import copy import signal from unittest import mock import matplotlib from matplotlib import pyplot as plt from matplotlib._pylab_helpers import Gcf import pytest @pytest.fixture def qt_core(request): backend, = request.node.get_closest_marker('backend').args qt_compat = pytest.importorskip('matplotlib.backends.qt_compat') QtCore = qt_compat.QtCore if backend == 'Qt4Agg': try: py_qt_ver = int(QtCore.PYQT_VERSION_STR.split('.')[0]) except AttributeError: py_qt_ver = QtCore.__version_info__[0] if py_qt_ver != 4: pytest.skip('Qt4 is not available') return QtCore @pytest.mark.parametrize('backend', [ # Note: the value is irrelevant; the important part is the marker. pytest.param('Qt4Agg', marks=pytest.mark.backend('Qt4Agg')), pytest.param('Qt5Agg', marks=pytest.mark.backend('Qt5Agg')), ]) def test_fig_close(backend): # save the state of Gcf.figs init_figs = copy.copy(Gcf.figs) # make a figure using pyplot interface fig = plt.figure() # simulate user clicking the close button by reaching in # and calling close on the underlying Qt object fig.canvas.manager.window.close() # assert that we have removed the reference to the FigureManager # that got added by plt.figure() assert init_figs == Gcf.figs @pytest.mark.backend('Qt5Agg') def test_fig_signals(qt_core): # Create a figure plt.figure() # Access signals event_loop_signal = None # Callback to fire during event loop: save SIGINT handler, then exit def fire_signal_and_quit(): # Save event loop signal nonlocal event_loop_signal event_loop_signal = signal.getsignal(signal.SIGINT) # Request event loop exit qt_core.QCoreApplication.exit() # Timer to exit event loop qt_core.QTimer.singleShot(0, fire_signal_and_quit) # Save original SIGINT handler original_signal = signal.getsignal(signal.SIGINT) # Use our own SIGINT handler to be 100% sure this is working def CustomHandler(signum, frame): pass signal.signal(signal.SIGINT, CustomHandler) # mainloop() sets SIGINT, starts Qt event loop (which triggers timer and # exits) and then mainloop() resets SIGINT matplotlib.backends.backend_qt5._BackendQT5.mainloop() # Assert: signal handler during loop execution is signal.SIG_DFL assert event_loop_signal == signal.SIG_DFL # Assert: current signal handler is the same as the one we set before assert CustomHandler == signal.getsignal(signal.SIGINT) # Reset SIGINT handler to what it was before the test signal.signal(signal.SIGINT, original_signal) @pytest.mark.parametrize( 'qt_key, qt_mods, answer', [ ('Key_A', ['ShiftModifier'], 'A'), ('Key_A', [], 'a'), ('Key_A', ['ControlModifier'], 'ctrl+a'), ('Key_Aacute', ['ShiftModifier'], '\N{LATIN CAPITAL LETTER A WITH ACUTE}'), ('Key_Aacute', [], '\N{LATIN SMALL LETTER A WITH ACUTE}'), ('Key_Control', ['AltModifier'], 'alt+control'), ('Key_Alt', ['ControlModifier'], 'ctrl+alt'), ('Key_Aacute', ['ControlModifier', 'AltModifier', 'MetaModifier'], 'ctrl+alt+super+\N{LATIN SMALL LETTER A WITH ACUTE}'), ('Key_Backspace', [], 'backspace'), ('Key_Backspace', ['ControlModifier'], 'ctrl+backspace'), ('Key_Play', [], None), ], ids=[ 'shift', 'lower', 'control', 'unicode_upper', 'unicode_lower', 'alt_control', 'control_alt', 'modifier_order', 'backspace', 'backspace_mod', 'non_unicode_key', ] ) @pytest.mark.parametrize('backend', [ # Note: the value is irrelevant; the important part is the marker. pytest.param('Qt4Agg', marks=pytest.mark.backend('Qt4Agg')), pytest.param('Qt5Agg', marks=pytest.mark.backend('Qt5Agg')), ]) def test_correct_key(backend, qt_core, qt_key, qt_mods, answer): """ Make a figure. Send a key_press_event event (using non-public, qtX backend specific api). Catch the event. Assert sent and caught keys are the same. """ qt_mod = qt_core.Qt.NoModifier for mod in qt_mods: qt_mod |= getattr(qt_core.Qt, mod) class _Event: def isAutoRepeat(self): return False def key(self): return getattr(qt_core.Qt, qt_key) def modifiers(self): return qt_mod def on_key_press(event): assert event.key == answer