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179 lines
4.5 KiB
Java
179 lines
4.5 KiB
Java
/*
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This is a java program In graph theory, a connected component (or just component) of an undirected graph is a subgraph in which any two vertices are connected to each other by paths, and which is connected to no additional vertices in the supergraph. A graph that is itself connected has exactly one connected component, consisting of the whole graph.*/
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import java.util.LinkedList;
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import java.util.Queue;
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import java.util.Scanner;
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class CCGraph
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{
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static final int MAXV = 100;
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static final int MAXDEGREE = 50;
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public int edges[][] = new int[MAXV + 1][MAXDEGREE];
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public int degree[] = new int[MAXV + 1];
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public int nvertices;
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public int nedges;
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CCGraph()
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{
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nvertices = nedges = 0;
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for (int i = 1; i <= MAXV; i++)
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degree[i] = 0;
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}
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void read_CCGraph(boolean directed)
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{
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int x, y;
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Scanner sc = new Scanner(System.in);
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System.out.println("Enter the number of vertices: ");
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nvertices = sc.nextInt();
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System.out.println("Enter the number of edges: ");
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int m = sc.nextInt();
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System.out.println("Enter the edges: <from> <to>");
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for (int i = 1; i <= m; i++)
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{
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x = sc.nextInt();
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y = sc.nextInt();
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insert_edge(x, y, directed);
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}
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sc.close();
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}
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void insert_edge(int x, int y, boolean directed)
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{
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if (degree[x] > MAXDEGREE)
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System.out.printf(
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"Warning: insertion (%d, %d) exceeds max degree\n", x, y);
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edges[x][degree[x]] = y;
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degree[x]++;
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if (!directed)
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insert_edge(y, x, true);
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else
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nedges++;
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}
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void print_CCGraph()
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{
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for (int i = 1; i <= nvertices; i++)
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{
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System.out.printf("%d: ", i);
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for (int j = degree[i] - 1; j >= 0; j--)
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System.out.printf(" %d", edges[i][j]);
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System.out.printf("\n");
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}
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}
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}
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public class ConnectedComponents
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{
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static final int MAXV = 100;
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static boolean processed[] = new boolean[MAXV];
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static boolean discovered[] = new boolean[MAXV];
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static int parent[] = new int[MAXV];
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static void bfs(CCGraph g, int start)
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{
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Queue<Integer> q = new LinkedList<Integer>();
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int i, v;
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q.offer(start);
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discovered[start] = true;
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while (!q.isEmpty())
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{
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v = q.remove();
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process_vertex(v);
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processed[v] = true;
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for (i = g.degree[v] - 1; i >= 0; i--)
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{
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if (!discovered[g.edges[v][i]])
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{
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q.offer(g.edges[v][i]);
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discovered[g.edges[v][i]] = true;
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parent[g.edges[v][i]] = v;
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}
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}
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}
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}
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static void initialize_search(CCGraph g)
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{
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for (int i = 1; i <= g.nvertices; i++)
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{
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processed[i] = discovered[i] = false;
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parent[i] = -1;
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}
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}
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static void process_vertex(int v)
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{
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System.out.printf(" %d", v);
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}
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static void connected_components(CCGraph g)
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{
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int c;
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initialize_search(g);
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c = 0;
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for (int i = 1; i <= g.nvertices; i++)
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{
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if (!discovered[i])
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{
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c++;
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System.out.printf("Component %d:", c);
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bfs(g, i);
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System.out.printf("\n");
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}
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}
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}
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static public void main(String[] args)
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{
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CCGraph g = new CCGraph();
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g.read_CCGraph(false);
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g.print_CCGraph();
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connected_components(g);
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}
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}
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/*
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Enter the number of vertices:
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6
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Enter the number of edges:
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7
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Enter the edges: <from> <to>
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1 2
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2 3
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2 4
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4 5
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5 6
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6 3
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6 4
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1: 2
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2: 4 3 1
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3: 6 2
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4: 6 5 2
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5: 6 4
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6: 4 3 5
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Component 1: 1 2 4 3 6 5
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Enter the number of vertices:
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6
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Enter the number of edges:
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7
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Enter the edges: <from> <to>
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1 2
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1 4
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1 3
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2 3
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5 6
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6 5
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4 3
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1: 3 4 2
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2: 3 1
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3: 4 2 1
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4: 3 1
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5: 6 6
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6: 5 5
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Component 1: 1 3 4 2
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Component 2: 5 6 |