AIM-PIbd-32-Kurbanova-A-A/aimenv/Lib/site-packages/matplotlib/tests/test_lines.py

"""
Tests specific to the lines module.
"""

import itertools
import platform
import timeit
from types import SimpleNamespace

from cycler import cycler
import numpy as np
from numpy.testing import assert_array_equal
import pytest

import matplotlib
import matplotlib as mpl
from matplotlib import _path
import matplotlib.lines as mlines
from matplotlib.markers import MarkerStyle
from matplotlib.path import Path
import matplotlib.pyplot as plt
import matplotlib.transforms as mtransforms
from matplotlib.testing.decorators import image_comparison, check_figures_equal


def test_segment_hits():
    """Test a problematic case."""
    cx, cy = 553, 902
    x, y = np.array([553., 553.]), np.array([95., 947.])
    radius = 6.94
    assert_array_equal(mlines.segment_hits(cx, cy, x, y, radius), [0])


# Runtimes on a loaded system are inherently flaky. Not so much that a rerun
# won't help, hopefully.
@pytest.mark.flaky(reruns=3)
def test_invisible_Line_rendering():
    """
    GitHub issue #1256 identified a bug in Line.draw method

    Despite visibility attribute set to False, the draw method was not
    returning early enough and some pre-rendering code was executed
    though not necessary.

    Consequence was an excessive draw time for invisible Line instances
    holding a large number of points (Npts> 10**6)
    """
    # Creates big x and y data:
    N = 10**7
    x = np.linspace(0, 1, N)
    y = np.random.normal(size=N)

    # Create a plot figure:
    fig = plt.figure()
    ax = plt.subplot()

    # Create a "big" Line instance:
    l = mlines.Line2D(x, y)
    l.set_visible(False)
    # but don't add it to the Axis instance `ax`

    # [here Interactive panning and zooming is pretty responsive]
    # Time the canvas drawing:
    t_no_line = min(timeit.repeat(fig.canvas.draw, number=1, repeat=3))
    # (gives about 25 ms)

    # Add the big invisible Line:
    ax.add_line(l)

    # [Now interactive panning and zooming is very slow]
    # Time the canvas drawing:
    t_invisible_line = min(timeit.repeat(fig.canvas.draw, number=1, repeat=3))
    # gives about 290 ms for N = 10**7 pts

    slowdown_factor = t_invisible_line / t_no_line
    slowdown_threshold = 2  # trying to avoid false positive failures
    assert slowdown_factor < slowdown_threshold


def test_set_line_coll_dash():
    fig, ax = plt.subplots()
    np.random.seed(0)
    # Testing setting linestyles for line collections.
    # This should not produce an error.
    ax.contour(np.random.randn(20, 30), linestyles=[(0, (3, 3))])


def test_invalid_line_data():
    with pytest.raises(RuntimeError, match='xdata must be'):
        mlines.Line2D(0, [])
    with pytest.raises(RuntimeError, match='ydata must be'):
        mlines.Line2D([], 1)

    line = mlines.Line2D([], [])
    with pytest.raises(RuntimeError, match='x must be'):
        line.set_xdata(0)
    with pytest.raises(RuntimeError, match='y must be'):
        line.set_ydata(0)


@image_comparison(['line_dashes'], remove_text=True, tol=0.003)
def test_line_dashes():
    # Tolerance introduced after reordering of floating-point operations
    # Remove when regenerating the images
    fig, ax = plt.subplots()

    ax.plot(range(10), linestyle=(0, (3, 3)), lw=5)


def test_line_colors():
    fig, ax = plt.subplots()
    ax.plot(range(10), color='none')
    ax.plot(range(10), color='r')
    ax.plot(range(10), color='.3')
    ax.plot(range(10), color=(1, 0, 0, 1))
    ax.plot(range(10), color=(1, 0, 0))
    fig.canvas.draw()


def test_valid_colors():
    line = mlines.Line2D([], [])
    with pytest.raises(ValueError):
        line.set_color("foobar")


def test_linestyle_variants():
    fig, ax = plt.subplots()
    for ls in ["-", "solid", "--", "dashed",
               "-.", "dashdot", ":", "dotted",
               (0, None), (0, ()), (0, []),  # gh-22930
               ]:
        ax.plot(range(10), linestyle=ls)
    fig.canvas.draw()


def test_valid_linestyles():
    line = mlines.Line2D([], [])
    with pytest.raises(ValueError):
        line.set_linestyle('aardvark')


