import java.awt.Color; import java.awt.Graphics2D; import java.awt.RenderingHints; import java.awt.image.BufferedImage; import java.awt.image.WritableRaster; import java.io.File; import java.io.FileInputStream; import java.io.FileNotFoundException; import java.io.FileOutputStream; import java.io.IOException; import java.io.OutputStreamWriter; import java.io.UnsupportedEncodingException; import java.io.Writer; import java.util.Collection; import java.util.Comparator; import java.util.HashMap; import java.util.HashSet; import java.util.Iterator; import java.util.LinkedList; import java.util.List; import java.util.ListIterator; import java.util.NoSuchElementException; import java.util.Scanner; import java.util.Vector; import java.util.logging.Level; import java.util.logging.Logger; import javax.imageio.ImageIO; public class MapManager extends Thread { protected static final Logger log = Logger.getLogger("Minecraft"); /* dimensions of a map tile */ public static final int tileWidth = 128; public static final int tileHeight = 128; /* (logical!) dimensions of a zoomed out map tile * must be twice the size of the normal tile */ public static final int zTileWidth = 256; public static final int zTileHeight = 256; /* lock for our data structures */ public static final Object lock = new Object(); /* a hash table of known MapTiles, by their key (projection coords) */ private HashMap tileStore; /* a list of MapTiles to be updated */ private LinkedList staleTiles; /* whether the worker thread should be running now */ private boolean running = false; /* map x, y, z for projection origin */ public static final int anchorx = 0; public static final int anchory = 127; public static final int anchorz = 0; /* color database: id -> Color */ public HashMap colors = null; /* path to colors.txt */ private String colorsetpath = "colors.txt"; /* path to image tile directory */ public String tilepath = "tiles/"; /* path to signs file */ public String signspath = "signs.txt"; /* port to run web server on */ public int serverport = 8123; /* time to pause between rendering tiles (ms) */ public int renderWait = 500; /* remember up to this old tile updates (ms) */ private static final int maxTileAge = 60000; /* this list stores the tile updates */ public LinkedList tileUpdates = null; /* map debugging mode (send debugging messages to this player) */ public String debugPlayer = null; /* hashmap of signs */ public HashMap signs = null; /* cache this many zoomed-out tiles */ public static final int zoomCacheSize = 64; /* zoomed-out tile cache */ public Cache zoomCache; /* data source */ public String datasource = "flatfile"; /* which markers to show (spawn,homes,warps,signs,players,all,none) */ public String showmarkers = "all"; /* booleans designating what to show on the map */ public Boolean showSpawn = false; public Boolean showHomes = false; public Boolean showWarps = false; public Boolean showSigns = false; public Boolean showPlayers = false; public void debug(String msg) { if(debugPlayer == null) return; Server s = etc.getServer(); Player p = s.getPlayer(debugPlayer); if(p == null) return; p.sendMessage("Map> " + Colors.Red + msg); } public MapManager() { /* load configuration */ PropertiesFile properties; properties = new PropertiesFile("server.properties"); try { tilepath = properties.getString("map-tilepath", "tiles/"); colorsetpath = properties.getString("map-colorsetpath", "colors.txt"); signspath = properties.getString("map-signspath", "signs.txt"); serverport = Integer.parseInt(properties.getString("map-serverport", "8123")); datasource = properties.getString("data-source", "flatfile"); showmarkers = properties.getString("map-showmarkers", "all"); } catch(Exception ex) { log.log(Level.SEVERE, "Exception while reading properties for dynamic map", ex); } tileStore = new HashMap(); staleTiles = new LinkedList(); tileUpdates = new LinkedList(); zoomCache = new Cache(zoomCacheSize); signs = new HashMap(); loadShowOptions(); } /* tile X for position x */ static int tilex(int x) { if(x < 0) return x - (tileWidth + (x % tileWidth)); else return x - (x % tileWidth); } /* tile Y for position y */ static int tiley(int y) { if(y < 0) return y - (tileHeight + (y % tileHeight)); else return y - (y % tileHeight); } /* zoomed-out tile X for tile position x */ static int ztilex(int x) { if(x < 0) return x + x % zTileWidth; else return