Les traductions sont fournies par des outils de traduction automatique. En cas de conflit entre le contenu d'une traduction et celui de la version originale en anglais, la version anglaise prévaudra.
# Anthropic Claude pour l’exécution d’Amazon Bedrock
Les exemples de code suivants montrent comment utiliser Amazon Bedrock Runtime avec AWS SDKs.
**Topics**
+ [Converse](bedrock-runtime_example_bedrock-runtime_Converse_AnthropicClaude_section.md)
+ [ConverseStream](bedrock-runtime_example_bedrock-runtime_ConverseStream_AnthropicClaude_section.md)
+ [Compréhension des documents](bedrock-runtime_example_bedrock-runtime_DocumentUnderstanding_AnthropicClaude_section.md)
+ [InvokeModel](bedrock-runtime_example_bedrock-runtime_InvokeModel_AnthropicClaude_section.md)
+ [InvokeModelWithResponseStream](bedrock-runtime_example_bedrock-runtime_InvokeModelWithResponseStream_AnthropicClaude_section.md)
+ [Raisonnement](bedrock-runtime_example_bedrock-runtime_Converse_AnthropicClaudeReasoning_section.md)
+ [Raisonnement avec une réponse en streaming](bedrock-runtime_example_bedrock-runtime_ConverseStream_AnthropicClaudeReasoning_section.md)
+ [Scénario : utilisation de l’outil avec l’API Converse](bedrock-runtime_example_bedrock-runtime_Scenario_ToolUseDemo_AnthropicClaude_section.md)
# Invocation d’Anthropic Claude sur Amazon Bedrock à l’aide de l’API Converse de Bedrock
Les exemples de code suivants montrent comment envoyer un message texte à Anthropic Claude, à l’aide de l’API Converse de Bedrock.
------
#### [ .NET ]
**SDK pour .NET (v4)**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock.
```
// Use the Converse API to send a text message to Anthropic Claude.
using System;
using System.Collections.Generic;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;
// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);
// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";
// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";
// Create a request with the model ID, the user message, and an inference configuration.
var request = new ConverseRequest
{
ModelId = modelId,
Messages = new List
{
new Message
{
Role = ConversationRole.User,
Content = new List { new ContentBlock { Text = userMessage } }
}
},
InferenceConfig = new InferenceConfiguration()
{
MaxTokens = 512,
Temperature = 0.5F,
TopP = 0.9F
}
};
try
{
// Send the request to the Bedrock Runtime and wait for the result.
var response = await client.ConverseAsync(request);
// Extract and print the response text.
string responseText = response?.Output?.Message?.Content?[0]?.Text ?? "";
Console.WriteLine(responseText);
}
catch (AmazonBedrockRuntimeException e)
{
Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
throw;
}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-runtime-2023-09-30/Converse) dans la *Référence des API du kit AWS SDK pour .NET *.
------
#### [ Go ]
**Kit SDK pour Go V2**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock.
```
import (
"context"
"github.com/aws/aws-sdk-go-v2/aws"
"github.com/aws/aws-sdk-go-v2/service/bedrockruntime"
"github.com/aws/aws-sdk-go-v2/service/bedrockruntime/types"
)
// ConverseWrapper encapsulates Amazon Bedrock actions used in the examples.
// It contains a Bedrock Runtime client that is used to invoke Bedrock.
type ConverseWrapper struct {
BedrockRuntimeClient *bedrockruntime.Client
}
func (wrapper ConverseWrapper) ConverseClaude(ctx context.Context, prompt string) (string, error) {
var content = types.ContentBlockMemberText{
Value: prompt,
}
var message = types.Message{
Content: []types.ContentBlock{&content},
Role: "user",
}
modelId := "anthropic.claude-3-haiku-20240307-v1:0"
var converseInput = bedrockruntime.ConverseInput{
ModelId: aws.String(modelId),
Messages: []types.Message{message},
}
response, err := wrapper.BedrockRuntimeClient.Converse(ctx, &converseInput)
if err != nil {
ProcessError(err, modelId)
}
responseText, _ := response.Output.(*types.ConverseOutputMemberMessage)
responseContentBlock := responseText.Value.Content[0]
text, _ := responseContentBlock.(*types.ContentBlockMemberText)
return text.Value, nil
}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/bedrockruntime#Client.Converse) dans la *Référence des API du kit AWS SDK pour Go *.
------
#### [ Java ]
**SDK pour Java 2.x**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock.
```
// Use the Converse API to send a text message to Anthropic Claude.
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.ConverseResponse;
import software.amazon.awssdk.services.bedrockruntime.model.Message;
public class Converse {
public static String converse() {
// Create a Bedrock Runtime client in the AWS Region you want to use.
// Replace the DefaultCredentialsProvider with your preferred credentials provider.
var client = BedrockRuntimeClient.builder()
.credentialsProvider(DefaultCredentialsProvider.create())
.region(Region.US_EAST_1)
.build();
// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";
// Create the input text and embed it in a message object with the user role.
var inputText = "Describe the purpose of a 'hello world' program in one line.";
var message = Message.builder()
.content(ContentBlock.fromText(inputText))
.role(ConversationRole.USER)
.build();
try {
// Send the message with a basic inference configuration.
ConverseResponse response = client.converse(request -> request
.modelId(modelId)
.messages(message)
.inferenceConfig(config -> config
.maxTokens(512)
.temperature(0.5F)
.topP(0.9F)));
// Retrieve the generated text from Bedrock's response object.
var responseText = response.output().message().content().getFirst().text();
System.out.println(responseText);
return responseText;
} catch (SdkClientException e) {
System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
throw new RuntimeException(e);
}
}
public static void main(String[] args) {
converse();
}
}
```
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock avec le client Java asynchrone.
```
// Use the Converse API to send a text message to Anthropic Claude
// with the async Java client.
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.Message;
import java.util.concurrent.CompletableFuture;
import java.util.concurrent.ExecutionException;
public class ConverseAsync {
public static String converseAsync() {
// Create a Bedrock Runtime client in the AWS Region you want to use.
// Replace the DefaultCredentialsProvider with your preferred credentials provider.
var client = BedrockRuntimeAsyncClient.builder()
.credentialsProvider(DefaultCredentialsProvider.create())
.region(Region.US_EAST_1)
.build();
// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";
// Create the input text and embed it in a message object with the user role.
var inputText = "Describe the purpose of a 'hello world' program in one line.";
var message = Message.builder()
.content(ContentBlock.fromText(inputText))
.role(ConversationRole.USER)
.build();
// Send the message with a basic inference configuration.
var request = client.converse(params -> params
.modelId(modelId)
.messages(message)
.inferenceConfig(config -> config
.maxTokens(512)
.temperature(0.5F)
.topP(0.9F))
);
// Prepare a future object to handle the asynchronous response.
CompletableFuture future = new CompletableFuture<>();
// Handle the response or error using the future object.
request.whenComplete((response, error) -> {
if (error == null) {
// Extract the generated text from Bedrock's response object.
String responseText = response.output().message().content().getFirst().text();
future.complete(responseText);
} else {
future.completeExceptionally(error);
}
});
try {
// Wait for the future object to complete and retrieve the generated text.
String responseText = future.get();
System.out.println(responseText);
return responseText;
} catch (ExecutionException | InterruptedException e) {
System.err.printf("Can't invoke '%s': %s", modelId, e.getMessage());
throw new RuntimeException(e);
}
}
public static void main(String[] args) {
converseAsync();
}
}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/Converse) dans la *Référence des API du kit AWS SDK for Java 2.x *.
------
#### [ JavaScript ]
**SDK pour JavaScript (v3)**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock.
```
// Use the Conversation API to send a text message to Anthropic Claude.
import {
BedrockRuntimeClient,
ConverseCommand,
} from "@aws-sdk/client-bedrock-runtime";
// Create a Bedrock Runtime client in the AWS Region you want to use.
const client = new BedrockRuntimeClient({ region: "us-east-1" });
// Set the model ID, e.g., Claude 3 Haiku.
const modelId = "anthropic.claude-3-haiku-20240307-v1:0";
// Start a conversation with the user message.
const userMessage =
"Describe the purpose of a 'hello world' program in one line.";
const conversation = [
{
role: "user",
content: [{ text: userMessage }],
},
];
// Create a command with the model ID, the message, and a basic configuration.
const command = new ConverseCommand({
modelId,
messages: conversation,
inferenceConfig: { maxTokens: 512, temperature: 0.5, topP: 0.9 },
});
try {
// Send the command to the model and wait for the response
const response = await client.send(command);
// Extract and print the response text.
const responseText = response.output.message.content[0].text;
console.log(responseText);
} catch (err) {
console.log(`ERROR: Can't invoke '${modelId}'. Reason: ${err}`);
process.exit(1);
}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseCommand) dans la *Référence des API du kit AWS SDK pour JavaScript *.
------
#### [ Python ]
**Kit SDK for Python (Boto3)**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock.
```
# Use the Conversation API to send a text message to Anthropic Claude.
import boto3
from botocore.exceptions import ClientError
# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")
# Set the model ID, e.g., Claude 3 Haiku.
model_id = "anthropic.claude-3-haiku-20240307-v1:0"
# Start a conversation with the user message.
user_message = "Describe the purpose of a 'hello world' program in one line."
conversation = [
{
"role": "user",
"content": [{"text": user_message}],
}
]
try:
# Send the message to the model, using a basic inference configuration.
response = client.converse(
modelId=model_id,
messages=conversation,
inferenceConfig={"maxTokens": 512, "temperature": 0.5, "topP": 0.9},
)
# Extract and print the response text.
response_text = response["output"]["message"]["content"][0]["text"]
print(response_text)
except (ClientError, Exception) as e:
print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
exit(1)
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) dans la *Référence des API du kit AWS SDK for Python (Boto3)*.
------
#### [ Rust ]
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock.
```
#[tokio::main]
async fn main() -> Result<(), BedrockConverseError> {
tracing_subscriber::fmt::init();
let sdk_config = aws_config::defaults(BehaviorVersion::latest())
.region(CLAUDE_REGION)
.load()
.await;
let client = Client::new(&sdk_config);
let response = client
.converse()
.model_id(MODEL_ID)
.messages(
Message::builder()
.role(ConversationRole::User)
.content(ContentBlock::Text(USER_MESSAGE.to_string()))
.build()
.map_err(|_| "failed to build message")?,
)
.send()
.await;
match response {
Ok(output) => {
let text = get_converse_output_text(output)?;
println!("{}", text);
Ok(())
}
Err(e) => Err(e
.as_service_error()
.map(BedrockConverseError::from)
.unwrap_or_else(|| BedrockConverseError("Unknown service error".into()))),
}
}
fn get_converse_output_text(output: ConverseOutput) -> Result {
let text = output
.output()
.ok_or("no output")?
.as_message()
.map_err(|_| "output not a message")?
.content()
.first()
.ok_or("no content in message")?
.as_text()
.map_err(|_| "content is not text")?
.to_string();
Ok(text)
}
```
Utilisez des instructions, l’utilitaire Error et des constantes.
```
use aws_config::BehaviorVersion;
use aws_sdk_bedrockruntime::{
operation::converse::{ConverseError, ConverseOutput},
types::{ContentBlock, ConversationRole, Message},
Client,
};
// Set the model ID, e.g., Claude 3 Haiku.
const MODEL_ID: &str = "anthropic.claude-3-haiku-20240307-v1:0";
const CLAUDE_REGION: &str = "us-east-1";
// Start a conversation with the user message.
const USER_MESSAGE: &str = "Describe the purpose of a 'hello world' program in one line.";
#[derive(Debug)]
struct BedrockConverseError(String);
impl std::fmt::Display for BedrockConverseError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "Can't invoke '{}'. Reason: {}", MODEL_ID, self.0)
}
}
impl std::error::Error for BedrockConverseError {}
impl From<&str> for BedrockConverseError {
fn from(value: &str) -> Self {
BedrockConverseError(value.to_string())
}
}
impl From<&ConverseError> for BedrockConverseError {
fn from(value: &ConverseError) -> Self {
BedrockConverseError::from(match value {
ConverseError::ModelTimeoutException(_) => "Model took too long",
ConverseError::ModelNotReadyException(_) => "Model is not ready",
_ => "Unknown",
})
}
}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.rs/aws-sdk-bedrockruntime/latest/aws_sdk_bedrockruntime/client/struct.Client.html#method.converse) dans la *Référence des API du kit AWS SDK pour Rust*.
