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https://github.com/bevyengine/bevy
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Implement visibility ranges, also known as hierarchical levels of detail (HLODs). This commit introduces a new component, `VisibilityRange`, which allows developers to specify camera distances in which meshes are to be shown and hidden. Hiding meshes happens early in the rendering pipeline, so this feature can be used for level of detail optimization. Additionally, this feature is properly evaluated per-view, so different views can show different levels of detail. This feature differs from proper mesh LODs, which can be implemented later. Engines generally implement true mesh LODs later in the pipeline; they're typically more efficient than HLODs with GPU-driven rendering. However, mesh LODs are more limited than HLODs, because they require the lower levels of detail to be meshes with the same vertex layout and shader (and perhaps the same material) as the original mesh. Games often want to use objects other than meshes to replace distant models, such as *octahedral imposters* or *billboard imposters*. The reason why the feature is called *hierarchical level of detail* is that HLODs can replace multiple meshes with a single mesh when the camera is far away. This can be useful for reducing drawcall count. Note that `VisibilityRange` doesn't automatically propagate down to children; it must be placed on every mesh. Crossfading between different levels of detail is supported, using the standard 4x4 ordered dithering pattern from [1]. The shader code to compute the dithering patterns should be well-optimized. The dithering code is only active when visibility ranges are in use for the mesh in question, so that we don't lose early Z. Cascaded shadow maps show the HLOD level of the view they're associated with. Point light and spot light shadow maps, which have no CSMs, display all HLOD levels that are visible in any view. To support this efficiently and avoid doing visibility checks multiple times, we precalculate all visible HLOD levels for each entity with a `VisibilityRange` during the `check_visibility_range` system. A new example, `visibility_range`, has been added to the tree, as well as a new low-poly version of the flight helmet model to go with it. It demonstrates use of the visibility range feature to provide levels of detail. [1]: https://en.wikipedia.org/wiki/Ordered_dithering#Threshold_map [^1]: Unreal doesn't have a feature that exactly corresponds to visibility ranges, but Unreal's HLOD system serves roughly the same purpose. ## Changelog ### Added * A new `VisibilityRange` component is available to conditionally enable entity visibility at camera distances, with optional crossfade support. This can be used to implement different levels of detail (LODs). ## Screenshots High-poly model: ![Screenshot 2024-04-09 185541](https://github.com/bevyengine/bevy/assets/157897/7e8be017-7187-4471-8866-974e2d8f2623) Low-poly model up close: ![Screenshot 2024-04-09 185546](https://github.com/bevyengine/bevy/assets/157897/429603fe-6bb7-4246-8b4e-b4888fd1d3a0) Crossfading between the two: ![Screenshot 2024-04-09 185604](https://github.com/bevyengine/bevy/assets/157897/86d0d543-f8f3-49ec-8fe5-caa4d0784fd4) --------- Co-authored-by: Carter Anderson <mcanders1@gmail.com>
337 lines
11 KiB
Rust
337 lines
11 KiB
Rust
//! Demonstrates visibility ranges, also known as HLODs.
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use std::f32::consts::PI;
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use bevy::{
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input::mouse::MouseWheel,
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math::vec3,
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pbr::{light_consts::lux::FULL_DAYLIGHT, CascadeShadowConfigBuilder},
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prelude::*,
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render::view::VisibilityRange,
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};
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// Where the camera is focused.
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const CAMERA_FOCAL_POINT: Vec3 = vec3(0.0, 0.3, 0.0);
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// Speed in units per frame.
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const CAMERA_KEYBOARD_ZOOM_SPEED: f32 = 0.05;
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// Speed in radians per frame.
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const CAMERA_KEYBOARD_PAN_SPEED: f32 = 0.01;
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// Speed in units per frame.
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const CAMERA_MOUSE_MOVEMENT_SPEED: f32 = 0.25;
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// The minimum distance that the camera is allowed to be from the model.
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const MIN_ZOOM_DISTANCE: f32 = 0.5;
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// The visibility ranges for high-poly and low-poly models respectively, when
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// both models are being shown.
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static NORMAL_VISIBILITY_RANGE_HIGH_POLY: VisibilityRange = VisibilityRange {
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start_margin: 0.0..0.0,
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end_margin: 3.0..4.0,
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};
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static NORMAL_VISIBILITY_RANGE_LOW_POLY: VisibilityRange = VisibilityRange {
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start_margin: 3.0..4.0,
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end_margin: 8.0..9.0,
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};
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// A visibility model that we use to always show a model (until the camera is so
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// far zoomed out that it's culled entirely).
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static SINGLE_MODEL_VISIBILITY_RANGE: VisibilityRange = VisibilityRange {
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start_margin: 0.0..0.0,
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end_margin: 8.0..9.0,
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};
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// A visibility range that we use to completely hide a model.
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static INVISIBLE_VISIBILITY_RANGE: VisibilityRange = VisibilityRange {
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start_margin: 0.0..0.0,
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end_margin: 0.0..0.0,
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};
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// Allows us to identify the main model.
