From antigravity-awesome-skills
Guides writing structured specs before coding to clarify requirements, surface assumptions, and define success criteria. Best for starting features or projects where requirements are ambiguous.
How this skill is triggered — by the user, by Claude, or both
Slash command
/antigravity-awesome-skills:spec-driven-developmentThe summary Claude sees in its skill listing — used to decide when to auto-load this skill
Write a structured specification before writing any code. The spec is the shared source of truth between you and the human engineer — it defines what we're building, why, and how we'll know it's done. Code without a spec is guessing.
Write a structured specification before writing any code. The spec is the shared source of truth between you and the human engineer — it defines what we're building, why, and how we'll know it's done. Code without a spec is guessing.
When NOT to use: Single-line fixes, typo corrections, or changes where requirements are unambiguous and self-contained.
Spec-driven development has four phases. Do not advance to the next phase until the current one is validated.
SPECIFY ──→ PLAN ──→ TASKS ──→ IMPLEMENT
│ │ │ │
▼ ▼ ▼ ▼
Human Human Human Human
reviews reviews reviews reviews
Start with a high-level vision. Ask the human clarifying questions until requirements are concrete.
Surface assumptions immediately. Before writing any spec content, list what you're assuming:
ASSUMPTIONS I'M MAKING:
1. This is a web application (not native mobile)
2. Authentication uses session-based cookies (not JWT)
3. The database is PostgreSQL (based on existing Prisma schema)
4. We're targeting modern browsers only (no IE11)
→ Correct me now or I'll proceed with these.
Don't silently fill in ambiguous requirements. The spec's entire purpose is to surface misunderstandings before code gets written — assumptions are the most dangerous form of misunderstanding.
Write a spec document covering these six core areas:
Objective — What are we building and why? Who is the user? What does success look like?
Commands — Full executable commands with flags, not just tool names.
Build: npm run build
Test: npm test -- --coverage
Lint: npm run lint --fix
Dev: npm run dev
Project Structure — Where source code lives, where tests go, where docs belong.
src/ → Application source code
src/components → React components
src/lib → Shared utilities
tests/ → Unit and integration tests
e2e/ → End-to-end tests
docs/ → Documentation
Code Style — One real code snippet showing your style beats three paragraphs describing it. Include naming conventions, formatting rules, and examples of good output.
Testing Strategy — What framework, where tests live, coverage expectations, which test levels for which concerns.
Boundaries — Three-tier system:
Spec template:
# Spec: [Project/Feature Name]
## Objective
[What we're building and why. User stories or acceptance criteria.]
## Tech Stack
[Framework, language, key dependencies with versions]
## Commands
[Build, test, lint, dev — full commands]
## Project Structure
[Directory layout with descriptions]
## Code Style
[Example snippet + key conventions]
## Testing Strategy
[Framework, test locations, coverage requirements, test levels]
## Boundaries
- Always: [...]
- Ask first: [...]
- Never: [...]
## Success Criteria
[How we'll know this is done — specific, testable conditions]
## Open Questions
[Anything unresolved that needs human input]
Reframe instructions as success criteria. When receiving vague requirements, translate them into concrete conditions:
REQUIREMENT: "Make the dashboard faster"
REFRAMED SUCCESS CRITERIA:
- Dashboard LCP < 2.5s on 4G connection
- Initial data load completes in < 500ms
- No layout shift during load (CLS < 0.1)
→ Are these the right targets?
This lets you loop, retry, and problem-solve toward a clear goal rather than guessing what "faster" means.
With the validated spec, generate a technical implementation plan:
Follow
planning-and-task-breakdownfor the dependency-graph mapping and vertical-slicing mechanics behind these steps; it is the canonical source. The bullets above are a lightweight summary; if they ever diverge,planning-and-task-breakdowntakes precedence.
The plan should be reviewable: the human should be able to read it and say "yes, that's the right approach" or "no, change X."
Break the plan into discrete, implementable tasks:
Follow
planning-and-task-breakdownfor the full task-sizing and dependency-ordering mechanics; it is the canonical source. The template below is a lightweight inline form; if they ever diverge,planning-and-task-breakdowntakes precedence.
Task template:
- [ ] Task: [Description]
- Acceptance: [What must be true when done]
- Verify: [How to confirm — test command, build, manual check]
- Files: [Which files will be touched]
Execute tasks one at a time following skills/incremental-implementation/SKILL.md (incremental-implementation) and skills/test-driven-development/SKILL.md (test-driven-development). Use skills/context-engineering/SKILL.md (context-engineering) to load the right spec sections and source files at each step rather than flooding the agent with the entire spec.
The spec is a living document, not a one-time artifact:
| Rationalization | Reality |
|---|---|
| "This is simple, I don't need a spec" | Simple tasks don't need long specs, but they still need acceptance criteria. A two-line spec is fine. |
| "I'll write the spec after I code it" | That's documentation, not specification. The spec's value is in forcing clarity before code. |
| "The spec will slow us down" | A 15-minute spec prevents hours of rework. Waterfall in 15 minutes beats debugging in 15 hours. |
| "Requirements will change anyway" | That's why the spec is a living document. An outdated spec is still better than no spec. |
| "The user knows what they want" | Even clear requests have implicit assumptions. The spec surfaces those assumptions. |
Before proceeding to implementation, confirm:
npx claudepluginhub sickn33/antigravity-awesome-skills --plugin antigravity-bundle-aas-localization-international-growthWrites a structured specification before coding, following a four-phase gated workflow (Specify → Plan → Tasks → Implement) to surface assumptions and align on requirements.
Write structured specs before coding using a gated workflow. Creates shared source of truth for requirements, architecture, and success criteria. Use when starting features or requirements are unclear.
Orchestrates spec-driven development workflow (Requirements → Design → Tasks → Implementation) with approval gates. Activates for structured feature planning or 'use spec-driven'.