veloren/voxygen/src/mesh/vol.rs

use vek::*;

use common::vol::{ReadVol, Vox};

use crate::render::{
    mesh::{Mesh, Quad},
    Pipeline,
};

/// Given a volume, a position and the cardinal directions, compute each vertex' AO value
/// `dirs` should be a slice of length 5 so that the sliding window of size 2 over the slice
/// yields each vertex' adjacent positions.
fn get_ao_quad<V: ReadVol>(vol: &V, pos: Vec3<i32>, dirs: &[Vec3<i32>]) -> Vec4<f32> {
    dirs.windows(2)
        .map(|offs| {
            let (s1, s2) = (
                vol.get(pos + offs[0])
                    .map(|v| v.is_empty() as i32)
                    .unwrap_or(1),
                vol.get(pos + offs[1])
                    .map(|v| v.is_empty() as i32)
                    .unwrap_or(1),
            );

            if s1 == 0 && s2 == 0 {
                0
            } else {
                let corner = vol
                    .get(pos + offs[0] + offs[1])
                    .map(|v| v.is_empty() as i32)
                    .unwrap_or(1);
                s1 + s2 + corner
            }
        })
        .map(|i| i as f32 / 3.0)
        .collect::<Vec4<f32>>()
}

// Utility function
fn create_quad<P: Pipeline, F: Fn(Vec3<f32>, Vec3<f32>, Rgb<f32>) -> P::Vertex>(
    origin: Vec3<f32>,
    unit_x: Vec3<f32>,
    unit_y: Vec3<f32>,
    norm: Vec3<f32>,
    col: Rgb<f32>,
    ao: Vec4<f32>,
    vcons: &F,
) -> Quad<P> {
    let ao_scale = 1.0;
    let dark = col * (1.0 - ao_scale);

    if ao[0] + ao[2] < ao[1] + ao[3] {
        Quad::new(
            vcons(origin + unit_y, norm, Rgb::lerp(dark, col, ao[3])),
            vcons(origin, norm, Rgb::lerp(dark, col, ao[0])),
            vcons(origin + unit_x, norm, Rgb::lerp(dark, col, ao[1])),
            vcons(origin + unit_x + unit_y, norm, Rgb::lerp(dark, col, ao[2])),
        )
    } else {
        Quad::new(
            vcons(origin, norm, Rgb::lerp(dark, col, ao[0])),
            vcons(origin + unit_x, norm, Rgb::lerp(dark, col, ao[1])),
            vcons(origin + unit_x + unit_y, norm, Rgb::lerp(dark, col, ao[2])),
            vcons(origin + unit_y, norm, Rgb::lerp(dark, col, ao[3])),
        )
    }
}

pub fn push_vox_verts<
    V: ReadVol,
    P: Pipeline,
    F: Fn(Vec3<f32>, Vec3<f32>, Rgb<f32>) -> P::Vertex,
>(
    mesh: &mut Mesh<P>,
    vol: &V,
    pos: Vec3<i32>,
    offs: Vec3<f32>,
    col: Rgb<f32>,
    vcons: F,
) {
    let (x, y, z) = (Vec3::unit_x(), Vec3::unit_y(), Vec3::unit_z());

