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	"""
	mplcvd -- an example of figure hook
	===================================

	To use this hook, ensure that this module is in your ``PYTHONPATH``, and set
	``rcParams["figure.hooks"] = ["mplcvd:setup"]``. This hook depends on
	the ``colorspacious`` third-party module.
	"""

	import functools
	from pathlib import Path

	import colorspacious

	import numpy as np

	_BUTTON_NAME = "Filter"
	_BUTTON_HELP = "Simulate color vision deficiencies"
	_MENU_ENTRIES = {
	"None": None,
	"Greyscale": "greyscale",
	"Deuteranopia": "deuteranomaly",
	"Protanopia": "protanomaly",
	"Tritanopia": "tritanomaly",
	}


	def _get_color_filter(name):
	"""
	Given a color filter name, create a color filter function.

	Parameters
	----------
	name : str
	The color filter name, one of the following:

	- ``"none"``: ...
	- ``"greyscale"``: Convert the input to luminosity.
	- ``"deuteranopia"``: Simulate the most common form of red-green
	colorblindness.
	- ``"protanopia"``: Simulate a rarer form of red-green colorblindness.
	- ``"tritanopia"``: Simulate the rare form of blue-yellow
	colorblindness.

	Color conversions use `colorspacious`_.

	Returns
	-------
	callable
	A color filter function that has the form:

	def filter(input: np.ndarray[M, N, D])-> np.ndarray[M, N, D]

	where (M, N) are the image dimensions, and D is the color depth (3 for
	RGB, 4 for RGBA). Alpha is passed through unchanged and otherwise
	ignored.
	"""
	if name not in _MENU_ENTRIES:
	raise ValueError(f"Unsupported filter name: {name!r}")
	name = _MENU_ENTRIES[name]

	if name is None:
	return None

	elif name == "greyscale":
	rgb_to_jch = colorspacious.cspace_converter("sRGB1", "JCh")
	jch_to_rgb = colorspacious.cspace_converter("JCh", "sRGB1")

	def convert(im):
	greyscale_JCh = rgb_to_jch(im)
	greyscale_JCh[..., 1] = 0
	im = jch_to_rgb(greyscale_JCh)
	return im

	else:
	cvd_space = {"name": "sRGB1+CVD", "cvd_type": name, "severity": 100}
	convert = colorspacious.cspace_converter(cvd_space, "sRGB1")

	def filter_func(im, dpi):
	alpha = None
	if im.shape[-1] == 4:
	im, alpha = im[..., :3], im[..., 3]
	im = convert(im)
	if alpha is not None:
	im = np.dstack((im, alpha))
	return np.clip(im, 0, 1), 0, 0

	return filter_func


	def _set_menu_entry(tb, name):
	tb.canvas.figure.set_agg_filter(_get_color_filter(name))
	tb.canvas.draw_idle()


	def setup(figure):
	tb = figure.canvas.toolbar
	if tb is None:
	return
	for cls in type(tb).__mro__:
	pkg = cls.__module__.split(".")[0]
	if pkg != "matplotlib":
	break
	if pkg == "gi":
	_setup_gtk(tb)
	elif pkg in ("PyQt5", "PySide2", "PyQt6", "PySide6"):
	_setup_qt(tb)
	elif pkg == "tkinter":
	_setup_tk(tb)
	elif pkg == "wx":
	_setup_wx(tb)
	else:
	raise NotImplementedError("The current backend is not supported")


	def _setup_gtk(tb):
	from gi.repository import Gio, GLib, Gtk

	for idx in range(tb.get_n_items()):
	children = tb.get_nth_item(idx).get_children()
	if children and isinstance(children[0], Gtk.Label):
	break

	toolitem = Gtk.SeparatorToolItem()
	tb.insert(toolitem, idx)

	image = Gtk.Image.new_from_gicon(
	Gio.Icon.new_for_string(
	str(Path(__file__).parent / "images/eye-symbolic.svg")),
	Gtk.IconSize.LARGE_TOOLBAR)

	# The type of menu is progressively downgraded depending on GTK version.
	if Gtk.check_version(3, 6, 0) is None:

	group = Gio.SimpleActionGroup.new()
	action = Gio.SimpleAction.new_stateful("cvdsim",
	GLib.VariantType("s"),
	GLib.Variant("s", "none"))
	group.add_action(action)

