Introduction to Spring Framework :
The Spring
MVC provides rich functionality for building robust Web
Applications and it is available as a separate module in the
Distribution. The Spring MVC Framework is
architected and designed in such a way that every piece of logic and
functionality is highly configurable. Also Spring can integrate effortlessly
with other popular Web Frameworks like Struts, WebWork, Java
Server Faces and Tapestry. It means that you can even
instruct Spring to use any one of the Web Frameworks. More than that Spring is
not tightly coupled with Servlets or Jsp to render the View to the Clients.
Integration with other View technologies like Velocity, Freemarker, Excel or Pdf is
also possible now. This article provides an introduction over the various
components that are available in the Spring MVC for the Web
Tier. Specifically the major Core Components like Dispatcher Servlet, Handler
Mappings, Controller, Model, View and View
Resolver along with the appropriate Api are discussed briefly. Finally
the article will conclude by presenting a Sample Application.
The Spring Workflow
Before
taking a look over the various Components that are involved in the Spring
MVC Framework, let us have a look on the style of Spring Web Flow.
1. The Client requests
for a Resource in the Web Application.
2. The Spring
Front Controller, which is implemented as a Servlet, will intercept the
Request and then will try to find out the appropriate Handler Mappings.
3. The Handle
Mappings is used to map a request from the Client to its Controller
object by browsing over the various Controllers defined in the Configuration
file.
4. With the help
of Handler Adapters, the Dispatcher Servlet will dispatch the
Request to the Controller.
5. The Controller
processes the Client Request and returns the Model and the View in
the form of ModelAndView object back to the Front Controller.
6. The Front
Controller then tries to resolve the actual View (which
may be Jsp, Velocity or Free marker) by consulting the View Resolver
object.
7. Then the selected
View is rendered back to the Client.
Dispatcher Servlet
The Dispatcher
Servlet as represented by
org.springframework.web.servlet.DispatcherServlet, follows the Front
Controller Design Pattern for handling Client Requests. It means that
whatever Url comes from the Client, this Servlet will intercept the Client
Request before passing the Request Object to the Controller. The Web
Configuration file should be given definition in such a way that this
Dispatcher Servlet should be invoked for Client Requests.Following is the
definition given in the web.xml to invoke Spring's Dispatcher
Servlet.
web.xml
<?xml version="1.0"
encoding="UTF-8"?>
<web-app version="2.4">
<servlet>
<servlet-name>dispatcher</servlet-name>
<servlet-class>
org.springframework.web.servlet.DispatcherServlet
</servlet-class>
<load-on-startup>2</load-on-startup>
</servlet>
<servlet-mapping>
<servlet-name>dispatcher</servlet-name>
<url-pattern>*.*</url-pattern>
</servlet-mapping>
</web-app>
Look
into the definition of servlet-mapping tag. It
tells that whatever be the Client Request (represented by *.* meaning any Url
with any extension), invoke the Servlet by name 'dispatcher'. In our case, the 'dispatcher' servlet is nothing
but an instance of type 'org.springframework.web.servlet.DispatcherServlet'.
Closing associated term with the Dispatcher Servlet is the Application Context. An Application Context usually represents a set of Configuration Files that are used to provide Configuration Information to the Application. The Application Context is a Xml file that contain various Bean Definitions. By default the Dispatcher Servlet will try to look for a file by name <servlet-name>-servlet.xml in the WEB-INF directory. So, in our case the Servlet will look for a file name called dispatcher-servlet.xml file in the WEB-INF directory.
It is wise sometimes to split all the Configuration information across multiple Configuration Files. In such a case we have to depend on a Listener Servlet called Context Loader represented by org.springframework.web.context.ContextLoaderListener.
