add lints

Rewrite world generation

Cargo.lock

@@ -145,6 +145,15 @@ version = "1.0.1"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "175571dd1d178ced59193a6fc02dde1b972eb0bc56c892cde9beeceac5bf0f6b"
 
+[[package]]
+name = "atomic"
+version = "0.6.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "8d818003e740b63afc82337e3160717f4f63078720a810b7b903e70a5d1d2994"
+dependencies = [
+ "bytemuck",
+]
+
 [[package]]
 name = "atomic-polyfill"
 version = "1.0.3"
@@ -227,30 +236,6 @@ dependencies = [
  "objc2",
 ]
 
-[[package]]
-name = "bracket-noise"
-version = "0.8.7"
-source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "f0b7443d0990c69db7a83f376f0101d684c20a911698e5f932bffbda2c8b08dd"
-dependencies = [
- "bracket-random",
-]
-
-[[package]]
-name = "bracket-random"
-version = "0.8.7"
-source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "437be61484077b1ddb57002ce3c96b7d03cbf500b5d15157ee7e67e22332c39b"
-dependencies = [
- "getrandom",
- "js-sys",
- "lazy_static",
- "rand",
- "rand_xorshift",
- "regex",
- "wasm-bindgen",
-]
-
 [[package]]
 name = "bumpalo"
 version = "3.16.0"
@@ -262,6 +247,20 @@ name = "bytemuck"
 version = "1.15.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "5d6d68c57235a3a081186990eca2867354726650f42f7516ca50c28d6281fd15"
+dependencies = [
+ "bytemuck_derive",
+]
+
+[[package]]
+name = "bytemuck_derive"
+version = "1.5.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "965ab7eb5f8f97d2a083c799f3a1b994fc397b2fe2da5d1da1626ce15a39f2b1"
+dependencies = [
+ "proc-macro2",
+ "quote",
+ "syn 2.0.60",
+]
 
 [[package]]
 name = "byteorder"
@@ -610,6 +609,15 @@ dependencies = [
  "windows-sys 0.52.0",
 ]
 
+[[package]]
+name = "fastnoise-lite"
+version = "1.1.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "3e5f3c3cc9081e5d0e18bcd50e80cd33cba47fc22f88a9da9c33ecd1c87ea5c0"
+dependencies = [
+ "num-traits",
+]
+
 [[package]]
 name = "fdeflate"
 version = "0.3.4"
@@ -1150,6 +1158,7 @@ version = "0.0.0"
 dependencies = [
  "android-activity",
  "anyhow",
+ "atomic",
  "flume",
  "gilrs",
  "glam",
@@ -1217,8 +1226,10 @@ name = "kubi-shared"
 version = "0.0.0"
 dependencies = [
  "anyhow",
+ "atomic",
  "bincode",
- "bracket-noise",
+ "bytemuck",
+ "fastnoise-lite",
  "glam",
  "hashbrown 0.14.3",
  "nohash-hasher",
@@ -1662,15 +1673,6 @@ dependencies = [
  "getrandom",
 ]
 
-[[package]]
-name = "rand_xorshift"
-version = "0.3.0"
-source = "registry+https://github.com/rust-lang/crates.io-index"
-checksum = "d25bf25ec5ae4a3f1b92f929810509a2f53d7dca2f50b794ff57e3face536c8f"
-dependencies = [
- "rand_core",
-]
-
 [[package]]
 name = "rand_xoshiro"
 version = "0.6.0"

Cargo.toml

@@ -27,6 +27,9 @@ opt-level = 3
 [profile.dev.package.bracket-noise]
 opt-level = 3
 
+[profile.dev.package.fastnoise-lite]
+opt-level = 3
+
 [profile.dev.package.rayon]
 opt-level = 3
 

kubi-server/src/client.rs

@@ -1,5 +1,5 @@
 use glam::Mat4;
-use shipyard::{AllStoragesView, AllStoragesViewMut, Component, EntitiesViewMut, EntityId, Get, IntoIter, NonSendSync, Remove, Unique, UniqueView, UniqueViewMut, View, ViewMut};
+use shipyard::{AllStoragesView, AllStoragesViewMut, Component, EntityId, Get, IntoIter, NonSendSync, Unique, UniqueView, UniqueViewMut, View, ViewMut};
 use hashbrown::HashMap;
 use uflow::{server::Event, SendMode};
 use std::net::SocketAddr;
@@ -95,7 +95,8 @@ pub fn on_client_disconnect(
 
     for event in &events.0 {
       if let Event::Disconnect(addr) = event {
-        let net_client = server.0.client(addr).unwrap();
+        //XXX: do sth with this:
+        //let net_client = server.0.client(addr).unwrap();
         let Some(&entity_id) = addr_map.0.get(addr) else {
           log::error!("Disconnected client not authenticated, moving on");
           continue;

kubi-server/src/world.rs

@@ -102,7 +102,7 @@ fn process_chunk_requests(
         ).unwrap();
       }
     } else {
-      let mut chunk = Chunk::new(chunk_position);
+      let mut chunk = Chunk::new();
       chunk.state = ChunkState::Loading;
       chunk.subscriptions.insert(message.client_id);
       chunk_manager.chunks.insert(chunk_position, chunk);

kubi-server/src/world/chunk.rs

@@ -1,4 +1,3 @@
-use glam::IVec3;
 use hashbrown::HashSet;
 use nohash_hasher::BuildNoHashHasher;
 use kubi_shared::{
@@ -14,15 +13,13 @@ pub enum ChunkState {
 }
 
 pub struct Chunk {
-  pub position: IVec3,
   pub state: ChunkState,
   pub blocks: Option<BlockData>,
   pub subscriptions: HashSet<ClientId, BuildNoHashHasher<ClientId>>,
 }
 impl Chunk {
-  pub fn new(position: IVec3) -> Self {
+  pub fn new() -> Self {
     Self {
-      position,
       state: ChunkState::Nothing,
       blocks: None,
       subscriptions: HashSet::with_capacity_and_hasher(4, BuildNoHashHasher::default()),

kubi-server/src/world/tasks.rs

@@ -41,7 +41,9 @@ impl ChunkTaskManager {
     self.pool.spawn(move || {
       sender.send(match task {
         ChunkTask::LoadChunk { position: chunk_position, seed } => {
-          let (blocks, queue) = generate_world(chunk_position, seed);
+          let Some((blocks, queue)) = generate_world(chunk_position, seed, None) else {
+            return
+          };
           ChunkTaskResponse::ChunkLoaded { chunk_position, blocks, queue }
         }
       }).unwrap()

kubi-shared/Cargo.toml

@@ -14,14 +14,15 @@ serde = { version = "1.0", default-features = false, features = ["alloc", "deriv
 serde_with = "3.4"
 bincode = "1.3"
 anyhow = "1.0"
-bracket-noise = "0.8"
+fastnoise-lite = { version = "1.1", features = ["std", "f64"] }
 rand = { version = "0.8", default_features = false, features = ["std", "min_const_gen"] }
 rand_xoshiro = "0.6"
 hashbrown = { version = "0.14", features = ["serde"] }
 nohash-hasher = "0.2"
-#bytemuck = { version = "1.14", features = ["derive"] }
+bytemuck = { version = "1.14", features = ["derive"] }
 static_assertions = "1.1"
 nz = "0.3"
+atomic = "0.6"
 
