DimDoors/StevenDimDoors/mod_pocketDim/world/LimboGenerator.java
SenseiKiwi 687a75f4d5 Overhauled Tick Sending by CommonTickHandler
Overhauled the way in which CommonTickHandler triggers tick-based
actions such as Limbo decay, spawning Monoliths, and regenerating rifts.
Now CommonTickHandler implements an interface called IRegularTickSender,
which indicates that it will periodically call on classes that implement
IRegulatTickReceiver to perform some task. I added classes for each
regularly scheduled task we were performing: MonolithSpawner and
RiftRegenerator, plus converted LimboDecay to a normal class instead of
a static class.  Modified several classes so that they have access to
the MonolithSpawner instance to request MonolithSpawning when needed.
This improves the structure of our code and gets us away from the way we
did things before, which was accessing a public static list inside
CommonTickHandler from other classes and adding arrays to specify chunk
coordinates. We should not be exposing the internal state of classes
like that! And we should be using clearly defined objects to pass
information.
2013-07-26 05:15:44 -04:00

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14 KiB
Java

package StevenDimDoors.mod_pocketDim.world;
import java.util.List;
import java.util.Random;
import net.minecraft.entity.EnumCreatureType;
import net.minecraft.util.IProgressUpdate;
import net.minecraft.util.MathHelper;
import net.minecraft.world.ChunkPosition;
import net.minecraft.world.World;
import net.minecraft.world.biome.BiomeGenBase;
import net.minecraft.world.chunk.Chunk;
import net.minecraft.world.chunk.IChunkProvider;
import net.minecraft.world.gen.ChunkProviderGenerate;
import net.minecraft.world.gen.MapGenBase;
import net.minecraft.world.gen.MapGenRavine;
import net.minecraft.world.gen.NoiseGeneratorOctaves;
import net.minecraft.world.gen.feature.MapGenScatteredFeature;
import net.minecraft.world.gen.structure.MapGenMineshaft;
import net.minecraft.world.gen.structure.MapGenStronghold;
import net.minecraft.world.gen.structure.MapGenVillage;
import net.minecraftforge.common.MinecraftForge;
import net.minecraftforge.event.Event.Result;
import net.minecraftforge.event.terraingen.ChunkProviderEvent;
import StevenDimDoors.mod_pocketDim.DDProperties;
import StevenDimDoors.mod_pocketDim.ticking.CommonTickHandler;
import StevenDimDoors.mod_pocketDim.ticking.MonolithSpawner;
public class LimboGenerator extends ChunkProviderGenerate implements IChunkProvider
{
private static Random rand;
/** A NoiseGeneratorOctaves used in generating terrain */
private NoiseGeneratorOctaves noiseGen1;
/** A NoiseGeneratorOctaves used in generating terrain */
private NoiseGeneratorOctaves noiseGen2;
/** A NoiseGeneratorOctaves used in generating terrain */
private NoiseGeneratorOctaves noiseGen3;
/** A NoiseGeneratorOctaves used in generating terrain */
private NoiseGeneratorOctaves noiseGen4;
/** A NoiseGeneratorOctaves used in generating terrain */
public NoiseGeneratorOctaves noiseGen5;
public World world;
private final byte[] field_82700_c = new byte[256];
private final byte[] field_82698_d = new byte[256];
/** A NoiseGeneratorOctaves used in generating terrain */
public NoiseGeneratorOctaves noiseGen6;
public NoiseGeneratorOctaves mobSpawnerNoise;
/** Reference to the World object. */
private World worldObj;
/** are map structures going to be generated (e.g. strongholds) */
private final boolean mapFeaturesEnabled = false;
/** Holds the overall noise array used in chunk generation */
private double[] noiseArray;
private double[] stoneNoise = new double[256];
private MapGenBase caveGenerator = new CustomCaveGen();
/** Holds Stronghold Generator */
private MapGenStronghold strongholdGenerator = new MapGenStronghold();
/** Holds Village Generator */
private MapGenVillage villageGenerator = new MapGenVillage();
/** Holds Mineshaft Generator */
private MapGenMineshaft mineshaftGenerator = new MapGenMineshaft();
private MapGenScatteredFeature scatteredFeatureGenerator = new MapGenScatteredFeature();
/** Holds ravine generator */
private MapGenBase ravineGenerator = new MapGenRavine();
/** The biomes that are used to generate the chunk */
private BiomeGenBase[] biomesForGeneration = new BiomeGenBase[1];
/** A double array that hold terrain noise from noiseGen3 */
double[] noise3;
/** A double array that hold terrain noise */
double[] noise1;
/** A double array that hold terrain noise from noiseGen2 */
double[] noise2;
/** A double array that hold terrain noise from noiseGen5 */
double[] noise5;
/** A double array that holds terrain noise from noiseGen6 */
double[] noise6;
/**
* Used to store the 5x5 parabolic field that is used during terrain generation.