<web-app>
<listener>
<listener-class>
org.springframework.web.context.ContextLoaderListener
</listener-class>
</listener>
</web-app>
By
default, this Context Listener will try to look for the Configuration File by
name 'applicationContext.xml' in
the '/WEB-INF' directory. But with the
help of the parameter 'contextConfigLocation' the
default location can be overridden. Even multiple Configuration Files each
containing separate piece of Information is also possible.
web.xml
<?xml version="1.0" encoding="UTF-8"?>
<web-app version="2.4">
<listener>
<listener-class>org.springframework.web.context.ContextLoaderListener</listener-class>
</listener>
<context-param>
<param-name>contextConfigLocation</param-name>
<param-value>/WEB-INF/contacts.xml,
/WEB-INF/resources.xml</param-value>
</context-param>
</web-app>
The
above definition instructs the Framework to look and load for the Configuration
Files by name 'contacts.xml' and 'resources.xml' in the WEB-INF directory.
Handler Mappings
When
the Client Request reaches the Dispatcher Servlet, the Dispatcher
Servlet tries to find the appropriate Handler Mapping Object
to map between the Request and the Handling Object. A Handler Mapping provides
an abstract way that tell how the Client's Url has to be mapped to
the Handlers. Four concrete variation of Handler Mapping are available. They
are defined as follows
·
BeanNameUrl
HandlerMapping
·
CommonsPathMap
HandlerMapping
·
ControllerClassName
HandlerMapping
·
SimpleUrl
HandlerMapping
All
the above Handler Mapping objects are represented as BeanNameUrlHandlerMapping, CommonsPathMapHandlerMapping, ControllerClassNameHandlerMapping and SimpleUrlHandlerMapping in the org.springframework.web.servlet package respectively. Let
us see the functionalities and the differences in usage one by one.
BeanNameUrl HandlerMapping
This
is the simplest of the Handler Mapping and it is used to map
the Url that comes from the Clients directly to the Bean Object. In the later
section, we will see that the Bean is nothing but a Controller object. For
example, consider that the following are the valid Url in a Web Application
that a Client Application can request for.
http://myserver.com/eMail/showAllMails
http://myserver.com/eMail/composeMail
http://myserver.com/eMail/deleteMail
Note
that the Url (excluding the Application Context) in the above cases are 'showAllMails', 'composeMail' and 'deleteMail'. This means that the Framework will look for Bean
Definitions with Identifiers 'showAllMails', 'composeMail' and 'deleteMail'.
Consider the following Xml code snippet in the Configuration file,
<beans>
<bean
name="/showAllMails.jsp" class="com.javabeat.net.ShowAllMailsController">
</bean>
<bean
name="/composeMail.jsp" class="com.javabeat.net.ComposeMailController">
</bean>
<bean
name="/ deleteMail.jsp" class="com.javabeat.net.DeleteMailController">
</bean>
</beans>
So,
in BeanNameUrl Handler Mapping, the Url of the Client is directly
mapped to the Controller. To enable this kind of Handler Mapping in the
Application, the Configuration file should have a similar kind of definition
like the following,
<beans>
<bean
id="beanNameUrl" class="org.springframework.web.servlet.handler.BeanNameUrlHandlerMapping"
/>
</beans>
CommonsPathMap HandlerMapping
This
is a rarely used Handler Mapping in which case, the name of the Url to which
the Controller has to be mapped is specified directly in the Source file of the
Controller. Considering the previous example, if we want to map 'showAllMails',
'composeMail' and 'deleteMail' to Controllers namely ShowAllMailsController, ComposeMailController and DeleteMailController, then the mapping information must be
specified in the form of meta-data in the source files inside
the Javadoc comments. Consider the following Controller Definitions,
/**
*@@
org.springframework.web.servlet.handler.commonsattributes.
*PathMap("/showAllMails.jsp")
*/
public class ShowAllMailsController{
}
/**
*@@
org.springframework.web.servlet.handler.commonsattributes.
*PathMap("/composeMail.jsp")
*/
public class
ComposeMailController{
}
/**
*@@
org.springframework.web.servlet.handler.commonsattributes.
