gpt4free-xtekky/docs/legacy/legacy_async_client.md

G4F - Legacy AsyncClient API Guide

IMPORTANT: This guide refers to the old implementation of AsyncClient. The new version of G4F now supports both synchronous and asynchronous operations through a unified interface. Please refer to the new AsyncClient documentation for the latest information.

This guide provides comprehensive information on how to use the G4F AsyncClient API, including setup, usage examples, best practices, and important considerations for optimal performance.

Compatibility Note

The G4F AsyncClient API is designed to be compatible with the OpenAI API, making it easy for developers familiar with OpenAI's interface to transition to G4F. However, please note that this is the old version, and you should migrate to the new implementation for better support and features.

Table of Contents

• Introduction
• Key Features
• Getting Started
• Initializing the Client
• Creating Chat Completions
• Configuration
• Usage Examples
• Text Completions
• Streaming Completions
• Using a Vision Model
• Image Generation
• Concurrent Tasks
• Available Models and Providers
• Error Handling and Best Practices
• Rate Limiting and API Usage
• Conclusion

Introduction

This is the old version: The G4F AsyncClient API is an asynchronous version of the standard G4F Client API. It offers the same functionality as the synchronous API but with improved performance due to its asynchronous nature. This guide will walk you through the key features and usage of the G4F AsyncClient API.

Key Features

• Custom Providers: Use custom providers for enhanced flexibility.
• ChatCompletion Interface: Interact with chat models through the ChatCompletion class.
• Streaming Responses: Get responses iteratively as they are received.
• Non-Streaming Responses: Generate complete responses in a single call.
• Image Generation and Vision Models: Support for image-related tasks.

Getting Started

To ignore DeprecationWarnings related to the AsyncClient, you can use the following code:*

import warnings

# Ignore DeprecationWarning for AsyncClient
warnings.filterwarnings("ignore", category=DeprecationWarning, module="g4f.client")

Initializing the Client

To use the G4F Client, create a new instance:

from g4f.client import AsyncClient
from g4f.Provider import OpenaiChat, Gemini

client = AsyncClient(
    provider=OpenaiChat,
    image_provider=Gemini,
    # Add other parameters as needed
)

Creating Chat Completions

Here's an improved example of creating chat completions:

response = await async_client.chat.completions.create(
    model="gpt-3.5-turbo",
    messages=[
        {
            "role": "user",
            "content": "Say this is a test"
        }
    ]
     # Add other parameters as needed
)

This example:

• Asks a specific question Say this is a test
• Configures various parameters like temperature and max_tokens for more control over the output
• Disables streaming for a complete response

You can adjust these parameters based on your specific needs.

Configuration

Configure the AsyncClient with additional settings:

client = Client(
    api_key="your_api_key_here",
    proxies="http://user:pass@host",
    # Add other parameters as needed
)

Usage Examples

Text Completions

Generate text completions using the ChatCompletions endpoint:

import asyncio
import warnings
from g4f.client import AsyncClient

# Ігноруємо DeprecationWarning
warnings.filterwarnings("ignore", category=DeprecationWarning)

async def main():
    client = AsyncClient()
    
    response = await client.chat.completions.async_create(
        model="gpt-3.5-turbo",
        messages=[
            {
                "role": "user",
                "content": "Say this is a test"
            }
        ]
    )
    
    print(response.choices[0].message.content)

asyncio.run(main())

Streaming Completions

Process responses incrementally as they are generated:

import asyncio
from g4f.client import AsyncClient

async def main():
    client = AsyncClient()
    
    stream = await client.chat.completions.async_create(
        model="gpt-4",
        messages=[
            {
                "role": "user",
                "content": "Say this is a test"
            }
        ],
        stream=True,
    )
    
    async for chunk in stream:
        if chunk.choices[0].delta.content:
            print(chunk.choices[0].delta.content, end="")

asyncio.run(main())

Using a Vision Model

Analyze an image and generate a description:

import g4f
import requests
import asyncio
from g4f.client import AsyncClient

async def main():
    client = AsyncClient()
    
    image = requests.get("https://raw.githubusercontent.com/xtekky/gpt4free/refs/heads/main/docs/cat.jpeg", stream=True).raw
    
    response = await client.chat.completions.async_create(
        model=g4f.models.default,
        provider=g4f.Provider.Bing,
        messages=[
            {
                "role": "user",
                "content": "What's in this image?"
            }
        ],
        image=image
    )
    
    print(response.choices[0].message.content)

asyncio.run(main())

