Traktor/myenv/Lib/site-packages/matplotlib/backends/backend_qt.py

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2024-05-23 01:57:24 +02:00
import functools
import os
import sys
import traceback
import matplotlib as mpl
from matplotlib import _api, backend_tools, cbook
from matplotlib._pylab_helpers import Gcf
from matplotlib.backend_bases import (
_Backend, FigureCanvasBase, FigureManagerBase, NavigationToolbar2,
TimerBase, cursors, ToolContainerBase, MouseButton,
CloseEvent, KeyEvent, LocationEvent, MouseEvent, ResizeEvent,
_allow_interrupt)
import matplotlib.backends.qt_editor.figureoptions as figureoptions
from . import qt_compat
from .qt_compat import (
QtCore, QtGui, QtWidgets, __version__, QT_API, _to_int, _isdeleted)
# SPECIAL_KEYS are Qt::Key that do *not* return their Unicode name
# instead they have manually specified names.
SPECIAL_KEYS = {
_to_int(getattr(QtCore.Qt.Key, k)): v for k, v in [
("Key_Escape", "escape"),
("Key_Tab", "tab"),
("Key_Backspace", "backspace"),
("Key_Return", "enter"),
("Key_Enter", "enter"),
("Key_Insert", "insert"),
("Key_Delete", "delete"),
("Key_Pause", "pause"),
("Key_SysReq", "sysreq"),
("Key_Clear", "clear"),
("Key_Home", "home"),
("Key_End", "end"),
("Key_Left", "left"),
("Key_Up", "up"),
("Key_Right", "right"),
("Key_Down", "down"),
("Key_PageUp", "pageup"),
("Key_PageDown", "pagedown"),
("Key_Shift", "shift"),
# In macOS, the control and super (aka cmd/apple) keys are switched.
("Key_Control", "control" if sys.platform != "darwin" else "cmd"),
("Key_Meta", "meta" if sys.platform != "darwin" else "control"),
("Key_Alt", "alt"),
("Key_CapsLock", "caps_lock"),
("Key_F1", "f1"),
("Key_F2", "f2"),
("Key_F3", "f3"),
("Key_F4", "f4"),
("Key_F5", "f5"),
("Key_F6", "f6"),
("Key_F7", "f7"),
("Key_F8", "f8"),
("Key_F9", "f9"),
("Key_F10", "f10"),
("Key_F10", "f11"),
("Key_F12", "f12"),
("Key_Super_L", "super"),
("Key_Super_R", "super"),
]
}
# Define which modifier keys are collected on keyboard events.
# Elements are (Qt::KeyboardModifiers, Qt::Key) tuples.
# Order determines the modifier order (ctrl+alt+...) reported by Matplotlib.
_MODIFIER_KEYS = [
(_to_int(getattr(QtCore.Qt.KeyboardModifier, mod)),
_to_int(getattr(QtCore.Qt.Key, key)))
for mod, key in [
("ControlModifier", "Key_Control"),
("AltModifier", "Key_Alt"),
("ShiftModifier", "Key_Shift"),
("MetaModifier", "Key_Meta"),
]
]
cursord = {
k: getattr(QtCore.Qt.CursorShape, v) for k, v in [
(cursors.MOVE, "SizeAllCursor"),
(cursors.HAND, "PointingHandCursor"),
(cursors.POINTER, "ArrowCursor"),
(cursors.SELECT_REGION, "CrossCursor"),
(cursors.WAIT, "WaitCursor"),
(cursors.RESIZE_HORIZONTAL, "SizeHorCursor"),
(cursors.RESIZE_VERTICAL, "SizeVerCursor"),
]
}
# lru_cache keeps a reference to the QApplication instance, keeping it from
# being GC'd.
@functools.lru_cache(1)
def _create_qApp():
app = QtWidgets.QApplication.instance()
# Create a new QApplication and configure it if none exists yet, as only
# one QApplication can exist at a time.
if app is None:
# display_is_valid returns False only if on Linux and neither X11
# nor Wayland display can be opened.
if not mpl._c_internal_utils.display_is_valid():
raise RuntimeError('Invalid DISPLAY variable')
# Check to make sure a QApplication from a different major version
# of Qt is not instantiated in the process
if QT_API in {'PyQt6', 'PySide6'}:
other_bindings = ('PyQt5', 'PySide2')
qt_version = 6
elif QT_API in {'PyQt5', 'PySide2'}:
other_bindings = ('PyQt6', 'PySide6')
qt_version = 5
else:
raise RuntimeError("Should never be here")
for binding in other_bindings:
mod = sys.modules.get(f'{binding}.QtWidgets')
if mod is not None and mod.QApplication.instance() is not None:
other_core = sys.modules.get(f'{binding}.QtCore')
_api.warn_external(
f'Matplotlib is using {QT_API} which wraps '
f'{QtCore.qVersion()} however an instantiated '
f'QApplication from {binding} which wraps '
f'{other_core.qVersion()} exists. Mixing Qt major '
'versions may not work as expected.'
