def __updateState(self):
        """
        Update the widget with the new source/sink node signal descriptions.
        """
        widget = QGraphicsWidget()
        widget.setLayout(QGraphicsGridLayout())

        # Space between left and right anchors
        widget.layout().setHorizontalSpacing(50)

        left_node = EditLinksNode(self, direction=Qt.LeftToRight,
                                  node=self.source)

        left_node.setSizePolicy(QSizePolicy.MinimumExpanding,
                                QSizePolicy.MinimumExpanding)

        right_node = EditLinksNode(self, direction=Qt.RightToLeft,
                                   node=self.sink)

        right_node.setSizePolicy(QSizePolicy.MinimumExpanding,
                                 QSizePolicy.MinimumExpanding)

        left_node.setMinimumWidth(150)
        right_node.setMinimumWidth(150)

        widget.layout().addItem(left_node, 0, 0,)
        widget.layout().addItem(right_node, 0, 1,)

        title_template = "<center><b>{0}<b></center>"

        left_title = GraphicsTextWidget(self)
        left_title.setHtml(title_template.format(escape(self.source.title)))
        left_title.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)

        right_title = GraphicsTextWidget(self)
        right_title.setHtml(title_template.format(escape(self.sink.title)))
        right_title.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)

        widget.layout().addItem(left_title, 1, 0,
                                alignment=Qt.AlignHCenter | Qt.AlignTop)
        widget.layout().addItem(right_title, 1, 1,
                                alignment=Qt.AlignHCenter | Qt.AlignTop)

        widget.setParentItem(self)

        max_w = max(left_node.sizeHint(Qt.PreferredSize).width(),
                    right_node.sizeHint(Qt.PreferredSize).width())

        # fix same size
        left_node.setMinimumWidth(max_w)
        right_node.setMinimumWidth(max_w)
        left_title.setMinimumWidth(max_w)
        right_title.setMinimumWidth(max_w)

        self.layout().addItem(widget)
        self.layout().activate()

        self.sourceNodeWidget = left_node
        self.sinkNodeWidget = right_node
        self.sourceNodeTitle = left_title
        self.sinkNodeTitle = right_title

        self.__resetAnchorStates()

        # AnchorHover hover over anchor before hovering over line
        class AnchorHover(QGraphicsRectItem):
            def __init__(self, anchor, parent=None):
                super().__init__(parent=parent)
                self.setAcceptHoverEvents(True)

                self.anchor = anchor
                self.setRect(anchor.boundingRect())

                self.setPos(self.mapFromScene(anchor.scenePos()))
                self.setFlag(QGraphicsItem.ItemHasNoContents, True)

            def hoverEnterEvent(self, event):
                if self.anchor.isEnabled():
                    self.anchor.hoverEnterEvent(event)
                else:
                    event.ignore()

            def hoverLeaveEvent(self, event):
                if self.anchor.isEnabled():
                    self.anchor.hoverLeaveEvent(event)
                else:
                    event.ignore()

        for anchor in left_node.channelAnchors + right_node.channelAnchors:
            anchor_hover = AnchorHover(anchor, parent=self)
            anchor_hover.setZValue(2.0)
class OWHierarchicalClustering(widget.OWWidget):
    name = "Hierarchical Clustering"
    description = "Display a dendrogram of a hierarchical clustering " \
                  "constructed from the input distance matrix."
    icon = "icons/HierarchicalClustering.svg"
    priority = 2100
    keywords = []

    class Inputs:
        distances = Input("Distances", Orange.misc.DistMatrix)

    class Outputs:
        selected_data = Output("Selected Data",
                               Orange.data.Table,
                               default=True)
        annotated_data = Output(ANNOTATED_DATA_SIGNAL_NAME, Orange.data.Table)

    settingsHandler = _DomainContextHandler()

    #: Selected linkage
    linkage = settings.Setting(1)
    #: Index of the selected annotation item (variable, ...)
    annotation = settings.ContextSetting("Enumeration")
    #: Out-of-context setting for the case when the "Name" option is available
    annotation_if_names = settings.Setting("Name")
    #: Out-of-context setting for the case with just "Enumerate" and "None"
    annotation_if_enumerate = settings.Setting("Enumerate")
    #: Selected tree pruning (none/max depth)
    pruning = settings.Setting(0)
    #: Maximum depth when max depth pruning is selected
    max_depth = settings.Setting(10)

    #: Selected cluster selection method (none, cut distance, top n)
    selection_method = settings.Setting(0)
    #: Cut height ratio wrt root height
    cut_ratio = settings.Setting(75.0)
    #: Number of top clusters to select
    top_n = settings.Setting(3)
    #: Dendrogram zoom factor
    zoom_factor = settings.Setting(0)

    autocommit = settings.Setting(True)

    graph_name = "scene"

    basic_annotations = ["None", "Enumeration"]

    class Error(widget.OWWidget.Error):
        not_finite_distances = Msg("Some distances are infinite")

    #: Stored (manual) selection state (from a saved workflow) to restore.
    __pending_selection_restore = None  # type: Optional[SelectionState]

    def __init__(self):
        super().__init__()

        self.matrix = None
        self.items = None
        self.linkmatrix = None
        self.root = None
        self._displayed_root = None
        self.cutoff_height = 0.0

        gui.comboBox(self.controlArea,
                     self,
                     "linkage",
                     items=LINKAGE,
                     box="Linkage",
                     callback=self._invalidate_clustering)

        model = itemmodels.VariableListModel()
        model[:] = self.basic_annotations

        box = gui.widgetBox(self.controlArea, "Annotations")
        self.label_cb = cb = combobox.ComboBoxSearch(
            minimumContentsLength=14,
            sizeAdjustPolicy=QComboBox.AdjustToMinimumContentsLengthWithIcon)
        cb.setModel(model)
        cb.setCurrentIndex(cb.findData(self.annotation, Qt.EditRole))

        def on_annotation_activated():
            self.annotation = cb.currentData(Qt.EditRole)
            self._update_labels()

        cb.activated.connect(on_annotation_activated)

        def on_annotation_changed(value):
            cb.setCurrentIndex(cb.findData(value, Qt.EditRole))

        self.connect_control("annotation", on_annotation_changed)

        box.layout().addWidget(self.label_cb)

        box = gui.radioButtons(self.controlArea,
                               self,
                               "pruning",
                               box="Pruning",
                               callback=self._invalidate_pruning)
        grid = QGridLayout()
        box.layout().addLayout(grid)
        grid.addWidget(gui.appendRadioButton(box, "None", addToLayout=False),
                       0, 0)
        self.max_depth_spin = gui.spin(box,
                                       self,
                                       "max_depth",
                                       minv=1,
                                       maxv=100,
                                       callback=self._invalidate_pruning,
                                       keyboardTracking=False,
                                       addToLayout=False)

        grid.addWidget(
            gui.appendRadioButton(box, "Max depth:", addToLayout=False), 1, 0)
        grid.addWidget(self.max_depth_spin, 1, 1)

        self.selection_box = gui.radioButtons(
            self.controlArea,
            self,
            "selection_method",
            box="Selection",
            callback=self._selection_method_changed)

        grid = QGridLayout()
        self.selection_box.layout().addLayout(grid)
        grid.addWidget(
            gui.appendRadioButton(self.selection_box,
                                  "Manual",
                                  addToLayout=False), 0, 0)
        grid.addWidget(
            gui.appendRadioButton(self.selection_box,
                                  "Height ratio:",
                                  addToLayout=False), 1, 0)
        self.cut_ratio_spin = gui.spin(self.selection_box,
                                       self,
                                       "cut_ratio",
                                       0,
                                       100,
                                       step=1e-1,
                                       spinType=float,
                                       callback=self._selection_method_changed,
                                       addToLayout=False)
        self.cut_ratio_spin.setSuffix("%")

        grid.addWidget(self.cut_ratio_spin, 1, 1)

        grid.addWidget(
            gui.appendRadioButton(self.selection_box,
                                  "Top N:",
                                  addToLayout=False), 2, 0)
        self.top_n_spin = gui.spin(self.selection_box,
                                   self,
                                   "top_n",
                                   1,
                                   20,
                                   callback=self._selection_method_changed,
                                   addToLayout=False)
        grid.addWidget(self.top_n_spin, 2, 1)

        self.zoom_slider = gui.hSlider(self.controlArea,
                                       self,
                                       "zoom_factor",
                                       box="Zoom",
                                       minValue=-6,
                                       maxValue=3,
                                       step=1,
                                       ticks=True,
                                       createLabel=False,
                                       callback=self.__update_font_scale)

        zoom_in = QAction("Zoom in",
                          self,
                          shortcut=QKeySequence.ZoomIn,
                          triggered=self.__zoom_in)
        zoom_out = QAction("Zoom out",
                           self,
                           shortcut=QKeySequence.ZoomOut,
                           triggered=self.__zoom_out)
        zoom_reset = QAction("Reset zoom",
                             self,
                             shortcut=QKeySequence(Qt.ControlModifier
                                                   | Qt.Key_0),
                             triggered=self.__zoom_reset)
        self.addActions([zoom_in, zoom_out, zoom_reset])

        self.controlArea.layout().addStretch()

        gui.auto_send(self.buttonsArea, self, "autocommit")

        self.scene = QGraphicsScene(self)
        self.view = StickyGraphicsView(
            self.scene,
            horizontalScrollBarPolicy=Qt.ScrollBarAlwaysOff,
            verticalScrollBarPolicy=Qt.ScrollBarAlwaysOn,
            alignment=Qt.AlignLeft | Qt.AlignVCenter)
        self.mainArea.layout().setSpacing(1)
        self.mainArea.layout().addWidget(self.view)

        def axis_view(orientation):
            ax = AxisItem(orientation=orientation, maxTickLength=7)
            ax.mousePressed.connect(self._activate_cut_line)
            ax.mouseMoved.connect(self._activate_cut_line)
            ax.mouseReleased.connect(self._activate_cut_line)
            ax.setRange(1.0, 0.0)
            return ax

        self.top_axis = axis_view("top")
        self.bottom_axis = axis_view("bottom")

        self._main_graphics = QGraphicsWidget()
        scenelayout = QGraphicsGridLayout()
        scenelayout.setHorizontalSpacing(10)
        scenelayout.setVerticalSpacing(10)

        self._main_graphics.setLayout(scenelayout)
        self.scene.addItem(self._main_graphics)

        self.dendrogram = DendrogramWidget()
        self.dendrogram.setSizePolicy(QSizePolicy.MinimumExpanding,
                                      QSizePolicy.MinimumExpanding)
        self.dendrogram.selectionChanged.connect(self._invalidate_output)
        self.dendrogram.selectionEdited.connect(self._selection_edited)

        self.labels = TextListWidget()
        self.labels.setSizePolicy(QSizePolicy.Minimum, QSizePolicy.Preferred)
        self.labels.setAlignment(Qt.AlignLeft)
        self.labels.setMaximumWidth(200)

        scenelayout.addItem(self.top_axis,
                            0,
                            0,
                            alignment=Qt.AlignLeft | Qt.AlignVCenter)
        scenelayout.addItem(self.dendrogram,
                            1,
                            0,
                            alignment=Qt.AlignLeft | Qt.AlignVCenter)
        scenelayout.addItem(self.labels,
                            1,
                            1,
                            alignment=Qt.AlignLeft | Qt.AlignVCenter)
        scenelayout.addItem(self.bottom_axis,
                            2,
                            0,
                            alignment=Qt.AlignLeft | Qt.AlignVCenter)
        self.view.viewport().installEventFilter(self)
        self._main_graphics.installEventFilter(self)

        self.top_axis.setZValue(self.dendrogram.zValue() + 10)
        self.bottom_axis.setZValue(self.dendrogram.zValue() + 10)
        self.cut_line = SliderLine(self.top_axis, orientation=Qt.Horizontal)
        self.cut_line.valueChanged.connect(self._dendrogram_slider_changed)
        self.dendrogram.geometryChanged.connect(self._dendrogram_geom_changed)
        self._set_cut_line_visible(self.selection_method == 1)
        self.__update_font_scale()

    @Inputs.distances
    def set_distances(self, matrix):
        if self.__pending_selection_restore is not None:
            selection_state = self.__pending_selection_restore
        else:
            # save the current selection to (possibly) restore later
            selection_state = self._save_selection()

        self.error()
        self.Error.clear()
        if matrix is not None:
            N, _ = matrix.shape
            if N < 2:
                self.error("Empty distance matrix")
                matrix = None
        if matrix is not None:
            if not np.all(np.isfinite(matrix)):
                self.Error.not_finite_distances()
                matrix = None

        self.matrix = matrix
        if matrix is not None:
            self._set_items(matrix.row_items, matrix.axis)
        else:
            self._set_items(None)
        self._invalidate_clustering()

        # Can now attempt to restore session state from a saved workflow.
        if self.root and selection_state is not None:
            self._restore_selection(selection_state)
            self.__pending_selection_restore = None

        self.commit.now()

    def _set_items(self, items, axis=1):
        self.closeContext()
        self.items = items
        model = self.label_cb.model()
        if len(model) == 3:
            self.annotation_if_names = self.annotation
        elif len(model) == 2:
            self.annotation_if_enumerate = self.annotation
        if isinstance(items, Orange.data.Table) and axis:
            model[:] = chain(
                self.basic_annotations, [model.Separator],
                items.domain.class_vars, items.domain.metas,
                [model.Separator] if
                (items.domain.class_vars or items.domain.metas) and next(
                    filter_visible(items.domain.attributes), False) else [],
                filter_visible(items.domain.attributes))
            if items.domain.class_vars:
                self.annotation = items.domain.class_vars[0]
            else:
                self.annotation = "Enumeration"
            self.openContext(items.domain)
        else:
            name_option = bool(
                items is not None
                and (not axis or isinstance(items, list) and all(
                    isinstance(var, Orange.data.Variable) for var in items)))
            model[:] = self.basic_annotations + ["Name"] * name_option
            self.annotation = self.annotation_if_names if name_option \
                else self.annotation_if_enumerate

    def _clear_plot(self):
        self.dendrogram.set_root(None)
        self.labels.setItems([])

    def _set_displayed_root(self, root):
        self._clear_plot()
        self._displayed_root = root
        self.dendrogram.set_root(root)

        self._update_labels()

        self._main_graphics.resize(
            self._main_graphics.size().width(),
            self._main_graphics.sizeHint(Qt.PreferredSize).height())
        self._main_graphics.layout().activate()

    def _update(self):
        self._clear_plot()

        distances = self.matrix

        if distances is not None:
            method = LINKAGE[self.linkage].lower()
            Z = dist_matrix_linkage(distances, linkage=method)

            tree = tree_from_linkage(Z)
            self.linkmatrix = Z
            self.root = tree

            self.top_axis.setRange(tree.value.height, 0.0)
            self.bottom_axis.setRange(tree.value.height, 0.0)

            if self.pruning:
                self._set_displayed_root(prune(tree, level=self.max_depth))
            else:
                self._set_displayed_root(tree)
        else:
            self.linkmatrix = None
            self.root = None
            self._set_displayed_root(None)

        self._apply_selection()

    def _update_labels(self):
        labels = []
        if self.root and self._displayed_root:
            indices = [leaf.value.index for leaf in leaves(self.root)]

            if self.annotation == "None":
                labels = []
            elif self.annotation == "Enumeration":
                labels = [str(i + 1) for i in indices]
            elif self.annotation == "Name":
                attr = self.matrix.row_items.domain.attributes
                labels = [str(attr[i]) for i in indices]
            elif isinstance(self.annotation, Orange.data.Variable):
                col_data, _ = self.items.get_column_view(self.annotation)
                labels = [self.annotation.str_val(val) for val in col_data]
                labels = [labels[idx] for idx in indices]
            else:
                labels = []

            if labels and self._displayed_root is not self.root:
                joined = leaves(self._displayed_root)
                labels = [
                    ", ".join(labels[leaf.value.first:leaf.value.last])
                    for leaf in joined
                ]

        self.labels.setItems(labels)
        self.labels.setMinimumWidth(1 if labels else -1)

    def _restore_selection(self, state):
        # type: (SelectionState) -> bool
        """
        Restore the (manual) node selection state.

        Return True if successful; False otherwise.
        """
        linkmatrix = self.linkmatrix
        if self.selection_method == 0 and self.root:
            selected, linksaved = state
            linkstruct = np.array(linksaved, dtype=float)
            selected = set(selected)  # type: Set[Tuple[int]]
            if not selected:
                return False
            if linkmatrix.shape[0] != linkstruct.shape[0]:
                return False
            # check that the linkage matrix structure matches. Use isclose for
            # the height column to account for inexact floating point math
            # (e.g. summation order in different ?gemm implementations for
            # euclidean distances, ...)
            if np.any(linkstruct[:, :2] != linkmatrix[:, :2]) or \
                    not np.all(np.isclose(linkstruct[:, 2], linkstruct[:, 2])):
                return False
            selection = []
            indices = np.array([n.value.index for n in leaves(self.root)],
                               dtype=int)
            # mapping from ranges to display (pruned) nodes
            mapping = {
                node.value.range: node
                for node in postorder(self._displayed_root)
            }
            for node in postorder(self.root):  # type: Tree
                r = tuple(indices[node.value.first:node.value.last])
                if r in selected:
                    if node.value.range not in mapping:
                        # the node was pruned from display and cannot be
                        # selected
                        break
                    selection.append(mapping[node.value.range])
                    selected.remove(r)
                if not selected:
                    break  # found all, nothing more to do
            if selection and selected:
                # Could not restore all selected nodes (only partial match)
                return False

            self._set_selected_nodes(selection)
            return True
        return False

    def _set_selected_nodes(self, selection):
        # type: (List[Tree]) -> None
        """
        Set the nodes in `selection` to be the current selected nodes.

        The selection nodes must be subtrees of the current `_displayed_root`.
        """
        self.dendrogram.selectionChanged.disconnect(self._invalidate_output)
        try:
            self.dendrogram.set_selected_clusters(selection)
        finally:
            self.dendrogram.selectionChanged.connect(self._invalidate_output)

    def _invalidate_clustering(self):
        self._update()
        self._update_labels()
        self._invalidate_output()

    def _invalidate_output(self):
        self.commit.deferred()

    def _invalidate_pruning(self):
        if self.root:
            selection = self.dendrogram.selected_nodes()
            ranges = [node.value.range for node in selection]
            if self.pruning:
                self._set_displayed_root(prune(self.root,
                                               level=self.max_depth))
            else:
                self._set_displayed_root(self.root)
            selected = [
                node for node in preorder(self._displayed_root)
                if node.value.range in ranges
            ]

            self.dendrogram.set_selected_clusters(selected)

        self._apply_selection()

    @gui.deferred
    def commit(self):
        items = getattr(self.matrix, "items", self.items)
        if not items:
            self.Outputs.selected_data.send(None)
            self.Outputs.annotated_data.send(None)
            return

        selection = self.dendrogram.selected_nodes()
        selection = sorted(selection, key=lambda c: c.value.first)

        indices = [leaf.value.index for leaf in leaves(self.root)]

        maps = [
            indices[node.value.first:node.value.last] for node in selection
        ]

        selected_indices = list(chain(*maps))
        unselected_indices = sorted(
            set(range(self.root.value.last)) - set(selected_indices))

        if not selected_indices:
            self.Outputs.selected_data.send(None)
            annotated_data = create_annotated_table(items, []) \
                if self.selection_method == 0 and self.matrix.axis else None
            self.Outputs.annotated_data.send(annotated_data)
            return

        selected_data = None

        if isinstance(items, Orange.data.Table) and self.matrix.axis == 1:
            # Select rows
            c = np.zeros(self.matrix.shape[0])

            for i, indices in enumerate(maps):
                c[indices] = i
            c[unselected_indices] = len(maps)

            mask = c != len(maps)

            data, domain = items, items.domain
            attrs = domain.attributes
            classes = domain.class_vars
            metas = domain.metas

            var_name = get_unique_names(domain, "Cluster")
            values = [f"C{i + 1}" for i in range(len(maps))]

            clust_var = Orange.data.DiscreteVariable(var_name,
                                                     values=values + ["Other"])
            domain = Orange.data.Domain(attrs, classes, metas + (clust_var, ))
            data = items.transform(domain)
            with data.unlocked(data.metas):
                data.get_column_view(clust_var)[0][:] = c

            if selected_indices:
                selected_data = data[mask]
                clust_var = Orange.data.DiscreteVariable(var_name,
                                                         values=values)
                selected_data.domain = Domain(attrs, classes,
                                              metas + (clust_var, ))

            annotated_data = create_annotated_table(data, selected_indices)

        elif isinstance(items, Orange.data.Table) and self.matrix.axis == 0:
            # Select columns
            attrs = []
            for clust, indices in chain(enumerate(maps, start=1),
                                        [(0, unselected_indices)]):
                for i in indices:
                    attr = items.domain[i].copy()
                    attr.attributes["cluster"] = clust
                    attrs.append(attr)
            domain = Orange.data.Domain(
                # len(unselected_indices) can be 0
                attrs[:len(attrs) - len(unselected_indices)],
                items.domain.class_vars,
                items.domain.metas)
            selected_data = items.from_table(domain, items)

            domain = Orange.data.Domain(attrs, items.domain.class_vars,
                                        items.domain.metas)
            annotated_data = items.from_table(domain, items)

        self.Outputs.selected_data.send(selected_data)
        self.Outputs.annotated_data.send(annotated_data)

    def eventFilter(self, obj, event):
        if obj is self.view.viewport() and event.type() == QEvent.Resize:
            # NOTE: not using viewport.width(), due to 'transient' scroll bars
            # (macOS). Viewport covers the whole view, but QGraphicsView still
            # scrolls left, right with scroll bar extent (other
            # QAbstractScrollArea widgets behave as expected).
            w_frame = self.view.frameWidth()
            margin = self.view.viewportMargins()
            w_scroll = self.view.verticalScrollBar().width()
            width = (self.view.width() - w_frame * 2 - margin.left() -
                     margin.right() - w_scroll)
            # layout with new width constraint
            self.__layout_main_graphics(width=width)
        elif obj is self._main_graphics and \
                event.type() == QEvent.LayoutRequest:
            # layout preserving the width (vertical re layout)
            self.__layout_main_graphics()
        return super().eventFilter(obj, event)

    @Slot(QPointF)
    def _activate_cut_line(self, pos: QPointF):
        """Activate cut line selection an set cut value to `pos.x()`."""
        self.selection_method = 1
        self.cut_line.setValue(pos.x())
        self._selection_method_changed()

    def onDeleteWidget(self):
        super().onDeleteWidget()
        self._clear_plot()
        self.dendrogram.clear()
        self.dendrogram.deleteLater()

    def _dendrogram_geom_changed(self):
        pos = self.dendrogram.pos_at_height(self.cutoff_height)
        geom = self.dendrogram.geometry()
        self._set_slider_value(pos.x(), geom.width())

        self.cut_line.setLength(self.bottom_axis.geometry().bottom() -
                                self.top_axis.geometry().top())

        geom = self._main_graphics.geometry()
        assert geom.topLeft() == QPointF(0, 0)

        def adjustLeft(rect):
            rect = QRectF(rect)
            rect.setLeft(geom.left())
            return rect

        margin = 3
        self.scene.setSceneRect(geom)
        self.view.setSceneRect(geom)
        self.view.setHeaderSceneRect(
            adjustLeft(self.top_axis.geometry()).adjusted(0, 0, 0, margin))
        self.view.setFooterSceneRect(
            adjustLeft(self.bottom_axis.geometry()).adjusted(0, -margin, 0, 0))

    def _dendrogram_slider_changed(self, value):
        p = QPointF(value, 0)
        cl_height = self.dendrogram.height_at(p)

        self.set_cutoff_height(cl_height)

    def _set_slider_value(self, value, span):
        with blocked(self.cut_line):
            self.cut_line.setRange(0, span)
            self.cut_line.setValue(value)

    def set_cutoff_height(self, height):
        self.cutoff_height = height
        if self.root:
            self.cut_ratio = 100 * height / self.root.value.height
        self.select_max_height(height)

    def _set_cut_line_visible(self, visible):
        self.cut_line.setVisible(visible)

    def select_top_n(self, n):
        root = self._displayed_root
        if root:
            clusters = top_clusters(root, n)
            self.dendrogram.set_selected_clusters(clusters)

    def select_max_height(self, height):
        root = self._displayed_root
        if root:
            clusters = clusters_at_height(root, height)
            self.dendrogram.set_selected_clusters(clusters)

    def _selection_method_changed(self):
        self._set_cut_line_visible(self.selection_method == 1)
        if self.root:
            self._apply_selection()

    def _apply_selection(self):
        if not self.root:
            return

        if self.selection_method == 0:
            pass
        elif self.selection_method == 1:
            height = self.cut_ratio * self.root.value.height / 100
            self.set_cutoff_height(height)
            pos = self.dendrogram.pos_at_height(height)
            self._set_slider_value(pos.x(), self.dendrogram.size().width())
        elif self.selection_method == 2:
            self.select_top_n(self.top_n)

    def _selection_edited(self):
        # Selection was edited by clicking on a cluster in the
        # dendrogram view.
        self.selection_method = 0
        self._selection_method_changed()
        self._invalidate_output()

    def _save_selection(self):
        # Save the current manual node selection state
        selection_state = None
        if self.selection_method == 0 and self.root:
            assert self.linkmatrix is not None
            linkmat = [(int(_0), int(_1), _2)
                       for _0, _1, _2 in self.linkmatrix[:, :3].tolist()]
            nodes_ = self.dendrogram.selected_nodes()
            # match the display (pruned) nodes back (by ranges)
            mapping = {node.value.range: node for node in postorder(self.root)}
            nodes = [mapping[node.value.range] for node in nodes_]
            indices = [
                tuple(node.value.index for node in leaves(node))
                for node in nodes
            ]
            if nodes:
                selection_state = (indices, linkmat)
        return selection_state

    def save_state(self):
        # type: () -> Dict[str, Any]
        """
        Save state for `set_restore_state`
        """
        selection = self._save_selection()
        res = {"version": (0, 0, 0)}
        if selection is not None:
            res["selection_state"] = selection
        return res

    def set_restore_state(self, state):
        # type: (Dict[str, Any]) -> bool
        """
        Restore session data from a saved state.

        Parameters
        ----------
        state : Dict[str, Any]

        NOTE
        ----
        This is method called while the instance (self) is being constructed,
        even before its `__init__` is called. Consider `self` to be only a
        `QObject` at this stage.
        """
        if "selection_state" in state:
            selection = state["selection_state"]
            self.__pending_selection_restore = selection
        return True

    def __zoom_in(self):
        def clip(minval, maxval, val):
            return min(max(val, minval), maxval)

        self.zoom_factor = clip(self.zoom_slider.minimum(),
                                self.zoom_slider.maximum(),
                                self.zoom_factor + 1)
        self.__update_font_scale()

    def __zoom_out(self):
        def clip(minval, maxval, val):
            return min(max(val, minval), maxval)

        self.zoom_factor = clip(self.zoom_slider.minimum(),
                                self.zoom_slider.maximum(),
                                self.zoom_factor - 1)
        self.__update_font_scale()

    def __zoom_reset(self):
        self.zoom_factor = 0
        self.__update_font_scale()

    def __layout_main_graphics(self, width=-1):
        if width < 0:
            # Preserve current width.
            width = self._main_graphics.size().width()
        preferred = self._main_graphics.effectiveSizeHint(Qt.PreferredSize,
                                                          constraint=QSizeF(
                                                              width, -1))
        self._main_graphics.resize(QSizeF(width, preferred.height()))
        mw = self._main_graphics.minimumWidth() + 4
        self.view.setMinimumWidth(mw + self.view.verticalScrollBar().width())

    def __update_font_scale(self):
        font = self.scene.font()
        factor = (1.25**self.zoom_factor)
        font = qfont_scaled(font, factor)
        self._main_graphics.setFont(font)

    def send_report(self):
        annot = self.label_cb.currentText()
        if isinstance(self.annotation, str):
            annot = annot.lower()
        if self.selection_method == 0:
            sel = "manual"
        elif self.selection_method == 1:
            sel = "at {:.1f} of height".format(self.cut_ratio)
        else:
            sel = "top {} clusters".format(self.top_n)
        self.report_items((
            ("Linkage", LINKAGE[self.linkage].lower()),
            ("Annotation", annot),
            ("Prunning", self.pruning != 0
             and "{} levels".format(self.max_depth)),
            ("Selection", sel),
        ))
        self.report_plot()
    def __updateState(self):
        """
        Update the widget with the new source/sink node signal descriptions.
        """
        widget = QGraphicsWidget()
        widget.setLayout(QGraphicsGridLayout())

        # Space between left and right anchors
        widget.layout().setHorizontalSpacing(50)

        left_node = EditLinksNode(self, direction=Qt.LeftToRight,
                                  node=self.source)

        left_node.setSizePolicy(QSizePolicy.MinimumExpanding,
                                QSizePolicy.MinimumExpanding)

        right_node = EditLinksNode(self, direction=Qt.RightToLeft,
                                   node=self.sink)

        right_node.setSizePolicy(QSizePolicy.MinimumExpanding,
                                 QSizePolicy.MinimumExpanding)

        left_node.setMinimumWidth(150)
        right_node.setMinimumWidth(150)

        widget.layout().addItem(left_node, 0, 0,)
        widget.layout().addItem(right_node, 0, 1,)

        title_template = "<center><b>{0}<b></center>"

        left_title = GraphicsTextWidget(self)
        left_title.setHtml(title_template.format(escape(self.source.title)))
        left_title.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)

        right_title = GraphicsTextWidget(self)
        right_title.setHtml(title_template.format(escape(self.sink.title)))
        right_title.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)

        widget.layout().addItem(left_title, 1, 0,
                                alignment=Qt.AlignHCenter | Qt.AlignTop)
        widget.layout().addItem(right_title, 1, 1,
                                alignment=Qt.AlignHCenter | Qt.AlignTop)

        widget.setParentItem(self)

        max_w = max(left_node.sizeHint(Qt.PreferredSize).width(),
                    right_node.sizeHint(Qt.PreferredSize).width())

        # fix same size
        left_node.setMinimumWidth(max_w)
        right_node.setMinimumWidth(max_w)
        left_title.setMinimumWidth(max_w)
        right_title.setMinimumWidth(max_w)

        self.layout().addItem(widget)
        self.layout().activate()

        self.sourceNodeWidget = left_node
        self.sinkNodeWidget = right_node
        self.sourceNodeTitle = left_title
        self.sinkNodeTitle = right_title
Exemple #4
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    def __updateState(self):
        """
        Update the widget with the new source/sink node signal descriptions.
        """
        widget = QGraphicsWidget()
        widget.setLayout(QGraphicsGridLayout())

        # Space between left and right anchors
        widget.layout().setHorizontalSpacing(50)

        left_node = EditLinksNode(self,
                                  direction=Qt.LeftToRight,
                                  node=self.source)

        left_node.setSizePolicy(QSizePolicy.MinimumExpanding,
                                QSizePolicy.MinimumExpanding)

        right_node = EditLinksNode(self,
                                   direction=Qt.RightToLeft,
                                   node=self.sink)

        right_node.setSizePolicy(QSizePolicy.MinimumExpanding,
                                 QSizePolicy.MinimumExpanding)

        left_node.setMinimumWidth(150)
        right_node.setMinimumWidth(150)

        widget.layout().addItem(
            left_node,
            0,
            0,
        )
        widget.layout().addItem(
            right_node,
            0,
            1,
        )

        title_template = "<center><b>{0}<b></center>"

        left_title = GraphicsTextWidget(self)
        left_title.setHtml(title_template.format(escape(self.source.title)))
        left_title.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)

        right_title = GraphicsTextWidget(self)
        right_title.setHtml(title_template.format(escape(self.sink.title)))
        right_title.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)

        widget.layout().addItem(left_title,
                                1,
                                0,
                                alignment=Qt.AlignHCenter | Qt.AlignTop)
        widget.layout().addItem(right_title,
                                1,
                                1,
                                alignment=Qt.AlignHCenter | Qt.AlignTop)

        widget.setParentItem(self)

        max_w = max(
            left_node.sizeHint(Qt.PreferredSize).width(),
            right_node.sizeHint(Qt.PreferredSize).width())

        # fix same size
        left_node.setMinimumWidth(max_w)
        right_node.setMinimumWidth(max_w)
        left_title.setMinimumWidth(max_w)
        right_title.setMinimumWidth(max_w)

        self.layout().addItem(widget)
        self.layout().activate()

        self.sourceNodeWidget = left_node
        self.sinkNodeWidget = right_node
        self.sourceNodeTitle = left_title
        self.sinkNodeTitle = right_title
    def __updateState(self):
        """
        Update the widget with the new source/sink node signal descriptions.
        """
        widget = QGraphicsWidget()
        widget.setLayout(QGraphicsGridLayout())

        # Space between left and right anchors
        widget.layout().setHorizontalSpacing(50)

        left_node = EditLinksNode(self, direction=Qt.LeftToRight,
                                  node=self.source)

        left_node.setSizePolicy(QSizePolicy.MinimumExpanding,
                                QSizePolicy.MinimumExpanding)

        right_node = EditLinksNode(self, direction=Qt.RightToLeft,
                                   node=self.sink)

        right_node.setSizePolicy(QSizePolicy.MinimumExpanding,
                                 QSizePolicy.MinimumExpanding)

        left_node.setMinimumWidth(150)
        right_node.setMinimumWidth(150)

        widget.layout().addItem(left_node, 0, 0,)
        widget.layout().addItem(right_node, 0, 1,)

        title_template = "<center><b>{0}<b></center>"

        left_title = GraphicsTextWidget(self)
        left_title.setHtml(title_template.format(escape(self.source.title)))
        left_title.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)

        right_title = GraphicsTextWidget(self)
        right_title.setHtml(title_template.format(escape(self.sink.title)))
        right_title.setSizePolicy(QSizePolicy.Fixed, QSizePolicy.Fixed)

        widget.layout().addItem(left_title, 1, 0,
                                alignment=Qt.AlignHCenter | Qt.AlignTop)
        widget.layout().addItem(right_title, 1, 1,
                                alignment=Qt.AlignHCenter | Qt.AlignTop)

        widget.setParentItem(self)

        max_w = max(left_node.sizeHint(Qt.PreferredSize).width(),
                    right_node.sizeHint(Qt.PreferredSize).width())

        # fix same size
        left_node.setMinimumWidth(max_w)
        right_node.setMinimumWidth(max_w)
        left_title.setMinimumWidth(max_w)
        right_title.setMinimumWidth(max_w)

        self.layout().addItem(widget)
        self.layout().activate()

        self.sourceNodeWidget = left_node
        self.sinkNodeWidget = right_node
        self.sourceNodeTitle = left_title
        self.sinkNodeTitle = right_title

        self.__resetAnchorStates()

        # AnchorHover hover over anchor before hovering over line
        class AnchorHover(QGraphicsRectItem):
            def __init__(self, anchor, parent=None):
                QGraphicsRectItem.__init__(self, parent=parent)
                self.setAcceptHoverEvents(True)

                self.anchor = anchor
                self.setRect(anchor.boundingRect())

                self.setPos(self.mapFromScene(anchor.scenePos()))
                self.setFlag(QGraphicsItem.ItemHasNoContents, True)

            def hoverEnterEvent(self, event):
                if self.anchor.isEnabled():
                    self.anchor.hoverEnterEvent(event)
                else:
                    event.ignore()

            def hoverLeaveEvent(self, event):
                if self.anchor.isEnabled():
                    self.anchor.hoverLeaveEvent(event)
                else:
                    event.ignore()

        for anchor in left_node.channelAnchors + right_node.channelAnchors:
            anchor_hover = AnchorHover(anchor, parent=self)
            anchor_hover.setZValue(2.0)