Class TreeTableColumn<S,​T>

  • Type Parameters:
    S - The type of the TableView generic type (i.e. S == TableView<S>)
    T - The type of the content in all cells in this TableColumn.
    All Implemented Interfaces:
    Styleable, EventTarget

    public class TreeTableColumn<S,​T>
    extends TableColumnBase<TreeItem<S>,​T>
    implements EventTarget
    A TreeTableView is made up of a number of TreeTableColumn instances. Each TreeTableColumn in a TreeTableView is responsible for displaying (and editing) the contents of that column. As well as being responsible for displaying and editing data for a single column, a TreeTableColumn also contains the necessary properties to: When creating a TreeTableColumn instance, perhaps the two most important properties to set are the column text (what to show in the column header area), and the column cell value factory (which is used to populate individual cells in the column). This can be achieved using some variation on the following code:
    
     firstNameCol.setCellValueFactory(new Callback<CellDataFeatures<Person, String>, ObservableValue<String>>() {
         public ObservableValue<String> call(CellDataFeatures<Person, String> p) {
             // p.getValue() returns the TreeItem<Person> instance for a particular TreeTableView row,
             // p.getValue().getValue() returns the Person instance inside the TreeItem<Person>
             return p.getValue().getValue().firstNameProperty();
         }
      });
     }
    This approach assumes that the object returned from p.getValue().getValue() has a JavaFX ObservableValue that can simply be returned. The benefit of this is that the TableView will internally create bindings to ensure that, should the returned ObservableValue change, the cell contents will be automatically refreshed.

    In situations where a TableColumn must interact with classes created before JavaFX, or that generally do not wish to use JavaFX APIs for properties, it is possible to wrap the returned value in a ReadOnlyObjectWrapper instance. For example:

    
     firstNameCol.setCellValueFactory(new Callback<CellDataFeatures<Person, String>, ObservableValue<String>>() {
         public ObservableValue<String> call(CellDataFeatures<Person, String> p) {
             // p.getValue() returns the TreeItem<Person> instance for a particular TreeTableView row,
             // p.getValue().getValue() returns the Person instance inside the TreeItem<Person>
             return new ReadOnlyObjectWrapper(p.getValue().getValue().getFirstName());
         }
      });
     }
    It is hoped that over time there will be convenience cell value factories developed and made available to developers. As of the JavaFX 2.0 release, there is one such convenience class: TreeItemPropertyValueFactory. This class removes the need to write the code above, instead relying on reflection to look up a given property from a String. Refer to the TreeItemPropertyValueFactory class documentation for more information on how to use this with a TableColumn. Finally, for more detail on how to use TableColumn, there is further documentation in the TableView class documentation.
    Since:
    JavaFX 8.0
    See Also:
    TableView, TableCell, TablePosition, TreeItemPropertyValueFactory
    • Field Detail

      • DEFAULT_CELL_FACTORY

        public static final Callback<TreeTableColumn<?,​?>,​TreeTableCell<?,​?>> DEFAULT_CELL_FACTORY
        If no cellFactory is specified on a TreeTableColumn instance, then this one will be used by default. At present it simply renders the TableCell item property within the graphic property if the item is a Node, or it simply calls toString() if it is not null, setting the resulting string inside the text property.
    • Constructor Detail

      • TreeTableColumn

        public TreeTableColumn()
        Creates a default TreeTableColumn with default cell factory, comparator, and onEditCommit implementation.
      • TreeTableColumn

        public TreeTableColumn​(String text)
        Creates a TreeTableColumn with the text set to the provided string, with default cell factory, comparator, and onEditCommit implementation.
        Parameters:
        text - The string to show when the TreeTableColumn is placed within the TreeTableView.
    • Method Detail

