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	"""The main Client class for the Python client."""
	from __future__ import annotations

	import concurrent.futures
	import json
	import os
	import re
	import secrets
	import tempfile
	import threading
	import time
	import urllib.parse
	import uuid
	import warnings
	from concurrent.futures import Future
	from dataclasses import dataclass
	from datetime import datetime
	from pathlib import Path
	from threading import Lock
	from typing import Any, Callable, Literal

	import httpx
	import huggingface_hub
	import websockets
	from huggingface_hub import CommitOperationAdd, SpaceHardware, SpaceStage
	from huggingface_hub.utils import (
	RepositoryNotFoundError,
	build_hf_headers,
	send_telemetry,
	)
	from packaging import version

	from gradio_client import serializing, utils
	from gradio_client.documentation import document, set_documentation_group
	from gradio_client.exceptions import SerializationSetupError
	from gradio_client.utils import (
	Communicator,
	JobStatus,
	Message,
	QueueError,
	ServerMessage,
	Status,
	StatusUpdate,
	)

	set_documentation_group("py-client")


	DEFAULT_TEMP_DIR = os.environ.get("GRADIO_TEMP_DIR") or str(
	Path(tempfile.gettempdir()) / "gradio"
	)


	@document("predict", "submit", "view_api", "duplicate", "deploy_discord")
	class Client:
	"""
	The main Client class for the Python client. This class is used to connect to a remote Gradio app and call its API endpoints.

	Example:
	from gradio_client import Client

	client = Client("abidlabs/whisper-large-v2") # connecting to a Hugging Face Space
	client.predict("test.mp4", api_name="/predict")
	>> What a nice recording! # returns the result of the remote API call

	client = Client("https://bec81a83-5b5c-471e.gradio.live") # connecting to a temporary Gradio share URL
	job = client.submit("hello", api_name="/predict") # runs the prediction in a background thread
	job.result()
	>> 49 # returns the result of the remote API call (blocking call)
	"""

	def __init__(
	self,
	src: str,
	hf_token: str \| None = None,
	max_workers: int = 40,
	serialize: bool = True,
	output_dir: str \| Path = DEFAULT_TEMP_DIR,
	verbose: bool = True,
	auth: tuple[str, str] \| None = None,
	):
	"""
	Parameters:
	src: Either the name of the Hugging Face Space to load, (e.g. "abidlabs/whisper-large-v2") or the full URL (including "http" or "https") of the hosted Gradio app to load (e.g. "http://mydomain.com/app" or "https://bec81a83-5b5c-471e.gradio.live/").
	hf_token: The Hugging Face token to use to access private Spaces. Automatically fetched if you are logged in via the Hugging Face Hub CLI. Obtain from: https://huggingface.co/settings/token
	max_workers: The maximum number of thread workers that can be used to make requests to the remote Gradio app simultaneously.
	serialize: Whether the client should serialize the inputs and deserialize the outputs of the remote API. If set to False, the client will pass the inputs and outputs as-is, without serializing/deserializing them. E.g. you if you set this to False, you'd submit an image in base64 format instead of a filepath, and you'd get back an image in base64 format from the remote API instead of a filepath.
	output_dir: The directory to save files that are downloaded from the remote API. If None, reads from the GRADIO_TEMP_DIR environment variable. Defaults to a temporary directory on your machine.
	verbose: Whether the client should print statements to the console.
	"""
	self.verbose = verbose
	self.hf_token = hf_token
	self.serialize = serialize
	self.headers = build_hf_headers(
	token=hf_token,
	library_name="gradio_client",
	library_version=utils.__version__,
	)
	self.space_id = None
	self.cookies: dict[str, str] = {}
	self.output_dir = (
	str(output_dir) if isinstance(output_dir, Path) else output_dir
	)

	if src.startswith("http://") or src.startswith("https://"):
	_src = src if src.endswith("/") else src + "/"
	else:
	_src = self._space_name_to_src(src)
	if _src is None:
	raise ValueError(
	f"Could not find Space: {src}. If it is a private Space, please provide an hf_token."
	)
	self.space_id = src
	self.src = _src
	state = self._get_space_state()
	if state == SpaceStage.BUILDING:
	if self.verbose:
	print("Space is still building. Please wait...")
	while self._get_space_state() == SpaceStage.BUILDING:
	time.sleep(2) # so we don't get rate limited by the API
	pass
	if state in utils.INVALID_RUNTIME:
	raise ValueError(
	f"The current space is in the invalid state: {state}. "
	"Please contact the owner to fix this."
	)
	if self.verbose:
	print(f"Loaded as API: {self.src} ✔")

	if auth is not None:
	self._login(auth)

	self.config = self._get_config()
	self.protocol: str = self.config.get("protocol", "ws")
	self.api_url = urllib.parse.urljoin(self.src, utils.API_URL)
	self.sse_url = urllib.parse.urljoin(
	self.src, utils.SSE_URL_V0 if self.protocol == "sse" else utils.SSE_URL
	)
	self.sse_data_url = urllib.parse.urljoin(
	self.src,
	utils.SSE_DATA_URL_V0 if self.protocol == "sse" else utils.SSE_DATA_URL,
	)
	self.ws_url = urllib.parse.urljoin(
	self.src.replace("http", "ws", 1), utils.WS_URL
	)
	self.upload_url = urllib.parse.urljoin(self.src, utils.UPLOAD_URL)
	self.reset_url = urllib.parse.urljoin(self.src, utils.RESET_URL)
	self.app_version = version.parse(self.config.get("version", "2.0"))
	self._info = self._get_api_info()
	self.session_hash = str(uuid.uuid4())

	endpoint_class = (
	Endpoint if self.protocol.startswith("sse") else EndpointV3Compatibility
	)
	self.endpoints = [
	endpoint_class(self, fn_index, dependency, self.protocol)
	for fn_index, dependency in enumerate(self.config["dependencies"])
	]

	# Create a pool of threads to handle the requests
	self.executor = concurrent.futures.ThreadPoolExecutor(max_workers=max_workers)

	# Disable telemetry by setting the env variable HF_HUB_DISABLE_TELEMETRY=1
	threading.Thread(target=self._telemetry_thread).start()

	self.stream_open = False
	self.streaming_future: Future \| None = None
	self.pending_messages_per_event: dict[str, list[Message \| None]] = {}
	self.pending_event_ids: set[str] = set()

	async def stream_messages(self) -> None:
	try:
	async with httpx.AsyncClient(timeout=httpx.Timeout(timeout=None)) as client:
	async with client.stream(
	"GET",
	self.sse_url,
	params={"session_hash": self.session_hash},
	headers=self.headers,
	cookies=self.cookies,
	) as response:
	async for line in response.aiter_lines():
	line = line.rstrip("\n")
	if not len(line):
	continue
	if line.startswith("data:"):
	resp = json.loads(line[5:])
	if resp["msg"] == ServerMessage.heartbeat:
	continue
	elif resp["msg"] == ServerMessage.server_stopped:
	for (
	pending_messages
	) in self.pending_messages_per_event.values():
	pending_messages.append(resp)
	return
	event_id = resp["event_id"]
	if event_id not in self.pending_messages_per_event:
	self.pending_messages_per_event[event_id] = []
	self.pending_messages_per_event[event_id].append(resp)
	if resp["msg"] == ServerMessage.process_completed:
	self.pending_event_ids.remove(event_id)
	if len(self.pending_event_ids) == 0:
	self.stream_open = False
	return
	else:
	raise ValueError(f"Unexpected SSE line: '{line}'")
	except BaseException as e:
	import traceback

