Bean instantiation notification in Spring - java

I know Spring framework and have worked in it and have used ApplicationContext to instantiate and load beans.
Lets say I write the following piece of code
ApplicationContext context=new ClassPathXmlApplicationContext("appContext.xml");
Now, after the above statement, how do i get to know if the beans, that are defined in appContext.xml, has been instantiated and loaded by Spring?
Note : I want to know it before accessing any bean

Try retrieving one:
MyClass myClass = (MyClass) context.getBean("MyBean");

I agree with Reimeus, and #jbx's comment. If nothing is thrown you should be good to go. If you really want to be sure though, consider using a logger, or even some sort of AOP to trigger an event when a bean is created.
I think I know what you're getting at, and it's something that's hard for us to do as programmers. Dependency injection (What spring does by creating beans in an application context) takes away the step of explicitly creating beans (ie. "Thing something = new Thing()") and that can be frightening, especially in early development when not everything is working, and you're not sure why.
Your objects are instantiated. You've just got to trust that Spring is doing it's thing--it will let you know if it's not :D
(also check out the BeanFactoryPost processor http://javasourcecode.org/html/open-source/spring/spring-3.0.5/org/springframework/beans/factory/config/BeanFactoryPostProcessor.html , it will allow you to see what's there if you really want)

Related

Why is Spring's ApplicationContext.getBean with Interface considered bad? [duplicate]

