コード例 #1
0
        public void Execute(Vessel v, VesselData vd, VesselResources resources)
        {
            // get crew
            List <ProtoCrewMember> crew = Lib.CrewList(v);

            // get resource handler
            ResourceInfo res = resources.GetResource(v, resource);

            // get data from db
            SupplyData sd = v.KerbalismData().Supply(resource);

            // message obey user config
            bool show_msg = resource == "ElectricCharge" ? vd.cfg_ec : vd.cfg_supply;

            // messages are shown only if there is some capacity and the vessel is manned
            // special case: ElectricCharge related messages are shown for unmanned vessels too
            if (res.Capacity > double.Epsilon && (crew.Count > 0 || resource == "ElectricCharge"))
            {
                // manned/probe message variant
                uint variant = crew.Count > 0 ? 0 : 1u;

                // manage messages
                if (res.Level <= double.Epsilon && sd.message < 2)
                {
                    if (empty_message.Length > 0 && show_msg)
                    {
                        Message.Post(Severity.danger, Lib.ExpandMsg(empty_message, v, null, variant));
                    }
                    sd.message = 2;
                }
                else if (res.Level < low_threshold && sd.message < 1)
                {
                    if (low_message.Length > 0 && show_msg)
                    {
                        Message.Post(Severity.warning, Lib.ExpandMsg(low_message, v, null, variant));
                    }
                    sd.message = 1;
                }
                else if (res.Level > low_threshold && sd.message > 0)
                {
                    if (refill_message.Length > 0 && show_msg)
                    {
                        Message.Post(Severity.relax, Lib.ExpandMsg(refill_message, v, null, variant));
                    }
                    sd.message = 0;
                }
            }
        }
コード例 #2
0
        // trigger a random breakdown event
        public static void Breakdown(Vessel v, ProtoCrewMember c)
        {
            // constants
            const double res_penalty = 0.1; // proportion of food lost on 'depressed' and 'wrong_valve'

            // get info
            Rule          supply = supply_rules.Count > 0 ? supply_rules[Lib.RandomInt(supply_rules.Count)] : null;
            resource_info res    = supply != null?ResourceCache.Info(v, supply.resource_name) : null;

            // compile list of events with condition satisfied
            List <KerbalBreakdown> events = new List <KerbalBreakdown>();

            events.Add(KerbalBreakdown.mumbling); //< do nothing, here so there is always something that can happen
            if (Lib.CrewCount(v) > 1)
            {
                events.Add(KerbalBreakdown.argument);               //< do nothing, add some variation to messages
            }
            if (Lib.HasData(v))
            {
                events.Add(KerbalBreakdown.fat_finger);
            }
            if (Reliability.CanMalfunction(v))
            {
                events.Add(KerbalBreakdown.rage);
            }
            if (supply != null && res.amount > double.Epsilon)
            {
                events.Add(KerbalBreakdown.depressed);
                events.Add(KerbalBreakdown.wrong_valve);
            }

            // choose a breakdown event
            KerbalBreakdown breakdown = events[Lib.RandomInt(events.Count)];

            // generate message
            string text    = "";
            string subtext = "";

            switch (breakdown)
            {
            case KerbalBreakdown.mumbling:    text = "$ON_VESSEL$KERBAL has been in space for too long"; subtext = "Mumbling incoherently"; break;

            case KerbalBreakdown.argument:    text = "$ON_VESSEL$KERBAL had an argument with the rest of the crew"; subtext = "Morale is degenerating at an alarming rate"; break;

            case KerbalBreakdown.fat_finger:  text = "$ON_VESSEL$KERBAL is pressing buttons at random on the control panel"; subtext = "Science data has been lost"; break;

            case KerbalBreakdown.rage:        text = "$ON_VESSEL$KERBAL is possessed by a blind rage"; subtext = "A component has been damaged"; break;

            case KerbalBreakdown.depressed:   text = "$ON_VESSEL$KERBAL is not respecting the rationing guidelines"; subtext = supply.resource_name + " has been lost"; break;

            case KerbalBreakdown.wrong_valve: text = "$ON_VESSEL$KERBAL opened the wrong valve"; subtext = supply.resource_name + " has been lost"; break;
            }

            // post message first so this one is shown before malfunction message
            Message.Post(Severity.breakdown, Lib.ExpandMsg(text, v, c), subtext);

