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LightRAG/lightrag/kg/memgraph_impl.py
DavIvek 7118b23ca2 reformatting
2025-06-26 16:33:19 +02:00

482 lines
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Python
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import os
from dataclasses import dataclass
from typing import final
import configparser
from ..utils import logger
from ..base import BaseGraphStorage
from ..types import KnowledgeGraph, KnowledgeGraphNode, KnowledgeGraphEdge
from ..constants import GRAPH_FIELD_SEP
import pipmaster as pm
if not pm.is_installed("neo4j"):
pm.install("neo4j")
from neo4j import (
AsyncGraphDatabase,
AsyncManagedTransaction,
)
from dotenv import load_dotenv
# use the .env that is inside the current folder
load_dotenv(dotenv_path=".env", override=False)
MAX_GRAPH_NODES = int(os.getenv("MAX_GRAPH_NODES", 1000))
config = configparser.ConfigParser()
config.read("config.ini", "utf-8")
@final
@dataclass
class MemgraphStorage(BaseGraphStorage):
def __init__(self, namespace, global_config, embedding_func):
super().__init__(
namespace=namespace,
global_config=global_config,
embedding_func=embedding_func,
)
self._driver = None
async def initialize(self):
URI = os.environ.get(
"MEMGRAPH_URI",
config.get("memgraph", "uri", fallback="bolt://localhost:7687"),
)
USERNAME = os.environ.get(
"MEMGRAPH_USERNAME", config.get("memgraph", "username", fallback="")
)
PASSWORD = os.environ.get(
"MEMGRAPH_PASSWORD", config.get("memgraph", "password", fallback="")
)
DATABASE = os.environ.get(
"MEMGRAPH_DATABASE", config.get("memgraph", "database", fallback="memgraph")
)
self._driver = AsyncGraphDatabase.driver(
URI,
auth=(USERNAME, PASSWORD),
)
self._DATABASE = DATABASE
try:
async with self._driver.session(database=DATABASE) as session:
# Create index for base nodes on entity_id if it doesn't exist
try:
await session.run("""CREATE INDEX ON :base(entity_id)""")
logger.info("Created index on :base(entity_id) in Memgraph.")
except Exception as e:
# Index may already exist, which is not an error
logger.warning(
f"Index creation on :base(entity_id) may have failed or already exists: {e}"
)
await session.run("RETURN 1")
logger.info(f"Connected to Memgraph at {URI}")
except Exception as e:
logger.error(f"Failed to connect to Memgraph at {URI}: {e}")
raise
async def finalize(self):
if self._driver is not None:
await self._driver.close()
self._driver = None
async def __aexit__(self, exc_type, exc, tb):
await self.finalize()
async def index_done_callback(self):
# Memgraph handles persistence automatically
pass
async def has_node(self, node_id: str) -> bool:
async with self._driver.session(
database=self._DATABASE, default_access_mode="READ"
) as session:
query = "MATCH (n:base {entity_id: $entity_id}) RETURN count(n) > 0 AS node_exists"
result = await session.run(query, entity_id=node_id)
single_result = await result.single()
await result.consume()
return single_result["node_exists"]
async def has_edge(self, source_node_id: str, target_node_id: str) -> bool:
async with self._driver.session(
database=self._DATABASE, default_access_mode="READ"
) as session:
query = (
"MATCH (a:base {entity_id: $source_entity_id})-[r]-(b:base {entity_id: $target_entity_id}) "
"RETURN COUNT(r) > 0 AS edgeExists"
)
result = await session.run(
query,
source_entity_id=source_node_id,
target_entity_id=target_node_id,
)
single_result = await result.single()
await result.consume()
return single_result["edgeExists"]
async def get_node(self, node_id: str) -> dict[str, str] | None:
async with self._driver.session(
database=self._DATABASE, default_access_mode="READ"
) as session:
query = "MATCH (n:base {entity_id: $entity_id}) RETURN n"
result = await session.run(query, entity_id=node_id)
records = await result.fetch(2)
await result.consume()
if records:
node = records[0]["n"]
node_dict = dict(node)
if "labels" in node_dict:
node_dict["labels"] = [
label for label in node_dict["labels"] if label != "base"
]
return node_dict
return None
async def get_all_labels(self) -> list[str]:
async with self._driver.session(
database=self._DATABASE, default_access_mode="READ"
) as session:
query = """
MATCH (n:base)
WHERE n.entity_id IS NOT NULL
RETURN DISTINCT n.entity_id AS label
ORDER BY label
"""
result = await session.run(query)
labels = []
async for record in result:
labels.append(record["label"])
await result.consume()
return labels
async def get_node_edges(self, source_node_id: str) -> list[tuple[str, str]] | None:
async with self._driver.session(
database=self._DATABASE, default_access_mode="READ"
) as session:
query = """
MATCH (n:base {entity_id: $entity_id})
OPTIONAL MATCH (n)-[r]-(connected:base)