    // -x
    if vol
        .get(pos - Vec3::unit_x())
        .map(|v| v.is_empty())
        .unwrap_or(true)
    {
        mesh.push_quad(create_quad(
            offs,
            Vec3::unit_z(),
            Vec3::unit_y(),
            -Vec3::unit_x(),
            col,
            get_ao_quad(vol, pos - Vec3::unit_x(), &[-z, -y, z, y, -z]),
            &vcons,
        ));
    }
    // +x
    if vol
        .get(pos + Vec3::unit_x())
        .map(|v| v.is_empty())
        .unwrap_or(true)
    {
        mesh.push_quad(create_quad(
            offs + Vec3::unit_x(),
            Vec3::unit_y(),
            Vec3::unit_z(),
            Vec3::unit_x(),
            col,
            get_ao_quad(vol, pos + Vec3::unit_x(), &[-y, -z, y, z, -y]),
            &vcons,
        ));
    }
    // -y
    if vol
        .get(pos - Vec3::unit_y())
        .map(|v| v.is_empty())
        .unwrap_or(true)
    {
        mesh.push_quad(create_quad(
            offs,
            Vec3::unit_x(),
            Vec3::unit_z(),
            -Vec3::unit_y(),
            col,
            get_ao_quad(vol, pos - Vec3::unit_y(), &[-x, -z, x, z, -x]),
            &vcons,
        ));
    }
    // +y
    if vol
        .get(pos + Vec3::unit_y())
        .map(|v| v.is_empty())
        .unwrap_or(true)
    {
        mesh.push_quad(create_quad(
            offs + Vec3::unit_y(),
            Vec3::unit_z(),
            Vec3::unit_x(),
            Vec3::unit_y(),
            col,
            get_ao_quad(vol, pos + Vec3::unit_y(), &[-z, -x, z, x, -z]),
            &vcons,
        ));
    }
    // -z
    if vol
        .get(pos - Vec3::unit_z())
        .map(|v| v.is_empty())
        .unwrap_or(true)
    {
        mesh.push_quad(create_quad(
            offs,
            Vec3::unit_y(),
            Vec3::unit_x(),
            -Vec3::unit_z(),
            col,
            get_ao_quad(vol, pos - Vec3::unit_z(), &[-y, -x, y, x, -y]),
            &vcons,
        ));
    }
    // +z
    if vol
        .get(pos + Vec3::unit_z())
        .map(|v| v.is_empty())
        .unwrap_or(true)
    {
        mesh.push_quad(create_quad(
            offs + Vec3::unit_z(),
            Vec3::unit_x(),
            Vec3::unit_y(),
            Vec3::unit_z(),
            col,
            get_ao_quad(vol, pos + Vec3::unit_z(), &[-x, -y, x, y, -x]),
            &vcons,
        ));
    }
}
Generalize meshing and AO code over terrain, figure Former-commit-id: f0a91173ec5a0a9c683e6d1c222cb74e858625b7 2019-04-28 17:12:45 +00:00			`use vek::*;`

			`use common::vol::{ReadVol, Vox};`

			`use crate::render::{`
			`mesh::{Mesh, Quad},`
			`Pipeline,`
			`};`

			`/// Given a volume, a position and the cardinal directions, compute each vertex' AO value`
			/// `dirs` should be a slice of length 5 so that the sliding window of size 2 over the slice
			`/// yields each vertex' adjacent positions.`
Rename mod ao to vol Former-commit-id: ef126e03761b18151594780777fa27e94efe24d7 2019-04-28 21:34:58 +00:00			`fn get_ao_quad<V: ReadVol>(vol: &V, pos: Vec3<i32>, dirs: &[Vec3<i32>]) -> Vec4<f32> {`
Generalize meshing and AO code over terrain, figure Former-commit-id: f0a91173ec5a0a9c683e6d1c222cb74e858625b7 2019-04-28 17:12:45 +00:00			`dirs.windows(2)`
			`.map(\|offs\| {`
			`let (s1, s2) = (`
			`vol.get(pos + offs[0])`
			`.map(\|v\| v.is_empty() as i32)`
			`.unwrap_or(1),`
			`vol.get(pos + offs[1])`
			`.map(\|v\| v.is_empty() as i32)`
			`.unwrap_or(1),`
			`);`

			`if s1 == 0 && s2 == 0 {`
			`0`
			`} else {`
			`let corner = vol`
			`.get(pos + offs[0] + offs[1])`
			`.map(\|v\| v.is_empty() as i32)`
			`.unwrap_or(1);`
			`s1 + s2 + corner`
			`}`
			`})`
			`.map(\|i\| i as f32 / 3.0)`
			`.collect::<Vec4<f32>>()`
			`}`