            // trigger the event
            switch (breakdown)
            {
            case KerbalBreakdown.mumbling: break; // do nothing

            case KerbalBreakdown.argument: break; // do nothing

            case KerbalBreakdown.fat_finger: Lib.RemoveData(v); break;

            case KerbalBreakdown.rage: Reliability.CauseMalfunction(v); break;

            case KerbalBreakdown.depressed:
            case KerbalBreakdown.wrong_valve: res.Consume(res.amount * res_penalty); break;
            }

            // remove reputation
            if (HighLogic.CurrentGame.Mode == Game.Modes.CAREER)
            {
                Reputation.Instance.AddReputation(-Settings.BreakdownReputationPenalty, TransactionReasons.Any);
            }
        }
コード例 #3
0
        public void Execute(Vessel v, vessel_info vi, vessel_resources resources, double elapsed_s)
        {
            // store list of crew to kill
            List <ProtoCrewMember> deferred_kills = new List <ProtoCrewMember>();

            // get input resource handler
            resource_info res = input.Length > 0 ? resources.Info(v, input) : null;

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

            // get product of all environment modifiers
            double k = Modifiers.evaluate(v, vi, resources, modifiers);

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

                // skip rescue kerbals
                if (kd.rescue)
                {
                    continue;
                }

                // skip disabled kerbals
                if (kd.disabled)
                {
                    continue;
                }

                // get kerbal property data from db
                RuleData rd = kd.Rule(name);

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

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

                    // consume time
                    rd.time_since -= step * interval;

                    // remember if a meal is consumed/produced in this simulation step
                    res.meal_happened |= step > 0.99;
                    if (output.Length > 0)
                    {
                        ResourceCache.Info(v, output).meal_happened |= step > 0.99;
                    }
                }

                // if continuous, or if one or more intervals elapsed
                if (step > double.Epsilon)
                {
                    // if there is a resource specified
                    if (res != null && rate > double.Epsilon)
                    {
                        // determine amount of resource to consume
                        double required = rate                                    // consumption rate
                                          * k                                     // product of environment modifiers
                                          * step;                                 // seconds elapsed or number of steps

                        // if there is no output
                        if (output.Length == 0)
                        {
                            // simply consume (that is faster)
                            res.Consume(required);
                        }
                        // if there is an output and output_only is false
                        else if (!output_only)
                        {
                            // transform input into output resource
                            // - rules always dump excess overboard (because it is waste)
                            resource_recipe recipe = new resource_recipe();
                            recipe.Input(input, required);
                            recipe.Output(output, required * ratio, true);
                            resources.Transform(recipe);
                        }
                        // if output_only then do not consume input resource
                        else
                        {
                            // simply produce (that is faster)
                            resources.Produce(v, output, required);
                        }
                    }

                    // degenerate:
                    // - if the environment modifier is not telling to reset (by being zero)
                    // - if the input threshold is reached if used
                    // - if this rule is resource-less, or if there was not enough resource in the vessel
                    if (input_threshold >= double.Epsilon)
                    {
                        if (res.amount >= double.Epsilon && res.capacity >= double.Epsilon)
                        {
                            trigger = res.amount / res.capacity >= input_threshold;
                        }
                        else
                        {
                            trigger = false;
                        }
                    }
                    else
                    {
                        trigger = input.Length == 0 || res.amount <= double.Epsilon;
                    }

                    if (k > 0.0 && trigger)
                    {
                        rd.problem += degeneration                                   // degeneration rate per-second or per-interval
                                      * k                                            // product of environment modifiers
                                      * step                                         // seconds elapsed or by number of steps
                                      * Variance(c, variance);                       // kerbal-specific variance
                    }
                    // else slowly recover
                    else
                    {
                        rd.problem *= 1.0 / (1.0 + Math.Max(interval, 1.0) * step * 0.002);
                        rd.problem  = Math.Max(rd.problem, 0.0);
                    }
                }

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

                    if (breakdown)
                    {
                        // trigger breakdown event
                        Misc.Breakdown(v, c);

                        // move back between warning and danger level
                        rd.problem = (warning_threshold + danger_threshold) * 0.5;