*PathMap("/deleteMail.jsp")
*/
public class
DeleteMailController {
}
The
attribute must point to org.springframework.web.servlet.handler.commonsattributes.PathMap. By defining
Controllers in this way, one more additional compilation step is needed. That
is to make the availability of this attribute in the Class files, this Java
Source has to be compiled with the Commons Attribute Compiler which
comes along with the Spring Distribution. As before, to enable this kind of
mapping , the Configuration File should have an entry similar to this,
<beans>
<bean
id="metaHandlerMapping" class="org.springframework.web.servlet.handler. metadata.CommonsPathMapHandlerMapping"
/>
</beans>
ControllerClassName
HandlerMapping
In
this kind of Handler Mapping, the name of the Controller is taking directly
from the Url itself with slight modifications. For example, let us assume that
the Client request ends with Url as shown below,
http://myserver.com/emailApp/showInbox.jsp
http://myserver.com/emailApp/showDeletedItems.jsp
And as such, we have a Controller definition by
name ShowController as follows,
ShowController.java
public class ShowController{
}
Also
the Configuration file is made to activate this kind of Handler Mapping by
making the following definition,
<beans>
<bean
id="controllerClassName" class="org.springframework.web.servlet.handler.metadata.ControllerClassNameHandlerMapping"
/>
</beans>
The first thing the Framework does it, it will
traverse through the List of Controllers defined in the Configuration File and
perform these actions. For the Controller ShowController, then Framework will
remove the Controller String and then lowercase the first letter. In our case
the string now becomes show. Now whatever Client Request matches the pattern /show*, then the ShowController will be invoked.
SimpleUrl HandlerMapping
This
is the Simplest of all the Handler Mappings as it directly maps the Client Request
to some Controller object. Consider the following Configuration File,
<bean id="simpleUrlMapping" class="org.springframework.web.servlet.handler.SimpleUrlHandlerMapping">
<property
name="mappings">
<props>
<prop key="/showAllMails.jsp">showController</prop>
<prop key="/composeMail.jsp">composeController</prop>
<prop key="/deleteMail.jsp">deleteController</prop>
</props>
</property>
</bean>
The
set of mappings is encapsulated in the 'property' tag with
each defined in a 'prop' element with the 'key' attribute
being the Url, the value being the Identifier of the Controller Objects. Note
that the Beans for the above Identifiers should be defined somewhere in the
Configuration File.
Handler Adapters
It
is important to understand that the Spring Framework is so flexible enough to
define what Components should be delegated the Request once the Dispatcher
Servlet finds the appropriate Handler Mapping. This is
achieved in the form of Handler Adapters. If you remember in the
Spring Work flow section, that it is mentioned once the Dispatcher Servlet
chooses the appropriate Handler Mapping, the Request is then
forwarded to the Controller object that is defined in the Configuration File.
This is the default case. And this so happens because the Default
Handler Adapter is Simple Controller Handler Adapter (represented
by org.springframework.web.servlet.SimpleControllerHandlerAdapter), which will
do the job of the Forwarding the Request from the Dispatcher to the Controller
object.
Other
types of Handler Adapters are Throwaway Controller
HandlerAdapter (org.springframework.web.servlet.ThrowawayControllerHandlerAdapter) and SimpleServlet
HandlerAdapter (org.springframework.web.servlet.SimpleServletHandlerAdapter). The Throwaway
Controller HandlerAdapter, for example, carries the Request from the
Dispatcher Servlet to the Throwaway Controller (discussed
later in the section on Controllers) and Simple Servlet Handler Adapter will
carry forward the Request from the Dispatcher Servlet to a Servlet thereby
making the Servlet.service() method
to be invoked.
If,
for example, you don't want the default Simple Controller Handler
Adapter, then you have to redefine the Configuration file with the similar
kind of information as shown below,
<bean id="throwawayHandler"
class="org.springframework.web.servlet.mvc.throwaway.ThrowawayControllerHandlerAdapter"
/>
<!-- OR -->
<bean id="throwawayHandler"
class="org.springframework.web.servlet.mvc.throwaway.
SimpleServletHandlerAdapter" />
Even,
it is possible to write a Custom Handler Adapter by
implementing the HandlerAdapter interface
available in the org.springframework.web.servlet package.
