import org.eclipse.jface.resource.JFaceResources;
import org.eclipse.jface.resource.LocalResourceManager;
import org.eclipse.jface.resource.ResourceManager;
-import org.eclipse.jface.util.OpenStrategy;
import org.eclipse.jface.viewers.IPostSelectionProvider;
import org.eclipse.jface.viewers.ISelection;
import org.eclipse.jface.viewers.ISelectionChangedListener;
import org.eclipse.swt.events.KeyListener;
import org.eclipse.swt.events.MouseEvent;
import org.eclipse.swt.events.MouseListener;
+import org.eclipse.swt.events.SelectionEvent;
import org.eclipse.swt.events.SelectionListener;
import org.eclipse.swt.graphics.Color;
import org.eclipse.swt.graphics.Font;
import org.simantics.utils.ui.jface.BasePostSelectionProvider;
import org.simantics.utils.ui.widgets.VetoingEventHandler;
import org.simantics.utils.ui.workbench.WorkbenchUtils;
-import org.slf4j.Logger;
-import org.slf4j.LoggerFactory;
import gnu.trove.map.hash.THashMap;
import gnu.trove.procedure.TObjectProcedure;
*/
class GraphExplorerImpl extends GraphExplorerImplBase implements Listener, GraphExplorer /*, IPostSelectionProvider*/ {
- private static final Logger LOGGER = LoggerFactory.getLogger(GraphExplorerImpl.class);
-
private static class GraphExplorerPostSelectionProvider implements IPostSelectionProvider {
private GraphExplorerImpl ge;
public static final int DEFAULT_MAX_CHILDREN = 1000;
+ private static final long POST_SELECTION_DELAY = 300;
+
+ /**
+ * The time in milliseconds that must elapse between consecutive
+ * {@link Tree} {@link SelectionListener#widgetSelected(SelectionEvent)}
+ * invocations in order for this class to construct a new selection.
+ *
+ * <p>
+ * This is done because selection construction can be very expensive as the
+ * selected set grows larger when the user is pressing shift+arrow keys.
+ * GraphExplorerImpl will naturally listen to all changes in the tree
+ * selection, but as an optimization will not construct new
+ * StructuredSelection instances for every selection change event. A new
+ * selection will be constructed and set only if the selection hasn't
+ * changed for the amount of milliseconds specified by this constant.
+ */
+ private static final long SELECTION_CHANGE_QUIET_TIME = 150;
+
private final IThreadWorkQueue thread;
/**
Tree tree;
@SuppressWarnings({ "rawtypes" })
- final HashMap<CacheKey<?>, NodeQueryProcessor> processors = new HashMap<>();
+ final HashMap<CacheKey<?>, NodeQueryProcessor> processors = new HashMap<CacheKey<?>, NodeQueryProcessor>();
@SuppressWarnings({ "rawtypes" })
- final HashMap<Object, PrimitiveQueryProcessor> primitiveProcessors = new HashMap<>();
+ final HashMap<Object, PrimitiveQueryProcessor> primitiveProcessors = new HashMap<Object, PrimitiveQueryProcessor>();
@SuppressWarnings({ "rawtypes" })
- final HashMap<Class, DataSource> dataSources = new HashMap<>();
+ final HashMap<Class, DataSource> dataSources = new HashMap<Class, DataSource>();
class GraphExplorerContext extends AbstractDisposable implements IGraphExplorerContext {
// This is for query debugging only.
* <code>null</code> there's nothing scheduled yet in which case
* scheduling can commence. Otherwise the update should be skipped.
*/
- AtomicReference<Runnable> currentQueryUpdater = new AtomicReference<>();
+ AtomicReference<Runnable> currentQueryUpdater = new AtomicReference<Runnable>();
/**
* Keeps track of nodes that have already been auto-expanded. After
* expanded state after that. This makes it possible for the user to
* close auto-expanded nodes.
*/
- Map<NodeContext, Boolean> autoExpanded = new WeakHashMap<>();
+ Map<NodeContext, Boolean> autoExpanded = new WeakHashMap<NodeContext, Boolean>();
@Override
GraphExplorerContext explorerContext = new GraphExplorerContext();
- HashSet<TreeItem> pendingItems = new HashSet<>();
+ HashSet<TreeItem> pendingItems = new HashSet<TreeItem>();
boolean updating = false;
boolean pendingRoot = false;
* Access this map only in the SWT thread to keep it thread-safe.
