We do have got preference page:
public class PreferencePage extends FieldEditorPreferencePage implements IWorkbenchPreferencePage
{
// another preferences...
// add checkbox - enable export path setting
Composite exportPathControl = getFieldEditorParent();
exportPathC = new BooleanFieldEditor(PreferenceConstants.P_SETEXPORTPATHPREFERENCEPAGE, SetExportPathStrPref, exportPathControl);
addField(exportPathC);
boolean enableSetExportPathControl = Activator.getDefault().
getPreferenceStore().getBoolean(PreferenceConstants.P_SETEXPORTPATHPREFERENCEPAGE);
boolean checked = exportPathC.getBooleanValue();
// Path
setExportPathControl = getFieldEditorParent();
browserFE = new CustomDirectoryFieldEditor(PreferenceConstants.P_EXPORTPATHPREFERENCEPAGE,
ExportPathStrPref, setExportPathControl ,enableSetExportPathControl);
browserFE.setEmptyStringAllowed(false);
addField(browserFE);
// enable/disable export path DirectoryFieldEditor according to exportPathC
browserFE.setEnabled(enableSetExportPathControl, setExportPathControl);
((Button) exportPathC.getDescriptionControl(exportPathControl)).addSelectionListener(exportPathControlListener());
}
We do need avoid of checking browserFE if is disabled (exportPathC is deselected). We handled error message with browserFE.enableValidation(setExportPathEnabled):
// enable/disable possibility to set path according BooleanFieldEditor exportPathC
private SelectionListener exportPathControlListener()
{
return new SelectionListener()
{
#Override
public void widgetSelected(SelectionEvent event)
{
if (event.widget instanceof Button)
{
Boolean setExportPathEnabled = ((Button) event.widget).getSelection();
browserFE.setEnabled(setExportPathEnabled, setExportPathControl);
browserFE.enableValidation(setExportPathEnabled);
browserFE.checkState();
}
}
#Override
public void widgetDefaultSelected(SelectionEvent e)
{
widgetSelected(e);
}
};
}
But how to enable Apply button?
There is org.eclipse.jface.preference.FieldEditorPreferencePage.checkState(), but protected.
We could override org.eclipse.jface.preference.PreferencePage.isValid() and set it's output to true, but what is more paths are wrong? We do knot know, which path causes trouble, org.eclipse.jface.preference.FieldEditorPreferencePage.invalidFieldEditor is private as well.
Any idea? Thanks for any hint!!
I want the message box to appear immediately after the user changes the value in the textfield. Currently, I need to hit the enter key to get the message box to pop out. Is there anything wrong with my code?
textField.addActionListener(new java.awt.event.ActionListener() {
public void actionPerformed(java.awt.event.ActionEvent e) {
if (Integer.parseInt(textField.getText())<=0){
JOptionPane.showMessageDialog(null,
"Error: Please enter number bigger than 0", "Error Message",
JOptionPane.ERROR_MESSAGE);
}
}
}
Any help would be appreciated!
Add a listener to the underlying Document, which is automatically created for you.
// Listen for changes in the text
textField.getDocument().addDocumentListener(new DocumentListener() {
public void changedUpdate(DocumentEvent e) {
warn();
}
public void removeUpdate(DocumentEvent e) {
warn();
}
public void insertUpdate(DocumentEvent e) {
warn();
}
public void warn() {
if (Integer.parseInt(textField.getText())<=0){
JOptionPane.showMessageDialog(null,
"Error: Please enter number bigger than 0", "Error Message",
JOptionPane.ERROR_MESSAGE);
}
}
});
The usual answer to this is "use a DocumentListener". However, I always find that interface cumbersome. Truthfully the interface is over-engineered. It has three methods, for insertion, removal, and replacement of text, when it only needs one method: replacement. (An insertion can be viewed as a replacement of no text with some text, and a removal can be viewed as a replacement of some text with no text.)
Usually all you want is to know is when the text in the box has changed, so a typical DocumentListener implementation has the three methods calling one method.
Therefore I made the following utility method, which lets you use a simpler ChangeListener rather than a DocumentListener. (It uses Java 8's lambda syntax, but you can adapt it for old Java if needed.)
/**
* Installs a listener to receive notification when the text of any
* {#code JTextComponent} is changed. Internally, it installs a
* {#link DocumentListener} on the text component's {#link Document},
* and a {#link PropertyChangeListener} on the text component to detect
* if the {#code Document} itself is replaced.
