2. Using the Tutorial Examples
3. Getting Started with Web Applications
4. JavaServer Faces Technology
7. Using JavaServer Faces Technology in Web Pages
8. Using Converters, Listeners, and Validators
Converting a Component's Value
Registering Listeners on Components
Registering a Value-Change Listener on a Component
Registering an Action Listener on a Component
Referencing a Managed Bean Method
Referencing a Method That Performs Navigation
Referencing a Method That Handles an Action Event
Referencing a Method That Performs Validation
Referencing a Method That Handles a Value-Change Event
9. Developing with JavaServer Faces Technology
10. JavaServer Faces Technology: Advanced Concepts
11. Using Ajax with JavaServer Faces Technology
12. Composite Components: Advanced Topics and Example
13. Creating Custom UI Components and Other Custom Objects
14. Configuring JavaServer Faces Applications
16. Uploading Files with Java Servlet Technology
17. Internationalizing and Localizing Web Applications
18. Introduction to Web Services
19. Building Web Services with JAX-WS
20. Building RESTful Web Services with JAX-RS
21. JAX-RS: Advanced Topics and Example
23. Getting Started with Enterprise Beans
24. Running the Enterprise Bean Examples
25. A Message-Driven Bean Example
26. Using the Embedded Enterprise Bean Container
27. Using Asynchronous Method Invocation in Session Beans
Part V Contexts and Dependency Injection for the Java EE Platform
28. Introduction to Contexts and Dependency Injection for the Java EE Platform
29. Running the Basic Contexts and Dependency Injection Examples
30. Contexts and Dependency Injection for the Java EE Platform: Advanced Topics
31. Running the Advanced Contexts and Dependency Injection Examples
32. Introduction to the Java Persistence API
33. Running the Persistence Examples
34. The Java Persistence Query Language
35. Using the Criteria API to Create Queries
36. Creating and Using String-Based Criteria Queries
37. Controlling Concurrent Access to Entity Data with Locking
38. Using a Second-Level Cache with Java Persistence API Applications
39. Introduction to Security in the Java EE Platform
40. Getting Started Securing Web Applications
41. Getting Started Securing Enterprise Applications
42. Java EE Security: Advanced Topics
Part VIII Java EE Supporting Technologies
43. Introduction to Java EE Supporting Technologies
45. Resources and Resource Adapters
46. The Resource Adapter Example
47. Java Message Service Concepts
48. Java Message Service Examples
49. Bean Validation: Advanced Topics
50. Using Java EE Interceptors
51. Duke's Bookstore Case Study Example
52. Duke's Tutoring Case Study Example
53. Duke's Forest Case Study Example
JavaServer Faces technology provides a set of standard classes and associated tags that page authors and application developers can use to validate a component’s data. Table 8-4 lists all the standard javax.faces.validator classes and the tags that allow you to use the validators from the page.
Table 8-4 The Validator Classes
Validator Class
Tag
Function
BeanValidator
validateBean
Registers a bean validator for the component.
Checks whether the local value of a component is within a certain range. The value must be floating-point or convertible to floating-point.
Checks whether the length of a component’s local value is within a certain range. The value must be a java.lang.String.
Checks whether the local value of a component is within a certain range. The value must be any numeric type or String that can be converted to a long.
RegexValidator
validateRegEx
Checks whether the local value of a component is a match against a regular expression from the java.util.regex package.
RequiredValidator
validateRequired
Ensures that the local value is not empty on an javax.faces.component.EditableValueHolder component.
All these validator classes implement the javax.faces.validator.Validator interface. Component writers and application developers can also implement this interface to define their own set of constraints for a component’s value.
Similar to the standard converters, each of these validators has one or more standard error messages associated with it. If you have registered one of these validators onto a component on your page, and the validator is unable to validate the component’s value, the validator’s error message will display on the page. For example, the error message that displays when the component’s value exceeds the maximum value allowed by LongRangeValidator is as follows:
{1}: Validation Error: Value is greater than allowable maximum of "{0}"
In this case, the {1} substitution parameter is replaced by the component’s label or id, and the {0} substitution parameter is replaced with the maximum value allowed by the validator.
See Displaying Error Messages with the h:message and h:messages Tags for information on how to display validation error messages on the page when validation fails.
Instead of using the standard validators, you can use Bean Validation to validate data. See Using Bean Validation for more information.
Validating a Component’s ValueTo validate a component’s value using a particular validator, you need to register that validator on the component. You can do this in one of the following ways:
Nest the validator’s corresponding tag (shown in Table 8-4) inside the component’s tag. Using LongRangeValidator explains how to use the validateLongRange tag. You can use the other standard tags in the same way.
Refer to a method that performs the validation from the component tag’s validator attribute.
Nest a validator tag inside the component tag, and use either the validator tag’s validatorId attribute or its binding attribute to refer to the validator.
See Referencing a Method That Performs Validation for more information on using the validator attribute.
The validatorId attribute works similarly to the converterId attribute of the converter tag, as described in Converting a Component's Value.
Keep in mind that validation can be performed only on components that implement EditableValueHolder, because these components accept values that can be validated.
Using LongRangeValidatorThe following example shows how to use the validateLongRange validator on an input component named quantity:
<h:inputText id="quantity" size="4"
value="#{item.quantity}" >
<f:validateLongRange minimum="1"/>
</h:inputText>
<h:message for="quantity"/>
This tag requires the user to enter a number that is at least 1. The validateLongRange tag also has a maximum attribute, which sets a maximum value for the input.
The attributes of all the standard validator tags accept EL value expressions. This means that the attributes can reference managed bean properties rather than specify literal values. For example, the validateLongRange tag in the preceding example can reference managed bean properties called minimum and maximum to get the minimum and maximum values acceptable to the validator implementation, as shown in this snippet from the guessnumber example:
<h:inputText
id="userNo"
title="Type a number from 0 to 10:"
value="#{userNumberBean.userNumber}">
<f:validateLongRange
minimum="#{userNumberBean.minimum}"
maximum="#{userNumberBean.maximum}"/>
</h:inputText>
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