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rag

Implements Retrieval-Augmented Generation for AI models to fetch and use external knowledge.

⚡ 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 rag.zip https://jpskill.com/download/22019.zip && unzip -o rag.zip && rm rag.zip
🪟 Windows (PowerShell) 
$d = "$env:USERPROFILE\.claude\skills"; ni -Force -ItemType Directory $d | Out-Null; iwr https://jpskill.com/download/22019.zip -OutFile "$d\rag.zip"; Expand-Archive "$d\rag.zip" -DestinationPath $d -Force; ri "$d\rag.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. 1. 下の青いボタンを押して rag.zip をダウンロード
  2. 2. ZIPファイルをダブルクリックで解凍 → rag フォルダができる
  3. 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. 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. 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. 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. 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
1
📖 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。

rag

Purpose

This skill implements Retrieval-Augmented Generation (RAG) for OpenClaw, enabling AI models to query external knowledge bases and integrate results into responses, enhancing accuracy for tasks like question-answering.

When to Use

Use this skill when your AI needs dynamic access to external data, such as querying a vector database for real-time information in NLP tasks, handling knowledge gaps in models, or augmenting responses in chatbots. Avoid it for purely generative tasks without external dependencies.

Key Capabilities

  • Fetches documents from vector databases (e.g., Pinecone, FAISS) using similarity search.
  • Integrates retrieved content into AI prompts for generation.
  • Supports embedding models for query vectorization (e.g., via Hugging Face transformers).
  • Handles chunking of large documents and relevance scoring.
  • Configurable via JSON files for custom sources and thresholds.

Usage Patterns

Always set the API key via environment variable: export OPENCLAW_API_KEY=$SERVICE_API_KEY. For CLI, use openclaw rag with required flags. In code, import the skill and call methods like rag.retrieve(). Pattern: Query -> Retrieve -> Augment -> Generate. Ensure queries are under 512 tokens to avoid truncation.

Common Commands/API

  • CLI Command: openclaw rag query --db pinecone --index myindex --query "What is RAG?" --top-k 5
    • Flags: --db specifies database (e.g., pinecone, faiss), --index for collection name, --top-k for result count, --query for search string.
  • API Endpoint: POST /v1/rag/retrieve with JSON body: {"query": "Explain AI", "db": "pinecone", "top_k": 3}
    • Response: JSON object with keys like "results" (array of documents) and "scores".
  • Code Snippet (Python):
    import openclaw
client = openclaw.Client(api_key=os.environ['OPENCLAW_API_KEY'])
results = client.rag.retrieve(query="What is NLP?", db="faiss", top_k=4)
  • Config Format: JSON file (e.g., rag_config.json):
    {
  "db": "pinecone",
  "api_endpoint": "https://api.pinecone.io",
  "embedding_model": "text-embedding-ada-002"
}

    Load it via: openclaw rag config load --file rag_config.json.

Integration Notes

Integrate by wrapping RAG calls around your AI pipeline: First, call rag.retrieve() to get context, then pass it to your model's prompt. For multi-skill workflows, chain with "aiml" skills by piping outputs (e.g., use RAG results as input to a generation skill). Handle asynchronous calls with await client.rag.retrieve_async() in async environments. Test integrations in a sandbox with mock databases to verify data flow.

Error Handling

Check for common errors like authentication failures (e.g., "401 Unauthorized" if $OPENCLAW_API_KEY is invalid) by verifying env vars first. For query errors, catch exceptions like RetrievalError and retry with exponential backoff: 

try:
    results = client.rag.retrieve(query=query)
except openclaw.RetrievalError as e:
    if e.status_code == 404:
        print("Database not found; create index first.")
    else:
        raise

Log all errors with details (e.g., error codes, messages) and use --debug flag in CLI for verbose output. Always validate inputs (e.g., ensure query is a string) before calling.

Concrete Usage Examples

  1. Example 1: CLI Query for Knowledge Retrieval
    Use to answer user questions: Run openclaw rag query --db faiss --index docs_index --query "Summarize RAG technique" --top-k 3. This retrieves top 3 documents from the "docs_index" database and outputs them. Pipe the result: openclaw rag query ... | openclaw aiml generate --prompt "Use this context:".

  2. Example 2: Code Integration for AI Response
    In a Python script, augment a chatbot: 

    query = "What is machine learning?"
context = client.rag.retrieve(query=query, db="pinecone", top_k=2)
full_prompt = f"Context: {context}\nAnswer: {query}"
response = client.aiml.generate(prompt=full_prompt)
print(response)

    This fetches relevant context and passes it to the AI for a informed response.

Graph Relationships

  • Related to: aiml (for generation integration), nlp (for text processing), vector-db (for data storage dependencies).
  • Depends on: embedding skills for vectorization.
  • Used by: knowledge-base skills for external data access.