*
* #param text any text component, such as a {#link JTextField}
* or {#link JTextArea}
* #param changeListener a listener to receieve {#link ChangeEvent}s
* when the text is changed; the source object for the events
* will be the text component
* #throws NullPointerException if either parameter is null
*/
public static void addChangeListener(JTextComponent text, ChangeListener changeListener) {
Objects.requireNonNull(text);
Objects.requireNonNull(changeListener);
DocumentListener dl = new DocumentListener() {
private int lastChange = 0, lastNotifiedChange = 0;
#Override
public void insertUpdate(DocumentEvent e) {
changedUpdate(e);
}
#Override
public void removeUpdate(DocumentEvent e) {
changedUpdate(e);
}
#Override
public void changedUpdate(DocumentEvent e) {
lastChange++;
SwingUtilities.invokeLater(() -> {
if (lastNotifiedChange != lastChange) {
lastNotifiedChange = lastChange;
changeListener.stateChanged(new ChangeEvent(text));
}
});
}
};
text.addPropertyChangeListener("document", (PropertyChangeEvent e) -> {
Document d1 = (Document)e.getOldValue();
Document d2 = (Document)e.getNewValue();
if (d1 != null) d1.removeDocumentListener(dl);
if (d2 != null) d2.addDocumentListener(dl);
dl.changedUpdate(null);
});
Document d = text.getDocument();
if (d != null) d.addDocumentListener(dl);
}
Unlike with adding a listener directly to the document, this handles the (uncommon) case that you install a new document object on a text component. Additionally, it works around the problem mentioned in Jean-Marc Astesana's answer, where the document sometimes fires more events than it needs to.
Anyway, this method lets you replace annoying code which looks like this:
someTextBox.getDocument().addDocumentListener(new DocumentListener() {
#Override
public void insertUpdate(DocumentEvent e) {
doSomething();
}
#Override
public void removeUpdate(DocumentEvent e) {
doSomething();
}
#Override
public void changedUpdate(DocumentEvent e) {
doSomething();
}
});
With:
addChangeListener(someTextBox, e -> doSomething());
Code released to public domain. Have fun!
Just create an interface that extends DocumentListener and implements all DocumentListener methods:
#FunctionalInterface
public interface SimpleDocumentListener extends DocumentListener {
void update(DocumentEvent e);
#Override
default void insertUpdate(DocumentEvent e) {
update(e);
}
#Override
default void removeUpdate(DocumentEvent e) {
update(e);
}
#Override
default void changedUpdate(DocumentEvent e) {
update(e);
}
}
and then:
jTextField.getDocument().addDocumentListener(new SimpleDocumentListener() {
#Override
public void update(DocumentEvent e) {
// Your code here
}
});
or you can even use lambda expression:
jTextField.getDocument().addDocumentListener((SimpleDocumentListener) e -> {
// Your code here
});
Be aware that when the user modify the field, the DocumentListener can, sometime, receive two events. For instance if the user selects the whole field content, then press a key, you'll receive a removeUpdate (all the content is remove) and an insertUpdate.
In your case, I don't think it is a problem but, generally speaking, it is.
Unfortunately, it seems there's no way to track the content of the textField without subclassing JTextField.
Here is the code of a class that provide a "text" property :
package net.yapbam.gui.widget;
import javax.swing.JTextField;
import javax.swing.text.AttributeSet;
import javax.swing.text.BadLocationException;
import javax.swing.text.PlainDocument;
/** A JTextField with a property that maps its text.
* <br>I've found no way to track efficiently the modifications of the text of a JTextField ... so I developed this widget.
* <br>DocumentListeners are intended to do it, unfortunately, when a text is replace in a field, the listener receive two events:<ol>
* <li>One when the replaced text is removed.</li>
* <li>One when the replacing text is inserted</li>
* </ul>
* The first event is ... simply absolutely misleading, it corresponds to a value that the text never had.
* <br>Anoter problem with DocumentListener is that you can't modify the text into it (it throws IllegalStateException).
* <br><br>Another way was to use KeyListeners ... but some key events are throw a long time (probably the key auto-repeat interval)
* after the key was released. And others events (for example a click on an OK button) may occurs before the listener is informed of the change.
* <br><br>This widget guarantees that no "ghost" property change is thrown !
