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# Integration with Unity for [DragonECS](https://github.com/DCFApixels/DragonECS)
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English(WIP)

This package integrates DragonECS with the Unity editor and runtime. It provides visual debugging and profiling tools, editor templates for entity/component setup, and utilities for binding entities to Unity GameObjects. > [!WARNING] > The project is a work in progress, API may change. > > While the English version of the README is incomplete, the [Russian README](https://github.com/DCFApixels/DragonECS-Unity/blob/main/README-RU.md) contains additional details. //https://gist.github.com/DCFApixels/c250f2561f09e09ab3e6a4bd4f3013cb#file-unitycomponenttemplates-cs # Table of contents - [Installation](#installation) - [Debug](#debug) - [Debug service](#debug-service) - [Debug module](#debug-module) - [Visual debugging](#Visual-debugging) - [Templates](#Templates) - [Binding to GameObjects](#Binding-to-GameObjects) - [World Provider](#world-provider) - [Pipeline template](#Pipeline-template) - [FixedUpdate LateUpdate](#fixedupdate-lateupdate) - [Project documentation](#Project-documentation) - [Settings window](#Settings-window) - [Reference Repairer](#Reference-Repairer) - [FAQ](#faq)
# Installation Versioning semantics - [Open](https://gist.github.com/DCFApixels/af79284955bf40e9476cdcac79d7b098#file-dcfapixels_versioning-md) ## Environment Requirements: - Dependency: [DragonECS](https://github.com/DCFApixels/DragonECS) - Minimum C# version: 8.0 - Minimum Unity version: 2021.2.0 ## Unity Installation * ### Unity package Installation as a Unity package is supported by adding the Git URL [in PackageManager](https://docs.unity3d.com/2023.2/Documentation/Manual/upm-ui-giturl.html): ``` https://github.com/DCFApixels/DragonECS-Unity.git ``` Or add the package entry to `Packages/manifest.json`: ``` "com.dcfa_pixels.dragonecs-unity": "https://github.com/DCFApixels/DragonECS-Unity.git", ``` ### Source install The package sources can be copied directly into the project.
# Debug ## Debug service `UnityDebugService` implementation of the [Debug service for `EcsDebug`](https://github.com/DCFApixels/DragonECS/blob/main/README.md#ecsdebug). In the editor it initializes automatically and integrates with Unity systems: `EcsDebug.Print` is forwarded to the Unity console, `EcsProfilerMarker` is connected to the Unity profiler, and related debug functionality is exposed. ```c# // Activate manually UnityDebugService.Activate(); // Print to Unity console EcsDebug.Print("Example message"); var someMarker = new EcsProfilerMarker("SomeMarker"); someMarker.Begin(); // Measured time will be visible in the Unity profiler. someMarker.End(); // Stop play mode EcsDebug.Break(); ``` ## Visual debugging Visual debugging is provided as editor monitor objects that display internal framework state during `Play Mode`. Monitors are placed in the `DontDestroyOnLoad` section. ```c# _pipeline = EcsPipeline.New() //... // Debugging initialization for the pipeline and worlds. .AddUnityDebug(_world, _eventWorld) //... .BuildAndInit(); ```

----- * ### `PipelineMonitor` Displays `EcsPipeline` state. Systems are displayed in the order of their execution.

----- * ### `PipelineProcessMonitor` Displays processes and systems in a matrix layout. Systems are shown in execution order. A mark at the intersection of a system and a process indicates that the system is part of that process.

----- * ### `WorldMonitor` Displays `EcsWorld` state. A separate monitor is created for each world passed to `AddUnityDebug(...)`.

----- * ### `EntityMonitor` Displays entity state and allows adding, modifying or removing components at runtime (Play Mode). One monitor is created per entity; entity monitors are grouped under the corresponding world monitor.

-----
# Templates The integration provides templates that extend `ITemplateNode` for editor-driven entity configuration. ## ScriptableEntityTemplate Stored as a `ScriptableObject` asset.
Create asset: Asset > Create > DragonECS > ScriptableEntityTemplate.

To add a component to the `Add Component` menu, a [component template](#component-template) is required.

----- ## MonoEntityTemplate Attachable to a `GameObject`. Inherits from `MonoBehaviour`.
Add component: Add Component > DragonECS > MonoEntityTemplate.

