EcoCraft
/
plugin
5
1
Fork 0
Code Issues 6 Pull Requests Packages Projects 1 Releases Wiki Activity

Merge remote-tracking branch 'origin/mines' into island-experimenty

Browse Source 
# Conflicts:
#	src/main/java/xyz/soukup/ecoCraftCore/EcoCraftCore.java
pull/11/head
jakub 1 month ago
parent 13e411f97d 06dcad47ab
commit e59547c73f
5 changed files with 1087 additions and 2 deletions
Whitespace
Show all changes Ignore whitespace when comparing lines Ignore changes in amount of whitespace Ignore changes in whitespace at EOL
Split View
Diff Options
Show Stats Download Patch File Download Diff File
  1. 17
      src/main/java/xyz/soukup/ecoCraftCore/EcoCraftCore.java
  2. 65
      src/main/java/xyz/soukup/ecoCraftCore/mines/MineCommand.java
  3. 696
      src/main/java/xyz/soukup/ecoCraftCore/mines/MineManager.java
  4. 304
      src/main/java/xyz/soukup/ecoCraftCore/mines/MineWorldManager.java
  5. 7
      src/main/resources/messages.yml

17
src/main/java/xyz/soukup/ecoCraftCore/EcoCraftCore.java
Unescape View File

@ -25,6 +25,8 @@ import org.jetbrains.annotations.NotNull;
import xyz.soukup.ecoCraftCore.database.objects.*;
import xyz.soukup.ecoCraftCore.islands.IslandAdminCommand;
import xyz.soukup.ecoCraftCore.islands.IslandSelectorCommand;
import xyz.soukup.ecoCraftCore.mines.MineCommand;
import xyz.soukup.ecoCraftCore.mines.MineWorldManager;
import xyz.soukup.ecoCraftCore.money.MoneyCommand;
import xyz.soukup.ecoCraftCore.player.OnKill;
import xyz.soukup.ecoCraftCore.player.PreparePlayer;
@ -33,6 +35,10 @@ import xyz.soukup.ecoCraftCore.positionMarker.MarkerCommand;
import xyz.soukup.ecoCraftCore.regions.RegionAdminCommand;
import xyz.soukup.ecoCraftCore.regions.RegionEvents;
import xyz.soukup.ecoCraftCore.shop.ShopCommand;
import xyz.soukup.ecoCraftCore.database.objects.Account;
import xyz.soukup.ecoCraftCore.database.objects.Island;
import xyz.soukup.ecoCraftCore.database.objects.Shop;
import xyz.soukup.ecoCraftCore.database.objects.Transaction;
import io.papermc.paper.plugin.lifecycle.event.types.LifecycleEvents;
import xyz.soukup.ecoCraftCore.inventory.VirtualChest;
import xyz.soukup.ecoCraftCore.positionMarker.MarkerEvent;
@ -82,7 +88,7 @@ public final class EcoCraftCore extends JavaPlugin {
prepareSlimeWorldsSaver();
}catch (IOException e) {
throw new RuntimeException(e);
MineWorldManager.init();
}
this.getServer().getScheduler().runTaskTimer(this, /* Lambda: */ task -> {
@ -262,6 +268,10 @@ public final class EcoCraftCore extends JavaPlugin {
lm.registerEventHandler(LifecycleEvents.COMMANDS, event -> event.registrar().register(IslandAdminCommand.getCommand().build()));
lm.registerEventHandler(LifecycleEvents.COMMANDS, event -> event.registrar().register(IslandSelectorCommand.getCommand().build()));
lm.registerEventHandler(LifecycleEvents.COMMANDS, event -> event.registrar().register(RegionAdminCommand.getCommand().build()));
lm.registerEventHandler(LifecycleEvents.COMMANDS, event -> event.registrar().register(ShopCommand.getCommand().build()));
lm.registerEventHandler(LifecycleEvents.COMMANDS, event -> event.registrar().register(MarkerCommand.getCommand().build()));
lm.registerEventHandler(LifecycleEvents.COMMANDS, event -> event.registrar().register(MoneyCommand.getCommand().build()));
lm.registerEventHandler(LifecycleEvents.COMMANDS, event -> event.registrar().register(MineCommand.createCommand().build()));
}
private void registerEvents(){
@ -274,10 +284,13 @@ public final class EcoCraftCore extends JavaPlugin {
pm.registerEvents(new ShopLogic(), this);
pm.registerEvents(new PreparePlayer(), this);
pm.registerEvents(new RegionEvents(), this);
pm.registerEvents(new MineWorldManager(), this);
EventManager events = PacketEvents.getAPI().getEventManager();
events.registerListener(new ChunkModifier(this), PacketListenerPriority.NORMAL);
}
}

65
src/main/java/xyz/soukup/ecoCraftCore/mines/MineCommand.java
Unescape View File

@ -0,0 +1,65 @@
package xyz.soukup.ecoCraftCore.mines;
import com.mojang.brigadier.builder.LiteralArgumentBuilder;
import com.mojang.brigadier.context.CommandContext;
import io.papermc.paper.command.brigadier.CommandSourceStack;
import io.papermc.paper.command.brigadier.Commands;
import org.bukkit.Location;
import org.bukkit.World;
import org.bukkit.entity.Player;
import xyz.soukup.ecoCraftCore.messages.Messages;
@SuppressWarnings("UnstableApiUsage")
public class MineCommand {
public static LiteralArgumentBuilder<CommandSourceStack> createCommand() {
LiteralArgumentBuilder<CommandSourceStack> regenerate = Commands.literal("regenerate")
.executes(MineCommand::regenerateMines);
LiteralArgumentBuilder<CommandSourceStack> tp = Commands.literal("tp")
.requires(source -> source.getSender() instanceof Player)
.executes(MineCommand::teleportToMines);
return Commands.literal("mine")
.then(regenerate)
.then(tp);
}
private static int regenerateMines(CommandContext<CommandSourceStack> context) {
World world = MineWorldManager.getWorld();