 [features]
 default = []

kubi-shared/src/block.rs

@@ -26,9 +26,10 @@ pub enum BlockTexture {
   Water,
 }
 
-#[derive(Serialize, Deserialize, Clone, Copy, Debug, PartialEq, Eq, EnumIter, TryFromPrimitive)]
+#[derive(Serialize, Deserialize, Clone, Copy, Debug, Default, PartialEq, Eq, EnumIter, TryFromPrimitive)]
 #[repr(u8)]
 pub enum Block {
+  #[default]
   Air,
   Marker,
   Stone,

kubi-shared/src/entity.rs

@@ -17,19 +17,20 @@ impl Health {
     }
   }
 }
-impl PartialEq for Health {
-  fn eq(&self, other: &Self) -> bool {
-    self.current == other.current
-  }
-}
-impl Eq for Health {}
-impl PartialOrd for Health {
-  fn partial_cmp(&self, other: &Self) -> Option<std::cmp::Ordering> {
-    self.current.partial_cmp(&other.current)
-  }
-}
-impl Ord for Health {
-  fn cmp(&self, other: &Self) -> std::cmp::Ordering {
-    self.current.cmp(&other.current)
-  }
-}
+
+// impl PartialEq for Health {
+//   fn eq(&self, other: &Self) -> bool {
+//     self.current == other.current
+//   }
+// }
+// impl Eq for Health {}
+// impl PartialOrd for Health {
+//   fn partial_cmp(&self, other: &Self) -> Option<std::cmp::Ordering> {
+//     self.current.partial_cmp(&other.current)
+//   }
+// }
+// impl Ord for Health {
+//   fn cmp(&self, other: &Self) -> std::cmp::Ordering {
+//     self.current.cmp(&other.current)
+//   }
+// }

kubi-shared/src/worldgen.rs

@@ -1,342 +1,199 @@
-use bracket_noise::prelude::*;
-use rand::prelude::*;
-use glam::{IVec3, ivec3, Vec3Swizzles, IVec2};
-use rand_xoshiro::Xoshiro256StarStar;
+use std::sync::Arc;
+use atomic::Atomic;
+use bytemuck::{CheckedBitPattern, NoUninit};
+use glam::IVec3;
+use static_assertions::const_assert;
 use crate::{
-  chunk::{BlockData, CHUNK_SIZE},
   block::Block,
+  chunk::{BlockData, CHUNK_SIZE},
   queue::QueuedBlock,
 };
 
-fn mountain_ramp(mut x: f32) -> f32 {
-  x *= 2.0;
-  if x < 0.4 {
-    0.5 * x
-  } else if x < 0.55 {
-    4. * (x - 0.4) + 0.2
-  } else {
-    0.4444 * (x - 0.55) + 0.8
+pub mod steps;
+pub mod structures;
+
+#[repr(u8)]
+#[derive(Clone, Copy, Debug, Default, NoUninit, CheckedBitPattern)]
+pub enum AbortState {
+  #[default]
+  Continue,
+  Abort,
+  Aborted,
+}
+const_assert!(Atomic::<AbortState>::is_lock_free());
+
+pub struct SeedThingy {
+  pseed: u64,
+  iseed: i32,
+  iter: u8,
+}
+
+impl SeedThingy {
+  pub fn new(seed: u64) -> Self {
+    Self {
+      pseed: seed,
+      iseed: (seed & 0x7fffffffu64) as i32,
+      iter: 0,
     }
   }
 
-fn local_height(height: i32, chunk_position: IVec3) -> usize {
-  let offset = chunk_position * CHUNK_SIZE as i32;
-  (height - offset.y).clamp(0, CHUNK_SIZE as i32) as usize
+  pub fn next_seed(&mut self) -> i32 {
+    self.iter += 1;
+    self.iseed = (
+      self.pseed
+        .rotate_left((3 * self.iter) as _)
+      & 0x7fffffff
+    ) as i32;
+    self.iseed
+  }
+}
+trait WorldGenStep {
+  fn initialize(generator: &WorldGenerator) -> Self;
+  fn generate(&mut self, generator: &mut WorldGenerator);
 }
 
-fn local_y_position(height: i32, chunk_position: IVec3) -> Option<usize> {
-  let offset = chunk_position * CHUNK_SIZE as i32;
-  let position = height - offset.y;
-  (0..CHUNK_SIZE as i32).contains(&position).then_some(position as usize)
+macro_rules! run_steps {
+  ($gen: expr, $abort: expr, [$($step:ty),* $(,)?]) => {
+    (||{
+      let _abort: ::std::sync::Arc<::atomic::Atomic<$crate::worldgen::AbortState>> =
+        $abort.unwrap_or_else(|| ::std::sync::Arc::new(::atomic::Atomic::new($crate::worldgen::AbortState::Continue)));
+
+      let _chkabt = || _abort.compare_exchange(
+          $crate::worldgen::AbortState::Abort,
+          $crate::worldgen::AbortState::Aborted,
+          ::atomic::Ordering::Relaxed,
+          ::atomic::Ordering::Relaxed
+        ).is_ok();
+
+      if _chkabt() { return false }
+
+      $({
+        let _ensure_ref: &mut $crate::worldgen::WorldGenerator = $gen;
+        struct _Ensure0<T: $crate::worldgen::WorldGenStep>(T);
+        type _Ensure1 = _Ensure0<$step>;
+        let mut step: _Ensure1 = _Ensure0(<$step>::initialize(&*_ensure_ref));
+        if _chkabt() { return false }
+        step.0.generate(_ensure_ref);
+        if _chkabt() { return false }
+      })*
+
+      true
+    })()
+  };
 }
 
+#[derive(Default)]
+pub struct WorldGeneratorData {
+  pub master_height_map: Option<Vec<Vec<i32>>>,
+}
 
-pub fn generate_world(chunk_position: IVec3, seed: u64) -> (BlockData, Vec<QueuedBlock>) {
-  let offset = chunk_position * CHUNK_SIZE as i32;
-  let mut blocks = Box::new([[[Block::Air; CHUNK_SIZE]; CHUNK_SIZE]; CHUNK_SIZE]);
-  let mut queue = Vec::with_capacity(0);
+pub struct WorldGenerator {
+  seed: u64,
+  chunk_position: IVec3,
+  blocks: BlockData,
+  queue: Vec<QueuedBlock>,
+  pub data: WorldGeneratorData,
+}
 
