lakehouse/mcp-server/index.ts

/**
 * Lakehouse MCP Server — bridges local LLMs to the data substrate.
 *
 * Tools:
 * - search_workers: hybrid SQL+vector (the core fix)
 * - query_sql: analytical SQL on any dataset
 * - match_contract: find workers for a job order
 * - get_worker: single worker by ID
 * - rag_question: full RAG pipeline
 * - log_success: record what worked → playbook DB
 * - get_playbooks: retrieve past successes
 * - swap_profile: hot-swap model + data context
 * - vram_status: GPU introspection
 */

import { McpServer } from "@modelcontextprotocol/sdk/server/mcp.js";
import { StdioServerTransport } from "@modelcontextprotocol/sdk/server/stdio.js";
import { SSEServerTransport } from "@modelcontextprotocol/sdk/server/sse.js";
import { z } from "zod";

const BASE = process.env.LAKEHOUSE_URL || "http://localhost:3100";
const PORT = parseInt(process.env.MCP_PORT || "3700");
const MODE = process.env.MCP_TRANSPORT || "http"; // "stdio" or "http"

async function api(method: string, path: string, body?: any) {
  const resp = await fetch(`${BASE}${path}`, {
    method,
    headers: body ? { "Content-Type": "application/json" } : {},
    body: body ? JSON.stringify(body) : undefined,
  });
  const text = await resp.text();
  try { return JSON.parse(text); } catch { return { raw: text, status: resp.status }; }
}

const server = new McpServer({ name: "lakehouse", version: "1.0.0" });

server.tool(
  "search_workers",
  "Hybrid SQL+vector search. SQL ensures structural accuracy (role, state, reliability), vector ranks by semantic relevance. Every result is verified against the golden dataset.",
  {
    question: z.string().describe("Natural language question about workers"),
    sql_filter: z.string().optional().describe("SQL WHERE clause, e.g. \"role = 'Forklift Operator' AND state = 'IL' AND reliability > 0.8\""),
    dataset: z.string().default("ethereal_workers"),
    id_column: z.string().default("worker_id"),
    top_k: z.number().default(5),
  },
  async ({ question, sql_filter, dataset, id_column, top_k }) => {
    const body: any = { question, index_name: "ethereal_workers_v1", filter_dataset: dataset, id_column, top_k, generate: true };
    if (sql_filter) body.sql_filter = sql_filter;
    const r = await api("POST", "/vectors/hybrid", body);
    return { content: [{ type: "text" as const, text: JSON.stringify(r, null, 2) }] };
  },
);

server.tool(
  "query_sql",
  "Run SQL against any lakehouse dataset. Tables: ethereal_workers (10K), candidates (100K), timesheets (1M), call_log (800K), email_log (500K), placements (50K), job_orders (15K), clients (2K).",
  { sql: z.string().describe("SQL query") },
  async ({ sql }) => {
    const r = await api("POST", "/query/sql", { sql });
    if (r.error) return { content: [{ type: "text" as const, text: `SQL Error: ${r.error}` }] };
    return { content: [{ type: "text" as const, text: `${r.row_count} rows:\n${JSON.stringify(r.rows?.slice(0, 20), null, 2)}` }] };
  },
);

