open-webui/static/pyodide/pyodide.d.ts

// Generated by dts-bundle-generator v8.1.1

/**
 *
 * The Pyodide version.
 *
 * The version here is a Python version, following :pep:`440`. This is different
 * from the version in ``package.json`` which follows the node package manager
 * version convention.
 */
export declare const version: string;
/** @deprecated Use `import type { PyProxy } from "pyodide/ffi"` instead */
interface PyProxy {
	[x: string]: any;
}
declare class PyProxy {
	/** @private */
	$$flags: number;
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
	/**
	 * @hideconstructor
	 */
	constructor();
	/** @hidden */
	get [Symbol.toStringTag](): string;
	/**
	 * The name of the type of the object.
	 *
	 * Usually the value is ``"module.name"`` but for builtins or
	 * interpreter-defined types it is just ``"name"``. As pseudocode this is:
	 *
	 * .. code-block:: python
	 *
	 *    ty = type(x)
	 *    if ty.__module__ == 'builtins' or ty.__module__ == "__main__":
	 *        return ty.__name__
	 *    else:
	 *        ty.__module__ + "." + ty.__name__
	 *
	 */
	get type(): string;
	/**
	 * Returns `str(o)` (unless `pyproxyToStringRepr: true` was passed to
	 * :js:func:`loadPyodide` in which case it will return `repr(o)`)
	 */
	toString(): string;
	/**
	 * Destroy the :js:class:`~pyodide.ffi.PyProxy`. This will release the memory. Any further attempt
	 * to use the object will raise an error.
	 *
	 * In a browser supporting :js:data:`FinalizationRegistry`, Pyodide will
	 * automatically destroy the :js:class:`~pyodide.ffi.PyProxy` when it is garbage collected, however
	 * there is no guarantee that the finalizer will be run in a timely manner so
	 * it is better to destroy the proxy explicitly.
	 *
	 * @param options
	 * @param options.message The error message to print if use is attempted after
	 *        destroying. Defaults to "Object has already been destroyed".
	 *
	 */
	destroy(options?: {
		message?: string;
		destroyRoundtrip?: boolean;
	}): void;
	/**
	 * Make a new :js:class:`~pyodide.ffi.PyProxy` pointing to the same Python object.
	 * Useful if the :js:class:`~pyodide.ffi.PyProxy` is destroyed somewhere else.
	 */
	copy(): PyProxy;
	/**
	 * Converts the :js:class:`~pyodide.ffi.PyProxy` into a JavaScript object as best as possible. By
	 * default does a deep conversion, if a shallow conversion is desired, you can
	 * use ``proxy.toJs({depth : 1})``. See :ref:`Explicit Conversion of PyProxy
	 * <type-translations-pyproxy-to-js>` for more info.
	 * @param options
	 * @return The JavaScript object resulting from the conversion.
	 */
	toJs({ depth, pyproxies, create_pyproxies, dict_converter, default_converter, }?: {
		/** How many layers deep to perform the conversion. Defaults to infinite */
		depth?: number;
		/**
		 * If provided, :js:meth:`toJs` will store all PyProxies created in this
		 * list. This allows you to easily destroy all the PyProxies by iterating
		 * the list without having to recurse over the generated structure. The most
		 * common use case is to create a new empty list, pass the list as
		 * ``pyproxies``, and then later iterate over ``pyproxies`` to destroy all of
		 * created proxies.
		 */
		pyproxies?: PyProxy[];
		/**
		 * If false, :js:meth:`toJs` will throw a
		 * :py:exc:`~pyodide.ffi.ConversionError` rather than producing a
		 * :js:class:`~pyodide.ffi.PyProxy`.
		 */
		create_pyproxies?: boolean;
		/**
		 * A function to be called on an iterable of pairs ``[key, value]``. Convert
		 * this iterable of pairs to the desired output. For instance,
		 * :js:func:`Object.fromEntries` would convert the dict to an object,
		 * :js:func:`Array.from` converts it to an :js:class:`Array` of pairs, and
		 * ``(it) => new Map(it)`` converts it to a :js:class:`Map` (which is the
		 * default behavior).
		 */
		dict_converter?: (array: Iterable<[
			key: string,
			value: any
		]>) => any;
		/**
		 * Optional argument to convert objects with no default conversion. See the
		 * documentation of :meth:`~pyodide.ffi.to_js`.
		 */
		default_converter?: (obj: PyProxy, convert: (obj: PyProxy) => any, cacheConversion: (obj: PyProxy, result: any) => void) => any;
	}): any;
}
declare class PyProxyWithLength extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyProxyWithLength } from "pyodide/ffi"` instead */
interface PyProxyWithLength extends PyLengthMethods {
}
declare class PyLengthMethods {
	/**
	 * The length of the object.
	 */
	get length(): number;
}
declare class PyProxyWithGet extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyProxyWithGet } from "pyodide/ffi"` instead */
interface PyProxyWithGet extends PyGetItemMethods {
}
declare class PyGetItemMethods {
	/**
	 * This translates to the Python code ``obj[key]``.
	 *
	 * @param key The key to look up.
	 * @returns The corresponding value.
	 */
	get(key: any): any;
}
declare class PyProxyWithSet extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyProxyWithSet } from "pyodide/ffi"` instead */
interface PyProxyWithSet extends PySetItemMethods {
}
declare class PySetItemMethods {
	/**
	 * This translates to the Python code ``obj[key] = value``.
	 *
	 * @param key The key to set.
	 * @param value The value to set it to.
	 */
	set(key: any, value: any): void;
	/**
	 * This translates to the Python code ``del obj[key]``.
	 *
	 * @param key The key to delete.
	 */
	delete(key: any): void;
}
declare class PyProxyWithHas extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyProxyWithHas } from "pyodide/ffi"` instead */
interface PyProxyWithHas extends PyContainsMethods {
}
declare class PyContainsMethods {
	/**
	 * This translates to the Python code ``key in obj``.
	 *
	 * @param key The key to check for.
	 * @returns Is ``key`` present?
	 */
	has(key: any): boolean;
}
declare class PyIterable extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyIterable } from "pyodide/ffi"` instead */
interface PyIterable extends PyIterableMethods {
}
declare class PyIterableMethods {
	/**
	 * This translates to the Python code ``iter(obj)``. Return an iterator
	 * associated to the proxy. See the documentation for
	 * :js:data:`Symbol.iterator`.
	 *
	 * This will be used implicitly by ``for(let x of proxy){}``.
	 */
	[Symbol.iterator](): Iterator<any, any, any>;
}
declare class PyAsyncIterable extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyAsyncIterable } from "pyodide/ffi"` instead */
interface PyAsyncIterable extends PyAsyncIterableMethods {
}
declare class PyAsyncIterableMethods {
	/**
	 * This translates to the Python code ``aiter(obj)``. Return an async iterator
	 * associated to the proxy. See the documentation for :js:data:`Symbol.asyncIterator`.
	 *
	 * This will be used implicitly by ``for(await let x of proxy){}``.
	 */
	[Symbol.asyncIterator](): AsyncIterator<any, any, any>;
}
declare class PyIterator extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyIterator } from "pyodide/ffi"` instead */
interface PyIterator extends PyIteratorMethods {
}
declare class PyIteratorMethods {
	/** @private */
	[Symbol.iterator](): this;
	/**
	 * This translates to the Python code ``next(obj)``. Returns the next value of
	 * the generator. See the documentation for :js:meth:`Generator.next` The
	 * argument will be sent to the Python generator.
