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Formatted question description: https://leetcode.ca/all/2282.html
2282. Number of People That Can Be Seen in a Grid
Description
You are given an m x n
0-indexed 2D array of positive integers heights
where heights[i][j]
is the height of the person standing at position (i, j)
.
A person standing at position (row1, col1)
can see a person standing at position (row2, col2)
if:
- The person at
(row2, col2)
is to the right or below the person at(row1, col1)
. More formally, this means that eitherrow1 == row2
andcol1 < col2
orrow1 < row2
andcol1 == col2
. - Everyone in between them is shorter than both of them.
Return an m x n
2D array of integers answer
where answer[i][j]
is the number of people that the person at position (i, j)
can see.
Example 1:
Input: heights = [[3,1,4,2,5]] Output: [[2,1,2,1,0]] Explanation: - The person at (0, 0) can see the people at (0, 1) and (0, 2). Note that he cannot see the person at (0, 4) because the person at (0, 2) is taller than him. - The person at (0, 1) can see the person at (0, 2). - The person at (0, 2) can see the people at (0, 3) and (0, 4). - The person at (0, 3) can see the person at (0, 4). - The person at (0, 4) cannot see anybody.
Example 2:
Input: heights = [[5,1],[3,1],[4,1]] Output: [[3,1],[2,1],[1,0]] Explanation: - The person at (0, 0) can see the people at (0, 1), (1, 0) and (2, 0). - The person at (0, 1) can see the person at (1, 1). - The person at (1, 0) can see the people at (1, 1) and (2, 0). - The person at (1, 1) can see the person at (2, 1). - The person at (2, 0) can see the person at (2, 1). - The person at (2, 1) cannot see anybody.
Constraints:
1 <= heights.length <= 400
1 <= heights[i].length <= 400
1 <= heights[i][j] <= 105
Solutions
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class Solution { public int[][] seePeople(int[][] heights) { int m = heights.length, n = heights[0].length; int[][] ans = new int[m][0]; for (int i = 0; i < m; ++i) { ans[i] = f(heights[i]); } for (int j = 0; j < n; ++j) { int[] nums = new int[m]; for (int i = 0; i < m; ++i) { nums[i] = heights[i][j]; } int[] add = f(nums); for (int i = 0; i < m; ++i) { ans[i][j] += add[i]; } } return ans; } private int[] f(int[] nums) { int n = nums.length; int[] ans = new int[n]; Deque<Integer> stk = new ArrayDeque<>(); for (int i = n - 1; i >= 0; --i) { while (!stk.isEmpty() && stk.peek() < nums[i]) { stk.pop(); ++ans[i]; } if (!stk.isEmpty()) { ++ans[i]; } while (!stk.isEmpty() && stk.peek() == nums[i]) { stk.pop(); } stk.push(nums[i]); } return ans; } }
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class Solution { public: vector<vector<int>> seePeople(vector<vector<int>>& heights) { int m = heights.size(), n = heights[0].size(); auto f = [](vector<int>& nums) { int n = nums.size(); vector<int> ans(n); stack<int> stk; for (int i = n - 1; ~i; --i) { while (stk.size() && stk.top() < nums[i]) { ++ans[i]; stk.pop(); } if (stk.size()) { ++ans[i]; } while (stk.size() && stk.top() == nums[i]) { stk.pop(); } stk.push(nums[i]); } return ans; }; vector<vector<int>> ans; for (auto& row : heights) { ans.push_back(f(row)); } for (int j = 0; j < n; ++j) { vector<int> col; for (int i = 0; i < m; ++i) { col.push_back(heights[i][j]); } vector<int> add = f(col); for (int i = 0; i < m; ++i) { ans[i][j] += add[i]; } } return ans; } };
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class Solution: def seePeople(self, heights: List[List[int]]) -> List[List[int]]: def f(nums: List[int]) -> List[int]: n = len(nums) stk = [] ans = [0] * n for i in range(n - 1, -1, -1): while stk and stk[-1] < nums[i]: ans[i] += 1 stk.pop() if stk: ans[i] += 1 while stk and stk[-1] == nums[i]: stk.pop() stk.append(nums[i]) return ans ans = [f(row) for row in heights] m, n = len(heights), len(heights[0]) for j in range(n): add = f([heights[i][j] for i in range(m)]) for i in range(m): ans[i][j] += add[i] return ans
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func seePeople(heights [][]int) (ans [][]int) { f := func(nums []int) []int { n := len(nums) ans := make([]int, n) stk := []int{} for i := n - 1; i >= 0; i-- { for len(stk) > 0 && stk[len(stk)-1] < nums[i] { ans[i]++ stk = stk[:len(stk)-1] } if len(stk) > 0 { ans[i]++ } for len(stk) > 0 && stk[len(stk)-1] == nums[i] { stk = stk[:len(stk)-1] } stk = append(stk, nums[i]) } return ans } for _, row := range heights { ans = append(ans, f(row)) } n := len(heights[0]) for j := 0; j < n; j++ { col := make([]int, len(heights)) for i := range heights { col[i] = heights[i][j] } for i, v := range f(col) { ans[i][j] += v } } return }
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function seePeople(heights: number[][]): number[][] { const f = (nums: number[]): number[] => { const n = nums.length; const ans: number[] = new Array(n).fill(0); const stk: number[] = []; for (let i = n - 1; ~i; --i) { while (stk.length && stk.at(-1) < nums[i]) { stk.pop(); ++ans[i]; } if (stk.length) { ++ans[i]; } while (stk.length && stk.at(-1) === nums[i]) { stk.pop(); } stk.push(nums[i]); } return ans; }; const ans: number[][] = []; for (const row of heights) { ans.push(f(row)); } const n = heights[0].length; for (let j = 0; j < n; ++j) { const col: number[] = []; for (const row of heights) { col.push(row[j]); } const add = f(col); for (let i = 0; i < ans.length; ++i) { ans[i][j] += add[i]; } } return ans; }