mirror of
https://github.com/TotalFreedomMC/TF-PlotSquared.git
synced 2024-12-23 00:15:06 +00:00
Fix schematic creation
Seems fairly ugly, but only because the format requires the blocks be inputted in that exact order, and it prevents us from having to cache the blocks per chunk to then insert into the relevant tags.
This commit is contained in:
parent
c53cd1ec91
commit
28f3be56b3
2 changed files with 243 additions and 258 deletions
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@ -1,7 +1,6 @@
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package com.github.intellectualsites.plotsquared.bukkit.util;
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import com.github.intellectualsites.plotsquared.bukkit.object.schematic.StateWrapper;
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import com.github.intellectualsites.plotsquared.plot.object.ChunkLoc;
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import com.github.intellectualsites.plotsquared.plot.object.Location;
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import com.github.intellectualsites.plotsquared.plot.object.RegionWrapper;
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import com.github.intellectualsites.plotsquared.plot.object.RunnableVal;
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@ -13,12 +12,10 @@ import com.sk89q.jnbt.*;
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import com.sk89q.worldedit.math.BlockVector3;
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import com.sk89q.worldedit.regions.CuboidRegion;
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import com.sk89q.worldedit.world.block.BaseBlock;
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import org.bukkit.Bukkit;
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import org.bukkit.Chunk;
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import org.bukkit.World;
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import java.io.ByteArrayOutputStream;
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import java.util.*;
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import java.util.stream.IntStream;
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/**
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* Schematic Handler.
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@ -39,9 +36,9 @@ public class BukkitSchematicHandler extends SchematicHandler {
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new CuboidRegion(BukkitUtil.IMP.getWeWorld(world), bot.getBlockVector3(),
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top.getBlockVector3());
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final int width = top.getX() - bot.getX() + 1;
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int height = top.getY() - bot.getY() + 1;
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final int length = top.getZ() - bot.getZ() + 1;
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final int width = cuboidRegion.getWidth();
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int height = cuboidRegion.getHeight();
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final int length = cuboidRegion.getLength();
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Map<String, Tag> schematic = new HashMap<>();
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schematic.put("Version", new IntTag(1));
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@ -89,109 +86,106 @@ public class BukkitSchematicHandler extends SchematicHandler {
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RegionWrapper region = queue.poll();
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Location pos1 = new Location(world, region.minX, region.minY, region.minZ);
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Location pos2 = new Location(world, region.maxX, region.maxY, region.maxZ);
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final int bx = bot.getX();
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final int bz = bot.getZ();
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final int p1x = pos1.getX();
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final int p1z = pos1.getZ();
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final int p2x = pos2.getX();
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final int p2z = pos2.getZ();
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final int bcx = p1x >> 4;
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final int bcz = p1z >> 4;
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final int tcx = p2x >> 4;
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final int tcz = p2z >> 4;
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final int sy = pos1.getY();
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final int ey = pos2.getY();
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// Generate list of chunks
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final ArrayList<ChunkLoc> chunks = new ArrayList<>();
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for (int x = bcx; x <= tcx; x++) {
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for (int z = bcz; z <= tcz; z++) {
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chunks.add(new ChunkLoc(x, z));
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}
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}
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final World worldObj = Bukkit.getWorld(world);
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// Main thread
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Iterator<Integer> yiter = IntStream.range(sy, ey).iterator();
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TaskManager.runTask(new Runnable() {
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@Override public void run() {
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long start = System.currentTimeMillis();
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while (!chunks.isEmpty()
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&& System.currentTimeMillis() - start < 20) {
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// save schematics
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ChunkLoc chunk = chunks.remove(0);
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Chunk bc = worldObj.getChunkAt(chunk.x, chunk.z);
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if (!bc.load(false)) {
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continue;
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}
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int X = chunk.x;
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int Z = chunk.z;
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int xxb = X << 4;
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int zzb = Z << 4;
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int xxt = xxb + 15;
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int zzt = zzb + 15;
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final Runnable yTask = this;
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long ystart = System.currentTimeMillis();
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while (yiter.hasNext()
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&& System.currentTimeMillis() - ystart < 20) {
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final int fy = yiter.next();
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Iterator<Integer> ziter = IntStream.range(p1z, p2z).iterator();
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TaskManager.runTask(new Runnable() {
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@Override public void run() {
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final Runnable zTask = this;
