package tiled.mapeditor.widget;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import org.eclipse.core.runtime.ListenerList;
import org.eclipse.jface.action.IStatusLineManager;
import org.eclipse.jface.viewers.CellEditor;
import org.eclipse.jface.viewers.ICellEditorListener;
import org.eclipse.jface.viewers.ISelection;
import org.eclipse.jface.viewers.IStructuredSelection;
import org.eclipse.jface.viewers.SelectionChangedEvent;
import org.eclipse.jface.viewers.StructuredSelection;
import org.eclipse.jface.viewers.Viewer;
import org.eclipse.swt.SWT;
import org.eclipse.swt.custom.TreeEditor;
import org.eclipse.swt.events.ControlAdapter;
import org.eclipse.swt.events.ControlEvent;
import org.eclipse.swt.events.DisposeEvent;
import org.eclipse.swt.events.DisposeListener;
import org.eclipse.swt.events.KeyAdapter;
import org.eclipse.swt.events.KeyEvent;
import org.eclipse.swt.events.MouseAdapter;
import org.eclipse.swt.events.MouseEvent;
import org.eclipse.swt.events.SelectionAdapter;
import org.eclipse.swt.events.SelectionEvent;
import org.eclipse.swt.events.TreeEvent;
import org.eclipse.swt.events.TreeListener;
import org.eclipse.swt.graphics.Image;
import org.eclipse.swt.graphics.Point;
import org.eclipse.swt.graphics.Rectangle;
import org.eclipse.swt.widgets.Composite;
import org.eclipse.swt.widgets.Control;
import org.eclipse.swt.widgets.Tree;
import org.eclipse.swt.widgets.TreeColumn;
import org.eclipse.swt.widgets.TreeItem;
import org.eclipse.swt.widgets.Widget;
import org.eclipse.ui.internal.views.properties.PropertiesMessages;
import org.eclipse.ui.views.properties.IPropertySheetEntry;
import org.eclipse.ui.views.properties.IPropertySheetEntryListener;
import org.eclipse.ui.views.properties.PropertySheetEntry;
/**
* The PropertySheetViewer displays the properties of objects. The model for the
* viewer consists of a hierarchy of <code>IPropertySheetEntry</code>.
* <p>
* This viewer also supports the optional catogorization of the first level
* <code>IPropertySheetEntry</code> s by using instances of
* <code>PropertySheetCategory</code>.
*
*/
@SuppressWarnings("restriction")
/* package */
public class PropertySheetViewer extends Viewer {
// The input objects for the viewer
private Object[] input;
// The root entry of the viewer
private IPropertySheetEntry rootEntry;
// The current categories
private PropertySheetCategory[] categories;
// SWT widgets
private Tree tree;
/**
* Maintain a map from the PropertySheet entry to its
* corresponding TreeItem. This is used in 'findItem' to
* greatly increase the performance.
*/
private HashMap entryToItemMap = new HashMap();
private TreeEditor treeEditor;
private static String[] columnLabels = {
PropertiesMessages.PropertyViewer_property, PropertiesMessages.PropertyViewer_value };
private static String MISCELLANEOUS_CATEGORY_NAME = PropertiesMessages.PropertyViewer_misc;
// Cell editor support.
private int columnToEdit = 1;
private CellEditor cellEditor;
private IPropertySheetEntryListener entryListener;
private ICellEditorListener editorListener;
// Flag to indicate if categories (if any) should be shown
private boolean isShowingCategories = true;
// Flag to indicate expert properties should be shown
private boolean isShowingExpertProperties = false;
// The status line manager for showing messages
private IStatusLineManager statusLineManager;
// Cell editor activation listeners
private ListenerList activationListeners = new ListenerList();
// the property sheet sorter
private PropertySheetSorter sorter = new PropertySheetSorter();
/**
* Creates a property sheet viewer on a newly-created tree control
* under the given parent. The viewer has no input, and no root entry.
*
* @param parent
* the parent control
*/
public PropertySheetViewer(Composite parent) {
tree = new Tree(parent, SWT.FULL_SELECTION | SWT.SINGLE
| SWT.HIDE_SELECTION | SWT.BORDER);
// configure the widget
tree.setLinesVisible(true);
tree.setHeaderVisible(true);
// configure the columns
addColumns();
// add our listeners to the widget
hookControl();
// create a new tree editor
treeEditor = new TreeEditor(tree);
// create the entry and editor listener
createEntryListener();
createEditorListener();
}
/**
* Activate a cell editor for the given selected tree item.
