outfly/src/camera.rs

870 lines
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Rust
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//
// This module manages the game's viewport, handles camera- and
// movement-related keyboard input, and provides some camera-
// related computation functions.
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use crate::prelude::*;
use bevy::core_pipeline::bloom::{BloomCompositeMode, BloomSettings};
use bevy::core_pipeline::tonemapping::Tonemapping;
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use bevy::input::mouse::{MouseMotion, MouseWheel};
use bevy::pbr::{CascadeShadowConfigBuilder, DirectionalLightShadowMap};
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use bevy::prelude::*;
use bevy::transform::TransformSystem;
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use bevy::window::PrimaryWindow;
use bevy_xpbd_3d::plugins::sync;
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use bevy_xpbd_3d::prelude::*;
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use std::collections::HashMap;
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pub const INITIAL_ZOOM_LEVEL: f64 = 10.0;
pub const MAX_DIST_FOR_MATCH_VELOCITY: f64 = 10000.0;
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pub struct CameraPlugin;
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impl Plugin for CameraPlugin {
fn build(&self, app: &mut App) {
app.add_systems(Startup, setup_camera);
app.add_systems(Update, handle_input.run_if(in_control).run_if(game_running));
app.add_systems(
Update,
update_map_only_object_visibility
.run_if(alive)
.run_if(game_running),
);
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app.add_systems(
PostUpdate,
manage_player_actor
.run_if(game_running)
.in_set(sync::SyncSet::PositionToTransform),
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);
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app.add_systems(
PostUpdate,
sync_camera_to_player
.run_if(game_running)
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.after(PhysicsSet::Sync)
.after(apply_input_to_player)
.before(TransformSystem::TransformPropagate),
);
app.add_systems(
PostUpdate,
update_mapcam_center
.run_if(game_running)
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.before(sync::position_to_transform)
.in_set(sync::SyncSet::PositionToTransform),
);
app.add_systems(
Update,
update_map_camera.run_if(in_control).run_if(game_running),
);
app.add_systems(Update, update_fov.run_if(alive).run_if(game_running));
app.add_systems(PreUpdate, apply_input_to_player.run_if(game_running));
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app.insert_resource(MapCam::default());
// To center the renderer origin on the player camera,
// 1. Disable bevy_xpbd's position->transform sync function
app.insert_resource(sync::SyncConfig {
position_to_transform: true,
transform_to_position: false,
});
// 2. Add own position->transform sync function
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app.add_systems(
PostUpdate,
position_to_transform
.run_if(game_running)
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.after(sync::position_to_transform)
.in_set(sync::SyncSet::PositionToTransform),
);
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}
}
#[derive(Component)]
pub struct ShowOnlyInMap {
pub min_distance: f64,
pub distance_to_id: String,
}
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#[derive(Resource)]
pub struct MapCam {
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pub initialized: bool,
pub zoom_level: f64,
pub target_zoom_level: f64,
pub pitch: f64,
pub yaw: f64,
pub offset_x: f64,
pub offset_z: f64,
pub center: DVec3,
pub center_on_entity: Option<Entity>,
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}
impl Default for MapCam {
fn default() -> Self {
Self {
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initialized: false,
zoom_level: 2.0,
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target_zoom_level: INITIAL_ZOOM_LEVEL,
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pitch: PI * 0.3,
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yaw: 0.0,
offset_x: 0.0,
offset_z: 0.0,
center: DVec3::new(0.0, 0.0, 0.0),
center_on_entity: None,
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}
}
}
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pub fn setup_camera(mut commands: Commands, settings: Res<var::Settings>) {
// Add player
commands.spawn((
Camera3dBundle {
camera: Camera {
hdr: true, // HDR is required for bloom
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clear_color: ClearColorConfig::Custom(Color::BLACK),
..default()
},
tonemapping: Tonemapping::TonyMcMapface,
transform: Transform::from_xyz(0.0, 0.0, 8.0).looking_at(Vec3::ZERO, Vec3::Y),
..default()
},
BloomSettings {
composite_mode: BloomCompositeMode::EnergyConserving,
..default()
},
));
// Add Light from the Sun
commands.spawn(DirectionalLightBundle {
directional_light: DirectionalLight {
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illuminance: 2000.0,
shadows_enabled: settings.shadows_sun,
..default()
},
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transform: Transform::from_rotation(Quat::from_rotation_y(PI32 / 2.0)),
cascade_shadow_config: CascadeShadowConfigBuilder {
num_cascades: 4,
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minimum_distance: 0.1,
maximum_distance: 5000.0,
