Open In Colab

Building Retrieval from Scratch#

In this tutorial, we show you how to build a standard retriever against a vector database, that will fetch nodes via top-k similarity.

We use Pinecone as the vector database. We load in nodes using our high-level ingestion abstractions (to see how to build this from scratch, see our previous tutorial!).

We will show how to do the following:

  1. How to generate a query embedding

  2. How to query the vector database using different search modes (dense, sparse, hybrid)

  3. How to parse results into a set of Nodes

  4. How to put this in a custom retriever

Setup#

We build an empty Pinecone Index, and define the necessary LlamaIndex wrappers/abstractions so that we can start loading data into Pinecone.

If you’re opening this Notebook on colab, you will probably need to install LlamaIndex 🦙.

%pip install llama-index-readers-file pymupdf
%pip install llama-index-vector-stores-pinecone
%pip install llama-index-embeddings-openai
!pip install llama-index

Build Pinecone Index#

import pinecone
import os

api_key = os.environ["PINECONE_API_KEY"]
pinecone.init(api_key=api_key, environment="us-west1-gcp")
# dimensions are for text-embedding-ada-002
pinecone.create_index(
    "quickstart", dimension=1536, metric="euclidean", pod_type="p1"
)
pinecone_index = pinecone.Index("quickstart")
# [Optional] drop contents in index
pinecone_index.delete(deleteAll=True)

Create PineconeVectorStore#

Simple wrapper abstraction to use in LlamaIndex. Wrap in StorageContext so we can easily load in Nodes.

from llama_index.vector_stores.pinecone import PineconeVectorStore
vector_store = PineconeVectorStore(pinecone_index=pinecone_index)

Load Documents#

!mkdir data
!wget --user-agent "Mozilla" "https://arxiv.org/pdf/2307.09288.pdf" -O "data/llama2.pdf"
from pathlib import Path
from llama_index.readers.file import PyMuPDFReader
loader = PyMuPDFReader()
documents = loader.load(file_path="./data/llama2.pdf")

Load into Vector Store#

Load in documents into the PineconeVectorStore.

NOTE: We use high-level ingestion abstractions here, with VectorStoreIndex.from_documents. We’ll refrain from using VectorStoreIndex for the rest of this tutorial.

from llama_index.core import VectorStoreIndex
from llama_index.core.node_parser import SentenceSplitter
from llama_index.core import StorageContext
splitter = SentenceSplitter(chunk_size=1024)
storage_context = StorageContext.from_defaults(vector_store=vector_store)
index = VectorStoreIndex.from_documents(
    documents, transformations=[splitter], storage_context=storage_context
)

Define Vector Retriever#

Now we’re ready to define our retriever against this vector store to retrieve a set of nodes.

We’ll show the processes step by step and then wrap it into a function.

query_str = "Can you tell me about the key concepts for safety finetuning"

1. Generate a Query Embedding#

from llama_index.embeddings.openai import OpenAIEmbedding

embed_model = OpenAIEmbedding()
query_embedding = embed_model.get_query_embedding(query_str)

2. Query the Vector Database#

We show how to query the vector database with different modes: default, sparse, and hybrid.

We first construct a VectorStoreQuery and then query the vector db.

# construct vector store query
from llama_index.core.vector_stores import VectorStoreQuery

query_mode = "default"
# query_mode = "sparse"
# query_mode = "hybrid"

vector_store_query = VectorStoreQuery(
    query_embedding=query_embedding, similarity_top_k=2, mode=query_mode
)
# returns a VectorStoreQueryResult
query_result = vector_store.query(vector_store_query)
query_result

3. Parse Result into a set of Nodes#

The VectorStoreQueryResult returns the set of nodes and similarities. We construct a NodeWithScore object with this.

from llama_index.core.schema import NodeWithScore
from typing import Optional

nodes_with_scores = []
for index, node in enumerate(query_result.nodes):
    score: Optional[float] = None
    if query_result.similarities is not None:
        score = query_result.similarities[index]
    nodes_with_scores.append(NodeWithScore(node=node, score=score))
from llama_index.core.response.notebook_utils import display_source_node

for node in nodes_with_scores:
    display_source_node(node, source_length=1000)

4. Put this into a Retriever#

Let’s put this into a Retriever subclass that can plug into the rest of LlamaIndex workflows!

from llama_index.core import QueryBundle
from llama_index.core.retrievers import BaseRetriever
from typing import Any, List


class PineconeRetriever(BaseRetriever):
    """Retriever over a pinecone vector store."""

    def __init__(
        self,
        vector_store: PineconeVectorStore,
        embed_model: Any,
        query_mode: str = "default",
        similarity_top_k: int = 2,
    ) -> None:
        """Init params."""
        self._vector_store = vector_store
        self._embed_model = embed_model
        self._query_mode = query_mode
        self._similarity_top_k = similarity_top_k
        super().__init__()

    def _retrieve(self, query_bundle: QueryBundle) -> List[NodeWithScore]:
        """Retrieve."""
        query_embedding = embed_model.get_query_embedding(query_str)
        vector_store_query = VectorStoreQuery(
            query_embedding=query_embedding,
            similarity_top_k=self._similarity_top_k,
            mode=self._query_mode,
        )
        query_result = vector_store.query(vector_store_query)

        nodes_with_scores = []
        for index, node in enumerate(query_result.nodes):
            score: Optional[float] = None
            if query_result.similarities is not None:
                score = query_result.similarities[index]
            nodes_with_scores.append(NodeWithScore(node=node, score=score))

        return nodes_with_scores
retriever = PineconeRetriever(
    vector_store, embed_model, query_mode="default", similarity_top_k=2
)
retrieved_nodes = retriever.retrieve(query_str)
for node in retrieved_nodes:
    display_source_node(node, source_length=1000)

Plug this into our RetrieverQueryEngine to synthesize a response#

NOTE: We’ll cover more on how to build response synthesis from scratch in future tutorials!

from llama_index.core.query_engine import RetrieverQueryEngine

query_engine = RetrieverQueryEngine.from_args(retriever)
response = query_engine.query(query_str)
print(str(response))
The key concepts for safety fine-tuning include supervised safety fine-tuning, safety RLHF (Reinforcement Learning from Human Feedback), and safety context distillation. Supervised safety fine-tuning involves gathering adversarial prompts and safe demonstrations to train the model to align with safety guidelines. Safety RLHF integrates safety into the RLHF pipeline by training a safety-specific reward model and gathering challenging adversarial prompts for fine-tuning. Safety context distillation refines the RLHF pipeline by generating safer model responses using a safety preprompt and fine-tuning the model on these responses without the preprompt. These concepts are used to mitigate safety risks and improve the safety of the model's responses.