/*
* Iris is a World Generator for Minecraft Bukkit Servers
* Copyright (c) 2021 Arcane Arts (Volmit Software)
*
* 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.volmit.iris.engine;
import com.google.gson.Gson;
import com.volmit.iris.Iris;
import com.volmit.iris.core.IrisSettings;
import com.volmit.iris.core.events.IrisEngineHotloadEvent;
import com.volmit.iris.engine.data.cache.AtomicCache;
import com.volmit.iris.engine.framework.*;
import com.volmit.iris.engine.object.biome.IrisBiome;
import com.volmit.iris.engine.object.biome.IrisBiomePaletteLayer;
import com.volmit.iris.engine.object.decoration.IrisDecorator;
import com.volmit.iris.engine.object.engine.IrisEngineData;
import com.volmit.iris.engine.object.objects.IrisObjectPlacement;
import com.volmit.iris.util.collection.KList;
import com.volmit.iris.util.collection.KMap;
import com.volmit.iris.util.context.IrisContext;
import com.volmit.iris.util.documentation.BlockCoordinates;
import com.volmit.iris.util.documentation.ChunkCoordinates;
import com.volmit.iris.util.format.C;
import com.volmit.iris.util.format.Form;
import com.volmit.iris.util.hunk.Hunk;
import com.volmit.iris.util.io.IO;
import com.volmit.iris.util.math.RNG;
import com.volmit.iris.util.scheduling.J;
import com.volmit.iris.util.scheduling.PrecisionStopwatch;
import lombok.Getter;
import lombok.Setter;
import org.bukkit.Chunk;
import org.bukkit.World;
import org.bukkit.block.Biome;
import org.bukkit.block.data.BlockData;
import org.bukkit.generator.BlockPopulator;
import java.io.File;
import java.io.IOException;
import java.util.Random;
public class IrisEngine extends BlockPopulator implements Engine {
@Getter
private final EngineCompound compound;
@Getter
private final EngineTarget target;
@Getter
private final IrisContext context;
@Getter
private final EngineFramework framework;
@Getter
private final EngineEffects effects;
@Getter
private final EngineWorldManager worldManager;
@Setter
@Getter
private volatile int parallelism;
@Getter
private final int index;
@Getter
private final EngineMetrics metrics;
@Setter
@Getter
private volatile int minHeight;
private boolean failing;
private boolean closed;
private int cacheId;
private final int art;
@Getter
private double maxBiomeObjectDensity;
@Getter
private double maxBiomeLayerDensity;
@Getter
private double maxBiomeDecoratorDensity;
private final AtomicCache engineData = new AtomicCache<>();
public IrisEngine(EngineTarget target, EngineCompound compound, int index) {
Iris.info("Initializing Engine: " + target.getWorld().name() + "/" + target.getDimension().getLoadKey() + " (" + target.getHeight() + " height)");
metrics = new EngineMetrics(32);
this.target = target;
getData().setEngine(this);
getEngineData();
this.framework = new IrisEngineFramework(this);
worldManager = new IrisWorldManager(this);
this.compound = compound;
minHeight = 0;
failing = false;
closed = false;
this.index = index;
cacheId = RNG.r.nextInt();
effects = new IrisEngineEffects(this);
art = J.ar(effects::tickRandomPlayer, 0);
J.a(this::computeBiomeMaxes);
Iris.callEvent(new IrisEngineHotloadEvent(this));
context = new IrisContext(this);
context.touch();
}
@Override
public IrisEngineData getEngineData() {
return engineData.aquire(() -> {
File f = new File(getWorld().worldFolder(), "iris/engine-data/" + getDimension().getLoadKey() + "-" + getIndex() + ".json");
if (!f.exists()) {
try {
f.getParentFile().mkdirs();
IO.writeAll(f, new Gson().toJson(new IrisEngineData()));
} catch (IOException e) {
e.printStackTrace();
}
}
try {
return new Gson().fromJson(IO.readAll(f), IrisEngineData.class);
} catch (Throwable e) {
e.printStackTrace();
}
return new IrisEngineData();
});
}
