Exemplo n.º 1
0
    def __setControlAreaVisible(self, visible):
        # type: (bool) -> None
        if self.__splitter is None or self.__splitter.count() < 2:
            return
        self.controlAreaVisible = visible
        splitter = self.__splitter  # type: QSplitter
        w = splitter.widget(0)
        # Set minimum width to 1 (overrides minimumSizeHint) when control area
        # is not visible to allow the main area to shrink further. Reset the
        # minimum width with a 0 if control area is visible.
        w.setMinimumWidth(int(not visible))

        sizes = splitter.sizes()
        current_size = sizes[0]
        if bool(current_size) == visible:
            return

        current_width = w.width()
        geom = self.geometry()
        frame = self.frameGeometry()
        framemargins = QMargins(
            frame.left() - geom.left(),
            frame.top() - geom.top(),
            frame.right() - geom.right(),
            frame.bottom() - geom.bottom()
        )
        splitter.setSizes([int(visible), QWIDGETSIZE_MAX])
        if not self.isWindow() or \
                self.windowState() not in [Qt.WindowNoState, Qt.WindowActive]:
            # not a window or not in state where we can move move/resize
            return

        # force immediate resize recalculation
        splitter.refresh()
        self.layout().invalidate()
        self.layout().activate()

        if visible:
            # move left and expand by the exposing widget's width
            diffx = -w.width()
            diffw = w.width()
        else:
            # move right and shrink by the collapsing width
            diffx = current_width
            diffw = -current_width
        newgeom = QRect(
            geom.x() + diffx, geom.y(), geom.width() + diffw, geom.height()
        )
        # bound/move by available geometry
        bounds = QApplication.desktop().availableGeometry(self)
        bounds = bounds.adjusted(
            framemargins.left(), framemargins.top(),
            -framemargins.right(), -framemargins.bottom()
        )
        newsize = newgeom.size().boundedTo(bounds.size())
        newgeom = QRect(newgeom.topLeft(), newsize)
        newgeom.moveLeft(max(newgeom.left(), bounds.left()))
        newgeom.moveRight(min(newgeom.right(), bounds.right()))
        self.setGeometry(newgeom)
Exemplo n.º 2
0
    def __setControlAreaVisible(self, visible):
        # type: (bool) -> None
        if self.__splitter is None or self.__splitter.count() < 2:
            return
        self.controlAreaVisible = visible
        splitter = self.__splitter  # type: QSplitter
        w = splitter.widget(0)
        # Set minimum width to 1 (overrides minimumSizeHint) when control area
        # is not visible to allow the main area to shrink further. Reset the
        # minimum width with a 0 if control area is visible.
        w.setMinimumWidth(int(not visible))

        sizes = splitter.sizes()
        current_size = sizes[0]
        if bool(current_size) == visible:
            return

        current_width = w.width()
        geom = self.geometry()
        frame = self.frameGeometry()
        framemargins = QMargins(
            frame.left() - geom.left(),
            frame.top() - geom.top(),
            frame.right() - geom.right(),
            frame.bottom() - geom.bottom()
        )
        splitter.setSizes([int(visible), QWIDGETSIZE_MAX])
        if not self.isWindow() or \
                self.windowState() not in [Qt.WindowNoState, Qt.WindowActive]:
            # not a window or not in state where we can move move/resize
            return

        # force immediate resize recalculation
        splitter.refresh()
        self.layout().invalidate()
        self.layout().activate()

        if visible:
            # move left and expand by the exposing widget's width
            diffx = -w.width()
            diffw = w.width()
        else:
            # move right and shrink by the collapsing width
            diffx = current_width
            diffw = -current_width
        newgeom = QRect(
            geom.x() + diffx, geom.y(), geom.width() + diffw, geom.height()
        )
        # bound/move by available geometry
        bounds = QApplication.desktop().availableGeometry(self)
        bounds = bounds.adjusted(
            framemargins.left(), framemargins.top(),
            -framemargins.right(), -framemargins.bottom()
        )
        newsize = newgeom.size().boundedTo(bounds.size())
        newgeom = QRect(newgeom.topLeft(), newsize)
        newgeom.moveLeft(max(newgeom.left(), bounds.left()))
        newgeom.moveRight(min(newgeom.right(), bounds.right()))
        self.setGeometry(newgeom)
Exemplo n.º 3
0
    def drawBackground(self, painter, rect):
        super().drawBackground(painter, rect)

        if not self.__backgroundIcon.isNull():
            painter.setClipRect(rect)
            vrect = QRect(QPoint(0, 0), self.viewport().size())
            vrect = self.mapToScene(vrect).boundingRect()

