//! Demonstrates how shadow biases affect shadows in a 3d scene. use std::f32::consts::PI; use bevy::{input::mouse::MouseMotion, prelude::*}; fn main() { println!( "Controls: WSAD - forward/back/strafe left/right LShift - 'run' E - up Q - down L - switch between directional and point lights 1/2 - decrease/increase point light depth bias 3/4 - decrease/increase point light normal bias 5/6 - decrease/increase direction light depth bias 7/8 - decrease/increase direction light normal bias" ); App::new() .add_plugins(DefaultPlugins) .add_startup_system(setup) .add_system(adjust_point_light_biases) .add_system(toggle_light) .add_system(adjust_directional_light_biases) .add_system(camera_controller) .run(); } /// set up a 3D scene to test shadow biases and perspective projections fn setup( mut commands: Commands, mut meshes: ResMut>, mut materials: ResMut>, ) { let spawn_plane_depth = 500.0f32; let spawn_height = 2.0; let sphere_radius = 0.25; let white_handle = materials.add(StandardMaterial { base_color: Color::WHITE, perceptual_roughness: 1.0, ..default() }); let sphere_handle = meshes.add(Mesh::from(shape::Icosphere { radius: sphere_radius, ..default() })); println!("Using DirectionalLight"); commands.spawn(PointLightBundle { transform: Transform::from_xyz(5.0, 5.0, 0.0), point_light: PointLight { intensity: 0.0, range: spawn_plane_depth, color: Color::WHITE, shadow_depth_bias: 0.0, shadow_normal_bias: 0.0, shadows_enabled: true, ..default() }, ..default() }); commands.spawn(DirectionalLightBundle { directional_light: DirectionalLight { illuminance: 100000.0, shadow_projection: OrthographicProjection { left: -0.35, right: 500.35, bottom: -0.1, top: 5.0, near: -5.0, far: 5.0, ..default() }, shadow_depth_bias: 0.0, shadow_normal_bias: 0.0, shadows_enabled: true, ..default() }, transform: Transform::from_rotation(Quat::from_euler( EulerRot::ZYX, 0.0, PI / 2., -PI / 4., )), ..default() }); // camera commands.spawn(( Camera3dBundle { transform: Transform::from_xyz(-1.0, 1.0, 1.0) .looking_at(Vec3::new(-1.0, 1.0, 0.0), Vec3::Y), ..default() }, CameraController::default(), )); for z_i32 in -spawn_plane_depth as i32..=0 { commands.spawn(PbrBundle { mesh: sphere_handle.clone(), material: white_handle.clone(), transform: Transform::from_xyz(0.0, spawn_height, z_i32 as f32), ..default() }); } // ground plane commands.spawn(PbrBundle { mesh: meshes.add(Mesh::from(shape::Plane { size: 2.0 * spawn_plane_depth, })), material: white_handle, ..default() }); } fn toggle_light( input: Res>, mut point_lights: Query<&mut PointLight>, mut directional_lights: Query<&mut DirectionalLight>, ) { if input.just_pressed(KeyCode::L) { for mut light in &mut point_lights { light.intensity = if light.intensity == 0.0 { println!("Using PointLight"); 100000000.0 } else { 0.0 }; } for mut light in &mut directional_lights { light.illuminance = if light.illuminance == 0.0 { println!("Using DirectionalLight"); 100000.0 } else { 0.0 }; } } } fn adjust_point_light_biases(input: Res>, mut query: Query<&mut PointLight>) { let depth_bias_step_size = 0.01; let normal_bias_step_size = 0.1; for mut light in &mut query { if input.just_pressed(KeyCode::Key1) { light.shadow_depth_bias -= depth_bias_step_size; println!("PointLight shadow_depth_bias: {}", light.shadow_depth_bias); } if input.just_pressed(KeyCode::Key2) { light.shadow_depth_bias += depth_bias_step_size; println!("PointLight shadow_depth_bias: {}", light.shadow_depth_bias); } if input.just_pressed(KeyCode::Key3) { light.shadow_normal_bias -= normal_bias_step_size; println!( "PointLight shadow_normal_bias: {}", light.shadow_normal_bias ); } if input.just_pressed(KeyCode::Key4) { light.shadow_normal_bias += normal_bias_step_size; println!( "PointLight shadow_normal_bias: {}", light.shadow_normal_bias ); } } } fn adjust_directional_light_biases( input: Res>, mut query: Query<&mut DirectionalLight>, ) { let depth_bias_step_size = 0.01; let normal_bias_step_size = 0.1; for mut light in &mut query { if input.just_pressed(KeyCode::Key5) { light.shadow_depth_bias -= depth_bias_step_size; println!( "DirectionalLight shadow_depth_bias: {}", light.shadow_depth_bias ); } if input.just_pressed(KeyCode::Key6) { light.shadow_depth_bias += depth_bias_step_size; println!( "DirectionalLight shadow_depth_bias: {}", light.shadow_depth_bias ); } if input.just_pressed(KeyCode::Key7) { light.shadow_normal_bias -= normal_bias_step_size; println!( "DirectionalLight shadow_normal_bias: {}", light.shadow_normal_bias ); } if input.just_pressed(KeyCode::Key8) { light.shadow_normal_bias += normal_bias_step_size; println!( "DirectionalLight shadow_normal_bias: {}", light.shadow_normal_bias ); } } } #[derive(Component)] struct CameraController { pub enabled: bool, pub sensitivity: f32, pub key_forward: KeyCode, pub key_back: KeyCode, pub key_left: KeyCode, pub key_right: KeyCode, pub key_up: KeyCode, pub key_down: KeyCode, pub key_run: KeyCode, pub walk_speed: f32, pub run_speed: f32, pub friction: f32, pub pitch: f32, pub yaw: f32, pub velocity: Vec3, } impl Default for CameraController { fn default() -> Self { Self { enabled: true, sensitivity: 0.5, key_forward: KeyCode::W, key_back: KeyCode::S, key_left: KeyCode::A, key_right: KeyCode::D, key_up: KeyCode::E, key_down: KeyCode::Q, key_run: KeyCode::LShift, walk_speed: 10.0, run_speed: 30.0, friction: 0.5, pitch: 0.0, yaw: 0.0, velocity: Vec3::ZERO, } } } fn camera_controller( time: Res