use bevy::prelude::*; use bevy::input::mouse::MouseMotion; use bevy::window::PrimaryWindow; use bevy::core_pipeline::bloom::{BloomCompositeMode, BloomSettings}; use bevy::core_pipeline::tonemapping::Tonemapping; use bevy::pbr::CascadeShadowConfigBuilder; use bevy::transform::TransformSystem; use bevy::math::{DVec3, DQuat}; use bevy_xpbd_3d::prelude::*; use std::f32::consts::PI; use crate::{actor, audio, hud, var}; pub struct CameraPlugin; impl Plugin for CameraPlugin { fn build(&self, app: &mut App) { app.add_systems(Startup, setup_camera); app.add_systems(Update, handle_input); app.add_systems(Update, manage_player_actor.after(handle_input)); app.add_systems(PostUpdate, sync_camera_to_player .after(PhysicsSet::Sync) .after(apply_input_to_player) .before(TransformSystem::TransformPropagate)); app.add_systems(Update, update_map_camera); app.add_systems(Update, update_fov); app.add_systems(PostUpdate, apply_input_to_player .after(PhysicsSet::Sync) .before(TransformSystem::TransformPropagate)); app.insert_resource(MapCam::default()); } } #[derive(Resource)] pub struct MapCam { zoom_level: f32, target_zoom_level: f32, pitch: f32, yaw: f32, } impl Default for MapCam { fn default() -> Self { Self { zoom_level: 10.0, target_zoom_level: 10000.0, pitch: PI * 0.3, yaw: 0.0, } } } pub fn setup_camera( mut commands: Commands, ) { // Add player commands.spawn(( Camera3dBundle { camera: Camera { hdr: true, // HDR is required for bloom 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 { illuminance: 1000.0, shadows_enabled: false, ..default() }, transform: Transform::from_rotation(Quat::from_rotation_y(PI/2.0)), cascade_shadow_config: CascadeShadowConfigBuilder { first_cascade_far_bound: 7.0, maximum_distance: 25.0, ..default() } .into(), ..default() }); } pub fn sync_camera_to_player( settings: Res, mut q_camera: Query<&mut Transform, (With, Without)>, q_playercam: Query<(&actor::Actor, &Transform), (With, Without)>, ) { 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 camera_transform.rotation = player_transform.rotation * Quat::from_array([0.0, -1.0, 0.0, 0.0]); // Translation if settings.third_person { camera_transform.translation = player_transform.translation + camera_transform.rotation * (actor.camdistance * Vec3::new(0.0, 0.2, 1.0)); } else { camera_transform.translation = player_transform.translation; } } pub fn update_map_camera( settings: Res, mut mapcam: ResMut, mut q_camera: Query<&mut Transform, (With, Without)>, q_playercam: Query<&Transform, (With, Without)>, mut mouse_events: EventReader, keyboard_input: Res>, ) { if !settings.map_active || q_camera.is_empty() || q_playercam.is_empty() { return; } let mut camera_transform = q_camera.get_single_mut().unwrap(); let player_transform = q_playercam.get_single().unwrap(); // 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 epsilon = 0.001; mapcam.pitch = (mapcam.pitch + mouse_delta.y / 180.0 * settings.mouse_sensitivity).clamp(-PI / 2.0 + epsilon, PI / 2.0 - epsilon); mapcam.yaw += mouse_delta.x / 180.0 * settings.mouse_sensitivity; // Update zoom level if keyboard_input.pressed(settings.key_map_zoom_out) { mapcam.target_zoom_level *= 1.1; } if keyboard_input.pressed(settings.key_map_zoom_in) { mapcam.target_zoom_level /= 1.1; } let zoom_speed = 0.05; // should be between 0.0001 (slow) and 1.0 (instant) mapcam.zoom_level = zoom_speed * mapcam.target_zoom_level + (1.0 - zoom_speed) * mapcam.zoom_level; // Update point of view let pov_rotation = Quat::from_euler(EulerRot::XYZ, 0.0, mapcam.yaw, mapcam.pitch); let point_of_view = pov_rotation * (mapcam.zoom_level * Vec3::new(1.0, 0.0, 0.0)); // Apply updates to camera camera_transform.translation = player_transform.translation + point_of_view; camera_transform.look_at(player_transform.translation, Vec3::Y); } pub fn update_fov( q_player: Query<&actor::ExperiencesGForce, With>, mouse_input: Res>, mut settings: ResMut, mut q_camera: Query<&mut Projection, With>, ) { if let (Ok(gforce), Ok(mut projection)) = (q_player.get_single(), q_camera.get_single_mut()) { let fov: f32; if settings.hud_active && mouse_input.pressed(settings.key_zoom) { fov = settings.zoom_fov.to_radians(); if !settings.is_zooming { settings.is_zooming = true; } } else { fov = (gforce.visual_effect.clamp(0.0, 1.0) * settings.fov_highspeed + settings.fov).to_radians(); if settings.is_zooming { settings.is_zooming = false; } }; *projection = Projection::Perspective(PerspectiveProjection { fov: fov, ..default() }); } } pub fn handle_input( keyboard_input: Res>, mut settings: ResMut, mut mapcam: ResMut, mut ew_sfx: EventWriter, ) { if keyboard_input.just_pressed(settings.key_camera) { settings.third_person ^= true; } if keyboard_input.just_pressed(settings.key_map) { settings.map_active ^= true; *mapcam = MapCam::default(); } if keyboard_input.just_pressed(settings.key_rotation_stabilizer) { ew_sfx.send(audio::PlaySfxEvent(audio::Sfx::Click)); settings.rotation_stabilizer_active ^= true; } } fn manage_player_actor( mut commands: Commands, settings: Res, mut q_playercam: Query<&mut Visibility, With>, mut q_hiddenplayer: Query<(Entity, &mut Visibility, &mut Position, &mut Rotation, &mut LinearVelocity, &mut AngularVelocity, Option<&mut actor::ExperiencesGForce>, Option<&actor::JustNowEnteredVehicle>), (With, Without)>, q_ride: Query<(&Transform, &Position, &Rotation, &LinearVelocity, &AngularVelocity), (With, Without)>, ) { for mut vis in &mut q_playercam { if settings.third_person || settings.map_active { *vis = Visibility::Inherited; } else { *vis = Visibility::Hidden; } } for (entity, mut vis, mut pos, mut rot, mut v, mut angv, mut gforce, entering) in &mut q_hiddenplayer { // 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() { 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(); // 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; commands.entity(entity).remove::(); } } } } #[allow(clippy::too_many_arguments)] pub fn apply_input_to_player( time: Res, settings: Res, windows: Query<&Window, With>, mut mouse_events: EventReader, key_input: Res>, thruster_sound_controller: Query<&AudioSink, With>, rocket_sound_controller: Query<&AudioSink, With>, ion_sound_controller: Query<&AudioSink, With>, electricmotor_sound_controller: Query<&AudioSink, With>, q_target: Query<&LinearVelocity, (With, Without)>, mut q_playercam: Query<( &Transform, &mut actor::Engine, &mut AngularVelocity, &mut LinearVelocity, &mut ExternalTorque, Option<&actor::PlayerDrivesThis>, ), (With, Without)>, ) { if settings.map_active { return; } let dt = time.delta_seconds(); let mut play_thruster_sound = false; let mut axis_input: DVec3 = DVec3::ZERO; let (win_res_x, win_res_y): (f32, f32); 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(); } else { win_res_x = 1920.0; win_res_y = 1050.0; } let target_v: DVec3 = if let Ok(target) = q_target.get_single() { target.0 } else { DVec3::splat(0.0) }; if let Ok((player_transform, mut engine, mut angularvelocity, mut v, mut torque, bike)) = q_playercam.get_single_mut() { // Handle key input if focused { if key_input.pressed(settings.key_forward) { axis_input.z += 1.2; } if key_input.pressed(settings.key_back) { axis_input.z -= 1.2; } if key_input.pressed(settings.key_right) { axis_input.x -= 1.2; } if key_input.pressed(settings.key_left) { axis_input.x += 1.2; } if key_input.pressed(settings.key_up) { axis_input.y += 1.2; } if key_input.pressed(settings.key_down) { axis_input.y -= 1.2; } if key_input.pressed(settings.key_stop) { let stop_direction = (target_v - v.0).normalize(); if stop_direction.length_squared() > 0.3 { axis_input += 1.0 * DVec3::from(player_transform.rotation.inverse() * stop_direction.as_vec3()); } } } // 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)); // Apply movement update let forward_factor = engine.current_warmup * (if axis_input.z > 0.0 { engine.thrust_forward } else { engine.thrust_back }); 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); if axis_input.length_squared() > 0.003 { let acceleration_global: DVec3 = DVec3::from(player_transform.rotation * (axis_input * factor).as_vec3()); let mut acceleration_total: DVec3 = (actor::ENGINE_SPEED_FACTOR * dt) as f64 * acceleration_global; let threshold = 1e-5; if key_input.pressed(settings.key_stop) { // Decelerate (or match velocity to target_v) let dv = v.0 - target_v; for i in 0..3 { if dv[i].abs() < threshold { v[i] = target_v[i]; } 