import difflib
import numpy as np
import sys
from pathlib import Path
import pytest
import matplotlib as mpl
from matplotlib.testing import subprocess_run_for_testing
from matplotlib import pyplot as plt
def test_pyplot_up_to_date(tmp_path):
pytest.importorskip("black")
gen_script = Path(mpl.__file__).parents[2] / "tools/boilerplate.py"
if not gen_script.exists():
pytest.skip("boilerplate.py not found")
orig_contents = Path(plt.__file__).read_text()
plt_file = tmp_path / 'pyplot.py'
plt_file.write_text(orig_contents, 'utf-8')
subprocess_run_for_testing(
[sys.executable, str(gen_script), str(plt_file)],
check=True)
new_contents = plt_file.read_text('utf-8')
if orig_contents != new_contents:
diff_msg = '\n'.join(
difflib.unified_diff(
orig_contents.split('\n'), new_contents.split('\n'),
fromfile='found pyplot.py',
tofile='expected pyplot.py',
n=0, lineterm=''))
pytest.fail(
"pyplot.py is not up-to-date. Please run "
"'python tools/boilerplate.py' to update pyplot.py. "
"This needs to be done from an environment where your "
"current working copy is installed (e.g. 'pip install -e'd). "
"Here is a diff of unexpected differences:\n%s" % diff_msg
)
def test_copy_docstring_and_deprecators(recwarn):
@mpl._api.rename_parameter(mpl.__version__, "old", "new")
@mpl._api.make_keyword_only(mpl.__version__, "kwo")
def func(new, kwo=None):
pass
@plt._copy_docstring_and_deprecators(func)
def wrapper_func(new, kwo=None):
pass
wrapper_func(None)
wrapper_func(new=None)
wrapper_func(None, kwo=None)
wrapper_func(new=None, kwo=None)
assert not recwarn
with pytest.warns(mpl.MatplotlibDeprecationWarning):
wrapper_func(old=None)
with pytest.warns(mpl.MatplotlibDeprecationWarning):
wrapper_func(None, None)
def test_pyplot_box():
fig, ax = plt.subplots()
plt.box(False)
assert not ax.get_frame_on()
plt.box(True)
assert ax.get_frame_on()
plt.box()
assert not ax.get_frame_on()
plt.box()
assert ax.get_frame_on()
def test_stackplot_smoke():
# Small smoke test for stackplot (see #12405)
plt.stackplot([1, 2, 3], [1, 2, 3])
def test_nrows_error():
with pytest.raises(TypeError):
plt.subplot(nrows=1)
with pytest.raises(TypeError):
plt.subplot(ncols=1)
def test_ioff():
plt.ion()
assert mpl.is_interactive()
with plt.ioff():
assert not mpl.is_interactive()
assert mpl.is_interactive()
plt.ioff()
assert not mpl.is_interactive()
with plt.ioff():
assert not mpl.is_interactive()
assert not mpl.is_interactive()
def test_ion():
plt.ioff()
assert not mpl.is_interactive()
with plt.ion():
assert mpl.is_interactive()
assert not mpl.is_interactive()
plt.ion()
assert mpl.is_interactive()
with plt.ion():
assert mpl.is_interactive()
assert mpl.is_interactive()
def test_nested_ion_ioff():
# initial state is interactive
plt.ion()
# mixed ioff/ion
with plt.ioff():
assert not mpl.is_interactive()
with plt.ion():
assert mpl.is_interactive()
assert not mpl.is_interactive()
assert mpl.is_interactive()
# redundant contexts
with plt.ioff():
with plt.ioff():
assert not mpl.is_interactive()
assert mpl.is_interactive()
with plt.ion():
plt.ioff()
assert mpl.is_interactive()
# initial state is not interactive
plt.ioff()
# mixed ioff/ion
with plt.ion():
assert mpl.is_interactive()
with plt.ioff():
assert not mpl.is_interactive()
assert mpl.is_interactive()
assert not mpl.is_interactive()
# redundant contexts
with plt.ion():
with plt.ion():
assert mpl.is_interactive()
assert not mpl.is_interactive()
with plt.ioff():
plt.ion()
assert not mpl.is_interactive()
def test_close():
try:
plt.close(1.1)
except TypeError as e:
assert str(e) == "close() argument must be a Figure, an int, " \
"a string, or None, not <class 'float'>"
def test_subplot_reuse():
ax1 = plt.subplot(121)
assert ax1 is plt.gca()
ax2 = plt.subplot(122)
assert ax2 is plt.gca()
ax3 = plt.subplot(121)
assert ax1 is plt.gca()
assert ax1 is ax3
def test_axes_kwargs():
