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Generating content

Metodo: model.generateContent

Genera una risposta dal modello dato un input GenerateContentRequest.

Le capacità di input variano tra i modelli, inclusi i modelli ottimizzati. Per dettagli, consulta la guida ai modelli e la guida all'ottimizzazione.

Endpoint

pubblica


                  https://generativelanguage.googleapis.com/v1beta/{model=models/*}:generateContent

Parametri del percorso

model string

Obbligatorio. Il nome dell'evento Model da utilizzare per generare il completamento.

Formato: name=models/{model}. Il formato è models/{model}.

Corpo della richiesta

Il corpo della richiesta contiene dati con la seguente struttura:

Campi

contents[] object (Content)

Obbligatorio. I contenuti della conversazione corrente con il modello.

Per le query a turno singolo, si tratta di una singola istanza. Per le query in più passaggi, si tratta di un campo ripetuto contenente la cronologia delle conversazioni e l'ultima richiesta.

tools[] object (Tool)

(Facoltativo) Un elenco di Tools che il modello potrebbe utilizzare per generare la risposta successiva.

Un Tool è una porzione di codice che consente al sistema di interagire con sistemi esterni per eseguire un'azione o un insieme di azioni al di fuori delle conoscenze e dell'ambito del modello. Al momento l'unico strumento supportato è Function.

toolConfig object (ToolConfig)

(Facoltativo) Configurazione dello strumento per qualsiasi Tool specificato nella richiesta.

safetySettings[] object (SafetySetting)

(Facoltativo) Un elenco di istanze SafetySetting univoche per il blocco di contenuti non sicuri.

Questa norma verrà applicata in modo forzato a GenerateContentRequest.contents e GenerateContentResponse.candidates. Non dovrebbe essere presente più di un'impostazione per ogni tipo di SafetyCategory. L'API bloccherà tutti i contenuti e le risposte che non rispetteranno le soglie impostate da queste impostazioni. Questo elenco sostituisce le impostazioni predefinite per ogni SafetyCategory specificato in safetySettings. Se non è presente alcun valore SafetySetting per un determinato SafetyCategory nell'elenco, l'API utilizzerà l'impostazione di sicurezza predefinita per la categoria in questione. Sono supportate le categorie di danni HARM_CATEGORY_HATE_SPEECH, HARM_CATEGORY_SEXUALLY_EXPLICIT, HARM_CATEGORY_DANGEROUS_CONTENT e HARM_CATEGORY_HARASSMENT.

systemInstruction object (Content)

(Facoltativo) Istruzione di sistema impostata dallo sviluppatore. Al momento, solo testo.

generationConfig object (GenerationConfig)

(Facoltativo) Opzioni di configurazione per la generazione e gli output del modello.

cachedContent string

(Facoltativo) Il nome dei contenuti memorizzati nella cache utilizzati come contesto per fornire la previsione. Nota: utilizzato solo nella memorizzazione nella cache esplicita, dove gli utenti possono controllare la memorizzazione nella cache (ad es. quali contenuti memorizzare nella cache) e usufruire di risparmi sui costi garantiti. Formato: cachedContents/{cachedContent}

Esempio di richiesta

Testo

Python

model = genai.GenerativeModel("gemini-1.5-flash")
response = model.generate_content("Write a story about a magic backpack.")
print(response.text)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI } from "@google/generative-ai";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({ model: "gemini-1.5-flash" });

const prompt = "Write a story about a magic backpack.";

const result = await model.generateContent(prompt);
console.log(result.response.text());

Kotlin

val generativeModel =
    GenerativeModel(
        // Specify a Gemini model appropriate for your use case
        modelName = "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key" above)
        apiKey = BuildConfig.apiKey)

val prompt = "Write a story about a magic backpack."
val response = generativeModel.generateContent(prompt)
print(response.text)

Swift

let generativeModel =
  GenerativeModel(
    // Specify a Gemini model appropriate for your use case
    name: "gemini-1.5-flash",
    // Access your API key from your on-demand resource .plist file (see "Set up your API key"
    // above)
    apiKey: APIKey.default
  )

let prompt = "Write a story about a magic backpack."
let response = try await generativeModel.generateContent(prompt)
if let text = response.text {
  print(text)
}

Dart

final model = GenerativeModel(
  model: 'gemini-1.5-flash',
  apiKey: apiKey,
);
final prompt = 'Write a story about a magic backpack.';

final response = await model.generateContent([Content.text(prompt)]);
print(response.text);

Java

// Specify a Gemini model appropriate for your use case
GenerativeModel gm =
    new GenerativeModel(
        /* modelName */ "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key"
        // above)
        /* apiKey */ BuildConfig.apiKey);
GenerativeModelFutures model = GenerativeModelFutures.from(gm);

Content content =
    new Content.Builder().addText("Write a story about a magic backpack.").build();

// For illustrative purposes only. You should use an executor that fits your needs.
Executor executor = Executors.newSingleThreadExecutor();

ListenableFuture<GenerateContentResponse> response = model.generateContent(content);
Futures.addCallback(
    response,
    new FutureCallback<GenerateContentResponse>() {
      @Override
      public void onSuccess(GenerateContentResponse result) {
        String resultText = result.getText();
        System.out.println(resultText);
      }

      @Override
      public void onFailure(Throwable t) {
        t.printStackTrace();
      }
    },
    executor);

Immagine

Python

import PIL.Image

model = genai.GenerativeModel("gemini-1.5-flash")
organ = PIL.Image.open(media / "organ.jpg")
response = model.generate_content(["Tell me about this instrument", organ])
print(response.text)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI } from "@google/generative-ai";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({ model: "gemini-1.5-flash" });

function fileToGenerativePart(path, mimeType) {
  return {
    inlineData: {
      data: Buffer.from(fs.readFileSync(path)).toString("base64"),
      mimeType,
    },
  };
}

const prompt = "Describe how this product might be manufactured.";
// Note: The only accepted mime types are some image types, image/*.
const imagePart = fileToGenerativePart(
  `${mediaPath}/jetpack.jpg`,
  "image/jpeg",
);

const result = await model.generateContent([prompt, imagePart]);
console.log(result.response.text());

Kotlin

val generativeModel =
    GenerativeModel(
        // Specify a Gemini model appropriate for your use case
        modelName = "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key" above)
        apiKey = BuildConfig.apiKey)

val image: Bitmap = BitmapFactory.decodeResource(context.resources, R.drawable.image)
val inputContent = content {
  image(image)
  text("What's in this picture?")
}

val response = generativeModel.generateContent(inputContent)
print(response.text)

Swift

let generativeModel =
  GenerativeModel(
    // Specify a Gemini model appropriate for your use case
    name: "gemini-1.5-flash",
    // Access your API key from your on-demand resource .plist file (see "Set up your API key"
    // above)
    apiKey: APIKey.default
  )

guard let image = UIImage(systemName: "cloud.sun") else { fatalError() }

let prompt = "What's in this picture?"

let response = try await generativeModel.generateContent(image, prompt)
if let text = response.text {
  print(text)
}

Dart

final model = GenerativeModel(
  model: 'gemini-1.5-flash',
  apiKey: apiKey,
);

Future<DataPart> fileToPart(String mimeType, String path) async {
  return DataPart(mimeType, await File(path).readAsBytes());
}

final prompt = 'Describe how this product might be manufactured.';
final image = await fileToPart('image/jpeg', 'resources/jetpack.jpg');

final response = await model.generateContent([
  Content.multi([TextPart(prompt), image])
]);
print(response.text);

Java

// Specify a Gemini model appropriate for your use case
GenerativeModel gm =
    new GenerativeModel(
        /* modelName */ "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key"
        // above)
        /* apiKey */ BuildConfig.apiKey);
GenerativeModelFutures model = GenerativeModelFutures.from(gm);

Bitmap image = BitmapFactory.decodeResource(context.getResources(), R.drawable.image);

Content content =
    new Content.Builder()
        .addText("What's different between these pictures?")
        .addImage(image)
        .build();

// For illustrative purposes only. You should use an executor that fits your needs.
Executor executor = Executors.newSingleThreadExecutor();

ListenableFuture<GenerateContentResponse> response = model.generateContent(content);
Futures.addCallback(
    response,
    new FutureCallback<GenerateContentResponse>() {
      @Override
      public void onSuccess(GenerateContentResponse result) {
        String resultText = result.getText();
        System.out.println(resultText);
      }

      @Override
      public void onFailure(Throwable t) {
        t.printStackTrace();
      }
    },
    executor);

Audio

Python

model = genai.GenerativeModel("gemini-1.5-flash")
sample_audio = genai.upload_file(media / "sample.mp3")
response = model.generate_content(["Give me a summary of this audio file.", sample_audio])
print(response.text)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI } from "@google/generative-ai";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({ model: "gemini-1.5-flash" });

function fileToGenerativePart(path, mimeType) {
  return {
    inlineData: {
      data: Buffer.from(fs.readFileSync(path)).toString("base64"),
      mimeType,
    },
  };
}

const prompt = "Give me a summary of this audio file.";
// Note: The only accepted mime types are some image types, image/*.
const audioPart = fileToGenerativePart(
  `${mediaPath}/samplesmall.mp3`,
  "audio/mp3",
);

const result = await model.generateContent([prompt, audioPart]);
console.log(result.response.text());

Video

Python

import time

# Video clip (CC BY 3.0) from https://peach.blender.org/download/
myfile = genai.upload_file(media / "Big_Buck_Bunny.mp4")
print(f"{myfile=}")

# Videos need to be processed before you can use them.
while myfile.state.name == "PROCESSING":
    print("processing video...")
    time.sleep(5)
    myfile = genai.get_file(myfile.name)

model = genai.GenerativeModel("gemini-1.5-flash")
result = model.generate_content([myfile, "Describe this video clip"])
print(f"{result.text=}")

