Tutorial: Building Fallbacks to Websearch with Conditional Routing
Last Updated: September 26, 2024
- Level: Intermediate
- Time to complete: 10 minutes
- Components Used:
ConditionalRouter
,SerperDevWebSearch
,PromptBuilder
,OpenAIGenerator
- Prerequisites: You must have an OpenAI API Key and a Serper API Key for this tutorial
- Goal: After completing this tutorial, you’ll have learned how to create a pipeline with conditional routing that can fallback to websearch if the answer is not present in your dataset.
This tutorial uses Haystack 2.0. To learn more, read the Haystack 2.0 announcement or visit the Haystack 2.0 Documentation.
Overview
When developing applications using retrieval augmented generation ( RAG), the retrieval step plays a critical role. It serves as the primary information source for large language models (LLMs) to generate responses. However, if your database lacks the necessary information, the retrieval step’s effectiveness is limited. In such scenarios, it may be practical to use the web as a fallback data source for your RAG application. By implementing a conditional routing mechanism in your system, you gain complete control over the data flow, enabling you to design a system that can leverage the web as its data source under some conditions.
In this tutorial, you will learn how to create a pipeline with conditional routing that directs the query to a web-based RAG route if the answer is not found in the initially given documents.
Development Environment
Prepare the Colab Environment
Install Haystack
Install Haystack 2.0 with pip
:
%%bash
pip install haystack-ai
Enable Telemetry
Knowing you’re using this tutorial helps us decide where to invest our efforts to build a better product but you can always opt out by commenting the following line. See Telemetry for more details.
from haystack.telemetry import tutorial_running
tutorial_running(36)
Enter API Keys
Enter API keys required for this tutorial.
from getpass import getpass
import os
if "OPENAI_API_KEY" not in os.environ:
os.environ["OPENAI_API_KEY"] = getpass("Enter OpenAI API key:")
if "SERPERDEV_API_KEY" not in os.environ:
os.environ["SERPERDEV_API_KEY"] = getpass("Enter Serper Api key: ")
Creating a Document
Create a Document about Munich, where the answer to your question will be initially searched:
from haystack.dataclasses import Document
documents = [
Document(
content="""Munich, the vibrant capital of Bavaria in southern Germany, exudes a perfect blend of rich cultural
heritage and modern urban sophistication. Nestled along the banks of the Isar River, Munich is renowned
for its splendid architecture, including the iconic Neues Rathaus (New Town Hall) at Marienplatz and
the grandeur of Nymphenburg Palace. The city is a haven for art enthusiasts, with world-class museums like the
Alte Pinakothek housing masterpieces by renowned artists. Munich is also famous for its lively beer gardens, where
locals and tourists gather to enjoy the city's famed beers and traditional Bavarian cuisine. The city's annual
Oktoberfest celebration, the world's largest beer festival, attracts millions of visitors from around the globe.
Beyond its cultural and culinary delights, Munich offers picturesque parks like the English Garden, providing a
serene escape within the heart of the bustling metropolis. Visitors are charmed by Munich's warm hospitality,
making it a must-visit destination for travelers seeking a taste of both old-world charm and contemporary allure."""
)
]
Creating the Initial Pipeline Components
First, define a prompt instructing the LLM to respond with the text "no_answer"
if the provided documents do not offer enough context to answer the query. Next, initialize a
PromptBuilder with that prompt. It’s crucial that the LLM replies with "no_answer"
as you will use this keyword to indicate that the query should be directed to the fallback web search route.
As the LLM, you will use an
OpenAIGenerator with the gpt-4o-mini
model.
The provided prompt works effectively with the
gpt-4o-mini
model. If you prefer to use a different Generator, you may need to update the prompt to provide clear instructions to your model.
from haystack.components.builders.prompt_builder import PromptBuilder
from haystack.components.generators import OpenAIGenerator
prompt_template = """
Answer the following query given the documents.
If the answer is not contained within the documents reply with 'no_answer'
Query: {{query}}
Documents:
{% for document in documents %}
{{document.content}}
{% endfor %}
"""
prompt_builder = PromptBuilder(template=prompt_template)
llm = OpenAIGenerator(model="gpt-4o-mini")
Initializing the Web Search Components
Initialize the necessary components for a web-based RAG application. Along with a PromptBuilder
and an OpenAIGenerator
, you will need a
SerperDevWebSearch to retrieve relevant documents for the query from the web.