if (world == null) {
Messages.send(context.getSource().getSender(), "mine.error.no-world");
return 0;
}
Messages.send(context.getSource().getSender(), "mine.regenerating");
// Teleport all players out of the mine world first
for (Player p : world.getPlayers()) {
p.teleport(p.getServer().getWorlds().getFirst().getSpawnLocation());
Messages.send(p, "mine.teleported-out");
}
// Delete old world, create fresh one, then generate
MineWorldManager.recreateWorld(newWorld -> MineManager.regenerate(newWorld));
return 1;
}
private static int teleportToMines(CommandContext<CommandSourceStack> context) {
Player player = (Player) context.getSource().getSender();
World world = MineWorldManager.getWorld();
if (world == null) {
Messages.send(player, "mine.error.no-world");
return 0;
}
Location spawn = MineWorldManager.getSpawnLocation();
player.teleport(spawn);
Messages.send(player, "mine.teleporting");
return 1;
}
}

696
src/main/java/xyz/soukup/ecoCraftCore/mines/MineManager.java
Unescape View File

@ -0,0 +1,696 @@
package xyz.soukup.ecoCraftCore.mines;
import org.bukkit.Bukkit;
import org.bukkit.Material;
import org.bukkit.World;
import org.bukkit.block.Block;
import org.bukkit.block.BlockFace;
import java.util.*;
import static xyz.soukup.ecoCraftCore.EcoCraftCore.plugin;
public class MineManager {
private static final int TUNNEL_RADIUS = 5; // 11x11 = radius 5 from center
private static final int MIN_BRANCH_SIZE = 30;
private static final int FIRST_BRANCH_MIN_SIZE = 20;
private static final int FIRST_BRANCH_SPLIT_DELAY = 12;
private static final int MAX_BRANCH_SIZE = 80;
private static final double BASE_SPLIT_INCREMENT = 0.004;
private static final double SPLIT_DECAY_PER_BRANCH = 0.0004;
private static final int BLOCKS_PER_TICK = 800;
// Transition zone: how many blocks before/after a border we blend
private static final int TRANSITION_RANGE = 8;
private static final Random random = new Random();
private static final BlockFace[] DIRECTIONS = {
BlockFace.NORTH, BlockFace.SOUTH, BlockFace.EAST, BlockFace.WEST, BlockFace.DOWN, BlockFace.UP
};
// --- Biome definitions ---
public enum MineBiome {
NORMAL, DEEP, SUPER_DEEP
}
// Fill progression per biome
private static final Material[] NORMAL_FILLS = {Material.STONE, Material.ANDESITE, Material.COBBLESTONE, Material.TUFF};
private static final int[] NORMAL_THRESHOLDS = {0, 30, 60, 90};
private static final Material[] DEEP_FILLS = {Material.DEEPSLATE, Material.COBBLED_DEEPSLATE, Material.CRACKED_DEEPSLATE_TILES};
private static final int[] DEEP_THRESHOLDS = {0, 40, 80};
private static final Material[] SUPER_DEEP_FILLS = {Material.SMOOTH_BASALT, Material.BLACKSTONE, Material.CRACKED_POLISHED_BLACKSTONE_BRICKS, Material.GILDED_BLACKSTONE};
private static final int[] SUPER_DEEP_THRESHOLDS = {0, 40, 80, 120};
// Special inline blocks (placed during generation, not ores)
private static final double DIRT_CHANCE = 0.04;
private static final double GRAVEL_CHANCE = 0.05;
private static final double INFESTED_CHANCE = 0.008;
private static final double MUD_CHANCE_SUPER_DEEP = 0.03;
private static final double LAVA_CHANCE_SUPER_DEEP = 0.05;
// Deep biome lava: starts low and increases through the fills
private static final double LAVA_CHANCE_DEEP_MIN = 0.005;
private static final double LAVA_CHANCE_DEEP_MAX = 0.04;
// --- Ore tables per fill type (rolled on break) ---
public record OreEntry(Material material, double weight) {}
private static final Map<Material, OreEntry[]> ORE_TABLES = new LinkedHashMap<>();
static {
ORE_TABLES.put(Material.STONE, new OreEntry[]{
new OreEntry(Material.COPPER_ORE, 1.0),
});
ORE_TABLES.put(Material.ANDESITE, new OreEntry[]{
new OreEntry(Material.COAL_ORE, 1.0),
});
ORE_TABLES.put(Material.COBBLESTONE, new OreEntry[]{
new OreEntry(Material.IRON_ORE, 1.0),
});
ORE_TABLES.put(Material.TUFF, new OreEntry[]{
new OreEntry(Material.GOLD_ORE, 1.0),
});
ORE_TABLES.put(Material.DEEPSLATE, new OreEntry[]{
new OreEntry(Material.DEEPSLATE_EMERALD_ORE, 0.4),
new OreEntry(Material.DEEPSLATE_LAPIS_ORE, 0.6),
});
ORE_TABLES.put(Material.COBBLED_DEEPSLATE, new OreEntry[]{
new OreEntry(Material.DEEPSLATE_REDSTONE_ORE, 0.6),
new OreEntry(Material.RAW_COPPER_BLOCK, 0.4),
});
ORE_TABLES.put(Material.CRACKED_DEEPSLATE_TILES, new OreEntry[]{
new OreEntry(Material.DEEPSLATE_DIAMOND_ORE, 0.6),
new OreEntry(Material.RAW_IRON_BLOCK, 0.4),
});
ORE_TABLES.put(Material.SMOOTH_BASALT, new OreEntry[]{
new OreEntry(Material.COAL_BLOCK, 1.0),
});
ORE_TABLES.put(Material.BLACKSTONE, new OreEntry[]{
new OreEntry(Material.RAW_GOLD_BLOCK, 1.0),
});
ORE_TABLES.put(Material.CRACKED_POLISHED_BLACKSTONE_BRICKS, new OreEntry[]{
new OreEntry(Material.ANCIENT_DEBRIS, 1.0),
});
ORE_TABLES.put(Material.GILDED_BLACKSTONE, new OreEntry[]{
new OreEntry(Material.GOLD_BLOCK, 1.0),
});
}
// Ore chance depending on how far this fill is from the detected zone
// Index 0 = current fill, 1 = previous fill (one step lighter), 2 = three fills back, 3+ = any other