-  let mut smart_place = |blocks: &mut BlockData, position: IVec3, block: Block| {
+impl WorldGenerator {
+  fn offset(&self) -> IVec3 {
+    self.chunk_position * CHUNK_SIZE as i32
+  }
+
+  fn query(&self, position: IVec3) -> Block {
+    // let offset = self.offset();
+    // let event_pos = offset + position;
+    // if let Some(block) = self.queue.iter().find(|block| block.position == event_pos) {
+    //   block.block_type
+    // } else {
+    //   self.blocks[position.x as usize][position.y as usize][position.z as usize]
+    // }
+    self.blocks[position.x as usize][position.y as usize][position.z as usize]
+  }
+
+  fn place(&mut self, position: IVec3, block: Block) {
+    // let offset = self.offset();
+    // let event_pos = offset + position;
+    // self.queue.retain(|block: &QueuedBlock| {
+    //   block.position != event_pos
+    // });
+    self.blocks[position.x as usize][position.y as usize][position.z as usize] = block;
+  }
+
+  fn place_if_empty(&mut self, position: IVec3, block: Block) {
+    if self.query(position) == Block::Air {
+      self.place(position, block);
+    }
+  }
+
+  fn place_or_queue(&mut self, position: IVec3, block: Block) {
+    let offset = self.offset();
     if position.to_array().iter().any(|&x| !(0..CHUNK_SIZE).contains(&(x as usize))) {
       let event_pos = offset + position;
-      queue.retain(|block: &QueuedBlock| {
+      self.queue.retain(|block: &QueuedBlock| {
         block.position != event_pos
       });
-      queue.push(QueuedBlock {
+      self.queue.push(QueuedBlock {
         position: event_pos,
         block_type: block,
         soft: true
       });
     } else {
-      blocks[position.x as usize][position.y as usize][position.z as usize] = block;
-    }
-  };
-
-  //STICK
-  if chunk_position.x == 0 && chunk_position.y == 5 {
-    for z in 0..CHUNK_SIZE {
-      blocks[0][0][z] = Block::Stone;
-    }
-  }
-  //
-
-  let mut height_noise = FastNoise::seeded(seed);
-  height_noise.set_fractal_type(FractalType::FBM);
-  height_noise.set_fractal_octaves(4);
-  height_noise.set_frequency(0.003);
-
-  let mut elevation_noise = FastNoise::seeded(seed.rotate_left(1));
-  elevation_noise.set_fractal_type(FractalType::FBM);
-  elevation_noise.set_fractal_octaves(1);
-  elevation_noise.set_frequency(0.001);
-  
-  let mut cave_noise_a = FastNoise::seeded(seed.rotate_left(2));
-  cave_noise_a.set_fractal_type(FractalType::FBM);
-  cave_noise_a.set_fractal_octaves(2);
-  cave_noise_a.set_frequency(0.01);
-
-  let mut cave_noise_b = FastNoise::seeded(seed.rotate_left(3));
-  cave_noise_b.set_fractal_type(FractalType::FBM);
-  cave_noise_b.set_fractal_octaves(3);
-  cave_noise_b.set_frequency(0.015);
-
-  let mut cave_noise_holes = FastNoise::seeded(seed.rotate_left(4));
-  cave_noise_holes.set_fractal_type(FractalType::FBM);
-  cave_noise_holes.set_fractal_octaves(2);
-  cave_noise_holes.set_frequency(0.005);
-
-  let mut ravine_nose_line = FastNoise::seeded(seed.rotate_left(5));
-  ravine_nose_line.set_fractal_type(FractalType::Billow);
-  ravine_nose_line.set_fractal_octaves(2);
-  ravine_nose_line.set_frequency(0.005);
-
-  let mut ravine_noise_location = FastNoise::seeded(seed.rotate_left(6));
-  ravine_noise_location.set_fractal_type(FractalType::FBM);
-  ravine_noise_location.set_fractal_octaves(1);
-  ravine_noise_location.set_frequency(0.005);
-
-  let mut river_noise = FastNoise::seeded(seed.rotate_left(7));
-  river_noise.set_fractal_type(FractalType::Billow);
-  river_noise.set_fractal_octaves(2);
-  river_noise.set_frequency(0.5 * 0.005);
-
-  let mut rng = Xoshiro256StarStar::seed_from_u64(
-    seed
-    ^ (chunk_position.x as u32 as u64)
-    ^ ((chunk_position.z as u32 as u64) << 32)
-  );
-  let rng_map_a: [[f32; CHUNK_SIZE]; CHUNK_SIZE] = rng.gen();
-  let rng_map_b: [[f32; CHUNK_SIZE]; CHUNK_SIZE] = rng.gen();
-
-  //Generate height map
-  let mut within_heightmap = false;
-  let mut deco_heightmap = [[None; CHUNK_SIZE]; CHUNK_SIZE];
-
-  for x in 0..CHUNK_SIZE {
-    for z in 0..CHUNK_SIZE {
-      let (noise_x, noise_y) = ((offset.x + x as i32) as f32, (offset.z + z as i32) as f32);
-      //sample noises (that are needed right now)
-      let raw_heightmap_value = height_noise.get_noise(noise_x, noise_y);
-      let raw_elevation_value = elevation_noise.get_noise(noise_x, noise_y);
-      let raw_ravine_location_value = ravine_noise_location.get_noise(noise_x, noise_y);
-      //compute height
-      let mut is_surface = true;
-      let mut river_fill_height = None;
-      let height = {
-        let local_elevation = raw_elevation_value.powi(4).sqrt();
-        let mut height = (mountain_ramp(raw_heightmap_value) * local_elevation * 100.) as i32;
-        //Flatten valleys
-        if height < 0 {
-          height /= 2; 
-        }
-        //Generate rivers
-        {
-          let river_width = (height as f32 / -5.).clamp(0.5, 1.);
-          let river_value = river_noise.get_noise(noise_x, noise_y);
-          if ((-0.00625 * river_width)..(0.00625 * river_width)).contains(&(river_value.powi(2))) {
-            is_surface = false;
-            river_fill_height = Some(height - 1);
-            //river_fill_height = Some(-3);
-            height -= (river_width * 15. * ((0.00625 * river_width) - river_value.powi(2)) * (1. / (0.00625 * river_width))).round() as i32;
-          }
-        }
-        //Generate ravines
-        if height < 0 && raw_ravine_location_value > 0.4 {
-          let raw_ravine_value = ravine_nose_line.get_noise(noise_x, noise_y);
-          if (-0.0125..0.0125).contains(&(raw_ravine_value.powi(2))) {
-            is_surface = false;
-            height -= (100. * (0.0125 - raw_ravine_value.powi(2)) * (1. / 0.0125)).round() as i32;
-          }
-        }
-        height
-      };
-      //add to heightmap
-      if is_surface {
-        deco_heightmap[x][z] = Some(height);
-        //place dirt
-        for y in 0..local_height(height, chunk_position) {
-          blocks[x][y][z] = Block::Dirt;
-          within_heightmap = true;
-        }
-        //place stone
-        for y in 0..local_height(height - 5 - (raw_heightmap_value * 5.) as i32, chunk_position) {
-          blocks[x][y][z] = Block::Stone;
-          within_heightmap = true;
-        }
-        //place grass
-        if let Some(y) = local_y_position(height, chunk_position) {
-          blocks[x][y][z] = Block::Grass;
-          within_heightmap = true;
-        }
-      } else if let Some(river_fill_height) = river_fill_height {
-        //Place water
-        for y in 0..local_height(river_fill_height, chunk_position) {
-          blocks[x][y][z] = Block::Water;
-          within_heightmap = true;
-        }
-        //Place stone
-        for y in 0..local_height(height, chunk_position) {
-          blocks[x][y][z] = Block::Stone;
-          within_heightmap = true;
-        }
-        //Place dirt
-        if let Some(y) = local_y_position(height, chunk_position) {
-          blocks[x][y][z] = Block::Dirt;
-          within_heightmap = true;
-        }
-      } else {
-        //Place stone
-        for y in 0..local_height(height, chunk_position) {
-          blocks[x][y][z] = Block::Stone;
-          within_heightmap = true;
-        }
-      }
+      self.blocks[position.x as usize][position.y as usize][position.z as usize] = block;
     }
   }
 