	traceback.print_exc()
	raise e

	async def send_data(self, data, hash_data):
	async with httpx.AsyncClient() as client:
	req = await client.post(
	self.sse_data_url,
	json={data, hash_data},
	headers=self.headers,
	cookies=self.cookies,
	)
	if req.status_code == 503:
	raise QueueError("Queue is full! Please try again.")
	req.raise_for_status()
	resp = req.json()
	event_id = resp["event_id"]

	if not self.stream_open:
	self.stream_open = True

	def open_stream():
	return utils.synchronize_async(self.stream_messages)

	def close_stream(_):
	self.stream_open = False
	for _, pending_messages in self.pending_messages_per_event.items():
	pending_messages.append(None)

	if self.streaming_future is None or self.streaming_future.done():
	self.streaming_future = self.executor.submit(open_stream)
	self.streaming_future.add_done_callback(close_stream)

	return event_id

	@classmethod
	def duplicate(
	cls,
	from_id: str,
	to_id: str \| None = None,
	hf_token: str \| None = None,
	private: bool = True,
	hardware: Literal[
	"cpu-basic",
	"cpu-upgrade",
	"t4-small",
	"t4-medium",
	"a10g-small",
	"a10g-large",
	"a100-large",
	]
	\| SpaceHardware
	\| None = None,
	secrets: dict[str, str] \| None = None,
	sleep_timeout: int = 5,
	max_workers: int = 40,
	verbose: bool = True,
	):
	"""
	Duplicates a Hugging Face Space under your account and returns a Client object
	for the new Space. No duplication is created if the Space already exists in your
	account (to override this, provide a new name for the new Space using `to_id`).
	To use this method, you must provide an `hf_token` or be logged in via the Hugging
	Face Hub CLI.

	The new Space will be private by default and use the same hardware as the original
	Space. This can be changed by using the `private` and `hardware` parameters. For
	hardware upgrades (beyond the basic CPU tier), you may be required to provide
	billing information on Hugging Face: https://huggingface.co/settings/billing

	Parameters:
	from_id: The name of the Hugging Face Space to duplicate in the format "{username}/{space_id}", e.g. "gradio/whisper".
	to_id: The name of the new Hugging Face Space to create, e.g. "abidlabs/whisper-duplicate". If not provided, the new Space will be named "{your_HF_username}/{space_id}".
	hf_token: The Hugging Face token to use to access private Spaces. Automatically fetched if you are logged in via the Hugging Face Hub CLI. Obtain from: https://huggingface.co/settings/token
	private: Whether the new Space should be private (True) or public (False). Defaults to True.
	hardware: The hardware tier to use for the new Space. Defaults to the same hardware tier as the original Space. Options include "cpu-basic", "cpu-upgrade", "t4-small", "t4-medium", "a10g-small", "a10g-large", "a100-large", subject to availability.
	secrets: A dictionary of (secret key, secret value) to pass to the new Space. Defaults to None. Secrets are only used when the Space is duplicated for the first time, and are not updated if the duplicated Space already exists.
	sleep_timeout: The number of minutes after which the duplicate Space will be puased if no requests are made to it (to minimize billing charges). Defaults to 5 minutes.
	max_workers: The maximum number of thread workers that can be used to make requests to the remote Gradio app simultaneously.
	verbose: Whether the client should print statements to the console.
	Example:
	import os
	from gradio_client import Client
	HF_TOKEN = os.environ.get("HF_TOKEN")
	client = Client.duplicate("abidlabs/whisper", hf_token=HF_TOKEN)
	client.predict("audio_sample.wav")
	>> "This is a test of the whisper speech recognition model."
	"""
	try:
	original_info = huggingface_hub.get_space_runtime(from_id, token=hf_token)
	except RepositoryNotFoundError as rnfe:
	raise ValueError(
	f"Could not find Space: {from_id}. If it is a private Space, please provide an `hf_token`."
	) from rnfe
	if to_id:
	if "/" in to_id:
	to_id = to_id.split("/")[1]
	space_id = huggingface_hub.get_full_repo_name(to_id, token=hf_token)
	else:
	space_id = huggingface_hub.get_full_repo_name(
	from_id.split("/")[1], token=hf_token
	)
	try:
	huggingface_hub.get_space_runtime(space_id, token=hf_token)
	if verbose:
	print(
	f"Using your existing Space: {utils.SPACE_URL.format(space_id)} 🤗"
	)
	if secrets is not None:
	warnings.warn(
	"Secrets are only used when the Space is duplicated for the first time, and are not updated if the duplicated Space already exists."
	)
	except RepositoryNotFoundError:
	if verbose:
	print(f"Creating a duplicate of {from_id} for your own use... 🤗")
	huggingface_hub.duplicate_space(
	from_id=from_id,
	to_id=space_id,
	token=hf_token,
	exist_ok=True,
	private=private,
	)
	if secrets is not None:
	for key, value in secrets.items():
	huggingface_hub.add_space_secret(
	space_id, key, value, token=hf_token
	)
	if verbose:
	print(f"Created new Space: {utils.SPACE_URL.format(space_id)}")
	current_info = huggingface_hub.get_space_runtime(space_id, token=hf_token)
	current_hardware = (
	current_info.hardware or huggingface_hub.SpaceHardware.CPU_BASIC
	)
	hardware = hardware or original_info.hardware
	if current_hardware != hardware:
	huggingface_hub.request_space_hardware(space_id, hardware, token=hf_token) # type: ignore
	print(
	f"-------\nNOTE: this Space uses upgraded hardware: {hardware}... see billing info at https://huggingface.co/settings/billing\n-------"
	)
	# Setting a timeout only works if the hardware is not basic
	# so set it here after the hardware has been requested
	if hardware != huggingface_hub.SpaceHardware.CPU_BASIC:
	utils.set_space_timeout(
	space_id, hf_token=hf_token, timeout_in_seconds=sleep_timeout * 60
	)
	if verbose:
	print("")
	client = cls(
	space_id, hf_token=hf_token, max_workers=max_workers, verbose=verbose
	)
	return client

	def _get_space_state(self):
	if not self.space_id:
	return None
	info = huggingface_hub.get_space_runtime(self.space_id, token=self.hf_token)
	return info.stage

	def predict(
	self,
	*args,
	api_name: str \| None = None,
	fn_index: int \| None = None,
	) -> Any:
	"""
	Calls the Gradio API and returns the result (this is a blocking call).

