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CrowdControl/Assets/3rd/D2D_Scripts/Utilities/CodeSugar/MathSugar.cs

326 lines
9.6 KiB
C#

3 months ago
using System;
using System.Collections.Generic;
using System.Linq;
using UnityEngine;
using static D2D.Utilities.SettingsFacade;
using static D2D.Utilities.CommonLazyFacade;
using static D2D.Utilities.CommonGameplayFacade;
namespace D2D.Utilities
{
public static class MathSugar
{
public static Vector3 AngleToVector(this Vector3 angle, Transform t)
{
return Quaternion.Euler(angle) * t.forward;
}
public static float Max(this Vector2 v)
{
return Mathf.Max(v.x, v.y);
}
public static bool Between(this float i, float a, float b) => i >= a && i <= b;
public static float Angle360(Vector2 p1, Vector2 p2, Vector2 o = default)
{
Vector2 v1, v2;
if (o == default)
{
v1 = p1.normalized;
v2 = p2.normalized;
}
else
{
v1 = (p1 - o).normalized;
v2 = (p2 - o).normalized;
}
float angle = Vector2.Angle(v1, v2);
return Mathf.Sign(Vector3.Cross(v1, v2).z) < 0 ? (360 - angle) % 360 : angle;
}
public static float Clamp(this float value, float min, float max)
{
return Mathf.Clamp(value, min, max);
}
public static int Clamp(this int value, int min, int max)
{
return Mathf.Clamp(value, min, max);
}
public static float Clamp(this float value, Vector2 v)
{
return Mathf.Clamp(value, v.x, v.y);
}
public static Vector3 SignedClamp(this Vector3 v, Vector3 limits)
{
return new Vector3(v.x.SignedClamp(limits.x), v.y.SignedClamp(limits.y), v.z.SignedClamp(limits.z));
}
public static float SignedClamp(this float value, float range)
{
return Mathf.Clamp(value, -range, range);
}
public static float LimitMax(this float value, float max)
{
return Mathf.Min(value, max);
}
public static int LimitMax(this int value, int max)
{
return Mathf.Min(value, max);
}
public static float LimitMin(this float value, float min)
{
return Mathf.Max(value, min);
}
public static int LimitMin(this int value, int min)
{
return Mathf.Max(value, min);
}
public static float Abs(this float value)
{
return Mathf.Abs(value);
}
public static float FactorRange(this float factor, float min, float max)
{
var a = Mathf.Max(min, max);
var b = Mathf.Min(min, max);
return a + (a - b) * factor;
}
#region Transform
public static void LookAtOnlyY(this Transform origin, Transform lookAtTarget, float offsetY = 0)
{
var p = lookAtTarget.position;
p.y = origin.position.y;
origin.LookAt(p);
origin.eulerAngles += new Vector3(0, offsetY);
}
public static Vector3 SetY(this Vector3 target, float value)
{
target.y = value;
return target;
}
public static float DistanceTo(this Vector3 from, Vector3 to)
{
return (from - to).magnitude;
}
public static float DistanceTo(this Transform from, Transform to)
{
return (from.position - to.position).magnitude;
}
public static bool InRange(this Transform from, Transform to, float d)
{
return (from.position - to.position).sqrMagnitude < d * d;
}
public static bool InRange(this Transform from, Vector3 to, float d)
{
return (from.position - to).sqrMagnitude < d * d;
}
public static bool InRangeIgnoreY(this Transform from, Vector3 to, float d)
{
var fromNoY = from.position;
fromNoY.y = to.y;
return (fromNoY - to).sqrMagnitude < d * d;
}
public static Transform Closest(this Transform from, Transform[] to)
{
float minDistance = float.MaxValue;
var closest = to[0];
for (var i = 0; i < to.Length; i++)
{
var d = (from.position - to[i].position).sqrMagnitude;
if (d < minDistance)
{
minDistance = d;
closest = to[i];
}
}
return closest;
}
public static Transform Closest(this Transform from, List<Transform> to)
{
float minDistance = float.MaxValue;
var closest = to[0];
for (var i = 0; i < to.Count; i++)
{
var d = (from.position - to[i].position).sqrMagnitude;
if (d < minDistance)
{
minDistance = d;
closest = to[i];
}
}
return closest;
}
public static Transform Closest(this Transform from, Component[] to)
{
float minDistance = float.MaxValue;
var closest = to[0];
for (var i = 0; i < to.Length; i++)
{
var d = (from.position - to[i].transform.position).sqrMagnitude;
if (d < minDistance)
{
minDistance = d;
closest = to[i];
}
}
return closest.transform;
}
public static Transform Closest(this Transform from, List<Component> to)
{
float minDistance = float.MaxValue;
var closest = to[0];
for (var i = 0; i < to.Count; i++)
{
var d = (from.position - to[i].transform.position).sqrMagnitude;
if (d < minDistance)
{
minDistance = d;
closest = to[i];
}
}
return closest.transform;
}
public static T Closest<T>(this Transform from, IEnumerable<T> targets)where T: Component
{
float minDistance = float.MaxValue;
var closest = targets.First();
foreach (T t in targets)
{
var d = (from.position - t.transform.position).sqrMagnitude;
if (d < minDistance)
{
minDistance = d;
closest = t;
}
}
return closest;
}
public static T Closest<T>(this Transform from, List<T> to) where T: Component
{
float minDistance = float.MaxValue;
var closest = to[0];
for (var i = 0; i < to.Count; i++)
{
var d = (from.position - to[i].transform.position).sqrMagnitude;
if (d < minDistance)
{
minDistance = d;
closest = to[i];
}
}
return closest;
}
public static T ClosestOfType<T>(this Transform from, List<Collider> to) where T: Component
{
float minDistance = float.MaxValue;
var closest = to[0];
T component = null;
T closestComponent = null;
for (var i = 0; i < to.Count; i++)
{
if (to[i] == null)
{
continue;
}
var d = (from.position - to[i].transform.position).sqrMagnitude;
component = to[i].GetComponent<T>();
if (d < minDistance && component != null)
{
closestComponent = component;
minDistance = d;
closest = to[i];
}
}
return closestComponent;
}
public static Vector3 AveragePosition(this IEnumerable<Transform> transforms)
{
var array = transforms.ToArray();
var x = array.Average(t => t.position.x);
var y = array.Average(t => t.position.y);
var z = array.Average(t => t.position.z);
return new Vector3(x, y, z);
}
public static Vector3 Average(this Vector3[] vectors)
{
var x = vectors.Average(v => v.x);
var y = vectors.Average(v => v.y);
var z = vectors.Average(v => v.z);
return new Vector3(x, y, z);
}
public static Vector3 Average(this IEnumerable<Vector3> vectors)
{
var enumerable = vectors as Vector3[] ?? vectors.ToArray();
var x = enumerable.Average(v => v.x);
var y = enumerable.Average(v => v.y);
var z = enumerable.Average(v => v.z);
return new Vector3(x, y, z);
}
public static float DistanceToPlayer(this Transform t)
{
return (t.position - _player.transform.position).magnitude;
}
public static void LookAtOnlyY(this Transform origin, Vector3 lookAtTarget, Vector3? axis = null)
{
var p = lookAtTarget;
p.y = origin.position.y;
if (axis == null)
origin.LookAt(p);
else
{
origin.LookAt(p, axis.Value);
}
}
#endregion
}
}