cn.nukkit.level.generator.object.tree.ObjectJungleBigTree Maven / Gradle / Ivy
package cn.nukkit.level.generator.object.tree;
import cn.nukkit.block.Block;
import cn.nukkit.block.BlockID;
import cn.nukkit.level.ChunkManager;
import cn.nukkit.math.BlockVector3;
import cn.nukkit.math.MathHelper;
import cn.nukkit.math.NukkitRandom;
import cn.nukkit.math.Vector3;
public class ObjectJungleBigTree extends HugeTreesGenerator {
public ObjectJungleBigTree(int baseHeightIn, int extraRandomHeight, Block woodMetadata, Block leavesMetadata) {
super(baseHeightIn, extraRandomHeight, woodMetadata, leavesMetadata);
}
@Override
public boolean generate(ChunkManager level, NukkitRandom rand, Vector3 position) {
int height = this.getHeight(rand);
if (!this.ensureGrowable(level, rand, position, height)) {
return false;
} else {
this.createCrown(level, position.up(height), 2);
for (int j = (int) position.getY() + height - 2 - rand.nextBoundedInt(4); j > position.getY() + height / 2; j -= 2 + rand.nextBoundedInt(4)) {
float f = rand.nextFloat() * ((float) Math.PI * 2F);
int k = (int) (position.getX() + (0.5F + MathHelper.cos(f) * 4.0F));
int l = (int) (position.getZ() + (0.5F + MathHelper.sin(f) * 4.0F));
for (int i1 = 0; i1 < 5; ++i1) {
k = (int) (position.getX() + (1.5F + MathHelper.cos(f) * (float) i1));
l = (int) (position.getZ() + (1.5F + MathHelper.sin(f) * (float) i1));
this.setBlockAndNotifyAdequately(level, new BlockVector3(k, j - 3 + i1 / 2, l), this.woodMetadata);
}
int j2 = 1 + rand.nextBoundedInt(2);
for (int k1 = j - j2; k1 <= j; ++k1) {
int l1 = k1 - j;
this.growLeavesLayer(level, new Vector3(k, k1, l), 1 - l1);
}
}
for (int i2 = 0; i2 < height; ++i2) {
Vector3 blockpos = position.up(i2);
if (this.canGrowInto(level.getBlockIdAt((int) blockpos.x, (int) blockpos.y, (int) blockpos.z))) {
this.setBlockAndNotifyAdequately(level, blockpos, this.woodMetadata);
if (i2 > 0) {
this.placeVine(level, rand, blockpos.west(), 8);
this.placeVine(level, rand, blockpos.north(), 1);
}
}
if (i2 < height - 1) {
Vector3 blockpos1 = blockpos.east();
if (this.canGrowInto(level.getBlockIdAt((int) blockpos1.x, (int) blockpos1.y, (int) blockpos1.z))) {
this.setBlockAndNotifyAdequately(level, blockpos1, this.woodMetadata);
if (i2 > 0) {
this.placeVine(level, rand, blockpos1.east(), 2);
this.placeVine(level, rand, blockpos1.north(), 1);
}
}
Vector3 blockpos2 = blockpos.south().east();
if (this.canGrowInto(level.getBlockIdAt((int) blockpos2.x, (int) blockpos2.y, (int) blockpos2.z))) {
this.setBlockAndNotifyAdequately(level, blockpos2, this.woodMetadata);
if (i2 > 0) {
this.placeVine(level, rand, blockpos2.east(), 2);
this.placeVine(level, rand, blockpos2.south(), 4);
}
}
Vector3 blockpos3 = blockpos.south();
if (this.canGrowInto(level.getBlockIdAt((int) blockpos3.x, (int) blockpos3.y, (int) blockpos3.z))) {
this.setBlockAndNotifyAdequately(level, blockpos3, this.woodMetadata);
if (i2 > 0) {
this.placeVine(level, rand, blockpos3.west(), 8);
this.placeVine(level, rand, blockpos3.south(), 4);
}
}
}
}
return true;
}
}
private void placeVine(ChunkManager level, NukkitRandom random, Vector3 pos, int meta) {
if (random.nextBoundedInt(3) > 0 && level.getBlockIdAt((int) pos.x, (int) pos.y, (int) pos.z) == 0) {
this.setBlockAndNotifyAdequately(level, pos, Block.get(BlockID.VINE, meta));
}
}
private void createCrown(ChunkManager level, Vector3 pos, int i1) {
for (int j = -2; j <= 0; ++j) {
this.growLeavesLayerStrict(level, pos.up(j), i1 + 1 - j);
}
}
}
© 2015 - 2024 Weber Informatics LLC | Privacy Policy