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Problems with grid column rendering in Vaadin

I am using a Grid to display books information. Those books a historical novels and they are sorted by the year in which action is occurred. My first column in the grid is this year. Book object has this year as integer where positive numbers are AD and negative are BC. I am rendering this column with following class:
public class ActionYearRenderer extends ComponentRenderer<Div, Book> {
private Integer lastYear = Integer.MIN_VALUE;
public void reset() {
this.lastYear = Integer.MIN_VALUE;
}
#Override
public Div createComponent(Book item) {
Integer actionYear = item.getActionYear();
Div result = new Div();
if(!Objects.equals(actionYear, lastYear)) {
lastYear = actionYear;
if(actionYear < -10000) {
result.setText("Prehistoric times");
} else if (actionYear >= 0) {
result.setText("year " + actionYear.toString());
} else {
result.setText("year " + Integer.toString(Math.abs(actionYear)) + " B.C.E.");
}
}
result.getStyle().set("word-wrap", "normal");
return result;
}
}
I need to display a year only once for the all books referring to a single year. It is working almost as I wanted it to do. It displays everything correctly at the beginning, but I also have ItemDetailsRenderer, which opens book annotation and review. When details are closed, action year disappears from the grid. I presume, that the item is being re-rendered and it is causing this behavior. How can I preserve the content of this cell?

Using StyledCellLabelProvider in a TableViewer killed my tooltips

I have a TableViewer in my Eclipse plugin.
When I was just using a regular label provider, my tooltips worked beautifully:
However, when I switched to have my LabelProvider implement IStyledLabelProvider, my tooltips went haywire:
Here is the code creating the StyledString
#Override
public StyledString getStyledText(final Object element) {
if( !(element instanceof MyInterface<?>) ) {
return null;
}
final String elemText = getColumnText(element, this.columnIndex);
final StyledString styledString = new StyledString(elemText == null ? "" : elemText);
if( !(element instanceof MyObject) ) {
return styledString;
}
final MyObject settingElement = (MyObject) element;
// grayed out text
if( settingElement.shouldBeGray() ) {
styledString.setStyle(0, elemText.length(), AdaptabilityStyles.GRAY_STYLER;
} else if( !settingElement.shouldBeBlue() ) {
styledString.setStyle(0, elemText.length(), AdaptabilityStyles.BLUE_STYLER);
}
return styledString;
}
And getTooltTipText()
#Override
public String getToolTipText(final Object element) {
return getColumnText(element, this.columnIndex);
}
What am I doing wrong?

As I was writing this question, I wanted to reference a bug report that I am familiar with that is related to tooltips. I looked at the bug report again and came across the following line:
For now, I simply try this :
ColumnViewerToolTipSupport.enableFor(commonViewer)
I wasn't calling that method when I created my viewer. When I tried that, my tooltips came back (though slightly different than they were before.

adding dropdown to table cell

I am facing some issues in eclipse rcp for setting the dropdown for a particular cell.
My requrement is to set the dropdown in the first row of the table. And that dropdown should be able to remove also.
One more thing that drop should be able to filter the contents in the table. So My question is that
1) Is it possible to add the dropdown only to the particular cell or row?
2) Can that filter act as a filter for the table?
3) How do I remove once I add the dropdown to the table cell?

Yes this is entirely possible. I suggest you start by reading Building and delivering a table editor with SWT/JFace, this tutorial contains everything you need to know.
As a rough outline, you will need to make the first item in your content model different from your data items - it will store the filter values. Then setup editing support on your TableViewerColumns something like (this is just a starter - this code will not work on its own):
tableViewerColumn.setEditingSupport(new EditingSupport(tableViewer)
{
#Override
protected boolean canEdit(Object element) {
if(object instanceof FilterDataObject) // your model object you are using to store the filter selections
{
return true;
}
}
#Override
protected CellEditor getCellEditor(Object element)
{
final ComboBoxCellEditor editor = new ComboBoxCellEditor(table, getPossibleFilterValues(), SWT.READ_ONLY);
((CCombo)editor.getControl()).addModifyListener(new ModifyListener()
{
public void modifyText(ModifyEvent e)
{
IStructuredSelection sel = (IStructuredSelection)m_tableViewer.getSelection();
FilterDataObject filterValue = (FilterDataObject)sel.getFirstElement();
// .. update the filter on your TableViewer
}
});
return editor;
}
#Override
protected Object getValue(Object element)
{
if(object instanceof FilterDataObject)
{
// get the filter value
}
else
{
// get your data model's value for this column
}
}
#Override
protected void setValue(Object element, Object value)
{
if(object instanceof FilterDataObject)
{
// update your FilterDataObject
}
}
});

