Using Model Encoders with a Polymer Template Model
Note
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Use Lit templates instead
Lit templates are recommended. Polymer templates are available in the next long term supported Vaadin version (LTS), but they are deprecated.
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Using ready-made beans in your model can be challenging if you have no control over their properties (because they are provided as binary class files, for example) or their structure is inappropriate for your template model.
Encoding Property Types
You can use the @Encode
annotation to encode any property type to a supported type.
A common use case is a database backend with JPA entities that have identifiers of the Long
type. Vaadin does not support the Long
type because it cannot be mapped correctly to any JavaScript type.
One solution is to exclude any property of this type using the @Exclude
annotation. See Using Beans with a PolymerTemplate Model for an example of how to use this annotation.
Alternatively, you can use the @Encode
annotation. This is useful when you need a bean property with this identifier on the client side for any reason, for example to reference it. In these circumstances, the @Encode
annotation, encodes the Long
value to a String
value and sends it to the client side as a string. When the client sends the value back, it is decoded back to a Long
.
Example: Defining the Person
JPA entity class and using the @Encode
annotation in the template model class.
@Entity
public class Person implements Serializable {
@Id
@GeneratedValue
private Long id;
public Long getId() {
return id;
}
}
public interface MyModel extends TemplateModel {
@Encode(value = LongToStringEncoder.class, path = "id")
void setPerson(Person person);
Person getPerson();
}
-
The
@Encode
annotation parameterpath = "id"
is used to address theid
sub-property of theperson
property. By default thepath
value is""
which means that an encoder is applied to the property itself, in this case thePerson
.
Example: LongToStringEncoder
encoder.
public class LongToStringEncoder implements ModelEncoder<Long, String> {
@Override
public String encode(Long modelValue) {
return Optional.ofNullable(modelValue).map(Object::toString)
.orElse(null);
}
@Override
public Long decode(String presentationValue) {
return Optional.ofNullable(presentationValue).map(Long::valueOf)
.orElse(null);
}
}
-
You can access the
id
property of thePerson
bean in your code on the client side in the usual way. Note that it will be of theString
type instead of a number.
Using Encoders to Split Property Values
An encoder can also be used to split a single property value into several sub-properties in order to use them in different UI controls. For example, you may want to have 3 input fields (day, month, and year) for a birth date field, instead of one.
Example: Using the @Encode
annotation in to define the Date
property in a template model.
public interface MyModel extends TemplateModel {
Date getBirthDate();
@Encode(DateToDateBeanEncoder.class)
void setBirthDate(Date birthDate);
}
Example: Defining the DateBean
class.
public class DateBean implements Serializable {
private String day;
private String month;
private String year;
public String getDay() {
return day;
}
public void setDay(String day) {
this.day = day;
}
public String getMonth() {
return month;
}
public void setMonth(String month) {
this.month = month;
}
public String getYear() {
return year;
}
public void setYear(String year) {
this.year = year;
}
}
Example: Defining the DateToDateBeanEncoder
encoder class.
public class DateToDateBeanEncoder implements ModelEncoder<Date, DateBean> {
@Override
public DateBean encode(Date modelValue) {
if (modelValue == null) {
return null;
}
DateBean bean = new DateBean();
Calendar calendar = GregorianCalendar.getInstance();
calendar.setTime(modelValue);
bean.setDay(Integer.toString(calendar.get(Calendar.DAY_OF_MONTH)));
bean.setMonth(Integer.toString(calendar.get(Calendar.MONTH) + 1));
bean.setYear(Integer.toString(calendar.get(Calendar.YEAR)));
return bean;
}
@Override
public Date decode(DateBean presentationValue) {
if (presentationValue == null) {
return null;
}
int year = Integer.parseInt(presentationValue.getYear());
int day = Integer.parseInt(presentationValue.getDay());
int month = Integer.parseInt(presentationValue.getMonth()) - 1;
Calendar calendar = GregorianCalendar.getInstance();
calendar.set(year, month, day);
return calendar.getTime();
}
}
-
The
Date
property is encoded to three sub-properties:day
,month
andyear
.
Example: Using the sub-properties in a JavaScript Polymer template (snippet only).
static get template() {
return html`
<div style="width: 200px;">
<label>Birth date:</label>
<label for="day">Enter your birthday:</label><paper-input id="day" value="{{birthDate.day}}"></paper-input>
<label for="month">Enter the month of your birthday:</label><paper-input id="month" value="{{birthDate.month}}"></paper-input>
<label for="year">Enter the year of your birthday:</label><paper-input id="year" value="{{birthDate.year}}"></paper-input>
<button on-click="commit" id="commit">Commit</button>
</div>`;
}
-
Each of the three sub-properties (
day
,month
, andyear
) has its own editor. On the server side, it is still one property,birthDate
. -
You need use your original property name (
birthDate
in this example (notdateBean
)) as a prefix to access the sub-properties.
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