rjw_menstruation/1.4/source/RJW_Menstruation/RJW_Menstruation/HediffComps/HediffComp_PeriodicOvulator.cs

using RimWorld;
using Verse;

namespace RJW_Menstruation
{
    public class CompProperties_PeriodicOvulator : CompProperties_Menstruation
    {
        public FloatRange cycleIntervalDays; // From the start of one cycle to the start of the next

        public CompProperties_PeriodicOvulator()
        {
            compClass = typeof(HediffComp_PeriodicOvulator);
        }
    }

    public class HediffComp_PeriodicOvulator : HediffComp_Menstruation
    {
        public int ticksToNextCycle = -100000;
        public int averageCycleIntervalTicks = -1;

        public new CompProperties_PeriodicOvulator Props;

        protected override void PreInitialize()
        {
            base.PreInitialize();
            Props = (CompProperties_PeriodicOvulator)props;
        }

        protected override void InitializeExtraValues()
        {
            base.InitializeExtraValues();
            if (averageCycleIntervalTicks < 0)
            {
                averageCycleIntervalTicks = (int)(Props.cycleIntervalDays.RandomInRange * GenDate.TicksPerDay / cycleSpeed);
                if (ticksToNextCycle < -50000)
                    ticksToNextCycle = Rand.Range(0, averageCycleIntervalTicks);
                // Make the cutoff halfway into cycle, just to be sure there isn't a double-cycle the first time
                if ((curStage == Stage.Follicular || curStage == Stage.Ovulatory || curStage == Stage.Luteal || curStage == Stage.Bleeding)
                    && (averageCycleIntervalTicks - ticksToNextCycle) / 2 >= GenDate.TicksPerDay * (Props.follicularIntervalDays + Props.lutealIntervalDays) / cycleSpeed)
                    GoNextStage(Stage.Anestrus);
            }
        }

        protected override float RaceCyclesPerYear()
        {
            // Don't bother trying to work seasonal breeding into the math
            // Base it off of the shortest cycle interval of the vagina
            return GenDate.DaysPerYear / (Props.cycleIntervalDays.TrueMin / Configurations.CycleAccelerationDefault);
        }

        protected override void BeforeSimulator()
        {
            base.BeforeSimulator();
            if (ticksToNextCycle > 0) ticksToNextCycle -= TickInterval * Configurations.CycleAcceleration;
        }

        public override void CompExposeData()
        {
            base.CompExposeData();
            if (Scribe.mode == LoadSaveMode.LoadingVars)
            {
                int hoursToNextCycle = -1;
                int averageCycleIntervalHours = -1;
                Scribe_Values.Look(ref hoursToNextCycle, "hoursToNextCycle", hoursToNextCycle, true);
                Scribe_Values.Look(ref averageCycleIntervalHours, "averageCycleIntervalHours", averageCycleIntervalHours, true);
                if (hoursToNextCycle >= 0) ticksToNextCycle = hoursToNextCycle * GenDate.TicksPerHour;
                if (averageCycleIntervalHours >= 0) averageCycleIntervalTicks = averageCycleIntervalHours * GenDate.TicksPerHour;
            }
            Scribe_Values.Look(ref ticksToNextCycle, "ticksToNextCycle", ticksToNextCycle, true);
            Scribe_Values.Look(ref averageCycleIntervalTicks, "averageCycleIntervalTicks", averageCycleIntervalTicks, true);
        }

        protected override int TicksToNextStage()
        {
            if (curStage == Stage.Anestrus && ticksToNextCycle > 0) return ticksToNextCycle / Configurations.CycleAcceleration;
            else return base.TicksToNextStage();
        }

        protected override void LutealAction()
        {
            base.LutealAction();
            if (curStage == Stage.Follicular)
                GoNextStage(Stage.Anestrus);
        }

        protected override void BleedingAction()
        {
            base.BleedingAction();
            if (curStage != Stage.Bleeding)
            {
                estrusflag = false;
                GoNextStage(Stage.Anestrus);
            }
        }

        protected override void PregnantAction()
        {
            base.PregnantAction();
            if (curStage != Stage.Pregnant)
                // Go halfway into the cycle
                ticksToNextCycle = (int)Utility.VariationRange(averageCycleIntervalTicks, cycleVariability) / 2;
        }

        protected override void AnestrusAction()
        {
            if (ticksToNextCycle <= 0 && IsBreedingSeason())
            {
                ticksToNextCycle = (int)Utility.VariationRange(averageCycleIntervalTicks, cycleVariability);
                GoNextStage(Stage.Follicular);
            }
        }

        public override void CopyCycleProperties(HediffComp_Menstruation original)
        {
            base.CopyCycleProperties(original);
            if (original is HediffComp_PeriodicOvulator comp)
                averageCycleIntervalTicks = comp.averageCycleIntervalTicks;
        }
    }
}