Agent Skills is a collection of engineering workflow skills organized by development phase. Each skill encodes a specific process that senior engineers follow. This meta-skill helps you discover and apply the right skill for your current task.
When a task arrives, identify the development phase and apply the corresponding skill:
Task arrives
│
├── Vague idea/need refinement? ──→ idea-refine
├── New project/feature/change? ──→ spec-driven-development
├── Have a spec, need tasks? ──────→ planning-and-task-breakdown
├── Implementing code? ────────────→ incremental-implementation
│ ├── UI work? ─────────────────→ frontend-ui-engineering
│ ├── API work? ────────────────→ api-and-interface-design
│ └── Need better context? ─────→ context-engineering
├── Writing/running tests? ────────→ test-driven-development
│ └── Browser-based? ───────────→ browser-testing-with-devtools
├── Something broke? ──────────────→ debugging-and-error-recovery
├── Reviewing code? ───────────────→ code-review-and-quality
│ ├── Security concerns? ───────→ security-and-hardening
│ └── Performance concerns? ────→ performance-optimization
├── Committing/branching? ─────────→ git-workflow-and-versioning
├── CI/CD pipeline work? ──────────→ ci-cd-and-automation
├── Writing docs/ADRs? ───────────→ documentation-and-adrs
└── Deploying/launching? ─────────→ shipping-and-launch
These behaviors apply at all times, across all skills. They are non-negotiable.
Before implementing anything non-trivial, explicitly state your assumptions:
ASSUMPTIONS I'M MAKING:
1. [assumption about requirements]
2. [assumption about architecture]
3. [assumption about scope]
→ Correct me now or I'll proceed with these.
Don't silently fill in ambiguous requirements. The most common failure mode is making wrong assumptions and running with them unchecked. Surface uncertainty early — it's cheaper than rework.
When you encounter inconsistencies, conflicting requirements, or unclear specifications:
Bad: Silently picking one interpretation and hoping it's right. Good: "I see X in the spec but Y in the existing code. Which takes precedence?"
You are not a yes-machine. When an approach has clear problems:
Sycophancy is a failure mode. "Of course!" followed by implementing a bad idea helps no one. Honest technical disagreement is more valuable than false agreement.
Your natural tendency is to overcomplicate. Actively resist it.
Before finishing any implementation, ask:
If you build 1000 lines and 100 would suffice, you have failed. Prefer the boring, obvious solution. Cleverness is expensive.
Touch only what you're asked to touch.
Do NOT:
Your job is surgical precision, not unsolicited renovation.
Every skill includes a verification step. A task is not complete until verification passes. "Seems right" is never sufficient — there must be evidence (passing tests, build output, runtime data).
These are the subtle errors that look like productivity but create problems:
Check for an applicable skill before starting work. Skills encode processes that prevent common mistakes.
Skills are workflows, not suggestions. Follow the steps in order. Don't skip verification steps.
Multiple skills can apply. A feature implementation might involve idea-refine → spec-driven-development → planning-and-task-breakdown → incremental-implementation → test-driven-development → code-review-and-quality → shipping-and-launch in sequence.
When in doubt, start with a spec. If the task is non-trivial and there's no spec, begin with spec-driven-development.
For a complete feature, the typical skill sequence is:
1. idea-refine → Refine vague ideas
2. spec-driven-development → Define what we're building
3. planning-and-task-breakdown → Break into verifiable chunks
4. context-engineering → Load the right context
5. incremental-implementation → Build slice by slice
6. test-driven-development → Prove each slice works
7. code-review-and-quality → Review before merge
8. git-workflow-and-versioning → Clean commit history
9. documentation-and-adrs → Document decisions
10. shipping-and-launch → Deploy safely
Not every task needs every skill. A bug fix might only need: debugging-and-error-recovery → test-driven-development → code-review-and-quality.
| Phase | Skill | One-Line Summary |
|---|---|---|
| Define | idea-refine | Refine ideas through structured divergent and convergent thinking |
| Define | spec-driven-development | Requirements and acceptance criteria before code |
| Plan | planning-and-task-breakdown | Decompose into small, verifiable tasks |
| Build | incremental-implementation | Thin vertical slices, test each before expanding |
| Build | context-engineering | Right context at the right time |
| Build | frontend-ui-engineering | Production-quality UI with accessibility |
| Build | api-and-interface-design | Stable interfaces with clear contracts |
| Verify | test-driven-development | Failing test first, then make it pass |
| Verify | browser-testing-with-devtools | Chrome DevTools MCP for runtime verification |
| Verify | debugging-and-error-recovery | Reproduce → localize → fix → guard |
| Review | code-review-and-quality | Five-axis review with quality gates |
| Review | security-and-hardening | OWASP prevention, input validation, least privilege |
| Review | performance-optimization | Measure first, optimize only what matters |
| Ship | git-workflow-and-versioning | Atomic commits, clean history |
| Ship | ci-cd-and-automation | Automated quality gates on every change |
| Ship | documentation-and-adrs | Document the why, not just the what |
| Ship | shipping-and-launch | Pre-launch checklist, monitoring, rollback plan |