import datetime from io import BytesIO import tempfile import xml.etree.ElementTree import xml.parsers.expat import numpy as np import pytest import matplotlib as mpl from matplotlib import dviread from matplotlib.figure import Figure import matplotlib.pyplot as plt from matplotlib.testing.decorators import image_comparison, check_figures_equal needs_usetex = pytest.mark.skipif( not mpl.checkdep_usetex(True), reason="This test needs a TeX installation") def test_visibility(): fig, ax = plt.subplots() x = np.linspace(0, 4 * np.pi, 50) y = np.sin(x) yerr = np.ones_like(y) a, b, c = ax.errorbar(x, y, yerr=yerr, fmt='ko') for artist in b: artist.set_visible(False) with BytesIO() as fd: fig.savefig(fd, format='svg') buf = fd.getvalue() parser = xml.parsers.expat.ParserCreate() parser.Parse(buf) # this will raise ExpatError if the svg is invalid @image_comparison(['fill_black_with_alpha.svg'], remove_text=True) def test_fill_black_with_alpha(): fig, ax = plt.subplots() ax.scatter(x=[0, 0.1, 1], y=[0, 0, 0], c='k', alpha=0.1, s=10000) @image_comparison(['noscale'], remove_text=True) def test_noscale(): X, Y = np.meshgrid(np.arange(-5, 5, 1), np.arange(-5, 5, 1)) Z = np.sin(Y ** 2) fig, ax = plt.subplots() ax.imshow(Z, cmap='gray', interpolation='none') def test_text_urls(): fig = plt.figure() test_url = "http://test_text_urls.matplotlib.org" fig.suptitle("test_text_urls", url=test_url) with BytesIO() as fd: fig.savefig(fd, format='svg') buf = fd.getvalue().decode() expected = ''.format(test_url) assert expected in buf @image_comparison(['bold_font_output.svg']) def test_bold_font_output(): fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)) ax.set_xlabel('nonbold-xlabel') ax.set_ylabel('bold-ylabel', fontweight='bold') ax.set_title('bold-title', fontweight='bold') @image_comparison(['bold_font_output_with_none_fonttype.svg']) def test_bold_font_output_with_none_fonttype(): plt.rcParams['svg.fonttype'] = 'none' fig, ax = plt.subplots() ax.plot(np.arange(10), np.arange(10)) ax.set_xlabel('nonbold-xlabel') ax.set_ylabel('bold-ylabel', fontweight='bold') ax.set_title('bold-title', fontweight='bold') @check_figures_equal(tol=20) def test_rasterized(fig_test, fig_ref): t = np.arange(0, 100) * (2.3) x = np.cos(t) y = np.sin(t) ax_ref = fig_ref.subplots() ax_ref.plot(x, y, "-", c="r", lw=10) ax_ref.plot(x+1, y, "-", c="b", lw=10) ax_test = fig_test.subplots() ax_test.plot(x, y, "-", c="r", lw=10, rasterized=True) ax_test.plot(x+1, y, "-", c="b", lw=10, rasterized=True) @check_figures_equal() def test_rasterized_ordering(fig_test, fig_ref): t = np.arange(0, 100) * (2.3) x = np.cos(t) y = np.sin(t) ax_ref = fig_ref.subplots() ax_ref.set_xlim(0, 3) ax_ref.set_ylim(-1.1, 1.1) ax_ref.plot(x, y, "-", c="r", lw=10, rasterized=True) ax_ref.plot(x+1, y, "-", c="b", lw=10, rasterized=False) ax_ref.plot(x+2, y, "-", c="g", lw=10, rasterized=True) ax_ref.plot(x+3, y, "-", c="m", lw=10, rasterized=True) ax_test = fig_test.subplots() ax_test.set_xlim(0, 3) ax_test.set_ylim(-1.1, 1.1) ax_test.plot(x, y, "-", c="r", lw=10, rasterized=True, zorder=1.1) ax_test.plot(x+2, y, "-", c="g", lw=10, rasterized=True, zorder=1.3) ax_test.plot(x+3, y, "-", c="m", lw=10, rasterized=True, zorder=1.4) ax_test.plot(x+1, y, "-", c="b", lw=10, rasterized=False, zorder=1.2) def