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	"""
	An `Anti-Grain Geometry`_ (AGG) backend.

	Features that are implemented:

	* capstyles and join styles
	* dashes
	* linewidth
	* lines, rectangles, ellipses
	* clipping to a rectangle
	* output to RGBA and Pillow-supported image formats
	* alpha blending
	* DPI scaling properly - everything scales properly (dashes, linewidths, etc)
	* draw polygon
	* freetype2 w/ ft2font

	Still TODO:

	* integrate screen dpi w/ ppi and text

	.. _Anti-Grain Geometry: http://agg.sourceforge.net/antigrain.com
	"""

	from contextlib import nullcontext
	from math import radians, cos, sin
	import threading

	import numpy as np

	import matplotlib as mpl
	from matplotlib import _api, cbook
	from matplotlib.backend_bases import (
	_Backend, FigureCanvasBase, FigureManagerBase, RendererBase)
	from matplotlib.font_manager import fontManager as _fontManager, get_font
	from matplotlib.ft2font import (LOAD_FORCE_AUTOHINT, LOAD_NO_HINTING,
	LOAD_DEFAULT, LOAD_NO_AUTOHINT)
	from matplotlib.mathtext import MathTextParser
	from matplotlib.path import Path
	from matplotlib.transforms import Bbox, BboxBase
	from matplotlib.backends._backend_agg import RendererAgg as _RendererAgg


	def get_hinting_flag():
	mapping = {
	'default': LOAD_DEFAULT,
	'no_autohint': LOAD_NO_AUTOHINT,
	'force_autohint': LOAD_FORCE_AUTOHINT,
	'no_hinting': LOAD_NO_HINTING,
	True: LOAD_FORCE_AUTOHINT,
	False: LOAD_NO_HINTING,
	'either': LOAD_DEFAULT,
	'native': LOAD_NO_AUTOHINT,
	'auto': LOAD_FORCE_AUTOHINT,
	'none': LOAD_NO_HINTING,
	}
	return mapping[mpl.rcParams['text.hinting']]


	class RendererAgg(RendererBase):
	"""
	The renderer handles all the drawing primitives using a graphics
	context instance that controls the colors/styles
	"""

	# we want to cache the fonts at the class level so that when
	# multiple figures are created we can reuse them. This helps with
	# a bug on windows where the creation of too many figures leads to
	# too many open file handles. However, storing them at the class
	# level is not thread safe. The solution here is to let the
	# FigureCanvas acquire a lock on the fontd at the start of the
	# draw, and release it when it is done. This allows multiple
	# renderers to share the cached fonts, but only one figure can
	# draw at time and so the font cache is used by only one
	# renderer at a time.

	lock = threading.RLock()

	def __init__(self, width, height, dpi):
	super().__init__()

	self.dpi = dpi
	self.width = width
	self.height = height
	self._renderer = _RendererAgg(int(width), int(height), dpi)
	self._filter_renderers = []

	self._update_methods()
	self.mathtext_parser = MathTextParser('Agg')

	self.bbox = Bbox.from_bounds(0, 0, self.width, self.height)

	def __getstate__(self):
	# We only want to preserve the init keywords of the Renderer.
	# Anything else can be re-created.
	return {'width': self.width, 'height': self.height, 'dpi': self.dpi}

	def __setstate__(self, state):
	self.__init__(state['width'], state['height'], state['dpi'])

	def _update_methods(self):
	self.draw_gouraud_triangle = self._renderer.draw_gouraud_triangle
	self.draw_gouraud_triangles = self._renderer.draw_gouraud_triangles
	self.draw_image = self._renderer.draw_image
	self.draw_markers = self._renderer.draw_markers
	self.draw_path_collection = self._renderer.draw_path_collection
	self.draw_quad_mesh = self._renderer.draw_quad_mesh
	self.copy_from_bbox = self._renderer.copy_from_bbox

