com.opensymphony.xwork2.validator
Interface Validator

All Known Subinterfaces:

FieldValidator

All Known Implementing Classes:

AbstractRangeValidator, ConditionalVisitorFieldValidator, ConversionErrorFieldValidator, DateRangeFieldValidator, DoubleRangeFieldValidator, EmailValidator, ExpressionValidator, FieldExpressionValidator, FieldValidatorSupport, IntRangeFieldValidator, LongRangeFieldValidator, RegexFieldValidator, RepopulateConversionErrorFieldValidatorSupport, RequiredFieldValidator, RequiredStringValidator, ShortRangeFieldValidator, StringLengthFieldValidator, URLValidator, ValidatorSupport, VisitorFieldValidator

public interface Validator

The validators supplied by the XWork distribution (and any validators you might write yourself) come in two different flavors:

1. Plain Validators / Non-Field validators
2. FieldValidators

Plain Validators (such as the ExpressionValidator) perform validation checks that are not inherently tied to a single specified field. When you declare a plain Validator in your -validation.xml file you do not associate a fieldname attribute with it. (You should avoid using plain Validators within the syntax described below.)

FieldValidators (such as the EmailValidator) are designed to perform validation checks on a single field. They require that you specify a fieldname attribute in your -validation.xml file. There are two different (but equivalent) XML syntaxes you can use to declare FieldValidators (see " vs. syntax" below).

There are two places where the differences between the two validator flavors are important to keep in mind:

1. when choosing the xml syntax used for declaring a validator (either or )
2. when using the short-circuit capability

NOTE:Note that you do not declare what "flavor" of validator you are using in your -validation.xml file, you just declare the name of the validator to use and WebWork will know whether it's a "plain Validator" or a "FieldValidator" by looking at the validation class that the validator's programmer chose to implement.

To define validation rules for an Action, create a file named ActionName-validation.xml in the same package as the Action. You may also create alias-specific validation rules which add to the default validation rules defined in ActionName-validation.xml by creating another file in the same directory named ActionName-aliasName-validation.xml. In both cases, ActionName is the name of the Action class, and aliasName is the name of the Action alias defined in the xwork.xml configuration for the Action.

The framework will also search up the inheritance tree of the Action to find validation rules for directly implemented interfaces and parent classes of the Action. This is particularly powerful when combined with ModelDriven Actions and the VisitorFieldValidator. Here's an example of how validation rules are discovered. Given the following class structure:

• interface Animal;
• interface Quadraped extends Animal;
• class AnimalImpl implements Animal;
• class QuadrapedImpl extends AnimalImpl implements Quadraped;
• class Dog extends QuadrapedImpl;

The framework method will look for the following config files if Dog is to be validated:

• Animal
• Animal-aliasname
• AnimalImpl
• AnimalImpl-aliasname
• Quadraped
• Quadraped-aliasname
• QuadrapedImpl
• QuadrapedImpl-aliasname
• Dog
• Dog-aliasname

While this process is similar to what the XW:Localization framework does when finding messages, there are some subtle differences. The most important difference is that validation rules are discovered from the parent downwards.

NOTE:Child's *-validation.xml will add on to parent's *-validation.xml according to the class hierarchi defined above. With this feature, one could have more generic validation rule at the parent and more specific validation rule at the child.

There are two ways you can define validators in your -validation.xml file:

1. <validator>
2. <field-validator>

Keep the following in mind when using either syntax:

Non-Field-Validator The <validator> element allows you to declare both types of validators (either a plain Validator a field-specific FieldValidator).

 
    <!-- Declaring a plain Validator using the <validator> syntax: -->

    <validator type="expression>
          <param name="expression">foo gt bar</param>
          <message>foo must be great than bar.</message>
    </validator>
 
 

 
    <!-- Declaring a field validator using the <validator> syntax; -->

    <validator type="required">
         <param name="fieldName">bar</param>
         <message>You must enter a value for bar.</message>
    </validator>
 
 

field-validator The <field-validator> elements are basically the same as the <validator> elements except that they inherit the fieldName attribute from the enclosing <field> element. FieldValidators defined within a <field-validator> element will have their fieldName automatically filled with the value of the parent <field> element's fieldName attribute. The reason for this structure is to conveniently group the validators for a particular field under one element, otherwise the fieldName attribute would have to be repeated, over and over, for each individual <validator>.

