public interface ConstraintValidatorContext
ConstraintViolation must be defined (either the default one,
of if the default ConstraintViolation is disabled, a custom one).| Modifier and Type | Interface and Description |
|---|---|
static interface |
ConstraintValidatorContext.ConstraintViolationBuilder
ConstraintViolation builder allowing to optionally associate
the violation report to a sub path. |
| Modifier and Type | Method and Description |
|---|---|
ConstraintValidatorContext.ConstraintViolationBuilder |
buildConstraintViolationWithTemplate(String messageTemplate)
Returns a constraint violation builder building a violation report
allowing to optionally associate it to a sub path.
|
void |
disableDefaultConstraintViolation()
Disables the default
ConstraintViolation object generation (which
is using the message template declared on the constraint). |
String |
getDefaultConstraintMessageTemplate() |
<T> T |
unwrap(Class<T> type)
Returns an instance of the specified type allowing access to
provider-specific APIs.
|
void disableDefaultConstraintViolation()
ConstraintViolation object generation (which
is using the message template declared on the constraint).
Useful to set a different violation message or generate a ConstraintViolation
based on a different property.String getDefaultConstraintMessageTemplate()
ConstraintValidatorContext.ConstraintViolationBuilder buildConstraintViolationWithTemplate(String messageTemplate)
ConstraintViolation, one must call either one of
the addConstraintViolation() methods available in one of the
interfaces of the fluent API.
If another method is called after addConstraintViolation() on
ConstraintViolationBuilder or any of its associated nested interfaces
an IllegalStateException is raised.
If ConstraintValidator.isValid(Object, ConstraintValidatorContext) returns
false, a ConstraintViolation object will be built per constraint
violation report including the default one (unless
disableDefaultConstraintViolation() has been called).
ConstraintViolation objects generated from such a call
contain the same contextual information (root bean, path and so on) unless
the path has been overridden.
To create a different ConstraintViolation, a new constraint violation builder
has to be retrieved from ConstraintValidatorContext
Here are a few usage examples:
//assuming the following domain model
public class User {
public Map getAddresses() { ... }
}
public class Address {
public String getStreet() { ... }
public Country getCountry() { ... }
}
public class Country {
public String getName() { ... }
}
//From a property-level constraint on User.addresses
//Build a constraint violation on the default path - i.e. the "addresses" property
context.buildConstraintViolationWithTemplate( "this detail is wrong" )
.addConstraintViolation();
//From a class level constraint on Address
//Build a constraint violation on the default path + "street"
//i.e. the street property of Address
context.buildConstraintViolationWithTemplate( "this detail is wrong" )
.addPropertyNode( "street" )
.addConstraintViolation();
//From a property-level constraint on User.addresses
//Build a constraint violation on the default path + the bean stored
//under the "home" key in the map
context.buildConstraintViolationWithTemplate( "Incorrect home address" )
.addBeanNode()
.inIterable().atKey( "home" )
.addConstraintViolation();
//From a class level constraint on User
//Build a constraint violation on the default path + addresses["home"].country.name
//i.e. property "country.name" on the object stored under "home" in the map
context.buildConstraintViolationWithTemplate( "this detail is wrong" )
.addPropertyNode( "addresses" )
.addPropertyNode( "country" )
.inIterable().atKey( "home" )
.addPropertyNode( "name" )
.addConstraintViolation();
Cross-parameter constraints on a method can create a node specific
to a particular parameter if required. Let's explore a few examples:
//Cross-parameter constraint on method createUser(String password, String passwordRepeat)
//Build a constraint violation on the default path + "passwordRepeat"
context.buildConstraintViolationWithTemplate("Passwords do not match")
.addParameterNode(1)
.addConstraintViolation();
//Cross-parameter constraint on a method
//mergeAddresses(Map addresses, Map otherAddresses)
//Build a constraint violation on the default path + "otherAddresses["home"]
//i.e. the Address bean hosted in the "home" key of the "otherAddresses" map parameter
context.buildConstraintViolationWithTemplate(
"Map entry home present in both and does not match")
.addParameterNode(1)
.addBeanNode()
.inIterable().atKey("home")
.addConstraintViolation();
//Cross-parameter constraint on a method
//mergeAddresses(Map addresses, Map otherAddresses)
//Build a constraint violation on the default path + "otherAddresses["home"].city
//i.e. on the "city" property of the Address bean hosted in
//the "home" key of the "otherAddresses" map
context.buildConstraintViolationWithTemplate(
"Map entry home present in both but city does not match")
.addParameterNode(1)
.addPropertyNode("city")
.inIterable().atKey("home")
.addConstraintViolation();
messageTemplate - new un-interpolated constraint message<T> T unwrap(Class<T> type)
ValidationException is thrown.type - the class of the object to be returnedValidationException - if the provider does not support the callCopyright © 1996-2015, Oracle and/or its affiliates. All Rights Reserved. Use is subject to license terms.