Web Worker Implementation with Claude Code
Learn about web worker implementation using Claude Code. Practical tips and code examples included.
Web Workerが必要な場面
JavaScriptはシングルスレッドで動作するため、重い計算処理はUIをフリーズさせます。Web Workerを使えば、バックグラウンドスレッドで処理を実行し、メインスレッドの応答性を維持できます。Claude Codeを使えば、型安全なWeb Worker通信の仕組みを素早く構築できます。
型安全なWeb Worker通信
> TypeScriptで型安全なWeb Workerの通信レイヤーを作って。
> メッセージの型定義とPromiseベースの呼び出しに対応して。// worker-types.ts
export interface WorkerRequest {
id: string;
type: string;
payload: any;
}
export interface WorkerResponse {
id: string;
result?: any;
error?: string;
}
// typed-worker.ts
type MessageHandler = (payload: any) => any | Promise<any>;
class TypedWorkerHost {
private worker: Worker;
private pending = new Map<string, { resolve: Function; reject: Function }>();
private counter = 0;
constructor(workerUrl: string | URL) {
this.worker = new Worker(workerUrl, { type: 'module' });
this.worker.onmessage = (e: MessageEvent<WorkerResponse>) => {
const { id, result, error } = e.data;
const handler = this.pending.get(id);
if (!handler) return;
this.pending.delete(id);
error ? handler.reject(new Error(error)) : handler.resolve(result);
};
}
call<T>(type: string, payload: any): Promise<T> {
return new Promise((resolve, reject) => {
const id = `msg-${++this.counter}`;
this.pending.set(id, { resolve, reject });
this.worker.postMessage({ id, type, payload } satisfies WorkerRequest);
});
}
terminate() {
this.worker.terminate();
this.pending.forEach(({ reject }) => reject(new Error('Worker terminated')));
this.pending.clear();
}
}ワーカー側の実装
// heavy-computation.worker.ts
const handlers: Record<string, (payload: any) => any> = {
'sort-data': (data: number[]) => {
return data.sort((a, b) => a - b);
},
'filter-search': ({ items, query }: { items: any[]; query: string }) => {
return items.filter((item) =>
Object.values(item).some((v) =>
String(v).toLowerCase().includes(query.toLowerCase())
)
);
},
'compute-statistics': (data: number[]) => {
const n = data.length;
const mean = data.reduce((a, b) => a + b, 0) / n;
const sorted = [...data].sort((a, b) => a - b);
const median = n % 2 === 0
? (sorted[n / 2 - 1] + sorted[n / 2]) / 2
: sorted[Math.floor(n / 2)];
const variance = data.reduce((sum, x) => sum + (x - mean) ** 2, 0) / n;
return { mean, median, stdDev: Math.sqrt(variance), min: sorted[0], max: sorted[n - 1] };
},
};
self.onmessage = async (e: MessageEvent<WorkerRequest>) => {
const { id, type, payload } = e.data;
try {
const handler = handlers[type];
if (!handler) throw new Error(`Unknown handler: ${type}`);
const result = await handler(payload);
self.postMessage({ id, result });
} catch (error: any) {
self.postMessage({ id, error: error.message });
}
};ワーカープール
> 複数のWorkerを管理するプールを作って。タスクを効率よく分散して。class WorkerPool {
private workers: TypedWorkerHost[] = [];
private queue: { type: string; payload: any; resolve: Function; reject: Function }[] = [];
private busy: Set<number> = new Set();
constructor(workerUrl: string, poolSize: number = navigator.hardwareConcurrency || 4) {
for (let i = 0; i < poolSize; i++) {
this.workers.push(new TypedWorkerHost(new URL(workerUrl, import.meta.url)));
}
}
async execute<T>(type: string, payload: any): Promise<T> {
const freeIndex = this.workers.findIndex((_, i) => !this.busy.has(i));
if (freeIndex === -1) {
return new Promise((resolve, reject) => {
this.queue.push({ type, payload, resolve, reject });
});
}
return this.runOnWorker(freeIndex, type, payload);
}
private async runOnWorker<T>(index: number, type: string, payload: any): Promise<T> {
this.busy.add(index);
try {
return await this.workers[index].call<T>(type, payload);
} finally {
this.busy.delete(index);
this.processQueue();
}
}
private processQueue() {
if (this.queue.length === 0) return;
const freeIndex = this.workers.findIndex((_, i) => !this.busy.has(i));
if (freeIndex === -1) return;
const task = this.queue.shift()!;
this.runOnWorker(freeIndex, task.type, task.payload)
.then(task.resolve)
.catch(task.reject);
}
terminate() {
this.workers.forEach((w) => w.terminate());
}
}Reactフックでの活用
function useWorker<T>(type: string, payload: any, deps: any[]) {
const [result, setResult] = useState<T | null>(null);
const [loading, setLoading] = useState(false);
useEffect(() => {
setLoading(true);
pool.execute<T>(type, payload)
.then(setResult)
.finally(() => setLoading(false));
}, deps);
return { result, loading };
}Zusammenfassung
Claude Codeを使えば、型安全なWeb Worker通信からワーカープールまで、並列処理基盤を効率的に構築できます。パフォーマンス全般はパフォーマンス最適化を、Service Workerとの違いはService Worker活用を参照してください。
Web Worker APIの仕様はMDN Web Docs - Web Workersをご覧ください。
#Claude Code
#Web Worker
#並列処理
#performance
#TypeScript
Related Posts
Tips & Tricks
Tips & Tricks
10 Tipps, um Ihre Produktivität mit Claude Code zu verdreifachen
Entdecken Sie 10 praktische Tipps, um mehr aus Claude Code herauszuholen. Von Prompt-Strategien bis zu Workflow-Abkürzungen — diese Techniken steigern Ihre Effizienz ab sofort.
Tips & Tricks
Tips & Tricks
Canvas/WebGL-Optimierung mit Claude Code
Erfahren Sie, wie Sie Canvas/WebGL mit Claude Code optimieren. Mit praktischen Tipps und Codebeispielen.
Tips & Tricks
Tips & Tricks
Markdown Implementation with Claude Code
Learn about markdown implementation using Claude Code. Practical tips and code examples included.