	 *
	 * This will be used implicitly by ``for(let x of proxy){}``.
	 *
	 * @param any The value to send to the generator. The value will be assigned
	 * as a result of a yield expression.
	 * @returns An Object with two properties: ``done`` and ``value``. When the
	 * generator yields ``some_value``, ``next`` returns ``{done : false, value :
	 * some_value}``. When the generator raises a :py:exc:`StopIteration`
	 * exception, ``next`` returns ``{done : true, value : result_value}``.
	 */
	next(arg?: any): IteratorResult<any, any>;
}
declare class PyGenerator extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyGenerator } from "pyodide/ffi"` instead */
interface PyGenerator extends PyGeneratorMethods {
}
declare class PyGeneratorMethods {
	/**
	 * Throws an exception into the Generator.
	 *
	 * See the documentation for :js:meth:`Generator.throw`.
	 *
	 * @param exception Error The error to throw into the generator. Must be an
	 * instanceof ``Error``.
	 * @returns An Object with two properties: ``done`` and ``value``. When the
	 * generator yields ``some_value``, ``return`` returns ``{done : false, value
	 * : some_value}``. When the generator raises a
	 * ``StopIteration(result_value)`` exception, ``return`` returns ``{done :
	 * true, value : result_value}``.
	 */
	throw(exc: any): IteratorResult<any, any>;
	/**
	 * Throws a :py:exc:`GeneratorExit` into the generator and if the
	 * :py:exc:`GeneratorExit` is not caught returns the argument value ``{done:
	 * true, value: v}``. If the generator catches the :py:exc:`GeneratorExit` and
	 * returns or yields another value the next value of the generator this is
	 * returned in the normal way. If it throws some error other than
	 * :py:exc:`GeneratorExit` or :py:exc:`StopIteration`, that error is propagated. See
	 * the documentation for :js:meth:`Generator.return`.
	 *
	 * @param any The value to return from the generator.
	 * @returns An Object with two properties: ``done`` and ``value``. When the
	 * generator yields ``some_value``, ``return`` returns ``{done : false, value
	 * : some_value}``. When the generator raises a
	 * ``StopIteration(result_value)`` exception, ``return`` returns ``{done :
	 * true, value : result_value}``.
	 */
	return(v: any): IteratorResult<any, any>;
}
declare class PyAsyncIterator extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyAsyncIterator } from "pyodide/ffi"` instead */
interface PyAsyncIterator extends PyAsyncIteratorMethods {
}
declare class PyAsyncIteratorMethods {
	/** @private */
	[Symbol.asyncIterator](): this;
	/**
	 * This translates to the Python code ``anext(obj)``. Returns the next value
	 * of the asynchronous iterator. The argument will be sent to the Python
	 * iterator (if it's a generator for instance).
	 *
	 * This will be used implicitly by ``for(let x of proxy){}``.
	 *
	 * @param any The value to send to a generator. The value will be assigned as
	 * a result of a yield expression.
	 * @returns An Object with two properties: ``done`` and ``value``. When the
	 * iterator yields ``some_value``, ``next`` returns ``{done : false, value :
	 * some_value}``. When the giterator is done, ``next`` returns
	 * ``{done : true }``.
	 */
	next(arg?: any): Promise<IteratorResult<any, any>>;
}
declare class PyAsyncGenerator extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyAsyncGenerator } from "pyodide/ffi"` instead */
interface PyAsyncGenerator extends PyAsyncGeneratorMethods {
}
declare class PyAsyncGeneratorMethods {
	/**
	 * Throws an exception into the Generator.
	 *
	 * See the documentation for :js:meth:`AsyncGenerator.throw`.
	 *
	 * @param exception Error The error to throw into the generator. Must be an
	 * instanceof ``Error``.
	 * @returns An Object with two properties: ``done`` and ``value``. When the
	 * generator yields ``some_value``, ``return`` returns ``{done : false, value
	 * : some_value}``. When the generator raises a
	 * ``StopIteration(result_value)`` exception, ``return`` returns ``{done :
	 * true, value : result_value}``.
	 */
	throw(exc: any): Promise<IteratorResult<any, any>>;
	/**
	 * Throws a :py:exc:`GeneratorExit` into the generator and if the
	 * :py:exc:`GeneratorExit` is not caught returns the argument value ``{done:
	 * true, value: v}``. If the generator catches the :py:exc:`GeneratorExit` and
	 * returns or yields another value the next value of the generator this is
	 * returned in the normal way. If it throws some error other than
	 * :py:exc:`GeneratorExit` or :py:exc:`StopAsyncIteration`, that error is
	 * propagated. See the documentation for :js:meth:`AsyncGenerator.throw`
	 *
	 * @param any The value to return from the generator.
	 * @returns An Object with two properties: ``done`` and ``value``. When the
	 * generator yields ``some_value``, ``return`` returns ``{done : false, value
	 * : some_value}``. When the generator raises a :py:exc:`StopAsyncIteration`
	 * exception, ``return`` returns ``{done : true, value : result_value}``.
	 */
	return(v: any): Promise<IteratorResult<any, any>>;
}
declare class PySequence extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PySequence } from "pyodide/ffi"` instead */
interface PySequence extends PySequenceMethods {
}
declare class PySequenceMethods {
	/** @hidden */
	get [Symbol.isConcatSpreadable](): boolean;
	/**
	 * See :js:meth:`Array.join`. The :js:meth:`Array.join` method creates and
	 * returns a new string by concatenating all of the elements in the
	 * :py:class:`~collections.abc.Sequence`.
	 *
	 * @param separator A string to separate each pair of adjacent elements of the
	 * Sequence.
	 *
	 * @returns  A string with all Sequence elements joined.
	 */
	join(separator?: string): string;
	/**
	 * See :js:meth:`Array.slice`. The :js:meth:`Array.slice` method returns a
	 * shallow copy of a portion of a :py:class:`~collections.abc.Sequence` into a
	 * new array object selected from ``start`` to ``stop`` (`stop` not included)
	 * @param start Zero-based index at which to start extraction. Negative index
	 * counts back from the end of the Sequence.
	 * @param stop Zero-based index at which to end extraction. Negative index
	 * counts back from the end of the Sequence.
	 * @returns A new array containing the extracted elements.
	 */
	slice(start?: number, stop?: number): any;
	/**
	 * See :js:meth:`Array.lastIndexOf`. Returns the last index at which a given
	 * element can be found in the Sequence, or -1 if it is not present.
	 * @param elt Element to locate in the Sequence.
	 * @param fromIndex Zero-based index at which to start searching backwards,
	 * converted to an integer. Negative index counts back from the end of the
	 * Sequence.
	 * @returns The last index of the element in the Sequence; -1 if not found.
	 */
	lastIndexOf(elt: any, fromIndex?: number): number;
	/**
	 * See :js:meth:`Array.indexOf`. Returns the first index at which a given
	 * element can be found in the Sequence, or -1 if it is not present.
	 * @param elt Element to locate in the Sequence.
	 * @param fromIndex Zero-based index at which to start searching, converted to
	 * an integer. Negative index counts back from the end of the Sequence.
	 * @returns The first index of the element in the Sequence; -1 if not found.
	 */
	indexOf(elt: any, fromIndex?: number): number;
	/**
	 * See :js:meth:`Array.forEach`. Executes a provided function once for each
	 * ``Sequence`` element.
