from datetime import datetime from pathlib import Path import platform from matplotlib import rcParams from matplotlib.testing.decorators import image_comparison, check_figures_equal from matplotlib.axes import Axes from matplotlib.ticker import AutoMinorLocator, FixedFormatter, ScalarFormatter import matplotlib.pyplot as plt import matplotlib.dates as mdates import matplotlib.gridspec as gridspec import numpy as np import pytest @image_comparison(['figure_align_labels'], tol={'aarch64': 0.02}.get(platform.machine(), 0.0)) def test_align_labels(): # Check the figure.align_labels() command fig = plt.figure(tight_layout=True) gs = gridspec.GridSpec(3, 3) ax = fig.add_subplot(gs[0, :2]) ax.plot(np.arange(0, 1e6, 1000)) ax.set_ylabel('Ylabel0 0') ax = fig.add_subplot(gs[0, -1]) ax.plot(np.arange(0, 1e4, 100)) for i in range(3): ax = fig.add_subplot(gs[1, i]) ax.set_ylabel('YLabel1 %d' % i) ax.set_xlabel('XLabel1 %d' % i) if i in [0, 2]: ax.xaxis.set_label_position("top") ax.xaxis.tick_top() if i == 0: for tick in ax.get_xticklabels(): tick.set_rotation(90) if i == 2: ax.yaxis.set_label_position("right") ax.yaxis.tick_right() for i in range(3): ax = fig.add_subplot(gs[2, i]) ax.set_xlabel('XLabel2 %d' % (i)) ax.set_ylabel('YLabel2 %d' % (i)) if i == 2: ax.plot(np.arange(0, 1e4, 10)) ax.yaxis.set_label_position("right") ax.yaxis.tick_right() for tick in ax.get_xticklabels(): tick.set_rotation(90) fig.align_labels() def test_figure_label(): # pyplot figure creation, selection and closing with figure label and # number plt.close('all') plt.figure('today') plt.figure(3) plt.figure('tomorrow') plt.figure() plt.figure(0) plt.figure(1) plt.figure(3) assert plt.get_fignums() == [0, 1, 3, 4, 5] assert plt.get_figlabels() == ['', 'today', '', 'tomorrow', ''] plt.close(10) plt.close() plt.close(5) plt.close('tomorrow') assert plt.get_fignums() == [0, 1] assert plt.get_figlabels() == ['', 'today'] def test_fignum_exists(): # pyplot figure creation, selection and closing with fignum_exists plt.figure('one') plt.figure(2) plt.figure('three') plt.figure() assert plt.fignum_exists('one') assert plt.fignum_exists(2) assert plt.fignum_exists('three') assert plt.fignum_exists(4) plt.close('one') plt.close(4) assert not plt.fignum_exists('one') assert not plt.fignum_exists(4) def test_clf_keyword(): # test if existing figure is cleared with figure() and subplots() text1 = 'A fancy plot' text2 = 'Really fancy!' fig0 = plt.figure(num=1) fig0.suptitle(text1) assert [t.get_text() for t in fig0.texts] == [text1] fig1 = plt.figure(num=1, clear=False) fig1.text(0.5, 0.5, text2) assert fig0 is fig1 assert [t.get_text() for t in fig1.texts] == [text1, text2] fig2, ax2 = plt.subplots(2, 1, num=1, clear=True) assert fig0 is fig2 assert [t.get_text() for t in fig2.texts] == [] @image_comparison(['figure_today']) def test_figure(): # named figure support fig = plt.figure('today') ax = fig.add_subplot() ax.set_title(fig.get_label()) ax.plot(np.arange(5)) # plot red line in a different figure. plt.figure('tomorrow') plt.plot([0, 1], [1, 0], 'r') # Return to the original; make sure the red line is not there. plt.figure('today') plt.close('tomorrow') @image_comparison(['figure_legend']) def test_figure_legend(): fig, axs = plt.subplots(2) axs[0].plot([0, 