test_count_bitmaps(): def count_tag(fig, tag): with BytesIO() as fd: fig.savefig(fd, format='svg') buf = fd.getvalue().decode() return buf.count(f"<{tag}") # No rasterized elements fig1 = plt.figure() ax1 = fig1.add_subplot(1, 1, 1) ax1.set_axis_off() for n in range(5): ax1.plot([0, 20], [0, n], "b-", rasterized=False) assert count_tag(fig1, "image") == 0 assert count_tag(fig1, "path") == 6 # axis patch plus lines # rasterized can be merged fig2 = plt.figure() ax2 = fig2.add_subplot(1, 1, 1) ax2.set_axis_off() for n in range(5): ax2.plot([0, 20], [0, n], "b-", rasterized=True) assert count_tag(fig2, "image") == 1 assert count_tag(fig2, "path") == 1 # axis patch # rasterized can't be merged without affecting draw order fig3 = plt.figure() ax3 = fig3.add_subplot(1, 1, 1) ax3.set_axis_off() for n in range(5): ax3.plot([0, 20], [n, 0], "b-", rasterized=False) ax3.plot([0, 20], [0, n], "b-", rasterized=True) assert count_tag(fig3, "image") == 5 assert count_tag(fig3, "path") == 6 # rasterized whole axes fig4 = plt.figure() ax4 = fig4.add_subplot(1, 1, 1) ax4.set_axis_off() ax4.set_rasterized(True) for n in range(5): ax4.plot([0, 20], [n, 0], "b-", rasterized=False) ax4.plot([0, 20], [0, n], "b-", rasterized=True) assert count_tag(fig4, "image") == 1 assert count_tag(fig4, "path") == 1 # rasterized can be merged, but inhibited by suppressComposite fig5 = plt.figure() fig5.suppressComposite = True ax5 = fig5.add_subplot(1, 1, 1) ax5.set_axis_off() for n in range(5): ax5.plot([0, 20], [0, n], "b-", rasterized=True) assert count_tag(fig5, "image") == 5 assert count_tag(fig5, "path") == 1 # axis patch @needs_usetex def test_missing_psfont(monkeypatch): """An error is raised if a TeX font lacks a Type-1 equivalent""" def psfont(*args, **kwargs): return dviread.PsFont(texname='texfont', psname='Some Font', effects=None, encoding=None, filename=None) monkeypatch.setattr(dviread.PsfontsMap, '__getitem__', psfont) mpl.rc('text', usetex=True) fig, ax = plt.subplots() ax.text(0.5, 0.5, 'hello') with tempfile.TemporaryFile() as tmpfile, pytest.raises(ValueError): fig.savefig(tmpfile, format='svg') # Use Computer Modern Sans Serif, not Helvetica (which has no \textwon). @mpl.style.context('default') @needs_usetex def test_unicode_won(): fig = Figure() fig.text(.5, .5, r'\textwon', usetex=True) with BytesIO() as fd: fig.savefig(fd, format='svg') buf = fd.getvalue() tree = xml.etree.ElementTree.fromstring(buf) ns = 'http://www.w3.org/2000/svg' won_id = 'SFSS3583-8e' assert len(tree.findall(f'.//{{{ns}}}path[@d][@id="{won_id}"]')) == 1 assert f'#{won_id}' in tree.find(f'.//{{{ns}}}use').attrib.values() def test_svgnone_with_data_coordinates(): plt.rcParams.update({'svg.fonttype': 'none', 'font.stretch': 'condensed'}) expected = 'Unlikely to appear by chance' fig, ax = plt.subplots() ax.text(np.datetime64('2019-06-30'), 1, expected) ax.set_xlim(np.datetime64('2019-01-01'), np.datetime64('2019-12-31')) ax.set_ylim(0, 2) with BytesIO() as fd: fig.savefig(fd, format='svg') fd.seek(0) buf = fd.read().decode() assert expected in buf and "condensed" in buf def test_gid(): """Test that object gid appears in output svg.""" from matplotlib.offsetbox import OffsetBox from matplotlib.axis import Tick fig = plt.figure() ax1 = fig.add_subplot(131) ax1.imshow([[1., 2.], [2., 3.]], aspect="auto") ax1.scatter([1, 2, 3], [1, 2, 3], label="myscatter") ax1.plot([2, 3, 1], label="myplot") ax1.legend() ax1a = ax1.twinx() ax1a.bar([1, 2, 3], [1, 2, 3]) ax2 = fig.add_subplot(132, projection="polar") ax2.plot([0, 1.5, 3], [1, 2, 3]) ax3 = fig.add_subplot(133, projection="3d") ax3.plot([1, 2], [1, 2], [1, 2]) fig.canvas.draw() gdic = {} for idx, obj in enumerate(fig.findobj(include_self=True)): if obj.get_visible(): gid = f"test123{obj.