mirror of
https://github.com/HKUDS/LightRAG.git
synced 2025-07-27 19:00:39 +00:00
566 lines
21 KiB
Python
566 lines
21 KiB
Python
import asyncio
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import inspect
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import os
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import re
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from dataclasses import dataclass
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from typing import Any, Union, Tuple, List, Dict
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import pipmaster as pm
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import configparser
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if not pm.is_installed("neo4j"):
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pm.install("neo4j")
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from neo4j import (
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AsyncGraphDatabase,
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exceptions as neo4jExceptions,
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AsyncDriver,
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AsyncManagedTransaction,
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GraphDatabase,
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)
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from tenacity import (
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retry,
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stop_after_attempt,
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wait_exponential,
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retry_if_exception_type,
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)
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from ..utils import logger
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from ..base import BaseGraphStorage
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from ..types import KnowledgeGraph, KnowledgeGraphNode, KnowledgeGraphEdge
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config = configparser.ConfigParser()
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config.read("config.ini", "utf-8")
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@dataclass
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class Neo4JStorage(BaseGraphStorage):
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@staticmethod
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def load_nx_graph(file_name):
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print("no preloading of graph with neo4j in production")
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def __init__(self, namespace, global_config, embedding_func):
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super().__init__(
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namespace=namespace,
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global_config=global_config,
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embedding_func=embedding_func,
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)
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self._driver = None
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self._driver_lock = asyncio.Lock()
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URI = os.environ["NEO4J_URI", config.get("neo4j", "uri", fallback=None)]
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USERNAME = os.environ[
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"NEO4J_USERNAME", config.get("neo4j", "username", fallback=None)
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]
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PASSWORD = os.environ[
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"NEO4J_PASSWORD", config.get("neo4j", "password", fallback=None)
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]
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MAX_CONNECTION_POOL_SIZE = int(
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os.environ.get(
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"NEO4J_MAX_CONNECTION_POOL_SIZE",
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config.get("neo4j", "connection_pool_size", fallback=800),
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)
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)
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DATABASE = os.environ.get(
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"NEO4J_DATABASE", re.sub(r"[^a-zA-Z0-9-]", "-", namespace)
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)
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self._driver: AsyncDriver = AsyncGraphDatabase.driver(
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URI, auth=(USERNAME, PASSWORD)
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)
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# Try to connect to the database
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with GraphDatabase.driver(
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URI,
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auth=(USERNAME, PASSWORD),
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max_connection_pool_size=MAX_CONNECTION_POOL_SIZE,
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) as _sync_driver:
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for database in (DATABASE, None):
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self._DATABASE = database
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connected = False
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try:
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with _sync_driver.session(database=database) as session:
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try:
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session.run("MATCH (n) RETURN n LIMIT 0")
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logger.info(f"Connected to {database} at {URI}")
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connected = True
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except neo4jExceptions.ServiceUnavailable as e:
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logger.error(
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f"{database} at {URI} is not available".capitalize()
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)
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raise e
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except neo4jExceptions.AuthError as e:
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logger.error(f"Authentication failed for {database} at {URI}")
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raise e
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except neo4jExceptions.ClientError as e:
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if e.code == "Neo.ClientError.Database.DatabaseNotFound":
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logger.info(
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f"{database} at {URI} not found. Try to create specified database.".capitalize()
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)
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try:
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with _sync_driver.session() as session:
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session.run(
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f"CREATE DATABASE `{database}` IF NOT EXISTS"
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)
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logger.info(f"{database} at {URI} created".capitalize())
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connected = True
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except (
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neo4jExceptions.ClientError,
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neo4jExceptions.DatabaseError,
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) as e:
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if (
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e.code
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== "Neo.ClientError.Statement.UnsupportedAdministrationCommand"
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) or (
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e.code == "Neo.DatabaseError.Statement.ExecutionFailed"
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):
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if database is not None:
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logger.warning(
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"This Neo4j instance does not support creating databases. Try to use Neo4j Desktop/Enterprise version or DozerDB instead. Fallback to use the default database."
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)
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if database is None:
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logger.error(f"Failed to create {database} at {URI}")
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raise e
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if connected:
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break
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def __post_init__(self):
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self._node_embed_algorithms = {
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"node2vec": self._node2vec_embed,
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}
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async def close(self):
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if self._driver:
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await self._driver.close()
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self._driver = None
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async def __aexit__(self, exc_type, exc, tb):
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if self._driver:
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await self._driver.close()
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async def index_done_callback(self):
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print("KG successfully indexed.")
