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https://github.com/bevyengine/bevy
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# Objective Use the new `AccumulatedMouseMotion` and `AccumulatedMouseScroll` resources in place of mouse event handling. I left the `mouse_input_events` example alone, since by its nature it demonstrates event detection. Fixes #14066 ## Testing Ran each example locally before and after changes.
256 lines
8.9 KiB
Rust
256 lines
8.9 KiB
Rust
//! This example showcases a 3D first-person camera.
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//!
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//! The setup presented here is a very common way of organizing a first-person game
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//! where the player can see their own arms. We use two industry terms to differentiate
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//! the kinds of models we have:
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//!
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//! - The *view model* is the model that represents the player's body.
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//! - The *world model* is everything else.
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//!
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//! ## Motivation
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//!
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//! The reason for this distinction is that these two models should be rendered with different field of views (FOV).
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//! The view model is typically designed and animated with a very specific FOV in mind, so it is
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//! generally *fixed* and cannot be changed by a player. The world model, on the other hand, should
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//! be able to change its FOV to accommodate the player's preferences for the following reasons:
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//! - *Accessibility*: How prone is the player to motion sickness? A wider FOV can help.
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//! - *Tactical preference*: Does the player want to see more of the battlefield?
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//! Or have a more zoomed-in view for precision aiming?
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//! - *Physical considerations*: How well does the in-game FOV match the player's real-world FOV?
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//! Are they sitting in front of a monitor or playing on a TV in the living room? How big is the screen?
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//!
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//! ## Implementation
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//!
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//! The `Player` is an entity holding two cameras, one for each model. The view model camera has a fixed
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//! FOV of 70 degrees, while the world model camera has a variable FOV that can be changed by the player.
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//!
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//! We use different `RenderLayers` to select what to render.
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//!
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//! - The world model camera has no explicit `RenderLayers` component, so it uses the layer 0.
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//! All static objects in the scene are also on layer 0 for the same reason.
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//! - The view model camera has a `RenderLayers` component with layer 1, so it only renders objects
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//! explicitly assigned to layer 1. The arm of the player is one such object.
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//! The order of the view model camera is additionally bumped to 1 to ensure it renders on top of the world model.
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//! - The light source in the scene must illuminate both the view model and the world model, so it is
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//! assigned to both layers 0 and 1.
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//!
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//! ## Controls
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//!
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//! | Key Binding | Action |
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//! |:---------------------|:--------------|
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//! | mouse | Look around |
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//! | arrow up | Decrease FOV |
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//! | arrow down | Increase FOV |
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use bevy::color::palettes::tailwind;
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use bevy::input::mouse::AccumulatedMouseMotion;
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use bevy::pbr::NotShadowCaster;
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use bevy::prelude::*;
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use bevy::render::view::RenderLayers;
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fn main() {
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App::new()
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.add_plugins(DefaultPlugins)
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.add_systems(
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Startup,
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(
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spawn_view_model,
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spawn_world_model,
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spawn_lights,
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spawn_text,
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),
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)
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.add_systems(Update, (move_player, change_fov))
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.run();
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}
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#[derive(Debug, Component)]
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struct Player;
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#[derive(Debug, Component)]
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struct WorldModelCamera;
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/// Used implicitly by all entities without a `RenderLayers` component.
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/// Our world model camera and all objects other than the player are on this layer.
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/// The light source belongs to both layers.
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const DEFAULT_RENDER_LAYER: usize = 0;
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/// Used by the view model camera and the player's arm.
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/// The light source belongs to both layers.
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const VIEW_MODEL_RENDER_LAYER: usize = 1;
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fn spawn_view_model(
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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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) {
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let arm = meshes.add(Cuboid::new(0.1, 0.1, 0.5));
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let arm_material = materials.add(Color::from(tailwind::TEAL_200));
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commands
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.spawn((
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Player,
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SpatialBundle {
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transform: Transform::from_xyz(0.0, 1.0, 0.0),
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..default()
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},
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))
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.with_children(|parent| {
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parent.spawn((
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WorldModelCamera,
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Camera3dBundle {
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projection: PerspectiveProjection {
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fov: 90.0_f32.to_radians(),
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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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));
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// Spawn view model camera.
