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	"""
	.. _custom_scale:

	============
	Custom scale
	============

	Create a custom scale, by implementing the scaling use for latitude data in a
	Mercator Projection.

	Unless you are making special use of the `.Transform` class, you probably
	don't need to use this verbose method, and instead can use `~.scale.FuncScale`
	and the ``'function'`` option of `~.Axes.set_xscale` and `~.Axes.set_yscale`.
	See the last example in :doc:`/gallery/scales/scales`.
	"""

	import numpy as np
	from numpy import ma

	from matplotlib import scale as mscale
	from matplotlib import transforms as mtransforms
	from matplotlib.ticker import FixedLocator, FuncFormatter


	class MercatorLatitudeScale(mscale.ScaleBase):
	"""
	Scales data in range -pi/2 to pi/2 (-90 to 90 degrees) using
	the system used to scale latitudes in a Mercator__ projection.

	The scale function:
	ln(tan(y) + sec(y))

	The inverse scale function:
	atan(sinh(y))

	Since the Mercator scale tends to infinity at +/- 90 degrees,
	there is user-defined threshold, above and below which nothing
	will be plotted. This defaults to +/- 85 degrees.

	__ https://en.wikipedia.org/wiki/Mercator_projection
	"""

	# The scale class must have a member ``name`` that defines the string used
	# to select the scale. For example, ``ax.set_yscale("mercator")`` would be
	# used to select this scale.
	name = 'mercator'

	def __init__(self, axis, , thresh=np.deg2rad(85), *kwargs):
	"""
	Any keyword arguments passed to ``set_xscale`` and ``set_yscale`` will
	be passed along to the scale's constructor.

	thresh: The degree above which to crop the data.
	"""
	super().__init__(axis)
	if thresh >= np.pi / 2:
	raise ValueError("thresh must be less than pi/2")
	self.thresh = thresh

	def get_transform(self):
	"""
	Override this method to return a new instance that does the
	actual transformation of the data.

	The MercatorLatitudeTransform class is defined below as a
	nested class of this one.
	"""
	return self.MercatorLatitudeTransform(self.thresh)

	def set_default_locators_and_formatters(self, axis):
	"""
	Override to set up the locators and formatters to use with the
	scale. This is only required if the scale requires custom
	locators and formatters. Writing custom locators and
	formatters is rather outside the scope of this example, but
	there are many helpful examples in :mod:`.ticker`.

	In our case, the Mercator example uses a fixed locator from -90 to 90
	degrees and a custom formatter to convert the radians to degrees and
	put a degree symbol after the value.
	"""
	fmt = FuncFormatter(
	lambda x, pos=None: f"{np.degrees(x):.0f}\N{DEGREE SIGN}")
	axis.set(major_locator=FixedLocator(np.radians(range(-90, 90, 10))),
	major_formatter=fmt, minor_formatter=fmt)

	def limit_range_for_scale(self, vmin, vmax, minpos):
	"""
	Override to limit the bounds of the axis to the domain of the
	transform. In the case of Mercator, the bounds should be
	limited to the threshold that was passed in. Unlike the
	autoscaling provided by the tick locators, this range limiting
	will always be adhered to, whether the axis range is set
	manually, determined automatically or changed through panning
	and zooming.
	"""
	return max(vmin, -self.thresh), min(vmax, self.thresh)

	class MercatorLatitudeTransform(mtransforms.Transform):
	# There are two value members that must be defined.
	# ``input_dims`` and ``output_dims`` specify number of input
	# dimensions and output dimensions to the transformation.
	# These are used by the transformation framework to do some
	# error checking and prevent incompatible transformations from
	# being connected together. When defining transforms for a
	# scale, which are, by definition, separable and have only one
	# dimension, these members should always be set to 1.
	input_dims = output_dims = 1

	def __init__(self, thresh):
	mtransforms.Transform.__init__(self)
	self.thresh = thresh

	def transform_non_affine(self, a):
	"""
	This transform takes a numpy array and returns a transformed copy.
	Since the range of the Mercator scale is limited by the
	user-specified threshold, the input array must be masked to
	contain only valid values. Matplotlib will handle masked arrays
	and remove the out-of-range data from the plot. However, the
	returned array must have the same shape as the input array, since
	these values need to remain synchronized with values in the other
	dimension.
	"""
	masked = ma.masked_where((a < -self.thresh) \| (a > self.thresh), a)
	if masked.mask.any():
	return ma.log(np.abs(ma.tan(masked) + 1 / ma.cos(masked)))
	else:
	return np.log(np.abs(np.tan(a) + 1 / np.cos(a)))

	def inverted(self):
	"""
	Override this method so Matplotlib knows how to get the
	inverse transform for this transform.
	"""
	return MercatorLatitudeScale.InvertedMercatorLatitudeTransform(
	self.thresh)

	class InvertedMercatorLatitudeTransform(mtransforms.Transform):
	input_dims = output_dims = 1

	def __init__(self, thresh):
	mtransforms.Transform.__init__(self)
	self.thresh = thresh

	def transform_non_affine(self, a):
	return np.arctan(np.sinh(a))

	def inverted(self):
	return MercatorLatitudeScale.MercatorLatitudeTransform(self.thresh)


	# Now that the Scale class has been defined, it must be registered so
	# that Matplotlib can find it.
	mscale.register_scale(MercatorLatitudeScale)


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

	t = np.arange(-180.0, 180.0, 0.1)
	s = np.radians(t)/2.

	plt.plot(t, s, '-', lw=2)
	plt.yscale('mercator')

	plt.xlabel('Longitude')
	plt.ylabel('Latitude')
	plt.title('Mercator projection')
	plt.grid(True)

	plt.show()