private static final double ORE_CHANCE_CURRENT = 0.05;
private static final double ORE_CHANCE_PREVIOUS = 0.10;
private static final double ORE_CHANCE_THREE_BACK = 0.02;
private static final double ORE_CHANCE_OTHER = 0.01;
// Ordered list of ALL fills from shallowest to deepest (used for distance calculations)
private static final List<Material> ALL_FILLS_ORDERED = new ArrayList<>();
static {
Collections.addAll(ALL_FILLS_ORDERED, NORMAL_FILLS);
Collections.addAll(ALL_FILLS_ORDERED, DEEP_FILLS);
Collections.addAll(ALL_FILLS_ORDERED, SUPER_DEEP_FILLS);
}
// --- All known fill materials (for checking in MineWorldManager) ---
private static final Set<Material> ALL_FILL_MATERIALS = new HashSet<>(ALL_FILLS_ORDERED);
public static boolean isFillMaterial(Material material) {
return ALL_FILL_MATERIALS.contains(material);
}
// --- Biome Y tracking ---
private static int normalStartY = 0;
private static int deepStartY = 0;
private static int superDeepStartY = 0;
// --- Branch data class ---
private static class Branch {
final BlockFace direction;
final int startX, startY, startZ;
final int distanceFromStart;
final int maxSize;
final boolean isFirst;
final MineBiome biome;
double chanceToSplit;
int endX, endY, endZ;
Branch(BlockFace direction, int startX, int startY, int startZ,
int distanceFromStart, int maxSize, boolean isFirst, MineBiome biome) {
this.direction = direction;
this.startX = startX;
this.startY = startY;
this.startZ = startZ;
this.distanceFromStart = distanceFromStart;
this.maxSize = maxSize;
this.isFirst = isFirst;
this.biome = biome;
this.chanceToSplit = 0;
this.endX = startX;
this.endY = startY;
this.endZ = startZ;
}
}
private static class BlockPlacement {
final int x, y, z;
final Material material;
BlockPlacement(int x, int y, int z, Material material) {
this.x = x;
this.y = y;
this.z = z;
this.material = material;
}
}
// ===================== MAIN ENTRY POINT =====================
public static void regenerate(World world) {
int startY = world.getMaxHeight() - 11;
int minY = world.getMinHeight() + 5;
int maxY = world.getMaxHeight();
int worldMinY = world.getMinHeight();
normalStartY = startY;
Bukkit.getScheduler().runTaskAsynchronously(plugin, () -> {
Set<Long> fillPositions = new HashSet<>();
List<BlockPlacement> fillPlacements = new ArrayList<>();
// ===== Biome 1: NORMAL =====
plugin.getLogger().info("[MineGen] === Starting NORMAL biome generation ===");
List<Branch> normalBranches = new ArrayList<>();
int[] branchCount = {0};
generateBiomeBranches(MineBiome.NORMAL, 0, startY, 0, startY, minY,
fillPlacements, fillPositions, normalBranches, branchCount);
plugin.getLogger().info("[MineGen] NORMAL done: " + fillPlacements.size() + " fill blocks, branches=" + branchCount[0]);
// Find lowest Y from NORMAL
Branch lowestNormal = findLowestBranch(normalBranches);
int deepX = lowestNormal != null ? lowestNormal.endX : 0;
int deepY = lowestNormal != null ? lowestNormal.endY : startY - 100;
int deepZ = lowestNormal != null ? lowestNormal.endZ : 0;
deepStartY = deepY;
// ===== Biome 2: DEEP =====
plugin.getLogger().info("[MineGen] === Starting DEEP biome generation at Y=" + deepY + " ===");
List<Branch> deepBranches = new ArrayList<>();
generateBiomeBranches(MineBiome.DEEP, deepX, deepY, deepZ, deepY, minY,
fillPlacements, fillPositions, deepBranches, branchCount);
plugin.getLogger().info("[MineGen] DEEP done: " + fillPlacements.size() + " total fill blocks, branches=" + branchCount[0]);
// Find lowest Y from DEEP
Branch lowestDeep = findLowestBranch(deepBranches);
int sdX = lowestDeep != null ? lowestDeep.endX : deepX;
int sdY = lowestDeep != null ? lowestDeep.endY : deepY - 100;
int sdZ = lowestDeep != null ? lowestDeep.endZ : deepZ;
superDeepStartY = sdY;
// ===== Biome 3: SUPER_DEEP =====
plugin.getLogger().info("[MineGen] === Starting SUPER_DEEP biome generation at Y=" + sdY + " ===");
List<Branch> superDeepBranches = new ArrayList<>();
generateBiomeBranches(MineBiome.SUPER_DEEP, sdX, sdY, sdZ, sdY, minY,
fillPlacements, fillPositions, superDeepBranches, branchCount);
plugin.getLogger().info("[MineGen] SUPER_DEEP done: " + fillPlacements.size() + " total fill blocks, branches=" + branchCount[0]);
// ===== Walls =====
List<BlockPlacement> wallPlacements = new ArrayList<>();
generateWalls(fillPositions, wallPlacements, startY);
plugin.getLogger().info("[MineGen] Walls done: " + wallPlacements.size() + " bedrock blocks.");
// ===== Schedule placement on main thread =====
Bukkit.getScheduler().runTask(plugin, () ->
scheduleBlockPlacements(world, fillPlacements, wallPlacements, startY, worldMinY, maxY));
});
}
// ===================== BIOME BRANCH GENERATION =====================
private static void generateBiomeBranches(MineBiome biome, int startX, int startY, int startZ,
int ceilingY, int minY,
List<BlockPlacement> placements, Set<Long> fillPositions,
List<Branch> completedBranches, int[] branchCount) {
