/** * Returns a random element of the specified arbitrary list. * * @param list the list to select a random element from; <i>cannot be <code>null</code> or * empty</i> * @return a random element of the specified list using the default random generator of {@link * RandomHelper} */ public static <T> T randomElementOf(final List<T> list) { if (null == list) { throw new IllegalArgumentException("Parameter list cannot be null."); } if (list.isEmpty()) { throw new IllegalArgumentException("Cannot return a random element from an empty list."); } return list.get(RandomHelper.nextIntFromTo(0, list.size() - 1)); }
public void infect() { GridPoint pt = grid.getLocation(this); List<Object> humans = new ArrayList<Object>(); for (Object obj : grid.getObjectsAt(pt.getX(), pt.getY())) { if (obj instanceof Human) { humans.add(obj); } } if (humans.size() > 0) { int index = RandomHelper.nextIntFromTo(0, humans.size() - 1); Object obj = humans.get(index); NdPoint spacePt = space.getLocation(obj); Context<Object> context = ContextUtils.getContext(obj); context.remove(obj); Zombie zombie = new Zombie(space, grid); context.add(zombie); space.moveTo(zombie, spacePt.getX(), spacePt.getY()); grid.moveTo(zombie, pt.getX(), pt.getY()); Network<Object> net = (Network<Object>) context.getProjection("infection network"); net.addEdge(this, zombie); } }
@ScheduledMethod(start = 1, interval = 1) public void step() { // create colNetwork in hosting context Context<Object> context = ContextUtils.getContext(this); Network<Object> colNet = (Network<Object>) context.getProjection("collaboration_network"); Network<Object> userNet = (Network<Object>) context.getProjection("user_network"); Network<Object> articleNet = (Network<Object>) context.getProjection("article_network"); if (!isDone) { /* * Neighbourhood Connection Algorithm */ // get the grid location of this User GridPoint pt = grid.getLocation(this); // use the GridCellNgh class to create GridCells for // the surrounding neighbourhood if (pt != null) { // TODO Why NULL? GridCellNgh<Article> nghCreator = new GridCellNgh<Article>( grid, pt, Article.class, neighbourDimensions, neighbourDimensions); List<GridCell<Article>> gridCells = nghCreator.getNeighborhood(false); SimUtilities.shuffle(gridCells, RandomHelper.getUniform()); // if an agent exist in the surrounding environment, add an edge with it. for (GridCell<Article> cell : gridCells) { if (cell.size() > 0) { List<Article> cellUsers = new ArrayList<Article>((Collection<Article>) cell.items()); articleToEdit = cellUsers.get((RandomHelper.nextIntFromTo(0, cellUsers.size() - 1))); if (context != null && colNet != null && cellUsers != null && articleToEdit != null) { if (!isActiveUser) { // Good Samaritan - one and only one connection if (colNet.getDegree(articleToEdit) <= 0 // if neighbour is unconnected && colNet.getDegree(this) <= 0) { // if our agent is unconnected) colNet.addEdge(this, articleToEdit); this.isDone = true; // this good samaritan is no longer counted in operating agents } } else if (!hasGeneralInterest) { // Project Leader zealot (active user), colNet.addEdge(this, articleToEdit); // connects neighbours in every step for (Object coopUser : colNet.getAdjacent(articleToEdit)) { if (coopUser != null && !userNet.containsEdge(userNet.getEdge(this, coopUser))) { userNet.addEdge(this, coopUser); } } for (Object relatedArticle : colNet.getAdjacent(this)) { if (relatedArticle != null && !articleNet.containsEdge(userNet.getEdge(articleToEdit, relatedArticle))) { articleNet.addEdge(articleToEdit, relatedArticle); } } } // For active agent connection algorithm we need to update good article array if found if (colNet.getDegree(articleToEdit) > (goodArticleMultiplier * colNet.getDegree() / colNet.size()) && colNet.getDegree(articleToEdit) > goodArticleConnectionCount && !articleToEdit.isGood) { articleToEdit.isGood = true; goodArticles.add(articleToEdit); } } break; } } } /* * Active Agent Connection Algorithm */ if (isActiveUser && hasGeneralInterest && goodArticles.size() > 0) { // if in administrator career path articleToEdit = goodArticles.get(RandomHelper.nextIntFromTo(0, goodArticles.size() - 1)); colNet.addEdge(this, articleToEdit); // TODO reduce goodArticles by one? for (Object coopUser : colNet.getAdjacent(articleToEdit)) { if (coopUser != null && !userNet.containsEdge(userNet.getEdge(this, coopUser))) { userNet.addEdge(this, coopUser); } } for (Object relatedArticle : colNet.getAdjacent(this)) { if (relatedArticle != null && !articleNet.containsEdge(userNet.getEdge(articleToEdit, relatedArticle))) { articleNet.addEdge(articleToEdit, relatedArticle); } } goodArticles.remove(0); } this.endRun(); } }