How to Color TableViewer Rows alternatively

I'm using Viewer Framework in my rcp application, i would like to color viewer rows alternatively,i tried to override getBackground method of ColumnLabelProvider, below is code snippet
col.setLabelProvider(new ColumnLabelProvider(){
----//other methods
#override
public Color getBackground(Object element) {
return gray;//here gray is color object defined somewhere in class
}
});
this colors the columns, but not a row, below is output
how do i achieve this correctly

You can find an example here which uses an IColorProvider. Maybe you could just reuse the getBackground() method in your code, just change the reference to your tableViewer:
public Color getBackground(Object element) {
ArrayList list = (ArrayList) tableViewer.getInput();
int index = list.indexOf(element);
if ((index % 2) == 0) {
return gray;
} else {
return null;
}
}

What is the recommended way to make a numeric TextField in JavaFX?

I need to restrict input into a TextField to integers. Any advice?

Very old thread, but this seems neater and strips out non-numeric characters if pasted.
// force the field to be numeric only
textField.textProperty().addListener(new ChangeListener<String>() {
#Override
public void changed(ObservableValue<? extends String> observable, String oldValue,
String newValue) {
if (!newValue.matches("\\d*")) {
textField.setText(newValue.replaceAll("[^\\d]", ""));
}
}
});

javafx.scene.control.TextFormatter
Updated Apr 2016
This answer was created some years ago and the original answer is largely obsolete now.
Since Java 8u40, Java has a TextFormatter which is usually best for enforcing input of specific formats such as numerics on JavaFX TextFields:
Numeric TextField for Integers in JavaFX 8 with TextFormatter and/or UnaryOperator
Java 8 U40 TextFormatter (JavaFX) to restrict user input only for decimal number
String with numbers and letters to double javafx
See also other answers to this question which specifically mention TextFormatter.
Original Answer
There are some examples of this in this gist, I have duplicated one of the examples below:
// helper text field subclass which restricts text input to a given range of natural int numbers
// and exposes the current numeric int value of the edit box as a value property.
class IntField extends TextField {
final private IntegerProperty value;
final private int minValue;
final private int maxValue;
// expose an integer value property for the text field.
public int getValue() { return value.getValue(); }
public void setValue(int newValue) { value.setValue(newValue); }
public IntegerProperty valueProperty() { return value; }
IntField(int minValue, int maxValue, int initialValue) {
if (minValue > maxValue)
throw new IllegalArgumentException(
"IntField min value " + minValue + " greater than max value " + maxValue
);
if (!((minValue <= initialValue) && (initialValue <= maxValue)))
throw new IllegalArgumentException(
"IntField initialValue " + initialValue + " not between " + minValue + " and " + maxValue
);
// initialize the field values.
this.minValue = minValue;
this.maxValue = maxValue;
value = new SimpleIntegerProperty(initialValue);
setText(initialValue + "");
final IntField intField = this;
// make sure the value property is clamped to the required range
// and update the field's text to be in sync with the value.
value.addListener(new ChangeListener<Number>() {
#Override public void changed(ObservableValue<? extends Number> observableValue, Number oldValue, Number newValue) {
if (newValue == null) {
intField.setText("");
} else {
if (newValue.intValue() < intField.minValue) {
value.setValue(intField.minValue);
return;
}
if (newValue.intValue() > intField.maxValue) {
value.setValue(intField.maxValue);
return;
}
if (newValue.intValue() == 0 && (textProperty().get() == null || "".equals(textProperty().get()))) {
// no action required, text property is already blank, we don't need to set it to 0.
} else {
intField.setText(newValue.toString());
}
}
}
});
// restrict key input to numerals.
this.addEventFilter(KeyEvent.KEY_TYPED, new EventHandler<KeyEvent>() {
#Override public void handle(KeyEvent keyEvent) {
if(intField.minValue<0) {
if (!"-0123456789".contains(keyEvent.getCharacter())) {
keyEvent.consume();
}
}
else {
if (!"0123456789".contains(keyEvent.getCharacter())) {
keyEvent.consume();
}
}
}
});
// ensure any entered values lie inside the required range.
this.textProperty().addListener(new ChangeListener<String>() {
#Override public void changed(ObservableValue<? extends String> observableValue, String oldValue, String newValue) {
if (newValue == null || "".equals(newValue) || (intField.minValue<0 && "-".equals(newValue))) {
value.setValue(0);
return;
}
final int intValue = Integer.parseInt(newValue);
if (intField.minValue > intValue || intValue > intField.maxValue) {
textProperty().setValue(oldValue);
}
value.set(Integer.parseInt(textProperty().get()));
}
});
}
}