------
#### [ Swift ]
**Kit SDK pour Swift**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock.
```
// An example demonstrating how to use the Conversation API to send
// a text message to Anthropic Claude.
import AWSBedrockRuntime
func converse(_ textPrompt: String) async throws -> String {
// Create a Bedrock Runtime client in the AWS Region you want to use.
let config =
try await BedrockRuntimeClient.BedrockRuntimeClientConfiguration(
region: "us-east-1"
)
let client = BedrockRuntimeClient(config: config)
// Set the model ID.
let modelId = "anthropic.claude-3-haiku-20240307-v1:0"
// Start a conversation with the user message.
let message = BedrockRuntimeClientTypes.Message(
content: [.text(textPrompt)],
role: .user
)
// Optionally use inference parameters
let inferenceConfig =
BedrockRuntimeClientTypes.InferenceConfiguration(
maxTokens: 512,
stopSequences: ["END"],
temperature: 0.5,
topp: 0.9
)
// Create the ConverseInput to send to the model
let input = ConverseInput(
inferenceConfig: inferenceConfig, messages: [message], modelId: modelId)
// Send the ConverseInput to the model
let response = try await client.converse(input: input)
// Extract and return the response text.
if case let .message(msg) = response.output {
if case let .text(textResponse) = msg.content![0] {
return textResponse
} else {
return "No text response found in message content"
}
} else {
return "No message found in converse output"
}
}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://sdk.amazonaws.com/swift/api/awsbedrockruntime/latest/documentation/awsbedrockruntime/bedrockruntimeclient/converse(input:)) dans la *Référence des API du kit AWS SDK pour Swift*.
------
Pour obtenir la liste complète des guides de développement du AWS SDK et des exemples de code, consultez[Utilisation d'Amazon Bedrock avec un SDK AWS](sdk-general-information-section.md). Cette rubrique comprend également des informations sur le démarrage et sur les versions précédentes du kit SDK.
# Invocation d’Anthropic Claude sur Amazon Bedrock à l’aide de l’API Converse de Bedrock avec un flux de réponses
Les exemples de code suivants montrent comment envoyer un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock et comment traiter le flux de réponses en temps réel.
------
#### [ .NET ]
**SDK pour .NET (v4)**
Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock et traitez le flux de réponses en temps réel.
```
// Use the Converse API to send a text message to Anthropic Claude
// and print the response stream.
using System;
using System.Collections.Generic;
using System.Linq;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;
// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);
// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";
// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";
// Create a request with the model ID, the user message, and an inference configuration.
var request = new ConverseStreamRequest
{
ModelId = modelId,
Messages = new List
{
new Message
{
Role = ConversationRole.User,
Content = new List { new ContentBlock { Text = userMessage } }
}
},
InferenceConfig = new InferenceConfiguration()
{
MaxTokens = 512,
Temperature = 0.5F,
TopP = 0.9F
}
};
try
{
// Send the request to the Bedrock Runtime and wait for the result.
var response = await client.ConverseStreamAsync(request);
// Extract and print the streamed response text in real-time.
foreach (var chunk in response.Stream.AsEnumerable())
{
if (chunk is ContentBlockDeltaEvent)
{
Console.Write((chunk as ContentBlockDeltaEvent).Delta.Text);
}
}
}
catch (AmazonBedrockRuntimeException e)
{
Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
throw;
}
```
+ Pour plus de détails sur l'API, voir [ConverseStream](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-runtime-2023-09-30/ConverseStream)la section *Référence des AWS SDK pour .NET API*.
------
#### [ Java ]
**SDK pour Java 2.x**
Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock et traitez le flux de réponses en temps réel.
```
// Use the Converse API to send a text message to Anthropic Claude
// and print the response stream.
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.ContentBlock;
import software.amazon.awssdk.services.bedrockruntime.model.ConversationRole;
import software.amazon.awssdk.services.bedrockruntime.model.ConverseStreamResponseHandler;
import software.amazon.awssdk.services.bedrockruntime.model.Message;
import java.util.concurrent.ExecutionException;
public class ConverseStream {
public static void main(String[] args) {
// Create a Bedrock Runtime client in the AWS Region you want to use.
// Replace the DefaultCredentialsProvider with your preferred credentials provider.
var client = BedrockRuntimeAsyncClient.builder()
.credentialsProvider(DefaultCredentialsProvider.create())
.region(Region.US_EAST_1)
.build();
// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";
// Create the input text and embed it in a message object with the user role.
var inputText = "Describe the purpose of a 'hello world' program in one line.";
var message = Message.builder()
.content(ContentBlock.fromText(inputText))
.role(ConversationRole.USER)
.build();
// Create a handler to extract and print the response text in real-time.
var responseStreamHandler = ConverseStreamResponseHandler.builder()
.subscriber(ConverseStreamResponseHandler.Visitor.builder()
.onContentBlockDelta(chunk -> {
String responseText = chunk.delta().text();
System.out.print(responseText);
}).build()
).onError(err ->
System.err.printf("Can't invoke '%s': %s", modelId, err.getMessage())
).build();
try {
// Send the message with a basic inference configuration and attach the handler.
client.converseStream(request -> request.modelId(modelId)
.messages(message)
.inferenceConfig(config -> config
.maxTokens(512)
.temperature(0.5F)
.topP(0.9F)
), responseStreamHandler).get();
} catch (ExecutionException | InterruptedException e) {
System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
}
}
}
```
+ Pour plus de détails sur l'API, voir [ConverseStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/ConverseStream)la section *Référence des AWS SDK for Java 2.x API*.
------
#### [ JavaScript ]
**SDK pour JavaScript (v3)**
Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock et traitez le flux de réponses en temps réel.
```
// Use the Conversation API to send a text message to Anthropic Claude.
import {
BedrockRuntimeClient,
ConverseStreamCommand,
} from "@aws-sdk/client-bedrock-runtime";
// Create a Bedrock Runtime client in the AWS Region you want to use.
const client = new BedrockRuntimeClient({ region: "us-east-1" });
// Set the model ID, e.g., Claude 3 Haiku.
const modelId = "anthropic.claude-3-haiku-20240307-v1:0";
// Start a conversation with the user message.
const userMessage =
"Describe the purpose of a 'hello world' program in one line.";
const conversation = [
{
role: "user",
content: [{ text: userMessage }],
},
];
// Create a command with the model ID, the message, and a basic configuration.
const command = new ConverseStreamCommand({
modelId,
messages: conversation,
inferenceConfig: { maxTokens: 512, temperature: 0.5, topP: 0.9 },
});
try {
// Send the command to the model and wait for the response
const response = await client.send(command);
// Extract and print the streamed response text in real-time.
for await (const item of response.stream) {
if (item.contentBlockDelta) {
process.stdout.write(item.contentBlockDelta.delta?.text);
}
}
} catch (err) {
console.log(`ERROR: Can't invoke '${modelId}'. Reason: ${err}`);
process.exit(1);
}
```
+ Pour plus de détails sur l'API, voir [ConverseStream](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/ConverseStreamCommand)la section *Référence des AWS SDK pour JavaScript API*.
------
#### [ Python ]
**Kit SDK for Python (Boto3)**
Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock et traitez le flux de réponses en temps réel.
```
# Use the Conversation API to send a text message to Anthropic Claude
# and print the response stream.
import boto3
from botocore.exceptions import ClientError
# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")
# Set the model ID, e.g., Claude 3 Haiku.
model_id = "anthropic.claude-3-haiku-20240307-v1:0"
# Start a conversation with the user message.
user_message = "Describe the purpose of a 'hello world' program in one line."
conversation = [
{
"role": "user",
"content": [{"text": user_message}],
}
]
try:
# Send the message to the model, using a basic inference configuration.
streaming_response = client.converse_stream(
modelId=model_id,
messages=conversation,
inferenceConfig={"maxTokens": 512, "temperature": 0.5, "topP": 0.9},
)
# Extract and print the streamed response text in real-time.
for chunk in streaming_response["stream"]:
if "contentBlockDelta" in chunk:
text = chunk["contentBlockDelta"]["delta"]["text"]
print(text, end="")
except (ClientError, Exception) as e:
print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
exit(1)
```
+ Pour plus de détails sur l'API, consultez [ConverseStream](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/ConverseStream)le *AWS manuel de référence de l'API SDK for Python (Boto3*).
------
#### [ Rust ]
**SDK pour Rust**
Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-runtime#code-examples).
Envoyez un SMS à Anthropic Claude et diffusez des jetons de réponse à l'aide de l'API de ConverseStream Bedrock.
```
#[tokio::main]
async fn main() -> Result<(), BedrockConverseStreamError> {
tracing_subscriber::fmt::init();
let sdk_config = aws_config::defaults(BehaviorVersion::latest())
.region(CLAUDE_REGION)
.load()
.await;
let client = Client::new(&sdk_config);
let response = client
.converse_stream()
.model_id(MODEL_ID)
.messages(
Message::builder()
.role(ConversationRole::User)
.content(ContentBlock::Text(USER_MESSAGE.to_string()))
.build()
.map_err(|_| "failed to build message")?,
)
.send()
.await;
let mut stream = match response {
Ok(output) => Ok(output.stream),
Err(e) => Err(BedrockConverseStreamError::from(
e.as_service_error().unwrap(),
)),
}?;
loop {
let token = stream.recv().await;
match token {
Ok(Some(text)) => {
let next = get_converse_output_text(text)?;
print!("{}", next);
Ok(())
}
Ok(None) => break,
Err(e) => Err(e
.as_service_error()
.map(BedrockConverseStreamError::from)
.unwrap_or(BedrockConverseStreamError(
"Unknown error receiving stream".into(),
))),
}?
}
println!();
Ok(())
}
fn get_converse_output_text(
output: ConverseStreamOutputType,
) -> Result {
Ok(match output {
ConverseStreamOutputType::ContentBlockDelta(event) => match event.delta() {
Some(delta) => delta.as_text().cloned().unwrap_or_else(|_| "".into()),
None => "".into(),
},
_ => "".into(),
})
}
```
Utilisez des instructions, l’utilitaire Error et des constantes.
```
use aws_config::BehaviorVersion;
use aws_sdk_bedrockruntime::{
error::ProvideErrorMetadata,
operation::converse_stream::ConverseStreamError,
types::{
error::ConverseStreamOutputError, ContentBlock, ConversationRole,
ConverseStreamOutput as ConverseStreamOutputType, Message,
},
Client,
};
// Set the model ID, e.g., Claude 3 Haiku.
const MODEL_ID: &str = "anthropic.claude-3-haiku-20240307-v1:0";
const CLAUDE_REGION: &str = "us-east-1";
// Start a conversation with the user message.
const USER_MESSAGE: &str = "Describe the purpose of a 'hello world' program in one line.";
#[derive(Debug)]
struct BedrockConverseStreamError(String);
impl std::fmt::Display for BedrockConverseStreamError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "Can't invoke '{}'. Reason: {}", MODEL_ID, self.0)
}
}
impl std::error::Error for BedrockConverseStreamError {}
impl From<&str> for BedrockConverseStreamError {
fn from(value: &str) -> Self {
BedrockConverseStreamError(value.into())
}
}
impl From<&ConverseStreamError> for BedrockConverseStreamError {
fn from(value: &ConverseStreamError) -> Self {
BedrockConverseStreamError(
match value {
ConverseStreamError::ModelTimeoutException(_) => "Model took too long",
ConverseStreamError::ModelNotReadyException(_) => "Model is not ready",
_ => "Unknown",
}
.into(),
)
}
}
impl From<&ConverseStreamOutputError> for BedrockConverseStreamError {
fn from(value: &ConverseStreamOutputError) -> Self {
match value {
ConverseStreamOutputError::ValidationException(ve) => BedrockConverseStreamError(
ve.message().unwrap_or("Unknown ValidationException").into(),
),
ConverseStreamOutputError::ThrottlingException(te) => BedrockConverseStreamError(
te.message().unwrap_or("Unknown ThrottlingException").into(),
),
value => BedrockConverseStreamError(
value
.message()
.unwrap_or("Unknown StreamOutput exception")
.into(),
),
}
}
}
```
+ Pour plus de détails sur l'API, voir [ConverseStream](https://docs.rs/aws-sdk-bedrockruntime/latest/aws_sdk_bedrockruntime/client/struct.Client.html#method.converse_stream)la section de *référence de l'API AWS SDK for Rust*.
