abstract out orbit calculation into nature::pos_offset_for_orbiting_body()
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90c89fc3f3
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28
src/cmd.rs
28
src/cmd.rs
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@ -16,7 +16,6 @@ use bevy::pbr::{NotShadowCaster, NotShadowReceiver};
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use bevy::prelude::*;
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use bevy_xpbd_3d::prelude::*;
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use regex::Regex;
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use std::time::SystemTime;
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pub const ID_SPECIAL_PLAYERCAM: &str = "PLAYERCAMERA";
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pub const ID_EARTH: &str = "earth";
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@ -811,30 +810,19 @@ fn spawn_entities(
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state.pos
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};
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if let Some(r) = state.orbit_distance {
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let mut phase_radians = 0.0f64;
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if let Some(phase) = state.orbit_phase {
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phase_radians += phase;
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}
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if let Some(id) = &state.orbit_object_id {
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let mass = match id.as_str() {
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"jupiter" => nature::JUPITER_MASS,
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"sol" => nature::JUPITER_MASS,
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let mass: Option<f64> = if let Some(id) = &state.orbit_object_id {
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match id.as_str() {
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"jupiter" => Some(nature::JUPITER_MASS),
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"sol" => Some(nature::JUPITER_MASS),
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_ => {
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error!("Found no mass for object `{id}`");
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continue;
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}
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};
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let orbital_period = nature::simple_orbital_period(mass, r);
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phase_radians +=
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if let Ok(epoch) = SystemTime::now().duration_since(SystemTime::UNIX_EPOCH) {
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let now = epoch.as_secs_f64() + 614533234154.0; // random
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PI * 2.0 * (now % orbital_period) / orbital_period
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} else {
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error!("Can't determine current time `{id}`");
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0.0
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};
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}
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absolute_pos += nature::phase_dist_to_coords(-phase_radians, r);
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} else {
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None
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};
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absolute_pos += nature::pos_offset_for_orbiting_body(r, mass, state.orbit_phase);
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}
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let scale = Vec3::splat(
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if state.is_sun {
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@ -11,6 +11,7 @@
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// This module manages the messy, impure parts of our universe.
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use crate::prelude::*;
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use std::time::SystemTime;
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pub const OXYGEN_USE_KG_PER_S: f32 = 1e-5;
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pub const OXY_S: f32 = OXYGEN_USE_KG_PER_S;
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@ -33,6 +34,9 @@ pub const SOL_MASS: f64 = 1.9885e30;
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pub const JUPITER_MASS: f64 = 1.8982e27;
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pub const EARTH_MASS: f64 = 5.972168e24;
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// Arbitrary offset to time epoch, to generate more interesting orbital arrangements:
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pub const ORBIT_TIME_OFFSET: f64 = 614533234154.0;
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// Each star's values: (x, y, z, magnitude, color index, distance, name)
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pub const STARS: &[(f32, f32, f32, f32, f32, f32, &str)] = &include!("data/stars.in");
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@ -204,3 +208,25 @@ pub fn phase_dist_to_coords(phase_radians: f64, distance: f64) -> DVec3 {
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distance * phase_radians.sin(),
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);
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}
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pub fn pos_offset_for_orbiting_body(
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orbit_distance: f64,
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orbited_mass: Option<f64>,
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phase_offset: Option<f64>,
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) -> DVec3 {
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let r = orbit_distance;
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let mut phase_radians = 0.0f64;
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if let Some(phase_offset) = phase_offset {
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phase_radians += phase_offset
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}
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if let Some(mass) = orbited_mass {
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if let Ok(epoch) = SystemTime::now().duration_since(SystemTime::UNIX_EPOCH) {
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let orbital_period = simple_orbital_period(mass, r);
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let now = epoch.as_secs_f64() + ORBIT_TIME_OFFSET;
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phase_radians += PI * 2.0 * (now % orbital_period) / orbital_period;
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} else {
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eprintln!("WARNING: Can't determine current time in calculate_position_offset_for_orbiting_body().");
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}
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}
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return phase_dist_to_coords(-phase_radians, r);
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}
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