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tbd-station-14/Content.Server/Metabolism/MetabolismComponent.cs
Vera Aguilera Puerto c8ba345cdc ECS Atmos Part 3: Removes AtmosHelpers, add many methods to AtmosphereSystem. (#4285) 
* ECS Atmos Part 3: Removes AtmosHelpers, add many methods to AtmosphereSystem

* Adds API for adding/removing active tiles.

* Adds API for FixVacuum.

* Adds API for UpdateAdjacent.

* Adds API for IsTileAirBlocked.

* Re-organize hotspot code

* Adds API for IsTileSpace.

* RemoveGasCommand uses AtmosphereSystem

* AddGasCommand uses AtmosphereSystem.

* SetTemperatureCommand uses AtmosphereSystem.

* Adds API for IsSimulatedGrid.

* GasLeak uses AtmosphereSystem.

* Makes Spark method in GasLeak ALSO use AtmosphereSystem.

* GasPassiveVentSystem uses AtmosphereSystem.

* GasMinerSystem uses AtmosphereSystem.

* GasOutletInjectorSystem uses AtmosphereSystem.

* GasVentPumpSystem uses AtmosphereSystem.

* GasDualPortVentPumpSystem uses AtmosphereSystem.

* GasVolumePumpSystem uses AtmosphereSystem.

* GasAnalyzerComponent uses AtmosphereSystem.

* Add API for GetAdjacentTileMixtures.

* GasVentScrubberSystem uses AtmosphereSystem.

* AirtightComponent uses AtmosphereSystem.

* GasLeaks's TryFindRandomTile uses AtmosphereSystem.

* Adds API for GetAdjacentTiles.

* FirelockComponent's IsHoldingFire uses AtmosphereSystem.

* Adds API for GetAllTileMixtures.

* DeleteGasCommand uses AtmosphereSystem.

* FixGridAtmos uses AtmosphereSystem.

* FillGasCommand uses AtmosphereSystem.

