Build a Chatbot
Overviewโ
This guide assumes familiarity with the following concepts:
Weโll go over an example of how to design and implement an LLM-powered chatbot. This chatbot will be able to have a conversation and remember previous interactions.
Note that this chatbot that we build will only use the language model to have a conversation. There are several other related concepts that you may be looking for:
- Conversational RAG: Enable a chatbot experience over an external source of data
- Agents: Build a chatbot that can take actions
This tutorial will cover the basics which will be helpful for those two more advanced topics, but feel free to skip directly to there should you choose.
Setupโ
Installationโ
To install LangChain run:
- npm
- yarn
- pnpm
npm i langchain
yarn add langchain
pnpm add langchain
For more details, see our Installation guide.
LangSmithโ
Many of the applications you build with LangChain will contain multiple steps with multiple invocations of LLM calls. As these applications get more and more complex, it becomes crucial to be able to inspect what exactly is going on inside your chain or agent. The best way to do this is with LangSmith.
After you sign up at the link above, make sure to set your environment variables to start logging traces:
export LANGCHAIN_TRACING_V2="true"
export LANGCHAIN_API_KEY="..."
Quickstartโ
First up, letโs learn how to use a language model by itself. LangChain supports many different language models that you can use interchangably - select the one you want to use below!
Pick your chat model:
- OpenAI
- Anthropic
- FireworksAI
- MistralAI
- Groq
- VertexAI
Install dependencies
- npm
- yarn
- pnpm
npm i @langchain/openai
yarn add @langchain/openai
pnpm add @langchain/openai
Add environment variables
OPENAI_API_KEY=your-api-key
Instantiate the model
import { ChatOpenAI } from "@langchain/openai";
const model = new ChatOpenAI({
model: "gpt-4o-mini",
temperature: 0
});
Install dependencies
- npm
- yarn
- pnpm
npm i @langchain/anthropic
yarn add @langchain/anthropic
pnpm add @langchain/anthropic
Add environment variables
ANTHROPIC_API_KEY=your-api-key
Instantiate the model
import { ChatAnthropic } from "@langchain/anthropic";
const model = new ChatAnthropic({
model: "claude-3-5-sonnet-20240620",
temperature: 0
});
Install dependencies
- npm
- yarn
- pnpm
npm i @langchain/community
yarn add @langchain/community
pnpm add @langchain/community
Add environment variables
FIREWORKS_API_KEY=your-api-key
Instantiate the model
import { ChatFireworks } from "@langchain/community/chat_models/fireworks";
const model = new ChatFireworks({
model: "accounts/fireworks/models/llama-v3p1-70b-instruct",
temperature: 0
});
Install dependencies
- npm
- yarn
- pnpm
npm i @langchain/mistralai
yarn add @langchain/mistralai
pnpm add @langchain/mistralai
Add environment variables
MISTRAL_API_KEY=your-api-key
Instantiate the model
import { ChatMistralAI } from "@langchain/mistralai";
const model = new ChatMistralAI({
model: "mistral-large-latest",
temperature: 0
});
Install dependencies
- npm
- yarn
- pnpm
npm i @langchain/groq
yarn add @langchain/groq
pnpm add @langchain/groq
Add environment variables
GROQ_API_KEY=your-api-key
Instantiate the model
import { ChatGroq } from "@langchain/groq";
const model = new ChatGroq({
model: "mixtral-8x7b-32768",
temperature: 0
});
Install dependencies
- npm
- yarn
- pnpm
npm i @langchain/google-vertexai
yarn add @langchain/google-vertexai
pnpm add @langchain/google-vertexai
Add environment variables
GOOGLE_APPLICATION_CREDENTIALS=credentials.json
Instantiate the model
import { ChatVertexAI } from "@langchain/google-vertexai";
const model = new ChatVertexAI({
model: "gemini-1.5-flash",
temperature: 0
});
Letโs first use the model directly. ChatModel
s are instances of
LangChain โRunnablesโ, which means they expose a standard interface for
interacting with them. To just simply call the model, we can pass in a
list of messages to the .invoke
method.
