Examples with ChunkSection org.lanternpowered.server.world.chunk.LanternChunk.ChunkSection used on opensource projects

Example 1 with ChunkSection

use of org.lanternpowered.server.world.chunk.LanternChunk.ChunkSection in project LanternServer by LanternPowered.

the class AnvilChunkIOService method read.

@Override
public boolean read(LanternChunk chunk) throws IOException {
    final int x = chunk.getX();
    final int z = chunk.getZ();
    final RegionFile region = this.cache.getRegionFileByChunk(x, z);
    final int regionX = x & REGION_MASK;
    final int regionZ = z & REGION_MASK;
    final DataInputStream is = region.getChunkDataInputStream(regionX, regionZ);
    if (is == null) {
        return false;
    }
    final DataView levelDataView;
    try (NbtDataContainerInputStream nbt = new NbtDataContainerInputStream(is)) {
        levelDataView = nbt.read().getView(LEVEL).get();
    }
    // read the vertical sections
    final List<DataView> sectionList = levelDataView.getViewList(SECTIONS).get();
    final ChunkSection[] sections = new ChunkSection[16];
    // noinspection unchecked
    final Short2ObjectOpenHashMap<LanternTileEntity>[] tileEntitySections = new Short2ObjectOpenHashMap[sections.length];
    for (DataView sectionTag : sectionList) {
        final int y = sectionTag.getInt(Y).get();
        final byte[] rawTypes = (byte[]) sectionTag.get(BLOCKS).get();
        final byte[] extTypes = sectionTag.contains(BLOCKS_EXTRA) ? (byte[]) sectionTag.get(BLOCKS_EXTRA).get() : null;
        final byte[] data = (byte[]) sectionTag.get(DATA).get();
        final byte[] blockLight = (byte[]) sectionTag.get(BLOCK_LIGHT).get();
        final byte[] skyLight = (byte[]) sectionTag.get(SKY_LIGHT).get();
        final NibbleArray dataArray = new NibbleArray(rawTypes.length, data, true);
        final NibbleArray extTypesArray = extTypes == null ? null : new NibbleArray(rawTypes.length, extTypes, true);
        final short[] types = new short[rawTypes.length];
        for (int i = 0; i < rawTypes.length; i++) {
            types[i] = (short) ((extTypesArray == null ? 0 : extTypesArray.get(i)) << 12 | ((rawTypes[i] & 0xff) << 4) | dataArray.get(i));
        }
        tileEntitySections[y] = new Short2ObjectOpenHashMap<>();
        sections[y] = new ChunkSection(types, new NibbleArray(rawTypes.length, skyLight, true), new NibbleArray(rawTypes.length, blockLight, true), tileEntitySections[y]);
    }
    levelDataView.getViewList(TILE_ENTITIES).ifPresent(tileEntityViews -> {
        final ObjectSerializer<LanternTileEntity> tileEntitySerializer = ObjectSerializerRegistry.get().get(LanternTileEntity.class).get();
        for (DataView tileEntityView : tileEntityViews) {
            final int tileY = tileEntityView.getInt(TILE_ENTITY_Y).get();
            final int section = tileY >> 4;
            if (tileEntitySections[section] == null) {
                continue;
            }
            final int tileZ = tileEntityView.getInt(TILE_ENTITY_Z).get();
            final int tileX = tileEntityView.getInt(TILE_ENTITY_X).get();
            try {
                final LanternTileEntity tileEntity = tileEntitySerializer.deserialize(tileEntityView);
                tileEntity.setLocation(new Location<>(this.world, tileX, tileY, tileZ));
                tileEntity.setValid(true);
                tileEntitySections[section].put((short) ChunkSection.index(tileX & 0xf, tileY & 0xf, tileZ & 0xf), tileEntity);
            } catch (InvalidDataException e) {
                this.logger.warn("Error loading tile entity at ({};{};{}) in the chunk ({},{}) in the world {}", tileX & 0xf, tileY & 0xf, tileZ & 0xf, x, z, getWorldProperties().getWorldName(), e);
            }
        }
    });
    final DataView spongeDataView = levelDataView.getView(DataQueries.SPONGE_DATA).orElse(null);
    final List<DataView> trackerDataViews = spongeDataView == null ? null : levelDataView.getViewList(TRACKER_DATA_TABLE).orElse(null);
    // noinspection unchecked
    final Short2ObjectMap<LanternChunk.TrackerData>[] trackerData = chunk.getTrackerData().getRawObjects();
    if (trackerDataViews != null) {
        for (DataView dataView : trackerDataViews) {
            final Optional<Short> optIndex = dataView.getShort(TRACKER_BLOCK_POS);
            if (!optIndex.isPresent()) {
                continue;
            }
            final int creatorId = dataView.getInt(TRACKER_ENTRY_CREATOR).orElse(-1);
            final int notifierId = dataView.getInt(TRACKER_ENTRY_NOTIFIER).orElse(-1);
            // index = z << 12 | y << 4 | x
            int index = optIndex.get() & 0xffff;
            final int section = (index >> 8) & 0xf;
            // Convert the index to the section based system
            // index = y << 8 | z << 4 | x
            index = ChunkSection.index(index & 0xf, (index >> 4) & 0xf, index >> 12);
            trackerData[section].put((short) index, new LanternChunk.TrackerData(creatorId, notifierId));
        }
    }
    // initialize the chunk
    chunk.initializeSections(sections);
    chunk.setPopulated(levelDataView.getInt(TERRAIN_POPULATED).orElse(0) > 0);
    if (levelDataView.contains(BIOMES)) {
        final byte[] biomes = (byte[]) levelDataView.get(BIOMES).get();
        final byte[] biomesExtra = (byte[]) (levelDataView.contains(BIOMES_EXTRA) ? levelDataView.get(BIOMES_EXTRA).get() : null);
        final short[] newBiomes = new short[biomes.length];
        for (int i = 0; i < biomes.length; i++) {
            newBiomes[i] = (short) ((biomesExtra == null ? 0 : biomesExtra[i]) << 8 | biomes[i]);
        }
        chunk.initializeBiomes(newBiomes);
    }
    final Object heightMap;
    if (levelDataView.contains(HEIGHT_MAP) && (heightMap = levelDataView.get(HEIGHT_MAP).get()) instanceof int[]) {
        chunk.initializeHeightMap((int[]) heightMap);
    } else {
        chunk.initializeHeightMap(null);
    }
    levelDataView.getLong(INHABITED_TIME).ifPresent(time -> chunk.setInhabitedTime(time.intValue()));
    chunk.setLightPopulated(levelDataView.getInt(LIGHT_POPULATED).orElse(0) > 0);
    chunk.initializeLight();
    levelDataView.getViewList(ENTITIES).ifPresent(entityViews -> {
        final ObjectSerializer<LanternEntity> entitySerializer = ObjectSerializerRegistry.get().get(LanternEntity.class).get();
        for (DataView entityView : entityViews) {
            try {
                final LanternEntity entity = entitySerializer.deserialize(entityView);
                final int ySection = fixEntityYSection(entity.getPosition().getFloorY() >> 4);
                chunk.addEntity(entity, ySection);
            } catch (InvalidDataException e) {
                this.logger.warn("Error loading entity in the chunk ({},{}) in the world {}", x, z, getWorldProperties().getWorldName(), e);
            }
        }
    });
    return true;
}