I asked a general Spring question: Auto-cast Spring Beans and had multiple people respond that calling Spring's ApplicationContext.getBean() should be avoided as much as possible. Why is that?
How else should I gain access to the beans I configured Spring to create?
I'm using Spring in a non-web application and had planned on accessing a shared ApplicationContext object as described by LiorH.
Amendment
I accept the answer below, but here's an alternate take by Martin Fowler who discusses the merits of Dependency Injection vs. using a Service Locator (which is essentially the same as calling a wrapped ApplicationContext.getBean()).
In part, Fowler states, "With service locator the application class asks for it [the service] explicitly by a message to the locator. With injection there is no explicit request, the service appears in the application class - hence the inversion of control.
Inversion of control is a common feature of frameworks, but it's something that comes at a price. It tends to be hard to understand and leads to problems when you are trying to debug. So on the whole I prefer to avoid it [Inversion of Control] unless I need it. This isn't to say it's a bad thing, just that I think it needs to justify itself over the more straightforward alternative."
I mentioned this in a comment on the other question, but the whole idea of Inversion of Control is to have none of your classes know or care how they get the objects they depend on. This makes it easy to change what type of implementation of a given dependency you use at any time. It also makes the classes easy to test, as you can provide mock implementations of dependencies. Finally, it makes the classes simpler and more focused on their core responsibility.
Calling ApplicationContext.getBean() is not Inversion of Control! While it's still easy to change what implemenation is configured for the given bean name, the class now relies directly on Spring to provide that dependency and can't get it any other way. You can't just make your own mock implementation in a test class and pass that to it yourself. This basically defeats Spring's purpose as a dependency injection container.
Everywhere you want to say:
MyClass myClass = applicationContext.getBean("myClass");
you should instead, for example, declare a method:
public void setMyClass(MyClass myClass) {
this.myClass = myClass;
}
And then in your configuration:
<bean id="myClass" class="MyClass">...</bean>
<bean id="myOtherClass" class="MyOtherClass">
<property name="myClass" ref="myClass"/>
</bean>
Spring will then automatically inject myClass into myOtherClass.
Declare everything in this way, and at the root of it all have something like:
<bean id="myApplication" class="MyApplication">
<property name="myCentralClass" ref="myCentralClass"/>
<property name="myOtherCentralClass" ref="myOtherCentralClass"/>
</bean>
MyApplication is the most central class, and depends at least indirectly on every other service in your program. When bootstrapping, in your main method, you can call applicationContext.getBean("myApplication") but you should not need to call getBean() anywhere else!
Reasons to prefer Service Locator over Inversion of Control (IoC) are:
Service Locator is much, much easier for other people to following in your code. IoC is 'magic' but maintenance programmers must understand your convoluted Spring configurations and all the myriad of locations to figure out how you wired your objects.
IoC is terrible for debugging configuration problems. In certain classes of applications the application will not start when misconfigured and you may not get a chance to step through what is going on with a debugger.
IoC is primarily XML based (Annotations improve things but there is still a lot of XML out there). That means developers can't work on your program unless they know all the magic tags defined by Spring. It is not good enough to know Java anymore. This hinders less experience programmers (ie. it is actually poor design to use a more complicated solution when a simpler solution, such as Service Locator, will fulfill the same requirements). Plus, support for diagnosing XML problems is far weaker than support for Java problems.
Dependency injection is more suited to larger programs. Most of the time the additional complexity is not worth it.
Often Spring is used in case you "might want to change the implementation later". There are other ways of achieving this without the complexity of Spring IoC.
For web applications (Java EE WARs) the Spring context is effectively bound at compile time (unless you want operators to grub around the context in the exploded war). You can make Spring use property files, but with servlets property files will need to be at a pre-determined location, which means you can't deploy multiple servlets of the same time on the same box. You can use Spring with JNDI to change properties at servlet startup time, but if you are using JNDI for administrator-modifiable parameters the need for Spring itself lessens (since JNDI is effectively a Service Locator).
With Spring you can lose program Control if Spring is dispatching to your methods. This is convenient and works for many types of applications, but not all. You may need to control program flow when you need to create tasks (threads etc) during initialization or need modifiable resources that Spring didn't know about when the content was bound to your WAR.
Spring is very good for transaction management and has some advantages. It is just that IoC can be over-engineering in many situations and introduce unwarranted complexity for maintainers. Do not automatically use IoC without thinking of ways of not using it first.
It's true that including the class in application-context.xml avoids the need to use getBean. However, even that is actually unnecessary. If you are writing a standalone application and you DON'T want to include your driver class in application-context.xml, you can use the following code to have Spring autowire the driver's dependencies:
public class AutowireThisDriver {
private MySpringBean mySpringBean;
public static void main(String[] args) {
AutowireThisDriver atd = new AutowireThisDriver(); //get instance
ClassPathXmlApplicationContext ctx = new ClassPathXmlApplicationContext(
"/WEB-INF/applicationContext.xml"); //get Spring context
//the magic: auto-wire the instance with all its dependencies:
ctx.getAutowireCapableBeanFactory().autowireBeanProperties(atd,
AutowireCapableBeanFactory.AUTOWIRE_BY_TYPE, true);
// code that uses mySpringBean ...
mySpringBean.doStuff() // no need to instantiate - thanks to Spring
}
public void setMySpringBean(MySpringBean bean) {
this.mySpringBean = bean;
}
}
I've needed to do this a couple of times when I have some sort of standalone class that needs to use some aspect of my app (eg for testing) but I don't want to include it in application-context because it is not actually part of the app. Note also that this avoids the need to look up the bean using a String name, which I've always thought was ugly.
One of the coolest benefits of using something like Spring is that you don't have to wire your objects together. Zeus's head splits open and your classes appear, fully formed with all of their dependencies created and wired-in, as needed. It's magical and fantastic.
