def slideIn(self, index, direction=Direction.Automatic):
"""
Slides in the panel at the inputed index in the given
direction for this widget.
:param index | <int>
direction | <XStackedWidget.Direction>
:return <bool> | success
"""
# do not allow multiple slides while it is active
if self._active:
return False
# determine the proper index to calculate
invert = False
if self.count() <= index:
if not self.wrap():
return False
index = self.count() % index
invert = True
elif index < 0:
if not self.wrap():
return False
index = self.count() + index
invert = True
# define the direction information
if index == self.currentIndex():
return False
elif self.currentIndex() < index:
if direction == XStackedWidget.Direction.Automatic:
if self.isVerticalMode():
direction = XStackedWidget.Direction.BottomToTop
else:
direction = XStackedWidget.Direction.RightToLeft
else:
if direction == XStackedWidget.Direction.Automatic:
if self.isVerticalMode():
direction = XStackedWidget.Direction.TopToBottom
else:
direction = XStackedWidget.Direction.LeftToRight
# invert the animation if we are wrapping
if invert:
if direction == XStackedWidget.Direction.BottomToTop:
direction = XStackedWidget.Direction.TopToBottom
elif direction == XStackedWidget.Direction.TopToBottom:
direction = XStackedWidget.Direction.BottomToTop
elif direction == XStackedWidget.Direction.LeftToRight:
direction = XStackedWidget.Direction.RightToLeft
else:
direction = XStackedWidget.Direction.LeftToRight
self._active = True
offset_x = self.frameRect().width()
offset_y = self.frameRect().height()
next_widget = self.widget(index)
curr_widget = self.widget(self.currentIndex())
next_widget.setGeometry(0, 0, offset_x, offset_y)
if direction == XStackedWidget.Direction.BottomToTop:
offset_x = 0
offset_y = -offset_y
elif direction == XStackedWidget.Direction.TopToBottom:
offset_x = 0
elif direction == XStackedWidget.Direction.RightToLeft:
offset_x = -offset_x
offset_y = 0
elif direction == XStackedWidget.Direction.LeftToRight:
offset_y = 0
next_point = next_widget.pos()
curr_point = curr_widget.pos()
self._nextIndex = index
self._lastIndex = self.currentIndex()
self._lastPoint = QPoint(curr_point)
next_widget.move(next_point.x()-offset_x, next_point.y()-offset_y)
next_widget.raise_()
next_widget.show()
curr_anim = QPropertyAnimation(curr_widget, 'pos')
curr_anim.setDuration(self.speed())
curr_anim.setEasingCurve(self.animationType())
curr_anim.setStartValue(curr_point)
curr_anim.setEndValue(QPoint(curr_point.x()+offset_x,
curr_point.y()+offset_y))
next_anim = QPropertyAnimation(next_widget, 'pos')
next_anim.setDuration(self.speed())
next_anim.setEasingCurve(self.animationType())
next_anim.setStartValue(QPoint(next_point.x()-offset_x,
next_point.y()-offset_y))
next_anim.setEndValue(next_point)
anim_group = QParallelAnimationGroup(self)
anim_group.addAnimation(curr_anim)
anim_group.addAnimation(next_anim)
anim_group.finished.connect(self._finishAnimation)
anim_group.finished.connect(anim_group.deleteLater)
anim_group.start()
return True
def setCurrentAction(self, action):
"""
Sets the current action for this widget that highlights the size
for this toolbar.
