void render_radiation(radiation_data radiation, environment_data env, crew_data crew)
{
string magnetosphere_str = Radiation.HasMagnetosphere(env.body) ? Lib.HumanReadableRange(Radiation.MagnAltitude(env.body)) : "none";
string belt_strength_str = Radiation.HasBelt(env.body) ? " (" + (Radiation.Dynamo(env.body) * Settings.BeltRadiation * (60.0 * 60.0)).ToString("F0") + " rad/h)" : "";
string belt_str = Radiation.HasBelt(env.body) ? Lib.HumanReadableRange(Radiation.BeltAltitude(env.body)) : "none";
string shield_str = Radiation.ShieldingToString(radiation.shielding_amount, radiation.shielding_capacity);
string shield_tooltip = radiation.shielding_capacity > 0 ? "average over the vessel" : "";
string life_str = Lib.HumanReadableDuration(radiation.life_expectancy[0]) + "</b> / <b>" + Lib.HumanReadableDuration(radiation.life_expectancy[1]);
string life_tooltip = "cosmic / storm";
if (Radiation.HasBelt(env.body))
{
life_str += "</b> / <b>" + Lib.HumanReadableDuration(radiation.life_expectancy[2]);
life_tooltip += " / belt";
}
render_title("RADIATION");
render_content("magnetosphere", magnetosphere_str, "protect from cosmic radiation");
render_content("radiation belt", belt_str, "abnormal radiation zone" + belt_strength_str);
render_content("shielding", shield_str, shield_tooltip);
render_content("life expectancy", crew.capacity > 0 ? life_str : "perpetual", crew.capacity > 0 ? life_tooltip : "");
render_space();
}