I have a class in a jar file like
Class A {
B b;
C c;
//setter based injection
}
Now I want to create a bean of A in a different project. But I don't have any main class to configure the Spring application. I have a plugin in my pom.xml which calls Class D in my project.
If I create a bean with the new keyword all the autowired beans in the jar will not be available.
please suggest any methods to do this.
Note: This is a Spring application, Not Spring boot.
So that you are able to autowire a bean you need to register that bean as a Spring-managed bean. You can do that in multiple ways, being the following ones the simplest ones:
1) #Component annotation
If you annotate A with #Component Spring will create an instance of the class and register it as a Spring-managed bean:
#Component
Class A {
B b;
C c;
//setter based injection
}
2) #Bean annotation
Another way to register a Bean is using a Configuration class and the #Bean annotation:
#Configuration
public class AppConfig {
#Bean
public A a() {
return new A();
}
}
If I understood correctly your use case, you will need to use option 2).
I have the following structure:
WebService
#Autowired
public FooService(#Qualifier("fooMapper1") FooBO fooBO1,
#Qualifier("fooMapper2") FooBO fooBO2,
#Qualifier("fooMapper3") FooBO fooBO3) {
this.fooBO1= fooBO1;
this.fooBO2= fooBO2;
this.fooBO3= fooBO3;
}
Configuration
#Configuration
public class MapperConfig {
#Bean("fooMapper1")
public FooBO oneMapper(FooOneMapper mapper) {
return new FooBO(mapper);
}
#Bean("fooMapper2")
public FooBO twoMapper(FooTwoMapper mapper) {
return new FooBO(mapper);
}
#Bean("fooMapper3")
public FooBO threeMapper(FooThreeMapper mapper) {
return new FooBO(mapper);
}
}
FooBO
#Autowired
public FooBO(IFooMapper mapper) {
this.mapper = mapper;
}
IFooMapper is and interface that is extended by FooOneMapper, FooTwoMapper and FooThreeMapper.
When I try to run the project the following message is throwing:
Description:
Parameter 0 of constructor in ...FooBO required a single bean, but 4 were found:
- FooOneMapper: defined in file [C:...\mapper\FooOneMapper.class]
- FooTwoMapper: defined in file [C:...\mapper\FooTwoMapper.class]
- FooThreeMapper: defined in file [C:...\mapper\FooThreeMapper.class]
- IFooMapper: defined in file [C:...\mapper\IFooMapper.class]
Action:
Consider marking one of the beans as #Primary, updating the consumer to accept multiple beans, or using #Qualifier to identify the bean that should be consumed
I don't understand why spring have this conflict with the beans being that all seems to be well configured.
I am guessing you have annotated FooBO with #Component annotation.
the root package containing Spring Boot main class s is scanned to look for any #Component-annotated classes, and those classes are registered as Spring bean definitions within the container
You are creating beans in the configuration class. Make sure FooBO and IFooMapper are not annotated with #Component or its stereotype annotation.
class FooBO {
private final IFooMapper mapper;
public FooBO(IFooMapper mapper) {
this.mapper = mapper;
}
}
If for some reason you cannot remove #Component. Other ways to fix would be to mark one of the implementation of IFooMapper as primary using #Primary
#Component
#Primary
class FooOneMapper implements IFooMapper{
}
or provide additional data to help spring resolve dependency.
public FooBO(#Qualifier("fooThreeMapper") IFooMapper mapper) {
this.mapper = mapper;
}
First Spring does a scan to find the beans it has in the application context. It finds your #Configuration that creates three beans of type FooBO (and implicitly also of type IFooMapper). It also finds other beans you defined with annotatoins or in your xml - so it finds IFooMapper.
Secondly, Spring finds your #Autowired FooBO constructor and it has to decide what bean you want to inject there. It's default strategy is to inject based on the type of the bean. So it looks what beans of type IFooMapper are there in the current context. It finds the three in your configuration and anything else you declared in other places. It throws an exception because it cannot decide what instance to use. If you annotate one of the beans #Primay then Spring will always use that one in such situations.