1], [1, 0], label='x', color='g') axs[0].plot([0, 1], [0, 1], label='y', color='r') axs[0].plot([0, 1], [0.5, 0.5], label='y', color='k') axs[1].plot([0, 1], [1, 0], label='_y', color='r') axs[1].plot([0, 1], [0, 1], label='z', color='b') fig.legend() def test_gca(): fig = plt.figure() ax1 = fig.add_axes([0, 0, 1, 1]) assert fig.gca(projection='rectilinear') is ax1 assert fig.gca() is ax1 ax2 = fig.add_subplot(121, projection='polar') assert fig.gca() is ax2 assert fig.gca(polar=True) is ax2 ax3 = fig.add_subplot(122) assert fig.gca() is ax3 # the final request for a polar axes will end up creating one # with a spec of 111. with pytest.warns(UserWarning): # Changing the projection will throw a warning assert fig.gca(polar=True) is not ax3 assert fig.gca(polar=True) is not ax2 assert fig.gca().get_geometry() == (1, 1, 1) fig.sca(ax1) assert fig.gca(projection='rectilinear') is ax1 assert fig.gca() is ax1 def test_add_subplot_invalid(): fig = plt.figure() with pytest.raises(ValueError): fig.add_subplot(2, 0, 1) with pytest.raises(ValueError): fig.add_subplot(0, 2, 1) with pytest.raises(ValueError): fig.add_subplot(2, 2, 0) with pytest.raises(ValueError): fig.add_subplot(2, 2, 5) @image_comparison(['figure_suptitle']) def test_suptitle(): fig, _ = plt.subplots() fig.suptitle('hello', color='r') fig.suptitle('title', color='g', rotation='30') def test_suptitle_fontproperties(): from matplotlib.font_manager import FontProperties fig, ax = plt.subplots() fps = FontProperties(size='large', weight='bold') txt = fig.suptitle('fontprops title', fontproperties=fps) assert txt.get_fontsize() == fps.get_size_in_points() assert txt.get_weight() == fps.get_weight() @image_comparison(['alpha_background'], # only test png and svg. The PDF output appears correct, # but Ghostscript does not preserve the background color. extensions=['png', 'svg'], savefig_kwarg={'facecolor': (0, 1, 0.4), 'edgecolor': 'none'}) def test_alpha(): # We want an image which has a background color and an # alpha of 0.4. fig = plt.figure(figsize=[2, 1]) fig.set_facecolor((0, 1, 0.4)) fig.patch.set_alpha(0.4) import matplotlib.patches as mpatches fig.patches.append(mpatches.CirclePolygon([20, 20], radius=15, alpha=0.6, facecolor='red')) def test_too_many_figures(): with pytest.warns(RuntimeWarning): for i in range(rcParams['figure.max_open_warning'] + 1): plt.figure() def test_iterability_axes_argument(): # This is a regression test for matplotlib/matplotlib#3196. If one of the # arguments returned by _as_mpl_axes defines __getitem__ but is not # iterable, this would raise an exception. This is because we check # whether the arguments are iterable, and if so we try and convert them # to a tuple. However, the ``iterable`` function returns True if # __getitem__ is present, but some classes can define __getitem__ without # being iterable. The tuple conversion is now done in a try...except in # case it fails. class MyAxes(Axes): def __init__(self, *args, myclass=None, **kwargs): return Axes.