      • editAnyEvent

        public static <S,​T> EventType<TreeTableColumn.CellEditEvent<S,​T>> editAnyEvent()
        Parent event for any TreeTableColumn edit event.
        Type Parameters:
        S - the type of the TreeTableView generic type
        T - the type of the content in all cells in this TreeTableColumn
        Returns:
        the edit event
      • editCancelEvent

        public static <S,​T> EventType<TreeTableColumn.CellEditEvent<S,​T>> editCancelEvent()
        Indicates that the editing has been canceled, meaning that no change should be made to the backing data source.
        Type Parameters:
        S - the type of the TreeTableView generic type
        T - the type of the content in all cells in this TreeTableColumn
        Returns:
        the edit cancel event
      • editCommitEvent

        public static <S,​T> EventType<TreeTableColumn.CellEditEvent<S,​T>> editCommitEvent()
        Indicates that the editing has been committed by the user, meaning that a change should be made to the backing data source to reflect the new data.
        Type Parameters:
        S - the type of the TreeTableView generic type
        T - the type of the content in all cells in this TreeTableColumn
        Returns:
        the edit commit event
      • getTreeTableView

        public final TreeTableView<S> getTreeTableView()
        Gets the value of the property treeTableView.
        Property description:
        The TreeTableView that this TreeTableColumn belongs to.
      • setCellValueFactory

        public final void setCellValueFactory​(Callback<TreeTableColumn.CellDataFeatures<S,​T>,​ObservableValue<T>> value)
        Sets the value of the property cellValueFactory.
        Property description:
        The cell value factory needs to be set to specify how to populate all cells within a single TreeTableColumn. A cell value factory is a Callback that provides a TreeTableColumn.CellDataFeatures instance, and expects an ObservableValue to be returned. The returned ObservableValue instance will be observed internally to allow for updates to the value to be immediately reflected on screen.

        An example of how to set a cell value factory is:

        
         firstNameCol.setCellValueFactory(new Callback<CellDataFeatures<Person, String>, ObservableValue<String>>() {
             public ObservableValue<String> call(CellDataFeatures<Person, String> p) {
                 // p.getValue() returns the TreeItem<Person> instance for a particular TreeTableView row,
                 // p.getValue().getValue() returns the Person instance inside the TreeItem<Person>
                 return p.getValue().getValue().firstNameProperty();
             }
          });
         }
        A common approach is to want to populate cells in a TreeTableColumn using a single value from a Java bean. To support this common scenario, there is the TreeItemPropertyValueFactory class. Refer to this class for more information on how to use it, but briefly here is how the above use case could be simplified using the TreeItemPropertyValueFactory class:
        
         firstNameCol.setCellValueFactory(new TreeItemPropertyValueFactory<Person,String>("firstName"));
         
      • getCellValueFactory

        public final Callback<TreeTableColumn.CellDataFeatures<S,​T>,​ObservableValue<T>> getCellValueFactory()
        Gets the value of the property cellValueFactory.
        Property description:
        The cell value factory needs to be set to specify how to populate all cells within a single TreeTableColumn. A cell value factory is a Callback that provides a TreeTableColumn.CellDataFeatures instance, and expects an ObservableValue to be returned. The returned ObservableValue instance will be observed internally to allow for updates to the value to be immediately reflected on screen.

        An example of how to set a cell value factory is:

        
         firstNameCol.setCellValueFactory(new Callback<CellDataFeatures<Person, String>, ObservableValue<String>>() {
             public ObservableValue<String> call(CellDataFeatures<Person, String> p) {
                 // p.getValue() returns the TreeItem<Person> instance for a particular TreeTableView row,
                 // p.getValue().getValue() returns the Person instance inside the TreeItem<Person>
                 return p.getValue().getValue().firstNameProperty();
             }
          });
         }
        A common approach is to want to populate cells in a TreeTableColumn using a single value from a Java bean. To support this common scenario, there is the TreeItemPropertyValueFactory class. Refer to this class for more information on how to use it, but briefly here is how the above use case could be simplified using the TreeItemPropertyValueFactory class:
        
         firstNameCol.setCellValueFactory(new TreeItemPropertyValueFactory<Person,String>("firstName"));
         
      • cellValueFactoryProperty

        public final ObjectProperty<Callback<TreeTableColumn.CellDataFeatures<S,​T>,​ObservableValue<T>>> cellValueFactoryProperty()
        The cell value factory needs to be set to specify how to populate all cells within a single TreeTableColumn. A cell value factory is a Callback that provides a TreeTableColumn.CellDataFeatures instance, and expects an ObservableValue to be returned. The returned ObservableValue instance will be observed internally to allow for updates to the value to be immediately reflected on screen.

