unity-architecture
GitHub为Unity游戏架构提供建议,涵盖模块划分、解耦、SOLID原则及重构方向。适用于规划代码结构、降低耦合或决定重构策略的场景,强调最小化架构与显式依赖管理。
Trigger Scenarios
Install
npx skills add Besty0728/Unity-Skills --skill unity-architecture -g -y
SKILL.md
Frontmatter
{
"name": "unity-architecture",
"description": "Advises on Unity gameplay and system architecture — module boundaries, decoupling, scene composition, SOLID structure, refactor direction. Use when planning how to organize code, splitting responsibilities, reducing coupling, or choosing a refactor direction, before writing structural code. 为 Unity 游戏与系统架构提供建议(模块边界、解耦、场景组织、SOLID、重构方向);当用户要规划代码结构、划分职责、降低耦合或决定重构方向时使用。"
}
Unity Architecture Advisor
Use this before generating lots of gameplay scripts or when the user asks for a cleaner architecture.
Workflow
- Identify scope: prototype, small game, or long-lived project.
- Define the core loop and the minimum runtime systems needed.
- Recommend the smallest architecture that fits the scope.
- Separate:
- scene/bootstrap layer
- gameplay/domain logic
- data/config assets
- view/presentation layer
- Call out what should stay simple now vs what is worth abstracting.
Output Format
When using this skill, structure the advice as:
- Project tier: prototype / small-game / long-lived
- Recommended modules: 3-7 modules with one-line responsibilities
- Scene/bootstrap plan: where composition and initialization happen
- Data ownership: what belongs in scene objects, ScriptableObjects, or pure C# classes
- Communication rules: direct refs, interfaces, events, or commands
- Performance risks: only the hot paths that matter
- Do now / skip now: avoid over-engineering
Default Guidance
- Prefer thin
MonoBehaviourscripts as composition bridges. - Put reusable gameplay rules in plain C# classes when possible.
- Use
ScriptableObjectfor authored config and shared static data, not as a default dump for runtime state. - Keep dependencies explicit. Avoid hidden global state unless the project size clearly justifies a small service layer.
- Favor simple module boundaries over framework-heavy architecture.
Explicit Execution Order and Entry Guards
Most "random" gameplay bugs trace back to two silent assumptions: that scripts run in a predictable order, and that Update runs only when its data is ready. Neither is true unless you make them so.
Make startup order explicit
Do not rely on Script Execution Order panels or accidental Awake ordering. Prefer these patterns in order of preference:
- One Bootstrap script as the single entry point. It owns the initialization sequence and calls
sub.Init()on the managers it creates. Only this one script has[DefaultExecutionOrder(-10000)]. - Pull, don't push: a subscriber that needs data calls
source.GetValue()on demand or subscribes to an event. A publisher that pushes into others during its ownAwakecreates hidden order dependencies. - Reserve
[DefaultExecutionOrder(n)]for load-bearing singletons only (Bootstrap, InputRouter, SceneController). If more than 3-4 scripts need it, the architecture is wrong, not the ordering.
The analogous ECS pattern — [UpdateBefore(typeof(BarSystem))] / [UpdateAfter] — works because the framework validates contradictions at sort time. In MonoBehaviour code the compiler won't catch them; be conservative. Source: EntitiesSamples/Docs/systems.md:32 — "if the ordering attributes of a group's children create a contradiction, an exception is thrown".
Make update preconditions explicit
Every Update / LateUpdate / FixedUpdate should open with guard clauses that early-return when the system is not ready. Prefer the cheapest check first:
void Update() {
if (!_isInitialized) return; // construction-time
if (_dataSource == null) return; // dependency-level
if (_paused) return; // gameplay-state
// real work here
}
A missing guard is the difference between "doesn't run yet" (safe) and "runs with stale/null data and silently corrupts state" (debug nightmare). The ECS equivalent is state.RequireForUpdate<Config>() in OnCreate, which turns the precondition into a system-level invariant. Source: Dots101/Entities101/Assets/HelloCube/3. Prefabs/SpawnSystem.cs:17-19 — the system does not update unless a Spawner entity exists.
Guardrails
Mode: Documentation only — no REST skills to gate; load freely under any operating mode (Approval / Auto / Bypass).
- Do not start from a giant reusable framework unless the project truly needs it.
- Do not add layers just to satisfy textbook SOLID wording.
- Prefer a small architecture that can grow, not an impressive one that slows iteration.
Load Related Advisory Modules When Needed
- Pattern choice: see
../patterns/SKILL.md - Async / Update / UniTask decisions: see
../async/SKILL.md - Inspector-facing field design: see
../inspector/SKILL.md - Script quality review: see
../scriptdesign/SKILL.md
Version History
- ec9f870 Current 2026-07-05 14:39


