😭 GraphRAG is good and powerful, but the official implementation is difficult/painful to read or hack.
😊 This project provides a smaller, faster, cleaner GraphRAG, while remaining the core functionality(see benchmark and issues ).
🎁 Excluding tests
and prompts, nano-graphrag
is about 1100 lines of code.
👌 Small yet portable(faiss, neo4j, ollama...), asynchronous and fully typed.
Install from source (recommend)
# clone this repo first
cd nano-graphrag
pip install -e .
Install from PyPi
pip install nano-graphrag
Tip
Please set OpenAI API key in environment: export OPENAI_API_KEY="sk-..."
.
Tip
If you're using Azure OpenAI API, refer to the .env.example to set your azure openai. Then pass GraphRAG(...,using_azure_openai=True,...)
to enable.
Tip
If you don't have any key, check out this example that using transformers
and ollama
. If you like to use another LLM or Embedding Model, check Advances.
download a copy of A Christmas Carol by Charles Dickens:
curl https://raw.githubusercontent.com/gusye1234/nano-graphrag/main/tests/mock_data.txt > ./book.txt
Use the below python snippet:
from nano_graphrag import GraphRAG, QueryParam
graph_func = GraphRAG(working_dir="./dickens")
with open("./book.txt") as f:
graph_func.insert(f.read())
# Perform global graphrag search
print(graph_func.query("What are the top themes in this story?"))
# Perform local graphrag search (I think is better and more scalable one)
print(graph_func.query("What are the top themes in this story?", param=QueryParam(mode="local")))
Next time you initialize a GraphRAG
from the same working_dir
, it will reload all the contexts automatically.
graph_func.insert(["TEXT1", "TEXT2",...])
Incremental Insert
nano-graphrag
supports incremental insert, no duplicated computation or data will be added:
with open("./book.txt") as f:
book = f.read()
half_len = len(book) // 2
graph_func.insert(book[:half_len])
graph_func.insert(book[half_len:])
nano-graphrag
use md5-hash of the content as the key, so there is no duplicated chunk.However, each time you insert, the communities of graph will be re-computed and the community reports will be re-generated
Naive RAG
nano-graphrag
supports naive RAG insert and query as well:
graph_func = GraphRAG(working_dir="./dickens", enable_naive_rag=True)
...
# Query
print(rag.query(
"What are the top themes in this story?",
param=QueryParam(mode="naive")
)
For each method NAME(...)
, there is a corresponding async method aNAME(...)
await graph_func.ainsert(...)
await graph_func.aquery(...)
...
GraphRAG
and QueryParam
are dataclass
in Python. Use help(GraphRAG)
and help(QueryParam)
to see all available parameters! Or check out the Advances section to see some options.
Below are the components you can use:
Type | What | Where |
---|---|---|
LLM | OpenAI | Built-in |
DeepSeek | examples | |
ollama |
examples | |
Embedding | OpenAI | Built-in |
Sentence-transformers | examples | |
Vector DataBase | nano-vectordb |
Built-in |
hnswlib |
Built-in, examples | |
milvus-lite |
examples | |
faiss | examples | |
Graph Storage | networkx |
Built-in |
neo4j |
Built-in(doc) | |
Visualization | graphml | examples |
Chunking | by token size | Built-in |
by text splitter | Built-in |
-
Built-in
means we have that implementation insidenano-graphrag
.examples
means we have that implementation inside an tutorial under examples folder. -
Check examples/benchmarks to see few comparisons between components.
-
Always welcome to contribute more components.
Some setup options
GraphRAG(...,always_create_working_dir=False,...)
will skip the dir-creating step. Use it if you switch all your components to non-file storages.
Only query the related context
graph_func.query
return the final answer without streaming.
If you like to interagte nano-graphrag
in your project, you can use param=QueryParam(..., only_need_context=True,...)
, which will only return the retrieved context from graph, something like:
# Local mode
-----Reports-----
```csv
id, content
0, # FOX News and Key Figures in Media and Politics...
1, ...
```
...
# Global mode
----Analyst 3----
Importance Score: 100
Donald J. Trump: Frequently discussed in relation to his political activities...
...
You can integrate that context into your customized prompt.
Prompt
nano-graphrag
use prompts from nano_graphrag.prompt.PROMPTS
dict object. You can play with it and replace any prompt inside.
