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bevy/examples/3d/parallax_mapping.rs
Joona Aalto 25bfa80e60
Migrate cameras to required components (#15641) 
# Objective

Yet another PR for migrating stuff to required components. This time,
cameras!

## Solution

As per the [selected
proposal](https://hackmd.io/tsYID4CGRiWxzsgawzxG_g#Combined-Proposal-1-Selected),
deprecate `Camera2dBundle` and `Camera3dBundle` in favor of `Camera2d`
and `Camera3d`.

Adding a `Camera` without `Camera2d` or `Camera3d` now logs a warning,
as suggested by Cart [on
Discord](https://discord.com/channels/691052431525675048/1264881140007702558/1291506402832945273).
I would personally like cameras to work a bit differently and be split
into a few more components, to avoid some footguns and confusing
semantics, but that is more controversial, and shouldn't block this core
migration.

## Testing

I ran a few 2D and 3D examples, and tried cameras with and without
render graphs.

---

## Migration Guide

`Camera2dBundle` and `Camera3dBundle` have been deprecated in favor of
`Camera2d` and `Camera3d`. Inserting them will now also insert the other
components required by them automatically.
2024-10-05 01:59:52 +00:00

327 lines
11 KiB
Rust
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//! A simple 3D scene with a spinning cube with a normal map and depth map to demonstrate parallax mapping.
//! Press left mouse button to cycle through different views.
use std::fmt;
use bevy::{math::ops, prelude::*, render::texture::ImageLoaderSettings};
fn main() {
App::new()
.add_plugins(DefaultPlugins)
.add_systems(Startup, setup)
.add_systems(
Update,
(
spin,
move_camera,
update_parallax_depth_scale,
update_parallax_layers,
switch_method,
),
)
.run();
}
#[derive(Component)]
struct Spin {
speed: f32,
}
/// The camera, used to move camera on click.
#[derive(Component)]
struct CameraController;
const DEPTH_CHANGE_RATE: f32 = 0.1;
const DEPTH_UPDATE_STEP: f32 = 0.03;
const MAX_DEPTH: f32 = 0.3;
struct TargetDepth(f32);
impl Default for TargetDepth {
fn default() -> Self {
TargetDepth(0.09)
}
}
struct TargetLayers(f32);
impl Default for TargetLayers {
fn default() -> Self {
TargetLayers(5.0)
}
}
struct CurrentMethod(ParallaxMappingMethod);
impl Default for CurrentMethod {
fn default() -> Self {
CurrentMethod(ParallaxMappingMethod::Relief { max_steps: 4 })
}
}
impl fmt::Display for CurrentMethod {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
match self.0 {
ParallaxMappingMethod::Occlusion => write!(f, "Parallax Occlusion Mapping"),
ParallaxMappingMethod::Relief { max_steps } => {
write!(f, "Relief Mapping with {max_steps} steps")
}
}
}
}
impl CurrentMethod {
fn next_method(&mut self) {
use ParallaxMappingMethod::*;
self.0 = match self.0 {
Occlusion => Relief { max_steps: 2 },
Relief { max_steps } if max_steps < 3 => Relief { max_steps: 4 },
Relief { max_steps } if max_steps < 5 => Relief { max_steps: 8 },
Relief { .. } => Occlusion,
}
}
}
fn update_parallax_depth_scale(
input: Res<ButtonInput<KeyCode>>,
mut materials: ResMut<Assets<StandardMaterial>>,
mut target_depth: Local<TargetDepth>,
mut depth_update: Local<bool>,
mut text: Query<&mut Text>,
) {
if input.just_pressed(KeyCode::Digit1) {
target_depth.0 -= DEPTH_UPDATE_STEP;
target_depth.0 = target_depth.0.max(0.0);
*depth_update = true;
}
if input.just_pressed(KeyCode::Digit2) {
target_depth.0 += DEPTH_UPDATE_STEP;
