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tbd-station-14/Content.Shared/Anomaly/Components/AnomalyComponent.cs
Ed 8b3adf6085 Anomaly Synchronizer (#20945) 
* added textures and basic prototype without functionality

* add full functional

* finish work

* fix naming

* reduce random anomaly spawner offset

* Update AnomalySystem.Vessel.cs

* Update SharedAnomalySystem.cs

* Update SharedAnomalySystem.cs

* Update production.yml

* fix errors

* fix?

* Update anomaly_sync.yml

* deltanedas code fixes. Thx, deltanedas!

* git what

* fix yml

* fix yml 2

* meh, try again

* work, work, work

* fix powered checking. now component work also without ApcPowerReceiving

* now supercrit port invoke on start growing, not after explosion
fix errors

* deltanedas fix pack 1

* Update AnomalySynchronizerComponent.cs
2023-11-05 21:02:02 -07:00

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using System.Numerics;
using Content.Shared.Damage;
using Robust.Shared.Audio;
using Robust.Shared.GameStates;
using Robust.Shared.Prototypes;
using Robust.Shared.Serialization.TypeSerializers.Implementations.Custom;
namespace Content.Shared.Anomaly.Components;
/// <summary>
/// This is used for tracking the general behavior of anomalies.
/// This doesn't contain the specific implementations for what
/// they do, just the generic behaviors associated with them.
///
/// Anomalies and their related components were designed here: https://hackmd.io/@ss14-design/r1sQbkJOs
/// </summary>
[RegisterComponent, NetworkedComponent, AutoGenerateComponentState]
[Access(typeof(SharedAnomalySystem))]
public sealed partial class AnomalyComponent : Component
{
/// <summary>
/// How likely an anomaly is to grow more dangerous. Moves both up and down.
/// Ranges from 0 to 1.
/// Values less than 0.5 indicate stability, whereas values greater
/// than 0.5 indicate instability, which causes increases in severity.
/// </summary>
/// <remarks>
/// Note that this doesn't refer to stability as a percentage: This is an arbitrary
/// value that only matters in relation to the <see cref="GrowthThreshold"/> and <see cref="DecayThreshold"/>
/// </remarks>
[ViewVariables(VVAccess.ReadWrite), AutoNetworkedField]
public float Stability = 0f;
/// <summary>
/// How severe the effects of an anomaly are. Moves only upwards.
/// Ranges from 0 to 1.
/// A value of 0 indicates effects of extrememly minimal severity, whereas greater
/// values indicate effects of linearly increasing severity.
/// </summary>
/// <remarks>
/// Wacky-Stability scale lives on in my heart. - emo
/// </remarks>
[ViewVariables(VVAccess.ReadWrite), AutoNetworkedField]
public float Severity = 0f;
#region Health
/// <summary>
/// The internal "health" of an anomaly.
/// Ranges from 0 to 1.
/// When the health of an anomaly reaches 0, it is destroyed without ever
/// reaching a supercritical point.
/// </summary>
[ViewVariables(VVAccess.ReadWrite), AutoNetworkedField]
public float Health = 1f;
/// <summary>
/// If the <see cref="Stability"/> of the anomaly exceeds this value, it
/// becomes too unstable to support itself and starts decreasing in <see cref="Health"/>.
/// </summary>
[DataField("decayhreshold"), ViewVariables(VVAccess.ReadWrite)]
public float DecayThreshold = 0.15f;
/// <summary>
/// The amount of health lost when the stability is below the <see cref="DecayThreshold"/>
/// </summary>
[DataField("healthChangePerSecond"), ViewVariables(VVAccess.ReadWrite)]
public float HealthChangePerSecond = -0.01f;
#endregion
#region Growth
/// <summary>
/// If the <see cref="Stability"/> of the anomaly exceeds this value, it
/// becomes unstable and starts increasing in <see cref="Severity"/>.
/// </summary>
[DataField("growthThreshold"), ViewVariables(VVAccess.ReadWrite)]
public float GrowthThreshold = 0.5f;
/// <summary>
/// A coefficient used for calculating the increase in severity when above the GrowthThreshold
/// </summary>
[DataField("severityGrowthCoefficient"), ViewVariables(VVAccess.ReadWrite)]
public float SeverityGrowthCoefficient = 0.07f;
#endregion
#region Pulse
/// <summary>
/// The time at which the next artifact pulse will occur.
/// </summary>
[DataField(customTypeSerializer: typeof(TimeOffsetSerializer)), AutoNetworkedField]
[ViewVariables(VVAccess.ReadWrite)]
public TimeSpan NextPulseTime = TimeSpan.Zero;
/// <summary>
/// The minimum interval between pulses.
/// </summary>
[DataField]
public TimeSpan MinPulseLength = TimeSpan.FromMinutes(1);
/// <summary>
/// The maximum interval between pulses.
/// </summary>
[DataField]
public TimeSpan MaxPulseLength = TimeSpan.FromMinutes(2);
/// <summary>
/// A percentage by which the length of a pulse might vary.
/// </summary>
[DataField]
public float PulseVariation = 0.1f;
/// <summary>
/// The range that an anomaly's stability can vary each pulse. Scales with severity.
/// </summary>
/// <remarks>
/// This is more likely to trend upwards than donwards, because that's funny
/// </remarks>
[DataField]
public Vector2 PulseStabilityVariation = new(-0.1f, 0.15f);
/// <summary>
