Fix multiple schematic issues (which I caused)

This commit is contained in:
boy0001 2015-07-26 04:12:35 +10:00
parent c2fff8cbd7
commit b76899c6e2
9 changed files with 211 additions and 109 deletions

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@ -32,6 +32,9 @@ import java.util.UUID;
import org.apache.commons.lang.StringUtils; import org.apache.commons.lang.StringUtils;
import org.bukkit.Bukkit; import org.bukkit.Bukkit;
import org.bukkit.Chunk;
import org.bukkit.World;
import org.bukkit.block.Biome;
import com.intellectualcrafters.plot.PS; import com.intellectualcrafters.plot.PS;
import com.intellectualcrafters.plot.config.C; import com.intellectualcrafters.plot.config.C;
@ -39,6 +42,7 @@ import com.intellectualcrafters.plot.flag.FlagManager;
import com.intellectualcrafters.plot.generator.BukkitHybridUtils; import com.intellectualcrafters.plot.generator.BukkitHybridUtils;
import com.intellectualcrafters.plot.generator.HybridUtils; import com.intellectualcrafters.plot.generator.HybridUtils;
import com.intellectualcrafters.plot.object.ChunkLoc; import com.intellectualcrafters.plot.object.ChunkLoc;
import com.intellectualcrafters.plot.object.Location;
import com.intellectualcrafters.plot.object.OfflinePlotPlayer; import com.intellectualcrafters.plot.object.OfflinePlotPlayer;
import com.intellectualcrafters.plot.object.Plot; import com.intellectualcrafters.plot.object.Plot;
import com.intellectualcrafters.plot.object.PlotAnalysis; import com.intellectualcrafters.plot.object.PlotAnalysis;
@ -61,6 +65,24 @@ public class DebugExec extends SubCommand {
if (args.length > 0) { if (args.length > 0) {
final String arg = args[0].toLowerCase(); final String arg = args[0].toLowerCase();
switch (arg) { switch (arg) {
case "biome": {
if (player == null) {
MainUtil.sendMessage(player, C.IS_CONSOLE);
return false;
}
Location loc = player.getLocation();
World world = Bukkit.getWorld(loc.getWorld());
int bx = (loc.getX() >> 4) << 4;
int bz = (loc.getZ() >> 4) << 4;
for (int x = bx; x < bx + 16; x++) {
for (int z = bz; z < bz + 16; z++) {
world.setBiome(x, z, Biome.DESERT);
}
}
MainUtil.update(loc.getWorld(), new ChunkLoc(loc.getX() >> 4, loc.getZ() >> 4));
System.out.print("SET BIOME TO FOREST: " + bx + "," + bz);
return true;
}
case "analyze": { case "analyze": {
if (player == null) { if (player == null) {
MainUtil.sendMessage(player, C.IS_CONSOLE); MainUtil.sendMessage(player, C.IS_CONSOLE);

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@ -246,8 +246,18 @@ public class Set extends SubCommand {
MainUtil.sendMessage(plr, getBiomeList(BlockManager.manager.getBiomeList())); MainUtil.sendMessage(plr, getBiomeList(BlockManager.manager.getBiomeList()));
return true; return true;
} }
plot.setBiome(args[1].toUpperCase()); if (MainUtil.runners.containsKey(plot)) {
MainUtil.sendMessage(plr, C.BIOME_SET_TO.s() + args[1].toLowerCase()); MainUtil.sendMessage(plr, C.WAIT_FOR_TIMER);
return false;
}
MainUtil.runners.put(plot, 1);
plot.setBiome(args[1].toUpperCase(), new Runnable() {
@Override
public void run() {
MainUtil.runners.remove(plot);
MainUtil.sendMessage(plr, C.BIOME_SET_TO.s() + args[1].toLowerCase());
}
});
return true; return true;
} }
// Get components // Get components

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@ -38,6 +38,8 @@ import com.intellectualcrafters.plot.object.PlotBlock;
import com.intellectualcrafters.plot.object.PlotId; import com.intellectualcrafters.plot.object.PlotId;
import com.intellectualcrafters.plot.object.PlotLoc; import com.intellectualcrafters.plot.object.PlotLoc;
