void render_qol(qol_data qol) { render_title("QUALITY OF LIFE"); render_content("living space", QualityOfLife.LivingSpaceToString(qol.living_space)); render_content("entertainment", QualityOfLife.EntertainmentToString(qol.entertainment)); render_content("other factors", qol.factors); render_content("time to instability", Lib.HumanReadableDuration(qol.time_to_instability)); render_space(); }
void render_internal_space(Vessel v, vessel_info vi, List<ProtoCrewMember> crew) { // do not render internal space info for eva vessels if (v.isEVA) return; // if there is no crew, no space will be found, so do nothing in that case if (crew.Count == 0) return; // collect set of spaces // note: this is guaranteed to get at least a space (because there is at least one crew member) List<space_details> spaces = new List<space_details>(); foreach(var c in crew) { kerbal_data kd = DB.KerbalData(c.name); space_details sd = spaces.Find(k => k.name == kd.space_name); if (sd == null) { sd = new space_details(); sd.name = kd.space_name; sd.living_space = kd.living_space; sd.entertainment = kd.entertainment; sd.shielding = kd.shielding; spaces.Add(sd); } ++sd.crew_count; } // select a space space_details space = spaces[space_index % spaces.Count]; // render it string radiation_txt = vi.radiation > double.Epsilon ? Lib.BuildString(" <i>(", Lib.HumanReadableRadiationRate(vi.radiation * (1.0 - space.shielding)), ")</i>") : ""; render_title(space.name.Length > 0 && spaces.Count > 1 ? Lib.Epsilon(space.name.ToUpper(), 20) : "VESSEL", ref space_index, spaces.Count); render_content("living space", QualityOfLife.LivingSpaceToString(space.living_space)); render_content("entertainment", QualityOfLife.EntertainmentToString(space.entertainment)); render_content("shielding", Lib.BuildString(Radiation.ShieldingToString(space.shielding), radiation_txt)); render_space(); }
void render_info() { // find vessel Vessel v = FlightGlobals.Vessels.Find(k => k.id == vessel_id); // forget vessel if it doesn't exist anymore, or if its a dead eva kerbal if (v == null || EVA.IsDead(v)) { vessel_id = Guid.Empty; return; } // get info from the cache vessel_info vi = Cache.VesselInfo(v); render_title("ENVIRONMENT"); render_content("Temperature:\t", Lib.HumanReadableTemp(vi.temperature)); render_content("Radiation:\t", Lib.HumanReadableRadiationRate(vi.env_radiation)); render_content("Atmosphere:\t", v.mainBody.atmosphere ? " yes" + (vi.breathable ? " <i>(breathable)</i>" : "") : "no"); render_space(); // render supplies if (Kerbalism.supply_rules.Count > 0 || Kerbalism.ec_rule != null) { render_title("SUPPLIES"); if (Kerbalism.ec_rule != null) { var vmon = vi.vmon[Kerbalism.ec_rule.name]; render_content(fix_title("Battery:"), vmon.level > double.Epsilon ? Lib.HumanReadableDuration(vmon.depletion) : "none"); } if (Lib.CrewCapacity(v) > 0) { foreach(Rule r in Kerbalism.supply_rules) { var vmon = vi.vmon[r.name]; render_content(fix_title(r.resource_name + ":"), vmon.level > double.Epsilon ? Lib.HumanReadableDuration(vmon.depletion) : "none"); } } render_space(); } // get crew var crew = v.loaded ? v.GetVesselCrew() : v.protoVessel.GetVesselCrew(); // do not render internal spaces info for eva vessels if (!v.isEVA) { // collect set of spaces Dictionary<string, space_details> spaces = new Dictionary<string, space_details>(); foreach(var c in crew) { kerbal_data kd = DB.KerbalData(c.name); if (!spaces.ContainsKey(kd.space_name)) { space_details sd = new space_details(); sd.living_space = kd.living_space; sd.entertainment = kd.entertainment; sd.shielding = kd.shielding; spaces.Add(kd.space_name, sd); } ++(spaces[kd.space_name].crew_count); } // for each space foreach(var space in spaces) { string space_name = space.Key; space_details det = space.Value; string radiation_txt = vi.env_radiation > double.Epsilon ? " <i>(" + Lib.HumanReadableRadiationRate(vi.env_radiation * (1.0 - det.shielding)) + ")</i>" : ""; render_title(space_name.Length > 0 ? space_name.ToUpper() : v.isEVA ? "EVA" : "VESSEL"); render_content("Living space:\t", QualityOfLife.LivingSpaceToString(det.living_space)); render_content("Entertainment:\t", QualityOfLife.EntertainmentToString(det.entertainment)); render_content("Shielding:\t", Radiation.ShieldingToString(det.shielding) + radiation_txt); render_space(); } } // for each kerbal if (Kerbalism.rules.Count > 0) { foreach(var c in crew) { kerbal_data kd = DB.KerbalData(c.name); render_title(c.name.ToUpper()); foreach(var q in Kerbalism.rules) { Rule r = q.Value; if (r.degeneration > double.Epsilon) { var kmon = DB.KmonData(c.name, r.name); var bar = Lib.ProgressBar(23, kmon.problem, r.warning_threshold, r.danger_threshold, r.fatal_threshold, kd.disabled > 0 ? "cyan" : ""); render_content(fix_title(r.name + ":"), bar); } } if (kd.space_name.Length > 0 && !v.isEVA) render_content("Inside:\t\t", kd.space_name); if (kd.disabled > 0) render_content("Hibernated:\t", "yes"); render_space(); } } // for each greenhouse var greenhouses = Greenhouse.GetGreenhouses(v); foreach(var greenhouse in greenhouses) { render_title("GREENHOUSE"); render_content("Lighting:\t\t", (greenhouse.lighting * 100.0).ToString("F0") + "%"); render_content("Growth:\t\t", (greenhouse.growth * 100.0).ToString("F0") + "%"); render_content("Harvest:\t\t", Lib.HumanReadableDuration(greenhouse.growing > double.Epsilon ? 1.0 / greenhouse.growing : 0.0)); render_space(); } }