veloren/world/src/layer/mod.rs

use crate::{
    column::ColumnSample,
    util::{RandomField, Sampler},
    Index,
};
use common::{
    terrain::{Block, BlockKind},
    vol::{BaseVol, ReadVol, RectSizedVol, Vox, WriteVol},
    lottery::Lottery,
    assets,
};
use std::f32;
use vek::*;

pub fn apply_paths_to<'a>(
    wpos2d: Vec2<i32>,
    mut get_column: impl FnMut(Vec2<i32>) -> Option<&'a ColumnSample<'a>>,
    vol: &mut (impl BaseVol<Vox = Block> + RectSizedVol + ReadVol + WriteVol),
    index: &Index,
) {
    for y in 0..vol.size_xy().y as i32 {
        for x in 0..vol.size_xy().x as i32 {
            let offs = Vec2::new(x, y);

            let wpos2d = wpos2d + offs;

            // Sample terrain
            let col_sample = if let Some(col_sample) = get_column(offs) {
                col_sample
            } else {
                continue;
            };
            let surface_z = col_sample.riverless_alt.floor() as i32;

            let noisy_color = |col: Rgb<u8>, factor: u32| {
                let nz = RandomField::new(0).get(Vec3::new(wpos2d.x, wpos2d.y, surface_z));
                col.map(|e| {
                    (e as u32 + nz % (factor * 2))
                        .saturating_sub(factor)
                        .min(255) as u8
                })
            };

            if let Some((path_dist, path_nearest, path, _)) = col_sample
                .path
                .filter(|(dist, _, path, _)| *dist < path.width)
            {
                let inset = 0;

                // Try to use the column at the centre of the path for sampling to make them
                // flatter
                let col_pos = (offs - wpos2d).map(|e| e as f32) + path_nearest;
                let col00 = get_column(col_pos.map(|e| e.floor() as i32) + Vec2::new(0, 0));
                let col10 = get_column(col_pos.map(|e| e.floor() as i32) + Vec2::new(1, 0));
                let col01 = get_column(col_pos.map(|e| e.floor() as i32) + Vec2::new(0, 1));
                let col11 = get_column(col_pos.map(|e| e.floor() as i32) + Vec2::new(1, 1));
                let col_attr = |col: &ColumnSample| {
                    Vec3::new(col.riverless_alt, col.alt, col.water_dist.unwrap_or(1000.0))
                };
                let [riverless_alt, alt, water_dist] = match (col00, col10, col01, col11) {
                    (Some(col00), Some(col10), Some(col01), Some(col11)) => Lerp::lerp(
                        Lerp::lerp(col_attr(col00), col_attr(col10), path_nearest.x.fract()),
                        Lerp::lerp(col_attr(col01), col_attr(col11), path_nearest.x.fract()),
                        path_nearest.y.fract(),
                    ),
                    _ => col_attr(col_sample),
                }
                .into_array();
                let (bridge_offset, depth) = (
                    ((water_dist.max(0.0) * 0.2).min(f32::consts::PI).cos() + 1.0) * 5.0,
                    ((1.0 - ((water_dist + 2.0) * 0.3).min(0.0).cos().abs())
                        * (riverless_alt + 5.0 - alt).max(0.0)
                        * 1.75
                        + 3.0) as i32,
                );
                let surface_z = (riverless_alt + bridge_offset).floor() as i32;

                for z in inset - depth..inset {
                    let _ = vol.set(
                        Vec3::new(offs.x, offs.y, surface_z + z),
                        if bridge_offset >= 2.0 && path_dist >= 3.0 || z < inset - 1 {
                            Block::new(BlockKind::Normal, noisy_color(Rgb::new(80, 80, 100), 8))
                        } else {
                            let path_color = path.surface_color(
                                col_sample.sub_surface_color.map(|e| (e * 255.0) as u8),
                            );
                            Block::new(BlockKind::Normal, noisy_color(path_color, 8))
                        },
                    );
                }
                let head_space = path.head_space(path_dist);
                for z in inset..inset + head_space {
                    let pos = Vec3::new(offs.x, offs.y, surface_z + z);
                    if vol.get(pos).unwrap().kind() != BlockKind::Water {
                        let _ = vol.set(pos, Block::empty());
                    }
                }
            }
        }
    }
}