	 * @param callbackfn A function to execute for each element in the ``Sequence``. Its
	 * return value is discarded.
	 * @param thisArg A value to use as ``this`` when executing ``callbackFn``.
	 */
	forEach(callbackfn: (elt: any) => void, thisArg?: any): void;
	/**
	 * See :js:meth:`Array.map`. Creates a new array populated with the results of
	 * calling a provided function on every element in the calling ``Sequence``.
	 * @param callbackfn A function to execute for each element in the ``Sequence``. Its
	 * return value is added as a single element in the new array.
	 * @param thisArg A value to use as ``this`` when executing ``callbackFn``.
	 */
	map<U>(callbackfn: (elt: any, index: number, array: any) => U, thisArg?: any): U[];
	/**
	 * See :js:meth:`Array.filter`. Creates a shallow copy of a portion of a given
	 * ``Sequence``, filtered down to just the elements from the given array that pass
	 * the test implemented by the provided function.
	 * @param callbackfn A function to execute for each element in the array. It
	 * should return a truthy value to keep the element in the resulting array,
	 * and a falsy value otherwise.
	 * @param thisArg A value to use as ``this`` when executing ``predicate``.
	 */
	filter(predicate: (elt: any, index: number, array: any) => boolean, thisArg?: any): any[];
	/**
	 * See :js:meth:`Array.some`. Tests whether at least one element in the
	 * ``Sequence`` passes the test implemented by the provided function.
	 * @param callbackfn A function to execute for each element in the
	 * ``Sequence``. It should return a truthy value to indicate the element
	 * passes the test, and a falsy value otherwise.
	 * @param thisArg A value to use as ``this`` when executing ``predicate``.
	 */
	some(predicate: (value: any, index: number, array: any[]) => unknown, thisArg?: any): boolean;
	/**
	 * See :js:meth:`Array.every`. Tests whether every element in the ``Sequence``
	 * passes the test implemented by the provided function.
	 * @param callbackfn A function to execute for each element in the
	 * ``Sequence``. It should return a truthy value to indicate the element
	 * passes the test, and a falsy value otherwise.
	 * @param thisArg A value to use as ``this`` when executing ``predicate``.
	 */
	every(predicate: (value: any, index: number, array: any[]) => unknown, thisArg?: any): boolean;
	/**
	 * See :js:meth:`Array.reduce`. Executes a user-supplied "reducer" callback
	 * function on each element of the Sequence, in order, passing in the return
	 * value from the calculation on the preceding element. The final result of
	 * running the reducer across all elements of the Sequence is a single value.
	 * @param callbackfn A function to execute for each element in the ``Sequence``. Its
	 * return value is discarded.
	 * @param thisArg A value to use as ``this`` when executing ``callbackfn``.
	 */
	reduce(callbackfn: (previousValue: any, currentValue: any, currentIndex: number, array: any) => any, initialValue?: any): any;
	/**
	 * See :js:meth:`Array.reduceRight`. Applies a function against an accumulator
	 * and each value of the Sequence (from right to left) to reduce it to a
	 * single value.
	 * @param callbackfn A function to execute for each element in the Sequence.
	 * Its return value is discarded.
	 * @param thisArg A value to use as ``this`` when executing ``callbackFn``.
	 */
	reduceRight(callbackfn: (previousValue: any, currentValue: any, currentIndex: number, array: any) => any, initialValue: any): any;
	/**
	 * See :js:meth:`Array.at`. Takes an integer value and returns the item at
	 * that index.
	 * @param index Zero-based index of the Sequence element to be returned,
	 * converted to an integer. Negative index counts back from the end of the
	 * Sequence.
	 * @returns The element in the Sequence matching the given index.
	 */
	at(index: number): any;
	/**
	 * The :js:meth:`Array.concat` method is used to merge two or more arrays.
	 * This method does not change the existing arrays, but instead returns a new
	 * array.
	 * @param rest Arrays and/or values to concatenate into a new array.
	 * @returns A new Array instance.
	 */
	concat(...rest: ConcatArray<any>[]): any[];
	/**
	 * The  :js:meth:`Array.includes` method determines whether a Sequence
	 * includes a certain value among its entries, returning true or false as
	 * appropriate.
	 * @param elt
	 * @returns
	 */
	includes(elt: any): any;
	/**
	 * The :js:meth:`Array.entries` method returns a new iterator object that
	 * contains the key/value pairs for each index in the ``Sequence``.
	 * @returns A new iterator object.
	 */
	entries(): IterableIterator<[
		number,
		any
	]>;
	/**
	 * The :js:meth:`Array.keys` method returns a new iterator object that
	 * contains the keys for each index in the ``Sequence``.
	 * @returns A new iterator object.
	 */
	keys(): IterableIterator<number>;
	/**
	 * The :js:meth:`Array.values` method returns a new iterator object that
	 * contains the values for each index in the ``Sequence``.
	 * @returns A new iterator object.
	 */
	values(): IterableIterator<any>;
	/**
	 * The :js:meth:`Array.find` method returns the first element in the provided
	 * array that satisfies the provided testing function.
	 * @param predicate A function to execute for each element in the
	 * ``Sequence``. It should return a truthy value to indicate a matching
	 * element has been found, and a falsy value otherwise.
	 * @param thisArg A value to use as ``this`` when executing ``predicate``.
	 * @returns The first element in the ``Sequence`` that satisfies the provided
	 * testing function.
	 */
	find(predicate: (value: any, index: number, obj: any[]) => any, thisArg?: any): any;
	/**
	 * The :js:meth:`Array.findIndex` method returns the index of the first
	 * element in the provided array that satisfies the provided testing function.
	 * @param predicate A function to execute for each element in the
	 * ``Sequence``. It should return a truthy value to indicate a matching
	 * element has been found, and a falsy value otherwise.
	 * @param thisArg A value to use as ``this`` when executing ``predicate``.
	 * @returns The index of the first element in the ``Sequence`` that satisfies
	 * the provided testing function.
	 */
	findIndex(predicate: (value: any, index: number, obj: any[]) => any, thisArg?: any): number;
}
declare class PyMutableSequence extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyMutableSequence } from "pyodide/ffi"` instead */
interface PyMutableSequence extends PyMutableSequenceMethods {
}
declare class PyMutableSequenceMethods {
	/**
	 * The :js:meth:`Array.reverse` method reverses a :js:class:`PyMutableSequence` in
	 * place.
	 * @returns A reference to the same :js:class:`PyMutableSequence`
	 */
	reverse(): PyMutableSequence;
	/**
	 * The :js:meth:`Array.sort` method sorts the elements of a
	 * :js:class:`PyMutableSequence` in place.
	 * @param compareFn A function that defines the sort order.
	 * @returns A reference to the same :js:class:`PyMutableSequence`
	 */
	sort(compareFn?: (a: any, b: any) => number): PyMutableSequence;
	/**
	 * The :js:meth:`Array.splice` method changes the contents of a
	 * :js:class:`PyMutableSequence` by removing or replacing existing elements and/or
	 * adding new elements in place.
	 * @param start Zero-based index at which to start changing the
	 * :js:class:`PyMutableSequence`.
	 * @param deleteCount An integer indicating the number of elements in the
	 * :js:class:`PyMutableSequence` to remove from ``start``.
	 * @param items The elements to add to the :js:class:`PyMutableSequence`, beginning from
	 * ``start``.
	 * @returns An array containing the deleted elements.
