I'm going to write my first Java based web app, and I'm sort of lost how to begin.
Firstly, I would like a web app and a desktop app that do pretty much the same thing, without the hackish idea of embedding a web browser into the desktop app because that doesn't allow to easily make changes to the desktop without affecting the web app and vice versa.
Now, here my questions.
Right now, I have a bunch of POJOs and they communicate with a single class that, right now, uses a flat file as a "database", of course, in production, I would use a legitimate database and just change that single class. Is this a good idea? Will I be able to go from POJOs to a web app?
Should I use a framework? I would like to have this app written pretty soon, seeing that all the buisness logic is there, I just need to wrap it so its usable, so, I don't want to spend an extreme amount of time learning, say, Spring (which AFAIK is huge), but, I don't want to keep reinventing the wheel throughout my app either. I can always just use JSP and scriptlets...
If you said yes to the above, what framework(s) do you suggest? Please note that I would like a framework that I can start using in maybe 3-4 weeks of learning.
Will I have to start from scratch with the POJOs that I have written? They're well over 30k LOC, so, if it is like that, I'll be hesitant.
You will need:
a web framework. Since you have Swing background, JSF 2 will be your best bet (everything will be painful, of course, but JSF will get you up and going quickly and will help you avoid the most tragic mistakes). Also, wrapping business pojos into web guis is the main use-case for JSF and it's biggest focus.
a "glue framework". One thing that is much different with web applications as opposed to desktop ones is that you cannot create view components by yourself - they must be created when browser requests a page. So you have to find a way to create the view objects and deliver all the references to the pojos that represent logic, some of which may have very different lifecycles (this is not a problem on desktop, but on web you have to distinguish between pojos that live along with the whole application, along with a single user session, along with a single request, and so on).
The "glue framework" could also provide the additional benefit of managing transactions. You have three choices:
Spring. It's not half as complex as you thing; you only need to learn some basic stuff.
EJB. You would need a real application server, like Glassfish or JBoss
bare JSF has good support for dependency injection, the only drawback is the lack of automatic transaction management.
If I were in your position, I would go with bare JSF 2.0 - this way you only need to learn one new technology. At first, try to avoid libraries like PrimeFaces - they usually work worse than advertised.
edit - and addendum
or - what is "dependency injection"(abridged and simplified)
When request comes to a web application, a new task starts in a new thread (well, the thread is probably recycled, but that's not important).
The application has already been running for some time and most of the objects you are going to need are already built and should not get created again: you have your database connection pool, maybe some parts of business layer; it is also possible that the request is just one of many request made during one session, and you already have a bunch of POJOs that the user is working on. The question is - how to get references to those objects?
You could arrange your application so that resources are available through some static fields. They may be singletons themselves, or they could be acquired through a singleton locator. This tends to work, but is out of fashion (hard to test, hard to refactor, hard to reuse, lifecycles are hard coded in application). The real code could look like this:
public void doSomething() {
Customer Service cs = AppManager.getInstance().getCustomerService();
System.out.println(cs.getVersion());
}
if you need clustering and session management, you could build a special kind of broker that would know and provide to anyone all kinds of needed objects. Each type of object would be registered as a factory under a different name. This also works and is implemented in Java as JNDI. The actual client code would look like this:
public void doSomething() throws Exception {
CustomerService cs = (CustomerService)new InitialContext().lookup("some_fancy_looking_name_in_reality_just_string");
System.out.println(cs.getVersion());
}
The last way is the nicest. Since your initial object is not created by you but by the server just after http request arrives (details depend on the technology you choose, but your entry point might be a JSF managed bean or some kind of action controller), you can just advertise which references you need and let the server take care of finding them for you. This is called "Dependency Injection". Your acts as if everything is taken care of before your code is ever launched. Spring or EJB container, or CDI, or JSF take care of the rest. The code would look like this (just an example):
#EJB
CustomerService cs;
public void doSomething() {
System.out.println(cs.getVersion());
}
Note:
when you use DI, it really uses one of the two former methods under the hood. The good thing is: you do not have to know which one and in some cases you can even switch them without altering your code;
the exact means of registering components for injection differs from framework to framework. It might be a piece of Java code (like in Guice), an XML file (classic Spring) or an annotation (classic EJB 3). Most of the mentioned technologies support different kinds of configuration.