server.tool(
  "match_contract",
  "Find qualified workers for a staffing contract. SQL-verified matches ranked by semantic fit.",
  {
    role: z.string(), state: z.string(), city: z.string().optional(),
    min_reliability: z.number().default(0.7),
    required_certs: z.array(z.string()).default([]),
    headcount: z.number().default(5),
  },
  async ({ role, state, city, min_reliability, required_certs, headcount }) => {
    let filter = `role = '${role}' AND state = '${state}' AND reliability >= ${min_reliability}`;
    if (city) filter += ` AND city = '${city}'`;
    const r = await api("POST", "/vectors/hybrid", {
      question: `Find the best ${role} workers with relevant skills and certifications`,
      index_name: "ethereal_workers_v1", sql_filter: filter,
      filter_dataset: "ethereal_workers", id_column: "worker_id",
      top_k: headcount * 2, generate: false,
    });
    let matches = r.sources || [];
    if (required_certs.length > 0) {
      const req = new Set(required_certs.map((c: string) => c.toLowerCase()));
      matches = matches.filter((m: any) => {
        const certs = (m.chunk_text || "").toLowerCase();
        return [...req].every(c => certs.includes(c));
      });
    }
    return { content: [{ type: "text" as const, text: JSON.stringify({
      contract: { role, state, city, min_reliability, required_certs },
      matches: matches.slice(0, headcount), total_sql: r.sql_matches, method: r.method,
    }, null, 2) }] };
  },
);

server.tool(
  "get_worker",
  "Fetch one worker profile by ID — all fields including scores and comms.",
  { worker_id: z.number() },
  async ({ worker_id }) => {
    const r = await api("POST", "/query/sql", { sql: `SELECT * FROM ethereal_workers WHERE worker_id = ${worker_id}` });
    if (!r.rows?.length) return { content: [{ type: "text" as const, text: `Worker ${worker_id} not found` }] };
    return { content: [{ type: "text" as const, text: JSON.stringify(r.rows[0], null, 2) }] };
  },
);

server.tool(
  "rag_question",
  "Natural language question answered via RAG (embed → search → retrieve → generate). For open-ended questions where SQL alone isn't enough.",
  { question: z.string(), index: z.string().default("ethereal_workers_v1"), top_k: z.number().default(5) },
  async ({ question, index, top_k }) => {
    const r = await api("POST", "/vectors/rag", { index_name: index, question, top_k });
    return { content: [{ type: "text" as const, text: r.error ? `RAG Error: ${r.error}` : `Answer: ${r.answer}\n\nSources: ${r.sources?.length || 0}` }] };
  },
);

server.tool(
  "log_success",
  "Record a successful operation to the playbook database. Small models query this later to learn what worked.",
  {
    operation: z.string().describe("What was done"),
    approach: z.string().describe("How it was done"),
    result: z.string().describe("Outcome"),
    context: z.string().optional(),
  },
  async ({ operation, approach, result, context }) => {
    const csv = `timestamp,operation,approach,result,context\n"${new Date().toISOString()}","${operation.replace(/"/g, '""')}","${approach.replace(/"/g, '""')}","${result.replace(/"/g, '""')}","${(context||"").replace(/"/g, '""')}"`;
    const form = new FormData();
    form.append("file", new Blob([csv], { type: "text/csv" }), "playbook.csv");
    const resp = await fetch(`${BASE}/ingest/file?name=successful_playbooks`, { method: "POST", body: form });
    return { content: [{ type: "text" as const, text: `Logged: ${await resp.text()}` }] };
  },
);

server.tool(
  "get_playbooks",
  "Retrieve past successful operations. Small models use this to learn what approaches worked.",
  { keyword: z.string().optional(), limit: z.number().default(10) },
  async ({ keyword, limit }) => {
    let sql = `SELECT * FROM successful_playbooks ORDER BY timestamp DESC LIMIT ${limit}`;
    if (keyword) sql = `SELECT * FROM successful_playbooks WHERE operation LIKE '%${keyword}%' OR approach LIKE '%${keyword}%' ORDER BY timestamp DESC LIMIT ${limit}`;
    const r = await api("POST", "/query/sql", { sql });
    if (r.error) return { content: [{ type: "text" as const, text: "No playbooks yet — log some successful operations first!" }] };
    return { content: [{ type: "text" as const, text: JSON.stringify(r.rows, null, 2) }] };
  },
);