	 */
	splice(start: number, deleteCount?: number, ...items: any[]): any[];
	/**
	 * The :js:meth:`Array.push` method adds the specified elements to the end of
	 * a :js:class:`PyMutableSequence`.
	 * @param elts The element(s) to add to the end of the :js:class:`PyMutableSequence`.
	 * @returns The new length property of the object upon which the method was
	 * called.
	 */
	push(...elts: any[]): any;
	/**
	 * The :js:meth:`Array.pop` method removes the last element from a
	 * :js:class:`PyMutableSequence`.
	 * @returns The removed element from the :js:class:`PyMutableSequence`; undefined if the
	 * :js:class:`PyMutableSequence` is empty.
	 */
	pop(): any;
	/**
	 * The :js:meth:`Array.shift` method removes the first element from a
	 * :js:class:`PyMutableSequence`.
	 * @returns The removed element from the :js:class:`PyMutableSequence`; undefined if the
	 * :js:class:`PyMutableSequence` is empty.
	 */
	shift(): any;
	/**
	 * The :js:meth:`Array.unshift` method adds the specified elements to the
	 * beginning of a :js:class:`PyMutableSequence`.
	 * @param elts The elements to add to the front of the :js:class:`PyMutableSequence`.
	 * @returns The new length of the :js:class:`PyMutableSequence`.
	 */
	unshift(...elts: any[]): any;
	/**
	 * The :js:meth:`Array.copyWithin` method shallow copies part of a
	 * :js:class:`PyMutableSequence` to another location in the same :js:class:`PyMutableSequence`
	 * without modifying its length.
	 * @param target Zero-based index at which to copy the sequence to.
	 * @param start Zero-based index at which to start copying elements from.
	 * @param end Zero-based index at which to end copying elements from.
	 * @returns The modified :js:class:`PyMutableSequence`.
	 */
	copyWithin(target: number, start?: number, end?: number): any;
	/**
	 * The :js:meth:`Array.fill` method changes all elements in an array to a
	 * static value, from a start index to an end index.
	 * @param value Value to fill the array with.
	 * @param start Zero-based index at which to start filling. Default 0.
	 * @param end Zero-based index at which to end filling. Default
	 * ``list.length``.
	 * @returns
	 */
	fill(value: any, start?: number, end?: number): any;
}
declare class PyAwaitable extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyAwaitable } from "pyodide/ffi"` instead */
interface PyAwaitable extends Promise<any> {
}
declare class PyCallable extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyCallable;
}
/** @deprecated Use `import type { PyCallable } from "pyodide/ffi"` instead */
interface PyCallable extends PyCallableMethods {
	(...args: any[]): any;
}
declare class PyCallableMethods {
	/**
	 * The ``apply()`` method calls the specified function with a given this
	 * value, and arguments provided as an array (or an array-like object). Like
	 * :js:meth:`Function.apply`.
	 *
	 * @param thisArg The ``this`` argument. Has no effect unless the
	 * :js:class:`~pyodide.ffi.PyCallable` has :js:meth:`captureThis` set. If
	 * :js:meth:`captureThis` is set, it will be passed as the first argument to
	 * the Python function.
	 * @param jsargs The array of arguments
	 * @returns The result from the function call.
	 */
	apply(thisArg: any, jsargs: any): any;
	/**
	 * Calls the function with a given this value and arguments provided
	 * individually. See :js:meth:`Function.call`.
	 *
	 * @param thisArg The ``this`` argument. Has no effect unless the
	 * :js:class:`~pyodide.ffi.PyCallable` has :js:meth:`captureThis` set. If
	 * :js:meth:`captureThis` is set, it will be passed as the first argument to
	 * the Python function.
	 * @param jsargs The arguments
	 * @returns The result from the function call.
	 */
	call(thisArg: any, ...jsargs: any): any;
	/**
	 * Call the function with keyword arguments. The last argument must be an
	 * object with the keyword arguments.
	 */
	callKwargs(...jsargs: any): any;
	/**
	 * Call the function in a "relaxed" manner. Any extra arguments will be
	 * ignored. This matches the behavior of JavaScript functions more accurately.
	 *
	 * Any extra arguments will be ignored. This matches the behavior of
	 * JavaScript functions more accurately. Missing arguments are **NOT** filled
	 * with `None`. If too few arguments are passed, this will still raise a
	 * TypeError.
	 *
	 * This uses :py:func:`pyodide.code.relaxed_call`.
	 */
	callRelaxed(...jsargs: any): any;
	/**
	 * Call the function with keyword arguments in a "relaxed" manner. The last
	 * argument must be an object with the keyword arguments. Any extra arguments
	 * will be ignored. This matches the behavior of JavaScript functions more
	 * accurately.
	 *
	 * Missing arguments are **NOT** filled with `None`. If too few arguments are
	 * passed, this will still raise a TypeError. Also, if the same argument is
	 * passed as both a keyword argument and a positional argument, it will raise
	 * an error.
	 *
	 * This uses :py:func:`pyodide.code.relaxed_call`.
	 */
	callKwargsRelaxed(...jsargs: any): any;
	/**
	 * Call the function with stack switching enabled. Functions called this way
	 * can use
	 * :py:meth:`PyodideFuture.syncify() <pyodide.webloop.PyodideFuture.syncify>`
	 * to block until a :py:class:`~asyncio.Future` or :js:class:`Promise` is
	 * resolved. Only works in runtimes with JS Promise integration.
	 *
	 * .. admonition:: Experimental
	 *    :class: warning
	 *
	 *    This feature is not yet stable.
	 *
	 * @experimental
	 */
	callSyncifying(...jsargs: any): Promise<any>;
	/**
	 * Call the function with stack switching enabled. The last argument must be
	 * an object with the keyword arguments. Functions called this way can use
	 * :py:meth:`PyodideFuture.syncify() <pyodide.webloop.PyodideFuture.syncify>`
	 * to block until a :py:class:`~asyncio.Future` or :js:class:`Promise` is
	 * resolved. Only works in runtimes with JS Promise integration.
	 *
	 * .. admonition:: Experimental
	 *    :class: warning
	 *
	 *    This feature is not yet stable.
	 *
	 * @experimental
	 */
	callSyncifyingKwargs(...jsargs: any): Promise<any>;
	/**
	 * The ``bind()`` method creates a new function that, when called, has its
	 * ``this`` keyword set to the provided value, with a given sequence of
	 * arguments preceding any provided when the new function is called. See
	 * :js:meth:`Function.bind`.
	 *
	 * If the :js:class:`~pyodide.ffi.PyCallable` does not have
	 * :js:meth:`captureThis` set, the ``this`` parameter will be discarded. If it
	 * does have :js:meth:`captureThis` set, ``thisArg`` will be set to the first
	 * argument of the Python function. The returned proxy and the original proxy
	 * have the same lifetime so destroying either destroys both.
	 *
	 * @param thisArg The value to be passed as the ``this`` parameter to the
	 * target function ``func`` when the bound function is called.
	 * @param jsargs Extra arguments to prepend to arguments provided to the bound
	 * function when invoking ``func``.
	 * @returns
	 */
	bind(thisArg: any, ...jsargs: any): PyProxy;
	/**
	 * Returns a :js:class:`~pyodide.ffi.PyProxy` that passes ``this`` as the first argument to the
	 * Python function. The returned :js:class:`~pyodide.ffi.PyProxy` has the internal ``captureThis``
	 * property set.