target_depth.0 = target_depth.0.min(MAX_DEPTH);
*depth_update = true;
}
if *depth_update {
let mut text = text.single_mut();
for (_, mat) in materials.iter_mut() {
let current_depth = mat.parallax_depth_scale;
let new_depth = current_depth.lerp(target_depth.0, DEPTH_CHANGE_RATE);
mat.parallax_depth_scale = new_depth;
text.sections[0].value = format!("Parallax depth scale: {new_depth:.5}\n");
if (new_depth - current_depth).abs() <= 0.000000001 {
*depth_update = false;
}
}
}
}
fn switch_method(
input: Res<ButtonInput<KeyCode>>,
mut materials: ResMut<Assets<StandardMaterial>>,
mut text: Query<&mut Text>,
mut current: Local<CurrentMethod>,
) {
if input.just_pressed(KeyCode::Space) {
current.next_method();
} else {
return;
}
let mut text = text.single_mut();
text.sections[2].value = format!("Method: {}\n", *current);
for (_, mat) in materials.iter_mut() {
mat.parallax_mapping_method = current.0;
}
}
fn update_parallax_layers(
input: Res<ButtonInput<KeyCode>>,
mut materials: ResMut<Assets<StandardMaterial>>,
mut target_layers: Local<TargetLayers>,
mut text: Query<&mut Text>,
) {
if input.just_pressed(KeyCode::Digit3) {
target_layers.0 -= 1.0;
target_layers.0 = target_layers.0.max(0.0);
} else if input.just_pressed(KeyCode::Digit4) {
target_layers.0 += 1.0;
} else {
return;
}
let layer_count = ops::exp2(target_layers.0);
let mut text = text.single_mut();
text.sections[1].value = format!("Layers: {layer_count:.0}\n");
for (_, mat) in materials.iter_mut() {
mat.max_parallax_layer_count = layer_count;
}
}
fn spin(time: Res<Time>, mut query: Query<(&mut Transform, &Spin)>) {
for (mut transform, spin) in query.iter_mut() {
transform.rotate_local_y(spin.speed * time.delta_seconds());
transform.rotate_local_x(spin.speed * time.delta_seconds());
transform.rotate_local_z(-spin.speed * time.delta_seconds());
}
}
// Camera positions to cycle through when left-clicking.
const CAMERA_POSITIONS: &[Transform] = &[
Transform {
translation: Vec3::new(1.5, 1.5, 1.5),
rotation: Quat::from_xyzw(-0.279, 0.364, 0.115, 0.880),
scale: Vec3::ONE,
},
Transform {
translation: Vec3::new(2.4, 0.0, 0.2),
rotation: Quat::from_xyzw(0.094, 0.676, 0.116, 0.721),
scale: Vec3::ONE,
},
Transform {
translation: Vec3::new(2.4, 2.6, -4.3),
rotation: Quat::from_xyzw(0.170, 0.908, 0.308, 0.225),
scale: Vec3::ONE,
},
Transform {
translation: Vec3::new(-1.0, 0.8, -1.2),
rotation: Quat::from_xyzw(-0.004, 0.909, 0.247, -0.335),
scale: Vec3::ONE,
},
];
fn move_camera(
mut camera: Query<&mut Transform, With<CameraController>>,
mut current_view: Local<usize>,
button: Res<ButtonInput<MouseButton>>,
) {
let mut camera = camera.single_mut();
if button.just_pressed(MouseButton::Left) {
*current_view = (*current_view + 1) % CAMERA_POSITIONS.len();
}
let target = CAMERA_POSITIONS[*current_view];
camera.translation = camera.translation.lerp(target.translation, 0.2);
camera.rotation = camera.rotation.slerp(target.rotation, 0.2);
}
fn setup(
mut commands: Commands,
mut materials: ResMut<Assets<StandardMaterial>>,
mut meshes: ResMut<Assets<Mesh>>,
asset_server: Res<AssetServer>,
) {
// The normal map. Note that to generate it in the GIMP image editor, you should
// open the depth map, and do Filters → Generic → Normal Map
// You should enable the "flip X" checkbox.
let normal_handle = asset_server.load_with_settings(
"textures/parallax_example/cube_normal.png",
// The normal map texture is in linear color space. Lighting won't look correct
