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Google Vertex AI Search

Google Vertex AI Search (formerly known as Enterprise Search on Generative AI App Builder) is a part of the Vertex AI machine learning platform offered by Google Cloud.

Vertex AI Search lets organizations quickly build generative AI-powered search engines for customers and employees. It's underpinned by a variety of Google Search technologies, including semantic search, which helps deliver more relevant results than traditional keyword-based search techniques by using natural language processing and machine learning techniques to infer relationships within the content and intent from the userโ€™s query input. Vertex AI Search also benefits from Googleโ€™s expertise in understanding how users search and factors in content relevance to order displayed results.

Vertex AI Search is available in the Google Cloud Console and via an API for enterprise workflow integration.

This notebook demonstrates how to configure Vertex AI Search and use the Vertex AI Search retriever. The Vertex AI Search retriever encapsulates the Python client library and uses it to access the Search Service API.

For detailed documentation of all VertexAISearchRetriever features and configurations head to the API reference.

Integration detailsโ€‹

RetrieverSelf-hostCloud offeringPackage
VertexAISearchRetrieverโŒโœ…langchain_google_community

Setupโ€‹

Installationโ€‹

You need to install the langchain-google-community and google-cloud-discoveryengine packages to use the Vertex AI Search retriever.

%pip install -qU langchain-google-community google-cloud-discoveryengine

Vertex AI Search is generally available without allowlist as of August 2023.

Before you can use the retriever, you need to complete the following steps:

Create a search engine and populate an unstructured data storeโ€‹

Set credentials to access Vertex AI Search APIโ€‹

The Vertex AI Search client libraries used by the Vertex AI Search retriever provide high-level language support for authenticating to Google Cloud programmatically. Client libraries support Application Default Credentials (ADC); the libraries look for credentials in a set of defined locations and use those credentials to authenticate requests to the API. With ADC, you can make credentials available to your application in a variety of environments, such as local development or production, without needing to modify your application code.

If running in Google Colab authenticate with google.colab.google.auth otherwise follow one of the supported methods to make sure that you Application Default Credentials are properly set.

import sys

if "google.colab" in sys.modules:
from google.colab import auth as google_auth

google_auth.authenticate_user()

Configure and use the Vertex AI Search retrieverโ€‹

The Vertex AI Search retriever is implemented in the langchain_google_community.VertexAISearchRetriever class. The get_relevant_documents method returns a list of langchain.schema.Document documents where the page_content field of each document is populated the document content. Depending on the data type used in Vertex AI Search (website, structured or unstructured) the page_content field is populated as follows:

  • Website with advanced indexing: an extractive answer that matches a query. The metadata field is populated with metadata (if any) of the document from which the segments or answers were extracted.
  • Unstructured data source: either an extractive segment or an extractive answer that matches a query. The metadata field is populated with metadata (if any) of the document from which the segments or answers were extracted.
  • Structured data source: a string json containing all the fields returned from the structured data source. The metadata field is populated with metadata (if any) of the document

Extractive answers & extractive segmentsโ€‹

An extractive answer is verbatim text that is returned with each search result. It is extracted directly from the original document. Extractive answers are typically displayed near the top of web pages to provide an end user with a brief answer that is contextually relevant to their query. Extractive answers are available for website and unstructured search.

An extractive segment is verbatim text that is returned with each search result. An extractive segment is usually more verbose than an extractive answer. Extractive segments can be displayed as an answer to a query, and can be used to perform post-processing tasks and as input for large language models to generate answers or new text. Extractive segments are available for unstructured search.

For more information about extractive segments and extractive answers refer to product documentation.

NOTE: Extractive segments require the Enterprise edition features to be enabled.

When creating an instance of the retriever you can specify a number of parameters that control which data store to access and how a natural language query is processed, including configurations for extractive answers and segments.

The mandatory parameters are:โ€‹

  • project_id - Your Google Cloud Project ID.
  • location_id - The location of the data store.
    • global (default)
    • us
    • eu

One of:

  • search_engine_id - The ID of the search app you want to use. (Required for Blended Search)
  • data_store_id - The ID of the data store you want to use.

The project_id, search_engine_id and data_store_id parameters can be provided explicitly in the retriever's constructor or through the environment variables - PROJECT_ID, SEARCH_ENGINE_ID and DATA_STORE_ID.

You can also configure a number of optional parameters, including:

  • max_documents - The maximum number of documents used to provide extractive segments or extractive answers
  • get_extractive_answers - By default, the retriever is configured to return extractive segments.
    • Set this field to True to return extractive answers. This is used only when engine_data_type set to 0 (unstructured)
  • max_extractive_answer_count - The maximum number of extractive answers returned in each search result.
    • At most 5 answers will be returned. This is used only when engine_data_type set to 0 (unstructured).
  • max_extractive_segment_count - The maximum number of extractive segments returned in each search result.
    • Currently one segment will be returned. This is used only when engine_data_type set to 0 (unstructured).
  • filter - The filter expression for the search results based on the metadata associated with the documents in the data store.
  • query_expansion_condition - Specification to determine under which conditions query expansion should occur.
    • 0 - Unspecified query expansion condition. In this case, server behavior defaults to disabled.
    • 1 - Disabled query expansion. Only the exact search query is used, even if SearchResponse.total_size is zero.
    • 2 - Automatic query expansion built by the Search API.
  • engine_data_type - Defines the Vertex AI Search data type
    • 0 - Unstructured data
    • 1 - Structured data
    • 2 - Website data
    • 3 - Blended search

Migration guide for GoogleCloudEnterpriseSearchRetrieverโ€‹

In previous versions, this retriever was called GoogleCloudEnterpriseSearchRetriever.