Deque<Branch> queue = new ArrayDeque<>();
// Reset branch count for this biome so split chance starts fresh
int[] biomeBranchCount = {0};
int firstSize = Math.max(FIRST_BRANCH_MIN_SIZE, MIN_BRANCH_SIZE + random.nextInt(MAX_BRANCH_SIZE - MIN_BRANCH_SIZE));
Branch initial = new Branch(BlockFace.DOWN, startX, startY, startZ, 0, firstSize, true, biome);
queue.add(initial);
biomeBranchCount[0]++;
branchCount[0]++;
plugin.getLogger().info("[MineGen] [" + biome + "] Starting at (" + startX + "," + startY + "," + startZ + "), minY=" + minY);
while (!queue.isEmpty()) {
Branch branch = queue.pollFirst();
double currentIncrement = Math.max(0, BASE_SPLIT_INCREMENT - (biomeBranchCount[0] * SPLIT_DECAY_PER_BRANCH));
plugin.getLogger().info("[MineGen] [" + biome + "] Processing branch dir=" + branch.direction
+ " start=(" + branch.startX + "," + branch.startY + "," + branch.startZ + ")"
+ " dist=" + branch.distanceFromStart + " maxSize=" + branch.maxSize
+ " first=" + branch.isFirst
+ " queued=" + queue.size() + " fillBlocks=" + fillPositions.size()
+ " splitIncrement=" + String.format("%.5f", currentIncrement));
generateSingleBranch(branch, queue, placements, fillPositions, ceilingY, minY, biomeBranchCount);
completedBranches.add(branch);
}
plugin.getLogger().info("[MineGen] [" + biome + "] Complete. Branches=" + completedBranches.size());
}
private static void generateSingleBranch(Branch branch, Deque<Branch> queue, List<BlockPlacement> placements,
Set<Long> fillPositions, int ceilingY, int minY, int[] branchCount) {
int cx = branch.startX;
int cy = branch.startY;
int cz = branch.startZ;
for (int step = 0; step < branch.maxSize; step++) {
int distance = branch.distanceFromStart + step;
generateCrossSection(cx, cy, cz, branch.direction, distance, branch.biome, placements, fillPositions);
branch.endX = cx;
branch.endY = cy;
branch.endZ = cz;
// First branch: skip split logic for the first 12 blocks
if (branch.isFirst && step < FIRST_BRANCH_SPLIT_DELAY) {
cx += branch.direction.getModX();
cy += branch.direction.getModY();
cz += branch.direction.getModZ();
if (cy < minY || cy > ceilingY + 5) break;
continue;
}
double splitIncrement = Math.max(0, BASE_SPLIT_INCREMENT - (branchCount[0] * SPLIT_DECAY_PER_BRANCH));
if (splitIncrement <= 0) {
cx += branch.direction.getModX();
cy += branch.direction.getModY();
cz += branch.direction.getModZ();
if (cy < minY || cy > ceilingY + 5) break;
continue;
}
branch.chanceToSplit += splitIncrement;
if (random.nextDouble() < branch.chanceToSplit) {
branch.chanceToSplit = 0;
int splitCount = 1 + random.nextInt(4);
List<BlockFace> available = getAvailableDirections(branch.direction);
Collections.shuffle(available, random);
int created = 0;
for (BlockFace dir : available) {
if (created >= splitCount) break;
int branchMaxSize = MIN_BRANCH_SIZE + random.nextInt(MAX_BRANCH_SIZE - MIN_BRANCH_SIZE);
if (dir == BlockFace.UP && cy + branchMaxSize > ceilingY) continue;
if (dir == BlockFace.DOWN && cy - branchMaxSize < minY) continue;
queue.add(new Branch(dir, cx, cy, cz, distance, branchMaxSize, false, branch.biome));
branchCount[0]++;
created++;
}
plugin.getLogger().info("[MineGen] [" + branch.biome + "] Split at step=" + step
+ " pos=(" + cx + "," + cy + "," + cz + ") created=" + created
+ " total=" + branchCount[0]);
}
cx += branch.direction.getModX();
cy += branch.direction.getModY();
cz += branch.direction.getModZ();
if (cy < minY || cy > ceilingY + 5) break;
}
}
private static Branch findLowestBranch(List<Branch> branches) {
Branch lowest = null;
for (Branch b : branches) {
if (lowest == null || b.endY < lowest.endY) {
lowest = b;
}
}
return lowest;
}
private static List<BlockFace> getAvailableDirections(BlockFace current) {
List<BlockFace> dirs = new ArrayList<>();
BlockFace opposite = current.getOppositeFace();
for (BlockFace dir : DIRECTIONS) {
if (dir != opposite && dir != current) {
dirs.add(dir);
}
}
return dirs;
}
// ===================== CROSS SECTION GENERATION =====================
private static void generateCrossSection(int cx, int cy, int cz, BlockFace direction, int distance,
MineBiome biome, List<BlockPlacement> placements, Set<Long> fillPositions) {
int[][] offsets = getPerpOffsets(direction);
for (int a = -TUNNEL_RADIUS; a <= TUNNEL_RADIUS; a++) {
for (int b = -TUNNEL_RADIUS; b <= TUNNEL_RADIUS; b++) {
int bx = cx + offsets[0][0] * a + offsets[1][0] * b;
int by = cy + offsets[0][1] * a + offsets[1][1] * b;
int bz = cz + offsets[0][2] * a + offsets[1][2] * b;
long key = posKey(bx, by, bz);
if (!fillPositions.add(key)) continue;
Material mat = pickFillForDistance(distance, biome);
placements.add(new BlockPlacement(bx, by, bz, mat));
}
}
}
// ===================== FILL SELECTION (no ores during generation) =====================
private static Material pickFillForDistance(int distance, MineBiome biome) {
Material[] fills = getFillsForBiome(biome);
int[] thresholds = getThresholdsForBiome(biome);