// if `is_srgb` is `true`, which is the default.
|settings: &mut ImageLoaderSettings| settings.is_srgb = false,
);
// Camera
commands.spawn((
Camera3d::default(),
Transform::from_xyz(1.5, 1.5, 1.5).looking_at(Vec3::ZERO, Vec3::Y),
CameraController,
));
// light
commands
.spawn((
PointLight {
shadows_enabled: true,
..default()
},
Transform::from_xyz(2.0, 1.0, -1.1),
))
.with_children(|commands| {
// represent the light source as a sphere
let mesh = meshes.add(Sphere::new(0.05).mesh().ico(3).unwrap());
commands.spawn((Mesh3d(mesh), MeshMaterial3d(materials.add(Color::WHITE))));
});
// Plane
commands.spawn((
Mesh3d(meshes.add(Plane3d::default().mesh().size(10.0, 10.0))),
MeshMaterial3d(materials.add(StandardMaterial {
// standard material derived from dark green, but
// with roughness and reflectance set.
perceptual_roughness: 0.45,
reflectance: 0.18,
..Color::srgb_u8(0, 80, 0).into()
})),
Transform::from_xyz(0.0, -1.0, 0.0),
));
let parallax_depth_scale = TargetDepth::default().0;
let max_parallax_layer_count = ops::exp2(TargetLayers::default().0);
let parallax_mapping_method = CurrentMethod::default();
let parallax_material = materials.add(StandardMaterial {
perceptual_roughness: 0.4,
base_color_texture: Some(asset_server.load("textures/parallax_example/cube_color.png")),
normal_map_texture: Some(normal_handle),
// The depth map is a greyscale texture where black is the highest level and
// white the lowest.
depth_map: Some(asset_server.load("textures/parallax_example/cube_depth.png")),
parallax_depth_scale,
parallax_mapping_method: parallax_mapping_method.0,
max_parallax_layer_count,
..default()
});
commands.spawn((
Mesh3d(
meshes.add(
// NOTE: for normal maps and depth maps to work, the mesh
// needs tangents generated.
Mesh::from(Cuboid::default())
.with_generated_tangents()
.unwrap(),
),
),
MeshMaterial3d(parallax_material.clone()),
Spin { speed: 0.3 },
));
let background_cube = meshes.add(
Mesh::from(Cuboid::new(40.0, 40.0, 40.0))
.with_generated_tangents()
.unwrap(),
);
let background_cube_bundle = |translation| {
(
Mesh3d(background_cube.clone()),
MeshMaterial3d(parallax_material.clone()),
Transform::from_translation(translation),
Spin { speed: -0.1 },
)
};
commands.spawn(background_cube_bundle(Vec3::new(45., 0., 0.)));
commands.spawn(background_cube_bundle(Vec3::new(-45., 0., 0.)));
commands.spawn(background_cube_bundle(Vec3::new(0., 0., 45.)));
commands.spawn(background_cube_bundle(Vec3::new(0., 0., -45.)));
let style = TextStyle::default();
// example instructions
commands.spawn(
TextBundle::from_sections(vec![
TextSection::new(
format!("Parallax depth scale: {parallax_depth_scale:.5}\n"),
style.clone(),
),
TextSection::new(
format!("Layers: {max_parallax_layer_count:.0}\n"),
style.clone(),
),
TextSection::new(format!("{parallax_mapping_method}\n"), style.clone()),
TextSection::new("\n\n", style.clone()),
TextSection::new("Controls:\n", style.clone()),
TextSection::new("Left click - Change view angle\n", style.clone()),
TextSection::new(
"1/2 - Decrease/Increase parallax depth scale\n",
style.clone(),
),
TextSection::new("3/4 - Decrease/Increase layer count\n", style.clone()),
TextSection::new("Space - Switch parallaxing algorithm\n", style),
])
.with_style(Style {
position_type: PositionType::Absolute,
top: Val::Px(12.0),
left: Val::Px(12.0),
..default()
}),
);
}
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