Example 2 with ChunkSection

use of org.lanternpowered.server.world.chunk.LanternChunk.ChunkSection in project LanternServer by LanternPowered.

the class LanternChunkManager method generate.

/**
 * Attempts to generate the chunk.
 *
 * @param chunk The chunk
 * @param cause The cause
 */
private void generate(LanternChunk chunk, Cause cause) {
    final EventManager eventManager = Sponge.getEventManager();
    eventManager.post(SpongeEventFactory.createGenerateChunkEventPre(cause, chunk));
    final GenerationBuffers buffers = this.genBuffers.get();
    // noinspection ConstantConditions
    final ChunkBiomeBuffer biomeBuffer = buffers.chunkBiomeBuffer;
    biomeBuffer.reuse(new Vector3i(chunk.getX() << 4, 0, chunk.getZ() << 4));
    // Generate the biomes
    final BiomeGenerator biomeGenerator = this.worldGenerator.getBiomeGenerator();
    biomeGenerator.generateBiomes(biomeBuffer);
    // Initialize the biomes into the chunk
    final ImmutableBiomeVolume immutableBiomeVolume = biomeBuffer.getImmutableBiomeCopy();
    chunk.initializeBiomes(biomeBuffer.detach().clone());
    final ChunkBlockBuffer blockBuffer = buffers.chunkBlockBuffer;
    blockBuffer.reuse(new Vector3i(chunk.getX() << 4, 0, chunk.getZ() << 4));
    // Apply the main world generator
    final GenerationPopulator baseGenerator = this.worldGenerator.getBaseGenerationPopulator();
    baseGenerator.populate(this.world, blockBuffer, immutableBiomeVolume);
    // Get all the used biome types
    final Set<BiomeType> biomeTypes = ImmutableSet.copyOf(biomeBuffer.biomeTypes);
    for (BiomeType biomeType : biomeTypes) {
        final BiomeGenerationSettings settings = this.worldGenerator.getBiomeSettings(biomeType);
        for (GenerationPopulator generator : settings.getGenerationPopulators()) {
            generator.populate(this.world, blockBuffer, immutableBiomeVolume);
        }
    }
    // Apply the generator populators to complete the block buffer
    for (GenerationPopulator generator : this.worldGenerator.getGenerationPopulators()) {
        generator.populate(this.world, blockBuffer, immutableBiomeVolume);
    }
    // Create the chunk sections
    final ChunkSection[] sections = new ChunkSection[CHUNK_SECTIONS];
    for (int sy = 0; sy < CHUNK_SECTIONS; sy++) {
        final int nonAirCount = blockBuffer.nonAirCount[sy];
        if (nonAirCount > 0) {
            sections[sy] = new ChunkSection(blockBuffer.types[sy]);
        }
    }
    // Initialize the chunk
    chunk.initializeSections(sections);
    chunk.initializeHeightMap(null);
    chunk.initializeLight();
    eventManager.post(SpongeEventFactory.createGenerateChunkEventPost(cause, chunk));
}