        An example of how to set a cell value factory is:

        
         firstNameCol.setCellValueFactory(new Callback<CellDataFeatures<Person, String>, ObservableValue<String>>() {
             public ObservableValue<String> call(CellDataFeatures<Person, String> p) {
                 // p.getValue() returns the TreeItem<Person> instance for a particular TreeTableView row,
                 // p.getValue().getValue() returns the Person instance inside the TreeItem<Person>
                 return p.getValue().getValue().firstNameProperty();
             }
          });
         }
        A common approach is to want to populate cells in a TreeTableColumn using a single value from a Java bean. To support this common scenario, there is the TreeItemPropertyValueFactory class. Refer to this class for more information on how to use it, but briefly here is how the above use case could be simplified using the TreeItemPropertyValueFactory class:
        
         firstNameCol.setCellValueFactory(new TreeItemPropertyValueFactory<Person,String>("firstName"));
         
        See Also:
        getCellValueFactory(), setCellValueFactory(Callback)
      • setCellFactory

        public final void setCellFactory​(Callback<TreeTableColumn<S,​T>,​TreeTableCell<S,​T>> value)
        Sets the value of the property cellFactory.
        Property description:
        The cell factory for all cells in this column. The cell factory is responsible for rendering the data contained within each TreeTableCell for a single TreeTableColumn.

        By default TreeTableColumn uses a default cell factory, but this can be replaced with a custom implementation, for example to show data in a different way or to support editing. There is a lot of documentation on creating custom cell factories elsewhere (see Cell and TreeTableView for example).

        Finally, there are a number of pre-built cell factories available in the javafx.scene.control.cell package.

      • getCellFactory

        public final Callback<TreeTableColumn<S,​T>,​TreeTableCell<S,​T>> getCellFactory()
        Gets the value of the property cellFactory.
        Property description:
        The cell factory for all cells in this column. The cell factory is responsible for rendering the data contained within each TreeTableCell for a single TreeTableColumn.

        By default TreeTableColumn uses a default cell factory, but this can be replaced with a custom implementation, for example to show data in a different way or to support editing. There is a lot of documentation on creating custom cell factories elsewhere (see Cell and TreeTableView for example).

        Finally, there are a number of pre-built cell factories available in the javafx.scene.control.cell package.

      • setSortType

        public final void setSortType​(TreeTableColumn.SortType value)
        Sets the value of the property sortType.
        Property description:
        Used to state whether this column, if it is part of a sort order (see TreeTableView.getSortOrder() for more details), should be sorted in ascending or descending order. Simply toggling this property will result in the sort order changing in the TreeTableView, assuming of course that this column is in the sortOrder ObservableList to begin with.
      • getSortType

        public final TreeTableColumn.SortType getSortType()
        Gets the value of the property sortType.
        Property description:
        Used to state whether this column, if it is part of a sort order (see TreeTableView.getSortOrder() for more details), should be sorted in ascending or descending order. Simply toggling this property will result in the sort order changing in the TreeTableView, assuming of course that this column is in the sortOrder ObservableList to begin with.
      • setOnEditStart

        public final void setOnEditStart​(EventHandler<TreeTableColumn.CellEditEvent<S,​T>> value)
        Sets the value of the property onEditStart.
        Property description:
        This event handler will be fired when the user successfully initiates editing.
      • getOnEditStart

        public final EventHandler<TreeTableColumn.CellEditEvent<S,​T>> getOnEditStart()
        Gets the value of the property onEditStart.
        Property description:
        This event handler will be fired when the user successfully initiates editing.
      • setOnEditCommit

        public final void setOnEditCommit​(EventHandler<TreeTableColumn.CellEditEvent<S,​T>> value)
        Sets the value of the property onEditCommit.
        Property description:
        This event handler will be fired when the user successfully commits their editing.
      • getOnEditCommit