	 *
	 * It can then be used as a method on a JavaScript object. The returned proxy
	 * and the original proxy have the same lifetime so destroying either destroys
	 * both.
	 *
	 * For example:
	 *
	 * .. code-block:: pyodide
	 *
	 *    let obj = { a : 7 };
	 *    pyodide.runPython(`
	 *      def f(self):
	 *        return self.a
	 *    `);
	 *    // Without captureThis, it doesn't work to use f as a method for obj:
	 *    obj.f = pyodide.globals.get("f");
	 *    obj.f(); // raises "TypeError: f() missing 1 required positional argument: 'self'"
	 *    // With captureThis, it works fine:
	 *    obj.f = pyodide.globals.get("f").captureThis();
	 *    obj.f(); // returns 7
	 *
	 * @returns The resulting :js:class:`~pyodide.ffi.PyProxy`. It has the same lifetime as the
	 * original :js:class:`~pyodide.ffi.PyProxy` but passes ``this`` to the wrapped function.
	 *
	 */
	captureThis(): PyProxy;
}
declare class PyBuffer extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyBuffer;
}
/** @deprecated Use `import type { PyBuffer } from "pyodide/ffi"` instead */
interface PyBuffer extends PyBufferMethods {
}
declare class PyBufferMethods {
	/**
	 * Get a view of the buffer data which is usable from JavaScript. No copy is
	 * ever performed.
	 *
	 * We do not support suboffsets, if the buffer requires suboffsets we will
	 * throw an error. JavaScript nd array libraries can't handle suboffsets
	 * anyways. In this case, you should use the :js:meth:`~PyProxy.toJs` api or
	 * copy the buffer to one that doesn't use suboffsets (using e.g.,
	 * :py:func:`numpy.ascontiguousarray`).
	 *
	 * If the buffer stores big endian data or half floats, this function will
	 * fail without an explicit type argument. For big endian data you can use
	 * :js:meth:`~PyProxy.toJs`. :js:class:`DataView` has support for big endian
	 * data, so you might want to pass ``'dataview'`` as the type argument in that
	 * case.
	 *
	 * @param type The type of the :js:attr:`~pyodide.ffi.PyBufferView.data` field
	 * in the output. Should be one of: ``"i8"``, ``"u8"``, ``"u8clamped"``,
	 * ``"i16"``, ``"u16"``, ``"i32"``, ``"u32"``, ``"i32"``, ``"u32"``,
	 * ``"i64"``, ``"u64"``, ``"f32"``, ``"f64``, or ``"dataview"``. This argument
	 * is optional, if absent :js:meth:`~pyodide.ffi.PyBuffer.getBuffer` will try
	 * to determine the appropriate output type based on the buffer format string
	 * (see :std:ref:`struct-format-strings`).
	 */
	getBuffer(type?: string): PyBufferView;
}
declare class PyDict extends PyProxy {
	/** @private */
	static [Symbol.hasInstance](obj: any): obj is PyProxy;
}
/** @deprecated Use `import type { PyDict } from "pyodide/ffi"` instead */
interface PyDict extends PyProxyWithGet, PyProxyWithSet, PyProxyWithHas, PyProxyWithLength, PyIterable {
}
/** @deprecated Use `import type { PyBufferView } from "pyodide/ffi"` instead */
declare class PyBufferView {
	/**
	 * The offset of the first entry of the array. For instance if our array
	 * is 3d, then you will find ``array[0,0,0]`` at
	 * ``pybuf.data[pybuf.offset]``
	 */
	offset: number;
	/**
	 * If the data is read only, you should not modify it. There is no way for us
	 * to enforce this, but it may cause very weird behavior. See
	 * :py:attr:`memoryview.readonly`.
	 */
	readonly: boolean;
	/**
	 * The format string for the buffer. See :ref:`struct-format-strings`
	 * and :py:attr:`memoryview.format`.
	 */
	format: string;
	/**
	 * How large is each entry in bytes? See :py:attr:`memoryview.itemsize`.
	 */
	itemsize: number;
	/**
	 * The number of dimensions of the buffer. If ``ndim`` is 0, the buffer
	 * represents a single scalar or struct. Otherwise, it represents an
	 * array. See :py:attr:`memoryview.ndim`.
	 */
	ndim: number;
	/**
	 * The total number of bytes the buffer takes up. This is equal to
	 * :js:attr:`buff.data.byteLength <TypedArray.byteLength>`. See :py:attr:`memoryview.nbytes`.
	 */
	nbytes: number;
	/**
	 * The shape of the buffer, that is how long it is in each dimension.
	 * The length will be equal to ``ndim``. For instance, a 2x3x4 array
	 * would have shape ``[2, 3, 4]``. See :py:attr:`memoryview.shape`.
	 */
	shape: number[];
	/**
	 * An array of of length ``ndim`` giving the number of elements to skip
	 * to get to a new element in each dimension. See the example definition
	 * of a ``multiIndexToIndex`` function above. See :py:attr:`memoryview.strides`.
	 */
	strides: number[];
	/**
	 * The actual data. A typed array of an appropriate size backed by a segment
	 * of the WASM memory.
	 *
	 * The ``type`` argument of :js:meth:`~pyodide.ffi.PyBuffer.getBuffer` determines
	 * which sort of :js:class:`TypedArray` or :js:class:`DataView` to return. By
	 * default :js:meth:`~pyodide.ffi.PyBuffer.getBuffer` will look at the format string
	 * to determine the most appropriate option. Most often the result is a
	 * :js:class:`Uint8Array`.
	 *
	 * .. admonition:: Contiguity
	 *    :class: warning
	 *
	 *    If the buffer is not contiguous, the :js:attr:`~PyBufferView.readonly`
	 *    TypedArray will contain data that is not part of the buffer. Modifying
	 *    this data leads to undefined behavior.
	 *
	 * .. admonition:: Read only buffers
	 *    :class: warning
	 *
	 *    If :js:attr:`buffer.readonly <PyBufferView.readonly>` is ``true``, you
	 *    should not modify the buffer. Modifying a read only buffer leads to
	 *    undefined behavior.
	 *
	 */
	data: TypedArray;
	/**
	 * Is it C contiguous? See :py:attr:`memoryview.c_contiguous`.
	 */
	c_contiguous: boolean;
	/**
	 * Is it Fortran contiguous? See :py:attr:`memoryview.f_contiguous`.
	 */
	f_contiguous: boolean;
	_released: boolean;
	_view_ptr: number;
	/** @private */
	constructor();
	/**
	 * Release the buffer. This allows the memory to be reclaimed.