*
* @param item
* the selected tree item
*/
public void activateCellEditor(TreeItem item) {
// ensure the cell editor is visible
tree.showSelection();
// Get the entry for this item
IPropertySheetEntry activeEntry = (IPropertySheetEntry) item.getData();
// Get the cell editor for the entry.
// Note that the editor parent must be the Tree control
cellEditor = activeEntry.getEditor(tree);
if (cellEditor == null) {
// unable to create the editor
return;
}
// activate the cell editor
cellEditor.activate();
// if the cell editor has no control we can stop now
Control control = cellEditor.getControl();
if (control == null) {
cellEditor.deactivate();
cellEditor = null;
return;
}
// add our editor listener
cellEditor.addListener(editorListener);
// set the layout of the tree editor to match the cell editor
CellEditor.LayoutData layout = cellEditor.getLayoutData();
treeEditor.horizontalAlignment = layout.horizontalAlignment;
treeEditor.grabHorizontal = layout.grabHorizontal;
treeEditor.minimumWidth = layout.minimumWidth;
treeEditor.setEditor(control, item, columnToEdit);
// set the error text from the cel editor
setErrorMessage(cellEditor.getErrorMessage());
// give focus to the cell editor
cellEditor.setFocus();
// notify of activation
fireCellEditorActivated(cellEditor);
}
/**
* Adds a cell editor activation listener. Has no effect if an identical
* activation listener is already registered.
*
* @param listener
* a cell editor activation listener
*/
public void addActivationListener(ICellEditorActivationListener listener) {
activationListeners.add(listener);
}
/**
* Add columns to the tree and set up the layout manager accordingly.
*/
private void addColumns() {
// create the columns
TreeColumn[] columns = tree.getColumns();
for (int i = 0; i < columnLabels.length; i++) {
String string = columnLabels[i];
if (string != null) {
TreeColumn column;
if (i < columns.length) {
column = columns[i];
} else {
column = new TreeColumn(tree, 0);
}
column.setText(string);
}
}
tree.addControlListener(new ControlAdapter() {
public void controlResized(ControlEvent e) {
Rectangle area = tree.getClientArea();
TreeColumn[] columns = tree.getColumns();
if (area.width > 0) {
columns[0].setWidth(area.width * 40 / 100);
columns[1].setWidth(area.width - columns[0].getWidth() - 4);
tree.removeControlListener(this);
}
}
});
}
/**
* Asks the entry currently being edited to apply its current cell editor
* value.
*/
private void applyEditorValue() {
TreeItem treeItem = treeEditor.getItem();
// treeItem can be null when view is opened
if (treeItem == null || treeItem.isDisposed()) {
return;
}
IPropertySheetEntry entry = (IPropertySheetEntry) treeItem.getData();
entry.applyEditorValue();
}
/**
* Creates the child items for the given widget (item or tree). This
* method is called when the item is expanded for the first time or when an
* item is assigned as the root of the tree.
* @param widget TreeItem or Tree to create the children in.
*/
private void createChildren(Widget widget) {
// get the current child items
TreeItem[] childItems = getChildItems(widget);
if (childItems.length > 0) {
Object data = childItems[0].getData();
if (data != null) {
// children already there!
return;
}
// remove the dummy
childItems[0].dispose();
}
// get the children and create their tree items
Object node = widget.getData();
List children = getChildren(node);
if (children.isEmpty()) {
// this item does't actually have any children
return;
}
for (int i = 0; i < children.size(); i++) {
// create a new tree item
createItem(children.get(i), widget, i);
}
}
/**
* Creates a new cell editor listener.
*/
private void createEditorListener() {
editorListener = new ICellEditorListener() {
public void cancelEditor() {
deactivateCellEditor();
}
public void editorValueChanged(boolean oldValidState,
boolean newValidState) {
//Do nothing
}
public void applyEditorValue() {
//Do nothing
}
};
}
/**
* Creates a new property sheet entry listener.
*/
private void createEntryListener() {
entryListener = new IPropertySheetEntryListener() {
public void childEntriesChanged(IPropertySheetEntry entry) {
// update the children of the given entry
if (entry == rootEntry) {
updateChildrenOf(entry, tree);
} else {
TreeItem item = findItem(entry);
if (item != null) {
updateChildrenOf(entry, item);
}
}
}
public void valueChanged(IPropertySheetEntry entry) {
// update the given entry
TreeItem item = findItem(entry);
if (item != null) {
updateEntry(entry, item);
}
}
public void errorMessageChanged(IPropertySheetEntry entry) {
// update the error message
setErrorMessage(entry.getErrorText());
}
};
}
/**
* Creates a new tree item, sets the given entry or category (node)in
* its user data field, and adds a listener to the node if it is an entry.
