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package ihl.worldgen;
import java.util.Arrays;
import java.util.HashSet;
import java.util.Map;
import java.util.Random;
import java.util.Set;
import net.minecraft.block.Block;
import net.minecraft.init.Blocks;
import net.minecraft.util.Vec3;
import net.minecraft.world.World;
import net.minecraft.world.gen.feature.WorldGenerator;
import net.minecraftforge.common.util.ForgeDirection;
public class WorldGenMinableMeta extends WorldGenerator {
protected final Block mineableBlock;
protected final Set<Block> replaceableBlocks=new HashSet();
protected final Block liquidBedBlock;
protected final int mineableBlockMeta;
protected final int numberOfBlocks;
protected int blockCounter;
protected final int veinMaxHeightLimit;
protected final int veinMinHeightLimit;
public boolean maxBlockReached=false;
public int lastX=-1;
public int lastY=64;
public int lastZ=-1;
protected ForgeDirection veinDirection = ForgeDirection.SOUTH;//EAST
protected final Map<Long, Set<int[]>> oreCoordinatesToChunkCoordinates;
protected final Map<Long,WorldGenMinableMeta> blockToOreCoordinates;
protected final Set<Long> precalculatedChunkChache;
public WorldGenMinableMeta(Set<Long> precalculatedChunkChache1, Map<Long,WorldGenMinableMeta> blockToOreCoordinates1, Map<Long, Set<int[]>> oreCoordinatesToChunkCoordinates2, Block block, int meta, int numberOfBlocks1, Block... blocks) {
this(precalculatedChunkChache1 ,blockToOreCoordinates1, oreCoordinatesToChunkCoordinates2, block, Blocks.clay, meta, numberOfBlocks1, 0, 128, blocks);
}
public WorldGenMinableMeta(Set<Long> precalculatedChunkChache1, Map<Long,WorldGenMinableMeta> blockToOreCoordinates1, Map<Long,Set<int[]>> oreCoordinatesToChunkCoordinates1, Block block, Block liquidBedBlock1, int meta, int numberOfBlocks1, int veinMinHeightLimit1, int veinMaxHeightLimit1, Block... replacedBlock1)
{
precalculatedChunkChache=precalculatedChunkChache1;
blockToOreCoordinates=blockToOreCoordinates1;
oreCoordinatesToChunkCoordinates=oreCoordinatesToChunkCoordinates1;
mineableBlock = block;
replaceableBlocks.addAll(Arrays.asList(replacedBlock1));
mineableBlockMeta = meta;
liquidBedBlock=liquidBedBlock1;
numberOfBlocks = numberOfBlocks1;
veinMaxHeightLimit=veinMaxHeightLimit1;
veinMinHeightLimit=veinMinHeightLimit1;
}
@Override
public boolean generate(World world, Random random, int x, int y, int z)
{
boolean success=false;
int chunkX = x>>4;
int chunkZ = z>>4;
int xyz[] = {0,0,1,0,0,-1,0,0};
for(int i=0;i<=5;i++)
{
int x0 = x+xyz[i];
int y0 = y+xyz[i+1];
int z0 = z+xyz[i+2];
if(x0>>4==chunkX && z0>>4==chunkZ)
{
if(replaceableBlocks.contains(world.getBlock(x0, y0, z0)))
{
world.setBlock(x0, y0, z0, mineableBlock, mineableBlockMeta, 2);
success=true;
}
}
}
return false;
}
public boolean generateNewVein(Random random, int chunkX1, int chunkZ1)
{
Vec3 veinVector = Vec3.createVectorHelper(random.nextFloat()*2-1f, random.nextFloat()-0.5f, random.nextFloat()*2-1f);
veinVector.normalize();
int chunkX = chunkX1;
int chunkZ = chunkZ1;
int x0=chunkX << 4;
int z0=chunkZ << 4;
int y0=random.nextInt(veinMaxHeightLimit);
//System.out.println("generated new vein with height="+y0);
float fx=x0;
float fy=y0;
float fz=z0;
long chunkKey = (chunkX<<16)+chunkZ;
for(int i=0;i<this.numberOfBlocks;i++)
{
int[] oreCoordinatesArray = new int[] {x0,y0,z0};
long oreCoordinatesKey = (x0<<30)+(y0<<15)+z0;
{
chunkX=x0>>4;
chunkZ=z0>>4;
chunkKey = (chunkX<<16)+chunkZ;
updateOreCoordinatesToChunkCoordinates(chunkKey, oreCoordinatesArray);
this.blockToOreCoordinates.put(oreCoordinatesKey, this);
this.precalculatedChunkChache.add(chunkKey);
}
fx+=veinVector.xCoord+random.nextFloat()*0.25f;
fy+=veinVector.yCoord+random.nextFloat()*0.25f;
fz+=veinVector.zCoord+random.nextFloat()*0.25f;
x0=Math.round(fx);
y0=Math.round(fy);
z0=Math.round(fz);
}
return true;
}
protected void updateOreCoordinatesToChunkCoordinates(long chunkKey, int[] oreCoordinates)
{
if(this.oreCoordinatesToChunkCoordinates.containsKey(chunkKey))
{
this.oreCoordinatesToChunkCoordinates.get(chunkKey).add(oreCoordinates);
}
else
{
Set<int[]> oreCoordinatesS = new HashSet();
oreCoordinatesS.add(oreCoordinates);
this.oreCoordinatesToChunkCoordinates.put(chunkKey, oreCoordinatesS);
}
}
}
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