@image_comparison(['drawstyle_variants.png'], remove_text=True,
                  tol=0.03 if platform.machine() == 'arm64' else 0)
def test_drawstyle_variants():
    fig, axs = plt.subplots(6)
    dss = ["default", "steps-mid", "steps-pre", "steps-post", "steps", None]
    # We want to check that drawstyles are properly handled even for very long
    # lines (for which the subslice optimization is on); however, we need
    # to zoom in so that the difference between the drawstyles is actually
    # visible.
    for ax, ds in zip(axs.flat, dss):
        ax.plot(range(2000), drawstyle=ds)
        ax.set(xlim=(0, 2), ylim=(0, 2))


@check_figures_equal(extensions=('png',))
def test_no_subslice_with_transform(fig_ref, fig_test):
    ax = fig_ref.add_subplot()
    x = np.arange(2000)
    ax.plot(x + 2000, x)

    ax = fig_test.add_subplot()
    t = mtransforms.Affine2D().translate(2000.0, 0.0)
    ax.plot(x, x, transform=t+ax.transData)


def test_valid_drawstyles():
    line = mlines.Line2D([], [])
    with pytest.raises(ValueError):
        line.set_drawstyle('foobar')


def test_set_drawstyle():
    x = np.linspace(0, 2*np.pi, 10)
    y = np.sin(x)

    fig, ax = plt.subplots()
    line, = ax.plot(x, y)
    line.set_drawstyle("steps-pre")
    assert len(line.get_path().vertices) == 2*len(x)-1

    line.set_drawstyle("default")
    assert len(line.get_path().vertices) == len(x)


@image_comparison(
    ['line_collection_dashes'], remove_text=True, style='mpl20',
    tol=0 if platform.machine() == 'x86_64' else 0.65)
def test_set_line_coll_dash_image():
    fig, ax = plt.subplots()
    np.random.seed(0)
    ax.contour(np.random.randn(20, 30), linestyles=[(0, (3, 3))])


@image_comparison(['marker_fill_styles.png'], remove_text=True)
def test_marker_fill_styles():
    colors = itertools.cycle([[0, 0, 1], 'g', '#ff0000', 'c', 'm', 'y',
                              np.array([0, 0, 0])])
    altcolor = 'lightgreen'

    y = np.array([1, 1])
    x = np.array([0, 9])
    fig, ax = plt.subplots()

    # This hard-coded list of markers correspond to an earlier iteration of
    # MarkerStyle.filled_markers; the value of that attribute has changed but
    # we kept the old value here to not regenerate the baseline image.
    # Replace with mlines.Line2D.filled_markers when the image is regenerated.
    for j, marker in enumerate("ov^<>8sp*hHDdPX"):
        for i, fs in enumerate(mlines.Line2D.fillStyles):
            color = next(colors)
            ax.plot(j * 10 + x, y + i + .5 * (j % 2),
                    marker=marker,
                    markersize=20,
                    markerfacecoloralt=altcolor,
                    fillstyle=fs,
                    label=fs,
                    linewidth=5,
                    color=color,
                    markeredgecolor=color,
                    markeredgewidth=2)

    ax.set_ylim([0, 7.5])
    ax.set_xlim([-5, 155])


def test_markerfacecolor_fillstyle():
    """Test that markerfacecolor does not override fillstyle='none'."""
    l, = plt.plot([1, 3, 2], marker=MarkerStyle('o', fillstyle='none'),
                  markerfacecolor='red')
    assert l.get_fillstyle() == 'none'
    assert l.get_markerfacecolor() == 'none'


@image_comparison(['scaled_lines'], style='default')
def test_lw_scaling():
    th = np.linspace(0, 32)
    fig, ax = plt.subplots()
    lins_styles = ['dashed', 'dotted', 'dashdot']
    cy = cycler(matplotlib.rcParams['axes.prop_cycle'])
    for j, (ls, sty) in enumerate(zip(lins_styles, cy)):
        for lw in np.linspace(.5, 10, 10):
            ax.plot(th, j*np.ones(50) + .1 * lw, linestyle=ls, lw=lw, **sty)


def test_is_sorted_and_has_non_nan():
    assert _path.is_sorted_and_has_non_nan(np.array([1, 2, 3]))
    assert _path.is_sorted_and_has_non_nan(np.array([1, np.nan, 3]))
    assert not _path.is_sorted_and_has_non_nan([3, 5] + [np.nan] * 100 + [0, 2])
    # [2, 256] byteswapped:
    assert not _path.is_sorted_and_has_non_nan(np.array([33554432, 65536], ">i4"))
    n = 2 * mlines.Line2D._subslice_optim_min_size
    plt.plot([np.nan] * n, range(n))