Image Generation

Generate images using a specified prompt:

import asyncio
from g4f.client import AsyncClient

async def main():
    client = AsyncClient()
    
    response = await client.images.async_generate(
        prompt="a white siamese cat",
        model="flux"
    )
    
    image_url = response.data[0].url
    print(f"Generated image URL: {image_url}")

asyncio.run(main())

Base64 Response Format

import asyncio
from g4f.client import AsyncClient

async def main():
    client = AsyncClient()
    
    response = await client.images.async_generate(
        prompt="a white siamese cat",
        model="flux",
        response_format="b64_json"
    )
    
    base64_text = response.data[0].b64_json
    print(base64_text)

asyncio.run(main())

Concurrent Tasks with asyncio.gather

Execute multiple tasks concurrently:

import asyncio
import warnings
from g4f.client import AsyncClient

# Ignore DeprecationWarning for AsyncClient
warnings.filterwarnings("ignore", category=DeprecationWarning, module="g4f.client")

async def main():
    client = AsyncClient()
    
    task1 = client.chat.completions.async_create(
        model="gpt-3.5-turbo",
        messages=[
            {
                "role": "user",
                "content": "Say this is a test"
            }
        ]
    )
    
    task2 = client.images.async_generate(
        model="flux",
        prompt="a white siamese cat"
    )
    
    chat_response, image_response = await asyncio.gather(task1, task2)
    
    print("Chat Response:")
    print(chat_response.choices[0].message.content)
    
    print("Image Response:")
    print(image_response.data[0].url)

asyncio.run(main())

Available Models and Providers

This is the old version: The G4F AsyncClient supports a wide range of AI models and providers, allowing you to choose the best option for your specific use case. Here's a brief overview of the available models and providers:

Models

• GPT-3.5-Turbo
• GPT-4
• DALL-E 3
• Gemini
• Claude (Anthropic)
• And more...

Providers

• OpenAI
• Google (for Gemini)
• Anthropic
• Bing
• Custom providers

To use a specific model or provider, specify it when creating the client or in the API call:

client = AsyncClient(provider=g4f.Provider.OpenaiChat)

# or

response = await client.chat.completions.async_create(
    model="gpt-4",
    provider=g4f.Provider.Bing,
    messages=[
        {
            "role": "user",
            "content": "Hello, world!"
        }
    ]
)

Error Handling and Best Practices

Implementing proper error handling and following best practices is crucial when working with the G4F AsyncClient API. This ensures your application remains robust and can gracefully handle various scenarios. Here are some key practices to follow:

1. Use try-except blocks to catch and handle exceptions:

   try:
   response = await client.chat.completions.async_create(
       model="gpt-3.5-turbo",
       messages=[
           {
               "role": "user",
               "content": "Hello, world!"
           }
       ]
   )
   except Exception as e:
   print(f"An error occurred: {e}")
   

2. Check the response status and handle different scenarios:

   if response.choices:
   print(response.choices[0].message.content)
   else:
   print("No response generated")
   

3. Implement retries for transient errors: ```python import asyncio from tenacity import retry, stop_after_attempt, wait_exponential

@retry(stop=stop_after_attempt(3), wait=wait_exponential(multiplier=1, min=4, max=10)) async def make_api_call():

# Your API call here
pass

## Rate Limiting and API Usage
This is the old version: When working with the G4F AsyncClient API, it's important to implement rate limiting and monitor your API usage. This helps ensure fair usage, prevents overloading the service, and optimizes your application's performance. **Here are some key strategies to consider:**

1. **Implement rate limiting in your application:**
```python
import asyncio
from aiolimiter import AsyncLimiter

rate_limit = AsyncLimiter(max_rate=10, time_period=1)  # 10 requests per second

async def make_api_call():
    async with rate_limit:
        # Your API call here
        pass

1. Monitor your API usage and implement logging: ```python import logging

logging.basicConfig(level=logging.INFO) logger = logging.getLogger(name)

async def make_api_call():

try:
    response = await client.chat.completions.async_create(...)
    logger.info(f"API call successful. Tokens used: {response.usage.total_tokens}")
except Exception as e:
    logger.error(f"API call failed: {e}")

3. **Use caching to reduce API calls for repeated queries:**
```python
from functools import lru_cache

@lru_cache(maxsize=100)
def get_cached_response(query):
    # Your API call here
    pass

Conclusion

This is the old version: The G4F AsyncClient API provides a powerful and flexible way to interact with various AI models asynchronously. By leveraging its features and following best practices, you can build efficient and responsive applications that harness the power of AI for text generation, image analysis, and image creation.

Remember to handle errors gracefully, implement rate limiting, and monitor your API usage to ensure optimal performance and reliability in your applications.

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