gpt4free/g4f/client/client.py

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from __future__ import annotations
import os
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import time
import random
import string
import threading
import asyncio
import base64
import aiohttp
import queue
from typing import Union, AsyncIterator, Iterator
from ..providers.base_provider import AsyncGeneratorProvider
from ..image import ImageResponse, to_image, to_data_uri
from ..typing import Messages, ImageType
from ..providers.types import BaseProvider, ProviderType, FinishReason
from ..providers.conversation import BaseConversation
from ..image import ImageResponse as ImageProviderResponse
from ..errors import NoImageResponseError
from .stubs import ChatCompletion, ChatCompletionChunk, Image, ImagesResponse
from .image_models import ImageModels
from .types import IterResponse, ImageProvider
from .types import Client as BaseClient
from .service import get_model_and_provider, get_last_provider
from .helper import find_stop, filter_json, filter_none
from ..models import ModelUtils
from ..Provider import IterListProvider
# Helper function to convert an async generator to a synchronous iterator
def to_sync_iter(async_gen: AsyncIterator) -> Iterator:
q = queue.Queue()
loop = asyncio.new_event_loop()
done = object()
def _run():
asyncio.set_event_loop(loop)
async def iterate():
try:
async for item in async_gen:
q.put(item)
finally:
q.put(done)
loop.run_until_complete(iterate())
loop.close()
threading.Thread(target=_run).start()
while True:
item = q.get()
if item is done:
break
yield item
# Helper function to convert a synchronous iterator to an async iterator
async def to_async_iterator(iterator):
for item in iterator:
yield item
# Synchronous iter_response function
def iter_response(
response: Union[Iterator[str], AsyncIterator[str]],
stream: bool,
response_format: dict = None,
max_tokens: int = None,
stop: list = None
) -> Iterator[Union[ChatCompletion, ChatCompletionChunk]]:
content = ""
finish_reason = None
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completion_id = ''.join(random.choices(string.ascii_letters + string.digits, k=28))
idx = 0
if hasattr(response, '__aiter__'):
# It's an async iterator, wrap it into a sync iterator
response = to_sync_iter(response)
for chunk in response:
if isinstance(chunk, FinishReason):
finish_reason = chunk.reason
break
elif isinstance(chunk, BaseConversation):
yield chunk
continue
content += str(chunk)
if max_tokens is not None and idx + 1 >= max_tokens:
finish_reason = "length"
first, content, chunk = find_stop(stop, content, chunk if stream else None)
if first != -1:
finish_reason = "stop"
if stream:
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yield ChatCompletionChunk(chunk, None, completion_id, int(time.time()))
if finish_reason is not None:
break
idx += 1
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finish_reason = "stop" if finish_reason is None else finish_reason
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if stream:
yield ChatCompletionChunk(None, finish_reason, completion_id, int(time.time()))
else:
if response_format is not None and "type" in response_format:
if response_format["type"] == "json_object":
content = filter_json(content)
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yield ChatCompletion(content, finish_reason, completion_id, int(time.time()))
# Synchronous iter_append_model_and_provider function
def iter_append_model_and_provider(response: Iterator) -> Iterator:
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last_provider = None
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for chunk in response:
last_provider = get_last_provider(True) if last_provider is None else last_provider
chunk.model = last_provider.get("model")
chunk.provider = last_provider.get("name")
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yield chunk
class Client(BaseClient):
def __init__(
self,
provider: ProviderType = None,
image_provider: ImageProvider = None,
**kwargs
) -> None:
super().__init__(**kwargs)
self.chat: Chat = Chat(self, provider)
self._images: Images = Images(self, image_provider)
@property
def images(self) -> Images:
return self._images
async def async_images(self) -> Images:
return self._images
# For backwards compatibility and legacy purposes, use Client instead
class AsyncClient(Client):
"""Legacy AsyncClient that redirects to the main Client class.
