import collections import itertools import platform import time from unittest import mock import warnings import numpy as np from numpy.testing import assert_allclose import pytest from matplotlib.testing.decorators import check_figures_equal, image_comparison from matplotlib.testing._markers import needs_usetex import matplotlib.pyplot as plt import matplotlib as mpl import matplotlib.patches as mpatches import matplotlib.transforms as mtransforms import matplotlib.collections as mcollections import matplotlib.lines as mlines from matplotlib.legend_handler import HandlerTuple import matplotlib.legend as mlegend from matplotlib import _api, rc_context from matplotlib.font_manager import FontProperties def test_legend_ordereddict(): # smoketest that ordereddict inputs work... X = np.random.randn(10) Y = np.random.randn(10) labels = ['a'] * 5 + ['b'] * 5 colors = ['r'] * 5 + ['g'] * 5 fig, ax = plt.subplots() for x, y, label, color in zip(X, Y, labels, colors): ax.scatter(x, y, label=label, c=color) handles, labels = ax.get_legend_handles_labels() legend = collections.OrderedDict(zip(labels, handles)) ax.legend(legend.values(), legend.keys(), loc='center left', bbox_to_anchor=(1, .5)) @image_comparison(['legend_auto1'], remove_text=True) def test_legend_auto1(): """Test automatic legend placement""" fig, ax = plt.subplots() x = np.arange(100) ax.plot(x, 50 - x, 'o', label='y=1') ax.plot(x, x - 50, 'o', label='y=-1') ax.legend(loc='best') @image_comparison(['legend_auto2'], remove_text=True) def test_legend_auto2(): """Test automatic legend placement""" fig, ax = plt.subplots() x = np.arange(100) b1 = ax.bar(x, x, align='edge', color='m') b2 = ax.bar(x, x[::-1], align='edge', color='g') ax.legend([b1[0], b2[0]], ['up', 'down'], loc='best') @image_comparison(['legend_auto3']) def test_legend_auto3(): """Test automatic legend placement""" fig, ax = plt.subplots() x = [0.9, 0.1, 0.1, 0.9, 0.9, 0.5] y = [0.95, 0.95, 0.05, 0.05, 0.5, 0.5] ax.plot(x, y, 'o-', label='line') ax.set_xlim(0.0, 1.0) ax.set_ylim(0.0, 1.0) ax.legend(loc='best') def test_legend_auto4(): """ Check that the legend location with automatic placement is the same, whatever the histogram type is. Related to issue #9580. """ # NB: barstacked is pointless with a single dataset. fig, axs = plt.subplots(ncols=3, figsize=(6.4, 2.4)) leg_bboxes = [] for ax, ht in zip(axs.flat, ('bar', 'step', 'stepfilled')): ax.set_title(ht) # A high bar on the left but an even higher one on the right. ax.hist([0] + 5*[9], bins=range(10), label="Legend", histtype=ht) leg = ax.legend(loc="best") fig.canvas.draw() leg_bboxes.append( leg.get_window_extent().transformed(ax.transAxes.inverted())) # The histogram type "bar" is assumed to be the correct reference. assert_allclose(leg_bboxes[1].bounds, leg_bboxes[0].bounds) assert_allclose(leg_bboxes[2].bounds, leg_bboxes[0].bounds) def test_legend_auto5(): """ Check that the automatic placement handle a rather complex case with non rectangular patch. Related to issue #9580. """ fig, axs = plt.subplots(ncols=2, figsize=(9.6, 4.8)) leg_bboxes = [] for ax, loc in zip(axs.flat, ("center", "best")): # An Ellipse patch at the top, a U-shaped Polygon patch at the # bottom and a ring-like Wedge patch: the correct placement of # the legend should be in the center. for _patch in [ mpatches.Ellipse( xy=(0.5, 0.9), width=0.8, height=0.2, fc="C1"), mpatches.Polygon(np.array([ [0, 1], [0, 0], [1, 0], [1, 1], [0.9, 1.0], [0.9, 0.1], [0.1, 0.1], [0.1, 1.0], [0.1, 1.0]]), fc="C1"), mpatches.Wedge((0.5, 0.5), 0.5, 0, 360, width=0.05, fc="C0") ]: ax.add_patch(_patch) ax.plot([0.1, 0.9], [0.9, 0.9], label="A segment") # sthg to label leg = ax.legend(loc=loc) fig.canvas.draw() leg_bboxes.append( leg.get_window_extent().transformed(ax.transAxes.inverted())) assert_allclose(leg_bboxes[1].bounds, leg_bboxes[0].bounds) @image_comparison(['legend_various_labels'], remove_text=True) def test_various_labels(): # tests all sorts of label types fig = plt.figure() ax = fig.add_subplot(121) ax.plot(np.arange(4), 'o', label=1) ax.plot(np.linspace(4, 4.1), 'o', label='Développés') ax.plot(np.arange(4, 1, -1), 'o', label='__nolegend__') ax.legend(numpoints=1, loc='best') def test_legend_label_with_leading_underscore(): """ Test that artists with labels starting with an underscore are not added to the legend, and that a warning is issued if one tries to add them explicitly. """ fig, ax = plt.subplots() line, = ax.plot([0, 1], label='_foo') with pytest.warns(_api.MatplotlibDeprecationWarning, match="with an underscore"): legend = ax.legend(handles=[line]) assert len(legend.legend_handles) == 0 @image_comparison(['legend_labels_first.png'], remove_text=True, tol=0.013 if platform.machine() == 'arm64' else 0) def test_labels_first(): # test labels to left of markers fig, ax = plt.subplots() ax.plot(np.arange(10), '-o', label=1) ax.plot(np.ones(10)*5, ':x', label="x") ax.plot(np.arange(20, 10, -1), 'd', label="diamond") ax.legend(loc='best', markerfirst=False) @image_comparison(['legend_multiple_keys.png'], remove_text=True, tol=0.013 if platform.machine() == 'arm64' else 0) def test_multiple_keys(): # test legend entries with multiple keys fig, ax = plt.subplots() p1, = ax.plot([1, 2, 3], '-o') p2, = ax.plot([2, 3, 4], '-x') p3, = ax.plot([3, 4, 5], '-d') ax.legend([(p1, p2), (p2, p1), p3], ['two keys', 'pad=0', 'one key'], numpoints=1, handler_map={(p1, p2): HandlerTuple(ndivide=None), (p2, p1): HandlerTuple(ndivide=None, pad=0)}) @image_comparison(['rgba_alpha.png'], remove_text=True, tol=0 if platform.machine() == 'x86_64' else 0.03) def test_alpha_rgba(): fig, ax = plt.subplots() ax.plot(range(10), lw=5) leg = plt.legend(['Longlabel that will go away'], loc='center') leg.legendPatch.set_facecolor([1, 0, 0, 0.5]) @image_comparison(['rcparam_alpha.png'], remove_text=True, tol=0 if platform.machine() == 'x86_64' else 0.03) def test_alpha_rcparam(): fig, ax = plt.subplots() ax.plot(range(10), lw=5) with