Some important prompts:
PROMPTS["entity_extraction"]
is used to extract the entities and relations from a text chunk.PROMPTS["community_report"]
is used to organize and summary the graph cluster's description.PROMPTS["local_rag_response"]
is the system prompt template of the local search generation.PROMPTS["global_reduce_rag_response"]
is the system prompt template of the global search generation.PROMPTS["fail_response"]
is the fallback response when nothing is related to the user query.
Customize Chunking
nano-graphrag
allow you to customize your own chunking method, check out the example.
Switch to the built-in text splitter chunking method:
from nano_graphrag._op import chunking_by_seperators
GraphRAG(...,chunk_func=chunking_by_seperators,...)
LLM Function
In nano-graphrag
, we requires two types of LLM, a great one and a cheap one. The former is used to plan and respond, the latter is used to summary. By default, the great one is gpt-4o
and the cheap one is gpt-4o-mini
You can implement your own LLM function (refer to _llm.gpt_4o_complete
):
async def my_llm_complete(
prompt, system_prompt=None, history_messages=[], **kwargs
) -> str:
# pop cache KV database if any
hashing_kv: BaseKVStorage = kwargs.pop("hashing_kv", None)
# the rest kwargs are for calling LLM, for example, `max_tokens=xxx`
...
# YOUR LLM calling
response = await call_your_LLM(messages, **kwargs)
return response
Replace the default one with:
# Adjust the max token size or the max async requests if needed
GraphRAG(best_model_func=my_llm_complete, best_model_max_token_size=..., best_model_max_async=...)
GraphRAG(cheap_model_func=my_llm_complete, cheap_model_max_token_size=..., cheap_model_max_async=...)
You can refer to this example that use deepseek-chat
as the LLM model
You can refer to this example that use ollama
as the LLM model
nano-graphrag
will use best_model_func
to output JSON with params "response_format": {"type": "json_object"}
. However there are some open-source model maybe produce unstable JSON.
nano-graphrag
introduces a post-process interface for you to convert the response to JSON. This func's signature is below:
def YOUR_STRING_TO_JSON_FUNC(response: str) -> dict:
"Convert the string response to JSON"
...
And pass your own func by GraphRAG(...convert_response_to_json_func=YOUR_STRING_TO_JSON_FUNC,...)
.
For example, you can refer to json_repair to repair the JSON string returned by LLM.
Embedding Function
You can replace the default embedding functions with any _utils.EmbedddingFunc
instance.
For example, the default one is using OpenAI embedding API:
@wrap_embedding_func_with_attrs(embedding_dim=1536, max_token_size=8192)
async def openai_embedding(texts: list[str]) -> np.ndarray:
openai_async_client = AsyncOpenAI()
response = await openai_async_client.embeddings.create(
model="text-embedding-3-small", input=texts, encoding_format="float"
)
return np.array([dp.embedding for dp in response.data])
Replace default embedding function with:
GraphRAG(embedding_func=your_embed_func, embedding_batch_num=..., embedding_func_max_async=...)
You can refer to an example that use sentence-transformer
to locally compute embeddings.
Storage Component
You can replace all storage-related components to your own implementation, nano-graphrag
mainly uses three kinds of storage:
base.BaseKVStorage
for storing key-json pairs of data
- By default we use disk file storage as the backend.
GraphRAG(.., key_string_value_json_storage_cls=YOURS,...)
base.BaseVectorStorage
for indexing embeddings
- By default we use
nano-vectordb
as the backend. - We have a built-in
hnswlib
storage also, check out this example. - Check out this example that implements
milvus-lite
as the backend (not available in Windows). GraphRAG(.., vector_db_storage_cls=YOURS,...)
base.BaseGraphStorage
for storing knowledge graph
- By default we use
networkx
as the backend. - We have a built-in
Neo4jStorage
for graph, check out this tutorial. GraphRAG(.., graph_storage_cls=YOURS,...)
You can refer to nano_graphrag.base
to see detailed interfaces for each components.
Check FQA.
See ROADMAP.md
nano-graphrag
is open to any kind of contribution. Read this before you contribute.
- Medical Graph RAG: Graph RAG for the Medical Data
- LightRAG: Simple and Fast Retrieval-Augmented Generation
- fast-graphrag: RAG that intelligently adapts to your use case, data, and queries
Welcome to pull requests if your project uses
nano-graphrag
, it will help others to trust this repo❤️
nano-graphrag
didn't implement thecovariates
feature ofGraphRAG
nano-graphrag
implements the global search different from the original. The original use a map-reduce-like style to fill all the communities into context, whilenano-graphrag
only use the top-K important and central communites (useQueryParam.global_max_consider_community
to control, default to 512 communities).