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There have been several questions already posted with specific questions about dependency injection, such as when to use it and what frameworks are there for it. However,

What is dependency injection and when/why should or shouldn't it be used?

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Here's a video explaining DI in context of Java crazybob.org/2007/06/introduction-to-guice-video-redux.html And then how guice does DI in Java. code.google.com/p/google-guice –  Pyrolistical Sep 25 '08 at 0:31
The google testing blog does a good job of explaining the benefits of dependency injection with regards to unit testing: How to think about the new operator –  Michael Sep 25 '08 at 0:43
I think I'll re-open it for a while longer. From what I've learned, Dependency Injection is only a form of IoC, so it's not a total dup of the question referenced by Aku –  AR. Sep 25 '08 at 3:20
I agree with the comments regarding links. I can understand you may want to reference someone else. But at least add why you are linking them and what makes this link better than the other links I could get by using google –  Christian Payne Jun 1 '09 at 0:27
Regarding links, remember that they often disappear one way or another. There is a growing number of dead links in SO answers. So, no matter how good the linked article is, it's no good at all if you can't find it. –  DOK Oct 28 '10 at 16:26

16 Answers 16

up vote 638 down vote accepted

Basically, instead of having your objects creating a dependency or asking a factory object to make one for them, you pass the needed dependencies in to the constructor or via property setters, and you make it somebody else's problem (an object further up the dependency graph, or a dependency injector that builds the dependency graph). A dependency as I'm using it here is any other object the current object needs to hold a reference to.

One of the major advantages of dependency injection is that it can make testing lots easier. Suppose you have an object which in its constructor does something like:

public SomeClass() {
    myObject = Factory.getObject();

This can be troublesome when all you want to do is run some unit tests on SomeClass, especially if myObject is something that does complex disk or network access. So now you're looking at mocking myObject but also somehow intercepting the factory call. Hard. Instead, pass the object in as an argument to the constructor. Now you've moved the problem elsewhere, but testing can become lots easier. Just make a dummy myObject and pass that in. The constructor would now look a bit like:

public SomeClass (MyClass myObject) {
    this.myObject = myObject;

Most people can probably work out the other problems that might arise when not using dependency injection while testing (like classes that do too much work in their constructors etc.) Most of this is stuff I picked up on the Google Testing Blog, to be perfectly honest...

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Acknowledging that Ben Hoffstein's referenceto Martin Fowler's article is necessary as pointing a 'must-read' on the subject, I'm accepting wds' answer because it actually answers the question here on SO. –  AR. Sep 26 '08 at 16:55
+1 for explanation and motivation: making the creation of objects on which a class depends someone else's problem. Another way to say it is that DI makes classes more cohesive (they have fewer responsibilities). –  Fuhrmanator Nov 29 '12 at 18:26
You say the dependency is passed "in to the constructor" but as I understand it this isn't strictly true. It's still dependency injection if the dependency is set as a property after the object has been instantiated, correct? –  Mike Vella Aug 7 '13 at 19:52
@MikeVella Yes, that is correct. It makes no real difference in most cases, though properties are generally a bit more flexible. I will edit the text slightly to point that out. –  wds Aug 8 '13 at 15:14
Given the relative simplicity of the DI pattern, this concise answer is far more clear than Fowler's article which I just read. The references to testing and network access certainly help; they're the reason I came looking for an explanation of dependency injection! –  Matt Oct 3 '13 at 15:07

The best definition I found so far is one by James Shore:

"Dependency Injection" is a 25-dollar term for a 5-cent concept. [...] Dependency injection means giving an object its instance variables. [...].

There is an article by Martin Fowler that may prove useful too.

Dependency injection is basically providing the objects that an object needs (its dependencies) instead of having it construct them itself. It's a very useful technique for testing, since it allows dependencies to be mocked or stubbed out.

Dependencies can be injected into objects by many means (such as constructor injection or setter injection). One can even use specialized dependency injection frameworks (e.g Spring) to do that, but they certainly aren't required. You don't need those frameworks to have dependency injection. Instantiating and passing objects (dependencies) explicitly is just as good an injection as injection by framework.

