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diegosouzapw--omniroute/tests/unit/memory-vectorstore-int8-quant.test.ts
2026-07-13 13:39:12 +08:00

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TypeScript

/**
* tests/unit/memory-vectorstore-int8-quant.test.ts
*
* F4.4 / Q2 — opt-in sqlite-vec int8 storage quantization.
* - When MEMORY_VEC_QUANTIZATION=int8, ensureReady stores an ":int8"-suffixed
* signature and creates the vec table with an int8[N] column (vectors stored
* via vec_quantize_int8 'unit').
* - Recall: int8 nearest-neighbor matches the exact float32 nearest-neighbor on
* a deterministic fixture (top-1 identical, top-3 overlap >= 2/3).
* - Switching mode (none -> int8) is a signature change → resetForSignature
* recreates the table and marks all memories needs_reindex.
*/
import test from "node:test";
import assert from "node:assert/strict";
import fs from "node:fs";
import os from "node:os";
import path from "node:path";
const TEST_DATA_DIR = fs.mkdtempSync(path.join(os.tmpdir(), "omr-vecstore-int8-"));
process.env.DATA_DIR = TEST_DATA_DIR;
process.env.DISABLE_SQLITE_AUTO_BACKUP = "true";
const core = await import("../../src/lib/db/core.ts");
const vsModule = await import("../../src/lib/memory/vectorStore.ts");
const { getVectorStore, _resetVectorStoreSingleton } = vsModule;
import type { EmbeddingResolution } from "../../src/lib/memory/embedding/types.ts";
const DIM = 8;
function makeResolution(): EmbeddingResolution {
return {
source: "remote",
model: "test/dim8",
dimensions: DIM,
signature: `test:dim8:${DIM}`,
reason: "test",
};
}
function vec(values: number[]): Float32Array {
return new Float32Array(values);
}
// Deterministic, well-separated unit-ish fixture (8 dims, 6 memories).
const FIXTURE: Array<{ id: string; v: number[] }> = [
{ id: "m0", v: [1, 0, 0, 0, 0, 0, 0, 0] },
{ id: "m1", v: [0, 1, 0, 0, 0, 0, 0, 0] },
{ id: "m2", v: [0, 0, 1, 0, 0, 0, 0, 0] },
{ id: "m3", v: [0.6, 0.8, 0, 0, 0, 0, 0, 0] },
{ id: "m4", v: [0, 0, 0, 1, 0, 0, 0, 0] },
{ id: "m5", v: [0, 0, 0, 0, 0.7071, 0.7071, 0, 0] },
];
function l2(a: number[], b: number[]): number {
let s = 0;
for (let i = 0; i < a.length; i++) s += (a[i] - b[i]) ** 2;
return Math.sqrt(s);
}
function exactNearestIds(query: number[], k: number): string[] {
return [...FIXTURE]
.map((f) => ({ id: f.id, d: l2(f.v, query) }))
.sort((a, b) => a.d - b.d)
.slice(0, k)
.map((x) => x.id);
}
function cleanup() {
_resetVectorStoreSingleton();
core.resetDbInstance();
if (fs.existsSync(TEST_DATA_DIR)) fs.rmSync(TEST_DATA_DIR, { recursive: true, force: true });
fs.mkdirSync(TEST_DATA_DIR, { recursive: true });
}
test.afterEach(() => {
delete process.env.MEMORY_VEC_QUANTIZATION;
cleanup();
});
test.after(() => {
core.resetDbInstance();
if (fs.existsSync(TEST_DATA_DIR)) fs.rmSync(TEST_DATA_DIR, { recursive: true, force: true });
});
function getStoreOrSkip(t: { skip: (msg: string) => void }): ReturnType<typeof getVectorStore> {
_resetVectorStoreSingleton();
const store = getVectorStore();
if (store === null) {
t.skip("sqlite-vec not available in this environment — skipping");
return null;
}
return store;
}
function insertMemory(db: ReturnType<typeof core.getDbInstance>, id: string) {
db.prepare(
`INSERT INTO memories (id, api_key_id, type, key, content, created_at)
VALUES (?, 'key1', 'factual', ?, ?, datetime('now'))`,
).run(id, `key-${id}`, `content-${id}`);
}
async function seedFixture(store: NonNullable<ReturnType<typeof getVectorStore>>) {
const db = core.getDbInstance();
await store.ensureReady(makeResolution());
for (const f of FIXTURE) {
insertMemory(db, f.id);
await store.upsertVector(f.id, vec(f.v));
}
}
test("int8 mode: ensureReady stores an ':int8' signature", async (t) => {
process.env.MEMORY_VEC_QUANTIZATION = "int8";
const store = getStoreOrSkip(t);
if (!store) return;
await store.ensureReady(makeResolution());
const stats = await store.stats();
assert.ok(
stats.signature?.endsWith(":int8"),
`signature must carry the int8 marker, got ${stats.signature}`,
);
});
test("int8 recall: nearest-neighbor matches exact float32 NN on the fixture", async (t) => {
process.env.MEMORY_VEC_QUANTIZATION = "int8";
const store = getStoreOrSkip(t);
if (!store) return;
await seedFixture(store);
// Query close to m2 ([0,0,1,...]).
const query = [0.05, 0.05, 0.95, 0, 0, 0, 0, 0];
const hits = await store.searchVector(vec(query), 3);
assert.ok(hits.length >= 1, "int8 search must return results");
const exact = exactNearestIds(query, 3);
assert.equal(hits[0].memoryId, exact[0], `top-1 must match exact NN (${exact[0]})`);
const overlap = hits.slice(0, 3).filter((h) => exact.includes(h.memoryId)).length;
assert.ok(overlap >= 2, `top-3 overlap must be >= 2/3 (got ${overlap}; int8=${hits
.map((h) => h.memoryId)
.join(",")} exact=${exact.join(",")})`);
});
test("switching none → int8 is a signature change that triggers reindex", async (t) => {
const store = getStoreOrSkip(t);
if (!store) return;
// Start in float32 mode and seed.
await seedFixture(store);
const before = await store.stats();
assert.ok(!before.signature?.endsWith(":int8"), "baseline should be float32 (no int8 marker)");
// Flip to int8 and re-run ensureReady → recreate + mark all needs_reindex.
process.env.MEMORY_VEC_QUANTIZATION = "int8";
const res = await store.ensureReady(makeResolution());
assert.match(res.reason, /recreated/i, "ensureReady must recreate the table on mode switch");
const after = await store.stats();
assert.ok(after.signature?.endsWith(":int8"), "signature must now carry the int8 marker");
assert.equal(after.rowCount, 0, "table recreated empty (vectors await reindex)");
assert.ok(after.needsReindex >= FIXTURE.length, "all memories must be marked needs_reindex");
});