// Determine primary fill
Material primaryFill = fills[0];
for (int i = thresholds.length - 1; i >= 0; i--) {
if (distance >= thresholds[i]) {
primaryFill = fills[i];
break;
}
}
// Check transition zone
Material transitionFill = getTransitionFill(distance, fills, thresholds);
if (transitionFill != null && transitionFill != primaryFill) {
int borderDist = getDistanceToBorder(distance, thresholds);
double blendRatio = 0.5 * (1.0 - (double) Math.abs(borderDist) / TRANSITION_RANGE);
if (random.nextDouble() < blendRatio) {
primaryFill = transitionFill;
}
}
// Roll for special inline blocks (dirt, gravel, lava, mud, infested)
Material special = rollSpecialBlock(biome, primaryFill, distance);
if (special != null) return special;
return primaryFill;
}
private static Material rollSpecialBlock(MineBiome biome, Material fill, int distance) {
double roll = random.nextDouble();
switch (biome) {
case NORMAL:
if (roll < DIRT_CHANCE) return Material.DIRT;
roll -= DIRT_CHANCE;
if (roll < GRAVEL_CHANCE) return Material.GRAVEL;
roll -= GRAVEL_CHANCE;
// Rare infested variants
if (roll < INFESTED_CHANCE) {
return switch (fill) {
case STONE -> Material.INFESTED_STONE;
case COBBLESTONE -> Material.INFESTED_COBBLESTONE;
default -> null; // andesite, tuff don't have infested variants
};
}
break;
case DEEP:
// Lava in ALL deep fills, chance increases with distance through the biome
// Deep thresholds max out at 80+ (cracked_deepslate_tiles)
// Total deep distance range is roughly 0-120
double deepProgress = Math.min(1.0, distance / 120.0);
double lavaChance = LAVA_CHANCE_DEEP_MIN + (LAVA_CHANCE_DEEP_MAX - LAVA_CHANCE_DEEP_MIN) * deepProgress;
if (roll < lavaChance) return Material.LAVA;
break;
case SUPER_DEEP:
if (roll < MUD_CHANCE_SUPER_DEEP) return Material.MUD;
roll -= MUD_CHANCE_SUPER_DEEP;
if (roll < LAVA_CHANCE_SUPER_DEEP) return Material.LAVA;
break;
}
return null;
}
private static Material getTransitionFill(int distance, Material[] fills, int[] thresholds) {
for (int i = 1; i < thresholds.length; i++) {
int border = thresholds[i];
int diff = distance - border;
if (Math.abs(diff) <= TRANSITION_RANGE) {
return (diff < 0) ? fills[i] : fills[i - 1];
}
}
return null;
}
private static int getDistanceToBorder(int distance, int[] thresholds) {
int closest = Integer.MAX_VALUE;
for (int i = 1; i < thresholds.length; i++) {
int diff = distance - thresholds[i];
if (Math.abs(diff) < Math.abs(closest)) {
closest = diff;
}
}
return closest;
}
private static Material[] getFillsForBiome(MineBiome biome) {
return switch (biome) {
case NORMAL -> NORMAL_FILLS;
case DEEP -> DEEP_FILLS;
case SUPER_DEEP -> SUPER_DEEP_FILLS;
};
}
private static int[] getThresholdsForBiome(MineBiome biome) {
return switch (biome) {
case NORMAL -> NORMAL_THRESHOLDS;
case DEEP -> DEEP_THRESHOLDS;
case SUPER_DEEP -> SUPER_DEEP_THRESHOLDS;
};
}
// ===================== ORE-ON-BREAK SYSTEM (called from MineWorldManager) =====================
/**
* Detects the deepest fill material among the 6 surrounding blocks to determine
* which fill zone the player is in. Then rolls for an ore based on the broken block's
* position in the fill sequence relative to the detected zone.
*
* Ore chances:
* 5% for ores from the current (detected) fill
* 10% for ores from the previous fill (one step lighter)
* 2% for ores from three fills back
* 1% for any other fill's ores
*
* Returns null if no ore was rolled.
*/
public static Material rollOreOnBreak(Block brokenBlock, Material brokenType) {
// Detect the deepest fill in the 6 surrounding blocks
Material detectedFill = detectDeepestSurroundingFill(brokenBlock);
if (detectedFill == null) {
// Fallback: use the broken block itself if it's a fill
detectedFill = isFillMaterial(brokenType) ? brokenType : Material.STONE;
}
int detectedIndex = ALL_FILLS_ORDERED.indexOf(detectedFill);
int brokenIndex = ALL_FILLS_ORDERED.indexOf(brokenType);
// If the broken block isn't a fill material, no ore roll
if (brokenIndex < 0) return null;
// How many steps back from the detected fill is this broken block?
// detectedIndex is the deepest (highest index), brokenIndex is where we are in the sequence
int stepsBack = detectedIndex - brokenIndex;
// Determine ore chance based on distance from detected fill
double chance;
if (stepsBack == 0) {
chance = ORE_CHANCE_CURRENT; // 5% - breaking the detected fill itself
} else if (stepsBack == 1) {
chance = ORE_CHANCE_PREVIOUS; // 10% - one step lighter
} else if (stepsBack == 2) {
chance = ORE_CHANCE_THREE_BACK; // 2% - two steps lighter
} else {
chance = ORE_CHANCE_OTHER; // 1% - anything else
}
// Roll for ore
if (random.nextDouble() >= chance) return null;
// Pick a random ore from the broken block's ore table
OreEntry[] oreTable = ORE_TABLES.get(brokenType);
if (oreTable == null || oreTable.length == 0) return null;
return pickWeightedOre(oreTable);
}
/**
* Looks at the 6 blocks surrounding the broken block and finds the deepest fill material.
