CodeRabbit Fix Flow
Overview
This skill automates the workflow of processing CodeRabbit code review feedback by saving the review output to a timestamped document, then using MCP tools (sequential thinking and Exa context) to analyze and implement fixes with minimal code changes.
When to Use
Use this skill immediately after running coderabbit --plain or when you have CodeRabbit feedback that needs systematic processing. The skill handles type safety issues, code style violations, and other CodeRabbit-identified problems.
Workflow
Step 1: Execute CodeRabbit Review
Run the CodeRabbit review command in plain text mode:
coderabbit --plain
Step 2: Save Feedback Document
Save the CodeRabbit output to a timestamped QA document:
- •Create file:
memory-bank/qa/coderabbit/cr-qa-{timestamp}.md - •Include the full CodeRabbit output in the document
- •Add YAML front matter with metadata:
yaml
--- title: "CodeRabbit QA Review - {timestamp}" link: "cr-qa-{timestamp}" type: "qa" tags: - code-review - coderabbit - type-safety created_at: "{timestamp}" updated_at: "{timestamp}" uuid: "{generate-uuid}" ---
Step 3: Analyze Issues with Sequential Thinking
Use the sequential thinking MCP tool to analyze all identified issues:
- •Categorize issues by type (type safety, performance, style, security)
- •Prioritize fixes (critical runtime issues first, then documentation)
- •Plan minimal changes to achieve the fixes
- •Identify dependencies between issues
Step 4: Get Best Practices Context
Use the Exa code context MCP tool to research current best practices for each issue type:
- •For type issues: "TypeScript type guards runtime validation best practices"
- •For Python type issues: "Python type annotations Optional None best practices"
- •For performance: "Performance optimization best practices [language]"
- •For security: "Security vulnerability fixes [language]"
Step 5: Implement Fixes Systematically
Execute the fixes following the sequential thinking plan:
- •Create TodoWrite list tracking all issues
- •Mark each issue as in_progress → completed
- •Apply minimal code changes using best practices from Exa context
- •Verify fixes address the root cause identified by CodeRabbit
Step 6: Validate and Document
Run validation as appropriate:
- •TypeScript:
npm run buildortsc --noEmit - •Python:
mypyorruff check - •JavaScript:
npm run lintor biome
Document the fixes in the QA document with:
- •What was fixed
- •How it was fixed
- •Validation results
Issue Type Patterns
Type Safety Issues
- •Use proper type guards instead of assertions
- •Apply Optional/Union types for nullable fields
- •Implement runtime validation where needed
Code Style Issues
- •Follow language-specific style guides
- •Use linting tools to verify fixes
- •Maintain consistency with existing codebase
Performance Issues
- •Research current optimization patterns
- •Implement minimal impactful changes
- •Measure before/after when possible
Security Issues
- •Understand the vulnerability context
- •Apply security best practices
- •Ensure fixes don't break functionality
Examples
Type Safety Fix Pattern
// Before (unsafe)
const data = response as ResearchDataShape;
// After (safe)
const data = isResearchDataShape(response) ? response : {} as ResearchDataShape;
Python Type Annotation Fix Pattern
# Before (incorrect) timestamp: float = None metadata: dict[str, Any] = None # After (correct) timestamp: float | None = None metadata: dict[str, Any] | None = None
MCP Tool Usage
Sequential Thinking Tool
Use for:
- •Breaking down complex issues into steps
- •Planning fix order and dependencies
- •Analyzing multiple issues systematically
Exa Code Context Tool
Use for:
- •Getting current best practices
- •Understanding language-specific patterns
- •Finding optimal implementation approaches
Resources
This skill doesn't require bundled resources as it relies on MCP tools for context and the existing codebase for implementation.