pub fn apply_caves_to<'a>(
    wpos2d: Vec2<i32>,
    mut get_column: impl FnMut(Vec2<i32>) -> Option<&'a ColumnSample<'a>>,
    vol: &mut (impl BaseVol<Vox = Block> + RectSizedVol + ReadVol + WriteVol),
    index: &Index,
) {
    for y in 0..vol.size_xy().y as i32 {
        for x in 0..vol.size_xy().x as i32 {
            let offs = Vec2::new(x, y);

            let wpos2d = wpos2d + offs;

            // Sample terrain
            let col_sample = if let Some(col_sample) = get_column(offs) {
                col_sample
            } else {
                continue;
            };
            let surface_z = col_sample.riverless_alt.floor() as i32;

            if let Some((cave_dist, cave_nearest, cave, _)) = col_sample
                .cave
                .filter(|(dist, _, cave, _)| *dist < cave.width)
            {
                let cave_x = (cave_dist / cave.width).min(1.0);

                // Relative units
                let cave_floor = 0.0 - 0.5 * (1.0 - cave_x.powf(2.0)).max(0.0).sqrt() * cave.width;
                let cave_height = (1.0 - cave_x.powf(2.0)).max(0.0).sqrt() * cave.width;

                // Abs units
                let cave_base = (cave.alt + cave_floor) as i32;
                let cave_roof = (cave.alt + cave_height) as i32;

                for z in cave_base..cave_roof {
                    let _ = vol.set(Vec3::new(offs.x, offs.y, z), Block::empty());
                }

                // Scatter things in caves
                if RandomField::new(index.seed).chance(wpos2d.into(), 0.001) && cave_base < surface_z as i32 - 25 {
                    let kind = *assets::load_expect::<Lottery<BlockKind>>("common.cave_scatter")
                        .choose_seeded(RandomField::new(index.seed + 1).get(wpos2d.into()));
                    let _ = vol.set(Vec3::new(offs.x, offs.y, cave_base), Block::new(kind, Rgb::zero()));
                }

            }
        }
    }
}
Added correctly generating world paths, sub-voxel shader noise 2020-04-20 19:18:51 +00:00			`use crate::{`
			`column::ColumnSample,`
			`util::{RandomField, Sampler},`
Added large caves, cave scatter, removed old caves 2020-07-25 11:19:13 +00:00			`Index,`
Added correctly generating world paths, sub-voxel shader noise 2020-04-20 19:18:51 +00:00			`};`
fmt 2020-04-23 16:00:48 +00:00			`use common::{`
			`terrain::{Block, BlockKind},`
			`vol::{BaseVol, ReadVol, RectSizedVol, Vox, WriteVol},`
Added large caves, cave scatter, removed old caves 2020-07-25 11:19:13 +00:00			`lottery::Lottery,`
			`assets,`
fmt 2020-04-23 16:00:48 +00:00			`};`
			`use std::f32;`
			`use vek::*;`
Added correctly generating world paths, sub-voxel shader noise 2020-04-20 19:18:51 +00:00
			`pub fn apply_paths_to<'a>(`
			`wpos2d: Vec2<i32>,`
			`mut get_column: impl FnMut(Vec2<i32>) -> Option<&'a ColumnSample<'a>>,`
			`vol: &mut (impl BaseVol<Vox = Block> + RectSizedVol + ReadVol + WriteVol),`
Added large caves, cave scatter, removed old caves 2020-07-25 11:19:13 +00:00			`index: &Index,`
Added correctly generating world paths, sub-voxel shader noise 2020-04-20 19:18:51 +00:00			`) {`
			`for y in 0..vol.size_xy().y as i32 {`
			`for x in 0..vol.size_xy().x as i32 {`
			`let offs = Vec2::new(x, y);`

			`let wpos2d = wpos2d + offs;`

			`// Sample terrain`
			`let col_sample = if let Some(col_sample) = get_column(offs) {`
			`col_sample`
			`} else {`
			`continue;`
			`};`
			`let surface_z = col_sample.riverless_alt.floor() as i32;`

