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	"""Handy utility functions."""

	from __future__ import annotations

	import ast
	import asyncio
	import copy
	import dataclasses
	import functools
	import importlib
	import importlib.util
	import inspect
	import json
	import json.decoder
	import os
	import pkgutil
	import re
	import sys
	import tempfile
	import threading
	import time
	import traceback
	import typing
	import urllib.parse
	import warnings
	from abc import ABC, abstractmethod
	from collections import OrderedDict
	from contextlib import contextmanager
	from functools import wraps
	from io import BytesIO
	from numbers import Number
	from pathlib import Path
	from types import AsyncGeneratorType, GeneratorType, ModuleType
	from typing import (
	TYPE_CHECKING,
	Any,
	Callable,
	Generic,
	Iterable,
	Iterator,
	Literal,
	Optional,
	TypeVar,
	)

	import anyio
	import gradio_client.utils as client_utils
	import httpx
	from gradio_client.documentation import document
	from typing_extensions import ParamSpec

	import gradio
	from gradio.context import Context
	from gradio.data_classes import FileData
	from gradio.strings import en

	if TYPE_CHECKING: # Only import for type checking (is False at runtime).
	from gradio.blocks import BlockContext, Blocks
	from gradio.components import Component
	from gradio.routes import App, Request
	from gradio.state_holder import SessionState

	JSON_PATH = os.path.join(os.path.dirname(gradio.__file__), "launches.json")

	P = ParamSpec("P")
	T = TypeVar("T")


	def get_package_version() -> str:
	try:
	package_json_data = (
	pkgutil.get_data(__name__, "package.json").decode("utf-8").strip() # type: ignore
	)
	package_data = json.loads(package_json_data)
	version = package_data.get("version", "")
	return version
	except Exception:
	return ""


	def safe_get_lock() -> asyncio.Lock:
	"""Get asyncio.Lock() without fear of getting an Exception.

	Needed because in reload mode we import the Blocks object outside
	the main thread.
	"""
	try:
	asyncio.get_event_loop()
	return asyncio.Lock()
	except RuntimeError:
	return None # type: ignore


	def safe_get_stop_event() -> asyncio.Event:
	try:
	asyncio.get_event_loop()
	return asyncio.Event()
	except RuntimeError:
	return None # type: ignore


	class BaseReloader(ABC):
	@property
	@abstractmethod
	def running_app(self) -> App:
	pass

	def swap_blocks(self, demo: Blocks):
	assert self.running_app.blocks # noqa: S101
	# Copy over the blocks to get new components and events but
	# not a new queue
	self.running_app.blocks._queue.block_fns = demo.fns
	demo._queue = self.running_app.blocks._queue
	demo.max_file_size = self.running_app.blocks.max_file_size
	self.running_app.state_holder.reset(demo)
	self.running_app.blocks = demo
	demo._queue.reload()


	class SourceFileReloader(BaseReloader):
	def __init__(
	self,
	app: App,
	watch_dirs: list[str],
	watch_module_name: str,
	demo_file: str,
	stop_event: threading.Event,
	demo_name: str = "demo",
	) -> None:
	super().__init__()
	self.app = app
	self.watch_dirs = watch_dirs
	self.watch_module_name = watch_module_name
	self.stop_event = stop_event
	self.demo_name = demo_name
	self.demo_file = Path(demo_file)

	@property
	def running_app(self) -> App:
	return self.app

	def should_watch(self) -> bool:
	return not self.stop_event.is_set()

	def stop(self) -> None:
	self.stop_event.set()

	def alert_change(self, change_type: Literal["reload", "error"] = "reload"):
	self.app.change_type = change_type
	self.app.change_count += 1

	def swap_blocks(self, demo: Blocks):
	old_blocks = self.running_app.blocks
	super().swap_blocks(demo)
	if old_blocks:
	reassign_keys(old_blocks, demo)
	demo.config = demo.get_config_file()
	self.alert_change("reload")


	NO_RELOAD = True


	def _remove_no_reload_codeblocks(file_path: str):
	"""Parse the file, remove the gr.no_reload code blocks, and write the file back to disk.

	Parameters:
	file_path (str): The path to the file to remove the no_reload code blocks from.
	"""

	with open(file_path, encoding="utf-8") as file:
	code = file.read()

	tree = ast.parse(code)

	def _is_gr_no_reload(expr: ast.AST) -> bool:
	"""Find with gr.no_reload context managers."""
	return (
	isinstance(expr, ast.If)
	and isinstance(expr.test, ast.Attribute)
	and isinstance(expr.test.value, ast.Name)
	and expr.test.value.id == "gr"
	and expr.test.attr == "NO_RELOAD"
	)

	# Find the positions of the code blocks to load
	for node in ast.walk(tree):
	if _is_gr_no_reload(node):
	assert isinstance(node, ast.If) # noqa: S101
	node.body = [ast.Pass(lineno=node.lineno, col_offset=node.col_offset)]