)
break
if qt_version == 5:
try:
QtWidgets.QApplication.setAttribute(QtCore.Qt.AA_EnableHighDpiScaling)
except AttributeError: # Only for Qt>=5.6, <6.
pass
try:
QtWidgets.QApplication.setHighDpiScaleFactorRoundingPolicy(
QtCore.Qt.HighDpiScaleFactorRoundingPolicy.PassThrough)
except AttributeError: # Only for Qt>=5.14.
pass
app = QtWidgets.QApplication(["matplotlib"])
if sys.platform == "darwin":
image = str(cbook._get_data_path('images/matplotlib.svg'))
icon = QtGui.QIcon(image)
app.setWindowIcon(icon)
app.setQuitOnLastWindowClosed(True)
cbook._setup_new_guiapp()
if qt_version == 5:
app.setAttribute(QtCore.Qt.AA_UseHighDpiPixmaps)
return app
def _allow_interrupt_qt(qapp_or_eventloop):
"""A context manager that allows terminating a plot by sending a SIGINT."""
# Use QSocketNotifier to read the socketpair while the Qt event loop runs.
def prepare_notifier(rsock):
sn = QtCore.QSocketNotifier(rsock.fileno(), QtCore.QSocketNotifier.Type.Read)
@sn.activated.connect
def _may_clear_sock():
# Running a Python function on socket activation gives the interpreter a
# chance to handle the signal in Python land. We also need to drain the
# socket with recv() to re-arm it, because it will be written to as part of
# the wakeup. (We need this in case set_wakeup_fd catches a signal other
# than SIGINT and we shall continue waiting.)
try:
rsock.recv(1)
except BlockingIOError:
# This may occasionally fire too soon or more than once on Windows, so
# be forgiving about reading an empty socket.
pass
return sn # Actually keep the notifier alive.
def handle_sigint():
if hasattr(qapp_or_eventloop, 'closeAllWindows'):
qapp_or_eventloop.closeAllWindows()
qapp_or_eventloop.quit()
return _allow_interrupt(prepare_notifier, handle_sigint)
class TimerQT(TimerBase):
"""Subclass of `.TimerBase` using QTimer events."""
def __init__(self, *args, **kwargs):
# Create a new timer and connect the timeout() signal to the
# _on_timer method.
self._timer = QtCore.QTimer()
self._timer.timeout.connect(self._on_timer)
super().__init__(*args, **kwargs)
def __del__(self):
# The check for deletedness is needed to avoid an error at animation
# shutdown with PySide2.
if not _isdeleted(self._timer):
self._timer_stop()
def _timer_set_single_shot(self):
self._timer.setSingleShot(self._single)
def _timer_set_interval(self):
self._timer.setInterval(self._interval)
def _timer_start(self):
self._timer.start()
def _timer_stop(self):
self._timer.stop()
class FigureCanvasQT(FigureCanvasBase, QtWidgets.QWidget):
required_interactive_framework = "qt"
_timer_cls = TimerQT
manager_class = _api.classproperty(lambda cls: FigureManagerQT)
buttond = {
getattr(QtCore.Qt.MouseButton, k): v for k, v in [
("LeftButton", MouseButton.LEFT),
("RightButton", MouseButton.RIGHT),
("MiddleButton", MouseButton.MIDDLE),
("XButton1", MouseButton.BACK),
("XButton2", MouseButton.FORWARD),
]
}
def __init__(self, figure=None):
_create_qApp()
super().__init__(figure=figure)
self._draw_pending = False
self._is_drawing = False
self._draw_rect_callback = lambda painter: None
self._in_resize_event = False
self.setAttribute(QtCore.Qt.WidgetAttribute.WA_OpaquePaintEvent)
self.setMouseTracking(True)
self.resize(*self.get_width_height())
palette = QtGui.QPalette(QtGui.QColor("white"))
self.setPalette(palette)
def _update_pixel_ratio(self):
if self._set_device_pixel_ratio(
self.devicePixelRatioF() or 1): # rarely, devicePixelRatioF=0
# The easiest way to resize the canvas is to emit a resizeEvent
# since we implement all the logic for resizing the canvas for
# that event.
event = QtGui.QResizeEvent(self.size(), self.size())
self.resizeEvent(event)
def _update_screen(self, screen):
# Handler for changes to a window's attached screen.
self._update_pixel_ratio()
if screen is not None:
screen.physicalDotsPerInchChanged.connect(self._update_pixel_ratio)
screen.logicalDotsPerInchChanged.connect(self._update_pixel_ratio)
def showEvent(self, event):
# Set up correct pixel ratio, and connect to any signal changes for it,
# once the window is shown (and thus has these attributes).
window = self.window().windowHandle()
window.screenChanged.connect(self._update_screen)
self._update_screen(window.screen())
def set_cursor(self, cursor):
# docstring inherited
self.setCursor(_api.check_getitem(cursord, cursor=cursor))
def mouseEventCoords(self, pos=None):
"""
Calculate mouse coordinates in physical pixels.
