langchain/templates/neo4j-cypher-memory/neo4j_cypher_memory/chain.py
Tomaz Bratanic d9abcf1aae
Neo4j conversation cypher template (#12927)
Adding custom graph memory to Cypher chain

---------

Co-authored-by: Erick Friis <erick@langchain.dev>
2023-11-07 11:05:28 -08:00

147 lines
4.5 KiB
Python

from typing import Any, Dict, List
from langchain.chains.graph_qa.cypher_utils import CypherQueryCorrector, Schema
from langchain.chat_models import ChatOpenAI
from langchain.graphs import Neo4jGraph
from langchain.memory import ChatMessageHistory
from langchain.prompts import ChatPromptTemplate, MessagesPlaceholder
from langchain.pydantic_v1 import BaseModel
from langchain.schema.output_parser import StrOutputParser
from langchain.schema.runnable import RunnablePassthrough
# Connection to Neo4j
graph = Neo4jGraph()
# Cypher validation tool for relationship directions
corrector_schema = [
Schema(el["start"], el["type"], el["end"])
for el in graph.structured_schema.get("relationships")
]
cypher_validation = CypherQueryCorrector(corrector_schema)
# LLMs
cypher_llm = ChatOpenAI(model_name="gpt-4", temperature=0.0)
qa_llm = ChatOpenAI(model_name="gpt-3.5-turbo", temperature=0.0)
def convert_messages(input: List[Dict[str, Any]]) -> ChatMessageHistory:
history = ChatMessageHistory()
for item in input:
history.add_user_message(item["result"]["question"])
history.add_ai_message(item["result"]["answer"])
return history
def get_history(input: Dict[str, Any]) -> ChatMessageHistory:
input.pop("question")
# Lookback conversation window
window = 3
data = graph.query(
"""
MATCH (u:User {id:$user_id})-[:HAS_SESSION]->(s:Session {id:$session_id}),
(s)-[:LAST_MESSAGE]->(last_message)
MATCH p=(last_message)<-[:NEXT*0.."""
+ str(window)
+ """]-()
WITH p, length(p) AS length
ORDER BY length DESC LIMIT 1
UNWIND reverse(nodes(p)) AS node
MATCH (node)-[:HAS_ANSWER]->(answer)
RETURN {question:node.text, answer:answer.text} AS result
""",
params=input,
)
history = convert_messages(data)
return history.messages
def save_history(input):
input.pop("response")
# store history to database
graph.query(
"""MERGE (u:User {id: $user_id})
WITH u
OPTIONAL MATCH (u)-[:HAS_SESSION]->(s:Session{id: $session_id}),
(s)-[l:LAST_MESSAGE]->(last_message)
FOREACH (_ IN CASE WHEN last_message IS NULL THEN [1] ELSE [] END |
CREATE (u)-[:HAS_SESSION]->(s1:Session {id:$session_id}),
(s1)-[:LAST_MESSAGE]->(q:Question {text:$question, cypher:$query, date:datetime()}),
(q)-[:HAS_ANSWER]->(:Answer {text:$output}))
FOREACH (_ IN CASE WHEN last_message IS NOT NULL THEN [1] ELSE [] END |
CREATE (last_message)-[:NEXT]->(q:Question
{text:$question, cypher:$query, date:datetime()}),
(q)-[:HAS_ANSWER]->(:Answer {text:$output}),
(s)-[:LAST_MESSAGE]->(q)
DELETE l) """,
params=input,
)
# Return LLM response to the chain
return input["output"]
# Generate Cypher statement based on natural language input
cypher_template = """This is important for my career.
Based on the Neo4j graph schema below, write a Cypher query that would answer the user's question:
{schema}
Question: {question}
Cypher query:""" # noqa: E501
cypher_prompt = ChatPromptTemplate.from_messages(
[
(
"system",
"Given an input question, convert it to a Cypher query. No pre-amble.",
),
MessagesPlaceholder(variable_name="history"),
("human", cypher_template),
]
)
cypher_response = (
RunnablePassthrough.assign(schema=lambda _: graph.get_schema, history=get_history)
| cypher_prompt
| cypher_llm.bind(stop=["\nCypherResult:"])
| StrOutputParser()
)
# Generate natural language response based on database results
response_template = """Based on the the question, Cypher query, and Cypher response, write a natural language response:
Question: {question}
Cypher query: {query}
Cypher Response: {response}""" # noqa: E501
response_prompt = ChatPromptTemplate.from_messages(
[
(
"system",
"Given an input question and Cypher response, convert it to a "
"natural language answer. No pre-amble.",
),
("human", response_template),
]
)
chain = (
RunnablePassthrough.assign(query=cypher_response)
| RunnablePassthrough.assign(
response=lambda x: graph.query(cypher_validation(x["query"])),
)
| RunnablePassthrough.assign(
output=response_prompt | qa_llm | StrOutputParser(),
)
| save_history
)
# Add typing for input
class Question(BaseModel):
question: str
user_id: str
session_id: str
chain = chain.with_types(input_type=Question)