------
#### [ Swift ]
**Kit SDK pour Swift**
Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/swift/example_code/bedrock-runtime#code-examples).
Envoyez un message texte à Anthropic Claude à l’aide de l’API Converse de Bedrock et traitez le flux de réponses en temps réel.
```
// An example demonstrating how to use the Conversation API to send a text message
// to Anthropic Claude and print the response stream
import AWSBedrockRuntime
func printConverseStream(_ textPrompt: String) async throws {
// Create a Bedrock Runtime client in the AWS Region you want to use.
let config =
try await BedrockRuntimeClient.BedrockRuntimeClientConfiguration(
region: "us-east-1"
)
let client = BedrockRuntimeClient(config: config)
// Set the model ID.
let modelId = "anthropic.claude-3-haiku-20240307-v1:0"
// Start a conversation with the user message.
let message = BedrockRuntimeClientTypes.Message(
content: [.text(textPrompt)],
role: .user
)
// Optionally use inference parameters.
let inferenceConfig =
BedrockRuntimeClientTypes.InferenceConfiguration(
maxTokens: 512,
stopSequences: ["END"],
temperature: 0.5,
topp: 0.9
)
// Create the ConverseStreamInput to send to the model.
let input = ConverseStreamInput(
inferenceConfig: inferenceConfig, messages: [message], modelId: modelId)
// Send the ConverseStreamInput to the model.
let response = try await client.converseStream(input: input)
// Extract the streaming response.
guard let stream = response.stream else {
print("No stream available")
return
}
// Extract and print the streamed response text in real-time.
for try await event in stream {
switch event {
case .messagestart(_):
print("\nAnthropic Claude:")
case .contentblockdelta(let deltaEvent):
if case .text(let text) = deltaEvent.delta {
print(text, terminator: "")
}
default:
break
}
}
}
```
+ Pour plus de détails sur l'API, reportez-vous [ConverseStream](https://sdk.amazonaws.com/swift/api/awsbedrockruntime/latest/documentation/awsbedrockruntime/bedrockruntimeclient/conversestream(input:))à la section *AWS SDK pour la référence de l'API Swift*.
------
Pour obtenir la liste complète des guides de développement du AWS SDK et des exemples de code, consultez[Utilisation d'Amazon Bedrock avec un SDK AWS](sdk-general-information-section.md). Cette rubrique comprend également des informations sur le démarrage et sur les versions précédentes du kit SDK.
# Envoi et traitement d’un document avec Anthropic Claude sur Amazon Bedrock
L’exemple de code suivant montre comment envoyer et traiter un document avec Anthropic Claude sur Amazon Bedrock.
------
#### [ Python ]
**Kit SDK for Python (Boto3)**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples).
Envoyez et traitez un document avec Anthropic Claude sur Amazon Bedrock.
```
# Send and process a document with Anthropic Claude on Amazon Bedrock.
import boto3
from botocore.exceptions import ClientError
# Create a Bedrock Runtime client in the AWS Region you want to use.
client = boto3.client("bedrock-runtime", region_name="us-east-1")
# Set the model ID, e.g. Claude 3 Haiku.
model_id = "anthropic.claude-3-haiku-20240307-v1:0"
# Load the document
with open("example-data/amazon-nova-service-cards.pdf", "rb") as file:
document_bytes = file.read()
# Start a conversation with a user message and the document
conversation = [
{
"role": "user",
"content": [
{"text": "Briefly compare the models described in this document"},
{
"document": {
# Available formats: html, md, pdf, doc/docx, xls/xlsx, csv, and txt
"format": "pdf",
"name": "Amazon Nova Service Cards",
"source": {"bytes": document_bytes},
}
},
],
}
]
try:
# Send the message to the model, using a basic inference configuration.
response = client.converse(
modelId=model_id,
messages=conversation,
inferenceConfig={"maxTokens": 500, "temperature": 0.3},
)
# Extract and print the response text.
response_text = response["output"]["message"]["content"][0]["text"]
print(response_text)
except (ClientError, Exception) as e:
print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
exit(1)
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) dans la *Référence des API du kit AWS SDK pour Python (Boto3)*.
------
Pour obtenir la liste complète des guides de développement du AWS SDK et des exemples de code, consultez[Utilisation d'Amazon Bedrock avec un SDK AWS](sdk-general-information-section.md). Cette rubrique comprend également des informations sur le démarrage et sur les versions précédentes du kit SDK.
# Invocation d’Anthropic Claude sur Amazon Bedrock à l’aide de l’API Invoke Model
Les exemples de code suivants montrent comment envoyer un message texte à Anthropic Claude à l’aide de l’API Invoke Model.
------
#### [ .NET ]
**SDK pour .NET (v4)**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv4/Bedrock-runtime#code-examples).
Utilisez l’API Invoke Model pour envoyer un message texte.
```
// Use the native inference API to send a text message to Anthropic Claude.
using System;
using System.IO;
using System.Text.Json;
using System.Text.Json.Nodes;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;
// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);
// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";
// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";
//Format the request payload using the model's native structure.
var nativeRequest = JsonSerializer.Serialize(new
{
anthropic_version = "bedrock-2023-05-31",
max_tokens = 512,
temperature = 0.5,
messages = new[]
{
new { role = "user", content = userMessage }
}
});
// Create a request with the model ID and the model's native request payload.
var request = new InvokeModelRequest()
{
ModelId = modelId,
Body = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(nativeRequest)),
ContentType = "application/json"
};
try
{
// Send the request to the Bedrock Runtime and wait for the response.
var response = await client.InvokeModelAsync(request);
// Decode the response body.
var modelResponse = await JsonNode.ParseAsync(response.Body);
// Extract and print the response text.
var responseText = modelResponse["content"]?[0]?["text"] ?? "";
Console.WriteLine(responseText);
}
catch (AmazonBedrockRuntimeException e)
{
Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
throw;
}
```
+ Pour plus de détails sur l'API, reportez-vous [InvokeModel](https://docs.aws.amazon.com/goto/DotNetSDKV4/bedrock-runtime-2023-09-30/InvokeModel)à la section *Référence des AWS SDK pour .NET API*.
------
#### [ Go ]
**Kit SDK pour Go V2**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/bedrock-runtime#code-examples).
Invoquez le modèle de fondation Anthropic Claude 2 pour générer du texte.
```
import (
"context"
"encoding/json"
"log"
"strings"
"github.com/aws/aws-sdk-go-v2/aws"
"github.com/aws/aws-sdk-go-v2/service/bedrockruntime"
)
// InvokeModelWrapper encapsulates Amazon Bedrock actions used in the examples.
// It contains a Bedrock Runtime client that is used to invoke foundation models.
type InvokeModelWrapper struct {
BedrockRuntimeClient *bedrockruntime.Client
}
// Each model provider has their own individual request and response formats.
// For the format, ranges, and default values for Anthropic Claude, refer to:
// https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-claude.html
type ClaudeRequest struct {
Prompt string `json:"prompt"`
MaxTokensToSample int `json:"max_tokens_to_sample"`
Temperature float64 `json:"temperature,omitempty"`
StopSequences []string `json:"stop_sequences,omitempty"`
}
type ClaudeResponse struct {
Completion string `json:"completion"`
}
// Invokes Anthropic Claude on Amazon Bedrock to run an inference using the input
// provided in the request body.
func (wrapper InvokeModelWrapper) InvokeClaude(ctx context.Context, prompt string) (string, error) {
modelId := "anthropic.claude-v2"
// Anthropic Claude requires enclosing the prompt as follows:
enclosedPrompt := "Human: " + prompt + "\n\nAssistant:"
body, err := json.Marshal(ClaudeRequest{
Prompt: enclosedPrompt,
MaxTokensToSample: 200,
Temperature: 0.5,
StopSequences: []string{"\n\nHuman:"},
})
if err != nil {
log.Fatal("failed to marshal", err)
}
output, err := wrapper.BedrockRuntimeClient.InvokeModel(ctx, &bedrockruntime.InvokeModelInput{
ModelId: aws.String(modelId),
ContentType: aws.String("application/json"),
Body: body,
})
if err != nil {
ProcessError(err, modelId)
}
var response ClaudeResponse
if err := json.Unmarshal(output.Body, &response); err != nil {
log.Fatal("failed to unmarshal", err)
}
return response.Completion, nil
}
```
+ Pour plus de détails sur l'API, reportez-vous [InvokeModel](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/bedrockruntime#Client.InvokeModel)à la section *Référence des AWS SDK pour Go API*.
------
#### [ Java ]
**SDK pour Java 2.x**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples).
Utilisez l’API Invoke Model pour envoyer un message texte.
```
// Use the native inference API to send a text message to Anthropic Claude.
import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;
public class InvokeModel {
public static String invokeModel() {
// Create a Bedrock Runtime client in the AWS Region you want to use.
// Replace the DefaultCredentialsProvider with your preferred credentials provider.
var client = BedrockRuntimeClient.builder()
.credentialsProvider(DefaultCredentialsProvider.create())
.region(Region.US_EAST_1)
.build();
// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";
// The InvokeModel API uses the model's native payload.
// Learn more about the available inference parameters and response fields at:
// https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
var nativeRequestTemplate = """
{
"anthropic_version": "bedrock-2023-05-31",
"max_tokens": 512,
"temperature": 0.5,
"messages": [{
"role": "user",
"content": "{{prompt}}"
}]
}""";
// Define the prompt for the model.
var prompt = "Describe the purpose of a 'hello world' program in one line.";
// Embed the prompt in the model's native request payload.
String nativeRequest = nativeRequestTemplate.replace("{{prompt}}", prompt);
try {
// Encode and send the request to the Bedrock Runtime.
var response = client.invokeModel(request -> request
.body(SdkBytes.fromUtf8String(nativeRequest))
.modelId(modelId)
);
// Decode the response body.
var responseBody = new JSONObject(response.body().asUtf8String());
// Retrieve the generated text from the model's response.
var text = new JSONPointer("/content/0/text").queryFrom(responseBody).toString();
System.out.println(text);
return text;
} catch (SdkClientException e) {
System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
throw new RuntimeException(e);
}
}
public static void main(String[] args) {
invokeModel();
}
}
```
+ Pour plus de détails sur l'API, reportez-vous [InvokeModel](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModel)à la section *Référence des AWS SDK for Java 2.x API*.
------
#### [ JavaScript ]
**SDK pour JavaScript (v3)**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples).
Utilisez l’API Invoke Model pour envoyer un message texte.