import { HumanMessage } from "@langchain/core/messages";
await model.invoke([new HumanMessage({ content: "Hi! I'm Bob" })]);
AIMessage {
lc_serializable: true,
lc_kwargs: {
content: "Hello Bob, it's nice to meet you! I'm an AI assistant created by Anthropic. How are you doing today?",
tool_calls: [],
invalid_tool_calls: [],
additional_kwargs: {
id: "msg_015Qvu91azZviks5VzGvYT7z",
type: "message",
role: "assistant",
model: "claude-3-sonnet-20240229",
stop_sequence: null,
usage: { input_tokens: 12, output_tokens: 30 },
stop_reason: "end_turn"
},
response_metadata: {}
},
lc_namespace: [ "langchain_core", "messages" ],
content: "Hello Bob, it's nice to meet you! I'm an AI assistant created by Anthropic. How are you doing today?",
name: undefined,
additional_kwargs: {
id: "msg_015Qvu91azZviks5VzGvYT7z",
type: "message",
role: "assistant",
model: "claude-3-sonnet-20240229",
stop_sequence: null,
usage: { input_tokens: 12, output_tokens: 30 },
stop_reason: "end_turn"
},
response_metadata: {
id: "msg_015Qvu91azZviks5VzGvYT7z",
model: "claude-3-sonnet-20240229",
stop_sequence: null,
usage: { input_tokens: 12, output_tokens: 30 },
stop_reason: "end_turn"
},
tool_calls: [],
invalid_tool_calls: []
}
The model on its own does not have any concept of state. For example, if you ask a followup question:
await model.invoke([new HumanMessage({ content: "What's my name?" })]);
AIMessage {
lc_serializable: true,
lc_kwargs: {
content: "I'm afraid I don't actually know your name. I'm Claude, an AI assistant created by Anthropic.",
tool_calls: [],
invalid_tool_calls: [],
additional_kwargs: {
id: "msg_01TNDCwsU7ruVoqJwjKqNrzJ",
type: "message",
role: "assistant",
model: "claude-3-sonnet-20240229",
stop_sequence: null,
usage: { input_tokens: 12, output_tokens: 27 },
stop_reason: "end_turn"
},
response_metadata: {}
},
lc_namespace: [ "langchain_core", "messages" ],
content: "I'm afraid I don't actually know your name. I'm Claude, an AI assistant created by Anthropic.",
name: undefined,
additional_kwargs: {
id: "msg_01TNDCwsU7ruVoqJwjKqNrzJ",
type: "message",
role: "assistant",
model: "claude-3-sonnet-20240229",
stop_sequence: null,
usage: { input_tokens: 12, output_tokens: 27 },
stop_reason: "end_turn"
},
response_metadata: {
id: "msg_01TNDCwsU7ruVoqJwjKqNrzJ",
model: "claude-3-sonnet-20240229",
stop_sequence: null,
usage: { input_tokens: 12, output_tokens: 27 },
stop_reason: "end_turn"
},
tool_calls: [],
invalid_tool_calls: []
}
Letโs take a look at the example LangSmith trace
We can see that it doesnโt take the previous conversation turn into context, and cannot answer the question. This makes for a terrible chatbot experience!
To get around this, we need to pass the entire conversation history into the model. Letโs see what happens when we do that:
import { AIMessage } from "@langchain/core/messages";
await model.invoke([
new HumanMessage({ content: "Hi! I'm Bob" }),
new AIMessage({ content: "Hello Bob! How can I assist you today?" }),
new HumanMessage({ content: "What's my name?" }),
]);
AIMessage {
lc_serializable: true,
lc_kwargs: {
content: "You said your name is Bob.",
tool_calls: [],
invalid_tool_calls: [],
additional_kwargs: {
id: "msg_01AEQMme3Z1MFKHW8PeDBJ7g",
type: "message",
role: "assistant",
model: "claude-3-sonnet-20240229",
stop_sequence: null,
usage: { input_tokens: 33, output_tokens: 10 },
stop_reason: "end_turn"
},
response_metadata: {}
},
lc_namespace: [ "langchain_core", "messages" ],
content: "You said your name is Bob.",
name: undefined,
additional_kwargs: {
id: "msg_01AEQMme3Z1MFKHW8PeDBJ7g",
type: "message",
role: "assistant",
model: "claude-3-sonnet-20240229",
stop_sequence: null,
usage: { input_tokens: 33, output_tokens: 10 },
stop_reason: "end_turn"
},
response_metadata: {
id: "msg_01AEQMme3Z1MFKHW8PeDBJ7g",
model: "claude-3-sonnet-20240229",
stop_sequence: null,
usage: { input_tokens: 33, output_tokens: 10 },
stop_reason: "end_turn"
},
tool_calls: [],
invalid_tool_calls: []
}
And now we can see that we get a good response!