        public final EventHandler<TreeTableColumn.CellEditEvent<S,​T>> getOnEditCommit()
        Gets the value of the property onEditCommit.
        Property description:
        This event handler will be fired when the user successfully commits their editing.
      • setOnEditCancel

        public final void setOnEditCancel​(EventHandler<TreeTableColumn.CellEditEvent<S,​T>> value)
        Sets the value of the property onEditCancel.
        Property description:
        This event handler will be fired when the user cancels editing a cell.
      • getOnEditCancel

        public final EventHandler<TreeTableColumn.CellEditEvent<S,​T>> getOnEditCancel()
        Gets the value of the property onEditCancel.
        Property description:
        This event handler will be fired when the user cancels editing a cell.
      • getColumns

        public final ObservableList<TreeTableColumn<S,​?>> getColumns()
        This enables support for nested columns, which can be useful to group together related data. For example, we may have a 'Name' column with two nested columns for 'First' and 'Last' names.

        This has no impact on the table as such - all column indices point to the leaf columns only, and it isn't possible to sort using the parent column, just the leaf columns. In other words, this is purely a visual feature.

        Specified by:
        getColumns in class TableColumnBase<TreeItem<S>,​T>
        Returns:
        An ObservableList containing TableColumnBase instances (or subclasses) that are the children of this TableColumnBase. If these children TableColumnBase instances are set as visible, they will appear beneath this table column.
      • getCellObservableValue

        public final ObservableValue<T> getCellObservableValue​(int index)
        Attempts to return an ObservableValue<T> for the item in the given index (which is of type S). In other words, this method expects to receive an integer value that is greater than or equal to zero, and less than the size of the underlying data model. If the index is valid, this method will return an ObservableValue<T> for this specific column.

        This is achieved by calling the cell value factory, and returning whatever it returns when passed a CellDataFeatures (see, for example, the CellDataFeatures classes belonging to TableColumn and TreeTableColumn for more information).

        Specified by:
        getCellObservableValue in class TableColumnBase<TreeItem<S>,​T>
        Parameters:
        index - The index of the item (of type S) for which an ObservableValue<T> is sought.
        Returns:
        An ObservableValue<T> for this specific table column.
      • getCellObservableValue

        public final ObservableValue<T> getCellObservableValue​(TreeItem<S> item)
        Attempts to return an ObservableValue<T> for the given item (which is of type S). In other words, this method expects to receive an object from the underlying data model for the entire 'row' in the table, and it must return an ObservableValue<T> for the value in this specific column.

        This is achieved by calling the cell value factory, and returning whatever it returns when passed a CellDataFeatures (see, for example, the CellDataFeatures classes belonging to TableColumn and TreeTableColumn for more information).

        Specified by:
        getCellObservableValue in class TableColumnBase<TreeItem<S>,​T>
        Parameters:
        item - The item (of type S) for which an ObservableValue<T> is sought.
        Returns:
        An ObservableValue<T> for this specific table column.
      • getTypeSelector

        public String getTypeSelector()
        The type of this Styleable that is to be used in selector matching. This is analogous to an "element" in HTML. (CSS Type Selector).
        Specified by:
        getTypeSelector in interface Styleable
        Returns:
        "TreeTableColumn"
      • getStyleableParent

        public Styleable getStyleableParent()
        Return the parent of this Styleable, or null if there is no parent.
        Specified by:
        getStyleableParent in interface Styleable
        Returns:
        getTreeTableView()
      • getCssMetaData

        public List<CssMetaData<? extends Styleable,​?>> getCssMetaData()
        The CssMetaData of this Styleable. This may be returned as an unmodifiable list.
        Specified by:
        getCssMetaData in interface Styleable
        Returns:
        the CssMetaData
      • getStyleableNode

        public Node getStyleableNode()
        Returns the Node that represents this Styleable object. This method should be overridden in cases where the Styleable is not itself a Node, so that it may optionally return the relevant root node representation of itself. By default this method returns null, which can mean that either the Styleable itself is a Node, or if that is not the case, that the Styleable does not have a node representation available at the time of request.
        Specified by:
        getStyleableNode in interface Styleable
        Returns:
        the Node that represents this Styleable object