/// The sound played when an anomaly pulses
/// </summary>
[DataField]
public SoundSpecifier? PulseSound = new SoundCollectionSpecifier("RadiationPulse");
/// <summary>
/// The sound plays when an anomaly goes supercritical
/// </summary>
[DataField]
public SoundSpecifier? SupercriticalSound = new SoundCollectionSpecifier("explosion");
#endregion
/// <summary>
/// The range of initial values for stability
/// </summary>
/// <remarks>
/// +/- 0.2 from perfect stability (0.5)
/// </remarks>
[DataField]
public (float, float) InitialStabilityRange = (0.4f, 0.6f);
/// <summary>
/// The range of initial values for severity
/// </summary>
/// <remarks>
/// Between 0 and 0.5, which should be all mild effects
/// </remarks>
[DataField]
public (float, float) InitialSeverityRange = (0.1f, 0.5f);
/// <summary>
/// The particle type that increases the severity of the anomaly.
/// </summary>
[DataField]
public AnomalousParticleType SeverityParticleType;
/// <summary>
/// The particle type that destabilizes the anomaly.
/// </summary>
[DataField]
public AnomalousParticleType DestabilizingParticleType;
/// <summary>
/// The particle type that weakens the anomalys health.
/// </summary>
[DataField]
public AnomalousParticleType WeakeningParticleType;
#region Points and Vessels
/// <summary>
/// The vessel that the anomaly is connceted to. Stored so that multiple
/// vessels cannot connect to the same anomaly.
/// </summary>
[ViewVariables(VVAccess.ReadWrite)]
public EntityUid? ConnectedVessel;
/// <summary>
/// The minimum amount of research points generated per second
/// </summary>
[DataField("minPointsPerSecond")]
public int MinPointsPerSecond = 10;
/// <summary>
/// The maximum amount of research points generated per second
/// This doesn't include the point bonus for being unstable.
/// </summary>
[DataField("maxPointsPerSecond")]
public int MaxPointsPerSecond = 80;
/// <summary>
/// The multiplier applied to the point value for the
/// anomaly being above the <see cref="GrowthThreshold"/>
/// </summary>
[DataField("growingPointMultiplier")]
public float GrowingPointMultiplier = 1.5f;
#endregion
/// <summary>
/// The amount of damage dealt when either a player touches the anomaly
/// directly or by hitting the anomaly.
/// </summary>
[DataField(required: true)]
public DamageSpecifier AnomalyContactDamage = default!;
/// <summary>
/// The sound effect played when a player
/// burns themselves on an anomaly via contact.
/// </summary>
[DataField]
public SoundSpecifier AnomalyContactDamageSound = new SoundPathSpecifier("/Audio/Effects/lightburn.ogg");
/// <summary>
/// A prototype entity that appears when an anomaly supercrit collapse.
/// </summary>
[DataField, ViewVariables(VVAccess.ReadWrite)]
public EntProtoId? CorePrototype;
/// <summary>
/// A prototype entity that appears when an anomaly decays.
/// </summary>
[DataField, ViewVariables(VVAccess.ReadWrite)]
public EntProtoId? CoreInertPrototype;
#region Floating Animation
/// <summary>
/// How long it takes to go from the bottom of the animation to the top.
/// </summary>
[ViewVariables(VVAccess.ReadWrite)]
[DataField("animationTime")]
public float AnimationTime = 2f;
/// <summary>
/// How far it goes in any direction.
/// </summary>
[ViewVariables(VVAccess.ReadWrite)]
[DataField("offset")]
public Vector2 FloatingOffset = new(0, 0.15f);
public readonly string AnimationKey = "anomalyfloat";
#endregion
}
/// <summary>
/// Event raised at regular intervals on an anomaly to do whatever its effect is.
/// </summary>
/// <param name="Anomaly">The anomaly pulsing</param>
/// <param name="Stability"></param>
/// <param name="Severity"></param>
[ByRefEvent]
public readonly record struct AnomalyPulseEvent(EntityUid Anomaly, float Stability, float Severity);
/// <summary>
/// Event raised on an anomaly when it reaches a supercritical point.
/// </summary>
[ByRefEvent]
public readonly record struct AnomalySupercriticalEvent(EntityUid Anomaly);
/// <summary>
/// Event broadcast after an anomaly goes supercritical
/// </summary>
/// <param name="Anomaly">The anomaly being shut down.</param>
/// <param name="Supercritical">Whether or not the anomaly shut down passively or via a supercritical event.</param>
[ByRefEvent]
public readonly record struct AnomalyShutdownEvent(EntityUid Anomaly, bool Supercritical);
/// <summary>
/// Event broadcast when an anomaly's severity is changed.
/// </summary>
/// <param name="Anomaly">The anomaly being changed</param>
[ByRefEvent]
public readonly record struct AnomalySeverityChangedEvent(EntityUid Anomaly, float Severity);
/// <summary>
/// Event broadcast when an anomaly's stability is changed.
/// </summary>
[ByRefEvent]
public readonly record struct AnomalyStabilityChangedEvent(EntityUid Anomaly, float Stability);
/// <summary>
/// Event broadcast when an anomaly's health is changed.
/// </summary>
/// <param name="Anomaly">The anomaly being changed</param>
[ByRefEvent]
public readonly record struct AnomalyHealthChangedEvent(EntityUid Anomaly, float Health);
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