--- name: init-project description: Use when initializing a brand-new project from scratch — needs interview, design, scaffold, and TDD implementation. Multi-agent orchestrator: plugin-advisor + interviewer + analyzer + scaffolder with two validation gates. Triggers: "init project", "new project", "start project from scratch", "scaffold project", "init-project". argument-hint: allowed-tools: Read, Write, Edit, Bash, Grep, Glob --- # ORCHESTRATOR: INIT PROJECT ## REQUEST $ARGUMENTS --- ## PROGRESS PROTOCOL Every STEP must announce itself with a header BEFORE its work block, so the user always sees where they are in the 12-step pipeline: ``` ━━━ STEP /12 — ━━━ (~<estimated minutes>) why: <one sentence — what's at risk if this step is skipped> ``` Long-running steps (5 SCAFFOLD, 5d GRAPHIFY, 8 IMPLEMENT) must print a 1-line liveness ping every ~30 s of agent work — `… still working: <last action>` — so the user does not assume Claude has hung. --- ## STEP 0 — PLUGIN CHECK + AUTO-ACTIVATE Load `$HOME/.claude/agents/plugin-advisor.md`. Feed request. - ACTION REQUIRED → show RECOMMENDATIONS block, offer: A) fix plugins B) type "force". STOP. - PROPOSED CHANGES exist → show list, ask "Apply? (yes / no / customize)". Apply on confirm. - OK → `✅ Plugin check passed — [active plugins] — complexity: <score>%`, continue. ## STEP 1 — INTERVIEW Before loading the interviewer, check for an existing CLAUDE.md: ```bash ls CLAUDE.md .claude/CLAUDE.md 2>/dev/null | head -1 ``` - **Found** (either `CLAUDE.md` or `.claude/CLAUDE.md`) → read it silently. Pre-fill all interview answers already documented (stack, purpose, features, conventions). Load `$HOME/.claude/agents/interviewer.md` and ask ONLY what is genuinely missing. Print: "📄 Existing CLAUDE.md found — using as context." - **Not found** → standard mode: load `$HOME/.claude/agents/interviewer.md`, ask all unanswered questions. In both cases: MANDATORY STOP until user answers remaining questions. Produce PROJECT BRIEF. ## STEP 2 — ANALYZE Load `$HOME/.claude/agents/analyzer.md`. Analyze BRIEF: existing code, stack constraints, infra risks, open decisions. Produce ANALYSIS REPORT. ## STEP 3 — DESIGN Invoke `superpowers:brainstorming` with BRIEF + ANALYSIS REPORT. Produce DESIGN: stack+versions, full folder tree, module responsibilities, data flow, interfaces (signatures only), config+tooling, test strategy, resolved decisions, prereqs list. ## STEP 4 — VALIDATION GATE #1 ★ MANDATORY STOP Present: ``` INIT PROJECT — ARCHITECTURE VALIDATION PROJECT : <3-5 line recap> STACK : <versions> PREREQS : <install list> TREE : <folder tree> V1 FEATURES: <numbered list> CONVENTIONS: <naming, doc, test> EXCEPTIONS : <list or none> Approve? (yes / request changes) ``` Changes → back to STEP 3. Approved → continue. ## STEP 5 — SCAFFOLD Load `$HOME/.claude/agents/scaffolder.md`. Pass: BRIEF + DESIGN + `~/.claude/templates/project-CLAUDE.md` + `~/.claude/CLAUDE.md`. Creates: CLAUDE.md, settings, structure, config, empty entry points, .gitignore, .env.example, .claude/tasks/TODO.md, .claude/memory/{decisions,learnings,blockers,journal,evals}.md, .claude/audits/. NO README, NO features. Verify: `git init` + build passes. ## STEP 5b — CREATE README Load `$HOME/.claude/agents/doc-syncer.md` (AUTO MODE, scope: full project). README.md missing → its README bootstrap creates it. No stop. ## STEP 5c — CTX7 PRE-FETCH (if fast-libs detected) If `fast-libs` signal was detected in STEP 0 (Next.js, React 18+, Prisma, Supabase, Drizzle, etc.): 1. Create `.ctx7-cache/` directory in project root. 2. For each detected fast-lib, fetch core docs: ```bash mkdir -p .ctx7-cache # Example for detected libs — adapt to actual deps: ctx7 docs /vercel/next.js "app router middleware routing" > .ctx7-cache/nextjs-core.md 2>/dev/null || true ctx7 docs /prisma/prisma "schema client queries" > .ctx7-cache/prisma-core.md 2>/dev/null || true ``` 3. Add `.ctx7-cache/` to `.gitignore` (local dev cache, not committed). 4. Print: `📚 ctx7 docs pre-fetched for: <libs>. Cache at .ctx7-cache/` If `ctx7` not installed or no fast-libs → skip silently. ## STEP 5d — GRAPHIFY SCAFFOLD (light pass) If `graphify` CLI is installed AND complexity >= 30%: 1. Run light graphify on the scaffold: ```bash graphify . --output graphify-out --mode quick 2>/dev/null || true ``` 2. Add `graphify-out/` to `.gitignore` if not already present. 