Controller
Controllers
are components that are being called by the Dispatcher Servlet for doing any
kind of Business Logic. Spring Distribution already comes with a variety
of Controller Components each doing a specific purpose. All
Controller Components in Spring implement the org.springframework.web.servlet.mvc.Controller interface.
This section aimed to provide the commonly used Controllers in the Spring
Framework. The following are the Controller Components available in the Spring
Distribution.
·
SimpleFormController
·
AbstractController
·
AbstractCommandController
·
CancellableFormController
·
AbstractCommandController
·
MultiActionController
·
ParameterizableViewController
·
ServletForwardingController
·
ServletWrappingController
·
UrlFilenameViewController
The
following section covers only on AbstractController, AbstractCommandController, SimpleFormController and CancellableFormController in detail.
Abstract Controller
If
one wants to implement Custom Controller Component right from
the scratch, then instead of implementing the Controller interface,
extending AbstractController can be
preferred as it provides the basic support for the GET and the POST methods.
It is advised that only for simple purpose, this type of extensions should be
used. The purpose may be as simple as returning a resource to the Client upon
request without having the need to examine the Request Parameters or other
Stuffs. For example, consider the following piece of code,
MySimpleController.java
public class MySimpleController
extends AbstractController
{
public void handleRequestInternal(HttpServletRequest request, HttpServletResponse
response) {
return new ModelAndView("myView");
}
}
Note
that the Dispatcher Servlet will call the handleRequest() method
by passing the Request and the Response parameters. The implementation just
returns a ModelAndView (discussed later) object
with myView being the logical view name. There are Components called View
Resolvers whose job is to provide a mapping between the Logical
View Name and the actual Physical Location of the View
Resource. For the time being, assume that somehow, myView is mapped
to myView.jsp. So, whenever the Dispatcher
Servlet invokes this MySimpleController object, finally myView.jsp will be
rendered back to the Client.
Abstract Command Controller
The
concept of Command Controller comes into picture when the
Business Logic depends upon the values that are submitted by the User. Instead
of depending on the Servlet Api to get the Request Parameter Values and other
session Objects, we can depend on this Abstract Command Controller to
take those pieces of Information. For example consider the following code
snippet which has a simple business logic telling that, depending on the
existence of username, display the form success.jsp or failure.jsp
MySimpleController.java
public class MySimpleController
extends AbstractCommandController
{
public MySimpleController() {
setCommandClass(UserInfo.class);
}
public void handle(HttpServletRequest request, HttpServletResponse
response,Object command){
UserInfo userInfo = (UserInfo)command;
if ( exists(userInfo.getUserName){
return new ModelAndView("success");
}else{
return new ModelAndView("failure");
}
}
private boolean exits(String username) {
// Some logic here.
}
}
Note
that the Client Parameters (username , in this case) is
encapsulated in a simple Class called UserInfo which is given
below. The value given by the Client for the username field will be directly
mapped to the property called username in the UserInfo. In the Constructor of
the MySimpleController class,
we have mentioned the name of the Command Class which is going to hold the
Client Request Parameters by calling the setCommandClass() method.
Also note that in the case of Command Controller, the method that will be
called by the Dispatcher Servlet will be handle() which is
passed with the Command object apart from the Request and the Response objects.
UserInfo.java
public class UserInfo
{
private String username;
// Getters and Setters here.
}
Simple Form Controller
Asking
the User to fill in a Form containing various information and submitting the
form normally happens in almost every Web Application. The Simple Form
Controller is exactly used for that purpose. Let us give a simple
example to illustrate this. Assume that upon Client Request a page called
empInfo.jsp is rendered to the client containing empName, empAge and empSalary fields.
Upon successful completion a Jsp Page called empSuccess.jsp is displayed back to the Client. Now let us
see how we can make use of the Simple Form Controller to achieve this kind
functionality.
The
very first thing is that, to collect the Client Input Values, a Command object
which contains getter and setters must be defined. Following the skeleton of
the class called EmpInfo.
EmpInfo.java
public class EmpInfo
{
private String empName;
private int empAge;
private double empSalary;
// Getters and setters for the above properties.