@check_figures_equal()
def test_step_markers(fig_test, fig_ref):
    fig_test.subplots().step([0, 1], "-o")
    fig_ref.subplots().plot([0, 0, 1], [0, 1, 1], "-o", markevery=[0, 2])


@pytest.mark.parametrize("parent", ["figure", "axes"])
@check_figures_equal(extensions=('png',))
def test_markevery(fig_test, fig_ref, parent):
    np.random.seed(42)
    x = np.linspace(0, 1, 14)
    y = np.random.rand(len(x))

    cases_test = [None, 4, (2, 5), [1, 5, 11],
                  [0, -1], slice(5, 10, 2),
                  np.arange(len(x))[y > 0.5],
                  0.3, (0.3, 0.4)]
    cases_ref = ["11111111111111", "10001000100010", "00100001000010",
                 "01000100000100", "10000000000001", "00000101010000",
                 "01110001110110", "11011011011110", "01010011011101"]

    if parent == "figure":
        # float markevery ("relative to axes size") is not supported.
        cases_test = cases_test[:-2]
        cases_ref = cases_ref[:-2]

        def add_test(x, y, *, markevery):
            fig_test.add_artist(
                mlines.Line2D(x, y, marker="o", markevery=markevery))

        def add_ref(x, y, *, markevery):
            fig_ref.add_artist(
                mlines.Line2D(x, y, marker="o", markevery=markevery))

    elif parent == "axes":
        axs_test = iter(fig_test.subplots(3, 3).flat)
        axs_ref = iter(fig_ref.subplots(3, 3).flat)

        def add_test(x, y, *, markevery):
            next(axs_test).plot(x, y, "-gD", markevery=markevery)

        def add_ref(x, y, *, markevery):
            next(axs_ref).plot(x, y, "-gD", markevery=markevery)

    for case in cases_test:
        add_test(x, y, markevery=case)

    for case in cases_ref:
        me = np.array(list(case)).astype(int).astype(bool)
        add_ref(x, y, markevery=me)


def test_markevery_figure_line_unsupported_relsize():
    fig = plt.figure()
    fig.add_artist(mlines.Line2D([0, 1], [0, 1], marker="o", markevery=.5))
    with pytest.raises(ValueError):
        fig.canvas.draw()


def test_marker_as_markerstyle():
    fig, ax = plt.subplots()
    line, = ax.plot([2, 4, 3], marker=MarkerStyle("D"))
    fig.canvas.draw()
    assert line.get_marker() == "D"

    # continue with smoke tests:
    line.set_marker("s")
    fig.canvas.draw()
    line.set_marker(MarkerStyle("o"))
    fig.canvas.draw()
    # test Path roundtrip
    triangle1 = Path._create_closed([[-1, -1], [1, -1], [0, 2]])
    line2, = ax.plot([1, 3, 2], marker=MarkerStyle(triangle1), ms=22)
    line3, = ax.plot([0, 2, 1], marker=triangle1, ms=22)

    assert_array_equal(line2.get_marker().vertices, triangle1.vertices)
    assert_array_equal(line3.get_marker().vertices, triangle1.vertices)


@image_comparison(['striped_line.png'], remove_text=True, style='mpl20')
def test_striped_lines():
    rng = np.random.default_rng(19680801)
    _, ax = plt.subplots()
    ax.plot(rng.uniform(size=12), color='orange', gapcolor='blue',
            linestyle='--', lw=5, label=' ')
    ax.plot(rng.uniform(size=12), color='red', gapcolor='black',
            linestyle=(0, (2, 5, 4, 2)), lw=5, label=' ', alpha=0.5)
    ax.legend(handlelength=5)


