Function Calling
You can register custom Java functions with the MiniMaxChatModel
and have the MiniMax model intelligently choose to output a JSON object containing arguments to call one or many of the registered functions.
This allows you to connect the LLM capabilities with external tools and APIs.
The MiniMax models are trained to detect when a function should be called and to respond with JSON that adheres to the function signature.
The MiniMax API does not call the function directly; instead, the model generates JSON that you can use to call the function in your code and return the result back to the model to complete the conversation.
Spring AI provides flexible and user-friendly ways to register and call custom functions.
In general, the custom functions need to provide a function name
, description
, and the function call signature
(as JSON schema) to let the model know what arguments the function expects. The description
helps the model to understand when to call the function.
As a developer, you need to implement a function that takes the function call arguments sent from the AI model, and responds with the result back to the model. Your function can in turn invoke other 3rd party services to provide the results.
Spring AI makes this as easy as defining a @Bean
definition that returns a java.util.Function
and supplying the bean name as an option when invoking the ChatModel
.
Under the hood, Spring wraps your POJO (the function) with the appropriate adapter code that enables interaction with the AI Model, saving you from writing tedious boilerplate code. The basis of the underlying infrastructure is the FunctionCallback.java interface and the companion Builder utility class to simplify the implementation and registration of Java callback functions.
How it works
Suppose we want the AI model to respond with information that it does not have, for example the current temperature at a given location.
We can provide the AI model with metadata about our own functions that it can use to retrieve that information as it processes your prompt.
For example, if during the processing of a prompt, the AI Model determines that it needs additional information about the temperature in a given location, it will start a server side generated request/response interaction. The AI Model invokes a client side function. The AI Model provides method invocation details as JSON and it is the responsibility of the client to execute that function and return the response.
The model-client interaction is illustrated in the [spring-ai-function-calling-flow] diagram.
Spring AI greatly simplifies code you need to write to support function invocation.
It brokers the function invocation conversation for you.
You can simply provide your function definition as a @Bean
and then provide the bean name of the function in your prompt options.
You can also reference multiple function bean names in your prompt.
Quick Start
Let’s create a chatbot that answer questions by calling our own function. To support the response of the chatbot, we will register our own function that takes a location and returns the current weather in that location.
When the response to the prompt to the model needs to answer a question such as "What’s the weather like in Boston?"
the AI model will invoke the client providing the location value as an argument to be passed to the function. This RPC-like data is passed as JSON.
Our function calls some SaaS based weather service API and returns the weather response back to the model to complete the conversation. In this example we will use a simple implementation named MockWeatherService
that hard codes the temperature for various locations.
The following MockWeatherService.java
represents the weather service API:
public class MockWeatherService implements Function<Request, Response> {
public enum Unit { C, F }
public record Request(String location, Unit unit) {}
public record Response(double temp, Unit unit) {}
public Response apply(Request request) {
return new Response(30.0, Unit.C);
}
}
Registering Functions as Beans
With the MiniMaxChatModel Auto-Configuration you have multiple ways to register custom functions as beans in the Spring context.
We start with describing the most POJO friendly options.
Plain Java Functions
In this approach you define @Beans
in your application context as you would any other Spring managed object.
Internally, Spring AI ChatModel
will create an instance of a FunctionCallback
instance that adds the logic for it being invoked via the AI model.
The name of the @Bean
is passed as a ChatOption
.
@Configuration
static class Config {
@Bean
@Description("Get the weather in location") // function description
public Function<MockWeatherService.Request, MockWeatherService.Response> weatherFunction1() {
return new MockWeatherService();
}
...
}
The @Description
annotation is optional and provides a function description (2) that helps the model to understand when to call the function. It is an important property to set to help the AI model determine what client side function to invoke.
Another option to provide the description of the function is to the @JacksonDescription
annotation on the MockWeatherService.Request
to provide the function description:
@Configuration
static class Config {
@Bean
public Function<Request, Response> currentWeather3() { // (1) bean name as function name.
return new MockWeatherService();
}
...
}
@JsonClassDescription("Get the weather in location") // (2) function description
public record Request(String location, Unit unit) {}
It is a best practice to annotate the request object with information such that the generates JSON schema of that function is as descriptive as possible to help the AI model pick the correct function to invoke.
The FunctionCallbackWithPlainFunctionBeanIT.java demonstrates this approach.
FunctionCallback Wrapper
Another way register a function is to create FunctionCallback
instance like this:
@Configuration
static class Config {
@Bean
public FunctionCallback weatherFunctionInfo() {
return FunctionCallback.builder()
.function("CurrentWeather", new MockWeatherService()) // (1) function name and instance
.description("Get the weather in location") // (2) function description
.inputType(MockWeatherService.Request.class) // (3) function signature
.build();
}
...
}
It wraps the 3rd party, MockWeatherService
function and registers it as a CurrentWeather
function with the MiniMaxChatModel
.
It also provides a description (2) and the function signature (3) to let the model know what arguments the function expects.
By default, the response converter does a JSON serialization of the Response object. |
The FunctionCallback internally resolves the function call signature based on the MockWeatherService.Request class.
|
Specifying functions in Chat Options
To let the model know and call your CurrentWeather
function you need to enable it in your prompt requests:
MiniMaxChatModel chatModel = ...
UserMessage userMessage = new UserMessage("What's the weather like in San Francisco, Tokyo, and Paris?");
ChatResponse response = this.chatModel.call(new Prompt(List.of(this.userMessage),
MiniMaxChatOptions.builder().function("CurrentWeather").build())); // (1) Enable the function
logger.info("Response: {}", response);
Above user question will trigger 3 calls to CurrentWeather
function (one for each city) and the final response will be something like this:
Here is the current weather for the requested cities: - San Francisco, CA: 30.0°C - Tokyo, Japan: 10.0°C - Paris, France: 15.0°C
The MiniMaxFunctionCallbackIT.java test demo this approach.
Register/Call Functions with Prompt Options
In addition to the auto-configuration you can register callback functions, dynamically, with your Prompt requests:
MiniMaxChatModel chatModel = ...
UserMessage userMessage = new UserMessage("What's the weather like in San Francisco, Tokyo, and Paris?");
var promptOptions = MiniMaxChatOptions.builder()
.functionCallbacks(List.of(FunctionCallback.builder()
.function("CurrentWeather", new MockWeatherService()) // (1) function name and instance
.description("Get the weather in location") // (2) function description
.inputType(MockWeatherService.Request.class) // (3) function signature
.build())) // function code
.build();
ChatResponse response = this.chatModel.call(new Prompt(List.of(this.userMessage), this.promptOptions));
The in-prompt registered functions are enabled by default for the duration of this request. |
This approach allows to dynamically chose different functions to be called based on the user input.
The FunctionCallbackInPromptIT.java integration test provides a complete example of how to register a function with the MiniMaxChatModel
and use it in a prompt request.