# plt.axes() always creates new axes, even if axes kwargs differ.
plt.figure()
ax = plt.axes()
ax1 = plt.axes()
assert ax is not None
assert ax1 is not ax
plt.close()
plt.figure()
ax = plt.axes(projection='polar')
ax1 = plt.axes(projection='polar')
assert ax is not None
assert ax1 is not ax
plt.close()
plt.figure()
ax = plt.axes(projection='polar')
ax1 = plt.axes()
assert ax is not None
assert ax1.name == 'rectilinear'
assert ax1 is not ax
plt.close()
def test_subplot_replace_projection():
# plt.subplot() searches for axes with the same subplot spec, and if one
# exists, and the kwargs match returns it, create a new one if they do not
fig = plt.figure()
ax = plt.subplot(1, 2, 1)
ax1 = plt.subplot(1, 2, 1)
ax2 = plt.subplot(1, 2, 2)
ax3 = plt.subplot(1, 2, 1, projection='polar')
ax4 = plt.subplot(1, 2, 1, projection='polar')
assert ax is not None
assert ax1 is ax
assert ax2 is not ax
assert ax3 is not ax
assert ax3 is ax4
assert ax in fig.axes
assert ax2 in fig.axes
assert ax3 in fig.axes
assert ax.name == 'rectilinear'
assert ax2.name == 'rectilinear'
assert ax3.name == 'polar'
def test_subplot_kwarg_collision():
ax1 = plt.subplot(projection='polar', theta_offset=0)
ax2 = plt.subplot(projection='polar', theta_offset=0)
assert ax1 is ax2
ax1.remove()
ax3 = plt.subplot(projection='polar', theta_offset=1)
assert ax1 is not ax3
assert ax1 not in plt.gcf().axes
def test_gca():
# plt.gca() returns an existing axes, unless there were no axes.
plt.figure()
ax = plt.gca()
ax1 = plt.gca()
assert ax is not None
assert ax1 is ax
plt.close()
def test_subplot_projection_reuse():
# create an Axes
ax1 = plt.subplot(111)
# check that it is current
assert ax1 is plt.gca()
# make sure we get it back if we ask again
assert ax1 is plt.subplot(111)
# remove it
ax1.remove()
# create a polar plot
ax2 = plt.subplot(111, projection='polar')
assert ax2 is plt.gca()
# this should have deleted the first axes
assert ax1 not in plt.gcf().axes
# assert we get it back if no extra parameters passed
assert ax2 is plt.subplot(111)
ax2.remove()
# now check explicitly setting the projection to rectilinear
# makes a new axes
ax3 = plt.subplot(111, projection='rectilinear')
assert ax3 is plt.gca()
assert ax3 is not ax2
assert ax2 not in plt.gcf().axes
def test_subplot_polar_normalization():
ax1 = plt.subplot(111, projection='polar')
ax2 = plt.subplot(111, polar=True)
ax3 = plt.subplot(111, polar=True, projection='polar')
assert ax1 is ax2
assert ax1 is ax3
with pytest.raises(ValueError,
match="polar=True, yet projection='3d'"):
ax2 = plt.subplot(111, polar=True, projection='3d')
def test_subplot_change_projection():
created_axes = set()
ax = plt.subplot()
created_axes.add(ax)
projections = ('aitoff', 'hammer', 'lambert', 'mollweide',
'polar', 'rectilinear', '3d')
for proj in projections:
ax.remove()
ax = plt.subplot(projection=proj)
assert ax is plt.subplot()
assert ax.name == proj
created_axes.add(ax)
