可以使用DFS找出给定有向图的弱连接或强连接。这是此问题的C ++程序。
Begin Function fillorder() = fill stack with all the vertices. a) Mark the current node as visited and print it b) 为与该顶点相邻的所有顶点递归 c) All vertices reachable from v are processed by now, push v to Stack End Begin Function DFS() : a) Mark the current node as visited and print it b) 为与该顶点相邻的所有顶点递归 End
#include <iostream> #include <list> #include <stack> using namespace std; class G { int m; list<int> *adj; //功能声明 void fillOrder(int n, bool visited[], stack<int> &Stack); void DFS(int n, bool visited[]); public: G(int N); //constructor void addEd(int v, int w); int print(); G getTranspose(); }; G::G(int m) { this->m = m; adj = new list<int> [m]; } void G::DFS(int n, bool visited[]) { visited[n] = true; // Mark the current node as visited and print it cout << n << " "; list<int>::iterator i; //为与该顶点相邻的所有顶点递归 for (i = adj[n].begin(); i != adj[n].end(); ++i) if (!visited[*i]) DFS(*i, visited); } G G::getTranspose() { G g(m); for (int n = 0; n< m; n++) { list<int>::iterator i; for (i = adj[n].begin(); i != adj[n].end(); ++i) { g.adj[*i].push_back(n); } } return g; } void G::addEd(int v, int w) { adj[v].push_back(w); //add w to v's list } void G::fillOrder(int v, bool visited[], stack<int> &Stack) { visited[v] = true; //Mark the current node as visited and print it list<int>::iterator i; //为与该顶点相邻的所有顶点递归 for (i = adj[v].begin(); i != adj[v].end(); ++i) if (!visited[*i]) fillOrder(*i, visited, Stack); Stack.push(v); } int G::print() //print the solution { stack<int> Stack; bool *visited = new bool[m]; for (int i = 0; i < m; i++) visited[i] = false; for (int i = 0; i < m; i++) if (visited[i] == false) fillOrder(i, visited, Stack); G graph = getTranspose(); //Create a reversed graph for (int i = 0; i < m; i++)//Mark all the vertices as not visited visited[i] = false; int count = 0; //定义的顺序处理所有顶点 while (Stack.empty() == false) { int v = Stack.top(); Stack.pop(); //pop vertex from stack if (visited[v] == false) { graph.DFS(v, visited); cout << endl; } count++; } return count; } int main() { G g(5); g.addEd(2, 1); g.addEd(3, 2); g.addEd(1, 0); g.addEd(0, 3); g.addEd(3, 1); cout << "Following are strongly connected components in given graph \n"; if (g.print() > 1) { cout << "图是弱连接。"; } else { cout << "图已牢固连接。"; } return 0; }
输出结果
Following are strongly connected components in given graph 4 0 1 2 3 图是弱连接。