import copy import importlib import os import signal import sys from datetime import date, datetime from unittest import mock import pytest import matplotlib from matplotlib import pyplot as plt from matplotlib._pylab_helpers import Gcf from matplotlib import _c_internal_utils try: from matplotlib.backends.qt_compat import QtGui, QtWidgets # type: ignore # noqa from matplotlib.backends.qt_editor import _formlayout except ImportError: pytestmark = pytest.mark.skip('No usable Qt bindings') _test_timeout = 60 # A reasonably safe value for slower architectures. @pytest.fixture def qt_core(request): from matplotlib.backends.qt_compat import QtCore return QtCore @pytest.mark.backend('QtAgg', skip_on_importerror=True) def test_fig_close(): # 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.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+meta+\N{LATIN SMALL LETTER A WITH ACUTE}"), ), # We do not currently map the media keys, this may change in the # future. This means the callback will never fire ("Key_Play", [], None), ("Key_Backspace", [], "backspace"), ( "Key_Backspace", ["ControlModifier"], "ctrl+backspace", ), ], ids=[ 'shift', 'lower', 'control', 'unicode_upper', 'unicode_lower', 'alt_control', 'control_alt', 'modifier_order', 'non_unicode_key', 'backspace', 'backspace_mod', ] ) @pytest.mark.parametrize('backend', [ # Note: the value is irrelevant; the important part is the marker. pytest.param( 'Qt5Agg', marks=pytest.mark.backend('Qt5Agg', skip_on_importerror=True)), pytest.param( 'QtAgg', marks=pytest.mark.backend('QtAgg', skip_on_importerror=True)), ]) def test_correct_key(backend, qt_core, qt_key, qt_mods, answer, monkeypatch): """ 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. """ from matplotlib.backends.qt_compat import _to_int, QtCore if sys.platform == "darwin" and answer is not None: answer = answer.replace("ctrl", "cmd") answer = answer.replace("control", "cmd") answer = answer.replace("meta", "ctrl") result = None qt_mod = QtCore.Qt.KeyboardModifier.NoModifier for mod in qt_mods: qt_mod |= getattr(QtCore.Qt.KeyboardModifier, mod) class _Event: def isAutoRepeat(self): return False def key(self): return _to_int(getattr(QtCore.Qt.Key, qt_key)) monkeypatch.setattr(QtWidgets.QApplication, "keyboardModifiers", lambda self: qt_mod) def on_key_press(event): nonlocal result result = event.key qt_canvas = plt.figure().canvas qt_canvas.mpl_connect('key_press_event', on_key_press) qt_canvas.keyPressEvent(_Event()) assert result == answer @pytest.mark.backend('QtAgg', skip_on_importerror=True) def test_device_pixel_ratio_change(): """ Make sure that if the pixel ratio changes, the figure dpi changes but the widget remains the same logical size. """ prop = 'matplotlib.backends.backend_qt.FigureCanvasQT.devicePixelRatioF' with mock.patch(prop) as p: p.return_value = 3 fig = plt.figure(figsize=(5, 2), dpi=120) qt_canvas = fig.canvas qt_canvas.show() def set_device_pixel_ratio(ratio): p.return_value = ratio # The value here doesn't matter, as we can't mock the C++ QScreen # object, but can override the functional wrapper around it. # Emitting this event is simply to trigger the DPI change handler # in Matplotlib in the same manner that it would occur normally. screen.logicalDotsPerInchChanged.emit(96) qt_canvas.draw() qt_canvas.flush_events() # Make sure the mocking worked assert qt_canvas.device_pixel_ratio == ratio qt_canvas.manager.show() size = qt_canvas.size() screen = qt_canvas.window().windowHandle().screen() set_device_pixel_ratio(3) # 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 logical 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() set_device_pixel_ratio(2) # 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 logical 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() set_device_pixel_ratio(1.5) # 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 logical 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('QtAgg', skip_on_importerror=True) def