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3d-games

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3D game development principles. Rendering, shaders, physics, cameras.

@sickn33MIT2/21/2026
38out of 100
(0)
13.4k
3
14

Install Skill

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Install globally (user-level):

npx skillhub install sickn33/antigravity-awesome-skills/3d-games

Install in current project:

npx skillhub install sickn33/antigravity-awesome-skills/3d-games --project

Suggested path: ~/.claude/skills/3d-games/

AI Review

Instruction Quality38
Description Precision20
Usefulness41
Technical Soundness60

Scored 38 for a reference-only skill with 7 topic tables that are too thin to provide real guidance. Each table has 2-4 rows of brief descriptions ('Frustum culling: Don't render off-screen'). Description has no trigger phrases (DP=20). Would need actual code examples, shader snippets, and a clear workflow to score meaningfully higher.

SKILL.md Content

---
name: 3d-games
description: "3D game development principles. Rendering, shaders, physics, cameras."
allowed-tools: Read, Write, Edit, Glob, Grep
risk: unknown
source: community
---

# 3D Game Development

> Principles for 3D game systems.

---

## 1. Rendering Pipeline

### Stages

```
1. Vertex Processing → Transform geometry
2. Rasterization → Convert to pixels
3. Fragment Processing → Color pixels
4. Output → To screen
```

### Optimization Principles

| Technique | Purpose |
|-----------|---------|
| **Frustum culling** | Don't render off-screen |
| **Occlusion culling** | Don't render hidden |
| **LOD** | Less detail at distance |
| **Batching** | Combine draw calls |

---

## 2. Shader Principles

### Shader Types

| Type | Purpose |
|------|---------|
| **Vertex** | Position, normals |
| **Fragment/Pixel** | Color, lighting |
| **Compute** | General computation |

### When to Write Custom Shaders

- Special effects (water, fire, portals)
- Stylized rendering (toon, sketch)
- Performance optimization
- Unique visual identity

---

## 3. 3D Physics

### Collision Shapes

| Shape | Use Case |
|-------|----------|
| **Box** | Buildings, crates |
| **Sphere** | Balls, quick checks |
| **Capsule** | Characters |
| **Mesh** | Terrain (expensive) |

### Principles

- Simple colliders, complex visuals
- Layer-based filtering
- Raycasting for line-of-sight

---

## 4. Camera Systems

### Camera Types

| Type | Use |
|------|-----|
| **Third-person** | Action, adventure |
| **First-person** | Immersive, FPS |
| **Isometric** | Strategy, RPG |
| **Orbital** | Inspection, editors |

### Camera Feel

- Smooth following (lerp)
- Collision avoidance
- Look-ahead for movement
- FOV changes for speed

---

## 5. Lighting

### Light Types

| Type | Use |
|------|-----|
| **Directional** | Sun, moon |
| **Point** | Lamps, torches |
| **Spot** | Flashlight, stage |
| **Ambient** | Base illumination |

### Performance Consideration

- Real-time shadows are expensive
- Bake when possible
- Shadow cascades for large worlds

---

## 6. Level of Detail (LOD)

### LOD Strategy

| Distance | Model |
|----------|-------|
| Near | Full detail |
| Medium | 50% triangles |
| Far | 25% or billboard |

---

## 7. Anti-Patterns

| ❌ Don't | ✅ Do |
|----------|-------|
| Mesh colliders everywhere | Simple shapes |
| Real-time shadows on mobile | Baked or blob shadows |
| One LOD for all distances | Distance-based LOD |
| Unoptimized shaders | Profile and simplify |

---

> **Remember:** 3D is about illusion. Create the impression of detail, not the detail itself.

## When to Use
This skill is applicable to execute the workflow or actions described in the overview.