To add a component to the `Add Component` menu, a [component template](#component-template) is required.

----- ## Component Template To expose a component in the `Add Component` menu, a template is required. Component templates are types implementing `IComponentTemplate` or components implementing `ITemplateNode` together with `IEcsComponentMember`. ### Implementation * Simple example: ```c# // Add [Serializable] attribute to the component type. [Serializable] struct SomeComponent : IEcsComponent { /* ... */ } class SomeComponentTemplate : ComponentTemplate { } ``` ```c# // Same for tag components. [Serializable] struct SomeTagComponent : IEcsTagComponent { } class SomeTagComponentTemplate : TagComponentTemplate { } ```
Other approaches #### Implementing `ITemplateNode` on a component This approach can be convenient because it does not require a separate template class; the component itself acts as the template and is straightforward to implement. The downside is higher risk of missing references when types are renamed if `[SerializeReference]` is used. ```c# public struct Health : IEcsComponent, ITemplateNode { public float Points; public void Apply(short worldID, int entityID) { EcsPool.Apply(worldID, entityID) = this; } } ``` #### Custom template implementation If built-in `ComponentTemplate` or `TagComponentTemplate` do not fit the requirements, implement a custom template by implementing `IComponentTemplate`. This can be useful for custom pools. In most cases the built-in templates are sufficient. ```c# [Serializable] struct SomeComponent : IEcsComponent { /* ... */ } class SomeComponentTemplate : IComponentTemplate { [SerializeField] protected SomeComponent component; public Type Type { get { return typeof(SomeComponent); } } public bool IsUnique { get { return true; } } public void Apply(int worldID, int entityID) { EcsPool.Apply(worldID, entityID) = component; } public object GetRaw() { return component; } public void SetRaw(object raw) { component = (SomeComponent)raw; } public void OnGizmos(Transform transform, IComponentTemplate.GizmosMode mode) { /*...*/ } public void OnValidate(UnityEngine.Object obj) { /*...*/ } } ```

### Customizing type display The `Add Component` dropdown supports hierarchical grouping based on the `[MetaGroup]` attribute. By default components in the Inspector receive a deterministic color derived from the component name. The display mode can be changed in the settings window. A specific color can be set using the `[MetaColor]` attribute. If the integration locates the corresponding script (by matching the type name to a file or via `[MetaID]`), a file icon appears next to the remove button — single-click selects the script in the project, double-click opens it. If `[MetaDescription]` is present, a tooltip icon is shown with the description text.
### Using component templates outside standard entity templates Component templates can be used outside of `MonoEntityTemplate` and `ScriptableEntityTemplate` in arbitrary classes. Two approaches are provided: Attribute `[ComponentTemplateField]`: ```c# // Display a field as a component, customizable with meta attributes. // Similar to components in MonoEntityTemplate or ScriptableEntityTemplate. [SerializeField, ComponentTemplateField] private SomeComponent _someComponent1; ``` ```c# // For SerializeReference adds a button to pick available ITemplateNode implementation [SerializeReference, ComponentTemplateField] private ITemplateNode _someComponent1; ``` Wrapper `ComponentTemplateProperty`: ```c# // Wrapper around ITemplateNode, similar to the ComponentTemplateField example. private ComponentTemplateProperty _someComponent2; ``` Both approaches work for arrays too: ```c# [SerializeReference, ComponentTemplateField] private IComponentTemplate[] _components; // or private ComponentTemplateProperty[] _components; ```
# Binding to GameObjects Entities and GameObjects are linked using connects. From the GameObject side use `EcsEntityConnect`; from the entity side `GameObjectConnect` is created/removed automatically. `EcsEntityConnect` acts as the manager connect. ```c# EcsEntityConnect connect = /*...*/; entlong entity = _world.NewEntityLong(); // Connect entity with GameObject. // GameObjectConnect is added to the entity automatically // and templates are applied. connect.ConnectWith(entity); // Or create without applying templates. connect.ConnectWith(entity, false); // Disconnect. // GameObjectConnect will be removed automatically. connect.Disconnect(); ```
Add component: Add Component > DragonECS > EcsEntityConnect.

