An undirected graph of n
nodes is defined by edgeList
,
where edgeList[i] = [ui, vi, disi]
denotes
an edge between nodes ui
and vi
with
distance disi
. Note that there may be multiple
edges between two nodes, and the graph may not be connected.
Implement the DistanceLimitedPathsExist
class:
DistanceLimitedPathsExist(int n, int[][] edgeList)
Initializes the
class with an undirected graph.
boolean query(int p, int q, int limit)
Returns true
if
there exists a path from p
to q
such that each edge on
the path has a distance strictly less than limit
,
and otherwise false
.
Example 1:
Input ["DistanceLimitedPathsExist", "query", "query", "query", "query"] [[6, [[0, 2, 4], [0, 3, 2], [1, 2, 3], [2, 3, 1], [4, 5, 5]]], [2, 3, 2], [1, 3, 3], [2, 0, 3], [0, 5, 6]] Output [null, true, false, true, false] Explanation DistanceLimitedPathsExist distanceLimitedPathsExist = new DistanceLimitedPathsExist(6, [[0, 2, 4], [0, 3, 2], [1, 2, 3], [2, 3, 1], [4, 5, 5]]); distanceLimitedPathsExist.query(2, 3, 2); // return true. There is an edge from 2 to 3 of distance 1, which is less than 2. distanceLimitedPathsExist.query(1, 3, 3); // return false. There is no way to go from 1 to 3 with distances strictly less than 3. distanceLimitedPathsExist.query(2, 0, 3); // return true. There is a way to go from 2 to 0 with distance < 3: travel from 2 to 3 to 0. distanceLimitedPathsExist.query(0, 5, 6); // return false. There are no paths from 0 to 5.
Constraints:
2 <= n <= 104
0 <= edgeList.length <= 104
edgeList[i].length == 3
0 <= ui, vi, p, q <= n-1
ui != vi
p != q
1 <= disi, limit <= 109
104
calls will be made to
query
.