..default()
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}
.into(),
..default()
});
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commands.insert_resource(DirectionalLightShadowMap {
size: settings.shadowmap_resolution,
});
}
pub fn sync_camera_to_player(
settings: Res<var::Settings>,
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mut q_camera: Query<&mut Transform, (With<Camera>, Without<actor::PlayerCamera>)>,
q_playercam: Query<(&actor::Actor, &Transform), (With<actor::PlayerCamera>, Without<Camera>)>,
) {
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if settings.map_active || q_camera.is_empty() || q_playercam.is_empty() {
return;
}
let mut camera_transform = q_camera.get_single_mut().unwrap();
let (actor, player_transform) = q_playercam.get_single().unwrap();
// Rotation
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let rotation = player_transform.rotation * Quat::from_array([0.0, -1.0, 0.0, 0.0]);
// Translation
if settings.third_person {
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camera_transform.translation = player_transform.translation
+ rotation * (actor.camdistance * Vec3::new(0.0, 0.2, 1.0));
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camera_transform.rotation = rotation * Quat::from_euler(EulerRot::XYZ, -0.02, 0.0, 0.0);
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} else {
camera_transform.translation = player_transform.translation;
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camera_transform.rotation = rotation;
}
}
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pub fn update_map_camera(
settings: Res<var::Settings>,
mut mapcam: ResMut<MapCam>,
mut q_camera: Query<&mut Transform, (With<Camera>, Without<actor::PlayerCamera>)>,
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q_playercam: Query<(Entity, &Transform), (With<actor::PlayerCamera>, Without<Camera>)>,
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q_target: Query<
(Entity, &Transform),
(
With<hud::IsTargeted>,
Without<Camera>,
Without<actor::PlayerCamera>,
),
>,
q_target_changed: Query<(), Changed<hud::IsTargeted>>,
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mut mouse_events: EventReader<MouseMotion>,
mut er_mousewheel: EventReader<MouseWheel>,
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keyboard_input: Res<ButtonInput<KeyCode>>,
) {
if !settings.map_active || q_camera.is_empty() || q_playercam.is_empty() {
return;
}
let mut camera_transform = q_camera.get_single_mut().unwrap();
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let (player_entity, player_trans) = q_playercam.get_single().unwrap();
let (target_entity, target_trans) = if let Ok(target) = q_target.get_single() {
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target
} else {
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(player_entity, player_trans)
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};
mapcam.center_on_entity = Some(target_entity);
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// Get mouse movement
let mut mouse_delta = Vec2::ZERO;
for mouse_event in mouse_events.read() {
mouse_delta += mouse_event.delta;
}
// NOTE: we need to subtract a bit from PI/2, otherwise the "up"
// direction parameter for the Transform.look_at function is ambiguous
// at the extreme values and the orientation will flicker back/forth.
let min_zoom: f64 = target_trans.scale.x as f64 * 2.0;
let max_zoom: f64 = 17e18; // at this point, camera starts glitching
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mapcam.pitch = (mapcam.pitch
+ mouse_delta.y as f64 / 180.0 * settings.mouse_sensitivity as f64)
.clamp(-PI / 2.0 + EPSILON, PI / 2.0 - EPSILON);
mapcam.yaw += mouse_delta.x as f64 / 180.0 * settings.mouse_sensitivity as f64;
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// Reset movement offset if target changes
if !q_target_changed.is_empty() {
mapcam.offset_x = 0.0;
mapcam.offset_z = 0.0;
}
// Get keyboard movement
let mut offset_x: f64 = 0.0;
let mut offset_z: f64 = 0.0;
if keyboard_input.pressed(settings.key_forward) {
offset_x -= 1.0;
}
if keyboard_input.pressed(settings.key_back) {
offset_x += 1.0;
}
if keyboard_input.pressed(settings.key_right) {
offset_z -= 1.0;
}
if keyboard_input.pressed(settings.key_left) {
offset_z += 1.0;
}
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if keyboard_input.pressed(settings.key_stop) {
mapcam.offset_x = 0.0;
mapcam.offset_z = 0.0;
}
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// Update zoom level
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if !mapcam.initialized {
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let factor: f64 = if target_trans == player_trans {
7.0
} else {
1.0
};
mapcam.target_zoom_level *= target_trans.scale.x as f64 * factor;
mapcam.zoom_level *= target_trans.scale.x as f64 * factor;
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mapcam.initialized = true;
}
let mut change_zoom: f64 = 0.0;
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if keyboard_input.pressed(settings.key_map_zoom_out) {
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change_zoom += 0.5;
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}
if keyboard_input.pressed(settings.key_map_zoom_in) {
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change_zoom -= 0.5;
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}
for wheel_event in er_mousewheel.read() {
