condition-based-waiting

Use when tests have race conditions, timing dependencies, or inconsistent pass/fail behavior - replaces arbitrary timeouts with condition polling to wait for actual state changes, eliminating flaky tests from timing guesses

⚡ おすすめ: コマンド1行でインストール(60秒)

下記のコマンドをコピーしてターミナル(Mac/Linux)または PowerShell(Windows)に貼り付けてください。ダウンロード → 解凍 → 配置まで全自動。

🍎 Mac / 🐧 Linux

mkdir -p ~/.claude/skills && cd ~/.claude/skills && curl -L -o condition-based-waiting.zip https://jpskill.com/download/18922.zip && unzip -o condition-based-waiting.zip && rm condition-based-waiting.zip

🪟 Windows (PowerShell)

$d = "$env:USERPROFILE\.claude\skills"; ni -Force -ItemType Directory $d | Out-Null; iwr https://jpskill.com/download/18922.zip -OutFile "$d\condition-based-waiting.zip"; Expand-Archive "$d\condition-based-waiting.zip" -DestinationPath $d -Force; ri "$d\condition-based-waiting.zip"

完了後、Claude Code を再起動 → 普通に「動画プロンプト作って」のように話しかけるだけで自動発動します。

💾 手動でダウンロードしたい(コマンドが難しい人向け)

1. 下の青いボタンを押して condition-based-waiting.zip をダウンロード
2. ZIPファイルをダブルクリックで解凍 → condition-based-waiting フォルダができる
3. そのフォルダを C:\Users\あなたの名前\.claude\skills\(Win)または ~/.claude/skills/(Mac)へ移動
4. Claude Code を再起動

⬇ .zip でダウンロード(推奨) ⬇ .skill 形式(上級者用) 元のソース ↗

⚠️ ダウンロード・利用は自己責任でお願いします。当サイトは内容・動作・安全性について責任を負いません。

🎯 このSkillでできること

下記の説明文を読むと、このSkillがあなたに何をしてくれるかが分かります。Claudeにこの分野の依頼をすると、自動で発動します。

📦 インストール方法 (3ステップ)

1. 上の「ダウンロード」ボタンを押して .skill ファイルを取得
2. ファイル名の拡張子を .skill から .zip に変えて展開(macは自動展開可)
3. 展開してできたフォルダを、ホームフォルダの .claude/skills/ に置く
- · macOS / Linux: ~/.claude/skills/
- · Windows: %USERPROFILE%\.claude\skills\

Claude Code を再起動すれば完了。「このSkillを使って…」と話しかけなくても、関連する依頼で自動的に呼び出されます。

詳しい使い方ガイドを見る →

最終更新

2026-05-18

取得日時

2026-05-18

同梱ファイル

📖 Claude が読む原文 SKILL.md(中身を展開)

この本文は AI(Claude)が読むための原文(英語または中国語)です。日本語訳は順次追加中。

Condition-Based Waiting

Overview

Flaky tests often guess at timing with arbitrary delays. This creates race conditions where tests pass on fast machines but fail under load or in CI.

Core principle: Wait for the actual condition you care about, not a guess about how long it takes.

When to Use

digraph when_to_use {
    "Test uses setTimeout/sleep?" [shape=diamond];
    "Testing timing behavior?" [shape=diamond];
    "Document WHY timeout needed" [shape=box];
    "Use condition-based waiting" [shape=box];

    "Test uses setTimeout/sleep?" -> "Testing timing behavior?" [label="yes"];
    "Testing timing behavior?" -> "Document WHY timeout needed" [label="yes"];
    "Testing timing behavior?" -> "Use condition-based waiting" [label="no"];
}

Use when:

Tests have arbitrary delays (setTimeout, sleep, time.sleep())
Tests are flaky (pass sometimes, fail under load)
Tests timeout when run in parallel
Waiting for async operations to complete

Don't use when:

Testing actual timing behavior (debounce, throttle intervals)
Always document WHY if using arbitrary timeout

Core Pattern

// ❌ BEFORE: Guessing at timing
await new Promise(r => setTimeout(r, 50));
const result = getResult();
expect(result).toBeDefined();

// ✅ AFTER: Waiting for condition
await waitFor(() => getResult() !== undefined);
const result = getResult();
expect(result).toBeDefined();

Quick Patterns

Scenario	Pattern
Wait for event	`waitFor(() => events.find(e => e.type === 'DONE'))`
Wait for state	`waitFor(() => machine.state === 'ready')`
Wait for count	`waitFor(() => items.length >= 5)`
Wait for file	`waitFor(() => fs.existsSync(path))`
Complex condition	`waitFor(() => obj.ready && obj.value > 10)`

Implementation

Generic polling function:

async function waitFor<T>(
  condition: () => T | undefined | null | false,
  description: string,
  timeoutMs = 5000
): Promise<T> {
  const startTime = Date.now();

  while (true) {
    const result = condition();
    if (result) return result;

    if (Date.now() - startTime > timeoutMs) {
      throw new Error(`Timeout waiting for ${description} after ${timeoutMs}ms`);
    }

    await new Promise(r => setTimeout(r, 10)); // Poll every 10ms
  }
}

See @example.ts for complete implementation with domain-specific helpers (waitForEvent, waitForEventCount, waitForEventMatch) from actual debugging session.

Common Mistakes

❌ Polling too fast: setTimeout(check, 1) - wastes CPU ✅ Fix: Poll every 10ms

❌ No timeout: Loop forever if condition never met ✅ Fix: Always include timeout with clear error

❌ Stale data: Cache state before loop ✅ Fix: Call getter inside loop for fresh data

When Arbitrary Timeout IS Correct

// Tool ticks every 100ms - need 2 ticks to verify partial output
await waitForEvent(manager, 'TOOL_STARTED'); // First: wait for condition
await new Promise(r => setTimeout(r, 200));   // Then: wait for timed behavior
// 200ms = 2 ticks at 100ms intervals - documented and justified

Requirements:

First wait for triggering condition
Based on known timing (not guessing)
Comment explaining WHY

Real-World Impact

From debugging session (2025-10-03):

Fixed 15 flaky tests across 3 files
Pass rate: 60% → 100%
Execution time: 40% faster
No more race conditions