@check_figures_equal()
def test_odd_dashes(fig_test, fig_ref):
    fig_test.add_subplot().plot([1, 2], dashes=[1, 2, 3])
    fig_ref.add_subplot().plot([1, 2], dashes=[1, 2, 3, 1, 2, 3])


def test_picking():
    fig, ax = plt.subplots()
    mouse_event = SimpleNamespace(x=fig.bbox.width // 2,
                                  y=fig.bbox.height // 2 + 15)

    # Default pickradius is 5, so event should not pick this line.
    l0, = ax.plot([0, 1], [0, 1], picker=True)
    found, indices = l0.contains(mouse_event)
    assert not found

    # But with a larger pickradius, this should be picked.
    l1, = ax.plot([0, 1], [0, 1], picker=True, pickradius=20)
    found, indices = l1.contains(mouse_event)
    assert found
    assert_array_equal(indices['ind'], [0])

    # And if we modify the pickradius after creation, it should work as well.
    l2, = ax.plot([0, 1], [0, 1], picker=True)
    found, indices = l2.contains(mouse_event)
    assert not found
    l2.set_pickradius(20)
    found, indices = l2.contains(mouse_event)
    assert found
    assert_array_equal(indices['ind'], [0])


@check_figures_equal()
def test_input_copy(fig_test, fig_ref):

    t = np.arange(0, 6, 2)
    l, = fig_test.add_subplot().plot(t, t, ".-")
    t[:] = range(3)
    # Trigger cache invalidation
    l.set_drawstyle("steps")
    fig_ref.add_subplot().plot([0, 2, 4], [0, 2, 4], ".-", drawstyle="steps")


@check_figures_equal(extensions=["png"])
def test_markevery_prop_cycle(fig_test, fig_ref):
    """Test that we can set markevery prop_cycle."""
    cases = [None, 8, (30, 8), [16, 24, 30], [0, -1],
             slice(100, 200, 3), 0.1, 0.3, 1.5,
             (0.0, 0.1), (0.45, 0.1)]

    cmap = mpl.colormaps['jet']
    colors = cmap(np.linspace(0.2, 0.8, len(cases)))

    x = np.linspace(-1, 1)
    y = 5 * x**2

    axs = fig_ref.add_subplot()
    for i, markevery in enumerate(cases):
        axs.plot(y - i, 'o-', markevery=markevery, color=colors[i])

    matplotlib.rcParams['axes.prop_cycle'] = cycler(markevery=cases,
                                                    color=colors)

    ax = fig_test.add_subplot()
    for i, _ in enumerate(cases):
        ax.plot(y - i, 'o-')


def test_axline_setters():
    fig, ax = plt.subplots()
    line1 = ax.axline((.1, .1), slope=0.6)
    line2 = ax.axline((.1, .1), (.8, .4))
    # Testing xy1, xy2 and slope setters.
    # This should not produce an error.
    line1.set_xy1(.2, .3)
    line1.set_slope(2.4)
    line2.set_xy1(.3, .2)
    line2.set_xy2(.6, .8)
    # Testing xy1, xy2 and slope getters.
    # Should return the modified values.
    assert line1.get_xy1() == (.2, .3)
    assert line1.get_slope() == 2.4
    assert line2.get_xy1() == (.3, .2)
    assert line2.get_xy2() == (.6, .8)
    # Testing setting xy2 and slope together.
    # These test should raise a ValueError
    with pytest.raises(ValueError,
                       match="Cannot set an 'xy2' value while 'slope' is set"):
        line1.set_xy2(.2, .3)

    with pytest.raises(ValueError,
                       match="Cannot set a 'slope' value while 'xy2' is set"):
        line2.set_slope(3)
lab 1 is done 2024-10-02 22:15:59 +04:00			`"""`
			`Tests specific to the lines module.`
			`"""`

			`import itertools`
			`import platform`
			`import timeit`
			`from types import SimpleNamespace`

			`from cycler import cycler`
			`import numpy as np`
			`from numpy.testing import assert_array_equal`
			`import pytest`

			`import matplotlib`
			`import matplotlib as mpl`
			`from matplotlib import _path`
			`import matplotlib.lines as mlines`
			`from matplotlib.markers import MarkerStyle`
			`from matplotlib.path import Path`
			`import matplotlib.pyplot as plt`
			`import matplotlib.transforms as mtransforms`
			`from matplotlib.testing.decorators import image_comparison, check_figures_equal`


