package com.intellectualcrafters.plot.util; import java.util.HashMap; import java.util.HashSet; import java.util.Map.Entry; import com.intellectualcrafters.plot.PS; import com.plotsquared.bukkit.generator.AugmentedPopulator; import com.intellectualcrafters.plot.object.ChunkLoc; import com.intellectualcrafters.plot.object.PlotBlock; public class SetBlockQueue { private volatile static HashMap blocks; private volatile static int allocate = 25; private volatile static boolean running = false; private volatile static boolean locked = false; private volatile static HashSet runnables; private volatile static boolean slow = false; private static long last; private static int lastInt = 0; private static PlotBlock lastBlock = new PlotBlock((short) 0, (byte) 0); public synchronized static void allocate(int t) { allocate = t; } public static int getAllocate() { return allocate; } public static void setSlow(boolean value) { slow = value; } public synchronized static void addNotify(Runnable whenDone) { if (runnables == null) { TaskManager.runTask(whenDone); slow = false; locked = false; } else { runnables.add(whenDone); } } public synchronized static void init() { if (blocks == null) { if (AugmentedPopulator.x_loc == null) { AugmentedPopulator.initCache(); } blocks = new HashMap<>(); runnables = new HashSet<>(); } if (!running) { TaskManager.index.incrementAndGet(); final int current = TaskManager.index.intValue(); int task = TaskManager.runTaskRepeat(new Runnable() { @Override public void run() { if (locked) { return; } if (blocks == null || blocks.size() == 0) { PS.get().TASK.cancelTask(TaskManager.tasks.get(current)); if (runnables != null) { for (Runnable runnable : runnables) { TaskManager.runTask(runnable); } } lastBlock = null; runnables = null; blocks = new HashMap<>(); running = false; slow = false; return; } long newLast = System.currentTimeMillis(); last = Math.max(newLast - 100, last); while (blocks.size() > 0 && (System.currentTimeMillis() - last < 100 + allocate)) { if (locked) { return; } Entry n = blocks.entrySet().iterator().next(); ChunkWrapper chunk = n.getKey(); PlotBlock[][] blocks = n.getValue(); int X = chunk.x << 4; int Z = chunk.z << 4; String world = chunk.world; if (slow) { boolean once = false; for (int j = 0; j < blocks.length; j++) { PlotBlock[] blocksj = blocks[j]; if (blocksj != null) { long start = System.currentTimeMillis(); for (int k = 0; k < blocksj.length; k++) { if (once && (System.currentTimeMillis() - start > allocate)) { SetBlockQueue.blocks.put(n.getKey(), blocks); return; } PlotBlock block = blocksj[k]; if (block != null) { int x = AugmentedPopulator.x_loc[j][k]; int y = AugmentedPopulator.y_loc[j][k]; int z = AugmentedPopulator.z_loc[j][k]; BlockManager.manager.functionSetBlock(world, X + x, y, Z + z, block.id, block.data); blocks[j][k] = null; once = true; } } } } SetBlockQueue.blocks.remove(n.getKey()); return; } SetBlockQueue.blocks.remove(n.getKey()); for (int j = 0; j < blocks.length; j++) { PlotBlock[] blocksj = blocks[j]; if (blocksj != null) { for (int k = 0; k < blocksj.length; k++) { PlotBlock block = blocksj[k]; if (block != null) { int x = AugmentedPopulator.x_loc[j][k]; int y = AugmentedPopulator.y_loc[j][k]; int z = AugmentedPopulator.z_loc[j][k]; BlockManager.manager.functionSetBlock(world, X + x, y, Z + z, block.id, block.data); } } } } } } }, 2); TaskManager.tasks.put(current, task); running = true; } } public static void setChunk(final String world, ChunkLoc loc, PlotBlock[][] result) { locked = true; if (!running) { init(); } ChunkWrapper wrap = new ChunkWrapper(world, loc.x, loc.z); blocks.put(wrap, result); locked = false; } public static void setBlock(final String world, int x, final int y, int z, final PlotBlock block) { locked = true; if (!running) { init(); } int X = x >> 4; int Z = z >> 4; x -= X << 4; z -= Z << 4; ChunkWrapper wrap = new ChunkWrapper(world, X, Z); PlotBlock[][] result; result = blocks.get(wrap); if (!blocks.containsKey(wrap)) { result = new PlotBlock[16][]; blocks.put(wrap, result); } if (result[y >> 4] == null) { result[y >> 4] = new PlotBlock[4096]; } result[y >> 4][((y & 0xF) << 8) | (z << 4) | x] = block; locked = false; } public static void setData(final String world, int x, final int y, int z, final byte data) { locked = true; if (!running) { init(); } int X = x >> 4; int Z = z >> 4; x -= X << 4; z -= Z << 4; ChunkWrapper wrap = new ChunkWrapper(world, X, Z); PlotBlock[][] result; result = blocks.get(wrap); if (!blocks.containsKey(wrap)) { result = new PlotBlock[16][]; blocks.put(wrap, result); } if (result[y >> 4] == null) { result[y >> 4] = new PlotBlock[4096]; } result[y >> 4][((y & 0xF) << 8) | (z << 4) | x] = new PlotBlock((short) -1, data); locked = false; } public static void setBlock(final String world, int x, final int y, int z, final int id) { locked = true; if (!running) { init(); } int X = x >> 4; int Z = z >> 4; x -= X << 4; z -= Z << 4; ChunkWrapper wrap = new ChunkWrapper(world, X, Z); PlotBlock[][] result; result = blocks.get(wrap); if (!blocks.containsKey(wrap)) { result = new PlotBlock[16][]; blocks.put(wrap, result); } if (result[y >> 4] == null) { result[y >> 4] = new PlotBlock[4096]; } if (id == lastInt) { result[y >> 4][((y & 0xF) << 8) | (z << 4) | x] = lastBlock; } else { lastInt = id; lastBlock = new PlotBlock((short) id, (byte) 0); } result[y >> 4][((y & 0xF) << 8) | (z << 4) | x] = lastBlock; locked = false; } public static class ChunkWrapper { public final int x; public final int z; public final String world; public ChunkWrapper(String world, int x, int z) { this.world = world; this.x = x; this.z = z; } @Override public int hashCode() { int result; if (this.x >= 0) { if (this.z >= 0) { result = (this.x * this.x) + (3 * this.x) + (2 * this.x * this.z) + this.z + (this.z * this.z); } else { final int y1 = -this.z; result = (this.x * this.x) + (3 * this.x) + (2 * this.x * y1) + y1 + (y1 * y1) + 1; } } else { final int x1 = -this.x; if (this.z >= 0) { result = -((x1 * x1) + (3 * x1) + (2 * x1 * this.z) + this.z + (this.z * this.z)); } else { final int y1 = -this.z; result = -((x1 * x1) + (3 * x1) + (2 * x1 * y1) + y1 + (y1 * y1) + 1); } } result = result * 31 + world.hashCode(); return result; } @Override public boolean equals(Object obj) { if (this == obj) { return true; } if (obj == null) { return false; } if (getClass() != obj.getClass()) { return false; } final ChunkWrapper other = (ChunkWrapper) obj; return ((this.x == other.x) && (this.z == other.z) && (this.world.equals(other.world))); } } }