*/
private static Material detectDeepestSurroundingFill(Block block) {
Material deepest = null;
int deepestIndex = -1;
for (BlockFace face : DIRECTIONS) {
Block neighbor = block.getRelative(face);
Material type = neighbor.getType();
int index = ALL_FILLS_ORDERED.indexOf(type);
if (index > deepestIndex) {
deepestIndex = index;
deepest = type;
}
}
return deepest;
}
/**
* Picks a random ore from the table using weights.
*/
private static Material pickWeightedOre(OreEntry[] table) {
double totalWeight = 0;
for (OreEntry e : table) totalWeight += e.weight;
double roll = random.nextDouble() * totalWeight;
double cumulative = 0;
for (OreEntry e : table) {
cumulative += e.weight;
if (roll < cumulative) return e.material;
}
return table[table.length - 1].material;
}
// ===================== PERPENDICULAR AXES =====================
private static int[][] getPerpOffsets(BlockFace dir) {
return switch (dir) {
case UP, DOWN -> new int[][]{{1, 0, 0}, {0, 0, 1}};
case NORTH, SOUTH -> new int[][]{{1, 0, 0}, {0, 1, 0}};
case EAST, WEST -> new int[][]{{0, 0, 1}, {0, 1, 0}};
default -> new int[][]{{1, 0, 0}, {0, 0, 1}};
};
}
// ===================== WALL GENERATION =====================
private static void generateWalls(Set<Long> fillPositions, List<BlockPlacement> wallPlacements, int startY) {
Set<Long> wallPositions = new HashSet<>();
plugin.getLogger().info("[MineGen] Generating bedrock walls for " + fillPositions.size() + " fill positions...");
for (long key : fillPositions) {
int x = decodeX(key);
int y = decodeY(key);
int z = decodeZ(key);
for (BlockFace face : DIRECTIONS) {
int nx = x + face.getModX();
int ny = y + face.getModY();
int nz = z + face.getModZ();
long neighborKey = posKey(nx, ny, nz);
if (!fillPositions.contains(neighborKey)) {
if (ny > startY) continue;
if (wallPositions.add(neighborKey)) {
wallPlacements.add(new BlockPlacement(nx, ny, nz, Material.BEDROCK));
}
}
}
}
}
// ===================== BLOCK PLACEMENT SCHEDULING =====================
private static void scheduleBlockPlacements(World world, List<BlockPlacement> fillPlacements,
List<BlockPlacement> wallPlacements,
int startY, int minY, int maxY) {
// Three-phase placement: 1) Dirt placeholder 2) Bedrock walls 3) Actual fill
List<BlockPlacement> allPlacements = new ArrayList<>();
// Phase A: Dirt placeholders at all fill positions
List<BlockPlacement> dirtPlaceholders = new ArrayList<>(fillPlacements.size());
for (BlockPlacement bp : fillPlacements) {
dirtPlaceholders.add(new BlockPlacement(bp.x, bp.y, bp.z, Material.DIRT));
}
allPlacements.addAll(dirtPlaceholders);
// Phase B: Bedrock walls
allPlacements.addAll(wallPlacements);
// Phase C: Actual fill (overwrites dirt)
allPlacements.addAll(fillPlacements);
// Air blocks above the entrance opening
for (int a = -TUNNEL_RADIUS; a <= TUNNEL_RADIUS; a++) {
for (int b = -TUNNEL_RADIUS; b <= TUNNEL_RADIUS; b++) {
allPlacements.add(new BlockPlacement(a, startY + 1, b, Material.AIR));
}
}
int totalBlocks = allPlacements.size();
int tickDelay = 0;
plugin.getLogger().info("[MineGen] Scheduling " + totalBlocks + " block placements ("
+ dirtPlaceholders.size() + " placeholder + " + wallPlacements.size() + " walls + "
+ fillPlacements.size() + " fill) in batches of " + BLOCKS_PER_TICK);
for (int i = 0; i < totalBlocks; i += BLOCKS_PER_TICK) {
int from = i;
int to = Math.min(i + BLOCKS_PER_TICK, totalBlocks);
Bukkit.getScheduler().runTaskLater(plugin, () -> {
for (int j = from; j < to; j++) {
BlockPlacement bp = allPlacements.get(j);
if (bp.y < minY || bp.y >= maxY) continue;
world.getBlockAt(bp.x, bp.y, bp.z).setType(bp.material, false);
}
}, tickDelay);
tickDelay++;
}
int finalDelay = tickDelay;
Bukkit.getScheduler().runTaskLater(plugin,
() -> plugin.getLogger().info("Mine regeneration complete. " + totalBlocks + " blocks placed."),
finalDelay + 2);
}
// ===================== POSITION ENCODING/DECODING =====================
private static long posKey(int x, int y, int z) {
return ((long) (x + 30000000) & 0x3FFFFFF)
| (((long) (y + 2048) & 0xFFF) << 26)
| (((long) (z + 30000000) & 0x3FFFFFF) << 38);
}
private static int decodeX(long key) {
return (int) (key & 0x3FFFFFF) - 30000000;
}
private static int decodeY(long key) {
return (int) ((key >> 26) & 0xFFF) - 2048;
}
private static int decodeZ(long key) {
return (int) ((key >> 38) & 0x3FFFFFF) - 30000000;
}
}

304
src/main/java/xyz/soukup/ecoCraftCore/mines/MineWorldManager.java
Unescape View File

@ -0,0 +1,304 @@
package xyz.soukup.ecoCraftCore.mines;
import com.infernalsuite.asp.api.AdvancedSlimePaperAPI;
import com.infernalsuite.asp.api.world.SlimeWorld;
import com.infernalsuite.asp.api.world.properties.SlimeProperties;
import com.infernalsuite.asp.api.world.properties.SlimePropertyMap;
import org.bukkit.*;
import org.bukkit.entity.Player;
import org.bukkit.event.EventHandler;
import org.bukkit.event.Listener;
import org.bukkit.event.block.BlockBreakEvent;