change_zoom -= wheel_event.y as f64 * 3.0;
}
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mapcam.target_zoom_level =
(mapcam.target_zoom_level * 1.1f64.powf(change_zoom)).clamp(min_zoom, max_zoom);
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let zoom_speed = 0.05; // should be between 0.0001 (slow) and 1.0 (instant)
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mapcam.zoom_level = (zoom_speed * mapcam.target_zoom_level
+ (1.0 - zoom_speed) * mapcam.zoom_level)
.clamp(min_zoom, max_zoom);
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// Update point of view
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let pov_rotation =
DQuat::from_euler(EulerRot::XYZ, 0.0, mapcam.yaw as f64, mapcam.pitch as f64);
let point_of_view = pov_rotation * (mapcam.zoom_level as f64 * DVec3::new(1.0, 0.0, 0.0));
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// Update movement offset
let mut direction = pov_rotation * DVec3::new(offset_x, 0.0, offset_z);
let speed = direction.length();
direction.y = 0.0;
let direction = speed * direction.normalize_or_zero();
mapcam.offset_x += 0.01 * (direction.x * mapcam.zoom_level);
mapcam.offset_z += 0.01 * (direction.z * mapcam.zoom_level);
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// Apply updates to camera
camera_transform.translation = point_of_view.as_vec3();
camera_transform.look_at(Vec3::ZERO, Vec3::Y);
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}
pub fn update_mapcam_center(
mut mapcam: ResMut<MapCam>,
settings: Res<var::Settings>,
q_pos: Query<&Position>,
) {
if !settings.map_active {
return;
}
if let Some(entity) = mapcam.center_on_entity {
if let Ok(pos) = q_pos.get(entity) {
let offset = DVec3::new(mapcam.offset_x, 0.0, mapcam.offset_z);
mapcam.center = **pos + offset;
}
}
}
pub fn update_fov(
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q_player: Query<&actor::ExperiencesGForce, With<actor::Player>>,
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mouse_input: Res<ButtonInput<MouseButton>>,
mut settings: ResMut<var::Settings>,
mut q_camera: Query<&mut Projection, With<Camera>>,
) {
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if let (Ok(gforce), Ok(mut projection)) = (q_player.get_single(), q_camera.get_single_mut()) {
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let fov: f32;
if mouse_input.pressed(settings.key_zoom) {
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fov = settings.zoom_fov.to_radians();
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if !settings.is_zooming {
settings.is_zooming = true;
}
} else {
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fov = (gforce.visual_effect.clamp(0.0, 1.0) * settings.fov_highspeed + settings.fov)
.to_radians();
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if settings.is_zooming {
settings.is_zooming = false;
}
};
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*projection = Projection::Perspective(PerspectiveProjection {
fov: fov,
..default()
});
}
}
pub fn handle_input(
keyboard_input: Res<ButtonInput<KeyCode>>,
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settings: Res<var::Settings>,
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mut ew_sfx: EventWriter<audio::PlaySfxEvent>,
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mut ew_game: EventWriter<GameEvent>,
) {
if keyboard_input.just_pressed(settings.key_camera) {
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ew_game.send(GameEvent::SetThirdPerson(Toggle));
}
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if keyboard_input.just_pressed(settings.key_map) {
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ew_game.send(GameEvent::SetMap(Toggle));
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}
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if keyboard_input.just_pressed(settings.key_rotation_stabilizer) {
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ew_game.send(GameEvent::SetRotationStabilizer(Toggle));
ew_sfx.send(audio::PlaySfxEvent(audio::Sfx::Switch));
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}
}
fn manage_player_actor(
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mut commands: Commands,
settings: Res<var::Settings>,
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mut q_playercam: Query<&mut Visibility, With<actor::PlayerCamera>>,
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mut q_hiddenplayer: Query<
(
Entity,
&mut Visibility,
&mut Position,
&mut Rotation,
&mut LinearVelocity,
&mut AngularVelocity,
Option<&mut actor::ExperiencesGForce>,
Option<&actor::JustNowEnteredVehicle>,
),
(With<actor::Player>, Without<actor::PlayerCamera>),
>,
q_ride: Query<
(
&Transform,
&Position,
&Rotation,
&LinearVelocity,
&AngularVelocity,
),
(With<actor::PlayerDrivesThis>, Without<actor::Player>),
>,
) {
for mut vis in &mut q_playercam {
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if settings.third_person || settings.map_active {
*vis = Visibility::Inherited;
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} else {
*vis = Visibility::Hidden;
}
}
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for (entity, mut vis, mut pos, mut rot, mut v, mut angv, mut gforce, entering) in
&mut q_hiddenplayer
{
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// If we are riding a vehicle, place the player at the position where
// it would be after exiting the vehicle.