	def draw_path(self, gc, path, transform, rgbFace=None):
	# docstring inherited
	nmax = mpl.rcParams['agg.path.chunksize'] # here at least for testing
	npts = path.vertices.shape[0]

	if (npts > nmax > 100 and path.should_simplify and
	rgbFace is None and gc.get_hatch() is None):
	nch = np.ceil(npts / nmax)
	chsize = int(np.ceil(npts / nch))
	i0 = np.arange(0, npts, chsize)
	i1 = np.zeros_like(i0)
	i1[:-1] = i0[1:] - 1
	i1[-1] = npts
	for ii0, ii1 in zip(i0, i1):
	v = path.vertices[ii0:ii1, :]
	c = path.codes
	if c is not None:
	c = c[ii0:ii1]
	c[0] = Path.MOVETO # move to end of last chunk
	p = Path(v, c)
	p.simplify_threshold = path.simplify_threshold
	try:
	self._renderer.draw_path(gc, p, transform, rgbFace)
	except OverflowError:
	msg = (
	"Exceeded cell block limit in Agg.\n\n"
	"Please reduce the value of "
	f"rcParams['agg.path.chunksize'] (currently {nmax}) "
	"or increase the path simplification threshold"
	"(rcParams['path.simplify_threshold'] = "
	f"{mpl.rcParams['path.simplify_threshold']:.2f} by "
	"default and path.simplify_threshold = "
	f"{path.simplify_threshold:.2f} on the input)."
	)
	raise OverflowError(msg) from None
	else:
	try:
	self._renderer.draw_path(gc, path, transform, rgbFace)
	except OverflowError:
	cant_chunk = ''
	if rgbFace is not None:
	cant_chunk += "- can not split filled path\n"
	if gc.get_hatch() is not None:
	cant_chunk += "- can not split hatched path\n"
	if not path.should_simplify:
	cant_chunk += "- path.should_simplify is False\n"
	if len(cant_chunk):
	msg = (
	"Exceeded cell block limit in Agg, however for the "
	"following reasons:\n\n"
	f"{cant_chunk}\n"
	"we can not automatically split up this path to draw."
	"\n\nPlease manually simplify your path."
	)

	else:
	inc_threshold = (
	"or increase the path simplification threshold"
	"(rcParams['path.simplify_threshold'] = "
	f"{mpl.rcParams['path.simplify_threshold']} "
	"by default and path.simplify_threshold "
	f"= {path.simplify_threshold} "
	"on the input)."
	)
	if nmax > 100:
	msg = (
	"Exceeded cell block limit in Agg. Please reduce "
	"the value of rcParams['agg.path.chunksize'] "
	f"(currently {nmax}) {inc_threshold}"
	)
	else:
	msg = (
	"Exceeded cell block limit in Agg. Please set "
	"the value of rcParams['agg.path.chunksize'], "
	f"(currently {nmax}) to be greater than 100 "
	+ inc_threshold
	)

	raise OverflowError(msg) from None

	def draw_mathtext(self, gc, x, y, s, prop, angle):
	"""Draw mathtext using :mod:`matplotlib.mathtext`."""
	ox, oy, width, height, descent, font_image = \
	self.mathtext_parser.parse(s, self.dpi, prop)

	xd = descent * sin(radians(angle))
	yd = descent * cos(radians(angle))
	x = round(x + ox + xd)
	y = round(y - oy + yd)
	self._renderer.draw_text_image(font_image, x, y + 1, angle, gc)