	 */
	release(): void;
}
type InFuncType = () => null | undefined | string | ArrayBuffer | Uint8Array | number;
declare function setStdin(options?: {
	stdin?: InFuncType;
	read?: (buffer: Uint8Array) => number;
	error?: boolean;
	isatty?: boolean;
	autoEOF?: boolean;
}): void;
declare function setStdout(options?: {
	batched?: (output: string) => void;
	raw?: (charCode: number) => void;
	write?: (buffer: Uint8Array) => number;
	isatty?: boolean;
}): void;
declare function setStderr(options?: {
	batched?: (output: string) => void;
	raw?: (charCode: number) => void;
	write?: (buffer: Uint8Array) => number;
	isatty?: boolean;
}): void;
type PackageType = "package" | "cpython_module" | "shared_library" | "static_library";
export type PackageData = {
	name: string;
	version: string;
	fileName: string;
	/** @experimental */
	packageType: PackageType;
};
declare function loadPackage(names: string | PyProxy | Array<string>, options?: {
	messageCallback?: (message: string) => void;
	errorCallback?: (message: string) => void;
	checkIntegrity?: boolean;
}): Promise<Array<PackageData>>;
/** @deprecated Use `import type { TypedArray } from "pyodide/ffi"` instead */
export type TypedArray = Int8Array | Uint8Array | Int16Array | Uint16Array | Int32Array | Uint32Array | Uint8ClampedArray | Float32Array | Float64Array;
interface CanvasInterface {
	setCanvas2D(canvas: HTMLCanvasElement): void;
	getCanvas2D(): HTMLCanvasElement | undefined;
	setCanvas3D(canvas: HTMLCanvasElement): void;
	getCanvas3D(): HTMLCanvasElement | undefined;
}
declare class PythonError extends Error {
	/**
	 * The address of the error we are wrapping. We may later compare this
	 * against sys.last_exc.
	 * WARNING: we don't own a reference to this pointer, dereferencing it
	 * may be a use-after-free error!
	 * @private
	 */
	__error_address: number;
	/**
	 * The name of the Python error class, e.g, :py:exc:`RuntimeError` or
	 * :py:exc:`KeyError`.
	 */
	type: string;
	constructor(type: string, message: string, error_address: number);
}
type NativeFS = {
	syncfs: () => Promise<void>;
};
declare class PyodideAPI {
	/** @hidden */
	static version: string;
	/** @hidden */
	static loadPackage: typeof loadPackage;
	/** @hidden */
	static loadedPackages: {
		[key: string]: string;
	};
	/** @hidden */
	static ffi: {
		PyProxy: typeof PyProxy;
		PyProxyWithLength: typeof PyProxyWithLength;
		PyProxyWithGet: typeof PyProxyWithGet;
		PyProxyWithSet: typeof PyProxyWithSet;
		PyProxyWithHas: typeof PyProxyWithHas;
		PyDict: typeof PyDict;
		PyIterable: typeof PyIterable;
		PyAsyncIterable: typeof PyAsyncIterable;
		PyIterator: typeof PyIterator;
		PyAsyncIterator: typeof PyAsyncIterator;
		PyGenerator: typeof PyGenerator;
		PyAsyncGenerator: typeof PyAsyncGenerator;
		PyAwaitable: typeof PyAwaitable;
		PyCallable: typeof PyCallable;
		PyBuffer: typeof PyBuffer;
		PyBufferView: typeof PyBufferView;
		PythonError: typeof PythonError;
		PySequence: typeof PySequence;
		PyMutableSequence: typeof PyMutableSequence;
	};
	/** @hidden */
	static setStdin: typeof setStdin;
	/** @hidden */
	static setStdout: typeof setStdout;
	/** @hidden */
	static setStderr: typeof setStderr;
	/**
	 *
	 * An alias to the global Python namespace.
	 *
	 * For example, to access a variable called ``foo`` in the Python global
	 * scope, use ``pyodide.globals.get("foo")``
	 */
	static globals: PyProxy;
	/**
	 * An alias to the `Emscripten File System API
	 * <https://emscripten.org/docs/api_reference/Filesystem-API.html>`_.
	 *
	 * This provides a wide range of POSIX-`like` file/device operations, including
	 * `mount
	 * <https://emscripten.org/docs/api_reference/Filesystem-API.html#FS.mount>`_
	 * which can be used to extend the in-memory filesystem with features like `persistence
	 * <https://emscripten.org/docs/api_reference/Filesystem-API.html#persistent-data>`_.
	 *
	 * While all the file systems implementations are enabled, only the default
	 * ``MEMFS`` is guaranteed to work in all runtime settings. The implementations
	 * are available as members of ``FS.filesystems``:
	 * ``IDBFS``, ``NODEFS``, ``PROXYFS``, ``WORKERFS``.
	 */
	static FS: any;
	/**
	 * An alias to the `Emscripten Path API
	 * <https://github.com/emscripten-core/emscripten/blob/main/src/library_path.js>`_.
	 *
	 * This provides a variety of operations for working with file system paths, such as
	 * ``dirname``, ``normalize``, and ``splitPath``.
	 */
	static PATH: any;
	/**
	 * See :ref:`js-api-pyodide-canvas`.
	 * @hidetype
	 */
	static canvas: CanvasInterface;
	/**
	 * A map from posix error names to error codes.
	 */
	static ERRNO_CODES: {
		[code: string]: number;
	};
	/**
	 * An alias to the Python :ref:`pyodide <python-api>` package.
	 *
	 * You can use this to call functions defined in the Pyodide Python package
	 * from JavaScript.
	 */
	static pyodide_py: PyProxy;
	/**
	 * Inspect a Python code chunk and use :js:func:`pyodide.loadPackage` to install
	 * any known packages that the code chunk imports. Uses the Python API
	 * :func:`pyodide.code.find\_imports` to inspect the code.
	 *
	 * For example, given the following code as input
	 *
	 * .. code-block:: python
	 *
	 *    import numpy as np
	 *    x = np.array([1, 2, 3])
	 *
	 * :js:func:`loadPackagesFromImports` will call
	 * ``pyodide.loadPackage(['numpy'])``.
	 *
	 * @param code The code to inspect.
	 * @param options Options passed to :js:func:`pyodide.loadPackage`.
	 * @param options.messageCallback A callback, called with progress messages
	 *    (optional)
	 * @param options.errorCallback A callback, called with error/warning messages
	 *    (optional)
	 * @param options.checkIntegrity If true, check the integrity of the downloaded
	 *    packages (default: true)
	 * @async
	 */
	static loadPackagesFromImports(code: string, options?: {
		messageCallback?: (message: string) => void;
		errorCallback?: (message: string) => void;
		checkIntegrity?: boolean;
	}): Promise<Array<PackageData>>;
	/**
	 * Runs a string of Python code from JavaScript, using :py:func:`~pyodide.code.eval_code`
	 * to evaluate the code. If the last statement in the Python code is an
	 * expression (and the code doesn't end with a semicolon), the value of the
	 * expression is returned.
	 *
	 * @param code The Python code to run
	 * @param options
	 * @param options.globals An optional Python dictionary to use as the globals.
	 *        Defaults to :js:attr:`pyodide.globals`.
	 * @param options.locals An optional Python dictionary to use as the locals.
	 *        Defaults to the same as ``globals``.
	 * @param options.filename An optional string to use as the file name.
	 *        Defaults to ``"<exec>"``. If a custom file name is given, the
	 *        traceback for any exception that is thrown will show source lines
	 *        (unless the given file name starts with ``<`` and ends with ``>``).
	 * @returns The result of the Python code translated to JavaScript. See the
	 *          documentation for :py:func:`~pyodide.code.eval_code` for more info.
	 * @example
	 * async function main(){
	 *   const pyodide = await loadPyodide();
	 *   console.log(pyodide.runPython("1 + 2"));
	 *   // 3
	 *
	 *   const globals = pyodide.toPy({ x: 3 });
	 *   console.log(pyodide.runPython("x + 1", { globals }));
	 *   // 4
	 *
	 *   const locals = pyodide.toPy({ arr: [1, 2, 3] });
	 *   console.log(pyodide.runPython("sum(arr)", { locals }));
	 *   // 6
	 * }
	 * main();
	 */
	static runPython(code: string, options?: {
		globals?: PyProxy;
		locals?: PyProxy;
		filename?: string;
	}): any;
	/**
	 * Run a Python code string with top level await using
	 * :py:func:`~pyodide.code.eval_code_async` to evaluate the code. Returns a promise which
	 * resolves when execution completes. If the last statement in the Python code
	 * is an expression (and the code doesn't end with a semicolon), the returned
	 * promise will resolve to the value of this expression.
