#include
#include
#include
#define NUM 7
typedef struct MGraph /* 邻接表存储结构 */
{
int edges[NUM][NUM];
int n,e;
} MGraph;
MGraph *build_mgraph();
void Dijkstra(MGraph *mgraph, int v);
void Dispath(int dis[],int pre[],int visited[], int n, int v);
void Ppath(int path[], int i, int v);
int main(void)
{
MGraph *mgraph;
printf("\n*************************************************************\n");
printf("该图的矩阵表示为:\n");
mgraph=build_mgraph();
printf("\n*************************************************************\n");
printf("dijkstra 算法:\n");
Dijkstra(mgraph,0);
printf("\n*************************************************************\n");
return 0;
}
MGraph *build_mgraph()
{
int i,j;
int num_e=0;
MGraph *mgraph=(MGraph *)malloc(sizeof(MGraph));
int matrix[NUM][NUM]={{0,4,6,6,INT_MAX,INT_MAX,INT_MAX},
{INT_MAX,0,1,INT_MAX,7,INT_MAX,INT_MAX},
{INT_MAX,INT_MAX,0,INT_MAX,6,4,INT_MAX},
{INT_MAX,INT_MAX,2,0,INT_MAX,5,INT_MAX},
{INT_MAX,INT_MAX,INT_MAX,INT_MAX,0,INT_MAX,6},
{INT_MAX,INT_MAX,INT_MAX,INT_MAX,1,0,8},
{INT_MAX,INT_MAX,INT_MAX,INT_MAX,INT_MAX,INT_MAX,0}};
for(i=0;iedges[i][j]=matrix[i][j];
if(matrix[i][j]!=0 && matrix[i][j]!=INT_MAX)
num_e++;
}
}
mgraph->n=NUM;
mgraph->e=num_e;
printf("node=%d;edges=%d\n",mgraph->n,mgraph->e);
for(i=0;iedges[i][j]!=INT_MAX)
printf("%3d",mgraph->edges[i][j]);
else
printf("%3c",'&');
}
printf("\n");
}
return mgraph;
}
void Dijkstra(MGraph *mgraph, int v)
{
int i,j;
int no;
int min_dis;
int dis[NUM];
int visited[NUM]={0};
int pre[NUM];
visited[v]=1;
for(i=0;in;i++)
{
dis[i]=mgraph->edges[v][i];
pre[i]=v;
}
for(i=0;in;i++)
{
min_dis=INT_MAX;
for(j=0;jn;j++)
{
if(!visited[j] && dis[j]n;j++)
{
if(!visited[j] && mgraph->edges[no][j]!=INT_MAX && dis[no]+mgraph->edges[no][j] < dis[j])
{
dis[j]=dis[no]+mgraph->edges[no][j];
pre[j]=no;
}
}
}
Dispath(dis,pre,visited,mgraph->n,v);
}
void Dispath(int dis[],int pre[],int visited[], int n, int v)
{
int i;
for(i=0;i