This class exists for backwards compatibility."""
def __init__(self, *args, **kwargs):
import warnings
warnings.warn(
"AsyncClient is deprecated and will be removed in a future version. "
"Use Client instead, which now supports both sync and async operations.",
DeprecationWarning,
stacklevel=2
)
super().__init__(*args, **kwargs)
self.chat = Chat(self)
self._images = Images(self)
self.completions = Completions(self)
@property
def images(self) -> 'Images':
return self._images
async def async_create(self, *args, **kwargs) -> Union['ChatCompletion', AsyncIterator['ChatCompletionChunk']]:
response = await super().async_create(*args, **kwargs)
async for result in response:
return result
async def async_generate(self, *args, **kwargs) -> 'ImagesResponse':
return await super().async_generate(*args, **kwargs)
async def _fetch_image(self, url: str) -> bytes:
async with ClientSession() as session:
async with session.get(url) as resp:
if resp.status == 200:
return await resp.read()
else:
raise Exception(f"Failed to fetch image from {url}, status code {resp.status}")
class Completions:
def __init__(self, client: Client, provider: ProviderType = None):
self.client: Client = client
self.provider: ProviderType = provider
def create(
self,
messages: Messages,
model: str,
provider: ProviderType = None,
stream: bool = False,
proxy: str = None,
response_format: dict = None,
max_tokens: int = None,
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stop: Union[list[str], str] = None,
api_key: str = None,
ignored: list[str] = None,
ignore_working: bool = False,
ignore_stream: bool = False,
**kwargs
) -> Union[ChatCompletion, Iterator[ChatCompletionChunk]]:
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model, provider = get_model_and_provider(
model,
self.provider if provider is None else provider,
stream,
ignored,
ignore_working,
ignore_stream,
)
stop = [stop] if isinstance(stop, str) else stop
if asyncio.iscoroutinefunction(provider.create_completion):
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# Run the asynchronous function in an event loop
response = asyncio.run(provider.create_completion(
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model,
messages,
stream=stream,
**filter_none(
proxy=self.client.get_proxy() if proxy is None else proxy,
max_tokens=max_tokens,
stop=stop,
api_key=self.client.api_key if api_key is None else api_key
),
**kwargs
))
else:
response = provider.create_completion(
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model,
messages,
stream=stream,
**filter_none(
proxy=self.client.get_proxy() if proxy is None else proxy,
max_tokens=max_tokens,
stop=stop,
api_key=self.client.api_key if api_key is None else api_key
),
**kwargs
)
if stream:
if hasattr(response, '__aiter__'):
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# It's an async generator, wrap it into a sync iterator
response = to_sync_iter(response)
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# Now 'response' is an iterator
response = iter_response(response, stream, response_format, max_tokens, stop)
response = iter_append_model_and_provider(response)
return response
else:
if hasattr(response, '__aiter__'):
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# If response is an async generator, collect it into a list
response = list(to_sync_iter(response))
response = iter_response(response, stream, response_format, max_tokens, stop)
response = iter_append_model_and_provider(response)
return next(response)
async def async_create(
self,
messages: Messages,
model: str,
provider: ProviderType = None,
stream: bool = False,
proxy: str = None,
response_format: dict = None,
max_tokens: int = None,
stop: Union[list[str], str] = None,
api_key: str = None,
ignored: list[str] = None,
ignore_working: bool = False,
ignore_stream: bool = False,
**kwargs
) -> Union[ChatCompletion, AsyncIterator[ChatCompletionChunk]]:
model, provider = get_model_and_provider(
model,
self.provider if provider is None else provider,
stream,
ignored,
ignore_working,
ignore_stream,
)
stop = [stop] if isinstance(stop, str) else stop
if asyncio.iscoroutinefunction(provider.create_completion):
response = await provider.create_completion(
model,
messages,
stream=stream,
**filter_none(
proxy=self.client.get_proxy() if proxy is None else proxy,
max_tokens=max_tokens,
stop=stop,
api_key=self.client.api_key if api_key is None else api_key
),
**kwargs
)
else:
response = provider.create_completion(
model,
messages,
stream=stream,