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI } from "@google/generative-ai";
// import { GoogleAIFileManager, FileState } from "@google/generative-ai/server";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({ model: "gemini-1.5-flash" });

const fileManager = new GoogleAIFileManager(process.env.API_KEY);

const uploadResult = await fileManager.uploadFile(
  `${mediaPath}/Big_Buck_Bunny.mp4`,
  { mimeType: "video/mp4" },
);

let file = await fileManager.getFile(uploadResult.file.name);
while (file.state === FileState.PROCESSING) {
  process.stdout.write(".");
  // Sleep for 10 seconds
  await new Promise((resolve) => setTimeout(resolve, 10_000));
  // Fetch the file from the API again
  file = await fileManager.getFile(uploadResult.file.name);
}

if (file.state === FileState.FAILED) {
  throw new Error("Video processing failed.");
}

const prompt = "Describe this video clip";
const videoPart = {
  fileData: {
    fileUri: uploadResult.file.uri,
    mimeType: uploadResult.file.mimeType,
  },
};

const result = await model.generateContent([prompt, videoPart]);
console.log(result.response.text());

Chat

Python

model = genai.GenerativeModel("gemini-1.5-flash")
chat = model.start_chat(
    history=[
        {"role": "user", "parts": "Hello"},
        {"role": "model", "parts": "Great to meet you. What would you like to know?"},
    ]
)
response = chat.send_message("I have 2 dogs in my house.")
print(response.text)
response = chat.send_message("How many paws are in my house?")
print(response.text)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI } from "@google/generative-ai";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({ model: "gemini-1.5-flash" });
const chat = model.startChat({
  history: [
    {
      role: "user",
      parts: [{ text: "Hello" }],
    },
    {
      role: "model",
      parts: [{ text: "Great to meet you. What would you like to know?" }],
    },
  ],
});
let result = await chat.sendMessage("I have 2 dogs in my house.");
console.log(result.response.text());
result = await chat.sendMessage("How many paws are in my house?");
console.log(result.response.text());

Conchiglia

curl https://generativelanguage.googleapis.com/v1beta/models/gemini-1.5-flash:generateContent?key=$GOOGLE_API_KEY \
    -H 'Content-Type: application/json' \
    -X POST \
    -d '{
      "contents": [
        {"role":"user",
         "parts":[{
           "text": "Hello"}]},
        {"role": "model",
         "parts":[{
           "text": "Great to meet you. What would you like to know?"}]},
        {"role":"user",
         "parts":[{
           "text": "I have two dogs in my house. How many paws are in my house?"}]},
      ]
    }' 2> /dev/null | grep "text"

Kotlin

val generativeModel =
    GenerativeModel(
        // Specify a Gemini model appropriate for your use case
        modelName = "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key" above)
        apiKey = BuildConfig.apiKey)

val chat =
    generativeModel.startChat(
        history =
            listOf(
                content(role = "user") { text("Hello, I have 2 dogs in my house.") },
                content(role = "model") {
                  text("Great to meet you. What would you like to know?")
                }))

val response = chat.sendMessage("How many paws are in my house?")
print(response.text)

Swift

let generativeModel =
  GenerativeModel(
    // Specify a Gemini model appropriate for your use case
    name: "gemini-1.5-flash",
    // Access your API key from your on-demand resource .plist file (see "Set up your API key"
    // above)
    apiKey: APIKey.default
  )

// Optionally specify existing chat history
let history = [
  ModelContent(role: "user", parts: "Hello, I have 2 dogs in my house."),
  ModelContent(role: "model", parts: "Great to meet you. What would you like to know?"),
]

// Initialize the chat with optional chat history
let chat = generativeModel.startChat(history: history)

// To generate text output, call sendMessage and pass in the message
let response = try await chat.sendMessage("How many paws are in my house?")
if let text = response.text {
  print(text)
}

Dart

final model = GenerativeModel(
  model: 'gemini-1.5-flash',
  apiKey: apiKey,
);
final chat = model.startChat(history: [
  Content.text('hello'),
  Content.model([TextPart('Great to meet you. What would you like to know?')])
]);
var response =
    await chat.sendMessage(Content.text('I have 2 dogs in my house.'));
print(response.text);
response =
    await chat.sendMessage(Content.text('How many paws are in my house?'));
print(response.text);

Java

// Specify a Gemini model appropriate for your use case
GenerativeModel gm =
    new GenerativeModel(
        /* modelName */ "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key"
        // above)
        /* apiKey */ BuildConfig.apiKey);
GenerativeModelFutures model = GenerativeModelFutures.from(gm);

// (optional) Create previous chat history for context
Content.Builder userContentBuilder = new Content.Builder();
userContentBuilder.setRole("user");
userContentBuilder.addText("Hello, I have 2 dogs in my house.");
Content userContent = userContentBuilder.build();

Content.Builder modelContentBuilder = new Content.Builder();
modelContentBuilder.setRole("model");
modelContentBuilder.addText("Great to meet you. What would you like to know?");
Content modelContent = userContentBuilder.build();

List<Content> history = Arrays.asList(userContent, modelContent);

// Initialize the chat
ChatFutures chat = model.startChat(history);

// Create a new user message
Content.Builder userMessageBuilder = new Content.Builder();
userMessageBuilder.setRole("user");
userMessageBuilder.addText("How many paws are in my house?");
Content userMessage = userMessageBuilder.build();

// For illustrative purposes only. You should use an executor that fits your needs.
Executor executor = Executors.newSingleThreadExecutor();

// Send the message
ListenableFuture<GenerateContentResponse> response = chat.sendMessage(userMessage);

Futures.addCallback(
    response,
    new FutureCallback<GenerateContentResponse>() {
      @Override
      public void onSuccess(GenerateContentResponse result) {
        String resultText = result.getText();
        System.out.println(resultText);
      }

      @Override
      public void onFailure(Throwable t) {
        t.printStackTrace();
      }
    },
    executor);

Cache

Python

document = genai.upload_file(path=media / "a11.txt")
model_name = "gemini-1.5-flash-001"
cache = genai.caching.CachedContent.create(
    model=model_name,
    system_instruction="You are an expert analyzing transcripts.",
    contents=[document],
)
print(cache)

model = genai.GenerativeModel.from_cached_content(cache)
response = model.generate_content("Please summarize this transcript")
print(response.text)

Node.js

// Make sure to include these imports:
// import { GoogleAICacheManager, GoogleAIFileManager } from "@google/generative-ai/server";
// import { GoogleGenerativeAI } from "@google/generative-ai";
const cacheManager = new GoogleAICacheManager(process.env.API_KEY);
const fileManager = new GoogleAIFileManager(process.env.API_KEY);

const uploadResult = await fileManager.uploadFile(`${mediaPath}/a11.txt`, {
  mimeType: "text/plain",
});

const cacheResult = await cacheManager.create({
  model: "models/gemini-1.5-flash-001",
  contents: [
    {
      role: "user",
      parts: [
        {
          fileData: {
            fileUri: uploadResult.file.uri,
            mimeType: uploadResult.file.mimeType,
          },
        },
      ],
    },
  ],
});

console.log(cacheResult);

const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModelFromCachedContent(cacheResult);
const result = await model.generateContent(
  "Please summarize this transcript.",
);
console.log(result.response.text());

Modello ottimizzato

Python

model = genai.GenerativeModel(model_name="tunedModels/my-increment-model")
result = model.generate_content("III")
print(result.text)  # "IV"

Modalità JSON

Python

import typing_extensions as typing

class Recipe(typing.TypedDict):
    recipe_name: str

model = genai.GenerativeModel("gemini-1.5-pro-latest")
result = model.generate_content(
    "List a few popular cookie recipes.",
    generation_config=genai.GenerationConfig(
        response_mime_type="application/json", response_schema=list([Recipe])
    ),
)
print(result)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI, FunctionDeclarationSchemaType } from "@google/generative-ai";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);

const schema = {
  description: "List of recipes",
  type: FunctionDeclarationSchemaType.ARRAY,
  items: {
    type: FunctionDeclarationSchemaType.OBJECT,
    properties: {
      recipeName: {
        type: FunctionDeclarationSchemaType.STRING,
        description: "Name of the recipe",
        nullable: false,
      },
    },
    required: ["recipeName"],
  },
};

const model = genAI.getGenerativeModel({
  model: "gemini-1.5-pro",
  generationConfig: {
    responseMimeType: "application/json",
    responseSchema: schema,
  },
});

const result = await model.generateContent(
  "List a few popular cookie recipes.",
);
console.log(result.response.text());

Kotlin

val generativeModel =
    GenerativeModel(
        // Specify a Gemini model appropriate for your use case
        modelName = "gemini-1.5-pro",
        // Access your API key as a Build Configuration variable (see "Set up your API key" above)
        apiKey = BuildConfig.apiKey,
        generationConfig = generationConfig {
            responseMimeType = "application/json"
            responseSchema = Schema(
                name = "recipes",
                description = "List of recipes",
                type = FunctionType.ARRAY,
                items = Schema(
                    name = "recipe",
                    description = "A recipe",
                    type = FunctionType.OBJECT,
                    properties = mapOf(
                        "recipeName" to Schema(
                            name = "recipeName",
                            description = "Name of the recipe",
                            type = FunctionType.STRING,
                            nullable = false
                        ),
                    ),
                    required = listOf("recipeName")
                ),
            )
        })

val prompt = "List a few popular cookie recipes."
val response = generativeModel.generateContent(prompt)
print(response.text)