x - (x % zTileWidth); } /* zoomed-out tile Y for tile position y */ static int ztiley(int y) { if(y < 0) return y + y % zTileHeight; //return y - (zTileHeight + (y % zTileHeight)); else return y - (y % zTileHeight); } /* initialize and start map manager */ public void startManager() { colors = new HashMap(); /* load colorset */ File cfile = new File(colorsetpath); loadSigns(); try { Scanner scanner = new Scanner(cfile); int nc = 0; while(scanner.hasNextLine()) { String line = scanner.nextLine(); if (line.startsWith("#") || line.equals("")) { continue; } String[] split = line.split("\t"); if (split.length < 17) { continue; } Integer id = new Integer(split[0]); Color[] c = new Color[4]; /* store colors by raycast sequence number */ c[0] = new Color(Integer.parseInt(split[1]), Integer.parseInt(split[2]), Integer.parseInt(split[3]), Integer.parseInt(split[4])); c[3] = new Color(Integer.parseInt(split[5]), Integer.parseInt(split[6]), Integer.parseInt(split[7]), Integer.parseInt(split[8])); c[1] = new Color(Integer.parseInt(split[9]), Integer.parseInt(split[10]), Integer.parseInt(split[11]), Integer.parseInt(split[12])); c[2] = new Color(Integer.parseInt(split[13]), Integer.parseInt(split[14]), Integer.parseInt(split[15]), Integer.parseInt(split[16])); colors.put(id, c); nc += 1; } scanner.close(); log.info(nc + " colors loaded from " + colorsetpath); } catch(Exception e) { log.log(Level.SEVERE, "Failed to load colorset: " + colorsetpath, e); return; } running = true; this.start(); try { this.setPriority(MIN_PRIORITY); log.info("Set minimum priority for worker thread"); } catch(SecurityException e) { log.info("Failed to set minimum priority for worker thread!"); } } /* stop map manager */ public void stopManager() { if(!running) return; log.info("Stopping map renderer..."); running = false; try { this.join(); } catch(InterruptedException e) { log.info("Waiting for map renderer to stop is interrupted"); } } /* the worker/renderer thread */ public void run() { log.info("Map renderer has started."); while(running) { MapTile t = this.popStaleTile(); if(t != null) { t.render(this); long now = System.currentTimeMillis(); long deadline = now - maxTileAge; /* update the tileupdate list */ synchronized(lock) { ListIterator it = tileUpdates.listIterator(0); while(it.hasNext()) { TileUpdate tu = it.next(); if(tu.at < deadline || tu.tile == t) it.remove(); } tileUpdates.addLast(new TileUpdate(now, t)); } try { this.sleep(renderWait); } catch(InterruptedException e) { } } else { try { this.sleep(1000); } catch(InterruptedException e) { } } } log.info("Map renderer has stopped."); } /* "touch" a block - its map tile will be regenerated */ public boolean touch(int x, int y, int z) { int dx = x - anchorx; int dy = y - anchory; int dz = z - anchorz; int px = dx + dz; int py = dx - dz - dy; int tx = tilex(px); int ty = tiley(py); boolean r; r = pushStaleTile(tx, ty); boolean ledge = tilex(px - 4) != tx; boolean tedge = tiley(py - 4) != ty; boolean redge = tilex(px + 4) != tx; boolean bedge = tiley(py + 4) != ty; if(ledge) r = pushStaleTile(tx - tileWidth, ty) || r; if(redge) r = pushStaleTile(tx + tileWidth, ty) || r; if(tedge) r = pushStaleTile(tx, ty - tileHeight) || r; if(bedge) r = pushStaleTile(tx, ty + tileHeight) || r; if(ledge && tedge) r = pushStaleTile(tx - tileWidth, ty - tileHeight) || r; if(ledge && bedge) r = pushStaleTile(tx - tileWidth, ty + tileHeight) || r; if(redge && tedge) r = pushStaleTile(tx + tileWidth, ty - tileHeight) || r; if(redge && bedge) r = pushStaleTile(tx + tileWidth, ty + tileHeight) || r; return r; } /* get next MapTile that needs to be regenerated, or null * the mapTile is removed from the list of stale tiles! */ public MapTile popStaleTile() { synchronized(lock) { try { MapTile t = staleTiles.removeFirst(); t.stale = false; return t; } catch(NoSuchElementException e) { return null; } } } /* put a MapTile that needs to be regenerated on the list of stale tiles */ public boolean pushStaleTile(MapTile m) { synchronized(lock) { if(m.stale) return false; m.stale = true; staleTiles.addLast(m); debug(m.toString() + " is now stale"); return true; } } /* make a MapTile stale by projection position */ public boolean pushStaleTile(int tx, int ty) { return pushStaleTile(getTileByPosition(tx, ty)); } /* get (or create) MapTile by projection position */ private MapTile getTileByPosition(int px, int