implement moving with AWSD in map. this allows changing target!

This commit is contained in:
yuni 2024-04-20 04:19:30 +02:00
parent 973506d335
commit c79320d072

View file

@ -44,6 +44,8 @@ pub struct MapCam {
pub target_zoom_level: f32, pub target_zoom_level: f32,
pub pitch: f32, pub pitch: f32,
pub yaw: f32, pub yaw: f32,
pub offset_x: f64,
pub offset_z: f64,
} }
impl Default for MapCam { impl Default for MapCam {
fn default() -> Self { fn default() -> Self {
@ -53,6 +55,8 @@ impl Default for MapCam {
target_zoom_level: 10.0, target_zoom_level: 10.0,
pitch: PI * 0.3, pitch: PI * 0.3,
yaw: 0.0, yaw: 0.0,
offset_x: 0.0,
offset_z: 0.0,
} }
} }
} }
@ -125,6 +129,7 @@ pub fn update_map_camera(
mut q_camera: Query<&mut Transform, (With<Camera>, Without<actor::PlayerCamera>)>, mut q_camera: Query<&mut Transform, (With<Camera>, Without<actor::PlayerCamera>)>,
q_playercam: Query<&Transform, (With<actor::PlayerCamera>, Without<Camera>)>, q_playercam: Query<&Transform, (With<actor::PlayerCamera>, Without<Camera>)>,
q_target: Query<&Transform, (With<hud::IsTargeted>, Without<Camera>, Without<actor::PlayerCamera>)>, q_target: Query<&Transform, (With<hud::IsTargeted>, Without<Camera>, Without<actor::PlayerCamera>)>,
q_target_changed: Query<(), Changed<hud::IsTargeted>>,
mut mouse_events: EventReader<MouseMotion>, mut mouse_events: EventReader<MouseMotion>,
mut er_mousewheel: EventReader<MouseWheel>, mut er_mousewheel: EventReader<MouseWheel>,
keyboard_input: Res<ButtonInput<KeyCode>>, keyboard_input: Res<ButtonInput<KeyCode>>,
@ -149,9 +154,37 @@ pub fn update_map_camera(
// direction parameter for the Transform.look_at function is ambiguous // direction parameter for the Transform.look_at function is ambiguous
// at the extreme values and the orientation will flicker back/forth. // at the extreme values and the orientation will flicker back/forth.
let epsilon = 0.001; let epsilon = 0.001;
let min_zoom = target.scale.x * 2.0;
let max_zoom = 17e18; // at this point, camera starts glitching
mapcam.pitch = (mapcam.pitch + mouse_delta.y / 180.0 * settings.mouse_sensitivity).clamp(-PI / 2.0 + epsilon, PI / 2.0 - epsilon); 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; mapcam.yaw += mouse_delta.x / 180.0 * settings.mouse_sensitivity;
// 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 = 0.0;
let mut offset_z = 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;
}
// Update movement offset
mapcam.offset_x += (0.01 * offset_x * mapcam.zoom_level) as f64;
mapcam.offset_z += (0.01 * offset_z * mapcam.zoom_level) as f64;
// Update zoom level // Update zoom level
if !mapcam.initialized { if !mapcam.initialized {
let factor = if target == player_transform { 7.0 } else { 1.0 }; let factor = if target == player_transform { 7.0 } else { 1.0 };
@ -169,17 +202,18 @@ pub fn update_map_camera(
for wheel_event in er_mousewheel.read() { for wheel_event in er_mousewheel.read() {
change_zoom -= wheel_event.y * 3.0; change_zoom -= wheel_event.y * 3.0;
} }
mapcam.target_zoom_level = (mapcam.target_zoom_level * 1.1f32.powf(change_zoom)).clamp(target.scale.x, 17e18); mapcam.target_zoom_level = (mapcam.target_zoom_level * 1.1f32.powf(change_zoom)).clamp(min_zoom, max_zoom);
let zoom_speed = 0.05; // should be between 0.0001 (slow) and 1.0 (instant) 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; mapcam.zoom_level = (zoom_speed * mapcam.target_zoom_level + (1.0 - zoom_speed) * mapcam.zoom_level).clamp(min_zoom, max_zoom);
// Update point of view // Update point of view
let pov_rotation = Quat::from_euler(EulerRot::XYZ, 0.0, mapcam.yaw, mapcam.pitch); 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 * Vec3::new(1.0, 0.0, 0.0)); let offset = DVec3::new(mapcam.offset_x, 0.0, mapcam.offset_z);
let point_of_view = offset + pov_rotation * (mapcam.zoom_level as f64 * DVec3::new(1.0, 0.0, 0.0));
// Apply updates to camera // Apply updates to camera
camera_transform.translation = target.translation + point_of_view; camera_transform.translation = target.translation + point_of_view.as_vec3();
camera_transform.look_at(target.translation, Vec3::Y); camera_transform.look_at(target.translation + offset.as_vec3(), Vec3::Y);
} }
pub fn update_fov( pub fn update_fov(