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tbd-station-14/Content.Shared/GameObjects/EntitySystems/SharedInteractionSystem.cs

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using System;
using System.Linq;
using Content.Shared.Physics;
using JetBrains.Annotations;
using Robust.Shared.GameObjects.Systems;
using Robust.Shared.Interfaces.GameObjects;
using Robust.Shared.Interfaces.Map;
using Robust.Shared.Interfaces.Physics;
using Robust.Shared.IoC;
using Robust.Shared.Map;
using Robust.Shared.Maths;
namespace Content.Server.GameObjects.EntitySystems
{
/// <summary>
/// Governs interactions during clicking on entities
/// </summary>
[UsedImplicitly]
public class SharedInteractionSystem : EntitySystem
{
#pragma warning disable 649
[Dependency] private readonly IPhysicsManager _physicsManager;
#pragma warning restore 649
public const float InteractionRange = 2;
public const float InteractionRangeSquared = InteractionRange * InteractionRange;
/// <summary>
/// Traces a ray from coords to otherCoords and returns the length
/// of the vector between coords and the ray's first hit.
/// </summary>
/// <param name="coords">Set of coordinates to use.</param>
/// <param name="otherCoords">Other set of coordinates to use.</param>
/// <param name="collisionMask">the mask to check for collisions</param>
/// <param name="predicate">A predicate to check whether to ignore an entity or not. If it returns true, it will be ignored.</param>
/// <returns>Length of resulting ray.</returns>
public float UnobstructedRayLength(MapCoordinates coords, MapCoordinates otherCoords,
int collisionMask = (int) CollisionGroup.Impassable, Func<IEntity, bool> predicate = null)
{
var dir = otherCoords.Position - coords.Position;
if (dir.LengthSquared.Equals(0f)) return 0f;
var ray = new CollisionRay(coords.Position, dir.Normalized, collisionMask);
var rayResults = _physicsManager.IntersectRayWithPredicate(coords.MapId, ray, dir.Length, predicate, returnOnFirstHit: false).ToList();
if (rayResults.Count == 0) return dir.Length;
return (rayResults[0].HitPos - coords.Position).Length;
}
/// <summary>
/// Traces a ray from coords to otherCoords and returns the length
/// of the vector between coords and the ray's first hit.
/// </summary>
/// <param name="coords">Set of coordinates to use.</param>
/// <param name="otherCoords">Other set of coordinates to use.</param>
/// <param name="collisionMask">the mask to check for collisions</param>
/// <param name="ignoredEnt">the entity to be ignored when checking for collisions.</param>
/// <returns>Length of resulting ray.</returns>
public float UnobstructedRayLength(MapCoordinates coords, MapCoordinates otherCoords,
int collisionMask = (int) CollisionGroup.Impassable, IEntity ignoredEnt = null) =>
UnobstructedRayLength(coords, otherCoords, collisionMask,
ignoredEnt == null ? null : (Func<IEntity, bool>) (entity => ignoredEnt == entity));
/// <summary>
/// Checks that these coordinates are within a certain distance without any
/// entity that matches the collision mask obstructing them.
/// If the <paramref name="range"/> is zero or negative,
/// this method will only check if nothing obstructs the two sets of coordinates..
/// </summary>
/// <param name="coords">Set of coordinates to use.</param>
/// <param name="otherCoords">Other set of coordinates to use.</param>
/// <param name="range">maximum distance between the two sets of coordinates.</param>
/// <param name="collisionMask">the mask to check for collisions</param>
/// <param name="predicate">A predicate to check whether to ignore an entity or not. If it returns true, it will be ignored.</param>
/// <param name="insideBlockerValid">if coordinates inside obstructions count as obstructed or not</param>
/// <returns>True if the two points are within a given range without being obstructed.</returns>
public bool InRangeUnobstructed(MapCoordinates coords, MapCoordinates otherCoords, float range = InteractionRange,
int collisionMask = (int)CollisionGroup.Impassable, Func<IEntity, bool> predicate = null, bool insideBlockerValid = false)
{
if (!coords.InRange(otherCoords, range))
return false;
var dir = otherCoords.Position - coords.Position;
if (dir.LengthSquared.Equals(0f)) return true;
if (range > 0f && !(dir.LengthSquared <= range * range)) return false;
var ray = new CollisionRay(coords.Position, dir.Normalized, collisionMask);
var rayResults = _physicsManager.IntersectRayWithPredicate(coords.MapId, ray, dir.Length, predicate, returnOnFirstHit: false).ToList();
return rayResults.Count == 0 || (insideBlockerValid && rayResults.Count > 0 && (rayResults[0].HitPos - otherCoords.Position).Length < 1f);
}
/// <summary>
/// Checks that these coordinates are within a certain distance without any
/// entity that matches the collision mask obstructing them.
/// If the <paramref name="range"/> is zero or negative,
/// this method will only check if nothing obstructs the two sets of coordinates..
/// </summary>
/// <param name="coords">Set of coordinates to use.</param>
/// <param name="otherCoords">Other set of coordinates to use.</param>
/// <param name="range">maximum distance between the two sets of coordinates.</param>
/// <param name="collisionMask">the mask to check for collisions</param>
/// <param name="ignoredEnt">the entity to be ignored when checking for collisions.</param>
/// <param name="insideBlockerValid">if coordinates inside obstructions count as obstructed or not</param>
/// <returns>True if the two points are within a given range without being obstructed.</returns>
public bool InRangeUnobstructed(MapCoordinates coords, MapCoordinates otherCoords, float range = InteractionRange,
int collisionMask = (int)CollisionGroup.Impassable, IEntity ignoredEnt = null, bool insideBlockerValid = false) =>
InRangeUnobstructed(coords, otherCoords, range, collisionMask,
ignoredEnt == null ? null : (Func<IEntity, bool>)(entity => ignoredEnt == entity), insideBlockerValid);
}
}
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