//! This examples compares Tonemapping options use bevy::{ core_pipeline::tonemapping::Tonemapping, math::vec2, pbr::CascadeShadowConfigBuilder, prelude::*, reflect::{TypePath, TypeUuid}, render::{ render_resource::{ AsBindGroup, Extent3d, SamplerDescriptor, ShaderRef, TextureDimension, TextureFormat, }, texture::ImageSampler, view::ColorGrading, }, utils::HashMap, }; use std::f32::consts::PI; fn main() { App::new() .add_plugins(( DefaultPlugins, MaterialPlugin::::default(), )) .insert_resource(CameraTransform( Transform::from_xyz(0.7, 0.7, 1.0).looking_at(Vec3::new(0.0, 0.3, 0.0), Vec3::Y), )) .init_resource::() .insert_resource(CurrentScene(1)) .insert_resource(SelectedParameter { value: 0, max: 4 }) .add_systems( Startup, ( setup, setup_basic_scene, setup_color_gradient_scene, setup_image_viewer_scene, ), ) .add_systems( Update, ( update_image_viewer, toggle_scene, toggle_tonemapping_method, update_color_grading_settings, update_ui, ), ) .run(); } fn setup( mut commands: Commands, asset_server: Res, camera_transform: Res, ) { // camera commands.spawn(( Camera3dBundle { camera: Camera { hdr: true, ..default() }, transform: camera_transform.0, ..default() }, EnvironmentMapLight { diffuse_map: asset_server.load("environment_maps/pisa_diffuse_rgb9e5_zstd.ktx2"), specular_map: asset_server.load("environment_maps/pisa_specular_rgb9e5_zstd.ktx2"), }, )); // ui commands.spawn( TextBundle::from_section( "", TextStyle { font_size: 18.0, color: Color::WHITE, ..default() }, ) .with_style(Style { position_type: PositionType::Absolute, top: Val::Px(10.0), left: Val::Px(10.0), ..default() }), ); } fn setup_basic_scene( mut commands: Commands, mut meshes: ResMut>, mut materials: ResMut>, mut images: ResMut>, asset_server: Res, ) { // plane commands.spawn(( PbrBundle { mesh: meshes.add(Mesh::from(shape::Plane { size: 5.0, ..default() })), material: materials.add(StandardMaterial { base_color: Color::rgb(0.3, 0.5, 0.3), perceptual_roughness: 0.5, ..default() }), ..default() }, SceneNumber(1), )); // cubes let cube_material = materials.add(StandardMaterial { base_color_texture: Some(images.add(uv_debug_texture())), ..default() }); let cube_mesh = meshes.add(Mesh::from(shape::Cube { size: 0.25 })); for i in 0..5 { commands.spawn(( PbrBundle { mesh: cube_mesh.clone(), material: cube_material.clone(), transform: Transform::from_xyz(i as f32 * 0.25 - 1.0, 0.125, -i as f32 * 0.5), ..default() }, SceneNumber(1), )); } // spheres let sphere_mesh = meshes.add(Mesh::from(shape::UVSphere { radius: 0.125, ..default() })); for i in 0..6 { let j = i % 3; let s_val = if i < 3 { 0.0 } else { 0.2 }; let material = if j == 0 { materials.add(StandardMaterial { base_color: Color::rgb(s_val, s_val, 1.0), perceptual_roughness: 0.089, metallic: 0.0, ..default() }) } else if j == 1 { materials.add(StandardMaterial { base_color: Color::rgb(s_val, 1.0, s_val), perceptual_roughness: 0.089, metallic: 0.0, ..default() }) } else { materials.add(StandardMaterial { base_color: Color::rgb(1.0, s_val, s_val), perceptual_roughness: 0.089, metallic: 0.0, ..default() }) }; commands.spawn(( PbrBundle { mesh: sphere_mesh.clone(), material, transform: Transform::from_xyz( j as f32 * 0.25 + if i < 3 { -0.15 } else { 0.15 } - 0.4, 0.125, -j as f32 * 0.25 + if i < 3 { -0.15 } else { 0.15 } + 0.4, ), ..default() }, SceneNumber(1), )); } // Flight Helmet commands.spawn(( SceneBundle { scene: asset_server.load("models/FlightHelmet/FlightHelmet.gltf#Scene0"), transform: Transform::from_xyz(0.5, 0.0, -0.5) .with_rotation(Quat::from_rotation_y(-0.15 * PI)), ..default() }, SceneNumber(1), )); // light commands.spawn(( DirectionalLightBundle { directional_light: DirectionalLight { shadows_enabled: true, illuminance: 50000.0, ..default() }, transform: Transform::from_rotation(Quat::from_euler( EulerRot::ZYX, 0.0, PI * -0.15, PI * -0.15, )), cascade_shadow_config: CascadeShadowConfigBuilder { maximum_distance: 3.0, first_cascade_far_bound: 0.9, ..default() } .into(), ..default() }, SceneNumber(1), )); } fn setup_color_gradient_scene( mut commands: Commands, mut meshes: ResMut>, mut materials: ResMut>, camera_transform: Res, ) { let mut transform = camera_transform.0; transform.translation += transform.forward(); commands.spawn(( MaterialMeshBundle { mesh: meshes.add(Mesh::from(shape::Quad { size: vec2(1.0, 1.0) * 0.7, flip: false, })), material: materials.add(ColorGradientMaterial {}), transform, visibility: Visibility::Hidden, ..default() }, SceneNumber(2), )); } fn setup_image_viewer_scene( mut commands: Commands, mut meshes: ResMut>, mut materials: ResMut>, camera_transform: Res, ) { let mut transform = camera_transform.0; transform.translation += transform.forward(); // exr/hdr viewer (exr requires enabling bevy feature) commands.spawn(( PbrBundle { mesh: meshes.add(Mesh::from(shape::Quad { size: vec2(1.0, 1.0), flip: false, })), material: materials.add(StandardMaterial { base_color_texture: None, unlit: true, ..default() }), transform, visibility: Visibility::Hidden, ..default() }, SceneNumber(3), HDRViewer, )); commands .spawn(( TextBundle::from_section( "Drag and drop an HDR or EXR file", TextStyle { font_size: 36.0, color: Color::BLACK, ..default() }, ) .with_text_alignment(TextAlignment::Center) .with_style(Style { align_self: AlignSelf::Center, margin: UiRect::all(Val::Auto), ..default() }), SceneNumber(3), )) .insert(Visibility::Hidden); } // ---------------------------------------------------------------------------- #[allow(clippy::too_many_arguments)] fn update_image_viewer( image_mesh: Query<(&Handle, &Handle), With>, text: Query, With)>, mut materials: ResMut>, mut meshes: ResMut>, images: Res>, mut drop_events: EventReader, mut drop_hovered: Local, asset_server: Res, mut image_events: EventReader>, mut commands: Commands, ) { let mut new_image: Option> = None; for event in drop_events.iter() { match event { FileDragAndDrop::DroppedFile { path_buf, .. } => { new_image = Some(asset_server.load(path_buf.to_string_lossy().to_string())); *drop_hovered = false; } FileDragAndDrop::HoveredFile { .. } => *drop_hovered = true, FileDragAndDrop::HoveredFileCanceled { .. } => *drop_hovered = false, } } for (mat_h, mesh_h) in &image_mesh { if let Some(mat) = materials.get_mut(mat_h) { if let Some(ref new_image) = new_image { mat.base_color_texture = Some(new_image.clone()); if let Ok(text_entity) = text.get_single() { commands.entity(text_entity).despawn(); } } for event in image_events.iter() { let image_changed_h = match event { AssetEvent::Created { handle } | AssetEvent::Modified { handle } => handle, _ => continue, }; if let Some(base_color_texture) = mat.base_color_texture.clone() { if image_changed_h == &base_color_texture { if let Some(image_changed) = images.get(image_changed_h) { let size = image_changed.size().normalize_or_zero() * 1.4; // Resize Mesh let quad = Mesh::from(shape::Quad::new(size)); let _ = meshes.set(mesh_h, quad); } } } } } } } fn toggle_scene( keys: Res>, mut query: Query<(&mut Visibility, &SceneNumber)>, mut current_scene: ResMut, ) { let mut pressed = None; if keys.just_pressed(KeyCode::Q) { pressed = Some(1); } else if keys.just_pressed(KeyCode::W) { pressed = Some(2); } else if keys.just_pressed(KeyCode::E) { pressed = Some(3); } if let Some(pressed) = pressed { current_scene.0 = pressed; for (mut visibility, scene) in query.iter_mut() { if scene.0 == pressed { *visibility = Visibility::Visible; } else { *visibility = Visibility::Hidden; } } } } fn toggle_tonemapping_method( keys: Res>, mut tonemapping: Query<&mut Tonemapping>, mut color_grading: Query<&mut ColorGrading>, per_method_settings: Res, ) { let mut method = tonemapping.single_mut(); let mut color_grading = color_grading.single_mut(); if keys.just_pressed(KeyCode::Key1) { *method = Tonemapping::None; } else if keys.just_pressed(KeyCode::Key2) { *method = Tonemapping::Reinhard; } else if keys.just_pressed(KeyCode::Key3) { *method = Tonemapping::ReinhardLuminance; } else if keys.just_pressed(KeyCode::Key4) { *method = Tonemapping::AcesFitted; } else if keys.just_pressed(KeyCode::Key5) { *method = Tonemapping::AgX; } else if keys.just_pressed(KeyCode::Key6) { *method = Tonemapping::SomewhatBoringDisplayTransform; } else if keys.just_pressed(KeyCode::Key7) { *method = Tonemapping::TonyMcMapface; } else if keys.just_pressed(KeyCode::Key8) { *method = Tonemapping::BlenderFilmic; } *color_grading = *per_method_settings .settings .get::(&method) .unwrap(); } #[derive(Resource)] struct SelectedParameter { value: i32, max: i32, } impl SelectedParameter { fn next(&mut self) { self.value = (self.value + 1).rem_euclid(self.max); } fn prev(&mut self) { self.value = (self.value - 1).rem_euclid(self.max); } } fn update_color_grading_settings( keys: Res>, time: Res, mut per_method_settings: ResMut, tonemapping: Query<&Tonemapping>, current_scene: Res, mut selected_parameter: ResMut, ) { let method = tonemapping.single(); let color_grading = per_method_settings.settings.get_mut(method).unwrap(); let mut dt = time.delta_seconds() * 0.25; if keys.pressed(KeyCode::Left) { dt = -dt; } if keys.just_pressed(KeyCode::Down) { selected_parameter.next(); } if keys.just_pressed(KeyCode::Up) { selected_parameter.prev(); } if keys.pressed(KeyCode::Left) || keys.pressed(KeyCode::Right) { match selected_parameter.value { 0 => { color_grading.exposure += dt; } 1 => { color_grading.gamma += dt; } 2 => { color_grading.pre_saturation += dt; } 3 => { color_grading.post_saturation += dt; } _ => {} } } if keys.just_pressed(KeyCode::Space) { for (_, grading) in per_method_settings.settings.iter_mut() { *grading = ColorGrading::default(); } } if keys.just_pressed(KeyCode::Return) && current_scene.0 == 1 { for (mapper, grading) in per_method_settings.settings.iter_mut() { *grading = PerMethodSettings::basic_scene_recommendation(*mapper); } } } fn update_ui( mut text: Query<&mut Text, Without>, settings: Query<(&Tonemapping, &ColorGrading)>, current_scene: Res, selected_parameter: Res, mut hide_ui: Local, keys: Res>, ) { let (method, color_grading) = settings.single(); let method = *method; let mut text = text.single_mut(); let text = &mut text.sections[0].value; if keys.just_pressed(KeyCode::H) { *hide_ui = !*hide_ui; } text.clear(); if *hide_ui { return; } let scn = current_scene.0; text.push_str("(H) Hide UI\n\n"); text.push_str("Test Scene: \n"); text.push_str(&format!( "(Q) {} Basic Scene\n", if scn == 1 { ">" } else { "" } )); text.push_str(&format!( "(W) {} Color Sweep\n", if scn == 2 { ">" } else { "" } )); text.push_str(&format!( "(E) {} Image Viewer\n", if scn == 3 { ">" } else { "" } )); text.push_str("\n\nTonemapping Method:\n"); text.push_str(&format!( "(1) {} Disabled\n", if method == Tonemapping::None { ">" } else { "" } )); text.push_str(&format!( "(2) {} Reinhard\n", if method == Tonemapping::Reinhard { "> " } else { "" } )); text.push_str(&format!