			`def test_segment_hits():`
			`"""Test a problematic case."""`
			`cx, cy = 553, 902`
			`x, y = np.array([553., 553.]), np.array([95., 947.])`
			`radius = 6.94`
			`assert_array_equal(mlines.segment_hits(cx, cy, x, y, radius), [0])`


			`# Runtimes on a loaded system are inherently flaky. Not so much that a rerun`
			`# won't help, hopefully.`
			`@pytest.mark.flaky(reruns=3)`
			`def test_invisible_Line_rendering():`
			`"""`
			`GitHub issue #1256 identified a bug in Line.draw method`

			`Despite visibility attribute set to False, the draw method was not`
			`returning early enough and some pre-rendering code was executed`
			`though not necessary.`

			`Consequence was an excessive draw time for invisible Line instances`
			`holding a large number of points (Npts> 10**6)`
			`"""`
			`# Creates big x and y data:`
			`N = 10**7`
			`x = np.linspace(0, 1, N)`
			`y = np.random.normal(size=N)`

			`# Create a plot figure:`
			`fig = plt.figure()`
			`ax = plt.subplot()`

			`# Create a "big" Line instance:`
			`l = mlines.Line2D(x, y)`
			`l.set_visible(False)`
			# but don't add it to the Axis instance `ax`

			`# [here Interactive panning and zooming is pretty responsive]`
			`# Time the canvas drawing:`
			`t_no_line = min(timeit.repeat(fig.canvas.draw, number=1, repeat=3))`
			`# (gives about 25 ms)`

			`# Add the big invisible Line:`
			`ax.add_line(l)`

			`# [Now interactive panning and zooming is very slow]`
			`# Time the canvas drawing:`
			`t_invisible_line = min(timeit.repeat(fig.canvas.draw, number=1, repeat=3))`
			`# gives about 290 ms for N = 10**7 pts`

			`slowdown_factor = t_invisible_line / t_no_line`
			`slowdown_threshold = 2 # trying to avoid false positive failures`
			`assert slowdown_factor < slowdown_threshold`


			`def test_set_line_coll_dash():`
			`fig, ax = plt.subplots()`
			`np.random.seed(0)`
			`# Testing setting linestyles for line collections.`
			`# This should not produce an error.`
			`ax.contour(np.random.randn(20, 30), linestyles=[(0, (3, 3))])`


			`def test_invalid_line_data():`
			`with pytest.raises(RuntimeError, match='xdata must be'):`
			`mlines.Line2D(0, [])`
			`with pytest.raises(RuntimeError, match='ydata must be'):`
			`mlines.Line2D([], 1)`

			`line = mlines.Line2D([], [])`
			`with pytest.raises(RuntimeError, match='x must be'):`
			`line.set_xdata(0)`
			`with pytest.raises(RuntimeError, match='y must be'):`
			`line.set_ydata(0)`


			`@image_comparison(['line_dashes'], remove_text=True, tol=0.003)`
			`def test_line_dashes():`
			`# Tolerance introduced after reordering of floating-point operations`
			`# Remove when regenerating the images`
			`fig, ax = plt.subplots()`

			`ax.plot(range(10), linestyle=(0, (3, 3)), lw=5)`


			`def test_line_colors():`
			`fig, ax = plt.subplots()`
			`ax.plot(range(10), color='none')`
			`ax.plot(range(10), color='r')`
			`ax.plot(range(10), color='.3')`
			`ax.plot(range(10), color=(1, 0, 0, 1))`
			`ax.plot(range(10), color=(1, 0, 0))`
			`fig.canvas.draw()`


			`def test_valid_colors():`
			`line = mlines.Line2D([], [])`
			`with pytest.raises(ValueError):`
			`line.set_color("foobar")`


			`def test_linestyle_variants():`
			`fig, ax = plt.subplots()`
			`for ls in ["-", "solid", "--", "dashed",`
			`"-.", "dashdot", ":", "dotted",`
			`(0, None), (0, ()), (0, []), # gh-22930`
			`]:`
			`ax.plot(range(10), linestyle=ls)`
			`fig.canvas.draw()`


			`def test_valid_linestyles():`
			`line = mlines.Line2D([], [])`
			`with pytest.raises(ValueError):`
			`line.set_linestyle('aardvark')`