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That one liner is the best explanation. –  Unknown Sep 13 '09 at 19:28
Thanks - this makes perfect sense. It turns out I've used DI before and just didn't know what it was called. The term "dependency injection" makes it sound like it must be complicated. –  Andy West Jun 30 '10 at 15:16
@AndyWest, I there are plenty of competent coders using DI objectively, probably wondering if there was a framework, or wondering if it was worth creating one. However having a clear framework of thought helps the programmer make even better decisions ... oh and yes, this is the best answer, and to add, I think it's best to learn what dependency is sans frameworks first –  Keldon Alleyne Oct 22 '12 at 9:21
+1 for the simple explanation. However, regarding the "Why?" part of the answer, it's not just for testing. DI leads to classes that are more cohesive. They have fewer responsibilities (they don't have code to make or acquire the objects they depend on). –  Fuhrmanator Nov 29 '12 at 18:33
And now DI is a buzzword at every interview... –  ariwez May 31 '13 at 14:31

I found this funny example in terms of loose coupling:

Any application is composed of many objects that collaborate with each other to perform some useful stuff. Traditionally each object is responsible for obtaining its own references to the dependent objects (dependencies) it collaborate with. This leads to highly coupled classes and hard-to-test code.

For example, consider a Car object.

A Car depends on wheels, engine, fuel, battery, etc. to run. Traditionally we define the brand of such dependent objects along with the definition of the Car object.

Without Dependency Injection (DI):

class Car{
  private Wheel wh= new NepaliRubberWheel();
  private Battery bt= new ExcideBattery();

  //The rest

Here, the Car object is responsible for creating the dependent objects.

What if we want to change the type of its dependent object - say Wheel - after the initial NepaliRubberWheel() punctures? We need to recreate the Car object with its new dependency say ChineseRubberWheel(), but only the Car manufacturer can do that.

Then what does the Dependency Injection do us for...?

When using dependency injection, objects are given their dependencies at run time rather than compile time (car manufacturing time). So that we can now change the Wheel whenever we want. Here, the dependency (wheel) can be injected into Car at run time.

After using dependency injection:

class Car{
  private Wheel wh= [Inject an Instance of Wheel at runtime]
  private Battery bt= [Inject an Instance of Battery at runtime]

Source: Understanding dependency injection

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+1 for being interesting and illustrative. However, you really ought to include an "after" example rather than only the "before". That is, please include a constructor such as: public Car (Wheel wheel, Battery battery); –  Jon Coombs Oct 19 '13 at 5:58
The way I understand this is, instead of instantiating a new object as part of another object, we can inject said object when and if it is needed thus removing the first object's dependency on it. Is that right? –  JeliBeanMachine May 28 '14 at 20:08
that NepaliRubberWheel example was great –  asok Buzz Jan 31 at 14:26
I like this simple example. Thanks. –  Karan Mar 16 at 11:41

Dependency Injection is a practice where objects are designed in a manner where they receive instances of the objects from other pieces of code, instead of constructing them internally. This means that any object implementing the interface which is required by the object can be substituted in without changing the code, which simplifies testing, and improves decoupling.

For example, consider these clases:

public class PersonService {
  public void addManager( Person employee, Person newManager ) { ... }
  public void removeManager( Person employee, Person oldManager ) { ... }
  public Group getGroupByManager( Person manager ) { ... }

public class GroupMembershipService() {
  public void addPersonToGroup( Person person, Group group ) { ... }
  public void removePersonFromGroup( Person person, Group group ) { ... }

In this example, the implementation of PersonService::addManager and PersonService::removeManager would need an instance of the GroupMembershipService in order to do its work. Without Dependency Injection, the traditional way of doing this would be to instantiate a new GroupMembershipService in the constructor of PersonService and use that instance attribute in both functions. However, if the constructor of GroupMembershipService has multiple things it requires, or worse yet, there are some initialization "setters" that need to be called on the GroupMembershipService, the code grows rather quickly, and the PersonService now depends not only on the GroupMembershipService but also everything else that GroupMembershipService depends on. Furthermore, the linkage to GroupMembershipService is hardcoded into the PersonService which means that you can't "dummy up" a GroupMembershipService for testing purposes, or to use a strategy pattern in different parts of your application.