import org.bukkit.event.block.BlockExplodeEvent;
import org.bukkit.event.entity.EntityExplodeEvent;
import org.bukkit.event.entity.PlayerDeathEvent;
import org.bukkit.event.player.PlayerChangedWorldEvent;
import org.bukkit.event.player.PlayerItemDamageEvent;
import org.bukkit.event.player.PlayerJoinEvent;
import org.bukkit.inventory.ItemStack;
import org.bukkit.inventory.meta.Damageable;
import org.bukkit.potion.PotionEffect;
import org.bukkit.potion.PotionEffectType;
import xyz.soukup.ecoCraftCore.database.objects.Island;
import xyz.soukup.ecoCraftCore.islands.DatabaseIslandLoader;
import java.util.function.Consumer;
import static xyz.soukup.ecoCraftCore.EcoCraftCore.plugin;
public class MineWorldManager implements Listener {
public static final String MINE_WORLD_NAME = "mine_world";
private static World mineWorld;
public static void init() {
AdvancedSlimePaperAPI asp = AdvancedSlimePaperAPI.instance();
DatabaseIslandLoader loader = new DatabaseIslandLoader();
Bukkit.getScheduler().runTaskAsynchronously(plugin, () -> {
try {
SlimeWorld slimeWorld = null;
// Try to load existing world
if (loader.worldExists(MINE_WORLD_NAME)) {
try {
slimeWorld = asp.readWorld(loader, MINE_WORLD_NAME, false, new SlimePropertyMap());
} catch (Exception e) {
plugin.getLogger().warning("Mine world data is corrupted, recreating...");
loader.deleteWorld(MINE_WORLD_NAME);
}
}
// Create fresh world if loading failed or didn't exist
if (slimeWorld == null) {
SlimePropertyMap props = new SlimePropertyMap();
props.setValue(SlimeProperties.ENVIRONMENT, "NORMAL");
Island island = new Island("mine", MINE_WORLD_NAME, "Mine World", "Shared mine world", "server", "system", null);
island.save();
slimeWorld = asp.createEmptyWorld(MINE_WORLD_NAME, false, props, loader);
}
SlimeWorld finalWorld = slimeWorld;
Bukkit.getScheduler().runTask(plugin, () -> {
asp.loadWorld(finalWorld, true);
mineWorld = Bukkit.getWorld(MINE_WORLD_NAME);
if (mineWorld != null) {
mineWorld.setGameRule(GameRule.DO_MOB_SPAWNING, false);
mineWorld.setGameRule(GameRule.DO_DAYLIGHT_CYCLE, false);
mineWorld.setGameRule(GameRule.DO_WEATHER_CYCLE, false);
mineWorld.setTime(6000);
plugin.getLogger().info("Mine world loaded successfully.");
}
});
} catch (Exception e) {
e.printStackTrace();
plugin.getLogger().severe("Failed to load mine world.");
}
});
}
public static World getWorld() {
return mineWorld;
}
public static Location getSpawnLocation() {
if (mineWorld == null) return null;
int startY = mineWorld.getMaxHeight() - 10;
return new Location(mineWorld, 5, startY + 1, 5);
}
/**
* Deletes the current mine world and creates a fresh empty one.
* Calls the callback with the new World once it's ready.
* Must be called from the main thread with all players already teleported out.
*/
public static void recreateWorld(Consumer<World> callback) {
AdvancedSlimePaperAPI asp = AdvancedSlimePaperAPI.instance();
DatabaseIslandLoader loader = new DatabaseIslandLoader();
plugin.getLogger().info("[MineWorld] Unloading old mine world...");
if (mineWorld != null) {
Bukkit.unloadWorld(mineWorld, false);
mineWorld = null;
}
Bukkit.getScheduler().runTaskAsynchronously(plugin, () -> {
try {
if (loader.worldExists(MINE_WORLD_NAME)) {
loader.deleteWorld(MINE_WORLD_NAME);
plugin.getLogger().info("[MineWorld] Old mine world deleted.");
}
SlimePropertyMap props = new SlimePropertyMap();
props.setValue(SlimeProperties.ENVIRONMENT, "NORMAL");
Island island = new Island("mine", MINE_WORLD_NAME, "Mine World", "Shared mine world", "server", "system", null);
island.save();
SlimeWorld slimeWorld = asp.createEmptyWorld(MINE_WORLD_NAME, false, props, loader);
Bukkit.getScheduler().runTask(plugin, () -> {
asp.loadWorld(slimeWorld, true);
mineWorld = Bukkit.getWorld(MINE_WORLD_NAME);
if (mineWorld != null) {
mineWorld.setGameRule(GameRule.DO_MOB_SPAWNING, false);
mineWorld.setGameRule(GameRule.DO_DAYLIGHT_CYCLE, false);
mineWorld.setGameRule(GameRule.DO_WEATHER_CYCLE, false);
mineWorld.setTime(6000);
plugin.getLogger().info("[MineWorld] Fresh mine world created and loaded.");
callback.accept(mineWorld);
} else {
plugin.getLogger().severe("[MineWorld] Failed to load fresh mine world.");
}
});
} catch (Exception e) {
e.printStackTrace();
plugin.getLogger().severe("[MineWorld] Failed to recreate mine world.");
}
});
}
private boolean isInMineWorld(Player player) {
return player.getWorld().equals(mineWorld);
}
private boolean isInMineWorld(World world) {
return world.equals(mineWorld);
}
// Apply invisible mining fatigue when entering mine world
@EventHandler
public void onWorldChange(PlayerChangedWorldEvent event) {
Player player = event.getPlayer();
// Entering mine world
if (isInMineWorld(player)) {
applyMiningFatigue(player);
}
// Leaving mine world
if (isInMineWorld(event.getFrom())) {
player.removePotionEffect(PotionEffectType.MINING_FATIGUE);
}
}