Extra reading:
Spring bean lifecycle / Spring autowiring
I just found a behaviour of Spring that I cannot understand. I am using Spring Boot 1.5.x.
In a configuration class, I declared two different beans.
#Configuration
class Config {
#Bean("regularRestTemplate")
public RestTemplate regularRestTemplate(String toLog) {
return new RestTemplateBuilder().setConnectTimeout(100)
.setReadTimeout(100)
.additionalInterceptors((request, body, execution) -> {
log.info("Inside the interceptor {}", toLog);
return execution.execute(request, body);
})
.build();
}
#Bean("exceptionalRestTemplate")
public RestTemplate regularRestTemplate() {
return new RestTemplateBuilder().setConnectTimeout(100)
.setReadTimeout(100)
.build()
}
}
Then, I have a class that should use the bean called exceptionalRestTemplate.
#Component
class Client {
private RestTemplate restTemplate;
#Autowired
public Client(#Qualifier("exceptionalRestTemplate") RestTemplate restTemplate) {
this.restTemplate = restTemplate;
}
// Code that uses the injected rest template
}
Since I specified the name of the bean I want to be injected using the #Qualifier annotation, I would expect that Spring injects the bean called exceptionalRestTemplate. However, the bean called regularRestTemplate is actually used during the injection process.
It turns out that the problem was in the name of the methods that declare the beans in the configuration class. Both are colled regularRestTemplate. Changing the second method name, solve the problem.
My question is, why? I know that Spring uses the names of classes and methods annotated with the #Bean or with the #Component, #Service, etc... annotations to give a name to Java object inside the resolution map. But, I supposed that giving a name inside these annotations would override this behaviour.
Does anybody tell me what's going on?
Bean qualifier and bean name are different meanings. You qualified new bean but tried to override it (arguments don't matter). In your application, you cannot override beans so you have the only first one.
You can check this 'theory'. Add a parameter in your configuration
spring.main.allow-bean-definition-overriding=true
and start your application again. After that, you will have only a second bean.
This is an explanation of the collision. But the solution is a separation of beans to different configurations.
Please go through complete question before marking duplicate. Can discuss more in comments
I have following code where ServiceA depends on ServiceB. And serviceB implementation bean will be conditionally initialized
class ServiceA{
ServiceB serviceB;
ServiceA(ServiceB serviceB){
this.serviceB = serviceB;
}
}
#Configuration
class AppConfig{
#Conditional("some_condition_based_on_property")
#Bean
ServiceB serviceB1(){
return new ServiceBImpl1();
}
#Conditional("some_condition_based_on_property")
#Bean
ServiceB serviceB2(){
return new ServiceBImpl2();
}
#Bean
ServiceA serviceA(){
//what should go here so that conditional bean is injected in ServiceA
}
}
I cannot auto-detect ServiceA bean, as I need to inject it in a Map with some key.
One option I see is to remove construction injection, and have serviceB bean #autowired in serviceA, which would be last option for me. Any other option?
Edit: I don't want to have if-else during injection, as the beans can be defined at various places. I will be only using #Conditional
Nothing holds you from autowiring the resulting ServiceB right inside the configuration class and reusing the reference it for creating ServiceA:
#Configuration
class AppConfig{
#Conditional(/* some condition */)
#Bean
ServiceB serviceB1(){
return new ServiceBImpl1();
}
#Conditional(/* some condition */)
#Bean
ServiceB serviceB2(){
return new ServiceBImpl2();
}
// store a local reference
#Autowired
private dynamicServiceB;
#Bean
ServiceA serviceA(){
return new ServiceA(dynamicServiceB);
}
}
However, it feels like you're trying to work around some other problem that you didn't describe, especially given you included syntactically incorrect code: #Conditional doesn't accept strings as values. You should not expect that constraining acceptable solutions to those working with a broken bit of code you have will yield much success.