mpl.rc_context(rc={'legend.framealpha': .75}): leg = plt.legend(['Longlabel that will go away'], loc='center') # this alpha is going to be over-ridden by the rcparam with # sets the alpha of the patch to be non-None which causes the alpha # value of the face color to be discarded. This behavior may not be # ideal, but it is what it is and we should keep track of it changing leg.legendPatch.set_facecolor([1, 0, 0, 0.5]) @image_comparison(['fancy'], remove_text=True, tol=0.05) def test_fancy(): # Tolerance caused by changing default shadow "shade" from 0.3 to 1 - 0.7 = # 0.30000000000000004 # using subplot triggers some offsetbox functionality untested elsewhere plt.subplot(121) plt.plot([5] * 10, 'o--', label='XX') plt.scatter(np.arange(10), np.arange(10, 0, -1), label='XX\nXX') plt.errorbar(np.arange(10), np.arange(10), xerr=0.5, yerr=0.5, label='XX') plt.legend(loc="center left", bbox_to_anchor=[1.0, 0.5], ncols=2, shadow=True, title="My legend", numpoints=1) @image_comparison(['framealpha'], remove_text=True, tol=0 if platform.machine() == 'x86_64' else 0.024) def test_framealpha(): x = np.linspace(1, 100, 100) y = x plt.plot(x, y, label='mylabel', lw=10) plt.legend(framealpha=0.5) @image_comparison(['scatter_rc3', 'scatter_rc1'], remove_text=True) def test_rc(): # using subplot triggers some offsetbox functionality untested elsewhere plt.figure() ax = plt.subplot(121) ax.scatter(np.arange(10), np.arange(10, 0, -1), label='three') ax.legend(loc="center left", bbox_to_anchor=[1.0, 0.5], title="My legend") mpl.rcParams['legend.scatterpoints'] = 1 plt.figure() ax = plt.subplot(121) ax.scatter(np.arange(10), np.arange(10, 0, -1), label='one') ax.legend(loc="center left", bbox_to_anchor=[1.0, 0.5], title="My legend") @image_comparison(['legend_expand'], remove_text=True) def test_legend_expand(): """Test expand mode""" legend_modes = [None, "expand"] fig, axs = plt.subplots(len(legend_modes), 1) x = np.arange(100) for ax, mode in zip(axs, legend_modes): ax.plot(x, 50 - x, 'o', label='y=1') l1 = ax.legend(loc='upper left', mode=mode) ax.add_artist(l1) ax.plot(x, x - 50, 'o', label='y=-1') l2 = ax.legend(loc='right', mode=mode) ax.add_artist(l2) ax.legend(loc='lower left', mode=mode, ncols=2) @image_comparison(['hatching'], remove_text=True, style='default') def test_hatching(): # Remove legend texts when this image is regenerated. # Remove this line when this test image is regenerated. plt.rcParams['text.kerning_factor'] = 6 fig, ax = plt.subplots() # Patches patch = plt.Rectangle((0, 0), 0.3, 0.3, hatch='xx', label='Patch\ndefault color\nfilled') ax.add_patch(patch) patch = plt.Rectangle((0.33, 0), 0.3, 0.3, hatch='||', edgecolor='C1', label='Patch\nexplicit color\nfilled') ax.add_patch(patch) patch = plt.Rectangle((0, 0.4), 0.3, 0.3, hatch='xx', fill=False, label='Patch\ndefault color\nunfilled') ax.add_patch(patch) patch = plt.Rectangle((0.33, 0.4), 0.3, 0.3, hatch='||', fill=False, edgecolor='C1', label='Patch\nexplicit color\nunfilled') ax.add_patch(patch) # Paths ax.fill_between([0, .15, .3], [.8, .8, .8], [.9, 1.0, .9], hatch='+', label='Path\ndefault color') ax.fill_between([.33, .48, .63], [.8, .8, .8], [.9, 1.0, .9], hatch='+', edgecolor='C2', label='Path\nexplicit color') ax.set_xlim(-0.01, 1.1) ax.set_ylim(-0.01, 1.1) ax.legend(handlelength=4, handleheight=4) def test_legend_remove(): fig, ax = plt.subplots() lines = ax.plot(range(10)) leg = fig.legend(lines, "test") leg.remove() assert fig.legends == [] leg = ax.legend("test") leg.remove() assert ax.get_legend() is None def test_reverse_legend_handles_and_labels(): """Check that the legend handles and labels are reversed.""" fig, ax = plt.subplots() x = 1 y = 1 labels = ["First label", "Second label", "Third label"] markers = ['.', ',', 'o'] ax.plot(x, y, markers[0], label=labels[0]) ax.plot(x, y, markers[1], label=labels[1]) ax.plot(x, y, markers[2], label=labels[2]) leg = ax.legend(reverse=True) actual_labels = [t.get_text() for t in leg.get_texts()] actual_markers = [h.get_marker() for h in leg.legend_handles] assert actual_labels == list(reversed(labels)) assert actual_markers == list(reversed(markers)) @check_figures_equal(extensions=["png"]) def test_reverse_legend_display(fig_test, fig_ref): """Check that the rendered legend entries are reversed""" ax = fig_test.subplots() ax.plot([1], 'ro', label="first") ax.plot([2], 'bx', label="second") ax.legend(reverse=True) ax = fig_ref.subplots() ax.plot([2], 'bx', label="second") ax.plot([1], 'ro', label="first") ax.legend() class TestLegendFunction: # Tests the legend function on the Axes and pyplot. def test_legend_no_args(self): lines = plt.plot(range(10), label='hello world') with mock.patch('matplotlib.legend.Legend') as Legend: plt.legend() Legend.assert_called_with(plt.gca(), lines, ['hello world']) def test_legend_positional_handles_labels(self): lines = plt.plot(range(10)) with mock.patch('matplotlib.legend.Legend') as Legend: plt.legend(lines, ['hello world']) Legend.assert_called_with(plt.gca(), lines, ['hello world']) def test_legend_positional_handles_only(self): lines = plt.plot(range(10)) with pytest.raises(TypeError, match='but found an Artist'): # a single arg is interpreted as labels # it's a common error to just pass handles plt.legend(lines) def test_legend_positional_labels_only(self): lines = plt.plot(range(10), label='hello world') with mock.patch('matplotlib.legend.Legend') as Legend: plt.legend(['foobar']) Legend.assert_called_with(plt.gca(), lines, ['foobar']) def test_legend_three_args(self): lines = plt.plot(range(10), label='hello world') with mock.patch('matplotlib.legend.Legend') as Legend: plt.legend(lines, ['foobar'], loc='right') Legend.assert_called_with(plt.gca(), lines, ['foobar'], loc='right') def test_legend_handler_map(self): lines = plt.plot(range(10), label='hello world') with mock.patch('matplotlib.legend.' '_get_legend_handles_labels') as handles_labels: handles_labels.return_value = lines, ['hello