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I have a complete graph with N vertices and I need to find the shortest path from a given source to a given destination. All edges have initial cost A, then for K edges the cost will change to B. What is the best way to find the minimal cost between vertex 1 and vertex N [The algorithm finds the lowest cost (i.e. the shortest path) between vertex 1 and vertex N]? The input is N K A B and K edges (the edges with cost B).

where:

2 <= N <= 500000
0 <= K <= 500000
1 <= A, B <= 500000

I've tried with Dijkstra but take to much time ~ 2min, and i need something like 2sec.

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marked as duplicate by David Eisenstat, TheQuickBrownFox, Dukeling, Timothy Shields, Code Lღver Apr 16 at 6:02

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As far as I know Dijkstra's one of the faster algorithms you can use, you might need to optimise or completely change the type of pathfinding. –  Anubian Noob Apr 16 at 1:39
    
@AnubianNoob That's true for general graphs, but there's a lot of structure here. –  David Eisenstat Apr 16 at 1:41

1 Answer 1

up vote 1 down vote accepted
  1. If the cost of the edge between 1 and N is A.

    1) if A<B, then the lowest cost will be A.

    2) if A>B, then use BFS to find the fewest hops from 1 to N through only the edges with cost B. Assume that there are at lestL edges between 1 and N, then return min(LB,A). It is typical BFS and the cost is O(N+K).

  2. If the edge between 1 and N is B.

    1) if 'A>B', then the answer is B.

    2) Find the fewest hops from 1 to N only using the edge with cost A. Let S[h] be the set of vertices can be reached by h hops and S' be the set have not reached yet, then it can be solved as follows.

    min_dis() { S[0] = {1}; int h = 0; S'={2,...,N}; while (S[h] is not empty) { S[h+1] = {}; for_each (v1 in S'){ for (v2 in S[h]) { if (cost[v1][v2] == A) { S[h+1].insert(1); S'.remove(v1); if (v1 == N) return min((h+1)*A, B); break; } } } h++; } return B; }

    We can proof that this algorithm is also O(N+K), since each time we testconst[v1][v2]==A is true , the size of S' will be decreased by 1 and there are at most K time when this test is false because there are at most K edge with cost B. So it guarantees to be finished with O(N+K)

In total, the algorithm is O(N+K), which will guarantee the 2sec time limit.

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thank you a lot. And what is the best data structure to use in this case? –  JeanBubu Apr 16 at 2:15
    
@JeanBubu I will revise my answer. –  notbad Apr 16 at 2:29
    
yeah, but in this case i will double number of edges. All neighbors will store v to beacause it's an undirected graph –  JeanBubu Apr 16 at 2:37
    
I have revise my answer and it is quite different form the previous one. Maybe you need use set or list for S' and array for S[h] –  notbad Apr 16 at 5:26
    
Stiil don't work for big graphs. takes like 15sec or even more. Ex: work for link but fail for link or link –  JeanBubu Apr 16 at 15:36

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