                        // make sure next danger messagen is shown
                        rd.message = 1;
                    }
                    else
                    {
                        deferred_kills.Add(c);
                    }
                }
                // show messages
                else if (rd.problem >= danger_threshold && rd.message < 2)
                {
                    if (danger_message.Length > 0)
                    {
                        Message.Post(Severity.danger, Lib.ExpandMsg(danger_message, v, c, variant));
                    }
                    rd.message = 2;
                }
                else if (rd.problem >= warning_threshold && rd.message < 1)
                {
                    if (warning_message.Length > 0)
                    {
                        Message.Post(Severity.warning, Lib.ExpandMsg(warning_message, v, c, variant));
                    }
                    rd.message = 1;
                }
                else if (rd.problem < warning_threshold && rd.message > 0)
                {
                    if (relax_message.Length > 0)
                    {
                        Message.Post(Severity.relax, Lib.ExpandMsg(relax_message, v, c, variant));
                    }
                    rd.message = 0;
                }
            }

            // execute the deferred kills
            foreach (ProtoCrewMember c in deferred_kills)
            {
                Misc.Kill(v, c);
            }
        }
コード例 #4
0
        // trigger a random breakdown event
        public static void Breakdown(Vessel v, ProtoCrewMember c)
        {
            // constants
            const double res_penalty = 0.1;                    // proportion of food lost on 'depressed' and 'wrong_valve'

            // get a supply resource at random
            Resource_info res = null;

            if (Profile.supplies.Count > 0)
            {
                Supply supply = Profile.supplies[Lib.RandomInt(Profile.supplies.Count)];
                res = ResourceCache.Info(v, supply.resource);
            }

            // compile list of events with condition satisfied
            List <KerbalBreakdown> events = new List <KerbalBreakdown>
            {
                KerbalBreakdown.mumbling                 //< do nothing, here so there is always something that can happen
            };

            if (Lib.HasData(v))
            {
                events.Add(KerbalBreakdown.fat_finger);
            }
            if (Reliability.CanMalfunction(v))
            {
                events.Add(KerbalBreakdown.rage);
            }
            if (res != null && res.amount > double.Epsilon)
            {
                events.Add(KerbalBreakdown.wrong_valve);
            }

            // choose a breakdown event
            KerbalBreakdown breakdown = events[Lib.RandomInt(events.Count)];

            // generate message
            string text    = "";
            string subtext = "";

            switch (breakdown)
            {
            case KerbalBreakdown.mumbling:
                text    = "$ON_VESSEL$KERBAL has been in space for too long";
                subtext = "Mumbling incoherently";
                break;

            case KerbalBreakdown.fat_finger:
                text    = "$ON_VESSEL$KERBAL is pressing buttons at random on the control panel";
                subtext = "Science data has been lost";
                break;

            case KerbalBreakdown.rage:
                text    = "$ON_VESSEL$KERBAL is possessed by a blind rage";
                subtext = "A component has been damaged";
                break;

            case KerbalBreakdown.wrong_valve:
                text    = "$ON_VESSEL$KERBAL opened the wrong valve";
                subtext = res.resource_name + " has been lost";
                break;
            }

            // post message first so this one is shown before malfunction message
            Message.Post(Severity.breakdown, Lib.ExpandMsg(text, v, c), subtext);

            // trigger the event
            switch (breakdown)
            {
            case KerbalBreakdown.mumbling:
                break;                         // do nothing

            case KerbalBreakdown.fat_finger:
                Lib.RemoveData(v);
                break;

            case KerbalBreakdown.rage:
                Reliability.CauseMalfunction(v);
                break;

            case KerbalBreakdown.wrong_valve:
                res.Consume(res.amount * res_penalty);
                break;
            }

            // remove reputation
            if (HighLogic.CurrentGame.Mode == Game.Modes.CAREER)
            {
                Reputation.Instance.AddReputation(-PreferencesBasic.Instance.breakdownPenalty, TransactionReasons.Any);
            }
        }
コード例 #5
0
        public void Execute(Vessel v, VesselData vd, VesselResources resources, double elapsed_s)
        {
            // store list of crew to kill
            List <ProtoCrewMember> deferred_kills = new List <ProtoCrewMember>();

            // get input resource handler
            ResourceInfo res = input.Length > 0 ? resources.GetResource(v, input) : null;