* #author Jean-Marc Astesana
* <BR>License : GPL v3
*/
public class CoolJTextField extends JTextField {
private static final long serialVersionUID = 1L;
public static final String TEXT_PROPERTY = "text";
public CoolJTextField() {
this(0);
}
public CoolJTextField(int nbColumns) {
super("", nbColumns);
this.setDocument(new MyDocument());
}
#SuppressWarnings("serial")
private class MyDocument extends PlainDocument {
private boolean ignoreEvents = false;
#Override
public void replace(int offset, int length, String text, AttributeSet attrs) throws BadLocationException {
String oldValue = CoolJTextField.this.getText();
this.ignoreEvents = true;
super.replace(offset, length, text, attrs);
this.ignoreEvents = false;
String newValue = CoolJTextField.this.getText();
if (!oldValue.equals(newValue)) CoolJTextField.this.firePropertyChange(TEXT_PROPERTY, oldValue, newValue);
}
#Override
public void remove(int offs, int len) throws BadLocationException {
String oldValue = CoolJTextField.this.getText();
super.remove(offs, len);
String newValue = CoolJTextField.this.getText();
if (!ignoreEvents && !oldValue.equals(newValue)) CoolJTextField.this.firePropertyChange(TEXT_PROPERTY, oldValue, newValue);
}
}
I know this relates to a really old problem, however, it caused me some problems too. As kleopatra responded in a comment above, I solved the problem with a JFormattedTextField. However, the solution requires a bit more work, but is neater.
The JFormattedTextField doesn't by default trigger a property change after every text changes in the field. The default constructor of JFormattedTextField does not create a formatter.
However, to do what the OP suggested, you need to use a formatter which will invoke the commitEdit() method after each valid edit of the field. The commitEdit() method is what triggers the property change from what I can see and without the formatter, this is triggered by default on a focus change or when the enter key is pressed.
See http://docs.oracle.com/javase/tutorial/uiswing/components/formattedtextfield.html#value for more details.
Create a default formatter (DefaultFormatter) object to be passed to the JFormattedTextField either via its constructor or a setter method. One method of the default formatter is setCommitsOnValidEdit(boolean commit), which sets the formatter to trigger the commitEdit() method every time the text is changed. This can then be picked up using a PropertyChangeListener and the propertyChange() method.
An elegant way is to add the listener to the caret position, because it changes every time something is typed/deleted, then just compare old value with current one.
String oldVal = ""; // empty string or default value
JTextField tf = new JTextField(oldVal);
tf.addCaretListener(e -> {
String currentVal = tf.getText();
if(!currentVal.equals(oldVal)) {
oldVal = currentVal;
System.out.println("Change"); // do something
}
});
(This event is also being triggered every time a user just clicks into a TextField).
textBoxName.getDocument().addDocumentListener(new DocumentListener() {
#Override
public void insertUpdate(DocumentEvent e) {
onChange();
}
#Override
public void removeUpdate(DocumentEvent e) {
onChange();
}
#Override
public void changedUpdate(DocumentEvent e) {
onChange();
}
});
But I would not just parse anything the user (maybe on accident) touches on his keyboard into an Integer. You should catch any Exceptions thrown and make sure the JTextField is not empty.
If we use runnable method SwingUtilities.invokeLater() while using Document listener application is getting stuck sometimes and taking time to update the result(As per my experiment). Instead of that we can also use KeyReleased event for text field change listener as mentioned here.
usernameTextField.addKeyListener(new KeyAdapter() {
public void keyReleased(KeyEvent e) {
JTextField textField = (JTextField) e.getSource();
String text = textField.getText();
textField.setText(text.toUpperCase());
}
});
it was the update version of Codemwnci. his code is quite fine and works great except the error message. To avoid error you must change the condition statement.
// Listen for changes in the text
textField.getDocument().addDocumentListener(new DocumentListener() {
public void changedUpdate(DocumentEvent e) {
warn();
}
public void removeUpdate(DocumentEvent e) {
warn();
}
public void insertUpdate(DocumentEvent e) {
warn();
}
public void warn() {
if (textField.getText().length()>0){
JOptionPane.showMessageDialog(null,
"Error: Please enter number bigger than 0", "Error Massage",
JOptionPane.ERROR_MESSAGE);
}
}
});
You can use even "MouseExited" to control.
example:
private void jtSoMauMouseExited(java.awt.event.MouseEvent evt) {
// TODO add your handling code here:
try {
if (Integer.parseInt(jtSoMau.getText()) > 1) {
//auto update field
SoMau = Integer.parseInt(jtSoMau.getText());
int result = SoMau / 5;
jtSoBlockQuan.setText(String.valueOf(result));
}
} catch (Exception e) {
}
}
Use a KeyListener (which triggers on any key) rather than the ActionListener (which triggers on enter)
DocumentFilter ? It gives you the ability to manipulate.