	# convert tree to string
	code_removed = compile(tree, filename=file_path, mode="exec")
	return code_removed


	def _find_module(source_file: Path) -> ModuleType:
	for s, v in sys.modules.items():
	if s not in {"__main__", "__mp_main__"} and getattr(v, "__file__", None) == str(
	source_file
	):
	return v
	raise ValueError(f"Cannot find module for source file: {source_file}")


	def watchfn(reloader: SourceFileReloader):
	"""Watch python files in a given module.

	get_changes is taken from uvicorn's default file watcher.
	"""

	# The thread running watchfn will be the thread reloading
	# the app. So we need to modify this thread_data attr here
	# so that subsequent calls to reload don't launch the app
	from gradio.cli.commands.reload import reload_thread

	reload_thread.running_reload = True

	def get_changes() -> Path \| None:
	for file in iter_py_files():
	try:
	mtime = file.stat().st_mtime
	except OSError: # pragma: nocover
	continue

	old_time = mtimes.get(file)
	if old_time is None:
	mtimes[file] = mtime
	continue
	elif mtime > old_time:
	return file
	return None

	def iter_py_files() -> Iterator[Path]:
	for reload_dir in reload_dirs:
	for path in list(reload_dir.rglob("*.py")):
	yield path.resolve()
	for path in list(reload_dir.rglob("*.css")):
	yield path.resolve()

	reload_dirs = [Path(dir_) for dir_ in reloader.watch_dirs]
	import sys

	for dir_ in reload_dirs:
	sys.path.insert(0, str(dir_))

	mtimes = {}
	# Need to import the module in this thread so that the
	# module is available in the namespace of this thread
	module = importlib.import_module(reloader.watch_module_name)
	while reloader.should_watch():
	changed = get_changes()
	if changed:
	print(f"Changes detected in: {changed}")
	try:
	# How source file reloading works
	# 1. Remove the gr.no_reload code blocks from the temp file
	# 2. Execute the changed source code in the original module's namespac
	# 3. Delete the package the module is in from sys.modules.
	# This is so that the updated module is available in the entire package
	# 4. Do 1-2 for the main demo file even if it did not change.
	# This is because the main demo file may import the changed file and we need the
	# changes to be reflected in the main demo file.

	if changed.suffix == ".py":
	changed_in_copy = _remove_no_reload_codeblocks(str(changed))
	if changed != reloader.demo_file:
	changed_module = _find_module(changed)
	exec(changed_in_copy, changed_module.__dict__)
	top_level_parent = sys.modules[
	changed_module.__name__.split(".")[0]
	]
	if top_level_parent != changed_module:
	importlib.reload(top_level_parent)

	changed_demo_file = _remove_no_reload_codeblocks(
	str(reloader.demo_file)
	)
	exec(changed_demo_file, module.__dict__)
	except Exception:
	print(
	f"Reloading {reloader.watch_module_name} failed with the following exception: "
	)
	traceback.print_exc()
	mtimes = {}
	reloader.alert_change("error")
	reloader.app.reload_error_message = traceback.format_exc()
	continue
	demo = getattr(module, reloader.demo_name)
	reloader.swap_blocks(demo)
	mtimes = {}
	time.sleep(0.05)


	def reassign_keys(old_blocks: Blocks, new_blocks: Blocks):
	from gradio.blocks import BlockContext

	assigned_keys = [
	block.key for block in new_blocks.children if block.key is not None
	]

	def reassign_context_keys(
	old_context: BlockContext \| None, new_context: BlockContext
	):
	for i, new_block in enumerate(new_context.children):
	if old_context and i < len(old_context.children):
	old_block = old_context.children[i]
	else:
	old_block = None
	if new_block.key is None:
	if (
	old_block.__class__ == new_block.__class__
	and old_block is not None
	and old_block.key not in assigned_keys
	and json.dumps(getattr(old_block, "value", None))
	== json.dumps(getattr(new_block, "value", None))
	):
	new_block.key = old_block.key
	else:
	new_block.key = f"__{new_block._id}__"

	if isinstance(new_block, BlockContext):
	if (
	isinstance(old_block, BlockContext)
	and old_block.__class__ == new_block.__class__
	):
	reassign_context_keys(old_block, new_block)
	else:
	reassign_context_keys(None, new_block)

	reassign_context_keys(old_blocks, new_blocks)


	def colab_check() -> bool:
	"""
	Check if interface is launching from Google Colab
	:return is_colab (bool): True or False
	"""
	is_colab = False
	try: # Check if running interactively using ipython.
	from IPython.core.getipython import get_ipython

	from_ipynb = get_ipython()
	if "google.colab" in str(from_ipynb):
	is_colab = True
	except (ImportError, NameError):
	pass
	return is_colab


	def kaggle_check() -> bool:
	return bool(
	os.environ.get("KAGGLE_KERNEL_RUN_TYPE") or os.environ.get("GFOOTBALL_DATA_DIR")
	)


	def sagemaker_check() -> bool:
	try:
	import boto3 # type: ignore

	client = boto3.client("sts")
	response = client.get_caller_identity()
	return "sagemaker" in response["Arn"].lower()
	except Exception:
	return False


