بنقرة واحدة
game-development
Game development patterns, architectures, and best practices
التثبيت باستخدام Codex أو Claude انسخ هذا Prompt والصقه في Codex أو Claude أو مساعد آخر ليراجع صفحة Skill ويثبّتها لك.
القائمة
Game development patterns, architectures, and best practices
التثبيت باستخدام Codex أو Claude انسخ هذا Prompt والصقه في Codex أو Claude أو مساعد آخر ليراجع صفحة Skill ويثبّتها لك.
استنادا إلى تصنيف SOC المهني
Enterprise-grade repository analysis with arc42/C4 architecture documentation, technical debt quantification, security assessment, and multi-stakeholder reporting
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Flame Engine core fundamentals - components, input, collision, camera, animation, scenes
Flame Engine 2D 遊戲開發完整指南 - 核心、系統、模板、部署
Mobile development with React Native, Flutter, and native patterns
Flame Engine 14 game systems - quest, dialogue, inventory, combat, save/load, shop, crafting, and more
| name | game-development |
| description | Game development patterns, architectures, and best practices |
| domain | domain-applications |
| version | 1.0.0 |
| tags | ["game","unity","unreal","godot","flame","flutter","ecs","physics","multiplayer","ai"] |
| triggers | {"keywords":{"primary":["game","game development","unity","unreal","godot","flame","flutter game","ecs","game loop"],"secondary":["sprite","collision","physics","multiplayer","pathfinding","ai","behavior tree","dart game","2d game"]},"context_boost":["2d","3d","animation","rendering","engine"],"context_penalty":["web","api","database","backend"],"priority":"medium"} |
Patterns and practices for building games across platforms. Covers architecture, rendering, physics, AI, multiplayer, and optimization.
┌─────────────────────────────────────────────────────────────┐
│ Game Loop │
│ │
│ ┌─────────┐ ┌─────────┐ ┌─────────┐ ┌─────────┐ │
│ │ Input │ ─→ │ Update │ ─→ │ Physics │ ─→ │ Render │ │
│ │ Process │ │ Logic │ │ Step │ │ Frame │ │
│ └─────────┘ └─────────┘ └─────────┘ └─────────┘ │
│ ↑ │ │
│ └─────────────────────────────────────────────┘ │
│ Next Frame │
└─────────────────────────────────────────────────────────────┘
| Type | Use Case | Code Pattern |
|---|---|---|
| Fixed | Physics, determinism | while (accumulator >= dt) { update(dt); } |
| Variable | Rendering, animations | update(deltaTime); |
| Hybrid | Most games | Fixed physics, variable render |
// Hybrid game loop
let accumulator = 0;
const FIXED_DT = 1/60;
function gameLoop(currentTime: number) {
const deltaTime = currentTime - lastTime;
accumulator += deltaTime;
// Fixed timestep for physics
while (accumulator >= FIXED_DT) {
physicsUpdate(FIXED_DT);
accumulator -= FIXED_DT;
}
// Variable timestep for rendering
const alpha = accumulator / FIXED_DT;
render(alpha); // Interpolate between states
requestAnimationFrame(gameLoop);
}
┌─────────────────────────────────────────────────────────────┐
│ ECS Architecture │
│ │
│ Entity: Just an ID │
│ ┌─────┐ ┌─────┐ ┌─────┐ │
│ │ 1 │ │ 2 │ │ 3 │ │
│ └─────┘ └─────┘ └─────┘ │
│ │
│ Components: Pure Data │
│ ┌──────────┐ ┌──────────┐ ┌──────────┐ │
│ │ Position │ │ Velocity │ │ Sprite │ │
│ │ x, y, z │ │ vx, vy │ │ texture │ │
│ └──────────┘ └──────────┘ └──────────┘ │
│ │
│ Systems: Logic │
│ ┌────────────────┐ ┌────────────────┐ │
│ │ MovementSystem │ │ RenderSystem │ │
│ │ Position+Vel │ │ Position+Sprite│ │
│ └────────────────┘ └────────────────┘ │
└─────────────────────────────────────────────────────────────┘
// Component definitions
interface Position { x: number; y: number; }
interface Velocity { vx: number; vy: number; }
interface Sprite { texture: string; width: number; height: number; }
// System
function movementSystem(entities: Entity[], dt: number) {
for (const entity of entities) {
if (entity.has(Position) && entity.has(Velocity)) {
const pos = entity.get(Position);
const vel = entity.get(Velocity);
pos.x += vel.vx * dt;
pos.y += vel.vy * dt;
}
}
}
interface Animation {
frames: string[]; // Texture names
frameDuration: number; // Seconds per frame
loop: boolean;
}
class AnimatedSprite {
private currentFrame = 0;
private elapsed = 0;
update(dt: number) {
this.elapsed += dt;
if (this.elapsed >= this.animation.frameDuration) {
this.elapsed = 0;
this.currentFrame++;
if (this.currentFrame >= this.animation.frames.length) {
this.currentFrame = this.animation.loop ? 0 : this.animation.frames.length - 1;
}
}
}
get texture(): string {
return this.animation.frames[this.currentFrame];
}
}
| Method | Complexity | Use Case |
|---|---|---|
| AABB | O(n²) → O(n log n) | Boxes, simple shapes |
| Circle | O(n²) | Projectiles, characters |
| SAT | O(n²) | Complex convex polygons |
| Pixel Perfect | Expensive | Precise collision |
// AABB collision
function aabbIntersect(a: AABB, b: AABB): boolean {
return a.x < b.x + b.width &&
a.x + a.width > b.x &&
a.y < b.y + b.height &&
a.y + a.height > b.y;
