Exemple #1
0
  public override void OnLoad(ConfigNode node)
  {
    // reset caches to deal with minor issues on flight revert and scene changes
    Engine.ResetCache();

    // get version of the savegame
    // note: if there isn't a version this is either a new game, or the first public release (that didn't have versioning)
    string version = node.HasValue("version") ? node.GetValue("version") : node.HasNode("kerbals") ? "0.9.9.0" : current_version;

    // this is an unsupported version, attempt a total clean up and pray
    if (string.CompareOrdinal(version, "0.9.9.5") < 0)
    {
      Lib.Log("loading save from unsupported version " + version);
      kerbals.Clear();
      vessels.Clear();
      bodies.Clear();
      landmarks = new landmarks_data();
      return;
    }

    kerbals.Clear();
    if (node.HasNode("kerbals"))
    {
      ConfigNode kerbals_node = node.GetNode("kerbals");
      foreach(ConfigNode kerbal_node in kerbals_node.GetNodes())
      {
        kerbal_data kd = new kerbal_data();
        kd.resque          = Lib.ConfigValue(kerbal_node, "resque", 1u);
        kd.disabled        = Lib.ConfigValue(kerbal_node, "disabled", 0u);
        kd.living_space    = Lib.ConfigValue(kerbal_node, "living_space", 1.0);
        kd.entertainment   = Lib.ConfigValue(kerbal_node, "entertainment", 1.0);
        kd.shielding       = Lib.ConfigValue(kerbal_node, "shielding", 0.0);
        kd.space_name      = Lib.ConfigValue(kerbal_node, "space_name", "");
        kd.eva_dead        = Lib.ConfigValue(kerbal_node, "eva_dead", false);
        kd.has_helmet      = Lib.ConfigValue(kerbal_node, "has_helmet", false);
        if (kerbal_node.HasNode("kmon"))
        {
          foreach(var cfg in kerbal_node.GetNode("kmon").GetNodes())
          {
            kmon_data kmon = new kmon_data();
            kmon.problem = Lib.ConfigValue(cfg, "problem", 0.0);
            kmon.message = Lib.ConfigValue(cfg, "message", 0u);
            kmon.time_since = Lib.ConfigValue(cfg, "time_since", 0.0);
            kd.kmon.Add(cfg.name, kmon);
          }
        }
        kerbals.Add(kerbal_node.name.Replace("___", " "), kd);
      }
    }

    vessels.Clear();
    if (node.HasNode("vessels"))
    {
      ConfigNode vessels_node = node.GetNode("vessels");
      foreach(ConfigNode vessel_node in vessels_node.GetNodes())
      {
        vessel_data vd = new vessel_data();
        vd.msg_signal      = Lib.ConfigValue(vessel_node, "msg_signal", 0u);
        vd.msg_belt        = Lib.ConfigValue(vessel_node, "msg_belt", 0u);
        vd.cfg_ec          = Lib.ConfigValue(vessel_node, "cfg_ec", 1u);
        vd.cfg_supply      = Lib.ConfigValue(vessel_node, "cfg_supply", 1u);
        vd.cfg_signal      = Lib.ConfigValue(vessel_node, "cfg_signal", 1u);
        vd.cfg_malfunction = Lib.ConfigValue(vessel_node, "cfg_malfunction", 1u);
        vd.cfg_storm       = Lib.ConfigValue(vessel_node, "cfg_storm", 1u);
        vd.cfg_highlights  = Lib.ConfigValue(vessel_node, "cfg_highlights", 1u);
        vd.cfg_showlink    = Lib.ConfigValue(vessel_node, "cfg_showlink", 0u);
        vd.storm_time      = Lib.ConfigValue(vessel_node, "storm_time", 0.0);
        vd.storm_age       = Lib.ConfigValue(vessel_node, "storm_age", 0.0);
        vd.storm_state     = Lib.ConfigValue(vessel_node, "storm_state", 0u);
        vd.group           = Lib.ConfigValue(vessel_node, "group", "NONE");

        if (vessel_node.HasNode("vmon"))
        {
          foreach(var cfg in vessel_node.GetNode("vmon").GetNodes())
          {
            vmon_data vmon = new vmon_data();
            vmon.message = Lib.ConfigValue(cfg, "message", 0u);
            vd.vmon.Add(cfg.name, vmon);
          }
        }
        foreach(string s in vessel_node.GetValues("scansat_id"))
        {
          vd.scansat_id.Add(Lib.Parse.ToUInt(s));
        }
        if (vessel_node.HasNode("computer"))
        {
          vd.computer = new Computer(vessel_node.GetNode("computer"));
        }
        // import old notes into new computer system
        else if (string.CompareOrdinal(version, "1.1.1.0") < 0)
        {
          vd.computer.files["doc/notes"].content = Lib.ConfigValue(vessel_node, "notes", "").Replace("$NEWLINE", "\n");
        }
        vessels.Add(new Guid(vessel_node.name), vd);
      }
    }

    bodies.Clear();
    if (node.HasNode("bodies"))
    {
      ConfigNode bodies_node = node.GetNode("bodies");
      foreach(ConfigNode body_node in bodies_node.GetNodes())
      {
        body_data bd = new body_data();
        bd.storm_time  = Lib.ConfigValue(body_node, "storm_time", 0.0);
        bd.storm_age   = Lib.ConfigValue(body_node, "storm_age", 0.0);
        bd.storm_state = Lib.ConfigValue(body_node, "storm_state", 0u);
        bd.msg_storm   = Lib.ConfigValue(body_node, "msg_storm", 0u);
        bodies.Add(body_node.name.Replace("___", " "), bd);
      }
    }

    landmarks = new landmarks_data();
    if (node.HasNode("landmarks"))
    {
      ConfigNode landmarks_node = node.GetNode("landmarks");
      landmarks.belt_crossing = Lib.ConfigValue(landmarks_node, "belt_crossing", 0u);
      landmarks.manned_orbit  = Lib.ConfigValue(landmarks_node, "manned_orbit", 0u);
      landmarks.space_harvest = Lib.ConfigValue(landmarks_node, "space_harvest", 0u);
    }
    // import old notifications data into new landmark system
    else if (string.CompareOrdinal(version, "1.1.2.0") < 0)
    {
      if (node.HasNode("notifications"))
      {
        ConfigNode n_node = node.GetNode("notifications");
        landmarks.belt_crossing = Lib.ConfigValue(n_node, "first_belt_crossing", 0u);
        landmarks.manned_orbit  = Lib.ConfigValue(n_node, "manned_orbit_contract", 0u);
        landmarks.space_harvest = Lib.ConfigValue(n_node, "first_space_harvest", 0u);
      }
    }

    // if an old savegame was imported, log some debug info
    if (version != current_version) Lib.Log("savegame converted from version " + version);
  }
Exemple #2
0
  public static void applyRules(Vessel v, vessel_info vi, vessel_data vd, vessel_resources resources, double elapsed_s)
  {
    // get crew
    List<ProtoCrewMember> crew = v.loaded ? v.GetVesselCrew() : v.protoVessel.GetVesselCrew();

    // get breathable modifier
    double breathable = vi.breathable ? 0.0 : 1.0;

    // get temp diff modifier
    double temp_diff = v.altitude < 2000.0 && v.mainBody == FlightGlobals.GetHomeBody() ? 0.0 : Sim.TempDiff(vi.temperature);

    // for each rule
    foreach(Rule r in Kerbalism.rules)
    {
      // get resource handler
      resource_info res = r.resource_name.Length > 0 ? resources.Info(v, r.resource_name) : null;

      // if a resource is specified
      if (res != null)
      {
        // get data from db
        vmon_data vmon = DB.VmonData(v.id, r.name);

        // message obey user config
        bool show_msg = (r.resource_name == "ElectricCharge" ? vd.cfg_ec > 0 : vd.cfg_supply > 0);

        // no messages with no capacity
        if (res.capacity > double.Epsilon)
        {
          // manned/probe message variant
          uint variant = crew.Count > 0 ? 0 : 1u;

          // manage messages
          if (res.level <= double.Epsilon && vmon.message < 2)
          {
            if (r.empty_message.Length > 0 && show_msg) Message.Post(Severity.danger, Lib.ExpandMsg(r.empty_message, v, null, variant));
            vmon.message = 2;
          }
          else if (res.level < r.low_threshold && vmon.message < 1)
          {
            if (r.low_message.Length > 0 && show_msg) Message.Post(Severity.warning, Lib.ExpandMsg(r.low_message, v, null, variant));
            vmon.message = 1;
          }
          else if (res.level > r.low_threshold && vmon.message > 0)
          {
            if (r.refill_message.Length > 0 && show_msg) Message.Post(Severity.relax, Lib.ExpandMsg(r.refill_message, v, null, variant));
            vmon.message = 0;
          }
        }
      }