			`// Utility function`
Rename mod ao to vol Former-commit-id: ef126e03761b18151594780777fa27e94efe24d7 2019-04-28 21:34:58 +00:00			`fn create_quad<P: Pipeline, F: Fn(Vec3<f32>, Vec3<f32>, Rgb<f32>) -> P::Vertex>(`
Generalize meshing and AO code over terrain, figure Former-commit-id: f0a91173ec5a0a9c683e6d1c222cb74e858625b7 2019-04-28 17:12:45 +00:00			`origin: Vec3<f32>,`
			`unit_x: Vec3<f32>,`
			`unit_y: Vec3<f32>,`
			`norm: Vec3<f32>,`
			`col: Rgb<f32>,`
			`ao: Vec4<f32>,`
Rename mod ao to vol Former-commit-id: ef126e03761b18151594780777fa27e94efe24d7 2019-04-28 21:34:58 +00:00			`vcons: &F,`
Generalize meshing and AO code over terrain, figure Former-commit-id: f0a91173ec5a0a9c683e6d1c222cb74e858625b7 2019-04-28 17:12:45 +00:00			`) -> Quad<P> {`
			`let ao_scale = 1.0;`
			`let dark = col * (1.0 - ao_scale);`

			`if ao[0] + ao[2] < ao[1] + ao[3] {`
			`Quad::new(`
			`vcons(origin + unit_y, norm, Rgb::lerp(dark, col, ao[3])),`
			`vcons(origin, norm, Rgb::lerp(dark, col, ao[0])),`
			`vcons(origin + unit_x, norm, Rgb::lerp(dark, col, ao[1])),`
			`vcons(origin + unit_x + unit_y, norm, Rgb::lerp(dark, col, ao[2])),`
			`)`
			`} else {`
			`Quad::new(`
			`vcons(origin, norm, Rgb::lerp(dark, col, ao[0])),`
			`vcons(origin + unit_x, norm, Rgb::lerp(dark, col, ao[1])),`
			`vcons(origin + unit_x + unit_y, norm, Rgb::lerp(dark, col, ao[2])),`
			`vcons(origin + unit_y, norm, Rgb::lerp(dark, col, ao[3])),`
			`)`
			`}`
			`}`

Rename mod ao to vol Former-commit-id: ef126e03761b18151594780777fa27e94efe24d7 2019-04-28 21:34:58 +00:00			`pub fn push_vox_verts<`
			`V: ReadVol,`
			`P: Pipeline,`
			`F: Fn(Vec3<f32>, Vec3<f32>, Rgb<f32>) -> P::Vertex,`
			`>(`
Generalize meshing and AO code over terrain, figure Former-commit-id: f0a91173ec5a0a9c683e6d1c222cb74e858625b7 2019-04-28 17:12:45 +00:00			`mesh: &mut Mesh<P>,`
			`vol: &V,`
			`pos: Vec3<i32>,`
			`offs: Vec3<f32>,`
			`col: Rgb<f32>,`
Rename mod ao to vol Former-commit-id: ef126e03761b18151594780777fa27e94efe24d7 2019-04-28 21:34:58 +00:00			`vcons: F,`
Generalize meshing and AO code over terrain, figure Former-commit-id: f0a91173ec5a0a9c683e6d1c222cb74e858625b7 2019-04-28 17:12:45 +00:00			`) {`
			`let (x, y, z) = (Vec3::unit_x(), Vec3::unit_y(), Vec3::unit_z());`