	def draw_text(self, gc, x, y, s, prop, angle, ismath=False, mtext=None):
	# docstring inherited
	if ismath:
	return self.draw_mathtext(gc, x, y, s, prop, angle)
	font = self._prepare_font(prop)
	# We pass '0' for angle here, since it will be rotated (in raster
	# space) in the following call to draw_text_image).
	font.set_text(s, 0, flags=get_hinting_flag())
	font.draw_glyphs_to_bitmap(
	antialiased=mpl.rcParams['text.antialiased'])
	d = font.get_descent() / 64.0
	# The descent needs to be adjusted for the angle.
	xo, yo = font.get_bitmap_offset()
	xo /= 64.0
	yo /= 64.0
	xd = d * sin(radians(angle))
	yd = d * cos(radians(angle))
	x = round(x + xo + xd)
	y = round(y + yo + yd)
	self._renderer.draw_text_image(font, x, y + 1, angle, gc)

	def get_text_width_height_descent(self, s, prop, ismath):
	# docstring inherited

	_api.check_in_list(["TeX", True, False], ismath=ismath)
	if ismath == "TeX":
	return super().get_text_width_height_descent(s, prop, ismath)

	if ismath:
	ox, oy, width, height, descent, font_image = \
	self.mathtext_parser.parse(s, self.dpi, prop)
	return width, height, descent

	font = self._prepare_font(prop)
	font.set_text(s, 0.0, flags=get_hinting_flag())
	w, h = font.get_width_height() # width and height of unrotated string
	d = font.get_descent()
	w /= 64.0 # convert from subpixels
	h /= 64.0
	d /= 64.0
	return w, h, d

	def draw_tex(self, gc, x, y, s, prop, angle, *, mtext=None):
	# docstring inherited
	# todo, handle props, angle, origins
	size = prop.get_size_in_points()

	texmanager = self.get_texmanager()

	Z = texmanager.get_grey(s, size, self.dpi)
	Z = np.array(Z * 255.0, np.uint8)

	w, h, d = self.get_text_width_height_descent(s, prop, ismath="TeX")
	xd = d * sin(radians(angle))
	yd = d * cos(radians(angle))
	x = round(x + xd)
	y = round(y + yd)
	self._renderer.draw_text_image(Z, x, y, angle, gc)

	def get_canvas_width_height(self):
	# docstring inherited
	return self.width, self.height

	def _prepare_font(self, font_prop):
	"""
	Get the `.FT2Font` for font_prop, clear its buffer, and set its size.
	"""
	font = get_font(_fontManager._find_fonts_by_props(font_prop))
	font.clear()
	size = font_prop.get_size_in_points()
	font.set_size(size, self.dpi)
	return font

	def points_to_pixels(self, points):
	# docstring inherited
	return points * self.dpi / 72

	def buffer_rgba(self):
	return memoryview(self._renderer)

	def tostring_argb(self):
	return np.asarray(self._renderer).take([3, 0, 1, 2], axis=2).tobytes()

	def tostring_rgb(self):
	return np.asarray(self._renderer).take([0, 1, 2], axis=2).tobytes()

	def clear(self):
	self._renderer.clear()

	def option_image_nocomposite(self):
	# docstring inherited

	# It is generally faster to composite each image directly to
	# the Figure, and there's no file size benefit to compositing
	# with the Agg backend
	return True

	def option_scale_image(self):
	# docstring inherited
	return False

	def restore_region(self, region, bbox=None, xy=None):
	"""
	Restore the saved region. If bbox (instance of BboxBase, or
	its extents) is given, only the region specified by the bbox
	will be restored. xy (a pair of floats) optionally
	specifies the new position (the LLC of the original region,
	not the LLC of the bbox) where the region will be restored.

	>>> region = renderer.copy_from_bbox()
	>>> x1, y1, x2, y2 = region.get_extents()
	>>> renderer.restore_region(region, bbox=(x1+dx, y1, x2, y2),
	... xy=(x1-dx, y1))