	Parameters:
	args: The arguments to pass to the remote API. The order of the arguments must match the order of the inputs in the Gradio app.
	api_name: The name of the API endpoint to call starting with a leading slash, e.g. "/predict". Does not need to be provided if the Gradio app has only one named API endpoint.
	fn_index: As an alternative to api_name, this parameter takes the index of the API endpoint to call, e.g. 0. Both api_name and fn_index can be provided, but if they conflict, api_name will take precedence.
	Returns:
	The result of the API call. Will be a Tuple if the API has multiple outputs.
	Example:
	from gradio_client import Client
	client = Client(src="gradio/calculator")
	client.predict(5, "add", 4, api_name="/predict")
	>> 9.0
	"""
	inferred_fn_index = self._infer_fn_index(api_name, fn_index)
	if self.endpoints[inferred_fn_index].is_continuous:
	raise ValueError(
	"Cannot call predict on this function as it may run forever. Use submit instead."
	)
	return self.submit(*args, api_name=api_name, fn_index=fn_index).result()

	def new_helper(self, fn_index: int) -> Communicator:
	return Communicator(
	Lock(),
	JobStatus(),
	self.endpoints[fn_index].process_predictions,
	self.reset_url,
	)

	def submit(
	self,
	*args,
	api_name: str \| None = None,
	fn_index: int \| None = None,
	result_callbacks: Callable \| list[Callable] \| None = None,
	) -> Job:
	"""
	Creates and returns a Job object which calls the Gradio API in a background thread. The job can be used to retrieve the status and result of the remote API call.

	Parameters:
	args: The arguments to pass to the remote API. The order of the arguments must match the order of the inputs in the Gradio app.
	api_name: The name of the API endpoint to call starting with a leading slash, e.g. "/predict". Does not need to be provided if the Gradio app has only one named API endpoint.
	fn_index: As an alternative to api_name, this parameter takes the index of the API endpoint to call, e.g. 0. Both api_name and fn_index can be provided, but if they conflict, api_name will take precedence.
	result_callbacks: A callback function, or list of callback functions, to be called when the result is ready. If a list of functions is provided, they will be called in order. The return values from the remote API are provided as separate parameters into the callback. If None, no callback will be called.
	Returns:
	A Job object that can be used to retrieve the status and result of the remote API call.
	Example:
	from gradio_client import Client
	client = Client(src="gradio/calculator")
	job = client.submit(5, "add", 4, api_name="/predict")
	job.status()
	>> <Status.STARTING: 'STARTING'>
	job.result() # blocking call
	>> 9.0
	"""
	inferred_fn_index = self._infer_fn_index(api_name, fn_index)

	helper = None
	if self.endpoints[inferred_fn_index].protocol in ("ws", "sse", "sse_v1"):
	helper = self.new_helper(inferred_fn_index)
	end_to_end_fn = self.endpoints[inferred_fn_index].make_end_to_end_fn(helper)
	future = self.executor.submit(end_to_end_fn, *args)

	job = Job(
	future, communicator=helper, verbose=self.verbose, space_id=self.space_id
	)

	if result_callbacks:
	if isinstance(result_callbacks, Callable):
	result_callbacks = [result_callbacks]

	def create_fn(callback) -> Callable:
	def fn(future):
	if isinstance(future.result(), tuple):
	callback(*future.result())
	else:
	callback(future.result())

	return fn

	for callback in result_callbacks:
	job.add_done_callback(create_fn(callback))

	return job

	def _get_api_info(self):
	if self.serialize:
	api_info_url = urllib.parse.urljoin(self.src, utils.API_INFO_URL)
	else:
	api_info_url = urllib.parse.urljoin(self.src, utils.RAW_API_INFO_URL)

	if self.app_version > version.Version("3.36.1"):
	r = httpx.get(api_info_url, headers=self.headers, cookies=self.cookies)
	if r.is_success:
	info = r.json()
	else:
	raise ValueError(f"Could not fetch api info for {self.src}: {r.text}")
	else:
	fetch = httpx.post(
	utils.SPACE_FETCHER_URL,
	json={"config": json.dumps(self.config), "serialize": self.serialize},
	)
	if fetch.is_success:
	info = fetch.json()["api"]
	else:
	raise ValueError(
	f"Could not fetch api info for {self.src}: {fetch.text}"
	)

	return info

	def view_api(
	self,
	all_endpoints: bool \| None = None,
	print_info: bool = True,
	return_format: Literal["dict", "str"] \| None = None,
	) -> dict \| str \| None:
	"""
	Prints the usage info for the API. If the Gradio app has multiple API endpoints, the usage info for each endpoint will be printed separately. If return_format="dict" the info is returned in dictionary format, as shown in the example below.

	Parameters:
	all_endpoints: If True, prints information for both named and unnamed endpoints in the Gradio app. If False, will only print info about named endpoints. If None (default), will print info about named endpoints, unless there aren't any -- in which it will print info about unnamed endpoints.
	print_info: If True, prints the usage info to the console. If False, does not print the usage info.
	return_format: If None, nothing is returned. If "str", returns the same string that would be printed to the console. If "dict", returns the usage info as a dictionary that can be programmatically parsed, and all endpoints are returned in the dictionary regardless of the value of `all_endpoints`. The format of the dictionary is in the docstring of this method.
	Example:
	from gradio_client import Client
	client = Client(src="gradio/calculator")
	client.view_api(return_format="dict")
	>> {
	'named_endpoints': {
	'/predict': {
	'parameters': [
	{
	'label': 'num1',
	'type_python': 'int \| float',
	'type_description': 'numeric value',
	'component': 'Number',
	'example_input': '5'
	},
	{
	'label': 'operation',
	'type_python': 'str',
	'type_description': 'string value',
	'component': 'Radio',
	'example_input': 'add'
	},
	{
	'label': 'num2',
	'type_python': 'int \| float',
	'type_description': 'numeric value',
	'component': 'Number',
	'example_input': '5'
	},
	],
	'returns': [
	{
	'label': 'output',
	'type_python': 'int \| float',
	'type_description': 'numeric value',
	'component': 'Number',
	},
	]
	},
	'/flag': {
	'parameters': [
	...
	],
	'returns': [
	...
	]
	}
	}
	'unnamed_endpoints': {
	2: {
	'parameters': [
	...
	],
	'returns': [
	...
	]
	}
	}
	}
	}

	"""
	num_named_endpoints = len(self._info["named_endpoints"])
	num_unnamed_endpoints = len(self._info["unnamed_endpoints"])
	if num_named_endpoints == 0 and all_endpoints is None:
	all_endpoints = True

	human_info = "Client.predict() Usage Info\n---------------------------\n"
	human_info += f"Named API endpoints: {num_named_endpoints}\n"

	for api_name, endpoint_info in self._info["named_endpoints"].items():
	human_info += self._render_endpoints_info(api_name, endpoint_info)

	if all_endpoints:
	human_info += f"\nUnnamed API endpoints: {num_unnamed_endpoints}\n"
	for fn_index, endpoint_info in self._info["unnamed_endpoints"].items():
	# When loading from json, the fn_indices are read as strings
	# because json keys can only be strings
	human_info += self._render_endpoints_info(int(fn_index), endpoint_info)
	else:
	if num_unnamed_endpoints > 0:
	human_info += f"\nUnnamed API endpoints: {num_unnamed_endpoints}, to view, run Client.view_api(all_endpoints=True)\n"

	if print_info:
	print(human_info)
	if return_format == "str":
	return human_info
	elif return_format == "dict":
	return self._info

	def reset_session(self) -> None:
	self.session_hash = str(uuid.uuid4())