			`// -x`
			`if vol`
			`.get(pos - Vec3::unit_x())`
			`.map(\|v\| v.is_empty())`
			`.unwrap_or(true)`
			`{`
			`mesh.push_quad(create_quad(`
			`offs,`
			`Vec3::unit_z(),`
			`Vec3::unit_y(),`
			`-Vec3::unit_x(),`
			`col,`
Rename mod ao to vol Former-commit-id: ef126e03761b18151594780777fa27e94efe24d7 2019-04-28 21:34:58 +00:00			`get_ao_quad(vol, pos - Vec3::unit_x(), &[-z, -y, z, y, -z]),`
			`&vcons,`
Generalize meshing and AO code over terrain, figure Former-commit-id: f0a91173ec5a0a9c683e6d1c222cb74e858625b7 2019-04-28 17:12:45 +00:00			`));`
			`}`
			`// +x`
			`if vol`
			`.get(pos + Vec3::unit_x())`
			`.map(\|v\| v.is_empty())`
			`.unwrap_or(true)`
			`{`
			`mesh.push_quad(create_quad(`
			`offs + Vec3::unit_x(),`
			`Vec3::unit_y(),`
			`Vec3::unit_z(),`
			`Vec3::unit_x(),`
			`col,`
Rename mod ao to vol Former-commit-id: ef126e03761b18151594780777fa27e94efe24d7 2019-04-28 21:34:58 +00:00			`get_ao_quad(vol, pos + Vec3::unit_x(), &[-y, -z, y, z, -y]),`
			`&vcons,`
Generalize meshing and AO code over terrain, figure Former-commit-id: f0a91173ec5a0a9c683e6d1c222cb74e858625b7 2019-04-28 17:12:45 +00:00			`));`
			`}`
			`// -y`
			`if vol`
			`.get(pos - Vec3::unit_y())`
			`.map(\|v\| v.is_empty())`
			`.unwrap_or(true)`
			`{`
			`mesh.push_quad(create_quad(`
			`offs,`
			`Vec3::unit_x(),`
			`Vec3::unit_z(),`
			`-Vec3::unit_y(),`
			`col,`
Rename mod ao to vol Former-commit-id: ef126e03761b18151594780777fa27e94efe24d7 2019-04-28 21:34:58 +00:00			`get_ao_quad(vol, pos - Vec3::unit_y(), &[-x, -z, x, z, -x]),`
			`&vcons,`
Generalize meshing and AO code over terrain, figure Former-commit-id: f0a91173ec5a0a9c683e6d1c222cb74e858625b7 2019-04-28 17:12:45 +00:00			`));`
			`}`
			`// +y`
			`if vol`
			`.get(pos + Vec3::unit_y())`
			`.map(\|v\| v.is_empty())`
			`.unwrap_or(true)`
			`{`
			`mesh.push_quad(create_quad(`
			`offs + Vec3::unit_y(),`
			`Vec3::unit_z(),`
			`Vec3::unit_x(),`
			`Vec3::unit_y(),`
			`col,`
Rename mod ao to vol Former-commit-id: ef126e03761b18151594780777fa27e94efe24d7 2019-04-28 21:34:58 +00:00			`get_ao_quad(vol, pos + Vec3::unit_y(), &[-z, -x, z, x, -z]),`
			`&vcons,`
Generalize meshing and AO code over terrain, figure Former-commit-id: f0a91173ec5a0a9c683e6d1c222cb74e858625b7 2019-04-28 17:12:45 +00:00			`));`
			`}`
			`// -z`
			`if vol`
			`.get(pos - Vec3::unit_z())`
			`.map(\|v\| v.is_empty())`
			`.unwrap_or(true)`
			`{`
			`mesh.push_quad(create_quad(`
			`offs,`
			`Vec3::unit_y(),`
			`Vec3::unit_x(),`
			`-Vec3::unit_z(),`
			`col,`
Rename mod ao to vol Former-commit-id: ef126e03761b18151594780777fa27e94efe24d7 2019-04-28 21:34:58 +00:00			`get_ao_quad(vol, pos - Vec3::unit_z(), &[-y, -x, y, x, -y]),`
			`&vcons,`
Generalize meshing and AO code over terrain, figure Former-commit-id: f0a91173ec5a0a9c683e6d1c222cb74e858625b7 2019-04-28 17:12:45 +00:00			`));`
			`}`
			`// +z`
			`if vol`
			`.get(pos + Vec3::unit_z())`
			`.map(\|v\| v.is_empty())`
			`.unwrap_or(true)`
			`{`
			`mesh.push_quad(create_quad(`
			`offs + Vec3::unit_z(),`
			`Vec3::unit_x(),`
			`Vec3::unit_y(),`
			`Vec3::unit_z(),`
			`col,`
Rename mod ao to vol Former-commit-id: ef126e03761b18151594780777fa27e94efe24d7 2019-04-28 21:34:58 +00:00			`get_ao_quad(vol, pos + Vec3::unit_z(), &[-x, -y, x, y, -x]),`
			`&vcons,`
Generalize meshing and AO code over terrain, figure Former-commit-id: f0a91173ec5a0a9c683e6d1c222cb74e858625b7 2019-04-28 17:12:45 +00:00			`));`
			`}`
			`}`