用邻接矩阵实现的深度优先遍历和广度优先遍历

  1 #include <stdio.h>
  2 #include <stdlib.h>
  3 #include <queue>
  4 #include <algorithm>
  5 using namespace std;
  6 
  7 #define ERROR -1
  8 #define MAXVEX 100      
  9 
 10 typedef int VertexType;
 11 typedef int VRType;
 12 typedef int EdgeType;
 13 bool visited[MAXVEX];    //访问标志数组
 14 
 15 typedef struct ArcCell
 16 {
 17     VRType adj;
 18 }ArcCell, AdjMatrix[MAXVEX][MAXVEX];
 19 
 20 typedef struct
 21 {
 22     VertexType vexs[MAXVEX];    //顶点向量
 23     AdjMatrix arcs;    //邻接矩阵
 24     int vexnum;        //顶点数
 25     int arcnum;        //边数
 26 }MGraph;
 27 
 28 /********* 按照顶点的信息找下表 ********/
 29 int LocateVex(MGraph G, int v){
 30     int i;
 31     for (i = 0; i < G.vexnum; ++i){
 32         if (G.vexs[i] == v)        //找到相匹配的
 33             break;
 34     }
 35     if (i<G.vexnum)        //如果存在就返回该下标
 36         return i;
 37     else
 38         return ERROR;    //否则返回错误
 39 }
 40 
 41 /********* 进行深搜 *********/
 42 void DFS(MGraph G, int i)
 43 {
 44     int j;
 45     visited[i] = true;    //标记为访问过
 46     printf("%d ", G.vexs[i]);    //打印出该顶点的名字
 47     for (j = 0; j<G.vexnum; j++)
 48     if (G.arcs[i][j].adj == 1 && !visited[j])
 49         DFS(G, j);
 50 }
 51 
 52 /********* 开始对图进行遍历 *********/
 53 void DFSTraverse(MGraph G)
 54 {
 55     int i;
 56     for (i = 0; i<G.vexnum; i++)
 57         visited[i] = false;
 58     for (i = 0; i<G.vexnum; i++)
 59     if (!visited[i])
 60         DFS(G, i);
 61 }
 62 
 63 /********* 建图 *********/
 64 void SetGraph(MGraph &G){
 65     printf("请输入图的顶点数目: ");
 66     scanf("%d", &G.vexnum);
 67     for (int i = 0; i<G.vexnum; ++i)
 68     {
 69         printf("请输入第%d个顶点信息：", i + 1);
 70         scanf("%d", &G.vexs[i]);
 71     }
 72     printf("请输入图的边的数目: ");
 73     scanf("%d", &G.arcnum);
 74     //将矩阵进行初始化
 75     for (int i = 0; i < G.vexnum; i++){
 76         for (int j = 0; j < G.vexnum; j++){
 77             G.arcs[i][j].adj = 0;
 78         }
 79     }
 80     printf("输入格式为“顶点a 顶点b”
");
 81     for (int k = 0; k < G.arcnum; ++k)
 82     {
 83         int v1, v2, m, n;
 84         printf("请输入第 %d 条边的起始点和终端点: ", k + 1);
 85         scanf("%d%d", &v1, &v2);
 86         m = LocateVex(G, v1);    //找出所对应的下标
 87         n = LocateVex(G, v2);
 88         if (m >= 0 && n >= 0)    //满足情况的话
 89         {
 90             G.arcs[m][n].adj = 1;    //n--m 之间存在边
 91             G.arcs[n][m].adj = 1;
 92         }
 93         else
 94             printf("输入错误!
");
 95     }
 96 }
 97 
 98 /******** 广搜 ********/
 99 void BFS(MGraph G, int i){
100     queue<int>q;
101     while (!q.empty()){
102         q.pop();
103     }
104     q.push(i);
105     while (!q.empty()){
106         int u = q.front();
107         q.pop();
108         if (visited[u])
109             continue;
110         printf("%d ", G.vexs[u]);
111         visited[u] = true;
112         for (int j = 0; j < G.vexnum; j++){
113             if (G.arcs[i][j].adj == 1 && !visited[j])
114                 q.push(j);
115         }
116     }
117 }
118 
119 /******** 进行广搜 *******/
120 void BFSTraverse(MGraph G){
121     for (int i = 0; i < G.vexnum; i++){
122         visited[i] = false;
123     }
124     for (int i = 0; i<G.vexnum; i++)
125     if (!visited[i])
126         BFS(G, i);
127 }
128 
129 int main()
130 {
131     MGraph G;
132     SetGraph(G);
133     DFSTraverse(G);
134     printf("



");
135     BFSTraverse(G);
136     printf("
");
137     return 0;
138 }