WHERE connected.entity_id IS NOT NULL
RETURN n, r, connected
"""
results = await session.run(query, entity_id=source_node_id)
edges = []
async for record in results:
source_node = record["n"]
connected_node = record["connected"]
if not source_node or not connected_node:
continue
source_label = source_node.get("entity_id")
target_label = connected_node.get("entity_id")
if source_label and target_label:
edges.append((source_label, target_label))
await results.consume()
return edges
async def get_edge(
self, source_node_id: str, target_node_id: str
) -> dict[str, str] | None:
async with self._driver.session(
database=self._DATABASE, default_access_mode="READ"
) as session:
query = """
MATCH (start:base {entity_id: $source_entity_id})-[r]-(end:base {entity_id: $target_entity_id})
RETURN properties(r) as edge_properties
"""
result = await session.run(
query,
source_entity_id=source_node_id,
target_entity_id=target_node_id,
)
records = await result.fetch(2)
await result.consume()
if records:
edge_result = dict(records[0]["edge_properties"])
for key, default_value in {
"weight": 0.0,
"source_id": None,
"description": None,
"keywords": None,
}.items():
if key not in edge_result:
edge_result[key] = default_value
return edge_result
return None
async def upsert_node(self, node_id: str, node_data: dict[str, str]) -> None:
properties = node_data
entity_type = properties.get("entity_type", "base")
if "entity_id" not in properties:
raise ValueError(
"Memgraph: node properties must contain an 'entity_id' field"
)
async with self._driver.session(database=self._DATABASE) as session:
async def execute_upsert(tx: AsyncManagedTransaction):
query = f"""
MERGE (n:base {{entity_id: $entity_id}})
SET n += $properties
SET n:`{entity_type}`
"""
result = await tx.run(query, entity_id=node_id, properties=properties)
await result.consume()
await session.execute_write(execute_upsert)
async def upsert_edge(
self, source_node_id: str, target_node_id: str, edge_data: dict[str, str]
) -> None:
edge_properties = edge_data
async with self._driver.session(database=self._DATABASE) as session:
async def execute_upsert(tx: AsyncManagedTransaction):
query = """
MATCH (source:base {entity_id: $source_entity_id})
WITH source
MATCH (target:base {entity_id: $target_entity_id})
MERGE (source)-[r:DIRECTED]-(target)
SET r += $properties
RETURN r, source, target
"""
result = await tx.run(
query,
source_entity_id=source_node_id,
target_entity_id=target_node_id,
properties=edge_properties,
)
await result.consume()
await session.execute_write(execute_upsert)
async def delete_node(self, node_id: str) -> None:
async def _do_delete(tx: AsyncManagedTransaction):
query = """
MATCH (n:base {entity_id: $entity_id})
DETACH DELETE n
"""
result = await tx.run(query, entity_id=node_id)
await result.consume()
async with self._driver.session(database=self._DATABASE) as session:
await session.execute_write(_do_delete)
async def remove_nodes(self, nodes: list[str]):
for node in nodes:
await self.delete_node(node)
async def remove_edges(self, edges: list[tuple[str, str]]):
for source, target in edges:
async def _do_delete_edge(tx: AsyncManagedTransaction):
query = """
MATCH (source:base {entity_id: $source_entity_id})-[r]-(target:base {entity_id: $target_entity_id})
DELETE r
"""
result = await tx.run(
query, source_entity_id=source, target_entity_id=target
)
await result.consume()
async with self._driver.session(database=self._DATABASE) as session:
await session.execute_write(_do_delete_edge)
async def drop(self) -> dict[str, str]:
try:
async with self._driver.session(database=self._DATABASE) as session:
query = "MATCH (n) DETACH DELETE n"
result = await session.run(query)
await result.consume()
logger.info(
f"Process {os.getpid()} drop Memgraph database {self._DATABASE}"
)
return {"status": "success", "message": "data dropped"}
except Exception as e:
logger.error(f"Error dropping Memgraph database {self._DATABASE}: {e}")
return {"status": "error", "message": str(e)}
async def node_degree(self, node_id: str) -> int:
async with self._driver.session(
database=self._DATABASE, default_access_mode="READ"
) as session:
query = """
MATCH (n:base {entity_id: $entity_id})
OPTIONAL MATCH (n)-[r]-()
RETURN COUNT(r) AS degree
"""
result = await session.run(query, entity_id=node_id)
record = await result.single()
await result.consume()
if not record:
return 0
return record["degree"]
async def edge_degree(self, src_id: str, tgt_id: str) -> int:
src_degree = await self.node_degree(src_id)
trg_degree = await self.node_degree(tgt_id)
src_degree = 0 if src_degree is None else src_degree
trg_degree = 0 if trg_degree is None else trg_degree
