feat(vector): add LocalSQLiteVecStore backed by sqlite-vec

Implements the VectorStore ABC using sqlite-vec virtual tables. Two-table design (vec0 virtual + companion meta) supports upsert, top-k ANN query with optional metadata post-filter, delete by ID, and bulk delete_where. Also renames VectorMatch.id → entry_id to avoid shadowing the Python builtin, updating base.py and all tests. Installed: sqlite-vec 0.1.9 Tests: 16 passed (7 base + 9 integration)
2026-05-04 15:41:39 -07:00 · 2026-05-04 15:41:39 -07:00 · 0489f1111c
commit 0489f1111c
parent e6c69f25ae
5 changed files with 261 additions and 7 deletions
--- a/circuitforge_core/vector/init.py
+++ b/circuitforge_core/vector/init.py
@ -1,3 +1,4 @@
 from .base import VectorMatch, VectorStore
+from .sqlite_vec import LocalSQLiteVecStore

-__all__ = ["VectorMatch", "VectorStore"]
+__all__ = ["VectorMatch", "VectorStore", "LocalSQLiteVecStore"]
--- a/circuitforge_core/vector/base.py
+++ b/circuitforge_core/vector/base.py
@ -15,7 +15,7 @@ from typing import Any
 class VectorMatch:
    """A single result from a vector similarity search."""

-    id: str
+    entry_id: str
    score: float  # lower is better (L2 / cosine distance)
    metadata: dict[str, Any] = field(default_factory=dict)