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async def has_node(self, node_id: str) -> bool:
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entity_name_label = node_id.strip('"')
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async with self._driver.session(database=self._DATABASE) as session:
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query = (
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f"MATCH (n:`{entity_name_label}`) RETURN count(n) > 0 AS node_exists"
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)
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result = await session.run(query)
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single_result = await result.single()
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logger.debug(
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f"{inspect.currentframe().f_code.co_name}:query:{query}:result:{single_result['node_exists']}"
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)
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return single_result["node_exists"]
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async def has_edge(self, source_node_id: str, target_node_id: str) -> bool:
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entity_name_label_source = source_node_id.strip('"')
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entity_name_label_target = target_node_id.strip('"')
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async with self._driver.session(database=self._DATABASE) as session:
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query = (
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f"MATCH (a:`{entity_name_label_source}`)-[r]-(b:`{entity_name_label_target}`) "
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"RETURN COUNT(r) > 0 AS edgeExists"
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)
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result = await session.run(query)
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single_result = await result.single()
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logger.debug(
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f"{inspect.currentframe().f_code.co_name}:query:{query}:result:{single_result['edgeExists']}"
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)
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return single_result["edgeExists"]
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async def get_node(self, node_id: str) -> Union[dict, None]:
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async with self._driver.session(database=self._DATABASE) as session:
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entity_name_label = node_id.strip('"')
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query = f"MATCH (n:`{entity_name_label}`) RETURN n"
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result = await session.run(query)
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record = await result.single()
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if record:
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node = record["n"]
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node_dict = dict(node)
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logger.debug(
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f"{inspect.currentframe().f_code.co_name}: query: {query}, result: {node_dict}"
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)
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return node_dict
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return None
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async def node_degree(self, node_id: str) -> int:
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entity_name_label = node_id.strip('"')
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async with self._driver.session(database=self._DATABASE) as session:
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query = f"""
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MATCH (n:`{entity_name_label}`)
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RETURN COUNT{{ (n)--() }} AS totalEdgeCount
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"""
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result = await session.run(query)
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record = await result.single()
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if record:
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edge_count = record["totalEdgeCount"]
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logger.debug(
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f"{inspect.currentframe().f_code.co_name}:query:{query}:result:{edge_count}"
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)
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return edge_count
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else:
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return None
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async def edge_degree(self, src_id: str, tgt_id: str) -> int:
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entity_name_label_source = src_id.strip('"')
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entity_name_label_target = tgt_id.strip('"')
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src_degree = await self.node_degree(entity_name_label_source)
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trg_degree = await self.node_degree(entity_name_label_target)
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# Convert None to 0 for addition
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src_degree = 0 if src_degree is None else src_degree
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trg_degree = 0 if trg_degree is None else trg_degree
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degrees = int(src_degree) + int(trg_degree)
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logger.debug(
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f"{inspect.currentframe().f_code.co_name}:query:src_Degree+trg_degree:result:{degrees}"
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)
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return degrees
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async def get_edge(
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self, source_node_id: str, target_node_id: str
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) -> Union[dict, None]:
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entity_name_label_source = source_node_id.strip('"')
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entity_name_label_target = target_node_id.strip('"')
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"""
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Find all edges between nodes of two given labels
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Args:
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source_node_label (str): Label of the source nodes
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target_node_label (str): Label of the target nodes
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Returns:
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list: List of all relationships/edges found
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"""
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async with self._driver.session(database=self._DATABASE) as session:
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query = f"""
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MATCH (start:`{entity_name_label_source}`)-[r]->(end:`{entity_name_label_target}`)
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RETURN properties(r) as edge_properties
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LIMIT 1
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""".format(
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entity_name_label_source=entity_name_label_source,
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entity_name_label_target=entity_name_label_target,
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)
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result = await session.run(query)
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record = await result.single()
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if record:
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result = dict(record["edge_properties"])
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logger.debug(
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f"{inspect.currentframe().f_code.co_name}:query:{query}:result:{result}"
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)
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return result
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else:
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return None
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async def get_node_edges(self, source_node_id: str) -> List[Tuple[str, str]]:
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node_label = source_node_id.strip('"')
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"""
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Retrieves all edges (relationships) for a particular node identified by its label.