// I would rather place it in the center of the vehicle, but at the time
// of writing, I couldn't set the position/rotation of the player *during*
// exiting the vehicle, so I'm doing it here instead, as a workaround.
*vis = Visibility::Hidden;
if let Ok((ride_trans, ride_pos, ride_rot, ride_v, ride_angv)) = q_ride.get_single() {
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pos.0 = ride_pos.0
+ DVec3::from(ride_trans.rotation * Vec3::new(0.0, 0.0, ride_trans.scale.z * 2.0));
rot.0 = ride_rot.0 * DQuat::from_array([-1.0, 0.0, 0.0, 0.0]);
*v = ride_v.clone();
*angv = ride_angv.clone();
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// I really don't want people to die from the g-forces of entering
// vehicles at high relative speed, even though they probably should.
if let (Some(gforce), Some(_)) = (&mut gforce, entering) {
gforce.last_linear_velocity = v.0;
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commands
.entity(entity)
.remove::<actor::JustNowEnteredVehicle>();
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}
}
}
}
#[allow(clippy::too_many_arguments)]
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pub fn apply_input_to_player(
time: Res<Time>,
mut commands: Commands,
settings: Res<var::Settings>,
jupiter_pos: Res<game::JupiterPos>,
windows: Query<&Window, With<PrimaryWindow>>,
mut mouse_events: EventReader<MouseMotion>,
key_input: Res<ButtonInput<KeyCode>>,
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q_audiosinks: Query<(&audio::Sfx, &AudioSink)>,
q_target: Query<&LinearVelocity, (With<hud::IsTargeted>, Without<actor::PlayerCamera>)>,
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q_closest: Query<
(&Position, &LinearVelocity),
(
Without<hud::IsTargeted>,
Without<visual::IsEffect>,
Without<actor::PlayerCamera>,
Without<actor::Player>,
Without<actor::PlayerDrivesThis>,
),
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>,
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mut q_playercam: Query<
(
Entity,
&Transform,
&mut actor::Engine,
&Position,
&mut LinearVelocity,
&mut ExternalTorque,
Option<&actor::PlayerDrivesThis>,
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),
(With<actor::PlayerCamera>, Without<Camera>),
>,
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mut ew_effect: EventWriter<visual::SpawnEffectEvent>,
) {
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if settings.map_active || !settings.in_control() {
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return;
}
let dt = time.delta_seconds();
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let mut play_thruster_sound = false;
let mut axis_input: DVec3 = DVec3::ZERO;
let (win_res_x, win_res_y): (f32, f32);
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let mut focused = true;
if let Ok(window) = &windows.get_single() {
focused = window.focused;
win_res_x = window.resolution.width();
win_res_y = window.resolution.height();
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} else {
win_res_x = 1920.0;
win_res_y = 1050.0;
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}
if let Ok((player_entity, player_transform, mut engine, pos, mut v, mut torque, bike)) =
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q_playercam.get_single_mut()
{
let target_v: DVec3 = if let Ok(target) = q_target.get_single() {
target.0
} else {
let mut closest_distance = MAX_DIST_FOR_MATCH_VELOCITY;
let mut closest_velocity = None;
for (testpos, v) in q_closest.iter() {
let distance = (pos.0 - testpos.0).length();
if distance < closest_distance {
closest_velocity = Some(v);
closest_distance = distance;
}
}
if closest_velocity.is_some() {
closest_velocity.unwrap().0
} else {
let relative_pos = pos.0 - jupiter_pos.0;
nature::orbital_velocity(relative_pos, nature::JUPITER_MASS)
}
};
// Handle key input
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if focused {
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if key_input.pressed(settings.key_forward) || settings.cruise_control_active {
axis_input.z += 1.2;
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}
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if key_input.pressed(settings.key_back) {
axis_input.z -= 1.2;
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}
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if key_input.pressed(settings.key_right) {
axis_input.x -= 1.2;
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}
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if key_input.pressed(settings.key_left) {
axis_input.x += 1.2;
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}
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if key_input.pressed(settings.key_up) {
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axis_input.y += 1.2;
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}
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if key_input.pressed(settings.key_down) {
