javax.swing.tree

Interface TreeSelectionModel

  • All Known Implementing Classes:
    DefaultTreeSelectionModel, JTree.EmptySelectionModel

    public interface TreeSelectionModel
    This interface represents the current state of the selection for the tree component. For information and examples of using tree selection models, see How to Use Trees in The Java Tutorial.

    The state of the tree selection is characterized by a set of TreePaths, and optionally a set of integers. The mapping from TreePath to integer is done by way of an instance of RowMapper. It is not necessary for a TreeSelectionModel to have a RowMapper to correctly operate, but without a RowMapper getSelectionRows will return null.

    A TreeSelectionModel can be configured to allow only one path (SINGLE_TREE_SELECTION) a number of continguous paths (CONTIGUOUS_TREE_SELECTION) or a number of discontiguous paths (DISCONTIGUOUS_TREE_SELECTION). A RowMapper is used to determine if TreePaths are contiguous. In the absence of a RowMapper CONTIGUOUS_TREE_SELECTION and DISCONTIGUOUS_TREE_SELECTION behave the same, that is they allow any number of paths to be contained in the TreeSelectionModel.

    For a selection model of CONTIGUOUS_TREE_SELECTION any time the paths are changed (setSelectionPath, addSelectionPath ...) the TreePaths are again checked to make they are contiguous. A check of the TreePaths can also be forced by invoking resetRowSelection. How a set of discontiguous TreePaths is mapped to a contiguous set is left to implementors of this interface to enforce a particular policy.

    Implementations should combine duplicate TreePaths that are added to the selection. For example, the following code

       TreePath[] paths = new TreePath[] { treePath, treePath };
       treeSelectionModel.setSelectionPaths(paths);
     
    should result in only one path being selected: treePath, and not two copies of treePath.

    The lead TreePath is the last path that was added (or set). The lead row is then the row that corresponds to the TreePath as determined from the RowMapper.

    • Field Detail

      • SINGLE_TREE_SELECTION

        static final int SINGLE_TREE_SELECTION
        Selection can only contain one path at a time.
        See Also:
        Constant Field Values
      • CONTIGUOUS_TREE_SELECTION

        static final int CONTIGUOUS_TREE_SELECTION
        Selection can only be contiguous. This will only be enforced if a RowMapper instance is provided. That is, if no RowMapper is set this behaves the same as DISCONTIGUOUS_TREE_SELECTION.
        See Also:
        Constant Field Values
      • DISCONTIGUOUS_TREE_SELECTION

        static final int DISCONTIGUOUS_TREE_SELECTION
        Selection can contain any number of items that are not necessarily contiguous.
        See Also:
        Constant Field Values
    • Method Detail

      • setSelectionMode

        void setSelectionMode(int mode)
        Sets the selection model, which must be one of SINGLE_TREE_SELECTION, CONTIGUOUS_TREE_SELECTION or DISCONTIGUOUS_TREE_SELECTION.

        This may change the selection if the current selection is not valid for the new mode. For example, if three TreePaths are selected when the mode is changed to SINGLE_TREE_SELECTION, only one TreePath will remain selected. It is up to the particular implementation to decide what TreePath remains selected.

      • getSelectionMode

        int getSelectionMode()
        Returns the current selection mode, one of SINGLE_TREE_SELECTION, CONTIGUOUS_TREE_SELECTION or DISCONTIGUOUS_TREE_SELECTION.
      • setSelectionPath

        void setSelectionPath(TreePath path)
        Sets the selection to path. If this represents a change, then the TreeSelectionListeners are notified. If path is null, this has the same effect as invoking clearSelection.
        Parameters:
        path - new path to select
      • setSelectionPaths

        void setSelectionPaths(TreePath[] paths)
        Sets the selection to path. If this represents a change, then the TreeSelectionListeners are notified. If paths is null, this has the same effect as invoking clearSelection.
        Parameters:
        paths - new selection
      • addSelectionPath

        void addSelectionPath(TreePath path)
        Adds path to the current selection. If path is not currently in the selection the TreeSelectionListeners are notified. This has no effect if path is null.
        Parameters:
        path - the new path to add to the current selection
      • addSelectionPaths

        void addSelectionPaths(TreePath[] paths)
        Adds paths to the current selection. If any of the paths in paths are not currently in the selection the TreeSelectionListeners are notified. This has no effect if paths is null.
        Parameters:
        paths - the new paths to add to the current selection
      • removeSelectionPath

        void removeSelectionPath(TreePath path)
        Removes path from the selection. If path is in the selection The TreeSelectionListeners are notified. This has no effect if path is null.
        Parameters:
        path - the path to remove from the selection
      • removeSelectionPaths

        void removeSelectionPaths(TreePath[] paths)
        Removes paths from the selection. If any of the paths in paths are in the selection, the TreeSelectionListeners are notified. This method has no effect if paths is null.
        Parameters:
        paths - the path to remove from the selection
      • getSelectionPath