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#[derive(Component, Debug, Clone, Copy, PartialEq)]
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enum MainModel {
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// The high-poly version.
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HighPoly,
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// The low-poly version.
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LowPoly,
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}
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// The current mode.
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#[derive(Default, Resource)]
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struct AppStatus {
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// Whether to show only one model.
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show_one_model_only: Option<MainModel>,
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}
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// Sets up the app.
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fn main() {
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App::new()
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.add_plugins(DefaultPlugins.set(WindowPlugin {
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primary_window: Some(Window {
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title: "Bevy Visibility Range Example".into(),
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..default()
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}),
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..default()
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}))
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.init_resource::<AppStatus>()
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.add_systems(Startup, setup)
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.add_systems(
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Update,
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(
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move_camera,
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set_visibility_ranges,
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update_help_text,
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update_mode,
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),
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)
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.run();
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}
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// Set up a simple 3D scene. Load the two meshes.
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fn setup(
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mut commands: Commands,
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mut meshes: ResMut<Assets<Mesh>>,
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mut materials: ResMut<Assets<StandardMaterial>>,
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asset_server: Res<AssetServer>,
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app_status: Res<AppStatus>,
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) {
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// Spawn a plane.
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commands.spawn(PbrBundle {
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mesh: meshes.add(Plane3d::default().mesh().size(50.0, 50.0)),
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material: materials.add(Color::srgb(0.1, 0.2, 0.1)),
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..default()
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});
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// Spawn the two HLODs.
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commands
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.spawn(SceneBundle {
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scene: asset_server.load("models/FlightHelmet/FlightHelmet.gltf#Scene0"),
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..default()
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})
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.insert(MainModel::HighPoly);
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commands
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.spawn(SceneBundle {
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scene: asset_server.load("models/FlightHelmetLowPoly/FlightHelmetLowPoly.gltf#Scene0"),
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..default()
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})
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.insert(MainModel::LowPoly);
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// Spawn a light.
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commands.spawn(DirectionalLightBundle {
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directional_light: DirectionalLight {
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illuminance: FULL_DAYLIGHT,
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shadows_enabled: true,
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..default()
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},
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transform: Transform::from_rotation(Quat::from_euler(
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EulerRot::ZYX,
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0.0,
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PI * -0.15,
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PI * -0.15,
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)),
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cascade_shadow_config: CascadeShadowConfigBuilder {
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maximum_distance: 30.0,
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first_cascade_far_bound: 0.9,
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..default()
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}
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.into(),
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..default()
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});
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// Spawn a camera.
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commands
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.spawn(Camera3dBundle {
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transform: Transform::from_xyz(0.7, 0.7, 1.0).looking_at(CAMERA_FOCAL_POINT, Vec3::Y),
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..default()
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})
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.insert(EnvironmentMapLight {
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diffuse_map: asset_server.load("environment_maps/pisa_diffuse_rgb9e5_zstd.ktx2"),
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specular_map: asset_server.load("environment_maps/pisa_specular_rgb9e5_zstd.ktx2"),
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intensity: 150.0,
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});
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// Create the text.
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commands.spawn(
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TextBundle {
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text: app_status.create_text(&asset_server),
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..TextBundle::default()
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}
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.with_style(Style {
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position_type: PositionType::Absolute,
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bottom: Val::Px(10.0),
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left: Val::Px(10.0),
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..default()
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}),
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);
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}
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// We need to add the `VisibilityRange` components manually, as glTF currently
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// has no way to specify visibility ranges. This system watches for new meshes,
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// determines which `Scene` they're under, and adds the `VisibilityRange`
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// component as appropriate.
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fn set_visibility_ranges(
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mut commands: Commands,
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mut new_meshes: Query<Entity, Added<Handle<Mesh>>>,
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parents: Query<(Option<&Parent>, Option<&MainModel>)>,
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) {
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// Loop over each newly-added mesh.
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for new_mesh in new_meshes.iter_mut() {
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// Search for the nearest ancestor `MainModel` component.
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let (mut current, mut main_model) = (new_mesh, None);
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while let Ok((parent, maybe_main_model)) = parents.get(current) {
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if let Some(model) = maybe_main_model {
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main_model = Some(model);
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break;
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}
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match parent {
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Some(parent) => current = **parent,
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None => break,
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}
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}
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// Add the `VisibilityRange` component.
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match main_model {
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Some(MainModel::HighPoly) => {
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commands
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.entity(new_mesh)
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.insert(NORMAL_VISIBILITY_RANGE_HIGH_POLY.clone())
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.insert(MainModel::HighPoly);
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}
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Some(MainModel::LowPoly) => {
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commands
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.entity(new_mesh)
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.insert(NORMAL_VISIBILITY_RANGE_LOW_POLY.clone())
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.insert(MainModel::LowPoly);
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}
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None => {}
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}
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}
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}
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// Process the movement controls.
