/*
 *   (0)________>(2)
 *    |         /   \
 *    |        /     \
 *   (5)----(3)-----(4)
 */
TEST(DirectedBreadthFirstPathSearch, pathTo) {
    DirectedGraph graph {20};
    graph.addEdge(0, 2);
    graph.addEdge(2, 3);
    graph.addEdge(2, 4);
    graph.addEdge(3, 5);
    graph.addEdge(0, 5);
    const DirectedBreadthFirstPathSearch search (&graph, 0);
    Iterator<int>* it = search.pathTo(5);
    EXPECT_EQ(0, it->next());
    EXPECT_EQ(5, it->next());
    EXPECT_EQ(false, it->hasNext());
}
Ejemplo n.º 2
0
int main(){    
    DirectedGraph<int> g;
    g.addEdge(0, 1);
    g.addEdge(0, 2);
    g.addEdge(1, 2);
    g.addEdge(2, 0);
    g.addEdge(2, 3);
    g.addEdge(3, 3);
    if(cycleCheck(&g))cout<<"cyclic graph"<<endl;
    else cout<<"acyclic graph"<<endl;
    
    /*Create minimum spanning tree of unweighted graph
    Graph<int> g;
    g.addEdge(1, 0);
    g.addEdge(0, 2);
    g.addEdge(2, 1);
    g.addEdge(0, 3);
    g.addEdge(3, 4);
    minimumSpanningTree(&g);*/
    
    /* Find shortest path between two vertices
    Graph<int> g;
    g.addEdge(1, 0);
    g.addEdge(0, 2);
    g.addEdge(2, 1);
    g.addEdge(0, 3);
    g.addEdge(3, 4);
    shortestPath(&g, 1, 3);
    */
    
    /* Check if graph is bipartite
    Graph<int> g;
    g.addEdge(0,1);
    g.addEdge(1,2);
    g.addEdge(0,2);
    if(isBipartiteBFS(&g))cout<<"Bipartite"<<endl;
    else cout<<"Not bipartite"<<endl;
    if(isBipartiteDFS(&g))cout<<"Bipartite"<<endl;
    else cout<<"Not bipartite"<<endl;*/
    
    /* Print reverse topological order
    DirectedGraph<int> g;
    g.addEdge(5, 2);
    g.addEdge(5, 0);
    g.addEdge(4, 0);
    g.addEdge(4, 1);
    g.addEdge(2, 3);
    g.addEdge(3, 1);
    g.print();
    topologicalSort(&g);
    */
    /* Find path between two vertices
    Graph<int> g1;
    g1.addEdge(1, 0);
    g1.addEdge(0, 2);
    g1.addEdge(2, 0);
    g1.addEdge(0, 3);
    g1.addEdge(3, 4);
    
    Graph<int> g2;
    g2.addEdge(0, 1);
    g2.addEdge(1, 2);
    
    findPathDFS(&g1, 0, 4);
    */
    
    //check cycle in graph using DFS
    /*if(cycleCheckBFS(&g1))cout<<"Cycle is present"<<endl;
    else cout<<"Cycle is not present"<<endl;*/
    
    /*if(cycleCheckBFS(&g2))cout<<"Cycle is present"<<endl;
    else cout<<"Cycle is not present"<<endl;*/
 
    //check cycle in graph using DFS
    /*if(cycleCheckDFS(&g1))cout<<"Cycle is present"<<endl;
    else cout<<"Cycle is not present"<<endl;
    
    if(cycleCheckDFS(&g2))cout<<"Cycle is present"<<endl;
    else cout<<"Cycle is not present"<<endl;*/
 
    /*
    Graph<int> g;
    g.addEdge( 0, 1);
    g.addEdge( 0, 4);
    g.addEdge( 1, 2);
    g.addEdge( 1, 3);
    g.addEdge( 1, 4);
    g.addEdge( 2, 3);
    g.addEdge( 3, 4);
    */
    
    //Depth First Search
    //depthFirstSearch(&g);
    //cout<<endl;
    
    //Breadth First Search
    //breadthFirstSearch(&g);
    //cout<<endl;
    
    // Print graph line by line such that each line contains node and all of its neighbours
    //g.print();
     
    return 0;
}