With Dependency Injection, instead of instantiating the GroupMembershipService within your PersonService, you'd either pass it in to the PersonService constructor, or else add a Property (getter and setter) to set a local instance of it. This means that your PersonService no longer has to worry about how to create a GroupMembershipService, it just accepts the ones it's given, and works with them. This also means that anything which is a subclass of GroupMembershipService, or implements the GroupMembershipService interface can be "injected" into the PersonService, and the PersonService doesn't need to know about the change.

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Would have been great if you could give the same code example AFTER using DI –  Imray May 12 '14 at 9:23
Yep, agree, anyone want to do the example AFTER DI ? –  avcajaraville Jan 12 at 8:48

The accepted answer is a good one - but I would like to add to this that DI is very much like the classic avoiding of hardcoded constants in the code.

When you use some constant like a database name you'd quickly move it from the inside of the code to some config file and pass a variable containing that value to the place where it is needed. The reason to do that is that these constants usually change more frequently than the rest of the code. For example if you'd like to test the code in a test database.

DI is analogous to this in the world of Object Oriented programming. The values there instead of constant literals are whole objects - but the reason to move the code creating them out from the class code is similar - the objects change more frequently then the code that uses them. One important case where such a change is needed is tests.

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+1 "the objects change more frequently then the code that uses them". To generalize, add an indirection at points of flux. Depending on the point of flux, the indirections are called by different names!! –  Chethan Mar 30 '14 at 11:26

Let's imagine that you want to go fishing:

  • Without dependency injection, you need to take care of everything yourself. You need to find a boat, to buy a fishing rod, to look for bait, etc. It's possible, of course, but it puts a lot of responsibility on you. In software terms, it means that you have to perform a lookup for all these things.

  • With dependency injection, someone else takes care of all the preparation and makes the required equipment available to you. You will receive ("be injected") the boat, the fishing rod and the bait - all ready to use.

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The flipside is, imagine you hire a plumber to redo your bathroom, who then says, "Great, here's a list of the tools and material I need you to get for me". Shouldn't that be the plumber's job? –  Josh Caswell Jun 12 '13 at 19:52
It should definitely not be my job, as a customer. However, we could say that it is the responsibility of the plumber's company. In other words, I would describe the scenario by describing a "bathroom redo service" that is provided by a "plumbing company" (the system). Internally, the "plumbing company" manages the interactions between different resources: the plumber (who has the knowledge and skills to do the job), the tools (which are needed at some point, the material. The plumbing company is responsible for making the tools available to the plumber. –  Olivier Liechti Jun 13 '13 at 7:38
Okay, that begins to make a bit more sense. Thanks for the reply! –  Josh Caswell Jun 13 '13 at 8:04
So that someone needs to take care of some person it has no business knowing of.. but still decides to gather the list of boat, stick and bait - albeit ready to use. –  DiwasP8 Oct 25 '13 at 4:00

Doesn't "dependency injection" just mean using parameterized constructors and public setters?

Constructor without dependency injection:

public class Example { 
  private DatabaseThingie myDatabase; 

  public Example() { 
    myDatabase = new DatabaseThingie(); 

  public void doStuff() { 

Constructor with dependency injection:

public class Example { 
  private DatabaseThingie myDatabase; 

  public Example(DatabaseThingie useThisDatabaseInstead) { 
    myDatabase = useThisDatabaseInstead; 

