Interface ConstraintValidatorContext
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public interface ConstraintValidatorContext
Provides contextual data and operation when applying a given constraint validator. At least oneConstraintViolation
must be defined (either the default one, of if the defaultConstraintViolation
is disabled, a custom one).- Author:
- Emmanuel Bernard, Guillaume Smet
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Nested Class Summary
Nested Classes Modifier and Type Interface Description static interface
ConstraintValidatorContext.ConstraintViolationBuilder
ConstraintViolation
builder allowing to optionally associate the violation report to a sub path.
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Method Summary
All Methods Instance Methods Abstract Methods Modifier and Type Method Description ConstraintValidatorContext.ConstraintViolationBuilder
buildConstraintViolationWithTemplate(java.lang.String messageTemplate)
Returns a constraint violation builder building a violation report allowing to optionally associate it to a sub path.void
disableDefaultConstraintViolation()
Disables the defaultConstraintViolation
object generation (which is using the message template declared on the constraint).ClockProvider
getClockProvider()
Returns the provider for obtaining the current time in the form of aClock
, e.g.java.lang.String
getDefaultConstraintMessageTemplate()
<T> T
unwrap(java.lang.Class<T> type)
Returns an instance of the specified type allowing access to provider-specific APIs.
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Method Detail
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disableDefaultConstraintViolation
void disableDefaultConstraintViolation()
Disables the defaultConstraintViolation
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.
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getDefaultConstraintMessageTemplate
java.lang.String getDefaultConstraintMessageTemplate()
- Returns:
- the current un-interpolated default message
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getClockProvider
ClockProvider getClockProvider()
Returns the provider for obtaining the current time in the form of aClock
, e.g. when validating theFuture
andPast
constraints.- Returns:
- the provider for obtaining the current time, never
null
. If no specific provider has been configured during bootstrap, a default implementation using the current system time and the current default time zone as returned byClock.systemDefaultZone()
will be returned. - Since:
- 2.0
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buildConstraintViolationWithTemplate
ConstraintValidatorContext.ConstraintViolationBuilder buildConstraintViolationWithTemplate(java.lang.String messageTemplate)
Returns a constraint violation builder building a violation report allowing to optionally associate it to a sub path. The violation message will be interpolated.To create the
ConstraintViolation
, one must call either one of theaddConstraintViolation()
methods available in one of the interfaces of the fluent API. If another method is called afteraddConstraintViolation()
onConstraintViolationBuilder
or any of its associated nested interfaces anIllegalStateException
is raised.If
ConstraintValidator.isValid(Object, ConstraintValidatorContext)
returnsfalse
, aConstraintViolation
object will be built per constraint violation report including the default one (unlessdisableDefaultConstraintViolation()
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 fromConstraintValidatorContext
Here are a few usage examples://assuming the following domain model public class User { public Map<String,Address> 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() .inContainer( Map.class, 1 ) .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" ) .inContainer( Map.class, 1 ) .inIterable().atKey( "home" ) .addPropertyNode( "name" ) .addConstraintViolation(); //From a class level constraint on User //Build a constraint violation on the default path + addresses["home"].<map key> //i.e. a container element constraint violation for the map key context.buildConstraintViolationWithTemplate( "the map key is invalid" ) .addPropertyNode( "addresses" ) .addContainerElementNode( "<map key>", Map.class, 0 ) .inIterable().atKey( "invalid" ) .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<String,Address> addresses, // Map<String,Address> 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() .inContainer( Map.class, 1 ) .inIterable().atKey("home") .addConstraintViolation(); //Cross-parameter constraint on a method //mergeAddresses(Map<String,Address> addresses, // Map<String,Address> 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") .inContainer( Map.class, 1 ) .inIterable().atKey("home") .addConstraintViolation();
- Parameters:
messageTemplate
- new un-interpolated constraint message- Returns:
- returns a constraint violation builder
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unwrap
<T> T unwrap(java.lang.Class<T> type)
Returns an instance of the specified type allowing access to provider-specific APIs. If the Jakarta Validation provider implementation does not support the specified class,ValidationException
is thrown.- Type Parameters:
T
- the type of the object to be returned- Parameters:
type
- the class of the object to be returned- Returns:
- an instance of the specified class
- Throws:
ValidationException
- if the provider does not support the call- Since:
- 1.1
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