# Check that each call created a new Axes.
assert len(created_axes) == 1 + len(projections)
def test_polar_second_call():
# the first call creates the axes with polar projection
ln1, = plt.polar(0., 1., 'ro')
assert isinstance(ln1, mpl.lines.Line2D)
# the second call should reuse the existing axes
ln2, = plt.polar(1.57, .5, 'bo')
assert isinstance(ln2, mpl.lines.Line2D)
assert ln1.axes is ln2.axes
def test_fallback_position():
# check that position kwarg works if rect not supplied
axref = plt.axes([0.2, 0.2, 0.5, 0.5])
axtest = plt.axes(position=[0.2, 0.2, 0.5, 0.5])
np.testing.assert_allclose(axtest.bbox.get_points(),
axref.bbox.get_points())
# check that position kwarg ignored if rect is supplied
axref = plt.axes([0.2, 0.2, 0.5, 0.5])
axtest = plt.axes([0.2, 0.2, 0.5, 0.5], position=[0.1, 0.1, 0.8, 0.8])
np.testing.assert_allclose(axtest.bbox.get_points(),
axref.bbox.get_points())
def test_set_current_figure_via_subfigure():
fig1 = plt.figure()
subfigs = fig1.subfigures(2)
plt.figure()
assert plt.gcf() != fig1
current = plt.figure(subfigs[1])
assert plt.gcf() == fig1
assert current == fig1
def test_set_current_axes_on_subfigure():
fig = plt.figure()
subfigs = fig.subfigures(2)
ax = subfigs[0].subplots(1, squeeze=True)
subfigs[1].subplots(1, squeeze=True)
assert plt.gca() != ax
plt.sca(ax)
assert plt.gca() == ax
def test_pylab_integration():
IPython = pytest.importorskip("IPython")
mpl.testing.subprocess_run_helper(
IPython.start_ipython,
"--pylab",
"-c",
";".join((
"import matplotlib.pyplot as plt",
"assert plt._REPL_DISPLAYHOOK == plt._ReplDisplayHook.IPYTHON",
)),
timeout=60,
)
def test_doc_pyplot_summary():
"""Test that pyplot_summary lists all the plot functions."""
pyplot_docs = Path(__file__).parent / '../../../doc/api/pyplot_summary.rst'
if not pyplot_docs.exists():
pytest.skip("Documentation sources not available")
def extract_documented_functions(lines):
"""
Return a list of all the functions that are mentioned in the
autosummary blocks contained in *lines*.
An autosummary block looks like this::
.. autosummary::
:toctree: _as_gen
:template: autosummary.rst
:nosignatures:
plot
plot_date
"""
functions = []
in_autosummary = False
for line in lines:
if not in_autosummary:
if line.startswith(".. autosummary::"):
in_autosummary = True
else:
if not line or line.startswith(" :"):
# empty line or autosummary parameter
continue
if not line[0].isspace():
# no more indentation: end of autosummary block
in_autosummary = False
continue
functions.append(line.strip())
return functions
lines = pyplot_docs.read_text().split("\n")
doc_functions = set(extract_documented_functions(lines))
plot_commands = set(plt._get_pyplot_commands())
missing = plot_commands.difference(doc_functions)
if missing:
raise AssertionError(
f"The following pyplot functions are not listed in the "
f"documentation. Please add them to doc/api/pyplot_summary.rst: "
f"{missing!r}")
extra = doc_functions.difference(plot_commands)
if extra:
raise AssertionError(
f"The following functions are listed in the pyplot documentation, "
f"but they do not exist in pyplot. "
f"Please remove them from doc/api/pyplot_summary.rst: {extra!r}")
def test_minor_ticks():
plt.figure()
plt.plot(np.arange(1, 10))
tick_pos, tick_labels = plt.xticks(minor=True)
assert np.all(tick_labels == np.array([], dtype=np.float64))
assert tick_labels == []
plt.yticks(ticks=[3.5, 6.5], labels=["a", "b"], minor=True)
ax = plt.gca()
tick_pos = ax.get_yticks(minor=True)
tick_labels = ax.get_yticklabels(minor=True)
assert np.all(tick_pos == np.array([3.5, 6.5]))
assert [l.get_text() for l in tick_labels] == ['a', 'b']
def test_switch_backend_no_close():
plt.switch_backend('agg')
fig = plt.figure()
fig = plt.figure()
assert len(plt.get_fignums()) == 2
plt.switch_backend('agg')
assert len(plt.get_fignums()) == 2
with pytest.warns(mpl.MatplotlibDeprecationWarning):
plt.switch_backend('svg')
assert len(plt.get_fignums()) == 0
def figure_hook_example(figure):
figure._test_was_here = True
def test_figure_hook():
test_rc = {
'figure.hooks': ['matplotlib.tests.test_pyplot:figure_hook_example']
}
with mpl.rc_context(test_rc):
fig = plt.figure()
assert fig._test_was_here