  public void doStuff() { 


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Surely in the DI version you wouldn't want to initialise the myDatabase object in the no argument constructor? There seems no point and would serve to throw an exception if you tried to call DoStuff without calling the overloaded constructor? –  Matt Wilko Nov 21 '13 at 13:40
Only if new DatabaseThingie() doesn't generate a valid myDatabase instance. –  JaneGoodall Nov 22 '13 at 22:49
But that's not the point: This answer explains dependency injection without going into deeper concepts that beginners won't understand. From my experience, many experienced programmers give newbies answers that can't be understood without knowledge that the newbie almost certainly lacks. Although more informative at a very low level, the typical answers are too overwhelming for less knowledgeable programmers. "What is dependency injection?" is a newbie question so I feel my type of answer is more appropriate, even though it doesn't go into when dependency injection should be used. –  JaneGoodall Nov 22 '13 at 22:49
Good example except that 1) In the DI version you should remove the public Example() constructor to ensure DI is always used (and to make the answer clearer), and 2) public Example(DatabaseThingie useThisDatabaseInstead) is not a 'copy constructor'. A copy constructor is something like public Example(Example anExample) and would not be relevant to this question. I would call it a parameterized constructor. –  drkvogel Nov 26 '13 at 17:06
I think you should remove "copy constructors" from your description. –  Koray Tugay Apr 4 '14 at 8:03

It means that objects should only have as many dependencies as is needed to do their job and the dependencies should be few. Furthermore, an object’s dependencies should be on interfaces and not on “concrete” objects, when possible. (A concrete object is any object created with the keyword new.) Loose coupling promotes greater reusability, easier maintainability, and allows you to easily provide “mock” objects in place of expensive services.

The “Dependency Injection” (DI) is also known as “Inversion of Control” (IoC), can be used as a technique for encouraging this loose coupling.

There are two primary approaches to implementing DI:

  1. Constructor injection
  2. Setter injection

Constructor injection

It’s the technique of passing objects dependencies to its constructor.

Note that the constructor accepts an interface and not concrete object. Also, note that an exception is thrown if the orderDao parameter is null. This emphasizes the importance of receiving a valid dependency. Constructor Injection is, in my opinion, the preferred mechanism for giving an object its dependencies. It is clear to the developer while invoking the object which dependencies need to be given to the “Person” object for proper execution.

Setter Injection

But consider the following example… Suppose you have a class with ten methods that have no dependencies, but you’re adding a new method that does have a dependency on IDAO. You could change the constructor to use Constructor Injection, but this may force you to changes to all constructor calls all over the place. Alternatively, you could just add a new constructor that takes the dependency, but then how does a developer easily know when to use one constructor over the other. Finally, if the dependency is very expensive to create, why should it be created and passed to the constructor when it may only be used rarely? “Setter Injection” is another DI technique that can be used in situations such as this.

Setter Injection does not force dependencies to be passed to the constructor. Instead, the dependencies are set onto public properties exposed by the object in need. As implied previously, the primary motivators for doing this include:

  1. Supporting dependency injection without having to modify the constructor of a legacy class.
  2. Allowing expensive resources or services to be created as late as possible and only when needed.

Here is the example of how the above code would look like

enter image description here

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I think your first paragraph strays away from the question, and isn't at all the definition of DI (i.e., you are trying to define SOLID, not DI). Technically, even if you have 100 dependencies, you could still use dependency injection. Similarly, it is possible to inject concrete dependencies--it is still dependency injection. –  Jay Sullivan Jan 20 '14 at 5:36

I think since everyone has written for DI, let me ask a few questions..

  1. When you have a configuration of DI where all the actual implementations(not interfaces) that are going to be injected into a class (for e.g services to a controller) why is that not some sort of hard-coding?
  2. What if I want to change the object at runtime? For example, my config already says when I instantiate MyController, inject for FileLogger as ILogger. But I might want to inject DatabaseLogger.
  3. Everytime I want to change what objects my AClass needs, I need to now look into two places - The class itself and the configuration file. How does that make life easier?
  4. If Aproperty of AClass is not injected, is it harder to mock it out?
  5. Going back to the first question. If using new object() is bad, how come we inject the implementation and not the interface? I think a lot of you are saying we're in fact injecting the interface but the configuration makes you specify the implementation of that interface ..not at runtime .. it is hardcoded during compile time.

