claude-code/plugins/feature-dev

Feature Development Plugin

A comprehensive, structured workflow for feature development with specialized agents for codebase exploration, architecture design, and quality review.

Overview

The Feature Development Plugin provides a systematic 7-phase approach to building new features. Instead of jumping straight into code, it guides you through understanding the codebase, asking clarifying questions, designing architecture, and ensuring quality—resulting in better-designed features that integrate seamlessly with your existing code.

Philosophy

Building features requires more than just writing code. You need to:

• Understand the codebase before making changes
• Ask questions to clarify ambiguous requirements
• Design thoughtfully before implementing
• Review for quality after building

This plugin embeds these practices into a structured workflow that runs automatically when you use the /feature-dev command.

Command: /feature-dev

Launches a guided feature development workflow with 7 distinct phases.

Usage:

/feature-dev Add user authentication with OAuth

Or simply:

/feature-dev

The command will guide you through the entire process interactively.

The 7-Phase Workflow

Phase 1: Discovery

Goal: Understand what needs to be built

What happens:

• Clarifies the feature request if it's unclear
• Asks what problem you're solving
• Identifies constraints and requirements
• Summarizes understanding and confirms with you

Example:

You: /feature-dev Add caching
Claude: Let me understand what you need...
        - What should be cached? (API responses, computed values, etc.)
        - What are your performance requirements?
        - Do you have a preferred caching solution?

Phase 2: Codebase Exploration

Goal: Understand relevant existing code and patterns

What happens:

• Launches 2-3 code-explorer agents in parallel
• Each agent explores different aspects (similar features, architecture, UI patterns)
• Agents return comprehensive analyses with key files to read
• Claude reads all identified files to build deep understanding
• Presents comprehensive summary of findings

Agents launched:

• "Find features similar to [feature] and trace implementation"
• "Map the architecture and abstractions for [area]"
• "Analyze current implementation of [related feature]"

Example output:

Found similar features:
- User authentication (src/auth/): Uses JWT tokens, middleware pattern
- Session management (src/session/): Redis-backed, 24hr expiry
- API security (src/api/middleware/): Rate limiting, CORS

Key files to understand:
- src/auth/AuthService.ts:45 - Core authentication logic
- src/middleware/authMiddleware.ts:12 - Request authentication
- src/config/security.ts:8 - Security configuration

Phase 3: Clarifying Questions

Goal: Fill in gaps and resolve all ambiguities

What happens:

• Reviews codebase findings and feature request
• Identifies underspecified aspects:
  • Edge cases
  • Error handling
  • Integration points
  • Backward compatibility
  • Performance needs
• Presents all questions in an organized list
• Waits for your answers before proceeding

Example:

Before designing the architecture, I need to clarify:

1. OAuth provider: Which OAuth providers? (Google, GitHub, custom?)
2. User data: Store OAuth tokens or just user profile?
3. Existing auth: Replace current auth or add alongside?
4. Sessions: Integrate with existing session management?
5. Error handling: How to handle OAuth failures?

Critical: This phase ensures nothing is ambiguous before design begins.

Phase 4: Architecture Design

Goal: Design multiple implementation approaches

What happens:

• Launches 2-3 code-architect agents with different focuses:
  • Minimal changes: Smallest change, maximum reuse
  • Clean architecture: Maintainability, elegant abstractions
  • Pragmatic balance: Speed + quality
• Reviews all approaches
• Forms opinion on which fits best for this task
• Presents comparison with trade-offs and recommendation
• Asks which approach you prefer

Example output:

I've designed 3 approaches:

Approach 1: Minimal Changes
- Extend existing AuthService with OAuth methods
- Add new OAuth routes to existing auth router
- Minimal refactoring required
Pros: Fast, low risk
Cons: Couples OAuth to existing auth, harder to test

Approach 2: Clean Architecture
- New OAuthService with dedicated interface
- Separate OAuth router and middleware
- Refactor AuthService to use common interface
Pros: Clean separation, testable, maintainable
Cons: More files, more refactoring

Approach 3: Pragmatic Balance
- New OAuthProvider abstraction
- Integrate into existing AuthService
- Minimal refactoring, good boundaries
Pros: Balanced complexity and cleanliness
Cons: Some coupling remains

Recommendation: Approach 3 - gives you clean boundaries without
excessive refactoring, and fits your existing architecture well.

Which approach would you like to use?

Phase 5: Implementation

Goal: Build the feature

What happens:

• Waits for explicit approval before starting
• Reads all relevant files identified in previous phases
• Implements following chosen architecture
• Follows codebase conventions strictly
• Writes clean, well-documented code
• Updates todos as progress is made

Notes:

• Implementation only starts after you approve
• Follows patterns discovered in Phase 2
• Uses architecture designed in Phase 4
• Continuously tracks progress

Phase 6: Quality Review

Goal: Ensure code is simple, DRY, elegant, and functionally correct

What happens:

• Launches 3 code-reviewer agents in parallel with different focuses:
  • Simplicity/DRY/Elegance: Code quality and maintainability
  • Bugs/Correctness: Functional correctness and logic errors
  • Conventions/Abstractions: Project standards and patterns
• Consolidates findings
• Identifies highest severity issues
• Presents findings and asks what you want to do:
  • Fix now
  • Fix later
  • Proceed as-is
• Addresses issues based on your decision

Example output:

Code Review Results:

High Priority Issues:
1. Missing error handling in OAuth callback (src/auth/oauth.ts:67)
2. Memory leak: OAuth state not cleaned up (src/auth/oauth.ts:89)

Medium Priority:
1. Could simplify token refresh logic (src/auth/oauth.ts:120)
2. Consider extracting OAuth config validation

All tests pass. Code follows project conventions.