	"""
	if bbox is not None or xy is not None:
	if bbox is None:
	x1, y1, x2, y2 = region.get_extents()
	elif isinstance(bbox, BboxBase):
	x1, y1, x2, y2 = bbox.extents
	else:
	x1, y1, x2, y2 = bbox

	if xy is None:
	ox, oy = x1, y1
	else:
	ox, oy = xy

	# The incoming data is float, but the _renderer type-checking wants
	# to see integers.
	self._renderer.restore_region(region, int(x1), int(y1),
	int(x2), int(y2), int(ox), int(oy))

	else:
	self._renderer.restore_region(region)

	def start_filter(self):
	"""
	Start filtering. It simply creates a new canvas (the old one is saved).
	"""
	self._filter_renderers.append(self._renderer)
	self._renderer = _RendererAgg(int(self.width), int(self.height),
	self.dpi)
	self._update_methods()

	def stop_filter(self, post_processing):
	"""
	Save the plot in the current canvas as an image and apply
	the post_processing function.

	def post_processing(image, dpi):
	# ny, nx, depth = image.shape
	# image (numpy array) has RGBA channels and has a depth of 4.
	...
	# create a new_image (numpy array of 4 channels, size can be
	# different). The resulting image may have offsets from
	# lower-left corner of the original image
	return new_image, offset_x, offset_y

	The saved renderer is restored and the returned image from
	post_processing is plotted (using draw_image) on it.
	"""
	orig_img = np.asarray(self.buffer_rgba())
	slice_y, slice_x = cbook._get_nonzero_slices(orig_img[..., 3])
	cropped_img = orig_img[slice_y, slice_x]

	self._renderer = self._filter_renderers.pop()
	self._update_methods()

	if cropped_img.size:
	img, ox, oy = post_processing(cropped_img / 255, self.dpi)
	gc = self.new_gc()
	if img.dtype.kind == 'f':
	img = np.asarray(img * 255., np.uint8)
	self._renderer.draw_image(
	gc, slice_x.start + ox, int(self.height) - slice_y.stop + oy,
	img[::-1])


	class FigureCanvasAgg(FigureCanvasBase):
	# docstring inherited

	_lastKey = None # Overwritten per-instance on the first draw.

	def copy_from_bbox(self, bbox):
	renderer = self.get_renderer()
	return renderer.copy_from_bbox(bbox)

	def restore_region(self, region, bbox=None, xy=None):
	renderer = self.get_renderer()
	return renderer.restore_region(region, bbox, xy)

	def draw(self):
	# docstring inherited
	self.renderer = self.get_renderer()
	self.renderer.clear()
	# Acquire a lock on the shared font cache.
	with RendererAgg.lock, \
	(self.toolbar._wait_cursor_for_draw_cm() if self.toolbar
	else nullcontext()):
	self.figure.draw(self.renderer)
	# A GUI class may be need to update a window using this draw, so
	# don't forget to call the superclass.
	super().draw()

	@_api.delete_parameter("3.6", "cleared", alternative="renderer.clear()")
	def get_renderer(self, cleared=False):
	w, h = self.figure.bbox.size
	key = w, h, self.figure.dpi
	reuse_renderer = (self._lastKey == key)
	if not reuse_renderer:
	self.renderer = RendererAgg(w, h, self.figure.dpi)
	self._lastKey = key
	elif cleared:
	self.renderer.clear()
	return self.renderer

	def tostring_rgb(self):
	"""
	Get the image as RGB `bytes`.

	`draw` must be called at least once before this function will work and
	to update the renderer for any subsequent changes to the Figure.
	"""
	return self.renderer.tostring_rgb()

	def tostring_argb(self):
	"""
	Get the image as ARGB `bytes`.

	`draw` must be called at least once before this function will work and
	to update the renderer for any subsequent changes to the Figure.
	"""
	return self.renderer.tostring_argb()

	def buffer_rgba(self):
	"""
	Get the image as a `memoryview` to the renderer's buffer.