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long zstart = System.currentTimeMillis();
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Iterator<Integer> xiter =
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IntStream.range(p1x, p2x).iterator();
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while (ziter.hasNext()
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&& System.currentTimeMillis() - zstart < 20) {
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final int fz = ziter.next();
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TaskManager.runTask(new Runnable() {
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@Override public void run() {
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long xstart = System.currentTimeMillis();
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while (xiter.hasNext()
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&& System.currentTimeMillis() - xstart
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< 20) {
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final int x = xiter.next();
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int rx = x - p1x;
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int ry = fy - sy;
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int rz = fz - p1z;
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BlockVector3 point =
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BlockVector3.at(x, fy, fz);
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BaseBlock block =
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cuboidRegion.getWorld()
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.getFullBlock(point);
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if (block.getNbtData() != null) {
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Map<String, Tag> values =
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new HashMap<>();
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for (Map.Entry<String, Tag> entry : block
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.getNbtData().getValue()
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.entrySet()) {
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values.put(entry.getKey(),
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entry.getValue());
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}
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// Remove 'id' if it exists. We want 'Id'
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values.remove("id");
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if (X == bcx) {
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xxb = p1x;
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}
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if (X == tcx) {
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xxt = p2x;
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}
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if (Z == bcz) {
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zzb = p1z;
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}
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if (Z == tcz) {
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zzt = p2z;
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}
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for (int y = sy; y <= Math.min(255, ey); y++) {
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int ry = y - sy;
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for (int z = zzb; z <= zzt; z++) {
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int rz = z - bz;
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for (int x = xxb; x <= xxt; x++) {
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int rx = x - bx;
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BlockVector3 point = BlockVector3.at(x, y, z);
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BaseBlock block =
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cuboidRegion.getWorld().getFullBlock(point);
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if (block.getNbtData() != null) {
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Map<String, Tag> values = new HashMap<>();
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for (Map.Entry<String, Tag> entry : block
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.getNbtData().getValue().entrySet()) {
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values
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.put(entry.getKey(), entry.getValue());
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// Positions are kept in NBT, we don't want that.
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values.remove("x");
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values.remove("y");
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values.remove("z");
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values.put("Id", new StringTag(
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block.getNbtId()));
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values.put("Pos", new IntArrayTag(
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new int[] {rx, ry, rz}));
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tileEntities
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.add(new CompoundTag(values));
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}
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String blockKey =
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block.toImmutableState()
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.getAsString();
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int blockId;
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if (palette.containsKey(blockKey)) {
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blockId = palette.get(blockKey);
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} else {
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blockId = palette.size();
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palette
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.put(blockKey, palette.size());
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}
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while ((blockId & -128) != 0) {
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buffer.write(blockId & 127 | 128);
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blockId >>>= 7;
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}
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buffer.write(blockId);
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}
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if (xiter.hasNext()) {
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TaskManager.runTaskLater(this, 1);
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} else {
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zTask.run();
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}
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}
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// Remove 'id' if it exists. We want 'Id'
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values.remove("id");
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// Positions are kept in NBT, we don't want that.
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values.remove("x");
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values.remove("y");
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values.remove("z");
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values
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.put("Id", new StringTag(block.getNbtId()));