	def ipython_check() -> bool:
	"""
	Check if interface is launching from iPython (not colab)
	:return is_ipython (bool): True or False
	"""
	is_ipython = False
	try: # Check if running interactively using ipython.
	from IPython.core.getipython import get_ipython

	if get_ipython() is not None:
	is_ipython = True
	except (ImportError, NameError):
	pass
	return is_ipython


	def get_space() -> str \| None:
	if os.getenv("SYSTEM") == "spaces":
	return os.getenv("SPACE_ID")
	return None


	def is_zero_gpu_space() -> bool:
	return os.getenv("SPACES_ZERO_GPU") == "true"


	def download_if_url(article: str) -> str:
	try:
	result = urllib.parse.urlparse(article)
	is_url = all([result.scheme, result.netloc, result.path])
	is_url = is_url and result.scheme in ["http", "https"]
	except ValueError:
	is_url = False

	if not is_url:
	return article

	try:
	response = httpx.get(article, timeout=3)
	if response.status_code == httpx.codes.OK: # pylint: disable=no-member
	article = response.text
	except (httpx.InvalidURL, httpx.RequestError, httpx.TimeoutException):
	pass

	return article


	def launch_counter() -> None:
	try:
	if not os.path.exists(JSON_PATH):
	launches = {"launches": 1}
	with open(JSON_PATH, "w+") as j:
	json.dump(launches, j)
	else:
	with open(JSON_PATH) as j:
	launches = json.load(j)
	launches["launches"] += 1
	if launches["launches"] in [25, 50, 150, 500, 1000]:
	print(en["BETA_INVITE"])
	with open(JSON_PATH, "w") as j:
	j.write(json.dumps(launches))
	except Exception:
	pass


	def get_default_args(func: Callable) -> list[Any]:
	signature = inspect.signature(func)
	return [
	v.default if v.default is not inspect.Parameter.empty else None
	for v in signature.parameters.values()
	]


	def assert_configs_are_equivalent_besides_ids(
	config1: dict, config2: dict, root_keys: tuple = ("mode",)
	):
	"""Allows you to test if two different Blocks configs produce the same demo.

	Parameters:
	config1 (dict): nested dict with config from the first Blocks instance
	config2 (dict): nested dict with config from the second Blocks instance
	root_keys (Tuple): an interable consisting of which keys to test for equivalence at
	the root level of the config. By default, only "mode" is tested,
	so keys like "version" are ignored.
	"""
	config1 = copy.deepcopy(config1)
	config2 = copy.deepcopy(config2)
	config1 = json.loads(json.dumps(config1)) # convert tuples to lists
	config2 = json.loads(json.dumps(config2))

	for key in root_keys:
	if config1[key] != config2[key]:
	raise ValueError(f"Configs have different: {key}")

	if len(config1["components"]) != len(config2["components"]):
	raise ValueError("# of components are different")

	def assert_same_components(config1_id, config2_id):
	c1 = list(filter(lambda c: c["id"] == config1_id, config1["components"]))
	if len(c1) == 0:
	raise ValueError(f"Could not find component with id {config1_id}")
	c1 = c1[0]
	c2 = list(filter(lambda c: c["id"] == config2_id, config2["components"]))
	if len(c2) == 0:
	raise ValueError(f"Could not find component with id {config2_id}")
	c2 = c2[0]
	c1 = copy.deepcopy(c1)
	c1.pop("id")
	c2 = copy.deepcopy(c2)
	c2.pop("id")
	if c1 != c2:
	raise ValueError(f"{c1} does not match {c2}")

	def same_children_recursive(children1, chidren2):
	for child1, child2 in zip(children1, chidren2):
	assert_same_components(child1["id"], child2["id"])
	if "children" in child1 or "children" in child2:
	same_children_recursive(child1["children"], child2["children"])

	children1 = config1["layout"]["children"]
	children2 = config2["layout"]["children"]
	same_children_recursive(children1, children2)

	for d1, d2 in zip(config1["dependencies"], config2["dependencies"]):
	for t1, t2 in zip(d1.pop("targets"), d2.pop("targets")):
	assert_same_components(t1[0], t2[0])
	for i1, i2 in zip(d1.pop("inputs"), d2.pop("inputs")):
	assert_same_components(i1, i2)
	for o1, o2 in zip(d1.pop("outputs"), d2.pop("outputs")):
	assert_same_components(o1, o2)

	if d1 != d2:
	raise ValueError(f"{d1} does not match {d2}")

	return True


	def delete_none(_dict: dict, skip_value: bool = False) -> dict:
	"""
	Delete keys whose values are None from a dictionary
	"""
	for key, value in list(_dict.items()):
	if skip_value and key == "value":
	continue
	elif value is None:
	del _dict[key]
	return _dict


	def resolve_singleton(_list: list[Any] \| Any) -> Any:
	if len(_list) == 1:
	return _list[0]
	else:
	return _list


	def get_all_components() -> list[type[Component] \| type[BlockContext]]:
	import gradio as gr

	classes_to_check = (
	gr.components.Component.__subclasses__()
	+ gr.blocks.BlockContext.__subclasses__() # type: ignore
	)
	subclasses = []

	while classes_to_check:
	subclass = classes_to_check.pop()
	classes_to_check.extend(subclass.__subclasses__())
	subclasses.append(subclass)
	return subclasses


	def core_gradio_components():
	return [
	class_
	for class_ in get_all_components()
	if class_.__module__.startswith("gradio.")
	]


	def component_or_layout_class(cls_name: str) -> type[Component] \| type[BlockContext]:
	"""
	Returns the component, template, or layout class with the given class name, or
	raises a ValueError if not found.