[ http://www.java2s.com/Tutorial/Java/0240__Swing/FormatJTextFieldstexttouppercase.htm ]
Sorry. J am using Jython (Python in Java) - but easy to understand
# python style
# upper chars [ text.upper() ]
class myComboBoxEditorDocumentFilter( DocumentFilter ):
def __init__(self,jtext):
self._jtext = jtext
def insertString(self,FilterBypass_fb, offset, text, AttributeSet_attrs):
txt = self._jtext.getText()
print('DocumentFilter-insertString:',offset,text,'old:',txt)
FilterBypass_fb.insertString(offset, text.upper(), AttributeSet_attrs)
def replace(self,FilterBypass_fb, offset, length, text, AttributeSet_attrs):
txt = self._jtext.getText()
print('DocumentFilter-replace:',offset, length, text,'old:',txt)
FilterBypass_fb.replace(offset, length, text.upper(), AttributeSet_attrs)
def remove(self,FilterBypass_fb, offset, length):
txt = self._jtext.getText()
print('DocumentFilter-remove:',offset, length, 'old:',txt)
FilterBypass_fb.remove(offset, length)
// (java style ~example for ComboBox-jTextField)
cb = new ComboBox();
cb.setEditable( true );
cbEditor = cb.getEditor();
cbEditorComp = cbEditor.getEditorComponent();
cbEditorComp.getDocument().setDocumentFilter(new myComboBoxEditorDocumentFilter(cbEditorComp));
I am brand new to WindowBuilder, and, in fact, just getting back into Java after a few years, but I implemented "something", then thought I'd look it up and came across this thread.
I'm in the middle of testing this, so, based on being new to all this, I'm sure I must be missing something.
Here's what I did, where "runTxt" is a textbox and "runName" is a data member of the class:
public void focusGained(FocusEvent e) {
if (e.getSource() == runTxt) {
System.out.println("runTxt got focus");
runTxt.selectAll();
}
}
public void focusLost(FocusEvent e) {
if (e.getSource() == runTxt) {
System.out.println("runTxt lost focus");
if(!runTxt.getText().equals(runName))runName= runTxt.getText();
System.out.println("runText.getText()= " + runTxt.getText() + "; runName= " + runName);
}
}
Seems a lot simpler than what's here so far, and seems to be working, but, since I'm in the middle of writing this, I'd appreciate hearing of any overlooked gotchas. Is it an issue that the user could enter & leave the textbox w/o making a change? I think all you've done is an unnecessary assignment.
Here is a Kotlin port of #Boann's answer, which is a great solution that has been working well for me.
import java.beans.*
import javax.swing.*
import javax.swing.event.*
import javax.swing.text.*
/**
* Installs a listener to receive notification when the text of this
* [JTextComponent] is changed. Internally, it installs a [DocumentListener] on the
* text component's [Document], and a [PropertyChangeListener] on the text component
* to detect if the `Document` itself is replaced.
*
* #param changeListener a listener to receive [ChangeEvent]s when the text is changed;
* the source object for the events will be the text component
*/
fun JTextComponent.addChangeListener(changeListener: ChangeListener) {
val dl: DocumentListener = object : DocumentListener {
private var lastChange = 0
private var lastNotifiedChange = 0
override fun insertUpdate(e: DocumentEvent) = changedUpdate(e)
override fun removeUpdate(e: DocumentEvent) = changedUpdate(e)
override fun changedUpdate(e: DocumentEvent) {
lastChange++
SwingUtilities.invokeLater {
if (lastNotifiedChange != lastChange) {
lastNotifiedChange = lastChange
changeListener.stateChanged(ChangeEvent(this))
}
}
}
}
addPropertyChangeListener("document") { e: PropertyChangeEvent ->
(e.oldValue as? Document)?.removeDocumentListener(dl)
(e.newValue as? Document)?.addDocumentListener(dl)
dl.changedUpdate(null)
}
document?.addDocumentListener(dl)
}
You can use it on any text component as follows:
myTextField.addChangeListener { event -> myEventHandler(event) }
Like his code, also public domain.
today I changed my Eclipse IDE from 3.7 to 4.2 and my plugin-project has a new feature in the Statusbar of the UI called QuickAccess. But I dont need it, so how can I disable this feature, because the position of my button bar has changed...
For all who have the same problem, it seems that this new feature is hardcoded and can't be disabled :/ https://bugs.eclipse.org/bugs/show_bug.cgi?id=362420
Go to Help --> Install New Software
https://raw.github.com/atlanto/eclipse-4.x-filler/master/pdt_tools.eclipse-4.x-filler.update/
Install that Plugin and Restart the Eclipse. Quick Access automatically hide.
or else you have an option to hide Window --> Hide Quick Access.