}
The
next thing is to write a class that extends SimpleFormController. But this
time, the doSubmitAction() method
should be overridden. This is the method that will be called when the Client
submits the form. Following is the definition of the Controller class.
EmpFormController.java
public class EmpFormController
extends SimpleFormController
{
public EmpFormController() {
setCommandClass(EmpInfo.class);
}
public void doSubmitAction(Object command) {
EmpInfo info = (EmpInfo)
command;
process(info);
}
private void process(EmpInfo info) {
// Do some processing with this
object.
}
}
As
we mentioned previously, the form that collects information from the Client
is empInfo.jsp and upon successful
submission the view empSuccess.jsp should
be displayed. This information is externalized from the Controller class and it
is maintained in the Configuration File like the following,
<bean id="empForm" class="EmpFormController">
<property
name="formView">
<value>empInfo</value>
</property>
<property
name="successView">
<value>empSuccess</value>
</property>
</bean>
Note
the two property names 'formView' and 'successView' along with the values 'empInfo' and 'empSuccess'. These properties represent the initial View to
be displayed and the final view (after successful Form submission) to be
rendered to the Client.
Cancellable FormController
If
you carefully notice with the implementation of Simple Form Controller, there
are ways to provide the Initial and the Successful View to the Clients. But
what happens when the Form is cancelled by the User? Who will process the
Cancel operation of the Form?
The
above issues can be given immediate solution with the usage of Cancellable
FormController. The good thing is that Cancellable FormController
extends SimpleForm Controller so that all the functionalities
are visible to this Controller also. Suppose say that the User clicks the
cancel button, the Framework will check in the Request parameter for a key with
name 'cancelParamKey'. If it is so,
then it will call the onCancel() method.
Consider the following definition,
MyCompleteFormController.java
public class MyCompleteFormController
extends CancellableFormController
{
public ModelAndView onCancel() {
return new ModelAndView("cancelView");
}
}
Model And View
Model and View (represented
by the class org.springframework.web.servlet.ModelAndView) is returned by
the Controller object back to the Dispatcher Servlet. This class is just a
Container class for holding the Model and the View information. The Mode object
represents some piece of information that can be used by the View to display
the information. Both these Objects are given high degree of abstraction in the
Spring Framework.
Any kind of View Technology (org.springframework.web.servlet.View)
can be plugged into the Framework with ease. For example, Excel, Jasper
Reports, Pdf, Xslt, Free Marker, Html, Tiles, Velocity etc. are the supported
Frameworks as of now. The Model object (represented
by org.springframework.ui.ModelMap) is internally maintained as a Map for
storing the Information.
Following are the ways to Construct the Model and the View object.
View pdfView = … ;
Map modelData = new HashMap();
ModelAndView mv1 = new ModelAndView(pdfView,
modelData);
The above constructs
a ModelAndView object by passing the actual View object along with
the Model object. Now consider the following code,
ModelAndView mv1 = new
ModelAndView("myView", someData);
Note, in the above example, a string with
"myView" is passed for the View. This way of specifying a View is
called a Logical View. It means that myView either can point to
something called myView.jsp or myView.pdf or myView.xml. The Physical
View Location corresponding to the Logical View can
be made configurable in the Configuration File.
View Resolver
In
the previous section, we talked about Logical View and
the Physical View Location for the Logical View. The mapping
between the Logical name and the Physical View Location is taken care by
the View Resolver object. Without any surprise, Spring comes
with a set of Built-In Spring Resolvers. It is even possible to
write Custom View Resolvers by implementing the org.springframework.web.servlet.ViewResolver interface.
Following are the available View Resolvers in the Spring Distribution.
·
BeanNameViewResolver
·
FreeMarkerViewResolver
·
InternalResourceViewResolver
·
JasperReportsViewResolver
·
ResourceBundleViewResolver
·
UrlBasedViewResolver
·
VelocityLayoutViewResolver
·
VelocityViewResolver
·
XmlViewResolver
·
XsltViewResolver
The
following section concentrates only on Internal Resource View Resolver and Bean
Name View Resolver in detail.
