A bit decent web application consists of a mix of design patterns. I'll mention only the most important ones. Model View Controller patternThe core (architectural) design pattern you'd like to use is the Model-View-Controller pattern. TheController is to be represented by a Servlet which (in)directly creates/uses a specific Model and Viewbased on the request. The Model is to be represented by Javabean classes. This is often further dividable in Business Model which contains the actions (behaviour) and Data Model which contains the data (information). The View is to be represented by JSP files which have direct access to the (Data)Model by EL (Expression Language). Then there are variations based on how actions and events are handled. The popular ones are:
As a side note, I warmly recommend to pick an existing framework rather than reinventing your own. Learning an existing and well-developed framework takes in long term less time than developing and maintaining a robust framework yourself. From the mentioned ones I personally recommend JSF 2.0. In the below detailed explanation I'll restrict myself to request based MVC since that's easier to implement. Front Controller pattern (Mediator pattern)First, the Controller part should implement the Front Controller pattern (which is a specialized kind ofMediator pattern). It should consist of only a single servlet which provides a centralized entry point of all requests. It should create the Model based on information available by the request, such as the pathinfo or servletpath, the method and/or specific parameters. The Business Model is called Action in the below HttpServlet example.
Executing the action should return some identifier to locate the view. Simplest would be to use it as filename of the JSP. Map this servlet on a specific url-pattern in web.xml , e.g. /pages/* ,*.do or even just *.html .In case of prefix-patterns as for example /pages/* you could then invoke URL's likehttp://example.com/pages/register, http://example.com/pages/login, etc and provide /WEB-INF/register.jsp , /WEB-INF/login.jsp with the appropriate GET and POST actions. The partsregister , login , etc are then available by request.getPathInfo() as in above example.When you're using suffix-patterns like *.do , *.html , etc, then you could then invoke URL's likehttp://example.com/register.do, http://example.com/login.do, etc and you should change the code examples in this answer (also the ActionFactory ) to extract the register and login parts byrequest.getServletPath() instead.Strategy patternThe Action should follow the Strategy pattern. It needs to be defined as an abstract/interface type which should do the work based on the passed-in arguments of the abstract method (this is the difference with the Command pattern, wherein the abstract/interface type should do the work based on the arguments which are been passed-in during the creation of the implementation).
You may want to make the Exception more specific with a custom exception likeActionException . It's just a basic kickoff example, the rest is all up to you.Here's an example of a LoginAction which (as its name says) logs in the user. The User itself is in turn a Data Model. The View is aware of the presence of the User .
Factory method patternThe ActionFactory should follow the Factory method pattern. Basically, it should provide a creational method which returns a concrete implementation of an abstract/interface type. In this case, it should return an implementation of the Action interface based on the information provided by the request. For example, the method and pathinfo (the pathinfo is the part after the context and servlet path in the request URL, excluding the query string).
The actions in turn should be some static/applicationwide Map<String, Action> which holds all known actions. It's up to you how to fill this map. Hardcoding:
Or configurable based on a properties/XML configuration file in the classpath: (pseudo)
Or dynamically based on a scan in the classpath for classes implementing a certain interface and/or annotation: (pseudo)
Keep in mind to create a "do nothing" Action for the case there's no mapping. Let it for example return directly the request.getPathInfo().substring(1) then.Other patternsThose were the important patterns so far. To get a step further, you could use the Facade pattern to create a Context class which in turn wraps the request and response objects and offers several convenience methods delegating to the request and response objects and pass that as argument into the Action#execute() method instead. This adds an extra abstract layer to hide the raw Servlet API away. You should then basically end up withzero import javax.servlet.* declarations in every Action implementation. In JSF terms, this is what the FacesContext and ExternalContext classes are doing.Then there's the State pattern for the case that you'd like to add an extra abstraction layer to split the tasks of gathering the request parameters, converting them, validating them, updating the model values and execute the actions. In JSF terms, this is what the LifeCycle is doing.Then there's the Composite pattern for the case that you'd like to create a component based view which can be attached with the model and whose behaviour depends on the state of the request based lifecycle. In JSF terms, this is what the UIComponent represent.This way you can evolve bit by bit towards a component based framework. Related questions/answers |
My "pensive" - where i simply siphon the excess thoughts from my mind, pour them into the basin (of cloud storage), and examine them at leisure.
Monday, January 27, 2014
java - Design Patterns web based applications - Stack Overflow
java - Design Patterns web based applications - Stack Overflow
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