	`draw` must be called at least once before this function will work and
	to update the renderer for any subsequent changes to the Figure.
	"""
	return self.renderer.buffer_rgba()

	def print_raw(self, filename_or_obj):
	FigureCanvasAgg.draw(self)
	renderer = self.get_renderer()
	with cbook.open_file_cm(filename_or_obj, "wb") as fh:
	fh.write(renderer.buffer_rgba())

	print_rgba = print_raw

	def _print_pil(self, filename_or_obj, fmt, pil_kwargs, metadata=None):
	"""
	Draw the canvas, then save it using `.image.imsave` (to which
	pil_kwargs and metadata are forwarded).
	"""
	FigureCanvasAgg.draw(self)
	mpl.image.imsave(
	filename_or_obj, self.buffer_rgba(), format=fmt, origin="upper",
	dpi=self.figure.dpi, metadata=metadata, pil_kwargs=pil_kwargs)

	def print_png(self, filename_or_obj, *, metadata=None, pil_kwargs=None):
	"""
	Write the figure to a PNG file.

	Parameters
	----------
	filename_or_obj : str or path-like or file-like
	The file to write to.

	metadata : dict, optional
	Metadata in the PNG file as key-value pairs of bytes or latin-1
	encodable strings.
	According to the PNG specification, keys must be shorter than 79
	chars.

	The `PNG specification`_ defines some common keywords that may be
	used as appropriate:

	- Title: Short (one line) title or caption for image.
	- Author: Name of image's creator.
	- Description: Description of image (possibly long).
	- Copyright: Copyright notice.
	- Creation Time: Time of original image creation
	(usually RFC 1123 format).
	- Software: Software used to create the image.
	- Disclaimer: Legal disclaimer.
	- Warning: Warning of nature of content.
	- Source: Device used to create the image.
	- Comment: Miscellaneous comment;
	conversion from other image format.

	Other keywords may be invented for other purposes.

	If 'Software' is not given, an autogenerated value for Matplotlib
	will be used. This can be removed by setting it to None.

	For more details see the `PNG specification`_.

	.. _PNG specification: \
	https://www.w3.org/TR/2003/REC-PNG-20031110/#11keywords

	pil_kwargs : dict, optional
	Keyword arguments passed to `PIL.Image.Image.save`.

	If the 'pnginfo' key is present, it completely overrides
	metadata, including the default 'Software' key.
	"""
	self._print_pil(filename_or_obj, "png", pil_kwargs, metadata)

	def print_to_buffer(self):
	FigureCanvasAgg.draw(self)
	renderer = self.get_renderer()
	return (bytes(renderer.buffer_rgba()),
	(int(renderer.width), int(renderer.height)))

	# Note that these methods should typically be called via savefig() and
	# print_figure(), and the latter ensures that `self.figure.dpi` already
	# matches the dpi kwarg (if any).

	def print_jpg(self, filename_or_obj, *, pil_kwargs=None):
	# savefig() has already applied savefig.facecolor; we now set it to
	# white to make imsave() blend semi-transparent figures against an
	# assumed white background.
	with mpl.rc_context({"savefig.facecolor": "white"}):
	self._print_pil(filename_or_obj, "jpeg", pil_kwargs)

	print_jpeg = print_jpg

	def print_tif(self, filename_or_obj, *, pil_kwargs=None):
	self._print_pil(filename_or_obj, "tiff", pil_kwargs)

	print_tiff = print_tif

	def print_webp(self, filename_or_obj, *, pil_kwargs=None):
	self._print_pil(filename_or_obj, "webp", pil_kwargs)

	print_jpg.__doc__, print_tif.__doc__, print_webp.__doc__ = map(
	"""
	Write the figure to a {} file.

	Parameters
	----------
	filename_or_obj : str or path-like or file-like
	The file to write to.
	pil_kwargs : dict, optional
	Additional keyword arguments that are passed to
	`PIL.Image.Image.save` when saving the figure.
	""".format, ["JPEG", "TIFF", "WebP"])


	@_Backend.export
	class _BackendAgg(_Backend):
	backend_version = 'v2.2'
	FigureCanvas = FigureCanvasAgg
	FigureManager = FigureManagerBase