*
* @param node
* the entry or category associated with this item
* @param parent
* the parent widget
* @param index
* indicates the position to insert the item into its parent
*/
private void createItem(Object node, Widget parent, int index) {
// create the item
TreeItem item;
if (parent instanceof TreeItem) {
item = new TreeItem((TreeItem) parent, SWT.NONE, index);
} else {
item = new TreeItem((Tree) parent, SWT.NONE, index);
}
// set the user data field
item.setData(node);
// Cache the entry <-> tree item relationship
entryToItemMap.put(node, item);
// Always ensure that if the tree item goes away that it's
// removed from the cache
item.addDisposeListener(new DisposeListener() {
public void widgetDisposed(DisposeEvent e) {
Object possibleEntry = e.widget.getData();
if (possibleEntry != null)
entryToItemMap.remove(possibleEntry);
}
});
// add our listener
if (node instanceof IPropertySheetEntry) {
((IPropertySheetEntry) node)
.addPropertySheetEntryListener(entryListener);
}
// update the visual presentation
if (node instanceof IPropertySheetEntry) {
updateEntry((IPropertySheetEntry) node, item);
} else {
updateCategory((PropertySheetCategory) node, item);
}
}
/**
* Deactivate the currently active cell editor.
*/
/* package */
void deactivateCellEditor() {
treeEditor.setEditor(null, null, columnToEdit);
if (cellEditor != null) {
cellEditor.deactivate();
fireCellEditorDeactivated(cellEditor);
cellEditor.removeListener(editorListener);
cellEditor = null;
}
// clear any error message from the editor
setErrorMessage(null);
}
/**
* Sends out a selection changed event for the entry tree to all registered
* listeners.
*/
private void entrySelectionChanged() {
SelectionChangedEvent changeEvent = new SelectionChangedEvent(this,
getSelection());
fireSelectionChanged(changeEvent);
}
/**
* Return a tree item in the property sheet that has the same entry in
* its user data field as the supplied entry. Return <code>null</code> if
* there is no such item.
*
* @param entry
* the entry to serach for
* @return the TreeItem for the entry or <code>null</code> if
* there isn't one.
*/
private TreeItem findItem(IPropertySheetEntry entry) {
// Iterate through treeItems to find item
TreeItem[] items = tree.getItems();
for (int i = 0; i < items.length; i++) {
TreeItem item = items[i];
TreeItem findItem = findItem(entry, item);
if (findItem != null) {
return findItem;
}
}
return null;
}
/**
* Return a tree item in the property sheet that has the same entry in
* its user data field as the supplied entry. Return <code>null</code> if
* there is no such item.
*
* @param entry
* the entry to search for
* @param item
* the item look in
* @return the TreeItem for the entry or <code>null</code> if
* there isn't one.
*/
private TreeItem findItem(IPropertySheetEntry entry, TreeItem item) {
// If we can find the TreeItem in the cache, just return it
Object mapItem = entryToItemMap.get(entry);
if (mapItem != null && mapItem instanceof TreeItem)
return (TreeItem) mapItem;
// compare with current item
if (entry == item.getData()) {
return item;
}
// recurse over children
TreeItem[] items = item.getItems();
for (int i = 0; i < items.length; i++) {
TreeItem childItem = items[i];
TreeItem findItem = findItem(entry, childItem);
if (findItem != null) {
return findItem;
}
}
return null;
}
/**
* Notifies all registered cell editor activation listeners of a cell editor
* activation.
*
* @param activatedCellEditor
* the activated cell editor
*/
private void fireCellEditorActivated(CellEditor activatedCellEditor) {
Object[] listeners = activationListeners.getListeners();
for (int i = 0; i < listeners.length; ++i) {
((ICellEditorActivationListener) listeners[i])
.cellEditorActivated(activatedCellEditor);
}
}
/**
* Notifies all registered cell editor activation listeners of a cell editor
* deactivation.
*
* @param activatedCellEditor
* the deactivated cell editor
*/
private void fireCellEditorDeactivated(CellEditor activatedCellEditor) {
Object[] listeners = activationListeners.getListeners();
for (int i = 0; i < listeners.length; ++i) {
((ICellEditorActivationListener) listeners[i])
.cellEditorDeactivated(activatedCellEditor);
}
}
/**
* Returns the active cell editor of this property sheet viewer or
* <code>null</code> if no cell editor is active.