I know this is a rather old thread, but for future readers here is another solution I found quite intuitive:
public class NumberTextField extends TextField
{
#Override
public void replaceText(int start, int end, String text)
{
if (validate(text))
{
super.replaceText(start, end, text);
}
}
#Override
public void replaceSelection(String text)
{
if (validate(text))
{
super.replaceSelection(text);
}
}
private boolean validate(String text)
{
return text.matches("[0-9]*");
}
}
Edit: Thanks none_ and SCBoy for your suggested improvements.

Starting with JavaFX 8u40, you can set a TextFormatter object on a text field:
UnaryOperator<Change> filter = change -> {
String text = change.getText();
if (text.matches("[0-9]*")) {
return change;
}
return null;
};
TextFormatter<String> textFormatter = new TextFormatter<>(filter);
fieldNport = new TextField();
fieldNport.setTextFormatter(textFormatter);
This avoids both subclassing and duplicate change events which you will get when you add a change listener to the text property and modify the text in that listener.

The TextInput has a TextFormatter which can be used to format, convert and limit the types of text that can be input.
The TextFormatter has a filter which can be used to reject input. We need to set this to reject anything that's not a valid integer. It also has a converter which we need to set to convert the string value to an integer value which we can bind later on.
Lets create a reusable filter:
public class IntegerFilter implements UnaryOperator<TextFormatter.Change> {
private final static Pattern DIGIT_PATTERN = Pattern.compile("\\d*");
#Override
public Change apply(TextFormatter.Change aT) {
return DIGIT_PATTERN.matcher(aT.getText()).matches() ? aT : null;
}
}
The filter can do one of three things, it can return the change unmodified to accept it as it is, it can alter the change in some way it deems fit or it can return null to reject the change all together.
We will use the standard IntegerStringConverter as a converter.
Putting it all together we have:
TextField textField = ...;
TextFormatter<Integer> formatter = new TextFormatter<>(
new IntegerStringConverter(), // Standard converter form JavaFX
defaultValue,
new IntegerFilter());
formatter.valueProperty().bindBidirectional(myIntegerProperty);
textField.setTextFormatter(formatter);
If you want don't need a reusable filter you can do this fancy one-liner instead:
TextFormatter<Integer> formatter = new TextFormatter<>(
new IntegerStringConverter(),
defaultValue,
c -> Pattern.matches("\\d*", c.getText()) ? c : null );

I don't like exceptions thus I used the matches function from String-Class
text.textProperty().addListener(new ChangeListener<String>() {
#Override
public void changed(ObservableValue<? extends String> observable, String oldValue,
String newValue) {
if (newValue.matches("\\d*")) {
int value = Integer.parseInt(newValue);
} else {
text.setText(oldValue);
}
}
});