            pm = self.__backgroundIcon.pixmap(vrect.size().toSize().boundedTo(
                QSize(200, 200)))
            pmrect = QRect(QPoint(0, 0), pm.size())
            pmrect.moveCenter(vrect.center().toPoint())
            if rect.toRect().intersects(pmrect):
                painter.drawPixmap(pmrect, pm)
Exemplo n.º 4
0
    def drawBackground(self, painter, rect):
        super().drawBackground(painter, rect)

        if not self.__backgroundIcon.isNull():
            painter.setClipRect(rect)
            vrect = QRect(QPoint(0, 0), self.viewport().size())
            vrect = self.mapToScene(vrect).boundingRect()

            pm = self.__backgroundIcon.pixmap(
                vrect.size().toSize().boundedTo(QSize(200, 200))
            )
            pmrect = QRect(QPoint(0, 0), pm.size())
            pmrect.moveCenter(vrect.center().toPoint())
            if rect.toRect().intersects(pmrect):
                painter.drawPixmap(pmrect, pm)
Exemplo n.º 5
0
    def setGeometry(self, rect: QRect) -> None:
        if rect == self.__rect:
            return
        self.__rect = QRect(rect)

        QStackedLayout.setGeometry(self, rect)
        for i in range(self.count()):
            w = self.widget(i)
            hint = w.sizeHint()
            geom = QRect(rect)
            size = clipMinMax(rect.size(), w.minimumSize(), w.maximumSize())
            size = fixSizePolicy(size, hint, w.sizePolicy())
            geom.setSize(size)
            if geom != w.geometry():
                w.setGeometry(geom)
Exemplo n.º 6
0
    def showPopup(self):
        # type: () -> None
        """
        Reimplemented from QComboBox.showPopup

        Popup up a customized view and filter edit line.

        Note
        ----
        The .popup(), .lineEdit(), .completer() of the base class are not used.
        """
        if self.__popup is not None:
            # We have user entered state that cannot be disturbed
            # (entered filter text, scroll offset, ...)
            return  # pragma: no cover

        if self.count() == 0:
            return

        opt = QStyleOptionComboBox()
        self.initStyleOption(opt)
        popup = QListView(
            uniformItemSizes=True,
            horizontalScrollBarPolicy=Qt.ScrollBarAlwaysOff,
            verticalScrollBarPolicy=Qt.ScrollBarAsNeeded,
            iconSize=self.iconSize(),
        )
        popup.setFocusProxy(self.__searchline)
        popup.setParent(self, Qt.Popup | Qt.FramelessWindowHint)
        popup.setItemDelegate(_ComboBoxListDelegate(popup))
        proxy = QSortFilterProxyModel(
            popup, filterCaseSensitivity=Qt.CaseInsensitive
        )
        proxy.setFilterKeyColumn(self.modelColumn())
        proxy.setSourceModel(self.model())
        popup.setModel(proxy)
        root = proxy.mapFromSource(self.rootModelIndex())
        popup.setRootIndex(root)

        self.__popup = popup
        self.__proxy = proxy
        self.__searchline.setText("")
        self.__searchline.setPlaceholderText("Filter...")
        self.__searchline.setVisible(True)
        self.__searchline.textEdited.connect(proxy.setFilterFixedString)

        style = self.style()  # type: QStyle

        popuprect_origin = style.subControlRect(
            QStyle.CC_ComboBox, opt, QStyle.SC_ComboBoxListBoxPopup, self
        )  # type: QRect
        popuprect_origin = QRect(
            self.mapToGlobal(popuprect_origin.topLeft()),
            popuprect_origin.size()
        )
        editrect = style.subControlRect(
            QStyle.CC_ComboBox, opt, QStyle.SC_ComboBoxEditField, self
        )  # type: QRect
        self.__searchline.setGeometry(editrect)
        desktop = QApplication.desktop()
        screenrect = desktop.availableGeometry(self)  # type: QRect

        # get the height for the view
        listrect = QRect()
        for i in range(min(proxy.rowCount(root), self.maxVisibleItems())):
            index = proxy.index(i, self.modelColumn(), root)
            if index.isValid():
                listrect = listrect.united(popup.visualRect(index))
            if listrect.height() >= screenrect.height():
                break
        window = popup.window()  # type: QWidget
        window.ensurePolished()
        if window.layout() is not None:
            window.layout().activate()
        else:
            QApplication.sendEvent(window, QEvent(QEvent.LayoutRequest))

        margins = qwidget_margin_within(popup.viewport(), window)
        height = (listrect.height() + 2 * popup.spacing() +
                  margins.top() + margins.bottom())

        popup_size = (QSize(popuprect_origin.width(), height)
                      .expandedTo(window.minimumSize())
                      .boundedTo(window.maximumSize())
                      .boundedTo(screenrect.size()))
        popuprect = QRect(popuprect_origin.bottomLeft(), popup_size)