	def _render_endpoints_info(
	self,
	name_or_index: str \| int,
	endpoints_info: dict[str, list[dict[str, Any]]],
	) -> str:
	parameter_names = [p["label"] for p in endpoints_info["parameters"]]
	parameter_names = [utils.sanitize_parameter_names(p) for p in parameter_names]
	rendered_parameters = ", ".join(parameter_names)
	if rendered_parameters:
	rendered_parameters = rendered_parameters + ", "
	return_values = [p["label"] for p in endpoints_info["returns"]]
	return_values = [utils.sanitize_parameter_names(r) for r in return_values]
	rendered_return_values = ", ".join(return_values)
	if len(return_values) > 1:
	rendered_return_values = f"({rendered_return_values})"

	if isinstance(name_or_index, str):
	final_param = f'api_name="{name_or_index}"'
	elif isinstance(name_or_index, int):
	final_param = f"fn_index={name_or_index}"
	else:
	raise ValueError("name_or_index must be a string or integer")

	human_info = f"\n - predict({rendered_parameters}{final_param}) -> {rendered_return_values}\n"
	human_info += " Parameters:\n"
	if endpoints_info["parameters"]:
	for info in endpoints_info["parameters"]:
	desc = (
	f" ({info['python_type']['description']})"
	if info["python_type"].get("description")
	else ""
	)
	type_ = info["python_type"]["type"]
	human_info += f" - [{info['component']}] {utils.sanitize_parameter_names(info['label'])}: {type_}{desc} \n"
	else:
	human_info += " - None\n"
	human_info += " Returns:\n"
	if endpoints_info["returns"]:
	for info in endpoints_info["returns"]:
	desc = (
	f" ({info['python_type']['description']})"
	if info["python_type"].get("description")
	else ""
	)
	type_ = info["python_type"]["type"]
	human_info += f" - [{info['component']}] {utils.sanitize_parameter_names(info['label'])}: {type_}{desc} \n"
	else:
	human_info += " - None\n"

	return human_info

	def __repr__(self):
	return self.view_api(print_info=False, return_format="str")

	def __str__(self):
	return self.view_api(print_info=False, return_format="str")

	def _telemetry_thread(self) -> None:
	# Disable telemetry by setting the env variable HF_HUB_DISABLE_TELEMETRY=1
	data = {
	"src": self.src,
	}
	try:
	send_telemetry(
	topic="py_client/initiated",
	library_name="gradio_client",
	library_version=utils.__version__,
	user_agent=data,
	)
	except Exception:
	pass

	def _infer_fn_index(self, api_name: str \| None, fn_index: int \| None) -> int:
	inferred_fn_index = None
	if api_name is not None:
	for i, d in enumerate(self.config["dependencies"]):
	config_api_name = d.get("api_name")
	if config_api_name is None or config_api_name is False:
	continue
	if "/" + config_api_name == api_name:
	inferred_fn_index = i
	break
	else:
	error_message = f"Cannot find a function with `api_name`: {api_name}."
	if not api_name.startswith("/"):
	error_message += " Did you mean to use a leading slash?"
	raise ValueError(error_message)
	elif fn_index is not None:
	inferred_fn_index = fn_index
	if (
	inferred_fn_index >= len(self.endpoints)
	or not self.endpoints[inferred_fn_index].is_valid
	):
	raise ValueError(f"Invalid function index: {fn_index}.")
	else:
	valid_endpoints = [
	e
	for e in self.endpoints
	if e.is_valid
	and e.api_name is not None
	and e.backend_fn is not None
	and e.show_api
	]
	if len(valid_endpoints) == 1:
	inferred_fn_index = valid_endpoints[0].fn_index
	else:
	raise ValueError(
	"This Gradio app might have multiple endpoints. Please specify an `api_name` or `fn_index`"
	)
	return inferred_fn_index

	def __del__(self):
	if hasattr(self, "executor"):
	self.executor.shutdown(wait=True)

	def _space_name_to_src(self, space) -> str \| None:
	return huggingface_hub.space_info(space, token=self.hf_token).host # type: ignore

	def _login(self, auth: tuple[str, str]):
	resp = httpx.post(
	urllib.parse.urljoin(self.src, utils.LOGIN_URL),
	data={"username": auth[0], "password": auth[1]},
	)
	if not resp.is_success:
	raise ValueError(f"Could not login to {self.src}")
	self.cookies = {
	name: value for name, value in resp.cookies.items() if value is not None
	}

	def _get_config(self) -> dict:
	r = httpx.get(
	urllib.parse.urljoin(self.src, utils.CONFIG_URL),
	headers=self.headers,
	cookies=self.cookies,
	)
	if r.is_success:
	return r.json()
	elif r.status_code == 401:
	raise ValueError(f"Could not load {self.src}. Please login.")
	else: # to support older versions of Gradio
	r = httpx.get(self.src, headers=self.headers, cookies=self.cookies)
	if not r.is_success:
	raise ValueError(f"Could not fetch config for {self.src}")
	# some basic regex to extract the config
	result = re.search(r"window.gradio_config = (.?);[\s]</script>", r.text)
	try:
	config = json.loads(result.group(1)) # type: ignore
	except AttributeError as ae:
	raise ValueError(
	f"Could not get Gradio config from: {self.src}"
	) from ae
	if "allow_flagging" in config:
	raise ValueError(
	"Gradio 2.x is not supported by this client. Please upgrade your Gradio app to Gradio 3.x or higher."
	)
	return config

	def deploy_discord(
	self,
	discord_bot_token: str \| None = None,
	api_names: list[str \| tuple[str, str]] \| None = None,
	to_id: str \| None = None,
	hf_token: str \| None = None,
	private: bool = False,
	):
	"""
	Deploy the upstream app as a discord bot. Currently only supports gr.ChatInterface.
	Parameters:
	discord_bot_token: This is the "password" needed to be able to launch the bot. Users can get a token by creating a bot app on the discord website. If run the method without specifying a token, the space will explain how to get one. See here: https://huggingface.co/spaces/freddyaboulton/test-discord-bot-v1.
	api_names: The api_names of the app to turn into bot commands. This parameter currently has no effect as ChatInterface only has one api_name ('/chat').
	to_id: The name of the space hosting the discord bot. If None, the name will be gradio-discord-bot-{random-substring}
	hf_token: HF api token with write priviledges in order to upload the files to HF space. Can be ommitted if logged in via the HuggingFace CLI, unless the upstream space is private. Obtain from: https://huggingface.co/settings/token
	private: Whether the space hosting the discord bot is private. The visibility of the discord bot itself is set via the discord website. See https://huggingface.co/spaces/freddyaboulton/test-discord-bot-v1
	"""

	if self.config["mode"] == "chat_interface" and not api_names:
	api_names = [("chat", "chat")]

	valid_list = isinstance(api_names, list) and (
	isinstance(n, str)
	or (
	isinstance(n, tuple) and isinstance(n[0], str) and isinstance(n[1], str)
	)
	for n in api_names
	)
	if api_names is None or not valid_list:
	raise ValueError(
	f"Each entry in api_names must be either a string or a tuple of strings. Received {api_names}"
	)
	if len(api_names) != 1:
	raise ValueError("Currently only one api_name can be deployed to discord.")