The more you say ClassINeed classINeed = (ClassINeed)ApplicationContext.getBean("classINeed");, the less magic you're getting. Less code is almost always better. If your class really needed a ClassINeed bean, why didn't you just wire it in?
That said, something obviously needs to create the first object. There's nothing wrong with your main method acquiring a bean or two via getBean(), but you should avoid it because whenever you're using it, you're not really using all of the magic of Spring.
The motivation is to write code that doesn't depend explicitly on Spring. That way, if you choose to switch containers, you don't have to rewrite any code.
Think of the container as something is invisible to your code, magically providing for its needs, without being asked.
Dependency injection is a counterpoint to the "service locator" pattern. If you are going to lookup dependencies by name, you might as well get rid of the DI container and use something like JNDI.
Using #Autowired or ApplicationContext.getBean() is really the same thing. In both ways you get the bean that is configured in your context and in both ways your code depends on spring.
The only thing you should avoid is instantiating your ApplicationContext. Do this only once! In other words, a line like
ApplicationContext context = new ClassPathXmlApplicationContext("AppContext.xml");
should only be used once in your application.
One of Spring premises is avoid coupling. Define and use Interfaces, DI, AOP and avoid using ApplicationContext.getBean() :-)
One of the reasons is testability. Say you have this class:
interface HttpLoader {
String load(String url);
}
interface StringOutput {
void print(String txt);
}
#Component
class MyBean {
#Autowired
MyBean(HttpLoader loader, StringOutput out) {
out.print(loader.load("http://stackoverflow.com"));
}
}
How can you test this bean? E.g. like this:
class MyBeanTest {
public void creatingMyBean_writesStackoverflowPageToOutput() {
// setup
String stackOverflowHtml = "dummy";
StringBuilder result = new StringBuilder();
// execution
new MyBean(Collections.singletonMap("https://stackoverflow.com", stackOverflowHtml)::get, result::append);
// evaluation
assertEquals(result.toString(), stackOverflowHtml);
}
}
Easy, right?
While you still depend on Spring (due to the annotations) you can remove you dependency on spring without changing any code (only the annotation definitions) and the test developer does not need to know anything about how spring works (maybe he should anyway, but it allows to review and test the code separately from what spring does).
It is still possible to do the same when using the ApplicationContext. However then you need to mock ApplicationContext which is a huge interface. You either need a dummy implementation or you can use a mocking framework such as Mockito:
#Component
class MyBean {
#Autowired
MyBean(ApplicationContext context) {
HttpLoader loader = context.getBean(HttpLoader.class);
StringOutput out = context.getBean(StringOutput.class);
out.print(loader.load("http://stackoverflow.com"));
}
}
class MyBeanTest {
public void creatingMyBean_writesStackoverflowPageToOutput() {
// setup
String stackOverflowHtml = "dummy";
StringBuilder result = new StringBuilder();
ApplicationContext context = Mockito.mock(ApplicationContext.class);
Mockito.when(context.getBean(HttpLoader.class))
.thenReturn(Collections.singletonMap("https://stackoverflow.com", stackOverflowHtml)::get);
Mockito.when(context.getBean(StringOutput.class)).thenReturn(result::append);
// execution
new MyBean(context);
// evaluation
assertEquals(result.toString(), stackOverflowHtml);
}
}
This is quite a possibility, but I think most people would agree that the first option is more elegant and makes the test simpler.
The only option that is really a problem is this one:
#Component
class MyBean {
#Autowired
MyBean(StringOutput out) {
out.print(new HttpLoader().load("http://stackoverflow.com"));
}
}
Testing this requires huge efforts or your bean is going to attempt to connect to stackoverflow on each test. And as soon as you have a network failure (or the admins at stackoverflow block you due to excessive access rate) you will have randomly failing tests.
So as a conclusion I would not say that using the ApplicationContext directly is automatically wrong and should be avoided at all costs. However if there are better options (and there are in most cases), then use the better options.
The idea is that you rely on dependency injection (inversion of control, or IoC). That is, your components are configured with the components they need. These dependencies are injected (via the constructor or setters) - you don't get then yourself.
ApplicationContext.getBean() requires you to name a bean explicitly within your component. Instead, by using IoC, your configuration can determine what component will be used.
This allows you to rewire your application with different component implementations easily, or configure objects for testing in a straightforward fashion by providing mocked variants (e.g. a mocked DAO so you don't hit a database during testing)
Others have pointed to the general problem (and are valid answers), but I'll just offer one additional comment: it's not that you should NEVER do it, but rather that do it as little as possible.
Usually this means that it is done exactly once: during bootstrapping. And then it's just to access the "root" bean, through which other dependencies can be resolved. This can be reusable code, like base servlet (if developing web apps).
There is another time when using getBean makes sense. If you're reconfiguring a system that already exists, where the dependencies are not explicitly called out in spring context files. You can start the process by putting in calls to getBean, so that you don't have to wire it all up at once. This way you can slowly build up your spring configuration putting each piece in place over time and getting the bits lined up properly. The calls to getBean will eventually be replaced, but as you understand the structure of the code, or lack there of, you can start the process of wiring more and more beans and using fewer and fewer calls to getBean.
I've only found two situations where getBean() was required:
Others have mentioned using getBean() in main() to fetch the "main" bean for a standalone program.
Another use I have made of getBean() are in situations where an interactive user configuration determines the bean makeup for a particular situation. So that, for instance, part of the boot system loops through a database table using getBean() with a scope='prototype' bean definition and then setting additional properties. Presumably, there is a UI that adjusts the database table that would be friendlier than attempting to (re)write the application context XML.
however, there are still cases where you need the service locator pattern.
for example, i have a controller bean, this controller might have some default service beans, which can be dependency injected by configuration.
while there could also be many additional or new services this controller can invoke now or later, which then need the service locator to retrieve the service beans.
You should to use: ConfigurableApplicationContext instead of for ApplicationContext

Difference between call-back method and Bean post processor in Spring Framework

Please pardon this Spring beginner question. I am reading chapter 4 of first edition and being introduced to both call-back method and Bean post processor.
Now I am just getting confused about the two, it seems like they both do sth. when the bean instance is created, so how can I differentiate the two? Maybe an example would be good?
My personal understanding is, if we have to find a difference, then call-back method is initiated when the bean gets actually created, the Bean post processor gets called slightly after the creation of the bean?Also, I think the diference might also be that initalization call-back method focus on one bean only while Beanpost procsso will pocess all the bean instances one by one?
Also, could anybody help me further explain the difference by comaring and contrasting JSR250 annotation #PreDestroy and #PostConstruct with the two concepts above?
Thank you very much for helping!
It's been a while since I've used either of these, but I think the callback method and #PostConstruct methods you are referring to are the same thing. But to answer your question, the difference....
1) The #PostConstruct (or afterPropertiesSet) method is a method internal to a specific class that will be called after a bean is instantiated. This is really where you put type-specific actions.
2) The BeanPostProcessor will touch all Spring beans. So here's where you can put cross-cutting functionality, not necessarily class-specific.
A small example... say I have a small address book application for keeping track of my friends and their addresses. If I have some crazy bug I can't track down, I might use a BeanPostProcessor to wrap all my Spring beans with some logging, such as "now invoking Address.getStreet()..., now invoking Address.getCity()...".
Now I might use a #PostConstruct method in Address to verify and look up zip codes against some web service for addresses where I only have city/state.
Now, I might not actually have one of my domain objects hitting a web service in reality, but the idea is to illustrate that a #PostConstruct can handle class specific stuff and a BeanPostProcessor can take care of things that span multiple classes.
Also it's worth noting, that BeanPostProcessor has two methods to override: postProcessBeforeInitialization and postProcessAfterInitialization, which will let you decide what to run before and after the bean's #PostConstruct method.
Bean post processors interface has two callback methods: 1. PostProcessBeforeInitialization and PostProcessAfterInitialization.
PostProcessBeforeInitialization method is invoked just before calling your init-method or afterPropertySet method of the bean.
PostProcessAfterInitialization method is just called after just after the initialization of bean completed.
Bean Post Processors gives chance to do something before and after initialization of bean.