Internal Resource View Resolver
The Internal
Resource View Resolver will try to map the Logical name of the
Resource as returned by the Controller object in the form of ModelAndView
object to the Physical View location. For example, consider the
following class definition which returns different ModelAndView objects.
MyController.java
public class MyController
{
public void handle() {
if(condition1()) {
return new ModelAndView("myView1");
} else if(condition2())
{ return new ModelAndView("myView2"); }
return new ModelAndView("myView3");
}
}
Assume
that if the Client Request satisfies condition1(), then the
view myView.jsp which is present in the /WEB-INF folder
should be displayed and for the client Requests satisfying condition2() and the other one, myView2.jsp and myView3.jsp should
be displayed.
For
this to happen, the following entry must be made in the Configuration File,
<bean id="viewResolver" class="org.springframework.web.servlet.view.InternalResourceViewResolver">
<property
name="prefix">
<value>/WEB-INF/</value>
</property>
<property
name="suffix">
<value>.jsp</value>
</property>
</bean>
This
is how the Internal Resource View Resolver will map the
Logical View Name to the physical Location. When the logical View name is
myView1, then it will construct a view name which is the summation of the
prefix + the logical View Name + the suffix, which is going to be
/WEB-INF/myView.jsp. The same is the case for myView2.jsp and myView3.jsp.
Bean Name View Resolver
One
of the dis-advantage of using Internal Resource View Resolver is
that the name of the View file (whether it is a Jsp File or the Pdf File) must
be present in the Web Application Context. Dynamically generated View files may
not be possible. In such a case, we may use the Bean Name View Resolver which
will dynamically generate View in Pdf or Excel Formats.
For
the example, if the ModelAndView object represents a View
by name "pdf" as shown in the following snippet,
return ModelAndView("pdf")
And,
if we want to generate the Pdf file, then we should have defined the
Configuration information in the file as follows,
<bean
id="beanNameResolver" class="org.springframework.web.servlet.view.BeanNameViewResolver"
/>
The
above code configures the Framework to use BeanNameViewResolver. Since the
logical name 'pdf' must resolve to a Bean Name, we should define a similar
entry like the following in the Configuration File. Note that, in the following
MyPdfGenerator may be the sub-class of org.springframework.web.servlet.view.document.AbstractPdfView for
generating the Pdf File.
<bean
id = " pdf " class
= MyPdfGenerator"/>
Sample Application
Introduction
The
final Section of this article details a Simple Contact Application that has
provisions for Creating, Deleting and Listing Contact Objects. The aim of this
Application is to show the various use of Controller Components like Abstract
Controller, Abstract Command Controller and Form Controller along
with Configuration Information.
The Web Descriptor File
As
mentioned previously, since the Dispatcher Servlet acts as
an Interceptor for the Client Request, an entry for the same
has to be mentioned in the web.xml file.
Follow is the code snippet for the same,
web.xml
<?xml version="1.0"
encoding="UTF-8"?>
<web-app version="2.4"
xmlns="http://java.sun.com/xml/ns/j2ee" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
xsi:schemaLocation="http://java.sun.com/xml/ns/j2ee
http://java.sun.com/xml/ns/j2ee/web-app_2_4.xsd">
<servlet>
<servlet-name>dispatcher</servlet-name>
<servlet-class>org.springframework.web.servlet.DispatcherServlet</servlet-class>
<load-on-startup>2</load-on-startup>
</servlet>
<servlet-mapping>
<servlet-name>dispatcher</servlet-name>
<url-pattern>*.htm</url-pattern>
</servlet-mapping>
</web-app>
Configuration File
The
following represents the Configuration File for holding various piece of
Configuration Information. The first thing to note is the type of Handler
Mapping configured. In our case, it is the Bean Name Url Handler Mapping which
means that the Url of the Client is tightly coupled with the class name of the
Bean (Controller). Since all the Jsp files are maintained in the '/WEB/contacts' directory the 'prefix' property
is pointing to '/WEB/contacts'.