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fn move_camera(
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keyboard_input: Res<ButtonInput<KeyCode>>,
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mut mouse_wheel_events: EventReader<MouseWheel>,
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mut cameras: Query<&mut Transform, With<Camera3d>>,
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) {
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let (mut zoom_delta, mut theta_delta) = (0.0, 0.0);
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// Process zoom in and out via the keyboard.
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if keyboard_input.pressed(KeyCode::KeyW) || keyboard_input.pressed(KeyCode::ArrowUp) {
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zoom_delta -= CAMERA_KEYBOARD_ZOOM_SPEED;
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} else if keyboard_input.pressed(KeyCode::KeyS) || keyboard_input.pressed(KeyCode::ArrowDown) {
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zoom_delta += CAMERA_KEYBOARD_ZOOM_SPEED;
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}
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// Process left and right pan via the keyboard.
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if keyboard_input.pressed(KeyCode::KeyA) || keyboard_input.pressed(KeyCode::ArrowLeft) {
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theta_delta -= CAMERA_KEYBOARD_PAN_SPEED;
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} else if keyboard_input.pressed(KeyCode::KeyD) || keyboard_input.pressed(KeyCode::ArrowRight) {
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theta_delta += CAMERA_KEYBOARD_PAN_SPEED;
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}
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// Process zoom in and out via the mouse wheel.
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for event in mouse_wheel_events.read() {
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zoom_delta -= event.y * CAMERA_MOUSE_MOVEMENT_SPEED;
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}
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// Update the camera transform.
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for transform in cameras.iter_mut() {
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let transform = transform.into_inner();
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let direction = transform.translation.normalize_or_zero();
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let magnitude = transform.translation.length();
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let new_direction = Mat3::from_rotation_y(theta_delta) * direction;
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let new_magnitude = (magnitude + zoom_delta).max(MIN_ZOOM_DISTANCE);
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transform.translation = new_direction * new_magnitude;
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transform.look_at(CAMERA_FOCAL_POINT, Vec3::Y);
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}
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}
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// Toggles modes if the user requests.
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fn update_mode(
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mut meshes: Query<(&mut VisibilityRange, &MainModel)>,
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keyboard_input: Res<ButtonInput<KeyCode>>,
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mut app_status: ResMut<AppStatus>,
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) {
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// Toggle the mode as requested.
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if keyboard_input.just_pressed(KeyCode::Digit1) || keyboard_input.just_pressed(KeyCode::Numpad1)
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{
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app_status.show_one_model_only = None;
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} else if keyboard_input.just_pressed(KeyCode::Digit2)
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|| keyboard_input.just_pressed(KeyCode::Numpad2)
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{
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app_status.show_one_model_only = Some(MainModel::HighPoly);
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} else if keyboard_input.just_pressed(KeyCode::Digit3)
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|| keyboard_input.just_pressed(KeyCode::Numpad3)
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{
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app_status.show_one_model_only = Some(MainModel::LowPoly);
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} else {
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return;
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}
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// Update the visibility ranges as appropriate.
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for (mut visibility_range, main_model) in meshes.iter_mut() {
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*visibility_range = match (main_model, app_status.show_one_model_only) {
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(&MainModel::HighPoly, Some(MainModel::LowPoly))
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| (&MainModel::LowPoly, Some(MainModel::HighPoly)) => {
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INVISIBLE_VISIBILITY_RANGE.clone()
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}
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(&MainModel::HighPoly, Some(MainModel::HighPoly))
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| (&MainModel::LowPoly, Some(MainModel::LowPoly)) => {
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SINGLE_MODEL_VISIBILITY_RANGE.clone()
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}
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(&MainModel::HighPoly, None) => NORMAL_VISIBILITY_RANGE_HIGH_POLY.clone(),
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(&MainModel::LowPoly, None) => NORMAL_VISIBILITY_RANGE_LOW_POLY.clone(),
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}
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}
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}
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// A system that updates the help text.
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fn update_help_text(
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mut text_query: Query<&mut Text>,
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app_status: Res<AppStatus>,
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asset_server: Res<AssetServer>,
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) {
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for mut text in text_query.iter_mut() {
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*text = app_status.create_text(&asset_server);
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}
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}
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impl AppStatus {
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// Creates and returns help text reflecting the app status.
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fn create_text(&self, asset_server: &AssetServer) -> Text {
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Text::from_section(
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format!(
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"\
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{} (1) Switch from high-poly to low-poly based on camera distance
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{} (2) Show only the high-poly model
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{} (3) Show only the low-poly model
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Press 1, 2, or 3 to switch which model is shown
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Press WASD or use the mouse wheel to move the camera",
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if self.show_one_model_only.is_none() {
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'>'
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} else {
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' '
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},
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if self.show_one_model_only == Some(MainModel::HighPoly) {
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'>'
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} else {
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' '
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},
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if self.show_one_model_only == Some(MainModel::LowPoly) {
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'>'
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} else {
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' '
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},
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),
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TextStyle {
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font: asset_server.load("fonts/FiraMono-Medium.ttf"),
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font_size: 24.0,
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..default()
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},
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)
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}
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}
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