ParticleEffectForUGUI/README.md

22 KiB

UIParticleIcon Particle Effect For UGUI (UI Particle)

This package provides a component to render particle effects for uGUI in Unity 2018.2 or later.
The particle rendering is maskable and sortable, without the need for an extra Camera, RenderTexture, or Canvas.


PRs Welcome

<< 📝 Description | 🎮 Demo | ⚙ Installation | 🚀 Usage | 🛠 Development Note | 🤝 Contributing >>



📝 Description

Demo

This package uses the new APIs MeshBake/MeshTrailBake (introduced in Unity 2018.2) to render particles through CanvasRenderer.
You can render, mask, and sort your ParticleSystems for UI without the need for an additional Camera, RenderTexture, or Canvas.

Key Features

  • Easy to use: The package is ready to use out of the box.
  • Sortable: Sort particle effects and other UI elements by sibling index.
  • Maskable: Supports Mask or RectMask2D.
  • No extra components required: No need for an additional Camera, RenderTexture, or Canvas.
  • Trail module support: Fully supports the Trail module.
  • CanvasGroup alpha support: Integrates with CanvasGroup alpha.
  • No allocations: Efficiently renders particles without allocations.
  • Any canvas render mode support: Works with overlay, camera space, and world space.
  • Any Render pipeline support: Compatible with Universal Render Pipeline (URP) and High Definition Render Pipeline (HDRP).
  • Disabling domain reload support: Supports disabling Enter Play Mode Options > Reload Domain.
  • Animatable material properties: Supports changing material properties with AnimationClip (AnimatableProperty).
    AnimatableProperty.gif
  • Multiple materials: Supports 8+ materials.
  • Correct positioning: Adjusts world space particle positions correctly when changing window size for standalone platforms (Windows, MacOSX, and Linux).
  • Adaptive scaling: Provides adaptive scaling for UI (AutoScalingMode).
  • Performance optimization: Mesh sharing group to improve performance.
    MeshSharing.gif
  • Particle attractor: Includes a particle attractor component.
    ParticleAttractor.gif
  • Emission position mode: Supports relative/absolute particle emission position modes.
    AbsolutePosition.gif
  • Custom view size: Fixes min/max particle size mismatch.
    CustomViewSize.gif



🎮 Demo



⚙ Installation

This package requires Unity 2018.3 or later.

Install via OpenUPM

  • This package is available on OpenUPM package registry.
  • This is the preferred method of installation, as you can easily receive updates as they're released.
  • If you have openupm-cli installed, then run the following command in your project's directory:
    openupm add com.coffee.ui-particle
    
  • To update the package, use Package Manager UI (Window > Package Manager) or run the following command with @{version}:
    openupm add com.coffee.ui-particle@4.8.0
    

Install via UPM (with Package Manager UI)

  • Click Window > Package Manager to open Package Manager UI.
  • Click + > Add package from git URL... and input the repository URL: https://github.com/mob-sakai/ParticleEffectForUGUI.git
  • To update the package, change suffix #{version} to the target version.
    • e.g. https://github.com/mob-sakai/ParticleEffectForUGUI.git#4.8.0

Install via UPM (Manually)

  • Open the Packages/manifest.json file in your project. Then add this package somewhere in the dependencies block:

    {
      "dependencies": {
        "com.coffee.ui-particle": "https://github.com/mob-sakai/ParticleEffectForUGUI.git",
        ...
      }
    }
    
  • To update the package, change suffix #{version} to the target version.

    • e.g. "com.coffee.ui-particle": "https://github.com/mob-sakai/ParticleEffectForUGUI.git#4.8.0",

Install as Embedded Package

  1. Download a source code zip file from Releases and extract it.
  2. Place it in your project's Packages directory.
  • If you want to fix bugs or add features, install it as an embedded package.
  • To update the package, you need to re-download it and replace the contents.



🚀 Usage

UIParticle Component

UIParticle controls the ParticleSystems that are attached to its own game objects and child game objects.

  • Maskable: Does this graphic allow maskable.
  • Scale: Scale the rendering particles. When the 3D toggle is enabled, 3D scale (x, y, z) is supported.
  • Animatable Properties: If you want to update material properties (e.g., _MainTex_ST, _Color) in AnimationClip, use this to mark as animatable.
  • Mesh Sharing: Particle simulation results are shared within the same group. A large number of the same effects can be displayed with a small load. When the Random toggle is enabled, it will be grouped randomly.
    • None: Disable mesh sharing.
    • Auto: Automatically select Primary/Replica.
    • Primary: Provides particle simulation results to the same group.
    • Primary Simulator: Primary, but do not render the particle (simulation only).
    • Replica: Render simulation results provided by the primary.
  • Position Mode: Emission position mode.
    • Absolute: The particles will be emitted from the world position.
    • Relative: The particles will be emitted from the scaled position.
  • Auto Scaling Mode: How to automatically adjust when the Canvas scale is changed by the screen size or reference resolution.
    • None: Do nothing.
    • Transform: Transform.lossyScale (=world scale) will be set to (1, 1, 1).
    • UIParticle: UIParticle.scale will be adjusted.
  • Use Custom View: Use this if the particles are not displayed correctly due to min/max particle size.
    • Custom view size: Change the bake view size.
  • Rendering Order: The ParticleSystem list to be rendered. You can change the order and the materials.

