Secondary world loading

This commit is contained in:
boy0001 2015-05-10 13:17:10 +10:00
parent a1af1d1ee3
commit 024aa995f6

View File

@ -20,6 +20,7 @@
////////////////////////////////////////////////////////////////////////////////////////////////////
package com.intellectualcrafters.plot.object;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map.Entry;
@ -31,12 +32,12 @@ import org.bukkit.generator.BlockPopulator;
import org.bukkit.generator.ChunkGenerator;
import com.intellectualcrafters.plot.PlotSquared;
import com.intellectualcrafters.plot.generator.HybridPlotWorld;
import com.intellectualcrafters.plot.listeners.WorldEvents;
import com.intellectualcrafters.plot.util.ChunkManager;
public abstract class PlotGenerator extends ChunkGenerator {
private boolean loaded = false;
private short[][] result;
public int X;
public int Z;
@ -49,73 +50,87 @@ public abstract class PlotGenerator extends ChunkGenerator {
@SuppressWarnings("unchecked")
@Override
public List<BlockPopulator> getDefaultPopulators(World world) {
PlotSquared.loadWorld(WorldEvents.getName(world), this);
PlotWorld plotworld = PlotSquared.getPlotWorld(WorldEvents.getName(world));
if (!plotworld.MOB_SPAWNING) {
if (!plotworld.SPAWN_EGGS) {
world.setSpawnFlags(false, false);
try {
if (!loaded) {
PlotSquared.loadWorld(WorldEvents.getName(world), this);
PlotWorld plotworld = PlotSquared.getPlotWorld(WorldEvents.getName(world));
if (!plotworld.MOB_SPAWNING) {
if (!plotworld.SPAWN_EGGS) {
world.setSpawnFlags(false, false);
}
world.setAmbientSpawnLimit(0);
world.setAnimalSpawnLimit(0);
world.setMonsterSpawnLimit(0);
world.setWaterAnimalSpawnLimit(0);
}
else {
world.setSpawnFlags(true, true);
world.setAmbientSpawnLimit(-1);
world.setAnimalSpawnLimit(-1);
world.setMonsterSpawnLimit(-1);
world.setWaterAnimalSpawnLimit(-1);
}
loaded = true;
return (List<BlockPopulator>)(List<?>) getPopulators(WorldEvents.getName(world));
}
world.setAmbientSpawnLimit(0);
world.setAnimalSpawnLimit(0);
world.setMonsterSpawnLimit(0);
world.setWaterAnimalSpawnLimit(0);
}
else {
world.setSpawnFlags(true, true);
world.setAmbientSpawnLimit(-1);
world.setAnimalSpawnLimit(-1);
world.setMonsterSpawnLimit(-1);
world.setWaterAnimalSpawnLimit(-1);
catch (Exception e) {
e.printStackTrace();
}
return (List<BlockPopulator>)(List<?>) getPopulators(WorldEvents.getName(world));
return new ArrayList<BlockPopulator>();
}
@Override
public short[][] generateExtBlockSections(World world, Random r, int cx, int cz, BiomeGrid biomes) {
final int prime = 13;
int h = 1;
h = (prime * h) + cx;
h = (prime * h) + cz;
this.random.state = h;
this.result = new short[16][];
PlotWorld plotworld = PlotSquared.getPlotWorld(world.getName());
if (plotworld == null) {
plotworld = getNewPlotWorld(world.getName());
PlotSquared.addPlotWorld(world.getName(), plotworld, getPlotManager());
}
Biome biome = Biome.valueOf(plotworld.PLOT_BIOME);
this.X = cx << 4;
this.Z = cz << 4;
if (ChunkManager.FORCE_PASTE) {
for (short x = 0; x < 16; x++) {
for (short z = 0; z < 16; z++) {
if (biomes != null) {
biomes.setBiome(x, z, biome);
try {
if (!loaded) {
PlotSquared.loadWorld(WorldEvents.getName(world), this);
loaded = true;
}
final int prime = 13;
int h = 1;
h = (prime * h) + cx;
h = (prime * h) + cz;
this.random.state = h;
this.result = new short[16][];
this.X = cx << 4;
this.Z = cz << 4;
if (ChunkManager.FORCE_PASTE) {
PlotWorld plotworld = PlotSquared.getPlotWorld(world.getName());
Biome biome = Biome.valueOf(plotworld.PLOT_BIOME);
for (short x = 0; x < 16; x++) {
for (short z = 0; z < 16; z++) {
if (biomes != null) {
biomes.setBiome(x, z, biome);
}
final PlotLoc loc = new PlotLoc((X + x), (Z + z));
final HashMap<Short, Short> blocks = ChunkManager.GENERATE_BLOCKS.get(loc);
for (final Entry<Short, Short> entry : blocks.entrySet()) {
setBlock(x, entry.getKey(), z, entry.getValue());
}
}
final PlotLoc loc = new PlotLoc((X + x), (Z + z));
final HashMap<Short, Short> blocks = ChunkManager.GENERATE_BLOCKS.get(loc);
for (final Entry<Short, Short> entry : blocks.entrySet()) {
setBlock(x, entry.getKey(), z, entry.getValue());
}
return this.result;
}
generateChunk(world, ChunkManager.CURRENT_PLOT_CLEAR, random, cx, cz, biomes);
if (ChunkManager.CURRENT_PLOT_CLEAR != null) {
PlotLoc loc;
for (Entry<PlotLoc, HashMap<Short, Short>> entry : ChunkManager.GENERATE_BLOCKS.entrySet()) {
for (Entry<Short, Short> entry2 : entry.getValue().entrySet()) {
loc = entry.getKey();
int xx = loc.x - X;
int zz = loc.z - Z;
if (xx >= 0 && xx < 16) {
if (zz >= 0 && zz < 16) {
setBlock(xx, entry2.getKey(), zz, entry2.getValue());
}
}
}
}
}
return this.result;
}
generateChunk(world, ChunkManager.CURRENT_PLOT_CLEAR, random, cx, cz, biomes);
if (ChunkManager.CURRENT_PLOT_CLEAR != null) {
PlotLoc loc;
for (Entry<PlotLoc, HashMap<Short, Short>> entry : ChunkManager.GENERATE_BLOCKS.entrySet()) {
for (Entry<Short, Short> entry2 : entry.getValue().entrySet()) {
loc = entry.getKey();
int xx = loc.x - X;
int zz = loc.z - Z;
if (xx >= 0 && xx < 16) {
if (zz >= 0 && zz < 16) {
setBlock(xx, entry2.getKey(), zz, entry2.getValue());
}
}
}
}
catch (Exception e) {
e.printStackTrace();
}
return result;
}