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axis_input.y -= 1.2;
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}
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if key_input.pressed(settings.key_stop) {
let stop_direction = (target_v - v.0).normalize();
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if stop_direction.length_squared() > 0.3 {
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axis_input += 1.0
* DVec3::from(
player_transform.rotation.inverse() * stop_direction.as_vec3(),
);
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}
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}
} else {
if settings.cruise_control_active {
axis_input.z += 1.2;
}
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}
// In typical games we would normalize the input vector so that diagonal movement is as
// fast as forward or sideways movement. But here, we merely clamp each direction to an
// absolute maximum of 1, since every thruster can be used separately. If the forward
// thrusters and the leftward thrusters are active at the same time, then of course the
// total diagonal acceleration is faster than the forward acceleration alone.
axis_input = axis_input.clamp(DVec3::splat(-1.0), DVec3::splat(1.0));
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// Apply movement update
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let forward_factor = engine.current_warmup
* (if axis_input.z > 0.0 {
engine.thrust_forward
} else {
engine.thrust_back
});
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let right_factor = engine.thrust_sideways * engine.current_warmup;
let up_factor = engine.thrust_sideways * engine.current_warmup;
let factor = DVec3::new(right_factor as f64, up_factor as f64, forward_factor as f64);
let boost = if bike.is_none() {
engine.current_boost_factor
} else {
1.0
};
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if axis_input.length_squared() > 0.003 {
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engine.currently_firing = true;
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let acceleration_global: DVec3 =
DVec3::from(player_transform.rotation * (axis_input * factor).as_vec3());
let mut acceleration_total: DVec3 =
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(actor::ENGINE_SPEED_FACTOR * dt) as f64 * boost * acceleration_global;
let threshold = 1e-5;
if key_input.pressed(settings.key_stop) {
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// Decelerate (or match velocity to target_v)
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engine.currently_matching_velocity = true;
let dv = v.0 - target_v;
for i in 0..3 {
if dv[i].abs() < threshold {
v[i] = target_v[i];
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} else if dv[i].signum() != (dv[i] + acceleration_total[i]).signum() {
// Almost stopped, but we overshot v=0
v[i] = target_v[i];
acceleration_total[i] = 0.0;
}
}
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} else {
engine.currently_matching_velocity = false;
}
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// TODO: handle mass
v.0 += acceleration_total;
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engine.current_warmup =
(engine.current_warmup + dt / engine.warmup_seconds).clamp(0.0, 1.0);
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play_thruster_sound = true;
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// Visual effect
if bike.is_none() && acceleration_total.length_squared() > 1e-4 {
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let thruster_direction = acceleration_total.normalize();
let thruster_pos = pos.0 - 0.3 * thruster_direction;
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let thruster_v = v.0 - boost * 5.0 * thruster_direction;
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ew_effect.send(visual::SpawnEffectEvent {
duration: 2.0,
class: visual::Effects::ThrusterParticle(
Position::from(thruster_pos),
LinearVelocity::from(thruster_v),
),
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});
}
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} else {
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engine.currently_firing = false;
engine.currently_matching_velocity = false;
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engine.current_warmup =
(engine.current_warmup - dt / engine.warmup_seconds).clamp(0.0, 1.0);
}
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// Handle mouse input and mouse-like key bindings
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let mut play_reactionwheel_sound = false;
let mut mouse_delta = Vec2::ZERO;
let mut pitch_yaw_rot = Vec3::ZERO;
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let sensitivity_factor = if settings.is_zooming {
settings.zoom_sensitivity_factor
} else {
1.0
};
let mouseless_sensitivity = 8.0 * sensitivity_factor;
let mouseless_rotation_sensitivity = 40.0 * sensitivity_factor;