Swift

let jsonSchema = Schema(
  type: .array,
  description: "List of recipes",
  items: Schema(
    type: .object,
    properties: [
      "recipeName": Schema(type: .string, description: "Name of the recipe", nullable: false),
    ],
    requiredProperties: ["recipeName"]
  )
)

let generativeModel = GenerativeModel(
  // Specify a model that supports controlled generation like Gemini 1.5 Pro
  name: "gemini-1.5-pro",
  // Access your API key from your on-demand resource .plist file (see "Set up your API key"
  // above)
  apiKey: APIKey.default,
  generationConfig: GenerationConfig(
    responseMIMEType: "application/json",
    responseSchema: jsonSchema
  )
)

let prompt = "List a few popular cookie recipes."
let response = try await generativeModel.generateContent(prompt)
if let text = response.text {
  print(text)
}

Dart

final schema = Schema.array(
    description: 'List of recipes',
    items: Schema.object(properties: {
      'recipeName':
          Schema.string(description: 'Name of the recipe.', nullable: false)
    }, requiredProperties: [
      'recipeName'
    ]));

final model = GenerativeModel(
    model: 'gemini-1.5-pro',
    apiKey: apiKey,
    generationConfig: GenerationConfig(
        responseMimeType: 'application/json', responseSchema: schema));

final prompt = 'List a few popular cookie recipes.';
final response = await model.generateContent([Content.text(prompt)]);
print(response.text);

Java

Schema<List<String>> schema =
    new Schema(
        /* name */ "recipes",
        /* description */ "List of recipes",
        /* format */ null,
        /* nullable */ false,
        /* list */ null,
        /* properties */ null,
        /* required */ null,
        /* items */ new Schema(
            /* name */ "recipe",
            /* description */ "A recipe",
            /* format */ null,
            /* nullable */ false,
            /* list */ null,
            /* properties */ Map.of(
                "recipeName",
                new Schema(
                    /* name */ "recipeName",
                    /* description */ "Name of the recipe",
                    /* format */ null,
                    /* nullable */ false,
                    /* list */ null,
                    /* properties */ null,
                    /* required */ null,
                    /* items */ null,
                    /* type */ FunctionType.STRING)),
            /* required */ null,
            /* items */ null,
            /* type */ FunctionType.OBJECT),
        /* type */ FunctionType.ARRAY);

GenerationConfig.Builder configBuilder = new GenerationConfig.Builder();
configBuilder.responseMimeType = "application/json";
configBuilder.responseSchema = schema;

GenerationConfig generationConfig = configBuilder.build();

// Specify a Gemini model appropriate for your use case
GenerativeModel gm =
    new GenerativeModel(
        /* modelName */ "gemini-1.5-pro",
        // Access your API key as a Build Configuration variable (see "Set up your API key"
        // above)
        /* apiKey */ BuildConfig.apiKey,
        /* generationConfig */ generationConfig);
GenerativeModelFutures model = GenerativeModelFutures.from(gm);

Content content = new Content.Builder().addText("List a few popular cookie recipes.").build();

// For illustrative purposes only. You should use an executor that fits your needs.
Executor executor = Executors.newSingleThreadExecutor();

ListenableFuture<GenerateContentResponse> response = model.generateContent(content);
Futures.addCallback(
    response,
    new FutureCallback<GenerateContentResponse>() {
      @Override
      public void onSuccess(GenerateContentResponse result) {
        String resultText = result.getText();
        System.out.println(resultText);
      }

      @Override
      public void onFailure(Throwable t) {
        t.printStackTrace();
      }
    },
    executor);

Esecuzione del codice

Python

model = genai.GenerativeModel(model_name="gemini-1.5-flash", tools="code_execution")
response = model.generate_content(
    (
        "What is the sum of the first 50 prime numbers? "
        "Generate and run code for the calculation, and make sure you get all 50."
    )
)

# Each `part` either contains `text`, `executable_code` or an `execution_result`
for part in result.candidates[0].content.parts:
    print(part, "\n")

print("-" * 80)
# The `.text` accessor joins the parts into a markdown compatible text representation.
print("\n\n", response.text)

Kotlin


val model = GenerativeModel(
    // Specify a Gemini model appropriate for your use case
    modelName = "gemini-1.5-pro",
    // Access your API key as a Build Configuration variable (see "Set up your API key" above)
    apiKey = BuildConfig.apiKey,
    tools = listOf(Tool.CODE_EXECUTION)
)

val response = model.generateContent("What is the sum of the first 50 prime numbers?")

// Each `part` either contains `text`, `executable_code` or an `execution_result`
println(response.candidates[0].content.parts.joinToString("\n"))

// Alternatively, you can use the `text` accessor which joins the parts into a markdown compatible
// text representation
println(response.text)

Java

// Specify a Gemini model appropriate for your use case
GenerativeModel gm =
        new GenerativeModel(
                /* modelName */ "gemini-1.5-pro",
                // Access your API key as a Build Configuration variable (see "Set up your API key"
                // above)
                /* apiKey */ BuildConfig.apiKey,
                /* generationConfig */ null,
                /* safetySettings */ null,
                /* requestOptions */ new RequestOptions(),
                /* tools */ Collections.singletonList(Tool.CODE_EXECUTION));
GenerativeModelFutures model = GenerativeModelFutures.from(gm);

Content inputContent =
        new Content.Builder().addText("What is the sum of the first 50 prime numbers?").build();

// For illustrative purposes only. You should use an executor that fits your needs.
Executor executor = Executors.newSingleThreadExecutor();

ListenableFuture<GenerateContentResponse> response = model.generateContent(inputContent);
Futures.addCallback(
        response,
        new FutureCallback<GenerateContentResponse>() {
            @Override
            public void onSuccess(GenerateContentResponse result) {
                // Each `part` either contains `text`, `executable_code` or an
                // `execution_result`
                Candidate candidate = result.getCandidates().get(0);
                for (Part part : candidate.getContent().getParts()) {
                    System.out.println(part);
                }

                // Alternatively, you can use the `text` accessor which joins the parts into a
                // markdown compatible text representation
                String resultText = result.getText();
                System.out.println(resultText);
            }

            @Override
            public void onFailure(Throwable t) {
                t.printStackTrace();
            }
        },
        executor);

Chiamata di funzione

Python

def add(a: float, b: float):
    """returns a + b."""
    return a + b

def subtract(a: float, b: float):
    """returns a - b."""
    return a - b

def multiply(a: float, b: float):
    """returns a * b."""
    return a * b

def divide(a: float, b: float):
    """returns a / b."""
    return a / b

model = genai.GenerativeModel(
    model_name="gemini-1.5-flash", tools=[add, subtract, multiply, divide]
)
chat = model.start_chat(enable_automatic_function_calling=True)
response = chat.send_message(
    "I have 57 cats, each owns 44 mittens, how many mittens is that in total?"
)
print(response.text)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI } from "@google/generative-ai";
async function setLightValues(brightness, colorTemperature) {
  // This mock API returns the requested lighting values
  return {
    brightness,
    colorTemperature,
  };
}

const controlLightFunctionDeclaration = {
  name: "controlLight",
  parameters: {
    type: "OBJECT",
    description: "Set the brightness and color temperature of a room light.",
    properties: {
      brightness: {
        type: "NUMBER",
        description:
          "Light level from 0 to 100. Zero is off and 100 is full brightness.",
      },
      colorTemperature: {
        type: "STRING",
        description:
          "Color temperature of the light fixture which can be `daylight`, `cool` or `warm`.",
      },
    },
    required: ["brightness", "colorTemperature"],
  },
};

// Executable function code. Put it in a map keyed by the function name
// so that you can call it once you get the name string from the model.
const functions = {
  controlLight: ({ brightness, colorTemperature }) => {
    return setLightValues(brightness, colorTemperature);
  },
};

const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({
  model: "gemini-1.5-flash",
  tools: { functionDeclarations: [controlLightFunctionDeclaration] },
});
const chat = model.startChat();
const prompt = "Dim the lights so the room feels cozy and warm.";

// Send the message to the model.
const result = await chat.sendMessage(prompt);

// For simplicity, this uses the first function call found.
const call = result.response.functionCalls()[0];

if (call) {
  // Call the executable function named in the function call
  // with the arguments specified in the function call and
  // let it call the hypothetical API.
  const apiResponse = await functions[call.name](call.args);

  // Send the API response back to the model so it can generate
  // a text response that can be displayed to the user.
  const result2 = await chat.sendMessage([
    {
      functionResponse: {
        name: "controlLight",
        response: apiResponse,
      },
    },
  ]);

  // Log the text response.
  console.log(result2.response.text());
}

Kotlin

fun multiply(a: Double, b: Double) = a * b

val multiplyDefinition = defineFunction(
    name = "multiply",
    description = "returns the product of the provided numbers.",
    parameters = listOf(
    Schema.double("a", "First number"),
    Schema.double("b", "Second number")
    )
)

val usableFunctions = listOf(multiplyDefinition)

val generativeModel =
    GenerativeModel(
        // Specify a Gemini model appropriate for your use case
        modelName = "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key" above)
        apiKey = BuildConfig.apiKey,
        // List the functions definitions you want to make available to the model
        tools = listOf(Tool(usableFunctions))
    )

val chat = generativeModel.startChat()
val prompt = "I have 57 cats, each owns 44 mittens, how many mittens is that in total?"