```
import { fileURLToPath } from "node:url";
import { FoundationModels } from "../../config/foundation_models.js";
import {
BedrockRuntimeClient,
InvokeModelCommand,
InvokeModelWithResponseStreamCommand,
} from "@aws-sdk/client-bedrock-runtime";
/**
* @typedef {Object} ResponseContent
* @property {string} text
*
* @typedef {Object} MessagesResponseBody
* @property {ResponseContent[]} content
*
* @typedef {Object} Delta
* @property {string} text
*
* @typedef {Object} Message
* @property {string} role
*
* @typedef {Object} Chunk
* @property {string} type
* @property {Delta} delta
* @property {Message} message
*/
/**
* Invokes Anthropic Claude 3 using the Messages API.
*
* To learn more about the Anthropic Messages API, go to:
* https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
*
* @param {string} prompt - The input text prompt for the model to complete.
* @param {string} [modelId] - The ID of the model to use. Defaults to "anthropic.claude-3-haiku-20240307-v1:0".
*/
export const invokeModel = async (
prompt,
modelId = "anthropic.claude-3-haiku-20240307-v1:0",
) => {
// Create a new Bedrock Runtime client instance.
const client = new BedrockRuntimeClient({ region: "us-east-1" });
// Prepare the payload for the model.
const payload = {
anthropic_version: "bedrock-2023-05-31",
max_tokens: 1000,
messages: [
{
role: "user",
content: [{ type: "text", text: prompt }],
},
],
};
// Invoke Claude with the payload and wait for the response.
const command = new InvokeModelCommand({
contentType: "application/json",
body: JSON.stringify(payload),
modelId,
});
const apiResponse = await client.send(command);
// Decode and return the response(s)
const decodedResponseBody = new TextDecoder().decode(apiResponse.body);
/** @type {MessagesResponseBody} */
const responseBody = JSON.parse(decodedResponseBody);
return responseBody.content[0].text;
};
/**
* Invokes Anthropic Claude 3 and processes the response stream.
*
* To learn more about the Anthropic Messages API, go to:
* https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
*
* @param {string} prompt - The input text prompt for the model to complete.
* @param {string} [modelId] - The ID of the model to use. Defaults to "anthropic.claude-3-haiku-20240307-v1:0".
*/
export const invokeModelWithResponseStream = async (
prompt,
modelId = "anthropic.claude-3-haiku-20240307-v1:0",
) => {
// Create a new Bedrock Runtime client instance.
const client = new BedrockRuntimeClient({ region: "us-east-1" });
// Prepare the payload for the model.
const payload = {
anthropic_version: "bedrock-2023-05-31",
max_tokens: 1000,
messages: [
{
role: "user",
content: [{ type: "text", text: prompt }],
},
],
};
// Invoke Claude with the payload and wait for the API to respond.
const command = new InvokeModelWithResponseStreamCommand({
contentType: "application/json",
body: JSON.stringify(payload),
modelId,
});
const apiResponse = await client.send(command);
let completeMessage = "";
// Decode and process the response stream
for await (const item of apiResponse.body) {
/** @type Chunk */
const chunk = JSON.parse(new TextDecoder().decode(item.chunk.bytes));
const chunk_type = chunk.type;
if (chunk_type === "content_block_delta") {
const text = chunk.delta.text;
completeMessage = completeMessage + text;
process.stdout.write(text);
}
}
// Return the final response
return completeMessage;
};
// Invoke the function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
const prompt = 'Write a paragraph starting with: "Once upon a time..."';
const modelId = FoundationModels.CLAUDE_3_HAIKU.modelId;
console.log(`Prompt: ${prompt}`);
console.log(`Model ID: ${modelId}`);
try {
console.log("-".repeat(53));
const response = await invokeModel(prompt, modelId);
console.log(`\n${"-".repeat(53)}`);
console.log("Final structured response:");
console.log(response);
} catch (err) {
console.log(`\n${err}`);
}
}
```
+ Pour plus de détails sur l'API, reportez-vous [InvokeModel](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/InvokeModelCommand)à la section *Référence des AWS SDK pour JavaScript API*.
------
#### [ PHP ]
**Kit SDK pour PHP**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/php/example_code/bedrock-runtime#code-examples).
Invoquez le modèle de fondation Anthropic Claude 2 pour générer du texte.
```
public function invokeClaude($prompt)
{
// The different model providers have individual request and response formats.
// For the format, ranges, and default values for Anthropic Claude, refer to:
// https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-claude.html
$completion = "";
try {
$modelId = 'anthropic.claude-3-haiku-20240307-v1:0';
// Claude requires you to enclose the prompt as follows:
$body = [
'anthropic_version' => 'bedrock-2023-05-31',
'max_tokens' => 512,
'temperature' => 0.5,
'messages' => [[
'role' => 'user',
'content' => $prompt
]]
];
$result = $this->bedrockRuntimeClient->invokeModel([
'contentType' => 'application/json',
'body' => json_encode($body),
'modelId' => $modelId,
]);
$response_body = json_decode($result['body']);
$completion = $response_body->content[0]->text;
} catch (Exception $e) {
echo "Error: ({$e->getCode()}) - {$e->getMessage()}\n";
}
return $completion;
}
```
+ Pour plus de détails sur l'API, reportez-vous [InvokeModel](https://docs.aws.amazon.com/goto/SdkForPHPV3/bedrock-runtime-2023-09-30/InvokeModel)à la section *Référence des AWS SDK pour PHP API*.
------
#### [ Python ]
**Kit SDK for Python (Boto3)**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples).
Utilisez l’API Invoke Model pour envoyer un message texte.
```
# Use the native inference API to send a text message to Anthropic Claude.
import boto3
import json
from botocore.exceptions import ClientError
# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")
# Set the model ID, e.g., Claude 3 Haiku.
model_id = "anthropic.claude-3-haiku-20240307-v1:0"
# Define the prompt for the model.
prompt = "Describe the purpose of a 'hello world' program in one line."
# Format the request payload using the model's native structure.
native_request = {
"anthropic_version": "bedrock-2023-05-31",
"max_tokens": 512,
"temperature": 0.5,
"messages": [
{
"role": "user",
"content": [{"type": "text", "text": prompt}],
}
],
}
# Convert the native request to JSON.
request = json.dumps(native_request)
try:
# Invoke the model with the request.
response = client.invoke_model(modelId=model_id, body=request)
except (ClientError, Exception) as e:
print(f"ERROR: Can't invoke '{model_id}'. Reason: {e}")
exit(1)
# Decode the response body.
model_response = json.loads(response["body"].read())
# Extract and print the response text.
response_text = model_response["content"][0]["text"]
print(response_text)
```
+ Pour plus de détails sur l'API, consultez [InvokeModel](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModel)le *AWS manuel de référence de l'API SDK for Python (Boto3*).
------
#### [ SAP ABAP ]
**Kit SDK pour SAP ABAP**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/sap-abap/services/bdr#code-examples).
Invoquez le modèle de fondation Anthropic Claude 2 pour générer du texte. Cet exemple utilise les fonctionnalités de/US2/CL\$1JSON qui peuvent ne pas être disponibles sur certaines versions. NetWeaver
```
"Claude V2 Input Parameters should be in a format like this:
* {
* "prompt":"\n\nHuman:\\nTell me a joke\n\nAssistant:\n",
* "max_tokens_to_sample":2048,
* "temperature":0.5,
* "top_k":250,
* "top_p":1.0,
* "stop_sequences":[]
* }
DATA: BEGIN OF ls_input,
prompt TYPE string,
max_tokens_to_sample TYPE /aws1/rt_shape_integer,
temperature TYPE /aws1/rt_shape_float,
top_k TYPE /aws1/rt_shape_integer,
top_p TYPE /aws1/rt_shape_float,
stop_sequences TYPE /aws1/rt_stringtab,
END OF ls_input.
"Leave ls_input-stop_sequences empty.
ls_input-prompt = |\n\nHuman:\\n{ iv_prompt }\n\nAssistant:\n|.
ls_input-max_tokens_to_sample = 2048.
ls_input-temperature = '0.5'.
ls_input-top_k = 250.
ls_input-top_p = 1.
"Serialize into JSON with /ui2/cl_json -- this assumes SAP_UI is installed.
DATA(lv_json) = /ui2/cl_json=>serialize(
data = ls_input
pretty_name = /ui2/cl_json=>pretty_mode-low_case ).
TRY.
DATA(lo_response) = lo_bdr->invokemodel(
iv_body = /aws1/cl_rt_util=>string_to_xstring( lv_json )
iv_modelid = 'anthropic.claude-v2'
iv_accept = 'application/json'
iv_contenttype = 'application/json' ).
"Claude V2 Response format will be:
* {
* "completion": "Knock Knock...",
* "stop_reason": "stop_sequence"
* }
DATA: BEGIN OF ls_response,
completion TYPE string,
stop_reason TYPE string,
END OF ls_response.
/ui2/cl_json=>deserialize(
EXPORTING jsonx = lo_response->get_body( )
pretty_name = /ui2/cl_json=>pretty_mode-camel_case
CHANGING data = ls_response ).
DATA(lv_answer) = ls_response-completion.
CATCH /aws1/cx_bdraccessdeniedex INTO DATA(lo_ex).
WRITE / lo_ex->get_text( ).
WRITE / |Don't forget to enable model access at https://console.aws.amazon.com/bedrock/home?#/modelaccess|.
ENDTRY.
```
Invoquez le modèle de fondation Anthropic Claude 2 pour générer du texte à l’aide du client de haut niveau L2.
```
TRY.
DATA(lo_bdr_l2_claude) = /aws1/cl_bdr_l2_factory=>create_claude_2( lo_bdr ).
" iv_prompt can contain a prompt like 'tell me a joke about Java programmers'.
DATA(lv_answer) = lo_bdr_l2_claude->prompt_for_text( iv_prompt ).
CATCH /aws1/cx_bdraccessdeniedex INTO DATA(lo_ex).
WRITE / lo_ex->get_text( ).
WRITE / |Don't forget to enable model access at https://console.aws.amazon.com/bedrock/home?#/modelaccess|.
ENDTRY.
```
Invoquez le modèle de fondation Anthropic Claude 3 pour générer du texte à l’aide du client de haut niveau L2.
```
TRY.
" Choose a model ID from Anthropic that supports the Messages API - currently this is
" Claude v2, Claude v3 and v3.5. For the list of model ID, see:
" https://docs.aws.amazon.com/bedrock/latest/userguide/model-ids.html
" for the list of models that support the Messages API see:
" https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
DATA(lo_bdr_l2_claude) = /aws1/cl_bdr_l2_factory=>create_anthropic_msg_api(
io_bdr = lo_bdr
iv_model_id = 'anthropic.claude-3-sonnet-20240229-v1:0' ). " choosing Claude v3 Sonnet
" iv_prompt can contain a prompt like 'tell me a joke about Java programmers'.
DATA(lv_answer) = lo_bdr_l2_claude->prompt_for_text( iv_prompt = iv_prompt
iv_max_tokens = 100 ).
CATCH /aws1/cx_bdraccessdeniedex INTO DATA(lo_ex).
WRITE / lo_ex->get_text( ).
WRITE / |Don't forget to enable model access at https://console.aws.amazon.com/bedrock/home?#/modelaccess|.
ENDTRY.
```
+ Pour plus de détails sur l'API, reportez-vous [InvokeModel](https://docs.aws.amazon.com/sdk-for-sap-abap/v1/api/latest/index.html)à la section de référence du *AWS SDK pour l'API SAP ABAP*.
------
Pour obtenir la liste complète des guides de développement du AWS SDK et des exemples de code, consultez[Utilisation d'Amazon Bedrock avec un SDK AWS](sdk-general-information-section.md). Cette rubrique comprend également des informations sur le démarrage et sur les versions précédentes du kit SDK.
# Invoquez des modèles Anthropic Claude sur Amazon Bedrock à l’aide de l’API Invoke Model avec un flux de réponse
Les exemples de code suivants montrent comment envoyer un message texte aux modèles Anthropic Claude à l’aide de l’API Invoke Model et comment imprimer le flux de réponses.