Starting from Java SE 8u40, for such need you can use an "integer" Spinner allowing to safely select a valid integer by using the keyboard's up arrow/down arrow keys or the up arrow/down arrow provided buttons.
You can also define a min, a max and an initial value to limit the allowed values and an amount to increment or decrement by, per step.
For example
// Creates an integer spinner with 1 as min, 10 as max and 2 as initial value
Spinner<Integer> spinner1 = new Spinner<>(1, 10, 2);
// Creates an integer spinner with 0 as min, 100 as max and 10 as initial
// value and 10 as amount to increment or decrement by, per step
Spinner<Integer> spinner2 = new Spinner<>(0, 100, 10, 10);
Example of result with an "integer" spinner and a "double" spinner
A spinner is a single-line text field control that lets the user
select a number or an object value from an ordered sequence of such
values. Spinners typically provide a pair of tiny arrow buttons for
stepping through the elements of the sequence. The keyboard's up
arrow/down arrow keys also cycle through the elements. The user may
also be allowed to type a (legal) value directly into the spinner.
Although combo boxes provide similar functionality, spinners are
sometimes preferred because they don't require a drop-down list that
can obscure important data, and also because they allow for features
such as wrapping from the maximum value back to the minimum value
(e.g., from the largest positive integer to 0).
More details about the Spinner control

The preffered answer can be even smaller if you make use of Java 1.8 Lambdas
textfield.textProperty().addListener((observable, oldValue, newValue) -> {
if (newValue.matches("\\d*")) return;
textfield.setText(newValue.replaceAll("[^\\d]", ""));
});

I want to help with my idea from combining Evan Knowles answer with TextFormatter from JavaFX 8
textField.setTextFormatter(new TextFormatter<>(c -> {
if (!c.getControlNewText().matches("\\d*"))
return null;
else
return c;
}
));
so good luck ;) keep calm and code java

TextField text = new TextField();
text.textProperty().addListener(new ChangeListener<String>() {
#Override
public void changed(ObservableValue<? extends String> observable,
String oldValue, String newValue) {
try {
Integer.parseInt(newValue);
if (newValue.endsWith("f") || newValue.endsWith("d")) {
manualPriceInput.setText(newValue.substring(0, newValue.length()-1));
}
} catch (ParseException e) {
text.setText(oldValue);
}
}
});
The if clause is important to handle inputs like 0.5d or 0.7f which are correctly parsed by Int.parseInt(), but shouldn't appear in the text field.

Try this simple code it will do the job.
DecimalFormat format = new DecimalFormat( "#.0" );
TextField field = new TextField();
field.setTextFormatter( new TextFormatter<>(c ->
{
if ( c.getControlNewText().isEmpty() )
{
return c;
}
ParsePosition parsePosition = new ParsePosition( 0 );
Object object = format.parse( c.getControlNewText(), parsePosition );
if ( object == null || parsePosition.getIndex() < c.getControlNewText().length() )
{
return null;
}
else
{
return c;
}
}));

If you want to apply the same listener to more than one TextField here is the simplest solution:
TextField txtMinPrice, txtMaxPrice = new TextField();
ChangeListener<String> forceNumberListener = (observable, oldValue, newValue) -> {
if (!newValue.matches("\\d*"))
((StringProperty) observable).set(oldValue);
};
txtMinPrice.textProperty().addListener(forceNumberListener);
txtMaxPrice.textProperty().addListener(forceNumberListener);

This one worked for me.
public void RestrictNumbersOnly(TextField tf){
tf.textProperty().addListener(new ChangeListener<String>() {
#Override
public void changed(ObservableValue<? extends String> observable, String oldValue,
String newValue) {
if (!newValue.matches("|[-\\+]?|[-\\+]?\\d+\\.?|[-\\+]?\\d+\\.?\\d+")){
tf.setText(oldValue);
}
}
});
}