// Send the message to the generative model
var response = chat.sendMessage(prompt)

// Check if the model responded with a function call
response.functionCalls.first { it.name == "multiply" }.apply {
    val a: String by args
    val b: String by args

    val result = JSONObject(mapOf("result" to multiply(a.toDouble(), b.toDouble())))
    response = chat.sendMessage(
        content(role = "function") {
            part(FunctionResponsePart("multiply", result))
        }
    )
}

// Whenever the model responds with text, show it in the UI
response.text?.let { modelResponse ->
    println(modelResponse)
}

Swift

// Calls a hypothetical API to control a light bulb and returns the values that were set.
func controlLight(brightness: Double, colorTemperature: String) -> JSONObject {
  return ["brightness": .number(brightness), "colorTemperature": .string(colorTemperature)]
}

let generativeModel =
  GenerativeModel(
    // Use a model that supports function calling, like a Gemini 1.5 model
    name: "gemini-1.5-flash",
    // Access your API key from your on-demand resource .plist file (see "Set up your API key"
    // above)
    apiKey: APIKey.default,
    tools: [Tool(functionDeclarations: [
      FunctionDeclaration(
        name: "controlLight",
        description: "Set the brightness and color temperature of a room light.",
        parameters: [
          "brightness": Schema(
            type: .number,
            format: "double",
            description: "Light level from 0 to 100. Zero is off and 100 is full brightness."
          ),
          "colorTemperature": Schema(
            type: .string,
            format: "enum",
            description: "Color temperature of the light fixture.",
            enumValues: ["daylight", "cool", "warm"]
          ),
        ],
        requiredParameters: ["brightness", "colorTemperature"]
      ),
    ])]
  )

let chat = generativeModel.startChat()

let prompt = "Dim the lights so the room feels cozy and warm."

// Send the message to the model.
let response1 = try await chat.sendMessage(prompt)

// Check if the model responded with a function call.
// For simplicity, this sample uses the first function call found.
guard let functionCall = response1.functionCalls.first else {
  fatalError("Model did not respond with a function call.")
}
// Print an error if the returned function was not declared
guard functionCall.name == "controlLight" else {
  fatalError("Unexpected function called: \(functionCall.name)")
}
// Verify that the names and types of the parameters match the declaration
guard case let .number(brightness) = functionCall.args["brightness"] else {
  fatalError("Missing argument: brightness")
}
guard case let .string(colorTemperature) = functionCall.args["colorTemperature"] else {
  fatalError("Missing argument: colorTemperature")
}

// Call the executable function named in the FunctionCall with the arguments specified in the
// FunctionCall and let it call the hypothetical API.
let apiResponse = controlLight(brightness: brightness, colorTemperature: colorTemperature)

// Send the API response back to the model so it can generate a text response that can be
// displayed to the user.
let response2 = try await chat.sendMessage([ModelContent(
  role: "function",
  parts: [.functionResponse(FunctionResponse(name: "controlLight", response: apiResponse))]
)])

if let text = response2.text {
  print(text)
}

Dart

Map<String, Object?> setLightValues(Map<String, Object?> args) {
  return args;
}

final controlLightFunction = FunctionDeclaration(
    'controlLight',
    'Set the brightness and color temperature of a room light.',
    Schema.object(properties: {
      'brightness': Schema.number(
          description:
              'Light level from 0 to 100. Zero is off and 100 is full brightness.',
          nullable: false),
      'colorTemperatur': Schema.string(
          description:
              'Color temperature of the light fixture which can be `daylight`, `cool`, or `warm`',
          nullable: false),
    }));

final functions = {controlLightFunction.name: setLightValues};
FunctionResponse dispatchFunctionCall(FunctionCall call) {
  final function = functions[call.name]!;
  final result = function(call.args);
  return FunctionResponse(call.name, result);
}

final model = GenerativeModel(
  model: 'gemini-1.5-pro',
  apiKey: apiKey,
  tools: [
    Tool(functionDeclarations: [controlLightFunction])
  ],
);

final prompt = 'Dim the lights so the room feels cozy and warm.';
final content = [Content.text(prompt)];
var response = await model.generateContent(content);

List<FunctionCall> functionCalls;
while ((functionCalls = response.functionCalls.toList()).isNotEmpty) {
  var responses = <FunctionResponse>[
    for (final functionCall in functionCalls)
      dispatchFunctionCall(functionCall)
  ];
  content
    ..add(response.candidates.first.content)
    ..add(Content.functionResponses(responses));
  response = await model.generateContent(content);
}
print('Response: ${response.text}');

Java

FunctionDeclaration multiplyDefinition =
    defineFunction(
        /* name  */ "multiply",
        /* description */ "returns a * b.",
        /* parameters */ Arrays.asList(
            Schema.numDouble("a", "First parameter"),
            Schema.numDouble("b", "Second parameter")),
        /* required */ Arrays.asList("a", "b"));

Tool tool = new Tool(Arrays.asList(multiplyDefinition), null);

// Specify a Gemini model appropriate for your use case
GenerativeModel gm =
    new GenerativeModel(
        /* modelName */ "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key"
        // above)
        /* apiKey */ BuildConfig.apiKey,
        /* generationConfig (optional) */ null,
        /* safetySettings (optional) */ null,
        /* requestOptions (optional) */ new RequestOptions(),
        /* functionDeclarations (optional) */ Arrays.asList(tool));
GenerativeModelFutures model = GenerativeModelFutures.from(gm);

// Create prompt
Content.Builder userContentBuilder = new Content.Builder();
userContentBuilder.setRole("user");
userContentBuilder.addText(
    "I have 57 cats, each owns 44 mittens, how many mittens is that in total?");
Content userMessage = userContentBuilder.build();

// For illustrative purposes only. You should use an executor that fits your needs.
Executor executor = Executors.newSingleThreadExecutor();

// Initialize the chat
ChatFutures chat = model.startChat();

// Send the message
ListenableFuture<GenerateContentResponse> response = chat.sendMessage(userMessage);

Futures.addCallback(
    response,
    new FutureCallback<GenerateContentResponse>() {
      @Override
      public void onSuccess(GenerateContentResponse result) {
        if (!result.getFunctionCalls().isEmpty()) {
          handleFunctionCall(result);
        }
        if (!result.getText().isEmpty()) {
          System.out.println(result.getText());
        }
      }

      @Override
      public void onFailure(Throwable t) {
        t.printStackTrace();
      }

      private void handleFunctionCall(GenerateContentResponse result) {
        FunctionCallPart multiplyFunctionCallPart =
            result.getFunctionCalls().stream()
                .filter(fun -> fun.getName().equals("multiply"))
                .findFirst()
                .get();
        double a = Double.parseDouble(multiplyFunctionCallPart.getArgs().get("a"));
        double b = Double.parseDouble(multiplyFunctionCallPart.getArgs().get("b"));

        try {
          // `multiply(a, b)` is a regular java function defined in another class
          FunctionResponsePart functionResponsePart =
              new FunctionResponsePart(
                  "multiply", new JSONObject().put("result", multiply(a, b)));

          // Create prompt
          Content.Builder functionCallResponse = new Content.Builder();
          userContentBuilder.setRole("user");
          userContentBuilder.addPart(functionResponsePart);
          Content userMessage = userContentBuilder.build();

          chat.sendMessage(userMessage);
        } catch (JSONException e) {
          throw new RuntimeException(e);
        }
      }
    },
    executor);

Configurazione di generazione

Python

model = genai.GenerativeModel("gemini-1.5-flash")
response = model.generate_content(
    "Tell me a story about a magic backpack.",
    generation_config=genai.types.GenerationConfig(
        # Only one candidate for now.
        candidate_count=1,
        stop_sequences=["x"],
        max_output_tokens=20,
        temperature=1.0,
    ),
)

print(response.text)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI } from "@google/generative-ai";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({
  model: "gemini-1.5-flash",
  generationConfig: {
    candidateCount: 1,
    stopSequences: ["x"],
    maxOutputTokens: 20,
    temperature: 1.0,
  },
});

const result = await model.generateContent(
  "Tell me a story about a magic backpack.",
);
console.log(result.response.text());

Conchiglia

curl https://generativelanguage.googleapis.com/v1beta/models/gemini-1.5-flash:generateContent?key=$GOOGLE_API_KEY \
    -H 'Content-Type: application/json' \
    -X POST \
    -d '{
        "contents": [{
            "parts":[
                {"text": "Write a story about a magic backpack."}
            ]
        }],
        "safetySettings": [
            {
                "category": "HARM_CATEGORY_DANGEROUS_CONTENT",
                "threshold": "BLOCK_ONLY_HIGH"
            }
        ],
        "generationConfig": {
            "stopSequences": [
                "Title"
            ],
            "temperature": 1.0,
            "maxOutputTokens": 800,
            "topP": 0.8,
            "topK": 10
        }
    }'  2> /dev/null | grep "text"

Kotlin

val config = generationConfig {
  temperature = 0.9f
  topK = 16
  topP = 0.1f
  maxOutputTokens = 200
  stopSequences = listOf("red")
}

val generativeModel =
    GenerativeModel(
        // Specify a Gemini model appropriate for your use case
        modelName = "gemini-1.5-flash",
        apiKey = BuildConfig.apiKey,
        generationConfig = config)

Swift

let config = GenerationConfig(
  temperature: 0.9,
  topP: 0.1,
  topK: 16,
  candidateCount: 1,
  maxOutputTokens: 200,
  stopSequences: ["red", "orange"]
)

let generativeModel =
  GenerativeModel(
    // Specify a Gemini model appropriate for your use case
    name: "gemini-1.5-flash",
    // Access your API key from your on-demand resource .plist file (see "Set up your API key"
    // above)
    apiKey: APIKey.default,
    generationConfig: config
  )

Dart

final model = GenerativeModel(
  model: 'gemini-1.5-flash',
  apiKey: apiKey,
);
final prompt = 'Tell me a story about a magic backpack.';

final response = await model.generateContent(
  [Content.text(prompt)],
  generationConfig: GenerationConfig(
    candidateCount: 1,
    stopSequences: ['x'],
    maxOutputTokens: 20,
    temperature: 1.0,
  ),
);
print(response.text);

Java

GenerationConfig.Builder configBuilder = new GenerationConfig.Builder();
configBuilder.temperature = 0.9f;
configBuilder.topK = 16;
configBuilder.topP = 0.1f;
configBuilder.maxOutputTokens = 200;
configBuilder.stopSequences = Arrays.asList("red");

GenerationConfig generationConfig = configBuilder.build();

// Specify a Gemini model appropriate for your use case
GenerativeModel gm =
    new GenerativeModel("gemini-1.5-flash", BuildConfig.apiKey, generationConfig);