	 *
	 * For example:
	 *
	 * .. code-block:: pyodide
	 *
	 *    let result = await pyodide.runPythonAsync(`
	 *        from js import fetch
	 *        response = await fetch("./pyodide-lock.json")
	 *        packages = await response.json()
	 *        # If final statement is an expression, its value is returned to JavaScript
	 *        len(packages.packages.object_keys())
	 *    `);
	 *    console.log(result); // 79
	 *
	 * .. admonition:: Python imports
	 *    :class: warning
	 *
	 *    Since pyodide 0.18.0, you must call :js:func:`loadPackagesFromImports` to
	 *    import any python packages referenced via ``import`` statements in your
	 *    code. This function will no longer do it for you.
	 *
	 * @param code The Python code to run
	 * @param options
	 * @param options.globals An optional Python dictionary to use as the globals.
	 * Defaults to :js:attr:`pyodide.globals`.
	 * @param options.locals An optional Python dictionary to use as the locals.
	 *        Defaults to the same as ``globals``.
	 * @param options.filename An optional string to use as the file name.
	 *        Defaults to ``"<exec>"``. If a custom file name is given, the
	 *        traceback for any exception that is thrown will show source lines
	 *        (unless the given file name starts with ``<`` and ends with ``>``).
	 * @returns The result of the Python code translated to JavaScript.
	 * @async
	 */
	static runPythonAsync(code: string, options?: {
		globals?: PyProxy;
		locals?: PyProxy;
		filename?: string;
	}): Promise<any>;
	/**
	 * Registers the JavaScript object ``module`` as a JavaScript module named
	 * ``name``. This module can then be imported from Python using the standard
	 * Python import system. If another module by the same name has already been
	 * imported, this won't have much effect unless you also delete the imported
	 * module from :py:data:`sys.modules`. This calls
	 * :func:`~pyodide.ffi.register_js_module`.
	 *
	 * Any attributes of the JavaScript objects which are themselves objects will
	 * be treated as submodules:
	 * ```pyodide
	 * pyodide.registerJsModule("mymodule", { submodule: { value: 7 } });
	 * pyodide.runPython(`
	 *     from mymodule.submodule import value
	 *     assert value == 7
	 * `);
	 * ```
	 * If you wish to prevent this, try the following instead:
	 * ```pyodide
	 * const sys = pyodide.pyimport("sys");
	 * sys.modules.set("mymodule", { obj: { value: 7 } });
	 * pyodide.runPython(`
	 *     from mymodule import obj
	 *     assert obj.value == 7
	 *     # attempting to treat obj as a submodule raises ModuleNotFoundError:
	 *     # "No module named 'mymodule.obj'; 'mymodule' is not a package"
	 *     from mymodule.obj import value
	 * `);
	 * ```
	 *
	 * @param name Name of the JavaScript module to add
	 * @param module JavaScript object backing the module
	 */
	static registerJsModule(name: string, module: object): void;
	/**
	 * Unregisters a JavaScript module with given name that has been previously
	 * registered with :js:func:`pyodide.registerJsModule` or
	 * :func:`~pyodide.ffi.register_js_module`. If a JavaScript module with that
	 * name does not already exist, will throw an error. Note that if the module has
	 * already been imported, this won't have much effect unless you also delete the
	 * imported module from :py:data:`sys.modules`. This calls
	 * :func:`~pyodide.ffi.unregister_js_module`.
	 *
	 * @param name Name of the JavaScript module to remove
	 */
	static unregisterJsModule(name: string): void;
	/**
	 * Convert a JavaScript object to a Python object as best as possible.
	 *
	 * This is similar to :py:meth:`~pyodide.ffi.JsProxy.to_py` but for use from
	 * JavaScript. If the object is immutable or a :js:class:`~pyodide.ffi.PyProxy`,
	 * it will be returned unchanged. If the object cannot be converted into Python,
	 * it will be returned unchanged.
	 *
	 * See :ref:`type-translations-jsproxy-to-py` for more information.
	 *
	 * @param obj The object to convert.
	 * @param options
	 * @returns The object converted to Python.
	 */
	static toPy(obj: any, { depth, defaultConverter, }?: {
		/**
		 *  Optional argument to limit the depth of the conversion.
		 */
		depth: number;
		/**
		 * Optional argument to convert objects with no default conversion. See the
		 * documentation of :py:meth:`~pyodide.ffi.JsProxy.to_py`.
		 */
		defaultConverter?: (value: any, converter: (value: any) => any, cacheConversion: (input: any, output: any) => void) => any;
	}): any;
	/**
	 * Imports a module and returns it.
	 *
	 * If `name` has no dot in it, then `pyimport(name)` is approximately
	 * equivalent to:
	 * ```js
	 * pyodide.runPython(`import ${name}; ${name}`)
	 * ```
	 * except that `name` is not introduced into the Python global namespace. If
	 * the name has one or more dots in it, say it is of the form `path.name`
	 * where `name` has no dots but path may have zero or more dots. Then it is
	 * approximately the same as:
	 * ```js
	 * pyodide.runPython(`from ${path} import ${name}; ${name}`);
	 * ```
	 *
	 * @param mod_name The name of the module to import
	 *
	 * @example
	 * pyodide.pyimport("math.comb")(4, 2) // returns 4 choose 2 = 6
	 */
	static pyimport(mod_name: string): any;
	/**
	 * Unpack an archive into a target directory.
	 *
	 * @param buffer The archive as an :js:class:`ArrayBuffer` or :js:class:`TypedArray`.
	 * @param format The format of the archive. Should be one of the formats
	 * recognized by :py:func:`shutil.unpack_archive`. By default the options are
	 * ``'bztar'``, ``'gztar'``, ``'tar'``, ``'zip'``, and ``'wheel'``. Several
	 * synonyms are accepted for each format, e.g., for ``'gztar'`` any of
	 * ``'.gztar'``, ``'.tar.gz'``, ``'.tgz'``, ``'tar.gz'`` or ``'tgz'`` are
	 * considered to be
	 * synonyms.
	 *
	 * @param options
	 * @param options.extractDir The directory to unpack the archive into. Defaults
	 * to the working directory.
	 */
	static unpackArchive(buffer: TypedArray | ArrayBuffer, format: string, options?: {
		extractDir?: string;
	}): void;
	/**
	 * Mounts a :js:class:`FileSystemDirectoryHandle` into the target directory.
	 * Currently it's only possible to acquire a
	 * :js:class:`FileSystemDirectoryHandle` in Chrome.
	 *
	 * @param path The absolute path in the Emscripten file system to mount the
	 * native directory. If the directory does not exist, it will be created. If
	 * it does exist, it must be empty.
	 * @param fileSystemHandle A handle returned by
	 * :js:func:`navigator.storage.getDirectory() <getDirectory>` or
	 * :js:func:`window.showDirectoryPicker() <showDirectoryPicker>`.
	 */
	static mountNativeFS(path: string, fileSystemHandle: FileSystemDirectoryHandle): Promise<NativeFS>;
	/**
	 * Mounts a host directory into Pyodide file system. Only works in node.