* SetAtmosTemperatureCommand uses AtmosphereSystem.
2021-07-19 12:07:37 +02:00

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using System;
using System.Collections.Generic;
using System.Linq;
using Content.Server.Alert;
using Content.Server.Atmos;
using Content.Server.Atmos.EntitySystems;
using Content.Server.Body.Behavior;
using Content.Server.Body.Circulatory;
using Content.Server.Temperature.Components;
using Content.Shared.ActionBlocker;
using Content.Shared.Alert;
using Content.Shared.Atmos;
using Content.Shared.Body.Components;
using Content.Shared.Damage;
using Content.Shared.Damage.Components;
using Content.Shared.Metabolism.Events;
using Content.Shared.MobState;
using Content.Shared.Notification.Managers;
using Robust.Shared.GameObjects;
using Robust.Shared.Localization;
using Robust.Shared.Serialization.Manager.Attributes;
using Robust.Shared.ViewVariables;
namespace Content.Server.Metabolism
{
[RegisterComponent]
public class MetabolismComponent : Component
{
[ComponentDependency] private readonly SharedBodyComponent? _body = default!;
public override string Name => "Metabolism";
private float _accumulatedFrameTime;
private bool _isShivering;
private bool _isSweating;
[ViewVariables(VVAccess.ReadWrite)] [DataField("suffocationDamage")] private int _suffocationDamage = 1;
[ViewVariables(VVAccess.ReadWrite)] [DataField("suffocationDamageRecovery")] private int _suffocationDamageRecovery = 1;
[ViewVariables] [DataField("needsGases")] public Dictionary<Gas, float> NeedsGases { get; set; } = new();
[ViewVariables] [DataField("producesGases")] public Dictionary<Gas, float> ProducesGases { get; set; } = new();
[ViewVariables] [DataField("deficitGases")] public Dictionary<Gas, float> DeficitGases { get; set; } = new();
/// <summary>
/// Heat generated due to metabolism. It's generated via metabolism
/// </summary>
[ViewVariables]
[DataField("metabolismHeat")]
public float MetabolismHeat { get; private set; }
/// <summary>
/// Heat output via radiation.
/// </summary>
[ViewVariables]
[DataField("radiatedHeat")]
public float RadiatedHeat { get; private set; }
/// <summary>
/// Maximum heat regulated via sweat
/// </summary>
[ViewVariables]
[DataField("sweatHeatRegulation")]
public float SweatHeatRegulation { get; private set; }
/// <summary>
/// Maximum heat regulated via shivering
/// </summary>
[ViewVariables]
[DataField("shiveringHeatRegulation")]
public float ShiveringHeatRegulation { get; private set; }
/// <summary>
/// Amount of heat regulation that represents thermal regulation processes not
/// explicitly coded.
/// </summary>
[DataField("implicitHeatRegulation")]
public float ImplicitHeatRegulation { get; private set; }
/// <summary>
/// Normal body temperature
/// </summary>
[ViewVariables]
[DataField("normalBodyTemperature")]
public float NormalBodyTemperature { get; private set; }
/// <summary>
/// Deviation from normal temperature for body to start thermal regulation
/// </summary>
[DataField("thermalRegulationTemperatureThreshold")]
public float ThermalRegulationTemperatureThreshold { get; private set; }
[ViewVariables] public bool Suffocating { get; private set; }
private Dictionary<Gas, float> NeedsAndDeficit(float frameTime)
{
var needs = new Dictionary<Gas, float>(NeedsGases);
foreach (var (gas, amount) in DeficitGases)
{
var newAmount = (needs.GetValueOrDefault(gas) + amount) * frameTime;
needs[gas] = newAmount;
}
return needs;
}
private void ClampDeficit()
{
var deficitGases = new Dictionary<Gas, float>(DeficitGases);
foreach (var (gas, deficit) in deficitGases)
{
if (!NeedsGases.TryGetValue(gas, out var need))
{
DeficitGases.Remove(gas);
continue;
}
if (deficit > need)
{
DeficitGases[gas] = need;
}
}
}
private float SuffocatingPercentage()
{
var total = 0f;
foreach (var (gas, deficit) in DeficitGases)
{
var lack = 1f;
if (NeedsGases.TryGetValue(gas, out var needed))
{
lack = deficit / needed;
}
total += lack / Atmospherics.TotalNumberOfGases;
}
return total;
}
private float GasProducedMultiplier(Gas gas, float usedAverage)
{
if (!ProducesGases.TryGetValue(gas, out var produces))
{
return 0;
}
if (!NeedsGases.TryGetValue(gas, out var needs))
{
needs = 1;
}
return needs * produces * usedAverage;
}
private Dictionary<Gas, float> GasProduced(float usedAverage)
{
return ProducesGases.ToDictionary(pair => pair.Key, pair => GasProducedMultiplier(pair.Key, usedAverage));
}
private void ProcessGases(float frameTime)
{
if (!Owner.TryGetComponent(out BloodstreamComponent? bloodstream))
{
return;
}
if (_body == null)
{
return;
}
var lungs = _body.GetMechanismBehaviors<LungBehavior>().ToArray();
var needs = NeedsAndDeficit(frameTime);
var used = 0f;
foreach (var (gas, amountNeeded) in needs)
{