-  //Carve out caves
-  if within_heightmap {
-    for z in 0..CHUNK_SIZE {
-      for y in 0..CHUNK_SIZE {
-        for x in 0..CHUNK_SIZE {
-          if blocks[x][y][z] != Block::Stone { continue }
-
-          let cave_size = ((offset.y + y as i32) as f32 / -100.).clamp(0., 1.);
-          let inv_cave_size = 1. - cave_size;
-          if cave_size < 0.1 { continue }
-          
-          let position = ivec3(x as i32, y as i32, z as i32) + offset;
-
-          let is_cave = || {
-            let raw_cavemap_value_a = cave_noise_a.get_noise3d(position.x as f32, position.y as f32, position.z as f32);
-            let raw_cavemap_value_b = cave_noise_b.get_noise3d(position.x as f32, position.y as f32, position.z as f32);
-            ((cave_size * -0.15)..=(cave_size * 0.15)).contains(&raw_cavemap_value_a) && 
-            ((cave_size * -0.15)..=(cave_size * 0.15)).contains(&raw_cavemap_value_b)
-          };
-          let is_hole_cave = || {
-            let raw_cavemap_value_holes = cave_noise_holes.get_noise3d(position.x as f32, position.y as f32, position.z as f32);
-            ((0.9 + (0.1 * inv_cave_size))..=1.0).contains(&raw_cavemap_value_holes.abs())
-          };
-
-          if is_cave() || is_hole_cave() {
-            blocks[x][y][z] = Block::Air;
-            if deco_heightmap[x][z] == Some(y as i32 + offset.y) {
-              deco_heightmap[x][z] = None
+  fn global_position(&self, position: IVec3) -> IVec3 {
+    self.offset() + position
   }
+
+  fn local_height(&self, height: i32) -> i32 {
+    let offset = self.chunk_position * CHUNK_SIZE as i32;
+    (height - offset.y).clamp(0, CHUNK_SIZE as i32)
   }
+
+  fn local_y_position(&self, y: i32) -> Option<i32> {
+    let offset = self.chunk_position * CHUNK_SIZE as i32;
+    let position = y - offset.y;
+    (0..CHUNK_SIZE as i32).contains(&position).then_some(position)
   }
+
+  /// crude hash of self.seed and x
+  fn seeded_hash(&self, x: impl std::hash::Hash) -> u64 {
+    //use std::hash to hash the seed and x
+    use std::hash::{Hash, Hasher};
+    let mut hasher = std::collections::hash_map::DefaultHasher::new();
+    x.hash(&mut hasher);
+    self.seed.hash(&mut hasher);
+    hasher.finish()
   }
+
+  pub fn new(chunk_position: IVec3, seed: u64) -> Self {
+    Self {
+      seed,
+      chunk_position,
+      blocks: Box::new([[[Block::Air; CHUNK_SIZE]; CHUNK_SIZE]; CHUNK_SIZE]),
+      queue: Vec::with_capacity(0),
+      data: Default::default(),
     }
   }
 
-  //Add decorations
-  for x in 0..CHUNK_SIZE {
-    for z in 0..CHUNK_SIZE {
-      //get height
-      let Some(height) = deco_heightmap[x][z] else { continue };
-      //check for air
-      // if blocks[x][local_y][z] == Block::Air {
-      //   continue
-      // }
-      //place tall grass
-      if rng_map_a[x][z] < 0.03 {
-        if let Some(y) = local_y_position(height + 1, chunk_position) {
-          blocks[x][y][z] = Block::TallGrass;
-        }
-      }
-      //place trees!
-      if rng_map_a[x][z] < 0.001 {
-        //Replace grass with dirt under the tree
-        if let Some(y) = local_y_position(height, chunk_position) {
-          blocks[x][y][z] = Block::Dirt;
-        }
-
-        //Place wood (no smart_place needed here!)
-        let tree_height = 4 + (rng_map_b[x][z] * 3.).round() as i32;
-        for tree_y in 0..tree_height {
-          if let Some(y) = local_y_position(height + 1 + tree_y, chunk_position) {
-            blocks[x][y][z] = Block::Wood;
+  /// Generate the chunk.
+  ///
+  /// Will return `None` only if the generation was aborted.
+  pub fn generate(mut self, abort: Option<Arc<Atomic<AbortState>>>) -> Option<(BlockData, Vec<QueuedBlock>)> {
+    run_steps!(&mut self, abort, [
+      steps::_01_terrain::TerrainStep,
+      steps::_02_water::WaterStep,
+      steps::_03_caves::CaveStep,
+      steps::_04_layers::LayersStep,
+      steps::_05_decorate::DecorateStep,
+      steps::_06_trees::TreesStep,
+    ]).then_some((self.blocks, self.queue))
   }
 }
 