GenerativeModelFutures model = GenerativeModelFutures.from(gm);

Impostazioni di sicurezza

Python

model = genai.GenerativeModel("gemini-1.5-flash")
unsafe_prompt = "I support Martians Soccer Club and I think Jupiterians Football Club sucks! Write a ironic phrase about them."
response = model.generate_content(
    unsafe_prompt,
    safety_settings={
        "HATE": "MEDIUM",
        "HARASSMENT": "BLOCK_ONLY_HIGH",
    },
)
# If you want to set all the safety_settings to the same value you can just pass that value:
response = model.generate_content(unsafe_prompt, safety_settings="MEDIUM")
try:
    print(response.text)
except:
    print("No information generated by the model.")

print(response.candidates[0].safety_ratings)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI, HarmCategory, HarmBlockThreshold } from "@google/generative-ai";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({
  model: "gemini-1.5-flash",
  safetySettings: [
    {
      category: HarmCategory.HARM_CATEGORY_HARASSMENT,
      threshold: HarmBlockThreshold.BLOCK_MEDIUM_AND_ABOVE,
    },
    {
      category: HarmCategory.HARM_CATEGORY_HATE_SPEECH,
      threshold: HarmBlockThreshold.BLOCK_LOW_AND_ABOVE,
    },
  ],
});

const unsafePrompt =
  "I support Martians Soccer Club and I think " +
  "Jupiterians Football Club sucks! Write an ironic phrase telling " +
  "them how I feel about them.";

const result = await model.generateContent(unsafePrompt);

try {
  result.response.text();
} catch (e) {
  console.error(e);
  console.log(result.response.candidates[0].safetyRatings);
}

Conchiglia

echo '{
    "safetySettings": [
        {'category': HARM_CATEGORY_HARASSMENT, 'threshold': BLOCK_ONLY_HIGH},
        {'category': HARM_CATEGORY_HATE_SPEECH, 'threshold': BLOCK_MEDIUM_AND_ABOVE}
    ],
    "contents": [{
        "parts":[{
            "text": "'I support Martians Soccer Club and I think Jupiterians Football Club sucks! Write a ironic phrase about them.'"}]}]}' > request.json

    curl "https://generativelanguage.googleapis.com/v1beta/models/gemini-pro:generateContent?key=$GOOGLE_API_KEY" \
        -H 'Content-Type: application/json' \
        -X POST \
        -d @request.json  2> /dev/null > response.json

    jq .promptFeedback > response.json

Kotlin

val harassmentSafety = SafetySetting(HarmCategory.HARASSMENT, BlockThreshold.ONLY_HIGH)

val hateSpeechSafety = SafetySetting(HarmCategory.HATE_SPEECH, BlockThreshold.MEDIUM_AND_ABOVE)

val generativeModel =
    GenerativeModel(
        // The Gemini 1.5 models are versatile and work with most use cases
        modelName = "gemini-1.5-flash",
        apiKey = BuildConfig.apiKey,
        safetySettings = listOf(harassmentSafety, hateSpeechSafety))

Swift

let safetySettings = [
  SafetySetting(harmCategory: .dangerousContent, threshold: .blockLowAndAbove),
  SafetySetting(harmCategory: .harassment, threshold: .blockMediumAndAbove),
  SafetySetting(harmCategory: .hateSpeech, threshold: .blockOnlyHigh),
]

let generativeModel =
  GenerativeModel(
    // Specify a Gemini model appropriate for your use case
    name: "gemini-1.5-flash",
    // Access your API key from your on-demand resource .plist file (see "Set up your API key"
    // above)
    apiKey: APIKey.default,
    safetySettings: safetySettings
  )

Dart

final model = GenerativeModel(
  model: 'gemini-1.5-flash',
  apiKey: apiKey,
);
final prompt = 'I support Martians Soccer Club and I think '
    'Jupiterians Football Club sucks! Write an ironic phrase telling '
    'them how I feel about them.';

final response = await model.generateContent(
  [Content.text(prompt)],
  safetySettings: [
    SafetySetting(HarmCategory.harassment, HarmBlockThreshold.medium),
    SafetySetting(HarmCategory.hateSpeech, HarmBlockThreshold.low),
  ],
);
try {
  print(response.text);
} catch (e) {
  print(e);
  for (final SafetyRating(:category, :probability)
      in response.candidates.first.safetyRatings!) {
    print('Safety Rating: $category - $probability');
  }
}

Java

SafetySetting harassmentSafety =
    new SafetySetting(HarmCategory.HARASSMENT, BlockThreshold.ONLY_HIGH);

SafetySetting hateSpeechSafety =
    new SafetySetting(HarmCategory.HATE_SPEECH, BlockThreshold.MEDIUM_AND_ABOVE);

// Specify a Gemini model appropriate for your use case
GenerativeModel gm =
    new GenerativeModel(
        "gemini-1.5-flash",
        BuildConfig.apiKey,
        null, // generation config is optional
        Arrays.asList(harassmentSafety, hateSpeechSafety));

GenerativeModelFutures model = GenerativeModelFutures.from(gm);

Istruzione di sistema

Python

model = genai.GenerativeModel(
    "models/gemini-1.5-flash",
    system_instruction="You are a cat. Your name is Neko.",
)
response = model.generate_content("Good morning! How are you?")
print(response.text)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI } from "@google/generative-ai";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({
  model: "gemini-1.5-flash",
  systemInstruction: "You are a cat. Your name is Neko.",
});

const prompt = "Good morning! How are you?";

const result = await model.generateContent(prompt);
const response = result.response;
const text = response.text();
console.log(text);

Kotlin

val generativeModel =
    GenerativeModel(
        // Specify a Gemini model appropriate for your use case
        modelName = "gemini-1.5-flash",
        apiKey = BuildConfig.apiKey,
        systemInstruction = content { text("You are a cat. Your name is Neko.") },
    )

Swift

let generativeModel =
  GenerativeModel(
    // Specify a model that supports system instructions, like a Gemini 1.5 model
    name: "gemini-1.5-flash",
    // Access your API key from your on-demand resource .plist file (see "Set up your API key"
    // above)
    apiKey: APIKey.default,
    systemInstruction: ModelContent(role: "system", parts: "You are a cat. Your name is Neko.")
  )

Dart

final model = GenerativeModel(
  model: 'gemini-1.5-flash',
  apiKey: apiKey,
  systemInstruction: Content.system('You are a cat. Your name is Neko.'),
);
final prompt = 'Good morning! How are you?';

final response = await model.generateContent([Content.text(prompt)]);
print(response.text);

Java

GenerativeModel model =
    new GenerativeModel(
        // Specify a Gemini model appropriate for your use case
        /* modelName */ "gemini-1.5-flash",
        /* apiKey */ BuildConfig.apiKey,
        /* generationConfig (optional) */ null,
        /* safetySettings (optional) */ null,
        /* requestOptions (optional) */ new RequestOptions(),
        /* tools (optional) */ null,
        /* toolsConfig (optional) */ null,
        /* systemInstruction (optional) */ new Content.Builder()
            .addText("You are a cat. Your name is Neko.")
            .build());

Corpo della risposta

In caso di esito positivo, il corpo della risposta contiene un'istanza di GenerateContentResponse.

Metodo: models.streamGenerateContent

Endpoint
Parametri percorso
Corpo della richiesta
- Rappresentazione JSON
Corpo della risposta
Ambiti di autorizzazione
Richiesta di esempio
- Testo
- Immagine
- Video
- Chat

Genera una risposta in modalità flusso dal modello dato un input GenerateContentRequest.

Endpoint

pubblica


                  https://generativelanguage.googleapis.com/v1beta/{model=models/*}:streamGenerateContent

Parametri del percorso

model string

Obbligatorio. Il nome dell'evento Model da utilizzare per generare il completamento.

Formato: name=models/{model}. Il formato è models/{model}.

Corpo della richiesta

Il corpo della richiesta contiene dati con la seguente struttura:

Campi

contents[] object (Content)

Obbligatorio. I contenuti della conversazione corrente con il modello.

Per le query a turno singolo, si tratta di una singola istanza. Per le query in più passaggi, si tratta di un campo ripetuto contenente la cronologia delle conversazioni e l'ultima richiesta.

tools[] object (Tool)

(Facoltativo) Un elenco di Tools che il modello potrebbe utilizzare per generare la risposta successiva.

toolConfig object (ToolConfig)

(Facoltativo) Configurazione dello strumento per qualsiasi Tool specificato nella richiesta.

safetySettings[] object (SafetySetting)

(Facoltativo) Un elenco di istanze SafetySetting univoche per il blocco di contenuti non sicuri.

systemInstruction object (Content)

(Facoltativo) Istruzione di sistema impostata dallo sviluppatore. Al momento, solo testo.

generationConfig object (GenerationConfig)

(Facoltativo) Opzioni di configurazione per la generazione e gli output del modello.

cachedContent string

Esempio di richiesta

Testo

Python

model = genai.GenerativeModel("gemini-1.5-flash")
response = model.generate_content("Write a story about a magic backpack.", stream=True)
for chunk in response:
    print(chunk.text)
    print("_" * 80)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI } from "@google/generative-ai";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({ model: "gemini-1.5-flash" });

const prompt = "Write a story about a magic backpack.";

const result = await model.generateContentStream(prompt);

// Print text as it comes in.
for await (const chunk of result.stream) {
  const chunkText = chunk.text();
  process.stdout.write(chunkText);
}

Kotlin

val generativeModel =
    GenerativeModel(
        // Specify a Gemini model appropriate for your use case
        modelName = "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key" above)
        apiKey = BuildConfig.apiKey)

val prompt = "Write a story about a magic backpack."
// Use streaming with text-only input
generativeModel.generateContentStream(prompt).collect { chunk -> print(chunk.text) }