**filter_none(
proxy=self.client.get_proxy() if proxy is None else proxy,
max_tokens=max_tokens,
stop=stop,
api_key=self.client.api_key if api_key is None else api_key
),
**kwargs
)
# Removed 'await' here since 'async_iter_response' returns an async generator
response = async_iter_response(response, stream, response_format, max_tokens, stop)
response = async_iter_append_model_and_provider(response)
if stream:
return response
else:
async for result in response:
return result
class Chat:
completions: Completions
def __init__(self, client: Client, provider: ProviderType = None):
self.completions = Completions(client, provider)
# Asynchronous versions of the helper functions
async def async_iter_response(
response: Union[AsyncIterator[str], Iterator[str]],
stream: bool,
response_format: dict = None,
max_tokens: int = None,
stop: list = None
) -> AsyncIterator[Union[ChatCompletion, ChatCompletionChunk]]:
content = ""
finish_reason = None
completion_id = ''.join(random.choices(string.ascii_letters + string.digits, k=28))
idx = 0
if not hasattr(response, '__aiter__'):
response = to_async_iterator(response)
async for chunk in response:
if isinstance(chunk, FinishReason):
finish_reason = chunk.reason
break
elif isinstance(chunk, BaseConversation):
yield chunk
continue
content += str(chunk)
if max_tokens is not None and idx + 1 >= max_tokens:
finish_reason = "length"
first, content, chunk = find_stop(stop, content, chunk if stream else None)
if first != -1:
finish_reason = "stop"
if stream:
yield ChatCompletionChunk(chunk, None, completion_id, int(time.time()))
if finish_reason is not None:
break
idx += 1
finish_reason = "stop" if finish_reason is None else finish_reason
if stream:
yield ChatCompletionChunk(None, finish_reason, completion_id, int(time.time()))
else:
if response_format is not None and "type" in response_format:
if response_format["type"] == "json_object":
content = filter_json(content)
yield ChatCompletion(content, finish_reason, completion_id, int(time.time()))
async def async_iter_append_model_and_provider(response: AsyncIterator) -> AsyncIterator:
last_provider = None
if not hasattr(response, '__aiter__'):
response = to_async_iterator(response)
async for chunk in response:
last_provider = get_last_provider(True) if last_provider is None else last_provider
chunk.model = last_provider.get("model")
chunk.provider = last_provider.get("name")
yield chunk
async def iter_image_response(response: AsyncIterator) -> Union[ImagesResponse, None]:
response_list = []
async for chunk in response:
if isinstance(chunk, ImageProviderResponse):
response_list.extend(chunk.get_list())
elif isinstance(chunk, str):
response_list.append(chunk)
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if response_list:
return ImagesResponse([Image(image) for image in response_list])
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return None
async def create_image(client: Client, provider: ProviderType, prompt: str, model: str = "", **kwargs) -> AsyncIterator:
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if isinstance(provider, type) and provider.__name__ == "You":
kwargs["chat_mode"] = "create"
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else:
prompt = f"create an image with: {prompt}"
if asyncio.iscoroutinefunction(provider.create_completion):
response = await provider.create_completion(
model,
[{"role": "user", "content": prompt}],
stream=True,
proxy=client.get_proxy(),
**kwargs
)
else:
response = provider.create_completion(
model,
[{"role": "user", "content": prompt}],
stream=True,
proxy=client.get_proxy(),
**kwargs
)
# Wrap synchronous iterator into async iterator if necessary
if not hasattr(response, '__aiter__'):
response = to_async_iterator(response)
return response
class Image:
def __init__(self, url: str = None, b64_json: str = None):
self.url = url
self.b64_json = b64_json
def __repr__(self):
return f"Image(url={self.url}, b64_json={'<base64 data>' if self.b64_json else None})"
class ImagesResponse:
def __init__(self, data: list[Image]):
self.data = data
def __repr__(self):
return f"ImagesResponse(data={self.data})"
class Images:
def __init__(self, client: 'Client', provider: 'ImageProvider' = None):
self.client: 'Client' = client
self.provider: 'ImageProvider' = provider
self.models: ImageModels = ImageModels(client)
def generate(self, prompt: str, model: str = None, response_format: str = "url", **kwargs) -> ImagesResponse:
"""
Synchronous generate method that runs the async_generate method in an event loop.
