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How to Solve Maximum Trailing Zeros in a Cornered Path Problem
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Start Free for WindowsMedium#2245
LeetCode ProblemMaximum Trailing Zeros in a Cornered Path
You are given a 2D integer array grid of size m x n, where each cell contains a positive integer. A cornered path is defined as a set of adjacent cells with at most one turn. More specifically, the path should exclusively move either horizontally or vertically up to the turn (if there is one), without returning to a previously visited cell. After the turn, the path will then move exclusively in the alternate direction: move vertically if it moved horizontally, and vice versa, also without returning to a previously visited cell. The product of a path is defined as the product of all the values in the path. Return the maximum number of trailing zeros in the product of a cornered path found in grid.
ArrayMatrixPrefix Sum
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Problem Breakdown
Understanding the Maximum Trailing Zeros in a Cornered Path Problem
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Problem Statement
You are given a 2D integer array grid of size m x n, where each cell contains a positive integer. A cornered path is defined as a set of adjacent cells with at most one turn. More specifically, the path should exclusively move either horizontally or vertically up to the turn (if there is one), without returning to a previously visited cell. After the turn, the path will then move exclusively in the alternate direction: move vertically if it moved horizontally, and vice versa, also without returning to a previously visited cell. The product of a path is defined as the product of all the values in the path. Return the maximum number of trailing zeros in the product of a cornered path found in grid.
MediumProblem #2245
LeetCodeMaximum Trailing Zeros in a Cornered Path
Related Topics
ArrayMatrixPrefix Sum
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Examples
# Example 1
Input
grid = [[23,17,15,3,20],[8,1,20,27,11],[9,4,6,2,21],[40,9,1,10,6],[22,7,4,5,3]]
Output
3
# Example 2
Input
grid = [[4,3,2],[7,6,1],[8,8,8]]
Output
0
Constraints
m == grid.length
n == grid[i].length
1 <= m, n <= 105
1 <= m * n <= 105
1 <= grid[i][j] <= 1000
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Solve Maximum Trailing Zeros in a Cornered Path — You are given a 2D integer array grid of size m x n, where each cell contains a ...
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def solve(input):
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Frequently Asked Questions
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Phantom Code generates complete solutions instantly with proper complexity analysis, letting you focus on explaining your approach and demonstrating problem-solving skills rather than getting stuck on implementation details during high-pressure situations.
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Phantom Code catches common mistakes like off-by-one errors, missing edge cases, incorrect base conditions, and suboptimal approaches. It provides clean, well-structured code that handles all edge cases.
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The AI provides structured guidance: first the approach (what algorithm/data structure to use and why), then the implementation with clean code, and finally complexity analysis. This helps you think clearly even under pressure.
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