For the Create, Delete and List operation on Contacts, three different Controller Components have been defined. They are CreateContactController, DeleteContactController and ListContactsController respectively.
dispatcher-servlet.xml
<?xml version="1.0"
encoding="UTF-8" ?> <!DOCTYPE beans PUBLIC "-//SPRING//DTD
BEAN//EN" "http://www.springframework.org/dtd/spring-beans.dtd">
<beans>
<bean
id="beanNameUrlMapping" class="org.springframework.web.servlet.handler.
BeanNameUrlHandlerMapping" />
<bean
name="/CreateContact.htm" class="CreateContactController">
<property name="formView">
<value>CreateContact</value>
</property>
<property name="successView">
<value>ContactCreated</value>
</property>
</bean>
<bean
name="/DeleteContact.htm" class="DeleteContactController"></bean>
<bean
name="/ListContacts.htm" class="ListContactsController"></bean>
<bean
id="viewResolver" class="org.springframework.web.servlet.view.InternalResourceViewResolver">
<property name="prefix"
value="/WEB-INF/contacts/" />
<property name="suffix"
value=".jsp" />
</bean>
</beans>
CreateContact
and ContactCreated Jsp Files
The
following is the code for CreateContact.jsp file.
CreateContact.jsp
<html>
<head>
<meta http-equiv="Content-Type"
content="text/html; charset=UTF-8">
<title>Create a Contact</title>
</head>
<body>
<h1>Create a Contact</h1>
<form name="CreateContact"
method="get""><input type="text" name="firstname"
/> <input type="text"
name="lastname" /> <br>
<input type="submit"
name="Create Contact" value="Create Contact" /></form>
</body>
</html>
Note
that since this is the page that will be shown to the user initially, in the
Configuration file, the property 'formView' is
pointed to 'CreateContact'. Following is
the code for ContactCreated.jsp. Since this is the View that will be shown
after the Form Submission the property 'successView' is made
to point to 'ContactCreated'.
ContactCreated.jsp
<html>
<head>
<meta http-equiv="Content-Type"
content="text/html; charset = UTF-8">
<title>Contact is
Created</title>
</head>
<body>
<h1>Contact is
successfully Created</h1>
</body>
</html>
DeleteContact.jsp
Following
is the complete listing for DeleteContact.jsp file. Note that this Jsp File is
mapped to DeleteContactController in the
Configuration File.
DeleteContact.jsp
<html>
<head>
<meta http-equiv="Content-Type"
content="text/html; charset=UTF-8">
<title>Delete Contact</title>
</head>
<body>
<h1>Delete Contact</h1>
<form name="DeleteContact"
method="get"><input type="text"
name="firstname" /> <br>
<input type="submit"
name="DeleteContact" value="Delete Contact" /></form>
</body>
</html>
ListContacts.jsp
This
page is to list all the existing Contacts that were created before. It should
be noted that the Model Object that holds all the Contact
Information in the form of List is available in the
ListContactsController. The Model Information from the
Controller after getting bound to the Request Scope is being taken
off from the View in the form of Expression Language.
Following
is the listing for ListContacts.jsp
ListContacts.jsp
<html>
<head>
<meta http-equiv="Content-Type"
content="text/html; charset=UTF-8">
<title>Showing All
Contacts</title>
</head>
<body>
<h1>Showing All
Contacts</h1>
<p>The following are the created
Contacts</p>
<c:forEach items="${allContacts}"
var="contact">
<c:out value="${contact.firstname}"
/>
<br>
<c:out value="${contact.lastname}"
/>
<br>
</c:forEach>
</body>
</html>
Contacts.java
The
following is the Class structure for Contacts.java for encapsulating the
properties firstname and lastname.