--- a/circuitforge_core/vector/sqlite_vec.py
+++ b/circuitforge_core/vector/sqlite_vec.py
@ -0,0 +1,176 @@
+# circuitforge_core/vector/sqlite_vec.py
+"""
+circuitforge_core.vector.sqlite_vec -- sqlite-vec backed VectorStore.
+
+Suitable for single-user local deployments. Cloud Paid tier replaces
+this with QdrantStore via the same VectorStore ABC.
+"""
+
+from __future__ import annotations
+
+import json
+import logging
+import sqlite3
+import struct
+from contextlib import contextmanager
+from pathlib import Path
+from typing import Any, Generator
+
+import sqlite_vec
+
+from .base import VectorMatch, VectorStore
+
+logger = logging.getLogger(__name__)
+
+
+def _serialize(vector: list[float]) -> bytes:
+    return struct.pack(f"<{len(vector)}f", *vector)
+
+
+class LocalSQLiteVecStore(VectorStore):
+    """
+    VectorStore backed by sqlite-vec virtual tables.
+
+    Uses two tables per logical store:
+    - ``<table>_vecs``:  vec0 virtual table (rowid-indexed float vectors)
+    - ``<table>_meta``:  companion table mapping rowid to string ID + JSON metadata
+
+    Args:
+        db_path:    Path to SQLite database file.
+        table:      Logical name prefix (default ``"vecs"``).
+        dimensions: Vector length; must match the embedding model (default 768).
+    """
+
+    def __init__(
+        self,
+        db_path: str | Path,
+        table: str = "vecs",
+        dimensions: int = 768,
+    ) -> None:
+        self.db_path = str(db_path)
+        self.table = table
+        self.dimensions = dimensions
+        self._init_tables()
+
+    @contextmanager
+    def _conn(self) -> Generator[sqlite3.Connection, None, None]:
+        conn = sqlite3.connect(self.db_path)
+        conn.enable_load_extension(True)
+        sqlite_vec.load(conn)
+        conn.enable_load_extension(False)
+        conn.row_factory = sqlite3.Row
+        try:
+            yield conn
+            conn.commit()
+        finally:
+            conn.close()
+
+    def _init_tables(self) -> None:
+        with self._conn() as conn:
+            conn.execute(f"""
+                CREATE VIRTUAL TABLE IF NOT EXISTS {self.table}_vecs
+                USING vec0(embedding float[{self.dimensions}])
+            """)
+            conn.execute(f"""
+                CREATE TABLE IF NOT EXISTS {self.table}_meta (
+                    rowid    INTEGER PRIMARY KEY,
+                    entry_id TEXT NOT NULL UNIQUE,
+                    metadata TEXT NOT NULL DEFAULT '{{}}'
+                )
+            """)
+
+    def upsert(
+        self, entry_id: str, vector: list[float], metadata: dict[str, Any]
+    ) -> None:
+        with self._conn() as conn:
+            row = conn.execute(
+                f"SELECT rowid FROM {self.table}_meta WHERE entry_id = ?", [entry_id]
+            ).fetchone()
+
+            if row:
+                rowid = row["rowid"]
+                conn.execute(
+                    f"UPDATE {self.table}_vecs SET embedding = ? WHERE rowid = ?",
+                    [_serialize(vector), rowid],
+                )
+                conn.execute(
+                    f"UPDATE {self.table}_meta SET metadata = ? WHERE rowid = ?",
+                    [json.dumps(metadata), rowid],
+                )
+            else:
+                cursor = conn.execute(
+                    f"INSERT INTO {self.table}_meta(entry_id, metadata) VALUES (?, ?)",
+                    [entry_id, json.dumps(metadata)],
+                )
+                rowid = cursor.lastrowid
+                conn.execute(
+                    f"INSERT INTO {self.table}_vecs(rowid, embedding) VALUES (?, ?)",
+                    [rowid, _serialize(vector)],
+                )
+
+    def query(
+        self,
+        vector: list[float],
+        top_k: int = 10,
+        filter_metadata: dict[str, Any] | None = None,
+    ) -> list[VectorMatch]:
+        with self._conn() as conn:
+            rows = conn.execute(
+                f"""
+                SELECT m.entry_id, v.distance, m.metadata
+                FROM {self.table}_vecs v
+                JOIN {self.table}_meta m ON m.rowid = v.rowid
+                WHERE v.embedding MATCH ? AND k = ?
+                ORDER BY v.distance
+                """,
+                [_serialize(vector), top_k],
+            ).fetchall()
+
+        results = [
+            VectorMatch(
+                entry_id=r["entry_id"],
+                score=r["distance"],
+                metadata=json.loads(r["metadata"]),
+            )
+            for r in rows
+        ]
+
+        if filter_metadata:
+            results = [
+                r
+                for r in results
+                if all(r.metadata.get(k) == v for k, v in filter_metadata.items())
+            ]
+        return results
+
+    def delete(self, entry_id: str) -> None:
+        with self._conn() as conn:
+            row = conn.execute(
+                f"SELECT rowid FROM {self.table}_meta WHERE entry_id = ?", [entry_id]
+            ).fetchone()
+            if row:
+                rowid = row["rowid"]
+                conn.execute(f"DELETE FROM {self.table}_vecs WHERE rowid = ?", [rowid])
+                conn.execute(f"DELETE FROM {self.table}_meta WHERE rowid = ?", [rowid])
+
+    def delete_where(self, filter_metadata: dict[str, Any]) -> int:
+        if not filter_metadata:
+            raise ValueError(
+                "delete_where requires a non-empty filter; refusing to delete entire store"
+            )
+        with self._conn() as conn:
+            rows = conn.execute(
+                f"SELECT rowid, metadata FROM {self.table}_meta"
+            ).fetchall()
+            to_delete = [
+                r["rowid"]
+                for r in rows
+                if all(
+                    json.loads(r["metadata"]).get(k) == v
+                    for k, v in filter_metadata.items()
+                )
+            ]
+            for rowid in to_delete:
+                conn.execute(f"DELETE FROM {self.table}_vecs WHERE rowid = ?", [rowid])
+                conn.execute(f"DELETE FROM {self.table}_meta WHERE rowid = ?", [rowid])
+            return len(to_delete)
--- a/tests/test_vector/test_base.py
+++ b/tests/test_vector/test_base.py
@ -25,7 +25,7 @@ class _ConcreteStore(VectorStore):
        filter_metadata: dict | None = None,
    ) -> list[VectorMatch]:
        results = [
-            VectorMatch(id=k, score=0.0, metadata=v[1])
+            VectorMatch(entry_id=k, score=0.0, metadata=v[1])
            for k, v in self._data.items()
        ]
        if filter_metadata:
@ -51,13 +51,13 @@ class _ConcreteStore(VectorStore):


 def test_vector_match_is_frozen():
-    match = VectorMatch(id="a", score=0.1, metadata={})
+    match = VectorMatch(entry_id="a", score=0.1, metadata={})
    with pytest.raises(FrozenInstanceError):
        match.score = 0.5  # type: ignore[misc]


 def test_vector_match_metadata_is_dict():
-    match = VectorMatch(id="a", score=0.1, metadata={"k": "v"})
+    match = VectorMatch(entry_id="a", score=0.1, metadata={"k": "v"})
    assert isinstance(match.metadata, dict)
    assert match.metadata["k"] == "v"