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:return: List of dictionaries containing edge information
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"""
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query = f"""MATCH (n:`{node_label}`)
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OPTIONAL MATCH (n)-[r]-(connected)
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RETURN n, r, connected"""
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async with self._driver.session(database=self._DATABASE) as session:
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results = await session.run(query)
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edges = []
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async for record in results:
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source_node = record["n"]
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connected_node = record["connected"]
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source_label = (
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list(source_node.labels)[0] if source_node.labels else None
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)
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target_label = (
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list(connected_node.labels)[0]
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if connected_node and connected_node.labels
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else None
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)
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if source_label and target_label:
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edges.append((source_label, target_label))
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return edges
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@retry(
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stop=stop_after_attempt(3),
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wait=wait_exponential(multiplier=1, min=4, max=10),
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retry=retry_if_exception_type(
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(
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neo4jExceptions.ServiceUnavailable,
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neo4jExceptions.TransientError,
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neo4jExceptions.WriteServiceUnavailable,
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neo4jExceptions.ClientError,
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)
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),
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)
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async def upsert_node(self, node_id: str, node_data: Dict[str, Any]):
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"""
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Upsert a node in the Neo4j database.
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Args:
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node_id: The unique identifier for the node (used as label)
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node_data: Dictionary of node properties
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"""
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label = node_id.strip('"')
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properties = node_data
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async def _do_upsert(tx: AsyncManagedTransaction):
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query = f"""
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MERGE (n:`{label}`)
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SET n += $properties
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"""
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await tx.run(query, properties=properties)
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logger.debug(
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f"Upserted node with label '{label}' and properties: {properties}"
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)
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try:
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async with self._driver.session(database=self._DATABASE) as session:
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await session.execute_write(_do_upsert)
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except Exception as e:
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logger.error(f"Error during upsert: {str(e)}")
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raise
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@retry(
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stop=stop_after_attempt(3),
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wait=wait_exponential(multiplier=1, min=4, max=10),
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retry=retry_if_exception_type(
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(
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neo4jExceptions.ServiceUnavailable,
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neo4jExceptions.TransientError,
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neo4jExceptions.WriteServiceUnavailable,
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)
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),
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)
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async def upsert_edge(
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self, source_node_id: str, target_node_id: str, edge_data: Dict[str, Any]
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):
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"""
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Upsert an edge and its properties between two nodes identified by their labels.
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Args:
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source_node_id (str): Label of the source node (used as identifier)
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target_node_id (str): Label of the target node (used as identifier)
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edge_data (dict): Dictionary of properties to set on the edge
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"""
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source_node_label = source_node_id.strip('"')
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target_node_label = target_node_id.strip('"')
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edge_properties = edge_data
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async def _do_upsert_edge(tx: AsyncManagedTransaction):
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query = f"""
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MATCH (source:`{source_node_label}`)
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WITH source
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MATCH (target:`{target_node_label}`)
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MERGE (source)-[r:DIRECTED]->(target)
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SET r += $properties
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RETURN r
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"""
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await tx.run(query, properties=edge_properties)
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logger.debug(
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f"Upserted edge from '{source_node_label}' to '{target_node_label}' with properties: {edge_properties}"
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)
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try:
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async with self._driver.session(database=self._DATABASE) as session:
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await session.execute_write(_do_upsert_edge)
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except Exception as e:
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logger.error(f"Error during edge upsert: {str(e)}")
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raise
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async def _node2vec_embed(self):
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print("Implemented but never called.")
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async def get_knowledge_graph(
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self, node_label: str, max_depth: int = 5
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) -> KnowledgeGraph:
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"""
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Get complete connected subgraph for specified node (including the starting node itself)
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Key fixes:
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1. Include the starting node itself
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2. Handle multi-label nodes
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3. Clarify relationship directions
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4. Add depth control
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"""
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label = node_label.strip('"')
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result = KnowledgeGraph()
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seen_nodes = set()
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seen_edges = set()
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async with self._driver.session(database=self._DATABASE) as session:
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try:
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main_query = ""
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if label == "*":
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main_query = """
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MATCH (n)
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WITH collect(DISTINCT n) AS nodes
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MATCH ()-[r]-()
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RETURN nodes, collect(DISTINCT r) AS relationships;
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"""
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else:
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# Critical debug step: first verify if starting node exists
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validate_query = f"MATCH (n:`{label}`) RETURN n LIMIT 1"
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validate_result = await session.run(validate_query)
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if not await validate_result.single():
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logger.warning(f"Starting node {label} does not exist!")
