The public API of the `BaseRetriever` class in LangChain is as follows: ```python from abc import ABC, abstractmethod from typing import Any, List from langchain.schema import Document from langchain.callbacks.manager import Callbacks class BaseRetriever(ABC): ... def get_relevant_documents( self, query: str, *, callbacks: Callbacks = None, **kwargs: Any ) -> List[Document]: """Retrieve documents relevant to a query. Args: query: string to find relevant documents for callbacks: Callback manager or list of callbacks Returns: List of relevant documents """ ... async def aget_relevant_documents( self, query: str, *, callbacks: Callbacks = None, **kwargs: Any ) -> List[Document]: """Asynchronously get documents relevant to a query. Args: query: string to find relevant documents for callbacks: Callback manager or list of callbacks Returns: List of relevant documents """ ... ``` It's that simple! You can call `get_relevant_documents` or the async `get_relevant_documents` methods to retrieve documents relevant to a query, where "relevance" is defined by the specific retriever object you are calling. Of course, we also help construct what we think useful Retrievers are. The main type of Retriever that we focus on is a Vectorstore retriever. We will focus on that for the rest of this guide. In order to understand what a vectorstore retriever is, it's important to understand what a Vectorstore is. So let's look at that. By default, LangChain uses [Chroma](/docs/ecosystem/integrations/chroma.html) as the vectorstore to index and search embeddings. To walk through this tutorial, we'll first need to install `chromadb`. ``` pip install chromadb ``` This example showcases question answering over documents. We have chosen this as the example for getting started because it nicely combines a lot of different elements (Text splitters, embeddings, vectorstores) and then also shows how to use them in a chain. Question answering over documents consists of four steps: 1. Create an index 2. Create a Retriever from that index 3. Create a question answering chain 4. Ask questions! Each of the steps has multiple sub steps and potential configurations. In this notebook we will primarily focus on (1). We will start by showing the one-liner for doing so, but then break down what is actually going on. First, let's import some common classes we'll use no matter what. ```python from langchain.chains import RetrievalQA from langchain.llms import OpenAI ``` Next in the generic setup, let's specify the document loader we want to use. You can download the `state_of_the_union.txt` file [here](https://github.com/hwchase17/langchain/blob/master/docs/extras/modules/state_of_the_union.txt) ```python from langchain.document_loaders import TextLoader loader = TextLoader('../state_of_the_union.txt', encoding='utf8') ``` ## One Line Index Creation To get started as quickly as possible, we can use the `VectorstoreIndexCreator`. ```python from langchain.indexes import VectorstoreIndexCreator ``` ```python index = VectorstoreIndexCreator().from_loaders([loader]) ``` ``` Running Chroma using direct local API. Using DuckDB in-memory for database. Data will be transient. ``` Now that the index is created, we can use it to ask questions of the data! Note that under the hood this is actually doing a few steps as well, which we will cover later in this guide. ```python query = "What did the president say about Ketanji Brown Jackson" index.query(query) ``` ``` " The president said that Ketanji Brown Jackson is one of the nation's top legal minds, a former top litigator in private practice, a former federal public defender, and from a family of public school educators and police officers. He also said that she is a consensus builder and has received a broad range of support from the Fraternal Order of Police to former judges appointed by Democrats and Republicans." ``` ```python query = "What did the president say about Ketanji Brown Jackson" index.query_with_sources(query) ``` ``` {'question': 'What did the president say about Ketanji Brown Jackson', 'answer': " The president said that he nominated Circuit Court of Appeals Judge Ketanji Brown Jackson, one of the nation's top legal minds, to continue Justice Breyer's legacy of excellence, and that she has received a broad range of support from the Fraternal Order of Police to former judges appointed by Democrats and Republicans.\n", 'sources': '../state_of_the_union.txt'} ``` What is returned from the `VectorstoreIndexCreator` is `VectorStoreIndexWrapper`, which provides these nice `query` and `query_with_sources` functionality. If we just wanted to access the vectorstore directly, we can also do that. ```python index.vectorstore ``` ``` ``` If we then want to access the VectorstoreRetriever, we can do that with: ```python index.vectorstore.as_retriever() ``` ``` VectorStoreRetriever(vectorstore=, search_kwargs={}) ``` It can also be convenient to filter the vectorstore by the metadata associated with documents, particularly when your vectorstore has multiple sources. This can be done using the `query` method like so: ```python index.query("Summarize the general content of this document.", retriever_kwargs={"search_kwargs": {"filter": {"source": "../state_of_the_union.txt"}}}) ``` ``` " The document is a speech given by President Trump to the nation on the occasion of his 245th birthday. The speech highlights the importance of American values and the challenges facing the country, including the ongoing conflict in Ukraine, the ongoing trade war with China, and the ongoing conflict in Syria. The speech also discusses the importance of investing in emerging technologies and American manufacturing, and calls on Congress to pass the Bipartisan Innovation Act and other important legislation." ``` ## Walkthrough Okay, so what's actually going on? How is this index getting created? A lot of the magic is being hid in this `VectorstoreIndexCreator`. What is this doing? There are three main steps going on after the documents are loaded: 1. Splitting documents into chunks 2. Creating embeddings for each document 3. Storing documents and embeddings in a vectorstore Let's walk through this in code ```python documents = loader.load() ``` Next, we will split the documents into chunks. ```python from langchain.text_splitter import CharacterTextSplitter text_splitter = CharacterTextSplitter(chunk_size=1000, chunk_overlap=0) texts = text_splitter.split_documents(documents) ``` We will then select which embeddings we want to use. ```python from langchain.embeddings import OpenAIEmbeddings embeddings = OpenAIEmbeddings() ``` We now create the vectorstore to use as the index. ```python from langchain.vectorstores import Chroma db = Chroma.from_documents(texts, embeddings) ``` ``` Running Chroma using direct local API. Using DuckDB in-memory for database. Data will be transient. ``` So that's creating the index. Then, we expose this index in a retriever interface. ```python retriever = db.as_retriever() ``` Then, as before, we create a chain and use it to answer questions! ```python qa = RetrievalQA.from_chain_type(llm=OpenAI(), chain_type="stuff", retriever=retriever) ``` ```python query = "What did the president say about Ketanji Brown Jackson" qa.run(query) ``` ``` " The President said that Judge Ketanji Brown Jackson is one of the nation's top legal minds, a former top litigator in private practice, a former federal public defender, and from a family of public school educators and police officers. He said she is a consensus builder and has received a broad range of support from organizations such as the Fraternal Order of Police and former judges appointed by Democrats and Republicans." ``` `VectorstoreIndexCreator` is just a wrapper around all this logic. It is configurable in the text splitter it uses, the embeddings it uses, and the vectorstore it uses. For example, you can configure it as below: ```python index_creator = VectorstoreIndexCreator( vectorstore_cls=Chroma, embedding=OpenAIEmbeddings(), text_splitter=CharacterTextSplitter(chunk_size=1000, chunk_overlap=0) ) ``` Hopefully this highlights what is going on under the hood of `VectorstoreIndexCreator`. While we think it's important to have a simple way to create indexes, we also think it's important to understand what's going on under the hood.