This feels like a scenario for a #Profile.
I understand that #Component annotation was introduced in spring 2.5 in order to get rid of xml bean definition by using classpath scanning.
#Bean was introduced in spring 3.0 and can be used with #Configuration in order to fully get rid of xml file and use java config instead.
Would it have been possible to re-use the #Component annotation instead of introducing #Bean annotation? My understanding is that the final goal is to create beans in both cases.
#Component
Preferable for component scanning and automatic wiring.
When should you use #Bean?
Sometimes automatic configuration is not an option. When? Let's imagine that you want to wire components from 3rd-party libraries (you don't have the source code so you can't annotate its classes with #Component), so automatic configuration is not possible.
The #Bean annotation returns an object that spring should register as bean in application context. The body of the method bears the logic responsible for creating the instance.
#Component and #Bean do two quite different things, and shouldn't be confused.
#Component (and #Service and #Repository) are used to auto-detect and auto-configure beans using classpath scanning. There's an implicit one-to-one mapping between the annotated class and the bean (i.e. one bean per class). Control of wiring is quite limited with this approach, since it's purely declarative.
#Bean is used to explicitly declare a single bean, rather than letting Spring do it automatically as above. It decouples the declaration of the bean from the class definition, and lets you create and configure beans exactly how you choose.
To answer your question...
would it have been possible to re-use the #Component annotation instead of introducing #Bean annotation?
Sure, probably; but they chose not to, since the two are quite different. Spring's already confusing enough without muddying the waters further.
#Component auto detects and configures the beans using classpath scanning whereas #Bean explicitly declares a single bean, rather than letting Spring do it automatically.
#Component does not decouple the declaration of the bean from the class definition where as #Bean decouples the declaration of the bean from the class definition.
#Component is a class level annotation whereas #Bean is a method level annotation and name of the method serves as the bean name.
#Component need not to be used with the #Configuration annotation where as #Bean annotation has to be used within the class which is annotated with #Configuration.
We cannot create a bean of a class using #Component, if the class is outside spring container whereas we can create a bean of a class using #Bean even if the class is present outside the spring container.
#Component has different specializations like #Controller, #Repository and #Service whereas #Bean has no specializations.
Let's consider I want specific implementation depending on some dynamic state.
#Bean is perfect for that case.
#Bean
#Scope("prototype")
public SomeService someService() {
switch (state) {
case 1:
return new Impl1();
case 2:
return new Impl2();
case 3:
return new Impl3();
default:
return new Impl();
}
}
However there is no way to do that with #Component.
Both approaches aim to register target type in Spring container.
The difference is that #Bean is applicable to methods, whereas #Component is applicable to types.
Therefore when you use #Bean annotation you control instance creation logic in method's body (see example above). With #Component annotation you cannot.
I see a lot of answers and almost everywhere it's mentioned #Component is for autowiring where component is scanned, and #Bean is exactly declaring that bean to be used differently. Let me show how it's different.
#Bean
First it's a method level annotation.
Second you generally use it to configure beans in Java code (if you are not using xml configuration) and then call it from a class using the
ApplicationContext.getBean method. Example:
#Configuration
class MyConfiguration{
#Bean
public User getUser() {
return new User();
}
}
class User{
}
// Getting Bean
User user = applicationContext.getBean("getUser");
#Component
It is the general way to annotate a bean and not a specialized bean.
It is a class level annotation and is used to avoid all that configuration stuff through java or xml configuration.
We get something like this.
#Component
class User {
}
// to get Bean
#Autowired
User user;
That's it. It was just introduced to avoid all the configuration steps to instantiate and use that bean.
You can use #Bean to make an existing third-party class available to your Spring framework application context.