        popuprect = dropdown_popup_geometry(
            popuprect, popuprect_origin, screenrect)
        popup.setGeometry(popuprect)

        current = proxy.mapFromSource(
            self.model().index(self.currentIndex(), self.modelColumn(),
                               self.rootModelIndex()))
        popup.setCurrentIndex(current)
        popup.scrollTo(current, QAbstractItemView.EnsureVisible)
        popup.show()
        popup.setFocus(Qt.PopupFocusReason)
        popup.installEventFilter(self)
        popup.viewport().installEventFilter(self)
        popup.viewport().setMouseTracking(True)
        self.update()
        self.__popupTimer.restart()
Exemplo n.º 7
0
    def __layout(self):
        # position itself over `widget`
        # pylint: disable=too-many-branches
        widget = self.__widget
        if widget is None:
            return

        alignment = self.__alignment
        policy = self.sizePolicy()

        if widget.window() is self.window() and not self.isWindow():
            if widget.isWindow():
                bounds = widget.rect()
            else:
                bounds = QRect(widget.mapTo(widget.window(), QPoint(0, 0)),
                               widget.size())
            tl = self.parent().mapFrom(widget.window(), bounds.topLeft())
            bounds = QRect(tl, widget.size())
        else:
            if widget.isWindow():
                bounds = widget.geometry()
            else:
                bounds = QRect(widget.mapToGlobal(QPoint(0, 0)), widget.size())

            if self.isWindow():
                bounds = bounds
            else:
                bounds = QRect(self.parent().mapFromGlobal(bounds.topLeft()),
                               bounds.size())

        sh = self.sizeHint()
        minsh = self.minimumSizeHint()
        minsize = self.minimumSize()
        if minsize.isNull():
            minsize = minsh
        maxsize = bounds.size().boundedTo(self.maximumSize())
        minsize = minsize.boundedTo(maxsize)
        effectivesh = sh.expandedTo(minsize).boundedTo(maxsize)

        hpolicy = policy.horizontalPolicy()
        vpolicy = policy.verticalPolicy()

        if not effectivesh.isValid():
            effectivesh = QSize(0, 0)
            vpolicy = hpolicy = QSizePolicy.Ignored

        def getsize(hint, minimum, maximum, policy):
            if policy == QSizePolicy.Ignored:
                return maximum
            elif policy & QSizePolicy.ExpandFlag:
                return maximum
            else:
                return max(hint, minimum)

        width = getsize(effectivesh.width(), minsize.width(), maxsize.width(),
                        hpolicy)

        heightforw = self.heightForWidth(width)
        if heightforw > 0:
            height = getsize(heightforw, minsize.height(), maxsize.height(),
                             vpolicy)
        else:
            height = getsize(effectivesh.height(), minsize.height(),
                             maxsize.height(), vpolicy)

        size = QSize(width, height)
        if alignment & Qt.AlignLeft:
            x = bounds.x()
        elif alignment & Qt.AlignRight:
            x = bounds.x() + bounds.width() - size.width()
        else:
            x = bounds.x() + max(0, bounds.width() - size.width()) // 2

        if alignment & Qt.AlignTop:
            y = bounds.y()
        elif alignment & Qt.AlignBottom:
            y = bounds.y() + bounds.height() - size.height()
        else:
            y = bounds.y() + max(0, bounds.height() - size.height()) // 2

        geom = QRect(QPoint(x, y), size)
        self.setGeometry(geom)
Exemplo n.º 8
0
    def showPopup(self):
        # type: () -> None
        """
        Reimplemented from QComboBox.showPopup

        Popup up a customized view and filter edit line.

        Note
        ----
        The .popup(), .lineEdit(), .completer() of the base class are not used.
        """
        if self.__popup is not None:
            # We have user entered state that cannot be disturbed
            # (entered filter text, scroll offset, ...)
            return  # pragma: no cover

        if self.count() == 0:
            return

        opt = QStyleOptionComboBox()
        self.initStyleOption(opt)
        popup = QListView(
            uniformItemSizes=True,
            horizontalScrollBarPolicy=Qt.ScrollBarAlwaysOff,
            verticalScrollBarPolicy=Qt.ScrollBarAsNeeded,
            iconSize=self.iconSize(),
        )
        popup.setFocusProxy(self.__searchline)
        popup.setParent(self, Qt.Popup | Qt.FramelessWindowHint)
        popup.setItemDelegate(_ComboBoxListDelegate(popup))
        proxy = QSortFilterProxyModel(
            popup, filterCaseSensitivity=Qt.CaseInsensitive
        )
        proxy.setFilterKeyColumn(self.modelColumn())
        proxy.setSourceModel(self.model())
        popup.setModel(proxy)
        root = proxy.mapFromSource(self.rootModelIndex())
        popup.setRootIndex(root)