Contact.java
public class Contact
{
private String firstName;
private String lastName;
public Contact() {
}
public Contact(String firstName, String lastName) {
this.firstName = firstName;
this.lastName = lastName;
}
public String getFirstName() {
return firstName;
}
public void setFirstName(String firstName) {
this.firstName = firstName;
}
public String
getLastName() {
return lastName;
}
public void setLastName(String lastName) {
this.lastName = lastName;
}
public int hashCode() {
return firstName.hashCode() + lastName.hashCode();
}
public boolean equals(Object object) {
if(object instanceof Contact) {
Contact second = (Contact) object;
return (firstName.equals(second.getFirstName())
&& lastName.equals(second.getLastName()));
}
return false;
}
public String toString() {
return "[First
Name = " + firstName + ", Last Name = " + lastName + "]";
}
}
ContactService.java
This
simple service class provides functionalities for creating, deleting and
listing the Contact information. All the Controller Components makes use of
this class to achieve their respective functionalities.
ContactService.java
import java.util.*;
public class ContactService
{
private static Map contacts = new HashMap();
public ContactService() {
}
public static Contact createContact(Contact contact) {
contacts.put(new
Integer(contact.hashCode()), contact);
return contact;
}
public static Contact createContact(String firstName, String lastName) {
return createContact(new Contact(firstName,
lastName));
}
public static boolean deleteContact(String firstName) {
Iterator iterator = contacts.entrySet().iterator();
while(iterator.hasNext())
{
Map.Entry entry = (Map.Entry)
iterator.next();
Contact contact = (Contact)
entry.getValue();
if(contact.getFirstName().equals(firstName))
{
contacts.remove(new
Integer(contact.hashCode()));
return true;
}
}
return false;
}
public static List listContacts() {
return toList(contacts);
}
private static List toList(Map contacts)
{
List contactList = new ArrayList();
Iterator iterator =
contacts.entrySet().iterator();
while(iterator.hasNext())
{
Map.Entry entry = (Map.Entry)
iterator.next();
Contact contact = (Contact)
entry.getValue();
contactList.add(contact);
}
return contactList;
}
}
Controller
Classes
Following
is the listing for CreateContact Controller. Note that
since the Model Information for creating a contact (for which the Client
supplies the firstname and the lastname parameters) is the Contact class, call
has been made in the Constructor to setCommandClass() by
passing the class name of the Contact class.
CreateContactController.java
import org.springframework.web.servlet.mvc.SimpleFormController;
public class CreateContactController
extends SimpleFormController
{
public CreateContactController() {
setCommandClass(Contact.class);
}
public void doSubmitAction(Object command) {
Contact contact = (Contact)
command;
ContactService.createContact(contact);
}
}
Note
that the method doSubmitAction() doesn't
return anything because the next Logical View to be displayed will be taken
from the Configuration file which is represented by the property called 'successView'.
Following two classes are the Controller Components for Deleting and Listing Contacts. Note that in the case of Delete Operation, a Jsp Page (DeletedContact.jsp) containing information telling that the Contact has been Deleted will displayed. But since for the Contact Listing operation, the model information containing a Collection of Contact Objects has to be passed from the Controller to the View and the same is achieved in the 3 argument constructor to ModelAndView.
DeleteContactController.java
import
javax.servlet.http.*;
import
org.springframework.validation.BindException;
import
org.springframework.web.servlet.ModelAndView;
import org.springframework.web.servlet.mvc.AbstractCommandController;
public class DeleteContactController
extends AbstractCommandController
{
public DeleteContactController() {
setCommandClass(Contact.class);
}
public ModelAndView handle(HttpServletRequest request,
HttpServletResponse response, Object command,
BindException
errors) throws Exception {
Contact contact = (Contact)
command;
ContactService.deleteContact(contact.getFirstName());
return new ModelAndView("DeletedContact");
}
}
Here
is the listing for ListContactsController.java.
ListContactsController.java
import java.util.List;
import javax.servlet.http.*;
import
org.springframework.web.servlet.ModelAndView;
import
org.springframework.web.servlet.mvc.AbstractController;
public class ListContactsController
extends
AbstractController {
public ListContactsController() {
}
public ModelAndView handleRequestInternal(HttpServletRequest request,
HttpServletResponse response) throws Exception {
List allContacts = ContactService.listContacts();
return new ModelAndView("ListContacts", "allContacts", allContacts);
}
}
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