__init__(self, *args, **kwargs) class MyClass: def __getitem__(self, item): if item != 'a': raise ValueError("item should be a") def _as_mpl_axes(self): return MyAxes, {'myclass': self} fig = plt.figure() fig.add_subplot(1, 1, 1, projection=MyClass()) plt.close(fig) def test_set_fig_size(): fig = plt.figure() # check figwidth fig.set_figwidth(5) assert fig.get_figwidth() == 5 # check figheight fig.set_figheight(1) assert fig.get_figheight() == 1 # check using set_size_inches fig.set_size_inches(2, 4) assert fig.get_figwidth() == 2 assert fig.get_figheight() == 4 # check using tuple to first argument fig.set_size_inches((1, 3)) assert fig.get_figwidth() == 1 assert fig.get_figheight() == 3 def test_axes_remove(): fig, axs = plt.subplots(2, 2) axs[-1, -1].remove() for ax in axs.ravel()[:-1]: assert ax in fig.axes assert axs[-1, -1] not in fig.axes assert len(fig.axes) == 3 def test_figaspect(): w, h = plt.figaspect(np.float64(2) / np.float64(1)) assert h / w == 2 w, h = plt.figaspect(2) assert h / w == 2 w, h = plt.figaspect(np.zeros((1, 2))) assert h / w == 0.5 w, h = plt.figaspect(np.zeros((2, 2))) assert h / w == 1 @pytest.mark.parametrize('which', [None, 'both', 'major', 'minor']) def test_autofmt_xdate(which): date = ['3 Jan 2013', '4 Jan 2013', '5 Jan 2013', '6 Jan 2013', '7 Jan 2013', '8 Jan 2013', '9 Jan 2013', '10 Jan 2013', '11 Jan 2013', '12 Jan 2013', '13 Jan 2013', '14 Jan 2013'] time = ['16:44:00', '16:45:00', '16:46:00', '16:47:00', '16:48:00', '16:49:00', '16:51:00', '16:52:00', '16:53:00', '16:55:00', '16:56:00', '16:57:00'] angle = 60 minors = [1, 2, 3, 4, 5, 6, 7] x = mdates.datestr2num(date) y = mdates.datestr2num(time) fig, ax = plt.subplots() ax.plot(x, y) ax.yaxis_date() ax.xaxis_date() ax.xaxis.set_minor_locator(AutoMinorLocator(2)) ax.xaxis.set_minor_formatter(FixedFormatter(minors)) fig.autofmt_xdate(0.2, angle, 'right', which) if which in ('both', 'major', None): for label in fig.axes[0].get_xticklabels(False, 'major'): assert int(label.get_rotation()) == angle if which in ('both', 'minor'): for label in fig.axes[0].get_xticklabels(True, 'minor'): assert int(label.get_rotation()) == angle @pytest.mark.style('default') def test_change_dpi(): fig = plt.figure(figsize=(4, 4)) fig.canvas.draw() assert fig.canvas.renderer.height == 400 assert fig.canvas.renderer.width == 400 fig.dpi = 50 fig.canvas.draw() assert fig.canvas.renderer.height == 200 assert fig.canvas.renderer.width == 200 @pytest.mark.parametrize('width, height', [ (1, np.nan), (0, 1), (-1, 1), (np.inf, 1) ]) def test_invalid_figure_size(width, height): with pytest.raises(ValueError): plt.figure(figsize=(width, height)) fig = plt.figure() with pytest.raises(ValueError): fig.set_size_inches(width, height) def test_invalid_figure_add_axes(): fig = plt.figure() with pytest.raises(ValueError): fig.add_axes((.1, .1, .5, np.nan)) def test_subplots_shareax_loglabels(): fig, axs = plt.subplots(2, 2, sharex=True, sharey=True, squeeze=False) for ax in axs.flat: ax.plot([10, 20, 30], [10, 20, 30]) ax.set_yscale("log") ax.set_xscale("log") for ax in axs[0, :]: assert 0 == len(ax.xaxis.get_ticklabels(which='both')) for ax in axs[1, :]: assert 0 < len(ax.xaxis.get_ticklabels(which='both')) for ax in axs[:, 1]: assert 0 == len(ax.yaxis.get_ticklabels(which='both')) for ax in axs[:, 0]: assert 0 < len(ax.yaxis.get_ticklabels(which='both')) def test_savefig(): fig = plt.figure() msg = r"savefig\(\) takes 2 positional arguments but 3 were given" with pytest.raises(TypeError, match=msg): fig.savefig("fname1.png", "fname2.png") def test_figure_repr(): fig = plt.figure(figsize=(10, 20), dpi=10) assert repr(fig) == "