	Parameters:
	cls_name (str): lower-case string class name of a component
	Returns:
	cls: the component class
	"""
	import gradio.components as components_module
	from gradio.components import Component

	components = {c.__name__.lower(): c for c in get_all_components()}
	# add aliases such as 'text'
	for name, cls in components_module.__dict__.items():
	if isinstance(cls, type) and issubclass(cls, Component):
	components[name.lower()] = cls

	if cls_name.replace("_", "") in components:
	return components[cls_name.replace("_", "")]

	raise ValueError(
	f"No such component or layout: {cls_name}. "
	"It is possible it is a custom component, "
	"in which case make sure it is installed and imported in your python session."
	)


	def run_coro_in_background(func: Callable, args, *kwargs):
	"""
	Runs coroutines in background.

	Warning, be careful to not use this function in other than FastAPI scope, because the event_loop has not started yet.
	You can use it in any scope reached by FastAPI app.

	correct scope examples: endpoints in routes, Blocks.process_api
	incorrect scope examples: Blocks.launch

	Use startup_events in routes.py if you need to run a coro in background in Blocks.launch().


	Example:
	utils.run_coro_in_background(fn, args, *kwargs)

	Args:
	func:
	*args:
	**kwargs:

	Returns:

	"""
	event_loop = asyncio.get_event_loop()
	return event_loop.create_task(func(args, *kwargs))


	def run_sync_iterator_async(iterator):
	"""Helper for yielding StopAsyncIteration from sync iterators."""
	try:
	return next(iterator)
	except StopIteration:
	# raise a ValueError here because co-routines can't raise StopIteration themselves
	raise StopAsyncIteration() from None


	class SyncToAsyncIterator:
	"""Treat a synchronous iterator as async one."""

	def __init__(self, iterator, limiter) -> None:
	self.iterator = iterator
	self.limiter = limiter

	def __aiter__(self):
	return self

	async def __anext__(self):
	return await anyio.to_thread.run_sync(
	run_sync_iterator_async, self.iterator, limiter=self.limiter
	)


	async def async_iteration(iterator):
	# anext not introduced until 3.10 :(
	return await iterator.__anext__()


	@contextmanager
	def set_directory(path: Path \| str):
	"""Context manager that sets the working directory to the given path."""
	origin = Path().absolute()
	try:
	os.chdir(path)
	yield
	finally:
	os.chdir(origin)


	@contextmanager
	def no_raise_exception():
	"""Context manager that suppresses exceptions."""
	try:
	yield
	except Exception:
	pass


	def sanitize_value_for_csv(value: str \| Number) -> str \| Number:
	"""
	Sanitizes a value that is being written to a CSV file to prevent CSV injection attacks.
	Reference: https://owasp.org/www-community/attacks/CSV_Injection
	"""
	if isinstance(value, Number):
	return value
	unsafe_prefixes = ["=", "+", "-", "@", "\t", "\n"]
	unsafe_sequences = [",=", ",+", ",-", ",@", ",\t", ",\n"]
	if any(value.startswith(prefix) for prefix in unsafe_prefixes) or any(
	sequence in value for sequence in unsafe_sequences
	):
	value = f"'{value}"
	return value


	def sanitize_list_for_csv(values: list[Any]) -> list[Any]:
	"""
	Sanitizes a list of values (or a list of list of values) that is being written to a
	CSV file to prevent CSV injection attacks.
	"""
	sanitized_values = []
	for value in values:
	if isinstance(value, list):
	sanitized_value = [sanitize_value_for_csv(v) for v in value]
	sanitized_values.append(sanitized_value)
	else:
	sanitized_value = sanitize_value_for_csv(value)
	sanitized_values.append(sanitized_value)
	return sanitized_values


	def append_unique_suffix(name: str, list_of_names: list[str]):
	"""Appends a numerical suffix to `name` so that it does not appear in `list_of_names`."""
	set_of_names: set[str] = set(list_of_names) # for O(1) lookup
	if name not in set_of_names:
	return name
	else:
	suffix_counter = 1
	new_name = f"{name}_{suffix_counter}"
	while new_name in set_of_names:
	suffix_counter += 1
	new_name = f"{name}_{suffix_counter}"
	return new_name