Here is a simple class that handles some basic validations on TextField, using TextFormatter introduced in JavaFX 8u40
EDIT:
(Code added regarding Floern's comment)
import java.text.DecimalFormatSymbols;
import java.util.regex.Pattern;
import javafx.beans.NamedArg;
import javafx.scene.control.TextFormatter;
import javafx.scene.control.TextFormatter.Change;
public class TextFieldValidator {
private static final String CURRENCY_SYMBOL = DecimalFormatSymbols.getInstance().getCurrencySymbol();
private static final char DECIMAL_SEPARATOR = DecimalFormatSymbols.getInstance().getDecimalSeparator();
private final Pattern INPUT_PATTERN;
public TextFieldValidator(#NamedArg("modus") ValidationModus modus, #NamedArg("countOf") int countOf) {
this(modus.createPattern(countOf));
}
public TextFieldValidator(#NamedArg("regex") String regex) {
this(Pattern.compile(regex));
}
public TextFieldValidator(Pattern inputPattern) {
INPUT_PATTERN = inputPattern;
}
public static TextFieldValidator maxFractionDigits(int countOf) {
return new TextFieldValidator(maxFractionPattern(countOf));
}
public static TextFieldValidator maxIntegers(int countOf) {
return new TextFieldValidator(maxIntegerPattern(countOf));
}
public static TextFieldValidator integersOnly() {
return new TextFieldValidator(integersOnlyPattern());
}
public TextFormatter<Object> getFormatter() {
return new TextFormatter<>(this::validateChange);
}
private Change validateChange(Change c) {
if (validate(c.getControlNewText())) {
return c;
}
return null;
}
public boolean validate(String input) {
return INPUT_PATTERN.matcher(input).matches();
}
private static Pattern maxFractionPattern(int countOf) {
return Pattern.compile("\\d*(\\" + DECIMAL_SEPARATOR + "\\d{0," + countOf + "})?");
}
private static Pattern maxCurrencyFractionPattern(int countOf) {
return Pattern.compile("^\\" + CURRENCY_SYMBOL + "?\\s?\\d*(\\" + DECIMAL_SEPARATOR + "\\d{0," + countOf + "})?\\s?\\" +
CURRENCY_SYMBOL + "?");
}
private static Pattern maxIntegerPattern(int countOf) {
return Pattern.compile("\\d{0," + countOf + "}");
}
private static Pattern integersOnlyPattern() {
return Pattern.compile("\\d*");
}
public enum ValidationModus {
MAX_CURRENCY_FRACTION_DIGITS {
#Override
public Pattern createPattern(int countOf) {
return maxCurrencyFractionPattern(countOf);
}
},
MAX_FRACTION_DIGITS {
#Override
public Pattern createPattern(int countOf) {
return maxFractionPattern(countOf);
}
},
MAX_INTEGERS {
#Override
public Pattern createPattern(int countOf) {
return maxIntegerPattern(countOf);
}
},
INTEGERS_ONLY {
#Override
public Pattern createPattern(int countOf) {
return integersOnlyPattern();
}
};
public abstract Pattern createPattern(int countOf);
}
}
You can use it like this:
textField.setTextFormatter(new TextFieldValidator(ValidationModus.INTEGERS_ONLY).getFormatter());
or you can instantiate it in a fxml file, and apply it to a customTextField with the according properties.
app.fxml:
<fx:define>
<TextFieldValidator fx:id="validator" modus="INTEGERS_ONLY"/>
</fx:define>
CustomTextField.class:
public class CustomTextField {
private TextField textField;
public CustomTextField(#NamedArg("validator") TextFieldValidator validator) {
this();
textField.setTextFormatter(validator.getFormatter());
}
}
Code on github

This is what I use:
private TextField textField;
textField.textProperty().addListener(new ChangeListener<String>() {
#Override
public void changed(ObservableValue<? extends String> observable, String oldValue, String newValue) {
if(!newValue.matches("[0-9]*")){
textField.setText(oldValue);
}
}
});
The same in lambda notation would be:
private TextField textField;
textField.textProperty().addListener((observable, oldValue, newValue) -> {
if(!newValue.matches("[0-9]*")){
textField.setText(oldValue);
}
});