What would you like to do?

Phase 7: Summary

Goal: Document what was accomplished

What happens:

• Marks all todos complete
• Summarizes:
  • What was built
  • Key decisions made
  • Files modified
  • Suggested next steps

Example:

Feature Complete: OAuth Authentication

What was built:
- OAuth provider abstraction supporting Google and GitHub
- OAuth routes and middleware integrated with existing auth
- Token refresh and session integration
- Error handling for all OAuth flows

Key decisions:
- Used pragmatic approach with OAuthProvider abstraction
- Integrated with existing session management
- Added OAuth state to prevent CSRF

Files modified:
- src/auth/OAuthProvider.ts (new)
- src/auth/AuthService.ts
- src/routes/auth.ts
- src/middleware/authMiddleware.ts

Suggested next steps:
- Add tests for OAuth flows
- Add more OAuth providers (Microsoft, Apple)
- Update documentation

Agents

code-explorer

Purpose: Deeply analyzes existing codebase features by tracing execution paths

Focus areas:

• Entry points and call chains
• Data flow and transformations
• Architecture layers and patterns
• Dependencies and integrations
• Implementation details

When triggered:

• Automatically in Phase 2
• Can be invoked manually when exploring code

Output:

• Entry points with file:line references
• Step-by-step execution flow
• Key components and responsibilities
• Architecture insights
• List of essential files to read

code-architect

Purpose: Designs feature architectures and implementation blueprints

Focus areas:

• Codebase pattern analysis
• Architecture decisions
• Component design
• Implementation roadmap
• Data flow and build sequence

When triggered:

• Automatically in Phase 4
• Can be invoked manually for architecture design

Output:

• Patterns and conventions found
• Architecture decision with rationale
• Complete component design
• Implementation map with specific files
• Build sequence with phases

code-reviewer

Purpose: Reviews code for bugs, quality issues, and project conventions

Focus areas:

• Project guideline compliance (CLAUDE.md)
• Bug detection
• Code quality issues
• Confidence-based filtering (only reports high-confidence issues ≥80)

When triggered:

• Automatically in Phase 6
• Can be invoked manually after writing code

Output:

• Critical issues (confidence 75-100)
• Important issues (confidence 50-74)
• Specific fixes with file:line references
• Project guideline references

Usage Patterns

Full workflow (recommended for new features):

/feature-dev Add rate limiting to API endpoints

Let the workflow guide you through all 7 phases.

Manual agent invocation:

Explore a feature:

"Launch code-explorer to trace how authentication works"

Design architecture:

"Launch code-architect to design the caching layer"

Review code:

"Launch code-reviewer to check my recent changes"

Best Practices

1. Use the full workflow for complex features: The 7 phases ensure thorough planning
2. Answer clarifying questions thoughtfully: Phase 3 prevents future confusion
3. Choose architecture deliberately: Phase 4 gives you options for a reason
4. Don't skip code review: Phase 6 catches issues before they reach production
5. Read the suggested files: Phase 2 identifies key files—read them to understand context

When to Use This Plugin

Use for:

• New features that touch multiple files
• Features requiring architectural decisions
• Complex integrations with existing code
• Features where requirements are somewhat unclear

Don't use for:

• Single-line bug fixes
• Trivial changes
• Well-defined, simple tasks
• Urgent hotfixes

Requirements

• Claude Code installed
• Git repository (for code review)
• Project with existing codebase (workflow assumes existing code to learn from)

Troubleshooting

Agents take too long

Issue: Code exploration or architecture agents are slow

Solution:

• This is normal for large codebases
• Agents run in parallel when possible
• The thoroughness pays off in better understanding

Too many clarifying questions

Issue: Phase 3 asks too many questions

Solution:

• Be more specific in your initial feature request
• Provide context about constraints upfront
• Say "whatever you think is best" if truly no preference

Architecture options overwhelming

Issue: Too many architecture options in Phase 4

Solution:

• Trust the recommendation—it's based on codebase analysis
• If still unsure, ask for more explanation
• Pick the pragmatic option when in doubt

Tips

• Be specific in your feature request: More detail = fewer clarifying questions
• Trust the process: Each phase builds on the previous one
• Review agent outputs: Agents provide valuable insights about your codebase
• Don't skip phases: Each phase serves a purpose
• Use for learning: The exploration phase teaches you about your own codebase

Author

Sid Bidasaria (sbidasaria@anthropic.com)

Version

1.0.0