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SKILL.md

name coderabbit-sdk-patterns
description Apply production-ready CodeRabbit SDK patterns for TypeScript and Python. Use when implementing CodeRabbit integrations, refactoring SDK usage, or establishing team coding standards for CodeRabbit. Trigger with phrases like "coderabbit SDK patterns", "coderabbit best practices", "coderabbit code patterns", "idiomatic coderabbit".
allowed-tools Read, Write, Edit
version 1.0.0
license MIT
author Jeremy Longshore <jeremy@intentsolutions.io>

CodeRabbit SDK Patterns

Overview

Production-ready patterns for CodeRabbit SDK usage in TypeScript and Python.

Prerequisites

  • Completed coderabbit-install-auth setup
  • Familiarity with async/await patterns
  • Understanding of error handling best practices

Instructions

Step 1: Implement Singleton Pattern (Recommended)

// src/coderabbit/client.ts
import { CodeRabbitClient } from '@coderabbit/sdk';

let instance: CodeRabbitClient | null = null;

export function getCodeRabbitClient(): CodeRabbitClient {
  if (!instance) {
    instance = new CodeRabbitClient({
      apiKey: process.env.CODERABBIT_API_KEY!,
      // Additional options
    });
  }
  return instance;
}

Step 2: Add Error Handling Wrapper

import { CodeRabbitError } from '@coderabbit/sdk';

async function safeCodeRabbitCall<T>(
  operation: () => Promise<T>
): Promise<{ data: T | null; error: Error | null }> {
  try {
    const data = await operation();
    return { data, error: null };
  } catch (err) {
    if (err instanceof CodeRabbitError) {
      console.error({
        code: err.code,
        message: err.message,
      });
    }
    return { data: null, error: err as Error };
  }
}

Step 3: Implement Retry Logic

async function withRetry<T>(
  operation: () => Promise<T>,
  maxRetries = 3,
  backoffMs = 1000
): Promise<T> {
  for (let attempt = 1; attempt <= maxRetries; attempt++) {
    try {
      return await operation();
    } catch (err) {
      if (attempt === maxRetries) throw err;
      const delay = backoffMs * Math.pow(2, attempt - 1);
      await new Promise(r => setTimeout(r, delay));
    }
  }
  throw new Error('Unreachable');
}

Output

  • Type-safe client singleton
  • Robust error handling with structured logging
  • Automatic retry with exponential backoff
  • Runtime validation for API responses

Error Handling

Pattern Use Case Benefit
Safe wrapper All API calls Prevents uncaught exceptions
Retry logic Transient failures Improves reliability
Type guards Response validation Catches API changes
Logging All operations Debugging and monitoring

Examples

Factory Pattern (Multi-tenant)

const clients = new Map<string, CodeRabbitClient>();

export function getClientForTenant(tenantId: string): CodeRabbitClient {
  if (!clients.has(tenantId)) {
    const apiKey = getTenantApiKey(tenantId);
    clients.set(tenantId, new CodeRabbitClient({ apiKey }));
  }
  return clients.get(tenantId)!;
}

Python Context Manager

from contextlib import asynccontextmanager
from coderabbit import CodeRabbitClient

@asynccontextmanager
async def get_coderabbit_client():
    client = CodeRabbitClient()
    try:
        yield client
    finally:
        await client.close()

Zod Validation

import { z } from 'zod';

const coderabbitResponseSchema = z.object({
  id: z.string(),
  status: z.enum(['active', 'inactive']),
  createdAt: z.string().datetime(),
});

Resources

Next Steps

Apply patterns in coderabbit-core-workflow-a for real-world usage.