* </p>
*/
- BijectionMap<NodeContext, TreeItem> contextToItem = new BijectionMap<>();
+ BijectionMap<NodeContext, TreeItem> contextToItem = new BijectionMap<NodeContext, TreeItem>();
/**
* Columns of the UI viewer. Use {@link #setColumns(Column[])} to
* initialize.
*/
Column[] columns = new Column[0];
- Map<String, Integer> columnKeyToIndex = new HashMap<>();
+ Map<String, Integer> columnKeyToIndex = new HashMap<String, Integer>();
boolean refreshingColumnSizes = false;
boolean columnsAreVisible = true;
/** Set to true when the Tree widget is disposed. */
private boolean disposed = false;
- private final CopyOnWriteArrayList<FocusListener> focusListeners = new CopyOnWriteArrayList<>();
- private final CopyOnWriteArrayList<MouseListener> mouseListeners = new CopyOnWriteArrayList<>();
- private final CopyOnWriteArrayList<KeyListener> keyListeners = new CopyOnWriteArrayList<>();
+ private final CopyOnWriteArrayList<FocusListener> focusListeners = new CopyOnWriteArrayList<FocusListener>();
+ private final CopyOnWriteArrayList<MouseListener> mouseListeners = new CopyOnWriteArrayList<MouseListener>();
+ private final CopyOnWriteArrayList<KeyListener> keyListeners = new CopyOnWriteArrayList<KeyListener>();
/** Selection provider */
- private GraphExplorerPostSelectionProvider postSelectionProvider = new GraphExplorerPostSelectionProvider(this);
+ private GraphExplorerPostSelectionProvider postSelectionProvider = new GraphExplorerPostSelectionProvider(this);
protected BasePostSelectionProvider selectionProvider = new BasePostSelectionProvider();
protected SelectionDataResolver selectionDataResolver;
protected SelectionFilter selectionFilter;
* item was a part of the current selection in which case the selection must
* be updated.
*/
- private final Map<TreeItem, NodeContext> selectedItems = new HashMap<>();
+ private final Map<TreeItem, NodeContext> selectedItems = new HashMap<TreeItem, NodeContext>();
/**
* TODO: specify what this is for
*/
- private final Set<NodeContext> selectionRefreshContexts = new HashSet<>();
+ private final Set<NodeContext> selectionRefreshContexts = new HashSet<NodeContext>();
/**
* If this field is non-null, it means that if {@link #setData(Event)}
*
* @see #setPendingImages(IProgressMonitor)
*/
- Map<TreeItem, ImageTask> imageTasks = new THashMap<>();
+ Map<TreeItem, ImageTask> imageTasks = new THashMap<TreeItem, ImageTask>();
/**
* A state flag indicating whether the vertical scroll bar was visible for
updateCounter = 0;
uiUpdateScheduler.schedule(this, 50, TimeUnit.MILLISECONDS);
} else {
- tree.getDisplay().asyncExec(new UpdateRunner(GraphExplorerImpl.this));
+ tree.getDisplay().asyncExec(new UpdateRunner(GraphExplorerImpl.this, GraphExplorerImpl.this.explorerContext));
}
}
* modified. These are used internally to prevent duplicate edits from being
* initiated which should always be a sensible thing to do.
*/
- private Set<NodeContext> currentlyModifiedNodes = new THashSet<>();
+ private Set<NodeContext> currentlyModifiedNodes = new THashSet<NodeContext>();
private final TreeEditor editor;
private Color invalidModificationColor = null;
editor.setEditor(combo, item, columnIndex);
combo.setFocus();
- combo.setListVisible(true);
GraphExplorerImpl.this.reconfigureTreeEditorForText(item, columnIndex, combo, combo.getText(), SWT.DEFAULT, 0, 0);
// Removed in comboListener
currentlyModifiedNodes.add(context);
+ combo.setListVisible(true);
//System.out.println("START ENUMERATION EDITING: " + item);
}
// Keep track of the previous single selection to help
// decide whether to start editing a tree node on mouse
// downs or not.