------
#### [ .NET ]
**SDK pour .NET**
Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/dotnetv3/Bedrock-runtime#code-examples).
Utilisez l’API Invoke Model pour envoyer un message texte et traiter le flux de réponses en temps réel.
```
// Use the native inference API to send a text message to Anthropic Claude
// and print the response stream.
using System;
using System.IO;
using System.Text.Json;
using System.Text.Json.Nodes;
using Amazon;
using Amazon.BedrockRuntime;
using Amazon.BedrockRuntime.Model;
// Create a Bedrock Runtime client in the AWS Region you want to use.
var client = new AmazonBedrockRuntimeClient(RegionEndpoint.USEast1);
// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";
// Define the user message.
var userMessage = "Describe the purpose of a 'hello world' program in one line.";
//Format the request payload using the model's native structure.
var nativeRequest = JsonSerializer.Serialize(new
{
anthropic_version = "bedrock-2023-05-31",
max_tokens = 512,
temperature = 0.5,
messages = new[]
{
new { role = "user", content = userMessage }
}
});
// Create a request with the model ID, the user message, and an inference configuration.
var request = new InvokeModelWithResponseStreamRequest()
{
ModelId = modelId,
Body = new MemoryStream(System.Text.Encoding.UTF8.GetBytes(nativeRequest)),
ContentType = "application/json"
};
try
{
// Send the request to the Bedrock Runtime and wait for the response.
var streamingResponse = await client.InvokeModelWithResponseStreamAsync(request);
// Extract and print the streamed response text in real-time.
foreach (var item in streamingResponse.Body)
{
var chunk = JsonSerializer.Deserialize((item as PayloadPart).Bytes);
var text = chunk["delta"]?["text"] ?? "";
Console.Write(text);
}
}
catch (AmazonBedrockRuntimeException e)
{
Console.WriteLine($"ERROR: Can't invoke '{modelId}'. Reason: {e.Message}");
throw;
}
```
+ Pour plus de détails sur l'API, voir [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/DotNetSDKV3/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)la section *Référence des AWS SDK pour .NET API*.
------
#### [ Go ]
**Kit SDK pour Go V2**
Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/gov2/bedrock-runtime#code-examples).
Utilisez l’API Invoke Model pour envoyer un message texte et traiter le flux de réponses en temps réel.
```
import (
"bytes"
"context"
"encoding/json"
"fmt"
"log"
"strings"
"github.com/aws/aws-sdk-go-v2/aws"
"github.com/aws/aws-sdk-go-v2/service/bedrockruntime"
"github.com/aws/aws-sdk-go-v2/service/bedrockruntime/types"
)
// InvokeModelWithResponseStreamWrapper encapsulates Amazon Bedrock actions used in the examples.
// It contains a Bedrock Runtime client that is used to invoke foundation models.
type InvokeModelWithResponseStreamWrapper struct {
BedrockRuntimeClient *bedrockruntime.Client
}
// Each model provider defines their own individual request and response formats.
// For the format, ranges, and default values for the different models, refer to:
// https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters.html
type Request struct {
Prompt string `json:"prompt"`
MaxTokensToSample int `json:"max_tokens_to_sample"`
Temperature float64 `json:"temperature,omitempty"`
}
type Response struct {
Completion string `json:"completion"`
}
// Invokes Anthropic Claude on Amazon Bedrock to run an inference and asynchronously
// process the response stream.
func (wrapper InvokeModelWithResponseStreamWrapper) InvokeModelWithResponseStream(ctx context.Context, prompt string) (string, error) {
modelId := "anthropic.claude-v2"
// Anthropic Claude requires you to enclose the prompt as follows:
prefix := "Human: "
postfix := "\n\nAssistant:"
prompt = prefix + prompt + postfix
request := ClaudeRequest{
Prompt: prompt,
MaxTokensToSample: 200,
Temperature: 0.5,
StopSequences: []string{"\n\nHuman:"},
}
body, err := json.Marshal(request)
if err != nil {
log.Panicln("Couldn't marshal the request: ", err)
}
output, err := wrapper.BedrockRuntimeClient.InvokeModelWithResponseStream(ctx, &bedrockruntime.InvokeModelWithResponseStreamInput{
Body: body,
ModelId: aws.String(modelId),
ContentType: aws.String("application/json"),
})
if err != nil {
errMsg := err.Error()
if strings.Contains(errMsg, "no such host") {
log.Printf("The Bedrock service is not available in the selected region. Please double-check the service availability for your region at https://aws.amazon.com/about-aws/global-infrastructure/regional-product-services/.\n")
} else if strings.Contains(errMsg, "Could not resolve the foundation model") {
log.Printf("Could not resolve the foundation model from model identifier: \"%v\". Please verify that the requested model exists and is accessible within the specified region.\n", modelId)
} else {
log.Printf("Couldn't invoke Anthropic Claude. Here's why: %v\n", err)
}
}
resp, err := processStreamingOutput(ctx, output, func(ctx context.Context, part []byte) error {
fmt.Print(string(part))
return nil
})
if err != nil {
log.Fatal("streaming output processing error: ", err)
}
return resp.Completion, nil
}
type StreamingOutputHandler func(ctx context.Context, part []byte) error
func processStreamingOutput(ctx context.Context, output *bedrockruntime.InvokeModelWithResponseStreamOutput, handler StreamingOutputHandler) (Response, error) {
var combinedResult string
resp := Response{}
for event := range output.GetStream().Events() {
switch v := event.(type) {
case *types.ResponseStreamMemberChunk:
//fmt.Println("payload", string(v.Value.Bytes))
var resp Response
err := json.NewDecoder(bytes.NewReader(v.Value.Bytes)).Decode(&resp)
if err != nil {
return resp, err
}
err = handler(ctx, []byte(resp.Completion))
if err != nil {
return resp, err
}
combinedResult += resp.Completion
case *types.UnknownUnionMember:
fmt.Println("unknown tag:", v.Tag)
default:
fmt.Println("union is nil or unknown type")
}
}
resp.Completion = combinedResult
return resp, nil
}
```
+ Pour plus de détails sur l'API, voir [InvokeModelWithResponseStream](https://pkg.go.dev/github.com/aws/aws-sdk-go-v2/service/bedrockruntime#Client.InvokeModelWithResponseStream)la section *Référence des AWS SDK pour Go API*.
------
#### [ Java ]
**SDK pour Java 2.x**
Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples).
Utilisez l’API Invoke Model pour envoyer un message texte et traiter le flux de réponses en temps réel.
```
// Use the native inference API to send a text message to Anthropic Claude
// and print the response stream.
import org.json.JSONObject;
import org.json.JSONPointer;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.SdkBytes;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamRequest;
import software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamResponseHandler;
import java.util.Objects;
import java.util.concurrent.ExecutionException;
import static software.amazon.awssdk.services.bedrockruntime.model.InvokeModelWithResponseStreamResponseHandler.Visitor;
public class InvokeModelWithResponseStream {
public static String invokeModelWithResponseStream() {
// Create a Bedrock Runtime client in the AWS Region you want to use.
// Replace the DefaultCredentialsProvider with your preferred credentials provider.
var client = BedrockRuntimeAsyncClient.builder()
.credentialsProvider(DefaultCredentialsProvider.create())
.region(Region.US_EAST_1)
.build();
// Set the model ID, e.g., Claude 3 Haiku.
var modelId = "anthropic.claude-3-haiku-20240307-v1:0";
// The InvokeModelWithResponseStream API uses the model's native payload.
// Learn more about the available inference parameters and response fields at:
// https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
var nativeRequestTemplate = """
{
"anthropic_version": "bedrock-2023-05-31",
"max_tokens": 512,
"temperature": 0.5,
"messages": [{
"role": "user",
"content": "{{prompt}}"
}]
}""";
// Define the prompt for the model.
var prompt = "Describe the purpose of a 'hello world' program in one line.";
// Embed the prompt in the model's native request payload.
String nativeRequest = nativeRequestTemplate.replace("{{prompt}}", prompt);
// Create a request with the model ID and the model's native request payload.
var request = InvokeModelWithResponseStreamRequest.builder()
.body(SdkBytes.fromUtf8String(nativeRequest))
.modelId(modelId)
.build();
// Prepare a buffer to accumulate the generated response text.
var completeResponseTextBuffer = new StringBuilder();
// Prepare a handler to extract, accumulate, and print the response text in real-time.
var responseStreamHandler = InvokeModelWithResponseStreamResponseHandler.builder()
.subscriber(Visitor.builder().onChunk(chunk -> {
var response = new JSONObject(chunk.bytes().asUtf8String());
// Extract and print the text from the content blocks.
if (Objects.equals(response.getString("type"), "content_block_delta")) {
var text = new JSONPointer("/delta/text").queryFrom(response);
System.out.print(text);
// Append the text to the response text buffer.
completeResponseTextBuffer.append(text);
}
}).build()).build();
try {
// Send the request and wait for the handler to process the response.
client.invokeModelWithResponseStream(request, responseStreamHandler).get();
// Return the complete response text.
return completeResponseTextBuffer.toString();
} catch (ExecutionException | InterruptedException e) {
System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
throw new RuntimeException(e);
}
}
public static void main(String[] args) throws ExecutionException, InterruptedException {
invokeModelWithResponseStream();
}
}
```
+ Pour plus de détails sur l'API, voir [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)la section *Référence des AWS SDK for Java 2.x API*.
------
#### [ JavaScript ]
**SDK pour JavaScript (v3)**
Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javascriptv3/example_code/bedrock-runtime#code-examples).
Utilisez l’API Invoke Model pour envoyer un message texte et traiter le flux de réponses en temps réel.
```
import { fileURLToPath } from "node:url";
import { FoundationModels } from "../../config/foundation_models.js";
import {
BedrockRuntimeClient,
InvokeModelCommand,
InvokeModelWithResponseStreamCommand,
} from "@aws-sdk/client-bedrock-runtime";
/**
* @typedef {Object} ResponseContent
* @property {string} text
*
* @typedef {Object} MessagesResponseBody
* @property {ResponseContent[]} content
*
* @typedef {Object} Delta
* @property {string} text
*
* @typedef {Object} Message
* @property {string} role
*
* @typedef {Object} Chunk
* @property {string} type
* @property {Delta} delta
* @property {Message} message
*/
/**
* Invokes Anthropic Claude 3 using the Messages API.
*
* To learn more about the Anthropic Messages API, go to:
* https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
*
* @param {string} prompt - The input text prompt for the model to complete.
* @param {string} [modelId] - The ID of the model to use. Defaults to "anthropic.claude-3-haiku-20240307-v1:0".
*/
export const invokeModel = async (
prompt,
modelId = "anthropic.claude-3-haiku-20240307-v1:0",
) => {
// Create a new Bedrock Runtime client instance.
const client = new BedrockRuntimeClient({ region: "us-east-1" });
// Prepare the payload for the model.
const payload = {
anthropic_version: "bedrock-2023-05-31",
max_tokens: 1000,
messages: [
{
role: "user",
content: [{ type: "text", text: prompt }],
},
],
};
// Invoke Claude with the payload and wait for the response.
const command = new InvokeModelCommand({
contentType: "application/json",
body: JSON.stringify(payload),
modelId,
});
const apiResponse = await client.send(command);
// Decode and return the response(s)
const decodedResponseBody = new TextDecoder().decode(apiResponse.body);
/** @type {MessagesResponseBody} */
const responseBody = JSON.parse(decodedResponseBody);
return responseBody.content[0].text;
};
/**
* Invokes Anthropic Claude 3 and processes the response stream.
*
* To learn more about the Anthropic Messages API, go to:
* https://docs.aws.amazon.com/bedrock/latest/userguide/model-parameters-anthropic-claude-messages.html
*
* @param {string} prompt - The input text prompt for the model to complete.
* @param {string} [modelId] - The ID of the model to use. Defaults to "anthropic.claude-3-haiku-20240307-v1:0".