You should definitely use a framework as otherwise sooner or later you'll end up writing your own.
If you use maven then simply typing mvn archetype:generate will give you a huge list of frameworks to choose from and it'll set up all of the scaffolding for you so you can just play with a few frameworks until you find the one that works for you.
Spring has good documentation and is surprisingly easy to get started with. Don't be put off by the pages of documentation! You could use JPA to store stuff in the database. You should (in theory) just be able to annotate your existing POJO's to denote primary keys and so on and it should just work. You can also use JSP's within Spring if that makes life easier.
... I a bunch of POJOs and they communicate with a single class that, right now, uses a flat file as a "database", of course, in production, I would use a legitimate database and just change that single class. Is this a good idea? Will I be able to go from POJOs to a web app?
qualified yes. if the pojo's are sane you should not have many problems. many people use hiberbate.
Should I use a framework? I would like to have this app written pretty soon, seeing that all the buisness logic is there, I just need to wrap it so its usable, so, I don't want to spend an extreme amount of time learning, say, Spring (which AFAIK is huge), but, I don't want to keep reinventing the wheel throughout my app either. I can always just use JSP and scriptlets...
probably. spring is huge, but things like grails or roo can help.
if you want to have a responsive web app, you will need to do some kind of rich client (AJAX). this may require a lot of your code to run on the client. this means writing a lot of javascript or using gwt. this will be a pain. it probably will not be so easy to just "wrap it". if you have written a swing app, then basically that code will need to run on the client.
If you said yes to the above, what framework(s) do you suggest? Please note that I would like a framework that I can start using in maybe 3-4 weeks of learning.
i like groovy and grails - grails uses spring-mvc, spring, hibernate. but there is roo, play and others.
Will I have to start from scratch with the POJOs that I have written? They're well over 30k LOC, so, if it is like that, I'll be hesitant.
the code that will run on the server can probably be mostly left alone. the code that has to run on the client needs to be rewritten in javascript or maybe you can get some reuse out of that code by using gwt,
The Play Framework is doing great things. I would recommend it highly. Having worked with EJB apps and Tomcat/Servlet/Spring apps it's a breath of fresh air. After framework installation you get a working app in a few seconds. Reminds me of Ruby on Rails or Node.js with the type-safety of Java.
Much quicker turnaround on getting started, faster development cycles, and a clearer configuration model than previous Java web app frameworks.
http://www.playframework.com/
Related
I've read about how to use Spring in standalone applications but I'm not sure what should be the approach for refactoring a large code base of 120,000 lines for making the change as gradual as possible.
As far as I understand Spring won't inject anything in an object unless that object is managed by the application context. If this is true, I think I have two choices:
1- Start refactoring from the main class down, but this means complicated scenarios will appear soon.
2- Share the application context statically so that I can start refactoring the simplest things, scalating in difficulty when I'm ready.
I'm not a fan of static access so I would try to avoid that choice, but I don't know if it's a good idea to start with the huge classes that are loaded at startup. Any ideas of the best approach?
By the way, is it OK to inject Swing components until I can fix the dependencies?
I think that before approaching such a big technology change, it may be a good idea to start asking yourself if you are following the architecture that Spring guides you to have when you start using it from the beginning.
Therefore, is your application based on the MVC pattern?
If not, maybe your product is not yet ready for being refactored to
use Spring. In this case, I would suggest refactoring the product
design first, so that it complies with the MVC architectural pattern.
If yes, then I would proceed with a use-case-based approach, starting
from the use cases that required a complicated design and
implementation.
E.g. I would look for very important entity classes or business classes containing a lot of logic. This way, you can reduce the risk of doing a lot of refactoring before realizing that, for example, Spring is not a good fit for the core of your product.
After identifying the most critical use case, you can start to experiment how refactoring works on your current product by introducing Spring from end to end on a single critical scenario (user input - business logic - entity manipulation - persistence). If you are successful, then you keep refactoring, otherwise you can go back and try to understand where you need to change your current product before introducing Spring.
Of course, this works when you have some experience with Spring and you do not have to cope with newcomer's issues. If you are new to Spring, then I would recommend getting some experience with Spring before starting the adventure of refactoring such a big project.