Qt uses logical pixels, but the figure is scaled to physical
pixels for rendering. Transform to physical pixels so that
all of the down-stream transforms work as expected.
Also, the origin is different and needs to be corrected.
"""
if pos is None:
pos = self.mapFromGlobal(QtGui.QCursor.pos())
elif hasattr(pos, "position"): # qt6 QtGui.QEvent
pos = pos.position()
elif hasattr(pos, "pos"): # qt5 QtCore.QEvent
pos = pos.pos()
# (otherwise, it's already a QPoint)
x = pos.x()
# flip y so y=0 is bottom of canvas
y = self.figure.bbox.height / self.device_pixel_ratio - pos.y()
return x * self.device_pixel_ratio, y * self.device_pixel_ratio
def enterEvent(self, event):
# Force querying of the modifiers, as the cached modifier state can
# have been invalidated while the window was out of focus.
mods = QtWidgets.QApplication.instance().queryKeyboardModifiers()
if self.figure is None:
return
LocationEvent("figure_enter_event", self,
*self.mouseEventCoords(event),
modifiers=self._mpl_modifiers(mods),
guiEvent=event)._process()
def leaveEvent(self, event):
QtWidgets.QApplication.restoreOverrideCursor()
if self.figure is None:
return
LocationEvent("figure_leave_event", self,
*self.mouseEventCoords(),
modifiers=self._mpl_modifiers(),
guiEvent=event)._process()
def mousePressEvent(self, event):
button = self.buttond.get(event.button())
if button is not None and self.figure is not None:
MouseEvent("button_press_event", self,
*self.mouseEventCoords(event), button,
modifiers=self._mpl_modifiers(),
guiEvent=event)._process()
def mouseDoubleClickEvent(self, event):
button = self.buttond.get(event.button())
if button is not None and self.figure is not None:
MouseEvent("button_press_event", self,
*self.mouseEventCoords(event), button, dblclick=True,
modifiers=self._mpl_modifiers(),
guiEvent=event)._process()
def mouseMoveEvent(self, event):
if self.figure is None:
return
MouseEvent("motion_notify_event", self,
*self.mouseEventCoords(event),
modifiers=self._mpl_modifiers(),
guiEvent=event)._process()
def mouseReleaseEvent(self, event):
button = self.buttond.get(event.button())
if button is not None and self.figure is not None:
MouseEvent("button_release_event", self,
*self.mouseEventCoords(event), button,
modifiers=self._mpl_modifiers(),
guiEvent=event)._process()
def wheelEvent(self, event):
# from QWheelEvent::pixelDelta doc: pixelDelta is sometimes not
# provided (`isNull()`) and is unreliable on X11 ("xcb").
if (event.pixelDelta().isNull()
or QtWidgets.QApplication.instance().platformName() == "xcb"):
steps = event.angleDelta().y() / 120
else:
steps = event.pixelDelta().y()
if steps and self.figure is not None:
MouseEvent("scroll_event", self,
*self.mouseEventCoords(event), step=steps,
modifiers=self._mpl_modifiers(),
guiEvent=event)._process()
def keyPressEvent(self, event):
key = self._get_key(event)
if key is not None and self.figure is not None:
KeyEvent("key_press_event", self,
key, *self.mouseEventCoords(),
guiEvent=event)._process()
def keyReleaseEvent(self, event):
key = self._get_key(event)
if key is not None and self.figure is not None:
KeyEvent("key_release_event", self,
key, *self.mouseEventCoords(),
guiEvent=event)._process()
def resizeEvent(self, event):
if self._in_resize_event: # Prevent PyQt6 recursion
return
if self.figure is None:
return
self._in_resize_event = True
try:
w = event.size().width() * self.device_pixel_ratio
h = event.size().height() * self.device_pixel_ratio
dpival = self.figure.dpi
winch = w / dpival
hinch = h / dpival
self.figure.set_size_inches(winch, hinch, forward=False)
# pass back into Qt to let it finish
QtWidgets.QWidget.resizeEvent(self, event)
# emit our resize events
ResizeEvent("resize_event", self)._process()
self.draw_idle()
finally:
self._in_resize_event = False
def sizeHint(self):
w, h = self.get_width_height()
return QtCore.QSize(w, h)
def minumumSizeHint(self):
return QtCore.QSize(10, 10)
@staticmethod
