize - 1, col, 0, visited); + dfs(heights, 0, col, 1, visited); + } + for (int row = 0; row < rowSize; row++) { + for (int col = 0; col < colSize; col++) { + // 如果该位置即可以到太平洋又可以到大西洋,就放入答案数组 + if (visited[row][col][0] && visited[row][col][1]) + ans.add(List.of(row, col)); + } + } + return ans; + } +} +``` + +广度优先遍历: + +```Java +class Solution { + // 四个位置 + private static final int[][] position = {{-1, 0}, {0, 1}, {1, 0}, {0, -1}}; + + /** + * @param heights 题目给定的二维数组 + * @param queue 记录可以到达边界的节点 + * @param visited 记录这个位置可以到哪条河 + */ + public void bfs(int[][] heights, Queue queue, boolean[][][] visited) { + while (!queue.isEmpty()) { + int[] curPos = queue.poll(); + for (int[] current: position) { + int row = curPos[0] + current[0], col = curPos[1] + current[1], sign = curPos[2]; + // 越界 + if (row < 0 || row >= heights.length || col < 0 || col >= heights[0].length) continue; + // 高度不合适或者已经被访问过了 + if (heights[row][col] < heights[curPos[0]][curPos[1]] || visited[row][col][sign]) continue; + visited[row][col][sign] = true; + queue.add(new int[]{row, col, sign}); + } + } + } + + public List> pacificAtlantic(int[][] heights) { + int rowSize = heights.length, colSize = heights[0].length; + List> ans = new ArrayList<>(); + boolean[][][] visited = new boolean[rowSize][colSize][2]; + // 队列,保存的数据为 [行号, 列号, 标记] + // 假设太平洋的标记为 1,大西洋为 0 + Queue queue = new ArrayDeque<>(); + for (int row = 0; row < rowSize; row++) { + visited[row][colSize - 1][0] = true; + visited[row][0][1] = true; + queue.add(new int[]{row, colSize - 1, 0}); + queue.add(new int[]{row, 0, 1}); + } + for (int col = 0; col < colSize; col++) { + visited[rowSize - 1][col][0] = true; + visited[0][col][1] = true; + queue.add(new int[]{rowSize - 1, col, 0}); + queue.add(new int[]{0, col, 1}); + } + bfs(heights, queue, visited); + for (int row = 0; row < rowSize; row++) { + for (int col = 0; col < colSize; col++) { + // 如果该位置即可以到太平洋又可以到大西洋,就放入答案数组 + if (visited[row][col][0] && visited[row][col][1]) + ans.add(List.of(row, col)); + } + } + return ans; + } +} +``` + + +

+ diff --git a/problems/1020.飞地的数量.md b/problems/1020.飞地的数量.md index ad848e73..d244e60c 100644 --- a/problems/1020.飞地的数量.md +++ b/problems/1020.飞地的数量.md @@ -146,7 +146,7 @@ public: ``` ## 其他语言版本 -**Java**: +### Java 深度优先遍历版本: @@ -277,4 +277,3 @@ class Solution { - From d002d8769cfae23d0f5656bf9f36ba10590371d7 Mon Sep 17 00:00:00 2001 From: StriveDD Date: Wed, 15 Mar 2023 20:36:34 +0800 Subject: [PATCH 3/3] =?UTF-8?q?=E6=8F=90=E4=BA=A41020.=E9=A3=9E=E6=8A=B5?= =?UTF-8?q?=E7=9A=84=E6=95=B0=E9=87=8F.md=E7=9A=84Python=E7=89=88=E6=9C=AC?= =?UTF-8?q?=E4=BB=A3=E7=A0=81=EF=BC=8C0417.=E5=A4=AA=E5=B9=B3=E6=B4=8B?= =?UTF-8?q?=E5=A4=A7=E8=A5=BF=E6=B4=8B=E6=B0=B4=E6=B5=81=E9=97=AE=E9=A2=98?= =?UTF-8?q?.md=E7=9A=84Python=E7=89=88=E6=9C=AC=E4=BB=A3=E7=A0=81?