HINT: It is always better to defined field-validator inside a <field> tag instead of using a <validator> tag and supplying fieldName as its param as the xml code itself is clearer (grouping of field is clearer)

NOTE: Note that you should only use FieldValidators (not plain Validators) within a block. A plain Validator inside a <field> will not be allowed and would generate error when parsing the xml, as it is not allowed in the defined dtd (xwork-validator-1.0.2.dtd)

 
 Declaring a FieldValidator using the <field-validator> syntax:
 
 <field name="email_address">
   <field-validator type="required">
       <message>You cannot leave the email address field empty.</message>
   </field-validator>
   <field-validator type="email">
       <message>The email address you entered is not valid.</message>
   </field-validator>
 </field>
 
 

The choice is yours. It's perfectly legal to only use elements without the elements and set the fieldName attribute for each of them. The following are effectively equal:

 
 <field name="email_address">
   <field-validator type="required">
       <message>You cannot leave the email address field empty.</message>
   </field-validator>
   <field-validator type="email">
       <message>The email address you entered is not valid.</message>
   </field-validator>
 </field>


 <validator type="required">
   <param name="fieldName">email_address</param>
   <message>You cannot leave the email address field empty.</message>
 </validator>
 <validator type="email">
   <param name="fieldName">email_address</param>
   <message>The email address you entered is not valid.</message>
 </validator>
 
 

Beginning with XWork 1.0.1 (bundled with WebWork 2.1), it is possible to short-circuit a stack of validators. Here is another sample config file containing validation rules from the Xwork test cases: Notice that some of the <field-validator> and <validator> elements have the short-circuit attribute set to true.

 <!-- START SNIPPET: exShortCircuitingValidators -->
 <!DOCTYPE validators PUBLIC 
         "-//OpenSymphony Group//XWork Validator 1.0.2//EN" 
         "http://www.opensymphony.com/xwork/xwork-validator-1.0.2.dtd">
 <validators>
   <!-- Field Validators for email field -->
   <field name="email">
       <field-validator type="required" short-circuit="true">
           <message>You must enter a value for email.</message>
       </field-validator>
       <field-validator type="email" short-circuit="true">
           <message>Not a valid e-mail.</message>
       </field-validator>
   </field>
   <!-- Field Validators for email2 field -->
   <field name="email2">
      <field-validator type="required">
           <message>You must enter a value for email2.</message>
       </field-validator>
      <field-validator type="email">
           <message>Not a valid e-mail2.</message>
       </field-validator>
   </field>
   <!-- Plain Validator 1 -->
   <validator type="expression">
       <param name="expression">email.equals(email2)</param>
       <message>Email not the same as email2</message>
   </validator>
   <!-- Plain Validator 2 -->
   <validator type="expression" short-circuit="true">
       <param name="expression">email.startsWith('mark')</param>
       <message>Email does not start with mark</message>
   </validator>
 </validators>
 <!-- END SNIPPET: exShortCircuitingValidators -->

short-circuiting and Validator flavors

Plain validator takes precedence over field-validator. They get validated first in the order they are defined and then the field-validator in the order they are defined. Failure of a particular validator marked as short-circuit will prevent the evaluation of subsequent validators and an error (action error or field error depending on the type of validator) will be added to the ValidationContext of the object being validated.

In the example above, the actual execution of validator would be as follows:

1. Plain Validator 1
2. Plain Validator 2
3. Field Validators for email field
4. Field Validators for email2 field

Since Field Validator 2 is short-circuited, if its validation failed, it will causes Field validators for email field and Field validators for email2 field to not be validated as well.

