UVa 523 - Minimum Transport Cost

523 - Minimum Transport Cost

 * http://acm.uva.es/p/v5/523.html

Summary
This is a fairly typical single source Shortest Path problem.

Explanation
We are given a distance matrix D, where $$D_{i,j}$$ represents the cost of moving from city i to city j. We are also given a tax vector T. When moving through (eg, not starting or ending) at city k, we must pay a tax of $$T_k$$. We are also given a list of source sink pairs which we must compute the shortest path between. When computing the shortest path from s to t, we can simply form a new distance matrix D'  such that $$D'_{i,j} = D_{i,j} + T_j$$ iff $$j \not= s$$ and $$j \not= t $$ otherwise $$ D'_{i,j} = D_{i,j}$$. Then we can simply compute the Shortest Path from s to t in D'  with a standard algorithm.

Gotcha's

 * This is a Multiple Input problem.

Input
3

0 3 22 -1 4 3 0 5 -1 -1 22 5 0 9 20 -1 -1 9 0 4 4 -1 20 4 0 5 17 8 3 1 1 3 3 5 2 4

0 3 22 -1 4 3 0 5 -1 -1 22 5 0 9 20 -1 -1 9 0 4 4 -1 20 4 0 5 17 8 3 1 1 3 3 5 2 4

0 3 22 -1 4 3 0 5 -1 -1 22 5 0 9 20 -1 -1 9 0 4 4 -1 20 4 0 5 17 8 3 1 1 3 3 5 2 4

Output
From 1 to 3 : Path: 1-->5-->4-->3 Total cost : 21

From 3 to 5 : Path: 3-->4-->5 Total cost : 16

From 2 to 4 : Path: 2-->1-->5-->4 Total cost : 17

From 1 to 3 : Path: 1-->5-->4-->3 Total cost : 21

From 3 to 5 : Path: 3-->4-->5 Total cost : 16

From 2 to 4 : Path: 2-->1-->5-->4 Total cost : 17

From 1 to 3 : Path: 1-->5-->4-->3 Total cost : 21

From 3 to 5 : Path: 3-->4-->5 Total cost : 16

From 2 to 4 : Path: 2-->1-->5-->4 Total cost : 17