- detect_plan() auto-detects Max/Pro/Free from ~/.claude.json - session-start budget adapts to plan (Max=20k, Pro=11k, Free=5k) - token counting now uses only ACTIVE plugins, not installed binaries - statusline shows plan label + session duration instead of start time - plugin-advisor: complexity assessment (0-100%) drives tool selection - plugin-advisor: auto-activation with confirmation (PHASE 4) - ruflo OFF by default, GSD v2 preferred for multi-session - init-project: ctx7 pre-fetch + graphify scaffold + graphify full - ship-feature: ctx7 cache check before implementation - frontend-design disabled in installer (doublon with ui-ux-pro-max) - python3 -c moved from deny to ask (unblocks graphify) Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
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ORCHESTRATOR: SHIP FEATURE
REQUEST
$ARGUMENTS
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 0b — PROJECT CONTEXT CHECK
Verify the project has a CLAUDE.md and print a brief orientation summary:
ls CLAUDE.md .claude/CLAUDE.md 2>/dev/null | head -1
git branch --show-current 2>/dev/null || echo "not a git repo"
git log --oneline -3 --format="%h %<(50,trunc)%s" 2>/dev/null || true
ls .gsd/ROADMAP.md 2>/dev/null | head -1
- CLAUDE.md found → read it silently, then print orientation header (informational, not a gate):
Continue to STEP 1.📋 PROJECT CONTEXT Project : <name from CLAUDE.md> Stack : <stack from CLAUDE.md> Branch : <current git branch> Recent : <last 3 commit messages> GSD : <current milestone if .gsd/ROADMAP.md exists, else "not initialized"> - Not found →
Print: "⚠️ No CLAUDE.md found in this directory.
This project has not been onboarded into claude-config.
Run
/onboardfirst to generate CLAUDE.md and project settings, then re-run/ship-feature." STOP.
STEP 0c — CTX7 CACHE CHECK (if fast-libs in project)
Check if the project uses fast-evolving libs (scan package.json for next, react, prisma, supabase, drizzle, expo):
- If
.ctx7-cache/exists with recent files (<7 days old) → print📚 ctx7 cache found: <libs>and continue. - If
.ctx7-cache/missing or stale ANDctx7is installed AND fast-libs detected:
Print:mkdir -p .ctx7-cache # Fetch docs for each detected fast-lib (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📚 ctx7 docs pre-fetched for: <libs> - If no fast-libs or
ctx7not installed → skip silently.
During implementation (STEP 4), when making decisions about fast-lib APIs:
- Read the relevant
.ctx7-cache/<lib>.mdfile before writing code. - This avoids repeated ctx7 calls and keeps docs available without context cost.
STEP 1 — BRAINSTORM
Invoke superpowers:brainstorming. Refine request into validated design via Socratic questioning. Don't proceed until design approved.
STEP 2 — PLAN
Invoke superpowers:writing-plans. Break design into tasks (2-5 min each). Each task: exact file paths, full code, verification steps.
STEP 3 — VALIDATION GATE ★ MANDATORY STOP
SHIP FEATURE — VALIDATION GATE
FEATURE: <n> | TASKS: <count>
<numbered task list>
Approve and execute? (yes / request changes)
Changes → back to STEP 2. Approved → continue.
STEP 4 — IMPLEMENT
Invoke superpowers:subagent-driven-development. Isolated subagents. 2-stage review per task: spec compliance → code quality.
STEP 4b — ERROR RECOVERY (if STEP 4 fails)
If a subagent returns a build error, failing test, or type error:
- Load
$HOME/.claude/agents/analyzer.mdin DEBUG MODE on the exact error output. Produce: root cause hypotheses (ordered), affected files, what NOT to touch. - Present gate:
SHIP FEATURE — ERROR IN STEP 4
TASK : <task name that failed>
ERROR : <one-line summary>
HYPOTHESES:
1. [HIGH] <cause> — evidence: <…>
2. [MED] <cause> — evidence: <…>
OPTIONS :
A) Apply fix for hypothesis 1 and re-run this task
B) Skip this task and continue with remaining tasks
C) Abort feature — preserve work done so far
- Wait for user choice. Do NOT auto-fix. Do NOT proceed without explicit approval.
- If A → apply minimal fix, re-run STEP 4 for the failed task only. Max 2 retry attempts. If still failing after 2 → fall back to options B or C. If B → before skipping: scan remaining task list for tasks that depend on the failed task (look for references to the same file or function in subsequent tasks). If dependents found → present: "Tasks [N, M] depend on the skipped task. Skip them too? (yes / keep and accept partial implementation)" If no dependents → skip cleanly and continue.
STEP 5 — ANALYZE
Load $HOME/.claude/agents/analyzer.md. Check: no regressions, no stale code, no plan deviations.
STEP 6 — CODE REVIEW
Invoke superpowers:requesting-code-review. Fix all CRITICAL before proceeding.
STEP 7 — FINISH
Invoke superpowers:finishing-a-development-branch. Tests pass, build clean, ready to merge.
STEP 8 — SYNC README
Load $HOME/.claude/agents/readme-updater.md with arg sync. Update cmds/vars/structure, add recent changes entry.
RULES
- No skipping steps. No merged agent responsibilities.
- No implement without user approval at STEP 3.
- Subagents isolated — no shared context between tasks.
- Fix all CRITICAL review issues before proceeding.
- Stop if requirements unclear at any step.
- STEP 4 errors → STEP 4b gate required before any fix. Never auto-patch a failing subagent.
FINAL OUTPUT
FEATURE SHIPPED: <n>
TASKS: <N>/<N> | TESTS: ✅/❌ | REVIEW: APPROVED/CHANGES REQUIRED
REMAINING ISSUES: <list or none>