*/
export const invokeModelWithResponseStream = async (
prompt,
modelId = "anthropic.claude-3-haiku-20240307-v1:0",
) => {
// Create a new Bedrock Runtime client instance.
const client = new BedrockRuntimeClient({ region: "us-east-1" });
// Prepare the payload for the model.
const payload = {
anthropic_version: "bedrock-2023-05-31",
max_tokens: 1000,
messages: [
{
role: "user",
content: [{ type: "text", text: prompt }],
},
],
};
// Invoke Claude with the payload and wait for the API to respond.
const command = new InvokeModelWithResponseStreamCommand({
contentType: "application/json",
body: JSON.stringify(payload),
modelId,
});
const apiResponse = await client.send(command);
let completeMessage = "";
// Decode and process the response stream
for await (const item of apiResponse.body) {
/** @type Chunk */
const chunk = JSON.parse(new TextDecoder().decode(item.chunk.bytes));
const chunk_type = chunk.type;
if (chunk_type === "content_block_delta") {
const text = chunk.delta.text;
completeMessage = completeMessage + text;
process.stdout.write(text);
}
}
// Return the final response
return completeMessage;
};
// Invoke the function if this file was run directly.
if (process.argv[1] === fileURLToPath(import.meta.url)) {
const prompt = 'Write a paragraph starting with: "Once upon a time..."';
const modelId = FoundationModels.CLAUDE_3_HAIKU.modelId;
console.log(`Prompt: ${prompt}`);
console.log(`Model ID: ${modelId}`);
try {
console.log("-".repeat(53));
const response = await invokeModel(prompt, modelId);
console.log(`\n${"-".repeat(53)}`);
console.log("Final structured response:");
console.log(response);
} catch (err) {
console.log(`\n${err}`);
}
}
```
+ Pour plus de détails sur l'API, voir [InvokeModelWithResponseStream](https://docs.aws.amazon.com/AWSJavaScriptSDK/v3/latest/client/bedrock-runtime/command/InvokeModelWithResponseStreamCommand)la section *Référence des AWS SDK pour JavaScript API*.
------
#### [ Python ]
**Kit SDK for Python (Boto3)**
Il y en a plus sur GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples).
Utilisez l’API Invoke Model pour envoyer un message texte et traiter le flux de réponses en temps réel.
```
# Use the native inference API to send a text message to Anthropic Claude
# and print the response stream.
import boto3
import json
# Create a Bedrock Runtime client in the AWS Region of your choice.
client = boto3.client("bedrock-runtime", region_name="us-east-1")
# Set the model ID, e.g., Claude 3 Haiku.
model_id = "anthropic.claude-3-haiku-20240307-v1:0"
# Define the prompt for the model.
prompt = "Describe the purpose of a 'hello world' program in one line."
# Format the request payload using the model's native structure.
native_request = {
"anthropic_version": "bedrock-2023-05-31",
"max_tokens": 512,
"temperature": 0.5,
"messages": [
{
"role": "user",
"content": [{"type": "text", "text": prompt}],
}
],
}
# Convert the native request to JSON.
request = json.dumps(native_request)
# Invoke the model with the request.
streaming_response = client.invoke_model_with_response_stream(
modelId=model_id, body=request
)
# Extract and print the response text in real-time.
for event in streaming_response["body"]:
chunk = json.loads(event["chunk"]["bytes"])
if chunk["type"] == "content_block_delta":
print(chunk["delta"].get("text", ""), end="")
```
+ Pour plus de détails sur l'API, consultez [InvokeModelWithResponseStream](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/InvokeModelWithResponseStream)le *AWS manuel de référence de l'API SDK for Python (Boto3*).
------
Pour obtenir la liste complète des guides de développement du AWS SDK et des exemples de code, consultez[Utilisation d'Amazon Bedrock avec un SDK AWS](sdk-general-information-section.md). Cette rubrique comprend également des informations sur le démarrage et sur les versions précédentes du kit SDK.
# Utilisation de la capacité de raisonnement d’Anthropic Claude 3.7 Sonnet sur Amazon Bedrock
L’exemple de code suivant montre comment utiliser la capacité de raisonnement d’Anthropic Claude 3.7 Sonnet sur Amazon Bedrock.
------
#### [ Java ]
**SDK pour Java 2.x**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples).
Utilisez la capacité de raisonnement d’Anthropic Claude 3.7 Sonnet avec le client d’exécution asynchrone Bedrock.
```
import com.example.bedrockruntime.models.anthropicClaude.lib.ReasoningResponse;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.document.Document;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.*;
import java.util.concurrent.CompletableFuture;
/**
* This example demonstrates how to use Anthropic Claude 3.7 Sonnet's reasoning capability
* with an asynchronous Amazon Bedrock runtime client.
* It shows how to:
* - Set up the Amazon Bedrock async runtime client
* - Create a message
* - Configure reasoning parameters
* - Send an asynchronous request with reasoning enabled
* - Process both the reasoning output and final response
*/
public class ReasoningAsync {
public static ReasoningResponse reasoningAsync() {
// Create the Amazon Bedrock runtime client
var client = BedrockRuntimeAsyncClient.builder()
.credentialsProvider(DefaultCredentialsProvider.create())
.region(Region.US_EAST_1)
.build();
// Specify the model ID. For the latest available models, see:
// https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
var modelId = "us.anthropic.claude-3-7-sonnet-20250219-v1:0";
// Create the message with the user's prompt
var prompt = "Describe the purpose of a 'hello world' program in one line.";
var message = Message.builder()
.content(ContentBlock.fromText(prompt))
.role(ConversationRole.USER)
.build();
// Configure reasoning parameters with a 2000 token budget
Document reasoningConfig = Document.mapBuilder()
.putDocument("thinking", Document.mapBuilder()
.putString("type", "enabled")
.putNumber("budget_tokens", 2000)
.build())
.build();
try {
// Send message and reasoning configuration to the model
CompletableFuture asyncResponse = client.converse(request -> request
.additionalModelRequestFields(reasoningConfig)
.messages(message)
.modelId(modelId)
);
// Process the response asynchronously
return asyncResponse.thenApply(response -> {
var content = response.output().message().content();
ReasoningContentBlock reasoning = null;
String text = null;
// Process each content block to find reasoning and response text
for (ContentBlock block : content) {
if (block.reasoningContent() != null) {
reasoning = block.reasoningContent();
} else if (block.text() != null) {
text = block.text();
}
}
return new ReasoningResponse(reasoning, text);
}
).get();
} catch (Exception e) {
System.err.printf("Can't invoke '%s': %s", modelId, e.getMessage());
throw new RuntimeException(e);
}
}
public static void main(String[] args) {
// Execute the example and display reasoning and final response
ReasoningResponse response = reasoningAsync();
System.out.println("\n");
System.out.println(response.reasoning().reasoningText());
System.out.println("\n");
System.out.println(response.text());
}
}
```
Utilisez la capacité de raisonnement d’Anthropic Claude 3.7 Sonnet avec le client d’exécution synchrone Bedrock.
```
import com.example.bedrockruntime.models.anthropicClaude.lib.ReasoningResponse;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.document.Document;
import software.amazon.awssdk.core.exception.SdkClientException;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeClient;
import software.amazon.awssdk.services.bedrockruntime.model.*;
/**
* This example demonstrates how to use Anthropic Claude 3.7 Sonnet's reasoning capability
* with the synchronous Amazon Bedrock runtime client.
* It shows how to:
* - Set up the Amazon Bedrock runtime client
* - Create a message
* - Configure reasoning parameters
* - Send a request with reasoning enabled
* - Process both the reasoning output and final response
*/
public class Reasoning {
public static ReasoningResponse reasoning() {
// Create the Amazon Bedrock runtime client
var client = BedrockRuntimeClient.builder()
.credentialsProvider(DefaultCredentialsProvider.create())
.region(Region.US_EAST_1)
.build();
// Specify the model ID. For the latest available models, see:
// https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
var modelId = "us.anthropic.claude-3-7-sonnet-20250219-v1:0";
// Create the message with the user's prompt
var prompt = "Describe the purpose of a 'hello world' program in one line.";
var message = Message.builder()
.content(ContentBlock.fromText(prompt))
.role(ConversationRole.USER)
.build();
// Configure reasoning parameters with a 2000 token budget
Document reasoningConfig = Document.mapBuilder()
.putDocument("thinking", Document.mapBuilder()
.putString("type", "enabled")
.putNumber("budget_tokens", 2000)
.build())
.build();
try {
// Send message and reasoning configuration to the model
ConverseResponse bedrockResponse = client.converse(request -> request
.additionalModelRequestFields(reasoningConfig)
.messages(message)
.modelId(modelId)
);
// Extract both reasoning and final response
var content = bedrockResponse.output().message().content();
ReasoningContentBlock reasoning = null;
String text = null;
// Process each content block to find reasoning and response text
for (ContentBlock block : content) {
if (block.reasoningContent() != null) {
reasoning = block.reasoningContent();
} else if (block.text() != null) {
text = block.text();
}
}
return new ReasoningResponse(reasoning, text);
} catch (SdkClientException e) {
System.err.printf("ERROR: Can't invoke '%s'. Reason: %s", modelId, e.getMessage());
throw new RuntimeException(e);
}
}
public static void main(String[] args) {
// Execute the example and display reasoning and final response
ReasoningResponse response = reasoning();
System.out.println("\n");
System.out.println(response.reasoning().reasoningText());
System.out.println("\n");
System.out.println(response.text());
}
}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/Converse) dans la *Référence des API du kit AWS SDK for Java 2.x *.
------
Pour obtenir la liste complète des guides de développement du AWS SDK et des exemples de code, consultez[Utilisation d'Amazon Bedrock avec un SDK AWS](sdk-general-information-section.md). Cette rubrique comprend également des informations sur le démarrage et sur les versions précédentes du kit SDK.
# Utilisation de la capacité de raisonnement d’Anthropic Claude 3.7 Sonnet sur Amazon Bedrock
L’exemple de code suivant montre comment utiliser la capacité de raisonnement d’Anthropic Claude 3.7 Sonnet sur Amazon Bedrock.
------
#### [ Java ]
**SDK pour Java 2.x**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/javav2/example_code/bedrock-runtime#code-examples).
Utilisez la capacité de raisonnement d’Anthropic Claude 3.7 Sonnet pour générer des réponses textuelles en streaming.
```
import com.example.bedrockruntime.models.anthropicClaude.lib.ReasoningResponse;
import software.amazon.awssdk.auth.credentials.DefaultCredentialsProvider;
import software.amazon.awssdk.core.document.Document;
import software.amazon.awssdk.regions.Region;
import software.amazon.awssdk.services.bedrockruntime.BedrockRuntimeAsyncClient;
import software.amazon.awssdk.services.bedrockruntime.model.*;
import java.util.concurrent.ExecutionException;
import java.util.concurrent.atomic.AtomicReference;
/**
* This example demonstrates how to use Anthropic Claude 3.7 Sonnet's reasoning
* capability to generate streaming text responses.