			`let noisy_color = \|col: Rgb<u8>, factor: u32\| {`
			`let nz = RandomField::new(0).get(Vec3::new(wpos2d.x, wpos2d.y, surface_z));`
			`col.map(\|e\| {`
			`(e as u32 + nz % (factor * 2))`
			`.saturating_sub(factor)`
			`.min(255) as u8`
			`})`
			`};`

Better castle variation, improved paths, multi-storey houses 2020-07-02 23:14:07 +00:00			`if let Some((path_dist, path_nearest, path, _)) = col_sample`
			`.path`
			`.filter(\|(dist, _, path, _)\| *dist < path.width)`
fmt 2020-04-23 16:00:48 +00:00			`{`
Added correctly generating world paths, sub-voxel shader noise 2020-04-20 19:18:51 +00:00			`let inset = 0;`

			`// Try to use the column at the centre of the path for sampling to make them`
			`// flatter`
Improved path rendering on the map, removed ugly path noise 2020-04-22 20:12:57 +00:00			`let col_pos = (offs - wpos2d).map(\|e\| e as f32) + path_nearest;`
			`let col00 = get_column(col_pos.map(\|e\| e.floor() as i32) + Vec2::new(0, 0));`
			`let col10 = get_column(col_pos.map(\|e\| e.floor() as i32) + Vec2::new(1, 0));`
			`let col01 = get_column(col_pos.map(\|e\| e.floor() as i32) + Vec2::new(0, 1));`
			`let col11 = get_column(col_pos.map(\|e\| e.floor() as i32) + Vec2::new(1, 1));`
fmt 2020-04-23 16:00:48 +00:00			`let col_attr = \|col: &ColumnSample\| {`
			`Vec3::new(col.riverless_alt, col.alt, col.water_dist.unwrap_or(1000.0))`
			`};`
Fixed noise on bridges 2020-04-22 20:54:46 +00:00			`let [riverless_alt, alt, water_dist] = match (col00, col10, col01, col11) {`
Improved path rendering on the map, removed ugly path noise 2020-04-22 20:12:57 +00:00			`(Some(col00), Some(col10), Some(col01), Some(col11)) => Lerp::lerp(`
Fixed noise on bridges 2020-04-22 20:54:46 +00:00			`Lerp::lerp(col_attr(col00), col_attr(col10), path_nearest.x.fract()),`
			`Lerp::lerp(col_attr(col01), col_attr(col11), path_nearest.x.fract()),`
Improved path rendering on the map, removed ugly path noise 2020-04-22 20:12:57 +00:00			`path_nearest.y.fract(),`
			`),`
Fixed noise on bridges 2020-04-22 20:54:46 +00:00			`_ => col_attr(col_sample),`
fmt 2020-04-23 16:00:48 +00:00			`}`
			`.into_array();`
Fixed noise on bridges 2020-04-22 20:54:46 +00:00			`let (bridge_offset, depth) = (`
			`((water_dist.max(0.0) * 0.2).min(f32::consts::PI).cos() + 1.0) * 5.0,`
			`((1.0 - ((water_dist + 2.0) * 0.3).min(0.0).cos().abs())`
			`* (riverless_alt + 5.0 - alt).max(0.0)`
			`* 1.75`
			`+ 3.0) as i32,`
			`);`
Improved path rendering on the map, removed ugly path noise 2020-04-22 20:12:57 +00:00			`let surface_z = (riverless_alt + bridge_offset).floor() as i32;`
Added correctly generating world paths, sub-voxel shader noise 2020-04-20 19:18:51 +00:00
			`for z in inset - depth..inset {`
Warning cleanup 2020-04-23 15:16:08 +00:00			`let _ = vol.set(`
Added correctly generating world paths, sub-voxel shader noise 2020-04-20 19:18:51 +00:00			`Vec3::new(offs.x, offs.y, surface_z + z),`
			`if bridge_offset >= 2.0 && path_dist >= 3.0 \|\| z < inset - 1 {`
			`Block::new(BlockKind::Normal, noisy_color(Rgb::new(80, 80, 100), 8))`
			`} else {`
Better castle variation, improved paths, multi-storey houses 2020-07-02 23:14:07 +00:00			`let path_color = path.surface_color(`
			`col_sample.sub_surface_color.map(\|e\| (e * 255.0) as u8),`
			`);`
Added correctly generating world paths, sub-voxel shader noise 2020-04-20 19:18:51 +00:00			`Block::new(BlockKind::Normal, noisy_color(path_color, 8))`
			`},`
			`);`
			`}`
Lowered path priority 2020-06-30 11:28:25 +00:00			`let head_space = path.head_space(path_dist);`
Added correctly generating world paths, sub-voxel shader noise 2020-04-20 19:18:51 +00:00			`for z in inset..inset + head_space {`
			`let pos = Vec3::new(offs.x, offs.y, surface_z + z);`
			`if vol.get(pos).unwrap().kind() != BlockKind::Water {`
Warning cleanup 2020-04-23 15:16:08 +00:00			`let _ = vol.set(pos, Block::empty());`
Added correctly generating world paths, sub-voxel shader noise 2020-04-20 19:18:51 +00:00			`}`
			`}`
			`}`
			`}`
			`}`
			`}`
Added experimental worldgen caves 2020-07-15 23:12:12 +00:00
			`pub fn apply_caves_to<'a>(`
			`wpos2d: Vec2<i32>,`
			`mut get_column: impl FnMut(Vec2<i32>) -> Option<&'a ColumnSample<'a>>,`
			`vol: &mut (impl BaseVol<Vox = Block> + RectSizedVol + ReadVol + WriteVol),`
Added large caves, cave scatter, removed old caves 2020-07-25 11:19:13 +00:00			`index: &Index,`
Added experimental worldgen caves 2020-07-15 23:12:12 +00:00			`) {`
			`for y in 0..vol.size_xy().y as i32 {`
			`for x in 0..vol.size_xy().x as i32 {`
			`let offs = Vec2::new(x, y);`