Swift

let generativeModel =
  GenerativeModel(
    // Specify a Gemini model appropriate for your use case
    name: "gemini-1.5-flash",
    // Access your API key from your on-demand resource .plist file (see "Set up your API key"
    // above)
    apiKey: APIKey.default
  )

let prompt = "Write a story about a magic backpack."
// Use streaming with text-only input
for try await response in generativeModel.generateContentStream(prompt) {
  if let text = response.text {
    print(text)
  }
}

Dart

final model = GenerativeModel(
  model: 'gemini-1.5-flash',
  apiKey: apiKey,
);
final prompt = 'Write a story about a magic backpack.';

final responses = model.generateContentStream([Content.text(prompt)]);
await for (final response in responses) {
  print(response.text);
}

Java

// Specify a Gemini model appropriate for your use case
GenerativeModel gm =
    new GenerativeModel(
        /* modelName */ "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key"
        // above)
        /* apiKey */ BuildConfig.apiKey);
GenerativeModelFutures model = GenerativeModelFutures.from(gm);

Content content =
    new Content.Builder().addText("Write a story about a magic backpack.").build();

Publisher<GenerateContentResponse> streamingResponse = model.generateContentStream(content);

StringBuilder outputContent = new StringBuilder();

streamingResponse.subscribe(
    new Subscriber<GenerateContentResponse>() {
      @Override
      public void onNext(GenerateContentResponse generateContentResponse) {
        String chunk = generateContentResponse.getText();
        outputContent.append(chunk);
      }

      @Override
      public void onComplete() {
        System.out.println(outputContent);
      }

      @Override
      public void onError(Throwable t) {
        t.printStackTrace();
      }

      @Override
      public void onSubscribe(Subscription s) {
        s.request(Long.MAX_VALUE);
      }
    });

Immagine

Python

import PIL.Image

model = genai.GenerativeModel("gemini-1.5-flash")
organ = PIL.Image.open(media / "organ.jpg")
response = model.generate_content(["Tell me about this instrument", organ], stream=True)
for chunk in response:
    print(chunk.text)
    print("_" * 80)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI } from "@google/generative-ai";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({ model: "gemini-1.5-flash" });

function fileToGenerativePart(path, mimeType) {
  return {
    inlineData: {
      data: Buffer.from(fs.readFileSync(path)).toString("base64"),
      mimeType,
    },
  };
}

const prompt = "Describe how this product might be manufactured.";
// Note: The only accepted mime types are some image types, image/*.
const imagePart = fileToGenerativePart(
  `${mediaPath}/jetpack.jpg`,
  "image/jpeg",
);

const result = await model.generateContentStream([prompt, imagePart]);

// Print text as it comes in.
for await (const chunk of result.stream) {
  const chunkText = chunk.text();
  process.stdout.write(chunkText);
}

Kotlin

val generativeModel =
    GenerativeModel(
        // Specify a Gemini model appropriate for your use case
        modelName = "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key" above)
        apiKey = BuildConfig.apiKey)

val image: Bitmap = BitmapFactory.decodeResource(context.resources, R.drawable.image)
val inputContent = content {
  image(image)
  text("What's in this picture?")
}

generativeModel.generateContentStream(inputContent).collect { chunk -> print(chunk.text) }

Swift

let generativeModel =
  GenerativeModel(
    // Specify a Gemini model appropriate for your use case
    name: "gemini-1.5-flash",
    // Access your API key from your on-demand resource .plist file (see "Set up your API key"
    // above)
    apiKey: APIKey.default
  )

guard let image = UIImage(systemName: "cloud.sun") else { fatalError() }

let prompt = "What's in this picture?"

for try await response in generativeModel.generateContentStream(image, prompt) {
  if let text = response.text {
    print(text)
  }
}

Dart

final model = GenerativeModel(
  model: 'gemini-1.5-flash',
  apiKey: apiKey,
);

Future<DataPart> fileToPart(String mimeType, String path) async {
  return DataPart(mimeType, await File(path).readAsBytes());
}

final prompt = 'Describe how this product might be manufactured.';
final image = await fileToPart('image/jpeg', 'resources/jetpack.jpg');

final responses = model.generateContentStream([
  Content.multi([TextPart(prompt), image])
]);
await for (final response in responses) {
  print(response.text);
}

Java

// Specify a Gemini model appropriate for your use case
GenerativeModel gm =
    new GenerativeModel(
        /* modelName */ "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key"
        // above)
        /* apiKey */ BuildConfig.apiKey);
GenerativeModelFutures model = GenerativeModelFutures.from(gm);

Bitmap image1 = BitmapFactory.decodeResource(context.getResources(), R.drawable.image1);
Bitmap image2 = BitmapFactory.decodeResource(context.getResources(), R.drawable.image2);

Content content =
    new Content.Builder()
        .addText("What's different between these pictures?")
        .addImage(image1)
        .addImage(image2)
        .build();

// For illustrative purposes only. You should use an executor that fits your needs.
Executor executor = Executors.newSingleThreadExecutor();

Publisher<GenerateContentResponse> streamingResponse = model.generateContentStream(content);

StringBuilder outputContent = new StringBuilder();

streamingResponse.subscribe(
    new Subscriber<GenerateContentResponse>() {
      @Override
      public void onNext(GenerateContentResponse generateContentResponse) {
        String chunk = generateContentResponse.getText();
        outputContent.append(chunk);
      }

      @Override
      public void onComplete() {
        System.out.println(outputContent);
      }

      @Override
      public void onError(Throwable t) {
        t.printStackTrace();
      }

      @Override
      public void onSubscribe(Subscription s) {
        s.request(Long.MAX_VALUE);
      }
    });

Video

Python

model = genai.GenerativeModel("gemini-1.5-flash")
video = genai.upload_file(media / "Big_Buck_Bunny.mp4")
response = model.generate_content(["Describe this video clip.", video], stream=True)
for chunk in response:
    print(chunk.text)
    print("_" * 80)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI } from "@google/generative-ai";
// import { GoogleAIFileManager, FileState } from "@google/generative-ai/server";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({ model: "gemini-1.5-flash" });

const fileManager = new GoogleAIFileManager(process.env.API_KEY);

const uploadResult = await fileManager.uploadFile(
  `${mediaPath}/Big_Buck_Bunny.mp4`,
  { mimeType: "video/mp4" },
);

let file = await fileManager.getFile(uploadResult.file.name);
while (file.state === FileState.PROCESSING) {
  process.stdout.write(".");
  // Sleep for 10 seconds
  await new Promise((resolve) => setTimeout(resolve, 10_000));
  // Fetch the file from the API again
  file = await fileManager.getFile(uploadResult.file.name);
}

if (file.state === FileState.FAILED) {
  throw new Error("Video processing failed.");
}

const prompt = "Describe this video clip";
const videoPart = {
  fileData: {
    fileUri: uploadResult.file.uri,
    mimeType: uploadResult.file.mimeType,
  },
};

const result = await model.generateContentStream([prompt, videoPart]);
// Print text as it comes in.
for await (const chunk of result.stream) {
  const chunkText = chunk.text();
  process.stdout.write(chunkText);
}

Kotlin

// TODO

Java

// TODO

Chat

Python

model = genai.GenerativeModel("gemini-1.5-flash")
chat = model.start_chat(
    history=[
        {"role": "user", "parts": "Hello"},
        {"role": "model", "parts": "Great to meet you. What would you like to know?"},
    ]
)
response = chat.send_message("I have 2 dogs in my house.", stream=True)
for chunk in response:
    print(chunk.text)
    print("_" * 80)
response = chat.send_message("How many paws are in my house?", stream=True)
for chunk in response:
    print(chunk.text)
    print("_" * 80)

print(chat.history)

Node.js

// Make sure to include these imports:
// import { GoogleGenerativeAI } from "@google/generative-ai";
const genAI = new GoogleGenerativeAI(process.env.API_KEY);
const model = genAI.getGenerativeModel({ model: "gemini-1.5-flash" });
const chat = model.startChat({
  history: [
    {
      role: "user",
      parts: [{ text: "Hello" }],
    },
    {
      role: "model",
      parts: [{ text: "Great to meet you. What would you like to know?" }],
    },
  ],
});
let result = await chat.sendMessageStream("I have 2 dogs in my house.");
for await (const chunk of result.stream) {
  const chunkText = chunk.text();
  process.stdout.write(chunkText);
}
result = await chat.sendMessageStream("How many paws are in my house?");
for await (const chunk of result.stream) {
  const chunkText = chunk.text();
  process.stdout.write(chunkText);
}

Conchiglia

curl https://generativelanguage.googleapis.com/v1beta/models/gemini-1.5-flash:streamGenerateContent?key=$GOOGLE_API_KEY \
    -H 'Content-Type: application/json' \
    -X POST \
    -d '{
      "contents": [
        {"role":"user",
         "parts":[{
           "text": "Hello"}]},
        {"role": "model",
         "parts":[{
           "text": "Great to meet you. What would you like to know?"}]},
        {"role":"user",
         "parts":[{
           "text": "I have two dogs in my house. How many paws are in my house?"}]},
      ]
    }' 2> /dev/null | grep "text"

Kotlin

// Use streaming with multi-turn conversations (like chat)
val generativeModel =
    GenerativeModel(
        // Specify a Gemini model appropriate for your use case
        modelName = "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key" above)
        apiKey = BuildConfig.apiKey)

val chat =
    generativeModel.startChat(
        history =
            listOf(
                content(role = "user") { text("Hello, I have 2 dogs in my house.") },
                content(role = "model") {
                  text("Great to meet you. What would you like to know?")
                }))

chat.sendMessageStream("How many paws are in my house?").collect { chunk -> print(chunk.text) }

Swift

let generativeModel =
  GenerativeModel(
    // Specify a Gemini model appropriate for your use case
    name: "gemini-1.5-flash",
    // Access your API key from your on-demand resource .plist file (see "Set up your API key"
    // above)
    apiKey: APIKey.default
  )

