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	"""
	Script to autogenerate pyplot wrappers.

	When this script is run, the current contents of pyplot are
	split into generatable and non-generatable content (via the magic header
	:attr:`PYPLOT_MAGIC_HEADER`) and the generatable content is overwritten.
	Hence, the non-generatable content should be edited in the pyplot.py file
	itself, whereas the generatable content must be edited via templates in
	this file.
	"""

	# Although it is possible to dynamically generate the pyplot functions at
	# runtime with the proper signatures, a static pyplot.py is simpler for static
	# analysis tools to parse.

	import ast
	from enum import Enum
	import functools
	import inspect
	from inspect import Parameter
	from pathlib import Path
	import sys
	import subprocess


	# This line imports the installed copy of matplotlib, and not the local copy.
	import numpy as np
	from matplotlib import _api, mlab
	from matplotlib.axes import Axes
	from matplotlib.backend_bases import MouseButton
	from matplotlib.figure import Figure


	# we need to define a custom str because py310 change
	# In Python 3.10 the repr and str representation of Enums changed from
	#
	# str: 'ClassName.NAME' -> 'NAME'
	# repr: '<ClassName.NAME: value>' -> 'ClassName.NAME'
	#
	# which is more consistent with what str/repr should do, however this breaks
	# boilerplate which needs to get the ClassName.NAME version in all versions of
	# Python. Thus, we locally monkey patch our preferred str representation in
	# here.
	#
	# bpo-40066
	# https://github.com/python/cpython/pull/22392/
	def enum_str_back_compat_patch(self):
	return f'{type(self).__name__}.{self.name}'

	# only monkey patch if we have to.
	if str(MouseButton.LEFT) != 'MouseButton.Left':
	MouseButton.__str__ = enum_str_back_compat_patch


	# This is the magic line that must exist in pyplot, after which the boilerplate
	# content will be appended.
	PYPLOT_MAGIC_HEADER = (
	"################# REMAINING CONTENT GENERATED BY boilerplate.py "
	"##############\n")

	AUTOGEN_MSG = """

	# Autogenerated by boilerplate.py. Do not edit as changes will be lost."""

	AXES_CMAPPABLE_METHOD_TEMPLATE = AUTOGEN_MSG + """
	@_copy_docstring_and_deprecators(Axes.{called_name})
	def {name}{signature}:
	__ret = gca().{called_name}{call}
	{sci_command}
	return __ret
	"""

	AXES_METHOD_TEMPLATE = AUTOGEN_MSG + """
	@_copy_docstring_and_deprecators(Axes.{called_name})
	def {name}{signature}:
	{return_statement}gca().{called_name}{call}
	"""

	FIGURE_METHOD_TEMPLATE = AUTOGEN_MSG + """
	@_copy_docstring_and_deprecators(Figure.{called_name})
	def {name}{signature}:
	{return_statement}gcf().{called_name}{call}
	"""

	CMAP_TEMPLATE = '''
	def {name}() -> None:
	"""
	Set the colormap to {name!r}.

	This changes the default colormap as well as the colormap of the current
	image if there is one. See ``help(colormaps)`` for more information.
	"""
	set_cmap({name!r})
	''' # Colormap functions.


	class value_formatter:
	"""
	Format function default values as needed for inspect.formatargspec.
	The interesting part is a hard-coded list of functions used
	as defaults in pyplot methods.
	"""

	def __init__(self, value):
	if value is mlab.detrend_none:
	self._repr = "mlab.detrend_none"
	elif value is mlab.window_hanning:
	self._repr = "mlab.window_hanning"
	elif value is np.mean:
	self._repr = "np.mean"
	elif value is _api.deprecation._deprecated_parameter:
	self._repr = "_api.deprecation._deprecated_parameter"
	elif isinstance(value, Enum):
	# Enum str is Class.Name whereas their repr is <Class.Name: value>.
	self._repr = str(value)
	else:
	self._repr = repr(value)

	def __repr__(self):
	return self._repr


	class direct_repr:
	"""
	A placeholder class to destringify annotations from ast
	"""
	def __init__(self, value):
	self._repr = value

	def __repr__(self):
	return self._repr


	def generate_function(name, called_fullname, template, **kwargs):
	"""
	Create a wrapper function pyplot_name calling call_name.

	Parameters
	----------
	name : str
	The function to be created.
	called_fullname : str
	The method to be wrapped in the format ``"Class.method"``.
	template : str
	The template to be used. The template must contain {}-style format
	placeholders. The following placeholders are filled in:

	- name: The function name.
	- signature: The function signature (including parentheses).
	- called_name: The name of the called function.
	- call: Parameters passed to called_name (including parentheses).