#Bean
public ViewResolver viewResolver() {
InternalResourceViewResolver viewResolver = new InternalResourceViewResolver();
viewResolver.setPrefix("/WEB-INF/view/");
viewResolver.setSuffix(".jsp");
return viewResolver;
}
By using the #Bean annotation, you can wrap a third-party class (it may not have #Component and it may not use Spring), as a Spring bean. And then once it is wrapped using #Bean, it is as a singleton object and available in your Spring framework application context. You can now easily share/reuse this bean in your app using dependency injection and #Autowired.
So think of the #Bean annotation is a wrapper/adapter for third-party classes. You want to make the third-party classes available to your Spring framework application context.
By using #Bean in the code above, I'm explicitly declare a single bean because inside of the method, I'm explicitly creating the object using the new keyword. I'm also manually calling setter methods of the given class. So I can change the value of the prefix field. So this manual work is referred to as explicit creation. If I use the #Component for the same class, the bean registered in the Spring container will have default value for the prefix field.
On the other hand, when we annotate a class with #Component, no need for us to manually use the new keyword. It is handled automatically by Spring.
When you use the #Component tag, it's the same as having a POJO (Plain Old Java Object) with a vanilla bean declaration method (annotated with #Bean). For example, the following method 1 and 2 will give the same result.
Method 1
#Component
public class SomeClass {
private int number;
public SomeClass(Integer theNumber){
this.number = theNumber.intValue();
}
public int getNumber(){
return this.number;
}
}
with a bean for 'theNumber':
#Bean
Integer theNumber(){
return new Integer(3456);
}
Method 2
//Note: no #Component tag
public class SomeClass {
private int number;
public SomeClass(Integer theNumber){
this.number = theNumber.intValue();
}
public int getNumber(){
return this.number;
}
}
with the beans for both:
#Bean
Integer theNumber(){
return new Integer(3456);
}
#Bean
SomeClass someClass(Integer theNumber){
return new SomeClass(theNumber);
}
Method 2 allows you to keep bean declarations together, it's a bit more flexible etc. You may even want to add another non-vanilla SomeClass bean like the following:
#Bean
SomeClass strawberryClass(){
return new SomeClass(new Integer(1));
}
You have two ways to generate beans.
One is to create a class with an annotation #Component.
The other is to create a method and annotate it with #Bean. For those classes containing method with #Bean should be annotated with #Configuration
Once you run your spring project, the class with a #ComponentScan annotation would scan every class with #Component on it, and restore the instance of this class to the Ioc Container. Another thing the #ComponentScan would do is running the methods with #Bean on it and restore the return object to the Ioc Container as a bean.
So when you need to decide which kind of beans you want to create depending upon current states, you need to use #Bean. You can write the logic and return the object you want.
Another thing worth to mention is the name of the method with #Bean is the default name of bean.
Difference between Bean and Component:
#component and its specializations(#Controller, #service, #repository) allow for auto-detection
using classpath scanning. If we see component class like #Controller, #service, #repository will be scan automatically by the spring framework using the component scan.
#Bean on the other hand can only be used to explicitly declare a single bean in a configuration class.
#Bean used to explicitly declare a single bean, rather than letting spring do it automatically. Its make septate declaration of bean from the class definition.
In short #Controller, #service, #repository are for auto-detection and #Bean to create seprate bean from class
- #Controller
public class LoginController
{ --code-- }
- #Configuration
public class AppConfig {
#Bean
public SessionFactory sessionFactory()
{--code-- }
Spring supports multiple types annotations such as #Component, #Service, #Repository. All theses can be found under the org.springframework.stereotype package.
#Bean can be found under the org.springframework.context.annotation package.
When classes in our application are annotated with any of the above mentioned annotation then during project startup spring scan(using #ComponentScan) each class and inject the instance of the classes to the IOC container. Another thing the #ComponentScan would do is running the methods with #Bean on it and restore the return object to the Ioc Container as a bean.
