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README.md
LangChain for Java: Supercharge your Java application with the power of LLMs
Introduction
Welcome!
The goal of LangChain4j is to simplify integrating AI/LLM capabilities into Java applications.
Here's how:
- Unified APIs: LLM providers (like OpenAI or Google Vertex AI) and embedding (vector) stores (such as Pinecone or Vespa) use proprietary APIs. LangChain4j offers a unified API to avoid the need for learning and implementing specific APIs for each of them. To experiment with a different LLM or embedding store, you can easily switch between them without the need to rewrite your code. LangChain4j currently supports over 10 popular LLM providers and more than 15 embedding stores. Think of it as a Hibernate, but for LLMs and embedding stores.
- Comprehensive Toolbox: During the past year, the community has been building numerous LLM-powered applications, identifying common patterns, abstractions, and techniques. LangChain4j has refined these into practical code. Our toolbox includes tools ranging from low-level prompt templating, memory management, and output parsing to high-level patterns like Agents and RAGs. For each pattern and abstraction, we provide an interface along with multiple ready-to-use implementations based on proven techniques. Whether you're building a chatbot or developing a RAG with a complete pipeline from data ingestion to retrieval, LangChain4j offers a wide variety of options.
- Numerous Examples: These examples showcase how to begin creating various LLM-powered applications, providing inspiration and enabling you to start building quickly.
LangChain4j began development in early 2023 amid the ChatGPT hype. We noticed a lack of Java counterparts to the numerous Python and JavaScript LLM libraries and frameworks, and we had to fix that! Although "LangChain" is in our name, the project is a fusion of ideas and concepts from LangChain, Haystack, LlamaIndex, and the broader community, spiced up with a touch of our own innovation.
We actively monitor community developments, aiming to quickly incorporate new techniques and integrations, ensuring you stay up-to-date. The library is under active development. While some features from the Python version of LangChain are still being worked on, the core functionality is in place, allowing you to start building LLM-powered apps now!
For easier integration, LangChain4j also includes integration with Quarkus (extension) and Spring Boot (starters).
Code Examples
Please see examples of how LangChain4j can be used in langchain4j-examples repo:
- Examples in plain Java
- Examples with Quarkus (uses quarkus-langchain4j dependency)
- Example with Spring Boot
Documentation
Documentation can be found here.
Tutorials
Tutorials can be found here.
Useful Materials
Library Structure
LangChain4j features a modular design, comprising:
- The
langchain4j-core
module, which defines core abstractions (such asChatLanguageModel
andEmbeddingStore
) and their APIs. - The main
langchain4j
module, containing useful tools likeChatMemory
,OutputParser
as well as a high-level features likeAiServices
. - A wide array of
langchain4j-{integration}
modules, each providing integration with various LLM providers and embedding stores into LangChain4j. You can use thelangchain4j-{integration}
modules independently. For additional features, simply import the mainlangchain4j
dependency.
Highlights
You can define declarative "AI Services" that are powered by LLMs:
interface Assistant {
String chat(String userMessage);
}
Assistant assistant = AiServices.create(Assistant.class, model);
String answer = assistant.chat("Hello");
System.out.println(answer); // Hello! How can I assist you today?
You can use LLM as a classifier:
enum Sentiment {
POSITIVE, NEUTRAL, NEGATIVE
}
interface SentimentAnalyzer {
@UserMessage("Analyze sentiment of {{it}}")
Sentiment analyzeSentimentOf(String text);
@UserMessage("Does {{it}} have a positive sentiment?")
boolean isPositive(String text);
}
SentimentAnalyzer sentimentAnalyzer = AiServices.create(SentimentAnalyzer.class, model);
Sentiment sentiment = sentimentAnalyzer.analyzeSentimentOf("It is good!"); // POSITIVE
boolean positive = sentimentAnalyzer.isPositive("It is bad!"); // false
You can easily extract structured information from unstructured data:
class Person {
private String firstName;
private String lastName;
private LocalDate birthDate;
}
interface PersonExtractor {
@UserMessage("Extract information about a person from {{text}}")
Person extractPersonFrom(@V("text") String text);
}
PersonExtractor extractor = AiServices.create(PersonExtractor.class, model);
String text = "In 1968, amidst the fading echoes of Independence Day, "
+ "a child named John arrived under the calm evening sky. "
+ "This newborn, bearing the surname Doe, marked the start of a new journey.";
Person person = extractor.extractPersonFrom(text);
// Person { firstName = "John", lastName = "Doe", birthDate = 1968-07-04 }
You can provide tools that LLMs can use! It can be anything: retrieve information from DB, call APIs, etc. See example here.
Compatibility
- Java: 8 or higher
- Spring Boot: 2 or higher
Getting started
-
Add LangChain4j OpenAI dependency to your project:
- Maven:
<dependency> <groupId>dev.langchain4j</groupId> <artifactId>langchain4j-open-ai</artifactId> <version>0.29.1</version> </dependency>
- Gradle:
implementation 'dev.langchain4j:langchain4j-open-ai:0.29.1'
- Maven:
-
Import your OpenAI API key:
String apiKey = System.getenv("OPENAI_API_KEY");
You can also use the API key
demo
to test OpenAI, which we provide for free. How to get an API key? -
Create an instance of a model and start interacting:
OpenAiChatModel model = OpenAiChatModel.withApiKey(apiKey); String answer = model.generate("Hello world!"); System.out.println(answer); // Hello! How can I assist you today?