import com.intellectualcrafters.plot.object.PlotWorld; import com.intellectualcrafters.plot.object.PlotWorld;
import com.intellectualcrafters.plot.object.RunnableVal;
import com.intellectualcrafters.plot.util.ChunkManager;
import com.intellectualcrafters.plot.util.MainUtil; import com.intellectualcrafters.plot.util.MainUtil;
import com.intellectualcrafters.plot.util.SetBlockQueue; import com.intellectualcrafters.plot.util.SetBlockQueue;
import com.intellectualcrafters.plot.util.TaskManager; import com.intellectualcrafters.plot.util.TaskManager;
@ -174,87 +176,56 @@ public class HybridPlotManager extends ClassicPlotManager {
final Location pos1 = MainUtil.getPlotBottomLocAbs(world, plot.id).add(1, 0, 1); final Location pos1 = MainUtil.getPlotBottomLocAbs(world, plot.id).add(1, 0, 1);
final Location pos2 = MainUtil.getPlotTopLocAbs(world, plot.id); final Location pos2 = MainUtil.getPlotTopLocAbs(world, plot.id);
// If augmented
setWallFilling(dpw, plot.id, new PlotBlock[] { dpw.WALL_FILLING });
final int p1x = pos1.getX();
final int p1z = pos1.getZ();
final int p2x = pos2.getX();
final int p2z = pos2.getZ();
final int bcx = p1x >> 4;
final int bcz = p1z >> 4;
final int tcx = p2x >> 4;
final int tcz = p2z >> 4;
final boolean canRegen = plotworld.TYPE == 0 && plotworld.TERRAIN == 0; final boolean canRegen = plotworld.TYPE == 0 && plotworld.TERRAIN == 0;
// The component blocks
final PlotBlock[] plotfloor = dpw.TOP_BLOCK; final PlotBlock[] plotfloor = dpw.TOP_BLOCK;
final PlotBlock[] filling = dpw.MAIN_BLOCK; final PlotBlock[] filling = dpw.MAIN_BLOCK;
final PlotBlock[] bedrock = (dpw.PLOT_BEDROCK ? new PlotBlock[] { new PlotBlock((short) 7, (byte) 0) } : filling); final PlotBlock[] bedrock = (dpw.PLOT_BEDROCK ? new PlotBlock[] { new PlotBlock((short) 7, (byte) 0) } : filling);
final PlotBlock air = new PlotBlock((short) 0, (byte) 0); final PlotBlock air = new PlotBlock((short) 0, (byte) 0);
final ArrayList<ChunkLoc> chunks = new ArrayList<ChunkLoc>(); setWallFilling(dpw, plot.id, new PlotBlock[] { dpw.WALL_FILLING });
for (int x = bcx; x <= tcx; x++) { ChunkManager.chunkTask(pos1, pos2, new RunnableVal<int[]>() {
for (int z = bcz; z <= tcz; z++) {
chunks.add(new ChunkLoc(x, z));
}
}
TaskManager.runTask(new Runnable() {
@Override @Override
public void run() { public void run() {
long start = System.currentTimeMillis(); // If the chunk isn't near the edge and it isn't an augmented world we can just regen the whole chunk
while (chunks.size() > 0 && System.currentTimeMillis() - start < 20) { if (canRegen && value[6] == 0) {
ChunkLoc chunk = chunks.remove(0); BukkitUtil.regenerateChunk(world, value[0], value[1]);
int x = chunk.x; return;
int z = chunk.z;
int xxb = x << 4;
int zzb = z << 4;
int xxt = xxb + 15;
int zzt = zzb + 15;
if (canRegen) {
if (xxb >= p1x && xxt <= p2x && zzb >= p1z && zzt <= p2z) {
BukkitUtil.regenerateChunk(world, x, z);
continue;
}
}
if (x == bcx) {
xxb = p1x;
}
if (x == tcx) {
xxt = p2x;
}
if (z == bcz) {
zzb = p1z;
}
if (z == tcz) {
zzt = p2z;
}
BukkitUtil.setBiome(plot.world, xxb, zzb, xxt, zzt, dpw.PLOT_BIOME);
Location bot = new Location(world, xxb, 0, zzb);
Location top = new Location(world, xxt + 1, 1, zzt + 1);
MainUtil.setCuboidAsync(world, bot, top, bedrock);
bot.setY(1);
top.setY(dpw.PLOT_HEIGHT);
MainUtil.setCuboidAsync(world, bot, top, filling);
bot.setY(dpw.PLOT_HEIGHT);
top.setY(dpw.PLOT_HEIGHT + 1);
MainUtil.setCuboidAsync(world, bot, top, plotfloor);
bot.setY(dpw.PLOT_HEIGHT + 1);
top.setY(256);
MainUtil.setSimpleCuboidAsync(world, bot, top, air);
}
if (chunks.size() != 0) {
TaskManager.runTaskLater(this, 1);
}
else {
pastePlotSchematic(dpw, pos1, pos2);
final PlotBlock wall = isDelete ? dpw.WALL_BLOCK : dpw.CLAIMED_WALL_BLOCK;
setWall(dpw, plot.id, new PlotBlock[] { wall });
SetBlockQueue.addNotify(whenDone);
} }
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Otherwise we need to set each component, as we don't want to regenerate the road or other plots that share the same chunk //
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// Set the biome
BukkitUtil.setBiome(plot.world, value[2], value[3], value[4], value[5], dpw.PLOT_BIOME);
// These two locations are for each component (e.g. bedrock, main block, floor, air)
Location bot = new Location(world, value[2], 0, value[3]);
Location top = new Location(world, value[4] + 1, 1, value[5] + 1);
MainUtil.setCuboidAsync(world, bot, top, bedrock);
// Each component has a different layer
bot.setY(1);
top.setY(dpw.PLOT_HEIGHT);
MainUtil.setCuboidAsync(world, bot, top, filling);
bot.setY(dpw.PLOT_HEIGHT);
top.setY(dpw.PLOT_HEIGHT + 1);
MainUtil.setCuboidAsync(world, bot, top, plotfloor);
bot.setY(dpw.PLOT_HEIGHT + 1);
top.setY(256);
MainUtil.setSimpleCuboidAsync(world, bot, top, air);
// And finally set the schematic, the y value is unimportant for this function
pastePlotSchematic(dpw, bot, top);
} }
}); }, new Runnable() {
@Override
public void run() {
// When we are done with the inside of the plot, we can reset the wall / border
final PlotBlock wall = isDelete ? dpw.WALL_BLOCK : dpw.CLAIMED_WALL_BLOCK;
setWall(dpw, plot.id, new PlotBlock[] { wall });
// And notify whatever called this when plot clearing is done
SetBlockQueue.addNotify(whenDone);
}
}, 5);
return true; return true;
} }

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@ -89,7 +89,7 @@ public class HybridPlotWorld extends ClassicPlotWorld {
} }
if (schem3 != null) { if (schem3 != null) {
this.PLOT_SCHEMATIC = true; this.PLOT_SCHEMATIC = true;
byte[] ids = schem3.getIds(); short[] ids = schem3.getIds();
byte[] datas = schem3.getDatas(); byte[] datas = schem3.getDatas();
final Dimension d3 = schem3.getSchematicDimension(); final Dimension d3 = schem3.getSchematicDimension();
final short w3 = (short) d3.getX(); final short w3 = (short) d3.getX();
@ -108,7 +108,7 @@ public class HybridPlotWorld extends ClassicPlotWorld {
for (short y = 0; y < h3; y++) { for (short y = 0; y < h3; y++) {
final int index = (y * w3 * l3) + (z * w3) + x; final int index = (y * w3 * l3) + (z * w3) + x;
final short id = ids[index]; final short id = ids[index];
final byte data = ids[index]; final byte data = datas[index];
if (id != 0) { if (id != 0) {
addOverlayBlock((short) (x + shift + oddshift + center_shift_x), (y), (short) (z + shift + oddshift + center_shift_z), id, data, false); addOverlayBlock((short) (x + shift + oddshift + center_shift_x), (y), (short) (z + shift + oddshift + center_shift_z), id, data, false);
} }
@ -141,10 +141,10 @@ public class HybridPlotWorld extends ClassicPlotWorld {
// Do not populate road if using schematic population // Do not populate road if using schematic population
this.ROAD_BLOCK = new PlotBlock(this.ROAD_BLOCK.id, (byte) 0); this.ROAD_BLOCK = new PlotBlock(this.ROAD_BLOCK.id, (byte) 0);
byte[] ids1 = schem1.getIds(); short[] ids1 = schem1.getIds();
byte[] datas1 = schem1.getDatas(); byte[] datas1 = schem1.getDatas();
byte[] ids2 = schem2.getIds(); short[] ids2 = schem2.getIds();
byte[] datas2 = schem2.getDatas(); byte[] datas2 = schem2.getDatas();