-        let tree_height = 4 + (rng_map_b[x][z] * 3.).round() as i32;
-
-        //Place leaf blocks
-        if let Some(y) = local_y_position(height + 1, chunk_position) {
-          let tree_pos = ivec3(x as i32, y as i32, z as i32);
-          // Place wood (smart_place)
-          // for tree_y in 0..tree_height {
-          //   smart_place(&mut blocks, tree_pos + tree_y * IVec3::Y, Block::Wood);
-          // }
-          // Part that wraps around the tree
-          {
-            let tree_leaf_height = tree_height - 3;
-            let leaf_width = 2;
-            for tree_y in tree_leaf_height..tree_height {
-              for tree_x in (-leaf_width)..=leaf_width {
-                for tree_z in (-leaf_width)..=leaf_width {
-                  let tree_offset = ivec3(tree_x, tree_y, tree_z);
-                  if tree_offset.xz() == IVec2::ZERO { continue }
-                  smart_place(&mut blocks, tree_pos + tree_offset, Block::Leaf);
-                }
-              }
-            }
-          }
-          //part above the tree
-          {
-            let leaf_above_height = 2;
-            let leaf_width = 1;
-            for tree_y in tree_height..(tree_height + leaf_above_height) {
-              for tree_x in (-leaf_width)..=leaf_width {
-                for tree_z in (-leaf_width)..=leaf_width {
-                  let tree_offset = ivec3(tree_x, tree_y, tree_z);
-                  smart_place(&mut blocks, tree_pos + tree_offset, Block::Leaf);
-                }
-              }
-            }
-          }
-        }
-      }
-    }
-  }
-
-  (blocks, queue)
-  
-  // let mut cave_noise = FastNoise::seeded(seed);
-  // cave_noise.set_fractal_type(FractalType::FBM);
-  // cave_noise.set_frequency(0.1);
-
-  // let mut dirt_noise = FastNoise::seeded(seed.rotate_left(1));
-  // dirt_noise.set_fractal_type(FractalType::FBM);
-  // dirt_noise.set_frequency(0.1);
-
-  // 
-
-  // if chunk_position.y >= 0 {
-  //   if chunk_position.y == 0 {
-  //     for x in 0..CHUNK_SIZE {
-  //       for z in 0..CHUNK_SIZE {
-  //         blocks[x][0][z] = Block::Dirt;
-  //         blocks[x][1][z] = Block::Grass;
-  //       }
-  //     }
-  //   }
-  // } else {
-  //   for x in 0..CHUNK_SIZE {
-  //     for y in 0..CHUNK_SIZE {
-  //       for z in 0..CHUNK_SIZE {
-  //         let position = ivec3(x as i32, y as i32, z as i32) + offset;
-  //         let v_cave_noise = cave_noise.get_noise3d(position.x as f32, position.y as f32, position.z as f32) * (-position.y as f32 - 10.0).clamp(0., 1.);
-  //         let v_dirt_noise = dirt_noise.get_noise3d(position.x as f32, position.y as f32, position.z as f32) * (-position.y as f32).clamp(0., 1.);
-  //         if v_cave_noise > 0.5 {
-  //           blocks[x][y][z] = Block::Stone;
-  //         } else if v_dirt_noise > 0.5 {
-  //           blocks[x][y][z] = Block::Dirt;
-  //         }
-  //       }
-  //     }
-  //   }
-  // }
-  // blocks
-
+pub fn generate_world(chunk_position: IVec3, seed: u64, abort: Option<Arc<Atomic<AbortState>>>) -> Option<(BlockData, Vec<QueuedBlock>)> {
+  //TODO: pass through None for abort
+  WorldGenerator::new(chunk_position, seed).generate(abort)
 }

kubi-shared/src/worldgen/steps.rs

@@ -0,0 +1,6 @@
+pub mod _01_terrain;
+pub mod _02_water;
+pub mod _03_caves;
+pub mod _04_layers;
+pub mod _05_decorate;
+pub mod _06_trees;

kubi-shared/src/worldgen/steps/_01_terrain.rs

@@ -0,0 +1,34 @@
+use fastnoise_lite::{FastNoiseLite, FractalType};
+use glam::ivec3;
+use crate::{block::Block, chunk::CHUNK_SIZE};
+use super::super::{SeedThingy, WorldGenStep, WorldGenerator};
+
+pub struct TerrainStep {
+  noise: FastNoiseLite,
+}
+
+impl WorldGenStep for TerrainStep {
+  fn initialize(generator: &WorldGenerator) -> Self {
+    let mut seeder = SeedThingy::new(generator.seed);
+    let mut noise = FastNoiseLite::with_seed(seeder.next_seed());
+    noise.set_fractal_type(Some(FractalType::FBm));
+    noise.set_fractal_octaves(Some(4));
+    noise.set_frequency(Some(0.003));
+    Self { noise }
+  }
+
+  fn generate(&mut self, gen: &mut WorldGenerator) {
+    let mut height_map = vec![vec![0; CHUNK_SIZE]; CHUNK_SIZE];
+    for x in 0..CHUNK_SIZE as i32 {
+      for z in 0..CHUNK_SIZE as i32 {
+        let global_xz = gen.global_position(ivec3(x, 0, z));
+        let height = (self.noise.get_noise_2d(global_xz.x as f64, global_xz.z as f64) * 32.0) as i32;
+        height_map[x as usize][z as usize] = height;
+        for y in 0..gen.local_height(height) {
+          gen.place(ivec3(x, y, z), Block::Stone);
+        }
+      }
+    }
+    gen.data.master_height_map = Some(height_map);
+  }
+}

kubi-shared/src/worldgen/steps/_02_water.rs

@@ -0,0 +1,20 @@
+use glam::ivec3;
+use crate::{block::Block, chunk::CHUNK_SIZE};
+use super::super::{WorldGenerator, WorldGenStep};
+
+pub const WATER_LEVEL: i32 = 0;
+
+pub struct WaterStep;
+
+impl WorldGenStep for WaterStep {
+  fn initialize(_: &WorldGenerator) -> Self { Self }
+  fn generate(&mut self, gen: &mut WorldGenerator) {
+    for x in 0..CHUNK_SIZE as i32 {
+      for z in 0..CHUNK_SIZE as i32 {
+        for y in 0..gen.local_height(WATER_LEVEL) {
+          gen.place_if_empty(ivec3(x, y, z), Block::Water);
+        }
+      }
+    }
+  }
+}