	def validate_url(possible_url: str) -> bool:
	headers = {"User-Agent": "gradio (https://gradio.app/; gradio-team@huggingface.co)"}
	try:
	head_request = httpx.head(possible_url, headers=headers, follow_redirects=True)
	# some URLs, such as AWS S3 presigned URLs, return a 405 or a 403 for HEAD requests
	if head_request.status_code in (403, 405):
	return httpx.get(
	possible_url, headers=headers, follow_redirects=True
	).is_success
	return head_request.is_success
	except Exception:
	return False


	def is_update(val):
	return isinstance(val, dict) and "update" in val.get("__type__", "")


	def get_continuous_fn(fn: Callable, every: float) -> Callable:
	# For Wasm-compatibility, we need to use asyncio.sleep() instead of time.sleep(),
	# so we need to make the function async.
	async def continuous_coro(*args):
	while True:
	output = fn(*args)
	if isinstance(output, GeneratorType):
	for item in output:
	yield item
	elif isinstance(output, AsyncGeneratorType):
	async for item in output:
	yield item
	elif inspect.isawaitable(output):
	yield await output
	else:
	yield output
	await asyncio.sleep(every)

	return continuous_coro


	def function_wrapper(
	f: Callable,
	before_fn: Callable \| None = None,
	before_args: Iterable \| None = None,
	after_fn: Callable \| None = None,
	after_args: Iterable \| None = None,
	):
	before_args = [] if before_args is None else before_args
	after_args = [] if after_args is None else after_args
	if inspect.isasyncgenfunction(f):

	@functools.wraps(f)
	async def asyncgen_wrapper(args, *kwargs):
	iterator = f(args, *kwargs)
	while True:
	if before_fn:
	before_fn(*before_args)
	try:
	response = await iterator.__anext__()
	except StopAsyncIteration:
	if after_fn:
	after_fn(*after_args)
	break
	if after_fn:
	after_fn(*after_args)
	yield response

	return asyncgen_wrapper

	elif asyncio.iscoroutinefunction(f):

	@functools.wraps(f)
	async def async_wrapper(args, *kwargs):
	if before_fn:
	before_fn(*before_args)
	response = await f(args, *kwargs)
	if after_fn:
	after_fn(*after_args)
	return response

	return async_wrapper

	elif inspect.isgeneratorfunction(f):

	@functools.wraps(f)
	def gen_wrapper(args, *kwargs):
	iterator = f(args, *kwargs)
	while True:
	if before_fn:
	before_fn(*before_args)
	try:
	response = next(iterator)
	except StopIteration:
	if after_fn:
	after_fn(*after_args)
	break
	if after_fn:
	after_fn(*after_args)
	yield response

	return gen_wrapper

	else:

	@functools.wraps(f)
	def wrapper(args, *kwargs):
	if before_fn:
	before_fn(*before_args)
	response = f(args, *kwargs)
	if after_fn:
	after_fn(*after_args)
	return response

	return wrapper


	def get_function_with_locals(
	fn: Callable,
	blocks: Blocks,
	event_id: str \| None,
	in_event_listener: bool,
	request: Request \| None,
	state: SessionState \| None,
	):
	def before_fn(blocks, event_id):
	from gradio.context import LocalContext

	LocalContext.blocks.set(blocks)
	LocalContext.in_event_listener.set(in_event_listener)
	LocalContext.event_id.set(event_id)
	LocalContext.request.set(request)
	if state:
	LocalContext.blocks_config.set(state.blocks_config)

	def after_fn():
	from gradio.context import LocalContext

	LocalContext.in_event_listener.set(False)
	LocalContext.request.set(None)
	LocalContext.blocks_config.set(None)

	return function_wrapper(
	fn,
	before_fn=before_fn,
	before_args=(blocks, event_id),
	after_fn=after_fn,
	)


	async def cancel_tasks(task_ids: set[str]) -> list[str]:
	tasks = [(task, task.get_name()) for task in asyncio.all_tasks()]
	event_ids = []
	matching_tasks = []
	for task, name in tasks:
	if "<gradio-sep>" not in name:
	continue
	task_id, event_id = name.split("<gradio-sep>")
	if task_id in task_ids:
	matching_tasks.append(task)
	event_ids.append(event_id)
	task.cancel()
	await asyncio.gather(*matching_tasks, return_exceptions=True)
	return event_ids


	def set_task_name(task, session_hash: str, fn_index: int, event_id: str, batch: bool):
	if not batch:
	task.set_name(f"{session_hash}_{fn_index}<gradio-sep>{event_id}")


	def get_cancel_function(
	dependencies: list[dict[str, Any]],
	) -> tuple[Callable, list[int]]:
	fn_to_comp = {}
	for dep in dependencies:
	if Context.root_block:
	fn_index = next(
	i for i, d in enumerate(Context.root_block.fns) if d.get_config() == dep
	)
	fn_to_comp[fn_index] = [
	Context.root_block.blocks[o] for o in dep["outputs"]
	]

	async def cancel(session_hash: str) -> list[str]:
	task_ids = {f"{session_hash}_{fn}" for fn in fn_to_comp}
	event_ids = await cancel_tasks(task_ids)
	return event_ids

