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Contributing to LlamaIndex

Interested in contributing to LlamaIndex? Here's how to get started!

Contribution Guideline

The best part of LlamaIndex is our community of users and contributors.

What should I work on?

  1. 🆕 Extend core modules
  2. 🐛 Fix bugs
  3. 🎉 Add usage examples
  4. 🧪 Add experimental features
  5. 📄 Improve code quality & documentation

Also, join our Discord for ideas and discussions: https://discord.gg/dGcwcsnxhU.

1. 🆕 Extend Core Modules

The most impactful way to contribute to LlamaIndex is extending our core modules: LlamaIndex modules

We welcome contributions in all modules shown above. So far, we have implemented a core set of functionalities for each. As a contributor, you can help each module unlock its full potential.

NOTE: We are making rapid improvements to the project, and as a result, some interfaces are still volatile. Specifically, we are actively working on making the following components more modular and extensible (uncolored boxes above): core indexes, document stores, index queries, query runner

Module Details

Below, we will describe what each module does, give a high-level idea of the interface, show existing implementations, and give some ideas for contribution.

Data Loaders

A data loader ingests data of any format from anywhere into Document objects, which can then be parsed and indexed.

Interface:

  • load_data takes arbitrary arguments as input (e.g. path to data), and outputs a sequence of Document objects.
  • lazy_load_data takes arbitrary arguments as input (e.g. path to data), and outputs an iterable object of Document objects. This is a lazy version of load_data, which is useful for large datasets.

Note: If only lazy_load_data is implemented, load_data will be delegated to it.

Examples:

Contributing a data loader is easy and super impactful for the community. The preferred way to contribute is making a PR at LlamaHub Github.

Ideas

  • Want to load something but there's no LlamaHub data loader for it yet? Make a PR!

Node Parser

A node parser parses Document objects into Node objects (atomic unit of data that LlamaIndex operates over, e.g., chunk of text, image, or table). It is responsible for splitting text (via text splitters) and explicitly modelling the relationship between units of data (e.g. A is the source of B, C is a chunk after D).

Interface: get_nodes_from_documents takes a sequence of Document objects as input, and outputs a sequence of Node objects.

Examples:

See the API reference for full details.

Ideas:

  • Add new Node relationships to model to model hierarchical documents (e.g. play-act-scene, chapter-section-heading).

Text Splitters

Text splitter splits a long text str into smaller text str chunks with desired size and splitting "strategy" since LLMs have a limited context window size, and the quality of text chunk used as context impacts the quality of query results.

Interface: split_text takes a str as input, and outputs a sequence of str

Examples:

Document/Index/KV Stores

Under the hood, LlamaIndex also supports a swappable storage layer that allows you to customize Document Stores (where ingested documents (i.e., Node objects) are stored), and Index Stores (where index metadata are stored)

We have an underlying key-value abstraction backing the document/index stores. Currently we support in-memory and MongoDB storage for these stores. Open to contributions!

See Storage guide for details.

Managed Index

A managed index is used to represent an index that's managed via an API, exposing API calls to index documents and query documents.

Currently we support the VectaraIndex. Open to contributions!

See Managed Index docs for details.

Vector Stores

Our vector store classes store embeddings and support lookup via similarity search. These serve as the main data store and retrieval engine for our vector index.

Interface:

  • add takes in a sequence of NodeWithEmbeddings and insert the embeddings (and possibly the node contents & metadata) into the vector store.
  • delete removes entries given document IDs.
  • query retrieves top-k most similar entries given a query embedding.

Examples:

Ideas:

  • See a vector database out there that we don't support yet? Make a PR!

See reference for full details.

Retrievers

Our retriever classes are lightweight classes that implement a retrieve method. They may take in an index class as input - by default, each of our indices (list, vector, keyword) have an associated retriever. The output is a set of NodeWithScore objects (a Node object with an extra score field).

You may also choose to implement your own retriever classes on top of your own data if you wish.

Interface:

  • retrieve takes in a str or QueryBundle as input, and outputs a list of NodeWithScore objects

Examples:

Ideas:

  • Besides the "default" retrievers built on top of each index, what about fancier retrievers? E.g. retrievers that take in other retrievers as input? Or other types of data?

