veloren/world/src/block/mod.rs

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mod tree;
use std::ops::{Add, Div, Mul, Neg, Sub};
use noise::NoiseFn;
use vek::*;
use common::{
terrain::Block,
vol::{Vox, ReadVol},
};
use crate::{
util::{Sampler, HashCache},
column::{ColumnGen, ColumnSample},
CONFIG,
World,
};
pub struct BlockGen<'a> {
world: &'a World,
column_cache: HashCache<Vec2<i32>, Option<ColumnSample>>,
column_gen: ColumnGen<'a>,
}
impl<'a> BlockGen<'a> {
pub fn new(world: &'a World, column_gen: ColumnGen<'a>) -> Self {
Self {
world,
column_cache: HashCache::with_capacity(1024),
column_gen,
}
}
fn sample_column(&mut self, wpos: Vec2<i32>) -> Option<ColumnSample> {
let column_gen = &mut self.column_gen;
self.column_cache
.get(Vec2::from(wpos), |wpos| column_gen.get(wpos))
.clone()
}
}
impl<'a> Sampler for BlockGen<'a> {
type Index = Vec3<i32>;
type Sample = Option<Block>;
fn get(&mut self, wpos: Vec3<i32>) -> Option<Block> {
let ColumnSample {
alt,
chaos,
surface_color,
tree_density,
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forest_kind,
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close_trees,
cave_xy,
cave_alt,
rock,
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cliff,
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} = self.sample_column(Vec2::from(wpos))?;
let wposf = wpos.map(|e| e as f64);
// Apply warping
let warp = (self.world.sim()
.gen_ctx
.warp_nz
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.get((wposf.div(Vec3::new(150.0, 150.0, 150.0))).into_array())
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as f32)
.mul((chaos - 0.1).max(0.0))
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.mul(115.0);
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let is_cliff = if cliff > 0.0 {
(self.world.sim()
.gen_ctx
.warp_nz
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.get((wposf.div(Vec3::new(300.0, 300.0, 1500.0))).into_array())
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as f32) * cliff > 0.3
} else {
false
};
let cliff = if is_cliff {
(0.0
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+ (self.world.sim()
.gen_ctx
.warp_nz
.get((wposf.div(Vec3::new(350.0, 350.0, 800.0))).into_array())
as f32) * 0.8
+ (self.world.sim()
.gen_ctx
.warp_nz
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.get((wposf.div(Vec3::new(100.0, 100.0, 70.0))).into_array())
as f32) * 0.3)
.add(0.4)
.mul(64.0)
} else {
0.0
};
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let height = alt + warp + cliff;
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// Sample blocks
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let stone_col = Rgb::new(200, 220, 255);
let dirt_col = Rgb::new(79, 67, 60);
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let air = Block::empty();
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let stone = Block::new(2, stone_col);
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let surface_stone = Block::new(1, Rgb::new(200, 220, 255));
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let dirt = Block::new(1, dirt_col);
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let sand = Block::new(1, Rgb::new(180, 150, 50));
let water = Block::new(1, Rgb::new(100, 150, 255));
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let warm_stone = Block::new(1, Rgb::new(165, 165, 130));
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let block = if (wposf.z as f32) < height - 3.0 {
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let col = Lerp::lerp(dirt_col, stone_col, (height - 4.0 - wposf.z as f32) * 0.15);
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// Underground
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if (wposf.z as f32) > alt - 32.0 * chaos {
Some(Block::new(1, col))
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} else {
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Some(Block::new(2, col))
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}
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} else if (wposf.z as f32) < height {
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let col = Lerp::lerp(
dirt_col.map(|e| e as f32 / 255.0),
surface_color,
(wposf.z as f32 - (height - 4.0)) * 0.25,
);
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// Surface
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Some(Block::new(1, col.map(|e| (e * 255.0) as u8)))
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} else if (wposf.z as f32) < CONFIG.sea_level {
// Ocean
Some(water)
} else {
None
};
// Caves
let block = block.and_then(|block| {
// Underground
let cave = cave_xy.powf(2.0)
* (wposf.z as f32 - cave_alt)
.div(40.0)
.powf(4.0)
.neg()
.add(1.0)
> 0.9993;
if cave {
None
} else {
Some(block)
}
});
// Rocks
let block = block.or_else(|| {
if (height + 2.5 - wposf.z as f32).div(7.5).abs().powf(2.0) < rock {
Some(warm_stone)
} else {
None
}
});
let block = match block {
Some(block) => block,
None => (&close_trees)
.iter()
.fold(air, |block, (tree_pos, tree_seed)| {
match self.sample_column(Vec2::from(*tree_pos)) {
Some(tree_sample)
if tree_sample.tree_density
> 0.5 + (*tree_seed as f32 / 1000.0).fract() * 0.2 =>
{
let tree_pos3d =
Vec3::new(tree_pos.x, tree_pos.y, tree_sample.alt as i32);
let rpos = wpos - tree_pos3d;
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let trees = tree::kinds(tree_sample.forest_kind); // Choose tree kind
block.or(trees[*tree_seed as usize % trees.len()]
.get((rpos * 128) / 128) // Scaling
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.map(|b| b.clone())
.unwrap_or(Block::empty()))
}
_ => block,
}
}),
};
Some(block)
}
}