def _mpl_modifiers(modifiers=None, *, exclude=None):
if modifiers is None:
modifiers = QtWidgets.QApplication.instance().keyboardModifiers()
modifiers = _to_int(modifiers)
# get names of the pressed modifier keys
# 'control' is named 'control' when a standalone key, but 'ctrl' when a
# modifier
# bit twiddling to pick out modifier keys from modifiers bitmask,
# if exclude is a MODIFIER, it should not be duplicated in mods
return [SPECIAL_KEYS[key].replace('control', 'ctrl')
for mask, key in _MODIFIER_KEYS
if exclude != key and modifiers & mask]
def _get_key(self, event):
event_key = event.key()
mods = self._mpl_modifiers(exclude=event_key)
try:
# for certain keys (enter, left, backspace, etc) use a word for the
# key, rather than Unicode
key = SPECIAL_KEYS[event_key]
except KeyError:
# Unicode defines code points up to 0x10ffff (sys.maxunicode)
# QT will use Key_Codes larger than that for keyboard keys that are
# not Unicode characters (like multimedia keys)
# skip these
# if you really want them, you should add them to SPECIAL_KEYS
if event_key > sys.maxunicode:
return None
key = chr(event_key)
# qt delivers capitalized letters. fix capitalization
# note that capslock is ignored
if 'shift' in mods:
mods.remove('shift')
else:
key = key.lower()
return '+'.join(mods + [key])
def flush_events(self):
# docstring inherited
QtWidgets.QApplication.instance().processEvents()
def start_event_loop(self, timeout=0):
# docstring inherited
if hasattr(self, "_event_loop") and self._event_loop.isRunning():
raise RuntimeError("Event loop already running")
self._event_loop = event_loop = QtCore.QEventLoop()
if timeout > 0:
_ = QtCore.QTimer.singleShot(int(timeout * 1000), event_loop.quit)
with _allow_interrupt_qt(event_loop):
qt_compat._exec(event_loop)
def stop_event_loop(self, event=None):
# docstring inherited
if hasattr(self, "_event_loop"):
self._event_loop.quit()
def draw(self):
"""Render the figure, and queue a request for a Qt draw."""
# The renderer draw is done here; delaying causes problems with code
# that uses the result of the draw() to update plot elements.
if self._is_drawing:
return
with cbook._setattr_cm(self, _is_drawing=True):
super().draw()
self.update()
def draw_idle(self):
"""Queue redraw of the Agg buffer and request Qt paintEvent."""
# The Agg draw needs to be handled by the same thread Matplotlib
# modifies the scene graph from. Post Agg draw request to the
# current event loop in order to ensure thread affinity and to
# accumulate multiple draw requests from event handling.
# TODO: queued signal connection might be safer than singleShot
if not (getattr(self, '_draw_pending', False) or
getattr(self, '_is_drawing', False)):
self._draw_pending = True
QtCore.QTimer.singleShot(0, self._draw_idle)
def blit(self, bbox=None):
# docstring inherited
if bbox is None and self.figure:
bbox = self.figure.bbox # Blit the entire canvas if bbox is None.
# repaint uses logical pixels, not physical pixels like the renderer.
l, b, w, h = [int(pt / self.device_pixel_ratio) for pt in bbox.bounds]
t = b + h
self.repaint(l, self.rect().height() - t, w, h)
def _draw_idle(self):
with self._idle_draw_cntx():
if not self._draw_pending:
return
self._draw_pending = False
if self.height() < 0 or self.width() < 0:
return
try:
self.draw()
except Exception:
# Uncaught exceptions are fatal for PyQt5, so catch them.
traceback.print_exc()
def drawRectangle(self, rect):
# Draw the zoom rectangle to the QPainter. _draw_rect_callback needs
# to be called at the end of paintEvent.
if rect is not None:
x0, y0, w, h = [int(pt / self.device_pixel_ratio) for pt in rect]
x1 = x0 + w
y1 = y0 + h
def _draw_rect_callback(painter):
pen = QtGui.QPen(
QtGui.QColor("black"),
1 / self.device_pixel_ratio
)
pen.setDashPattern([3, 3])
for color, offset in [
(QtGui.QColor("black"), 0),
(QtGui.QColor("white"), 3),
]:
pen.setDashOffset(offset)
pen.setColor(color)
painter.setPen(pen)