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- .../0417.太平洋大西洋水流问题.md | 95 ++++++++++++++- problems/1020.飞地的数量.md | 113 +++++++++++++++++- 2 files changed, 202 insertions(+), 6 deletions(-) diff --git a/problems/0417.太平洋大西洋水流问题.md b/problems/0417.太平洋大西洋水流问题.md index 0ec8ebf9..ec229365 100644 --- a/problems/0417.太平洋大西洋水流问题.md +++ b/problems/0417.太平洋大西洋水流问题.md @@ -356,6 +356,100 @@ class Solution { } ``` +### Python + +深度优先遍历 + +```Python3 +class Solution: + def __init__(self): + self.position = [[-1, 0], [0, 1], [1, 0], [0, -1]] # 四个方向 + + # heights:题目给定的二维数组, row:当前位置的行号, col:当前位置的列号 + # sign:记录是哪一条河,两条河中可以一个为 0,一个为 1 + # visited:记录这个位置可以到哪条河 + def dfs(self, heights: List[List[int]], row: int, col: int, sign: int, visited: List[List[List[int]]]): + for current in self.position: + curRow, curCol = row + current[0], col + current[1] + # 索引下标越界 + if curRow < 0 or curRow >= len(heights) or curCol < 0 or curCol >= len(heights[0]): continue + # 不满足条件或者已经被访问过 + if heights[curRow][curCol] < heights[row][col] or visited[curRow][curCol][sign]: continue + visited[curRow][curCol][sign] = True + self.dfs(heights, curRow, curCol, sign, visited) + + def pacificAtlantic(self, heights: List[List[int]]) -> List[List[int]]: + rowSize, colSize = len(heights), len(heights[0]) + # visited 记录 [row, col] 位置是否可以到某条河,可以为 true,反之为 false; + # 假设太平洋的标记为 1,大西洋为 0 + # ans 用来保存满足条件的答案 + ans, visited = [], [[[False for _ in range(2)] for _ in range(colSize)] for _ in range(rowSize)] + for row in range(rowSize): + visited[row][0][1] = True + visited[row][colSize - 1][0] = True + self.dfs(heights, row, 0, 1, visited) + self.dfs(heights, row, colSize - 1, 0, visited) + for col in range(0, colSize): + visited[0][col][1] = True + visited[rowSize - 1][col][0] = True + self.dfs(heights, 0, col, 1, visited) + self.dfs(heights, rowSize - 1, col, 0, visited) + for row in range(rowSize): + for col in range(colSize): + # 如果该位置即可以到太平洋又可以到大西洋,就放入答案数组 + if visited[row][col][0] and visited[row][col][1]: + ans.append([row, col]) + return ans +``` + +广度优先遍历 + +```Python3 +class Solution: + def __init__(self): + self.position = [[-1, 0], [0, 1], [1, 0], [0, -1]] + + # heights:题目给定的二维数组,visited:记录这个位置可以到哪条河 + def bfs(self, heights: List[List[int]], queue: deque, visited: List[List[List[int]]]): + while queue: + curPos = queue.popleft() + for current in self.position: + row, col, sign = curPos[0] + current[0], curPos[1] + current[1], curPos[2] + # 越界 + if row < 0 or row >= len(heights) or col < 0 or col >= len(heights[0]): continue + # 不满足条件或已经访问过 + if heights[row][col] < heights[curPos[0]][curPos[1]] or visited[row][col][sign]: continue + visited[row][col][sign] = True + queue.append([row, col, sign]) + + def pacificAtlantic(self, heights: List[List[int]]) -> List[List[int]]: + rowSize, colSize = len(heights), len(heights[0]) + # visited 记录 [row, col] 位置是否可以到某条河,可以为 true,反之为 false; + # 假设太平洋的标记为 1,大西洋为 0 + # ans 用来保存满足条件的答案 + ans, visited = [], [[[False for _ in range(2)] for _ in range(colSize)] for _ in range(rowSize)] + # 队列,保存的数据为 [行号, 列号, 标记] + # 假设太平洋的标记为 1,大西洋为 0 + queue = deque() + for row in range(rowSize): + visited[row][0][1] = True + visited[row][colSize - 1][0] = True + queue.append([row, 0, 1]) + queue.append([row, colSize - 1, 0]) + for col in range(0, colSize): + visited[0][col][1] = True + visited[rowSize - 1][col][0] = True + queue.append([0, col, 1]) + queue.append([rowSize - 1, col, 0]) + self.bfs(heights, queue, visited) # 广度优先遍历 + for row in range(rowSize): + for col in range(colSize): + # 如果该位置即可以到太平洋又可以到大西洋,就放入答案数组 + if visited[row][col][0] and visited[row][col][1]: + ans.append([row, col]) + return ans +``` + @@ -363,4 +457,3 @@ class Solution { - diff --git a/problems/1020.飞地的数量.md b/problems/1020.飞地的数量.md index d244e60c..f97678e8 100644 --- a/problems/1020.飞地的数量.md +++ b/problems/1020.飞地的数量.md @@ -170,7 +170,8 @@ class Solution { public int numEnclaves(int[][] grid) { int rowSize = grid.length, colSize = grid[0].length, ans = 0; // ans 记录答案 - boolean[][] visited = new boolean[rowSize][colSize]; // 标记数组 + // 标记数组记录每个值为 1 的位置是否可以到达边界,可以为 true,反之为 false + boolean[][] visited = new boolean[rowSize][colSize]; // 左侧边界和右侧边界查找 1 进行标记并进行深度优先遍历 for (int row = 0; row < rowSize; row++) { if (grid[row][0] == 1 && !visited[row][0]) { @@ -230,9 +231,10 @@ class Solution { public int numEnclaves(int[][] grid) { int rowSize = grid.length, colSize = grid[0].length, ans = 0; // ans 记录答案 - boolean[][] visited = new boolean[rowSize][colSize]; // 标记数组 + // 标记数组记录每个值为 1 的位置是否可以到达边界,可以为 true,反之为 false + boolean[][] visited = new boolean[rowSize][colSize]; Queue queue = new ArrayDeque<>(); - // 左侧边界和右侧边界查找 1 进行标记并进行深度优先遍历 + // 搜索左侧边界和右侧边界查找 1 存入队列 for (int row = 0; row < rowSize; row++) { if (grid[row][0] == 1) { visited[row][0] = true; @@ -243,7 +245,7 @@ class Solution { queue.add(new int[]{row, colSize - 1}); } } - // 上边界和下边界遍历,但是四个角不用遍历,因为上面已经遍历到了 + // 搜索上边界和下边界遍历,但是四个角不用遍历,因为上面已经遍历到了 for (int col = 1; col < colSize - 1; col++) { if (grid[0][col] == 1) { visited[0][col] = true; @@ -254,7 +256,7 @@ class Solution { queue.add(new int[]{rowSize - 1, col}); } } - bfs(grid, queue, visited); + bfs(grid, queue, visited); // 广度优先遍历 // 查找没有标记过的 1,记录到 ans 中 for (int row = 0; row < rowSize; row++) { for (int col = 0; col < colSize; col++) { @@ -266,6 +268,106 @@ class Solution { } ``` +### Python + +深度优先遍历 + +```Python3 +class Solution: + def __init__(self): + self.position = [[-1, 0], [0, 1], [1, 0], [0, -1]] # 四个方向 + + # 深度优先遍历,把可以通向边缘部分的 1 全部标记成 true + def dfs(self, grid: List[List[int]], row: int, col: int, visited: List[List[bool]]) -> None: + for current in self.position: + newRow, newCol = row + current[0], col + current[1] + # 索引下标越界 + if newRow < 0 or newRow >= len(grid) or newCol < 0 or newCol >= len(grid[0]): + continue + # 当前位置值不是 1 或者已经被访问过了 + if grid[newRow][newCol] == 0 or visited[newRow][newCol]: continue + visited[newRow][newCol] = True + self.dfs(grid, newRow, newCol, visited) + + def numEnclaves(self, grid: List[List[int]]) -> int: + rowSize, colSize, ans = len(grid), len(grid[0]), 0 + # 标记数组记录每个值为 1 的位置是否可以到达边界,可以为 True,反之为 False + visited = [[False for _ in range(colSize)] for _ in range(rowSize)] + # 搜索左边界和右边界,对值为 1 的位置进行深度优先遍历 + for row in range(rowSize): + if grid[row][0] == 1: + visited[row][0] = True + self.dfs(grid, row, 0, visited) + if grid[row][colSize - 1] == 1: + visited[row][colSize - 1] = True + self.dfs(grid, row, colSize - 1, visited) + # 搜索上边界和下边界,对值为 1 的位置进行深度优先遍历,但是四个角不需要,因为上面遍历过了 + for col in range(1, colSize - 1): + if grid[0][col] == 1: + visited[0][col] = True + self.dfs(grid, 0, col, visited) + if grid[rowSize - 1][col] == 1: + visited[rowSize - 1][col] = True + self.dfs(grid, rowSize - 1, col, visited) + # 找出矩阵中值为 1 但是没有被标记过的位置,记录答案 + for row in range(rowSize): + for col in range(colSize): + if grid[row][col] == 1 and not visited[row][col]: + ans += 1 + return ans +``` + +广度优先遍历 + +```Python3 +class Solution: + def __init__(self): + self.position = [[-1, 0], [0, 1], [1, 0], [0, -1]] # 四个方向 + + # 广度优先遍历,把可以通向边缘部分的 1 全部标记成 true + def bfs(self, grid: List[List[int]], queue: deque, visited: List[List[bool]]) -> None: + while queue: + curPos = queue.popleft() + for current in self.position: + row, col = curPos[0] + current[0], curPos[1] + current[1] + # 索引下标越界 + if row < 0 or row >= len(grid) or col < 0 or col >= len(grid[0]): continue + # 当前位置值不是 1 或者已经被访问过了 + if grid[row][col] == 0 or visited[row][col]: continue + visited[row][col] = True + queue.append([row, col]) + + + def numEnclaves(self, grid: List[List[int]]) -> int: + rowSize, colSize, ans = len(grid), len(grid[0]), 0 + # 标记数组记录每个值为 1 的位置是否可以到达边界,可以为 True,反之为 False + visited = [[False for _ in range(colSize)] for _ in range(rowSize)] + queue = deque() # 队列 + # 搜索左侧边界和右侧边界查找 1 存入队列 + for row in range(rowSize): + if grid[row][0] == 1: + visited[row][0] = True + queue.append([row, 0]) + if grid[row][colSize - 1] == 1: + visited[row][colSize - 1] = True + queue.append([row, colSize - 1]) + # 搜索上边界和下边界查找 1 存入队列,但是四个角不用遍历,因为上面已经遍历到了 + for col in range(1, colSize - 1): + if grid[0][col] == 1: + visited[0][col] = True + queue.append([0, col]) + if grid[rowSize - 1][col] == 1: + visited[rowSize - 1][col] = True + queue.append([rowSize - 1, col]) + self.bfs(grid, queue, visited) # 广度优先遍历 + # 找出矩阵中值为 1 但是没有被标记过的位置,记录答案 + for row in range(rowSize): + for col in range(colSize): + if grid[row][col] == 1 and not visited[row][col]: + ans += 1 + return ans +``` + ## 类似题目 @@ -277,3 +379,4 @@ class Solution { +