	**kwargs
	Additional parameters are passed to ``template.format()``.
	"""
	# Get signature of wrapped function.
	class_name, called_name = called_fullname.split('.')
	class_ = {'Axes': Axes, 'Figure': Figure}[class_name]

	meth = getattr(class_, called_name)
	decorator = _api.deprecation.DECORATORS.get(meth)
	# Generate the wrapper with the non-kwonly signature, as it will get
	# redecorated with make_keyword_only by _copy_docstring_and_deprecators.
	if decorator and decorator.func is _api.make_keyword_only:
	meth = meth.__wrapped__

	annotated_trees = get_ast_mro_trees(class_)
	signature = get_matching_signature(meth, annotated_trees)

	# Replace self argument.
	params = list(signature.parameters.values())[1:]
	has_return_value = str(signature.return_annotation) != 'None'
	signature = str(signature.replace(parameters=[
	param.replace(default=value_formatter(param.default))
	if param.default is not param.empty else param
	for param in params]))
	# How to call the wrapped function.
	call = '(' + ', '.join((
	# Pass "intended-as-positional" parameters positionally to avoid
	# forcing third-party subclasses to reproduce the parameter names.
	'{0}'
	if param.kind in [
	Parameter.POSITIONAL_OR_KEYWORD]
	and param.default is Parameter.empty else
	# Only pass the data kwarg if it is actually set, to avoid forcing
	# third-party subclasses to support it.
	'**({{"data": data}} if data is not None else {{}})'
	if param.name == "data" else
	'{0}={0}'
	if param.kind in [
	Parameter.POSITIONAL_OR_KEYWORD,
	Parameter.KEYWORD_ONLY] else
	'{0}'
	if param.kind is Parameter.POSITIONAL_ONLY else
	'*{0}'
	if param.kind is Parameter.VAR_POSITIONAL else
	'**{0}'
	if param.kind is Parameter.VAR_KEYWORD else
	None).format(param.name)
	for param in params) + ')'
	return_statement = 'return ' if has_return_value else ''
	# Bail out in case of name collision.
	for reserved in ('gca', 'gci', 'gcf', '__ret'):
	if reserved in params:
	raise ValueError(
	f'Method {called_fullname} has kwarg named {reserved}')

	return template.format(
	name=name,
	called_name=called_name,
	signature=signature,
	call=call,
	return_statement=return_statement,
	**kwargs)


	def boilerplate_gen():
	"""Generator of lines for the automated part of pyplot."""

	_figure_commands = (
	'figimage',
	'figtext:text',
	'gca',
	'gci:_gci',
	'ginput',
	'subplots_adjust',
	'suptitle',
	'tight_layout',
	'waitforbuttonpress',
	)

	# These methods are all simple wrappers of Axes methods by the same name.
	_axes_commands = (
	'acorr',
	'angle_spectrum',
	'annotate',
	'arrow',
	'autoscale',
	'axhline',
	'axhspan',
	'axis',
	'axline',
	'axvline',
	'axvspan',
	'bar',
	'barbs',
	'barh',
	'bar_label',
	'boxplot',
	'broken_barh',
	'clabel',
	'cohere',
	'contour',
	'contourf',
	'csd',
	'ecdf',
	'errorbar',
	'eventplot',
	'fill',
	'fill_between',
	'fill_betweenx',
	'grid',
	'hexbin',
	'hist',
	'stairs',
	'hist2d',
	'hlines',
	'imshow',
	'legend',
	'locator_params',
	'loglog',
	'magnitude_spectrum',
	'margins',
	'minorticks_off',
	'minorticks_on',
	'pcolor',
	'pcolormesh',
	'phase_spectrum',
	'pie',
	'plot',
	'plot_date',
	'psd',
	'quiver',
	'quiverkey',
	'scatter',
	'semilogx',
	'semilogy',
	'specgram',
	'spy',
	'stackplot',
	'stem',
	'step',
	'streamplot',
	'table',
	'text',
	'tick_params',
	'ticklabel_format',
	'tricontour',
	'tricontourf',
	'tripcolor',
	'triplot',
	'violinplot',
	'vlines',
	'xcorr',
	# pyplot name : real name
	'sci:_sci',
	'title:set_title',
	'xlabel:set_xlabel',
	'ylabel:set_ylabel',
	'xscale:set_xscale',
	'yscale:set_yscale',
	)