Query Engines

Our query engine classes are lightweight classes that implement a query method; the query returns a response type. For instance, they may take in a retriever class as input; our RetrieverQueryEngine takes in a retriever as input as well as a BaseSynthesizer class for response synthesis, and the query method performs retrieval and synthesis before returning the final result. They may take in other query engine classes in as input too.

Interface:

  • query takes in a str or QueryBundle as input, and outputs a Response object.

Examples:

Query Transforms

A query transform augments a raw query string with associated transformations to improve index querying. This can interpreted as a pre-processing stage, before the core index query logic is executed.

Interface: run takes in a str or Querybundle as input, and outputs a transformed QueryBundle.

Examples:

See guide for more information.

Token Usage Optimizers

A token usage optimizer refines the retrieved Nodes to reduce token usage during response synthesis.

Interface: optimize takes in the QueryBundle and a text chunk str, and outputs a refined text chunk str that yields a more optimized response

Examples:

Node Postprocessors

A node postprocessor refines a list of retrieve nodes given configuration and context.

Interface: postprocess_nodes takes a list of Nodes and extra metadata (e.g. similarity and query), and outputs a refined list of Nodes.

Examples:

Output Parsers

A output parser enables us to extract structured output from the plain text output generated by the LLM.

Interface:

  • format: formats a query str with structured output formatting instructions, and outputs the formatted str
  • parse: takes a str (from LLM response) as input, and gives a parsed tructured output (optionally also validated, error-corrected).

Examples:

See guide for more information.

2. 🐛 Fix Bugs

Most bugs are reported and tracked in the Github Issues Page. We try our best in triaging and tagging these issues:

  • Issues tagged as bug are confirmed bugs.
  • New contributors may want to start with issues tagged with good first issue.

Please feel free to open an issue and/or assign an issue to yourself.

3. 🎉 Add Usage Examples

If you have applied LlamaIndex to a unique use-case (e.g. interesting dataset, customized index structure, complex query), we would love your contribution in the form of:

  1. a guide: e.g. guide to LlamIndex + Structured Data
  2. an example notebook: e.g. Composable Indices Demo

4. 🧪 Add Experimental Features

If you have a crazy idea, make a PR for it! Whether if it's the latest research, or what you thought of in the shower, we'd love to see creative ways to improve LlamaIndex.

5. 📄 Improve Code Quality & Documentation

We would love your help in making the project cleaner, more robust, and more understandable. If you find something confusing, it most likely is for other people as well. Help us be better!

Development Guideline

Environment Setup

LlamaIndex is a Python package. We've tested primarily with Python versions >= 3.8. Here's a quick and dirty guide to getting your environment setup.

First, create a fork of LlamaIndex, by clicking the "Fork" button on the LlamaIndex Github page. Following these steps for more details on how to fork the repo and clone the forked repo.

Then, create a new Python virtual environment using poetry.

  • Install poetry - this will help you manage package dependencies
  • poetry shell - this command creates a virtual environment, which keeps installed packages contained to this project
  • poetry install --with dev,docs - this will install all dependencies needed for most local development

Now you should be set!

Validating your Change

Let's make sure to format/lint our change. For bigger changes, let's also make sure to test it and perhaps create an example notebook.

Formatting/Linting

You can format and lint your changes with the following commands in the root directory:

make format; make lint

You can also make use of our pre-commit hooks by setting up git hook scripts:

pre-commit install

We run an assortment of linters: black, ruff, mypy.

Testing

For bigger changes, you'll want to create a unit test. Our tests are in the tests folder. We use pytest for unit testing. To run all unit tests, run the following in the root dir:

pytest tests

or

make test

Creating an Example Notebook

For changes that involve entirely new features, it may be worth adding an example Jupyter notebook to showcase this feature.

Example notebooks can be found in this folder: https://github.com/jerryjliu/llama_index/tree/main/examples.

Creating a pull request

See these instructions to open a pull request against the main LlamaIndex repo.