| name | disruptor |
| description | An ordered, gated pipeline — a router of Yes/No gates over the eleven Disruptor skills that carry a project from idea to running server. |
| disable-model-invocation | true |
Disruptor
Eleven battle-tested skills that carry an AI-agent-built project from idea to running server, wired
into one ordered flow. This skill is the router: it names the stage sequence, the artifact
each stage hands the next, and the gates that decide where you go — don't reinvent the skills here.
Core principle: the agent's own sense of "done" is the enemy. Every method exists to outlast a
plausible-but-premature stop — an unread green check, a spec with a hidden default, a rubber-stamp
review, a loop that only ever adds. Trust the method over the feeling, and the gate over the guess.
The pipeline
0 Setup ─► 1 Design ─► 2 Spec ─► 3 Guardrails ─► 4 Breakdown ─► 5 Build&converge ─► 6 QA ─► 7 Deploy
(once) 7w3 spec arch slices ├ 5a reviewers
│ └ 5b unvibe
G3F ──► 4–5 fleet lane ───────► 6 QA
| # | Stage | Skill | Kind | Consumes → Produces |
|---|
| 0 | Setup (once/repo) | setting-up-domain-model | method | repo → CONTEXT.md + docs/adr/ |
| 1 | Design | designing-with-7w3 | method | idea/RFC/ticket → 7w3 subject tree |
| 2 | Spec | write-spec | prompt | design → build-ready spec |
| 3 | Guardrails | architecture-guardrails | prompt | spec+stack → executable module boundaries |
| 4 | Breakdown | slicing-into-tracer-bullets | method | spec+arch → ordered vertical slices |
| 5 | Build & converge | converging-and-polishing | method | one slice → hardened, converged artifact |
| 5a | ↳ Review | spawning-reviewers | method | settled artifact → located findings |
| 5b | ↳ Cut | unvibe-review | method | grown artifact → ranked cuts/reframes |
| 4–5 | Fleet lane | delivering-mvp-fleet | method | spec+slices (or vague idea) → launchable MVP |
| 6 | QA | qa-demo-stand | prompt | built project → reproduced+fixed defects |
| 7 | Deploy | setup-server | prompt | QA'd project → safely provisioned server |
Stage 5 is the engine: converging-and-polishing orchestrates spawning-reviewers (each review-and-fix
iteration) and unvibe-review (each cut pass) — load all three for the loop. Every stage skill opens with a
## Stage contract block (Inputs · Outputs · Entry gate · Done when · Next): when Done when is met,
read its Next — not your intuition — to move on.
Start here — the router
Don't pick a stage by feel: find your on-ramp, then walk the gates — each a checkable condition with an explicit destination, so the route is a rule, not a guess.
On-ramps (how work enters):
- New idea / RFC / ticket (greenfield) → gate G0, then stage 1.
- Bug / incident (something's broken) → stage 6 (
qa-demo-stand reproduces + root-causes) →
fix through stage 5 → re-QA → stage 7 if it ships.
- "It feels over-engineered" / architecture drifting (existing codebase) → stage 5b
unvibe-review
for the cut, and audit stage 3 guardrails; the fixes re-enter stage 5 as slices.
- Already have a design or a spec → skip ahead: settled 7w3 design → stage 2; build-ready spec → gate G3.
- Vague product idea, speed-to-testable-MVP matters more than full design rigor → the
delivering-mvp-fleet lane (own interview → plan → board → fleet), rejoining at stage 6 QA.
- A concept/PRD produced outside the flow (business validation, research hub) → stage 1
designing-with-7w3; if it is already a build-ready spec → gate G3.
Gates (which stage next):
- G0 — Is the repo set up? No CONTEXT.md / conventions recorded → run stage 0 first.
- G1 — What's the trigger? Resolved by the on-ramp above; a fresh build → stage 1.
- G2 — Is the design ready to spec? All ten facets of every leaf subject grounded, no unacknowledged
holes? No → stay in stage 1. Yes → stage 2.
- G3 — Is this more than one slice? Yes → stage 4, then gate G3F. No → one stage-5 loop right here.
- G3F — Is the build parallelizable across independent nodes AND is there budget for a worker fleet?
Yes →
delivering-mvp-fleet (it builds its own board from the spec/slices). No → run
converging-and-polishing once per slice, each in a fresh session.
- G4 — Has it converged? Two consecutive near-zero passes from cross-family critics + a whole-artifact
pass, settled after the last change? No → keep looping 5. Yes → 6. (Declared from raw findings —
never because a reviewer said so.)
- G5 — Does this touch shared/prod infra? Before destructive QA (stage 6) or irreversible
provisioning (stage 7) → stop and confirm with the human; read the prompt's hard invariants first.
Two kinds of skill — load-and-follow vs fill-and-hand-off
| Kind | What it is | How you use it |
|---|
| Method | reusable discipline, harness- and domain-agnostic | load it and follow it yourself |
| Prompt template | a fill-in prompt for an executor agent | fill the <placeholders>, hand the whole prompt to a fresh agent |
Mixing them up is the main misuse — don't paraphrase a prompt template into your own words; don't hand a method to an agent as a task prompt.
Cross-cutting invariants
The canonical list — other skills cite it ("per the disruptor invariants"), never restate it.
- Deny-by-default, fail loud. No hidden default for required data or config — demand it, fail loud;
rights denied unless the spec grants them. Why: a silent fallback hides a broken assumption until it ships.
- Independence beats agreement. A review is only worth the independence of the critic — a different
model family, or a fresh no-context subagent. Why: you cannot catch the gaps you introduced by
re-reading your own reasoning; agreement is an echo, not a signal.
- Two forces, kept apart. Iteration adds (the ratchet); a separate pass removes (the cut).
Never fuse them. Why: an add-only loop grows into bloat; a deleting review muddies both signals.
- Architecture is executable, not prose. Module boundaries are enforced by linter + import-graph +
filesystem checks in CI, not a doc. Why: an unchecked rule gets "temporarily" violated and never restored.
- The document is the source of truth. Design, spec, and tests are the record; code realizes them.
If reality diverges, update the document. Why: stale intent is how a team loses the ability to reason.
- Verify effective state, not the write. Trust
sshd -T, docker inspect, a re-run, a real test —
not that a file was saved or a command exited 0. Why: masked exit codes, stale caches, and
reload-vs-restart gaps manufacture false greens.
- Base rules travel with every subagent prompt. DRY, KISS, SOLID, YAGNI, and file-size caps are
restated in each subagent's prompt, never assumed to inherit. Why: an orchestrator authoring
child prompts silently drops its own standing rules — one real run produced a 5.5K-line monolith.
Provenance
From the @aostrikov_agents_chat Telegram community: Nambr — designing-with-7w3 and the review-loop
suite (converging-and-polishing, spawning-reviewers, unvibe-review); Pukh — the prompt
templates (write-spec, architecture-guardrails, qa-demo-stand, setup-server); Serge Shima —
the router flow, setting-up-domain-model, slicing-into-tracer-bullets, and delivering-mvp-fleet.
Source: Serge Shima (@aostrikov_agents_chat), the Disruptor pipeline and router.