1334. Find the City With the Smallest Number of Neighbors at a Threshold Distance
Medium
There are n
cities numbered from 0
to n-1
. Given the array edges
where edges[i] = [fromi, toi, weighti]
represents a bidirectional and weighted edge between cities fromi
and toi
, and given the integer distanceThreshold
.
Return the city with the smallest number of cities that are reachable through some path and whose distance is at most distanceThreshold
, If there are multiple such cities, return the city with the greatest number.
Notice that the distance of a path connecting cities i and j is equal to the sum of the edges' weights along that path.
Example 1:
- Input: n = 4, edges = [[0,1,3],[1,2,1],[1,3,4],[2,3,1]], distanceThreshold = 4
- Output: 3
-
Explanation: The figure above describes the graph.
- The neighboring cities at a distanceThreshold = 4 for each city are:
City 0 -> [City 1, City 2]
City 1 -> [City 0, City 2, City 3]
City 2 -> [City 0, City 1, City 3]
City 3 -> [City 1, City 2]
Cities 0 and 3 have 2 neighboring cities at a distanceThreshold = 4, but we have to return city 3 since it has the greatest number.
Example 2:
- Input: n = 5, edges = [[0,1,2],[0,4,8],[1,2,3],[1,4,2],[2,3,1],[3,4,1]], distanceThreshold = 2
- Output: 0
-
Explanation: The figure above describes the graph.
- The neighboring cities at a distanceThreshold = 2 for each city are:
City 0 -> [City 1]
City 1 -> [City 0, City 4]
City 2 -> [City 3, City 4]
City 3 -> [City 2, City 4]
City 4 -> [City 1, City 2, City 3]
The city 0 has 1 neighboring city at a distanceThreshold = 2.
Constraints:
2 <= n <= 100
1 <= edges.length <= n * (n - 1) / 2
edges[i].length == 3
0 <= fromi < toi < n
1 <= weighti, distanceThreshold <= 10^4
- All pairs
(fromi, toi)
are distinct.
Hint:
- Use Floyd-Warshall's algorithm to compute any-point to any-point distances. (Or can also do Dijkstra from every node due to the weights are non-negative).
- For each city calculate the number of reachable cities within the threshold, then search for the optimal city.
Solution:
To solve this problem, we can follow these steps:
Initialize the Distance Matrix: Create a distance matrix
dist
wheredist[i][j]
represents the shortest distance between cityi
and cityj
. Initialize the matrix withINF
(a large number representing infinity) and setdist[i][i]
to 0 for alli
.Populate the Distance Matrix with Given Edges: Set the distances based on the given
edges
.Floyd-Warshall Algorithm: Update the distance matrix using the Floyd-Warshall algorithm to find the shortest paths between all pairs of cities.
Calculate Reachable Cities: For each city, count the number of cities that can be reached within the
distanceThreshold
.Find the Desired City: Identify the city with the smallest number of reachable cities. If there are multiple such cities, return the one with the greatest number.
Let's implement this solution in PHP: 1334. Find the City With the Smallest Number of Neighbors at a Threshold Distance
<?php
// Example usage:
$n1 = 4;
$edges1 = [[0,1,3],[1,2,1],[1,3,4],[2,3,1]];
$distanceThreshold1 = 4;
echo findTheCity($n1, $edges1, $distanceThreshold1); // Output: 3
$n2 = 5;
$edges2 = [[0,1,2],[0,4,8],[1,2,3],[1,4,2],[2,3,1],[3,4,1]];
$distanceThreshold2 = 2;
echo findTheCity($n2, $edges2, $distanceThreshold2); // Output: 0
?>
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