*
* @return the active cell editor
*/
public CellEditor getActiveCellEditor() {
return cellEditor;
}
private TreeItem[] getChildItems(Widget widget) {
if (widget instanceof Tree) {
return ((Tree) widget).getItems();
}
else if (widget instanceof TreeItem) {
return ((TreeItem) widget).getItems();
}
// shouldn't happen
return new TreeItem[0];
}
/**
* Returns the sorted children of the given category or entry
*
* @param node a category or entry
* @return the children of the given category or entry
* (element type <code>IPropertySheetEntry</code> or
* <code>PropertySheetCategory</code>)
*/
private List getChildren(Object node) {
// cast the entry or category
IPropertySheetEntry entry = null;
PropertySheetCategory category = null;
if (node instanceof IPropertySheetEntry) {
entry = (IPropertySheetEntry) node;
} else {
category = (PropertySheetCategory) node;
}
// get the child entries or categories
List children;
if (category == null) {
children = getChildren(entry);
} else {
children = getChildren(category);
}
return children;
}
/**
* Returns the child entries of the given entry
* @param entry The entry to search
*
* @return the children of the given entry (element type
* <code>IPropertySheetEntry</code>)
*/
private List getChildren(IPropertySheetEntry entry) {
// if the entry is the root and we are showing categories, and we have
// more than the
// defualt category, return the categories
if (entry == rootEntry && isShowingCategories) {
if (categories.length > 1
|| (categories.length == 1 && !categories[0]
.getCategoryName().equals(
MISCELLANEOUS_CATEGORY_NAME))) {
return Arrays.asList(categories);
}
}
// return the sorted & filtered child entries
return getSortedEntries(getFilteredEntries(entry.getChildEntries()));
}
/**
* Returns the child entries of the given category
*
* @param category The category to search
*
* @return the children of the given category (element type
* <code>IPropertySheetEntry</code>)
*/
private List getChildren(PropertySheetCategory category) {
return getSortedEntries(getFilteredEntries(category.getChildEntries()));
}
/*
* (non-Javadoc) Method declared on Viewer.
*/
public Control getControl() {
return tree;
}
/**
* Returns the entries which match the current filter.
*
* @param entries the entries to filter
* @return the entries which match the current filter
* (element type <code>IPropertySheetEntry</code>)
*/
private List getFilteredEntries(IPropertySheetEntry[] entries) {
// if no filter just return all entries
if (isShowingExpertProperties) {
return Arrays.asList(entries);
}
// check each entry for the filter
List filteredEntries = new ArrayList(entries.length);
for (int i = 0; i < entries.length; i++) {
IPropertySheetEntry entry = entries[i];
if (entry != null) {
String[] filters = entry.getFilters();
boolean expert = false;
if (filters != null) {
for (int j = 0; j < filters.length; j++) {
if (filters[j].equals(IPropertySheetEntry.FILTER_ID_EXPERT)) {
expert = true;
break;
}
}
}
if (!expert) {
filteredEntries.add(entry);
}
}
}
return filteredEntries;
}
/**
* Returns a sorted list of <code>IPropertySheetEntry</code> entries.
*
* @param unsortedEntries
* unsorted list of <code>IPropertySheetEntry</code>
* @return a sorted list of the specified entries
*/
private List getSortedEntries(List unsortedEntries) {
IPropertySheetEntry[] propertySheetEntries = (IPropertySheetEntry[]) unsortedEntries
.toArray(new IPropertySheetEntry[unsortedEntries.size()]);
sorter.sort(propertySheetEntries);
return Arrays.asList(propertySheetEntries);
}
/**
* The <code>PropertySheetViewer</code> implementation of this method
* declared on <code>IInputProvider</code> returns the objects for which
* the viewer is currently showing properties. It returns an
* <code>Object[]</code> or <code>null</code>.
*/
public Object getInput() {
return input;
}
/**
* Returns the root entry for this property sheet viewer. The root entry is
* not visible in the viewer.
*
* @return the root entry or <code>null</code>.
*/
public IPropertySheetEntry getRootEntry() {
return rootEntry;
}
/**
* The <code>PropertySheetViewer</code> implementation of this
* <code>ISelectionProvider</code> method returns the result as a
* <code>StructuredSelection</code>.
* <p>
* Note that this method only includes <code>IPropertySheetEntry</code> in
* the selection (no categories).