// Optionally specify existing chat history
let history = [
  ModelContent(role: "user", parts: "Hello, I have 2 dogs in my house."),
  ModelContent(role: "model", parts: "Great to meet you. What would you like to know?"),
]

// Initialize the chat with optional chat history
let chat = generativeModel.startChat(history: history)

// To stream generated text output, call sendMessageStream and pass in the message
let contentStream = chat.sendMessageStream("How many paws are in my house?")
for try await chunk in contentStream {
  if let text = chunk.text {
    print(text)
  }
}

Dart

final model = GenerativeModel(
  model: 'gemini-1.5-flash',
  apiKey: apiKey,
);
final chat = model.startChat(history: [
  Content.text('hello'),
  Content.model([TextPart('Great to meet you. What would you like to know?')])
]);
var responses =
    chat.sendMessageStream(Content.text('I have 2 dogs in my house.'));
await for (final response in responses) {
  print(response.text);
  print('_' * 80);
}
responses =
    chat.sendMessageStream(Content.text('How many paws are in my house?'));
await for (final response in responses) {
  print(response.text);
  print('_' * 80);
}

Java

// Specify a Gemini model appropriate for your use case
GenerativeModel gm =
    new GenerativeModel(
        /* modelName */ "gemini-1.5-flash",
        // Access your API key as a Build Configuration variable (see "Set up your API key"
        // above)
        /* apiKey */ BuildConfig.apiKey);
GenerativeModelFutures model = GenerativeModelFutures.from(gm);

// (optional) Create previous chat history for context
Content.Builder userContentBuilder = new Content.Builder();
userContentBuilder.setRole("user");
userContentBuilder.addText("Hello, I have 2 dogs in my house.");
Content userContent = userContentBuilder.build();

Content.Builder modelContentBuilder = new Content.Builder();
modelContentBuilder.setRole("model");
modelContentBuilder.addText("Great to meet you. What would you like to know?");
Content modelContent = userContentBuilder.build();

List<Content> history = Arrays.asList(userContent, modelContent);

// Initialize the chat
ChatFutures chat = model.startChat(history);

// Create a new user message
Content.Builder userMessageBuilder = new Content.Builder();
userMessageBuilder.setRole("user");
userMessageBuilder.addText("How many paws are in my house?");
Content userMessage = userMessageBuilder.build();

// Use streaming with text-only input
Publisher<GenerateContentResponse> streamingResponse = model.generateContentStream(userMessage);

StringBuilder outputContent = new StringBuilder();

streamingResponse.subscribe(
    new Subscriber<GenerateContentResponse>() {
      @Override
      public void onNext(GenerateContentResponse generateContentResponse) {
        String chunk = generateContentResponse.getText();
        outputContent.append(chunk);
      }

      @Override
      public void onComplete() {
        System.out.println(outputContent);
      }

      @Override
      public void onSubscribe(Subscription s) {
        s.request(Long.MAX_VALUE);
      }

      @Override
      public void onError(Throwable t) {}

    });

Corpo della risposta

In caso di esito positivo, il corpo della risposta contiene un flusso di istanze GenerateContentResponse.

Risposta del modello che supporta più candidati.

Nota sulle classificazioni della sicurezza e sul filtro dei contenuti. Sono riportate sia per la richiesta in GenerateContentResponse.prompt_feedback che per ogni candidato in finishReason e in safetyRatings. Il contratto relativo all'API è il seguente: - vengono restituiti tutti i candidati richiesti o nessun candidato - nessun candidato viene restituito solo se si è verificato un problema con la richiesta (vedi promptFeedback). I feedback relativi a ogni candidato vengono segnalati in data finishReason e safetyRatings.

Rappresentazione JSON
{ "candidates": [ { object (`Candidate`) } ], "promptFeedback": { object (`PromptFeedback`) }, "usageMetadata": { object (`UsageMetadata`) } }

Campi

candidates[] object (Candidate)

Risposte dei candidati del modello.

promptFeedback object (PromptFeedback)

Restituisce il feedback del prompt relativo ai filtri per i contenuti.

usageMetadata object (UsageMetadata)

Solo output. Metadati sulla riga delle richieste di generazione l'utilizzo dei token.

PromptFeedback

Un insieme di metadati dei feedback specificati dal prompt in GenerateContentRequest.content.

Rappresentazione JSON
{ "blockReason": enum (`BlockReason`), "safetyRatings": [ { object (`SafetyRating`) } ] }

Campi

blockReason enum (BlockReason)

(Facoltativo) Se impostato, la richiesta è stata bloccata e non vengono restituiti candidati. Riformula il prompt.

safetyRatings[] object (SafetyRating)

Classificazioni per la sicurezza del prompt. Esiste al massimo una classificazione per categoria.

BlockReason

Specifica il motivo per cui la richiesta è stata bloccata.

Enum
`BLOCK_REASON_UNSPECIFIED`	Valore predefinito. Questo valore non è utilizzato.
`SAFETY`	Il prompt è stato bloccato per motivi di sicurezza. Puoi controllare `safetyRatings` per capire da quale categoria di sicurezza è stato bloccato.
`OTHER`	Il prompt è stato bloccato per motivi sconosciuti.

UsageMetadata

Metadati sull'utilizzo dei token della richiesta di generazione.

Rappresentazione JSON
{ "promptTokenCount": integer, "cachedContentTokenCount": integer, "candidatesTokenCount": integer, "totalTokenCount": integer }

Campi

promptTokenCount integer

Numero di token nel prompt. Quando è impostata l'impostazione cacheContent, si tratta comunque delle dimensioni effettive totali del prompt. Ad esempio questo include il numero di token nei contenuti memorizzati nella cache.

cachedContentTokenCount integer

Numero di token nella parte della richiesta memorizzata nella cache, ad esempio nei contenuti memorizzati nella cache.

candidatesTokenCount integer

Numero totale di token tra i candidati generati.

totalTokenCount integer

Conteggio totale dei token per la richiesta di generazione (prompt + candidati).

Candidato

Rappresentazione JSON
FinishReason
GroundingAttribution
- Rappresentazione JSON
AttributionSourceId
- Rappresentazione JSON
GroundingPassageId
- Rappresentazione JSON
SemanticRetrieverChunk
- Rappresentazione JSON

Un candidato per la risposta generato dal modello.

Rappresentazione JSON

Rappresentazione JSON
{ "content": { object (`Content`) }, "finishReason": enum (`FinishReason`), "safetyRatings": [ { object (`SafetyRating`) } ], "citationMetadata": { object (`CitationMetadata`) }, "tokenCount": integer, "groundingAttributions": [ { object (`GroundingAttribution`) } ], "index": integer }

{
  "content": {
    object (Content)
  },
  "finishReason": enum (FinishReason),
  "safetyRatings": [
    {
      object (SafetyRating)
    }
  ],
  "citationMetadata": {
    object (CitationMetadata)
  },
  "tokenCount": integer,
  "groundingAttributions": [
    {
      object (GroundingAttribution)
    }
  ],
  "index": integer
}

Campi

content object (Content)

Solo output. Contenuti generati restituiti dal modello.

finishReason enum (FinishReason)

(Facoltativo) Solo output. Il motivo per cui il modello ha smesso di generare token.

Se vuoto, il modello non ha smesso di generare i token.

safetyRatings[] object (SafetyRating)

Elenco di classificazioni per la sicurezza di un candidato a una risposta.

Esiste al massimo una classificazione per categoria.

citationMetadata object (CitationMetadata)

Solo output. Informazioni di citazione per il candidato generato dal modello.

Questo campo può essere compilato con informazioni sulle citazioni per qualsiasi testo incluso in content. Questi sono passaggi che vengono "recitati" dal materiale protetto da copyright nei dati di addestramento degli LLM di base.

tokenCount integer

Solo output. Conteggio dei token per questo candidato.

groundingAttributions[] object (GroundingAttribution)

Solo output. Informazioni sull'attribuzione per le fonti che hanno contribuito a una risposta con fondatezza.

Questo campo viene compilato per le chiamate GenerateAnswer.

index integer

Solo output. Indice del candidato nell'elenco dei candidati.

FinishReason

Definisce il motivo per cui il modello ha smesso di generare token.

Enum
`FINISH_REASON_UNSPECIFIED`	Valore predefinito. Questo valore non è utilizzato.
`STOP`	Punto di interruzione naturale del modello o sequenza di interruzione fornita.
`MAX_TOKENS`	È stato raggiunto il numero massimo di token specificato nella richiesta.
`SAFETY`	I contenuti dei candidati sono stati segnalati per motivi di sicurezza.
`RECITATION`	I contenuti dei candidati sono stati segnalati per motivi di recitazione.
`LANGUAGE`	I contenuti dei candidati sono stati segnalati per l'utilizzo di una lingua non supportata.
`OTHER`	Motivo sconosciuto.

GroundingAttribution

Attribuzione di una fonte che ha contribuito a una risposta.

Rappresentazione JSON
{ "sourceId": { object (`AttributionSourceId`) }, "content": { object (`Content`) } }

Campi

sourceId object (AttributionSourceId)

Solo output. Identificatore della sorgente che contribuisce a questa attribuzione.

content object (Content)

Basandosi sui contenuti di origine che compongono questa attribuzione.

AttributionSourceId

Identificatore della sorgente che contribuisce a questa attribuzione.

Rappresentazione JSON

Rappresentazione JSON
{ // Union field `source` can be only one of the following: "groundingPassage": { object (`GroundingPassageId`) }, "semanticRetrieverChunk": { object (`SemanticRetrieverChunk`) } // End of list of possible types for union field `source`. }

{

  // Union field source can be only one of the following:
  "groundingPassage": {
    object (GroundingPassageId)
  },
  "semanticRetrieverChunk": {
    object (SemanticRetrieverChunk)
  }
  // End of list of possible types for union field source.
}

Campi

Campo unione source.

source può essere solo uno dei seguenti:

groundingPassage object (GroundingPassageId)

Identificatore per un passaggio in linea.

semanticRetrieverChunk object (SemanticRetrieverChunk)

Identificatore per un Chunk recuperato tramite Semantic Retriever.