qt_canvas = plt.figure().canvas qt_canvas.mpl_connect('key_press_event', on_key_press) qt_canvas.keyPressEvent(_Event()) @pytest.mark.backend('Qt5Agg') def test_dpi_ratio_change(): """ Make sure that if _dpi_ratio changes, the figure dpi changes but the widget remains the same physical size. """ prop = 'matplotlib.backends.backend_qt5.FigureCanvasQT._dpi_ratio' with mock.patch(prop, new_callable=mock.PropertyMock) as p: p.return_value = 3 fig = plt.figure(figsize=(5, 2), dpi=120) qt_canvas = fig.canvas qt_canvas.show() from matplotlib.backends.backend_qt5 import qApp # Make sure the mocking worked assert qt_canvas._dpi_ratio == 3 size = qt_canvas.size() qt_canvas.manager.show() qt_canvas.draw() qApp.processEvents() # The DPI and the renderer width/height change assert fig.dpi == 360 assert qt_canvas.renderer.width == 1800 assert qt_canvas.renderer.height == 720 # The actual widget size and figure physical size don't change assert size.width() == 600 assert size.height() == 240 assert qt_canvas.get_width_height() == (600, 240) assert (fig.get_size_inches() == (5, 2)).all() p.return_value = 2 assert qt_canvas._dpi_ratio == 2 qt_canvas.draw() qApp.processEvents() # this second processEvents is required to fully run the draw. # On `update` we notice the DPI has changed and trigger a # resize event to refresh, the second processEvents is # required to process that and fully update the window sizes. qApp.processEvents() # The DPI and the renderer width/height change assert fig.dpi == 240 assert qt_canvas.renderer.width == 1200 assert qt_canvas.renderer.height == 480 # The actual widget size and figure physical size don't change assert size.width() == 600 assert size.height() == 240 assert qt_canvas.get_width_height() == (600, 240) assert (fig.get_size_inches() == (5, 2)).all() p.return_value = 1.5 assert qt_canvas._dpi_ratio == 1.5 qt_canvas.draw() qApp.processEvents() # this second processEvents is required to fully run the draw. # On `update` we notice the DPI has changed and trigger a # resize event to refresh, the second processEvents is # required to process that and fully update the window sizes. qApp.processEvents() # The DPI and the renderer width/height change assert fig.dpi == 180 assert qt_canvas.renderer.width == 900 assert qt_canvas.renderer.height == 360 # The actual widget size and figure physical size don't change assert size.width() == 600 assert size.height() == 240 assert qt_canvas.get_width_height() == (600, 240) assert (fig.get_size_inches() == (5, 2)).all() @pytest.mark.backend('Qt5Agg') def test_subplottool(): fig, ax = plt.subplots() with mock.patch( "matplotlib.backends.backend_qt5.SubplotToolQt.exec_", lambda self: None): fig.canvas.manager.toolbar.configure_subplots() @pytest.mark.backend('Qt5Agg') def test_figureoptions(): fig, ax = plt.subplots() ax.plot([1, 2]) ax.imshow([[1]]) ax.scatter(range(3), range(3), c=range(3)) with mock.patch( "matplotlib.backends.qt_editor._formlayout.FormDialog.exec_", lambda self: None): fig.canvas.manager.toolbar.edit_parameters() @pytest.mark.backend('Qt5Agg') def test_double_resize(): # Check that resizing a figure twice keeps the same window size fig, ax = plt.subplots() fig.canvas.draw() window = fig.canvas.manager.window w, h = 3, 2 fig.set_size_inches(w, h) assert fig.canvas.width() == w * matplotlib.rcParams['figure.dpi'] assert fig.canvas.height() == h * matplotlib.rcParams['figure.dpi'] old_width = window.width() old_height = window.height() fig.set_size_inches(w, h) assert window.width() == old_width assert window.height() == old_height @pytest.mark.backend("Qt5Agg") def test_canvas_reinit(): from matplotlib.backends.backend_qt5agg import FigureCanvasQTAgg called = False def crashing_callback(fig, stale): nonlocal called fig.canvas.draw_idle() called = True fig, ax = plt.subplots() fig.stale_callback = crashing_callback # this should not raise canvas = FigureCanvasQTAgg(fig) fig.stale = True assert called