3. Print: `🔗 Scaffold graph generated at graphify-out/` If `graphify` not installed or complexity < 30% → skip silently. ## STEP 5e — ANIMATION LIB (auto-install) Install `motion` (ex-`framer-motion`, rebranded Nov 2024) when the stack supports it. The scaffold has just been validated by the user, so install proceeds silently. ```bash source "$HOME/.claude/lib/animation-lib-check.sh" if result=$(detect_anim_eligibility); then pkg=$(echo "$result" | cut -d'|' -f2) if ! is_anim_lib_installed >/dev/null; then cmd=$(recommend_anim_install_cmd "$pkg") echo "🎬 Installing animation lib: $cmd" eval "$cmd" else installed=$(is_anim_lib_installed) echo "🎬 Animation lib already present: $installed — skipping install" fi else echo "🎬 Animation lib: stack not eligible — skipping ($(echo "$result" | cut -d'|' -f3))" fi ``` Rules: - `motion` for React-family / Svelte / vanilla JS stacks. - `motion-v` for Vue 3 / Nuxt. - React Native, Flutter, backend, embedded, static HTML → skipped. - If another animation lib (gsap, lottie-react, react-spring, …) is already present → skipped. ## STEP 5f — GITFLOW INIT After every scaffold file exists (STEP 5–5e have run), establish the gitflow layout and the deterministic root commit: ```bash bash "$HOME/.claude/lib/gitflow.sh" init "chore: scaffold <project-name>" ``` Creates `main`+`develop`, root-commits the FULL scaffold (CLAUDE.md, README, config, `.gitignore`, deps), reconciles the `.gitignore` socle, and installs the versioned pre-commit hook — all embedded in the root commit, working tree clean. This is the deterministic scaffold commit owner (closes BLK-010). The MVP is implemented on a `feature/*` branch off `develop` (STEP 8). ## STEP 6 — PLAN Invoke `superpowers:writing-plans` with BRIEF + skeleton. Granular tasks (2-5 min each), exact file paths, TDD: tests before code. ## STEP 7 — VALIDATION GATE #2 ★ MANDATORY STOP ``` INIT PROJECT — IMPLEMENTATION PLAN SKELETON: ✅ build passes FEATURES: <N> → <M> tasks <numbered task list with paths> Approve and start? (yes / request changes) ``` Changes → back to STEP 6. Approved → continue. ## STEP 8 — IMPLEMENT Start the MVP feature branch off develop, then implement on it: ```bash bash "$HOME/.claude/lib/gitflow.sh" start feature mvp ``` Invoke `superpowers:subagent-driven-development` for the per-task implement loop **and** the final whole-branch review **only**. Do NOT run its terminal `finishing-a-development-branch` step — this orchestrator owns integration via `gitflow finish` (STEP 11). When SDD's flow reaches "Use finishing-a-development-branch", stop and return. ## STEP 8b — GRAPHIFY FULL (after implementation) If `graphify` CLI is installed AND complexity >= 30%: 1. Run full graphify on the implemented project: ```bash graphify . --output graphify-out 2>/dev/null || true ``` 2. Print: `🔗 Full project graph updated at graphify-out/` If `graphify` not installed or complexity < 30% → skip silently. ## STEP 9 — ANALYZE Load `$HOME/.claude/agents/analyzer.md`. Check: no regressions, no deviations, no stale scaffold, conventions respected. ## STEP 10 — CODE REVIEW Invoke `superpowers:requesting-code-review`. Fix all CRITICAL before proceeding. ## STEP 10b — CAPITALIZE FOUNDING DECISIONS (memory registries) A greenfield's founding architecture decisions are the highest-value BDRs — the "why Astro not Next", the SPA-ban for a public site, the API-versioning policy. Losing them means losing the rationale of the foundations. Capture them BEFORE STEP 11 FINISH so the memory commit lands on the branch FINISH integrates. Capture ONLY structuring decisions, not scaffold detail: | Capitalize — founding (BDR) | Skip — scaffold detail | |--------------------------------------------------------------|-----------------------------------| | Stack / framework choice + why (Astro vs Next) | directory names, scaffolded files | | Architecture pattern, data-flow shape | dev-tooling / formatter config | | Doctrinal exclusions (public site = no SPA, API /v1 day one) | which template files were copied | | Security defaults adopted; conventions binding future code | anything reversible / obvious | Source the candidates from: the PROJECT BRIEF (STEP 1), the DESIGN's resolved decisions (STEP 3), and the validated STACK / CONVENTIONS / EXCEPTIONS (STEP 4 gate). These ARE the founding decisions — the user just approved them. **No decision → no entry.** A trivial project with no genuine structuring choice capitalizes NOTHING. Do NOT fabricate a BDR to fill the step. Print `CAPITALIZE: no founding decision to log`; the memory commit below then no-ops. 1. Pre-fill a BDR-XXX entry per founding decision (id, date, title, decision, why, alternatives rejected — from the DESIGN's rejected options). 