RSS feed
[root]
/
graphexample
/
statespace
/
search
/
src
/
ai
/
document
login:
password:
title search:
Search this site
Enter your search terms
Web
www.carfield.com.hk
Submit search form
Prev
Next
Sun Jan 20 16:00:00 GMT 2002
BreadthFirstSearch
public class BreadthFirstSearch extends AbstractGraphSearch { /** findPath - abstract method in super class */ public int [] findPath(int start_node, int goal_node) { // return an array of node indices System.out.println("Entered BreadthFirstSearch.findPath(" + start_node + ", " + goal_node + ")"); // data structures for depth first search: boolean [] alreadyVisitedFlag = new boolean[numNodes]; int [] predecessor = new int[numNodes]; IntQueue queue = new IntQueue(numNodes + 2); for (int i=0; i<numNodes; i++) { alreadyVisitedFlag[i] = false; predecessor[i] = -1; } alreadyVisitedFlag[start_node] = true; queue.addToBackOfQueue(start_node); outer: while (queue.isEmpty() == false) { int head = queue.peekAtFrontOfQueue(); int [] connected = connected_nodes(head); if (connected != null) { for (int i=0; i<connected.length; i++) { if (alreadyVisitedFlag[connected[i]] == false) { predecessor[connected[i]] = head; queue.addToBackOfQueue(connected[i]); if (connected[i] == goal_node) break outer; // we are done } } alreadyVisitedFlag[head] = true; queue.removeFromQueue(); // ignore return value } } // now calculate the shortest path from the predecessor array: int [] ret = new int[numNodes + 1]; int count = 0; ret[count++] = goal_node; for (int i=0; i<numNodes; i++) { ret[count] = predecessor[ret[count - 1]]; count++; if (ret[count - 1] == start_node) break; // back to starting node } int [] ret2 = new int[count]; for (int i=0; i<count; i++) { ret2[i] = ret[count - 1 - i]; } return ret2; } protected class IntQueue { public IntQueue(int num) { queue = new int[num]; head = tail = 0; len = num; } public IntQueue() { this(400); } private int [] queue; int tail, head, len; public void addToBackOfQueue(int n) { queue[tail] = n; if (tail >= (len - 1)) { tail = 0; } else { tail++; } } public int removeFromQueue() { int ret = queue[head]; if (head >= (len - 1)) { head = 0; } else { head++; } return ret; } public boolean isEmpty() { return head == (tail + 1); } public int peekAtFrontOfQueue() { return queue[head]; } } protected int [] connected_nodes(int node) { int [] ret = new int[AbstractGraphSearch.MAX]; int num = 0; for (int n=0; n<numNodes; n++) { boolean connected = false; // See if there is a link between node 'node' and 'n': for (int i=0; i<numLinks; i++) { if (link_1[i] == node) { if (link_2[i] == n) { connected = true; break; } } if (link_2[i] == node) { if (link_1[i] == n) { connected = true; break; } } } if (connected) { ret[num++] = n; } } if (num == 0) return null; int [] ret2 = new int[num]; for (int i=0; i<num; i++) { ret2[i] = ret[i]; } return ret2; } }
(google search)
(amazon search)
1
2
3
second
download zip of files only
Prev
Next