private static double calculateBasic(AvailablePart part)
        {
            Double     mass                  = PartConfigLoader.GetProperty(part, PartConfigLoader.MASS);
            Double     cost                  = part.cost;
            Double     crashTolerance        = PartConfigLoader.GetProperty(part, PartConfigLoader.CRASH_TOLERANCE);
            Double     maxTemp               = PartConfigLoader.GetProperty(part, PartConfigLoader.TEMP);
            Double     capacity              = PartConfigLoader.GetProperty(part, PartConfigLoader.CREW_CAPACITY);
            ConfigNode electricResource      = PartConfigLoader.GetResource(part, PartConfigLoader.ELECTRIC_CHARGE);
            Double     electricCharge        = PartConfigLoader.GetProperty(electricResource, PartConfigLoader.AMOUNT);
            ConfigNode monopropelantResource = PartConfigLoader.GetResource(part, PartConfigLoader.MONOPROPELANT);
            Double     monopropelant         = monopropelantResource != null?PartConfigLoader.GetProperty(monopropelantResource, PartConfigLoader.AMOUNT) : 0;

            double sum = cost * COST_FACTOR;

            sum += MASS_BASE - mass * MASS_FACTOR;
            sum += crashTolerance * CRASH_TOLERANCE_FACTOR;
            sum += maxTemp * TEMP_FACTOR;
            sum += capacity * CREW_CAPACITY_FACTOR;
            sum += electricCharge * ELECTRIC_CHARGE_FACTOR;
            sum += monopropelant * MONOPROPELANT_FACTOR;

            Log.log("Basic: " + sum);

            return(sum);
        }
        private static double calculateXenon(AvailablePart part)
        {
            ConfigNode xenonResource = PartConfigLoader.GetResource(part, PartConfigLoader.XENON);

            double xenon = xenonResource != null?PartConfigLoader.GetProperty(xenonResource, PartConfigLoader.AMOUNT) : 0;

            return(xenonResource != null ? XENON_BASE + xenon * XENON_FACTOR : 0);
        }
        private static double calculateOre(AvailablePart part)
        {
            ConfigNode oreResource = PartConfigLoader.GetResource(part, PartConfigLoader.ORE);

            double ore = oreResource != null?PartConfigLoader.GetProperty(oreResource, PartConfigLoader.MAX_AMOUNT) : 0;

            return(oreResource != null ? ORE_BASE + ore * ORE_FACTOR : 0);
        }
        private static double calculateMonopropelant(AvailablePart part)
        {
            ConfigNode monopropelantResource = PartConfigLoader.GetResource(part, PartConfigLoader.MONOPROPELANT);

            double monopropelant = monopropelantResource != null?PartConfigLoader.GetProperty(monopropelantResource, PartConfigLoader.AMOUNT) : 0;

            return(monopropelant * MONOPROPELANT_FACTOR);
        }
        private static double calculateLiquidFuel(AvailablePart part)
        {
            ConfigNode liquidFuelResource = PartConfigLoader.GetResource(part, PartConfigLoader.LIQUID_FUEL);
            ConfigNode oxiderResource     = PartConfigLoader.GetResource(part, PartConfigLoader.OXIDER);

            double liquidFuel = liquidFuelResource != null?PartConfigLoader.GetProperty(liquidFuelResource, PartConfigLoader.AMOUNT) : 0;

            double oxider = oxiderResource != null?PartConfigLoader.GetProperty(oxiderResource, PartConfigLoader.AMOUNT) : 0;

            return(liquidFuel * LIQUID_FUEL_FACTOR + oxider * OXIDER_FACTOR);
        }
        private static double calculateScienceContainerModule(AvailablePart part)
        {
            ConfigNode module = PartConfigLoader.GetScienceContainerModule(part);

            if (module == null)
            {
                return(0);
            }
            double sum = SCIENCE_CONTAINER_FACTOR * PartConfigLoader.GetProperty(module, PartConfigLoader.STORAGE_RANGE);

            Log.log("Science container: " + sum);
            return(sum);
        }
        private static double calculateSASModule(AvailablePart part)
        {
            ConfigNode module = PartConfigLoader.GetSASModule(part);

            if (module == null)
            {
                return(0);
            }
            double sum = SAS_LEVEL_FACTOR * PartConfigLoader.GetProperty(module, PartConfigLoader.SAS_LEVEL);