2. Present grouped: ``` CAPITALIZE — founding decisions proposées [ decisions.md ] BDR-XXX — <decision> — <1-line why> Valider lesquels ? (all / <IDs> / edit / skip) ``` 3. Append approved entries + update the Index. Append a journal line under today. **Hash rule — founding decisions carry NO commit hash; use path + date only.** This is by nature, not an omission: a founding decision is made at DESIGN (STEP 3), BEFORE any code, attested by no implementing commit — there is no hash to anchor. Anchoring it to the unrelated scaffold commit would be a FALSE anchor that dilutes what `Reference: commit <hash>` means everywhere else (the commit that IMPLEMENTS the decision, e.g. BDR-033 → 11792cc). This is the SECOND case where hash-anchoring does not apply — the first being a squash-merged PR, whose anchored commit ceases to exist. **Language rule**: written entries are ALWAYS in English (CLAUDE.md "Memory registries"). The gate may mirror the user's language; entries must not. **Then commit the memory** — follow `$HOME/.claude/lib/capitalize-commit.md`: it surgically commits the approved founding decisions (`.claude/memory` + `.claude/tasks` only, never `git add -A`) as one `chore(memory)` commit, BEFORE STEP 11 FINISH so the memory is integrated with the branch, not stranded. If nothing was capitalized, the helper no-ops — no commit. ## STEP 10c — DOC SYNC Run BEFORE STEP 11 FINISH (moved here from post-FINISH). doc-syncer PATCHES public docs but does NOT commit them, and `gitflow finish` integrates only COMMITTED history — so a patch left uncommitted never reaches the merge/PR. Same PR-stranding class as the STEP 10b capitalize fix (BDR-034). Load `$HOME/.claude/agents/doc-syncer.md` (AUTO MODE, scope: files changed this session). Detect drift, update cmds/vars/structure, add recent changes entry. **Then commit the docs** — follow `$HOME/.claude/lib/doc-commit.md`: it surgically commits ONLY the files doc-syncer patched (its `PATCHED_FILES` output, one path per line → one argv arg each), never `git add -A`, never `.claude/`/`CLAUDE.md`, and no-ops if nothing was patched. Report per its rc table — rc 4 = a LOUD upstream BDR-022 anomaly, not a silent skip. > **Scaffold commit owner = STEP 5f `gitflow init`** (root commit embeds scaffold + README + > `.gitignore` socle + hook, tree clean — BLK-010 closed). This doc-sync commit lands the > patched docs on the MVP feature branch so they reach the merge. GSD STEP 12 still creates > ROADMAP.md post-FINISH (BLK-011) — separate. ## STEP 11 — FINISH Tests pass, build clean, no placeholders. Integrate the MVP feature into develop — **only on the user's explicit go** (the `gitflow` finish gate): ```bash bash "$HOME/.claude/lib/gitflow.sh" finish # feature/mvp → develop ``` ## STEP 12 — GSD v2 INIT (optional) If `multi-session` signal was detected in STEP 0 OR the project has >3 planned milestones: Ask: "Initialize GSD v2 for multi-session management? (yes / skip)" - `yes` → 1. First check: `command -v gsd` — if not found: Print: "⚠️ GSD v2 not installed. Run `npm install -g gsd-pi` then re-run `/onboard add gsd` or `/ship-feature` to initialize later." Do NOT attempt `gsd init`. Skip to RULES. 2. If `gsd` is in PATH: run `gsd init` in the project directory to create `.gsd/` and `ROADMAP.md`. Populate ROADMAP.md with milestones from BRIEF (v1 features + any beyond-v1 items). Print: "✅ GSD v2 initialized — run `gsd` in terminal then `/gsd auto` to work autonomously." - `skip` → print: "GSD v2 skipped — use `/ship-feature` for individual features." --- ## RULES - No skipping steps. No merged agent responsibilities. - No implement without user approval at STEP 4 and STEP 7. - Scaffolder = skeleton only, zero logic. - Features → subagent pipeline only. - Broken build = unacceptable output. - Fix all CRITICAL review issues before proceeding. - Stop if requirements unclear at any step. --- ## FINAL OUTPUT Two-part output: human recap first, then status table. ### Plain-language recap (2-4 lines) Write 2-4 sentences a non-technical reader could scan: what was built, what stack it runs on, whether everything passed, and what to run first. Example: ``` Your <stack> project "<n>" is ready. Build passes, <N> tests green, V1 features implemented. Open the project with the command shown below to start the dev server. Anything that's still pending is listed under REMAINING. ``` ### Status table ``` PROJECT INITIALIZED: <n> LOCATION: <path> | STACK: <stack> | BUILD: ✅/❌ | TESTS: ✅<N>/❌ V1 FEATURES: ✅<f> / ⚠️<f> partial: <reason> REMAINING ISSUES: <list or none> QUICK START: <exact cmds> CLAUDE.md ✅ | README ✅ | SETTINGS ✅ ```