/* * PlotSquared, a land and world management plugin for Minecraft. * Copyright (C) IntellectualSites * Copyright (C) IntellectualSites team and contributors * * This program is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ package com.plotsquared.bukkit.queue; import com.google.common.base.Preconditions; import com.intellectualsites.annotations.DoNotUse; import com.plotsquared.bukkit.util.BukkitBlockUtil; import com.plotsquared.bukkit.util.BukkitUtil; import com.plotsquared.core.location.ChunkWrapper; import com.plotsquared.core.location.Location; import com.plotsquared.core.queue.ZeroedDelegateScopedQueueCoordinator; import com.plotsquared.core.util.ChunkUtil; import com.plotsquared.core.util.PatternUtil; import com.sk89q.worldedit.bukkit.BukkitAdapter; import com.sk89q.worldedit.function.pattern.Pattern; import com.sk89q.worldedit.world.biome.BiomeType; import com.sk89q.worldedit.world.block.BaseBlock; import com.sk89q.worldedit.world.block.BlockState; import com.sk89q.worldedit.world.block.BlockTypes; import org.bukkit.Bukkit; import org.bukkit.Chunk; import org.bukkit.World; import org.bukkit.block.Biome; import org.bukkit.generator.ChunkGenerator.BiomeGrid; import org.bukkit.generator.ChunkGenerator.ChunkData; import org.checkerframework.checker.nullness.qual.NonNull; import org.checkerframework.checker.nullness.qual.Nullable; import java.util.Arrays; /** * Internal use only. Subject to changes at any time. */ @DoNotUse public class GenChunk extends ZeroedDelegateScopedQueueCoordinator { public final Biome[] biomes; public BlockState[][] result; public BiomeGrid biomeGrid; public Chunk chunk; public String world; public int chunkX; public int chunkZ; private ChunkData chunkData = null; /** * @param minY minimum world Y, inclusive * @param maxY maximum world Y, inclusive * @since 6.6.0 */ public GenChunk(int minY, int maxY) { super(null, Location.at("", 0, minY, 0), Location.at("", 15, maxY, 15)); this.biomes = Biome.values(); } public @Nullable ChunkData getChunkData() { return this.chunkData; } /** * Set the internal Bukkit chunk data * * @param chunkData Bukkit ChunkData */ public void setChunkData(@NonNull ChunkData chunkData) { this.chunkData = chunkData; } public @NonNull Chunk getChunk() { if (chunk == null) { World worldObj = BukkitUtil.getWorld(world); if (worldObj != null) { this.chunk = worldObj.getChunkAt(chunkX, chunkZ); } } return chunk; } /** * Set the chunk being represented * * @param chunk Bukkit Chunk */ public void setChunk(@NonNull Chunk chunk) { this.chunk = chunk; } /** * Set the world and XZ of the chunk being represented via {@link ChunkWrapper} * * @param wrap PlotSquared ChunkWrapper */ public void setChunk(@NonNull ChunkWrapper wrap) { chunk = null; world = wrap.world(); chunkX = wrap.x(); chunkZ = wrap.z(); } @Override public void fillBiome(@NonNull BiomeType biomeType) { if (biomeGrid == null) { return; } Biome biome = BukkitAdapter.adapt(biomeType); for (int y = getMin().getY(); y <= getMax().getY(); y++) { for (int x = 0; x < 16; x++) { for (int z = 0; z < 16; z++) { this.biomeGrid.setBiome(x, y, z, biome); } } } } @Override public void setCuboid(@NonNull Location pos1, @NonNull Location pos2, @NonNull BlockState block) { if (result != null && pos1.getX() == 0 && pos1.getZ() == 0 && pos2.getX() == 15 && pos2.getZ() == 15) { for (int y = pos1.getY(); y <= pos2.getY(); y++) { int layer = getLayerIndex(y); BlockState[] data = result[layer]; if (data == null) { result[layer] = data = new BlockState[4096]; } int start = y << 8; int end = start + 256; Arrays.fill(data, start, end, block); } } int minX = Math.min(pos1.getX(), pos2.getX()); int