world'] plt.legend(handler_map={'1': 2}) handles_labels.assert_called_with([plt.gca()], {'1': 2}) def test_legend_kwargs_handles_only(self): fig, ax = plt.subplots() x = np.linspace(0, 1, 11) ln1, = ax.plot(x, x, label='x') ln2, = ax.plot(x, 2*x, label='2x') ln3, = ax.plot(x, 3*x, label='3x') with mock.patch('matplotlib.legend.Legend') as Legend: ax.legend(handles=[ln3, ln2]) # reversed and not ln1 Legend.assert_called_with(ax, [ln3, ln2], ['3x', '2x']) def test_legend_kwargs_labels_only(self): fig, ax = plt.subplots() x = np.linspace(0, 1, 11) ln1, = ax.plot(x, x) ln2, = ax.plot(x, 2*x) with mock.patch('matplotlib.legend.Legend') as Legend: ax.legend(labels=['x', '2x']) Legend.assert_called_with(ax, [ln1, ln2], ['x', '2x']) def test_legend_kwargs_handles_labels(self): fig, ax = plt.subplots() th = np.linspace(0, 2*np.pi, 1024) lns, = ax.plot(th, np.sin(th), label='sin') lnc, = ax.plot(th, np.cos(th), label='cos') with mock.patch('matplotlib.legend.Legend') as Legend: # labels of lns, lnc are overwritten with explicit ('a', 'b') ax.legend(labels=('a', 'b'), handles=(lnc, lns)) Legend.assert_called_with(ax, (lnc, lns), ('a', 'b')) def test_warn_mixed_args_and_kwargs(self): fig, ax = plt.subplots() th = np.linspace(0, 2*np.pi, 1024) lns, = ax.plot(th, np.sin(th), label='sin') lnc, = ax.plot(th, np.cos(th), label='cos') with pytest.warns(DeprecationWarning) as record: ax.legend((lnc, lns), labels=('a', 'b')) assert len(record) == 1 assert str(record[0].message).startswith( "You have mixed positional and keyword arguments, some input may " "be discarded.") def test_parasite(self): from mpl_toolkits.axes_grid1 import host_subplot # type: ignore host = host_subplot(111) par = host.twinx() p1, = host.plot([0, 1, 2], [0, 1, 2], label="Density") p2, = par.plot([0, 1, 2], [0, 3, 2], label="Temperature") with mock.patch('matplotlib.legend.Legend') as Legend: plt.legend() Legend.assert_called_with(host, [p1, p2], ['Density', 'Temperature']) class TestLegendFigureFunction: # Tests the legend function for figure def test_legend_handle_label(self): fig, ax = plt.subplots() lines = ax.plot(range(10)) with mock.patch('matplotlib.legend.Legend') as Legend: fig.legend(lines, ['hello world']) Legend.assert_called_with(fig, lines, ['hello world'], bbox_transform=fig.transFigure) def test_legend_no_args(self): fig, ax = plt.subplots() lines = ax.plot(range(10), label='hello world') with mock.patch('matplotlib.legend.Legend') as Legend: fig.legend() Legend.assert_called_with(fig, lines, ['hello world'], bbox_transform=fig.transFigure) def test_legend_label_arg(self): fig, ax = plt.subplots() lines = ax.plot(range(10)) with mock.patch('matplotlib.legend.Legend') as Legend: fig.legend(['foobar']) Legend.assert_called_with(fig, lines, ['foobar'], bbox_transform=fig.transFigure) def test_legend_label_three_args(self): fig, ax = plt.subplots() lines = ax.plot(range(10)) with pytest.raises(TypeError, match="0-2"): fig.legend(lines, ['foobar'], 'right') with pytest.raises(TypeError, match="0-2"): fig.legend(lines, ['foobar'], 'right', loc='left') def test_legend_kw_args(self): fig, axs = plt.subplots(1, 2) lines = axs[0].plot(range(10)) lines2 = axs[1].plot(np.arange(10) * 2.) with mock.patch('matplotlib.legend.Legend') as Legend: fig.legend(loc='right', labels=('a', 'b'), handles=(lines, lines2)) Legend.assert_called_with( fig, (lines, lines2), ('a', 'b'), loc='right', bbox_transform=fig.transFigure) def test_warn_args_kwargs(self): fig, axs = plt.subplots(1, 2) lines = axs[0].plot(range(10)) lines2 = axs[1].plot(np.arange(10) * 2.) with pytest.warns(DeprecationWarning) as record: fig.legend((lines, lines2), labels=('a', 'b')) assert len(record) == 1 assert str(record[0].message).startswith( "You have mixed positional and keyword arguments, some input may " "be discarded.") def test_figure_legend_outside(): todos = ['upper ' + pos for pos in ['left', 'center', 'right']] todos += ['lower ' + pos for pos in ['left', 'center', 'right']] todos += ['left ' + pos for pos in ['lower', 'center', 'upper']] todos += ['right ' + pos for pos in ['lower', 'center', 'upper']] upperext = [20.347556, 27.722556, 790.583, 545.499] lowerext = [20.347556, 71.056556, 790.583, 588.833] leftext = [151.681556, 27.722556, 790.583, 588.833] rightext = [20.347556, 27.722556, 659.249, 588.833] axbb = [upperext, upperext, upperext, lowerext, lowerext, lowerext, leftext, leftext, leftext, rightext, rightext, rightext] legbb = [[10., 555., 133., 590.], # upper left [338.5, 555., 461.5, 590.], # upper center [667, 555., 790., 590.], # upper right [10., 10., 133., 45.], # lower left [338.5, 10., 461.5, 45.], # lower center [667., 10., 790., 45.], # lower right [10., 10., 133., 45.], # left lower [10., 282.5, 133., 317.5], # left center [10., 555., 133., 590.], # left upper [667, 10., 790., 45.], # right lower [667., 282.5, 790., 317.5], # right center [667., 555., 790., 590.]] # right upper for nn, todo in enumerate(todos): print(todo) fig, axs = plt.subplots(constrained_layout=True, dpi=100) axs.plot(range(10), label='Boo1') leg = fig.legend(loc='outside ' + todo) fig.draw_without_rendering() assert_allclose(axs.get_window_extent().extents, axbb[nn]) assert_allclose(leg.get_window_extent().extents, legbb[nn]) @image_comparison(['legend_stackplot.png'], tol=0.031 if platform.machine() == 'arm64' else 0) def test_legend_stackplot(): """Test legend for PolyCollection using stackplot.""" # related to #1341, #1943, and PR #3303 fig, ax = plt.subplots() x = np.linspace(0, 10, 10) y1 = 1.0 * x y2 = 2.0 * x + 1 y3 = 3.0 * x + 2 ax.stackplot(x, y1, y2, y3, labels=['y1', 'y2', 'y3']) ax.set_xlim((0, 10)) ax.set_ylim((0, 70)) ax.legend(loc='best') def test_cross_figure_patch_legend(): fig, ax = plt.subplots() fig2, ax2 = plt.subplots() brs = ax.bar(range(3), range(3)) fig2.legend(brs, 'foo') def test_nanscatter(): fig, ax = plt.subplots() h = ax.scatter([np.nan], [np.nan], marker="o", facecolor="r", edgecolor="r", s=3) ax.legend([h], ["scatter"]) fig, ax = plt.subplots() for color in ['red', 'green', 'blue']: n = 750 x, y = np.random.rand(2, n) scale = 200.0 * np.random.rand(n) ax.scatter(x, y, c=color, s=scale, label=color, alpha=0.3, edgecolors='none') ax.legend() ax.grid(True) def test_legend_repeatcheckok(): fig, ax = plt.subplots() ax.scatter(0.0, 1.0, color='k', marker='o', label='test') ax.scatter(0.5, 0.0, color='r', marker='v', label='test') ax.legend() hand, lab = mlegend._get_legend_handles_labels([ax]) assert len(lab) == 2 fig, ax = plt.subplots() ax.scatter(0.0, 1.0, color='k', marker='o', label='test') ax.scatter(0.5, 0.0, color='k', marker='v', label='test') ax.legend() hand, lab = mlegend._get_legend_handles_labels([ax]) assert len(lab) == 2 @image_comparison(['not_covering_scatter.png']) def test_not_covering_scatter(): colors = ['b', 'g', 'r'] for n in range(3): plt.scatter([n], [n], color=colors[n]) plt.legend(['foo', 'foo', 'foo'], loc='best') plt.gca().set_xlim(-0.5, 2.2) plt.gca().set_ylim(-0.5, 2.2) @image_comparison(['not_covering_scatter_transform.png']) def test_not_covering_scatter_transform(): # Offsets point to top left, the default auto position offset = mtransforms.Affine2D().translate(-20, 20) x = np.linspace(0, 30, 1000) plt.plot(x, x) plt.scatter([20], [10], transform=offset + plt.gca().transData) plt.legend(['foo', 'bar'], loc='best') def test_linecollection_scaled_dashes(): lines1 = [[(0, .5), (.5, 1)], [(.3, .6), (.2, .2)]] lines2 = [[[0.7, .2], [.8, .4]], [[.5, .7], [.6, .1]]] lines3 = [[[0.6, .2], [.8, .4]], [[.5, .7], [.1, .1]]] lc1 = mcollections.LineCollection(lines1, linestyles="--", lw=3) lc2 = mcollections.LineCollection(lines2, linestyles="-.") lc3 = mcollections.LineCollection(lines3, linestyles=":", lw=.5) fig, ax = plt.subplots() ax.add_collection(lc1) ax.add_collection(lc2) ax.add_collection(lc3) leg = ax.legend([lc1, lc2, lc3], ["line1", "line2", 'line 3']) h1, h2, h3 = leg.legend_handles for oh, lh in zip((lc1, lc2, lc3), (h1, h2, h3)): assert oh.get_linestyles()[0] == lh._dash_pattern def test_handler_numpoints(): """Test legend handler with numpoints <= 1.""" # related to #6921 and PR #8478 fig, ax = plt.subplots() ax.plot(range(5), label='test') ax.legend(numpoints=0.5) def test_text_nohandler_warning(): """Test that Text artists with labels raise a warning""" fig, ax = plt.subplots() ax.plot([0], label="mock data") ax.text(x=0, y=0, s="text", label="label") with pytest.warns(UserWarning) as record: ax.legend() assert len(record) == 1 # this should _not_ warn: f, ax = plt.subplots() ax.pcolormesh(np.random.uniform(0, 1, (10, 10))) with warnings.catch_warnings(): warnings.simplefilter("error") ax.get_legend_handles_labels() def test_empty_bar_chart_with_legend(): """Test legend when bar chart is empty with a label.""" # related to issue #13003. Calling plt.legend() should not # raise an IndexError. plt.bar([], [], label='test') plt.legend() @image_comparison(['shadow_argument_types.png'], remove_text=True, style='mpl20', tol=0.028 if platform.machine() == 'arm64' else 0) def test_shadow_argument_types(): # Test that different arguments for shadow work as expected fig, ax = plt.subplots() ax.plot([1, 2, 3], label='test') # Test various shadow configurations # as well as different ways of specifying colors legs = (ax.legend(loc='upper left', shadow=True), # True ax.legend(loc='upper right', shadow=False), # False ax.legend(loc='center left', # string shadow={'color': 'red', 'alpha': 0.1}), ax.legend(loc='center right', # tuple shadow={'color': (0.1, 0.2, 0.5), 'oy': -5}), ax.legend(loc='lower left', # tab shadow={'color': 'tab:cyan', 'ox': 10}) ) for l in legs: ax.add_artist(l) ax.legend(loc='lower right') # default def test_shadow_invalid_argument(): # Test if invalid argument to legend shadow # (i.e. not [color|bool]) raises ValueError fig, ax = plt.subplots() ax.plot([1, 2, 3], label='test') with pytest.raises(ValueError, match="dict or bool"): ax.legend(loc="upper left", shadow="aardvark") # Bad argument def test_shadow_framealpha(): # Test if framealpha is activated when shadow is True # and framealpha is not explicitly passed''' fig, ax = plt.subplots() ax.plot(range(100), label="test") leg = ax.legend(shadow=True, facecolor='w') assert leg.get_frame().get_alpha() == 1 def test_legend_title_empty(): # test that if we don't set the legend title, that # it comes back as an empty string, and that it is not # visible: fig, ax = plt.subplots() ax.plot(range(10), label="mock data") leg = ax.legend() assert leg.get_title().get_text() == "" assert not leg.get_title().get_visible() def test_legend_proper_window_extent(): # test that legend returns the expected extent under various dpi... fig, ax = plt.subplots(dpi=100) ax.plot(range(10), label='Aardvark') leg = ax.legend() x01 = leg.get_window_extent(fig.canvas.get_renderer()).x0 fig, ax = plt.subplots(dpi=200) ax.plot(range(10), label='Aardvark') leg = ax.legend() x02 = leg.get_window_extent(fig.canvas.get_renderer()).x0 assert pytest.approx(x01*2, 0.1) == x02 def test_window_extent_cached_renderer(): fig, ax = plt.subplots(dpi=100) ax.plot(range(10), label='Aardvark') leg = ax.legend() leg2 = fig.legend() fig.canvas.draw() # check that get_window_extent will use the cached renderer leg.get_window_extent() leg2.get_window_extent() def test_legend_title_fontprop_fontsize(): # test the title_fontsize kwarg plt.plot(range(10), label="mock data") with pytest.raises(ValueError): plt.legend(title='Aardvark', title_fontsize=22, title_fontproperties={'family': 'serif', 'size': 22}) leg = plt.legend(title='Aardvark', title_fontproperties=FontProperties( family='serif', size=22)) assert leg.get_title().get_size() == 22 fig, axes = plt.subplots(2, 3, figsize=(10, 6)) axes = axes.flat axes[0].plot(range(10), label="mock data") leg0 = axes[0].legend(title='Aardvark', title_fontsize=22) assert leg0.get_title().get_fontsize() == 22 axes[1].plot(range(10), label="mock