> To view all components of the linked entity, expand `RUNTIME COMPONENTS`. > The bottom panel contains utility buttons: 1) Disconnect entity. 2) Delete entity. 3) Auto-fill template array. 4) Cascade auto-fill for all child connects in the hierarchy. --- `AutoEntityCreator` automatically creates an entity and binds it to the GameObject. In the inspector specify the `EcsEntityConnect` to use and the [world provider](#world-provider) where the entity should be created.
Add component: Add Component > DragonECS > AutoEntityCreator.

> The bottom panel includes helper buttons: 1) Auto-fill the connect reference. 2) Cascade auto-fill for all child instances in the hierarchy.
# World Provider `EcsWorldProvider` is a `ScriptableObject` wrapper over `TWorld` intended to expose a world instance via the Unity inspector. For simple scenarios the singleton provider `EcsDefaultWorldSingletonProvider` is sufficient. ```c# // The singleton provider is created automatically under "Assets/Resource". EcsDefaultWorldSingletonProvider provider = EcsDefaultWorldSingletonProvider.Instance; // ... EcsDefaultWorld world = new EcsDefaultWorld(); // Set the world instance to the provider. provider.Set(world); // ... // Get the world instance; the provider will create a default world if empty. EcsDefaultWorld world = provider.Get(); EcsPipeline pipeline = EcsPipeline.New() //... // Inject the provider world into systems. .Inject(world) //... .BuildAndInit(); ```
Example: provider implementation for a custom world type ```c# // Example implementation of a provider to expose a custom world type [CreateAssetMenu(fileName = nameof(EcsMyWorldProvider), menuName = EcsConsts.FRAMEWORK_NAME + "/WorldProviders/" + nameof(EcsMyWorldProvider), order = 1)] public class EcsMyWorldProvider : EcsWorldProvider { } // Example singleton provider implementation for a custom world type public class EcsMyWorldSingletonProvider : EcsWorldProvider { private static EcsMyWorldSingletonProvider _instance; public static EcsMyWorldSingletonProvider Instance { get { if (_instance == null) { _instance = FindOrCreateSingleton("SingletonMyWorld"); } return _instance; } } } ```
Create provider asset: Asset > Create > DragonECS > WorldProviders > Select world type.


# Pipeline templates Pipelines and entities can be assembled from templates. Pipeline templates are modules implementing the `IEcsModule` interface. The package provides two pipeline template types by default: `ScriptablePipelineTemplate` and `MonoPipelineTemplate`. ## ScriptablePipelineTemplate Stored as a `ScriptableObject` asset. Create via `Asset > Create > DragonECS > ScriptablePipelineTemplate`.

## MonoPipelineTemplate Attachable to a `GameObject`. Inherits from `MonoBehaviour`. Add via `Add Component > DragonECS > MonoPipelineTemplate`.


# EcsRootUnity Lightweight Ecs root implementation for Unity. Builds a pipeline from pipeline templates. Derives from `MonoBehaviour`. Add via `Add Component > DragonECS > EcsRootUnity`.


# FixedUpdate and LateUpdate ```c# using DCFApixels.DragonECS; using UnityEngine; public class EcsRoot : MonoBehaviour { private EcsPipeline _pipeline; //... private void Update() { // Standard pipeline run. _pipeline.Run(); } private void FixedUpdate() { // Pipeline run for FixedUpdate. _pipeline.FixedRun(); } private void LateUpdate() { // Pipeline run for LateUpdate. _pipeline.LateRun(); } // ... } ```
# Project documentation A documentation window based on meta-attributes is available via `Tools > DragonECS > Documentation`. Documentation is generated on first open and when the `Update` button is pressed.


# Settings window The settings window exposes several options, including component display modes in the Inspector. At the bottom, toggles for framework define symbols are available. Open via `Tools > DragonECS > Settings`.


# Reference Repairer Some parts of the integration heavily use `[SerializeReference]`, which can lose type information after renames. The `Reference Repairer` tool collects assets with missing types and provides an interface to map new type names and repair collected assets. Open via `Tools > DragonECS > Reference Repairer`. > If missing types have a `[MetaID(id)]` attribute, the tool attempts automatic mapping.


# FAQ ## Cannot add `EcsEntityConnect` or other components This issue may appear after a package update. Recommended remediation steps: run `Assets -> Reimport All`, or close Unity, remove the project's `Library` folder and reopen the project.