			`let wpos2d = wpos2d + offs;`

			`// Sample terrain`
			`let col_sample = if let Some(col_sample) = get_column(offs) {`
			`col_sample`
			`} else {`
			`continue;`
			`};`
			`let surface_z = col_sample.riverless_alt.floor() as i32;`

			`if let Some((cave_dist, cave_nearest, cave, _)) = col_sample`
			`.cave`
			`.filter(\|(dist, _, cave, _)\| *dist < cave.width)`
			`{`
			`let cave_x = (cave_dist / cave.width).min(1.0);`

Added large caves, cave scatter, removed old caves 2020-07-25 11:19:13 +00:00			`// Relative units`
			`let cave_floor = 0.0 - 0.5 * (1.0 - cave_x.powf(2.0)).max(0.0).sqrt() * cave.width;`
			`let cave_height = (1.0 - cave_x.powf(2.0)).max(0.0).sqrt() * cave.width;`

			`// Abs units`
			`let cave_base = (cave.alt + cave_floor) as i32;`
			`let cave_roof = (cave.alt + cave_height) as i32;`

			`for z in cave_base..cave_roof {`
			`let _ = vol.set(Vec3::new(offs.x, offs.y, z), Block::empty());`
Added experimental worldgen caves 2020-07-15 23:12:12 +00:00			`}`
Added large caves, cave scatter, removed old caves 2020-07-25 11:19:13 +00:00
			`// Scatter things in caves`
Fixed castle bug, better field RNG 2020-07-25 12:37:00 +00:00			`if RandomField::new(index.seed).chance(wpos2d.into(), 0.001) && cave_base < surface_z as i32 - 25 {`
Added large caves, cave scatter, removed old caves 2020-07-25 11:19:13 +00:00			`let kind = *assets::load_expect::<Lottery<BlockKind>>("common.cave_scatter")`
			`.choose_seeded(RandomField::new(index.seed + 1).get(wpos2d.into()));`
			`let _ = vol.set(Vec3::new(offs.x, offs.y, cave_base), Block::new(kind, Rgb::zero()));`
			`}`

Added experimental worldgen caves 2020-07-15 23:12:12 +00:00			`}`
			`}`
			`}`
			`}`