test_subplottool(): fig, ax = plt.subplots() with mock.patch("matplotlib.backends.qt_compat._exec", lambda obj: None): fig.canvas.manager.toolbar.configure_subplots() @pytest.mark.backend('QtAgg', skip_on_importerror=True) 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_compat._exec", lambda obj: None): fig.canvas.manager.toolbar.edit_parameters() @pytest.mark.backend('QtAgg', skip_on_importerror=True) def test_figureoptions_with_datetime_axes(): fig, ax = plt.subplots() xydata = [ datetime(year=2021, month=1, day=1), datetime(year=2021, month=2, day=1) ] ax.plot(xydata, xydata) with mock.patch("matplotlib.backends.qt_compat._exec", lambda obj: None): fig.canvas.manager.toolbar.edit_parameters() @pytest.mark.backend('QtAgg', skip_on_importerror=True) 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('QtAgg', skip_on_importerror=True) def test_canvas_reinit(): from matplotlib.backends.backend_qtagg 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 @pytest.mark.backend('Qt5Agg', skip_on_importerror=True) def test_form_widget_get_with_datetime_and_date_fields(): from matplotlib.backends.backend_qt import _create_qApp _create_qApp() form = [ ("Datetime field", datetime(year=2021, month=3, day=11)), ("Date field", date(year=2021, month=3, day=11)) ] widget = _formlayout.FormWidget(form) widget.setup() values = widget.get() assert values == [ datetime(year=2021, month=3, day=11), date(year=2021, month=3, day=11) ] def _get_testable_qt_backends(): envs = [] for deps, env in [ ([qt_api], {"MPLBACKEND": "qtagg", "QT_API": qt_api}) for qt_api in ["PyQt6", "PySide6", "PyQt5", "PySide2"] ]: reason = None missing = [dep for dep in deps if not importlib.util.find_spec(dep)] if (sys.platform == "linux" and not _c_internal_utils.display_is_valid()): reason = "$DISPLAY and $WAYLAND_DISPLAY are unset" elif missing: reason = "{} cannot be imported".format(", ".join(missing)) elif env["MPLBACKEND"] == 'macosx' and os.environ.get('TF_BUILD'): reason = "macosx backend fails on Azure" marks = [] if reason: marks.append(pytest.mark.skip( reason=f"Skipping {env} because {reason}")) envs.append(pytest.param(env, marks=marks, id=str(env))) return envs @pytest.mark.backend('QtAgg', skip_on_importerror=True) def test_fig_sigint_override(qt_core): from matplotlib.backends.backend_qt5 import _BackendQT5 # Create a figure plt.figure() # Variable to access the handler from the inside of the event loop event_loop_handler = None # Callback to fire during event loop: save SIGINT handler, then exit def fire_signal_and_quit(): # Save event loop signal nonlocal event_loop_handler event_loop_handler = 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_handler = signal.getsignal(signal.SIGINT) # Use our own SIGINT handler to be 100% sure this is working def custom_handler(signum, frame): pass signal.signal(signal.SIGINT, custom_handler) try: # mainloop() sets SIGINT, starts Qt event loop (which triggers timer # and exits) and then mainloop() resets SIGINT matplotlib.backends.backend_qt._BackendQT.mainloop() # Assert: signal handler during loop execution is changed # (can't test equality with func) assert event_loop_handler != custom_handler # Assert: current signal handler is the same as the one we set before assert signal.getsignal(signal.SIGINT) == custom_handler # Repeat again to test that SIG_DFL and SIG_IGN will not be overridden for custom_handler in (signal.SIG_DFL, signal.SIG_IGN): qt_core.QTimer.singleShot(0, fire_signal_and_quit) signal.signal(signal.SIGINT, custom_handler) _BackendQT5.mainloop() assert event_loop_handler == custom_handler assert signal.getsignal(signal.SIGINT) == custom_handler finally: # Reset SIGINT handler to what it was before the test signal.signal(signal.SIGINT, original_handler) @pytest.mark.backend('QtAgg', skip_on_importerror=True) def test_ipython(): from matplotlib.testing import ipython_in_subprocess ipython_in_subprocess("qt", {(8, 24): "qtagg", (8, 15): "QtAgg", (7, 0): "Qt5Agg"})