Here's a post that shows a way to hide it with CSS. Verified with Eclipse 4.3
Lars Vogel just reported in his blog post "Porting Eclipse 3.x RCP application to Eclipse 4.4 – now without QuickAccess box":
Bug 411821 ([QuickAccess] Contribute SearchField through a fragment or other means)
is now solved.
Thanks to René Brandstetter:
If a RCP app doesn't provide the QuickAccess element in its model, than it will not be visible. So the default is no QuickAcces, easy enough? :)
See the commit 839ee2 for more details
Provide the "QuickAccess" via a e4 application model fragment inside of the "org.eclipse.ui.ide.application".
This removes the "QuickAccess" search field from every none "org.eclipse.ui.ide.application".
You could also hide it and make it work comparable to how it used to work in Eclipse3.7: when user presses ctrl+3 Quick Access functionality pops up (In Eclipse4.3 the ctrl+3 shortcut is still available).
Example of code you could add to your implementation of WorkbenchWindowAdvisor (for Eclipse4.3 rcp application)
private IHandlerActivation quickAccessHandlerActivation;
#Override
public void postWindowOpen() {
hideQuickAccess();
}
private void hideQuickAccess() {
IWorkbenchWindow window = PlatformUI.getWorkbench().getActiveWorkbenchWindow();
setQuickAccessVisible(window, false);
final IHandlerService service = (IHandlerService) window.getService(IHandlerService.class);
quickAccessHandlerActivation = service.activateHandler(QUICK_ACCESS_COMMAND_ID, new CustomQuickAccessHandler());
}
private void setQuickAccessVisible(IWorkbenchWindow window, boolean visible) {
if (window instanceof WorkbenchWindow) {
MTrimBar topTrim = ((WorkbenchWindow) window).getTopTrim();
for (MTrimElement element : topTrim.getChildren()) {
if (QUICK_ACCESS_ELEMENT_ID.equals(element.getElementId())) {
element.setVisible(visible);
if (visible) {
Composite control = (Composite) element.getWidget();
control.getChildren()[0].addFocusListener(new QuickAccessFocusListener());
}
break;
}
}
}
}
private class QuickAccessFocusListener implements FocusListener {
#Override
public void focusGained(FocusEvent e) {
//not interested
}
#Override
public void focusLost(FocusEvent e) {
((Control) e.widget).removeFocusListener(this);
hideQuickAccess();
}
}
private class CustomQuickAccessHandler extends AbstractHandler {
#Override
public Object execute(ExecutionEvent event) throws ExecutionException {
IWorkbenchWindow window = PlatformUI.getWorkbench().getActiveWorkbenchWindow();
final IHandlerService service = (IHandlerService) window.getService(IHandlerService.class);
setQuickAccessVisible(window, true);
if (quickAccessHandlerActivation != null) {
service.deactivateHandler(quickAccessHandlerActivation);
try {
return service.executeCommand(QUICK_ACCESS_COMMAND_ID, null);
} catch (NotDefinedException e) {
} catch (NotEnabledException e) {
} catch (NotHandledException e) {
}
}
return null;
}
}
I'm trying to add a selection listener to my GXT (Ext GWT) Grid, but I can't seem to get it to fire. I've tried many variations of this with no luck:
myGrid.addListener(Events.Select, new SelectionListener<ComponentEvent>() {
#Override
public void componentSelected(ComponentEvent ce) {
System.out.println("selected");
}
});
myGrid.getSelectionModel().addSelectionChangedListener(new SelectionChangedListener<ModelData>() {
#Override
public void selectionChanged(SelectionChangedEvent<ModelData> se) {
...
}
});
Try this code
To upgrade this answer to GXT v3
grid.getSelectionModel().addSelectionChangedHandler(
new SelectionChangedHandler<ModelData>(){
#Override
public void onSelectionChanged(SelectionChangedEvent<ModelData> event) {
}
});
Try:
myGrid.addListener(Events.Select, new Listener<GridEvent<ModelData>>() {
#Override public void handleEvent(GridEvent<ModelData> be) {
System.out.println("selected");
}
});
Replacing ModelData with your model type if necessary.
Seemed to have found a workaround for this:
myGrid.addListener(Events.OnClick, new Listener<ComponentEvent>() {
#Override
public void handleEvent(ComponentEvent ce) {
// Handle the grid event
}
});
Seems like you just have to be generic about it, then you can check and cast your ComponentEvent to a GridEvent.
Do you use GXT 2.x version ? Did you check whether required events are sinked? for example like
grid.sinkEvents(Event.ONCLICK | Event.ONDBLCLICK | Event.MOUSEEVENTS);