      // for each crew
      foreach(ProtoCrewMember c in crew)
      {
        // get kerbal data
        kerbal_data kd = DB.KerbalData(c.name);

        // skip resque kerbals
        if (kd.resque == 1) continue;

        // skip disabled kerbals
        if (kd.disabled == 1) continue;

        // get supply data from db
        kmon_data kmon = DB.KmonData(c.name, r.name);


        // get product of all environment modifiers
        double k = 1.0;
        foreach(string modifier in r.modifier)
        {
          switch(modifier)
          {
            case "breathable":  k *= breathable;                              break;
            case "temperature": k *= temp_diff;                               break;
            case "radiation":   k *= vi.radiation * (1.0 - kd.shielding);     break;
            case "qol":         k /= QualityOfLife.Bonus(kd.living_space, kd.entertainment, vi.landed, vi.link.linked, vi.crew_count == 1); break;
          }
        }


        // if continuous
        double step;
        if (r.interval <= double.Epsilon)
        {
          // influence consumption by elapsed time
          step = elapsed_s;
        }
        // if interval-based
        else
        {
          // accumulate time
          kmon.time_since += elapsed_s;

          // determine number of steps
          step = Math.Floor(kmon.time_since / r.interval);

          // consume time
          kmon.time_since -= step * r.interval;

          // remember if a meal is consumed in this simulation step
          res.meal_consumed |= step > 0.99;
        }


        // if continuous, or if one or more intervals elapsed
        if (step > double.Epsilon)
        {
          // indicate if we must degenerate
          bool must_degenerate = true;

          // if there is a resource specified, and this isn't just a monitoring rule
          if (res != null && r.rate > double.Epsilon)
          {
            // determine amount of resource to consume
            double required = r.rate          // rate per-second or per interval
                            * k               // product of environment modifiers
                            * step;           // seconds elapsed or number of steps

            // if there is no waste
            if (r.waste_name.Length == 0)
            {
              // simply consume (that is faster)
              res.Consume(required);

            }
            // if there is waste
            else
            {
              // transform resource into waste
              resource_recipe recipe = new resource_recipe(resource_recipe.rule_priority);
              recipe.Input(r.resource_name, required);
              recipe.Output(r.waste_name, required * r.waste_ratio);
              resources.Transform(recipe);
            }

            // reset degeneration when consumed, or when not required at all
            // note: evaluating amount from previous simulation step
            if (required <= double.Epsilon || res.amount > double.Epsilon)
            {
              // slowly recover instead of instant reset
              kmon.problem *= 1.0 / (1.0 + Math.Max(r.interval, 1.0) * step * 0.002);
              kmon.problem = Math.Max(kmon.problem, 0.0);

              // do not degenerate
              must_degenerate = false;
            }
          }

          // degenerate if this rule is resource-less, or if there was not enough resource in the vessel
          if (must_degenerate)
          {
            kmon.problem += r.degeneration            // degeneration rate per-second or per-interval
                          * k                         // product of environment modifiers
                          * step                      // seconds elapsed or by number of steps
                          * Variance(c, r.variance);  // kerbal-specific variance
          }


          // determine message variant
          uint variant = vi.temperature < Settings.SurvivalTemperature ? 0 : 1u;

          // kill kerbal if necessary
          if (kmon.problem >= r.fatal_threshold)
          {
            if (r.fatal_message.Length > 0)
              Message.Post(r.breakdown ? Severity.breakdown : Severity.fatality, Lib.ExpandMsg(r.fatal_message, v, c, variant));