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values.put("Pos",
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new IntArrayTag(new int[] {rx, ry, rz}));
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tileEntities.add(new CompoundTag(values));
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}
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String blockKey =
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block.toImmutableState().getAsString();
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int blockId;
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if (palette.containsKey(blockKey)) {
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blockId = palette.get(blockKey);
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} else {
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blockId = palette.size();
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palette.put(blockKey, palette.size());
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}
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while ((blockId & -128) != 0) {
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buffer.write(blockId & 127 | 128);
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blockId >>>= 7;
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}
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buffer.write(blockId);
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});
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}
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if (ziter.hasNext()) {
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TaskManager.runTaskLater(zTask, 1);
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} else {
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yTask.run();
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}
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}
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}
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});
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}
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if (!chunks.isEmpty()) {
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TaskManager.runTaskLater(this, 1);
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if (yiter.hasNext()) {
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TaskManager.runTaskLater(yTask, 1);
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} else {
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regionTask.run();
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}
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@ -77,24 +77,17 @@ public abstract class SchematicHandler {
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if (value == null) {
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MainUtil.sendMessage(null, "&7 - Skipped plot &c" + plot.getId());
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} else {
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TaskManager.runTaskAsync(new Runnable() {
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@Override public void run() {
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MainUtil.sendMessage(null, "&6ID: " + plot.getId());
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boolean result = SchematicHandler.manager.save(value,
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directory + File.separator + name + ".schematic");
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if (!result) {
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MainUtil.sendMessage(null,
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"&7 - Failed to save &c" + plot.getId());
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} else {
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MainUtil
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.sendMessage(null, "&7 - &a success: " + plot.getId());
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}
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TaskManager.runTask(new Runnable() {
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@Override public void run() {
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THIS.run();
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}
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});
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TaskManager.runTaskAsync(() -> {
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MainUtil.sendMessage(null, "&6ID: " + plot.getId());
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boolean result = SchematicHandler.manager
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.save(value, directory + File.separator + name + ".schematic");
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if (!result) {
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MainUtil
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.sendMessage(null, "&7 - Failed to save &c" + plot.getId());
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} else {
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MainUtil.sendMessage(null, "&7 - &a success: " + plot.getId());
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}
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TaskManager.runTask(() -> THIS.run());
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});
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}
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}
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@ -117,158 +110,156 @@ public abstract class SchematicHandler {
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final int yOffset, final int zOffset, final boolean autoHeight,
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final RunnableVal<Boolean> whenDone) {
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TaskManager.runTask(new Runnable() {
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@Override public void run() {
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if (whenDone != null) {
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whenDone.value = false;
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TaskManager.runTask(() -> {
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if (whenDone != null) {
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whenDone.value = false;
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}
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if (schematic == null) {
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PlotSquared.debug("Schematic == null :|");
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TaskManager.runTask(whenDone);
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return;
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}
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try {
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// Set flags
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if (plot.hasOwner()) {
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Map<String, Tag> flags = schematic.getFlags();
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if (!flags.isEmpty()) {
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for (Map.Entry<String, Tag> entry : flags.entrySet()) {
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plot.setFlag(Flags.getFlag(entry.getKey()),
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StringTag.class.cast(entry.getValue()).getValue());
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}
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}
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}
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if (schematic == null) {
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PlotSquared.debug("Schematic == null :|");