final Dimension d1 = schem1.getSchematicDimension(); final Dimension d1 = schem1.getSchematicDimension();

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@ -467,8 +467,8 @@ public class Plot {
/** /**
* Set the plot biome * Set the plot biome
*/ */
public void setBiome(String biome) { public void setBiome(String biome, Runnable whenDone) {
MainUtil.setBiome(this, biome); MainUtil.setBiome(this, biome, whenDone);
} }
/** /**

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@ -1,5 +1,6 @@
package com.intellectualcrafters.plot.util; package com.intellectualcrafters.plot.util;
import java.util.ArrayList;
import java.util.HashMap; import java.util.HashMap;
import java.util.List; import java.util.List;
@ -10,7 +11,9 @@ import com.intellectualcrafters.plot.object.PlotBlock;
import com.intellectualcrafters.plot.object.PlotId; import com.intellectualcrafters.plot.object.PlotId;
import com.intellectualcrafters.plot.object.PlotLoc; import com.intellectualcrafters.plot.object.PlotLoc;
import com.intellectualcrafters.plot.object.RegionWrapper; import com.intellectualcrafters.plot.object.RegionWrapper;
import com.intellectualcrafters.plot.object.RunnableVal;
import com.intellectualcrafters.plot.util.SetBlockQueue.ChunkWrapper; import com.intellectualcrafters.plot.util.SetBlockQueue.ChunkWrapper;
import com.intellectualcrafters.plot.util.bukkit.BukkitUtil;
public abstract class ChunkManager { public abstract class ChunkManager {
@ -27,6 +30,72 @@ public abstract class ChunkManager {
return new ChunkLoc(x, z); return new ChunkLoc(x, z);
} }
/**
* The int[] will be in the form: [chunkx, chunkz, pos1x, pos1z, pos2x, pos2z, isedge] and will represent the bottom and top parts of the chunk
* @param pos1
* @param pos2
* @param task
* @param whenDone
*/
public static void chunkTask(Location pos1, Location pos2, final RunnableVal<int[]> task, final Runnable whenDone, final int allocate) {
final int p1x = pos1.getX();
final int p1z = pos1.getZ();
final int p2x = pos2.getX();
final int p2z = pos2.getZ();
final int bcx = p1x >> 4;
final int bcz = p1z >> 4;
final int tcx = p2x >> 4;
final int tcz = p2z >> 4;
final ArrayList<ChunkLoc> chunks = new ArrayList<ChunkLoc>();
for (int x = bcx; x <= tcx; x++) {
for (int z = bcz; z <= tcz; z++) {
chunks.add(new ChunkLoc(x, z));
}
}
TaskManager.runTask(new Runnable() {
@Override
public void run() {
long start = System.currentTimeMillis();
while (chunks.size() > 0 && System.currentTimeMillis() - start < allocate) {
ChunkLoc chunk = chunks.remove(0);
task.value = new int[7];
task.value[0] = chunk.x;
task.value[1] = chunk.z;
task.value[2] = task.value[0] << 4;
task.value[3] = task.value[1] << 4;
task.value[4] = task.value[2] + 15;
task.value[5] = task.value[3] + 15;
if (task.value[0] == bcx) {
task.value[2] = p1x;
task.value[6] = 1;
}
if (task.value[0] == tcx) {
task.value[4] = p2x;
task.value[6] = 1;
}
if (task.value[1] == bcz) {
task.value[3] = p1z;
task.value[6] = 1;
}
if (task.value[1] == tcz) {
task.value[5] = p2z;
task.value[6] = 1;
}
task.run();
}
if (chunks.size() != 0) {
TaskManager.runTaskLater(this, 1);
}
else {
TaskManager.runTask(whenDone);
}
}
});
}
public abstract void setChunk(ChunkWrapper loc, PlotBlock[][] result); public abstract void setChunk(ChunkWrapper loc, PlotBlock[][] result);
public abstract int[] countEntities(Plot plot); public abstract int[] countEntities(Plot plot);

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@ -44,6 +44,7 @@ import com.intellectualcrafters.plot.object.PlotPlayer;
