图的数组表示法
借助一个二维数组表示图,该二维数组的第i行,第j列的值表示从Node[i]到Node[j]:
无向图(网):是否有边 / 权值,arr[i][j] == arr[j][i],无向图(网)的特性,矩阵关于对角线对称。
有向图(网):是否有弧 / 权值。
//图的数组表示法 //最大顶点个数
const int MAX_VERTEX = 100; //最大值
const int MAX_VALUE = (1 << 31) - 1; typedef struct _tagArcCell { int adj; //无向网,权值
char character; //顶点信息,字符
}ArcCell, ArcCell_ARRAY[MAX_VERTEX][MAX_VERTEX]; typedef struct _tagGraph { char vexs[MAX_VERTEX]; //顶点向量
ArcCell_ARRAY arcCellArray; //节点数组
int nodeNum; //顶点数
int edgeNum; //边数
}Graph;
//根据点,获取该点在图中的位置
int Locate(Graph& graph, char ch) { for (int i = 0; i < graph.nodeNum; ++ i) { if (ch == graph.vexs[i]) { return i; } } return -1; }
void CreateGraph(Graph& graph) { //初始化无向网的值
int num = 0; cout << "请输入图的顶点个数"; cin >> num; graph.nodeNum = num; cout << "请输入图的边数"; cin >> num; graph.edgeNum = num; cout << endl<<endl; cout<<"下面开始构造顶点向量"<<endl; for (int i = 0; i < graph.nodeNum; ++ i) { cout << "请输入每个顶点:"; char ch = 0; cin >> ch; graph.vexs[i] = ch; } cout << "\r\n顶点向量构造完毕\r\n\r\n"; cout << "下面开始初始化邻接矩阵\r\n"; for (int i = 0; i < graph.nodeNum; ++ i) { for (int j = 0; j < graph.nodeNum; ++ j) { graph.arcCellArray[i][j].adj = MAX_VALUE; } } cout << "\r\n邻接矩阵初始化完毕\r\n\r\n"; cout << "下面开始构造边,并为边分配权值\r\n"; for (int i = 0; i < graph.edgeNum; ++ i) { cout << "请先输入一个顶点:"; char ch = 0; cin >> ch; int nFrom = Locate(graph, ch); if (-1 == nFrom) { cout << "您输入的顶点不在此图上,请重新输入\r\n"; -- i; continue; } cout << "请输入另一个顶点:"; cin >> ch; int nTo = Locate(graph, ch); if (-1 == nTo) { cout << "您输入的顶点不在此图上,请重新输入本条边\r\n"; -- i; continue; } int adj = 0; cout << "请输入该边的权值:"; cin >> adj; graph.arcCellArray[nFrom][nTo].adj = graph.arcCellArray[nTo][nFrom].adj = adj; } cout <<endl<< "构造边和权值结束"<<endl<<endl; }
int _tmain(int argc, _TCHAR* argv[]) { Graph graph; CreateGraph(graph); return 0; }