NOTE: Press the Refresh button to reconstruct the rendering order based on children ParticleSystem's sorting order and z-position.



Basic Usage

  1. Select GameObject/UI/ParticleSystem to create UIParticle with a ParticleSystem. particle
  2. Adjust the ParticleSystem as you like. particle1

With Your Existing ParticleSystem Prefab

  1. Select GameObject/UI/ParticleSystem (Empty) to create UIParticle. empty
  2. Drag and drop your ParticleSystem prefab onto UIParticle. particle3

With Mask or RectMask2D Component

If you want to mask particles, set a stencil-supported shader (such as UI/UIAdditive) to the material for ParticleSystem. If you use some custom shaders, see the How to Make a Custom Shader to Support Mask/RectMask2D Component section.



Script usage

// Instantiate ParticleSystem prefab with UIParticle on runtime.
var go = GameObject.Instantiate(prefab);
var uiParticle = go.AddComponent<UIParticle>();
uiParticle.scale = 100;

// Control by ParticleSystem.
particleSystem.Play();
particleSystem.Emit(10);

// Control by UIParticle.
uiParticle.Play();
uiParticle.Stop();



UIParticleAttractor component

UIParticleAttractor attracts particles generated by the specified ParticleSystem.

  • Particle System: Attracts particles generated by the specified particle system.
  • Destination Radius: Once the particle is within the radius, the particle lifetime will become 0, and OnAttracted will be called.
  • Delay Rate: Delay to start attracting. It is a percentage of the particle's start lifetime.
  • Max Speed: Maximum speed of attracting. If this value is too small, attracting may not be completed by the end of the lifetime, and OnAttracted may not be called.
  • Movement: Attracting movement type. (Linear, Smooth, Sphere)
  • Update Mode: Update mode.
    • Normal: Update with scaled delta time.
    • Unscaled Time: Update with unscaled delta time.
  • OnAttracted: An event called when attracting is complete (per particle).



🛠 Development Note

Compares the Baking mesh approach with the conventional approach

  • Baking mesh approach (=UIParticle)

    • Rendered as is.
    • Maskable.
    • Sortable.
    • Less objects.
  • Do nothing (=Plain ParticleSystem)

    • Rendered as is.
    • Looks like a glitch.
    • Not maskable.
    • Not sortable.
  • Convert particle to UIVertex (=UIParticleSystem)

    • Maskable.
    • Sortable.
    • Adjustment is difficult.
    • Requires UI shaders.
    • Difficult to adjust scale.
    • Force hierarchy scalling.
    • Simulation results are incorrect.
    • Trail, rotation of transform, time scaling are not supported.
    • Generate heavy GC every frame.
  • Use Canvas to sort (Sorting By Canvas )

    • Rendered as is.
    • Sortable.
    • You must to manage sorting orders.
    • Not maskable.
    • More batches.
    • Requires Canvas.
  • Use RenderTexture

    • Maskable.
    • Sortable.
    • Requires Camera and RenderTexture.
    • Difficult to adjust position and size.
    • Quality depends on the RenderTexture's setting.

Performance test results

Approach FPS on Editor FPS on iPhone6 FPS on Xperia XZ
Particle System 43 57 22
UIParticleSystem 4 3 0 (unmeasurable)
Sorting By Canvas 43 44 18
UIParticle 17 12 4
UIParticle with MeshSharing 44 45 30

🔍 FAQ: Why Are My UIParticles Not Displayed Correctly?

If ParticleSystem alone displays particles correctly but UIParticle does not, please check the following points:

  • Shader Limitation
    • UIParticle does not support all built-in shaders except for UI/Default.
    • Most cases can be solved by using UI/Additive or UI/Default.
  • Particles are not masked
  • Particles are too small
    • If particles are small enough, they will not appear on the screen.
    • Increase the Scale value.
    • If you don't want to change the apparent size depending on the resolution, try the Auto Scaling option.
  • Particles are too many
    • No more than 65535 vertices can be displayed (for mesh combination limitations).
    • Please set Emission module and Max Particles of ParticleSystem properly.
  • Particles are emitted off-screen.
    • When Position Mode = Relative, particles are emitted from the scaled position of the ParticleSystem, not from the screen point of the ParticleSystem.
    • Place the ParticleSystem in the proper position or try Position Mode = Absolute.
  • Attaching UIParticle to the same object as ParticleSystem
    • Transform.localScale will be overridden by the Auto Scaling option.
    • It is recommended to place ParticleSystem under UIParticle.
  • If Transform.localScale contains 0, rendering will be skipped.
  • Displayed particles are in the correct position but too large/too small
    • Adjust ParticleSystem.renderer.Min/MaxParticleSize.