data") leg1 = axes[1].legend(title='Aardvark', title_fontproperties={'family': 'serif', 'size': 22}) assert leg1.get_title().get_fontsize() == 22 axes[2].plot(range(10), label="mock data") mpl.rcParams['legend.title_fontsize'] = None leg2 = axes[2].legend(title='Aardvark', title_fontproperties={'family': 'serif'}) assert leg2.get_title().get_fontsize() == mpl.rcParams['font.size'] axes[3].plot(range(10), label="mock data") leg3 = axes[3].legend(title='Aardvark') assert leg3.get_title().get_fontsize() == mpl.rcParams['font.size'] axes[4].plot(range(10), label="mock data") mpl.rcParams['legend.title_fontsize'] = 20 leg4 = axes[4].legend(title='Aardvark', title_fontproperties={'family': 'serif'}) assert leg4.get_title().get_fontsize() == 20 axes[5].plot(range(10), label="mock data") leg5 = axes[5].legend(title='Aardvark') assert leg5.get_title().get_fontsize() == 20 @pytest.mark.parametrize('alignment', ('center', 'left', 'right')) def test_legend_alignment(alignment): fig, ax = plt.subplots() ax.plot(range(10), label='test') leg = ax.legend(title="Aardvark", alignment=alignment) assert leg.get_children()[0].align == alignment assert leg.get_alignment() == alignment @pytest.mark.parametrize('loc', ('center', 'best',)) def test_ax_legend_set_loc(loc): fig, ax = plt.subplots() ax.plot(range(10), label='test') leg = ax.legend() leg.set_loc(loc) assert leg._get_loc() == mlegend.Legend.codes[loc] @pytest.mark.parametrize('loc', ('outside right', 'right',)) def test_fig_legend_set_loc(loc): fig, ax = plt.subplots() ax.plot(range(10), label='test') leg = fig.legend() leg.set_loc(loc) loc = loc.split()[1] if loc.startswith("outside") else loc assert leg._get_loc() == mlegend.Legend.codes[loc] @pytest.mark.parametrize('alignment', ('center', 'left', 'right')) def test_legend_set_alignment(alignment): fig, ax = plt.subplots() ax.plot(range(10), label='test') leg = ax.legend() leg.set_alignment(alignment) assert leg.get_children()[0].align == alignment assert leg.get_alignment() == alignment @pytest.mark.parametrize('color', ('red', 'none', (.5, .5, .5))) def test_legend_labelcolor_single(color): # test labelcolor for a single color fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)*1, label='#1') ax.plot(np.arange(10), np.arange(10)*2, label='#2') ax.plot(np.arange(10), np.arange(10)*3, label='#3') leg = ax.legend(labelcolor=color) for text in leg.get_texts(): assert mpl.colors.same_color(text.get_color(), color) def test_legend_labelcolor_list(): # test labelcolor for a list of colors fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)*1, label='#1') ax.plot(np.arange(10), np.arange(10)*2, label='#2') ax.plot(np.arange(10), np.arange(10)*3, label='#3') leg = ax.legend(labelcolor=['r', 'g', 'b']) for text, color in zip(leg.get_texts(), ['r', 'g', 'b']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_labelcolor_linecolor(): # test the labelcolor for labelcolor='linecolor' fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)*1, label='#1', color='r') ax.plot(np.arange(10), np.arange(10)*2, label='#2', color='g') ax.plot(np.arange(10), np.arange(10)*3, label='#3', color='b') leg = ax.legend(labelcolor='linecolor') for text, color in zip(leg.get_texts(), ['r', 'g', 'b']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_pathcollection_labelcolor_linecolor(): # test the labelcolor for labelcolor='linecolor' on PathCollection fig, ax = plt.subplots() ax.scatter(np.arange(10), np.arange(10)*1, label='#1', c='r') ax.scatter(np.arange(10), np.arange(10)*2, label='#2', c='g') ax.scatter(np.arange(10), np.arange(10)*3, label='#3', c='b') leg = ax.legend(labelcolor='linecolor') for text, color in zip(leg.get_texts(), ['r', 'g', 'b']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_pathcollection_labelcolor_linecolor_iterable(): # test the labelcolor for labelcolor='linecolor' on PathCollection # with iterable colors fig, ax = plt.subplots() colors = np.random.default_rng().choice(['r', 'g', 'b'], 10) ax.scatter(np.arange(10), np.arange(10)*1, label='#1', c=colors) leg = ax.legend(labelcolor='linecolor') text, = leg.get_texts() assert mpl.colors.same_color(text.get_color(), 'black') def test_legend_pathcollection_labelcolor_linecolor_cmap(): # test the labelcolor for labelcolor='linecolor' on PathCollection # with a colormap fig, ax = plt.subplots() ax.scatter(np.arange(10), np.arange(10), c=np.arange(10), label='#1') leg = ax.legend(labelcolor='linecolor') text, = leg.get_texts() assert mpl.colors.same_color(text.get_color(), 'black') def test_legend_labelcolor_markeredgecolor(): # test the labelcolor for labelcolor='markeredgecolor' fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)*1, label='#1', markeredgecolor='r') ax.plot(np.arange(10), np.arange(10)*2, label='#2', markeredgecolor='g') ax.plot(np.arange(10), np.arange(10)*3, label='#3', markeredgecolor='b') leg = ax.legend(labelcolor='markeredgecolor') for text, color in zip(leg.get_texts(), ['r', 'g', 'b']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_pathcollection_labelcolor_markeredgecolor(): # test the labelcolor for labelcolor='markeredgecolor' on PathCollection fig, ax = plt.subplots() ax.scatter(np.arange(10), np.arange(10)*1, label='#1', edgecolor='r') ax.scatter(np.arange(10), np.arange(10)*2, label='#2', edgecolor='g') ax.scatter(np.arange(10), np.arange(10)*3, label='#3', edgecolor='b') leg = ax.legend(labelcolor='markeredgecolor') for text, color in zip(leg.get_texts(), ['r', 'g', 'b']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_pathcollection_labelcolor_markeredgecolor_iterable(): # test the labelcolor for labelcolor='markeredgecolor' on PathCollection # with iterable colors fig, ax = plt.subplots() colors = np.random.default_rng().choice(['r', 'g', 'b'], 10) ax.scatter(np.arange(10), np.arange(10)*1, label='#1', edgecolor=colors) leg = ax.legend(labelcolor='markeredgecolor') for text, color in