__class__.__name__}_{idx}" gdic[gid] = obj obj.set_gid(gid) with BytesIO() as fd: fig.savefig(fd, format='svg') buf = fd.getvalue().decode() def include(gid, obj): # we need to exclude certain objects which will not appear in the svg if isinstance(obj, OffsetBox): return False if isinstance(obj, plt.Text): if obj.get_text() == "": return False elif obj.axes is None: return False if isinstance(obj, plt.Line2D): xdata, ydata = obj.get_data() if len(xdata) == len(ydata) == 1: return False elif not hasattr(obj, "axes") or obj.axes is None: return False if isinstance(obj, Tick): loc = obj.get_loc() if loc == 0: return False vi = obj.get_view_interval() if loc < min(vi) or loc > max(vi): return False return True for gid, obj in gdic.items(): if include(gid, obj): assert gid in buf def test_savefig_tight(): # Check that the draw-disabled renderer correctly disables open/close_group # as well. plt.savefig(BytesIO(), format="svgz", bbox_inches="tight") def test_url(): # Test that object url appears in output svg. fig, ax = plt.subplots() # collections s = ax.scatter([1, 2, 3], [4, 5, 6]) s.set_urls(['http://example.com/foo', 'http://example.com/bar', None]) # Line2D p, = plt.plot([1, 3], [6, 5]) p.set_url('http://example.com/baz') b = BytesIO() fig.savefig(b, format='svg') b = b.getvalue() for v in [b'foo', b'bar', b'baz']: assert b'http://example.com/' + v in b def test_url_tick(monkeypatch): monkeypatch.setenv('SOURCE_DATE_EPOCH', '19680801') fig1, ax = plt.subplots() ax.scatter([1, 2, 3], [4, 5, 6]) for i, tick in enumerate(ax.yaxis.get_major_ticks()): tick.set_url(f'http://example.com/{i}') fig2, ax = plt.subplots() ax.scatter([1, 2, 3], [4, 5, 6]) for i, tick in enumerate(ax.yaxis.get_major_ticks()): tick.label1.set_url(f'http://example.com/{i}') tick.label2.set_url(f'http://example.com/{i}') b1 = BytesIO() fig1.savefig(b1, format='svg') b1 = b1.getvalue() b2 = BytesIO() fig2.savefig(b2, format='svg') b2 = b2.getvalue() for i in range(len(ax.yaxis.get_major_ticks())): assert f'http://example.com/{i}'.encode('ascii') in b1 assert b1 == b2 def test_svg_default_metadata(monkeypatch): # Values have been predefined for 'Creator', 'Date', 'Format', and 'Type'. monkeypatch.setenv('SOURCE_DATE_EPOCH', '19680801') fig, ax = plt.subplots() with BytesIO() as fd: fig.savefig(fd, format='svg') buf = fd.getvalue().decode() # Creator assert mpl.__version__ in buf # Date assert '1970-08-16' in buf # Format assert 'image/svg+xml' in buf # Type assert 'StillImage' in buf # Now make sure all the default metadata can be cleared. with BytesIO() as fd: fig.savefig(fd, format='svg', metadata={'Date': None, 'Creator': None, 'Format': None, 'Type': None}) buf = fd.getvalue().decode() # Creator assert mpl.