Selecting Items
Listing components displaying data also support allowing the user to select items. Depending on component, it the user can select either one or several items at a time.
How selection is handled in listings is split into three categories:
Single selection: components that only allow a single item to be selected at a time, for example
RadioButtonGroup
belongs in this category. More generally, all components that implement theSingleSelect
interface belong in this category.Multi selection: components that allow for selecting any number of the displayed items, for example
CheckBoxGroup
. All components that implement theMultiSelect
interface belong in this category.Listing components whose selection can be configured through the usage of the
SelectionModel
interface. TheGrid
component is an example of this type of listing and it currently has built in implementations for both the single selection and multi selection cases, as well as disabling selection altogether.
Single and Multi Selection
Single and multi selection components implement the HasValue
interface, where the current selection represents the value that is currently held by the component. In practice this means that it is possible to get, set and listen to selection changes the same way you would with value changes in Vaadin field components. In the case of single select components HasValue
is further extended with SingleSelect
, and correspondingly with MultiSelect
in the case of multi select components, giving further control over the current selection.
An example of basic single selection with the ComboBox component:
Java
ComboBox<Availability> comboBox = new ComboBox<>();
// Populate the combo box with items
comboBox.setItems(EnumSet.allOf(Availability.class));
// Set the current selection
comboBox.setValue(Availability.DISCONTINUED);
// Get the current selection
Availability availability = comboBox.getValue();
// Add a value change listener, a ValueChangeEvent<Availability> will be fired
// any time a change to the selection is made.
comboBox.addValueChangeListener(event -> Notification.show(event.getValue()));
A similar example for the multi select listing CheckBoxGroup
follows. A difference to note in this example is the parameter type of setValue
and the return type of getValue
being Set<Category>
, the members of which represent the selection contents.
Java
CheckBoxGroup<Category> checkBoxGroup = new CheckBoxGroup<>();
checkBoxGroup.setItems(EnumSet.allOf(Category.class));
checkBoxGroup.setValue(EnumSet.allOf(Category.class));
Set<Category> categories = checkBoxGroup.getValue();
checkBoxGroup.addValueChangeListener(event -> {
Notification.show("Number of selected items: " + event.getValue().size());
});
Additionally, MultiSelect
provides numerous utility functions for simpler programmatic handling of selections, such as:
Java
checkBoxGroup.select(Category.DVD, Category.BOOK);
checkBoxGroup.isSelected(Category.BOOK); // true
checkBoxGroup.deselectAll();
checkBoxGroup.getSelectedItems(); // now returns an empty set of Categories
Selection Models
Grid
component can hold either multi- or single- selection. Since grid can not be both SingleSelect<SomePojo>
and MultiSelect<SomePojo>
in the same time, grid itself is not a select component, but it delegates the selection to a subclass of SelectionModel
class. By default, Grid
is in single selection mode, and we can obtain selection object using asSingleSelect
method.
Java
Grid<Person> grid = new Grid<>();
SingleSelect<Person> selection = grid.asSingleSelect();
//...
Notification.show(selection.getValue().getName() + " was selected");
If selection of multiple rows is required, then Grid
needs to be switched into multiselection mode, and multiple item selection object can be obtained using asMultiSelect
method.
Java
Grid<Person> grid = new Grid<>();
grid.setSelectionMode(Grid.SelectionMode.MULTI);
MultiSelect<Person> selection = grid.asMultiSelect();
//...
Notification.show(
selection.getValue().stream().map(Person::getName).collect(Collectors.joining(", "))
+ " were selected");
Selected Items
Selection models (subclasses of SelectionModel
) allow retrieving a HasValue
object corresponding to the selection with the asSingleSelect
and asMultiSelect
methods, and thus can be used bound to data using a Binder
. This way, conversions and validation can be used for selections.
Java
public static class Company {
private Person boss;
private Set<Person> managers;
public Person getBoss() {
return boss;
}
public void setBoss(Person boss) {
this.boss = boss;
}
public Set<Person> getManagers() {
return managers;
}
public void setManagers(Set<Person> managers) {
this.managers = managers;
}
}
Binder<Company> companyBinder = new Binder<>();
//Setup single selection binding
Grid<Person> bossGrid = new Grid<>();
SingleSelect<Person> bossSelection = bossGrid.asSingleSelect();
companyBinder.forField(bossSelection).bind(Company::getBoss, Company::setBoss);
//Setup multi selection binding
Grid<Person> managersGrid = new Grid<>();
managersGrid.setSelectionMode(Grid.SelectionMode.MULTI);
MultiSelect<Person> managersSelection = managersGrid.asMultiSelect();
companyBinder.forField(managersSelection).bind(Company::getManagers, Company::setManagers);
Selection Events
SelectionModel
implementations allow retrieving a HasValue
object corresponding to the selection with the asSingleSelect
and asMultiSelect
methods. The HasValue
implementations returned by those methods support the standard addValueChangeListener
method and all added listeners are notified about any selection change. In addition, selections support their own, selection-specific listeners, SelectionListener
, SingleSelectionListener
, and MultiSelectionListener
. To add those listeners, we need to explicitly cast a selection to SingleSelectionModel
, or MultiSelectionModel
respectively.