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parent.spawn((
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Camera3dBundle {
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camera: Camera {
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// Bump the order to render on top of the world model.
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order: 1,
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..default()
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},
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projection: PerspectiveProjection {
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fov: 70.0_f32.to_radians(),
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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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// Only render objects belonging to the view model.
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RenderLayers::layer(VIEW_MODEL_RENDER_LAYER),
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));
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// Spawn the player's right arm.
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parent.spawn((
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MaterialMeshBundle {
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mesh: arm,
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material: arm_material,
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transform: Transform::from_xyz(0.2, -0.1, -0.25),
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..default()
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},
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// Ensure the arm is only rendered by the view model camera.
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RenderLayers::layer(VIEW_MODEL_RENDER_LAYER),
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// The arm is free-floating, so shadows would look weird.
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NotShadowCaster,
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));
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});
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}
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fn spawn_world_model(
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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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) {
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let floor = meshes.add(Plane3d::new(Vec3::Y, Vec2::splat(10.0)));
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let cube = meshes.add(Cuboid::new(2.0, 0.5, 1.0));
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let material = materials.add(Color::WHITE);
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// The world model camera will render the floor and the cubes spawned in this system.
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// Assigning no `RenderLayers` component defaults to layer 0.
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commands.spawn(MaterialMeshBundle {
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mesh: floor,
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material: material.clone(),
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..default()
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});
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commands.spawn(MaterialMeshBundle {
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mesh: cube.clone(),
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material: material.clone(),
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transform: Transform::from_xyz(0.0, 0.25, -3.0),
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..default()
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});
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commands.spawn(MaterialMeshBundle {
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mesh: cube,
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material,
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transform: Transform::from_xyz(0.75, 1.75, 0.0),
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..default()
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});
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}
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fn spawn_lights(mut commands: Commands) {
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commands.spawn((
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PointLightBundle {
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point_light: PointLight {
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color: Color::from(tailwind::ROSE_300),
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shadows_enabled: true,
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..default()
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},
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transform: Transform::from_xyz(-2.0, 4.0, -0.75),
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..default()
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},
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// The light source illuminates both the world model and the view model.
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RenderLayers::from_layers(&[DEFAULT_RENDER_LAYER, VIEW_MODEL_RENDER_LAYER]),
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));
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}
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fn spawn_text(mut commands: Commands) {
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commands
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.spawn(NodeBundle {
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style: Style {
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position_type: PositionType::Absolute,
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bottom: Val::Px(12.0),
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left: Val::Px(12.0),
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..default()
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},
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..default()
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})
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.with_children(|parent| {
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parent.spawn(TextBundle::from_section(
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concat!(
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"Move the camera with your mouse.\n",
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"Press arrow up to decrease the FOV of the world model.\n",
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"Press arrow down to increase the FOV of the world model."
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),
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TextStyle {
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font_size: 25.0,
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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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fn move_player(
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accumulated_mouse_motion: Res<AccumulatedMouseMotion>,
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mut player: Query<&mut Transform, With<Player>>,
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) {
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let mut transform = player.single_mut();
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let delta = accumulated_mouse_motion.delta;
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if delta != Vec2::ZERO {
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let yaw = -delta.x * 0.003;
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let pitch = -delta.y * 0.002;
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// Order of rotations is important, see <https://gamedev.stackexchange.com/a/136175/103059>
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transform.rotate_y(yaw);
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transform.rotate_local_x(pitch);
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}
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}
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fn change_fov(
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input: Res<ButtonInput<KeyCode>>,
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mut world_model_projection: Query<&mut Projection, With<WorldModelCamera>>,
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) {
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let mut projection = world_model_projection.single_mut();
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let Projection::Perspective(ref mut perspective) = projection.as_mut() else {
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unreachable!(
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"The `Projection` component was explicitly built with `Projection::Perspective`"
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);
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};
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if input.pressed(KeyCode::ArrowUp) {
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perspective.fov -= 1.0_f32.to_radians();
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perspective.fov = perspective.fov.max(20.0_f32.to_radians());
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}
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if input.pressed(KeyCode::ArrowDown) {
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perspective.fov += 1.0_f32.to_radians();
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perspective.fov = perspective.fov.min(160.0_f32.to_radians());
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}
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}
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