	 *
	 * @param emscriptenPath The absolute path in the Emscripten file system to
	 * mount the native directory. If the directory does not exist, it will be
	 * created. If it does exist, it must be empty.
	 * @param hostPath The host path to mount. It must be a directory that exists.
	 */
	static mountNodeFS(emscriptenPath: string, hostPath: string): void;
	/**
	 * Tell Pyodide about Comlink.
	 * Necessary to enable importing Comlink proxies into Python.
	 */
	static registerComlink(Comlink: any): void;
	/**
	 * Sets the interrupt buffer to be ``interrupt_buffer``. This is only useful
	 * when Pyodide is used in a webworker. The buffer should be a
	 * :js:class:`SharedArrayBuffer` shared with the main browser thread (or another
	 * worker). In that case, signal ``signum`` may be sent by writing ``signum``
	 * into the interrupt buffer. If ``signum`` does not satisfy 0 < ``signum`` < 65
	 * it will be silently ignored.
	 *
	 * You can disable interrupts by calling ``setInterruptBuffer(undefined)``.
	 *
	 * If you wish to trigger a :py:exc:`KeyboardInterrupt`, write ``SIGINT`` (a 2)
	 * into the interrupt buffer.
	 *
	 * By default ``SIGINT`` raises a :py:exc:`KeyboardInterrupt` and all other signals
	 * are ignored. You can install custom signal handlers with the signal module.
	 * Even signals that normally have special meaning and can't be overridden like
	 * ``SIGKILL`` and ``SIGSEGV`` are ignored by default and can be used for any
	 * purpose you like.
	 */
	static setInterruptBuffer(interrupt_buffer: TypedArray): void;
	/**
	 * Throws a :py:exc:`KeyboardInterrupt` error if a :py:exc:`KeyboardInterrupt` has
	 * been requested via the interrupt buffer.
	 *
	 * This can be used to enable keyboard interrupts during execution of JavaScript
	 * code, just as :c:func:`PyErr_CheckSignals` is used to enable keyboard interrupts
	 * during execution of C code.
	 */
	static checkInterrupt(): void;
	/**
	 * Turn on or off debug mode. In debug mode, some error messages are improved
	 * at a performance cost.
	 * @param debug If true, turn debug mode on. If false, turn debug mode off.
	 * @returns The old value of the debug flag.
	 */
	static setDebug(debug: boolean): boolean;
}
/** @hidetype */
export type PyodideInterface = typeof PyodideAPI;
/**
 * See documentation for loadPyodide.
 * @private
 */
type ConfigType = {
	indexURL: string;
	packageCacheDir: string;
	lockFileURL: string;
	fullStdLib?: boolean;
	stdLibURL?: string;
	stdin?: () => string;
	stdout?: (msg: string) => void;
	stderr?: (msg: string) => void;
	jsglobals?: object;
	args: string[];
	_node_mounts: string[];
	env: {
		[key: string]: string;
	};
	packages: string[];
};
/**
 * Load the main Pyodide wasm module and initialize it.
 *
 * @returns The :ref:`js-api-pyodide` module.
 * @memberof globalThis
 * @async
 * @example
 * async function main() {
 *   const pyodide = await loadPyodide({
 *     fullStdLib: true,
 *     stdout: (msg) => console.log(`Pyodide: ${msg}`),
 *   });
 *   console.log("Loaded Pyodide");
 * }
 * main();
 */
export declare function loadPyodide(options?: {
	/**
	 * The URL from which Pyodide will load the main Pyodide runtime and
	 * packages. It is recommended that you leave this unchanged, providing an
	 * incorrect value can cause broken behavior.
	 *
	 * Default: The url that Pyodide is loaded from with the file name
	 * (``pyodide.js`` or ``pyodide.mjs``) removed.
	 */
	indexURL?: string;
	/**
	 * The file path where packages will be cached in node. If a package
	 * exists in ``packageCacheDir`` it is loaded from there, otherwise it is
	 * downloaded from the JsDelivr CDN and then cached into ``packageCacheDir``.
	 * Only applies when running in node; ignored in browsers.
	 *
	 * Default: same as indexURL
	 */
	packageCacheDir?: string;
	/**
	 * The URL from which Pyodide will load the Pyodide ``pyodide-lock.json`` lock
	 * file. You can produce custom lock files with :py:func:`micropip.freeze`.
	 * Default: ```${indexURL}/pyodide-lock.json```
	 */
	lockFileURL?: string;
	/**
	 * Load the full Python standard library. Setting this to false excludes
	 * unvendored modules from the standard library.
	 * Default: ``false``
	 */
	fullStdLib?: boolean;
	/**
	 * The URL from which to load the standard library ``python_stdlib.zip``
	 * file. This URL includes the most of the Python standard library. Some
	 * stdlib modules were unvendored, and can be loaded separately
	 * with ``fullStdLib: true`` option or by their package name.
	 * Default: ```${indexURL}/python_stdlib.zip```
	 */
	stdLibURL?: string;
	/**
	 * Override the standard input callback. Should ask the user for one line of
	 * input. The :js:func:`pyodide.setStdin` function is more flexible and
	 * should be preferred.
	 */
	stdin?: () => string;
	/**
	 * Override the standard output callback. The :js:func:`pyodide.setStdout`
	 * function is more flexible and should be preferred in most cases, but
	 * depending on the ``args`` passed to ``loadPyodide``, Pyodide may write to
	 * stdout on startup, which can only be controlled by passing a custom
	 * ``stdout`` function.
	 */
	stdout?: (msg: string) => void;
	/**
	 * Override the standard error output callback. The
	 * :js:func:`pyodide.setStderr` function is more flexible and should be
	 * preferred in most cases, but depending on the ``args`` passed to
	 * ``loadPyodide``, Pyodide may write to stdout on startup, which can only
	 * be controlled by passing a custom ``stdout`` function.
	 */
	stderr?: (msg: string) => void;
	/**
	 * The object that Pyodide will use for the ``js`` module.
	 * Default: ``globalThis``
	 */
	jsglobals?: object;
	/**
	 * Command line arguments to pass to Python on startup. See `Python command
	 * line interface options
	 * <https://docs.python.org/3.10/using/cmdline.html#interface-options>`_ for
	 * more details. Default: ``[]``
	 */
	args?: string[];
	/**
	 * Environment variables to pass to Python. This can be accessed inside of
	 * Python at runtime via :py:data:`os.environ`. Certain environment variables change
	 * the way that Python loads:
	 * https://docs.python.org/3.10/using/cmdline.html#environment-variables
	 * Default: ``{}``.
	 * If ``env.HOME`` is undefined, it will be set to a default value of
	 * ``"/home/pyodide"``
	 */
	env?: {
		[key: string]: string;
	};
	/**
	 * A list of packages to load as Pyodide is initializing.
	 *
	 * This is the same as loading the packages with
	 * :js:func:`pyodide.loadPackage` after Pyodide is loaded except using the
	 * ``packages`` option is more efficient because the packages are downloaded
	 * while Pyodide bootstraps itself.
	 */
	packages?: string[];
	/**
	 * Opt into the old behavior where PyProxy.toString calls `repr` and not
	 * `str`.
	 * @deprecated
	 */
	pyproxyToStringRepr?: boolean;
	/**
	 * @ignore
	 */
	_node_mounts?: string[];
}): Promise<PyodideInterface>;

export type {};
export type {};