( "(3) {} Reinhard Luminance\n", if method == Tonemapping::ReinhardLuminance { ">" } else { "" } )); text.push_str(&format!( "(4) {} ACES Fitted\n", if method == Tonemapping::AcesFitted { ">" } else { "" } )); text.push_str(&format!( "(5) {} AgX\n", if method == Tonemapping::AgX { ">" } else { "" } )); text.push_str(&format!( "(6) {} SomewhatBoringDisplayTransform\n", if method == Tonemapping::SomewhatBoringDisplayTransform { ">" } else { "" } )); text.push_str(&format!( "(7) {} TonyMcMapface\n", if method == Tonemapping::TonyMcMapface { ">" } else { "" } )); text.push_str(&format!( "(8) {} Blender Filmic\n", if method == Tonemapping::BlenderFilmic { ">" } else { "" } )); text.push_str("\n\nColor Grading:\n"); text.push_str("(arrow keys)\n"); if selected_parameter.value == 0 { text.push_str("> "); } text.push_str(&format!("Exposure: {}\n", color_grading.exposure)); if selected_parameter.value == 1 { text.push_str("> "); } text.push_str(&format!("Gamma: {}\n", color_grading.gamma)); if selected_parameter.value == 2 { text.push_str("> "); } text.push_str(&format!( "PreSaturation: {}\n", color_grading.pre_saturation )); if selected_parameter.value == 3 { text.push_str("> "); } text.push_str(&format!( "PostSaturation: {}\n", color_grading.post_saturation )); text.push_str("(Space) Reset all to default\n"); if current_scene.0 == 1 { text.push_str("(Enter) Reset all to scene recommendation\n"); } } // ---------------------------------------------------------------------------- #[derive(Resource)] struct PerMethodSettings { settings: HashMap, } impl PerMethodSettings { fn basic_scene_recommendation(method: Tonemapping) -> ColorGrading { match method { Tonemapping::Reinhard | Tonemapping::ReinhardLuminance => ColorGrading { exposure: 0.5, ..default() }, Tonemapping::AcesFitted => ColorGrading { exposure: 0.35, ..default() }, Tonemapping::AgX => ColorGrading { exposure: -0.2, gamma: 1.0, pre_saturation: 1.1, post_saturation: 1.1, }, _ => ColorGrading::default(), } } } impl Default for PerMethodSettings { fn default() -> Self { let mut settings = HashMap::new(); for method in [ Tonemapping::None, Tonemapping::Reinhard, Tonemapping::ReinhardLuminance, Tonemapping::AcesFitted, Tonemapping::AgX, Tonemapping::SomewhatBoringDisplayTransform, Tonemapping::TonyMcMapface, Tonemapping::BlenderFilmic, ] { settings.insert( method, PerMethodSettings::basic_scene_recommendation(method), ); } Self { settings } } } /// Creates a colorful test pattern fn uv_debug_texture() -> Image { const TEXTURE_SIZE: usize = 8; let mut palette: [u8; 32] = [ 255, 102, 159, 255, 255, 159, 102, 255, 236, 255, 102, 255, 121, 255, 102, 255, 102, 255, 198, 255, 102, 198, 255, 255, 121, 102, 255, 255, 236, 102, 255, 255, ]; let mut texture_data = [0; TEXTURE_SIZE * TEXTURE_SIZE * 4]; for y in 0..TEXTURE_SIZE { let offset = TEXTURE_SIZE * y * 4; texture_data[offset..(offset + TEXTURE_SIZE * 4)].copy_from_slice(&palette); palette.rotate_right(4); } let mut img = Image::new_fill( Extent3d { width: TEXTURE_SIZE as u32, height: TEXTURE_SIZE as u32, depth_or_array_layers: 1, }, TextureDimension::D2, &texture_data, TextureFormat::Rgba8UnormSrgb, ); img.sampler_descriptor = ImageSampler::Descriptor(SamplerDescriptor::default()); img } impl Material for ColorGradientMaterial { fn fragment_shader() -> ShaderRef { "shaders/tonemapping_test_patterns.wgsl".into() } } #[derive(AsBindGroup, Debug, Clone, TypeUuid, TypePath)] #[uuid = "117f64fe-6844-1822-8926-e3ed372291c8"] pub struct ColorGradientMaterial {} #[derive(Resource)] struct CameraTransform(Transform); #[derive(Resource)] struct CurrentScene(u32); #[derive(Component)] struct SceneNumber(u32); #[derive(Component)] struct HDRViewer;