Shader Limitation

The use of UI shaders is recommended.

  • If you need a simple Additive shader, use the UI/Additive shader instead.
  • If you need a simple alpha-blend shader, use the UI/Default shader instead.
  • If your custom shader does not work properly with UIParticle, consider creating a custom UI shader.

Built-in shaders are not supported

UIParticle does not support all built-in shaders except for UI/Default.
If their use is detected, an error is displayed in the inspector.
Use UI shaders instead.

(Unity 2018 or 2019) UV.zw components will be discarded

UIParticleRenderer renders the particles based on UIVertex.
Therefore, only the xy components are available for each UV in the shader. (zw components will be discarded).
So unfortunately, UIParticles will not work well with some shaders.

(Unity 2018 or 2019) Custom vertex streams

When using custom vertex streams, you can fill zw components with "unnecessary" data.
Refer to this issue for more information.


Overheads

UIParticle has some overheads, and the batching depends on uGUI.
When improving performance, keep the following in mind:

  • If you are displaying a large number of the same effect, consider the Mesh Sharing feature in the UIParticle Component.
    • If you don't like the uniform output, consider the Random Group feature.
  • If you are using multiple materials, you will have more draw calls.
    • Consider a single material, atlasing the sprites, and using Sprite mode in the Texture Sheet Animation module in the ParticleSystem.

How to Make a Custom Shader to Support Mask/RectMask2D Component

Shader tips
Shader "Your/Custom/Shader"
{
    Properties
    {
        // ...
        // #### required for Mask ####
        _StencilComp ("Stencil Comparison", Float) = 8
        _Stencil ("Stencil ID", Float) = 0
        _StencilOp ("Stencil Operation", Float) = 0
        _StencilWriteMask ("Stencil Write Mask", Float) = 255
        _StencilReadMask ("Stencil Read Mask", Float) = 255
        _ColorMask ("Color Mask", Float) = 15
        [Toggle(UNITY_UI_ALPHACLIP)] _UseUIAlphaClip ("Use Alpha Clip", Float) = 0
    }

    SubShader
    {
        Tags
        {
            // ...
        }

        // #### required for Mask ####
        Stencil
        {
            Ref [_Stencil]
            Comp [_StencilComp]
            Pass [_StencilOp]
            ReadMask [_StencilReadMask]
            WriteMask [_StencilWriteMask]
        }
        ColorMask [_ColorMask]
        // ...

        Pass
        {
            // ...
            // #### required for RectMask2D ####
            #include "UnityUI.cginc"
            #pragma multi_compile __ UNITY_UI_CLIP_RECT
            float4 _ClipRect;

            // #### required for Mask ####
            #pragma multi_compile __ UNITY_UI_ALPHACLIP

            struct appdata_t
            {
                // ...
            };

            struct v2f
            {
                // ...
                // #### required for RectMask2D ####
                float4 worldPosition    : TEXCOORD1;
            };
            
            v2f vert(appdata_t v)
            {
                v2f OUT;
                // ...
                // #### required for RectMask2D ####
                OUT.worldPosition = v.vertex;
                return OUT;
            }

            fixed4 frag(v2f IN) : SV_Target
            {
                // ...
                // #### required for RectMask2D ####
                #ifdef UNITY_UI_CLIP_RECT
                    color.a *= UnityGet2DClipping(IN.worldPosition.xy, _ClipRect);
                #endif

                // #### required for Mask ####
                #ifdef UNITY_UI_ALPHACLIP
                    clip (color.a - 0.001);
                #endif

                return color;
            }
            ENDCG
        }
    }
}



🤝 Contributing

Issues

Issues are incredibly valuable to this project:

  • Ideas provide a valuable source of contributions that others can make.
  • Problems help identify areas where this project needs improvement.
  • Questions indicate where contributors can enhance the user experience.

Pull Requests

Pull requests offer a fantastic way to contribute your ideas to this repository.
Please refer to CONTRIBUTING.md and develop branch for guidelines.

Support

This is an open-source project developed during my spare time.
If you appreciate it, consider supporting me.
Your support allows me to dedicate more time to development. 😊




License

  • MIT

Author

See Also