        TreePath getSelectionPath()
        Returns the first path in the selection. How first is defined is up to implementors, and may not necessarily be the TreePath with the smallest integer value as determined from the RowMapper.
      • getSelectionPaths

        TreePath[] getSelectionPaths()
        Returns the paths in the selection. This will return null (or an empty array) if nothing is currently selected.
      • getSelectionCount

        int getSelectionCount()
        Returns the number of paths that are selected.
      • isPathSelected

        boolean isPathSelected(TreePath path)
        Returns true if the path, path, is in the current selection.
      • isSelectionEmpty

        boolean isSelectionEmpty()
        Returns true if the selection is currently empty.
      • clearSelection

        void clearSelection()
        Empties the current selection. If this represents a change in the current selection, the selection listeners are notified.
      • setRowMapper

        void setRowMapper(RowMapper newMapper)
        Sets the RowMapper instance. This instance is used to determine the row for a particular TreePath.
      • getRowMapper

        RowMapper getRowMapper()
        Returns the RowMapper instance that is able to map a TreePath to a row.
      • getSelectionRows

        int[] getSelectionRows()
        Returns all of the currently selected rows. This will return null (or an empty array) if there are no selected TreePaths or a RowMapper has not been set.
      • getMinSelectionRow

        int getMinSelectionRow()
        Returns the smallest value obtained from the RowMapper for the current set of selected TreePaths. If nothing is selected, or there is no RowMapper, this will return -1.
      • getMaxSelectionRow

        int getMaxSelectionRow()
        Returns the largest value obtained from the RowMapper for the current set of selected TreePaths. If nothing is selected, or there is no RowMapper, this will return -1.
      • isRowSelected

        boolean isRowSelected(int row)
        Returns true if the row identified by row is selected.
      • resetRowSelection

        void resetRowSelection()
        Updates this object's mapping from TreePaths to rows. This should be invoked when the mapping from TreePaths to integers has changed (for example, a node has been expanded).

        You do not normally have to call this; JTree and its associated listeners will invoke this for you. If you are implementing your own view class, then you will have to invoke this.

      • getLeadSelectionRow

        int getLeadSelectionRow()
        Returns the lead selection index. That is the last index that was added.
      • getLeadSelectionPath

        TreePath getLeadSelectionPath()
        Returns the last path that was added. This may differ from the leadSelectionPath property maintained by the JTree.
      • addPropertyChangeListener

        void addPropertyChangeListener(PropertyChangeListener listener)
        Adds a PropertyChangeListener to the listener list. The listener is registered for all properties.

        A PropertyChangeEvent will get fired when the selection mode changes.

        Parameters:
        listener - the PropertyChangeListener to be added
      • removePropertyChangeListener

        void removePropertyChangeListener(PropertyChangeListener listener)
        Removes a PropertyChangeListener from the listener list. This removes a PropertyChangeListener that was registered for all properties.
        Parameters:
        listener - the PropertyChangeListener to be removed
      • addTreeSelectionListener

        void addTreeSelectionListener(TreeSelectionListener x)
        Adds x to the list of listeners that are notified each time the set of selected TreePaths changes.
        Parameters:
        x - the new listener to be added
      • removeTreeSelectionListener

        void removeTreeSelectionListener(TreeSelectionListener x)
        Removes x from the list of listeners that are notified each time the set of selected TreePaths changes.
        Parameters:
        x - the listener to remove

Document created the 11/06/2005, last modified the 04/03/2020
Source of the printed document:https://www.gaudry.be/en/java-api-rf-javax/swing/tree/treeselectionmodel.html

The infobrol is a personal site whose content is my sole responsibility. The text is available under CreativeCommons license (BY-NC-SA). More info on the terms of use and the author.

References

  1. View the html document Language of the document:fr Manuel PHP : https://docs.oracle.com

These references and links indicate documents consulted during the writing of this page, or which may provide additional information, but the authors of these sources can not be held responsible for the content of this page.
The author This site is solely responsible for the way in which the various concepts, and the freedoms that are taken with the reference works, are presented here. Remember that you must cross multiple source information to reduce the risk of errors.

Contents Haut