}
// Spatial hash for broad phase
class SpatialHash {
private cells = new Map<string, Entity[]>();
private cellSize: number;
insert(entity: Entity) {
const key = this.getKey(entity.position);
if (!this.cells.has(key)) this.cells.set(key, []);
this.cells.get(key)!.push(entity);
}
query(position: Vector2): Entity[] {
// Check neighboring cells
const nearby: Entity[] = [];
for (let dx = -1; dx <= 1; dx++) {
for (let dy = -1; dy <= 1; dy++) {
const key = this.getKey({ x: position.x + dx * this.cellSize, y: position.y + dy * this.cellSize });
nearby.push(...(this.cells.get(key) || []));
}
}
return nearby;
}
}
interface State {
enter(): void;
update(dt: number): void;
exit(): void;
}
class EnemyAI {
private states = new Map<string, State>();
private currentState: State;
transition(stateName: string) {
this.currentState?.exit();
this.currentState = this.states.get(stateName)!;
this.currentState.enter();
}
}
// Example: Patrol → Chase → Attack
class PatrolState implements State {
enter() { this.setAnimation('walk'); }
update(dt: number) {
this.patrol();
if (this.canSeePlayer()) {
this.fsm.transition('chase');
}
}
exit() {}
}
┌─────────────────────────────────────────────────────────────┐
│ Behavior Tree │
│ │
│ [Selector] │
│ / \ │
│ [Sequence] [Patrol] │
│ / \ │
│ [CanSee?] [Attack] │
│ │ │
│ [Chase] │
└─────────────────────────────────────────────────────────────┘
function aStar(start: Node, goal: Node): Node[] {
const openSet = new PriorityQueue<Node>();
const cameFrom = new Map<Node, Node>();
const gScore = new Map<Node, number>();
const fScore = new Map<Node, number>();
gScore.set(start, 0);
fScore.set(start, heuristic(start, goal));
openSet.enqueue(start, fScore.get(start)!);
while (!openSet.isEmpty()) {
const current = openSet.dequeue()!;
if (current === goal) {
return reconstructPath(cameFrom, current);
}
for (const neighbor of getNeighbors(current)) {
const tentativeG = gScore.get(current)! + distance(current, neighbor);
if (tentativeG < (gScore.get(neighbor) ?? Infinity)) {
cameFrom.set(neighbor, current);
gScore.set(neighbor, tentativeG);
fScore.set(neighbor, tentativeG + heuristic(neighbor, goal));
openSet.enqueue(neighbor, fScore.get(neighbor)!);
}
}
}
return []; // No path found
}
| Model | Latency | Complexity | Use Case |
|---|---|---|---|
| Peer-to-Peer | Low | Medium | Fighting games, small lobbies |
| Client-Server | Medium | High | Most online games |
| Authoritative Server | Higher | Highest | Competitive games |
// Client-side prediction
class NetworkedPlayer {
private pendingInputs: Input[] = [];
private serverState: PlayerState;
update(input: Input) {
// 1. Apply input locally (prediction)
this.applyInput(input);
this.pendingInputs.push(input);
// 2. Send to server
this.sendInput(input);
}
onServerUpdate(state: PlayerState, lastProcessedInput: number) {
// 3. Reconcile with server
this.serverState = state;
// 4. Re-apply unprocessed inputs
this.pendingInputs = this.pendingInputs.filter(i => i.id > lastProcessedInput);
for (const input of this.pendingInputs) {
this.applyInput(input);
}
}
}
// Delta compression
interface StateDelta {
timestamp: number;
changes: Map<EntityId, ComponentChanges>;
}
function computeDelta(prev: GameState, curr: GameState): StateDelta {
const changes = new Map();
for (const [id, entity] of curr.entities) {
const prevEntity = prev.entities.get(id);
if (!prevEntity || hasChanged(prevEntity, entity)) {
changes.set(id, getChangedComponents(prevEntity, entity));
}
}
return { timestamp: curr.timestamp, changes };
}
| Technique | Benefit | Implementation |
|---|---|---|
| Batching | Reduce draw calls | Combine sprites with same texture |
| Culling | Skip invisible objects | Frustum culling, occlusion culling |
| LOD | Reduce polygon count | Distance-based model switching |
| Instancing | Efficient duplicates | GPU instancing for repeated objects |
// Object pooling
class ObjectPool<T> {
private pool: T[] = [];
private factory: () => T;
acquire(): T {
return this.pool.pop() ?? this.factory();
}
release(obj: T) {
this.reset(obj);
this.pool.push(obj);
}
}
// Usage
const bulletPool = new ObjectPool(() => new Bullet());
function fireBullet() {
const bullet = bulletPool.acquire();
bullet.init(position, direction);
activeBullets.add(bullet);
}
function onBulletHit(bullet: Bullet) {
activeBullets.delete(bullet);
bulletPool.release(bullet);
}
| Engine | Language | Best For | Platform | Skill |
|---|---|---|---|---|
| Unity | C# | Mobile, indie, VR | All | - |
| Unreal | C++, Blueprint | AAA, realistic | PC, Console | - |
| Godot | GDScript, C# | Indie, 2D | All | - |
| Flame | Dart | Flutter 2D, casual | All | flame/ |
| Phaser | JavaScript | Web 2D | Browser | - |
| Three.js | JavaScript | Web 3D | Browser | - |
| Bevy | Rust | Performance | Desktop | - |
| LÖVE | Lua | Simple 2D | Desktop | - |
專為 Flutter 開發者設計的 2D 遊戲引擎,詳細文件請參考 flame/SKILL.md: