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/*
 * Copyright (c) 2011, 2023, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */

package javafx.scene.control.skin;

import com.sun.javafx.scene.control.LambdaMultiplePropertyChangeListenerHandler;
import com.sun.javafx.scene.control.Properties;
import com.sun.javafx.scene.control.TableColumnBaseHelper;
import com.sun.javafx.scene.control.TreeTableViewBackingList;
import com.sun.javafx.scene.control.skin.Utils;
import javafx.beans.property.DoubleProperty;
import javafx.beans.property.ReadOnlyObjectProperty;
import javafx.beans.property.ReadOnlyObjectWrapper;
import javafx.beans.value.WritableValue;
import javafx.collections.ListChangeListener;
import javafx.collections.ObservableList;
import javafx.collections.WeakListChangeListener;
import javafx.css.CssMetaData;
import javafx.css.PseudoClass;
import javafx.css.Styleable;
import javafx.css.StyleableDoubleProperty;
import javafx.css.StyleableProperty;
import javafx.css.converter.SizeConverter;
import javafx.event.EventHandler;
import javafx.geometry.HPos;
import javafx.geometry.Insets;
import javafx.geometry.Pos;
import javafx.geometry.VPos;
import javafx.scene.AccessibleAttribute;
import javafx.scene.AccessibleRole;
import javafx.scene.Node;
import javafx.scene.control.ContextMenu;
import javafx.scene.control.Label;
import javafx.scene.control.TableCell;
import javafx.scene.control.TableColumn;
import javafx.scene.control.TableColumnBase;
import javafx.scene.control.TableRow;
import javafx.scene.control.TableView;
import javafx.scene.control.TreeTableCell;
import javafx.scene.control.TreeTableColumn;
import javafx.scene.control.TreeTableRow;
import javafx.scene.control.TreeTableView;
import javafx.scene.input.ContextMenuEvent;
import javafx.scene.input.MouseEvent;
import javafx.scene.layout.GridPane;
import javafx.scene.layout.HBox;
import javafx.scene.layout.Priority;
import javafx.scene.layout.Region;
import javafx.util.Callback;

import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import java.util.Locale;

import static com.sun.javafx.scene.control.TableColumnSortTypeWrapper.getSortTypeName;
import static com.sun.javafx.scene.control.TableColumnSortTypeWrapper.getSortTypeProperty;
import static com.sun.javafx.scene.control.TableColumnSortTypeWrapper.isAscending;
import static com.sun.javafx.scene.control.TableColumnSortTypeWrapper.isDescending;
import static com.sun.javafx.scene.control.TableColumnSortTypeWrapper.setSortType;


/**
 * Region responsible for painting a single column header. A subcomponent used by
 * subclasses of {@link TableViewSkinBase}.
 *
 * @since 9
 */
public class TableColumnHeader extends Region {

    /* *************************************************************************
     *                                                                         *
     * Static Fields                                                           *
     *                                                                         *
     **************************************************************************/

    static final String DEFAULT_STYLE_CLASS = "column-header";

    // Copied from TableColumn. The value here should always be in-sync with
    // the value in TableColumn
    static final double DEFAULT_COLUMN_WIDTH = 80.0F;



    /* *************************************************************************
     *                                                                         *
     * Private Fields                                                          *
     *                                                                         *
     **************************************************************************/

    private boolean autoSizeComplete = false;

    private double dragOffset;
    private NestedTableColumnHeader nestedColumnHeader;
    private TableHeaderRow tableHeaderRow;
    private NestedTableColumnHeader parentHeader;

    // work out where this column currently is within its parent
    Label label;

    // sort order
    int sortPos = -1;
    private Region arrow;
    private Label sortOrderLabel;
    private HBox sortOrderDots;
    private Node sortArrow;
    private boolean isSortColumn;

    private boolean isSizeDirty = false;

    boolean isLastVisibleColumn = false;

    // package for testing
    int columnIndex = -1;

    private int newColumnPos;

    // the line drawn in the table when a user presses and moves a column header
    // to indicate where the column will be dropped. This is provided by the
    // table skin, but manipulated by the header
    Region columnReorderLine;



    /* *************************************************************************
     *                                                                         *
     * Constructor                                                             *
     *                                                                         *
     **************************************************************************/

    /**
     * Creates a new TableColumnHeader instance to visually represent the given
     * {@link TableColumnBase} instance.
     *
     * @param tc The table column to be visually represented by this instance.
     */
    public TableColumnHeader(final TableColumnBase tc) {
        setTableColumn(tc);
        setFocusTraversable(false);

        initStyleClasses();
        initUI();

        // change listener for multiple properties
        changeListenerHandler = new LambdaMultiplePropertyChangeListenerHandler();
        changeListenerHandler.registerChangeListener(sceneProperty(), e -> updateScene());

        if (getTableColumn() != null) {
            changeListenerHandler.registerChangeListener(tc.idProperty(), e -> setId(tc.getId()));
            changeListenerHandler.registerChangeListener(tc.styleProperty(), e -> setStyle(tc.getStyle()));
            changeListenerHandler.registerChangeListener(tc.widthProperty(), e -> {
                // It is this that ensures that when a column is resized that the header
                // visually adjusts its width as necessary.
                isSizeDirty = true;
                requestLayout();
            });
            changeListenerHandler.registerChangeListener(tc.visibleProperty(), e -> setVisible(getTableColumn().isVisible()));
            changeListenerHandler.registerChangeListener(tc.sortNodeProperty(), e -> updateSortGrid());
            changeListenerHandler.registerChangeListener(tc.sortableProperty(), e -> {
                // we need to notify all headers that a sortable state has changed,
                // in case the sort grid in other columns needs to be updated.
                if (TableSkinUtils.getSortOrder(getTableSkin()).contains(getTableColumn())) {
                    NestedTableColumnHeader root = getTableHeaderRow().getRootHeader();
                    updateAllHeaders(root);
                }
            });
            changeListenerHandler.registerChangeListener(tc.textProperty(), e -> label.setText(tc.getText()));
            changeListenerHandler.registerChangeListener(tc.graphicProperty(), e -> label.setGraphic(tc.getGraphic()));

            setId(tc.getId());
            setStyle(tc.getStyle());
            /* Having TableColumn role parented by TableColumn causes VoiceOver to be unhappy */
            setAccessibleRole(AccessibleRole.TABLE_COLUMN);
        }
    }



    /* *************************************************************************
     *                                                                         *
     * Listeners                                                               *
     *                                                                         *
     **************************************************************************/

    final LambdaMultiplePropertyChangeListenerHandler changeListenerHandler;

    private ListChangeListener> sortOrderListener = c -> {
        updateSortPosition();
    };

    private ListChangeListener> visibleLeafColumnsListener = c -> {
        updateColumnIndex();
        updateSortPosition();
    };

    private ListChangeListener styleClassListener = c -> {
        while (c.next()) {
            if (c.wasRemoved()) {
                getStyleClass().removeAll(c.getRemoved());
            }
            if (c.wasAdded()) {
                getStyleClass().addAll(c.getAddedSubList());
            }
        }
    };

    private WeakListChangeListener> weakSortOrderListener =
            new WeakListChangeListener>(sortOrderListener);
    private final WeakListChangeListener> weakVisibleLeafColumnsListener =
            new WeakListChangeListener>(visibleLeafColumnsListener);
    private final WeakListChangeListener weakStyleClassListener =
            new WeakListChangeListener(styleClassListener);

    private static final EventHandler mousePressedHandler = me -> {
        TableColumnHeader header = (TableColumnHeader) me.getSource();
        TableColumnBase tableColumn = header.getTableColumn();

        ContextMenu menu = tableColumn.getContextMenu();
        if (menu != null && menu.isShowing()) {
            menu.hide();
        }

        if (me.isConsumed()) return;
        me.consume();

        header.getTableHeaderRow().columnDragLock = true;

        // pass focus to the table, so that the user immediately sees
        // the focus rectangle around the table control.
        header.getTableSkin().getSkinnable().requestFocus();

        if (me.isPrimaryButtonDown() && header.isColumnReorderingEnabled()) {
            header.columnReorderingStarted(me.getX());
        }
    };

    private static final EventHandler mouseDraggedHandler = me -> {
        if (me.isConsumed()) return;
        me.consume();

        TableColumnHeader header = (TableColumnHeader) me.getSource();

        if (me.isPrimaryButtonDown() && header.isColumnReorderingEnabled()) {
            header.columnReordering(me.getSceneX(), me.getSceneY());
        }
    };

    private static final EventHandler mouseReleasedHandler = me -> {
        TableColumnHeader header = (TableColumnHeader) me.getSource();
        header.getTableHeaderRow().columnDragLock = false;

        if (me.isPopupTrigger()) return;
        if (me.isConsumed()) return;
        me.consume();

        if (header.getTableHeaderRow().isReordering() && header.isColumnReorderingEnabled()) {
            header.columnReorderingComplete();
        } else if (me.isStillSincePress()) {
            header.sortColumn(me.isShiftDown());
        }
    };

    private static final EventHandler contextMenuRequestedHandler = me -> {
        TableColumnHeader header = (TableColumnHeader) me.getSource();
        TableColumnBase tableColumn = header.getTableColumn();

        ContextMenu menu = tableColumn.getContextMenu();
        if (menu != null) {
            menu.show(header, me.getScreenX(), me.getScreenY());
            me.consume();
        }
    };

    /* *************************************************************************
     *                                                                         *
     * Properties                                                              *
     *                                                                         *
     **************************************************************************/

    // --- size
    private DoubleProperty size;
    private final double getSize() {
        return size == null ? 20.0 : size.doubleValue();
    }
    private final DoubleProperty sizeProperty() {
        if (size == null) {
            size = new StyleableDoubleProperty(20) {
                @Override
                protected void invalidated() {
                    double value = get();
                    if (value <= 0) {
                        if (isBound()) {
                            unbind();
                        }
                        set(20);
                        throw new IllegalArgumentException("Size cannot be 0 or negative");
                    }
                }



                @Override public Object getBean() {
                    return TableColumnHeader.this;
                }

                @Override public String getName() {
                    return "size";
                }

                @Override public CssMetaData getCssMetaData() {
                    return StyleableProperties.SIZE;
                }
            };
        }
        return size;
    }


    /**
     * A property that refers to the {@link TableColumnBase} instance that this
     * header is visually represents.
     */
    // --- table column
    private ReadOnlyObjectWrapper> tableColumn = new ReadOnlyObjectWrapper<>(this, "tableColumn");
    private final void setTableColumn(TableColumnBase column) {
        tableColumn.set(column);
    }
    public final TableColumnBase getTableColumn() {
        return tableColumn.get();
    }
    public final ReadOnlyObjectProperty> tableColumnProperty() {
        return tableColumn.getReadOnlyProperty();
    }



    /* *************************************************************************
     *                                                                         *
     * Public API                                                              *
     *                                                                         *
     **************************************************************************/

    /** {@inheritDoc} */
    @Override protected void layoutChildren() {
        if (isSizeDirty) {
            resize(getTableColumn().getWidth(), getHeight());
            isSizeDirty = false;
        }

        double cornerRegionPadding = tableHeaderRow == null || !isLastVisibleColumn ? 0.0 : tableHeaderRow.cornerPadding.get();
        double sortWidth = 0;
        double w = snapSizeX(getWidth()) - (snappedLeftInset() + snappedRightInset()) - cornerRegionPadding;
        double h = getHeight() - (snappedTopInset() + snappedBottomInset());
        double x = w;

        // a bit hacky, but we REALLY don't want the arrow shape to fluctuate
        // in size
        if (arrow != null) {
            arrow.setMaxSize(arrow.prefWidth(-1), arrow.prefHeight(-1));
        }

        if (sortArrow != null && sortArrow.isVisible()) {
            sortWidth = sortArrow.prefWidth(-1);
            x -= sortWidth;
            sortArrow.resize(sortWidth, sortArrow.prefHeight(-1));
            positionInArea(sortArrow, x, snappedTopInset(),
                    sortWidth, h, 0, HPos.CENTER, VPos.CENTER);
        }

        if (label != null) {
            double labelWidth = w - sortWidth;
            label.resizeRelocate(snappedLeftInset(), 0, labelWidth, getHeight());
        }
    }

    /** {@inheritDoc} */
    @Override protected double computePrefWidth(double height) {
        if (getNestedColumnHeader() != null) {
            double width = getNestedColumnHeader().prefWidth(height);

            if (getTableColumn() != null) {
                TableColumnBaseHelper.setWidth(getTableColumn(), width);
            }

            return width;
        } else if (getTableColumn() != null && getTableColumn().isVisible()) {
            return snapSizeX(getTableColumn().getWidth());
        }

        return 0;
    }

    /** {@inheritDoc} */
    @Override protected double computeMinHeight(double width) {
        return label == null ? 0 : label.minHeight(width);
    }

    /** {@inheritDoc} */
    @Override protected double computePrefHeight(double width) {
        if (getTableColumn() == null) return 0;
        return Math.max(getSize(), label.prefHeight(-1));
    }

    /** {@inheritDoc} */
    @Override public List> getCssMetaData() {
        return getClassCssMetaData();
    }

    /** {@inheritDoc} */
    @Override  public Object queryAccessibleAttribute(AccessibleAttribute attribute, Object... parameters) {
        switch (attribute) {
            case INDEX: return getIndex(getTableColumn());
            case TEXT: return getTableColumn() != null ? getTableColumn().getText() : null;
            default: return super.queryAccessibleAttribute(attribute, parameters);
        }
    }



    /* *************************************************************************
     *                                                                         *
     * Private Implementation                                                  *
     *                                                                         *
     **************************************************************************/

    void initStyleClasses() {
        getStyleClass().setAll(DEFAULT_STYLE_CLASS);
        installTableColumnStyleClassListener();
    }

    void installTableColumnStyleClassListener() {
        TableColumnBase tc = getTableColumn();
        if (tc != null) {
            // add in all styleclasses from the table column into the header, and also set up a listener
            // so that any subsequent changes to the table column are also applied to the header
            getStyleClass().addAll(tc.getStyleClass());
            tc.getStyleClass().addListener(weakStyleClassListener);
        }
    }

    NestedTableColumnHeader getNestedColumnHeader() { return nestedColumnHeader; }
    void setNestedColumnHeader(NestedTableColumnHeader nch) { nestedColumnHeader = nch; }

    /**
     * Returns the {@link TableHeaderRow} associated with this {@code TableColumnHeader}.
     *
     * @return the {@code TableHeaderRow} associated with this {@code TableColumnHeader}
     * @since 12
     */
    protected TableHeaderRow getTableHeaderRow() {
        return tableHeaderRow;
    }

    void setTableHeaderRow(TableHeaderRow thr) {
        if (tableHeaderRow != null) {
            changeListenerHandler.unregisterChangeListeners(tableHeaderRow.cornerPadding);
        }
        tableHeaderRow = thr;
        if (tableHeaderRow != null) {
            changeListenerHandler.registerChangeListener(tableHeaderRow.cornerPadding, o -> {
                if (isLastVisibleColumn) {
                    requestLayout();
                }
            });
        }
        updateTableSkin();
    }

    private void updateTableSkin() {
        // when we get the table header row, we are also given the skin,
        // so this is the time to hook up listeners, etc.
        TableViewSkinBase tableSkin = getTableSkin();
        if (tableSkin == null) return;

        updateColumnIndex();
        this.columnReorderLine = tableSkin.getColumnReorderLine();

        if (getTableColumn() != null) {
            updateSortPosition();
            TableSkinUtils.getSortOrder(tableSkin).addListener(weakSortOrderListener);
            TableSkinUtils.getVisibleLeafColumns(tableSkin).addListener(weakVisibleLeafColumnsListener);
        }
    }

    /**
     * Returns the {@code TableViewSkinBase} in which this {@code TableColumnHeader} is inserted. This will return
     * {@code null} until the {@code TableHeaderRow} has been set.
     *
     * @return the {@code TableViewSkinBase} in which this {@code TableColumnHeader} is inserted, or {@code null}
     * @since 12
     */
    protected TableViewSkinBase getTableSkin() {
        return tableHeaderRow == null ? null : tableHeaderRow.tableSkin;
    }

    NestedTableColumnHeader getParentHeader() { return parentHeader; }
    void setParentHeader(NestedTableColumnHeader ph) { parentHeader = ph; }

    // RT-29682: When the sortable property of a TableColumnBase changes this
    // may impact other TableColumnHeaders, as they may need to change their
    // sort order representation. Rather than install listeners across all
    // TableColumn in the sortOrder list for their sortable property, we simply
    // update the sortPosition of all headers whenever the sortOrder property
    // changes, assuming the column is within the sortOrder list.
    private void updateAllHeaders(TableColumnHeader header) {
        if (header instanceof NestedTableColumnHeader) {
            List children = ((NestedTableColumnHeader)header).getColumnHeaders();
            for (int i = 0; i < children.size(); i++) {
                updateAllHeaders(children.get(i));
            }
        } else {
            header.updateSortPosition();
        }
    }

    private void updateScene() {
        // RT-17684: If the TableColumn widths are all currently the default,
        // we attempt to 'auto-size' based on the preferred width of the first
        // n rows (we can't do all rows, as that could conceivably be an unlimited
        // number of rows retrieved from a very slow (e.g. remote) data source.
        // Obviously, the bigger the value of n, the more likely the default
        // width will be suitable for most values in the column
        final int n = 30;
        if (! autoSizeComplete) {
            if (getTableColumn() == null || getTableColumn().getWidth() != DEFAULT_COLUMN_WIDTH || getScene() == null) {
                return;
            }
            doColumnAutoSize(n);
            autoSizeComplete = true;
        }
    }

    void dispose() {
        TableViewSkinBase tableSkin = getTableSkin();
        if (tableSkin != null) {
            TableSkinUtils.getVisibleLeafColumns(tableSkin).removeListener(weakVisibleLeafColumnsListener);
            TableSkinUtils.getSortOrder(tableSkin).removeListener(weakSortOrderListener);
        }

        changeListenerHandler.dispose();
    }

    private boolean isSortingEnabled() {
        // this used to check if ! PlatformUtil.isEmbedded(), but has been changed
        // to always return true (for now), as we want to support column sorting
        // everywhere
        return true;
    }

    private boolean isColumnReorderingEnabled() {
        // we only allow for column reordering if there are more than one column,
        return !Properties.IS_TOUCH_SUPPORTED && TableSkinUtils.getVisibleLeafColumns(getTableSkin()).size() > 1;
    }

    private void initUI() {
        // TableColumn will be null if we are dealing with the root NestedTableColumnHeader
        if (getTableColumn() == null) return;

        // set up mouse events
        setOnMousePressed(mousePressedHandler);
        setOnMouseDragged(mouseDraggedHandler);
        setOnDragDetected(event -> event.consume());
        setOnContextMenuRequested(contextMenuRequestedHandler);
        setOnMouseReleased(mouseReleasedHandler);

        // --- label
        label = new Label();
        label.setText(getTableColumn().getText());
        label.setGraphic(getTableColumn().getGraphic());
        label.setVisible(getTableColumn().isVisible());

        // ---- container for the sort arrow (which is not supported on embedded
        // platforms)
        if (isSortingEnabled()) {
            // put together the grid
            updateSortGrid();
        }
    }

    private void doColumnAutoSize(int cellsToMeasure) {
        double prefWidth = getTableColumn().getPrefWidth();

        // if the prefWidth has been set, we do _not_ autosize columns
        if (prefWidth == DEFAULT_COLUMN_WIDTH) {
            resizeColumnToFitContent(cellsToMeasure);
        }
    }

    /**
     * Resizes this {@code TableColumnHeader}'s column to fit the width of its content.
     *
     * @implSpec The resulting column width for this implementation is the maximum of the preferred width of the header
     * cell and the preferred width of the first {@code maxRow} cells.
     * 

* Subclasses can either use this method or override it (without the need to call {@code super()}) to provide their * custom implementation (such as ones that exclude the header, exclude {@code null} content, compute the minimum * width, etc.). * * @param maxRows the number of rows considered when resizing. If -1 is given, all rows are considered. * @since 14 */ protected void resizeColumnToFitContent(int maxRows) { TableColumnBase tc = getTableColumn(); if (!tc.isResizable()) return; Object control = this.getTableSkin().getSkinnable(); if (control instanceof TableView) { resizeColumnToFitContent((TableView) control, (TableColumn) tc, this.getTableSkin(), maxRows); } else if (control instanceof TreeTableView) { resizeColumnToFitContent((TreeTableView) control, (TreeTableColumn) tc, this.getTableSkin(), maxRows); } } private void resizeColumnToFitContent(TableView tv, TableColumn tc, TableViewSkinBase tableSkin, int maxRows) { List items = tv.getItems(); if (items == null || items.isEmpty()) return; Callback/*, TableCell>*/ cellFactory = tc.getCellFactory(); if (cellFactory == null) return; TableCell cell = (TableCell) cellFactory.call(tc); if (cell == null) return; // set this property to tell the TableCell we want to know its actual // preferred width, not the width of the associated TableColumnBase cell.getProperties().put(Properties.DEFER_TO_PARENT_PREF_WIDTH, Boolean.TRUE); // determine cell padding double padding = 10; Node n = cell.getSkin() == null ? null : cell.getSkin().getNode(); if (n instanceof Region) { Region r = (Region) n; padding = r.snappedLeftInset() + r.snappedRightInset(); } TableRow tableRow = new TableRow<>(); tableRow.updateTableView(tv); int rows = maxRows == -1 ? items.size() : Math.min(items.size(), maxRows); double maxWidth = 0; for (int row = 0; row < rows; row++) { tableRow.updateIndex(row); cell.updateTableColumn(tc); cell.updateTableView(tv); cell.updateTableRow(tableRow); cell.updateIndex(row); if ((cell.getText() != null && !cell.getText().isEmpty()) || cell.getGraphic() != null) { tableSkin.getChildren().add(cell); cell.applyCss(); maxWidth = Math.max(maxWidth, cell.prefWidth(-1)); tableSkin.getChildren().remove(cell); } } // dispose of the cell to prevent it retaining listeners (see RT-31015) cell.updateIndex(-1); // RT-36855 - take into account the column header text / graphic widths. // Magic 10 is to allow for sort arrow to appear without text truncation. TableColumnHeader header = tableSkin.getTableHeaderRow().getColumnHeaderFor(tc); double headerTextWidth = Utils.computeTextWidth(header.label.getFont(), tc.getText(), -1); Node graphic = header.label.getGraphic(); double headerGraphicWidth = graphic == null ? 0 : graphic.prefWidth(-1) + header.label.getGraphicTextGap(); double headerWidth = headerTextWidth + headerGraphicWidth + 10 + header.snappedLeftInset() + header.snappedRightInset(); maxWidth = Math.max(maxWidth, headerWidth); // RT-23486 maxWidth += padding; if (TableSkinUtils.isConstrainedResizePolicy(tv.getColumnResizePolicy()) && tv.getWidth() > 0) { if (maxWidth > tc.getMaxWidth()) { maxWidth = tc.getMaxWidth(); } int size = tc.getColumns().size(); if (size > 0) { TableColumnHeader columnHeader = getTableHeaderRow().getColumnHeaderFor(tc.getColumns().get(size - 1)); if (columnHeader != null) { columnHeader.resizeColumnToFitContent(maxRows); } return; } TableSkinUtils.resizeColumn(tableSkin, tc, Math.round(maxWidth - tc.getWidth())); } else { TableColumnBaseHelper.setWidth(tc, maxWidth); } } private void resizeColumnToFitContent(TreeTableView ttv, TreeTableColumn tc, TableViewSkinBase tableSkin, int maxRows) { List items = new TreeTableViewBackingList(ttv); if (items == null || items.isEmpty()) return; Callback cellFactory = tc.getCellFactory(); if (cellFactory == null) return; TreeTableCell cell = (TreeTableCell) cellFactory.call(tc); if (cell == null) return; // set this property to tell the TableCell we want to know its actual // preferred width, not the width of the associated TableColumnBase cell.getProperties().put(Properties.DEFER_TO_PARENT_PREF_WIDTH, Boolean.TRUE); // determine cell padding double padding = 10; Node n = cell.getSkin() == null ? null : cell.getSkin().getNode(); if (n instanceof Region) { Region r = (Region) n; padding = r.snappedLeftInset() + r.snappedRightInset(); } TreeTableRow treeTableRow = new TreeTableRow<>(); treeTableRow.updateTreeTableView(ttv); int rows = maxRows == -1 ? items.size() : Math.min(items.size(), maxRows); double maxWidth = 0; for (int row = 0; row < rows; row++) { treeTableRow.updateIndex(row); treeTableRow.updateTreeItem(ttv.getTreeItem(row)); cell.updateTableColumn(tc); cell.updateTreeTableView(ttv); cell.updateTableRow(treeTableRow); cell.updateIndex(row); if ((cell.getText() != null && !cell.getText().isEmpty()) || cell.getGraphic() != null) { tableSkin.getChildren().add(cell); cell.applyCss(); double w = cell.prefWidth(-1); maxWidth = Math.max(maxWidth, w); tableSkin.getChildren().remove(cell); } } // dispose of the cell to prevent it retaining listeners (see RT-31015) cell.updateIndex(-1); // RT-36855 - take into account the column header text / graphic widths. // Magic 10 is to allow for sort arrow to appear without text truncation. TableColumnHeader header = tableSkin.getTableHeaderRow().getColumnHeaderFor(tc); double headerTextWidth = Utils.computeTextWidth(header.label.getFont(), tc.getText(), -1); Node graphic = header.label.getGraphic(); double headerGraphicWidth = graphic == null ? 0 : graphic.prefWidth(-1) + header.label.getGraphicTextGap(); double headerWidth = headerTextWidth + headerGraphicWidth + 10 + header.snappedLeftInset() + header.snappedRightInset(); maxWidth = Math.max(maxWidth, headerWidth); // RT-23486 maxWidth += padding; if (TableSkinUtils.isConstrainedResizePolicy(ttv.getColumnResizePolicy()) && ttv.getWidth() > 0) { if (maxWidth > tc.getMaxWidth()) { maxWidth = tc.getMaxWidth(); } int size = tc.getColumns().size(); if (size > 0) { TableColumnHeader columnHeader = getTableHeaderRow().getColumnHeaderFor(tc.getColumns().get(size - 1)); if (columnHeader != null) { columnHeader.resizeColumnToFitContent(maxRows); } return; } TableSkinUtils.resizeColumn(tableSkin, tc, Math.round(maxWidth - tc.getWidth())); } else { TableColumnBaseHelper.setWidth(tc, maxWidth); } } private void updateSortPosition() { this.sortPos = ! getTableColumn().isSortable() ? -1 : getSortPosition(); updateSortGrid(); } private void updateSortGrid() { // Fix for RT-14488 if (this instanceof NestedTableColumnHeader) return; getChildren().clear(); getChildren().add(label); // we do not support sorting in embedded devices if (! isSortingEnabled()) return; isSortColumn = sortPos != -1; if (! isSortColumn) { if (sortArrow != null) { sortArrow.setVisible(false); } return; } // RT-28016: if the tablecolumn is not a visible leaf column, we should ignore this int visibleLeafIndex = TableSkinUtils.getVisibleLeafIndex(getTableSkin(), getTableColumn()); if (visibleLeafIndex == -1) return; final int sortColumnCount = getVisibleSortOrderColumnCount(); boolean showSortOrderDots = sortPos <= 3 && sortColumnCount > 1; Node _sortArrow = null; if (getTableColumn().getSortNode() != null) { _sortArrow = getTableColumn().getSortNode(); getChildren().add(_sortArrow); } else { GridPane sortArrowGrid = new GridPane(); _sortArrow = sortArrowGrid; sortArrowGrid.setPadding(new Insets(0, 3, 0, 0)); getChildren().add(sortArrowGrid); // if we are here, and the sort arrow is null, we better create it if (arrow == null) { arrow = new Region(); arrow.getStyleClass().setAll("arrow"); arrow.setVisible(true); arrow.setRotate(isAscending(getTableColumn()) ? 180.0F : 0.0F); changeListenerHandler.registerChangeListener(getSortTypeProperty(getTableColumn()), e -> { updateSortGrid(); if (arrow != null) { arrow.setRotate(isAscending(getTableColumn()) ? 180 : 0.0); } }); } arrow.setVisible(isSortColumn); if (sortPos > 2) { if (sortOrderLabel == null) { // ---- sort order label (for sort positions greater than 3) sortOrderLabel = new Label(); sortOrderLabel.getStyleClass().add("sort-order"); } // only show the label if the sortPos is greater than 3 (for sortPos // values less than three, we show the sortOrderDots instead) sortOrderLabel.setText("" + (sortPos + 1)); sortOrderLabel.setVisible(sortColumnCount > 1); // update the grid layout sortArrowGrid.add(arrow, 1, 1); GridPane.setHgrow(arrow, Priority.NEVER); GridPane.setVgrow(arrow, Priority.NEVER); sortArrowGrid.add(sortOrderLabel, 2, 1); } else if (showSortOrderDots) { if (sortOrderDots == null) { sortOrderDots = new HBox(0); sortOrderDots.getStyleClass().add("sort-order-dots-container"); } // show the sort order dots boolean isAscending = isAscending(getTableColumn()); int arrowRow = isAscending ? 1 : 2; int dotsRow = isAscending ? 2 : 1; sortArrowGrid.add(arrow, 1, arrowRow); GridPane.setHalignment(arrow, HPos.CENTER); sortArrowGrid.add(sortOrderDots, 1, dotsRow); updateSortOrderDots(sortPos); } else { // only show the arrow sortArrowGrid.add(arrow, 1, 1); GridPane.setHgrow(arrow, Priority.NEVER); GridPane.setVgrow(arrow, Priority.ALWAYS); } } sortArrow = _sortArrow; if (sortArrow != null) { sortArrow.setVisible(isSortColumn); } requestLayout(); } private void updateSortOrderDots(int sortPos) { double arrowWidth = arrow.prefWidth(-1); sortOrderDots.getChildren().clear(); for (int i = 0; i <= sortPos; i++) { Region r = new Region(); r.getStyleClass().add("sort-order-dot"); String sortTypeName = getSortTypeName(getTableColumn()); if (sortTypeName != null && ! sortTypeName.isEmpty()) { r.getStyleClass().add(sortTypeName.toLowerCase(Locale.ROOT)); } sortOrderDots.getChildren().add(r); // RT-34914: fine tuning the placement of the sort dots. We could have gone to a custom layout, but for now // this works fine. if (i < sortPos) { Region spacer = new Region(); double lp = sortPos == 1 ? 1 : 0; spacer.setPadding(new Insets(0, 1, 0, lp)); sortOrderDots.getChildren().add(spacer); } } sortOrderDots.setAlignment(Pos.TOP_CENTER); sortOrderDots.setMaxWidth(arrowWidth); } // Package for testing purposes only. void moveColumn(TableColumnBase column, final int newColumnPos) { if (column == null || newColumnPos < 0) return; ObservableList> columns = getColumns(column); final int columnsCount = columns.size(); final int currentPos = columns.indexOf(column); int actualNewColumnPos = newColumnPos; // Fix for RT-35141: We need to account for hidden columns. // We keep iterating until we see 'requiredVisibleColumns' number of visible columns final int requiredVisibleColumns = actualNewColumnPos; int visibleColumnsSeen = 0; for (int i = 0; i < columnsCount; i++) { if (visibleColumnsSeen == (requiredVisibleColumns + 1)) { break; } if (columns.get(i).isVisible()) { visibleColumnsSeen++; } else { actualNewColumnPos++; } } // --- end of RT-35141 fix if (actualNewColumnPos >= columnsCount) { actualNewColumnPos = columnsCount - 1; } else if (actualNewColumnPos < 0) { actualNewColumnPos = 0; } if (actualNewColumnPos == currentPos) return; List> tempList = new ArrayList<>(columns); tempList.remove(column); tempList.add(actualNewColumnPos, column); columns.setAll(tempList); } private ObservableList> getColumns(TableColumnBase column) { return column.getParentColumn() == null ? TableSkinUtils.getColumns(getTableSkin()) : column.getParentColumn().getColumns(); } private int getIndex(TableColumnBase column) { if (column == null) return -1; ObservableList> columns = getColumns(column); int index = -1; for (int i = 0; i < columns.size(); i++) { TableColumnBase _column = columns.get(i); if (! _column.isVisible()) continue; index++; if (column.equals(_column)) break; } return index; } private void updateColumnIndex() { // TableView tv = getTableView(); TableColumnBase tc = getTableColumn(); TableViewSkinBase tableSkin = getTableSkin(); columnIndex = tableSkin == null || tc == null ? -1 :TableSkinUtils.getVisibleLeafIndex(tableSkin,tc); // update the pseudo class state regarding whether this is the last // visible cell (i.e. the right-most). isLastVisibleColumn = getTableColumn() != null && columnIndex != -1 && columnIndex == TableSkinUtils.getVisibleLeafColumns(tableSkin).size() - 1; pseudoClassStateChanged(PSEUDO_CLASS_LAST_VISIBLE, isLastVisibleColumn); } private void sortColumn(final boolean addColumn) { if (! isSortingEnabled()) return; // we only allow sorting on the leaf columns and columns // that actually have comparators defined, and are sortable if (getTableColumn() == null || getTableColumn().getColumns().size() != 0 || getTableColumn().getComparator() == null || !getTableColumn().isSortable()) return; // final int sortPos = getTable().getSortOrder().indexOf(column); // final boolean isSortColumn = sortPos != -1; final ObservableList> sortOrder = TableSkinUtils.getSortOrder(getTableSkin()); // addColumn is true e.g. when the user is holding down Shift if (addColumn) { if (!isSortColumn) { setSortType(getTableColumn(), TableColumn.SortType.ASCENDING); sortOrder.add(getTableColumn()); } else if (isAscending(getTableColumn())) { setSortType(getTableColumn(), TableColumn.SortType.DESCENDING); } else { int i = sortOrder.indexOf(getTableColumn()); if (i != -1) { sortOrder.remove(i); } } } else { // the user has clicked on a column header - we should add this to // the TableView sortOrder list if it isn't already there. if (isSortColumn && sortOrder.size() == 1) { // the column is already being sorted, and it's the only column. // We therefore move through the 2nd or 3rd states: // 1st click: sort ascending // 2nd click: sort descending // 3rd click: natural sorting (sorting is switched off) if (isAscending(getTableColumn())) { setSortType(getTableColumn(), TableColumn.SortType.DESCENDING); } else { // remove from sort sortOrder.remove(getTableColumn()); } } else if (isSortColumn) { // the column is already being used to sort, so we toggle its // sortAscending property, and also make the column become the // primary sort column if (isAscending(getTableColumn())) { setSortType(getTableColumn(), TableColumn.SortType.DESCENDING); } else if (isDescending(getTableColumn())) { setSortType(getTableColumn(), TableColumn.SortType.ASCENDING); } // to prevent multiple sorts, we make a copy of the sort order // list, moving the column value from the current position to // its new position at the front of the list List> sortOrderCopy = new ArrayList>(sortOrder); sortOrderCopy.remove(getTableColumn()); sortOrderCopy.add(0, getTableColumn()); sortOrder.setAll(getTableColumn()); } else { // add to the sort order, in ascending form setSortType(getTableColumn(), TableColumn.SortType.ASCENDING); sortOrder.setAll(getTableColumn()); } } } // Because it is possible that some columns are in the sortOrder list but are // not themselves sortable, we cannot just do sortOrderList.indexOf(column). // Therefore, this method does the proper work required of iterating through // and ignoring non-sortable (and null) columns in the sortOrder list. private int getSortPosition() { if (getTableColumn() == null) { return -1; } final List sortOrder = getVisibleSortOrderColumns(); int pos = 0; for (int i = 0; i < sortOrder.size(); i++) { TableColumnBase _tc = sortOrder.get(i); if (getTableColumn().equals(_tc)) { return pos; } pos++; } return -1; } private List getVisibleSortOrderColumns() { final ObservableList> sortOrder = TableSkinUtils.getSortOrder(getTableSkin()); List visibleSortOrderColumns = new ArrayList<>(); for (int i = 0; i < sortOrder.size(); i++) { TableColumnBase _tc = sortOrder.get(i); if (_tc == null || ! _tc.isSortable() || ! _tc.isVisible()) { continue; } visibleSortOrderColumns.add(_tc); } return visibleSortOrderColumns; } // as with getSortPosition above, this method iterates through the sortOrder // list ignoring the null and non-sortable columns, so that we get the correct // number of columns in the sortOrder list. private int getVisibleSortOrderColumnCount() { return getVisibleSortOrderColumns().size(); } /* ************************************************************************* * * * Private Implementation: Column Reordering * * * **************************************************************************/ // package for testing void columnReorderingStarted(double dragOffset) { if (! getTableColumn().isReorderable()) return; // Used to ensure the column ghost is positioned relative to where the // user clicked on the column header this.dragOffset = dragOffset; // Note here that we only allow for reordering of 'root' columns getTableHeaderRow().setReorderingColumn(getTableColumn()); getTableHeaderRow().setReorderingRegion(this); } // package for testing void columnReordering(double sceneX, double sceneY) { if (! getTableColumn().isReorderable()) return; // this is for handling the column drag to reorder columns. // It shows a line to indicate where the 'drop' will be. // indicate that we've started dragging so that the dragging // line overlay is shown getTableHeaderRow().setReordering(true); // Firstly we need to determine where to draw the line. // Find which column we're over TableColumnHeader hoverHeader = null; // x represents where the mouse is relative to the parent // NestedTableColumnHeader final double x = getParentHeader().sceneToLocal(sceneX, sceneY).getX(); // calculate where the ghost column header should be double dragX = getTableSkin().getSkinnable().sceneToLocal(sceneX, sceneY).getX() - dragOffset; getTableHeaderRow().setDragHeaderX(dragX); double startX = 0; double endX = 0; double headersWidth = 0; newColumnPos = 0; for (TableColumnHeader header : getParentHeader().getColumnHeaders()) { if (! header.isVisible()) continue; double headerWidth = header.prefWidth(-1); headersWidth += headerWidth; startX = header.getBoundsInParent().getMinX(); endX = startX + headerWidth; if (x >= startX && x < endX) { hoverHeader = header; break; } newColumnPos++; } // hoverHeader will be null if the drag occurs outside of the // tableview. In this case we handle the newColumnPos specially // and then short-circuit. This results in the drop action // resulting in the correct result (the column will drop at // the start or end of the table). if (hoverHeader == null) { newColumnPos = x > headersWidth ? (getParentHeader().getColumns().size() - 1) : 0; return; } // This is the x-axis value midway through hoverHeader. It's // used to determine whether the drop should be to the left // or the right of hoverHeader. double midPoint = startX + (endX - startX) / 2; boolean beforeMidPoint = x <= midPoint; // Based on where the mouse actually is, we have to shuffle // where we want the column to end up. This code handles that. int currentPos = getIndex(getTableColumn()); newColumnPos += newColumnPos > currentPos && beforeMidPoint ? -1 : (newColumnPos < currentPos && !beforeMidPoint ? 1 : 0); double lineX = getTableHeaderRow().sceneToLocal(hoverHeader.localToScene(hoverHeader.getBoundsInLocal())).getMinX(); lineX = lineX + ((beforeMidPoint) ? (0) : (hoverHeader.getWidth())); if (lineX >= -0.5 && lineX <= getTableSkin().getSkinnable().getWidth()) { columnReorderLine.setTranslateX(lineX); // then if this is the first event, we set the property to true // so that the line becomes visible until the drop is completed. // We also set reordering to true so that the various reordering // effects become visible (ghost, transparent overlay, etc). columnReorderLine.setVisible(true); } getTableHeaderRow().setReordering(true); } // package for testing void columnReorderingComplete() { if (! getTableColumn().isReorderable()) return; // Move col from where it is now to the new position. moveColumn(getTableColumn(), newColumnPos); // cleanup columnReorderLine.setTranslateX(0.0F); columnReorderLine.setLayoutX(0.0F); newColumnPos = 0; getTableHeaderRow().setReordering(false); columnReorderLine.setVisible(false); getTableHeaderRow().setReorderingColumn(null); getTableHeaderRow().setReorderingRegion(null); dragOffset = 0.0F; } double getDragRectHeight() { return getHeight(); } // Used to test whether this column header properly represents the given column. // In particular, whether it has child column headers for all child columns boolean represents(TableColumnBase column) { if (!column.getColumns().isEmpty()) { // this column has children, but we are in a TableColumnHeader instance, // so the match is bad. return false; } return column == getTableColumn(); } /* ************************************************************************* * * * Stylesheet Handling * * * **************************************************************************/ private static final PseudoClass PSEUDO_CLASS_LAST_VISIBLE = PseudoClass.getPseudoClass("last-visible"); /* * Super-lazy instantiation pattern from Bill Pugh. */ private static class StyleableProperties { private static final CssMetaData SIZE = new CssMetaData("-fx-size", SizeConverter.getInstance(), 20.0) { @Override public boolean isSettable(TableColumnHeader n) { return n.size == null || !n.size.isBound(); } @Override public StyleableProperty getStyleableProperty(TableColumnHeader n) { return (StyleableProperty)(WritableValue)n.sizeProperty(); } }; private static final List> STYLEABLES; static { final List> styleables = new ArrayList>(Region.getClassCssMetaData()); styleables.add(SIZE); STYLEABLES = Collections.unmodifiableList(styleables); } } /** * Returns the CssMetaData associated with this class, which may include the * CssMetaData of its superclasses. * * @return the CssMetaData associated with this class, which may include the * CssMetaData of its superclasses */ public static List> getClassCssMetaData() { return StyleableProperties.STYLEABLES; } }





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