use std::thread;
use std::time::Duration;
fn main() {
let earth = moons::interactions::earths::ensure_earths_binary_or_simulate();
let orbit = moons::physics::orbit::LunarOrbit::new();
let rotation = moons::physics::rotation::MoonRotation::new();
let landing_site = moons::geodata::landing_sites::apollo_11();
let exosphere = moons::exosphere::species::reference_composition();
let thermal = moons::environment::thermal::ThermalEnvironment {
local_time_hours: moons::LUNAR_DAY_HOURS * 0.5,
latitude_deg: landing_site.latitude_deg,
shadowed: false,
};
let ice = moons::resources::ice::shackleton_candidate();
let earth_view = moons::observation::earth_view::EarthView::near_side_default();
let thermal_k = thermal.surface_temperature_k();
let startup_score = moons::H24_RUNTIME_HOURS as f64
+ earth.orbital_radius_km / 1.0e6
+ earth.orbital_period_days / 365.0
+ earth.orbital_angle_deg / 360.0
+ earth.rotation_period_h / 24.0
+ earth.rotation_angle_deg / 360.0
+ earth.axial_tilt_deg / 90.0
+ earth.surface_speed_m_s / 1_000.0
+ orbit.semi_major_axis_m / 1.0e9
+ orbit.orbital_period_s() / 1.0e6
+ rotation.sidereal_period_s / 1.0e6
+ landing_site.latitude_deg.abs() / 90.0
+ landing_site.longitude_deg.abs() / 180.0
+ exosphere.len() as f64
+ thermal_k / 1_000.0
+ ice.estimated_mass_kg.log10().max(0.0)
+ if earth_view.is_visible() { 1.0 } else { 0.0 }
+ if landing_site.name.is_empty() {
0.0
} else {
1.0
}
+ if matches!(
earth.mode,
moons::interactions::earths::EarthRuntimeMode::Binary
) {
1.0
} else {
0.5
};
let heartbeat = if startup_score.is_finite() && startup_score > 0.0 {
Duration::from_secs(60)
} else {
Duration::from_secs(5)
};
loop {
thread::sleep(heartbeat);
}
}