            // determine message variant
            uint variant = vd.EnvTemperature < Settings.LifeSupportSurvivalTemperature ? 0 : 1u;

            // get product of all environment modifiers
            double k = Modifiers.Evaluate(v, vd, resources, modifiers);

            bool lifetime_enabled = PreferencesRadiation.Instance.lifetime;

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

                // skip rescue kerbals
                if (kd.rescue)
                {
                    continue;
                }

                // skip disabled kerbals
                if (kd.disabled)
                {
                    continue;
                }

                // get kerbal property data from db
                RuleData rd = kd.Rule(name);
                rd.lifetime = lifetime_enabled && lifetime;

                // influence consumption by elapsed time
                double step = elapsed_s;

                // if interval-based
                if (interval > 0.0)
                {
                    // accumulate time
                    rd.time_since += elapsed_s;

                    // determine number of intervals that has passed (can be 2 or more if elapsed_s > interval * 2)
                    step = Math.Floor(rd.time_since / interval);

                    // consume time
                    rd.time_since -= step * interval;
                }

                // if there is a resource specified
                if (res != null && rate > double.Epsilon)
                {
                    // get rate including per-kerbal variance
                    double resRate =
                        rate                                                        // consumption rate
                        * Variance(name, c, individuality)                          // kerbal-specific variance
                        * k;                                                        // product of environment modifiers

                    // determine amount of resource to consume

                    double required = resRate * step;                           // seconds elapsed or interval amount

                    // remember if a meal is consumed/produced in this simulation step
                    if (interval > 0.0)
                    {
                        double ratePerStep = resRate / interval;
                        res.UpdateIntervalRule(-required, -ratePerStep, name);
                        if (output.Length > 0)
                        {
                            ResourceCache.GetResource(v, output).UpdateIntervalRule(required * ratio, ratePerStep * ratio, name);
                        }
                    }

                    // if continuous, or if one or more intervals elapsed
                    if (step > 0.0)
                    {
                        // if there is no output
                        if (output.Length == 0)
                        {
                            // simply consume (that is faster)
                            res.Consume(required, name);
                        }
                        // if there is an output
                        else
                        {
                            // transform input into output resource
                            // - rules always dump excess overboard (because it is waste)
                            ResourceRecipe recipe = new ResourceRecipe(name);
                            recipe.AddInput(input, required);
                            recipe.AddOutput(output, required * ratio, true);
                            resources.AddRecipe(recipe);
                        }
                    }
                }

                // if continuous, or if one or more intervals elapsed
                if (step > 0.0)
                {
                    // degenerate:
                    // - if the environment modifier is not telling to reset (by being zero)
                    // - if this rule is resource-less, or if there was not enough resource in the vessel
                    if (k > 0.0 && (input.Length == 0 || res.Amount <= double.Epsilon))
                    {
                        rd.problem += degeneration                                   // degeneration rate per-second or per-interval
                                      * k                                            // product of environment modifiers
                                      * step                                         // seconds elapsed or by number of steps
                                      * Variance(name, c, variance);                 // kerbal-specific variance
                    }
                    // else slowly recover
                    else
                    {
                        rd.problem *= 1.0 / (1.0 + Math.Max(interval, 1.0) * step * 0.002);
                    }
                }

                bool do_breakdown = false;

                if (breakdown)
                {
                    // don't do breakdowns and don't show stress message if disabled
                    if (!PreferencesComfort.Instance.stressBreakdowns)
                    {
                        return;
                    }

                    // stress level
                    double breakdown_probability = rd.problem / warning_threshold;
                    breakdown_probability = Lib.Clamp(breakdown_probability, 0.0, 1.0);

                    // use the stupidity of a kerbal.
                    // however, nobody is perfect - not even a kerbal with a stupidity of 0.
                    breakdown_probability *= c.stupidity * 0.6 + 0.4;

                    // apply the weekly error rate
                    breakdown_probability *= PreferencesComfort.Instance.stressBreakdownRate;

                    // now we have the probability for one failure per week, based on the
                    // individual stupidity and stress level of the kerbal.

                    breakdown_probability = (breakdown_probability * elapsed_s) / (Lib.DaysInYear * Lib.HoursInDay * 3600);
                    if (breakdown_probability > Lib.RandomDouble())
                    {
                        do_breakdown = true;