	cmappable = {
	'contour': (
	'if __ret._A is not None: # type: ignore[attr-defined]\n'
	' sci(__ret)'
	),
	'contourf': (
	'if __ret._A is not None: # type: ignore[attr-defined]\n'
	' sci(__ret)'
	),
	'hexbin': 'sci(__ret)',
	'scatter': 'sci(__ret)',
	'pcolor': 'sci(__ret)',
	'pcolormesh': 'sci(__ret)',
	'hist2d': 'sci(__ret[-1])',
	'imshow': 'sci(__ret)',
	'spy': 'if isinstance(__ret, cm.ScalarMappable): sci(__ret) # noqa',
	'quiver': 'sci(__ret)',
	'specgram': 'sci(__ret[-1])',
	'streamplot': 'sci(__ret.lines)',
	'tricontour': (
	'if __ret._A is not None: # type: ignore[attr-defined]\n'
	' sci(__ret)'
	),
	'tricontourf': (
	'if __ret._A is not None: # type: ignore[attr-defined]\n'
	' sci(__ret)'
	),
	'tripcolor': 'sci(__ret)',
	}

	for spec in _figure_commands:
	if ':' in spec:
	name, called_name = spec.split(':')
	else:
	name = called_name = spec
	yield generate_function(name, f'Figure.{called_name}',
	FIGURE_METHOD_TEMPLATE)

	for spec in _axes_commands:
	if ':' in spec:
	name, called_name = spec.split(':')
	else:
	name = called_name = spec

	template = (AXES_CMAPPABLE_METHOD_TEMPLATE if name in cmappable else
	AXES_METHOD_TEMPLATE)
	yield generate_function(name, f'Axes.{called_name}', template,
	sci_command=cmappable.get(name))

	cmaps = (
	'autumn',
	'bone',
	'cool',
	'copper',
	'flag',
	'gray',
	'hot',
	'hsv',
	'jet',
	'pink',
	'prism',
	'spring',
	'summer',
	'winter',
	'magma',
	'inferno',
	'plasma',
	'viridis',
	"nipy_spectral"
	)
	# add all the colormaps (autumn, hsv, ....)
	for name in cmaps:
	yield AUTOGEN_MSG
	yield CMAP_TEMPLATE.format(name=name)


	def build_pyplot(pyplot_path):
	pyplot_orig = pyplot_path.read_text().splitlines(keepends=True)
	try:
	pyplot_orig = pyplot_orig[:pyplot_orig.index(PYPLOT_MAGIC_HEADER) + 1]
	except IndexError as err:
	raise ValueError('The pyplot.py file must have the exact line: %s'
	% PYPLOT_MAGIC_HEADER) from err

	with pyplot_path.open('w') as pyplot:
	pyplot.writelines(pyplot_orig)
	pyplot.writelines(boilerplate_gen())

	# Run black to autoformat pyplot
	subprocess.run(
	[sys.executable, "-m", "black", "--line-length=88", pyplot_path],
	check=True
	)


	### Methods for retrieving signatures from pyi stub files

	def get_ast_tree(cls):
	path = Path(inspect.getfile(cls))
	stubpath = path.with_suffix(".pyi")
	path = stubpath if stubpath.exists() else path
	tree = ast.parse(path.read_text())
	for item in tree.body:
	if isinstance(item, ast.ClassDef) and item.name == cls.__name__:
	return item
	raise ValueError(f"Cannot find {cls.__name__} in ast")


	@functools.lru_cache
	def get_ast_mro_trees(cls):
	return [get_ast_tree(c) for c in cls.__mro__ if c.__module__ != "builtins"]


	def get_matching_signature(method, trees):
	sig = inspect.signature(method)
	for tree in trees:
	for item in tree.body:
	if not isinstance(item, ast.FunctionDef):
	continue
	if item.name == method.__name__:
	return update_sig_from_node(item, sig)
	# The following methods are implemented outside of the mro of Axes
	# and thus do not get their annotated versions found with current code
	# stackplot
	# streamplot
	# table
	# tricontour
	# tricontourf
	# tripcolor
	# triplot

	# import warnings
	# warnings.warn(f"'{method.__name__}' not found")
	return sig


	def update_sig_from_node(node, sig):
	params = dict(sig.parameters)
	args = node.args
	allargs = (
	*args.posonlyargs,
	*args.args,
	args.vararg,
	*args.kwonlyargs,
	args.kwarg,
	)
	for param in allargs:
	if param is None:
	continue
	if param.annotation is None:
	continue
	annotation = direct_repr(ast.unparse(param.annotation))
	params[param.arg] = params[param.arg].replace(annotation=annotation)

	if node.returns is not None:
	return inspect.Signature(
	params.values(),
	return_annotation=direct_repr(ast.unparse(node.returns))
	)
	else:
	return inspect.Signature(params.values())


	if __name__ == '__main__':
	# Write the matplotlib.pyplot file.
	if len(sys.argv) > 1:
	pyplot_path = Path(sys.argv[1])
	else:
	pyplot_path = Path(__file__).parent / "../lib/matplotlib/pyplot.py"
	build_pyplot(pyplot_path)