- tree.addListener(SWT.Selection, event -> {
- TreeItem[] selection = tree.getSelection();
- if (selection.length == 1) {
- //for (TreeItem item : selection)
- // System.out.println("selection: " + item);
- previousSingleSelection = selection[0];
- } else {
- previousSingleSelection = null;
+ tree.addListener(SWT.Selection, new Listener() {
+ @Override
+ public void handleEvent(Event event) {
+ TreeItem[] selection = tree.getSelection();
+ if (selection.length == 1) {
+ //for (TreeItem item : selection)
+ // System.out.println("selection: " + item);
+ previousSingleSelection = selection[0];
+ } else {
+ previousSingleSelection = null;
+ }
}
});
};
tree.addListener(SWT.MouseDown, mouseEditListener);
tree.addListener(SWT.DragDetect, mouseEditListener);
- tree.addListener(SWT.DragDetect, event -> {
- Point test = new Point(event.x, event.y);
- TreeItem item = tree.getItem(test);
- if(item != null) {
- for(int i=0;i<tree.getColumnCount();i++) {
- Rectangle rect = item.getBounds(i);
- if(rect.contains(test)) {
- tree.setData(KEY_DRAG_COLUMN, i);
- return;
+ tree.addListener(SWT.DragDetect, new Listener() {
+ @Override
+ public void handleEvent(Event event) {
+ Point test = new Point(event.x, event.y);
+ TreeItem item = tree.getItem(test);
+ if(item != null) {
+ for(int i=0;i<tree.getColumnCount();i++) {
+ Rectangle rect = item.getBounds(i);
+ if(rect.contains(test)) {
+ tree.setData(KEY_DRAG_COLUMN, i);
+ return;
+ }
}
}
+ tree.setData(KEY_DRAG_COLUMN, -1);
}
- tree.setData(KEY_DRAG_COLUMN, -1);
});
- tree.addListener(SWT.MouseMove, event -> {
- Point test = new Point(event.x, event.y);
- TreeItem item = tree.getItem(test);
- if(item != null) {
- for(int i=0;i<tree.getColumnCount();i++) {
- Rectangle rect = item.getBounds(i);
- if(rect.contains(test)) {
- transientState.setActiveColumn(i);
- return;
+ tree.addListener(SWT.MouseMove, new Listener() {
+ @Override
+ public void handleEvent(Event event) {
+ Point test = new Point(event.x, event.y);
+ TreeItem item = tree.getItem(test);
+ if(item != null) {
+ for(int i=0;i<tree.getColumnCount();i++) {
+ Rectangle rect = item.getBounds(i);
+ if(rect.contains(test)) {
+ transientState.setActiveColumn(i);
+ return;
+ }
}
}
+ transientState.setActiveColumn(null);
}
- transientState.setActiveColumn(null);
});
// Add focus/mouse/key listeners for supporting the respective
}
});
- OpenStrategy os = new OpenStrategy(tree);
- os.addSelectionListener(SelectionListener.widgetSelectedAdapter(e -> {
- ISelection s = resetSelectionFromWidget();
- if (s != null) {
- LOGGER.trace("Fire selection change: {}", s);
- selectionProvider.fireSelection(s);
+ // Add a tree selection listener for keeping the selection of
+ // GraphExplorer's ISelectionProvider up-to-date.
+ tree.addSelectionListener(new SelectionListener() {
+ @Override
+ public void widgetDefaultSelected(SelectionEvent e) {
+ widgetSelected(e);
}
- }));
- os.addPostSelectionListener(SelectionListener.widgetSelectedAdapter(e -> {
- LOGGER.trace("Fire post-selection change: {}", selectionProvider.getSelection());
- resetSelectionFromWidgetAndFirePostSelection(true);
- }));
+ @Override
+ public void widgetSelected(SelectionEvent e) {
+ widgetSelectionChanged(false);
+ }
+ });
// This listener takes care of updating the set of currently selected
// TreeItem instances. This set is needed because we need to know in
}
/**
- * @return the new selection if it was different from the old selection in
- * {@link #selectionProvider}
+ * Mod count for delaying post selection changed events.
*/
- private ISelection resetSelectionFromWidget() {
- ISelection widgetSelection = getWidgetSelection();
-// System.out.println("resetSelection()");
-// System.out.println(" provider selection: " + selectionProvider.getSelection());
-// System.out.println(" widget selection: " + widgetSelection);
- boolean equals = selectionProvider.selectionEquals(widgetSelection);
- selectionProvider.setSelectionWithoutFiring(widgetSelection);
- return equals ? null : widgetSelection;
- }
+ int postSelectionModCount = 0;
+
+ /**
+ * Last tree selection modification time for implementing a quiet
+ * time for selection changes.
+ */
+ long lastSelectionModTime = System.currentTimeMillis() - 10000;
/**
- * @return the new selection if it was different from the old selection in
- * {@link #selectionProvider}
+ * Current target time for the selection to be set. Calculated
+ * according to the set quiet time and last selection modification
+ * time.