zip(leg.get_texts(), ['k']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_pathcollection_labelcolor_markeredgecolor_cmap(): # test the labelcolor for labelcolor='markeredgecolor' on PathCollection # with a colormap fig, ax = plt.subplots() edgecolors = mpl.cm.viridis(np.random.rand(10)) ax.scatter( np.arange(10), np.arange(10), label='#1', c=np.arange(10), edgecolor=edgecolors, cmap="Reds" ) leg = ax.legend(labelcolor='markeredgecolor') for text, color in zip(leg.get_texts(), ['k']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_labelcolor_markerfacecolor(): # test the labelcolor for labelcolor='markerfacecolor' fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)*1, label='#1', markerfacecolor='r') ax.plot(np.arange(10), np.arange(10)*2, label='#2', markerfacecolor='g') ax.plot(np.arange(10), np.arange(10)*3, label='#3', markerfacecolor='b') leg = ax.legend(labelcolor='markerfacecolor') for text, color in zip(leg.get_texts(), ['r', 'g', 'b']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_pathcollection_labelcolor_markerfacecolor(): # test the labelcolor for labelcolor='markerfacecolor' on PathCollection fig, ax = plt.subplots() ax.scatter(np.arange(10), np.arange(10)*1, label='#1', facecolor='r') ax.scatter(np.arange(10), np.arange(10)*2, label='#2', facecolor='g') ax.scatter(np.arange(10), np.arange(10)*3, label='#3', facecolor='b') leg = ax.legend(labelcolor='markerfacecolor') for text, color in zip(leg.get_texts(), ['r', 'g', 'b']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_pathcollection_labelcolor_markerfacecolor_iterable(): # test the labelcolor for labelcolor='markerfacecolor' on PathCollection # with iterable colors fig, ax = plt.subplots() colors = np.random.default_rng().choice(['r', 'g', 'b'], 10) ax.scatter(np.arange(10), np.arange(10)*1, label='#1', facecolor=colors) leg = ax.legend(labelcolor='markerfacecolor') for text, color in zip(leg.get_texts(), ['k']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_pathcollection_labelcolor_markfacecolor_cmap(): # test the labelcolor for labelcolor='markerfacecolor' on PathCollection # with colormaps fig, ax = plt.subplots() facecolors = mpl.cm.viridis(np.random.rand(10)) ax.scatter( np.arange(10), np.arange(10), label='#1', c=np.arange(10), facecolor=facecolors ) leg = ax.legend(labelcolor='markerfacecolor') for text, color in zip(leg.get_texts(), ['k']): assert mpl.colors.same_color(text.get_color(), color) @pytest.mark.parametrize('color', ('red', 'none', (.5, .5, .5))) def test_legend_labelcolor_rcparam_single(color): # test the rcParams legend.labelcolor for a single color fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)*1, label='#1') ax.plot(np.arange(10), np.arange(10)*2, label='#2') ax.plot(np.arange(10), np.arange(10)*3, label='#3') mpl.rcParams['legend.labelcolor'] = color leg = ax.legend() for text in leg.get_texts(): assert mpl.colors.same_color(text.get_color(), color) def test_legend_labelcolor_rcparam_linecolor(): # test the rcParams legend.labelcolor for a linecolor fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)*1, label='#1', color='r') ax.plot(np.arange(10), np.arange(10)*2, label='#2', color='g') ax.plot(np.arange(10), np.arange(10)*3, label='#3', color='b') mpl.rcParams['legend.labelcolor'] = 'linecolor' leg = ax.legend() for text, color in zip(leg.get_texts(), ['r', 'g', 'b']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_labelcolor_rcparam_markeredgecolor(): # test the labelcolor for labelcolor='markeredgecolor' fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)*1, label='#1', markeredgecolor='r') ax.plot(np.arange(10), np.arange(10)*2, label='#2', markeredgecolor='g') ax.plot(np.arange(10), np.arange(10)*3, label='#3', markeredgecolor='b') mpl.rcParams['legend.labelcolor'] = 'markeredgecolor' leg = ax.legend() for text, color in zip(leg.get_texts(), ['r', 'g', 'b']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_labelcolor_rcparam_markeredgecolor_short(): # test the labelcolor for labelcolor='markeredgecolor' fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)*1, label='#1', markeredgecolor='r') ax.plot(np.arange(10), np.arange(10)*2, label='#2', markeredgecolor='g') ax.plot(np.arange(10), np.arange(10)*3, label='#3', markeredgecolor='b') mpl.rcParams['legend.labelcolor'] = 'mec' leg = ax.legend() for text, color in zip(leg.get_texts(), ['r', 'g', 'b']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_labelcolor_rcparam_markerfacecolor(): # test the labelcolor for labelcolor='markeredgecolor' fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)*1, label='#1', markerfacecolor='r') ax.plot(np.arange(10), np.arange(10)*2, label='#2', markerfacecolor='g') ax.plot(np.arange(10), np.arange(10)*3, label='#3', markerfacecolor='b') mpl.rcParams['legend.labelcolor'] = 'markerfacecolor' leg = ax.legend() for text, color in zip(leg.get_texts(), ['r', 'g', 'b']): assert mpl.colors.same_color(text.get_color(), color) def test_legend_labelcolor_rcparam_markerfacecolor_short(): # test the labelcolor for labelcolor='markeredgecolor' fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)*1, label='#1', markerfacecolor='r') ax.plot(np.arange(10), np.arange(10)*2, label='#2', markerfacecolor='g') ax.plot(np.arange(10), np.arange(10)*3, label='#3', markerfacecolor='b') mpl.rcParams['legend.labelcolor'] = 'mfc' leg = ax.legend() for text, color in zip(leg.get_texts(), ['r', 'g', 'b']): assert mpl.colors.same_color(text.get_color(), color) @pytest.mark.filterwarnings("ignore:No artists with labels found to put in legend") def test_get_set_draggable(): legend = plt.legend() assert not legend.get_draggable() legend.set_draggable(True) assert legend.get_draggable() legend.set_draggable(False) assert not legend.get_draggable() @pytest.mark.parametrize('draggable', (True, False)) def test_legend_draggable(draggable): fig, ax = plt.subplots() ax.plot(range(10), label='shabnams') leg = ax.legend(draggable=draggable) assert leg.get_draggable() is draggable def test_alpha_handles(): x, n, hh = plt.hist([1, 2, 3], alpha=0.25, label='data', color='red') legend = plt.legend() for lh in legend.legend_handles: lh.set_alpha(1.0) assert lh.get_facecolor()[:-1] == hh[1].get_facecolor()[:-1] assert lh.get_edgecolor()[:-1] == hh[1].get_edgecolor()[:-1] @needs_usetex def test_usetex_no_warn(caplog): mpl.rcParams['font.family'] = 'serif' mpl.rcParams['font.serif'] = 'Computer Modern' mpl.rcParams['text.usetex'] = True fig, ax = plt.subplots() ax.plot(0, 0, label='input') ax.legend(title="My legend") fig.canvas.draw() assert "Font family ['serif'] not found." not in caplog.text def test_warn_big_data_best_loc(monkeypatch): # Force _find_best_position to think it took a long time. counter = itertools.count(0, step=1.5) monkeypatch.setattr(time, 'perf_counter', lambda: next(counter)) fig, ax = plt.subplots() fig.canvas.draw() # So that we can call draw_artist later. # Place line across all possible legend locations. x = [0.9, 0.1, 0.1, 0.9, 0.9, 0.5] y = [0.95, 0.95, 0.05, 0.05, 0.5, 0.5] ax.plot(x, y, 'o-', label='line') with rc_context({'legend.loc': 'best'}): legend = ax.legend() with pytest.warns(UserWarning, match='Creating legend with loc="best" can be slow with large ' 'amounts of data.') as records: fig.draw_artist(legend) # Don't bother drawing the lines -- it's slow. # The _find_best_position method of Legend is called twice, duplicating # the warning message. assert len(records) == 2 def test_no_warn_big_data_when_loc_specified(monkeypatch): # Force _find_best_position to think it took a long time. counter = itertools.count(0, step=1.5) monkeypatch.setattr(time, 'perf_counter', lambda: next(counter)) fig, ax = plt.subplots() fig.canvas.draw() # Place line across all possible legend locations. x = [0.9, 0.1, 0.1, 0.9, 0.9, 0.5] y = [0.95, 0.95, 0.05, 0.05, 0.5, 0.5] ax.plot(x, y, 'o-', label='line') legend = ax.legend('best') fig.draw_artist(legend) # Check that no warning is emitted. @pytest.mark.parametrize('label_array', [['low', 'high'], ('low', 'high'), np.array(['low', 'high'])]) def test_plot_multiple_input_multiple_label(label_array): # test ax.plot() with multidimensional input # and multiple labels x = [1, 2, 3] y = [[1, 2], [2, 5], [4, 9]] fig, ax = plt.subplots() ax.plot(x, y, label=label_array) leg = ax.legend() legend_texts = [entry.get_text() for entry in leg.get_texts()] assert legend_texts == ['low', 'high'] @pytest.mark.parametrize('label', ['one', 1, int]) def test_plot_multiple_input_single_label(label): # test ax.plot() with multidimensional input # and single label x = [1, 2, 3] y = [[1, 2], [2, 5], [4, 9]] fig, ax = plt.subplots() ax.plot(x, y, label=label) leg = ax.legend() legend_texts = [entry.get_text() for entry in leg.get_texts()] assert legend_texts == [str(label)] * 2 @pytest.mark.parametrize('label_array', [['low', 'high'], ('low', 'high'), np.array(['low', 'high'])]) def test_plot_single_input_multiple_label(label_array): # test ax.plot() with 1D array like input # and iterable label x = [1, 2, 3] y = [2, 5, 6] fig, ax = plt.subplots() with pytest.warns(mpl.MatplotlibDeprecationWarning, match='Passing label as a length 2 sequence'): ax.plot(x, y, label=label_array) leg = ax.legend() assert len(leg.get_texts()) == 1 assert leg.get_texts()[0].get_text() == str(label_array) def test_plot_single_input_list_label(): fig, ax = plt.subplots() line, = ax.plot([[0], [1]], label=['A']) assert line.get_label() == 'A' def test_plot_multiple_label_incorrect_length_exception(): # check that exception is raised if multiple labels # are given, but number of on labels != number of lines with pytest.raises(ValueError): x = [1, 2, 3] y = [[1, 2], [2, 5], [4, 9]] label = ['high', 'low', 'medium'] fig, ax = plt.subplots() ax.plot(x, y, label=label) def test_legend_face_edgecolor(): # Smoke test for PolyCollection legend handler with 'face' edgecolor. fig, ax = plt.subplots() ax.fill_between([0, 1, 2], [1, 2, 3], [2, 3, 4], facecolor='r', edgecolor='face', label='Fill') ax.legend() def test_legend_text_axes(): fig, ax = plt.subplots() ax.plot([1, 2], [3, 4], label='line') leg = ax.legend() assert leg.axes is ax assert leg.get_texts()[0].axes is ax def test_handlerline2d(): # Test marker consistency for monolithic Line2D legend handler (#11357). fig, ax = plt.subplots() ax.scatter([0, 1], [0, 1], marker="v") handles = [mlines.Line2D([0], [0], marker="v")] leg = ax.legend(handles, ["Aardvark"], numpoints=1) assert handles[0].get_marker() == leg.legend_handles[0].get_marker() def test_subfigure_legend(): # Test that legend can be added to subfigure (#20723) subfig = plt.figure().subfigures() ax = subfig.subplots() ax.plot([0, 1], [0, 1], label="line") leg = subfig.legend() assert leg.figure is subfig def test_setting_alpha_keeps_polycollection_color(): pc = plt.fill_between([0, 1], [2, 3], color='#123456', label='label') patch = plt.legend().get_patches()[0] patch.set_alpha(0.5) assert patch.get_facecolor()[:3] == tuple(pc.get_facecolor()[0][:3]) assert patch.get_edgecolor()[:3] == tuple(pc.get_edgecolor()[0][:3]) def test_legend_markers_from_line2d(): # Test that markers can be copied for legend lines (#17960) _markers = ['.', '*', 'v'] fig, ax = plt.subplots() lines = [mlines.Line2D([0], [0], ls='None', marker=mark) for mark in _markers] labels = ["foo", "bar", "xyzzy"] markers = [line.get_marker() for line in lines] legend = ax.legend(lines, labels) new_markers = [line.get_marker() for line in legend.get_lines()] new_labels = [text.get_text() for text in legend.get_texts()] assert markers == new_markers == _markers assert labels == new_labels @check_figures_equal() def test_ncol_ncols(fig_test, fig_ref): # Test that both ncol and ncols work strings = ["a", "b", "c", "d", "e", "f"] ncols = 3 fig_test.legend(strings, ncol=ncols) fig_ref.legend(strings, ncols=ncols) def test_loc_invalid_tuple_exception(): # check that exception is raised if the loc arg # of legend is not a 2-tuple of numbers fig, ax = plt.subplots() with