Start simply and wire new code/class with spring. You'll amend your existing main method to initialise the ApplicationContext and load your new feature. Over time then as change requests arrive you'll refactor and migrate the existing codebase to use spring dependency injection.
I have been reading the book Spring in Action for a few weeks now to learn about the spring framework. I have about 2 years of programming experience mostly in java with some distractions here and there in Ruby and Python.
After reading the first few chapters, I didn't quite get what the big deal is about dependency injection in spring. I was expecting a AHAAA moment but didn't quite experience that yet. I'm sure I'm missing something important.
Why would I want to wire my beans in xml rather than instantiating them the good old way with the = new myclass();
I understand I can wire beans in the xml via constructor args and properties as well as configure datasources in spring so that I can hide away connection details in an xml file. But why? There is more to this especially when it comes to good software design. Can some one explain the big deal?
Three Words: INVERSION OF CONTROL
In a nutshell:
As soon as you instantaniate "the good old way" you create tight coupling, e.g.: your controller depends on a specific template engine, your entities on a concrete database layer, etc. And that's something you want to prevent and where the dependency injection container (DIC) comes in very handy. It manages your services and you don't really have to care anymore about specific implementations as long as those implement the same interface.
Imagine a simple storage layer class called InMemoryLayer that gets instantiated by you when need it. Now you want to switch it for an awesome new open-source github solution called SuperSecretRemoteCloudLayer. Normally you would now hit "Search and Replace" in your IDE of choice and replace all occurrences of InMemoryLayer with the SuperSecretRemoteCloudLayer. But that's not really handy and quite errorprone, why would you want to do all that hard work by hand? The DIC can do that for you and all you need to take care of, is that both *Layer implement the same interface (so your application won't break).
Spring's big deal is more about dependency injection, not XML-based configuration. As others have noted, Spring has been moving away from XML-based configuration. But DI is core to Spring.
The a-ha is that DI offers a different model for linking components together. Instead of components creating each other directly (and thus being tightly coupled), the components stop doing that, and you inject the linkages from a central location. It turns out that this helps with testing and transaction management in particular.
You don't truly appreciate Spring until you've had to do things the hard way. The hard way being maintaining multiple large projects without a coherent framework. If you have 4 big enterprise wide applications that all have their own way of starting themselves, and managing resources, you're in for a headache. If you know that each application uses spring, then just look for the application context xml! This also makes it incredibly easy to setup a new context for different environments, and test cases, all without mucking up your code base.
For a project I've been working on a JavaFX 2.0 desktop application (a keytool UI). The way JavaFx2.0 works (in my project anyways), the UI event handling takes place in the JavaFX 2.0 UI classes itself (for example: onclicked() events or property change listeners).
Right now I use a static class with a method: getController(), which all UI classes use to access the one controller of the application (somehow it seemed messy to me to pass the controller on to all 50+ UI classes).
The problem is however that that one controller is getting very large! It has way too many methods (all business logic methods that need to be accessed by my UI classes). Even though it only passes the methods calls on to my model/service, there is still a lot of exceptions that need to be caught on controller level for handling them in the UI (show error messages etc).
Anyone know of a clean way to make this whole MVC/MVP pattern work better for my application without the UI / Controller / Model classes being directly depending on eachother? Maybe a different controller for each use case? But then how would I make it so that the right UI class gets the right Controller without directly knowing it? Maybe using an interface?
I don't really know Java FX, so you should take my answer with a grain of salt. I looked a bit at Java FX tutorials, but they all seem to be tiny examples with no architecture of any kind... MVC or other.
Maybe you should not try too hard to have a clean MVC pattern. It seems to me that each UI element is itself a MVC unit, e.g. a Label contains text (the model), its graphical representation (the view) and it handles events (the controller).
You might just be making your life more painful by trying to have a separate global controller.
You might however keep a separate model, which would be necessary for example if you are showing the content of a database (the model). However if you are doing something quite simple, just using the state of the UI as your model would be sufficient; keeping the data (model) separately in the program would just make you waste time synchronizing the data in the UI's and the data in the separate model. Data duplication is evil and should be avoided as much as possible.
