142 lines
4.8 KiB
Python
142 lines
4.8 KiB
Python
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from io import BytesIO
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import numpy as np
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from matplotlib.testing.decorators import image_comparison
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import matplotlib.pyplot as plt
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import matplotlib.path as mpath
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import matplotlib.patches as mpatches
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from matplotlib.ticker import FuncFormatter
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@image_comparison(['bbox_inches_tight'], remove_text=True,
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savefig_kwarg={'bbox_inches': 'tight'})
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def test_bbox_inches_tight():
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#: Test that a figure saved using bbox_inches='tight' is clipped correctly
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data = [[66386, 174296, 75131, 577908, 32015],
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[58230, 381139, 78045, 99308, 160454],
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[89135, 80552, 152558, 497981, 603535],
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[78415, 81858, 150656, 193263, 69638],
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[139361, 331509, 343164, 781380, 52269]]
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colLabels = rowLabels = [''] * 5
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rows = len(data)
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ind = np.arange(len(colLabels)) + 0.3 # the x locations for the groups
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cellText = []
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width = 0.4 # the width of the bars
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yoff = np.zeros(len(colLabels))
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# the bottom values for stacked bar chart
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fig, ax = plt.subplots(1, 1)
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for row in range(rows):
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ax.bar(ind, data[row], width, bottom=yoff, align='edge', color='b')
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yoff = yoff + data[row]
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cellText.append([''])
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plt.xticks([])
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plt.xlim(0, 5)
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plt.legend([''] * 5, loc=(1.2, 0.2))
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fig.legend([''] * 5, bbox_to_anchor=(0, 0.2), loc='lower left')
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# Add a table at the bottom of the axes
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cellText.reverse()
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plt.table(cellText=cellText, rowLabels=rowLabels, colLabels=colLabels,
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loc='bottom')
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@image_comparison(['bbox_inches_tight_suptile_legend'],
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remove_text=False, savefig_kwarg={'bbox_inches': 'tight'})
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def test_bbox_inches_tight_suptile_legend():
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plt.plot(np.arange(10), label='a straight line')
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plt.legend(bbox_to_anchor=(0.9, 1), loc='upper left')
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plt.title('Axis title')
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plt.suptitle('Figure title')
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# put an extra long y tick on to see that the bbox is accounted for
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def y_formatter(y, pos):
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if int(y) == 4:
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return 'The number 4'
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else:
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return str(y)
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plt.gca().yaxis.set_major_formatter(FuncFormatter(y_formatter))
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plt.xlabel('X axis')
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@image_comparison(['bbox_inches_tight_clipping'],
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remove_text=True, savefig_kwarg={'bbox_inches': 'tight'})
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def test_bbox_inches_tight_clipping():
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# tests bbox clipping on scatter points, and path clipping on a patch
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# to generate an appropriately tight bbox
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plt.scatter(np.arange(10), np.arange(10))
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ax = plt.gca()
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ax.set_xlim([0, 5])
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ax.set_ylim([0, 5])
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# make a massive rectangle and clip it with a path
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patch = mpatches.Rectangle([-50, -50], 100, 100,
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transform=ax.transData,
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facecolor='blue', alpha=0.5)
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path = mpath.Path.unit_regular_star(5).deepcopy()
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path.vertices *= 0.25
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patch.set_clip_path(path, transform=ax.transAxes)
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plt.gcf().artists.append(patch)
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@image_comparison(['bbox_inches_tight_raster'],
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remove_text=True, savefig_kwarg={'bbox_inches': 'tight'})
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def test_bbox_inches_tight_raster():
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"""Test rasterization with tight_layout"""
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fig = plt.figure()
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ax = fig.add_subplot(111)
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ax.plot([1.0, 2.0], rasterized=True)
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def test_only_on_non_finite_bbox():
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fig, ax = plt.subplots()
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ax.annotate("", xy=(0, float('nan')))
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ax.set_axis_off()
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# we only need to test that it does not error out on save
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fig.savefig(BytesIO(), bbox_inches='tight', format='png')
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def test_tight_pcolorfast():
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fig, ax = plt.subplots()
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ax.pcolorfast(np.arange(4).reshape((2, 2)))
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ax.set(ylim=(0, .1))
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buf = BytesIO()
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fig.savefig(buf, bbox_inches="tight")
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buf.seek(0)
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height, width, _ = plt.imread(buf).shape
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# Previously, the bbox would include the area of the image clipped out by
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# the axes, resulting in a very tall image given the y limits of (0, 0.1).
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assert width > height
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def test_noop_tight_bbox():
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from PIL import Image
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x_size, y_size = (10, 7)
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dpi = 100
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# make the figure just the right size up front
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fig = plt.figure(frameon=False, dpi=dpi, figsize=(x_size/dpi, y_size/dpi))
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ax = plt.Axes(fig, [0., 0., 1., 1.])
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fig.add_axes(ax)
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ax.set_axis_off()
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ax.get_xaxis().set_visible(False)
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ax.get_yaxis().set_visible(False)
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data = np.arange(x_size * y_size).reshape(y_size, x_size)
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ax.imshow(data, rasterized=True)
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# When a rasterized Artist is included, a mixed-mode renderer does
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# additional bbox adjustment. It should also be a no-op, and not affect the
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# next save.
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fig.savefig(BytesIO(), bbox_inches='tight', pad_inches=0, format='pdf')
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out = BytesIO()
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fig.savefig(out, bbox_inches='tight', pad_inches=0)
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out.seek(0)
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im = np.asarray(Image.open(out))
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assert (im[:, :, 3] == 255).all()
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assert not (im[:, :, :3] == 255).all()
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assert im.shape == (7, 10, 4)
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