PlumberUltimateAds/Assets/Scripts/MS/UIParticleSystem.cs

/*
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*/

using System;
using UnityEngine;
using UnityEngine.Sprites;
using UnityEngine.UI;

namespace MS
{
	[ExecuteInEditMode]
	[RequireComponent(typeof(CanvasRenderer))]
	[RequireComponent(typeof(ParticleSystem))]
	public class UIParticleSystem : MaskableGraphic
	{
		public Texture particleTexture;

		public Sprite particleSprite;

		private Transform _transform;

		private ParticleSystem _particleSystem;

		private ParticleSystem.Particle[] _particles;

		private UIVertex[] _quad = new UIVertex[4];

		private Vector4 _uv = Vector4.zero;

		private ParticleSystem.TextureSheetAnimationModule _textureSheetAnimation;

		private int _textureSheetAnimationFrames;

		private Vector2 _textureSheedAnimationFrameSize;

		public override Texture mainTexture
		{
			get
			{
				if ((bool)particleTexture)
				{
					return particleTexture;
				}
				if ((bool)particleSprite)
				{
					return particleSprite.texture;
				}
				return null;
			}
		}

		protected bool Initialize()
		{
			if (_transform == null)
			{
				_transform = base.transform;
			}
			if (_particleSystem == null)
			{
				_particleSystem = GetComponent<ParticleSystem>();
				if (_particleSystem == null)
				{
					return false;
				}
				ParticleSystemRenderer particleSystemRenderer = _particleSystem.GetComponent<ParticleSystemRenderer>();
				if (particleSystemRenderer == null)
				{
					particleSystemRenderer = _particleSystem.gameObject.AddComponent<ParticleSystemRenderer>();
				}
				Material sharedMaterial = particleSystemRenderer.sharedMaterial;
				if ((bool)sharedMaterial && sharedMaterial.HasProperty("_MainTex"))
				{
					particleTexture = sharedMaterial.mainTexture;
				}
				Material material = new Material(Shader.Find("Legacy Shaders/Particles/Alpha Blended"));
				if (Application.isPlaying)
				{
					particleSystemRenderer.material = material;
				}
				_particleSystem.scalingMode = ParticleSystemScalingMode.Hierarchy;
				_particles = null;
			}
			if (_particles == null)
			{
				_particles = new ParticleSystem.Particle[_particleSystem.maxParticles];
			}
			if ((bool)particleTexture)
			{
				_uv = new Vector4(0f, 0f, 1f, 1f);
			}
			else if ((bool)particleSprite)
			{
				_uv = DataUtility.GetOuterUV(particleSprite);
			}
			_textureSheetAnimation = _particleSystem.textureSheetAnimation;
			_textureSheetAnimationFrames = 0;
			_textureSheedAnimationFrameSize = Vector2.zero;
			if (_textureSheetAnimation.enabled)
			{
				_textureSheetAnimationFrames = _textureSheetAnimation.numTilesX * _textureSheetAnimation.numTilesY;
				_textureSheedAnimationFrameSize = new Vector2(1f / (float)_textureSheetAnimation.numTilesX, 1f / (float)_textureSheetAnimation.numTilesY);
			}
			return true;
		}

		protected override void Awake()
		{
			base.Awake();
			if (!Initialize())
			{
				base.enabled = false;
			}
		}

		protected override void OnPopulateMesh(VertexHelper vh)
		{
			vh.Clear();
			if (!base.gameObject.activeInHierarchy)
			{
				return;
			}
			int particles = _particleSystem.GetParticles(_particles);
			for (int i = 0; i < particles; i++)
			{
				ParticleSystem.Particle particle = _particles[i];
				Vector2 a = (_particleSystem.simulationSpace != 0) ? _transform.InverseTransformPoint(particle.position) : particle.position;
				float num = (0f - particle.rotation) * ((float)Math.PI / 180f);
				float f = num + (float)Math.PI / 2f;
				Color32 currentColor = particle.GetCurrentColor(_particleSystem);
				float num2 = particle.GetCurrentSize(_particleSystem) * 0.5f;
				if (_particleSystem.scalingMode == ParticleSystemScalingMode.Shape)
				{
					a /= base.canvas.scaleFactor;
				}
				Vector4 uv = _uv;
				if (_textureSheetAnimation.enabled)
				{
					float num3 = 1f - particle.remainingLifetime / particle.startLifetime;
					num3 = Mathf.Repeat(num3 * (float)_textureSheetAnimation.cycleCount, 1f);
					int num4 = 0;
					switch (_textureSheetAnimation.animation)
					{
					case ParticleSystemAnimationType.WholeSheet:
						num4 = Mathf.FloorToInt(num3 * (float)_textureSheetAnimationFrames);
						break;
					case ParticleSystemAnimationType.SingleRow:
					{
						num4 = Mathf.FloorToInt(num3 * (float)_textureSheetAnimation.numTilesX);
						int rowIndex = _textureSheetAnimation.rowIndex;
						num4 += rowIndex * _textureSheetAnimation.numTilesX;
						break;
					}
					}
					num4 %= _textureSheetAnimationFrames;
					uv.x = (float)(num4 % _textureSheetAnimation.numTilesX) * _textureSheedAnimationFrameSize.x;
					uv.y = (float)Mathf.FloorToInt(num4 / _textureSheetAnimation.numTilesX) * _textureSheedAnimationFrameSize.y;
					uv.z = uv.x + _textureSheedAnimationFrameSize.x;
					uv.w = uv.y + _textureSheedAnimationFrameSize.y;
				}
				_quad[0] = UIVertex.simpleVert;
				_quad[0].color = currentColor;
				_quad[0].uv0 = new Vector2(uv.x, uv.y);
				_quad[1] = UIVertex.simpleVert;
				_quad[1].color = currentColor;
				_quad[1].uv0 = new Vector2(uv.x, uv.w);
				_quad[2] = UIVertex.simpleVert;
				_quad[2].color = currentColor;
				_quad[2].uv0 = new Vector2(uv.z, uv.w);
				_quad[3] = UIVertex.simpleVert;
				_quad[3].color = currentColor;
				_quad[3].uv0 = new Vector2(uv.z, uv.y);
				if (num == 0f)
				{
					Vector2 vector = new Vector2(a.x - num2, a.y - num2);
					Vector2 vector2 = new Vector2(a.x + num2, a.y + num2);
					_quad[0].position = new Vector2(vector.x, vector.y);
					_quad[1].position = new Vector2(vector.x, vector2.y);
					_quad[2].position = new Vector2(vector2.x, vector2.y);
					_quad[3].position = new Vector2(vector2.x, vector.y);
				}
				else
				{
					Vector2 b = new Vector2(Mathf.Cos(num), Mathf.Sin(num)) * num2;
					Vector2 b2 = new Vector2(Mathf.Cos(f), Mathf.Sin(f)) * num2;
					_quad[0].position = a - b - b2;
					_quad[1].position = a - b + b2;
					_quad[2].position = a + b + b2;
					_quad[3].position = a + b - b2;
				}
				vh.AddUIVertexQuad(_quad);
			}
		}

		private void Update()
		{
			if (Application.isPlaying)
			{
				_particleSystem.Simulate(Time.unscaledDeltaTime, withChildren: false, restart: false);
				SetAllDirty();
			}
		}
	}
}