* It shows how to:
* - Set up the Amazon Bedrock runtime client
* - Create a message
* - Configure a streaming request
* - Set up a stream handler to process the response chunks
* - Process the streaming response
*/
public class ReasoningStream {
public static ReasoningResponse reasoningStream() {
// Create the Amazon Bedrock runtime client
var client = BedrockRuntimeAsyncClient.builder()
.credentialsProvider(DefaultCredentialsProvider.create())
.region(Region.US_EAST_1)
.build();
// Specify the model ID. For the latest available models, see:
// https://docs.aws.amazon.com/bedrock/latest/userguide/models-supported.html
var modelId = "us.anthropic.claude-3-7-sonnet-20250219-v1:0";
// Create the message with the user's prompt
var prompt = "Describe the purpose of a 'hello world' program in one line.";
var message = Message.builder()
.content(ContentBlock.fromText(prompt))
.role(ConversationRole.USER)
.build();
// Configure reasoning parameters with a 2000 token budget
Document reasoningConfig = Document.mapBuilder()
.putDocument("thinking", Document.mapBuilder()
.putString("type", "enabled")
.putNumber("budget_tokens", 2000)
.build())
.build();
// Configure the request with the message, model ID, and reasoning config
ConverseStreamRequest request = ConverseStreamRequest.builder()
.additionalModelRequestFields(reasoningConfig)
.messages(message)
.modelId(modelId)
.build();
StringBuilder reasoning = new StringBuilder();
StringBuilder text = new StringBuilder();
AtomicReference finalresponse = new AtomicReference<>();
// Set up the stream handler to processes chunks of the response as they arrive
var streamHandler = ConverseStreamResponseHandler.builder()
.subscriber(ConverseStreamResponseHandler.Visitor.builder()
.onContentBlockDelta(chunk -> {
ContentBlockDelta delta = chunk.delta();
if (delta.reasoningContent() != null) {
if (reasoning.isEmpty()) {
System.out.println("\n");
}
if (delta.reasoningContent().text() != null) {
System.out.print(delta.reasoningContent().text());
reasoning.append(delta.reasoningContent().text());
}
} else if (delta.text() != null) {
if (text.isEmpty()) {
System.out.println("\n\n");
}
System.out.print(delta.text());
text.append(delta.text());
}
System.out.flush(); // Ensure immediate output of each chunk
}).build())
.onComplete(() -> finalresponse.set(new ReasoningResponse(
ReasoningContentBlock.fromReasoningText(t -> t.text(reasoning.toString())),
text.toString()
)))
.onError(err -> System.err.printf("Can't invoke '%s': %s", modelId, err.getMessage()))
.build();
// Step 6: Send the streaming request and process the response
// - Send the request to the model
// - Attach the handler to process response chunks as they arrive
// - Handle any errors during streaming
try {
client.converseStream(request, streamHandler).get();
return finalresponse.get();
} catch (ExecutionException | InterruptedException e) {
System.err.printf("Can't invoke '%s': %s", modelId, e.getCause().getMessage());
throw new RuntimeException(e);
} catch (Exception e) {
System.err.printf("Can't invoke '%s': %s", modelId, e.getMessage());
throw new RuntimeException(e);
}
}
public static void main(String[] args) {
reasoningStream();
}
}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.aws.amazon.com/goto/SdkForJavaV2/bedrock-runtime-2023-09-30/Converse) dans la *Référence des API du kit AWS SDK for Java 2.x *.
------
Pour obtenir la liste complète des guides de développement du AWS SDK et des exemples de code, consultez[Utilisation d'Amazon Bedrock avec un SDK AWS](sdk-general-information-section.md). Cette rubrique comprend également des informations sur le démarrage et sur les versions précédentes du kit SDK.
# Une démonstration d’utilisation d’outil illustrant comment connecter des modèles d’IA sur Amazon Bedrock à un outil personnalisé ou à une API
Les exemples de code suivants montrent comment créer une interaction typique entre une application, un modèle d'IA génératif et des outils connectés ou APIs comment faciliter les interactions entre l'IA et le monde extérieur. Il utilise comme exemple la connexion d’une API de météorologie externe au modèle d’IA afin de fournir des informations météorologiques en temps réel en fonction des données saisies par l’utilisateur.
------
#### [ Python ]
**Kit SDK for Python (Boto3)**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/python/example_code/bedrock-runtime#code-examples).
Script d’exécution principal de la démo. Ce script orchestre la conversation entre l’utilisateur, l’API Converse Amazon Bedrock et un outil météo.
```
"""
This demo illustrates a tool use scenario using Amazon Bedrock's Converse API and a weather tool.
The script interacts with a foundation model on Amazon Bedrock to provide weather information based on user
input. It uses the Open-Meteo API (https://open-meteo.com) to retrieve current weather data for a given location.
"""
import boto3
import logging
from enum import Enum
import utils.tool_use_print_utils as output
import weather_tool
logging.basicConfig(level=logging.INFO, format="%(message)s")
AWS_REGION = "us-east-1"
# For the most recent list of models supported by the Converse API's tool use functionality, visit:
# https://docs.aws.amazon.com/bedrock/latest/userguide/conversation-inference.html
class SupportedModels(Enum):
CLAUDE_OPUS = "anthropic.claude-3-opus-20240229-v1:0"
CLAUDE_SONNET = "anthropic.claude-3-sonnet-20240229-v1:0"
CLAUDE_HAIKU = "anthropic.claude-3-haiku-20240307-v1:0"
COHERE_COMMAND_R = "cohere.command-r-v1:0"
COHERE_COMMAND_R_PLUS = "cohere.command-r-plus-v1:0"
# Set the model ID, e.g., Claude 3 Haiku.
MODEL_ID = SupportedModels.CLAUDE_HAIKU.value
SYSTEM_PROMPT = """
You are a weather assistant that provides current weather data for user-specified locations using only
the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
If the user provides coordinates, infer the approximate location and refer to it in your response.
To use the tool, you strictly apply the provided tool specification.
- Explain your step-by-step process, and give brief updates before each step.
- Only use the Weather_Tool for data. Never guess or make up information.
- Repeat the tool use for subsequent requests if necessary.
- If the tool errors, apologize, explain weather is unavailable, and suggest other options.
- Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
emojis where appropriate.
- Only respond to weather queries. Remind off-topic users of your purpose.
- Never claim to search online, access external data, or use tools besides Weather_Tool.
- Complete the entire process until you have all required data before sending the complete response.
"""
# The maximum number of recursive calls allowed in the tool_use_demo function.
# This helps prevent infinite loops and potential performance issues.
MAX_RECURSIONS = 5
class ToolUseDemo:
"""
Demonstrates the tool use feature with the Amazon Bedrock Converse API.
"""
def __init__(self):
# Prepare the system prompt
self.system_prompt = [{"text": SYSTEM_PROMPT}]
# Prepare the tool configuration with the weather tool's specification
self.tool_config = {"tools": [weather_tool.get_tool_spec()]}
# Create a Bedrock Runtime client in the specified AWS Region.
self.bedrockRuntimeClient = boto3.client(
"bedrock-runtime", region_name=AWS_REGION
)
def run(self):
"""
Starts the conversation with the user and handles the interaction with Bedrock.
"""
# Print the greeting and a short user guide
output.header()
# Start with an emtpy conversation
conversation = []
# Get the first user input
user_input = self._get_user_input()
while user_input is not None:
# Create a new message with the user input and append it to the conversation
message = {"role": "user", "content": [{"text": user_input}]}
conversation.append(message)
# Send the conversation to Amazon Bedrock
bedrock_response = self._send_conversation_to_bedrock(conversation)
# Recursively handle the model's response until the model has returned
# its final response or the recursion counter has reached 0
self._process_model_response(
bedrock_response, conversation, max_recursion=MAX_RECURSIONS
)
# Repeat the loop until the user decides to exit the application
user_input = self._get_user_input()
output.footer()
def _send_conversation_to_bedrock(self, conversation):
"""
Sends the conversation, the system prompt, and the tool spec to Amazon Bedrock, and returns the response.
:param conversation: The conversation history including the next message to send.
:return: The response from Amazon Bedrock.
"""
output.call_to_bedrock(conversation)
# Send the conversation, system prompt, and tool configuration, and return the response
return self.bedrockRuntimeClient.converse(
modelId=MODEL_ID,
messages=conversation,
system=self.system_prompt,
toolConfig=self.tool_config,
)
def _process_model_response(
self, model_response, conversation, max_recursion=MAX_RECURSIONS
):
"""
Processes the response received via Amazon Bedrock and performs the necessary actions
based on the stop reason.
:param model_response: The model's response returned via Amazon Bedrock.
:param conversation: The conversation history.
:param max_recursion: The maximum number of recursive calls allowed.
"""
if max_recursion <= 0:
# Stop the process, the number of recursive calls could indicate an infinite loop
logging.warning(
"Warning: Maximum number of recursions reached. Please try again."
)
exit(1)
# Append the model's response to the ongoing conversation
message = model_response["output"]["message"]
conversation.append(message)
if model_response["stopReason"] == "tool_use":
# If the stop reason is "tool_use", forward everything to the tool use handler
self._handle_tool_use(message, conversation, max_recursion)
if model_response["stopReason"] == "end_turn":
# If the stop reason is "end_turn", print the model's response text, and finish the process
output.model_response(message["content"][0]["text"])
return
def _handle_tool_use(
self, model_response, conversation, max_recursion=MAX_RECURSIONS
):
"""
Handles the tool use case by invoking the specified tool and sending the tool's response back to Bedrock.
The tool response is appended to the conversation, and the conversation is sent back to Amazon Bedrock for further processing.
:param model_response: The model's response containing the tool use request.
:param conversation: The conversation history.
:param max_recursion: The maximum number of recursive calls allowed.
"""
# Initialize an empty list of tool results
tool_results = []
# The model's response can consist of multiple content blocks
for content_block in model_response["content"]:
if "text" in content_block:
# If the content block contains text, print it to the console
output.model_response(content_block["text"])
if "toolUse" in content_block:
# If the content block is a tool use request, forward it to the tool
tool_response = self._invoke_tool(content_block["toolUse"])
# Add the tool use ID and the tool's response to the list of results
tool_results.append(
{
"toolResult": {
"toolUseId": (tool_response["toolUseId"]),
"content": [{"json": tool_response["content"]}],
}
}
)
# Embed the tool results in a new user message
message = {"role": "user", "content": tool_results}
# Append the new message to the ongoing conversation
conversation.append(message)
# Send the conversation to Amazon Bedrock
response = self._send_conversation_to_bedrock(conversation)
# Recursively handle the model's response until the model has returned
# its final response or the recursion counter has reached 0
self._process_model_response(response, conversation, max_recursion - 1)
def _invoke_tool(self, payload):
"""
Invokes the specified tool with the given payload and returns the tool's response.
If the requested tool does not exist, an error message is returned.
:param payload: The payload containing the tool name and input data.
:return: The tool's response or an error message.
"""
tool_name = payload["name"]
if tool_name == "Weather_Tool":
input_data = payload["input"]
output.tool_use(tool_name, input_data)
# Invoke the weather tool with the input data provided by
response = weather_tool.fetch_weather_data(input_data)
else:
error_message = (
f"The requested tool with name '{tool_name}' does not exist."
)
response = {"error": "true", "message": error_message}
return {"toolUseId": payload["toolUseId"], "content": response}
@staticmethod
def _get_user_input(prompt="Your weather info request"):
"""
Prompts the user for input and returns the user's response.
Returns None if the user enters 'x' to exit.
:param prompt: The prompt to display to the user.
:return: The user's input or None if the user chooses to exit.
"""
output.separator()
user_input = input(f"{prompt} (x to exit): ")
if user_input == "":
prompt = "Please enter your weather info request, e.g. the name of a city"
return ToolUseDemo._get_user_input(prompt)
elif user_input.lower() == "x":
return None
else:
return user_input
if __name__ == "__main__":
tool_use_demo = ToolUseDemo()
tool_use_demo.run()
```
Outil météo utilisé par la démonstration. Ce script définit les spécifications de l’outil et met en œuvre la logique permettant de récupérer les données météorologiques à l’aide de l’API Open-Meteo.
```
import requests
from requests.exceptions import RequestException
def get_tool_spec():
"""
Returns the JSON Schema specification for the Weather tool. The tool specification
defines the input schema and describes the tool's functionality.
For more information, see https://json-schema.org/understanding-json-schema/reference.
:return: The tool specification for the Weather tool.
