#![deny(unsafe_code)] #![allow(incomplete_features)] #![feature(const_generics, label_break_value)] mod all; mod block; mod column; pub mod config; pub mod generator; pub mod sim; pub mod util; // Reexports pub use crate::config::CONFIG; use crate::{ block::BlockGen, column::{ColumnGen, ColumnSample}, util::Sampler, }; use common::{ terrain::{Block, BlockKind, TerrainChunk, TerrainChunkMeta, TerrainChunkSize}, vol::{ReadVol, RectVolSize, Vox, WriteVol}, }; use rand::Rng; use std::time::Duration; use vek::*; #[derive(Debug)] pub enum Error { Other(String), } pub struct World { sim: sim::WorldSim, } impl World { pub fn generate(seed: u32) -> Self { Self { sim: sim::WorldSim::generate(seed), } } pub fn sim(&self) -> &sim::WorldSim { &self.sim } pub fn tick(&self, _dt: Duration) { // TODO } pub fn sample_columns( &self, ) -> impl Sampler, Sample = Option> + '_ { ColumnGen::new(&self.sim) } pub fn sample_blocks(&self) -> BlockGen { BlockGen::new(self, ColumnGen::new(&self.sim)) } pub fn generate_chunk( &self, chunk_pos: Vec2, // TODO: misleading name mut should_continue: impl FnMut() -> bool, ) -> Result<(TerrainChunk, ChunkSupplement), ()> { let air = Block::empty(); let stone = Block::new(BlockKind::Dense, Rgb::new(200, 220, 255)); let water = Block::new(BlockKind::Water, Rgb::new(60, 90, 190)); let _chunk_size2d = TerrainChunkSize::RECT_SIZE; let (base_z, sim_chunk) = match self .sim /*.get_interpolated( chunk_pos.map2(chunk_size2d, |e, sz: u32| e * sz as i32 + sz as i32 / 2), |chunk| chunk.get_base_z(), ) .and_then(|base_z| self.sim.get(chunk_pos).map(|sim_chunk| (base_z, sim_chunk))) */ .get_base_z(chunk_pos) { Some(base_z) => (base_z as i32, self.sim.get(chunk_pos).unwrap()), // Some((base_z, sim_chunk)) => (base_z as i32, sim_chunk), None => { return Ok(( TerrainChunk::new( CONFIG.sea_level as i32, water, air, TerrainChunkMeta::void(), ), ChunkSupplement::default(), )) } }; let meta = TerrainChunkMeta::new(sim_chunk.get_name(&self.sim), sim_chunk.get_biome()); let mut sampler = self.sample_blocks(); let chunk_block_pos = Vec3::from(chunk_pos) * TerrainChunkSize::RECT_SIZE.map(|e| e as i32); let mut chunk = TerrainChunk::new(base_z, stone, air, meta); for x in 0..TerrainChunkSize::RECT_SIZE.x as i32 { for y in 0..TerrainChunkSize::RECT_SIZE.y as i32 { if should_continue() { return Err(()); }; let wpos2d = Vec2::new(x, y) + Vec2::from(chunk_pos) * TerrainChunkSize::RECT_SIZE.map(|e| e as i32); let z_cache = match sampler.get_z_cache(wpos2d) { Some(z_cache) => z_cache, None => continue, }; let (min_z, only_structures_min_z, max_z) = z_cache.get_z_limits(&mut sampler); for z in base_z..min_z as i32 { let _ = chunk.set(Vec3::new(x, y, z), stone); } for z in min_z as i32..max_z as i32 { let lpos = Vec3::new(x, y, z); let wpos = chunk_block_pos + lpos; let only_structures = lpos.z >= only_structures_min_z as i32; if let Some(block) = sampler.get_with_z_cache(wpos, Some(&z_cache), only_structures) { let _ = chunk.set(lpos, block); } } } } let gen_entity_pos = || { let lpos2d = TerrainChunkSize::RECT_SIZE .map(|sz| rand::thread_rng().gen::().rem_euclid(sz)); let mut lpos = Vec3::new(lpos2d.x as i32, lpos2d.y as i32, 0); while chunk.get(lpos).map(|vox| !vox.is_empty()).unwrap_or(false) { lpos.z += 1; } (chunk_block_pos + lpos).map(|e| e as f32) + 0.5 }; const SPAWN_RATE: f32 = 0.1; const BOSS_RATE: f32 = 0.03; let supplement = ChunkSupplement { npcs: if rand::thread_rng().gen::() < SPAWN_RATE && sim_chunk.chaos < 0.5 && !sim_chunk.is_underwater { vec![NpcInfo { pos: gen_entity_pos(), boss: rand::thread_rng().gen::() < BOSS_RATE, }] } else { Vec::new() }, }; Ok((chunk, supplement)) } } pub struct NpcInfo { pub pos: Vec3, pub boss: bool, } pub struct ChunkSupplement { pub npcs: Vec, } impl Default for ChunkSupplement { fn default() -> Self { Self { npcs: Vec::new() } } }