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I'm a student and me and my team have to make a simulation of student's behaviour in a campus (like making "groups of friends") walking etc. For finding path that student has to go, I used A* algorithm (as I found out that its one of fastest path-finding algorithms). Unfortunately our simulation doesn't run fluently (it takes like 1-2 sec between successive iterations). I wanted to optimize the algorithm but I don't have any idea what I can do more. Can you guys help me out and share with me information if its possible to optimize my A* algorithm? Here goes code:

  public LinkedList<Field> getPath(Field start, Field exit) {


    LinkedList<Field> foundPath = new LinkedList<Field>();
    LinkedList<Field> opensList= new LinkedList<Field>();
    LinkedList<Field> closedList= new LinkedList<Field>();
    Hashtable<Field, Integer> gscore = new Hashtable<Field, Integer>();
    Hashtable<Field, Field> cameFrom = new Hashtable<Field, Field>();
    Field x = new Field();
    gscore.put(start, 0);
    opensList.add(start);
    while(!opensList.isEmpty()){

        int min = -1;
        //searching for minimal F score
        for(Field f : opensList){
            if(min==-1){
                min = gscore.get(f)+getH(f,exit);
                x = f;
            }else{
                int currf = gscore.get(f)+getH(f,exit);
                if(min > currf){
                    min = currf;
                    x = f;
                }
            }
        }
        if(x == exit){
            //path reconstruction
            Field curr = exit;
            while(curr != start){
                foundPath.addFirst(curr);
                curr = cameFrom.get(curr);
            }
            return foundPath;
        }
        opensList.remove(x);
        closedList.add(x);
        for(Field y : x.getNeighbourhood()){
            if(!(y.getType()==FieldTypes.PAVEMENT ||y.getType() == FieldTypes.GRASS) || closedList.contains(y) || !(y.getStudent()==null))
                            {
                continue;
            }
            int tentGScore = gscore.get(x) + getDist(x,y);
            boolean distIsBetter = false;
            if(!opensList.contains(y)){
                opensList.add(y);
                distIsBetter = true;
            }else if(tentGScore < gscore.get(y)){
                distIsBetter = true;
            }
            if(distIsBetter){
                cameFrom.put(y, x);
                gscore.put(y, tentGScore);
            }               
        }
    }

    return foundPath;
}

 private int getH(Field start, Field end){
    int x;
    int y;
    x = start.getX()-end.getX();
    y = start.getY() - end.getY();
    if(x<0){
        x = x* (-1);
    }
    if(y<0){
        y = y * (-1);
    }
    return x+y;
}
private int getDist(Field start, Field end){
    int ret = 0;
    if(end.getType() == FieldTypes.PAVEMENT){
        ret = 8;
    }else if(start.getX() == end.getX() || start.getY() == end.getY()){
        ret = 10;
    }else{
        ret = 14;
    }

    return ret;
}

//EDIT

This is what i got from jProfiler:

jProfiler

So getH is a bottlneck yes? Maybe remembering H score of field would be a good idea?

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3  
First pass woult be to profile the code and find what instructions take too much time. Most Java IDEs (Eclipse, Netbeans etc.) come with a profiler. You can also try VisualVM. –  Stefano Sanfilippo Jan 16 at 12:12
1  
You should consider to use UnitTest to verifiy everthing works, before optimizing. I think your code has >1 Bug, in getDist(..) -> start.getX() == end.getY() should it be start.getY() ? –  Chriss Jan 16 at 12:21
    
@StefanoSanfilippo I will try to use a profiler, but I have to learn how to use it, but I will share resoults as I get some, thanks for idea :). –  Bartosz Wyględacz Jan 16 at 12:30
    
@Chriss Yes, you are right, my mistake. I was testing algorithm and it was giving me good resoults, but now i see I have to check if everything is ok again, thanks :) –  Bartosz Wyględacz Jan 16 at 12:31
1  
java-performance.info/java-collections-overview this page may help you to choose more efficent collections, but like other sad, you must find the bottleneck first –  Chriss Jan 16 at 12:39

5 Answers 5

up vote 3 down vote accepted

A linked list is not a good data structure for the open set. You have to find the node with the smallest F from it, you can either search through the list in O(n) or insert in sorted position in O(n), either way it's O(n). With a heap it's only O(log n). Updating the G score would remain O(n) (since you have to find the node first), unless you also added a HashTable from nodes to indexes in the heap.

A linked list is also not a good data structure for the closed set, where you need fast "Contains", which is O(n) in a linked list. You should use a HashSet for that.

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wow, changing closeList to hashset made pathfinding like 2x faster! Thanks for advice :D –  Bartosz Wyględacz Jan 16 at 16:41

You can optimize the problem by using a different algorithm, the following page illustrates and compares many different aglorihms and heuristics:

  • A*
  • IDA*
  • Djikstra
  • JumpPoint
  • ...

http://qiao.github.io/PathFinding.js/visual/ enter image description here

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From your implementation it seems that you are using naive A* algorithm. Use following way:-

  1. A* is algorithm which is implemented using priority queue similar to BFS.

  2. Heuristic function is evaluated at each node to define its fitness to be selected as next node to be visited.

  3. As new node is visited its neighboring unvisited nodes are added into queue with its heuristic values as keys.

  4. Do this till every heuristic value in the queue is less than(or greater) calculated value of goal state.

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A priority queue is the way to go. You'll need to add a backtracking mechanism to algorithm as even with a priority queue the heuristics can lead the path up a dead-end. –  Tim Child Jan 19 at 17:53
    
@TimChild I donot think there is a need for backtracking here because A* considers all possibilities at same time if you reach a dead end you can always take another open node in the queue. –  Vikram Bhat Jan 19 at 18:07
    
But which alternate node? How far deep do need to look into the priority queue for find a suitable node? –  Tim Child Jan 19 at 23:35
    
@TimChild You just need to get the next best node from the queue and continue. There is no backtracking required. Here is wiki page with pseudo code where you can see there is no backtracking used -en.wikipedia.org/wiki/A*_search_algorithm –  Vikram Bhat Jan 20 at 5:52
  1. Find bottlenecks of your implementation using profiler . ex. jprofiler is easy to use
  2. Use threads in areas where algorithm can run simultaneously.
  3. Profile your JavaVM to run faster. Allocate more RAM
share|improve this answer
    
Is it a good idea to use another thread for each finding path (one thread for one finding path in iteration)? Since there are many students on a map, and many of them have to find path. –  Bartosz Wyględacz Jan 16 at 12:49
    
@BartoszWyględacz It's good idea put each Student in ThreadPool –  Igor S. Jan 17 at 17:19

a) As mentioned, you should use a heap in A* - either a basic binary heap or a pairing heap which should be theoretically faster.

b) In larger maps, it always happens that you need some time for the algorithm to run (i.e., when you request a path, it will simply have to take some time). What can be done is to use some local navigation algorithm (e.g., "run directly to the target") while the path computes.

c) If you have reasonable amount of locations (e.g., in a navmesh) and some time at the start of your code, why not to use Floyd-Warshall's algorithm? Using that, you can the information where to go next in O(1).

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