kubi-shared/src/worldgen/steps/_03_caves.rs

@@ -0,0 +1,49 @@
+use fastnoise_lite::{FastNoiseLite, FractalType};
+use glam::ivec3;
+use crate::{block::Block, chunk::CHUNK_SIZE};
+use super::super::{SeedThingy, WorldGenStep, WorldGenerator};
+
+pub struct CaveStep {
+  a: FastNoiseLite,
+  b: FastNoiseLite,
+}
+
+impl WorldGenStep for CaveStep {
+  fn initialize(gen: &WorldGenerator) -> Self {
+    let mut seeder = SeedThingy::new(gen.seed);
+
+    let mut a = FastNoiseLite::with_seed(seeder.next_seed());
+    a.set_fractal_type(Some(FractalType::FBm));
+    a.set_fractal_octaves(Some(2));
+
+    let mut b = FastNoiseLite::with_seed(seeder.next_seed());
+    b.set_fractal_type(Some(FractalType::FBm));
+    b.set_fractal_octaves(Some(2));
+
+    Self { a, b }
+  }
+
+  fn generate(&mut self, gen: &mut WorldGenerator) {
+    for x in 0..CHUNK_SIZE as i32 {
+      for y in 0..CHUNK_SIZE as i32 {
+        for z in 0..CHUNK_SIZE as i32 {
+          let cave_size = ((gen.offset().y + y - 50) as f64 / -200.).clamp(0., 1.) as f32;
+          let inv_cave_size = 1. - cave_size;
+          if cave_size < 0.1 { continue }
+
+          let pos = ivec3(x, y, z);
+          if gen.query(pos) != Block::Stone { continue }
+
+          let pos_global = gen.global_position(pos);
+          let noise_a = self.a.get_noise_3d(pos_global.x as f64, pos_global.y as f64, pos_global.z as f64) * 0.5 + 0.5;
+          let noise_b = self.b.get_noise_3d(pos_global.x as f64, pos_global.y as f64, pos_global.z as f64) * 0.5 + 0.5;
+
+          if noise_a.min(noise_b) > (0.6 + 0.4 * inv_cave_size) {
+            gen.place(pos, Block::Air);
+          }
+          //TODO
+        }
+      }
+    }
+  }
+}

kubi-shared/src/worldgen/steps/_04_layers.rs

@@ -0,0 +1,36 @@
+use glam::ivec3;
+use crate::{block::Block, chunk::CHUNK_SIZE};
+use super::{
+  _02_water::WATER_LEVEL,
+  super::{WorldGenStep, WorldGenerator}
+};
+
+pub struct LayersStep;
+
+impl WorldGenStep for LayersStep {
+  fn initialize(_: &WorldGenerator) -> Self { Self }
+
+  fn generate(&mut self, gen: &mut WorldGenerator) {
+    for x in 0..CHUNK_SIZE as i32 {
+      for z in 0..CHUNK_SIZE as i32 {
+        let terrain_height = gen.data.master_height_map.as_ref().unwrap()[x as usize][z as usize];
+
+        // Dirt layer height, naturally gets thinner as height gets deeper
+        let mut dirt_layer_height = (((terrain_height as f32 + 15.) / 20.).clamp(0., 1.) * 8.).round() as i32;
+        dirt_layer_height -= (gen.seeded_hash((x, z, 1)) & 1) as i32; //+ (gen.seeded_hash((x, z, 0xbau8)) & 1) as i32;
+
+        // Place dirt layer
+        for y in gen.local_height(terrain_height - dirt_layer_height)..gen.local_height(terrain_height) {
+          gen.place(ivec3(x, y, z), Block::Dirt);
+        }
+
+        // If above water level, place grass
+        if terrain_height >= WATER_LEVEL {
+          if let Some(local_y) = gen.local_y_position(terrain_height - 1) {
+            gen.place(ivec3(x, local_y, z), Block::Grass);
+          }
+        }
+      }
+    }
+  }
+}

kubi-shared/src/worldgen/steps/_05_decorate.rs

@@ -0,0 +1,31 @@
+use glam::ivec3;
+use crate::{block::Block, chunk::CHUNK_SIZE};
+use super::{
+  _02_water::WATER_LEVEL,
+  super::{WorldGenStep, WorldGenerator},
+};
+
+pub struct DecorateStep;
+
+impl WorldGenStep for DecorateStep {
+  fn initialize(_: &WorldGenerator) -> Self { Self }
+
+  fn generate(&mut self, gen: &mut WorldGenerator) {
+    for x in 0..CHUNK_SIZE as i32 {
+      for z in 0..CHUNK_SIZE as i32 {
+        let global_xz = gen.global_position(ivec3(x, 0, z));
+
+        let terrain_height = gen.data.master_height_map.as_ref().unwrap()[x as usize][z as usize];
+
+        //Place tall grass
+        if terrain_height >= WATER_LEVEL {
+          if let Some(local_y) = gen.local_y_position(terrain_height) {
+            if (gen.seeded_hash((global_xz.x, global_xz.z)) & 0xf) == 0xf {
+              gen.place_if_empty(ivec3(x, local_y, z), Block::TallGrass);
+            }
+          }
+        }
+      }
+    }
+  }
+}

kubi-shared/src/worldgen/steps/_06_trees.rs

@@ -0,0 +1,44 @@
+use fastnoise_lite::{FastNoiseLite, NoiseType};
+use glam::ivec3;
+use crate::{chunk::CHUNK_SIZE, worldgen::SeedThingy};
+use super::_02_water::WATER_LEVEL;
+use crate::worldgen::{
+  WorldGenStep, WorldGenerator,
+  structures::{Structure, TreeStructure},
+};
+
+
+pub struct TreesStep {
+  density_noise: FastNoiseLite,
+}
+
+impl WorldGenStep for TreesStep {
+  fn initialize(gen: &WorldGenerator) -> Self {
+    let mut seeder = SeedThingy::new(gen.seed.rotate_left(5));
+    let mut density_noise = FastNoiseLite::with_seed(seeder.next_seed());
+    density_noise.set_noise_type(Some(NoiseType::OpenSimplex2));
+    density_noise.set_frequency(Some(0.008));
+    Self { density_noise }
+  }
+
+  fn generate(&mut self, gen: &mut WorldGenerator) {
+    for x in 0..CHUNK_SIZE as i32 {
+      for z in 0..CHUNK_SIZE as i32 {
+        let terrain_height = gen.data.master_height_map.as_ref().unwrap()[x as usize][z as usize];
+        if terrain_height < WATER_LEVEL { continue }
+
+        let global_xz = gen.global_position(ivec3(x, 0, z));
+        let mut density = self.density_noise.get_noise_2d(global_xz.x as f64, global_xz.z as f64) * 0.5 + 0.5;
+        density = density.powi(3);
+        if gen.seeded_hash((global_xz.x, global_xz.z, 0xfef)) & 0xff >= (density * 7.).round() as u64 {
+          continue
+        }
+
+        let tree = TreeStructure::default();
+        if let Some(local_y) = gen.local_y_position(terrain_height) {
+          tree.place(gen, ivec3(x, local_y, z));
+        }
+      }
+    }
+  }
+}

kubi-shared/src/worldgen/structures.rs

@@ -0,0 +1,9 @@
+use glam::IVec3;
+use super::WorldGenerator;
+
+mod tree;
+pub use tree::TreeStructure;
+
+pub trait Structure {
+  fn place(&self, gen: &mut WorldGenerator, root_pos: IVec3);
+}

