CSC212 Lab 13 2014

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Revision as of 21:40, 17 November 2014 by Thiebaut (talk | contribs) (Problem #4: 6 degrees of Separation)
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--D. Thiebaut (talk) 11:19, 17 November 2014 (EST)



Problem #1: DFS


  • Create a new program called Graph1.java and copy the code from this page.
  • Implement the DFS function, with the main function calling a recursive helper function.


Question 1
Make your new DFS start with a vertex of your choice, and display all the vertices it visits. Below is an example of the output for G.DFS( 0 ).


DFS starting on 0: 0, 1, 2, 4, 3, 7, 8, 5, 6,


Question 2
Same question, but this time make DFS print the edges of the graph it visits. Below is an example of the output for G.DFS(0).


DFS starting on 0:
visiting Edge (0)---(1)
visiting Edge (1)---(2)
visiting Edge (1)---(4)
visiting Edge (4)---(3)
visiting Edge (3)---(7)
visiting Edge (7)---(8)
visiting Edge (1)---(5)
visiting Edge (5)---(6)



Problem #2: Connected Components


  • A graph is connected if there is a path from any vertex to any other vertex in the graph.
  • Create a new method called isConnected( ) that is based on DFS, and that returns true if the graph is connected, and false otherwise.
  • The graph created by the init1() method is connected. You will need to add a new method called, say, init2() that initializes the graph with several disconnected components. (Hints: You can probably remove some edges from the graph generated by init1() to get a graph with several components!)


Problem #3: GraphViz & Dot


  • Add a method to your graph that will print the graph in dot language, as we did with trees a while back.
  • Here's the dot version of the graph generated by init1():


graph G {
1 -- 0;
2 -- 1;
3 -- 0;
4 -- 1;
4 -- 3;
5 -- 1;
6 -- 5;
7 -- 3;
8 -- 4;
8 -- 7;
}


Lab13Graph1.png



Problem #4: 6 degrees of Separation

  • Have you ever heard of Kevin Bacon's degrees of separation? The idea is explained here.


  • Assume that we take 100 Hollywood stars and record the connections that they have had during the past year. This generates a graph shown below. Each number represents a Hollywood star. The list of stars and numbers is available here.


Hollywood100Graph.png

Problem #3


All-Pairs Shortest Paths