I want to find the next shortest path between 2 vertices in a graph and the path has a positive cost.The next shortest path is allowed to share edges of the shortest path .Which algorithm can I use?

I doubt this is optimal in terms of running time but:
The secondshortest path can't go through all edges in P, but it could go through all but one of them, potentially. I assume by "secondshortest" that you don't use edges more than once, otherwise the secondshortest path could contain P. 


Use the Kshortest path algorithm, where k=2 for you, some sample reference: Finding the k shortest paths. D. Eppstein. 35th IEEE Symp. Foundations of Comp. Sci., Santa Fe, 1994, pp. 154165. Tech. Rep. 9426, ICS, UCI, 1994. SIAM J. Computing 28(2):652673, 1998. 


Use the shortest path algorithm to find the shortest path, P. You then can view this problem as a constraint satisfaction problem (where the constraint is "the shortest path which is not P") and, use a backtracking algorithm to find the shortest path which is not the shortest path you already found. 


One way is to use FloydWarshall's algorithm to find all pairs shortest path and then testing all intermediate edges is a sure  but perhaps not optimal way  to solve this. Here's a great explanation http://hatemabdelghani.wordpress.com/2009/07/04/secondshortestpath/ 


This answer assumes you are looking for the edgedisjoint second shortest path, which means the second shortest path cannot share any common edges with the shortest path. Recall that the maximum flow in a network between two nodes So this problem only has a solution if the max flow between your two nodes is > 1, where each edge has a capacity of 1. If it does, find two augmenting paths as described in the EdmondsKarp algorithm, and the second one is your second shortest. See this problem and this solution to it (The description is in Chinese. I can't translate it, and babelfish can't really do it either, but won't admit it. The code is easy to follow though) for an example. 


This is assuming you can reuse edges and nodes: A straightfoward solution is do make an extension of the Djikstra Algorithm.
(I might be missing some important details but the basic idea is here...) 