			`@image_comparison(['drawstyle_variants.png'], remove_text=True,`
			`tol=0.03 if platform.machine() == 'arm64' else 0)`
			`def test_drawstyle_variants():`
			`fig, axs = plt.subplots(6)`
			`dss = ["default", "steps-mid", "steps-pre", "steps-post", "steps", None]`
			`# We want to check that drawstyles are properly handled even for very long`
			`# lines (for which the subslice optimization is on); however, we need`
			`# to zoom in so that the difference between the drawstyles is actually`
			`# visible.`
			`for ax, ds in zip(axs.flat, dss):`
			`ax.plot(range(2000), drawstyle=ds)`
			`ax.set(xlim=(0, 2), ylim=(0, 2))`


			`@check_figures_equal(extensions=('png',))`
			`def test_no_subslice_with_transform(fig_ref, fig_test):`
			`ax = fig_ref.add_subplot()`
			`x = np.arange(2000)`
			`ax.plot(x + 2000, x)`

			`ax = fig_test.add_subplot()`
			`t = mtransforms.Affine2D().translate(2000.0, 0.0)`
			`ax.plot(x, x, transform=t+ax.transData)`


			`def test_valid_drawstyles():`
			`line = mlines.Line2D([], [])`
			`with pytest.raises(ValueError):`
			`line.set_drawstyle('foobar')`


			`def test_set_drawstyle():`
			`x = np.linspace(0, 2*np.pi, 10)`
			`y = np.sin(x)`

			`fig, ax = plt.subplots()`
			`line, = ax.plot(x, y)`
			`line.set_drawstyle("steps-pre")`
			`assert len(line.get_path().vertices) == 2*len(x)-1`

			`line.set_drawstyle("default")`
			`assert len(line.get_path().vertices) == len(x)`


			`@image_comparison(`
			`['line_collection_dashes'], remove_text=True, style='mpl20',`
			`tol=0 if platform.machine() == 'x86_64' else 0.65)`
			`def test_set_line_coll_dash_image():`
			`fig, ax = plt.subplots()`
			`np.random.seed(0)`
			`ax.contour(np.random.randn(20, 30), linestyles=[(0, (3, 3))])`


			`@image_comparison(['marker_fill_styles.png'], remove_text=True)`
			`def test_marker_fill_styles():`
			`colors = itertools.cycle([[0, 0, 1], 'g', '#ff0000', 'c', 'm', 'y',`
			`np.array([0, 0, 0])])`
			`altcolor = 'lightgreen'`

			`y = np.array([1, 1])`
			`x = np.array([0, 9])`
			`fig, ax = plt.subplots()`

			`# This hard-coded list of markers correspond to an earlier iteration of`
			`# MarkerStyle.filled_markers; the value of that attribute has changed but`
			`# we kept the old value here to not regenerate the baseline image.`
			`# Replace with mlines.Line2D.filled_markers when the image is regenerated.`
			`for j, marker in enumerate("ov^<>8sp*hHDdPX"):`
			`for i, fs in enumerate(mlines.Line2D.fillStyles):`
			`color = next(colors)`
			`ax.plot(j * 10 + x, y + i + .5 * (j % 2),`
			`marker=marker,`
			`markersize=20,`
			`markerfacecoloralt=altcolor,`
			`fillstyle=fs,`
			`label=fs,`
			`linewidth=5,`
			`color=color,`
			`markeredgecolor=color,`
			`markeredgewidth=2)`

			`ax.set_ylim([0, 7.5])`
			`ax.set_xlim([-5, 155])`


			`def test_markerfacecolor_fillstyle():`
			`"""Test that markerfacecolor does not override fillstyle='none'."""`
			`l, = plt.plot([1, 3, 2], marker=MarkerStyle('o', fillstyle='none'),`
			`markerfacecolor='red')`
			`assert l.get_fillstyle() == 'none'`
			`assert l.get_markerfacecolor() == 'none'`


			`@image_comparison(['scaled_lines'], style='default')`
			`def test_lw_scaling():`
			`th = np.linspace(0, 32)`
			`fig, ax = plt.subplots()`
			`lins_styles = ['dashed', 'dotted', 'dashdot']`
			`cy = cycler(matplotlib.rcParams['axes.prop_cycle'])`
			`for j, (ls, sty) in enumerate(zip(lins_styles, cy)):`
			`for lw in np.linspace(.5, 10, 10):`
			`ax.plot(th, jnp.ones(50) + .1 lw, linestyle=ls, lw=lw, **sty)`