server.tool(
  "swap_profile",
  "Hot-swap model profile. Changes Ollama model in VRAM + bound datasets. 'agent-parquet' = HNSW (fast), 'agent-lance' = IVF_PQ (scalable).",
  { profile_id: z.string() },
  async ({ profile_id }) => {
    const r = await api("POST", `/vectors/profile/${profile_id}/activate`);
    return { content: [{ type: "text" as const, text: JSON.stringify({
      profile: r.profile_id, model: r.ollama_name,
      indexes: r.indexes_warmed?.length, vectors: r.total_vectors,
      previous: r.previous_profile, duration: r.duration_secs,
    }, null, 2) }] };
  },
);

server.tool(
  "vram_status",
  "GPU VRAM usage + loaded Ollama models. Check before swapping profiles.",
  {},
  async () => {
    const r = await api("GET", "/ai/vram");
    return { content: [{ type: "text" as const, text: JSON.stringify(r, null, 2) }] };
  },
);

// Resources — these give any MCP client full context about the system

server.resource("lakehouse://system", "lakehouse://system", async (uri) => {
  const health = await api("GET", "/health");
  const datasets = await api("GET", "/catalog/datasets") as any[];
  const indexes = await api("GET", "/vectors/indexes") as any[];
  const vram = await api("GET", "/ai/vram");
  const agent = await api("GET", "/vectors/agent/status");
  const buckets = await api("GET", "/storage/buckets");

  const text = `# Lakehouse System Status

## Health: ${health === "lakehouse ok" ? "OK" : JSON.stringify(health)}

## Datasets (${datasets.length})
${datasets.map((d: any) => `- ${d.name}: ${d.row_count || "?"} rows`).join("\n")}

## Vector Indexes (${indexes.length})
${(indexes as any[]).map((i: any) => `- ${i.index_name}: ${i.chunk_count} chunks (${i.vector_backend || "parquet"})`).join("\n")}

## GPU
- Used: ${vram?.gpu?.used_mib || "?"}/${vram?.gpu?.total_mib || "?"} MiB
- Models loaded: ${(vram?.ollama_loaded || []).map((m: any) => m.name).join(", ") || "none"}

## Autotune Agent
- Running: ${agent?.running}, Trials: ${agent?.trials_run}, Promotions: ${agent?.promotions}

## Buckets (${(buckets as any[])?.length || 0})
${(buckets as any[] || []).map((b: any) => `- ${b.name}: ${b.backend} (${b.reachable ? "reachable" : "DOWN"})`).join("\n")}

## Services
- Lakehouse Gateway: :3100
- AI Sidecar: :3200
- Agent Gateway: :3700
- Langfuse: :3001
- MinIO S3: :9000
- Ollama: :11434

## Available Models
- qwen3: 8.2B, 40K context, thinking+tools (best for reasoning)
- qwen2.5: 7B, 8K context (best for fast SQL generation)
- mistral: 7B, 8K context (general generation)
- nomic-embed-text: 137M (embedding, automatic)
`;
  return { contents: [{ uri: uri.href, mimeType: "text/plain", text }] };
});

server.resource("lakehouse://architecture", "lakehouse://architecture", async (uri) => {
  // Read the PRD directly
  const prd = await Bun.file("/home/profit/lakehouse/docs/PRD.md").text().catch(() => "PRD not found");
  return { contents: [{ uri: uri.href, mimeType: "text/markdown", text: prd }] };
});

server.resource("lakehouse://instructions", "lakehouse://instructions", async (uri) => {
  const instructions = await Bun.file("/home/profit/lakehouse/mcp-server/AGENT_INSTRUCTIONS.md").text().catch(() => "Instructions not found");
  return { contents: [{ uri: uri.href, mimeType: "text/markdown", text: instructions }] };
});

server.resource("lakehouse://playbooks", "lakehouse://playbooks", async (uri) => {
  const r = await api("POST", "/query/sql", {
    sql: "SELECT * FROM successful_playbooks ORDER BY timestamp DESC LIMIT 20"
  });
  const rows = r?.rows || [];
  const text = rows.length === 0
    ? "No playbooks yet. Log successful operations with the log_success tool."
    : rows.map((p: any) => `## ${p.operation}\n- Approach: ${p.approach}\n- Result: ${p.result}\n- Context: ${p.context || "—"}\n`).join("\n");
  return { contents: [{ uri: uri.href, mimeType: "text/markdown", text: `# Successful Playbooks\n\n${text}` }] };
});