import com.intellectualcrafters.plot.object.PlotSettings; import com.intellectualcrafters.plot.object.PlotSettings;
import com.intellectualcrafters.plot.object.PlotWorld; import com.intellectualcrafters.plot.object.PlotWorld;
import com.intellectualcrafters.plot.object.PseudoRandom; import com.intellectualcrafters.plot.object.PseudoRandom;
import com.intellectualcrafters.plot.object.RunnableVal;
import com.intellectualcrafters.plot.util.bukkit.BukkitUtil; import com.intellectualcrafters.plot.util.bukkit.BukkitUtil;
import com.intellectualcrafters.plot.util.bukkit.UUIDHandler; import com.intellectualcrafters.plot.util.bukkit.UUIDHandler;
@ -957,7 +958,6 @@ public class MainUtil {
final Runnable run = new Runnable() { final Runnable run = new Runnable() {
@Override @Override
public void run() { public void run() {
// MainUtil.setBiome(world, plot, "FOREST");
runners.remove(plot); runners.remove(plot);
TaskManager.runTask(whenDone); TaskManager.runTask(whenDone);
} }
@ -1043,15 +1043,25 @@ public class MainUtil {
} }
} }
public static void setBiome(final Plot plot, final String biome) { public static void setBiome(final Plot plot, final String biome, final Runnable whenDone) {
final int bottomX = getPlotBottomLoc(plot.world, plot.id).getX() + 1; Location pos1 = plot.getBottom().add(1, 0, 1);
final int topX = getPlotTopLoc(plot.world, plot.id).getX(); Location pos2 = plot.getTop();
final int bottomZ = getPlotBottomLoc(plot.world, plot.id).getZ() + 1; ChunkManager.chunkTask(pos1, pos2, new RunnableVal<int[]>() {
final int topZ = getPlotTopLoc(plot.world, plot.id).getZ(); @Override
BukkitUtil.setBiome(plot.world, bottomX, bottomZ, topX, topZ, biome); public void run() {
update(plot); BukkitUtil.loadChunkAt(plot.world, value[0], value[1], false);
BukkitUtil.setBiome(plot.world, value[2], value[3], value[4], value[4], biome);
BukkitUtil.unloadChunkAt(plot.world, value[0], value[1], true, true);
}
}, new Runnable() {
@Override
public void run() {
update(plot);
TaskManager.runTask(whenDone);
}
}, 5);
} }
public static int getHeighestBlock(final String world, final int x, final int z) { public static int getHeighestBlock(final String world, final int x, final int z) {
final int result = BukkitUtil.getHeighestBlock(world, x, z); final int result = BukkitUtil.getHeighestBlock(world, x, z);
if (result == 0) { if (result == 0) {

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@ -166,7 +166,6 @@ public abstract class SchematicHandler {
final int WIDTH = demensions.getX(); final int WIDTH = demensions.getX();
final int LENGTH = demensions.getZ(); final int LENGTH = demensions.getZ();
final int HEIGHT = demensions.getY(); final int HEIGHT = demensions.getY();
// Validate dimensions // Validate dimensions
Location bottom = plot.getBottom(); Location bottom = plot.getBottom();
Location top = plot.getTop(); Location top = plot.getTop();
@ -175,21 +174,20 @@ public abstract class SchematicHandler {
TaskManager.runTask(whenDone); TaskManager.runTask(whenDone);
return; return;
} }
// block id and data arrays
final byte[] ids = schematic.ids; final short[] ids = schematic.ids;
final byte[] datas = schematic.datas; final byte[] datas = schematic.datas;
// Calculate the optimal height to paste the schematic at
final int y_offset; final int y_offset;
if (HEIGHT >= 256) { if (HEIGHT >= 256) {
y_offset = 0; y_offset = 0;
} }
else { else {
y_offset = BukkitUtil.getMaxHeight(plot.world); y_offset = BukkitUtil.getHeighestBlock(plot.world, bottom.getX() + 1, bottom.getZ() + 1);
} }