// Re-apply fatigue on join if player is in mine world
@EventHandler
public void onJoin(PlayerJoinEvent event) {
Player player = event.getPlayer();
if (isInMineWorld(player)) {
applyMiningFatigue(player);
}
}
// Re-apply fatigue on respawn in mine world
@EventHandler
public void onDeath(PlayerDeathEvent event) {
Bukkit.getScheduler().runTaskLater(plugin, () -> {
Player player = event.getPlayer();
if (isInMineWorld(player)) {
applyMiningFatigue(player);
}
}, 1L);
}
private void applyMiningFatigue(Player player) {
player.addPotionEffect(new PotionEffect(
PotionEffectType.MINING_FATIGUE,
Integer.MAX_VALUE,
0, // level I (amplifier 0)
true, // ambient
false, // no particles
false // no icon
));
}
// Double tool durability damage in mine world
@EventHandler
public void onItemDamage(PlayerItemDamageEvent event) {
if (!isInMineWorld(event.getPlayer())) return;
if (event.getItem().getType().getMaxDurability() <= 0) return;
event.setDamage(event.getDamage() * 2);
}
// Prevent entity explosions from destroying bedrock walls
@EventHandler
public void onEntityExplode(EntityExplodeEvent event) {
if (!isInMineWorld(event.getEntity().getWorld())) return;
event.blockList().removeIf(block -> block.getType() == Material.BEDROCK);
}
// Prevent block explosions from destroying bedrock walls
@EventHandler
public void onBlockExplode(BlockExplodeEvent event) {
if (!isInMineWorld(event.getBlock().getWorld())) return;
event.blockList().removeIf(block -> block.getType() == Material.BEDROCK);
}
// Block break logic: bedrock unbreakable, ore-on-break for ALL fills, mining sequence
@EventHandler
public void onBlockBreak(BlockBreakEvent event) {
if (!isInMineWorld(event.getPlayer())) return;
Material type = event.getBlock().getType();
// Bedrock is completely unbreakable (mine walls)
if (type == Material.BEDROCK) {
event.setCancelled(true);
return;
}
// For any fill material (at any stage of the mining sequence), roll for ore first.
// The ore replaces the block as another mining step — player then breaks the ore normally.
if (MineManager.isFillMaterial(type)) {
Material ore = MineManager.rollOreOnBreak(event.getBlock(), type);
if (ore != null) {
event.setCancelled(true);
event.getBlock().setType(ore);
event.getBlock().getState().update(true);
applyToolDamage(event);
return;
}
}
// No ore rolled — apply normal mining sequence (deeper fills degrade into lighter fills)
Material nextTier = getNextTier(type);
if (nextTier != null) {
event.setCancelled(true);
event.getBlock().setType(nextTier);
event.getBlock().getState().update(true);
applyToolDamage(event);
return;
}
// Terminal fill (stone) or ores — break normally
}
/**
* Applies doubled durability damage to the player's tool when we cancel a break event.
* Only applies if the held item actually has durability.
*/
private void applyToolDamage(BlockBreakEvent event) {
ItemStack tool = event.getPlayer().getInventory().getItemInMainHand();
if (tool.getType().isAir() || tool.getType().getMaxDurability() <= 0) return;
if (!(tool.getItemMeta() instanceof Damageable damageable)) return;
damageable.setDamage(damageable.getDamage() + 2); // doubled durability
tool.setItemMeta(damageable);
if (damageable.getDamage() >= tool.getType().getMaxDurability()) {
event.getPlayer().getInventory().setItemInMainHand(null);
event.getPlayer().playSound(event.getPlayer().getLocation(), Sound.ENTITY_ITEM_BREAK, 1.0f, 1.0f);
}
}
/**
* Mining sequence: deeper fills degrade into lighter fills.
* Returns null when the block should break normally (terminal fill = stone).
*
* Chain: gilded_blackstone -> cracked_polished_blackstone_bricks -> blackstone -> smooth_basalt
* -> cracked_deepslate_tiles -> cobbled_deepslate -> deepslate -> tuff -> cobblestone
* -> andesite -> stone -> null (breaks normally)
*/
private Material getNextTier(Material material) {
return switch (material) {
case GILDED_BLACKSTONE -> Material.CRACKED_POLISHED_BLACKSTONE_BRICKS;
case CRACKED_POLISHED_BLACKSTONE_BRICKS -> Material.BLACKSTONE;
case BLACKSTONE -> Material.SMOOTH_BASALT;
case SMOOTH_BASALT -> Material.CRACKED_DEEPSLATE_TILES;
case CRACKED_DEEPSLATE_TILES -> Material.COBBLED_DEEPSLATE;
case COBBLED_DEEPSLATE -> Material.DEEPSLATE;
case DEEPSLATE -> Material.TUFF;
case TUFF -> Material.COBBLESTONE;
case COBBLESTONE -> Material.ANDESITE;
case ANDESITE -> Material.STONE;
default -> null; // Stone and non-fill blocks break normally
};
}
}

7
src/main/resources/messages.yml
Unescape View File

@ -77,4 +77,11 @@ gui:
title: "<dark_green>Obchod"
buy: "<green>Koupit <amount>ks za <price>$"
sell: "<yellow>Prodat <amount>ks za <price>$"
mine:
regenerating: "<green>Regenerace dolů začala..."
regenerate-complete: "<green>Regenerace dolů dokončena."
teleporting: "<green>Teleportuješ se do dolů."
teleported-out: "<yellow>Byl jsi teleportován z dolů kvůli regeneraci."
error:
no-world: "<red>Důlní svět není načtený."

Write Preview
Loading…
Cancel
Save