                        // we're stressed out and just made a major mistake, this further increases the stress level...
                        rd.problem += warning_threshold * 0.05;                         // add 5% of the warning treshold to current stress level
                    }
                }

                // kill kerbal if necessary
                if (rd.problem >= fatal_threshold)
                {
#if DEBUG || DEVBUILD
                    Lib.Log("Rule " + name + " kills " + c.name + " at " + rd.problem + " " + degeneration + "/" + k + "/" + step + "/" + Variance(name, c, variance));
#endif
                    if (fatal_message.Length > 0)
                    {
                        Message.Post(breakdown ? Severity.breakdown : Severity.fatality, Lib.ExpandMsg(fatal_message, v, c, variant));
                    }

                    if (breakdown)
                    {
                        do_breakdown = true;

                        // move back between warning and danger level
                        rd.problem = (warning_threshold + danger_threshold) * 0.5;

                        // make sure next danger message is shown
                        rd.message = 1;
                    }
                    else
                    {
                        deferred_kills.Add(c);
                    }
                }
                // show messages
                else if (rd.problem >= danger_threshold && rd.message < 2)
                {
                    if (danger_message.Length > 0)
                    {
                        Message.Post(Severity.danger, Lib.ExpandMsg(danger_message, v, c, variant));
                    }
                    rd.message = 2;
                }
                else if (rd.problem >= warning_threshold && rd.message < 1)
                {
                    if (warning_message.Length > 0)
                    {
                        Message.Post(Severity.warning, Lib.ExpandMsg(warning_message, v, c, variant));
                    }
                    rd.message = 1;
                }
                else if (rd.problem < warning_threshold && rd.message > 0)
                {
                    if (relax_message.Length > 0)
                    {
                        Message.Post(Severity.relax, Lib.ExpandMsg(relax_message, v, c, variant));
                    }
                    rd.message = 0;
                }

                if (do_breakdown)
                {
                    // trigger breakdown event
                    Misc.Breakdown(v, c);
                }
            }

            // execute the deferred kills
            foreach (ProtoCrewMember c in deferred_kills)
            {
                Misc.Kill(v, c);
            }
        }
コード例 #6
0
ファイル: Rule.cs プロジェクト: yadenisyur/Kerbalism
        public void Execute(Vessel v, Vessel_info vi, Vessel_resources resources, double elapsed_s)
        {
            // store list of crew to kill
            List <ProtoCrewMember> deferred_kills = new List <ProtoCrewMember>();

            // get input resource handler
            Resource_info res = input.Length > 0 ? resources.Info(v, input) : null;

            // determine message variant
            uint variant = vi.temperature < PreferencesLifeSupport.Instance.survivalTemperature ? 0 : 1u;

            // get product of all environment modifiers
            double k = Modifiers.Evaluate(v, vi, resources, modifiers);

            bool lifetime_enabled = PreferencesBasic.Instance.lifetime;

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

                // skip rescue kerbals
                if (kd.rescue)
                {
                    continue;
                }

                // skip disabled kerbals
                if (kd.disabled)
                {
                    continue;
                }

                // get kerbal property data from db
                RuleData rd = kd.Rule(name);
                rd.lifetime = lifetime_enabled && lifetime;

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

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

                    // consume time
                    rd.time_since -= step * interval;

                    // remember if a meal is consumed/produced in this simulation step
                    if (step > 0.99)
                    {
                        res.SetMealHappened();
                    }
                    if (output.Length > 0 && step > 0.99)
                    {
                        ResourceCache.Info(v, output).SetMealHappened();
                    }
                }

                // if continuous, or if one or more intervals elapsed
                if (step > double.Epsilon)
                {
                    double r = rate * Variance(name, c, individuality);                      // kerbal-specific variance

                    // if there is a resource specified
                    if (res != null && r > double.Epsilon)
                    {
                        // determine amount of resource to consume
                        double required = r                                   // consumption rate
                                          * k                                 // product of environment modifiers
                                          * step;                             // seconds elapsed or number of steps