"""
return {
"toolSpec": {
"name": "Weather_Tool",
"description": "Get the current weather for a given location, based on its WGS84 coordinates.",
"inputSchema": {
"json": {
"type": "object",
"properties": {
"latitude": {
"type": "string",
"description": "Geographical WGS84 latitude of the location.",
},
"longitude": {
"type": "string",
"description": "Geographical WGS84 longitude of the location.",
},
},
"required": ["latitude", "longitude"],
}
},
}
}
def fetch_weather_data(input_data):
"""
Fetches weather data for the given latitude and longitude using the Open-Meteo API.
Returns the weather data or an error message if the request fails.
:param input_data: The input data containing the latitude and longitude.
:return: The weather data or an error message.
"""
endpoint = "https://api.open-meteo.com/v1/forecast"
latitude = input_data.get("latitude")
longitude = input_data.get("longitude", "")
params = {"latitude": latitude, "longitude": longitude, "current_weather": True}
try:
response = requests.get(endpoint, params=params)
weather_data = {"weather_data": response.json()}
response.raise_for_status()
return weather_data
except RequestException as e:
return e.response.json()
except Exception as e:
return {"error": type(e), "message": str(e)}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.aws.amazon.com/goto/boto3/bedrock-runtime-2023-09-30/Converse) dans la *Référence des API du kit AWS SDK for Python (Boto3)*.
------
#### [ Rust ]
**SDK pour Rust**
Il y en a plus à ce sujet GitHub. Trouvez l’exemple complet et découvrez comment le configurer et l’exécuter dans le [référentiel d’exemples de code AWS](https://github.com/awsdocs/aws-doc-sdk-examples/tree/main/rustv1/examples/bedrock-runtime#code-examples).
Scénario principal et logique de la démo. Ceci orchestre la conversation entre l’utilisateur, l’API Converse Amazon Bedrock et un outil météo.
```
#[derive(Debug)]
#[allow(dead_code)]
struct InvokeToolResult(String, ToolResultBlock);
struct ToolUseScenario {
client: Client,
conversation: Vec,
system_prompt: SystemContentBlock,
tool_config: ToolConfiguration,
}
impl ToolUseScenario {
fn new(client: Client) -> Self {
let system_prompt = SystemContentBlock::Text(SYSTEM_PROMPT.into());
let tool_config = ToolConfiguration::builder()
.tools(Tool::ToolSpec(
ToolSpecification::builder()
.name(TOOL_NAME)
.description(TOOL_DESCRIPTION)
.input_schema(ToolInputSchema::Json(make_tool_schema()))
.build()
.unwrap(),
))
.build()
.unwrap();
ToolUseScenario {
client,
conversation: vec![],
system_prompt,
tool_config,
}
}
async fn run(&mut self) -> Result<(), ToolUseScenarioError> {
loop {
let input = get_input().await?;
if input.is_none() {
break;
}
let message = Message::builder()
.role(User)
.content(ContentBlock::Text(input.unwrap()))
.build()
.map_err(ToolUseScenarioError::from)?;
self.conversation.push(message);
let response = self.send_to_bedrock().await?;
self.process_model_response(response).await?;
}
Ok(())
}
async fn send_to_bedrock(&mut self) -> Result {
debug!("Sending conversation to bedrock");
self.client
.converse()
.model_id(MODEL_ID)
.set_messages(Some(self.conversation.clone()))
.system(self.system_prompt.clone())
.tool_config(self.tool_config.clone())
.send()
.await
.map_err(ToolUseScenarioError::from)
}
async fn process_model_response(
&mut self,
mut response: ConverseOutput,
) -> Result<(), ToolUseScenarioError> {
let mut iteration = 0;
while iteration < MAX_RECURSIONS {
iteration += 1;
let message = if let Some(ref output) = response.output {
if output.is_message() {
Ok(output.as_message().unwrap().clone())
} else {
Err(ToolUseScenarioError(
"Converse Output is not a message".into(),
))
}
} else {
Err(ToolUseScenarioError("Missing Converse Output".into()))
}?;
self.conversation.push(message.clone());
match response.stop_reason {
StopReason::ToolUse => {
response = self.handle_tool_use(&message).await?;
}
StopReason::EndTurn => {
print_model_response(&message.content[0])?;
return Ok(());
}
_ => (),
}
}
Err(ToolUseScenarioError(
"Exceeded MAX_ITERATIONS when calling tools".into(),
))
}
async fn handle_tool_use(
&mut self,
message: &Message,
) -> Result {
let mut tool_results: Vec = vec![];
for block in &message.content {
match block {
ContentBlock::Text(_) => print_model_response(block)?,
ContentBlock::ToolUse(tool) => {
let tool_response = self.invoke_tool(tool).await?;
tool_results.push(ContentBlock::ToolResult(tool_response.1));
}
_ => (),
};
}
let message = Message::builder()
.role(User)
.set_content(Some(tool_results))
.build()?;
self.conversation.push(message);
self.send_to_bedrock().await
}
async fn invoke_tool(
&mut self,
tool: &ToolUseBlock,
) -> Result {
match tool.name() {
TOOL_NAME => {
println!(
"\x1b[0;90mExecuting tool: {TOOL_NAME} with input: {:?}...\x1b[0m",
tool.input()
);
let content = fetch_weather_data(tool).await?;
println!(
"\x1b[0;90mTool responded with {:?}\x1b[0m",
content.content()
);
Ok(InvokeToolResult(tool.tool_use_id.clone(), content))
}
_ => Err(ToolUseScenarioError(format!(
"The requested tool with name {} does not exist",
tool.name()
))),
}
}
}
#[tokio::main]
async fn main() {
tracing_subscriber::fmt::init();
let sdk_config = aws_config::defaults(BehaviorVersion::latest())
.region(CLAUDE_REGION)
.load()
.await;
let client = Client::new(&sdk_config);
let mut scenario = ToolUseScenario::new(client);
header();
if let Err(err) = scenario.run().await {
println!("There was an error running the scenario! {}", err.0)
}
footer();
}
```
Outil météo utilisé par la démonstration. Ce script définit les spécifications de l’outil et met en œuvre la logique permettant de récupérer les données météorologiques à l’aide de l’API Open-Meteo.
```
const ENDPOINT: &str = "https://api.open-meteo.com/v1/forecast";
async fn fetch_weather_data(
tool_use: &ToolUseBlock,
) -> Result {
let input = tool_use.input();
let latitude = input
.as_object()
.unwrap()
.get("latitude")
.unwrap()
.as_string()
.unwrap();
let longitude = input
.as_object()
.unwrap()
.get("longitude")
.unwrap()
.as_string()
.unwrap();
let params = [
("latitude", latitude),
("longitude", longitude),
("current_weather", "true"),
];
debug!("Calling {ENDPOINT} with {params:?}");
let response = reqwest::Client::new()
.get(ENDPOINT)
.query(¶ms)
.send()
.await
.map_err(|e| ToolUseScenarioError(format!("Error requesting weather: {e:?}")))?
.error_for_status()
.map_err(|e| ToolUseScenarioError(format!("Failed to request weather: {e:?}")))?;
debug!("Response: {response:?}");
let bytes = response
.bytes()
.await
.map_err(|e| ToolUseScenarioError(format!("Error reading response: {e:?}")))?;
let result = String::from_utf8(bytes.to_vec())
.map_err(|_| ToolUseScenarioError("Response was not utf8".into()))?;
Ok(ToolResultBlock::builder()
.tool_use_id(tool_use.tool_use_id())
.content(ToolResultContentBlock::Text(result))
.build()?)
}
```
Utilitaires pour imprimer les blocs de contenu des messages.
```
fn print_model_response(block: &ContentBlock) -> Result<(), ToolUseScenarioError> {
if block.is_text() {
let text = block.as_text().unwrap();
println!("\x1b[0;90mThe model's response:\x1b[0m\n{text}");
Ok(())
} else {
Err(ToolUseScenarioError(format!(
"Content block is not text ({block:?})"
)))
}
}
```
Utilisez des instructions, l’utilitaire Error et des constantes.
```
use std::{collections::HashMap, io::stdin};
use aws_config::BehaviorVersion;
use aws_sdk_bedrockruntime::{
error::{BuildError, SdkError},
operation::converse::{ConverseError, ConverseOutput},
types::{
ContentBlock, ConversationRole::User, Message, StopReason, SystemContentBlock, Tool,
ToolConfiguration, ToolInputSchema, ToolResultBlock, ToolResultContentBlock,
ToolSpecification, ToolUseBlock,
},
Client,
};
use aws_smithy_runtime_api::http::Response;
use aws_smithy_types::Document;
use tracing::debug;
// Set the model ID, e.g., Claude 3 Haiku.
const MODEL_ID: &str = "anthropic.claude-3-haiku-20240307-v1:0";
const CLAUDE_REGION: &str = "us-east-1";
const SYSTEM_PROMPT: &str = "You are a weather assistant that provides current weather data for user-specified locations using only
the Weather_Tool, which expects latitude and longitude. Infer the coordinates from the location yourself.
If the user provides coordinates, infer the approximate location and refer to it in your response.
To use the tool, you strictly apply the provided tool specification.
- Explain your step-by-step process, and give brief updates before each step.
- Only use the Weather_Tool for data. Never guess or make up information.
- Repeat the tool use for subsequent requests if necessary.
- If the tool errors, apologize, explain weather is unavailable, and suggest other options.
- Report temperatures in °C (°F) and wind in km/h (mph). Keep weather reports concise. Sparingly use
emojis where appropriate.
- Only respond to weather queries. Remind off-topic users of your purpose.
- Never claim to search online, access external data, or use tools besides Weather_Tool.
- Complete the entire process until you have all required data before sending the complete response.
";
// The maximum number of recursive calls allowed in the tool_use_demo function.
// This helps prevent infinite loops and potential performance issues.
const MAX_RECURSIONS: i8 = 5;
const TOOL_NAME: &str = "Weather_Tool";
const TOOL_DESCRIPTION: &str =
"Get the current weather for a given location, based on its WGS84 coordinates.";
fn make_tool_schema() -> Document {
Document::Object(HashMap::::from([
("type".into(), Document::String("object".into())),
(
"properties".into(),
Document::Object(HashMap::from([
(
"latitude".into(),
Document::Object(HashMap::from([
("type".into(), Document::String("string".into())),
(
"description".into(),
Document::String("Geographical WGS84 latitude of the location.".into()),
),
])),
),
(
"longitude".into(),
Document::Object(HashMap::from([
("type".into(), Document::String("string".into())),
(
"description".into(),
Document::String(
"Geographical WGS84 longitude of the location.".into(),
),
),
])),
),
])),
),
(
"required".into(),
Document::Array(vec![
Document::String("latitude".into()),
Document::String("longitude".into()),
]),
),
]))
}
#[derive(Debug)]
struct ToolUseScenarioError(String);
impl std::fmt::Display for ToolUseScenarioError {
fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
write!(f, "Tool use error with '{}'. Reason: {}", MODEL_ID, self.0)
}
}
impl From<&str> for ToolUseScenarioError {
fn from(value: &str) -> Self {
ToolUseScenarioError(value.into())
}
}
impl From for ToolUseScenarioError {
fn from(value: BuildError) -> Self {
ToolUseScenarioError(value.to_string().clone())
}
}
impl From> for ToolUseScenarioError {
fn from(value: SdkError) -> Self {
ToolUseScenarioError(match value.as_service_error() {
Some(value) => value.meta().message().unwrap_or("Unknown").into(),
None => "Unknown".into(),
})
}
}
```
+ Pour plus de détails sur l’API, consultez [Converse](https://docs.rs/aws-sdk-bedrockruntime/latest/aws_sdk_bedrockruntime/client/struct.Client.html#method.converse) dans la *Référence des API du kit AWS SDK pour Rust*.
------
Pour obtenir la liste complète des guides de développement du AWS SDK et des exemples de code, consultez[Utilisation d'Amazon Bedrock avec un SDK AWS](sdk-general-information-section.md). Cette rubrique comprend également des informations sur le démarrage et sur les versions précédentes du kit SDK.