	for i, name in enumerate(api_names):
	if isinstance(name, str):
	api_names[i] = (name, name)

	fn = next(
	(ep for ep in self.endpoints if ep.api_name == f"/{api_names[0][0]}"), None
	)
	if not fn:
	raise ValueError(
	f"api_name {api_names[0][0]} not present in {self.space_id or self.src}"
	)
	inputs = [inp for inp in fn.input_component_types if not inp.skip]
	outputs = [inp for inp in fn.input_component_types if not inp.skip]
	if not inputs == ["textbox"] and outputs == ["textbox"]:
	raise ValueError(
	"Currently only api_names with a single textbox as input and output are supported. "
	f"Received {inputs} and {outputs}"
	)

	is_private = False
	if self.space_id:
	is_private = huggingface_hub.space_info(self.space_id).private
	if is_private and not hf_token:
	raise ValueError(
	f"Since {self.space_id} is private, you must explicitly pass in hf_token "
	"so that it can be added as a secret in the discord bot space."
	)

	if to_id:
	if "/" in to_id:
	to_id = to_id.split("/")[1]
	space_id = huggingface_hub.get_full_repo_name(to_id, token=hf_token)
	else:
	if self.space_id:
	space_id = f'{self.space_id.split("/")[1]}-gradio-discord-bot'
	else:
	space_id = f"gradio-discord-bot-{secrets.token_hex(4)}"
	space_id = huggingface_hub.get_full_repo_name(space_id, token=hf_token)

	api = huggingface_hub.HfApi()

	try:
	huggingface_hub.space_info(space_id)
	first_upload = False
	except huggingface_hub.utils.RepositoryNotFoundError:
	first_upload = True

	huggingface_hub.create_repo(
	space_id,
	repo_type="space",
	space_sdk="gradio",
	token=hf_token,
	exist_ok=True,
	private=private,
	)
	if first_upload:
	huggingface_hub.metadata_update(
	repo_id=space_id,
	repo_type="space",
	metadata={"tags": ["gradio-discord-bot"]},
	)

	with open(
	str(Path(__file__).parent / "templates" / "discord_chat.py"),
	encoding="utf-8",
	) as f:
	app = f.read()
	app = app.replace("<<app-src>>", self.src)
	app = app.replace("<<api-name>>", api_names[0][0])
	app = app.replace("<<command-name>>", api_names[0][1])

	with tempfile.NamedTemporaryFile(
	mode="w", delete=False, encoding="utf-8"
	) as app_file:
	with tempfile.NamedTemporaryFile(mode="w", delete=False) as requirements:
	app_file.write(app)
	requirements.write("\n".join(["discord.py==2.3.1"]))

	operations = [
	CommitOperationAdd(path_in_repo="app.py", path_or_fileobj=app_file.name),
	CommitOperationAdd(
	path_in_repo="requirements.txt", path_or_fileobj=requirements.name
	),
	]

	api.create_commit(
	repo_id=space_id,
	commit_message="Deploy Discord Bot",
	repo_type="space",
	operations=operations,
	token=hf_token,
	)

	if discord_bot_token:
	huggingface_hub.add_space_secret(
	space_id, "DISCORD_TOKEN", discord_bot_token, token=hf_token
	)
	if is_private:
	huggingface_hub.add_space_secret(
	space_id,
	"HF_TOKEN",
	hf_token, # type: ignore
	token=hf_token,
	)

	url = f"https://huggingface.co/spaces/{space_id}"
	print(f"See your discord bot here! {url}")
	return url


	@dataclass
	class ComponentApiType:
	skip: bool
	value_is_file: bool
	is_state: bool


	@dataclass
	class ReplaceMe:
	index: int


	class Endpoint:
	"""Helper class for storing all the information about a single API endpoint."""

	def __init__(
	self, client: Client, fn_index: int, dependency: dict, protocol: str = "sse_v1"
	):
	self.client: Client = client
	self.fn_index = fn_index
	self.dependency = dependency
	api_name = dependency.get("api_name")
	self.api_name: str \| Literal[False] \| None = (
	"/" + api_name if isinstance(api_name, str) else api_name
	)
	self.protocol = protocol
	self.input_component_types = [
	self._get_component_type(id_) for id_ in dependency["inputs"]
	]
	self.output_component_types = [
	self._get_component_type(id_) for id_ in dependency["outputs"]
	]
	self.root_url = client.src + "/" if not client.src.endswith("/") else client.src
	self.is_continuous = dependency.get("types", {}).get("continuous", False)
	self.download_file = lambda d: self._download_file(
	d,
	save_dir=self.client.output_dir,
	hf_token=self.client.hf_token,
	root_url=self.root_url,
	)
	# Disallow hitting endpoints that the Gradio app has disabled
	self.is_valid = self.api_name is not False
	self.backend_fn = dependency.get("backend_fn")
	self.show_api = dependency.get("show_api")

	def _get_component_type(self, component_id: int):
	component = next(
	i for i in self.client.config["components"] if i["id"] == component_id
	)
	skip_api = component.get("skip_api", component["type"] in utils.SKIP_COMPONENTS)
	return ComponentApiType(
	skip_api,
	self.value_is_file(component),
	component["type"] == "state",
	)

	@staticmethod
	def value_is_file(component: dict) -> bool:
	# Hacky for now
	if "api_info" not in component:
	return False
	return utils.value_is_file(component["api_info"])

	def __repr__(self):
	return f"Endpoint src: {self.client.src}, api_name: {self.api_name}, fn_index: {self.fn_index}"

	def __str__(self):
	return self.__repr__()

	def make_end_to_end_fn(self, helper: Communicator \| None = None):
	_predict = self.make_predict(helper)

	def _inner(*data):
	if not self.is_valid:
	raise utils.InvalidAPIEndpointError()
	data = self.insert_state(*data)
	if self.client.serialize:
	data = self.serialize(*data)
	predictions = _predict(*data)
	predictions = self.process_predictions(*predictions)
	# Append final output only if not already present
	# for consistency between generators and not generators
	if helper:
	with helper.lock:
	if not helper.job.outputs:
	helper.job.outputs.append(predictions)
	return predictions

	return _inner

	def make_predict(self, helper: Communicator \| None = None):
	def _predict(*data) -> tuple:
	data = {
	"data": data,
	"fn_index": self.fn_index,
	"session_hash": self.client.session_hash,
	}

	hash_data = {
	"fn_index": self.fn_index,
	"session_hash": self.client.session_hash,
	}

	if self.protocol == "sse":
	result = utils.synchronize_async(
	self._sse_fn_v0, data, hash_data, helper
	)
	elif self.protocol == "sse_v1":
	event_id = utils.synchronize_async(
	self.client.send_data, data, hash_data
	)
	self.client.pending_event_ids.add(event_id)
	self.client.pending_messages_per_event[event_id] = []
	result = utils.synchronize_async(self._sse_fn_v1, helper, event_id)
	else:
	raise ValueError(f"Unsupported protocol: {self.protocol}")

	if "error" in result:
	raise ValueError(result["error"])