kubi-shared/src/worldgen/structures/tree.rs

@@ -0,0 +1,58 @@
+use glam::IVec3;
+use super::Structure;
+use crate::{block::Block, worldgen::WorldGenerator};
+
+#[derive(Clone, Copy, Debug)]
+pub struct TreeStructure {
+  pub height: i32,
+}
+
+impl Default for TreeStructure {
+  fn default() -> Self {
+    Self { height: 5 }
+  }
+}
+
+impl Structure for TreeStructure {
+  fn place(&self, gen: &mut WorldGenerator, root: IVec3) {
+    //check the block below the tree, if it's grass, replace it with dirt
+    //XXX: This won't work if root.y == 0
+    if root.y != 0 && gen.query(root - IVec3::Y) == Block::Grass {
+      gen.place(root - IVec3::Y, Block::Dirt);
+    }
+
+    //Tree stem
+    for y in root.y..root.y + self.height {
+      gen.place_or_queue(IVec3::new(root.x, y, root.z), Block::Wood);
+    }
+
+    //Tree leaves
+    //Try to create the following shape:
+    //(a 5x2x5 cube that wraps around the stem with a 3x1x3 cube on top)
+    //  xxx
+    // xx|xx
+    // xx|xx
+    //   |
+
+    for y in 0..=4_i32 {
+      for x in -2..=2_i32 {
+        for z in -2..=2_i32 {
+          //Do not overwrite the stem
+          if y < 3 && x == 0 && z == 0 {
+            continue
+          }
+          // Cut off the corners of the top layer
+          if y >= 3 && (x.abs() > 1 || z.abs() > 1) {
+            continue
+          }
+          let position = IVec3::new(
+            root.x + x,
+            root.y + self.height - 3 + y,
+            root.z + z
+          );
+          gen.place_or_queue(position, Block::Leaf);
+        }
+      }
+    }
+  }
+}

kubi/Cargo.toml

@@ -37,6 +37,7 @@ static_assertions = "1.1"
 tinyset = "0.4"
 serde_json = { version = "1.0", optional = true } #only used for `generate_visualizer_data`
 rand = { version = "0.8", features = ["alloc", "small_rng"]}
+atomic = "0.6"
 
 [target.'cfg(target_os = "android")'.dependencies]
 android-activity = "^0.5.2"

kubi/src/init.rs

@@ -1,11 +1,11 @@
 use shipyard::{AllStoragesView, UniqueViewMut};
-use std::{env, net::SocketAddr, fs::OpenOptions, path::{Path, PathBuf}, str::FromStr, sync::{Arc, RwLock}};
+use std::{env, net::SocketAddr, fs::OpenOptions, path::Path};
 use anyhow::Result;
 use crate::{
   networking::{GameType, ServerAddress},
   state::{GameState, NextState}
 };
-use kubi_shared::data::{WorldSaveFile, SharedSaveFile};
+use kubi_shared::data::WorldSaveFile;
 
 fn open_local_save_file(path: &Path) -> Result<WorldSaveFile> {
   let mut save_file = WorldSaveFile::new({

kubi/src/lib.rs

@@ -1,4 +1,14 @@
-#![allow(clippy::too_many_arguments)] // allowed because systems often need a lot of arguments
+//TODO move lints to workspace Cargo.toml
+#![allow(
+  clippy::too_many_arguments, // allowed because systems often need a lot of argumentss
+  clippy::enum_variant_names,
+  clippy::type_complexity
+)]
+#![forbid(
+  static_mut_refs,
+  unsafe_op_in_unsafe_fn,
+  rust_2024_compatibility,
+)]
 
 use shipyard::{
   World, Workload, IntoWorkload,

kubi/src/networking.rs

@@ -1,5 +1,4 @@
 use shipyard::{Unique, AllStoragesView, UniqueView, UniqueViewMut, Workload, IntoWorkload, EntitiesViewMut, Component, ViewMut, SystemModificator, View, IntoIter, WorkloadModificator};
-use winit::event_loop::ControlFlow;
 use std::net::SocketAddr;
 use uflow::{
   client::{Client, Config as ClientConfig, Event as ClientEvent}, 

kubi/src/networking/handshake.rs

@@ -1,4 +1,4 @@
-use shipyard::{AllStoragesView, AllStoragesViewMut, IntoIter, Unique, UniqueView, UniqueViewMut, View};
+use shipyard::{AllStoragesView, AllStoragesViewMut, IntoIter, Unique, UniqueViewMut, View};
 use uflow::{client::Event as ClientEvent, SendMode};
 use kubi_shared::networking::{
   messages::{ClientToServerMessage, ServerToClientMessage, ServerToClientMessageType},

kubi/src/ui/crosshair_ui.rs

@@ -1,9 +1,7 @@
-use std::f32::consts::PI;
-
-use glam::{uvec2, Vec2};
+use glam::uvec2;
 use hui::{
   draw::{ImageHandle, TextureFormat},
-  element::{container::Container, image::Image, transformer::ElementTransformExt, UiElementExt},
+  element::{container::Container, image::Image, UiElementExt},
   layout::Alignment,
   size
 };

kubi/src/world/chunk.rs

@@ -1,5 +1,8 @@
+use std::sync::Arc;
 use glam::IVec3;
+use atomic::Atomic;
 use glium::{VertexBuffer, IndexBuffer};
+use kubi_shared::worldgen::AbortState;
 use crate::rendering::world::ChunkVertex;
 
 pub use kubi_shared::chunk::{CHUNK_SIZE, BlockData};
@@ -39,7 +42,7 @@ pub enum DesiredChunkState {
   Nothing,
   Loaded,
   Rendered,
-  ToUnload,
+  Unloaded,
 }
 impl DesiredChunkState {
   pub fn matches_current(self, current: CurrentChunkState) -> bool {
@@ -55,8 +58,10 @@ pub struct Chunk {
   pub mesh_index: Option<usize>,
   pub current_state: CurrentChunkState,
   pub desired_state: DesiredChunkState,
+  pub abortion: Option<Arc<Atomic<AbortState>>>,
   pub mesh_dirty: bool,
 }
+
 impl Chunk {
   pub fn new(position: IVec3) -> Self {
     Self {
@@ -65,6 +70,7 @@ impl Chunk {
       mesh_index: None,
       current_state: Default::default(),
       desired_state: Default::default(),
+      abortion: None,
       mesh_dirty: false,
     }
   }

kubi/src/world/loading.rs

@@ -1,6 +1,8 @@
+use std::sync::Arc;
+use atomic::{Atomic, Ordering};
 use glam::{IVec3, ivec3};
 use glium::{VertexBuffer, IndexBuffer, index::PrimitiveType};
-use kubi_shared::networking::messages::ClientToServerMessage;
+use kubi_shared::{networking::messages::ClientToServerMessage, worldgen::AbortState};
 use shipyard::{View, UniqueView, UniqueViewMut, IntoIter, Workload, IntoWorkload, NonSendSync, track};
 use uflow::SendMode;
 use crate::{
@@ -15,10 +17,10 @@ use super::{
   ChunkStorage, ChunkMeshStorage,
   chunk::{Chunk, DesiredChunkState, CHUNK_SIZE, ChunkMesh, CurrentChunkState, ChunkData},
   tasks::{ChunkTaskManager, ChunkTaskResponse, ChunkTask}, 
-  queue::BlockUpdateQueue
+  queue::BlockUpdateQueue,
 };
 