*/
float[] parabolicField;
int[][] field_73219_j = new int[32][32];
{
// caveGenerator = TerrainGen.getModdedMapGen(caveGenerator, CAVE);
}
private DDProperties properties;
private MonolithSpawner spawner;
public LimboGenerator(World world, long seed, MonolithSpawner spawner, DDProperties properties)
{
super(world, seed, false);
LimboGenerator.rand = new Random(seed);
this.noiseGen1 = new NoiseGeneratorOctaves(LimboGenerator.rand, 16); //base terrain
this.noiseGen2 = new NoiseGeneratorOctaves(LimboGenerator.rand, 16); //hillyness
this.noiseGen3 = new NoiseGeneratorOctaves(LimboGenerator.rand, 80); //seems to adjust the size of features, how stretched things are -default 8
this.noiseGen4 = new NoiseGeneratorOctaves(LimboGenerator.rand, 4);
this.noiseGen5 = new NoiseGeneratorOctaves(LimboGenerator.rand, 10);
this.noiseGen6 = new NoiseGeneratorOctaves(LimboGenerator.rand, 16);
this.mobSpawnerNoise = new NoiseGeneratorOctaves(LimboGenerator.rand, 8);
NoiseGeneratorOctaves[] noiseGens = {noiseGen1, noiseGen2, noiseGen3, noiseGen4, noiseGen5, noiseGen6, mobSpawnerNoise};
// noiseGens = TerrainGen.getModdedNoiseGenerators(par1World, this.rand, noiseGens);
this.noiseGen1 = noiseGens[0];
this.noiseGen2 = noiseGens[1];
this.noiseGen3 = noiseGens[2];
this.noiseGen4 = noiseGens[3];
this.noiseGen5 = noiseGens[4];
this.noiseGen6 = noiseGens[5];
this.mobSpawnerNoise = noiseGens[6];
this.worldObj = world;
this.spawner = spawner;
this.properties = properties;
}
@Override
public boolean chunkExists(int var1, int var2) {
// TODO Auto-generated method stub
return super.chunkExists(var1, var2);
}
@Override
public void replaceBlocksForBiome(int par1, int par2, byte[] par3ArrayOfByte, BiomeGenBase[] par4ArrayOfBiomeGenBase)
{
}
@Override
public Chunk provideChunk(int chunkX, int chunkZ)
{
//TODO: Wtf? Why do you reinitialize the seed when we already initialized it in the constructor?! ~SenseiKiwi
LimboGenerator.rand.setSeed((long) chunkX * 341873128712L + (long) chunkZ * 132897987541L);
byte[] var3 = new byte[32768];
this.generateTerrain(chunkX, chunkZ, var3);
Chunk var4 = new Chunk(this.worldObj, var3, chunkX, chunkZ);
var4.generateSkylightMap();
if (!var4.isTerrainPopulated)
{
var4.isTerrainPopulated=true;
spawner.registerChunkForPopulation(properties.LimboDimensionID, chunkX, chunkZ);
}
return var4;
}
@Override
public Chunk loadChunk(int var1, int var2) {
// TODO Auto-generated method stub
return super.provideChunk(var1, var2);
}
@Override
public void populate(IChunkProvider var1, int var2, int var3)
{
}
@Override
public boolean saveChunks(boolean var1, IProgressUpdate var2) {
// TODO Auto-generated method stub
return super.saveChunks(var1, var2);
}
private double[] initializeNoiseField(double[] par1ArrayOfDouble, int par2, int par3, int par4, int par5, int par6, int par7)
{
ChunkProviderEvent.InitNoiseField event = new ChunkProviderEvent.InitNoiseField(this, par1ArrayOfDouble, par2, par3, par4, par5, par6, par7);
MinecraftForge.EVENT_BUS.post(event);
if (event.getResult() == Result.DENY) return event.noisefield;
if (par1ArrayOfDouble == null)
{
par1ArrayOfDouble = new double[par5 * par6 * par7];
}