	return (
	cancel,
	list(fn_to_comp.keys()),
	)


	def get_type_hints(fn):
	# Importing gradio with the canonical abbreviation. Used in typing._eval_type.
	import gradio as gr # noqa: F401
	from gradio import OAuthProfile, OAuthToken, Request # noqa: F401

	if inspect.isfunction(fn) or inspect.ismethod(fn):
	pass
	elif callable(fn):
	fn = fn.__call__
	else:
	return {}

	try:
	return typing.get_type_hints(fn)
	except TypeError:
	# On Python 3.9 or earlier, get_type_hints throws a TypeError if the function
	# has a type annotation that include "\|". We resort to parsing the signature
	# manually using inspect.signature.
	type_hints = {}
	sig = inspect.signature(fn)
	for name, param in sig.parameters.items():
	if param.annotation is inspect.Parameter.empty:
	continue
	if param.annotation == "gr.OAuthProfile \| None":
	# Special case: we want to inject the OAuthProfile value even on Python 3.9
	type_hints[name] = Optional[OAuthProfile]
	if param.annotation == "gr.OAuthToken \| None":
	# Special case: we want to inject the OAuthToken value even on Python 3.9
	type_hints[name] = Optional[OAuthToken]
	if "\|" in str(param.annotation):
	continue
	# To convert the string annotation to a class, we use the
	# internal typing._eval_type function. This is not ideal, but
	# it's the only way to do it without eval-ing the string.
	# Since the API is internal, it may change in the future.
	try:
	type_hints[name] = typing._eval_type( # type: ignore
	typing.ForwardRef(param.annotation), globals(), locals()
	)
	except (NameError, TypeError):
	pass
	return type_hints


	def is_special_typed_parameter(name, parameter_types):
	from gradio.helpers import EventData
	from gradio.oauth import OAuthProfile, OAuthToken
	from gradio.routes import Request

	"""Checks if parameter has a type hint designating it as a gr.Request, gr.EventData, gr.OAuthProfile or gr.OAuthToken."""
	hint = parameter_types.get(name)
	if not hint:
	return False
	is_request = hint == Request
	is_oauth_arg = hint in (
	OAuthProfile,
	Optional[OAuthProfile],
	OAuthToken,
	Optional[OAuthToken],
	)
	is_event_data = inspect.isclass(hint) and issubclass(hint, EventData)
	return is_request or is_event_data or is_oauth_arg


	def check_function_inputs_match(fn: Callable, inputs: list, inputs_as_dict: bool):
	"""
	Checks if the input component set matches the function
	Returns: None if valid or if the function does not have a signature (e.g. is a built in),
	or a string error message if mismatch
	"""
	try:
	signature = inspect.signature(fn)
	except ValueError:
	return None
	parameter_types = get_type_hints(fn)
	min_args = 0
	max_args = 0
	infinity = -1
	for name, param in signature.parameters.items():
	has_default = param.default != param.empty
	if param.kind in [param.POSITIONAL_ONLY, param.POSITIONAL_OR_KEYWORD]:
	if not is_special_typed_parameter(name, parameter_types):
	if not has_default:
	min_args += 1
	max_args += 1
	elif param.kind == param.VAR_POSITIONAL:
	max_args = infinity
	elif param.kind == param.KEYWORD_ONLY and not has_default:
	return f"Keyword-only args must have default values for function {fn}"
	arg_count = 1 if inputs_as_dict else len(inputs)
	if min_args == max_args and max_args != arg_count:
	warnings.warn(
	f"Expected {max_args} arguments for function {fn}, received {arg_count}."
	)
	if arg_count < min_args:
	warnings.warn(
	f"Expected at least {min_args} arguments for function {fn}, received {arg_count}."
	)
	if max_args != infinity and arg_count > max_args:
	warnings.warn(
	f"Expected maximum {max_args} arguments for function {fn}, received {arg_count}."
	)


	class TupleNoPrint(tuple):
	# To remove printing function return in notebook
	def __repr__(self):
	return ""

	def __str__(self):
	return ""


	class MatplotlibBackendMananger:
	def __enter__(self):
	import matplotlib

	self._original_backend = matplotlib.get_backend()
	matplotlib.use("agg")

	def __exit__(self, exc_type, exc_val, exc_tb):
	import matplotlib

	matplotlib.use(self._original_backend)


	def tex2svg(formula, *_args):
	with MatplotlibBackendMananger():
	import matplotlib.pyplot as plt