	@functools.partial(action.connect, "activate")
	def set_filter(action, parameter):
	_set_menu_entry(tb, parameter.get_string())
	action.set_state(parameter)

	menu = Gio.Menu()
	for name in _MENU_ENTRIES:
	menu.append(name, f"local.cvdsim::{name}")

	button = Gtk.MenuButton.new()
	button.remove(button.get_children()[0])
	button.add(image)
	button.insert_action_group("local", group)
	button.set_menu_model(menu)
	button.get_style_context().add_class("flat")

	item = Gtk.ToolItem()
	item.add(button)
	tb.insert(item, idx + 1)

	else:

	menu = Gtk.Menu()
	group = []
	for name in _MENU_ENTRIES:
	item = Gtk.RadioMenuItem.new_with_label(group, name)
	item.set_active(name == "None")
	item.connect(
	"activate", lambda item: _set_menu_entry(tb, item.get_label()))
	group.append(item)
	menu.append(item)
	menu.show_all()

	tbutton = Gtk.MenuToolButton.new(image, _BUTTON_NAME)
	tbutton.set_menu(menu)
	tb.insert(tbutton, idx + 1)

	tb.show_all()


	def _setup_qt(tb):
	from matplotlib.backends.qt_compat import QtGui, QtWidgets

	menu = QtWidgets.QMenu()
	try:
	QActionGroup = QtGui.QActionGroup # Qt6
	except AttributeError:
	QActionGroup = QtWidgets.QActionGroup # Qt5
	group = QActionGroup(menu)
	group.triggered.connect(lambda action: _set_menu_entry(tb, action.text()))

	for name in _MENU_ENTRIES:
	action = menu.addAction(name)
	action.setCheckable(True)
	action.setActionGroup(group)
	action.setChecked(name == "None")

	actions = tb.actions()
	before = next(
	(action for action in actions
	if isinstance(tb.widgetForAction(action), QtWidgets.QLabel)), None)

	tb.insertSeparator(before)
	button = QtWidgets.QToolButton()
	# FIXME: _icon needs public API.
	button.setIcon(tb._icon(str(Path(__file__).parent / "images/eye.png")))
	button.setText(_BUTTON_NAME)
	button.setToolTip(_BUTTON_HELP)
	button.setPopupMode(QtWidgets.QToolButton.ToolButtonPopupMode.InstantPopup)
	button.setMenu(menu)
	tb.insertWidget(before, button)


	def _setup_tk(tb):
	import tkinter as tk

	tb._Spacer() # FIXME: _Spacer needs public API.

	button = tk.Menubutton(master=tb, relief="raised")
	button._image_file = str(Path(__file__).parent / "images/eye.png")
	# FIXME: _set_image_for_button needs public API (perhaps like _icon).
	tb._set_image_for_button(button)
	button.pack(side=tk.LEFT)

	menu = tk.Menu(master=button, tearoff=False)
	for name in _MENU_ENTRIES:
	menu.add("radiobutton", label=name,
	command=lambda _name=name: _set_menu_entry(tb, _name))
	menu.invoke(0)
	button.config(menu=menu)


	def _setup_wx(tb):
	import wx

	idx = next(idx for idx in range(tb.ToolsCount)
	if tb.GetToolByPos(idx).IsStretchableSpace())
	tb.InsertSeparator(idx)
	tool = tb.InsertTool(
	idx + 1, -1, _BUTTON_NAME,
	# FIXME: _icon needs public API.
	tb._icon(str(Path(__file__).parent / "images/eye.png")),
	# FIXME: ITEM_DROPDOWN is not supported on macOS.
	kind=wx.ITEM_DROPDOWN, shortHelp=_BUTTON_HELP)

	menu = wx.Menu()
	for name in _MENU_ENTRIES:
	item = menu.AppendRadioItem(-1, name)
	menu.Bind(
	wx.EVT_MENU,
	lambda event, _name=name: _set_menu_entry(tb, _name),
	id=item.Id,
	)
	tb.SetDropdownMenu(tool.Id, menu)


	if __name__ == '__main__':
	import matplotlib.pyplot as plt

	from matplotlib import cbook

	plt.rcParams['figure.hooks'].append('mplcvd:setup')

	fig, axd = plt.subplot_mosaic(
	[
	['viridis', 'turbo'],
	['photo', 'lines']
	]
	)

	delta = 0.025
	x = y = np.arange(-3.0, 3.0, delta)
	X, Y = np.meshgrid(x, y)
	Z1 = np.exp(-X2 - Y2)
	Z2 = np.exp(-(X - 1)2 - (Y - 1)2)
	Z = (Z1 - Z2) * 2

	imv = axd['viridis'].imshow(
	Z, interpolation='bilinear',
	origin='lower', extent=[-3, 3, -3, 3],
	vmax=abs(Z).max(), vmin=-abs(Z).max()
	)
	fig.colorbar(imv)
	imt = axd['turbo'].imshow(
	Z, interpolation='bilinear', cmap='turbo',
	origin='lower', extent=[-3, 3, -3, 3],
	vmax=abs(Z).max(), vmin=-abs(Z).max()
	)
	fig.colorbar(imt)

	# A sample image
	with cbook.get_sample_data('grace_hopper.jpg') as image_file:
	photo = plt.imread(image_file)
	axd['photo'].imshow(photo)

	th = np.linspace(0, 2*np.pi, 1024)
	for j in [1, 2, 4, 6]:
	axd['lines'].plot(th, np.sin(th * j), label=f'$\\omega={j}$')
	axd['lines'].legend(ncols=2, loc='upper right')
	plt.show()