b13b5cd7a1
The rank-based "lift" metric (warm-top-1 == cold-judge-best) doesn't distinguish "Shape B surfaced a strictly-better answer" from "Shape B shuffled ranks but quality is unchanged" from "Shape B replaced a good answer with a wrong one." This commit adds Pass 4: judge warm top-1 with the same prompt as cold ratings, then bucket the comparison. Implementation: - New --with-rejudge driver flag (default off). - New WITH_REJUDGE harness env (default 1, on for prod runs). - queryRun gains WarmTop1Metadata (cached during Pass 2 for the rejudge call) + WarmTop1Rating *int (nil-distinguishable; nil = no rejudge, 0..5 = rating). - summary gains RejudgeAttempted, QualityLifted, QualityNeutral, QualityRegressed (counts of warm-rating > / == / < cold-rating). - Markdown headline gains a Quality block when rejudge ran. - ~21 extra judge calls (~30s on qwen2.5). Run #005 result (split inject threshold 0.20 + paraphrase + rejudge): Quality lifted 5 / 21 (24%) — 3× +2 rating, 2× +1 rating Quality neutral 13 / 21 (62%) — includes OOD queries holding 1 Quality regressed 3 / 21 (14%) Net rating delta +3 across 21 queries (+0.14 average) The 5 lifts were all rating-2 cold replaced with rating-3 or rating-4 warm — Shape B took mediocre matches and substituted substantively better ones. The 3 regressions were small (-1, -1, -3). Q11 is the cautionary tale: cold top-1 "production line worker" (rating 4) got replaced by Q1's recorded "forklift OSHA-30 operator" e-5729 (rating 1). Adjacent-domain cross-pollination — production worker and forklift operator embed within 0.20 cosine because both are warehouse-adjacent staffing queries, even though the judge correctly distinguishes them. The split-threshold defense (0.5 boost / 0.20 inject) catches OOD cross-pollination (Q19/Q20/Q21 all stayed neutral at rating 1) but not adjacent-domain cross-pollination. Net product verdict: working, net-positive on quality, but the worst case (Q11 4→1) is customer-visible and warrants a tighter inject threshold OR an additional gate beyond cosine distance. Filed in STATE_OF_PLAY OPEN as a follow-up. Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
golangLAKEHOUSE
Go reimplementation of the Lakehouse — a versioned knowledge substrate for staffing analytics + local AI workloads.
Status
Phase G0 complete + G1/G1P/G2 shipped. Six binaries plus a seventh (vectord) and an eighth (embedd) on top, fronted by a single gateway. Acceptance smokes green for D1-D6 + G1 + G1P + G2.
End-to-end staffing co-pilot pipeline functional through the gateway:
text → /v1/embed → /v1/vectors/index/<name>/add
text → /v1/embed → /v1/vectors/index/<name>/search → top-K hits
Plus the SQL path:
CSV → /v1/ingest (parses, writes Parquet via storaged, registers
manifest with catalogd)
SQL → /v1/sql (DuckDB over the registered Parquets via httpfs)
See docs/PHASE_G0_KICKOFF.md for the day-by-day record (D1-D6 +
real-scale validation + G1/G1P/G2 pointer at the bottom).
Service inventory
| Bin | Port | Role |
|---|---|---|
gateway |
3110 | Reverse proxy fronting all backing services |
storaged |
3211 | Object I/O over S3 (MinIO in dev) |
catalogd |
3212 | Parquet manifest registry, ADR-020 idempotency |
ingestd |
3213 | CSV → Parquet → register loop |
queryd |
3214 | DuckDB SELECT over registered Parquets via httpfs |
vectord |
3215 | HNSW vector search (+ optional persistence to storaged) |
embedd |
3216 | Text → vector via Ollama (default nomic-embed-text 768-d) |
mcpd |
stdio | Model Context Protocol server (Claude Desktop / Code consumers) |
MCP server
bin/mcpd exposes Lakehouse capabilities as MCP tools over stdio:
list_datasets, get_manifest, query_sql, embed_text, search_vectors.
All tools proxy to the gateway, so the gateway must be up first.
Wire into Claude Desktop / Claude Code by adding to the MCP config:
{
"mcpServers": {
"lakehouse": {
"command": "/path/to/golangLAKEHOUSE/bin/mcpd",
"args": ["--gateway", "http://127.0.0.1:3110"]
}
}
}
Replaces the Bun mcp-server.ts MCP-tool surface from the Rust system.
HTTP demo routes (the staffing co-pilot UI) stay Bun until G5.
Acceptance smokes
scripts/d1_smoke.sh # 5-binary skeleton + chi /health + gateway proxy probes
scripts/d2_smoke.sh # storaged GET/PUT/LIST/DELETE + 256 MiB cap + concurrency cap
scripts/d3_smoke.sh # catalogd register/manifest/list + rehydrate-across-restart
scripts/d4_smoke.sh # ingestd CSV → Parquet round-trip + schema-drift 409
scripts/d5_smoke.sh # queryd DuckDB SELECT through httpfs over MinIO
scripts/d6_smoke.sh # full ingest → query through gateway only
scripts/g1_smoke.sh # vectord HNSW recall + dim mismatch + duplicate-create 409
scripts/g1p_smoke.sh # vectord state survives kill+restart via storaged
scripts/g2_smoke.sh # embed → vectord add → search round-trip
Or run the full gate via the task runner (see below):
just verify # vet + tests + 9 smokes; ~33s wall
Task runner
just # show available recipes
just verify # full Sprint 0 gate (vet + tests + 9 smokes)
just smoke <day> # single smoke (d1..d6, g1, g1p, g2)
just doctor # check cold-start deps; --json for CI
just install-hooks # install pre-push hook that runs just verify
After a fresh clone, run just install-hooks once so git push is
gated on the same green chain that ran here. Hook lives in
.git/hooks/pre-push (not tracked; recreated by the recipe).
Cold-start dependencies
- Go 1.25+ at
/usr/local/go/bin(arrow-go pulled the 1.25 floor) gcc+libc-devfor the DuckDB cgo binding (ADR-001 §1.1)justtask runner (apt install juston Debian 13+)- MinIO running on
:9000with bucketlakehouse-go-primary - Ollama running on
:11434withnomic-embed-textloaded (G2) /etc/lakehouse/secrets-go.tomlwith[s3.primary]credentials (storaged + queryd both read this)
just doctor probes all of the above and reports the fix command
for each missing dep. CI / scripts can use just doctor --json.
Layout
docs/ Direction + spec + ADRs + day-by-day
cmd/ One main package per binary
internal/ Shared packages — storeclient, catalogclient,
secrets, shared, embed, gateway, plus
per-service implementation packages
scripts/ Smokes + ancillary tooling
Reading order
docs/PRD.md— what we're building and whydocs/SPEC.md— how, per-componentdocs/DECISIONS.md— ADRs (ADR-001 foundational)docs/PHASE_G0_KICKOFF.md— day-by-day from D1 through G2docs/RUST_PATHWAY_MEMORY_NOTE.md— historical reference for the Rust era's pathway memory (not migrated, by ADR-001 #5)
Predecessor
The Rust Lakehouse this rewrite supersedes lives at
git.agentview.dev/profit/lakehouse. It remains the live system
serving devop.live/lakehouse/ until this Go implementation reaches
feature parity per docs/SPEC.md §7. Then Rust enters
maintenance-only mode.