If desired, you can use a different Generator for the web-based RAG branch of the pipeline.
from haystack.components.builders.prompt_builder import PromptBuilder
from haystack.components.generators import OpenAIGenerator
from haystack.components.websearch.serper_dev import SerperDevWebSearch
prompt_for_websearch = """
Answer the following query given the documents retrieved from the web.
Your answer shoud indicate that your answer was generated from websearch.
Query: {{query}}
Documents:
{% for document in documents %}
{{document.content}}
{% endfor %}
"""
websearch = SerperDevWebSearch()
prompt_builder_for_websearch = PromptBuilder(template=prompt_for_websearch)
llm_for_websearch = OpenAIGenerator(model="gpt-4o-mini")
Creating the ConditionalRouter
ConditionalRouter is the component that handles data routing on specific conditions. You need to define a condition
, an output
, an output_name
and an output_type
for each route. Each route that the ConditionalRouter
creates acts as the output of this component and can be connected to other components in the same pipeline.
In this case, you need to define two routes:
- If the LLM replies with the
"no_answer"
keyword, the pipeline should perform web search. It means that you will put the originalquery
in the output value to pass to the next component (in this case the next component will be theSerperDevWebSearch
) and the output name will bego_to_websearch
. - Otherwise, the given documents are enough for an answer and pipeline execution ends here. Return the LLM reply in the output named
answer
.
from haystack.components.routers import ConditionalRouter
routes = [
{
"condition": "{{'no_answer' in replies[0]}}",
"output": "{{query}}",
"output_name": "go_to_websearch",
"output_type": str,
},
{
"condition": "{{'no_answer' not in replies[0]}}",
"output": "{{replies[0]}}",
"output_name": "answer",
"output_type": str,
},
]
router = ConditionalRouter(routes)
Building the Pipeline
Add all components to your pipeline and connect them. go_to_websearch
output of the router
should be connected to the websearch
to retrieve documents from the web and also to prompt_builder_for_websearch
to use in the prompt.
from haystack import Pipeline
pipe = Pipeline()
pipe.add_component("prompt_builder", prompt_builder)
pipe.add_component("llm", llm)
pipe.add_component("router", router)
pipe.add_component("websearch", websearch)
pipe.add_component("prompt_builder_for_websearch", prompt_builder_for_websearch)
pipe.add_component("llm_for_websearch", llm_for_websearch)
pipe.connect("prompt_builder", "llm")
pipe.connect("llm.replies", "router.replies")
pipe.connect("router.go_to_websearch", "websearch.query")
pipe.connect("router.go_to_websearch", "prompt_builder_for_websearch.query")
pipe.connect("websearch.documents", "prompt_builder_for_websearch.documents")
pipe.connect("prompt_builder_for_websearch", "llm_for_websearch")
Visualize the Pipeline
To understand how you formed this pipeline with conditional routing, use draw() method of the pipeline. If you’re running this notebook on Google Colab, the generated file will be saved in "Files" section on the sidebar.
pipe.draw("pipe.png")
Running the Pipeline!
In the run()
, pass the query to the prompt_builder
and the router
. In real life applications, documents
will be provided by a
Retriever but to keep this example simple, you will provide the defined documents
to the prompt_builder
.
query = "Where is Munich?"
result = pipe.run({"prompt_builder": {"query": query, "documents": documents}, "router": {"query": query}})
# Print the `answer` coming from the ConditionalRouter
print(result["router"]["answer"])
โ The answer to this query can be found in the defined document.
Now, try a different query that doesn’t have an answer in the given document and test if the web search works as expected:
query = "How many people live in Munich?"
result = pipe.run({"prompt_builder": {"query": query, "documents": documents}, "router": {"query": query}})
# Print the `replies` generated using the web searched Documents
print(result["llm_for_websearch"]["replies"])
If you check the whole result, you will see that websearch
component also provides links to Documents retrieved from the web:
result
What’s next
๐ Congratulations! You’ve built a pipeline with conditional routing! You can now customize the condition for your specific use case and create a custom Haystack 2.0 pipeline to meet your needs.
If you liked this tutorial, there’s more to learn about Haystack 2.0:
To stay up to date on the latest Haystack developments, you can sign up for our newsletter or join Haystack discord community.
Thanks for reading!