            if (r.breakdown)
            {
              Kerbalism.Breakdown(v, c);
              kmon.problem = r.danger_threshold * 1.01; //< move back to danger threshold
            }
            else
            {
              Kerbalism.Kill(v, c);
            }
          }
          // show messages
          else if (kmon.problem >= r.danger_threshold && kmon.message < 2)
          {
            if (r.danger_message.Length > 0) Message.Post(Severity.danger, Lib.ExpandMsg(r.danger_message, v, c, variant));
            kmon.message = 2;
          }
          else if (kmon.problem >= r.warning_threshold && kmon.message < 1)
          {
            if (r.warning_message.Length > 0) Message.Post(Severity.warning, Lib.ExpandMsg(r.warning_message, v, c, variant));
            kmon.message = 1;
          }
          else if (kmon.problem < r.warning_threshold && kmon.message > 0)
          {
            if (r.relax_message.Length > 0) Message.Post(Severity.relax, Lib.ExpandMsg(r.relax_message, v, c, variant));
            kmon.message = 0;
          }
        }
      }
    }
  }
Exemple #3
0
  public override void OnLoad(ConfigNode node)
  {
    // get version of the savegame
    // note: if there isn't a version this is either a new game, or the first public release (that didn't have versioning)
    string version = node.HasValue("version") ? node.GetValue("version") : node.HasNode("kerbals") ? "0.9.9.0" : current_version;

    // this is an unsupported version, attempt a total clean up and pray
    // note: currently unused
    if (string.CompareOrdinal(version, "0.9.9.0") < 0)
    {
      Lib.Log("loading save from unsupported version " + version);
      kerbals.Clear();
      vessels.Clear();
      bodies.Clear();
      notifications = new notification_data();
      return;
    }


    kerbals.Clear();
    if (node.HasNode("kerbals"))
    {
      ConfigNode kerbals_node = node.GetNode("kerbals");
      foreach(ConfigNode kerbal_node in kerbals_node.GetNodes())
      {
        kerbal_data kd = new kerbal_data();
        kd.resque          = Lib.ConfigValue(kerbal_node, "resque", 1u);
        kd.disabled        = Lib.ConfigValue(kerbal_node, "disabled", 0u);
        kd.living_space    = Lib.ConfigValue(kerbal_node, "living_space", 1.0); // since 0.9.9.4
        kd.entertainment   = Lib.ConfigValue(kerbal_node, "entertainment", 1.0); // since 0.9.9.4
        kd.shielding       = Lib.ConfigValue(kerbal_node, "shielding", 0.0); // since 0.9.9.4
        kd.space_name      = Lib.ConfigValue(kerbal_node, "space_name", ""); // since 0.9.9.4
        kd.kmon = new Dictionary<string, kmon_data>();
        if (kerbal_node.HasNode("kmon")) // since 0.9.9.5
        {
          foreach(var cfg in kerbal_node.GetNode("kmon").GetNodes())
          {
            kmon_data kmon = new kmon_data();
            kmon.problem = Lib.ConfigValue(cfg, "problem", 0.0);
            kmon.message = Lib.ConfigValue(cfg, "message", 0u);
            kmon.time_since = Lib.ConfigValue(cfg, "time_since", 0.0);
            kd.kmon.Add(cfg.name, kmon);
          }
        }
        kerbals.Add(kerbal_node.name.Replace("___", " "), kd);
      }
    }

    vessels.Clear();
    if (node.HasNode("vessels"))
    {
      ConfigNode vessels_node = node.GetNode("vessels");
      foreach(ConfigNode vessel_node in vessels_node.GetNodes())
      {
        vessel_data vd = new vessel_data();
        vd.msg_signal      = Lib.ConfigValue(vessel_node, "msg_signal", 0u);
        vd.msg_belt        = Lib.ConfigValue(vessel_node, "msg_belt", 0u);
        vd.cfg_ec          = Lib.ConfigValue(vessel_node, "cfg_ec", 1u);
        vd.cfg_supply      = Lib.ConfigValue(vessel_node, "cfg_supply", 1u);
        vd.cfg_signal      = Lib.ConfigValue(vessel_node, "cfg_signal", 1u);
        vd.cfg_malfunction = Lib.ConfigValue(vessel_node, "cfg_malfunction", 1u);
        vd.cfg_storm       = Lib.ConfigValue(vessel_node, "cfg_storm", 1u); // since 0.9.9.5
        vd.cfg_highlights  = Lib.ConfigValue(vessel_node, "cfg_highlights", 1u); // since 0.9.9.5
        vd.cfg_showlink    = Lib.ConfigValue(vessel_node, "cfg_showlink", 0u); // since 0.9.9.8
        vd.notes           = Lib.ConfigValue(vessel_node, "notes", "").Replace("$NEWLINE", "\n"); // since 0.9.9.1
        vd.group           = Lib.ConfigValue(vessel_node, "group", "NONE"); // since 0.9.9.1
        vd.vmon = new Dictionary<string, vmon_data>();
        if (vessel_node.HasNode("vmon")) // since 0.9.9.5
        {
          foreach(var cfg in vessel_node.GetNode("vmon").GetNodes())
          {
            vmon_data vmon = new vmon_data();
            vmon.message = Lib.ConfigValue(cfg, "message", 0u);
            vd.vmon.Add(cfg.name, vmon);
          }
        }
        vd.scansat_id = new List<uint>();
        foreach(string s in vessel_node.GetValues("scansat_id")) // since 0.9.9.5
        {
          vd.scansat_id.Add(Convert.ToUInt32(s));
        }
        vessels.Add(new Guid(vessel_node.name), vd);
      }
    }

