Esempio n. 1
0
        // specifics support
        public Specifics Specs()
        {
            Specifics specs = new Specifics();

            specs.add("Havest size", Lib.HumanReadableAmount(crop_size, " " + crop_resource));
            specs.add("Harvest time", Lib.HumanReadableDuration(1.0 / crop_rate));
            specs.add("Lighting tolerance", Lib.HumanReadableFlux(light_tolerance));
            if (pressure_tolerance > double.Epsilon)
            {
                specs.add("Pressure tolerance", Lib.HumanReadablePressure(Sim.PressureAtSeaLevel() * pressure_tolerance));
            }
            if (radiation_tolerance > double.Epsilon)
            {
                specs.add("Radiation tolerance", Lib.HumanReadableRadiation(radiation_tolerance));
            }
            specs.add("Lamps EC rate", Lib.HumanReadableRate(ec_rate));
            specs.add(string.Empty);
            specs.add("<color=#00ffff>Required resources</color>");
            foreach (ModuleResource input in resHandler.inputResources)
            {
                specs.add(input.name, Lib.BuildString("<color=#ff0000>", Lib.HumanReadableRate(input.rate), "</color>"));
            }
            specs.add(string.Empty);
            specs.add("<color=#00ffff>By-products</color>");
            foreach (ModuleResource output in resHandler.outputResources)
            {
                specs.add(output.name, Lib.BuildString("<color=#00ff00>", Lib.HumanReadableRate(output.rate), "</color>"));
            }
            return(specs);
        }
Esempio n. 2
0
        // specifics support
        public Specifics Specs()
        {
            Specifics specs = new Specifics();

            specs.Add("Harvest size", Lib.HumanReadableAmount(crop_size, " " + crop_resource));
            specs.Add("Harvest time", Lib.HumanReadableDuration(1.0 / crop_rate));
            specs.Add("Lighting tolerance", Lib.HumanReadableFlux(light_tolerance));
            if (pressure_tolerance > double.Epsilon)
            {
                specs.Add("Pressure tolerance", Lib.HumanReadablePressure(Sim.PressureAtSeaLevel() * pressure_tolerance));
            }
            if (radiation_tolerance > double.Epsilon)
            {
                specs.Add("Radiation tolerance", Lib.HumanReadableRadiation(radiation_tolerance));
            }
            specs.Add("Lamps EC rate", Lib.HumanReadableRate(ec_rate));
            specs.Add(string.Empty);
            specs.Add("<color=#00ffff>Required resources</color>");

            // do we have combined WasteAtmosphere and CO2
            Set_WACO2();
            bool dis_WACO2 = false;

            foreach (ModuleResource input in resHandler.inputResources)
            {
                // combine WasteAtmosphere and CO2 if both exist
                if (WACO2 && (input.name == "WasteAtmosphere" || input.name == "CarbonDioxide"))
                {
                    if (dis_WACO2)
                    {
                        continue;
                    }
                    ModuleResource sec;
                    if (input.name == "WasteAtmosphere")
                    {
                        sec = resHandler.inputResources.Find(x => x.name.Contains("CarbonDioxide"));
                    }
                    else
                    {
                        sec = resHandler.inputResources.Find(x => x.name.Contains("WasteAtmosphere"));
                    }
                    specs.Add("CarbonDioxide", Lib.BuildString("<color=#ffaa00>", Lib.HumanReadableRate(input.rate + sec.rate), "</color>"));
                    specs.Add("Crops can also use the CO2 in the atmosphere without a scrubber.");
                    dis_WACO2 = true;
                }
                else
                {
                    specs.Add(input.name, Lib.BuildString("<color=#ffaa00>", Lib.HumanReadableRate(input.rate), "</color>"));
                }
            }
            specs.Add(string.Empty);
            specs.Add("<color=#00ffff>By-products</color>");
            foreach (ModuleResource output in resHandler.outputResources)
            {
                specs.Add(output.name, Lib.BuildString("<color=#00ff00>", Lib.HumanReadableRate(output.rate), "</color>"));
            }
            return(specs);
        }