	try:
	output = result["data"]
	except KeyError as ke:
	is_public_space = (
	self.client.space_id
	and not huggingface_hub.space_info(self.client.space_id).private
	)
	if "error" in result and "429" in result["error"] and is_public_space:
	raise utils.TooManyRequestsError(
	f"Too many requests to the API, please try again later. To avoid being rate-limited, "
	f"please duplicate the Space using Client.duplicate({self.client.space_id}) "
	f"and pass in your Hugging Face token."
	) from None
	elif "error" in result:
	raise ValueError(result["error"]) from None
	raise KeyError(
	f"Could not find 'data' key in response. Response received: {result}"
	) from ke
	return tuple(output)

	return _predict

	def _predict_resolve(self, *data) -> Any:
	"""Needed for gradio.load(), which has a slightly different signature for serializing/deserializing"""
	outputs = self.make_predict()(*data)
	if len(self.dependency["outputs"]) == 1:
	return outputs[0]
	return outputs

	def _upload(
	self, file_paths: list[str \| list[str]]
	) -> list[str \| list[str]] \| list[dict[str, Any] \| list[dict[str, Any]]]:
	if not file_paths:
	return []
	# Put all the filepaths in one file
	# but then keep track of which index in the
	# original list they came from so we can recreate
	# the original structure
	files = []
	indices = []
	for i, fs in enumerate(file_paths):
	if not isinstance(fs, list):
	fs = [fs]
	for f in fs:
	files.append(("files", (Path(f).name, open(f, "rb")))) # noqa: SIM115
	indices.append(i)
	r = httpx.post(self.client.upload_url, headers=self.client.headers, files=files)
	if r.status_code != 200:
	uploaded = file_paths
	else:
	uploaded = []
	result = r.json()
	for i, fs in enumerate(file_paths):
	if isinstance(fs, list):
	output = [o for ix, o in enumerate(result) if indices[ix] == i]
	res = [
	{
	"path": o,
	"orig_name": Path(f).name,
	}
	for f, o in zip(fs, output)
	]
	else:
	o = next(o for ix, o in enumerate(result) if indices[ix] == i)
	res = {
	"path": o,
	"orig_name": Path(fs).name,
	}
	uploaded.append(res)
	return uploaded

	def insert_state(self, *data) -> tuple:
	data = list(data)
	for i, input_component_type in enumerate(self.input_component_types):
	if input_component_type.is_state:
	data.insert(i, None)
	return tuple(data)

	def remove_skipped_components(self, *data) -> tuple:
	data = [d for d, oct in zip(data, self.output_component_types) if not oct.skip]
	return tuple(data)

	def reduce_singleton_output(self, *data) -> Any:
	if len([oct for oct in self.output_component_types if not oct.skip]) == 1:
	return data[0]
	else:
	return data

	def _gather_files(self, *data):
	file_list = []

	def get_file(d):
	if utils.is_file_obj(d):
	file_list.append(d["path"])
	else:
	file_list.append(d)
	return ReplaceMe(len(file_list) - 1)

	new_data = []
	for i, d in enumerate(data):
	if self.input_component_types[i].value_is_file:
	# Check file dicts and filepaths to upload
	# file dict is a corner case but still needed for completeness
	# most users should be using filepaths
	d = utils.traverse(
	d, get_file, lambda s: utils.is_file_obj(s) or utils.is_filepath(s)
	)
	new_data.append(d)
	return file_list, new_data

	def _add_uploaded_files_to_data(self, data: list[Any], files: list[Any]):
	def replace(d: ReplaceMe) -> dict:
	return files[d.index]

	new_data = []
	for d in data:
	d = utils.traverse(
	d, replace, is_root=lambda node: isinstance(node, ReplaceMe)
	)
	new_data.append(d)
	return new_data

	def serialize(self, *data) -> tuple:
	files, new_data = self._gather_files(*data)
	uploaded_files = self._upload(files)
	data = list(new_data)
	data = self._add_uploaded_files_to_data(data, uploaded_files)
	data = utils.traverse(
	data,
	lambda s: {"path": s},
	utils.is_url,
	)
	o = tuple(data)
	return o

	@staticmethod
	def _download_file(
	x: dict,
	save_dir: str,
	root_url: str,
	hf_token: str \| None = None,
	) -> str \| None:
	if x is None:
	return None
	if isinstance(x, str):
	file_name = utils.decode_base64_to_file(x, dir=save_dir).name
	elif isinstance(x, dict):
	filepath = x.get("path")
	assert filepath is not None, f"The 'path' field is missing in {x}"
	file_name = utils.download_file(
	root_url + "file=" + filepath,
	hf_token=hf_token,
	dir=save_dir,
	)

	else:
	raise ValueError(
	f"A FileSerializable component can only deserialize a string or a dict, not a {type(x)}: {x}"
	)
	return file_name

	def deserialize(self, *data) -> tuple:
	data_ = list(data)

	data_: list[Any] = utils.traverse(data_, self.download_file, utils.is_file_obj)
	return tuple(data_)

	def process_predictions(self, *predictions):
	predictions = self.deserialize(*predictions)
	predictions = self.remove_skipped_components(*predictions)
	predictions = self.reduce_singleton_output(*predictions)
	return predictions

	async def _sse_fn_v0(self, data: dict, hash_data: dict, helper: Communicator):
	async with httpx.AsyncClient(timeout=httpx.Timeout(timeout=None)) as client:
	return await utils.get_pred_from_sse_v0(
	client,
	data,
	hash_data,
	helper,
	self.client.sse_url,
	self.client.sse_data_url,
	self.client.headers,
	self.client.cookies,
	)

	async def _sse_fn_v1(self, helper: Communicator, event_id: str):
	return await utils.get_pred_from_sse_v1(
	helper,
	self.client.headers,
	self.client.cookies,
	self.client.pending_messages_per_event,
	event_id,
	)


	class EndpointV3Compatibility:
	"""Endpoint class for connecting to v3 endpoints. Backwards compatibility."""

	def __init__(self, client: Client, fn_index: int, dependency: dict, *args):
	self.client: Client = client
	self.fn_index = fn_index
	self.dependency = dependency
	api_name = dependency.get("api_name")
	self.api_name: str \| Literal[False] \| None = (
	"/" + api_name if isinstance(api_name, str) else api_name
	)
	self.use_ws = self._use_websocket(self.dependency)
	self.protocol = "ws" if self.use_ws else "http"
	self.input_component_types = []
	self.output_component_types = []
	self.root_url = client.src + "/" if not client.src.endswith("/") else client.src
	self.is_continuous = dependency.get("types", {}).get("continuous", False)
	try:
	# Only a real API endpoint if backend_fn is True (so not just a frontend function), serializers are valid,
	# and api_name is not False (meaning that the developer has explicitly disabled the API endpoint)
	self.serializers, self.deserializers = self._setup_serializers()
	self.is_valid = self.dependency["backend_fn"] and self.api_name is not False
	except SerializationSetupError:
	self.is_valid = False
	self.backend_fn = dependency.get("backend_fn")
	self.show_api = True

	def __repr__(self):
	return f"Endpoint src: {self.client.src}, api_name: {self.api_name}, fn_index: {self.fn_index}"

	def __str__(self):
	return self.__repr__()

	def make_end_to_end_fn(self, helper: Communicator \| None = None):
	_predict = self.make_predict(helper)