    bodies.Clear();
    if (node.HasNode("bodies"))
    {
      ConfigNode bodies_node = node.GetNode("bodies");
      foreach(ConfigNode body_node in bodies_node.GetNodes())
      {
        body_data bd = new body_data();
        bd.storm_time  = Lib.ConfigValue(body_node, "storm_time", 0.0);
        bd.storm_age   = Lib.ConfigValue(body_node, "storm_age", 0.0);
        bd.storm_state = Lib.ConfigValue(body_node, "storm_state", 0u);
        bd.msg_storm   = Lib.ConfigValue(body_node, "msg_storm", 0u);
        bodies.Add(body_node.name.Replace("___", " "), bd);
      }
    }

    notifications = new notification_data();
    if (node.HasNode("notifications"))
    {
      ConfigNode n_node = node.GetNode("notifications");
      notifications.next_death_report   = Lib.ConfigValue(n_node, "next_death_report", 0u);
      notifications.next_tutorial       = Lib.ConfigValue(n_node, "next_tutorial", 0u);
      notifications.death_counter       = Lib.ConfigValue(n_node, "death_counter", 0u);
      notifications.last_death_counter  = Lib.ConfigValue(n_node, "last_death_counter", 0u);
      notifications.first_belt_crossing = Lib.ConfigValue(n_node, "first_belt_crossing", 0u);
      notifications.first_signal_loss   = Lib.ConfigValue(n_node, "first_signal_loss", 0u);
      notifications.first_malfunction   = Lib.ConfigValue(n_node, "first_malfunction", 0u);
    }


    // versions before 0.9.9.5 used a different structure to remember message sent
    // mute the message system for a few seconds to avoid the user being bombarded by messages
    if (string.CompareOrdinal(version, "0.9.9.5") < 0)
    {
      Message.MuteInternal();
      base.StartCoroutine(CallbackUtil.DelayedCallback(10.0f, Message.UnmuteInternal));
    }


    // versions before 0.9.9.5 didn't have profiles, and didn't use CRP food/oxygen values
    // scale all amounts of them in existing vessels, to not break savegames
    if (string.CompareOrdinal(version, "0.9.9.5") < 0)
    {
      foreach(Vessel v in FlightGlobals.Vessels.FindAll(k => !k.loaded))
      {
        foreach(var part in v.protoVessel.protoPartSnapshots)
        {
          var food = part.resources.Find(k => k.resourceName == "Food");
          if (food != null)
          {
            food.resourceValues.SetValue("amount", (Lib.ConfigValue(food.resourceValues, "amount", 0.0f) * 10.0f).ToString());
            food.resourceValues.SetValue("maxAmount", (Lib.ConfigValue(food.resourceValues, "maxAmount", 0.0f) * 10.0f).ToString());
          }

          var oxygen = part.resources.Find(k => k.resourceName == "Oxygen");
          if (oxygen != null)
          {
            oxygen.resourceValues.SetValue("amount", (Lib.ConfigValue(oxygen.resourceValues, "amount", 0.0f) * 1000.0f).ToString());
            oxygen.resourceValues.SetValue("maxAmount", (Lib.ConfigValue(oxygen.resourceValues, "maxAmount", 0.0f) * 1000.0f).ToString());
          }
        }
      }
    }


    // if an old savegame was imported, log some debug info
    if (version != current_version) Lib.Log("savegame converted from version " + version);
  }