Usefull Information: More complecated validation should probably be done in the validate() method on the action itself (assuming the action implements Validatable interface which ActionSupport already does).

A plain Validator (non FieldValidator) that gets short-circuited will completely break out of the validation stack no other validators will be evaluated and plain validator takes precedence over field validator meaning that they get evaluated in the order they are defined before field validator gets a chance to be evaludated again according to their order defined.

Short cuircuiting and validator flavours

A FieldValidator that gets short-circuited will only prevent other FieldValidators for the same field from being evaluated. Note that this "same field" behavior applies regardless of whether the or syntax was used to declare the validation rule. By way of example, given this -validation.xml file:

 
 <validator type="required" short-circuit="true">
   <param name="fieldName">bar</param>
   <message>You must enter a value for bar.</message>
 </validator>

 <validator type="expression">
   <param name="expression">foo gt bar</param>
   <message>foo must be great than bar.</message>
 </validator>
 
 

both validators will be run, even if the "required" validator short-circuits. "required" validators are FieldValidator's and will not short-circuit the plain ExpressionValidator because FieldValidators only short-circuit other checks on that same field. Since the plain Validator is not field specific, it is not short-circuited.

As mentioned above, the framework will also search up the inheritance tree of the action to find default validations for interfaces and parent classes of the Action. If you are using the short-circuit attribute and relying on default validators higher up in the inheritance tree, make sure you don't accidentally short-circuit things higher in the tree that you really want!

Author:

Jason Carreira

Method Summary

String	getDefaultMessage() Gets the default message used for validation failures
String	getMessage(Object object) Gets the validation failure message for the given object
String	getMessageKey() Gets the resource bundle key used for lookup of validation failure message
ValidatorContext	getValidatorContext() Gets the validation context used
String	getValidatorType() Gets the vaildator type used (see class javadoc).
void	setDefaultMessage(String message) Sets the default message to use for validation failure
void	setMessageKey(String key) Sets a resource bundle key to be used for lookup of validation failure message
void	setValidatorContext(ValidatorContext validatorContext) This method will be called before validate with a non-null ValidatorContext.
void	setValidatorType(String type) Sets the validator type to use (see class javadoc).
void	setValueStack(ValueStack stack) Sets the value stack to use to resolve values and parameters
void	validate(Object object) The validation implementation must guarantee that setValidatorContext will be called with a non-null ValidatorContext before validate is called.

Method Detail

setDefaultMessage

void setDefaultMessage(String message)

Sets the default message to use for validation failure

Parameters:

message - the default message

getDefaultMessage

String getDefaultMessage()

Gets the default message used for validation failures

Returns:

the default message

getMessage

String getMessage(Object object)

Gets the validation failure message for the given object

Parameters:

object - object being validated (eg. a domain model object)

Returns:

the validation failure message

setMessageKey

void setMessageKey(String key)

Sets a resource bundle key to be used for lookup of validation failure message

Parameters:

key - the resource bundle key

getMessageKey

String getMessageKey()

Gets the resource bundle key used for lookup of validation failure message

Returns:

the resource bundle key

setValidatorContext

void setValidatorContext(ValidatorContext validatorContext)

This method will be called before validate with a non-null ValidatorContext.

Parameters:

validatorContext - the validation context to use.

getValidatorContext

ValidatorContext getValidatorContext()

Gets the validation context used

Returns:

the validation context

validate

void validate(Object object)
              throws ValidationException

The validation implementation must guarantee that setValidatorContext will be called with a non-null ValidatorContext before validate is called.

Parameters:

object - the object to be validated.

Throws:

ValidationException - is thrown if there is validation error(s).

setValidatorType

void setValidatorType(String type)

Sets the validator type to use (see class javadoc).

Parameters:

type - the type to use.

getValidatorType

String getValidatorType()

Gets the vaildator type used (see class javadoc).

Returns:

the type used

setValueStack

void setValueStack(ValueStack stack)

Sets the value stack to use to resolve values and parameters

Parameters:

stack - The value stack for the request

Since:

2.1.1