            Log.log("SAS: " + sum);
            return(sum);
        }
        private static double calculateBasic(AvailablePart part)
        {
            Double mass           = PartConfigLoader.GetProperty(part, PartConfigLoader.MASS);
            Double cost           = part.cost;
            Double crashTolerance = PartConfigLoader.GetProperty(part, PartConfigLoader.CRASH_TOLERANCE);
            Double maxTemp        = PartConfigLoader.GetProperty(part, PartConfigLoader.TEMP);

            double sum = cost * COST_FACTOR;

            sum += MASS_BASE - mass * MASS_FACTOR;
            sum += crashTolerance * CRASH_TOLERANCE_FACTOR;
            sum += maxTemp * TEMP_FACTOR;

            Log.log("Basic: " + sum);

            return(sum);
        }
        private static double calculateReactionWheelModule(AvailablePart part)
        {
            ConfigNode module = PartConfigLoader.GetReactionWheelModule(part);

            if (module == null)
            {
                return(0);
            }

            Double     torke          = PartConfigLoader.GetProperty(module, PartConfigLoader.TORKE);
            ConfigNode electric       = PartConfigLoader.GetResource(module, PartConfigLoader.ELECTRIC_CHARGE);
            Double     electricCharge = electric == null ? 0 : PartConfigLoader.GetProperty(electric, PartConfigLoader.RATE);

            Double sum = TORKE_FACTOR * torke;

            sum += electricCharge > 0 ? CHARGE_RATE_REACTION_WHEEL_BASE - CHARGE_RATE_REACTION_WHEEL_FACTOR * electricCharge : 0;
            Log.log("ReactionWheel: " + sum);
            return(sum);
        }
        private static double calculateCommandModule(AvailablePart part)
        {
            ConfigNode commandModule = PartConfigLoader.GetCommandModule(part);

            Log.log("Command Module: " + commandModule);
            if (commandModule == null)
            {
                return(0);
            }
            Double minCrew = PartConfigLoader.GetProperty(commandModule, PartConfigLoader.MINUMUN_CREW);

            Log.log("Minimun Crew: " + minCrew);
            bool hasHibernation = PartConfigLoader.GetBooleanProperty(commandModule, PartConfigLoader.HAS_HIBERNATION);

            Log.log("Has Hibernation: " + hasHibernation);
            bool hasHibernationMultiplier = PartConfigLoader.HasProperty(commandModule, PartConfigLoader.HIBERNATION_MULTIPLIER);

            Log.log("Has Hibernation Multiplier: " + hasHibernationMultiplier);
            ConfigNode chargeResource = PartConfigLoader.GetResource(commandModule, PartConfigLoader.ELECTRIC_CHARGE);
            Double     chargeRate     = chargeResource != null?PartConfigLoader.GetProperty(chargeResource, PartConfigLoader.RATE) : 1;

            double sum = 0;

            if (minCrew < 1)
            {
                sum += MIN_CREW_COMMAND_BASE;
            }

            if (!hasHibernation)
            {
                return(sum);
            }

            sum += CHARGE_RATE_COMMAND_BASE - CHARGE_RATE_COMMAND_FACTOR * chargeRate;

            double hibernationMultiplier = hasHibernationMultiplier ? PartConfigLoader.GetProperty(commandModule, PartConfigLoader.HIBERNATION_MULTIPLIER) : 0.5;

            sum += HIBERNATION_COMMAND_BASE - HIBERNATION_COMMAND_FACTOR * hibernationMultiplier;

            Log.log("Command: " + sum);
            return(sum);
        }
        private static double calculateProbeControlPointModule(AvailablePart part)
        {
            ConfigNode module = PartConfigLoader.GetProbeControlPointModule(part);

            if (module == null)
            {
                return(0);
            }
            double sum = PROBE_CONTROL_POINT_MODULE_BASE - PROBE_CONTROL_POINT_FACTOR * PartConfigLoader.GetProperty(module, PartConfigLoader.MINUMUN_CREW);

            Log.log("Probe control point: " + sum);
            return(sum);
        }