From 5921efc83ef43b757897b3e2c34293ec532ed4aa Mon Sep 17 00:00:00 2001 From: PalAditya Date: Sun, 3 Jun 2018 23:14:13 +0530 Subject: [PATCH] Added the implementation of the so far missing Bellman-Ford algorithm. --- DataStructures/Graphs/BellmanFord.java | 158 +++++++++++++++++++++++++ 1 file changed, 158 insertions(+) create mode 100644 DataStructures/Graphs/BellmanFord.java diff --git a/DataStructures/Graphs/BellmanFord.java b/DataStructures/Graphs/BellmanFord.java new file mode 100644 index 00000000..717cb280 --- /dev/null +++ b/DataStructures/Graphs/BellmanFord.java @@ -0,0 +1,158 @@ +import java.util.*; +class BellmanFord +/*Implementation of Bellman ford to detect negative cycles. Graph accepts inputs in form of edges which have +start vertex, end vertes and weights. Vertices should be labelled with a number between 0 and total number of vertices-1,both inclusive*/ +{ + int vertex,edge; + private Edge edges[]; + private int index=0; + BellmanFord(int v,int e) + { + vertex=v; + edge=e; + edges=new Edge[e]; + } + class Edge + { + int u,v; + int w; + /** + *@param u Source Vertex + * @param v End vertex + * @param c Weight + */ + Edge(int a,int b,int c) + { + u=a; + v=b; + w=c; + } + } + /** + * @param p[] Parent array which shows updates in edges + * @param i Current vertex under consideration + */ + void printPath(int p[],int i) + { + if(p[i]==-1)//Found the path back to parent + return; + printPath(p,p[i]); + System.out.print(i+" "); + } + public static void main(String args[]) + { + BellmanFord obj=new BellmanFord(0,0);//Dummy object to call nonstatic variables + obj.go(); + } + public void go()//Interactive run for understanding the class first time. Assumes source vertex is 0 and shows distaance to all vertices + { + Scanner sc=new Scanner(System.in);//Grab scanner object for user input + int i,v,e,u,ve,w,j,neg=0; + System.out.println("Enter no. of vertices and edges please"); + v=sc.nextInt(); + e=sc.nextInt(); + Edge arr[]=new Edge[e];//Array of edges + System.out.println("Input edges"); + for(i=0;idist[arr[j].u]+arr[j].w) + { + dist[arr[j].v]=dist[arr[j].u]+arr[j].w;//Update + p[arr[j].v]=arr[j].u; + } + } + } + //Final cycle for negative checking + for(j=0;jdist[arr[j].u]+arr[j].w) + { + neg=1; + System.out.println("Negative cycle"); + break; + } + if(neg==0)//Go ahead and show results of computaion + { + System.out.println("Distances are: "); + for(i=0;idist[arr[j].u]+arr[j].w) + { + dist[arr[j].v]=dist[arr[j].u]+arr[j].w;//Update + p[arr[j].v]=arr[j].u; + } + } + } + //Final cycle for negative checking + for(j=0;jdist[arr[j].u]+arr[j].w) + { + neg=1; + System.out.println("Negative cycle"); + break; + } + if(neg==0)//Go ahead and show results of computaion + { + System.out.println("Distance is: "+dist[end]); + System.out.println("Path followed:"); + System.out.print(source+" "); + printPath(p,end); + System.out.println(); + } + } + /** + *@param x Source Vertex + * @param y End vertex + * @param z Weight + */ + public void addEdge(int x,int y,int z)//Adds unidirectionl Edge + { + edges[index++]=new Edge(x,y,z); + } + public Edge[] getEdgeArray() + { + return edges; + } +} \ No newline at end of file