* </p>
*/
public ISelection getSelection() {
if (tree.getSelectionCount() == 0) {
return StructuredSelection.EMPTY;
}
TreeItem[] sel = tree.getSelection();
List entries = new ArrayList(sel.length);
for (int i = 0; i < sel.length; i++) {
TreeItem ti = sel[i];
Object data = ti.getData();
if (data instanceof IPropertySheetEntry) {
entries.add(data);
}
}
return new StructuredSelection(entries);
}
/**
* Selection in the viewer occurred. Check if there is an active cell
* editor. If yes, deactivate it and check if a new cell editor must be
* activated.
*
* @param selection
* the TreeItem that is selected
*/
private void handleSelect(TreeItem selection) {
// deactivate the current cell editor
if (cellEditor != null) {
applyEditorValue();
deactivateCellEditor();
}
if (selection == null) {
setMessage(null);
setErrorMessage(null);
} else {
Object object = selection.getData();
if (object instanceof IPropertySheetEntry) {
// get the entry for this item
IPropertySheetEntry activeEntry = (IPropertySheetEntry) object;
// display the description for the item
setMessage(activeEntry.getDescription());
// activate a cell editor on the selection
activateCellEditor(selection);
}
}
entrySelectionChanged();
}
/**
* The expand icon for a node in this viewer has been selected to collapse a
* subtree. Deactivate the cell editor
*
* @param event
* the SWT tree event
*/
private void handleTreeCollapse(TreeEvent event) {
if (cellEditor != null) {
applyEditorValue();
deactivateCellEditor();
}
}
/**
* The expand icon for a node in this viewer has been selected to expand the
* subtree. Create the children 1 level deep.
* <p>
* Note that we use a "dummy" item (no user data) to show a "+" icon beside
* an item which has children before the item is expanded now that it is
* being expanded we have to create the real child items
* </p>
*
* @param event
* the SWT tree event
*/
private void handleTreeExpand(TreeEvent event) {
createChildren(event.item);
}
/**
* Hides the categories.
*/
/* package */
void hideCategories() {
isShowingCategories = false;
categories = null;
refresh();
}
/**
* Hides the expert properties.
*/
/* package */
void hideExpert() {
isShowingExpertProperties = false;
refresh();
}
/**
* Establish this viewer as a listener on the control
*/
private void hookControl() {
// Handle selections in the Tree
// Part1: Double click only (allow traversal via keyboard without
// activation
tree.addSelectionListener(new SelectionAdapter() {
/* (non-Javadoc)
* @see org.eclipse.swt.events.SelectionListener#widgetSelected(org.eclipse.swt.events.SelectionEvent)
*/
public void widgetSelected(SelectionEvent e) {
// The viewer only owns the status line when there is
// no 'active' cell editor
if (cellEditor == null || !cellEditor.isActivated()) {
updateStatusLine(e.item);
}
}
/* (non-Javadoc)
* @see org.eclipse.swt.events.SelectionListener#widgetDefaultSelected(org.eclipse.swt.events.SelectionEvent)
*/
public void widgetDefaultSelected(SelectionEvent e) {
if (e.item instanceof TreeItem)
handleSelect((TreeItem) e.item);
}
});
// Part2: handle single click activation of cell editor
tree.addMouseListener(new MouseAdapter() {
public void mouseDown(MouseEvent event) {
// only activate if there is a cell editor
Point pt = new Point(event.x, event.y);
TreeItem item = tree.getItem(pt);
if (item != null) {
handleSelect(item);
}
}
});
// Add a tree listener to expand and collapse which
// allows for lazy creation of children
tree.addTreeListener(new TreeListener() {
public void treeExpanded(final TreeEvent event) {
handleTreeExpand(event);
}
public void treeCollapsed(final TreeEvent event) {
handleTreeCollapse(event);
}
});
// Refresh the tree when F5 pressed
tree.addKeyListener(new KeyAdapter() {
public void keyReleased(KeyEvent e) {
if (e.character == SWT.ESC) {
deactivateCellEditor();
} else if (e.keyCode == SWT.F5) {
// The following will simulate a reselect
setInput(getInput());
}
}
});
}
/**
* Update the status line based on the data of item.