"""
return asyncio.run(self.async_generate(prompt, model, response_format=response_format, **kwargs))
async def async_generate(self, prompt: str, model: str = None, response_format: str = "url", **kwargs) -> ImagesResponse:
provider = self.models.get(model, self.provider)
if provider is None:
raise ValueError(f"Unknown model: {model}")
if isinstance(provider, IterListProvider):
if provider.providers:
provider = provider.providers[0]
else:
raise ValueError(f"IterListProvider for model {model} has no providers")
if isinstance(provider, type) and issubclass(provider, AsyncGeneratorProvider):
messages = [{"role": "user", "content": prompt}]
async for response in provider.create_async_generator(model, messages, **kwargs):
if isinstance(response, ImageResponse):
return await self._process_image_response(response, response_format)
elif isinstance(response, str):
image_response = ImageResponse([response], prompt)
return await self._process_image_response(image_response, response_format)
elif hasattr(provider, 'create'):
if asyncio.iscoroutinefunction(provider.create):
response = await provider.create(prompt)
else:
response = provider.create(prompt)
if isinstance(response, ImageResponse):
return await self._process_image_response(response, response_format)
elif isinstance(response, str):
image_response = ImageResponse([response], prompt)
return await self._process_image_response(image_response, response_format)
else:
raise ValueError(f"Provider {provider} does not support image generation")
raise NoImageResponseError(f"Unexpected response type: {type(response)}")
async def _process_image_response(self, response: ImageResponse, response_format: str) -> ImagesResponse:
processed_images = []
for image_data in response.get_list():
if image_data.startswith('http://') or image_data.startswith('https://'):
if response_format == "url":
processed_images.append(Image(url=image_data))
elif response_format == "b64_json":
# Fetch the image data and convert it to base64
image_content = await self._fetch_image(image_data)
b64_json = base64.b64encode(image_content).decode('utf-8')
processed_images.append(Image(b64_json=b64_json))
else:
# Assume image_data is base64 data or binary
if response_format == "url":
if image_data.startswith('data:image'):
# Remove the data URL scheme and get the base64 data
header, base64_data = image_data.split(',', 1)
else:
base64_data = image_data
# Decode the base64 data
image_data_bytes = base64.b64decode(base64_data)
# Convert bytes to an image
image = to_image(image_data_bytes)
file_name = self._save_image(image)
processed_images.append(Image(url=file_name))
elif response_format == "b64_json":
if isinstance(image_data, bytes):
b64_json = base64.b64encode(image_data).decode('utf-8')
else:
b64_json = image_data # If already base64-encoded string
processed_images.append(Image(b64_json=b64_json))
return ImagesResponse(processed_images)
async def _fetch_image(self, url: str) -> bytes:
# Asynchronously fetch image data from the URL
async with aiohttp.ClientSession() as session:
async with session.get(url) as resp:
if resp.status == 200:
return await resp.read()
else:
raise Exception(f"Failed to fetch image from {url}, status code {resp.status}")
def _save_image(self, image: 'PILImage') -> str:
os.makedirs('generated_images', exist_ok=True)
file_name = f"generated_images/image_{int(time.time())}_{random.randint(0, 10000)}.png"
image.save(file_name)
return file_name
async def create_variation(self, image: Union[str, bytes], model: str = None, response_format: str = "url", **kwargs):
# Existing implementation, adjust if you want to support b64_json here as well
pass