#nullable enable using System; using System.Collections.Generic; using Content.Shared.Damage; using Content.Shared.Damage.DamageContainer; using Content.Shared.Damage.ResistanceSet; using Robust.Shared.GameObjects; using Robust.Shared.Interfaces.GameObjects; using Robust.Shared.IoC; using Robust.Shared.Prototypes; using Robust.Shared.Serialization; using Robust.Shared.ViewVariables; namespace Content.Shared.GameObjects.Components.Damage { ///

/// Component that allows attached entities to take damage. /// This basic version never dies (thus can take an indefinite amount of damage). ///

[RegisterComponent] [ComponentReference(typeof(IDamageableComponent))] public class DamageableComponent : Component, IDamageableComponent { #pragma warning disable 649 [Dependency] private readonly IPrototypeManager _prototypeManager = default!; #pragma warning restore 649 public override string Name => "Damageable"; public event Action HealthChangedEvent = default!; [ViewVariables] private ResistanceSet Resistance { get; set; } = default!; [ViewVariables] private DamageContainer Damage { get; set; } = default!; public virtual List SupportedDamageStates => new List {DamageState.Alive}; public virtual DamageState CurrentDamageState { get; protected set; } = DamageState.Alive; [ViewVariables] public int TotalDamage => Damage.TotalDamage; public IReadOnlyDictionary DamageClasses => Damage.DamageClasses; public IReadOnlyDictionary DamageTypes => Damage.DamageTypes; public override void ExposeData(ObjectSerializer serializer) { base.ExposeData(serializer); if (serializer.Reading) { // Doesn't write to file, TODO? // Yes, TODO var containerId = "biologicalDamageContainer"; var resistanceId = "defaultResistances"; serializer.DataField(ref containerId, "damageContainer", "biologicalDamageContainer"); serializer.DataField(ref resistanceId, "resistances", "defaultResistances"); if (!_prototypeManager.TryIndex(containerId!, out DamageContainerPrototype damage)) { throw new InvalidOperationException( $"No {nameof(DamageContainerPrototype)} found with name {containerId}"); } Damage = new DamageContainer(OnHealthChanged, damage); if (!_prototypeManager.TryIndex(resistanceId!, out ResistanceSetPrototype resistance)) { throw new InvalidOperationException( $"No {nameof(ResistanceSetPrototype)} found with name {resistanceId}"); } Resistance = new ResistanceSet(resistance); } } public bool TryGetDamage(DamageType type, out int damage) { return Damage.TryGetDamageValue(type, out damage); } public bool ChangeDamage(DamageType type, int amount, bool ignoreResistances, IEntity? source = null, HealthChangeParams? extraParams = null) { if (Damage.SupportsDamageType(type)) { var finalDamage = amount; if (!ignoreResistances) { finalDamage = Resistance.CalculateDamage(type, amount); } Damage.ChangeDamageValue(type, finalDamage); return true; } return false; } public bool ChangeDamage(DamageClass @class, int amount, bool ignoreResistances, IEntity? source = null, HealthChangeParams? extraParams = null) { if (Damage.SupportsDamageClass(@class)) { var types = @class.ToTypes(); if (amount < 0) { // Changing multiple types is a bit more complicated. Might be a better way (formula?) to do this, // but essentially just loops between each damage category until all healing is used up. var healingLeft = amount; var healThisCycle = 1; // While we have healing left... while (healingLeft > 0 && healThisCycle != 0) { // Infinite loop fallback, if no healing was done in a cycle // then exit healThisCycle = 0; int healPerType; if (healingLeft > -types.Count && healingLeft < 0) { // Say we were to distribute 2 healing between 3 // this will distribute 1 to each (and stop after 2 are given) healPerType = -1; } else { // Say we were to distribute 62 healing between 3 // this will distribute 20 to each, leaving 2 for next loop healPerType = healingLeft / types.Count; } foreach (var type in types) { var healAmount = Math.Max(Math.Max(healPerType, -Damage.GetDamageValue(type)), healingLeft); Damage.ChangeDamageValue(type, healAmount); healThisCycle += healAmount; healingLeft -= healAmount; } } return true; } var damageLeft = amount; while (damageLeft > 0) { int damagePerType; if (damageLeft < types.Count && damageLeft > 0) { damagePerType = 1; } else { damagePerType = damageLeft / types.Count; } foreach (var type in types) { var damageAmount = Math.Min(damagePerType, damageLeft); Damage.ChangeDamageValue(type, damageAmount); damageLeft -= damageAmount; } } return true; } return false; } public bool SetDamage(DamageType type, int newValue, IEntity? source = null, HealthChangeParams? extraParams = null) { if (Damage.SupportsDamageType(type)) { Damage.SetDamageValue(type, newValue); return true; } return false; } public void Heal() { Damage.Heal(); } public void ForceHealthChangedEvent() { var data = new List(); foreach (var type in Damage.SupportedTypes) { var damage = Damage.GetDamageValue(type); var datum = new HealthChangeData(type, damage, 0); data.Add(datum); } OnHealthChanged(data); } private void OnHealthChanged(List changes) { var args = new HealthChangedEventArgs(this, changes); OnHealthChanged(args); } protected virtual void OnHealthChanged(HealthChangedEventArgs e) { Owner.EntityManager.EventBus.RaiseEvent(EventSource.Local, e); HealthChangedEvent?.Invoke(e); Dirty(); } } }