* @param item
*/
protected void updateStatusLine(Widget item) {
setMessage(null);
setErrorMessage(null);
// Update the status line
if (item != null) {
if (item.getData() instanceof PropertySheetEntry) {
PropertySheetEntry psEntry = (PropertySheetEntry) item.getData();
// For entries, show the description if any, else show the label
String desc = psEntry.getDescription();
if (desc != null && desc.length() > 0) {
setMessage(psEntry.getDescription());
} else {
setMessage(psEntry.getDisplayName());
}
}
else if (item.getData() instanceof PropertySheetCategory) {
PropertySheetCategory psCat = (PropertySheetCategory) item.getData();
setMessage(psCat.getCategoryName());
}
}
}
/**
* Updates all of the items in the tree.
* <p>
* Note that this means ensuring that the tree items reflect the state of
* the model (entry tree) it does not mean telling the model to update
* itself.
* </p>
*/
public void refresh() {
if (rootEntry != null) {
updateChildrenOf(rootEntry, tree);
}
}
/**
* Removes the given cell editor activation listener from this viewer. Has
* no effect if an identical activation listener is not registered.
*
* @param listener
* a cell editor activation listener
*/
/* package */
void removeActivationListener(ICellEditorActivationListener listener) {
activationListeners.remove(listener);
}
/**
* Remove the given item from the tree. Remove our listener if the
* item's user data is a an entry then set the user data to null
*
* @param item
* the item to remove
*/
private void removeItem(TreeItem item) {
Object data = item.getData();
if (data instanceof IPropertySheetEntry) {
((IPropertySheetEntry) data)
.removePropertySheetEntryListener(entryListener);
}
item.setData(null);
// We explicitly remove the entry from the map since it's data has been null'd
entryToItemMap.remove(data);
item.dispose();
}
/**
* Reset the selected properties to their default values.
*/
public void resetProperties() {
// Determine the selection
IStructuredSelection selection = (IStructuredSelection) getSelection();
// Iterate over entries and reset them
Iterator itr = selection.iterator();
while (itr.hasNext()) {
((IPropertySheetEntry) itr.next()).resetPropertyValue();
}
}
/**
* Sets the error message to be displayed in the status line.
*
* @param errorMessage
* the message to be displayed, or <code>null</code>
*/
private void setErrorMessage(String errorMessage) {
// show the error message
if (statusLineManager != null) {
statusLineManager.setErrorMessage(errorMessage);
}
}
/**
* The <code>PropertySheetViewer</code> implementation of this method
* declared on <code>Viewer</code> method sets the objects for which the
* viewer is currently showing properties.
* <p>
* The input must be an <code>Object[]</code> or <code>null</code>.
* </p>
*
* @param newInput
* the input of this viewer, or <code>null</code> if none
*/
public void setInput(Object newInput) {
// need to save any changed value when user clicks elsewhere
applyEditorValue();
// deactivate our cell editor
deactivateCellEditor();
// set the new input to the root entry
input = (Object[]) newInput;
if (input == null) {
input = new Object[0];
}
if (rootEntry != null) {
rootEntry.setValues(input);
// ensure first level children are visible
updateChildrenOf(rootEntry, tree);
}
// Clear any previous StatusLine messages
updateStatusLine(null);
}
/**
* Sets the message to be displayed in the status line. This message is
* displayed when there is no error message.
*
* @param message
* the message to be displayed, or <code>null</code>
*/
private void setMessage(String message) {
// show the message
if (statusLineManager != null) {
statusLineManager.setMessage(message);
}
}
/**
* Sets the root entry for this property sheet viewer. The root entry is not
* visible in the viewer.
*
* @param root
* the root entry
*/
public void setRootEntry(IPropertySheetEntry root) {
// If we have a root entry, remove our entry listener
if (rootEntry != null) {
rootEntry.removePropertySheetEntryListener(entryListener);
}
rootEntry = root;
// Set the root as user data on the tree
tree.setData(rootEntry);
// Add an IPropertySheetEntryListener to listen for entry change
// notifications
rootEntry.addPropertySheetEntryListener(entryListener);
// Pass our input to the root, this will trigger entry change
// callbacks to update this viewer
setInput(input);
}
/*
* (non-Javadoc)
* @see org.eclipse.jface.viewers.Viewer#setSelection(org.eclipse.jface.viewers.ISelection, boolean)
*/
public void setSelection(ISelection selection, boolean reveal) {
//Do nothing by default
}
/**
* Sets the sorter for this viewer.
* <p>
* The default sorter sorts categories and entries alphabetically.
* A viewer update needs to be triggered after the sorter has changed.
* </p>
* @param sorter the sorter to set (<code>null</code> will reset to the
* default sorter)
* @since 3.1
*/
public void setSorter(PropertySheetSorter sorter) {
if (null == sorter) {
sorter = new PropertySheetSorter();
}
this.sorter = sorter;
}
/**
* Sets the status line manager this view will use to show messages.