This is the basic idea underpinning a chatbotโs ability to interact conversationally. So how do we best implement this?
Message Historyโ
We can use a Message History class to wrap our model and make it stateful. This will keep track of inputs and outputs of the model, and store them in some datastore. Future interactions will then load those messages and pass them into the chain as part of the input. Letโs see how to use this!
We import the relevant classes and set up our chain which wraps the
model and adds in this message history. A key part here is the function
we pass into as the getSessionHistory()
. This function is expected to
take in a sessionId
and return a Message History object. This
sessionId
is used to distinguish between separate conversations, and
should be passed in as part of the config when calling the new chain.
Letโs also create a simple chain by adding a prompt to help with formatting:
// We use an ephemeral, in-memory chat history for this demo.
import { InMemoryChatMessageHistory } from "@langchain/core/chat_history";
import { ChatPromptTemplate } from "@langchain/core/prompts";
import { RunnableWithMessageHistory } from "@langchain/core/runnables";
const messageHistories: Record<string, InMemoryChatMessageHistory> = {};
const prompt = ChatPromptTemplate.fromMessages([
[
"system",
`You are a helpful assistant who remembers all details the user shares with you.`,
],
["placeholder", "{chat_history}"],
["human", "{input}"],
]);
const chain = prompt.pipe(model);
const withMessageHistory = new RunnableWithMessageHistory({
runnable: chain,
getMessageHistory: async (sessionId) => {
if (messageHistories[sessionId] === undefined) {
messageHistories[sessionId] = new InMemoryChatMessageHistory();
}
return messageHistories[sessionId];
},
inputMessagesKey: "input",
historyMessagesKey: "chat_history",
});
We now need to create a config
that we pass into the runnable every
time. This config contains information that is not part of the input
directly, but is still useful. In this case, we want to include a
session_id
. This should look like:
const config = {
configurable: {
sessionId: "abc2",
},
};
const response = await withMessageHistory.invoke(
{
input: "Hi! I'm Bob",
},
config
);
response.content;
"Hi Bob, nice to meet you! I'm an AI assistant. I'll remember that your name is Bob as we continue ou"... 110 more characters
const followupResponse = await withMessageHistory.invoke(
{
input: "What's my name?",
},
config
);
followupResponse.content;
"Your name is Bob. You introduced yourself as Bob at the start of our conversation."
Great! Our chatbot now remembers things about us. If we change the
config to reference a different session_id
, we can see that it starts
the conversation fresh.
const config = {
configurable: {
sessionId: "abc3",
},
};
const response = await withMessageHistory.invoke(
{
input: "What's my name?",
},
config
);
response.content;
"I'm afraid I don't actually know your name. As an AI assistant without any prior context about you, "... 61 more characters
However, we can always go back to the original conversation (since we are persisting it in a database)
const config = {
configurable: {
sessionId: "abc2",
},
};
const response = await withMessageHistory.invoke(
{
input: "What's my name?",
},
config
);
response.content;
`Your name is Bob. I clearly remember you telling me "Hi! I'm Bob" when we started talking.`
This is how we can support a chatbot having conversations with many users!
Managing Conversation Historyโ
One important concept to understand when building chatbots is how to manage conversation history. If left unmanaged, the list of messages will grow unbounded and potentially overflow the context window of the LLM. Therefore, it is important to add a step that limits the size of the messages you are passing in.
Importantly, you will want to do this BEFORE the prompt template but AFTER you load previous messages from Message History.