if key_input.pressed(settings.key_mouseup) {
pitch_yaw_rot[0] -= mouseless_sensitivity;
}
if key_input.pressed(settings.key_mousedown) {
pitch_yaw_rot[0] += mouseless_sensitivity;
}
if key_input.pressed(settings.key_mouseleft) {
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pitch_yaw_rot[1] += mouseless_sensitivity;
}
if key_input.pressed(settings.key_mouseright) {
pitch_yaw_rot[1] -= mouseless_sensitivity;
}
if key_input.pressed(settings.key_rotateleft) {
pitch_yaw_rot[2] -= mouseless_rotation_sensitivity;
}
if key_input.pressed(settings.key_rotateright) {
pitch_yaw_rot[2] += mouseless_rotation_sensitivity;
}
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for mouse_event in mouse_events.read() {
mouse_delta += mouse_event.delta;
}
if mouse_delta != Vec2::ZERO {
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if key_input.pressed(settings.key_rotate) {
pitch_yaw_rot[2] += 1000.0 * mouse_delta.x / win_res_x;
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} else {
pitch_yaw_rot[0] += 1000.0 * mouse_delta.y / win_res_y;
pitch_yaw_rot[1] -= 1000.0 * mouse_delta.x / win_res_x;
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}
}
let mouse_speed = pitch_yaw_rot.length();
let mouse_moving = mouse_speed > EPSILON32;
if mouse_moving {
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play_reactionwheel_sound = true;
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pitch_yaw_rot *=
settings.mouse_sensitivity * sensitivity_factor * engine.reaction_wheels;
torque.apply_torque(DVec3::from(
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player_transform.rotation
* Vec3::new(pitch_yaw_rot[0], pitch_yaw_rot[1], pitch_yaw_rot[2]),
));
}
if settings.rotation_stabilizer_active || key_input.pressed(settings.key_stop) {
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commands
.entity(player_entity)
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.try_insert(actor::WantsMaxRotation(mouse_speed as f64 * 0.1));
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} else {
commands
.entity(player_entity)
.remove::<actor::WantsMaxRotation>();
}
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let mut sinks: HashMap<audio::Sfx, &AudioSink> = HashMap::new();
for (sfx, sink) in &q_audiosinks {
sinks.insert(*sfx, sink);
}
// Play sound effects
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if let Some(sink) = sinks.get(&audio::Sfx::ElectricMotor) {
let reactionwheel_volume = 1.5;
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let volume = sink.volume();
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let speed = sink.speed();
let action = pitch_yaw_rot.length_squared().powf(0.2) * 0.0005;
if play_reactionwheel_sound && !settings.mute_sfx && bike.is_some() {
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sink.set_volume(
settings.volume_sfx * reactionwheel_volume * (volume + action).clamp(0.0, 1.0),
);
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sink.set_speed((speed + action * 0.2).clamp(0.2, 0.5));
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sink.play()
} else {
if volume <= 0.01 {
sink.pause()
} else {
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sink.set_volume((volume - 0.01).clamp(0.0, 1.0));
sink.set_speed((speed - 0.03).clamp(0.2, 0.5));
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}
}
}
let sinks = vec![
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(
1.0,
boost as f32,
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actor::EngineType::Monopropellant,
sinks.get(&audio::Sfx::Thruster),
),
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(
1.0,
1.0,
actor::EngineType::Ion,
sinks.get(&audio::Sfx::Ion),
),
];
let seconds_to_max_vol = 0.05;
let seconds_to_min_vol = 0.05;
for sink_data in sinks {
if let (vol_boost, speed, engine_type, Some(sink)) = sink_data {
if settings.mute_sfx {
sink.pause();
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} else {
let volume = sink.volume();
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let maxvol = settings.volume_sfx * vol_boost;
if engine.engine_type == engine_type {
if play_thruster_sound {
sink.set_speed(speed);
sink.play();
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if volume < maxvol {
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sink.set_volume(
(volume + dt / seconds_to_max_vol).clamp(0.0, maxvol),
);
}
} else {
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sink.set_volume((volume - dt / seconds_to_min_vol).clamp(0.0, maxvol));
}
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} else if volume > 0.0 {
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sink.set_volume((volume - dt / seconds_to_min_vol).clamp(0.0, maxvol));
}
if volume < 0.0001 {
sink.pause();
}
}
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}
}
}
}
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pub fn update_map_only_object_visibility(
settings: Res<var::Settings>,
