Write a program to not only find the weighted shortest distances, but also count the number of different minimum paths from any vertex to a given source vertex in a digraph. It is guaranteed that all the weights are positive. Format of functions: void ShortestDist( MGraph Graph, int dist[], int count[], Vertex S ); where MGraph is defined as the following: typedef struct GNode *PtrToGNode; struct GNode{ int Nv; int Ne; WeightType G[MaxVertexNum][MaxVertexNum]; }; typedef PtrToGNode MGraph; The shortest distance from V to the source S is supposed to be stored in dist[V]. If V cannot be reached from S, store -1 instead. The number of different minimum paths from V to the source S is supposed to be stored in count[V] and count[S]=1. Sample program of judge: #include #include typedef enum {false, true} bool; #define INFINITY 1000000 #define MaxVertexNum 10 /* maximum number of vertices */ typedef int Vertex; /* vertices are numbered from 0 to MaxVertexNum-1 */ typedef int WeightType; typedef struct GNode *PtrToGNode; struct GNode{ int Nv; int Ne; WeightType G[MaxVertexNum][MaxVertexNum]; }; typedef PtrToGNode MGraph; MGraph ReadG(); /* details omitted */ void ShortestDist( MGraph Graph, int dist[], int count[], Vertex S ); int main() { int dist[MaxVertexNum], count[MaxVertexNum]; Vertex S, V; MGraph G = ReadG(); scanf(

where MGraph is defined as the following: typedef struct GNode *PtrToGNode; struct GNode{ int Nv; int Ne; WeightType G[MaxVertexNum][MaxVertexNum]; }; typedef PtrToGNode MGraph; The shortest distance from V to the source S is supposed to be stored in dist[V]. If V cannot be reached from S, store -1 instead. The number of different minimum paths from V to the source S is supposed to be stored in count[V] and count[S]=1.

Return the shortest path of any vertex to the given source vertex in a diagraph

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