I propose you to test the JRebirth Framework
It provide a simple but powerful pattern which will help you to structure your application.
This framework is young and will be improved according to feedback received. Don't hesitate to send some.
http://www.jrebirth.org/doc/Overview.html
Check the overview page and source code provided to learn more.
Live Demo are also available
There is a series of blogs here Building JEE applications in JavaFX 2.0 that may help you. It presents several patterns with example on how to decouple the different components (MVP) in an JavaFx2 application.
I have put a basic tutorial on my website for a while ago on how MVC pattern can be implemented using Java and Javafx 2. The model class is always decoupled and shouldn't know anything about the controller and viewer. If this is a large project I would recommend using modules where you have your model, viewer and controller in there. A module could be admin portal or google map viewer etc.
http://www.pergande.net/blog/article/post/Javafx+2.0+MVC/id/1
I need to build a dashboard for an application, the dashboard will have different dashlets and each dashlet can have any one of the following things:
Graphs (JFreeCharts and some Javascript Chart)
Table data from tables
Data from external sources
Maps
What can be a good architecture for such kind of application?
What I have currently in mind is:
Each dashlet should have its own lifecycle and when the dashboard loads it should just show the UI of the dashlets initially.
After the page load each dashlet sends a server call (based on its type) to fetch its data
After the data has been fetched, each dashlet (based on its type) renders the data.
First of all, there are plenty of front-end frameworks to get you started. Some of the more popular ones include:
Backbone
Javscript MVC
Sproutcore
A bit of Google searching can yeild pros and cons of each and I would weight your options accordingly.
That all being said, the basic problem you posed actually seems similar to ours. In the end, we built something a bit different in house. Many of the frameworks out there are optimized to display a singular canonical "view" based on a Model reflected by the DB and a Controller to manage small changes. A dashboard has, in essence, a variety of different modules that must be doing their own independent things as you've mentioned in your question. Because of the high number of independent modules, I feel like you might feel pains in some of the frameworks listed above.
I can't tell you exactly how to implement such a module architecture, but here are some rules of thumb we used when designing ours:
Module Design:
Module-based. (Login module, Map module, each Dashlet may be a module, etc.)
Modules must have one Model, may have no more than one Collection (which is-a Model), and may have one or more Views.
A module may be used in multiple places and pages. The singular Model should stay the same, but the Views are likely different.
Rendering:
Almost all HTML on the page is written and updated by javascript modules. The template files are almost empty except for headers and basic scaffolding.
All modules render their full HTML selves and replace themselves into the DOM. The module should have as complete of a static HTML representation ready to go before inserting into the DOM. This means the render functions use “.replaceWith()” instead of “.append()”.
If simple HTML replacing isn’t an option (i.e. needs to be animated) a transition function should be defined detailing how to go from one rendered state to another.
Because rendering is expensive, Views by default do not auto-refresh on all Model changes. Re-rending happens through events only. _render() is in-fact an internal method.
Orthogonality:
A single inter-module event dispatcher on the page Controller handles all cross-effects between modules.
Modules should never “reach outside” of their own DOM context. If an event in one module affects another, it should go through the page controller dispatcher.
Each module as orthogonal as possible. They depend on each other as little as possible.
Each module in its own file.
Connecting to backend:
All modules use the same global backend adapter. Modules never talk to the backend by themselves. This makes your front-end back-end agnostic.
Recursive:
Modules are commonly included in other modules.
Modules re-render recursively.
Testable:
Because modules render static HTML, they can be predictably tested.
Modules must be testable.
Standard input -> Module -> Predictable static HTML output.
Standard events -> Module -> Predictable static HTML output.
If anyone knows of other frameworks along these lines, please share!
Our web app is based exactly on this architecture and in production since end of last year. You can see it at http://beebole.com
We just optimized the calls to our own server.
There is a single call to get the common data needed by most widgets, each time a screen is loaded.
Then if a widget needs additional data, it makes a call itself to our server.
The external widgets call their own data too, but to another server.
I would advise against using a custom web framework when there are so many free ones available.
As mentioned in another answer, the traditional MVC style frameworks don't really fit well to your 'dashboard' desired style of UI. They are best used for creating static web sites based on data retrieved elsewhere. They don't handle user interaction well and you usually have to hand roll your own AJAX to do anything useful without a page request.