if (this.parabolicField == null)
{
this.parabolicField = new float[25];
for (int var8 = -2; var8 <= 2; ++var8)
{
for (int var9 = -2; var9 <= 2; ++var9)
{
float var10 = 10.0F / MathHelper.sqrt_float((float)(var8 * var8 + var9 * var9) + 0.2F);
this.parabolicField[var8 + 2 + (var9 + 2) * 5] = var10;
}
}
}
double var44 = 884.412D; //large values here create spiky land. add a 0, good -default 884
double var45 = 9840.412D; //large values here make sheets- default - 684
this.noise5 = this.noiseGen5.generateNoiseOctaves(this.noise5, par2, par4, par5, par7, 1.121D, 1.121D, 0.5D);
this.noise6 = this.noiseGen6.generateNoiseOctaves(this.noise6, par2, par4, par5, par7, 200.0D, 200.0D, 0.5D);
this.noise3 = this.noiseGen3.generateNoiseOctaves(this.noise3, par2, par3, par4, par5, par6, par7, var44 / 80.0D, var45 / 160.0D, var44 / 80.0D);
this.noise1 = this.noiseGen1.generateNoiseOctaves(this.noise1, par2, par3, par4, par5, par6, par7, var44, var45, var44);
this.noise2 = this.noiseGen2.generateNoiseOctaves(this.noise2, par2, par3, par4, par5, par6, par7, var44, var45, var44);
boolean var43 = false;
boolean var42 = false;
int var12 = 0;
int var13 = 0;
for (int var14 = 0; var14 < par5; ++var14)
{
for (int var15 = 0; var15 < par7; ++var15)
{
float var16 = 0.0F;
float var17 = 0.0F;
float var18 = 0.0F;
byte var19 = 2;
BiomeGenBase var20 = this.biomesForGeneration[var14 + 2 + (var15 + 2) * (par5 + 5)];
for (int var21 = -var19; var21 <= var19; ++var21)
{
for (int var22 = -var19; var22 <= var19; ++var22)
{
float var24 = this.parabolicField[var21 + 2 + (var22 + 2) * 5] / (BiomeGenBase.plains.minHeight + 9.0F);
//this adjusts the height of the terrain
var16 += BiomeGenBase.plains.maxHeight * var24+4;
var17 += BiomeGenBase.plains.minHeight * var24-1;
var18 += var24;
}
}
var16 /= var18;
var17 /= var18;
var16 = (var16 * 0.9F + 0.1F);
var17 = (var17 * 4.0F - 1.0F) / 8.0F;
double var47 = this.noise6[var13] / 8000.0D;
if (var47 < 0.0D)
{
var47 = -var47 * 0.3D;
}
var47 = var47 * 3.0D - 2.0D;
if (var47 < 0.0D)
{
var47 /= 2.0D;
if (var47 < -1.0D)
{
var47 = -1.0D;
}
var47 /= 1.4D;
var47 /= 2.0D;
}
else
{
if (var47 > 1.0D)
{
var47 = 1.0D;
}
var47 /= 8.0D;
}
++var13;
for (int var46 = 0; var46 < par6; ++var46)
{
double var48 = (double)var17;
double var26 = (double)var16;
var48 += var47 * 0.2D;
var48 = var48 * (double)par6 / 16.0D;
double var28 = (double)par6 / 2.0D + var48 * 4.0D;
double var30 = 0.0D;
double var32 = ((double)var46 - var28) * 12.0D * 128.0D / 128.0D / var26;
if (var32 < 0.0D)
{
var32 *= 4.0D;
}
double var34 = this.noise1[var12] / 512.0D;
double var36 = this.noise2[var12] / 512.0D;
double var38 = (this.noise3[var12] / 10.0D + 1.0D) / 2.0D;
if (var38 < 0.0D)
{
var30 = var34;
}
else if (var38 > 1.0D)
{
var30 = var36;
}
else
{
var30 = var34 + (var36 - var34) * var38;
}
var30 -= var32;
if (var46 > par6 - 4)
{
double var40 = (double)((float)(var46 - (par6 - 4)) / 3.0F);
var30 = var30 * (1.0D - var40) + -10.0D * var40;
}
par1ArrayOfDouble[var12] = var30;
++var12;
}
}
}
return par1ArrayOfDouble;
}
public void generateTerrain(int par1, int par2, byte[] par3ArrayOfByte)
{
byte var4 = 4;
byte var5 = 16;
byte var6 = 19;
int var7 = var4 + 1;
