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Stack-Repo / data /train /MrWe /bioAI /task2 /src /MST.java
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 import java.lang.reflect.Array;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.HashSet;
import java.util.PriorityQueue;
import java.util.concurrent.ExecutorService;
import java.util.concurrent.Executors;
class MST {
public static ArrayList<ArrayList<Node>> prim(ArrayList<Node> rootNodes, ArrayList<ArrayList<Node>> nodes, ArrayList<ArrayList<ArrayList<Edge>>> initedges, int numSegments) {
final ExecutorService executorService = Executors.newFixedThreadPool(Runtime.getRuntime().availableProcessors());
for (int i = 0; i < numSegments; i++) {
final int index = i;
executorService.execute(() -> {
rootNodes.get(index).setCost(0);
final PriorityQueue<Edge> pqueue = new PriorityQueue<>(addEdges(rootNodes.get(index), nodes, initedges));
while (!pqueue.isEmpty()) {
//Set current to best possible node in priority queue, comparison can be found i Node class
final Edge current = pqueue.poll();
nodes.get(current.getN1X()).get(current.getN1Y()).setClosed(true);
nodes.get(current.getN2X()).get(current.getN2Y()).setClosed(true);
pqueue.addAll(addEdges(nodes.get(current.getN1X()).get(current.getN1Y()), nodes, initedges));
pqueue.addAll(addEdges(nodes.get(current.getN2X()).get(current.getN2Y()), nodes, initedges));
}
});
}
executorService.shutdown();
while(!executorService.isTerminated()){}
return nodes;
}
private static ArrayList<ArrayList<Node>> addChildren(ArrayList<ArrayList<Node>> nodes) {
for (ArrayList<Node> row : nodes) {
for (Node node : row) {
if (node.getParent() != null) {
node.getParent().addChild(node);
}
}
}
return nodes;
}
private static double getG(Node current, Node neighbour) {
return Helpers.rgbDistance(current.getColor(), neighbour.getColor());
}
private static ArrayList<Edge> addEdges(Node node, ArrayList<ArrayList<Node>> nodes, ArrayList<ArrayList<ArrayList<Edge>>> initedges) {
final ArrayList<Edge> neighbourEdges = initedges.get(node.getX()).get(node.getY());
final ArrayList<Edge> edgesToReturn = new ArrayList<>();
for(final Edge e : neighbourEdges){
if(! (nodes.get(e.getN1X()).get(e.getN1Y()).isClosed() && (nodes.get(e.getN2X()).get(e.getN2Y()).isClosed()))){
edgesToReturn.add(e);
final Node child = nodes.get(e.getN2X()).get(e.getN2Y());
child.setParent(node);
child.setCost(e.getEdgeCost());
node.addChild(child);
}
}
return edgesToReturn;
/*
try {
final Node neighbour = nodes.get((int) node.getX()).get((int) (node.getY() - 1));
final double g = getG(node, neighbour);
final Edge edge = new Edge(node, neighbour, g);
if(!(node.isClosed() && neighbour.isClosed())){
neighbour.setParent(node);
node.addChild(neighbour);
neighbour.setCost(g);
edges.add(edge);
}
} catch (Exception ignored) {
}
try {
final Node neighbour = nodes.get((int) node.getX()).get((int) (node.getY() + 1));
final double g = getG(node, neighbour);
final Edge edge = new Edge(node, neighbour, g);
if(!(node.isClosed() && neighbour.isClosed())){
neighbour.setParent(node);
node.addChild(neighbour);
neighbour.setCost(g);
edges.add(edge);
}
} catch (Exception ignored) {
}
try {
final Node neighbour = nodes.get((int) node.getX()-1).get((int) (node.getY()));
final double g = getG(node, neighbour);
final Edge edge = new Edge(node, neighbour, g);
if(!(node.isClosed() && neighbour.isClosed())){
neighbour.setParent(node);
node.addChild(neighbour);
neighbour.setCost(g);
edges.add(edge);
}
} catch (Exception ignored) {
}
try {
final Node neighbour = nodes.get((int) node.getX()+1).get((int) (node.getY()));
final double g = getG(node, neighbour);
final Edge edge = new Edge(node, neighbour, g);
if(!(node.isClosed() && neighbour.isClosed())){
neighbour.setParent(node);
node.addChild(neighbour);
neighbour.setCost(g);
edges.add(edge);
}
} catch (Exception ignored) {
}
return edges;
*/
}
}