# Draw the lines from x0, y0 towards x1, y1 so that the
# dashes don't "jump" when moving the zoom box.
painter.drawLine(x0, y0, x0, y1)
painter.drawLine(x0, y0, x1, y0)
painter.drawLine(x0, y1, x1, y1)
painter.drawLine(x1, y0, x1, y1)
else:
def _draw_rect_callback(painter):
return
self._draw_rect_callback = _draw_rect_callback
self.update()
class MainWindow(QtWidgets.QMainWindow):
closing = QtCore.Signal()
def closeEvent(self, event):
self.closing.emit()
super().closeEvent(event)
class FigureManagerQT(FigureManagerBase):
"""
Attributes
----------
canvas : `FigureCanvas`
The FigureCanvas instance
num : int or str
The Figure number
toolbar : qt.QToolBar
The qt.QToolBar
window : qt.QMainWindow
The qt.QMainWindow
"""
def __init__(self, canvas, num):
self.window = MainWindow()
super().__init__(canvas, num)
self.window.closing.connect(self._widgetclosed)
if sys.platform != "darwin":
image = str(cbook._get_data_path('images/matplotlib.svg'))
icon = QtGui.QIcon(image)
self.window.setWindowIcon(icon)
self.window._destroying = False
if self.toolbar:
self.window.addToolBar(self.toolbar)
tbs_height = self.toolbar.sizeHint().height()
else:
tbs_height = 0
# resize the main window so it will display the canvas with the
# requested size:
cs = canvas.sizeHint()
cs_height = cs.height()
height = cs_height + tbs_height
self.window.resize(cs.width(), height)
self.window.setCentralWidget(self.canvas)
if mpl.is_interactive():
self.window.show()
self.canvas.draw_idle()
# Give the keyboard focus to the figure instead of the manager:
# StrongFocus accepts both tab and click to focus and will enable the
# canvas to process event without clicking.
# https://doc.qt.io/qt-5/qt.html#FocusPolicy-enum
self.canvas.setFocusPolicy(QtCore.Qt.FocusPolicy.StrongFocus)
self.canvas.setFocus()
self.window.raise_()
def full_screen_toggle(self):
if self.window.isFullScreen():
self.window.showNormal()
else:
self.window.showFullScreen()
def _widgetclosed(self):
CloseEvent("close_event", self.canvas)._process()
if self.window._destroying:
return
self.window._destroying = True
try:
Gcf.destroy(self)
except AttributeError:
pass
# It seems that when the python session is killed,
# Gcf can get destroyed before the Gcf.destroy
# line is run, leading to a useless AttributeError.
def resize(self, width, height):
# The Qt methods return sizes in 'virtual' pixels so we do need to
# rescale from physical to logical pixels.
width = int(width / self.canvas.device_pixel_ratio)
height = int(height / self.canvas.device_pixel_ratio)
extra_width = self.window.width() - self.canvas.width()
extra_height = self.window.height() - self.canvas.height()
self.canvas.resize(width, height)
self.window.resize(width + extra_width, height + extra_height)
@classmethod
def start_main_loop(cls):
qapp = QtWidgets.QApplication.instance()
if qapp:
with _allow_interrupt_qt(qapp):
qt_compat._exec(qapp)
def show(self):
self.window._destroying = False
self.window.show()
if mpl.rcParams['figure.raise_window']:
self.window.activateWindow()
self.window.raise_()
def destroy(self, *args):
# check for qApp first, as PySide deletes it in its atexit handler
if QtWidgets.QApplication.instance() is None:
return
if self.window._destroying:
return
self.window._destroying = True
if self.toolbar:
self.toolbar.destroy()
self.window.close()
def get_window_title(self):
return self.window.windowTitle()
def set_window_title(self, title):
self.window.setWindowTitle(title)
class NavigationToolbar2QT(NavigationToolbar2, QtWidgets.QToolBar):
_message = QtCore.Signal(str) # Remove once deprecation below elapses.
message = _api.deprecate_privatize_attribute("3.8")
toolitems = [*NavigationToolbar2.toolitems]
toolitems.insert(
# Add 'customize' action after 'subplots'
[name for name, *_ in toolitems].index("Subplots") + 1,
("Customize", "Edit axis, curve and image parameters",
"qt4_editor_options", "edit_parameters"))
def __init__(self, canvas, parent=None, coordinates=True):
"""coordinates: should we show the coordinates on the right?"""