GroundingPassageId

Identificatore per una parte all'interno di un GroundingPassage.

Rappresentazione JSON
{ "passageId": string, "partIndex": integer }

Campi

passageId string

Solo output. ID del passaggio corrispondente al valore GroundingPassage.id di GenerateAnswerRequest.

partIndex integer

Solo output. Indice della parte all'interno del GroundingPassage.content di GenerateAnswerRequest.

SemanticRetrieverChunk

Identificatore di Chunk recuperato tramite il Semantic Retriever specificato in GenerateAnswerRequest utilizzando SemanticRetrieverConfig.

Rappresentazione JSON
{ "source": string, "chunk": string }

Campi

source string

Solo output. Nome dell'origine corrispondente a SemanticRetrieverConfig.source della richiesta. Esempio: corpora/123 o corpora/123/documents/abc

chunk string

Solo output. Nome dell'evento Chunk contenente il testo attribuito. Esempio: corpora/123/documents/abc/chunks/xyz

CitationMetadata

Rappresentazione JSON
CitationSource
- Rappresentazione JSON

Una raccolta di attribuzioni della fonte per un contenuto.

Rappresentazione JSON
{ "citationSources": [ { object (`CitationSource`) } ] }

Campi

citationSources[] object (CitationSource)

Citazioni di fonti per una risposta specifica.

CitationSource

Una citazione a una fonte per una parte di una risposta specifica.

Rappresentazione JSON
{ "startIndex": integer, "endIndex": integer, "uri": string, "license": string }

Campi

startIndex integer

(Facoltativo) Inizio del segmento della risposta attribuito a questa sorgente.

L'indice indica l'inizio del segmento, misurato in byte.

endIndex integer

(Facoltativo) Fine del segmento attribuito (escluso).

uri string

(Facoltativo) URI attribuito come origine per una parte del testo.

license string

(Facoltativo) Licenza per il progetto GitHub attribuito come origine del segmento.

Le informazioni sulla licenza sono obbligatorie per le citazioni di codici.

GenerationConfig

Rappresentazione JSON

Opzioni di configurazione per la generazione e gli output del modello. Non tutti i parametri possono essere configurabili per ogni modello.

Rappresentazione JSON

Rappresentazione JSON
{ "stopSequences": [ string ], "responseMimeType": string, "responseSchema": { object (`Schema`) }, "candidateCount": integer, "maxOutputTokens": integer, "temperature": number, "topP": number, "topK": integer }

{
  "stopSequences": [
    string
  ],
  "responseMimeType": string,
  "responseSchema": {
    object (Schema)
  },
  "candidateCount": integer,
  "maxOutputTokens": integer,
  "temperature": number,
  "topP": number,
  "topK": integer
}

Campi

stopSequences[] string

(Facoltativo) L'insieme di sequenze di caratteri (fino a 5) che interromperà la generazione dell'output. Se specificato, l'API si arresterà alla prima apparizione di una sequenza di interruzioni. La sequenza di interruzione non sarà inclusa nella risposta.

responseMimeType string

(Facoltativo) Tipo MIME della risposta di output del testo candidato generato. Tipo MIME supportato: text/plain: output di testo (predefinito). application/json: risposta JSON nei candidati.

responseSchema object (Schema)

(Facoltativo) Schema della risposta di output del testo candidato generato quando il tipo MIME della risposta può avere uno schema. Lo schema può essere oggetti, primitive o array ed è un sottoinsieme dello schema OpenAPI.

Se impostato, è necessario impostare anche un valore responseMimeType compatibile. Tipi MIME compatibili: application/json: schema per la risposta JSON.

candidateCount integer

(Facoltativo) Numero di risposte generate da restituire.

Al momento, questo valore può essere impostato solo su 1. Se non viene configurato, il valore predefinito è 1.

maxOutputTokens integer

(Facoltativo) Il numero massimo di token da includere in un candidato.

Nota: il valore predefinito varia a seconda del modello; controlla l'attributo Model.output_token_limit di Model restituito dalla funzione getModel.

temperature number

(Facoltativo) Controlla la casualità dell'output.

Nota: il valore predefinito varia a seconda del modello; controlla l'attributo Model.temperature di Model restituito dalla funzione getModel.

I valori possono essere compresi tra [0,0, 2,0].

topP number

(Facoltativo) La probabilità cumulativa massima dei token da considerare durante il campionamento.

Il modello utilizza il campionamento Top-K e del nucleo combinato.

I token vengono ordinati in base alle probabilità assegnate in modo che vengano presi in considerazione solo i token più probabili. Il campionamento top-k limita direttamente il numero massimo di token da considerare, mentre il campionamento Nucleo limita il numero di token in base alla probabilità cumulativa.

Nota: il valore predefinito varia a seconda del modello; controlla l'attributo Model.top_p di Model restituito dalla funzione getModel.

topK integer

(Facoltativo) Il numero massimo di token da considerare durante il campionamento.

I modelli utilizzano il campionamento del nucleo o il campionamento Top-k e del nucleo combinato. Il campionamento Top-k prende in considerazione l'insieme di topK token più probabili. I modelli in esecuzione con il campionamento del nucleo non consentono l'impostazione di topK.

Nota: il valore predefinito varia a seconda del modello; controlla l'attributo Model.top_k di Model restituito dalla funzione getModel. Il campo topK vuoto in Model indica che il modello non applica il campionamento top-k e non consente di impostare topK sulle richieste.

HarmCategory

La categoria di una classificazione.

Queste categorie coprono vari tipi di danni che gli sviluppatori potrebbero voler adeguare.

Enum
`HARM_CATEGORY_UNSPECIFIED`	Categoria non specificata.
`HARM_CATEGORY_DEROGATORY`	Commenti negativi o dannosi che hanno come target l'identità e/o l'attributo protetto.
`HARM_CATEGORY_TOXICITY`	Contenuti scurrili, irrispettosi o volgari.
`HARM_CATEGORY_VIOLENCE`	Descrive gli scenari di violenza contro un individuo o un gruppo oppure descrizioni generali di spargimenti di sangue.
`HARM_CATEGORY_SEXUAL`	Riferimenti ad atti sessuali o ad altri contenuti osceni.
`HARM_CATEGORY_MEDICAL`	Promuove una consulenza medica non verificata.
`HARM_CATEGORY_DANGEROUS`	Contenuti pericolosi che promuovono, favoriscono o incoraggiano azioni dannose.
`HARM_CATEGORY_HARASSMENT`	Contenuti molesti.
`HARM_CATEGORY_HATE_SPEECH`	Contenuti e incitamento all'odio.
`HARM_CATEGORY_SEXUALLY_EXPLICIT`	Contenuti sessualmente espliciti.
`HARM_CATEGORY_DANGEROUS_CONTENT`	Contenuti pericolosi.

SafetyRating

Rappresentazione JSON
HarmProbability

Valutazione della sicurezza di alcuni contenuti.

La valutazione di sicurezza contiene la categoria di danno e il livello di probabilità di danno in quella categoria per un determinato contenuto. I contenuti sono classificati per sicurezza in base a diverse categorie di danni e la probabilità della classificazione dei contenuti è inclusa qui.

Rappresentazione JSON
{ "category": enum (`HarmCategory`), "probability": enum (`HarmProbability`), "blocked": boolean }

Campi

category enum (HarmCategory)

Obbligatorio. La categoria di questa classificazione.

probability enum (HarmProbability)

Obbligatorio. La probabilità di danni per questi contenuti.

blocked boolean

I contenuti sono stati bloccati a causa della classificazione?

HarmProbability

La probabilità che un determinato contenuto sia dannoso.

Il sistema di classificazione dà la probabilità che i contenuti non siano sicuri. Ciò non indica la gravità del danno per un determinato contenuto.

Enum
`HARM_PROBABILITY_UNSPECIFIED`	La probabilità non è specificata.
`NEGLIGIBLE`	I contenuti hanno una probabilità trascurabile di non essere sicuri.
`LOW`	I contenuti hanno una bassa probabilità di non essere sicuri.
`MEDIUM`	I contenuti hanno una media probabilità di non essere sicuri.
`HIGH`	I contenuti hanno un'alta probabilità di non essere sicuri.

SafetySetting

Rappresentazione JSON
HarmBlockThreshold

Impostazione di sicurezza, che influisce sul comportamento di blocco di sicurezza.

Il superamento di un'impostazione di sicurezza per una categoria cambia la probabilità consentita che i contenuti vengano bloccati.

Rappresentazione JSON
{ "category": enum (`HarmCategory`), "threshold": enum (`HarmBlockThreshold`) }

Campi

category enum (HarmCategory)

Obbligatorio. La categoria per questa impostazione.

threshold enum (HarmBlockThreshold)

Obbligatorio. Controlla la soglia di probabilità in cui il danno è bloccato.

HarmBlockThreshold

Blocco in base alla probabilità di danno specificata e oltre.

Enum
`HARM_BLOCK_THRESHOLD_UNSPECIFIED`	La soglia non è specificata.
`BLOCK_LOW_AND_ABOVE`	I contenuti con NEGLIGIBLE saranno consentiti.
`BLOCK_MEDIUM_AND_ABOVE`	I contenuti con valori NEGLIGIBLE e LOW saranno consentiti.
`BLOCK_ONLY_HIGH`	Saranno consentiti i contenuti di tipo NEGLIGIBLE, LOW e MEDIUM.
`BLOCK_NONE`	Saranno consentiti tutti i contenuti.