:param action | <QAction>
"""
if action == self._currentAction:
return
self._currentAction = action
self.currentActionChanged.emit(action)
labels = self.actionLabels()
anim_grp = QParallelAnimationGroup(self)
max_size = self.maximumPixmapSize()
min_size = self.minimumPixmapSize()
if action:
label = self.labelForAction(action)
index = labels.index(label)
# create the highlight effect
palette = self.palette()
effect = QGraphicsDropShadowEffect(label)
effect.setXOffset(0)
effect.setYOffset(0)
effect.setBlurRadius(20)
effect.setColor(QColor(40, 40, 40))
label.setGraphicsEffect(effect)
offset = self.padding()
if self.position() in (XDockToolbar.Position.East,
XDockToolbar.Position.West):
self.resize(max_size.width() + offset, self.height())
elif self.position() in (XDockToolbar.Position.North,
XDockToolbar.Position.South):
self.resize(self.width(), max_size.height() + offset)
w = max_size.width()
h = max_size.height()
dw = (max_size.width() - min_size.width()) / 3
dh = (max_size.height() - min_size.height()) / 3
for i in range(4):
before = index - i
after = index + i
if 0 <= before and before < len(labels):
anim = XObjectAnimation(labels[before],
'setPixmapSize',
anim_grp)
anim.setEasingCurve(self.easingCurve())
anim.setStartValue(labels[before].pixmapSize())
anim.setEndValue(QSize(w, h))
anim.setDuration(self.duration())
anim_grp.addAnimation(anim)
if i:
labels[before].setGraphicsEffect(None)
if after != before and 0 <= after and after < len(labels):
anim = XObjectAnimation(labels[after],
'setPixmapSize',
anim_grp)
anim.setEasingCurve(self.easingCurve())
anim.setStartValue(labels[after].pixmapSize())
anim.setEndValue(QSize(w, h))
anim.setDuration(self.duration())
anim_grp.addAnimation(anim)
if i:
labels[after].setGraphicsEffect(None)
w -= dw
h -= dh
else:
offset = self.padding()
for label in self.actionLabels():
# clear the graphics effect
label.setGraphicsEffect(None)
# create the animation
anim = XObjectAnimation(label, 'setPixmapSize', self)
anim.setEasingCurve(self.easingCurve())
anim.setStartValue(label.pixmapSize())
anim.setEndValue(min_size)
anim.setDuration(self.duration())
anim_grp.addAnimation(anim)
anim_grp.finished.connect(self.resizeToMinimum)
anim_grp.start()
self._animating = True
anim_grp.finished.connect(anim_grp.deleteLater)
anim_grp.finished.connect(self.__markAnimatingFinished)
if self._currentAction:
self._hoverTimer.start()
else:
self._hoverTimer.stop()
def slideIn(self, index, direction=Direction.Automatic):
"""
Slides in the panel at the inputed index in the given
direction for this widget.
:param index | <int>
direction | <XStackedWidget.Direction>
:return <bool> | success
"""
# do not allow multiple slides while it is active
if self._active:
return False
# determine the proper index to calculate
invert = False
if self.count() <= index:
if not self.wrap():
return False
index = self.count() % index
invert = True
elif index < 0:
if not self.wrap():
return False
index = self.count() + index
invert = True
# define the direction information
if index == self.currentIndex():
return False
elif self.currentIndex() < index:
if direction == XStackedWidget.Direction.Automatic:
if self.isVerticalMode():
direction = XStackedWidget.Direction.BottomToTop
else:
direction = XStackedWidget.Direction.RightToLeft
else:
if direction == XStackedWidget.Direction.Automatic:
if self.isVerticalMode():
direction = XStackedWidget.Direction.TopToBottom
else:
direction = XStackedWidget.Direction.LeftToRight
# invert the animation if we are wrapping
if invert:
if direction == XStackedWidget.Direction.BottomToTop:
direction = XStackedWidget.Direction.TopToBottom
elif direction == XStackedWidget.Direction.TopToBottom:
direction = XStackedWidget.Direction.BottomToTop
elif direction == XStackedWidget.Direction.LeftToRight:
direction = XStackedWidget.Direction.RightToLeft
else:
direction = XStackedWidget.Direction.LeftToRight
self._active = True
offset_x = self.frameRect().width()
offset_y = self.frameRect().height()
next_widget = self.widget(index)
curr_widget = self.widget(self.currentIndex())
next_widget.setGeometry(0, 0, offset_x, offset_y)
if direction == XStackedWidget.Direction.BottomToTop:
offset_x = 0
offset_y = -offset_y
elif direction == XStackedWidget.Direction.TopToBottom:
offset_x = 0
elif direction == XStackedWidget.Direction.RightToLeft:
offset_x = -offset_x
offset_y = 0
elif direction == XStackedWidget.Direction.LeftToRight:
offset_y = 0
next_point = next_widget.pos()
curr_point = curr_widget.pos()
self._nextIndex = index
self._lastIndex = self.currentIndex()
self._lastPoint = QPoint(curr_point)
next_widget.move(next_point.x() - offset_x, next_point.y() - offset_y)
next_widget.raise_()
next_widget.show()
curr_anim = QPropertyAnimation(curr_widget, 'pos')
curr_anim.setDuration(self.speed())
curr_anim.setEasingCurve(self.animationType())
curr_anim.setStartValue(curr_point)
curr_anim.setEndValue(
QPoint(curr_point.x() + offset_x,
curr_point.y() + offset_y))
next_anim = QPropertyAnimation(next_widget, 'pos')
next_anim.setDuration(self.speed())
next_anim.setEasingCurve(self.animationType())
next_anim.setStartValue(
QPoint(next_point.x() - offset_x,
next_point.y() - offset_y))
next_anim.setEndValue(next_point)
anim_group = QParallelAnimationGroup(self)
anim_group.addAnimation(curr_anim)
anim_group.addAnimation(next_anim)
anim_group.finished.connect(self._finishAnimation)
anim_group.finished.connect(anim_group.deleteLater)
anim_group.start()
return True