server.resource("lakehouse://datasets", "lakehouse://datasets", async (uri) => {
  const r = await api("GET", "/catalog/datasets") as any[];
  const text = r.map(d => `${d.name}: ${d.row_count || "?"} rows`).join("\n");
  return { contents: [{ uri: uri.href, mimeType: "text/plain", text }] };
});

// ─── Dual mode: stdio (Claude Code) or HTTP (internal agents) ───

async function main() {
  if (MODE === "stdio") {
    const transport = new StdioServerTransport();
    await server.connect(transport);
    console.error(`Lakehouse MCP (stdio) → ${BASE}`);
    return;
  }

  // HTTP mode — a REST gateway that internal agents call directly.
  // No MCP protocol complexity for consumers — just POST JSON, get JSON.
  // The MCP tool definitions above are reused for the stdio path; this
  // HTTP path wraps the same lakehouse API with agent-friendly routing.

  Bun.serve({
    port: PORT,
    async fetch(req) {
      const url = new URL(req.url);
      const json = async () => req.method === "POST" ? await req.json() : {};
      const ok = (data: any) => Response.json(data);
      const err = (msg: string, status = 400) => Response.json({ error: msg }, { status });

      try {
        // Health
        if (url.pathname === "/health") return ok({ status: "ok", lakehouse: BASE, tools: 11 });

        // Self-orientation: any agent calls this first to understand the system
        if (url.pathname === "/context") {
          const instructions = await Bun.file("/home/profit/lakehouse/mcp-server/AGENT_INSTRUCTIONS.md").text().catch(() => "");
          const datasets = await api("GET", "/catalog/datasets") as any[];
          const indexes = await api("GET", "/vectors/indexes") as any[];
          const vram = await api("GET", "/ai/vram");
          return ok({
            system: "Lakehouse Staffing Co-Pilot",
            purpose: "AI anticipates staffing coordinator needs — pre-matches workers to contracts, surfaces alerts, builds playbooks from successful operations",
            instructions: instructions.slice(0, 3000),
            datasets: (datasets || []).map((d: any) => ({ name: d.name, rows: d.row_count })),
            indexes: (indexes || []).map((i: any) => ({ name: i.index_name, chunks: i.chunk_count, backend: i.vector_backend })),
            models: { qwen3: "8.2B reasoning+tools", qwen2_5: "7B fast SQL", mistral: "7B generation", nomic: "137M embedding" },
            vram: vram?.gpu,
            tools: ["/search","/sql","/match","/worker/:id","/ask","/log","/playbooks","/profile/:id","/vram","/context","/verify"],
            rules: [
              "Never hallucinate — only state facts from tool responses",
              "SQL for counts/aggregations, hybrid /search for matching",
              "Log every successful operation to /log",
              "Check /playbooks before complex tasks",
              "Verify worker details via /worker/:id before communicating",
            ],
          });
        }

        // Verification endpoint — agent can check any claim against SQL
        if (url.pathname === "/verify") {
          const b = await json();
          // b.claim: "worker 4925 is a Forklift Operator in IL with reliability 0.82"
          // b.worker_id: 4925
          // b.checks: { role: "Forklift Operator", state: "IL", reliability: 0.82 }
          if (!b.worker_id) return err("worker_id required");
          const r = await api("POST", "/query/sql", {
            sql: `SELECT * FROM ethereal_workers WHERE worker_id = ${b.worker_id}`
          });
          const worker = r?.rows?.[0];
          if (!worker) return ok({ verified: false, reason: `worker ${b.worker_id} not found` });