A better breed of web frameworks to look at are the Web 2.0 fraemworks, also known as the frameworks which help you build web applications. It is important to understand the difference between web site and web applications. They are usually differentiated by the latter being interactive and the former being mostly static. Websites which also have some interactive components are still web sites. A good way to think of it is ask yourself "Does this feel like a desktop app?".
For web application development in the Java (JVM) realm, I would use Vaadin. It lets you write Java code similar to Swing programming, with event based methods. You can even avoid writting HTML altogether if you'd like by defining your views programatically. This lets you unittest your view logic (in web apps, there is more than usual) which is not posible with regular HTML template based frameworks. The other main advantage is that it has built in methods which allow you to write Java code to handle dynamic, asynchronous functionality and it all gets translated to JavaScript automatically. No need to write 4 different languages while writing your web app, just write Java for everything! Try it out, it is fun to work with!
Another web app framework that is getting alot of attention is Lift. I do not have experience with it but many devs I have spoken with have promoted it to me. I believe it uses HTML templates with Java code as the back-end. It is also apparently really easy to get started and your web app spun up. It also has built in support for doing AJAX like functionality. Worth looking into at least.
There are probably many more web app frameworks out there that would suit your needs. These all have the advantage of being tested, independently maintained, updated, and secure*. If you roll your own framework for this project, you need to worry about everything yourself. Written a web framework that doesn't offer anything new would be like written yet another programming language that isn't innovative; it is just a waste of time.
I think what you are looking for is more along the lines of managing or controlling your dashboard. I am designing something similar. I would suggest you look at google app engine it can be used to automate and control this: https://developers.google.com/appengine/docs/whatisgoogleappengine
Also look at these open-source dashboards: https://github.com/twilio/stashboard
Hi everybody: let me do a bit of "concept mining" here: I am involved in mantaining/extending an application whose functionality is distributed across several servers. For example, we have a machine running the ApplicationServer, another running the DataServer and so on.
This application has a Web Interface. The current UI is totally implemented in Java, and in a way that makes adding new functionality hard. One of my goals is extending this interface, and we're considering shifting the whole thing to another platform, like Rails, for example.
Problem being, the database that is manipulated by the UI (possibly Rails in the future) is also manipulated by ApplicationServer (Java).
So, my main question is: both Rails and Java can access databases through their own ORM (ActiveRecord for Rails and Hibernate or similar for Java). Is there any way to guarantee that the mappings are consistent?*
Even if the answer is a hard "no", I'd also like to hear your thoughts on how you'd approach this scenario.
I hope the question is clear enough, but warn me if it isn't and I'll edit accordingly. =D
*Edit: per request, I'm extending this explanation: what I mean is, how to make sure things don't break when someone needs to add a new field to the database and edits the Hibernate mapping because of it? I know that Rails "guesses" the entity attributes pretty much by itself (making things easier), but I was wondering if there was some "magical way" to "connect" the ActiveRecord directly to the Hibernate mapping.
Depends on your case and how important it is to actually ensure that things won't break. I would probably code the Rails app to do its best, and then write a good set of db integration test cases for Rails to test against breakage.
Because Hibernate needs a mapping conf whereas Rails uses the database layout directly, it's best to do the db changes on Hibernate/mapped Java class side and then run the test suite on Rails side after changes.
this might be coming too late to the party, but ActiveJDBC is an ActiveRecord- like implementation in Java which reads metadata and configures self pretty much the same as ActiveRecord: http://code.google.com/p/activejdbc/
You should look at using DataMapper instead of ActiveRecord. DataMapper and Hibernate following roughly the same pattern so the mappings would be similar. Also, DataMapper defines the mapping in the class itself rather than figuring it out from the model. This is much closer to Hibernate and you could probably write a simple hbm to dm converter and just eval the output at the top of your model classes. If you didn't design your original data model with Rails in mind, none of the convention over configuration standards are likely to be there; with DataMapper, the default seems to be to map properties and relationships like Hibernate.
Another idea: if you use the Hibernate annotations instead of xml mapping, maybe you could JRuby as the bridge to build the Ruby model from the Java one.
But either way, if you have good tests, it should be obvious when a data model change break something.