" def test_warn_cl_plus_tl(): fig, ax = plt.subplots(constrained_layout=True) with pytest.warns(UserWarning): # this should warn, fig.subplots_adjust(top=0.8) assert not(fig.get_constrained_layout()) @check_figures_equal(extensions=["png", "pdf"]) def test_add_artist(fig_test, fig_ref): fig_test.set_dpi(100) fig_ref.set_dpi(100) fig_test.subplots() l1 = plt.Line2D([.2, .7], [.7, .7], gid='l1') l2 = plt.Line2D([.2, .7], [.8, .8], gid='l2') r1 = plt.Circle((20, 20), 100, transform=None, gid='C1') r2 = plt.Circle((.7, .5), .05, gid='C2') r3 = plt.Circle((4.5, .8), .55, transform=fig_test.dpi_scale_trans, facecolor='crimson', gid='C3') for a in [l1, l2, r1, r2, r3]: fig_test.add_artist(a) l2.remove() ax2 = fig_ref.subplots() l1 = plt.Line2D([.2, .7], [.7, .7], transform=fig_ref.transFigure, gid='l1', zorder=21) r1 = plt.Circle((20, 20), 100, transform=None, clip_on=False, zorder=20, gid='C1') r2 = plt.Circle((.7, .5), .05, transform=fig_ref.transFigure, gid='C2', zorder=20) r3 = plt.Circle((4.5, .8), .55, transform=fig_ref.dpi_scale_trans, facecolor='crimson', clip_on=False, zorder=20, gid='C3') for a in [l1, r1, r2, r3]: ax2.add_artist(a) @pytest.mark.parametrize("fmt", ["png", "pdf", "ps", "eps", "svg"]) def test_fspath(fmt, tmpdir): out = Path(tmpdir, "test.{}".format(fmt)) plt.savefig(out) with out.open("rb") as file: # All the supported formats include the format name (case-insensitive) # in the first 100 bytes. assert fmt.encode("ascii") in file.read(100).lower() def test_tightbbox(): fig, ax = plt.subplots() ax.set_xlim(0, 1) t = ax.text(1., 0.5, 'This dangles over end') renderer = fig.canvas.get_renderer() x1Nom0 = 9.035 # inches assert abs(t.get_tightbbox(renderer).x1 - x1Nom0 * fig.dpi) < 2 assert abs(ax.get_tightbbox(renderer).x1 - x1Nom0 * fig.dpi) < 2 assert abs(fig.get_tightbbox(renderer).x1 - x1Nom0) < 0.05 assert abs(fig.get_tightbbox(renderer).x0 - 0.679) < 0.05 # now exclude t from the tight bbox so now the bbox is quite a bit # smaller t.set_in_layout(False) x1Nom = 7.333 assert abs(ax.get_tightbbox(renderer).x1 - x1Nom * fig.dpi) < 2 assert abs(fig.get_tightbbox(renderer).x1 - x1Nom) < 0.05 t.set_in_layout(True) x1Nom = 7.333 assert abs(ax.get_tightbbox(renderer).x1 - x1Nom0 * fig.dpi) < 2 # test bbox_extra_artists method... assert abs(ax.get_tightbbox(renderer, bbox_extra_artists=[]).x1 - x1Nom * fig.dpi) < 2 def test_axes_removal(): # Check that units can set the formatter after an Axes removal fig, axs = plt.subplots(1, 2, sharex=True) axs[1].remove() axs[0].plot([datetime(2000, 1, 1), datetime(2000, 2, 1)], [0, 1]) assert isinstance(axs[0].xaxis.get_major_formatter(), mdates.AutoDateFormatter) # Check that manually setting the formatter, then removing Axes keeps # the set formatter. fig, axs = plt.subplots(1, 2, sharex=True) axs[1].xaxis.set_major_formatter(ScalarFormatter()) axs[1].remove() axs[0].plot([datetime(2000, 1, 1), datetime(2000, 2, 1)], [0, 1]) assert isinstance(axs[0].xaxis.get_major_formatter(), ScalarFormatter) def test_removed_axis(): # Simple smoke test to make sure removing a shared axis works fig, axs = plt.subplots(2, sharex=True) axs[0].remove() fig.canvas.draw()