__version__ not in buf # Date assert '1970-08-16' not in buf # Format assert 'image/svg+xml' not in buf # Type assert 'StillImage' not in buf def test_svg_clear_default_metadata(monkeypatch): # Makes sure that setting a default metadata to `None` # removes the corresponding tag from the metadata. monkeypatch.setenv('SOURCE_DATE_EPOCH', '19680801') metadata_contains = {'creator': mpl.__version__, 'date': '1970-08-16', 'format': 'image/svg+xml', 'type': 'StillImage'} SVGNS = '{http://www.w3.org/2000/svg}' RDFNS = '{http://www.w3.org/1999/02/22-rdf-syntax-ns#}' CCNS = '{http://creativecommons.org/ns#}' DCNS = '{http://purl.org/dc/elements/1.1/}' fig, ax = plt.subplots() for name in metadata_contains: with BytesIO() as fd: fig.savefig(fd, format='svg', metadata={name.title(): None}) buf = fd.getvalue().decode() root = xml.etree.ElementTree.fromstring(buf) work, = root.findall(f'./{SVGNS}metadata/{RDFNS}RDF/{CCNS}Work') for key in metadata_contains: data = work.findall(f'./{DCNS}{key}') if key == name: # The one we cleared is not there assert not data continue # Everything else should be there data, = data xmlstr = xml.etree.ElementTree.tostring(data, encoding="unicode") assert metadata_contains[key] in xmlstr def test_svg_clear_all_metadata(): # Makes sure that setting all default metadata to `None` # removes the metadata tag from the output. fig, ax = plt.subplots() with BytesIO() as fd: fig.savefig(fd, format='svg', metadata={'Date': None, 'Creator': None, 'Format': None, 'Type': None}) buf = fd.getvalue().decode() SVGNS = '{http://www.w3.org/2000/svg}' root = xml.etree.ElementTree.fromstring(buf) assert not root.findall(f'./{SVGNS}metadata') def test_svg_metadata(): single_value = ['Coverage', 'Identifier', 'Language', 'Relation', 'Source', 'Title', 'Type'] multi_value = ['Contributor', 'Creator', 'Keywords', 'Publisher', 'Rights'] metadata = { 'Date': [datetime.date(1968, 8, 1), datetime.datetime(1968, 8, 2, 1, 2, 3)], 'Description': 'description\ntext', **{k: f'{k} foo' for k in single_value}, **{k: [f'{k} bar', f'{k} baz'] for k in multi_value}, } fig, ax = plt.subplots() with BytesIO() as fd: fig.savefig(fd, format='svg', metadata=metadata) buf = fd.getvalue().decode() SVGNS = '{http://www.w3.org/2000/svg}' RDFNS = '{http://www.w3.org/1999/02/22-rdf-syntax-ns#}' CCNS = '{http://creativecommons.org/ns#}' DCNS = '{http://purl.org/dc/elements/1.1/}' root = xml.etree.ElementTree.fromstring(buf) rdf, = root.findall(f'./{SVGNS}metadata/{RDFNS}RDF') # Check things that are single entries. titles = [node.text for node in root.findall(f'./{SVGNS}title')] assert titles == [metadata['Title']] types = [node.attrib[f'{RDFNS}resource'] for node in rdf.findall(f'./{CCNS}Work/{DCNS}type')] assert types == [metadata['Type']] for k in ['Description', *single_value]: if k == 'Type': continue values = [node.text for node in rdf.findall(f'./{CCNS}Work/{DCNS}{k.lower()}')] assert values == [metadata[k]] # Check things that are multi-value entries. for k in multi_value: if k == 'Keywords': continue values = [ node.text for node in rdf.findall( f'./{CCNS}Work/{DCNS}{k.lower()}/{CCNS}Agent/{DCNS}title')] assert values == metadata[k] # Check special things. dates = [node.text for node in rdf.findall(f'./{CCNS}Work/{DCNS}date')] assert dates == ['1968-08-01/1968-08-02T01:02:03'] values = [node.text for node in rdf.findall(f'./{CCNS}Work/{DCNS}subject/{RDFNS}Bag/{RDFNS}li')] assert values == metadata['Keywords']