	def _inner(*data):
	if not self.is_valid:
	raise utils.InvalidAPIEndpointError()
	data = self.insert_state(*data)
	if self.client.serialize:
	data = self.serialize(*data)
	predictions = _predict(*data)
	predictions = self.process_predictions(*predictions)
	# Append final output only if not already present
	# for consistency between generators and not generators
	if helper:
	with helper.lock:
	if not helper.job.outputs:
	helper.job.outputs.append(predictions)
	return predictions

	return _inner

	def make_predict(self, helper: Communicator \| None = None):
	def _predict(*data) -> tuple:
	data = json.dumps(
	{
	"data": data,
	"fn_index": self.fn_index,
	"session_hash": self.client.session_hash,
	}
	)
	hash_data = json.dumps(
	{
	"fn_index": self.fn_index,
	"session_hash": self.client.session_hash,
	}
	)
	if self.use_ws:
	result = utils.synchronize_async(self._ws_fn, data, hash_data, helper)
	if "error" in result:
	raise ValueError(result["error"])
	else:
	response = httpx.post(
	self.client.api_url, headers=self.client.headers, json=data
	)
	result = json.loads(response.content.decode("utf-8"))
	try:
	output = result["data"]
	except KeyError as ke:
	is_public_space = (
	self.client.space_id
	and not huggingface_hub.space_info(self.client.space_id).private
	)
	if "error" in result and "429" in result["error"] and is_public_space:
	raise utils.TooManyRequestsError(
	f"Too many requests to the API, please try again later. To avoid being rate-limited, "
	f"please duplicate the Space using Client.duplicate({self.client.space_id}) "
	f"and pass in your Hugging Face token."
	) from None
	elif "error" in result:
	raise ValueError(result["error"]) from None
	raise KeyError(
	f"Could not find 'data' key in response. Response received: {result}"
	) from ke
	return tuple(output)

	return _predict

	def _predict_resolve(self, *data) -> Any:
	"""Needed for gradio.load(), which has a slightly different signature for serializing/deserializing"""
	outputs = self.make_predict()(*data)
	if len(self.dependency["outputs"]) == 1:
	return outputs[0]
	return outputs

	def _upload(
	self, file_paths: list[str \| list[str]]
	) -> list[str \| list[str]] \| list[dict[str, Any] \| list[dict[str, Any]]]:
	if not file_paths:
	return []
	# Put all the filepaths in one file
	# but then keep track of which index in the
	# original list they came from so we can recreate
	# the original structure
	files = []
	indices = []
	for i, fs in enumerate(file_paths):
	if not isinstance(fs, list):
	fs = [fs]
	for f in fs:
	files.append(("files", (Path(f).name, open(f, "rb")))) # noqa: SIM115
	indices.append(i)
	r = httpx.post(self.client.upload_url, headers=self.client.headers, files=files)
	if r.status_code != 200:
	uploaded = file_paths
	else:
	uploaded = []
	result = r.json()
	for i, fs in enumerate(file_paths):
	if isinstance(fs, list):
	output = [o for ix, o in enumerate(result) if indices[ix] == i]
	res = [
	{
	"is_file": True,
	"name": o,
	"orig_name": Path(f).name,
	"data": None,
	}
	for f, o in zip(fs, output)
	]
	else:
	o = next(o for ix, o in enumerate(result) if indices[ix] == i)
	res = {
	"is_file": True,
	"name": o,
	"orig_name": Path(fs).name,
	"data": None,
	}
	uploaded.append(res)
	return uploaded

	def _add_uploaded_files_to_data(
	self,
	files: list[str \| list[str]] \| list[dict[str, Any] \| list[dict[str, Any]]],
	data: list[Any],
	) -> None:
	"""Helper function to modify the input data with the uploaded files."""
	file_counter = 0
	for i, t in enumerate(self.input_component_types):
	if t in ["file", "uploadbutton"]:
	data[i] = files[file_counter]
	file_counter += 1

	def insert_state(self, *data) -> tuple:
	data = list(data)
	for i, input_component_type in enumerate(self.input_component_types):
	if input_component_type == utils.STATE_COMPONENT:
	data.insert(i, None)
	return tuple(data)

	def remove_skipped_components(self, *data) -> tuple:
	data = [
	d
	for d, oct in zip(data, self.output_component_types)
	if oct not in utils.SKIP_COMPONENTS
	]
	return tuple(data)

	def reduce_singleton_output(self, *data) -> Any:
	if (
	len(
	[
	oct
	for oct in self.output_component_types
	if oct not in utils.SKIP_COMPONENTS
	]
	)
	== 1
	):
	return data[0]
	else:
	return data

	def serialize(self, *data) -> tuple:
	if len(data) != len(self.serializers):
	raise ValueError(
	f"Expected {len(self.serializers)} arguments, got {len(data)}"
	)

	files = [
	f
	for f, t in zip(data, self.input_component_types)
	if t in ["file", "uploadbutton"]
	]
	uploaded_files = self._upload(files)
	data = list(data)
	self._add_uploaded_files_to_data(uploaded_files, data)
	o = tuple([s.serialize(d) for s, d in zip(self.serializers, data)])
	return o

	def deserialize(self, *data) -> tuple:
	if len(data) != len(self.deserializers):
	raise ValueError(
	f"Expected {len(self.deserializers)} outputs, got {len(data)}"
	)
	outputs = tuple(
	[
	s.deserialize(
	d,
	save_dir=self.client.output_dir,
	hf_token=self.client.hf_token,
	root_url=self.root_url,
	)
	for s, d in zip(self.deserializers, data)
	]
	)
	return outputs

	def process_predictions(self, *predictions):
	if self.client.serialize:
	predictions = self.deserialize(*predictions)
	predictions = self.remove_skipped_components(*predictions)
	predictions = self.reduce_singleton_output(*predictions)
	return predictions

	def _setup_serializers(
	self,
	) -> tuple[list[serializing.Serializable], list[serializing.Serializable]]:
	inputs = self.dependency["inputs"]
	serializers = []

	for i in inputs:
	for component in self.client.config["components"]:
	if component["id"] == i:
	component_name = component["type"]
	self.input_component_types.append(component_name)
	if component.get("serializer"):
	serializer_name = component["serializer"]
	if serializer_name not in serializing.SERIALIZER_MAPPING:
	raise SerializationSetupError(
	f"Unknown serializer: {serializer_name}, you may need to update your gradio_client version."
	)
	serializer = serializing.SERIALIZER_MAPPING[serializer_name]
	elif component_name in serializing.COMPONENT_MAPPING:
	serializer = serializing.COMPONENT_MAPPING[component_name]
	else:
	raise SerializationSetupError(
	f"Unknown component: {component_name}, you may need to update your gradio_client version."
	)
	serializers.append(serializer()) # type: ignore