	fontsize = 20
	dpi = 300
	plt.rc("mathtext", fontset="cm")
	fig = plt.figure(figsize=(0.01, 0.01))
	fig.text(0, 0, rf"${formula}$", fontsize=fontsize)
	output = BytesIO()
	fig.savefig( # type: ignore
	output,
	dpi=dpi,
	transparent=True,
	format="svg",
	bbox_inches="tight",
	pad_inches=0.0,
	)
	plt.close(fig)
	output.seek(0)
	xml_code = output.read().decode("utf-8")
	svg_start = xml_code.index("<svg ")
	svg_code = xml_code[svg_start:]
	svg_code = re.sub(r"<metadata>.*<\/metadata>", "", svg_code, flags=re.DOTALL)
	svg_code = re.sub(r' width="[^"]+"', "", svg_code)
	height_match = re.search(r'height="([\d.]+)pt"', svg_code)
	if height_match:
	height = float(height_match.group(1))
	new_height = height / fontsize # conversion from pt to em
	svg_code = re.sub(
	r'height="[\d.]+pt"', f'height="{new_height}em"', svg_code
	)
	copy_code = f"<span style='font-size: 0px'>{formula}</span>"
	return f"{copy_code}{svg_code}"


	def abspath(path: str \| Path) -> Path:
	"""Returns absolute path of a str or Path path, but does not resolve symlinks."""
	path = Path(path)

	if path.is_absolute():
	return path

	# recursively check if there is a symlink within the path
	is_symlink = path.is_symlink() or any(
	parent.is_symlink() for parent in path.parents
	)

	if is_symlink or path == path.resolve(): # in case path couldn't be resolved
	return Path.cwd() / path
	else:
	return path.resolve()


	def is_in_or_equal(path_1: str \| Path, path_2: str \| Path):
	"""
	True if path_1 is a descendant (i.e. located within) path_2 or if the paths are the
	same, returns False otherwise.
	Parameters:
	path_1: str or Path (to file or directory)
	path_2: str or Path (to file or directory)
	"""
	path_1, path_2 = abspath(path_1), abspath(path_2)
	try:
	relative_path = path_1.relative_to(path_2)
	if str(relative_path) == ".":
	return True
	relative_path = path_1.parent.relative_to(path_2)
	return ".." not in str(relative_path)
	except ValueError:
	return False
	return True


	@document()
	def set_static_paths(paths: list[str \| Path]) -> None:
	"""
	Set the static paths to be served by the gradio app.

	Static files are not moved to the gradio cache and are served directly from the file system.
	This function is useful when you want to serve files that you know will not be modified during the lifetime of the gradio app (like files used in gr.Examples).
	By setting static paths, your app will launch faster and it will consume less disk space.
	Calling this function will set the static paths for all gradio applications defined in the same interpreter session until it is called again or the session ends.
	To clear out the static paths, call this function with an empty list.

	Parameters:
	paths: List of filepaths or directory names to be served by the gradio app. If it is a directory name, ALL files located within that directory will be considered static and not moved to the gradio cache. This also means that ALL files in that directory will be accessible over the network.
	Example:
	import gradio as gr

	# Paths can be a list of strings or pathlib.Path objects
	# corresponding to filenames or directories.
	gr.set_static_paths(paths=["test/test_files/"])

	# The example files and the default value of the input
	# will not be copied to the gradio cache and will be served directly.
	demo = gr.Interface(
	lambda s: s.rotate(45),
	gr.Image(value="test/test_files/cheetah1.jpg", type="pil"),
	gr.Image(),
	examples=["test/test_files/bus.png"],
	)

	demo.launch()
	"""
	from gradio.data_classes import _StaticFiles

	_StaticFiles.all_paths.extend([Path(p).resolve() for p in paths])


	def is_static_file(file_path: Any):
	"""Returns True if the file is a static file (and not moved to cache)"""
	from gradio.data_classes import _StaticFiles

	return _is_static_file(file_path, _StaticFiles.all_paths)


	def _is_static_file(file_path: Any, static_files: list[Path]) -> bool:
	"""
	Returns True if the file is a static file (i.e. is is in the static files list).
	"""
	if not isinstance(file_path, (str, Path, FileData)):
	return False
	if isinstance(file_path, FileData):
	file_path = file_path.path
	if isinstance(file_path, str):
	file_path = Path(file_path)
	if not file_path.exists():
	return False
	return any(is_in_or_equal(file_path, static_file) for static_file in static_files)


	HTML_TAG_RE = re.compile("<.*?>")


	def remove_html_tags(raw_html: str \| None) -> str:
	return re.sub(HTML_TAG_RE, "", raw_html or "")


	def find_user_stack_level() -> int:
	"""
	Find the first stack frame not inside Gradio.
	"""
	frame = inspect.currentframe()
	n = 0
	while frame:
	fname = inspect.getfile(frame)
	if "/gradio/" not in fname.replace(os.sep, "/"):
	break
	frame = frame.f_back
	n += 1
	return n


	class NamedString(str):
	"""
	Subclass of str that includes a .name attribute equal to the value of the string itself. This class is used when returning
	a value from the `.preprocess()` methods of the File and UploadButton components. Before Gradio 4.0, these methods returned a file
	object which was then converted to a string filepath using the `.name` attribute. In Gradio 4.0, these methods now return a str
	filepath directly, but to maintain backwards compatibility, we use this class instead of a regular str.
	"""

	def __init__(self, *args):
	super().__init__()
	self.name = str(self) if args else ""


	def default_input_labels():
	"""
	A generator that provides default input labels for components when the user's function
	does not have named parameters. The labels are of the form "input 0", "input 1", etc.
	"""
	n = 0
	while True:
	yield f"input {n}"
	n += 1


