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programming-examples/java/Numerical_Problems/Java Program to Find Path B...

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/*
This is a java program find a path between two nodes in a graph if it exists.
Path exists between two nodes if there is a connectivity between them through other nodes.
A simple run of Breadth First Search will decide whether there is path between two given nodes or not.
*/
//This is a sample program to find the minimum wire length between two component in a electrical circuits
import java.util.*;
class Node
{
public int label; // this node's label (parent node in path tree)
public int weight; // weight of edge to this node (distance to start)
public Node(int v, int w)
{
label = v;
weight = w;
}
}
public class ShortestPath
{
public static Scanner in; // for standard input
public static int n, m; // n = #vertices, m = #edges
public static LinkedList[] graph; // adjacency list representation
public static int start, end; // start and end points for shortest path
public static void main(String[] args)
{
in = new Scanner(System.in);
// Input the graph:
System.out
.println("Enter the number of components and wires in a circuit:");
n = in.nextInt();
m = in.nextInt();
// Initialize adjacency list structure to empty lists:
graph = new LinkedList[n];
for (int i = 0; i < n; i++)
graph[i] = new LinkedList();
// Add each edge twice, once for each endpoint:
System.out
.println("Mention the wire between components and its length:");
for (int i = 0; i < m; i++)
{
int v1 = in.nextInt();
int v2 = in.nextInt();
int w = in.nextInt();
graph[v1].add(new Node(v2, w));
graph[v2].add(new Node(v1, w));
}
// Input starting and ending vertices:
System.out
.println("Enter the start and end for which length is to be minimized: ");
start = in.nextInt();
end = in.nextInt();
// FOR DEBUGGING ONLY:
displayGraph();
// Print shortest path from start to end:
shortest();
}
public static void shortest()
{
boolean[] done = new boolean[n];
Node[] table = new Node[n];
for (int i = 0; i < n; i++)
table[i] = new Node(-1, Integer.MAX_VALUE);
table[start].weight = 0;
for (int count = 0; count < n; count++)
{
int min = Integer.MAX_VALUE;
int minNode = -1;
for (int i = 0; i < n; i++)
if (!done[i] && table[i].weight < min)
{
min = table[i].weight;
minNode = i;
}
done[minNode] = true;
ListIterator iter = graph[minNode].listIterator();
while (iter.hasNext())
{
Node nd = (Node) iter.next();
int v = nd.label;
int w = nd.weight;
if (!done[v] && table[minNode].weight + w < table[v].weight)
{
table[v].weight = table[minNode].weight + w;
table[v].label = minNode;
}
}
}
for (int i = 0; i < n; i++)
{
if (table[i].weight < Integer.MAX_VALUE)
{
System.out.print("Wire from " + i + " to " + start
+ " with length " + table[i].weight + ": ");
int next = table[i].label;
while (next >= 0)
{
System.out.print(next + " ");
next = table[next].label;
}
System.out.println();
}
else
System.out.println("No wire from " + i + " to " + start);
}
}
public static void displayGraph()
{
for (int i = 0; i < n; i++)
{
System.out.print(i + ": ");
ListIterator nbrs = graph[i].listIterator(0);
while (nbrs.hasNext())
{
Node nd = (Node) nbrs.next();
System.out.print(nd.label + "(" + nd.weight + ") ");
}
System.out.println();
}
}
}
/*
Enter the number of components and wires in a circuit:
4 3
Mention the wire between components and its length:
0 1 2
1 3 3
1 2 2
Enter the start and end for which length is to be minimized:
0 1
0: 1(2)
1: 0(2) 3(3) 2(2)
2: 1(2)
3: 1(3)
Wire from 0 to 0 with length 0:
Wire from 1 to 0 with length 2: 0
Wire from 2 to 0 with length 4: 1 0
Wire from 3 to 0 with length 5: 1 0
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