py) { Long key = MapTile.key(px, py); synchronized(lock) { MapTile t = tileStore.get(key); if(t == null) { /* no maptile exists, need to create one */ t = new MapTile(px, py, ztilex(px), ztiley(py)); tileStore.put(key, t); return t; } else { return t; } } } /* return number of stale tiles */ public int getStaleCount() { synchronized(lock) { return staleTiles.size(); } } /* return number of recently updated tiles */ public int getRecentUpdateCount() { synchronized(lock) { return tileUpdates.size(); } } /* regenerate the entire map, starting at position */ public void regenerate(int x, int y, int z) { int dx = x - anchorx; int dy = y - anchory; int dz = z - anchorz; int px = dx + dz; int py = dx - dz - dy; int tx = tilex(px); int ty = tiley(py); MapTile first = getTileByPosition(tx, ty); Vector open = new Vector(); open.add(first); Server s = etc.getServer(); while(open.size() > 0) { MapTile t = open.remove(open.size() - 1); if(t.stale) continue; int h = s.getHighestBlockY(t.mx, t.mz); log.info("walking: " + t.mx + ", " + t.mz + ", h = " + h); if(h < 1) continue; pushStaleTile(t); open.add(getTileByPosition(t.px + tileWidth, t.py)); open.add(getTileByPosition(t.px - tileWidth, t.py)); open.add(getTileByPosition(t.px, t.py + tileHeight)); open.add(getTileByPosition(t.px, t.py - tileHeight)); } } /* regenerate all zoom tiles, starting at position */ public void regenerateZoom(int x, int y, int z) { int dx = x - anchorx; int dy = y - anchory; int dz = z - anchorz; int px = dx + dz; int py = dx - dz - dy; int fzpx = ztilex(tilex(px)); int fzpy = ztiley(tiley(py)); class Pair implements Comparator { public int x; public int y; public Pair(int x, int y) { this.x = x; this.y = y; } public int hashCode() { return (x << 16) ^ y; } public boolean equals(Object o) { Pair p = (Pair) o; return x == p.x && y == p.y; } public int compare(Object o1, Object o2) { Pair p1 = (Pair) o1; Pair p2 = (Pair) o2; if(p1.x < p1.x) return -1; if(p1.x > p1.x) return 1; if(p1.y < p1.y) return -1; if(p1.y > p1.y) return 1; return 0; } } HashSet visited = new HashSet(); Vector open = new Vector(); Pair fp = new Pair(fzpx, fzpy); open.add(fp); visited.add(fp); while(open.size() > 0) { Pair p = open.remove(open.size() - 1); int zpx = p.x; int zpy = p.y; log.info("Regenerating zoom tile " + zpx + "," + zpy); int g = regenZoomTile(zpx, zpy); if(g > 0) { Pair[] np = new Pair[4]; np[0] = new Pair(zpx-zTileWidth, zpy); np[1] = new Pair(zpx+zTileWidth, zpy); np[2] = new Pair(zpx, zpy-zTileHeight); np[3] = new Pair(zpx, zpy+zTileHeight); for(int i=0; i<4; i++) { if(!visited.contains(np[i])) { visited.add(np[i]); open.add(np[i]); } } } } } /* regenerate zoom-out tile * returns number of valid subtiles */ public int regenZoomTile(int zpx, int zpy) { int px1 = zpx + tileWidth; int py1 = zpy; int px2 = zpx; int py2 = py1 + tileHeight; MapTile t1 = getTileByPosition(px1, py1); MapTile t2 = getTileByPosition(px2, py1); MapTile t3 = getTileByPosition(px1, py2); MapTile t4 = getTileByPosition(px2, py2); BufferedImage im1 = t1.loadTile(this); BufferedImage im2 = t2.loadTile(this); BufferedImage im3 = t3.loadTile(this); BufferedImage im4 = t4.loadTile(this); BufferedImage zIm = new BufferedImage(MapManager.tileWidth, MapManager.tileHeight, BufferedImage.TYPE_INT_RGB); WritableRaster zr = zIm.getRaster(); Graphics2D g2 = zIm.createGraphics(); g2.setRenderingHint(RenderingHints.KEY_INTERPOLATION, RenderingHints.VALUE_INTERPOLATION_BILINEAR); int scw = tileWidth / 2; int sch = tileHeight / 2; int good = 0; if(im1 != null) { g2.drawImage(im1, 0, 0, scw, sch, null); good ++; } if(im2 != null) { g2.drawImage(im2, scw, 0, scw, sch, null); good ++; } if(im3 != null) { g2.drawImage(im3, 0, sch, scw, sch, null); good ++; } if(im4 != null) { g2.drawImage(im4, scw, sch, scw, sch, null); good ++; } if(good == 0) { return 0; } String zPath = t1.getZoomPath(this); /* save zoom-out tile */ try { File file = new File(zPath); ImageIO.write(zIm, "png", file); log.info("regenZoomTile saved zoom-out tile at " + zPath); } catch(IOException e) { log.log(Level.SEVERE, "Failed to save zoom-out tile: " + zPath, e); } catch(java.lang.NullPointerException e) { log.log(Level.SEVERE, "Failed to save zoom-out tile (NullPointerException): " + zPath, e); } return good; } /* adds a sign to the map */ public boolean addSign(Player player, String name, double px, double py, double