Supported LLM Integrations (Docs)
Provider | Native Image | Sync Completion | Streaming Completion | Embedding | Image Generation | Scoring | Function Calling |
---|---|---|---|---|---|---|---|
OpenAI | ✅ | ✅ | ✅ | ✅ | ✅ | ||
Azure OpenAI | ✅ | ✅ | ✅ | ✅ | ✅ | ||
Hugging Face | ✅ | ✅ | |||||
Amazon Bedrock | ✅ | ✅ | ✅ | ||||
Google Vertex AI Gemini | ✅ | ✅ | ✅ | ✅ | |||
Google Vertex AI | ✅ | ✅ | ✅ | ✅ | |||
Mistral AI | ✅ | ✅ | ✅ | ✅ | |||
DashScope | ✅ | ✅ | ✅ | ||||
LocalAI | ✅ | ✅ | ✅ | ✅ | |||
Ollama | ✅ | ✅ | ✅ | ||||
Cohere | ✅ | ||||||
Qianfan | ✅ | ✅ | ✅ | ✅ | |||
ChatGLM | ✅ | ||||||
Nomic | ✅ | ||||||
Anthropic | ✅ | ||||||
Zhipu AI | ✅ | ✅ | ✅ | ✅ |
Disclaimer
Please note that the library is in active development and:
- Some features are still missing. We are working hard on implementing them ASAP.
- API might change at any moment. At this point, we prioritize good design in the future over backward compatibility now. We hope for your understanding.
- We need your input! Please let us know what features you need and your concerns about the current implementation.
Current features (this list is outdated, we have much more):
- AI Services:
- Integration with OpenAI and Azure OpenAI for:
- Chats (sync + streaming + functions)
- Completions (sync + streaming)
- Embeddings
- Integration with Google Vertex AI for:
- Integration with Hugging Face Inference API for:
- Integration with LocalAI for:
- Chats (sync + streaming + functions)
- Completions (sync + streaming)
- Embeddings
- Integration with DashScope for:
- Chats (sync + streaming)
- Completions (sync + streaming)
- Embeddings
- Chat memory
- Persistent chat memory
- Chat with Documents
- Integration with Astra DB and Cassandra
- Integration with Chroma
- Integration with Elasticsearch
- Integration with Milvus
- Integration with Pinecone
- Integration with Redis
- Integration with Vespa
- Integration with Weaviate
- In-memory embedding store (can be persisted)
- Structured outputs
- Prompt templates
- Structured prompt templates
- Streaming of LLM responses
- Loading txt, html, pdf, doc, xls and ppt documents from the file system and via URL
- Splitting documents into segments:
- by paragraphs, lines, sentences, words, etc
- recursively
- with overlap
- Token count estimation (so that you can predict how much you will pay)
Coming soon:
- Extending "AI Service" features
- Integration with more LLM providers (commercial and free)
- Integrations with more embedding stores (commercial and free)
- Support for more document types
- Long-term memory for chatbots and agents
- Chain-of-Thought and Tree-of-Thought
Request features
Please let us know what features you need!
Contribute
Please help us make this open-source library better by contributing.
Some guidelines:
- Follow Google's Best Practices for Java Libraries.
- Keep the code compatible with Java 8.
- Avoid adding new dependencies as much as possible. If absolutely necessary, try to (re)use the same libraries which are already present.
- Follow existing code styles present in the project.
- Ensure to add Javadoc where necessary.
- Provide unit and/or integration tests for your code.
- Large features should be discussed with maintainers before implementation.
Use cases
You might ask why would I need all of this? Here are a couple of examples:
- You want to implement a custom AI-powered chatbot that has access to your data and behaves the way you want it:
- Customer support chatbot that can:
- politely answer customer questions
- take /change/cancel orders
- Educational assistant that can:
- Teach various subjects
- Explain unclear parts
- Assess user's understanding/knowledge
- Customer support chatbot that can:
- You want to process a lot of unstructured data (files, web pages, etc) and extract structured information from them.
For example:
- extract insights from customer reviews and support chat history
- extract interesting information from the websites of your competitors
- extract insights from CVs of job applicants
- You want to generate information, for example:
- Emails tailored for each of your customers
- Content for your app/website:
- Blog posts
- Stories
- You want to transform information, for example:
- Summarize
- Proofread and rewrite
- Translate
Best practices
We highly recommend watching this amazing 90-minute tutorial on prompt engineering best practices, presented by Andrew Ng (DeepLearning.AI) and Isa Fulford (OpenAI). This course will teach you how to use LLMs efficiently and achieve the best possible results. Good investment of your time!
Here are some best practices for using LLMs:
- Be responsible. Use AI for Good.
- Be specific. The more specific your query, the best results you will get.
- Add a "Let’s think step by step" instruction to your prompt.
- Specify steps to achieve the desired goal yourself. This will make the LLM do what you want it to do.
- Provide examples. Sometimes it is best to show LLM a few examples of what you want instead of trying to explain it.
- Ask LLM to provide structured output (JSON, XML, etc). This way you can parse response more easily and distinguish different parts of it.
- Use unusual delimiters, such as ```triple backticks``` to help the LLM distinguish data or input from instructions.
How to get an API key
You will need an API key from OpenAI (paid) or Hugging Face (free) to use LLMs hosted by them.
We recommend using OpenAI LLMs (gpt-3.5-turbo
and gpt-4
) as they are by far the most capable and are reasonably priced.
It will cost approximately $0.01 to generate 10 pages (A4 format) of text with gpt-3.5-turbo
. With gpt-4
, the cost will be $0.30 to generate the same amount of text. However, for some use cases, this higher cost may be justified.
For embeddings, we recommend using one of the models from the Hugging Face MTEB leaderboard. You'll have to find the best one for your specific use case.
Here's how to get a Hugging Face API key:
- Create an account on https://huggingface.co
- Go to https://huggingface.co/settings/tokens
- Generate a new access token