To update to the new retriever, make the following changes:

  • Change the import from: from langchain.retrievers import GoogleCloudEnterpriseSearchRetriever -> from langchain_google_community import VertexAISearchRetriever.
  • Change all class references from GoogleCloudEnterpriseSearchRetriever -> VertexAISearchRetriever.

Note: When using the retriever, if you want to get automated tracing from individual queries, you can also set your LangSmith API key by uncommenting below:

# os.environ["LANGSMITH_API_KEY"] = getpass.getpass("Enter your LangSmith API key: ")
# os.environ["LANGSMITH_TRACING"] = "true"

Instantiationโ€‹

Configure and use the retriever for unstructured data with extractive segmentsโ€‹

from langchain_google_community import (
VertexAIMultiTurnSearchRetriever,
VertexAISearchRetriever,
)

PROJECT_ID = "<YOUR PROJECT ID>" # Set to your Project ID
LOCATION_ID = "<YOUR LOCATION>" # Set to your data store location
SEARCH_ENGINE_ID = "<YOUR SEARCH APP ID>" # Set to your search app ID
DATA_STORE_ID = "<YOUR DATA STORE ID>" # Set to your data store ID
retriever = VertexAISearchRetriever(
project_id=PROJECT_ID,
location_id=LOCATION_ID,
data_store_id=DATA_STORE_ID,
max_documents=3,
)
query = "What are Alphabet's Other Bets?"

result = retriever.invoke(query)
for doc in result:
print(doc)

Configure and use the retriever for unstructured data with extractive answersโ€‹

retriever = VertexAISearchRetriever(
project_id=PROJECT_ID,
location_id=LOCATION_ID,
data_store_id=DATA_STORE_ID,
max_documents=3,
max_extractive_answer_count=3,
get_extractive_answers=True,
)

result = retriever.invoke(query)
for doc in result:
print(doc)

Configure and use the retriever for structured dataโ€‹

retriever = VertexAISearchRetriever(
project_id=PROJECT_ID,
location_id=LOCATION_ID,
data_store_id=DATA_STORE_ID,
max_documents=3,
engine_data_type=1,
)

result = retriever.invoke(query)
for doc in result:
print(doc)

Configure and use the retriever for website data with Advanced Website Indexingโ€‹

retriever = VertexAISearchRetriever(
project_id=PROJECT_ID,
location_id=LOCATION_ID,
data_store_id=DATA_STORE_ID,
max_documents=3,
max_extractive_answer_count=3,
get_extractive_answers=True,
engine_data_type=2,
)

result = retriever.invoke(query)
for doc in result:
print(doc)

Configure and use the retriever for blended dataโ€‹

retriever = VertexAISearchRetriever(
project_id=PROJECT_ID,
location_id=LOCATION_ID,
search_engine_id=SEARCH_ENGINE_ID,
max_documents=3,
engine_data_type=3,
)

result = retriever.invoke(query)
for doc in result:
print(doc)

Search with follow-ups is based on generative AI models and it is different from the regular unstructured data search.

retriever = VertexAIMultiTurnSearchRetriever(
project_id=PROJECT_ID, location_id=LOCATION_ID, data_store_id=DATA_STORE_ID
)

result = retriever.invoke(query)
for doc in result:
print(doc)

Usageโ€‹

Following the above examples, we use .invoke to issue a single query. Because retrievers are Runnables, we can use any method in the Runnable interface, such as .batch, as well.

Use within a chainโ€‹

We can also incorporate retrievers into chains to build larger applications, such as a simple RAG application. For demonstration purposes, we instantiate a VertexAI chat model as well. See the corresponding Vertex integration docs for setup instructions.

%pip install -qU langchain-google-vertexai
from langchain_core.output_parsers import StrOutputParser
from langchain_core.prompts import ChatPromptTemplate
from langchain_core.runnables import RunnablePassthrough
from langchain_google_vertexai import ChatVertexAI

prompt = ChatPromptTemplate.from_template(
"""Answer the question based only on the context provided.

Context: {context}

Question: {question}"""
)

llm = ChatVertexAI(model_name="chat-bison", temperature=0)


def format_docs(docs):
return "\n\n".join(doc.page_content for doc in docs)


chain = (
{"context": retriever | format_docs, "question": RunnablePassthrough()}
| prompt
| llm
| StrOutputParser()
)
chain.invoke(query)

API referenceโ€‹

For detailed documentation of all VertexAISearchRetriever features and configurations head to the API reference.


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