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return result
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# Optimized query (including direction handling and self-loops)
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main_query = f"""
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MATCH (start:`{label}`)
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WITH start
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CALL apoc.path.subgraphAll(start, {{
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relationshipFilter: '>',
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minLevel: 0,
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maxLevel: {max_depth},
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bfs: true
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}})
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YIELD nodes, relationships
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RETURN nodes, relationships
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"""
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result_set = await session.run(main_query)
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record = await result_set.single()
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if record:
|
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# Handle nodes (compatible with multi-label cases)
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for node in record["nodes"]:
|
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# Use node ID + label combination as unique identifier
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node_id = node.id
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if node_id not in seen_nodes:
|
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result.nodes.append(
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KnowledgeGraphNode(
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id=f"{node_id}",
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labels=list(node.labels),
|
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properties=dict(node),
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)
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)
|
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seen_nodes.add(node_id)
|
|
|
|
# Handle relationships (including direction information)
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|
for rel in record["relationships"]:
|
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edge_id = rel.id
|
|
if edge_id not in seen_edges:
|
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start = rel.start_node
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end = rel.end_node
|
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result.edges.append(
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KnowledgeGraphEdge(
|
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id=f"{edge_id}",
|
|
type=rel.type,
|
|
source=f"{start.id}",
|
|
target=f"{end.id}",
|
|
properties=dict(rel),
|
|
)
|
|
)
|
|
seen_edges.add(edge_id)
|
|
|
|
logger.info(
|
|
f"Subgraph query successful | Node count: {len(result.nodes)} | Edge count: {len(result.edges)}"
|
|
)
|
|
|
|
except neo4jExceptions.ClientError as e:
|
|
logger.error(f"APOC query failed: {str(e)}")
|
|
return await self._robust_fallback(label, max_depth)
|
|
|
|
return result
|
|
|
|
async def _robust_fallback(
|
|
self, label: str, max_depth: int
|
|
) -> Dict[str, List[Dict]]:
|
|
"""Enhanced fallback query solution"""
|
|
result = {"nodes": [], "edges": []}
|
|
visited_nodes = set()
|
|
visited_edges = set()
|
|
|
|
async def traverse(current_label: str, current_depth: int):
|
|
if current_depth > max_depth:
|
|
return
|
|
|
|
# Get current node details
|
|
node = await self.get_node(current_label)
|
|
if not node:
|
|
return
|
|
|
|
node_id = f"{current_label}"
|
|
if node_id in visited_nodes:
|
|
return
|
|
visited_nodes.add(node_id)
|
|
|
|
# Add node data (with complete labels)
|
|
node_data = {k: v for k, v in node.items()}
|
|
node_data["labels"] = [
|
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current_label
|
|
] # Assume get_node method returns label information
|
|
result["nodes"].append(node_data)
|
|
|
|
# Get all outgoing and incoming edges
|
|
query = f"""
|
|
MATCH (a)-[r]-(b)
|
|
WHERE a:`{current_label}` OR b:`{current_label}`
|
|
RETURN a, r, b,
|
|
CASE WHEN startNode(r) = a THEN 'OUTGOING' ELSE 'INCOMING' END AS direction
|
|
"""
|
|
async with self._driver.session(database=self._DATABASE) as session:
|
|
results = await session.run(query)
|
|
async for record in results:
|
|
# Handle edges
|
|
rel = record["r"]
|
|
edge_id = f"{rel.id}_{rel.type}"
|
|
if edge_id not in visited_edges:
|
|
edge_data = dict(rel)
|
|
edge_data.update(
|
|
{
|
|
"source": list(record["a"].labels)[0],
|
|
"target": list(record["b"].labels)[0],
|
|
"type": rel.type,
|
|
"direction": record["direction"],
|
|
}
|
|
)
|
|
result["edges"].append(edge_data)
|
|
visited_edges.add(edge_id)
|
|
|
|
# Recursively traverse adjacent nodes
|
|
next_label = (
|
|
list(record["b"].labels)[0]
|
|
if record["direction"] == "OUTGOING"
|
|
else list(record["a"].labels)[0]
|
|
)
|
|
await traverse(next_label, current_depth + 1)
|
|
|
|
await traverse(label, 0)
|
|
return result
|
|
|
|
async def get_all_labels(self) -> List[str]:
|
|
"""
|
|
Get all existing node labels in the database
|
|
Returns:
|
|
["Person", "Company", ...] # Alphabetically sorted label list
|
|
"""
|
|
async with self._driver.session(database=self._DATABASE) as session:
|
|
# Method 1: Direct metadata query (Available for Neo4j 4.3+)
|
|
# query = "CALL db.labels() YIELD label RETURN label"
|
|
|
|
# Method 2: Query compatible with older versions
|
|
query = """
|
|
MATCH (n)
|
|
WITH DISTINCT labels(n) AS node_labels
|
|
UNWIND node_labels AS label
|
|
RETURN DISTINCT label
|
|
ORDER BY label
|
|
"""
|
|
|
|
result = await session.run(query)
|
|
labels = []
|
|
async for record in result:
|
|
labels.append(record["label"])
|
|
return labels
|