			`def test_is_sorted_and_has_non_nan():`
			`assert _path.is_sorted_and_has_non_nan(np.array([1, 2, 3]))`
			`assert _path.is_sorted_and_has_non_nan(np.array([1, np.nan, 3]))`
			`assert not _path.is_sorted_and_has_non_nan([3, 5] + [np.nan] * 100 + [0, 2])`
			`# [2, 256] byteswapped:`
			`assert not _path.is_sorted_and_has_non_nan(np.array([33554432, 65536], ">i4"))`
			`n = 2 * mlines.Line2D._subslice_optim_min_size`
			`plt.plot([np.nan] * n, range(n))`


			`@check_figures_equal()`
			`def test_step_markers(fig_test, fig_ref):`
			`fig_test.subplots().step([0, 1], "-o")`
			`fig_ref.subplots().plot([0, 0, 1], [0, 1, 1], "-o", markevery=[0, 2])`


			`@pytest.mark.parametrize("parent", ["figure", "axes"])`
			`@check_figures_equal(extensions=('png',))`
			`def test_markevery(fig_test, fig_ref, parent):`
			`np.random.seed(42)`
			`x = np.linspace(0, 1, 14)`
			`y = np.random.rand(len(x))`

			`cases_test = [None, 4, (2, 5), [1, 5, 11],`
			`[0, -1], slice(5, 10, 2),`
			`np.arange(len(x))[y > 0.5],`
			`0.3, (0.3, 0.4)]`
			`cases_ref = ["11111111111111", "10001000100010", "00100001000010",`
			`"01000100000100", "10000000000001", "00000101010000",`
			`"01110001110110", "11011011011110", "01010011011101"]`

			`if parent == "figure":`
			`# float markevery ("relative to axes size") is not supported.`
			`cases_test = cases_test[:-2]`
			`cases_ref = cases_ref[:-2]`

			`def add_test(x, y, *, markevery):`
			`fig_test.add_artist(`
			`mlines.Line2D(x, y, marker="o", markevery=markevery))`

			`def add_ref(x, y, *, markevery):`
			`fig_ref.add_artist(`
			`mlines.Line2D(x, y, marker="o", markevery=markevery))`

			`elif parent == "axes":`
			`axs_test = iter(fig_test.subplots(3, 3).flat)`
			`axs_ref = iter(fig_ref.subplots(3, 3).flat)`

			`def add_test(x, y, *, markevery):`
			`next(axs_test).plot(x, y, "-gD", markevery=markevery)`

			`def add_ref(x, y, *, markevery):`
			`next(axs_ref).plot(x, y, "-gD", markevery=markevery)`

			`for case in cases_test:`
			`add_test(x, y, markevery=case)`

			`for case in cases_ref:`
			`me = np.array(list(case)).astype(int).astype(bool)`
			`add_ref(x, y, markevery=me)`


			`def test_markevery_figure_line_unsupported_relsize():`
			`fig = plt.figure()`
			`fig.add_artist(mlines.Line2D([0, 1], [0, 1], marker="o", markevery=.5))`
			`with pytest.raises(ValueError):`
			`fig.canvas.draw()`


			`def test_marker_as_markerstyle():`
			`fig, ax = plt.subplots()`
			`line, = ax.plot([2, 4, 3], marker=MarkerStyle("D"))`
			`fig.canvas.draw()`
			`assert line.get_marker() == "D"`

			`# continue with smoke tests:`
			`line.set_marker("s")`
			`fig.canvas.draw()`
			`line.set_marker(MarkerStyle("o"))`
			`fig.canvas.draw()`
			`# test Path roundtrip`
			`triangle1 = Path._create_closed([[-1, -1], [1, -1], [0, 2]])`
			`line2, = ax.plot([1, 3, 2], marker=MarkerStyle(triangle1), ms=22)`
			`line3, = ax.plot([0, 2, 1], marker=triangle1, ms=22)`

			`assert_array_equal(line2.get_marker().vertices, triangle1.vertices)`
			`assert_array_equal(line3.get_marker().vertices, triangle1.vertices)`


			`@image_comparison(['striped_line.png'], remove_text=True, style='mpl20')`
			`def test_striped_lines():`
			`rng = np.random.default_rng(19680801)`
			`_, ax = plt.subplots()`
			`ax.plot(rng.uniform(size=12), color='orange', gapcolor='blue',`
			`linestyle='--', lw=5, label=' ')`
			`ax.plot(rng.uniform(size=12), color='red', gapcolor='black',`
			`linestyle=(0, (2, 5, 4, 2)), lw=5, label=' ', alpha=0.5)`
			`ax.legend(handlelength=5)`