minY = Math.min(pos1.getY(), pos2.getY()); int minZ = Math.min(pos1.getZ(), pos2.getZ()); int maxX = Math.max(pos1.getX(), pos2.getX()); int maxY = Math.max(pos1.getY(), pos2.getY()); int maxZ = Math.max(pos1.getZ(), pos2.getZ()); chunkData.setRegion(minX, minY, minZ, maxX + 1, maxY + 1, maxZ + 1, BukkitAdapter.adapt(block)); } @Override public boolean setBiome(int x, int z, @NonNull BiomeType biomeType) { return setBiome(x, z, BukkitAdapter.adapt(biomeType)); } /** * Set the in the whole column of XZ * * @param x Relative x location within the chunk (0 - 15) * @param z Relative z location within the chunk (0 - 15) * @param biome Bukkit biome to set * @return if successful */ public boolean setBiome(int x, int z, @NonNull Biome biome) { if (this.biomeGrid != null) { for (int y = getMin().getY(); y <= getMax().getY(); y++) { this.setBiome(x, y, z, biome); } return true; } return false; } public boolean setBiome(int x, int y, int z, @NonNull Biome biome) { if (this.biomeGrid != null) { this.biomeGrid.setBiome(x, y, z, biome); return true; } return false; } @Override public boolean setBlock(int x, int y, int z, @NonNull Pattern pattern) { final BaseBlock block = PatternUtil.apply(Preconditions.checkNotNull( pattern, "Pattern may not be null" ), x + (chunkX << 4), y, z + (chunkZ << 4)); return setBlock(x, y, z, block); } @Override public boolean setBlock(int x, int y, int z, @NonNull BlockState id) { if (this.result == null) { this.chunkData.setBlock(x, y, z, BukkitAdapter.adapt(id)); return true; } this.chunkData.setBlock(x, y, z, BukkitAdapter.adapt(id)); this.storeCache(x, y, z, id); return true; } private void storeCache(final int x, final int y, final int z, final @NonNull BlockState id) { int i = getLayerIndex(y); BlockState[] v = this.result[i]; if (v == null) { this.result[i] = v = new BlockState[4096]; } int j = ChunkUtil.getJ(x, y, z); v[j] = id; } @Override public boolean setBlock(int x, int y, int z, @NonNull BaseBlock id) { if (this.result == null) { this.chunkData.setBlock(x, y, z, BukkitAdapter.adapt(id)); return true; } this.chunkData.setBlock(x, y, z, BukkitAdapter.adapt(id)); this.storeCache(x, y, z, id.toImmutableState()); return true; } @Override public @Nullable BlockState getBlock(int x, int y, int z) { int i = getLayerIndex(y); if (result == null) { return BukkitBlockUtil.get(chunkData.getType(x, y, z)); } BlockState[] array = result[i]; if (array == null) { return BlockTypes.AIR.getDefaultState(); } int j = ChunkUtil.getJ(x, y, z); return array[j]; } public int getX() { return chunk == null ? chunkX : chunk.getX(); } public int getZ() { return chunk == null ? chunkZ : chunk.getZ(); } @Override public com.sk89q.worldedit.world.@NonNull World getWorld() { return chunk == null ? BukkitAdapter.adapt(Bukkit.getWorld(world)) : BukkitAdapter.adapt(chunk.getWorld()); } @Override public @NonNull Location getMax() { return Location.at(getWorld().getName(), 15 + (getX() << 4), super.getMax().getY(), 15 + (getZ() << 4)); } @Override public @NonNull Location getMin() { return Location.at(getWorld().getName(), getX() << 4, super.getMin().getY(), getZ() << 4); } public @NonNull GenChunk clone() { GenChunk toReturn = new GenChunk(getMin().getY(), getMax().getY()); if (this.result != null) { for (int i = 0; i < this.result.length; i++) { BlockState[] matrix = this.result[i]; if (matrix != null) { toReturn.result[i] = new BlockState[matrix.length]; System.arraycopy(matrix, 0, toReturn.result[i], 0, matrix.length); } } } toReturn.chunkData = this.chunkData; return toReturn; } private int getLayerIndex(int y) { return (y - getMin().getY()) >> 4; } }