pytest.raises(ValueError, match=('loc must be string, coordinate ' 'tuple, or an integer 0-10, not \\(1.1,\\)')): ax.legend(loc=(1.1, ), labels=["mock data"]) with pytest.raises(ValueError, match=('loc must be string, coordinate ' 'tuple, or an integer 0-10, not \\(0.481, 0.4227, 0.4523\\)')): ax.legend(loc=(0.481, 0.4227, 0.4523), labels=["mock data"]) with pytest.raises(ValueError, match=('loc must be string, coordinate ' 'tuple, or an integer 0-10, not \\(0.481, \'go blue\'\\)')): ax.legend(loc=(0.481, "go blue"), labels=["mock data"]) def test_loc_valid_tuple(): fig, ax = plt.subplots() ax.legend(loc=(0.481, 0.442), labels=["mock data"]) ax.legend(loc=(1, 2), labels=["mock data"]) def test_loc_valid_list(): fig, ax = plt.subplots() ax.legend(loc=[0.481, 0.442], labels=["mock data"]) ax.legend(loc=[1, 2], labels=["mock data"]) def test_loc_invalid_list_exception(): fig, ax = plt.subplots() with pytest.raises(ValueError, match=('loc must be string, coordinate ' 'tuple, or an integer 0-10, not \\[1.1, 2.2, 3.3\\]')): ax.legend(loc=[1.1, 2.2, 3.3], labels=["mock data"]) def test_loc_invalid_type(): fig, ax = plt.subplots() with pytest.raises(ValueError, match=("loc must be string, coordinate " "tuple, or an integer 0-10, not {'not': True}")): ax.legend(loc={'not': True}, labels=["mock data"]) def test_loc_validation_numeric_value(): fig, ax = plt.subplots() ax.legend(loc=0, labels=["mock data"]) ax.legend(loc=1, labels=["mock data"]) ax.legend(loc=5, labels=["mock data"]) ax.legend(loc=10, labels=["mock data"]) with pytest.raises(ValueError, match=('loc must be string, coordinate ' 'tuple, or an integer 0-10, not 11')): ax.legend(loc=11, labels=["mock data"]) with pytest.raises(ValueError, match=('loc must be string, coordinate ' 'tuple, or an integer 0-10, not -1')): ax.legend(loc=-1, labels=["mock data"]) def test_loc_validation_string_value(): fig, ax = plt.subplots() labels = ["mock data"] ax.legend(loc='best', labels=labels) ax.legend(loc='upper right', labels=labels) ax.legend(loc='best', labels=labels) ax.legend(loc='upper right', labels=labels) ax.legend(loc='upper left', labels=labels) ax.legend(loc='lower left', labels=labels) ax.legend(loc='lower right', labels=labels) ax.legend(loc='right', labels=labels) ax.legend(loc='center left', labels=labels) ax.legend(loc='center right', labels=labels) ax.legend(loc='lower center', labels=labels) ax.legend(loc='upper center', labels=labels) with pytest.raises(ValueError, match="'wrong' is not a valid value for"): ax.legend(loc='wrong', labels=labels) def test_legend_handle_label_mismatch(): pl1, = plt.plot(range(10)) pl2, = plt.plot(range(10)) with pytest.warns(UserWarning, match="number of handles and labels"): legend = plt.legend(handles=[pl1, pl2], labels=["pl1", "pl2", "pl3"]) assert len(legend.legend_handles) == 2 assert len(legend.get_texts()) == 2 def test_legend_handle_label_mismatch_no_len(): pl1, = plt.plot(range(10)) pl2, = plt.plot(range(10)) legend = plt.legend(handles=iter([pl1, pl2]), labels=iter(["pl1", "pl2", "pl3"])) assert len(legend.legend_handles) == 2 assert len(legend.get_texts()) == 2 def test_legend_nolabels_warning(): plt.plot([1, 2, 3]) with pytest.raises(UserWarning, match="No artists with labels found"): plt.legend() @pytest.mark.filterwarnings("ignore:No artists with labels found to put in legend") def test_legend_nolabels_draw(): plt.plot([1, 2, 3]) plt.legend() assert plt.gca().get_legend() is not None def test_legend_loc_polycollection(): # Test that the legend is placed in the correct # position for 'best' for polycollection x = [3, 4, 5] y1 = [1, 1, 1] y2 = [5, 5, 5] leg_bboxes = [] fig, axs = plt.subplots(ncols=2, figsize=(10, 5)) for ax, loc in zip(axs.flat, ('best', 'lower left')): ax.fill_between(x, y1, y2, color='gray', alpha=0.5, label='Shaded Area') ax.set_xlim(0, 6) ax.set_ylim(-1, 5) leg = ax.legend(loc=loc) fig.canvas.draw() leg_bboxes.append( leg.get_window_extent().transformed(ax.transAxes.inverted())) assert_allclose(leg_bboxes[1].bounds, leg_bboxes[0].bounds) def test_legend_text(): # Test that legend is place in the correct # position for 'best' when there is text in figure fig, axs = plt.subplots(ncols=2, figsize=(10, 5)) leg_bboxes = [] for ax, loc in zip(axs.flat, ('best', 'lower left')): x = [1, 2] y = [2, 1] ax.plot(x, y, label='plot name') ax.text(1.5, 2, 'some text blahblah', verticalalignment='top') leg = ax.legend(loc=loc) fig.canvas.draw() leg_bboxes.append( leg.get_window_extent().transformed(ax.transAxes.inverted())) assert_allclose(leg_bboxes[1].bounds, leg_bboxes[0].bounds) def test_boxplot_legend_labels(): # Test that legend entries are generated when passing `label`. np.random.seed(19680801) data = np.random.random((10, 4)) fig, axs = plt.subplots(nrows=1, ncols=4) legend_labels = ['box A', 'box B', 'box C', 'box D'] # Testing legend labels and patch passed to legend. bp1 = axs[0].boxplot(data, patch_artist=True, label=legend_labels) assert [v.get_label() for v in bp1['boxes']] == legend_labels handles, labels = axs[0].get_legend_handles_labels() assert labels == legend_labels assert all(isinstance(h, mpl.patches.PathPatch) for h in handles) # Testing legend without `box`. bp2 = axs[1].boxplot(data, label=legend_labels, showbox=False) # Without a box, The legend entries should be passed from the medians. assert [v.get_label() for v in bp2['medians']] == legend_labels handles, labels = axs[1].get_legend_handles_labels() assert labels == legend_labels assert all(isinstance(h, mpl.lines.Line2D) for h in handles) # Testing legend with number of labels different from number of boxes. with pytest.raises(ValueError, match='values must have same the length'): bp3 = axs[2].boxplot(data, label=legend_labels[:-1]) # Test that for a string label, only the first box gets a label. bp4 = axs[3].boxplot(data, label='box A') assert bp4['medians'][0].get_label() == 'box A' assert all(x.get_label().startswith("_") for x in bp4['medians'][1:])