This method lets TextField to finish all processing (copy/paste/undo safe).
Does not require to extend classes and allows you to decide what to do with new text after every change
(to push it to logic, or turn back to previous value, or even to modify it).
// fired by every text property change
textField.textProperty().addListener(
(observable, oldValue, newValue) -> {
// Your validation rules, anything you like
// (! note 1 !) make sure that empty string (newValue.equals(""))
// or initial text is always valid
// to prevent inifinity cycle
// do whatever you want with newValue
// If newValue is not valid for your rules
((StringProperty)observable).setValue(oldValue);
// (! note 2 !) do not bind textProperty (textProperty().bind(someProperty))
// to anything in your code. TextProperty implementation
// of StringProperty in TextFieldControl
// will throw RuntimeException in this case on setValue(string) call.
// Or catch and handle this exception.
// If you want to change something in text
// When it is valid for you with some changes that can be automated.
// For example change it to upper case
((StringProperty)observable).setValue(newValue.toUpperCase());
}
);
For your case just add this logic inside. Works perfectly.
if (newValue.equals("")) return;
try {
Integer i = Integer.valueOf(newValue);
// do what you want with this i
} catch (Exception e) {
((StringProperty)observable).setValue(oldValue);
}

Mmmm. I ran into that problem weeks ago. As the API doesn't provide a control to achieve that,
you may want to use your own one. I used something like:
public class IntegerBox extends TextBox {
public-init var value : Integer = 0;
protected function apply() {
try {
value = Integer.parseInt(text);
} catch (e : NumberFormatException) {}
text = "{value}";
}
override var focused = false on replace {apply()};
override var action = function () {apply()}
}
It's used the same way that a normal TextBox,
but has also a value attribute which stores the entered integer.
When the control looses the focus, it validates the value and reverts it (if isn't valid).

this Code Make your textField Accept only Number
textField.lengthProperty().addListener((observable, oldValue, newValue) -> {
if(newValue.intValue() > oldValue.intValue()){
char c = textField.getText().charAt(oldValue.intValue());
/** Check if the new character is the number or other's */
if( c > '9' || c < '0'){
/** if it's not number then just setText to previous one */
textField.setText(textField.getText().substring(0,textField.getText().length()-1));
}
}
});

This code works fine for me even if you try to copy/paste.
myTextField.textProperty().addListener((observable, oldValue, newValue) -> {
if (!newValue.matches("\\d*")) {
myTextField.setText(oldValue);
}
});

In recent updates of JavaFX, you have to set new text in Platform.runLater method just like this:
private void set_normal_number(TextField textField, String oldValue, String newValue) {
try {
int p = textField.getCaretPosition();
if (!newValue.matches("\\d*")) {
Platform.runLater(() -> {
textField.setText(newValue.replaceAll("[^\\d]", ""));
textField.positionCaret(p);
});
}
} catch (Exception e) {
}
}
It's a good idea to set caret position too.

I would like to improve Evan Knowles answer: https://stackoverflow.com/a/30796829/2628125
In my case I had class with handlers for UI Component part. Initialization:
this.dataText.textProperty().addListener((observable, oldValue, newValue) -> this.numericSanitization(observable, oldValue, newValue));
And the numbericSanitization method:
private synchronized void numericSanitization(ObservableValue<? extends String> observable, String oldValue, String newValue) {
final String allowedPattern = "\\d*";
if (!newValue.matches(allowedPattern)) {
this.dataText.setText(oldValue);
}
}
Keyword synchronized is added to prevent possible render lock issue in javafx if setText will be called before old one is finished execution. It is easy to reproduce if you will start typing wrong chars really fast.
Another advantage is that you keep only one pattern to match and just do rollback. It is better because you can easily abstragate solution for different sanitization patterns.

rate_text.textProperty().addListener(new ChangeListener<String>() {
#Override
public void changed(ObservableValue<? extends String> observable, String oldValue, String newValue) {
String s="";
for(char c : newValue.toCharArray()){
if(((int)c >= 48 && (int)c <= 57 || (int)c == 46)){
s+=c;
}
}
rate_text.setText(s);
}
});
This works fine as it allows you to enter only integer value and decimal value (having ASCII code 46).

Another very simple solution would be:
TextField tf = new TextField();
tf.addEventFilter(KeyEvent.ANY, event -> {
if (!event.getCharacter().trim().matches("\\d?")) {
event.consume();
}
});

A little late, but if you also what to include decimals:
public void changed(ObservableValue<? extends String> observable, String oldValue, String newValue) {
if (!newValue.matches("\\d{0,7}([\\.]\\d{0,4})?")) {
textField.setText(oldValue);
}
}