private void computeBiomeMaxes() {
for (IrisBiome i : getDimension().getAllBiomes(this)) {
double density = 0;
for (IrisObjectPlacement j : i.getObjects()) {
density += j.getDensity() * j.getChance();
}
maxBiomeObjectDensity = Math.max(maxBiomeObjectDensity, density);
density = 0;
for (IrisDecorator j : i.getDecorators()) {
density += Math.max(j.getStackMax(), 1) * j.getChance();
}
maxBiomeDecoratorDensity = Math.max(maxBiomeDecoratorDensity, density);
density = 0;
for (IrisBiomePaletteLayer j : i.getLayers()) {
density++;
}
maxBiomeLayerDensity = Math.max(maxBiomeLayerDensity, density);
}
}
@Override
public void close() {
J.car(art);
closed = true;
getWorldManager().close();
getFramework().close();
getTarget().close();
saveEngineData();
}
@Override
public boolean isClosed() {
return closed;
}
@Override
public void recycle() {
getFramework().recycle();
}
@BlockCoordinates
@Override
public double modifyX(double x) {
return x / getDimension().getTerrainZoom();
}
@BlockCoordinates
@Override
public double modifyZ(double z) {
return z / getDimension().getTerrainZoom();
}
@ChunkCoordinates
@Override
public void generate(int x, int z, Hunk vblocks, Hunk vbiomes, boolean multicore) {
context.touch();
getEngineData().getStatistics().generatedChunk();
try {
PrecisionStopwatch p = PrecisionStopwatch.start();
Hunk blocks = vblocks.listen((xx, y, zz, t) -> catchBlockUpdates(x + xx, y + getMinHeight(), z + zz, t));
switch (getDimension().getTerrainMode()) {
case NORMAL -> {
getFramework().getEngineParallax().generateParallaxArea(x >> 4, z >> 4);
getFramework().getTerrainActuator().actuate(x, z, vblocks, multicore);
getFramework().getBiomeActuator().actuate(x, z, vbiomes, multicore);
getFramework().getCaveModifier().modify(x, z, vblocks, multicore);
getFramework().getRavineModifier().modify(x, z, vblocks, multicore);
getFramework().getPostModifier().modify(x, z, vblocks, multicore);
getFramework().getDecorantActuator().actuate(x, z, blocks, multicore);
getFramework().getEngineParallax().insertParallax(x >> 4, z >> 4, blocks);
getFramework().getDepositModifier().modify(x, z, blocks, multicore);
}
case ISLANDS -> {
getFramework().getTerrainActuator().actuate(x, z, vblocks, multicore);
}
}
getMetrics().getTotal().put(p.getMilliseconds());
if (IrisSettings.get().getGeneral().isDebug()) {
KList v = new KList<>();
KMap g = getMetrics().pull();
for (String i : g.sortKNumber()) {
if (g.get(i) != null) {
v.add(C.RESET + "" + C.LIGHT_PURPLE + i + ": " + C.UNDERLINE + C.BLUE + Form.duration(g.get(i), 0) + C.RESET + C.GRAY + "");
}
}
Iris.debug(v.toString(", "));
}
} catch (Throwable e) {
Iris.reportError(e);
fail("Failed to generate " + x + ", " + z, e);
}
}
@Override
public void saveEngineData() {
File f = new File(getWorld().worldFolder(), "iris/engine-data/" + getDimension().getLoadKey() + "-" + getIndex() + ".json");
f.getParentFile().mkdirs();
try {
IO.writeAll(f, new Gson().toJson(getEngineData()));
} catch (IOException e) {
e.printStackTrace();
}
}
@Override
public IrisBiome getFocus() {
if (getDimension().getFocus() == null || getDimension().getFocus().trim().isEmpty()) {
return null;
}
return getData().getBiomeLoader().load(getDimension().getFocus());
}
@ChunkCoordinates
@Override
public void populate(World world, Random random, Chunk c) {
updateChunk(c);
placeTiles(c);
}
@Override
public void fail(String error, Throwable e) {
failing = true;
Iris.error(error);
e.printStackTrace();
}
@Override
public boolean hasFailed() {
return failing;
}
@Override
public int getCacheID() {
return cacheId;
}
@Override
public void hotload() {
Iris.callEvent(new IrisEngineHotloadEvent(this));
getEngineData().getStatistics().hotloaded();
cacheId = RNG.r.nextInt();
}
}