pz) { if (signs.containsKey(name)) { player.sendMessage("Map> " + Colors.Red + "Sign \"" + name + "\" already exists."); return false; } Warp sign = new Warp(); sign.Name = name; sign.Location = new Location(px,py,pz); signs.put(name, sign); try { saveSigns(); return true; } catch(IOException e) { log.log(Level.SEVERE, "Failed to save signs.txt", e); } return false; } /* removes a sign from the map */ public boolean removeSign(Player player, String name) { if (signs.containsKey(name)) { Warp sign = signs.get(name); signs.remove(name); try { saveSigns(); return true; } catch(IOException e) { log.log(Level.SEVERE, "Failed to save signs.txt", e); } } else { player.sendMessage("Map> " + Colors.Red + "Sign \"" + name + "\" does not exist."); } return false; } /* teleports a user to a sign */ public boolean teleportToSign(Player player, String name) { if (signs.containsKey(name)) { Warp sign = signs.get(name); player.teleportTo(sign.Location.x, sign.Location.y, sign.Location.z, 0, 0); } else { player.sendMessage("Map> " + Colors.Red + "Sign \"" + name + "\" does not exist."); } return false; } /* load the map sign file */ private void loadSigns() { Scanner scanner = null; try { scanner = new Scanner(new FileInputStream(signspath), "UTF-8"); while (scanner.hasNextLine()) { String line = scanner.nextLine(); String[] values = line.split(":"); String name = ""; Double x = 0.0,y = 0.0,z = 0.0; // If user has old style of file (CSV) if (values.length == 1) { values = line.split(","); } // If user has old style of file (owners) if (values.length == 5) { name = values[0]; x = Double.parseDouble(values[2]); y = Double.parseDouble(values[3]); z = Double.parseDouble(values[4]); } else if (values.length == 4) { name = values[0]; x = Double.parseDouble(values[1]); y = Double.parseDouble(values[2]); z = Double.parseDouble(values[3]); } else { log.log(Level.INFO, "Failed to load sign: " + values[0]); } // If a sign was loaded, add it to the hash if (name.isEmpty() == false && x != 0.0 && y != 0.0 && z != 0.0) { Warp sign = new Warp(); sign.Name = name; sign.Location = new Location(x, y, z); signs.put(sign.Name, sign); } } } catch(FileNotFoundException e) { // No need to log FileNotFoundException } finally { if (scanner != null) scanner.close(); } } /* save the map sign file */ private void saveSigns() throws IOException { Writer out = null; try { out = new OutputStreamWriter(new FileOutputStream(signspath), "UTF-8"); Collection values = signs.values(); Iterator it = values.iterator(); while(it.hasNext()) { Warp sign = it.next(); String line = sign.Name + ":" + sign.Location.x + ":" + sign.Location.y + ":" + sign.Location.z + "\n"; out.write(line); } } catch(UnsupportedEncodingException e) { log.log(Level.SEVERE, "Unsupported encoding", e); } catch(FileNotFoundException e) { log.log(Level.SEVERE, "signs.txt not found", e); } finally { if (out != null) out.close(); } } /* TODO: Is there a cleaner way to get warps/homes than using custom DataSource classes to expose the protected properties? */ protected List loadWarps() { List warps = null; if (datasource.equals("flatfile")) { DMFlatFileSource ds = new DMFlatFileSource(); ds.initialize(); ds.loadWarps(); warps = ds.getAllWarps(); } else if (datasource.equals("mysql")) { DMMySQLSource ds = new DMMySQLSource(); ds.initialize(); ds.loadWarps(); warps = ds.getAllWarps(); } return warps; } protected List loadHomes() { List homes = null; if (datasource.equals("flatfile")) { DMFlatFileSource ds = new DMFlatFileSource(); ds.initialize(); ds.loadHomes(); homes = ds.getAllHomes(); } else if (datasource.equals("mysql")) { DMMySQLSource ds = new DMMySQLSource(); ds.initialize(); ds.loadHomes(); homes = ds.getAllHomes(); } return homes; } private void loadShowOptions() { String[] values = showmarkers.split(","); for (int i = 0; i < values.length; i++) { String opt = values[i]; if (opt.equals("all")) { showSpawn = true; showHomes = true; showWarps = true; showSigns = true; showPlayers = true; } else if (opt.equals("none")) { showSpawn = false; showHomes = false; showWarps = false; showSigns = false; showPlayers = false; } else if (opt.equals("spawn")) { showSpawn = true; } else if (opt.equals("homes")) { showHomes = true; } else if (opt.equals("warps")) { showWarps = true; } else if (opt.equals("signs")) { showSigns = true; } else if (opt.equals("players")) { showPlayers = true; } } } }