byte var8 = 17;
int var9 = var4 + 1;
this.biomesForGeneration = this.worldObj.getWorldChunkManager().getBiomesForGeneration(this.biomesForGeneration, par1 * 4 - 2, par2 * 4 - 2, var7 + 5, var9 + 5);
this.noiseArray = this.initializeNoiseField(this.noiseArray, par1 * var4, 0, par2 * var4, var7, var8, var9);
for (int var10 = 0; var10 < var4; ++var10)
{
for (int var11 = 0; var11 < var4; ++var11)
{
for (int var12 = 0; var12 < var5; ++var12)
{
double var13 = 0.125D;
double var15 = this.noiseArray[((var10 + 0) * var9 + var11 + 0) * var8 + var12 + 0];
double var17 = this.noiseArray[((var10 + 0) * var9 + var11 + 1) * var8 + var12 + 0];
double var19 = this.noiseArray[((var10 + 1) * var9 + var11 + 0) * var8 + var12 + 0];
double var21 = this.noiseArray[((var10 + 1) * var9 + var11 + 1) * var8 + var12 + 0];
double var23 = (this.noiseArray[((var10 + 0) * var9 + var11 + 0) * var8 + var12 + 1] - var15) * var13;
double var25 = (this.noiseArray[((var10 + 0) * var9 + var11 + 1) * var8 + var12 + 1] - var17) * var13;
double var27 = (this.noiseArray[((var10 + 1) * var9 + var11 + 0) * var8 + var12 + 1] - var19) * var13;
double var29 = (this.noiseArray[((var10 + 1) * var9 + var11 + 1) * var8 + var12 + 1] - var21) * var13;
for (int var31 = 0; var31 < 8; ++var31)
{
double var32 = 0.25D;
double var34 = var15;
double var36 = var17;
double var38 = (var19 - var15) * var32;
double var40 = (var21 - var17) * var32;
for (int var42 = 0; var42 < 4; ++var42)
{
int var43 = var42 + var10 * 4 << 11 | 0 + var11 * 4 << 7 | var12 * 8 + var31;
short var44 = 128;
var43 -= var44;
double var45 = 0.25D;
double var49 = (var36 - var34) * var45;
double var47 = var34 - var49;
for (int var51 = 0; var51 < 4; ++var51)
{
if ((var47 += var49) > 0.0D)
{
par3ArrayOfByte[var43 += var44] = (byte)properties.LimboBlockID;
}
else if (var12 * 8 + var31 < var6)
{
par3ArrayOfByte[var43 += var44] = (byte)properties.PermaFabricBlockID;
}
else
{
par3ArrayOfByte[var43 += var44] = 0;
}
}
var34 += var38;
var36 += var40;
}
var15 += var23;
var17 += var25;
var19 += var27;
var21 += var29;
}
}
}
}
}
@Override
public boolean canSave() {
// TODO Auto-generated method stub
return super.canSave();
}
@Override
public String makeString() {
// TODO Auto-generated method stub
return super.makeString();
}
@Override
public List getPossibleCreatures(EnumCreatureType par1EnumCreatureType, int par2, int par3, int par4)
{
BiomeGenBase biomegenbase = this.worldObj.getBiomeGenForCoords(par2, par4);
return biomegenbase == null ? null : (biomegenbase == BiomeGenBase.swampland && par1EnumCreatureType == EnumCreatureType.monster && this.scatteredFeatureGenerator.hasStructureAt(par2, par3, par4) ? this.scatteredFeatureGenerator.getScatteredFeatureSpawnList() : biomegenbase.getSpawnableList(par1EnumCreatureType));
}
@Override
public ChunkPosition findClosestStructure(World var1, String var2,
int var3, int var4, int var5) {
// TODO Auto-generated method stub
return null;
}
@Override
public int getLoadedChunkCount() {
// TODO Auto-generated method stub
return super.getLoadedChunkCount();
}
@Override
public void recreateStructures(int var1, int var2) {
// TODO Auto-generated method stub
}
}