	def get_extension_from_file_path_or_url(file_path_or_url: str) -> str:
	"""
	Returns the file extension (without the dot) from a file path or URL. If the file path or URL does not have a file extension, returns an empty string.
	For example, "https://example.com/avatar/xxxx.mp4?se=2023-11-16T06:51:23Z&sp=r" would return "mp4".
	"""
	parsed_url = urllib.parse.urlparse(file_path_or_url)
	file_extension = os.path.splitext(os.path.basename(parsed_url.path))[1]
	return file_extension[1:] if file_extension else ""


	def convert_to_dict_if_dataclass(value):
	if dataclasses.is_dataclass(value):
	return dataclasses.asdict(value)
	return value


	K = TypeVar("K")
	V = TypeVar("V")


	class LRUCache(OrderedDict, Generic[K, V]):
	def __init__(self, max_size: int = 100):
	super().__init__()
	self.max_size: int = max_size

	def __setitem__(self, key: K, value: V) -> None:
	if key in self:
	self.move_to_end(key)
	elif len(self) >= self.max_size:
	self.popitem(last=False)
	super().__setitem__(key, value)

	def __getitem__(self, key: K) -> V:
	return super().__getitem__(key)


	def get_cache_folder() -> Path:
	return Path(os.environ.get("GRADIO_EXAMPLES_CACHE", "gradio_cached_examples"))


	def diff(old, new):
	def compare_objects(obj1, obj2, path=None):
	if path is None:
	path = []
	edits = []

	if obj1 == obj2:
	return edits

	if type(obj1) != type(obj2):
	edits.append(("replace", path, obj2))
	return edits

	if isinstance(obj1, str) and obj2.startswith(obj1):
	edits.append(("append", path, obj2[len(obj1) :]))
	return edits

	if isinstance(obj1, list):
	common_length = min(len(obj1), len(obj2))
	for i in range(common_length):
	edits.extend(compare_objects(obj1[i], obj2[i], path + [i]))
	for i in range(common_length, len(obj1)):
	edits.append(("delete", path + [i], None))
	for i in range(common_length, len(obj2)):
	edits.append(("add", path + [i], obj2[i]))
	return edits

	if isinstance(obj1, dict):
	for key in obj1:
	if key in obj2:
	edits.extend(compare_objects(obj1[key], obj2[key], path + [key]))
	else:
	edits.append(("delete", path + [key], None))
	for key in obj2:
	if key not in obj1:
	edits.append(("add", path + [key], obj2[key]))
	return edits

	edits.append(("replace", path, obj2))
	return edits

	return compare_objects(old, new)


	def get_upload_folder() -> str:
	return os.environ.get("GRADIO_TEMP_DIR") or str(
	(Path(tempfile.gettempdir()) / "gradio").resolve()
	)


	def get_function_params(func: Callable) -> list[tuple[str, bool, Any]]:
	params_info = []
	signature = inspect.signature(func)
	for name, parameter in signature.parameters.items():
	if parameter.kind in (
	inspect.Parameter.VAR_POSITIONAL,
	inspect.Parameter.VAR_KEYWORD,
	):
	break
	if parameter.default is inspect.Parameter.empty:
	params_info.append((name, False, None))
	else:
	params_info.append((name, True, parameter.default))
	return params_info


	def simplify_file_data_in_str(s):
	"""
	If a FileData dictionary has been dumped as part of a string, this function will replace the dict with just the str filepath
	"""
	try:
	payload = json.loads(s)
	except json.JSONDecodeError:
	return s
	payload = client_utils.traverse(
	payload, lambda x: x["path"], client_utils.is_file_obj_with_meta
	)
	if isinstance(payload, str):
	return payload
	return json.dumps(payload)


	def sync_fn_to_generator(fn):
	def wrapped(args, *kwargs):
	yield fn(args, *kwargs)

	return wrapped


	def async_fn_to_generator(fn):
	async def wrapped(args, *kwargs):
	yield await fn(args, *kwargs)

	return wrapped


	def async_lambda(f: Callable) -> Callable:
	"""Turn a function into an async function.
	Useful for internal event handlers defined as lambda functions used in the codebase
	"""

	@wraps(f)
	async def function_wrapper(args, *kwargs):
	return f(args, *kwargs)

	return function_wrapper


	class FileSize:
	B = 1
	KB = 1024 * B
	MB = 1024 * KB
	GB = 1024 * MB
	TB = 1024 * GB


	def _parse_file_size(size: str \| int \| None) -> int \| None:
	if isinstance(size, int) or size is None:
	return size

	size = size.replace(" ", "")

	last_digit_index = next(
	(i for i, c in enumerate(size) if not c.isdigit()), len(size)
	)
	size_int, unit = int(size[:last_digit_index]), size[last_digit_index:].upper()
	multiple = getattr(FileSize, unit, None)
	if not multiple:
	raise ValueError(f"Invalid file size unit: {unit}")
	return multiple * size_int