			`@check_figures_equal()`
			`def test_odd_dashes(fig_test, fig_ref):`
			`fig_test.add_subplot().plot([1, 2], dashes=[1, 2, 3])`
			`fig_ref.add_subplot().plot([1, 2], dashes=[1, 2, 3, 1, 2, 3])`


			`def test_picking():`
			`fig, ax = plt.subplots()`
			`mouse_event = SimpleNamespace(x=fig.bbox.width // 2,`
			`y=fig.bbox.height // 2 + 15)`

			`# Default pickradius is 5, so event should not pick this line.`
			`l0, = ax.plot([0, 1], [0, 1], picker=True)`
			`found, indices = l0.contains(mouse_event)`
			`assert not found`

			`# But with a larger pickradius, this should be picked.`
			`l1, = ax.plot([0, 1], [0, 1], picker=True, pickradius=20)`
			`found, indices = l1.contains(mouse_event)`
			`assert found`
			`assert_array_equal(indices['ind'], [0])`

			`# And if we modify the pickradius after creation, it should work as well.`
			`l2, = ax.plot([0, 1], [0, 1], picker=True)`
			`found, indices = l2.contains(mouse_event)`
			`assert not found`
			`l2.set_pickradius(20)`
			`found, indices = l2.contains(mouse_event)`
			`assert found`
			`assert_array_equal(indices['ind'], [0])`


			`@check_figures_equal()`
			`def test_input_copy(fig_test, fig_ref):`

			`t = np.arange(0, 6, 2)`
			`l, = fig_test.add_subplot().plot(t, t, ".-")`
			`t[:] = range(3)`
			`# Trigger cache invalidation`
			`l.set_drawstyle("steps")`
			`fig_ref.add_subplot().plot([0, 2, 4], [0, 2, 4], ".-", drawstyle="steps")`


			`@check_figures_equal(extensions=["png"])`
			`def test_markevery_prop_cycle(fig_test, fig_ref):`
			`"""Test that we can set markevery prop_cycle."""`
			`cases = [None, 8, (30, 8), [16, 24, 30], [0, -1],`
			`slice(100, 200, 3), 0.1, 0.3, 1.5,`
			`(0.0, 0.1), (0.45, 0.1)]`

			`cmap = mpl.colormaps['jet']`
			`colors = cmap(np.linspace(0.2, 0.8, len(cases)))`

			`x = np.linspace(-1, 1)`
			`y = 5 * x**2`

			`axs = fig_ref.add_subplot()`
			`for i, markevery in enumerate(cases):`
			`axs.plot(y - i, 'o-', markevery=markevery, color=colors[i])`

			`matplotlib.rcParams['axes.prop_cycle'] = cycler(markevery=cases,`
			`color=colors)`

			`ax = fig_test.add_subplot()`
			`for i, _ in enumerate(cases):`
			`ax.plot(y - i, 'o-')`


			`def test_axline_setters():`
			`fig, ax = plt.subplots()`
			`line1 = ax.axline((.1, .1), slope=0.6)`
			`line2 = ax.axline((.1, .1), (.8, .4))`
			`# Testing xy1, xy2 and slope setters.`
			`# This should not produce an error.`
			`line1.set_xy1(.2, .3)`
			`line1.set_slope(2.4)`
			`line2.set_xy1(.3, .2)`
			`line2.set_xy2(.6, .8)`
			`# Testing xy1, xy2 and slope getters.`
			`# Should return the modified values.`
			`assert line1.get_xy1() == (.2, .3)`
			`assert line1.get_slope() == 2.4`
			`assert line2.get_xy1() == (.3, .2)`
			`assert line2.get_xy2() == (.6, .8)`
			`# Testing setting xy2 and slope together.`
			`# These test should raise a ValueError`
			`with pytest.raises(ValueError,`
			`match="Cannot set an 'xy2' value while 'slope' is set"):`
			`line1.set_xy2(.2, .3)`

			`with pytest.raises(ValueError,`
			`match="Cannot set a 'slope' value while 'xy2' is set"):`
			`line2.set_slope(3)`