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

197 lines
5.9 KiB
TypeScript

/**
* tests/unit/memory-vectorstore-stats.test.ts
*
* Plan 21 — Memory Engine Redesign (F4)
* Tests for VectorStore.stats():
* - rowCount reflects actual vec_memories count.
* - needsReindex reflects memories.needs_reindex=1 count.
* - activeDim and signature reflect memory_vec_meta.
* - stats() returns zeros when vec_memories does not exist yet.
*/
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";
import { mock } from "node:test";
const TEST_DATA_DIR = fs.mkdtempSync(path.join(os.tmpdir(), "omr-vecstore-stats-"));
process.env.DATA_DIR = TEST_DATA_DIR;
process.env.DISABLE_SQLITE_AUTO_BACKUP = "true";
const core = await import("../../src/lib/db/core.ts");
const { markAllMemoriesNeedReindex } = await import("../../src/lib/db/memoryVec.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 = 4;
function makeResolution(): EmbeddingResolution {
return {
source: "remote",
model: "test/dim4",
dimensions: DIM,
signature: `test:dim4:${DIM}`,
reason: "test",
};
}
function makeVec(...values: number[]): Float32Array {
return new Float32Array(values);
}
function insertMemory(
db: ReturnType<typeof core.getDbInstance>,
id: string,
) {
db.prepare(
`INSERT INTO memories (id, api_key_id, type, key, content, created_at)
VALUES (?, 'key1', 'factual', ?, ?, datetime('now'))`,
).run(id, `key-${id}`, `content-${id}`);
}
function cleanup() {
mock.restoreAll();
_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(() => {
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;
}
// ──────────────── stats() ────────────────
test("stats(): rowCount=0 and activeDim=null before ensureReady", async (t) => {
const store = getStoreOrSkip(t);
if (!store) return;
const result = await store.stats();
assert.equal(result.rowCount, 0, "rowCount must be 0 when table doesn't exist yet");
assert.equal(result.needsReindex, 0, "needsReindex must be 0 initially");
assert.equal(result.activeDim, null, "activeDim must be null before ensureReady");
assert.equal(result.signature, null, "signature must be null before ensureReady");
});
test("stats(): rowCount reflects actual vector count after upserts", async (t) => {
const store = getStoreOrSkip(t);
if (!store) return;
const db = core.getDbInstance();
await store.ensureReady(makeResolution());
insertMemory(db, "m1");
insertMemory(db, "m2");
insertMemory(db, "m3");
await store.upsertVector("m1", makeVec(1.0, 0.0, 0.0, 0.0));
await store.upsertVector("m2", makeVec(0.0, 1.0, 0.0, 0.0));
await store.upsertVector("m3", makeVec(0.0, 0.0, 1.0, 0.0));
const result = await store.stats();
assert.equal(result.rowCount, 3, "rowCount must equal number of inserted vectors");
});
test("stats(): needsReindex reflects memories marked for reindex", async (t) => {
const store = getStoreOrSkip(t);
if (!store) return;
const db = core.getDbInstance();
await store.ensureReady(makeResolution());
// Insert 5 memories.
for (let i = 0; i < 5; i++) {
insertMemory(db, `m${i}`);
}
// Mark all as needing reindex.
const affected = markAllMemoriesNeedReindex();
assert.equal(affected, 5, "should mark 5 memories as needing reindex");
const result = await store.stats();
assert.equal(result.needsReindex, 5, "needsReindex must reflect 5 memories with needs_reindex=1");
});
test("stats(): activeDim and signature reflect meta after ensureReady", async (t) => {
const store = getStoreOrSkip(t);
if (!store) return;
const sig = `test:dim4:${DIM}`;
await store.ensureReady(makeResolution());
const result = await store.stats();
assert.equal(result.activeDim, DIM, "activeDim must match the dimension passed to ensureReady");
assert.equal(result.signature, sig, "signature must match the resolution signature");
});
test("stats(): needsReindex decreases as vectors are inserted (marking reindex=0)", async (t) => {
const store = getStoreOrSkip(t);
if (!store) return;
const db = core.getDbInstance();
await store.ensureReady(makeResolution());
insertMemory(db, "m1");
insertMemory(db, "m2");
// Mark all as pending.
markAllMemoriesNeedReindex();
const before = await store.stats();
assert.equal(before.needsReindex, 2);
// Clear needs_reindex for m1 manually (simulating successful reindex).
db.prepare("UPDATE memories SET needs_reindex = 0 WHERE id = 'm1'").run();
const after = await store.stats();
assert.equal(after.needsReindex, 1, "needsReindex should decrease when a memory is cleared");
});
test("stats(): rowCount decreases after deleteVector", async (t) => {
const store = getStoreOrSkip(t);
if (!store) return;
const db = core.getDbInstance();
await store.ensureReady(makeResolution());
insertMemory(db, "m1");
insertMemory(db, "m2");
await store.upsertVector("m1", makeVec(1.0, 0.0, 0.0, 0.0));
await store.upsertVector("m2", makeVec(0.0, 1.0, 0.0, 0.0));
const before = await store.stats();
assert.equal(before.rowCount, 2);
await store.deleteVector("m1");
const after = await store.stats();
assert.equal(after.rowCount, 1, "rowCount should decrease after deleteVector");
});