return int(src_degree) + int(trg_degree)
async def get_nodes_by_chunk_ids(self, chunk_ids: list[str]) -> list[dict]:
async with self._driver.session(
database=self._DATABASE, default_access_mode="READ"
) as session:
query = """
UNWIND $chunk_ids AS chunk_id
MATCH (n:base)
WHERE n.source_id IS NOT NULL AND chunk_id IN split(n.source_id, $sep)
RETURN DISTINCT n
"""
result = await session.run(query, chunk_ids=chunk_ids, sep=GRAPH_FIELD_SEP)
nodes = []
async for record in result:
node = record["n"]
node_dict = dict(node)
node_dict["id"] = node_dict.get("entity_id")
nodes.append(node_dict)
await result.consume()
return nodes
async def get_edges_by_chunk_ids(self, chunk_ids: list[str]) -> list[dict]:
async with self._driver.session(
database=self._DATABASE, default_access_mode="READ"
) as session:
query = """
UNWIND $chunk_ids AS chunk_id
MATCH (a:base)-[r]-(b:base)
WHERE r.source_id IS NOT NULL AND chunk_id IN split(r.source_id, $sep)
RETURN DISTINCT a.entity_id AS source, b.entity_id AS target, properties(r) AS properties
"""
result = await session.run(query, chunk_ids=chunk_ids, sep=GRAPH_FIELD_SEP)
edges = []
async for record in result:
edge_properties = record["properties"]
edge_properties["source"] = record["source"]
edge_properties["target"] = record["target"]
edges.append(edge_properties)
await result.consume()
return edges
async def get_knowledge_graph(
self,
node_label: str,
max_depth: int = 3,
max_nodes: int = MAX_GRAPH_NODES,
) -> KnowledgeGraph:
result = KnowledgeGraph()
seen_nodes = set()
seen_edges = set()
async with self._driver.session(
database=self._DATABASE, default_access_mode="READ"
) as session:
if node_label == "*":
count_query = "MATCH (n) RETURN count(n) as total"
count_result = await session.run(count_query)
count_record = await count_result.single()
await count_result.consume()
if count_record and count_record["total"] > max_nodes:
result.is_truncated = True
logger.info(
f"Graph truncated: {count_record['total']} nodes found, limited to {max_nodes}"
)
main_query = """
MATCH (n)
OPTIONAL MATCH (n)-[r]-()
WITH n, COALESCE(count(r), 0) AS degree
ORDER BY degree DESC
LIMIT $max_nodes
WITH collect({node: n}) AS filtered_nodes
UNWIND filtered_nodes AS node_info
WITH collect(node_info.node) AS kept_nodes, filtered_nodes
OPTIONAL MATCH (a)-[r]-(b)
WHERE a IN kept_nodes AND b IN kept_nodes
RETURN filtered_nodes AS node_info,
collect(DISTINCT r) AS relationships
"""
result_set = await session.run(main_query, {"max_nodes": max_nodes})
record = await result_set.single()
await result_set.consume()
else:
# BFS fallback for Memgraph (no APOC)
from collections import deque
# Get the starting node
start_query = "MATCH (n:base {entity_id: $entity_id}) RETURN n"
node_result = await session.run(start_query, entity_id=node_label)
node_record = await node_result.single()
await node_result.consume()
if not node_record:
return result
start_node = node_record["n"]
queue = deque([(start_node, 0)])
visited = set()
bfs_nodes = []
while queue and len(bfs_nodes) < max_nodes:
current_node, depth = queue.popleft()
node_id = current_node.get("entity_id")
if node_id in visited:
continue
visited.add(node_id)
bfs_nodes.append(current_node)
if depth < max_depth:
# Get neighbors
neighbor_query = """
MATCH (n:base {entity_id: $entity_id})-[]-(m:base)
RETURN m
"""
neighbors_result = await session.run(
neighbor_query, entity_id=node_id
)
neighbors = [
rec["m"] for rec in await neighbors_result.to_list()
]
await neighbors_result.consume()
for neighbor in neighbors:
neighbor_id = neighbor.get("entity_id")
if neighbor_id not in visited:
queue.append((neighbor, depth + 1))
# Build subgraph
subgraph_ids = [n.get("entity_id") for n in bfs_nodes]
# Nodes
for n in bfs_nodes:
node_id = n.get("entity_id")
if node_id not in seen_nodes:
result.nodes.append(
KnowledgeGraphNode(
id=node_id,
labels=[node_id],
properties=dict(n),
)
)
seen_nodes.add(node_id)
# Edges
if subgraph_ids:
edge_query = """
MATCH (a:base)-[r]-(b:base)
WHERE a.entity_id IN $ids AND b.entity_id IN $ids
RETURN DISTINCT r, a, b
"""
edge_result = await session.run(edge_query, ids=subgraph_ids)
async for record in edge_result:
r = record["r"]
a = record["a"]
b = record["b"]
edge_id = f"{a.get('entity_id')}-{b.get('entity_id')}"
if edge_id not in seen_edges:
result.edges.append(
KnowledgeGraphEdge(
id=edge_id,
type="DIRECTED",
source=a.get("entity_id"),
target=b.get("entity_id"),
properties=dict(r),
)
)
seen_edges.add(edge_id)
await edge_result.consume()
logger.info(
f"Subgraph query successful | Node count: {len(result.nodes)} | Edge count: {len(result.edges)}"
)
return result
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