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BITKit/Src/Unity/Scripts/Entity/Components/Physics/EntityPhysics.cs

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C#
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using System;
using System.Collections;
using System.Collections.Generic;
using System.Threading;
using System.Threading.Tasks;
using BITKit.Entities.Physics;
using UnityEngine;
namespace BITKit.Entities
{
[CustomType(typeof(IEntityPhysics))]
public class EntityPhysics : EntityBehavior,IEntityPhysics
{
[SerializeField] private Animator animator;
[SerializeField] private Rigidbody[] rigidbodies;
[SerializeField] private Collider[] ragdollColliders;
[SerializeField] private Joint[] joints;
[SerializeField] private new Rigidbody rigidbody;
[Inject]
private IHealth _health;
private readonly Dictionary<Joint,ConfigurableJointMotion> _jointXMotions=new();
private readonly Dictionary<Joint,ConfigurableJointMotion> _jointYMotions=new();
private readonly Dictionary<Joint,ConfigurableJointMotion> _jointZMotions=new();
private readonly Dictionary<Joint,ConfigurableJointMotion> _jointAngularXMotions=new();
private readonly Dictionary<Joint,ConfigurableJointMotion> _jointAngularYMotions=new();
private readonly Dictionary<Joint,ConfigurableJointMotion> _jointAngularZMotions=new();
public override void OnAwake()
{
_health.OnSetAlive += OnSetAlive;
_health.OnSetHealthPoint += OnSetHP;
foreach (var x in joints)
{
switch (x)
{
case ConfigurableJoint configurableJoint:
_jointXMotions.Add(configurableJoint,configurableJoint.xMotion);
_jointYMotions.Add(configurableJoint,configurableJoint.yMotion);
_jointZMotions.Add(configurableJoint,configurableJoint.zMotion);
_jointAngularXMotions.Add(configurableJoint,configurableJoint.angularXMotion);
_jointAngularYMotions.Add(configurableJoint,configurableJoint.angularYMotion);
_jointAngularZMotions.Add(configurableJoint,configurableJoint.angularZMotion);
break;
}
}
}
private async void OnSetAlive(bool alive)
{
IsPhysics = !alive;
if (animator)
animator.enabled = alive;
try
{
await Task.Delay(10, destroyCancellationToken);
rigidbodies.ForEach(x => { x.isKinematic = alive; });
ragdollColliders.ForEach(x => { x.enabled = !alive; });
OnSetPhysics?.Invoke(!alive);
}
catch (OperationCanceledException)
{
}
foreach (var joint in joints)
{
switch (joint)
{
case ConfigurableJoint configurableJoint:
configurableJoint.xMotion = alive ? _jointXMotions[joint] : ConfigurableJointMotion.Free;
configurableJoint.yMotion = alive ? _jointYMotions[joint] : ConfigurableJointMotion.Free;
configurableJoint.zMotion = alive ? _jointZMotions[joint] : ConfigurableJointMotion.Free;
configurableJoint.angularXMotion =
alive ? _jointAngularXMotions[joint] : ConfigurableJointMotion.Free;
configurableJoint.angularYMotion =
alive ? _jointAngularYMotions[joint] : ConfigurableJointMotion.Free;
configurableJoint.angularZMotion =
alive ? _jointAngularZMotions[joint] : ConfigurableJointMotion.Free;
break;
}
}
}
public void OnSetHP(int hp)
{
}
public Vector3 Center => rigidbody.worldCenterOfMass;
public bool IsPhysics { get; private set; }
public Vector3 Velocity
{
get=>rigidbody.velocity;
set
{
foreach (var x in rigidbodies)
{
x.velocity = value;
}
}
}
public Action<bool> OnSetPhysics { get; set; }
public void AddForce(Vector3 force, ForceMode mode = ForceMode.Force)
{
foreach (var x in rigidbodies)
{
x.AddForce(force, mode);
}
}
public void AddTorque(Vector3 torque, ForceMode mode = ForceMode.Force)
{
foreach (var x in rigidbodies)
{
x.AddTorque(torque, mode);
}
}
}
}
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