We can do this by adding a simple step in front of the prompt that
modifies the chat_history
key appropriately, and then wrap that new
chain in the Message History class. First, letโs define a function that
will modify the messages passed in. Letโs make it so that it selects the
10 most recent messages. We can then create a new chain by adding that
at the start.
import type { BaseMessage } from "@langchain/core/messages";
import {
RunnablePassthrough,
RunnableSequence,
} from "@langchain/core/runnables";
const filterMessages = ({ chat_history }: { chat_history: BaseMessage[] }) => {
return chat_history.slice(-10);
};
const chain = RunnableSequence.from([
RunnablePassthrough.assign({
chat_history: filterMessages,
}),
prompt,
model,
]);
Letโs now try it out! If we create a list of messages more than 10 messages long, we can see what it no longer remembers information in the early messages.
const messages = [
new HumanMessage({ content: "hi! I'm bob" }),
new AIMessage({ content: "hi!" }),
new HumanMessage({ content: "I like vanilla ice cream" }),
new AIMessage({ content: "nice" }),
new HumanMessage({ content: "whats 2 + 2" }),
new AIMessage({ content: "4" }),
new HumanMessage({ content: "thanks" }),
new AIMessage({ content: "No problem!" }),
new HumanMessage({ content: "having fun?" }),
new AIMessage({ content: "yes!" }),
new HumanMessage({ content: "That's great!" }),
new AIMessage({ content: "yes it is!" }),
];
const response = await chain.invoke({
chat_history: messages,
input: "what's my name?",
});
response.content;
"I'm afraid I don't actually know your name. You haven't provided that detail to me yet."
But if we ask about information that is within the last ten messages, it still remembers it
const response = await chain.invoke({
chat_history: messages,
input: "what's my fav ice cream",
});
response.content;
"You said earlier that you like vanilla ice cream."
Letโs now wrap this chain in a RunnableWithMessageHistory
constructor.
For demo purposes, we will also slightly modify our
getMessageHistory()
method to always start new sessions with the
previously declared list of 10 messages to simulate several conversation
turns:
const messageHistories: Record<string, InMemoryChatMessageHistory> = {};
const withMessageHistory = new RunnableWithMessageHistory({
runnable: chain,
getMessageHistory: async (sessionId) => {
if (messageHistories[sessionId] === undefined) {
const messageHistory = new InMemoryChatMessageHistory();
await messageHistory.addMessages(messages);
messageHistories[sessionId] = messageHistory;
}
return messageHistories[sessionId];
},
inputMessagesKey: "input",
historyMessagesKey: "chat_history",
});
const config = {
configurable: {
sessionId: "abc4",
},
};
const response = await withMessageHistory.invoke(
{
input: "whats my name?",
},
config
);
response.content;
"I'm afraid I don't actually know your name since you haven't provided it to me yet. I don't have pe"... 66 more characters
Thereโs now two new messages in the chat history. This means that even more information that used to be accessible in our conversation history is no longer available!
const response = await withMessageHistory.invoke(
{
input: "whats my favorite ice cream?",
},
config
);
response.content;
"I'm sorry, I don't have any information about your favorite ice cream flavor since you haven't share"... 167 more characters
If you take a look at LangSmith, you can see exactly what is happening under the hood in the LangSmith trace. Navigate to the chat model call to see exactly which messages are getting filtered out.
Streamingโ
Now weโve got a functional chatbot. However, one really important UX consideration for chatbot application is streaming. LLMs can sometimes take a while to respond, and so in order to improve the user experience one thing that most application do is stream back each token as it is generated. This allows the user to see progress.
Itโs actually super easy to do this!
All chains expose a .stream()
method, and ones that use message
history are no different. We can simply use that method to get back a
streaming response.
const config = {
configurable: {
sessionId: "abc6",
},
};
const stream = await withMessageHistory.stream(
{
input: "hi! I'm todd. tell me a joke",
},
config
);
for await (const chunk of stream) {
console.log("|", chunk.content);
}
|
| Hi
| Tod
| d!
| Here
| 's
| a
| silly
| joke
| for
| you
| :
|
Why
| di
| d the
| tom
| ato
| turn
| re
| d?
| Because
| it
| saw
| the
| sal
| a
| d
| dressing
| !
|
|
Next Stepsโ
Now that you understand the basics of how to create a chatbot in LangChain, some more advanced tutorials you may be interested in are:
- Conversational RAG: Enable a chatbot experience over an external source of data
- Agents: Build a chatbot that can take actions
If you want to dive deeper on specifics, some things worth checking out are:
- Streaming: streaming is crucial for chat applications
- How to add message history: for a deeper dive into all things related to message history