This is based on the answer @Adam N posted.

Why does PersonService no longer have to worry about GroupMembershipService? You just mentioned GroupMembership has multiple things(objects/properties) it depends on. If GMService was required in PService, you'd have it as a property. You can mock that out regardless of whether you injected it or not. The only time I'd like it to be injected is if GMService had more specific child classes, which you wouldn't know until runtime. Then you'd want to inject the subclass. Or if you wanted to use that as either singleton or prototype. To be honest, the configuration file has everything hardcoded as far as what subclass for a type (interface) it is going to inject during compile time.


A nice comment by Jose Maria Arranz on DI

DI increases cohesion by removing any need to determine the direction of dependency and write any glue code.

False. The direction of dependencies is in XML form or as annotations, your dependencies are written as XML code and annotations. XML and annotations ARE source code.

DI reduces coupling by making all of your components modular (i.e. replacable) and have well-defined interfaces to each other.

False. You do not need a DI framework to build a modular code based on interfaces.

About replaceable: with a very simple .properties archive and Class.forName you can define wich classes can change. If ANY class of your code can be changed, Java is not for you, use an scripting language. By the way: annotations cannot be changed without recompiling.

In my opinion there is one only reason for DI frameworks: boiler plate reduction. With a well done factory system you can do the same, more controlled and more predictable as your preferred DI framework, DI frameworks promise code reduction (XML and annotations are source code too). The problem is this boiler plate reduction is just real in very very simple cases (one instance-per class and similar), sometimes in the real world picking the appropriated service object is not as easy as mapping a class to a singleton object.

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The article you link currently has nearly 4 times as many downvotes as upvotes. That's partly because its author seems clueless about how OOP works. OOP is basically making objects communicate with each other. Those objects often only deal with specific other objects. Every such association is a dependency, and you simply can't have useful OOP without them -- the best you can do is manage them. DI, in its entirety, is making the creator responsible for managing dependencies. That's it. DI Frameworks like to try to complicate it, but at its core, it is actually a very simple concept. –  cHao Mar 13 '14 at 21:56

If you occasionally work outside of Java, recall how source is often used in many scripting languages (Shell, Tcl, etc., or even import in Python misused for this purpose).

Consider simple dependent.sh script:

# "dependent"
touch         "one.txt" "two.txt"
archive_files "one.txt" "two.txt"

The script is dependaet: it won't execute successfully on its own (archive_files is not defined).

You define archive_files in archive_files_zip.sh implementation script (using zip in this case):

# "dependency"
function archive_files {
    zip files.zip "$@"

Instead of source-ing implementation script directly in the dependent one, you use a injector.sh wrapper:

# "injector"
source ./archive_files_zip.sh
source ./dependant.sh

The archive_files dependency has just been injected into dependent script.

You could have injected dependency which implements archive_files using tar.

If dependent.sh script used dependencies directly, the approach would be called dependency look-up (which is opposite to dependency injection):

# dependency look-up
source ./archive_files_zip.sh

touch         "one.txt" "two.txt"
archive_files "one.txt" "two.txt"

It is not as largely emphasized and popularized as in Java frameworks. But it's an old approach.

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Dependency injection is one possible solution to what could generally be termed the "Dependency Obfuscation" requirement. Dependency Obfuscation is a method of taking the 'obvious' nature out of the process of providing a dependency to a class that requires it and therefore obfuscating, in some way, the provision of said dependency to said class. This is not necessarily a bad thing. In fact, by obfuscating the manner by which a dependency is provided to a class then something outside the class is responsible for creating the dependency which means, in various scenarios, a different implementation of the dependency can be supplied to the class without making any changes to the class. This is great for switching between production and testing modes (eg., using a 'mock' service dependency).