*/
- private boolean resetSelectionFromWidgetAndFirePostSelection(boolean force) {
- ISelection s = resetSelectionFromWidget();
- boolean fire = s != null || force;
- if (fire) {
- //System.out.println("FIRING POST-SELECTION: " + selectionProvider.getSelection());
- selectionProvider.firePostSelection(selectionProvider.getSelection());
+ long selectionSetTargetTime = 0;
+
+ /**
+ * <code>true</code> if delayed selection runnable is current scheduled or
+ * running.
+ */
+ boolean delayedSelectionScheduled = false;
+
+ Runnable SELECTION_DELAY = new Runnable() {
+ @Override
+ public void run() {
+ if (tree.isDisposed())
+ return;
+ long now = System.currentTimeMillis();
+ long waitTimeLeft = selectionSetTargetTime - now;
+ if (waitTimeLeft > 0) {
+ // Not enough quiet time, reschedule.
+ delayedSelectionScheduled = true;
+ tree.getDisplay().timerExec((int) waitTimeLeft, this);
+ } else {
+ // Time to perform selection, stop rescheduling.
+ delayedSelectionScheduled = false;
+ resetSelection();
+ }
}
- return fire;
+ };
+
+ private void widgetSelectionChanged(boolean forceSelectionChange) {
+ long modTime = System.currentTimeMillis();
+ long delta = modTime - lastSelectionModTime;
+ lastSelectionModTime = modTime;
+ if (!forceSelectionChange && delta < SELECTION_CHANGE_QUIET_TIME) {
+ long msToWait = SELECTION_CHANGE_QUIET_TIME - delta;
+ selectionSetTargetTime = modTime + msToWait;
+ if (!delayedSelectionScheduled) {
+ delayedSelectionScheduled = true;
+ tree.getDisplay().timerExec((int) msToWait, SELECTION_DELAY);
+ }
+ // Make sure that post selection change events do not fire.
+ ++postSelectionModCount;
+ return;
+ }
+
+ // Immediate selection reconstruction.
+ resetSelection();
}
+ private void resetSelection() {
+ final ISelection selection = getWidgetSelection();
+
+ //System.out.println("resetSelection(" + postSelectionModCount + ")");
+ //System.out.println(" provider selection: " + selectionProvider.getSelection());
+ //System.out.println(" widget selection: " + selection);
+
+ selectionProvider.setAndFireNonEqualSelection(selection);
+
+ // Implement deferred firing of post selection events
+ final int count = ++postSelectionModCount;
+ //System.out.println("[" + System.currentTimeMillis() + "] scheduling postSelectionChanged " + count + ": " + selection);
+ ThreadUtils.getNonBlockingWorkExecutor().schedule(new Runnable() {
+ @Override
+ public void run() {
+ int newCount = postSelectionModCount;
+ // Don't publish selection yet, there's another change incoming.
+ //System.out.println("[" + System.currentTimeMillis() + "] checking post selection publish: " + count + " vs. " + newCount + ": " + selection);
+ if (newCount != count)
+ return;
+ //System.out.println("[" + System.currentTimeMillis() + "] " + count + " count equals, firing post selection listeners: " + selection);
+
+ if (tree.isDisposed())
+ return;
+
+ //System.out.println("scheduling fire post selection changed: " + selection);
+ tree.getDisplay().asyncExec(new Runnable() {
+ @Override
+ public void run() {
+ if (tree.isDisposed() || selectionProvider == null)
+ return;
+ //System.out.println("firing post selection changed: " + selection);
+ selectionProvider.firePostSelection(selection);
+ }
+ });
+ }
+ }, POST_SELECTION_DELAY, TimeUnit.MILLISECONDS);
+ }
+
protected void setDefaultProcessors() {
// Add a simple IMAGER query processor that always returns null.
// With this processor no images will ever be shown.
// System.out.println("MODCOUNT: " + modCount + " vs. " + count);
if (modCount != count)
return;
- resetSelectionFromWidgetAndFirePostSelection(false);
+ widgetSelectionChanged(true);
}
});
}
//System.out.println("NodeContext path : " + contexts);
NodeContext head = tryFind(contexts[position]);
-
+ // tryFind may return null for positions, that actually have NodeContext.
+ if (head == null)
+ return false;
+
if(position == contexts.length-1) {
return select(head);