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How to Solve Minimum Cost to Reach Destination in Time Problem

Master the Minimum Cost to Reach Destination in Time LeetCode problem with undetectable real-time assistance. Get instant solutions and explanations during your coding interviews.

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Hard#1928

LeetCode Problem

Minimum Cost to Reach Destination in Time

There is a country of n cities numbered from 0 to n - 1 where all the cities are connected by bi-directional roads. The roads are represented as a 2D integer array edges where edges[i] = [xi, yi, timei] denotes a road between cities xi and yi that takes timei minutes to travel. There may be multiple roads of differing travel times connecting the same two cities, but no road connects a city to itself. Each time you pass through a city, you must pay a passing fee. This is represented as a 0-indexed integer array passingFees of length n where passingFees[j] is the amount of dollars you must pay when you pass through city j. In the beginning, you are at city 0 and want to reach city n - 1 in maxTime minutes or less. The cost of your journey is the summation of passing fees for each city that you passed through at some moment of your journey (including the source and destination cities). Given maxTime, edges, and passingFees, return the minimum cost to complete your journey, or -1 if you cannot complete it within maxTime minutes.

ArrayDynamic ProgrammingGraph

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Problem Breakdown

Understanding the Minimum Cost to Reach Destination in Time Problem

Let's break down this LeetCode problem and understand what makes it challenging in interview settings.

Problem Statement

HardProblem #1928

LeetCode

Minimum Cost to Reach Destination in Time

How Phantom Code Helps

Get real-time assistance for Minimum Cost to Reach Destination in Time problems during coding interviews. Phantom Code provides instant solutions and explanations.

Examples

# Example 1

Input

maxTime = 30, edges = [[0,1,10],[1,2,10],[2,5,10],[0,3,1],[3,4,10],[4,5,15]], passingFees = [5,1,2,20,20,3]

Output

# Example 2

Input

maxTime = 29, edges = [[0,1,10],[1,2,10],[2,5,10],[0,3,1],[3,4,10],[4,5,15]], passingFees = [5,1,2,20,20,3]

Output

# Example 3

Input

maxTime = 25, edges = [[0,1,10],[1,2,10],[2,5,10],[0,3,1],[3,4,10],[4,5,15]], passingFees = [5,1,2,20,20,3]

Output

-1

Constraints

1 <= maxTime <= 1000

n == passingFees.length

2 <= n <= 1000

n - 1 <= edges.length <= 1000

0 <= xi, yi <= n - 1

1 <= timei <= 1000

1 <= passingFees[j] <= 1000

The graph may contain multiple edges between two nodes.

The graph does not contain self loops.

How Phantom Code Helps with LeetCode Problems

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Solve Minimum Cost to Reach Destination in Time — There is a country of n cities numbered from 0 to n - 1 where all the cities are...

Here's the optimal approach using Array:

def solve(input):

# Optimal O(n) solution

return result

Time: O(n) | Space: O(n)

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Undetectability Checklist

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Platform Compatibility

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Frequently Asked Questions

Common questions about solving Minimum Cost to Reach Destination in Time and using Phantom Code during coding interviews.

How does Phantom Code help me solve coding problems like Minimum Cost to Reach Destination in Time during interviews?

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.

What if the interviewer asks follow-up questions or modifications to problems like Minimum Cost to Reach Destination in Time?

Phantom Code adapts in real-time. Screenshot the modified problem or use audio mode to capture the interviewer's follow-up, and get an updated solution within seconds — including edge cases and optimizations.

Can Phantom Code help me communicate my solution for problems like Minimum Cost to Reach Destination in Time?

Yes. Phantom Code provides step-by-step approach explanations with 3 progressive thoughts, so you can walk through your solution naturally. It also provides time and space complexity analysis to discuss trade-offs.

How does Phantom Code assist with different programming languages for Minimum Cost to Reach Destination in Time type problems?

Phantom Code supports 11 programming languages including Python, Java, C++, JavaScript, TypeScript, Go, Rust, Ruby, Swift, Kotlin, and C#. Set your preferred language and get idiomatic solutions.

What coding mistakes does Phantom Code help me avoid during Minimum Cost to Reach Destination in Time interviews?

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.

Is Phantom Code detectable when solving problems like Minimum Cost to Reach Destination in Time during live interviews?

No. Phantom Code runs as an invisible desktop overlay that doesn't appear in screen shares, recordings, or proctoring software. It works with Zoom, HackerRank, CodeSignal, CoderPad, and all major platforms.

How does Phantom Code help when I'm struggling with Minimum Cost to Reach Destination in Time style questions under pressure?

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.

Does Phantom Code work for the coding platforms used in Minimum Cost to Reach Destination in Time interviews?

Yes. Phantom Code works with all major coding platforms including LeetCode, HackerRank, CodeSignal, CoderPad, HackerEarth, and any browser-based coding environment.

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