                        // if there is no output
                        if (output.Length == 0)
                        {
                            // simply consume (that is faster)
                            res.Consume(required);
                        }
                        // if there is an output and monitor is false
                        else if (!monitor)
                        {
                            // transform input into output resource
                            // - rules always dump excess overboard (because it is waste)
                            Resource_recipe recipe = new Resource_recipe((Part)null);                              // kerbals are not associated with a part
                            recipe.Input(input, required);
                            recipe.Output(output, required * ratio, true);
                            resources.Transform(recipe);
                        }
                        // if monitor then do not consume input resource and only produce output if resource percentage + monitor_offset is < 100%
                        else if ((res.amount / res.capacity) + monitor_offset < 1.0)
                        {
                            // simply produce (that is faster)
                            resources.Produce(v, output, required * ratio);
                        }
                    }

                    // degenerate:
                    // - if the environment modifier is not telling to reset (by being zero)
                    // - if the input threshold is reached if used
                    // - if this rule is resource-less, or if there was not enough resource in the vessel
                    if (input_threshold >= double.Epsilon)
                    {
                        if (res.amount >= double.Epsilon && res.capacity >= double.Epsilon)
                        {
                            trigger = (res.amount / res.capacity) + monitor_offset >= input_threshold;
                        }
                        else
                        {
                            trigger = false;
                        }
                    }
                    else
                    {
                        trigger = input.Length == 0 || res.amount <= double.Epsilon;
                    }

                    if (k > 0.0 && trigger)
                    {
                        rd.problem += degeneration                                   // degeneration rate per-second or per-interval
                                      * k                                            // product of environment modifiers
                                      * step                                         // seconds elapsed or by number of steps
                                      * Variance(name, c, variance);                 // kerbal-specific variance
                    }
                    // else slowly recover
                    else
                    {
                        rd.problem *= 1.0 / (1.0 + Math.Max(interval, 1.0) * step * 0.002);
                    }
                }

                bool do_breakdown = false;

                if (breakdown && PreferencesBasic.Instance.stressBreakdowns)
                {
                    // stress level
                    double breakdown_probability = rd.problem / warning_threshold;
                    breakdown_probability = Lib.Clamp(breakdown_probability, 0.0, 1.0);

                    // use the stupidity of a kerbal.
                    // however, nobody is perfect - not even a kerbal with a stupidity of 0.
                    breakdown_probability *= c.stupidity * 0.6 + 0.4;

                    // apply the weekly error rate
                    breakdown_probability *= PreferencesBasic.Instance.stressBreakdownRate;

                    // now we have the probability for one failure per week, based on the
                    // individual stupidity and stress level of the kerbal.

                    breakdown_probability = (breakdown_probability * elapsed_s) / (Lib.DaysInYear() * Lib.HoursInDay() * 3600);
                    if (breakdown_probability > Lib.RandomDouble())
                    {
                        do_breakdown = true;

                        // we're stressed out and just made a major mistake, this further increases the stress level...
                        rd.problem += warning_threshold * 0.05;                         // add 5% of the warning treshold to current stress level
                    }
                }

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

                    if (breakdown)
                    {
                        do_breakdown = true;

                        // move back between warning and danger level
                        rd.problem = (warning_threshold + danger_threshold) * 0.5;

                        // make sure next danger message is shown
                        rd.message = 1;
                    }
                    else
                    {
                        deferred_kills.Add(c);
                    }
                }
                // show messages
                else if (rd.problem >= danger_threshold && rd.message < 2)
                {
                    if (danger_message.Length > 0)
                    {
                        Message.Post(Severity.danger, Lib.ExpandMsg(danger_message, v, c, variant));
                    }
                    rd.message = 2;
                }
                else if (rd.problem >= warning_threshold && rd.message < 1)
                {
                    if (warning_message.Length > 0)
                    {
                        Message.Post(Severity.warning, Lib.ExpandMsg(warning_message, v, c, variant));
                    }
                    rd.message = 1;
                }
                else if (rd.problem < warning_threshold && rd.message > 0)
                {
                    if (relax_message.Length > 0)
                    {
                        Message.Post(Severity.relax, Lib.ExpandMsg(relax_message, v, c, variant));
                    }
                    rd.message = 0;
                }

                if (do_breakdown)
                {
                    // trigger breakdown event
                    Misc.Breakdown(v, c);
                }
            }

            // execute the deferred kills
            foreach (ProtoCrewMember c in deferred_kills)
            {
                Misc.Kill(v, c);
            }
        }
コード例 #7
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;
          }
        }
      }
    }
  }