Location pos1 = MainUtil.getPlotBottomLoc(plot.world, plot.id).add(1 + x_offset, y_offset - 1, 1 + z_offset); Location pos1 = MainUtil.getPlotBottomLoc(plot.world, plot.id).add(1 + x_offset, y_offset - 1, 1 + z_offset);
Location pos2 = pos1.clone().add(WIDTH - 1, HEIGHT - 1, LENGTH - 1); Location pos2 = pos1.clone().add(WIDTH - 1, HEIGHT - 1, LENGTH - 1);
// TODO switch to ChunkManager.chunkTask(pos1, pos2, task, whenDone, allocate);
final int p1x = pos1.getX(); final int p1x = pos1.getX();
final int p1z = pos1.getZ(); final int p1z = pos1.getZ();
final int p2x = pos2.getX(); final int p2x = pos2.getX();
@ -198,15 +196,12 @@ public abstract class SchematicHandler {
final int bcz = p1z >> 4; final int bcz = p1z >> 4;
final int tcx = p2x >> 4; final int tcx = p2x >> 4;
final int tcz = p2z >> 4; final int tcz = p2z >> 4;
final ArrayList<ChunkLoc> chunks = new ArrayList<ChunkLoc>(); final ArrayList<ChunkLoc> chunks = new ArrayList<ChunkLoc>();
for (int x = bcx; x <= tcx; x++) { for (int x = bcx; x <= tcx; x++) {
for (int z = bcz; z <= tcz; z++) { for (int z = bcz; z <= tcz; z++) {
chunks.add(new ChunkLoc(x, z)); chunks.add(new ChunkLoc(x, z));
} }
} }
TaskManager.runTaskAsync(new Runnable() { TaskManager.runTaskAsync(new Runnable() {
@Override @Override
public void run() { public void run() {
@ -235,7 +230,12 @@ public abstract class SchematicHandler {
// Paste schematic here // Paste schematic here
int id; int id;
for (int ry = 0; ry < Math.max(256, HEIGHT); ry++) { for (int ry = 0; ry < Math.min(256, HEIGHT); ry++) {
int yy = y_offset + ry;
if (yy > 255) {
System.out.print("TOO HIGH: " + ry);
continue;
}
int i1 = ry * WIDTH * LENGTH; int i1 = ry * WIDTH * LENGTH;
for (int rz = zzb - p1z; rz <= zzt - p1z; rz++) { for (int rz = zzb - p1z; rz <= zzt - p1z; rz++) {
int i2 = rz * WIDTH + i1; int i2 = rz * WIDTH + i1;
@ -244,7 +244,6 @@ public abstract class SchematicHandler {
int xx = p1x + rx; int xx = p1x + rx;
int zz = p1z + rz; int zz = p1z + rz;
int yy = y_offset + ry;
id = ids[i]; id = ids[i];
@ -324,6 +323,7 @@ public abstract class SchematicHandler {
break; break;
} }
default: { default: {
System.out.print(id +","+datas[i]);
SetBlockQueue.setBlock(plot.world, xx, yy, zz, new PlotBlock((short) id, (byte) datas[i])); SetBlockQueue.setBlock(plot.world, xx, yy, zz, new PlotBlock((short) id, (byte) datas[i]));
break; break;
} }
@ -411,9 +411,20 @@ public abstract class SchematicHandler {
final short width = ShortTag.class.cast(tagMap.get("Width")).getValue(); final short width = ShortTag.class.cast(tagMap.get("Width")).getValue();
final short length = ShortTag.class.cast(tagMap.get("Length")).getValue(); final short length = ShortTag.class.cast(tagMap.get("Length")).getValue();
final short height = ShortTag.class.cast(tagMap.get("Height")).getValue(); final short height = ShortTag.class.cast(tagMap.get("Height")).getValue();
final byte[] block = ByteArrayTag.class.cast(tagMap.get("Blocks")).getValue(); final byte[] block_sml = ByteArrayTag.class.cast(tagMap.get("Blocks")).getValue();
final byte[] data = ByteArrayTag.class.cast(tagMap.get("Data")).getValue(); final byte[] data = ByteArrayTag.class.cast(tagMap.get("Data")).getValue();
final short[] block = new short[block_sml.length];
for (int i = 0; i < block.length; i++) {
short id = block_sml[i];
if (id < 0) {
id = (short) (id & 0xFF);
}
block[i] = id;
}
// Slow + has code for exceptions (addId) inside the loop rather than outside // Slow + has code for exceptions (addId) inside the loop rather than outside