QtWidgets.QToolBar.__init__(self, parent)
self.setAllowedAreas(QtCore.Qt.ToolBarArea(
_to_int(QtCore.Qt.ToolBarArea.TopToolBarArea) |
_to_int(QtCore.Qt.ToolBarArea.BottomToolBarArea)))
self.coordinates = coordinates
self._actions = {} # mapping of toolitem method names to QActions.
self._subplot_dialog = None
for text, tooltip_text, image_file, callback in self.toolitems:
if text is None:
self.addSeparator()
else:
slot = getattr(self, callback)
# https://bugreports.qt.io/browse/PYSIDE-2512
slot = functools.wraps(slot)(functools.partial(slot))
slot = QtCore.Slot()(slot)
a = self.addAction(self._icon(image_file + '.png'),
text, slot)
self._actions[callback] = a
if callback in ['zoom', 'pan']:
a.setCheckable(True)
if tooltip_text is not None:
a.setToolTip(tooltip_text)
# Add the (x, y) location widget at the right side of the toolbar
# The stretch factor is 1 which means any resizing of the toolbar
# will resize this label instead of the buttons.
if self.coordinates:
self.locLabel = QtWidgets.QLabel("", self)
self.locLabel.setAlignment(QtCore.Qt.AlignmentFlag(
_to_int(QtCore.Qt.AlignmentFlag.AlignRight) |
_to_int(QtCore.Qt.AlignmentFlag.AlignVCenter)))
self.locLabel.setSizePolicy(QtWidgets.QSizePolicy(
QtWidgets.QSizePolicy.Policy.Expanding,
QtWidgets.QSizePolicy.Policy.Ignored,
))
labelAction = self.addWidget(self.locLabel)
labelAction.setVisible(True)
NavigationToolbar2.__init__(self, canvas)
def _icon(self, name):
"""
Construct a `.QIcon` from an image file *name*, including the extension
and relative to Matplotlib's "images" data directory.
"""
# use a high-resolution icon with suffix '_large' if available
# note: user-provided icons may not have '_large' versions
path_regular = cbook._get_data_path('images', name)
path_large = path_regular.with_name(
path_regular.name.replace('.png', '_large.png'))
filename = str(path_large if path_large.exists() else path_regular)
pm = QtGui.QPixmap(filename)
pm.setDevicePixelRatio(
self.devicePixelRatioF() or 1) # rarely, devicePixelRatioF=0
if self.palette().color(self.backgroundRole()).value() < 128:
icon_color = self.palette().color(self.foregroundRole())
mask = pm.createMaskFromColor(
QtGui.QColor('black'),
QtCore.Qt.MaskMode.MaskOutColor)
pm.fill(icon_color)
pm.setMask(mask)
return QtGui.QIcon(pm)
def edit_parameters(self):
axes = self.canvas.figure.get_axes()
if not axes:
QtWidgets.QMessageBox.warning(
self.canvas.parent(), "Error", "There are no Axes to edit.")
return
elif len(axes) == 1:
ax, = axes
else:
titles = [
ax.get_label() or
ax.get_title() or
ax.get_title("left") or
ax.get_title("right") or
" - ".join(filter(None, [ax.get_xlabel(), ax.get_ylabel()])) or
f"<anonymous {type(ax).__name__}>"
for ax in axes]
duplicate_titles = [
title for title in titles if titles.count(title) > 1]
for i, ax in enumerate(axes):
if titles[i] in duplicate_titles:
titles[i] += f" (id: {id(ax):#x})" # Deduplicate titles.
item, ok = QtWidgets.QInputDialog.getItem(
self.canvas.parent(),
'Customize', 'Select Axes:', titles, 0, False)
if not ok:
return
ax = axes[titles.index(item)]
figureoptions.figure_edit(ax, self)
def _update_buttons_checked(self):
# sync button checkstates to match active mode
if 'pan' in self._actions:
self._actions['pan'].setChecked(self.mode.name == 'PAN')
if 'zoom' in self._actions:
self._actions['zoom'].setChecked(self.mode.name == 'ZOOM')
def pan(self, *args):
super().pan(*args)
self._update_buttons_checked()
def zoom(self, *args):
super().zoom(*args)
self._update_buttons_checked()
def set_message(self, s):
self._message.emit(s)
if self.coordinates:
self.locLabel.setText(s)
def draw_rubberband(self, event, x0, y0, x1, y1):
height = self.canvas.figure.bbox.height
y1 = height - y1
y0 = height - y0
rect = [int(val) for val in (x0, y0, x1 - x0, y1 - y0)]
self.canvas.drawRectangle(rect)
def remove_rubberband(self):
self.canvas.drawRectangle(None)
def configure_subplots(self):
if self._subplot_dialog is None:
self._subplot_dialog = SubplotToolQt(
self.canvas.figure, self.canvas.parent())
self.canvas.mpl_connect(
"close_event", lambda e: self._subplot_dialog.reject())
self._subplot_dialog.update_from_current_subplotpars()
self._subplot_dialog.setModal(True)
self._subplot_dialog.show()
return self._subplot_dialog
def save_figure(self, *args):
filetypes = self.canvas.get_supported_filetypes_grouped()
sorted_filetypes = sorted(filetypes.items())
default_filetype = self.canvas.get_default_filetype()
startpath = os.path.expanduser(mpl.rcParams['savefig.directory'])
start = os.path.join(startpath, self.canvas.get_default_filename())
filters = []
selectedFilter = None
for name, exts in sorted_filetypes:
exts_list = " ".join(['*.%s' % ext for ext in exts])
filter = f'{name} ({exts_list})'
if default_filetype in exts:
selectedFilter = filter
filters.append(filter)
filters = ';;'.join(filters)
fname, filter = QtWidgets.QFileDialog.getSaveFileName(
self.canvas.parent(), "Choose a filename to save to", start,
filters, selectedFilter)
if fname:
# Save dir for next time, unless empty str (i.e., use cwd).
if startpath != "":
mpl.rcParams['savefig.directory'] = os.path.dirname(fname)
try:
self.canvas.figure.savefig(fname)
except Exception as e:
QtWidgets.QMessageBox.critical(
self, "Error saving file", str(e),
QtWidgets.QMessageBox.StandardButton.Ok,
QtWidgets.QMessageBox.StandardButton.NoButton)
def set_history_buttons(self):
can_backward = self._nav_stack._pos > 0
can_forward = self._nav_stack._pos < len(self._nav_stack) - 1
if 'back' in self._actions:
self._actions['back'].setEnabled(can_backward)
if 'forward' in self._actions:
self._actions['forward'].setEnabled(can_forward)
class SubplotToolQt(QtWidgets.QDialog):
def __init__(self, targetfig, parent):
super().__init__()
self.setWindowIcon(QtGui.QIcon(
str(cbook._get_data_path("images/matplotlib.png"))))
self.setObjectName("SubplotTool")
self._spinboxes = {}
main_layout = QtWidgets.QHBoxLayout()
self.setLayout(main_layout)
for group, spinboxes, buttons in [
("Borders",
["top", "bottom", "left", "right"],
[("Export values", self._export_values)]),
("Spacings",
["hspace", "wspace"],
[("Tight layout", self._tight_layout),
("Reset", self._reset),
("Close", self.close)])]:
layout = QtWidgets.QVBoxLayout()
main_layout.addLayout(layout)
box = QtWidgets.QGroupBox(group)
layout.addWidget(box)
inner = QtWidgets.QFormLayout(box)
for name in spinboxes:
self._spinboxes[name] = spinbox = QtWidgets.QDoubleSpinBox()
spinbox.setRange(0, 1)
spinbox.setDecimals(3)
spinbox.setSingleStep(0.005)
spinbox.setKeyboardTracking(False)
spinbox.valueChanged.connect(self._on_value_changed)
inner.addRow(name, spinbox)
layout.addStretch(1)
for name, method in buttons:
button = QtWidgets.QPushButton(name)
# Don't trigger on <enter>, which is used to input values.
button.setAutoDefault(False)
button.clicked.connect(method)
layout.addWidget(button)
if name == "Close":
button.setFocus()
self._figure = targetfig
self._defaults = {}
self._export_values_dialog = None
self.update_from_current_subplotpars()
def update_from_current_subplotpars(self):
self._defaults = {spinbox: getattr(self._figure.subplotpars, name)
for name, spinbox in self._spinboxes.items()}
self._reset() # Set spinbox current values without triggering signals.
def _export_values(self):
# Explicitly round to 3 decimals (which is also the spinbox precision)
# to avoid numbers of the form 0.100...001.
self._export_values_dialog = QtWidgets.QDialog()
layout = QtWidgets.QVBoxLayout()
self._export_values_dialog.setLayout(layout)
text = QtWidgets.QPlainTextEdit()
text.setReadOnly(True)
layout.addWidget(text)
text.setPlainText(
",\n".join(f"{attr}={spinbox.value():.3}"
for attr, spinbox in self._spinboxes.items()))
# Adjust the height of the text widget to fit the whole text, plus
# some padding.
size = text.maximumSize()
size.setHeight(
QtGui.QFontMetrics(text.document().defaultFont())
.size(0, text.toPlainText()).height() + 20)
text.setMaximumSize(size)
self._export_values_dialog.show()
def _on_value_changed(self):