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final LocalBlockQueue queue = plot.getArea().getQueue(false);
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BlockVector3 dimension = schematic.getClipboard().getDimensions();
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final int WIDTH = dimension.getX();
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final int LENGTH = dimension.getZ();
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final int HEIGHT = dimension.getY();
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// Validate dimensions
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RegionWrapper region = plot.getLargestRegion();
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if (((region.maxX - region.minX + xOffset + 1) < WIDTH) || (
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(region.maxZ - region.minZ + zOffset + 1) < LENGTH) || (HEIGHT > 256)) {
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PlotSquared.debug("Schematic is too large");
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PlotSquared.debug(
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"(" + WIDTH + ',' + LENGTH + ',' + HEIGHT + ") is bigger than (" + (
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region.maxX - region.minX) + ',' + (region.maxZ - region.minZ)
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+ ",256)");
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TaskManager.runTask(whenDone);
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return;
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}
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try {
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// Set flags
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if (plot.hasOwner()) {
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Map<String, Tag> flags = schematic.getFlags();
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if (!flags.isEmpty()) {
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for (Map.Entry<String, Tag> entry : flags.entrySet()) {
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plot.setFlag(Flags.getFlag(entry.getKey()),
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StringTag.class.cast(entry.getValue()).getValue());
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}
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}
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}
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final LocalBlockQueue queue = plot.getArea().getQueue(false);
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BlockVector3 dimension = schematic.getClipboard().getDimensions();
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final int WIDTH = dimension.getX();
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final int LENGTH = dimension.getZ();
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final int HEIGHT = dimension.getY();
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// Validate dimensions
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RegionWrapper region = plot.getLargestRegion();
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if (((region.maxX - region.minX + xOffset + 1) < WIDTH) || (
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(region.maxZ - region.minZ + zOffset + 1) < LENGTH) || (HEIGHT > 256)) {
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PlotSquared.debug("Schematic is too large");
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PlotSquared.debug(
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"(" + WIDTH + ',' + LENGTH + ',' + HEIGHT + ") is bigger than (" + (
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region.maxX - region.minX) + ',' + (region.maxZ - region.minZ)
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+ ",256)");
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TaskManager.runTask(whenDone);
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return;
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}
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// block type and data arrays
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final BlockArrayClipboard blockArrayClipboard = schematic.getClipboard();
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// Calculate the optimal height to paste the schematic at
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final int y_offset_actual;
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if (autoHeight) {
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if (HEIGHT >= 256) {
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y_offset_actual = yOffset;
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} else {
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PlotArea pw = plot.getArea();
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if (pw instanceof ClassicPlotWorld) {
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y_offset_actual = yOffset + ((ClassicPlotWorld) pw).PLOT_HEIGHT;
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} else {
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y_offset_actual = yOffset + 1 + MainUtil
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.getHeighestBlock(plot.getWorldName(), region.minX + 1,
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region.minZ + 1);
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}
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}
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} else {
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// block type and data arrays
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final BlockArrayClipboard blockArrayClipboard = schematic.getClipboard();
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// Calculate the optimal height to paste the schematic at
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final int y_offset_actual;
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if (autoHeight) {
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if (HEIGHT >= 256) {
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y_offset_actual = yOffset;
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}
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Location pos1 =
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new Location(plot.getWorldName(), region.minX + xOffset, y_offset_actual,
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region.minZ + zOffset);
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Location pos2 = pos1.clone().add(WIDTH - 1, HEIGHT - 1, LENGTH - 1);
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final int p1x = pos1.getX();
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final int p1z = pos1.getZ();
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final int p2x = pos2.getX();
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final int p2z = pos2.getZ();
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final int bcx = p1x >> 4;
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final int bcz = p1z >> 4;
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final int tcx = p2x >> 4;
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final int tcz = p2z >> 4;
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/* final ArrayList<ChunkLoc> chunks = new ArrayList<>();
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for (int x = bcx; x <= tcx; x++) {
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for (int z = bcz; z <= tcz; z++) {
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chunks.add(new ChunkLoc(x, z));
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} else {
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PlotArea pw = plot.getArea();