// for (int index = 0; index < b.length; index++) { // for (int index = 0; index < b.length; index++) {
// if ((index >> 1) >= addId.length) { // if ((index >> 1) >= addId.length) {
@ -433,6 +444,8 @@ public abstract class SchematicHandler {
// } // }
// Schematic schem = new Schematic(collection, dimension, file); // Schematic schem = new Schematic(collection, dimension, file);
System.out.print(width + "," + height +"," + length);
Dimension dimensions = new Dimension(width, height, length); Dimension dimensions = new Dimension(width, height, length);
Schematic schem = new Schematic(block, data, dimensions); Schematic schem = new Schematic(block, data, dimensions);
@ -747,7 +760,7 @@ public abstract class SchematicHandler {
*/ */
public class Schematic { public class Schematic {
// Lossy but fast // Lossy but fast
private final byte[] ids; private final short[] ids;
private final byte[] datas; private final byte[] datas;
@Deprecated @Deprecated
@ -766,7 +779,7 @@ public abstract class SchematicHandler {
*/ */
@Deprecated @Deprecated
public Schematic(final DataCollection[] blockCollection, final Dimension schematicDimension) { public Schematic(final DataCollection[] blockCollection, final Dimension schematicDimension) {
ids = new byte[blockCollection.length]; ids = new short[blockCollection.length];
datas = new byte[blockCollection.length]; datas = new byte[blockCollection.length];
for (int i = 0; i < blockCollection.length; i++) { for (int i = 0; i < blockCollection.length; i++) {
DataCollection block = blockCollection[i]; DataCollection block = blockCollection[i];
@ -777,7 +790,7 @@ public abstract class SchematicHandler {
this.schematicDimension = schematicDimension; this.schematicDimension = schematicDimension;
} }
public Schematic(final byte[] i, final byte[] b, final Dimension d) { public Schematic(final short[] i, final byte[] b, final Dimension d) {
ids = i; ids = i;
datas = b; datas = b;
schematicDimension = d; schematicDimension = d;
@ -814,7 +827,7 @@ public abstract class SchematicHandler {
* Get the block id array * Get the block id array
* @return * @return
*/ */
public byte[] getIds() { public short[] getIds() {
return ids; return ids;
} }

View File

@ -112,6 +112,16 @@ public class BukkitUtil extends BlockManager {
return getWorld(world).getHighestBlockYAt(x, z); return getWorld(world).getHighestBlockYAt(x, z);
} }
public static void unloadChunkAt(String worldname, int X, int Z, boolean save, boolean safe) {
final World world = getWorld(worldname);
world.unloadChunk(X, Z, save, safe);
}
public static void loadChunkAt(final String worldname, int X, int Z, boolean force) {
final World world = getWorld(worldname);
world.loadChunk(X, Z, force);
}
public static Chunk getChunkAt(final String worldname, final int x, final int z) { public static Chunk getChunkAt(final String worldname, final int x, final int z) {
final World world = getWorld(worldname); final World world = getWorld(worldname);
return world.getChunkAt(x, z); return world.getChunkAt(x, z);
@ -156,13 +166,10 @@ public class BukkitUtil extends BlockManager {
final World world = getWorld(worldname); final World world = getWorld(worldname);
for (int x = pos1_x; x <= pos2_x; x++) { for (int x = pos1_x; x <= pos2_x; x++) {
for (int z = pos1_z; z <= pos2_z; z++) { for (int z = pos1_z; z <= pos2_z; z++) {
final Block blk = world.getBlockAt(x, 0, z); if (world.getBiome(x, z) == b) {
final Biome c = blk.getBiome();
if (c.equals(b)) {
x += 15;
continue; continue;
} }
blk.setBiome(b); world.setBiome(x, z, b);
} }
} }
} }