          const checks = b.checks || {};
          const failures: string[] = [];
          for (const [field, expected] of Object.entries(checks)) {
            const actual = worker[field];
            if (actual === undefined) continue;
            if (typeof expected === "number") {
              if (Math.abs(Number(actual) - expected) > 0.05) {
                failures.push(`${field}: claimed=${expected} actual=${actual}`);
              }
            } else if (String(actual).toLowerCase() !== String(expected).toLowerCase()) {
              failures.push(`${field}: claimed=${expected} actual=${actual}`);
            }
          }
          return ok({
            verified: failures.length === 0,
            worker_id: b.worker_id,
            worker_name: worker.name,
            failures,
            actual: worker,
          });
        }

        // Tool: hybrid search
        if (url.pathname === "/search") {
          const b = await json();
          return ok(await api("POST", "/vectors/hybrid", {
            question: b.question, index_name: b.index || "ethereal_workers_v1",
            sql_filter: b.sql_filter, filter_dataset: b.dataset || "ethereal_workers",
            id_column: b.id_column || "worker_id", top_k: b.top_k || 5, generate: b.generate !== false,
          }));
        }

        // Tool: SQL
        if (url.pathname === "/sql") {
          const b = await json();
          return ok(await api("POST", "/query/sql", { sql: b.sql }));
        }

        // Tool: match contract
        if (url.pathname === "/match") {
          const b = await json();
          let filter = `role = '${b.role}' AND state = '${b.state}' AND reliability >= ${b.min_reliability || 0.7}`;
          if (b.city) filter += ` AND city = '${b.city}'`;
          return ok(await api("POST", "/vectors/hybrid", {
            question: `Best ${b.role} workers with relevant skills`,
            index_name: b.index || "ethereal_workers_v1", sql_filter: filter,
            filter_dataset: b.dataset || "ethereal_workers",
            id_column: "worker_id", top_k: (b.headcount || 5) * 2, generate: false,
          }));
        }

        // Tool: get worker
        if (url.pathname.startsWith("/worker/")) {
          const id = url.pathname.split("/")[2];
          return ok(await api("POST", "/query/sql", { sql: `SELECT * FROM ethereal_workers WHERE worker_id = ${id}` }));
        }

        // Tool: RAG
        if (url.pathname === "/ask") {
          const b = await json();
          return ok(await api("POST", "/vectors/rag", { index_name: b.index || "ethereal_workers_v1", question: b.question, top_k: b.top_k || 5 }));
        }

        // Tool: log success
        if (url.pathname === "/log") {
          const b = await json();
          const csv = `timestamp,operation,approach,result,context\n"${new Date().toISOString()}","${(b.operation||"").replace(/"/g,'""')}","${(b.approach||"").replace(/"/g,'""')}","${(b.result||"").replace(/"/g,'""')}","${(b.context||"").replace(/"/g,'""')}"`;
          const form = new FormData();
          form.append("file", new Blob([csv], { type: "text/csv" }), "playbook.csv");
          const r = await fetch(`${BASE}/ingest/file?name=successful_playbooks`, { method: "POST", body: form });
          return ok({ logged: true, response: await r.text() });
        }

        // Tool: get playbooks
        if (url.pathname === "/playbooks") {
          const kw = url.searchParams.get("keyword");
          const limit = url.searchParams.get("limit") || "10";
          let sql = `SELECT * FROM successful_playbooks ORDER BY timestamp DESC LIMIT ${limit}`;
          if (kw) sql = `SELECT * FROM successful_playbooks WHERE operation LIKE '%${kw}%' OR approach LIKE '%${kw}%' ORDER BY timestamp DESC LIMIT ${limit}`;
          const r = await api("POST", "/query/sql", { sql });
          return ok(r.error ? { playbooks: [], note: "No playbooks yet" } : { playbooks: r.rows });
        }

        // Tool: swap profile
        if (url.pathname.startsWith("/profile/")) {
          const id = url.pathname.split("/")[2];
          return ok(await api("POST", `/vectors/profile/${id}/activate`));
        }