*
* @param manager
* the status line manager
*/
public void setStatusLineManager(IStatusLineManager manager) {
statusLineManager = manager;
}
/**
* Shows the categories.
*/
/* package */
void showCategories() {
isShowingCategories = true;
refresh();
}
/**
* Shows the expert properties.
*/
/* package */
void showExpert() {
isShowingExpertProperties = true;
refresh();
}
/**
* Updates the categories. Reuses old categories if possible.
*/
private void updateCategories() {
// lazy initialize
if (categories == null) {
categories = new PropertySheetCategory[0];
}
// get all the filtered child entries of the root
List childEntries = getFilteredEntries(rootEntry.getChildEntries());
// if the list is empty, just set an empty categories array
if (childEntries.size() == 0) {
categories = new PropertySheetCategory[0];
return;
}
// cache old categories by their descriptor name
Map categoryCache = new HashMap(categories.length * 2 + 1);
for (int i = 0; i < categories.length; i++) {
categories[i].removeAllEntries();
categoryCache.put(categories[i].getCategoryName(), categories[i]);
}
// create a list of categories to get rid of
List categoriesToRemove = new ArrayList(Arrays.asList(categories));
// Determine the categories
PropertySheetCategory misc = (PropertySheetCategory) categoryCache
.get(MISCELLANEOUS_CATEGORY_NAME);
if (misc == null) {
misc = new PropertySheetCategory(MISCELLANEOUS_CATEGORY_NAME);
}
boolean addMisc = false;
for (int i = 0; i < childEntries.size(); i++) {
IPropertySheetEntry childEntry = (IPropertySheetEntry) childEntries
.get(i);
String categoryName = childEntry.getCategory();
if (categoryName == null) {
misc.addEntry(childEntry);
addMisc = true;
categoriesToRemove.remove(misc);
} else {
PropertySheetCategory category = (PropertySheetCategory) categoryCache
.get(categoryName);
if (category == null) {
category = new PropertySheetCategory(categoryName);
categoryCache.put(categoryName, category);
} else {
categoriesToRemove.remove(category);
}
category.addEntry(childEntry);
}
}
// Add the PSE_MISC category if it has entries
if (addMisc) {
categoryCache.put(MISCELLANEOUS_CATEGORY_NAME, misc);
}
// Sort the categories.
// Rather than just sorting categoryCache.values(), we'd like the original order to be preserved
// (with misc added at the end, if needed) before passing to the sorter.
ArrayList categoryList = new ArrayList();
Set seen = new HashSet(childEntries.size());
for (int i = 0; i < childEntries.size(); i++) {
IPropertySheetEntry childEntry = (IPropertySheetEntry) childEntries
.get(i);
String categoryName = childEntry.getCategory();
if (categoryName != null && !seen.contains(categoryName)) {
seen.add(categoryName);
PropertySheetCategory category = (PropertySheetCategory) categoryCache
.get(categoryName);
if (category != null) {
categoryList.add(category);
}
}
}
if (addMisc && !seen.contains(MISCELLANEOUS_CATEGORY_NAME)) {
categoryList.add(misc);
}
PropertySheetCategory[] categoryArray = (PropertySheetCategory[]) categoryList
.toArray(new PropertySheetCategory[categoryList.size()]);
sorter.sort(categoryArray);
categories = categoryArray;
}
/**
* Update the category (but not its parent or children).
*
* @param category
* the category to update
* @param item
* the tree item for the given entry
*/
private void updateCategory(PropertySheetCategory category,
TreeItem item) {
// ensure that backpointer is correct
item.setData(category);
// Update the map accordingly
entryToItemMap.put(category, item);
// Update the name and value columns
item.setText(0, category.getCategoryName());
item.setText(1, ""); //$NON-NLS-1$
// update the "+" icon
if (category.getAutoExpand()) {
// we auto expand categories when they first appear
createChildren(item);
item.setExpanded(true);
category.setAutoExpand(false);
} else {
// we do not want to auto expand categories if the user has
// collpased them
updatePlus(category, item);
}
}
/**
* Update the child entries or categories of the given entry or category. If
* the given node is the root entry and we are showing categories then the
* child entries are categories, otherwise they are entries.
*
* @param node
* the entry or category whose children we will update
* @param widget
* the widget for the given entry, either a
* <code>TableTree</code> if the node is the root node or a
* <code>TreeItem</code> otherwise.