        self.__popup = popup
        self.__proxy = proxy
        self.__searchline.setText("")
        self.__searchline.setPlaceholderText("Filter...")
        self.__searchline.setVisible(True)
        self.__searchline.textEdited.connect(proxy.setFilterFixedString)

        style = self.style()  # type: QStyle

        popuprect_origin = style.subControlRect(
            QStyle.CC_ComboBox, opt, QStyle.SC_ComboBoxListBoxPopup, self
        )  # type: QRect
        popuprect_origin = QRect(
            self.mapToGlobal(popuprect_origin.topLeft()),
            popuprect_origin.size()
        )
        editrect = style.subControlRect(
            QStyle.CC_ComboBox, opt, QStyle.SC_ComboBoxEditField, self
        )  # type: QRect
        self.__searchline.setGeometry(editrect)
        desktop = QApplication.desktop()
        screenrect = desktop.availableGeometry(self)  # type: QRect

        # get the height for the view
        listrect = QRect()
        for i in range(min(proxy.rowCount(root), self.maxVisibleItems())):
            index = proxy.index(i, self.modelColumn(), root)
            if index.isValid():
                listrect = listrect.united(popup.visualRect(index))
            if listrect.height() >= screenrect.height():
                break
        window = popup.window()  # type: QWidget
        window.ensurePolished()
        if window.layout() is not None:
            window.layout().activate()
        else:
            QApplication.sendEvent(window, QEvent(QEvent.LayoutRequest))

        margins = qwidget_margin_within(popup.viewport(), window)
        height = (listrect.height() + 2 * popup.spacing() +
                  margins.top() + margins.bottom())

        popup_size = (QSize(popuprect_origin.width(), height)
                      .expandedTo(window.minimumSize())
                      .boundedTo(window.maximumSize())
                      .boundedTo(screenrect.size()))
        popuprect = QRect(popuprect_origin.bottomLeft(), popup_size)

        popuprect = dropdown_popup_geometry(
            popuprect, popuprect_origin, screenrect)
        popup.setGeometry(popuprect)

        current = proxy.mapFromSource(
            self.model().index(self.currentIndex(), self.modelColumn(),
                               self.rootModelIndex()))
        popup.setCurrentIndex(current)
        popup.scrollTo(current, QAbstractItemView.EnsureVisible)
        popup.show()
        popup.setFocus(Qt.PopupFocusReason)
        popup.installEventFilter(self)
        popup.viewport().installEventFilter(self)
        popup.viewport().setMouseTracking(True)
        self.update()
        self.__popupTimer.restart()
Exemplo n.º 9
0
    def __layout(self):
        # position itself over `widget`
        widget = self.__widget
        if widget is None:
            return

        alignment = self.__alignment
        policy = self.sizePolicy()

        if widget.isWindow():
            bounds = widget.geometry()
        else:

            bounds = QRect(widget.mapToGlobal(QPoint(0, 0)),
                           widget.size())
        if self.isWindow():
            bounds = bounds
        else:
            bounds = QRect(self.parent().mapFromGlobal(bounds.topLeft()),
                           bounds.size())

        sh = self.sizeHint()
        minsh = self.minimumSizeHint()
        minsize = self.minimumSize()
        if minsize.isNull():
            minsize = minsh
        maxsize = bounds.size().boundedTo(self.maximumSize())
        minsize = minsize.boundedTo(maxsize)
        effectivesh = sh.expandedTo(minsize).boundedTo(maxsize)

        hpolicy = policy.horizontalPolicy()
        vpolicy = policy.verticalPolicy()

        def getsize(hint, minimum, maximum, policy):
            if policy == QSizePolicy.Ignored:
                return maximum
            elif policy & QSizePolicy.ExpandFlag:
                return maximum
            else:
                return max(hint, minimum)

        width = getsize(effectivesh.width(), minsize.width(),
                        maxsize.width(), hpolicy)

        heightforw = self.heightForWidth(width)
        if heightforw > 0:
            height = getsize(heightforw, minsize.height(),
                             maxsize.height(), vpolicy)
        else:
            height = getsize(effectivesh.height(), minsize.height(),
                             maxsize.height(), vpolicy)

        size = QSize(width, height)
        if alignment & Qt.AlignLeft:
            x = bounds.x()
        elif alignment & Qt.AlignRight:
            x = bounds.right() - size.width()
        else:
            x = bounds.x() + max(0, bounds.width() - size.width()) // 2

        if alignment & Qt.AlignTop:
            y = bounds.y()
        elif alignment & Qt.AlignBottom:
            y = bounds.bottom() - size.height()
        else:
            y = bounds.y() + max(0, bounds.height() - size.height()) // 2

        geom = QRect(QPoint(x, y), size)
        self.setGeometry(geom)