        // Tool: VRAM
        if (url.pathname === "/vram") return ok(await api("GET", "/ai/vram"));

        // Pass-through to lakehouse for anything else
        if (url.pathname.startsWith("/api/")) {
          const path = url.pathname.replace("/api", "");
          const body = req.method !== "GET" ? await req.text() : undefined;
          const r = await fetch(`${BASE}${path}`, { method: req.method, headers: { "Content-Type": "application/json" }, body });
          return new Response(await r.text(), { status: r.status, headers: { "Content-Type": "application/json" } });
        }

        // Dashboard UI
        if (url.pathname === "/" || url.pathname === "/dashboard") {
          return new Response(Bun.file(import.meta.dir + "/dashboard.html"));
        }
        if (url.pathname === "/dashboard.css") {
          return new Response(Bun.file(import.meta.dir + "/dashboard.css"), { headers: { "Content-Type": "text/css" } });
        }
        if (url.pathname === "/dashboard.ts" || url.pathname === "/dashboard.js") {
          // Bun transpiles TS on the fly
          const built = await Bun.build({ entrypoints: [import.meta.dir + "/dashboard.ts"], target: "browser" });
          const js = await built.outputs[0].text();
          return new Response(js, { headers: { "Content-Type": "application/javascript" } });
        }

        // Week simulation endpoint
        if (url.pathname === "/simulation/run" && req.method === "POST") {
          return ok(await runWeekSimulation());
        }

        return err("Unknown path. Available: / /health /search /sql /match /worker/:id /ask /log /playbooks /profile/:id /vram /context /verify /simulation/run", 404);
      } catch (e: any) {
        return err(e.message || String(e), 500);
      }
    },
  });

  console.error(`Lakehouse Agent Gateway :${PORT} → ${BASE}`);
}

main().catch(console.error);

// ─── Week simulation engine ───

const ROLES = ["Forklift Operator","Machine Operator","Assembler","Loader","Quality Tech","Welder","Sanitation Worker","Shipping Clerk","Production Worker","Maintenance Tech"];
const STATES = ["IL","IN","OH","MO","TN","KY","WI","MI"];
const CITIES: Record<string, string[]> = {
  IL: ["Chicago","Springfield","Rockford","Peoria","Joliet"],
  IN: ["Indianapolis","Fort Wayne","Evansville","South Bend"],
  OH: ["Columbus","Cleveland","Cincinnati","Dayton"],
  MO: ["St. Louis","Kansas City","Springfield"],
  TN: ["Nashville","Memphis"], KY: ["Louisville","Lexington"],
  WI: ["Milwaukee","Madison"], MI: ["Detroit","Grand Rapids"],
};
const CLIENTS = ["Midwest Logistics","Precision Mfg","Amazon DSP","CleanSpace","AutoParts Direct","Great Lakes Steel","Heartland Foods","Summit Packaging","Cardinal Health","TechFlow Assembly","River City Plastics","Prairie Wind Energy"];
const PRIORITIES = ["urgent","high","medium","medium","medium","low"];
const STARTS = ["5:00 AM","6:00 AM","6:30 AM","7:00 AM","7:30 AM","8:00 AM"];
const NOTES = [
  "Warehouse expansion — need experienced workers",
  "Peak season surge — client called last night",
  "2nd shift, CNC preferred",
  "Chemical plant — hazmat cert MANDATORY",
  "ISO audit next week — need detail-oriented workers",
  "Structural welding — experienced only",
  "Regular fill — ongoing contract",
  "Client doubled their order",
  "Night shift coverage needed",
  "Replacing 2 no-shows from yesterday",
];

function pick<T>(arr: T[]): T { return arr[Math.floor(Math.random() * arr.length)]; }