-const MAX_CHUNK_OPS_INGAME: usize = 6;
+const MAX_CHUNK_OPS_INGAME: usize = 8;
 const MAX_CHUNK_OPS: usize = 32;
 
 pub fn update_loaded_world_around_player() -> Workload {
@@ -56,7 +58,7 @@ pub fn update_chunks_if_player_moved(
 
   //Then, mark *ALL* chunks with ToUnload
   for (_, chunk) in &mut vm_world.chunks {
-    chunk.desired_state = DesiredChunkState::ToUnload;
+    chunk.desired_state = DesiredChunkState::Unloaded;
   }
 
   //Then mark chunks that are near to the player
@@ -99,13 +101,27 @@ fn unload_downgrade_chunks(
   //TODO refactor this
   //TODO unsubscibe if in multiplayer
   vm_world.chunks.retain(|_, chunk| {
-    if chunk.desired_state == DesiredChunkState::ToUnload {
+    if chunk.desired_state == DesiredChunkState::Unloaded {
       if let Some(mesh_index) = chunk.mesh_index {
         vm_meshes.remove(mesh_index).unwrap();
       }
+      if let Some(abortion) = &chunk.abortion {
+        let _ = abortion.compare_exchange(
+          AbortState::Continue, AbortState::Abort,
+          Ordering::Relaxed, Ordering::Relaxed
+        );
+      }
       false
     } else {
       match chunk.desired_state {
+        DesiredChunkState::Nothing if matches!(chunk.current_state, CurrentChunkState::Loading) => {
+          if let Some(abortion) = &chunk.abortion {
+            let _ = abortion.compare_exchange(
+              AbortState::Continue, AbortState::Abort,
+              Ordering::Relaxed, Ordering::Relaxed
+            );
+          }
+        },
         DesiredChunkState::Loaded if matches!(chunk.current_state, CurrentChunkState::Rendered | CurrentChunkState::CalculatingMesh | CurrentChunkState::RecalculatingMesh) => {
           if let Some(mesh_index) = chunk.mesh_index {
             vm_meshes.remove(mesh_index).unwrap();
@@ -134,6 +150,7 @@ fn start_required_tasks(
     let chunk = world.chunks.get(&position).unwrap();
     match chunk.desired_state {
       DesiredChunkState::Loaded | DesiredChunkState::Rendered if chunk.current_state == CurrentChunkState::Nothing => {
+        let mut abortion = None;
         //start load task
         if let Some(client) = &mut udp_client {
           client.0.send(
@@ -144,14 +161,18 @@ fn start_required_tasks(
             SendMode::Reliable
           );
         } else {
+          let atomic = Arc::new(Atomic::new(AbortState::Continue));
           task_manager.spawn_task(ChunkTask::LoadChunk {
             seed: 0xbeef_face_dead_cafe,
-            position
+            position,
+            abortion: Some(Arc::clone(&atomic)),
           });
+          abortion = Some(atomic);
         }
         //Update chunk state
         let chunk = world.chunks.get_mut(&position).unwrap();
         chunk.current_state = CurrentChunkState::Loading;
+        chunk.abortion = abortion;
         // ===========
         //log::trace!("Started loading chunk {position}");
       },
@@ -173,6 +194,7 @@ fn start_required_tasks(
           chunk.current_state = CurrentChunkState::CalculatingMesh;
         }
         chunk.mesh_dirty = false;
+        chunk.abortion = None; //Can never abort at this point
         // ===========
         //log::trace!("Started generating mesh for chunk {position}");
       }
@@ -195,14 +217,15 @@ fn process_completed_tasks(
       ChunkTaskResponse::LoadedChunk { position, chunk_data, mut queued } => {
         //check if chunk exists
         let Some(chunk) = world.chunks.get_mut(&position) else {
+          //to compensate, actually push the ops counter back by one
           log::warn!("blocks data discarded: chunk doesn't exist");
-          return
+          continue
         };
 
         //check if chunk still wants it
         if !matches!(chunk.desired_state, DesiredChunkState::Loaded | DesiredChunkState::Rendered) {
           log::warn!("block data discarded: state undesirable: {:?}", chunk.desired_state);
-          return
+          continue
         }
 
         //set the block data
@@ -228,13 +251,13 @@ fn process_completed_tasks(
         //check if chunk exists
         let Some(chunk) = world.chunks.get_mut(&position) else {
           log::warn!("mesh discarded: chunk doesn't exist");
-          return
+          continue
         };
 
         //check if chunk still wants it
         if chunk.desired_state != DesiredChunkState::Rendered {
           log::warn!("mesh discarded: state undesirable: {:?}", chunk.desired_state);
-          return
+          continue
         }
 
         //apply the mesh

kubi/src/world/mesh.rs

@@ -1,6 +1,6 @@
 use glam::{IVec3, ivec3};
 use strum::IntoEnumIterator;
-use kubi_shared::block::{Block, BlockTexture, RenderType, Transparency};
+use kubi_shared::block::{Block, RenderType, Transparency};
 use crate::world::chunk::CHUNK_SIZE;
 use crate::rendering::world::ChunkVertex;
 

kubi/src/world/tasks.rs

@@ -1,6 +1,8 @@
+use std::sync::Arc;
+use atomic::Atomic;
 use flume::{Sender, Receiver};
 use glam::IVec3;
-use kubi_shared::queue::QueuedBlock;
+use kubi_shared::{queue::QueuedBlock, worldgen::AbortState};
 use shipyard::Unique;
 use rayon::{ThreadPool, ThreadPoolBuilder};
 use super::{
@@ -13,7 +15,8 @@ use crate::rendering::world::ChunkVertex;
 pub enum ChunkTask {
   LoadChunk {
     seed: u64,
-    position: IVec3
+    position: IVec3,
+    abortion: Option<Arc<Atomic<AbortState>>>,
   },
   GenerateMesh {
     position: IVec3,
@@ -67,8 +70,11 @@ impl ChunkTaskManager {
             trans_vertices, trans_indices,
           }
         },
-        ChunkTask::LoadChunk { position, seed } => {
-          let (chunk_data, queued) = generate_world(position, seed);
+        ChunkTask::LoadChunk { position, seed, abortion } => {
+          let Some((chunk_data, queued)) = generate_world(position, seed, abortion) else {
+            log::warn!("aborted operation");
+            return
+          };
           ChunkTaskResponse::LoadedChunk { position, chunk_data, queued }
         }
       });