@ -67,7 +67,7 @@ def test_upsert_and_query():
    store.upsert("chunk-1", [0.1, 0.2], {"doc_id": "book-a", "page": 1})
    results = store.query([0.1, 0.2])
    assert len(results) == 1
-    assert results[0].id == "chunk-1"
+    assert results[0].entry_id == "chunk-1"
    assert results[0].metadata["page"] == 1


@ -77,7 +77,7 @@ def test_query_filter_metadata():
    store.upsert("c2", [0.2], {"doc_id": "book-b"})
    results = store.query([0.1], filter_metadata={"doc_id": "book-a"})
    assert len(results) == 1
-    assert results[0].id == "c1"
+    assert results[0].entry_id == "c1"


 def test_delete():
--- a/tests/test_vector/test_sqlite_vec.py
+++ b/tests/test_vector/test_sqlite_vec.py
@ -0,0 +1,77 @@
+# tests/test_vector/test_sqlite_vec.py
+"""Integration tests for LocalSQLiteVecStore (uses a real in-memory sqlite-vec DB)."""
+
+from __future__ import annotations
+
+import pytest
+
+from circuitforge_core.vector.sqlite_vec import LocalSQLiteVecStore
+
+DIMS = 4  # small dimension for tests
+
+
+@pytest.fixture
+def store(tmp_path) -> LocalSQLiteVecStore:
+    return LocalSQLiteVecStore(db_path=tmp_path / "vecs.db", dimensions=DIMS)
+
+
+def _vec(val: float) -> list[float]:
+    return [val] * DIMS
+
+
+def test_upsert_and_query_returns_match(store):
+    store.upsert("doc-1::p1", _vec(0.1), {"doc_id": "doc-1", "page": 1})
+    results = store.query(_vec(0.1), top_k=5)
+    assert len(results) == 1
+    assert results[0].entry_id == "doc-1::p1"
+    assert results[0].metadata["page"] == 1
+
+
+def test_upsert_replaces_existing(store):
+    store.upsert("chunk-1", _vec(0.1), {"page": 1})
+    store.upsert("chunk-1", _vec(0.2), {"page": 99})
+    results = store.query(_vec(0.2), top_k=5)
+    assert results[0].metadata["page"] == 99
+
+
+def test_query_respects_top_k(store):
+    for i in range(5):
+        store.upsert(f"chunk-{i}", _vec(float(i) * 0.1), {"i": i})
+    results = store.query(_vec(0.0), top_k=2)
+    assert len(results) == 2
+
+
+def test_filter_metadata(store):
+    store.upsert("c1", _vec(0.1), {"doc_id": "book-a"})
+    store.upsert("c2", _vec(0.2), {"doc_id": "book-b"})
+    results = store.query(_vec(0.1), filter_metadata={"doc_id": "book-a"})
+    assert all(r.metadata["doc_id"] == "book-a" for r in results)
+
+
+def test_delete(store):
+    store.upsert("x", _vec(0.5), {})
+    store.delete("x")
+    assert store.query(_vec(0.5)) == []
+
+
+def test_delete_where(store):
+    store.upsert("c1", _vec(0.1), {"doc_id": "book-a"})
+    store.upsert("c2", _vec(0.2), {"doc_id": "book-a"})
+    store.upsert("c3", _vec(0.3), {"doc_id": "book-b"})
+    count = store.delete_where({"doc_id": "book-a"})
+    assert count == 2
+    assert len(store.query(_vec(0.1))) == 1
+
+
+def test_delete_nonexistent_is_noop(store):
+    store.delete("does-not-exist")  # should not raise
+
+
+def test_empty_query_returns_empty(store):
+    assert store.query(_vec(0.1)) == []
+
+
+def test_delete_where_raises_on_empty_filter(store):
+    store.upsert("c1", _vec(0.1), {"doc_id": "book-a"})
+    with pytest.raises(ValueError, match="empty"):
+        store.delete_where({})