Unfortunately the bad part is that some people have assumed you need a specialized framework to do dependency obfuscation and that you are somehow a 'lesser' programmer if you choose not to use a particular framework to do it. Another, extremely disturbing myth, believed by many, is that dependency injection is the only way of achieving dependency obfuscation. This is demonstrably and historically and obviously 100% wrong but you will have trouble convincing some people that there are alternatives to dependency injection for your dependency obfuscation requirements.

Programmers have understood the dependency obfuscation requirement for years and many alternative solutions have evolved both before and after dependency injection was conceived. There are Factory patterns but there are also many options using ThreadLocal where no injection to a particular instance is needed - the dependency is effectively injected into the thread which has the benefit of making the object available (via convenience static getter methods) to any class that requires it without having to add annotations to the classes that require it and set up intricate XML 'glue' to make it happen. When your dependencies are required for persistence (JPA/JDO or whatever) it allows you to achieve 'tranaparent persistence' much easier and with domain model and business model classes made up purely of POJOs (i.e. no framework specific/locked in annotations).

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In simple words dependency injection (DI) is the way to remove dependencies or tight coupling between different object. Dependency Injection gives a cohesive behavior to each object.

DI is the implementation of IOC principal of Spring which says "Don't call us we will call you". Using dependency injection programmer doesn't need to create object using the new keyword.

Objects are once loaded in Spring container and then we reuse them whenever we need them by fetching those objects from Spring container using getBean(String beanName) method.

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Dependency injection is the heart of the concept related with Spring Framework.While creating the framework of any project spring may perform a vital role,and here dependency injection come in pitcher.

Actually,Suppose in java you created two different classes as class A and class B, and whatever the function are available in class B you want to use in class A, So at that time dependency injection can be used. where you can crate object of one class in other,in the same way you can inject an entire class in another class to make it accessible. by this way dependency can be overcome.


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I know there are already many answers, but I found this very helpful: http://tutorials.jenkov.com/dependency-injection/index.html

No Dependency:

public class MyDao {

  protected DataSource dataSource =
    new DataSourceImpl("driver", "url", "user", "password");

  //data access methods...
  public Person readPerson(int primaryKey) {...}



public class MyDao {

  protected DataSource dataSource = null;

  public MyDao(String driver, String url, String user, String
    this.dataSource = new DataSourceImpl(driver, url, user, password);

  //data access methods...
  public Person readPerson(int primaryKey)


Notice how the DataSourceImpl instantiation is moved into a constructor. The constructor takes four parameters which are the four values needed by the DataSourceImpl. Though the MyDao class still depends on these four values, it no longer satisfies these dependencies itself. They are provided by whatever class creating a MyDao instance.

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From the Book, 'Well-Grounded Java Developer: Vital techniques of Java 7 and polyglot programming

DI is a particular form of IoC, whereby the process of finding your dependencies is outside the direct control of your currently executing code.

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What is Dependency Injection (DI)?

To place DI in another context, in the paradigm of Robert C Martin's SOLID principles of Object Oriented Design, Dependency Injection (DI) is one of the possible implementations of the Dependency Inversion Principle (DIP). The DIP is the D of the SOLID mantra - other DIP implementations include the Service Locator, and Plugin patterns.

The objective of the DIP is to decouple tight, concrete dependencies between classes, and instead, to loosen the coupling by means of an abstraction, which is commonly achieved via an interface, abstract class, pure virtual class, or even dynamic or duck typing, depending on the language and approach used.

In simple terms, without the DIP, code (I've called this 'consuming class'), which is directly coupled to a concrete dependency also needs to know how to obtain / manage this dependency:

"I need to create/use a Foo and invoke method `GetBar()`"

Whereas after application of the DIP, the requirement is simplified to:

"I need to invoke something which offers `GetBar()`"

i.e. the coupling of the consuming class to the concrete Foo dependency has been removed, as has the concern of obtaining and managing the lifespan of the Foo dependency.

Why use DIP (and DI)?

Decoupling dependencies between classes in this way allows for easy substitution of these dependency classes with other implementations which also fulfil the prerequisites of the abstraction. However, as others have mentioned, possibly the major reason to decouple classes via the DIP is to allow a consuming class to be tested in isolation, as these same dependencies can now be stubbed and/or mocked.