var bloodstreamAmount = bloodstream.Air.GetMoles(gas);
var deficit = 0f;
if (bloodstreamAmount < amountNeeded)
{
if (!Owner.GetComponent<IMobStateComponent>().IsCritical())
{
// Panic inhale
foreach (var lung in lungs)
{
lung.Gasp();
}
}
bloodstreamAmount = bloodstream.Air.GetMoles(gas);
deficit = Math.Max(0, amountNeeded - bloodstreamAmount);
if (deficit > 0)
{
bloodstream.Air.SetMoles(gas, 0);
}
else
{
bloodstream.Air.AdjustMoles(gas, -amountNeeded);
}
}
else
{
bloodstream.Air.AdjustMoles(gas, -amountNeeded);
}
DeficitGases[gas] = deficit;
used += (amountNeeded - deficit) / amountNeeded;
}
var produced = GasProduced(used / needs.Count);
foreach (var (gas, amountProduced) in produced)
{
bloodstream.Air.AdjustMoles(gas, amountProduced);
}
ClampDeficit();
}
/// <summary>
/// Process thermal regulation
/// </summary>
/// <param name="frameTime"></param>
private void ProcessThermalRegulation(float frameTime)
{
if (!Owner.TryGetComponent(out TemperatureComponent? temperatureComponent)) return;
temperatureComponent.ReceiveHeat(MetabolismHeat);
temperatureComponent.RemoveHeat(RadiatedHeat);
// implicit heat regulation
var tempDiff = Math.Abs(temperatureComponent.CurrentTemperature - NormalBodyTemperature);
var targetHeat = tempDiff * temperatureComponent.HeatCapacity;
if (temperatureComponent.CurrentTemperature > NormalBodyTemperature)
{
temperatureComponent.RemoveHeat(Math.Min(targetHeat, ImplicitHeatRegulation));
}
else
{
temperatureComponent.ReceiveHeat(Math.Min(targetHeat, ImplicitHeatRegulation));
}
// recalc difference and target heat
tempDiff = Math.Abs(temperatureComponent.CurrentTemperature - NormalBodyTemperature);
targetHeat = tempDiff * temperatureComponent.HeatCapacity;
// if body temperature is not within comfortable, thermal regulation
// processes starts
if (tempDiff < ThermalRegulationTemperatureThreshold)
{
if (_isShivering || _isSweating)
{
Owner.PopupMessage(Loc.GetString("metabolism-component-is-comfortable"));
}
_isShivering = false;
_isSweating = false;
return;
}
var actionBlocker = EntitySystem.Get<ActionBlockerSystem>();
if (temperatureComponent.CurrentTemperature > NormalBodyTemperature)
{
if (!actionBlocker.CanSweat(Owner)) return;
if (!_isSweating)
{
Owner.PopupMessage(Loc.GetString("metabolism-component-is-sweating"));
_isSweating = true;
}
// creadth: sweating does not help in airless environment
if (EntitySystem.Get<AtmosphereSystem>().GetTileMixture(Owner.Transform.Coordinates) is not {})
{
temperatureComponent.RemoveHeat(Math.Min(targetHeat, SweatHeatRegulation));
}
}
else
{
if (!actionBlocker.CanShiver(Owner)) return;
if (!_isShivering)
{
Owner.PopupMessage(Loc.GetString("metabolism-component-is-shivering"));
_isShivering = true;
}
temperatureComponent.ReceiveHeat(Math.Min(targetHeat, ShiveringHeatRegulation));
}
}
/// <summary>
/// Processes gases in the bloodstream.
/// </summary>
/// <param name="frameTime">
/// The time since the last metabolism tick in seconds.
/// </param>
public void Update(float frameTime)
{
if (!Owner.TryGetComponent<IMobStateComponent>(out var state) ||
state.IsDead())
{
return;
}
_accumulatedFrameTime += frameTime;
if (_accumulatedFrameTime < 1)
{
return;
}
ProcessGases(_accumulatedFrameTime);
ProcessThermalRegulation(_accumulatedFrameTime);
_accumulatedFrameTime -= 1;
if (SuffocatingPercentage() > 0)
{
TakeSuffocationDamage();
return;
}
StopSuffocation();
}
private void TakeSuffocationDamage()
{
Suffocating = true;
if (Owner.TryGetComponent(out ServerAlertsComponent? alertsComponent))
{
alertsComponent.ShowAlert(AlertType.LowOxygen);
}
if (!Owner.TryGetComponent(out IDamageableComponent? damageable))
{
return;
}
damageable.ChangeDamage(DamageType.Asphyxiation, _suffocationDamage, false);
}
private void StopSuffocation()
{
Suffocating = false;
if (Owner.TryGetComponent(out IDamageableComponent? damageable))
{
damageable.ChangeDamage(DamageType.Asphyxiation, -_suffocationDamageRecovery, false);
}
if (Owner.TryGetComponent(out ServerAlertsComponent? alertsComponent))
{
alertsComponent.ClearAlert(AlertType.LowOxygen);
}
}
public GasMixture Clean(BloodstreamComponent bloodstream)
{
var gasMixture = new GasMixture(bloodstream.Air.Volume)
{
Temperature = bloodstream.Air.Temperature
};
for (Gas gas = 0; gas < (Gas) Atmospherics.TotalNumberOfGases; gas++)
{
float amount;
var molesInBlood = bloodstream.Air.GetMoles(gas);
if (!NeedsGases.TryGetValue(gas, out var needed))
{
amount = molesInBlood;
}
else
{
var overflowThreshold = needed * 5f;
amount = molesInBlood > overflowThreshold
? molesInBlood - overflowThreshold
: 0;
}
gasMixture.AdjustMoles(gas, amount);
bloodstream.Air.AdjustMoles(gas, -amount);
}
return gasMixture;
}
}
}
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