*/
private void updateChildrenOf(Object node, Widget widget) {
// cast the entry or category
IPropertySheetEntry entry = null;
PropertySheetCategory category = null;
if (node instanceof IPropertySheetEntry) {
entry = (IPropertySheetEntry) node;
} else {
category = (PropertySheetCategory) node;
}
// get the current child tree items
TreeItem[] childItems = getChildItems(widget);
// optimization! prune collapsed subtrees
TreeItem item = null;
if (widget instanceof TreeItem) {
item = (TreeItem) widget;
}
if (item != null && !item.getExpanded()) {
// remove all children
for (int i = 0; i < childItems.length; i++) {
if (childItems[i].getData() != null) {
removeItem(childItems[i]);
}
}
// append a dummy if necessary
if (category != null || entry.hasChildEntries()) {
// may already have a dummy
// It is either a category (which always has at least one child)
// or an entry with chidren.
// Note that this test is not perfect, if we have filtering on
// then there in fact may be no entires to show when the user
// presses the "+" expand icon. But this is an acceptable
// compromise.
childItems = getChildItems(widget);
if (childItems.length == 0) {
new TreeItem(item, SWT.NULL);
}
}
return;
}
// get the child entries or categories
if (node == rootEntry && isShowingCategories) {
// update the categories
updateCategories();
}
List children = getChildren(node);
// remove items
Set set = new HashSet(childItems.length * 2 + 1);
for (int i = 0; i < childItems.length; i++) {
Object data = childItems[i].getData();
if (data != null) {
Object e = data;
int ix = children.indexOf(e);
if (ix < 0) { // not found
removeItem(childItems[i]);
} else { // found
set.add(e);
}
} else if (data == null) { // the dummy
childItems[i].dispose();
}
}
// WORKAROUND
int oldCnt = -1;
if (widget == tree) {
oldCnt = tree.getItemCount();
}
// add new items
int newSize = children.size();
for (int i = 0; i < newSize; i++) {
Object el = children.get(i);
if (!set.contains(el)) {
createItem(el, widget, i);
}
}
// WORKAROUND
if (widget == tree && oldCnt == 0 && tree.getItemCount() == 1) {
tree.setRedraw(false);
tree.setRedraw(true);
}
// get the child tree items after our changes
childItems = getChildItems(widget);
// update the child items
// This ensures that the children are in the correct order
// are showing the correct values.
for (int i = 0; i < newSize; i++) {
Object el = children.get(i);
if (el instanceof IPropertySheetEntry) {
updateEntry((IPropertySheetEntry) el, childItems[i]);
} else {
updateCategory((PropertySheetCategory) el, childItems[i]);
updateChildrenOf(el, childItems[i]);
}
}
// The tree's original selection may no longer apply after the update,
// so fire the selection changed event.
entrySelectionChanged();
}
/**
* Update the given entry (but not its children or parent)
*
* @param entry
* the entry we will update
* @param item
* the tree item for the given entry
*/
private void updateEntry(IPropertySheetEntry entry, TreeItem item) {
// ensure that backpointer is correct
item.setData(entry);
// update the map accordingly
entryToItemMap.put(entry, item);
// update the name and value columns
item.setText(0, entry.getDisplayName());
item.setText(1, entry.getValueAsString());
Image image = entry.getImage();
if (item.getImage(1) != image) {
item.setImage(1, image);
}
// update the "+" icon
updatePlus(entry, item);
}
/**
* Updates the "+"/"-" icon of the tree item from the given entry
* or category.
*
* @param node the entry or category
* @param item the tree item being updated
*/
private void updatePlus(Object node, TreeItem item) {
// cast the entry or category
IPropertySheetEntry entry = null;
PropertySheetCategory category = null;
if (node instanceof IPropertySheetEntry) {
entry = (IPropertySheetEntry) node;
} else {
category = (PropertySheetCategory) node;
}
boolean hasPlus = item.getItemCount() > 0;
boolean needsPlus = category != null || entry.hasChildEntries();
boolean removeAll = false;
boolean addDummy = false;
if (hasPlus != needsPlus) {
if (needsPlus) {
addDummy = true;
} else {
removeAll = true;
}
}
if (removeAll) {
// remove all children
TreeItem[] items = item.getItems();
for (int i = 0; i < items.length; i++) {
removeItem(items[i]);
}
}
if (addDummy) {
new TreeItem(item, SWT.NULL); // append a dummy to create the
// plus sign
}
}
}