spinboxes = self._spinboxes
# Set all mins and maxes, so that this can also be used in _reset().
for lower, higher in [("bottom", "top"), ("left", "right")]:
spinboxes[higher].setMinimum(spinboxes[lower].value() + .001)
spinboxes[lower].setMaximum(spinboxes[higher].value() - .001)
self._figure.subplots_adjust(
**{attr: spinbox.value() for attr, spinbox in spinboxes.items()})
self._figure.canvas.draw_idle()
def _tight_layout(self):
self._figure.tight_layout()
for attr, spinbox in self._spinboxes.items():
spinbox.blockSignals(True)
spinbox.setValue(getattr(self._figure.subplotpars, attr))
spinbox.blockSignals(False)
self._figure.canvas.draw_idle()
def _reset(self):
for spinbox, value in self._defaults.items():
spinbox.setRange(0, 1)
spinbox.blockSignals(True)
spinbox.setValue(value)
spinbox.blockSignals(False)
self._on_value_changed()
class ToolbarQt(ToolContainerBase, QtWidgets.QToolBar):
def __init__(self, toolmanager, parent=None):
ToolContainerBase.__init__(self, toolmanager)
QtWidgets.QToolBar.__init__(self, parent)
self.setAllowedAreas(QtCore.Qt.ToolBarArea(
_to_int(QtCore.Qt.ToolBarArea.TopToolBarArea) |
_to_int(QtCore.Qt.ToolBarArea.BottomToolBarArea)))
message_label = QtWidgets.QLabel("")
message_label.setAlignment(QtCore.Qt.AlignmentFlag(
_to_int(QtCore.Qt.AlignmentFlag.AlignRight) |
_to_int(QtCore.Qt.AlignmentFlag.AlignVCenter)))
message_label.setSizePolicy(QtWidgets.QSizePolicy(
QtWidgets.QSizePolicy.Policy.Expanding,
QtWidgets.QSizePolicy.Policy.Ignored,
))
self._message_action = self.addWidget(message_label)
self._toolitems = {}
self._groups = {}
def add_toolitem(
self, name, group, position, image_file, description, toggle):
button = QtWidgets.QToolButton(self)
if image_file:
button.setIcon(NavigationToolbar2QT._icon(self, image_file))
button.setText(name)
if description:
button.setToolTip(description)
def handler():
self.trigger_tool(name)
if toggle:
button.setCheckable(True)
button.toggled.connect(handler)
else:
button.clicked.connect(handler)
self._toolitems.setdefault(name, [])
self._add_to_group(group, name, button, position)
self._toolitems[name].append((button, handler))
def _add_to_group(self, group, name, button, position):
gr = self._groups.get(group, [])
if not gr:
sep = self.insertSeparator(self._message_action)
gr.append(sep)
before = gr[position]
widget = self.insertWidget(before, button)
gr.insert(position, widget)
self._groups[group] = gr
def toggle_toolitem(self, name, toggled):
if name not in self._toolitems:
return
for button, handler in self._toolitems[name]:
button.toggled.disconnect(handler)
button.setChecked(toggled)
button.toggled.connect(handler)
def remove_toolitem(self, name):
for button, handler in self._toolitems.pop(name, []):
button.setParent(None)
def set_message(self, s):
self.widgetForAction(self._message_action).setText(s)
@backend_tools._register_tool_class(FigureCanvasQT)
class ConfigureSubplotsQt(backend_tools.ConfigureSubplotsBase):
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
self._subplot_dialog = None
def trigger(self, *args):
NavigationToolbar2QT.configure_subplots(self)
@backend_tools._register_tool_class(FigureCanvasQT)
class SaveFigureQt(backend_tools.SaveFigureBase):
def trigger(self, *args):
NavigationToolbar2QT.save_figure(
self._make_classic_style_pseudo_toolbar())
@backend_tools._register_tool_class(FigureCanvasQT)
class RubberbandQt(backend_tools.RubberbandBase):
def draw_rubberband(self, x0, y0, x1, y1):
NavigationToolbar2QT.draw_rubberband(
self._make_classic_style_pseudo_toolbar(), None, x0, y0, x1, y1)
def remove_rubberband(self):
NavigationToolbar2QT.remove_rubberband(
self._make_classic_style_pseudo_toolbar())
@backend_tools._register_tool_class(FigureCanvasQT)
class HelpQt(backend_tools.ToolHelpBase):
def trigger(self, *args):
QtWidgets.QMessageBox.information(None, "Help", self._get_help_html())
@backend_tools._register_tool_class(FigureCanvasQT)
class ToolCopyToClipboardQT(backend_tools.ToolCopyToClipboardBase):
def trigger(self, *args, **kwargs):
pixmap = self.canvas.grab()
QtWidgets.QApplication.instance().clipboard().setPixmap(pixmap)
FigureManagerQT._toolbar2_class = NavigationToolbar2QT
FigureManagerQT._toolmanager_toolbar_class = ToolbarQt
@_Backend.export
class _BackendQT(_Backend):
backend_version = __version__
FigureCanvas = FigureCanvasQT
FigureManager = FigureManagerQT
mainloop = FigureManagerQT.start_main_loop