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; } } } // TODO: handle mass v.0 += acceleration_total; engine.current_warmup = (engine.current_warmup + dt / engine.warmup_seconds).clamp(0.0, 1.0); play_thruster_sound = true; } else { engine.current_warmup = (engine.current_warmup - dt / engine.warmup_seconds).clamp(0.0, 1.0); } // Handle mouse input and mouse-like key bindings let mut play_reactionwheel_sound = false; let mut mouse_delta = Vec2::ZERO; let mut pitch_yaw_rot = Vec3::ZERO; 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) { 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; } for mouse_event in mouse_events.read() { mouse_delta += mouse_event.delta; } if mouse_delta != Vec2::ZERO { if key_input.pressed(settings.key_rotate) { pitch_yaw_rot[2] += 1000.0 * mouse_delta.x / win_res_x; } 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; } } let angular_slowdown: f64 = if settings.rotation_stabilizer_active { (2.0 - engine.reaction_wheels.powf(0.01).clamp(1.001, 1.1)) as f64 } else { 1.0 }; if pitch_yaw_rot.length_squared() > 1.0e-18 { play_reactionwheel_sound = true; pitch_yaw_rot *= settings.mouse_sensitivity * sensitivity_factor * engine.reaction_wheels; torque.apply_torque(DVec3::from( player_transform.rotation * Vec3::new( pitch_yaw_rot[0], pitch_yaw_rot[1], pitch_yaw_rot[2]))); angularvelocity.0 *= angular_slowdown.clamp(0.97, 1.0) as f64; } else { if angularvelocity.length_squared() > 1.0e-18 { angularvelocity.0 *= angular_slowdown; } else { angularvelocity.0 = DVec3::splat(0.0); } } // Play sound effects if let Ok(sink) = electricmotor_sound_controller.get_single() { let volume = sink.volume(); 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() { sink.set_volume((volume + action).clamp(0.0, 1.0)); sink.set_speed((speed + action * 0.2).clamp(0.2, 0.5)); sink.play() } else { if volume <= 0.01 { sink.pause() } else { sink.set_volume((volume - 0.01).clamp(0.0, 1.0)); sink.set_speed((speed - 0.03).clamp(0.2, 0.5)); } } } let sinks = vec![ (1.2, actor::EngineType::Monopropellant, thruster_sound_controller.get_single()), (1.0, actor::EngineType::Rocket, rocket_sound_controller.get_single()), (1.4, actor::EngineType::Ion, ion_sound_controller.get_single()), ]; let seconds_to_max_vol = 0.05; let seconds_to_min_vol = 0.05; for sink_data in sinks { if let (vol_boost, engine_type, Ok(sink)) = sink_data { if settings.mute_sfx { sink.pause(); } else { let volume = sink.volume(); if engine.engine_type == engine_type { if play_thruster_sound { sink.play(); if volume < 1.0 { let maxvol = vol_boost; //let maxvol = engine.current_warmup * vol_boost; sink.set_volume((volume + dt / seconds_to_max_vol).clamp(0.0, maxvol)); } } else { sink.set_volume((volume - dt / seconds_to_min_vol).clamp(0.0, 1.0)); } } else if volume > 0.0 { sink.set_volume((volume - dt / seconds_to_min_vol).clamp(0.0, 1.0)); } if volume < 0.0001 { sink.pause(); } } } } } } // Find the closest world object that the player is looking at #[inline] pub fn find_closest_target( objects: Vec<(TargetSpecifier, &Transform)>, camera_transform: &Transform, ) -> (Option, f32) where TargetSpecifier: Clone { let mut closest_entity: Option = None; let mut closest_distance: f32 = f32::MAX; let target_vector: Vec3 = (camera_transform.rotation * Vec3::new(0.0, 0.0, -1.0)) .normalize_or_zero(); 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. let (angular_diameter, angle, distance) = calc_angular_diameter_known_target_vector( trans, camera_transform, &target_vector); if angle <= angular_diameter.clamp(0.001, PI) { // It's in the field of view! //commands.entity(entity).insert(IsTargeted); let distance_to_surface = distance - trans.scale.x; if distance_to_surface < closest_distance { closest_distance = distance_to_surface; closest_entity = Some(entity); } } } return (closest_entity, closest_distance); } #[inline] pub fn calc_angular_diameter_known_target_vector( target: &Transform, camera: &Transform, target_vector: &Vec3, ) -> (f32, f32, f32) { 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() } else { 0.0 }; return (angular_diameter, angle, distance); } #[inline] 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); }