One consequence of DI is that the lifespan management of dependency object instances is no longer controlled by a consuming class, as the dependency object is now passed into the consuming class (via constructor or setter injection).

This can be viewed in different ways:

  • If lifespan control of dependencies by the consuming class needs to be retained, control can be re-established by injecting an (abstract) factory for creating the dependency class instances, into the consumer class. The consumer will be able to obtain instances via a Create on the factory, and dispose of these instances as needed.
  • Or, lifespan control of dependency instances can be relinquished to an IoC container (more about this below).

When to use DI?

  • Any time where you will need to unit test the methods of a class in isolation of its dependencies,
  • where there likely will be a need to substitute a dependency for an equivalent implementation,
  • where uncertainty of the lifespan of a dependency may warrant experimentation (e.g. Hey, MyDepClass is thread safe - what if we make it a singleton?)


Here's a simple C# implementation. Given the below Consuming class:

public class MyLogger
   public void LogRecord(string somethingToLog)
      Console.WriteLine("{0:HH:mm:ss} - {1}", DateTime.Now, somethingToLog);

Although seemingly innocuous, it has two static dependencies on two other classes, System.DateTime and System.Console, which not only limit the logging output options (logging to console will be worthless if no one is watching), but worse, it is difficult to automatically test given the dependency on a non-deterministic system clock.

We can however apply DIP to this class, by abstracting out the the concern of timestamping as a dependency, and coupling MyLogger only to a simple interface:

public interface IClock
    DateTime Now { get; }

We can also loosen the dependency on Console to an abstraction, such as a TextWriter. Dependency Injection is typically implemented as either constructor injection (passing an abstraction to a dependency as a parameter to the constructor of a consuming class) or Setter Injection (passing the dependency via a setXyz() setter or a .Net Property with {set;} defined). Using constructor injection on the above example, this leaves us with:

public class MyLogger : ILogger // Others will depend on our logger.
    private readonly TextWriter _output;
    private readonly IClock _clock;

    // Dependencies are injected through the constructor
    public MyLogger(TextWriter stream, IClock clock)
        _output = stream;
        _clock = clock;

    public void LogRecord(string somethingToLog)
        _output.Write("{0:yyyy-MM-dd HH:mm:ss} - {1}", _clock.Now, somethingToLog);

(A concrete Clock needs to be provided, which of course could revert to DateTime.Now, and the two dependencies need to be provided by an IoC container via constructor injection)

And now, an automated Unit Test can be built, which definitively proves that our logger is working correctly, as we now have control over the dependencies - the time, and we can spy on the written output:

public void LoggingMustRecordAllInformationAndStampTheTime()
    var mockClock = new Mock<IClock>();
    mockClock.Setup(c => c.Now).Returns(new DateTime(2015, 4, 11, 12, 31, 45));
    var fakeConsole = new StringWriter();

    new MyLogger(fakeConsole, mockClock.Object)

    Assert.AreEqual("2015-04-11 12:31:45 - Foo", fakeConsole.ToString());

Next Steps

Dependency injection is invariably associated with an Inversion of Control container, to inject (provide) the concrete dependency instances, and to manage lifespan instances. During the configuration / bootstrapping process, IoC containers allow the following to be defined:

  • mapping between each abstraction and the configured concrete implementation (e.g. "any time a consumer requests an IBar, return a ConcreteBar instance")
  • policies can be set up for the lifespan management of each dependency, e.g. to create a new object for each consumer instance, to share a singleton dependency instance across all consumers, to share the same dependency instance only across the same thread, etc.

Typically, once IoC containers have been configured / bootstrapped, they operate seamlessly in the background allowing the coder to focus on the code at hand rather than worrying about dependencies.

As per above example, decoupling of dependencies does require some design effort, and for the developer, there is a paradigm shift needed to break the habit of newing dependencies directly, and instead trusting the container to manage dependencies.

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