#Component
If we mark a class with #Component or one of the other Stereotype annotations these classes will be auto-detected using classpath scanning. As long as these classes are in under our base package or Spring is aware of another package to scan, a new bean will be created for each of these classes.
package com.beanvscomponent.controller;
import org.springframework.stereotype.Controller;
#Controller
public class HomeController {
public String home(){
return "Hello, World!";
}
}
There's an implicit one-to-one mapping between the annotated class and the bean (i.e. one bean per class). Control of wiring is quite limited with this approach since it's purely declarative. It is also important to note that the stereotype annotations are class level annotations.
#Bean
#Bean is used to explicitly declare a single bean, rather than letting Spring do it automatically like we did with #Controller. It decouples the declaration of the bean from the class definition and lets you create and configure beans exactly how you choose. With #Bean you aren't placing this annotation at the class level. If you tried to do that you would get an invalid type error. The #Bean documentation defines it as:
Indicates that a method produces a bean to be managed by the Spring container.
Typically, #Bean methods are declared within #Configuration classes.We have a user class that we needed to instantiate and then create a bean using that instance. This is where I said earlier that we have a little more control over how the bean is defined.
package com.beanvscomponent;
public class User {
private String first;
private String last;
public User(String first, String last) {
this.first = first;
this.last = last;
}
}
As i mentioned earlier #Bean methods should be declared within #Configuration classes.
package com.beanvscomponent;
import org.springframework.context.annotation.Bean;
import org.springframework.context.annotation.Configuration;
#Configuration
public class ApplicationConfig {
#Bean
public User superUser() {
return new User("Partho","Bappy");
}
}
The name of the method is actually going to be the name of our bean. If we pull up the /beans endpoint in the actuator we can see the bean defined.
{
"beans": "superUser",
"aliases": [],
"scope": "singleton",
"type": "com.beanvscomponent.User",
"resource": "class path resource
[com/beanvscomponent/ApplicationConfig.class]",
"dependencies": []
}
#Component vs #Bean
I hope that cleared up some things on when to use #Component and when to use #Bean. It can be a little confusing but as you start to write more applications it will become pretty natural.
#Bean was created to avoid coupling Spring and your business rules in compile time. It means you can reuse your business rules in other frameworks like PlayFramework or JEE.
Moreover, you have total control on how create beans, where it is not enough the default Spring instantation.
I wrote a post talking about it.
https://coderstower.com/2019/04/23/factory-methods-decoupling-ioc-container-abstraction/
1. About #Component
#Component functs similarily to #Configuration.
They both indicate that the annotated class has one or more beans need to be registered to Spring-IOC-Container.
The class annotated by #Component, we call it Component of Spring. It is a concept that contains several beans.
Component class needs to be auto-scanned by Spring for registering those beans of the component class.
2. About #Bean
#Bean is used to annotate the method of component-class(as mentioned above). It indicate the instance retured by the annotated method needs to be registered to Spring-IOC-Container.
3. Conclusion
The difference between them two is relatively obivious, they are used in different circumstances.
The general usage is:
// #Configuration is implemented by #Component
#Configuration
public ComponentClass {
#Bean
public FirstBean FirstBeanMethod() {
return new FirstBean();
}
#Bean
public SecondBean SecondBeanMethod() {
return new SecondBean();
}
}
Additional Points from above answers
Let’s say we got a module which is shared in multiple apps and it contains a few services. Not all are needed for each app.
If use #Component on those service classes and the component scan in the application,
we might end up detecting more beans than necessary
In this case, you either had to adjust the filtering of the component scan or provide the configuration that even the unused beans can run. Otherwise, the application context won’t start.
In this case, it is better to work with #Bean annotation and only instantiate those beans,
which are required individually in each app
So, essentially, use #Bean for adding third-party classes to the context. And #Component if it is just inside your single application.
#Bean can be scoped and #component cannot
such as
#Scope(value = WebApplicationContext.SCOPE_REQUEST, proxyMode = ScopedProxyMode.TARGET_CLASS)