async function runWeekSimulation() {
  const days = ["Monday","Tuesday","Wednesday","Thursday","Friday"];
  const staffers = ["Sarah (Lead)","Mike (Senior)","Kim (Junior)"];
  const results: any[] = [];
  let totalFilled = 0, totalNeeded = 0, emergencies = 0, handoffs = 0, playbookEntries = 0;

  for (let d = 0; d < days.length; d++) {
    const dayLabel = days[d];
    const numContracts = 4 + Math.floor(Math.random() * 5); // 4-8 per day
    const contracts: any[] = [];
    const staffer = staffers[d % staffers.length];
    const handoffTo = staffers[(d + 1) % staffers.length];

    for (let c = 0; c < numContracts; c++) {
      const state = pick(STATES);
      const city = pick(CITIES[state] || [state]);
      const role = pick(ROLES);
      const priority = pick(PRIORITIES) as string;
      const headcount = priority === "urgent" ? 4 + Math.floor(Math.random() * 5) :
                        priority === "high" ? 3 + Math.floor(Math.random() * 3) :
                        2 + Math.floor(Math.random() * 3);
      const minRel = priority === "urgent" ? 0.6 : priority === "high" ? 0.75 : 0.8;
      const cid = `W${d+1}-${String(c+1).padStart(3,"0")}`;

      if (priority === "urgent") emergencies++;
      totalNeeded += headcount;

      // Run hybrid search
      let filled = 0;
      let matches: any[] = [];
      try {
        const filt = `role = '${role}' AND state = '${state}' AND reliability >= ${minRel}`;
        const r = await api("POST", "/vectors/hybrid", {
          question: `Find ${role} workers for ${pick(NOTES)}`,
          index_name: "ethereal_workers_v1",
          sql_filter: filt,
          filter_dataset: "ethereal_workers",
          id_column: "worker_id",
          top_k: headcount + 2,
          generate: false,
        });
        matches = (r.sources || []).slice(0, headcount).map((s: any) => ({
          doc_id: s.doc_id,
          name: s.chunk_text?.split("—")[0]?.trim() || s.doc_id,
          score: s.score,
        }));
        filled = matches.length;
      } catch {}
      totalFilled += Math.min(filled, headcount);

      contracts.push({
        id: cid, client: pick(CLIENTS), role, state, city,
        headcount, filled: Math.min(filled, headcount), priority,
        start: pick(STARTS), notes: pick(NOTES), matches,
        staffer, handoff_to: d < 4 ? handoffTo : null,
      });
    }

    // End of day: log playbook + prepare handoff
    if (d < 4) {
      handoffs++;
      try {
        await api("POST", "/api/ingest/file?name=successful_playbooks", null); // just trigger
      } catch {}
    }
    playbookEntries++;

    results.push({
      label: dayLabel,
      staffer,
      handoff_to: d < 4 ? handoffTo : null,
      contracts,
      filled: contracts.reduce((s: number, c: any) => s + c.filled, 0),
      needed: contracts.reduce((s: number, c: any) => s + c.headcount, 0),
    });
  }

  const summary = {
    total_contracts: results.reduce((s, d) => s + d.contracts.length, 0),
    total_needed: totalNeeded,
    total_filled: totalFilled,
    fill_pct: Math.round(totalFilled / Math.max(totalNeeded, 1) * 100),
    emergencies,
    handoffs,
    playbook_entries: playbookEntries,
  };

  // Log the week to playbooks
  try {
    const form = new FormData();
    const csv = `timestamp,operation,approach,result,context\n"${new Date().toISOString()}","week_simulation: ${summary.total_contracts} contracts over 5 days","hybrid SQL+vector with multi-model routing","${summary.total_filled}/${summary.total_needed} filled (${summary.fill_pct}%)","${summary.emergencies} emergencies, ${summary.handoffs} handoffs"`;
    form.append("file", new Blob([csv], { type: "text/csv" }), "playbook.csv");
    await fetch(`${BASE}/ingest/file?name=successful_playbooks`, { method: "POST", body: form });
  } catch {}

  return { days: results, summary };
}