q_camera: Query<&Transform, With<Camera>>,
q_player: Query<&Position, With<actor::PlayerCamera>>,
mut q_onlyinmap: Query<(&mut Visibility, &ShowOnlyInMap), Without<Camera>>,
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id2pos: Res<game::Id2Pos>,
) {
if q_camera.is_empty() || q_player.is_empty() {
return;
}
let cam: &Transform = q_camera.get_single().unwrap();
let player_pos: &Position = q_player.get_single().unwrap();
let cam_pos: Vec3 = cam.translation + player_pos.as_vec3();
for (mut vis, onlyinmap) in &mut q_onlyinmap {
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if settings.map_active && settings.hud_active {
if let Some(pos) = id2pos.0.get(&onlyinmap.distance_to_id) {
let dist = cam_pos.distance(pos.as_vec3());
if dist >= onlyinmap.min_distance as f32 {
*vis = Visibility::Inherited;
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} else {
*vis = Visibility::Hidden;
}
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} else {
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error!(
"Failed get position of actor ID '{}'",
&onlyinmap.distance_to_id
);
*vis = Visibility::Hidden;
}
} else {
*vis = Visibility::Hidden;
}
}
}
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// Find the closest world object that the player is looking at
#[inline]
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pub fn find_closest_target<TargetSpecifier>(
objects: Vec<(TargetSpecifier, &Transform)>,
camera_transform: &Transform,
) -> (Option<TargetSpecifier>, f32)
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where
TargetSpecifier: Clone,
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{
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let mut closest_entity: Option<TargetSpecifier> = None;
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let mut closest_distance: f32 = f32::MAX;
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let target_vector: Vec3 =
(camera_transform.rotation * Vec3::new(0.0, 0.0, -1.0)).normalize_or_zero();
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for (entity, trans) in objects {
// Use Transform instead of Position because we're basing this
// not on the player mesh but on the camera, which doesn't have a position.
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let (angular_diameter, angle, distance) =
calc_angular_diameter_known_target_vector(trans, camera_transform, &target_vector);
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if angle <= angular_diameter.clamp(0.01, PI32) {
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// It's in the field of view!
//commands.entity(entity).insert(IsTargeted);
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let distance_to_surface = distance - trans.scale.x;
if distance_to_surface < closest_distance {
closest_distance = distance_to_surface;
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closest_entity = Some(entity);
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}
}
}
return (closest_entity, closest_distance);
}
#[inline]
pub fn calc_angular_diameter_known_target_vector(
target: &Transform,
camera: &Transform,
target_vector: &Vec3,
) -> (f32, f32, f32) {
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let pos_vector: Vec3 = (target.translation - camera.translation).normalize_or_zero();
let cosine_of_angle: f32 = target_vector.dot(pos_vector);
let angle: f32 = cosine_of_angle.acos();
let distance: f32 = target.translation.distance(camera.translation);
let leeway: f32 = 1.3;
let angular_diameter: f32 = if distance > 0.0 {
// Angular Diameter
leeway * (target.scale[0] / distance).asin()
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} else {
0.0
};
return (angular_diameter, angle, distance);
}
#[inline]
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pub fn calc_angular_diameter(target: &Transform, camera: &Transform) -> (f32, f32, f32) {
let target_vector: Vec3 = (camera.rotation * Vec3::new(0.0, 0.0, -1.0)).normalize_or_zero();
return calc_angular_diameter_known_target_vector(target, camera, &target_vector);
}
// An extension of bevy_xpbd_3d::plugins::position_to_transform that adjusts
// the rendering position to center entities at the player camera.
// This avoids rendering glitches when very far away from the origin.
pub fn position_to_transform(
mapcam: Res<MapCam>,
settings: Res<var::Settings>,
q_player: Query<&Position, With<actor::PlayerCamera>>,
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mut q_trans: Query<
(&'static mut Transform, &'static Position, &'static Rotation),
Without<Parent>,
>,
) {
let center: DVec3 = if settings.map_active {
mapcam.center
} else if let Ok(player_pos) = q_player.get_single() {
**player_pos
} else {
return;
};
for (mut transform, pos, rot) in &mut q_trans {
transform.translation = Vec3::new(
(pos.x - center.x) as f32,
(pos.y - center.y) as f32,
(pos.z - center.z) as f32,
);
transform.rotation = rot.as_quat();
}
}