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if (pw instanceof ClassicPlotWorld) {
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y_offset_actual = yOffset + ((ClassicPlotWorld) pw).PLOT_HEIGHT;
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} else {
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y_offset_actual = yOffset + 1 + MainUtil
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.getHeighestBlock(plot.getWorldName(), region.minX + 1,
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region.minZ + 1);
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}
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}*/
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ChunkManager.chunkTask(pos1, pos2, new RunnableVal<int[]>() {
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@Override public void run(int[] value) {
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//int count = 0;
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//while (!chunks.isEmpty() && count < 256) {
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//count++;
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ChunkLoc chunk = new ChunkLoc(value[0], value[1]);
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PlotSquared.log(chunk.toString());
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int x = chunk.x;
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int z = chunk.z;
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int xxb = x << 4;
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int zzb = z << 4;
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int xxt = xxb + 15;
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int zzt = zzb + 15;
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if (x == bcx) {
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xxb = p1x;
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}
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if (x == tcx) {
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xxt = p2x;
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}
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if (z == bcz) {
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zzb = p1z;
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}
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if (z == tcz) {
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zzt = p2z;
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}
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// Paste schematic here
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for (int ry = 0; ry < Math.min(256, HEIGHT); ry++) {
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int yy = y_offset_actual + ry;
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if (yy > 255) {
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continue;
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}
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int i1 = ry * WIDTH * LENGTH;
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for (int rz = zzb - p1z; rz <= (zzt - p1z); rz++) {
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int i2 = (rz * WIDTH) + i1;
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for (int rx = xxb - p1x; rx <= (xxt - p1x); rx++) {
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int i = i2 + rx;
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int xx = p1x + rx;
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int zz = p1z + rz;
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BaseBlock id = blockArrayClipboard
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.getFullBlock(BlockVector3.at(rx, ry, rz));
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queue.setBlock(xx, yy, zz, id);
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}
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}
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}
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/* }
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if (!chunks.isEmpty()) {
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this.run();
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} else {
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queue.flush();
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HashMap<BlockLoc, CompoundTag> tiles = schematic.getClipboard().getTiles();
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if (!tiles.isEmpty()) {
|
||||
TaskManager.IMP.sync(new RunnableVal<Object>() {
|
||||
@Override public void run(Object value) {
|
||||
for (Map.Entry<BlockLoc, CompoundTag> entry : schematic
|
||||
.getTiles().entrySet()) {
|
||||
BlockLoc loc = entry.getKey();
|
||||
restoreTile(queue, entry.getValue(),
|
||||
p1x + xOffset + loc.x, loc.y + y_offset_actual,
|
||||
p1z + zOffset + loc.z);
|
||||
}
|
||||
}
|
||||
});
|
||||
}
|
||||
}*/
|
||||
}
|
||||
}, null, 10);
|
||||
if (whenDone != null) {
|
||||
whenDone.value = true;
|
||||
whenDone.run();
|
||||
}
|
||||
} catch (Exception e) {
|
||||
e.printStackTrace();
|
||||
TaskManager.runTask(whenDone);
|
||||
} else {
|
||||
y_offset_actual = yOffset;
|
||||
}
|
||||
Location pos1 =
|
||||
new Location(plot.getWorldName(), region.minX + xOffset, y_offset_actual,
|
||||
region.minZ + zOffset);
|
||||
Location pos2 = pos1.clone().add(WIDTH - 1, HEIGHT - 1, LENGTH - 1);
|
||||
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<>();
|
||||
for (int x = bcx; x <= tcx; x++) {
|
||||
for (int z = bcz; z <= tcz; z++) {
|
||||
chunks.add(new ChunkLoc(x, z));
|
||||
}
|
||||
}*/
|
||||
ChunkManager.chunkTask(pos1, pos2, new RunnableVal<int[]>() {
|
||||
@Override public void run(int[] value) {
|
||||
//int count = 0;
|
||||
//while (!chunks.isEmpty() && count < 256) {
|
||||
//count++;
|
||||
ChunkLoc chunk = new ChunkLoc(value[0], value[1]);
|
||||
PlotSquared.log(chunk.toString());
|
||||
int x = chunk.x;
|
||||
int z = chunk.z;
|
||||
int xxb = x << 4;
|
||||
int zzb = z << 4;
|
||||
int xxt = xxb + 15;
|
||||
int zzt = zzb + 15;
|
||||
if (x == bcx) {
|
||||
xxb = p1x;
|
||||
}
|
||||
if (x == tcx) {
|
||||
xxt = p2x;
|
||||
}
|
||||
if (z == bcz) {
|
||||
zzb = p1z;
|
||||
}
|
||||
if (z == tcz) {
|
||||
zzt = p2z;
|
||||
}
|
||||
// Paste schematic here
|
||||
|
||||
for (int ry = 0; ry < Math.min(256, HEIGHT); ry++) {
|
||||
int yy = y_offset_actual + ry;
|
||||
if (yy > 255) {
|
||||
continue;
|
||||
}
|
||||
int i1 = ry * WIDTH * LENGTH;
|
||||
for (int rz = zzb - p1z; rz <= (zzt - p1z); rz++) {
|
||||
int i2 = (rz * WIDTH) + i1;
|
||||
for (int rx = xxb - p1x; rx <= (xxt - p1x); rx++) {
|
||||
int i = i2 + rx;
|
||||
int xx = p1x + rx;
|
||||
int zz = p1z + rz;
|
||||
BaseBlock id = blockArrayClipboard
|
||||
.getFullBlock(BlockVector3.at(rx, ry, rz));
|
||||
queue.setBlock(xx, yy, zz, id);
|
||||
}
|
||||
}
|
||||
}
|
||||
/* }
|
||||
if (!chunks.isEmpty()) {
|
||||
this.run();
|
||||
} else {
|
||||
queue.flush();
|
||||
HashMap<BlockLoc, CompoundTag> tiles = schematic.getClipboard().getTiles();
|
||||
if (!tiles.isEmpty()) {
|
||||
TaskManager.IMP.sync(new RunnableVal<Object>() {
|
||||
@Override public void run(Object value) {
|
||||
for (Map.Entry<BlockLoc, CompoundTag> entry : schematic
|
||||
.getTiles().entrySet()) {
|
||||
BlockLoc loc = entry.getKey();
|
||||
restoreTile(queue, entry.getValue(),
|
||||
p1x + xOffset + loc.x, loc.y + y_offset_actual,
|
||||
p1z + zOffset + loc.z);
|
||||
}
|
||||
}
|
||||
});
|
||||
}
|
||||
}*/
|
||||
}
|
||||
}, null, 10);
|
||||
if (whenDone != null) {
|
||||
whenDone.value = true;
|
||||
whenDone.run();
|
||||
}
|
||||
} catch (Exception e) {
|
||||
e.printStackTrace();
|
||||
TaskManager.runTask(whenDone);
|
||||
}
|
||||
});
|
||||
}
|
||||
|
|
Loading…
Reference in a new issue