	outputs = self.dependency["outputs"]
	deserializers = []
	for i in outputs:
	for component in self.client.config["components"]:
	if component["id"] == i:
	component_name = component["type"]
	self.output_component_types.append(component_name)
	if component.get("serializer"):
	serializer_name = component["serializer"]
	if serializer_name not in serializing.SERIALIZER_MAPPING:
	raise SerializationSetupError(
	f"Unknown serializer: {serializer_name}, you may need to update your gradio_client version."
	)
	deserializer = serializing.SERIALIZER_MAPPING[serializer_name]
	elif component_name in utils.SKIP_COMPONENTS:
	deserializer = serializing.SimpleSerializable
	elif component_name in serializing.COMPONENT_MAPPING:
	deserializer = serializing.COMPONENT_MAPPING[component_name]
	else:
	raise SerializationSetupError(
	f"Unknown component: {component_name}, you may need to update your gradio_client version."
	)
	deserializers.append(deserializer()) # type: ignore

	return serializers, deserializers

	def _use_websocket(self, dependency: dict) -> bool:
	queue_enabled = self.client.config.get("enable_queue", False)
	queue_uses_websocket = version.parse(
	self.client.config.get("version", "2.0")
	) >= version.Version("3.2")
	dependency_uses_queue = dependency.get("queue", False) is not False
	return queue_enabled and queue_uses_websocket and dependency_uses_queue

	async def _ws_fn(self, data, hash_data, helper: Communicator):
	async with websockets.connect( # type: ignore
	self.client.ws_url,
	open_timeout=10,
	extra_headers=self.client.headers,
	max_size=1024 * 1024 * 1024,
	) as websocket:
	return await utils.get_pred_from_ws(websocket, data, hash_data, helper)


	@document("result", "outputs", "status")
	class Job(Future):
	"""
	A Job is a wrapper over the Future class that represents a prediction call that has been
	submitted by the Gradio client. This class is not meant to be instantiated directly, but rather
	is created by the Client.submit() method.

	A Job object includes methods to get the status of the prediction call, as well to get the outputs of
	the prediction call. Job objects are also iterable, and can be used in a loop to get the outputs
	of prediction calls as they become available for generator endpoints.
	"""

	def __init__(
	self,
	future: Future,
	communicator: Communicator \| None = None,
	verbose: bool = True,
	space_id: str \| None = None,
	):
	"""
	Parameters:
	future: The future object that represents the prediction call, created by the Client.submit() method
	communicator: The communicator object that is used to communicate between the client and the background thread running the job
	verbose: Whether to print any status-related messages to the console
	space_id: The space ID corresponding to the Client object that created this Job object
	"""
	self.future = future
	self.communicator = communicator
	self._counter = 0
	self.verbose = verbose
	self.space_id = space_id

	def __iter__(self) -> Job:
	return self

	def __next__(self) -> tuple \| Any:
	if not self.communicator:
	raise StopIteration()

	while True:
	with self.communicator.lock:
	if len(self.communicator.job.outputs) >= self._counter + 1:
	o = self.communicator.job.outputs[self._counter]
	self._counter += 1
	return o
	if (
	self.communicator.job.latest_status.code == Status.FINISHED
	and self._counter >= len(self.communicator.job.outputs)
	):
	raise StopIteration()
	time.sleep(0.001)

	def result(self, timeout: float \| None = None) -> Any:
	"""
	Return the result of the call that the future represents. Raises CancelledError: If the future was cancelled, TimeoutError: If the future didn't finish executing before the given timeout, and Exception: If the call raised then that exception will be raised.

	Parameters:
	timeout: The number of seconds to wait for the result if the future isn't done. If None, then there is no limit on the wait time.
	Returns:
	The result of the call that the future represents. For generator functions, it will return the final iteration.
	Example:
	from gradio_client import Client
	calculator = Client(src="gradio/calculator")
	job = calculator.submit("foo", "add", 4, fn_index=0)
	job.result(timeout=5)
	>> 9
	"""
	return super().result(timeout=timeout)

	def outputs(self) -> list[tuple \| Any]:
	"""
	Returns a list containing the latest outputs from the Job.

	If the endpoint has multiple output components, the list will contain
	a tuple of results. Otherwise, it will contain the results without storing them
	in tuples.

	For endpoints that are queued, this list will contain the final job output even
	if that endpoint does not use a generator function.

	Example:
	from gradio_client import Client
	client = Client(src="gradio/count_generator")
	job = client.submit(3, api_name="/count")
	while not job.done():
	time.sleep(0.1)
	job.outputs()
	>> ['0', '1', '2']
	"""
	if not self.communicator:
	return []
	else:
	with self.communicator.lock:
	return self.communicator.job.outputs

	def status(self) -> StatusUpdate:
	"""
	Returns the latest status update from the Job in the form of a StatusUpdate
	object, which contains the following fields: code, rank, queue_size, success, time, eta, and progress_data.

	progress_data is a list of updates emitted by the gr.Progress() tracker of the event handler. Each element
	of the list has the following fields: index, length, unit, progress, desc. If the event handler does not have
	a gr.Progress() tracker, the progress_data field will be None.

	Example:
	from gradio_client import Client
	client = Client(src="gradio/calculator")
	job = client.submit(5, "add", 4, api_name="/predict")
	job.status()
	>> <Status.STARTING: 'STARTING'>
	job.status().eta
	>> 43.241 # seconds
	"""
	time = datetime.now()
	cancelled = False
	if self.communicator:
	with self.communicator.lock:
	cancelled = self.communicator.should_cancel
	if cancelled:
	return StatusUpdate(
	code=Status.CANCELLED,
	rank=0,
	queue_size=None,
	success=False,
	time=time,
	eta=None,
	progress_data=None,
	)
	if self.done():
	if not self.future._exception: # type: ignore
	return StatusUpdate(
	code=Status.FINISHED,
	rank=0,
	queue_size=None,
	success=True,
	time=time,
	eta=None,
	progress_data=None,
	)
	else:
	return StatusUpdate(
	code=Status.FINISHED,
	rank=0,
	queue_size=None,
	success=False,
	time=time,
	eta=None,
	progress_data=None,
	)
	else:
	if not self.communicator:
	return StatusUpdate(
	code=Status.PROCESSING,
	rank=0,
	queue_size=None,
	success=None,
	time=time,
	eta=None,
	progress_data=None,
	)
	else:
	with self.communicator.lock:
	eta = self.communicator.job.latest_status.eta
	if self.verbose and self.space_id and eta and eta > 30:
	print(
	f"Due to heavy traffic on this app, the prediction will take approximately {int(eta)} seconds."
	f"For faster predictions without waiting in queue, you may duplicate the space using: Client.duplicate({self.space_id})"
	)
	return self.communicator.job.latest_status

	def __getattr__(self, name):
	"""Forwards any properties to the Future class."""
	return getattr(self.future, name)

	def cancel(self) -> bool:
	"""Cancels the job as best as possible.

	If the app you are connecting to has the gradio queue enabled, the job
	will be cancelled locally as soon as possible. For apps that do not use the
	queue, the job cannot be cancelled if it's been sent to the local executor
	(for the time being).

	Note: In general, this DOES not stop the process from running in the upstream server
	except for the following situations:

	1. If the job is queued upstream, it will be removed from the queue and the server will not run the job
	2. If the job has iterative outputs, the job will finish as soon as the current iteration finishes running
	3. If the job has not been picked up by the queue yet, the queue will not pick up the job
	"""
	if self.communicator:
	with self.communicator.lock:
	self.communicator.should_cancel = True
	return True
	return self.future.cancel()