Get application components without #Autowired

How would you extract something prior 2.5 version from .xml config? It bothers me because if #Autowired is removed from my arsenal I would not really know what to do.
Say I want to use some DAO implementation.
In service class I usually write:
#Autowired
someDaoInterface generalDao;
Then I typically call
generalDao.someInterfaceMethod(someParam param);
How would I extract implementation from config in Spring 2.0 to use this method?
Is it as dumb as just: new ApplicationContext(pathToXml) and then use .getBean or there is other way?
Why do I ask for taking bean out from configuration file?
Because in Spring MVC how can you perform your logic without getting beans out from the application context.
If you have #Controller handler then you need to make calls to the service classes' methods? So they should be somehow retrieved from the context and the only way so far is using #Autowired? Then I would also want to populate Service classes as I stated in previous example with DAO classes and they also need to be retrieved from the application context, so I would be able to write logic for service classes themself. How would people do it in the past?
I see the #Autowired as the only mean of taking something out, not because it is convenient to wire automatically - I am perfectly ok with XML.
You still have option to wire it explicitely via property or constructor parameter. (Anyway, autowired is not going to work if there is ambiguity in your container )
Of course, you can use application context and getBean() in your java code, but it violates DI pattern and makes all the spring stuff useless. Purpose of DI is to decouple your business loginc from implementation details - it's not business logic it's how and where it dependencies come from. Dependencies are just there.
By using ApplicationContext.getBean() you are breaking this pattern, and introduce dependency to:
spring itself
your configuration names
After you done this, you can as well drop use of DI and spring because you just voided all the advandages DI is providing to you. (BTW, #Autowired also introduces dependency to spring, and violates DI pattern, it also implies that there is only one instance available)
Also, answer is: in ideal case there shall be no reference to spring in your code at all.
No imports, no annotations - just interfaces of collaborating entities.

Instantiating spring bean objects

I've been playing with Spring and had a quick question...
I have a loop within class A which instantiates new objects of class B. To do this I've used the new operator however I cannot reference any Spring beans injected into instances of class B as I get a null pointer exception. I think I understand that this would be due to spring not managing these instances as beans and therefore not being able to manage the lifecycle however I was just wondering what the best way to go about creating multiple instances would be i.e. should I used appContext.getBean("beanA"); ?
First - are right with your assumptions. Using new means spring doesn't manage the object.
Solutions can be:
appContext.getBean("beanA"), where the bean is of scope "prototype". You obtain the appContext by injecting it, or by implementing ApplicationContextAware
using #Configurable and apsectJ weaving. That way even objects instantiated with new become managed by spring (the weaver plugs into the compiler or the vm)
using a lookup-method - it's the same as the first option (again requires prototype-scoped bean), but you get a method of your class that returns a new instance each time you call it.
Normally, however, you shouldn't need that. In the rare cases you do, I'd recommend the 3rd option.

Get access to all spring beans of a given type

I have a Spring application (Spring Batch not web application). In a test class, I want to grab access to all of my beans of a given type.
I understand that in Spring you should generally use IOC and let the container inject your beans. However in this case, I want to loop through a variable number of beans that extend a given class (org.springframework.batch.item.database.JdbcCursorItemReader), and do something (want it to be a unit/integration test that just connects it to the database and reads 1 row, so we can confirm at test time that all of the JdbcCursorItemReader in the system have valid SQL and row mappers).
Problem 1) I can only get beans one at a time. I can have my class implement BeanFactoryAware to get a reference to my beanfactory. Then I can do beanFactory.getBean("name"); to get access to a single bean. How do I instead get ALL beans? I can loop through and drop the ones that aren't the class I want.. but somehow I need a list of all beans the beanfactory knows about or something.
Problem 2) The bean I get back from the beanfactory is a proxy. If I try to cast and use my bean I get something like
java.lang.ClassCastException: $Proxy0 cannot be cast to org.springframework.batch.item.database.JdbcCursorItemReader
You can get around the first problem by using ApplicationContextAware instead of BeanFactoryAware. This will pass in the ApplicationContext, which has the getBeansOfType() method which lets you retrieve all beans that are of a given type.
The second problem is likely caused because something is creating AOP proxies around your JdbcCursorItemReader bean. These generated proxies will, by default, implement the same interfaces that JdbcCursorItemReader does (specifically, ItemReader and ItemStream). Your code should not try and cast to the class type (JdbcCursorItemReader), but to one of those interface types instead. It's usually possible to force the proxy to extend the proxied class directly, but without knowing anything about your setup, I can't help you with that.

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