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What is Inversion of Control?

Inversion of Control (IoC) can be quite confusing when it is first encountered.

What is it? Which problem does it solve? When is it appropriate to use and when not?

The problem with most of these answers is the terminology used. What's a container? Inversion? Dependency? Explain it in layman terms without the big words.
See also on Programmers.SE: Why is Inversion of Control named that way?
It is Dependency Injection (DI) - see Martin Fowlers' descrition here: martinfowler.com/articles/injection.html#InversionOfControl
It is an adjective, not a noun, it not a thing, it is a description of a change made to code, where the control of flow is in the delegate, not the container.
Best way to understand IOC is to hear Martin Fowler and Uncle BOB...just type IOC with the names mentioned

T
Top-Master

The Inversion-of-Control (IoC) pattern, is about providing any kind of callback (which controls reaction), instead of acting ourself directly (in other words, inversion and/or redirecting control to external handler/controller). The Dependency-Injection (DI) pattern is a more specific version of IoC pattern, and is all about removing dependencies from your code.

Every DI implementation can be considered IoC, but one should not call it IoC, because implementing Dependency-Injection is harder than callback (Don't lower your product's worth by using general term "IoC" instead).

For DI example, say your application has a text-editor component, and you want to provide spell checking. Your standard code would look something like this:

public class TextEditor {

    private SpellChecker checker;

    public TextEditor() {
        this.checker = new SpellChecker();
    }
}

What we've done here creates a dependency between the TextEditor and the SpellChecker. In an IoC scenario we would instead do something like this:

public class TextEditor {

    private IocSpellChecker checker;

    public TextEditor(IocSpellChecker checker) {
        this.checker = checker;
    }
}

In the first code example we are instantiating SpellChecker (this.checker = new SpellChecker();), which means the TextEditor class directly depends on the SpellChecker class.

In the second code example we are creating an abstraction by having the SpellChecker dependency class in TextEditor's constructor signature (not initializing dependency in class). This allows us to call the dependency then pass it to the TextEditor class like so:

SpellChecker sc = new SpellChecker(); // dependency
TextEditor textEditor = new TextEditor(sc);

Now the client creating the TextEditor class has control over which SpellChecker implementation to use because we're injecting the dependency into the TextEditor signature.


Good clear example. However, suppose rather than requiring the ISpellChecker interface be passed to the object's constructor, we exposed it as a settable property (or SetSpellChecker method). Would this still constitute IoC?
chainguy1337 - yes it would. Using setters like that is called setter injection as opposed to constructor injection (both dependency injection techniques). IoC is a fairly generic pattern, but dependency injection acheives IoC
I agree with @Rogeria. this doesn't explain why it is called the IoC and I am surprised by the number of up votes ;-)
I side with @Rogerio and @Pangea. This may be a good example for constructor injection but not a good answer to the original question. IoC, as defined by Fowler, can be realised without using injection of any kind, e.g. by using a service locator or even simple inheritance.
The example you gave is not of IOC, it is Dependency Injection example.
H
Hearen

Inversion of Control is what you get when your program callbacks, e.g. like a gui program.

For example, in an old school menu, you might have:

print "enter your name"
read name
print "enter your address"
read address
etc...
store in database

thereby controlling the flow of user interaction.

In a GUI program or somesuch, instead we say:

when the user types in field a, store it in NAME
when the user types in field b, store it in ADDRESS
when the user clicks the save button, call StoreInDatabase

So now control is inverted... instead of the computer accepting user input in a fixed order, the user controls the order in which the data is entered, and when the data is saved in the database.

Basically, anything with an event loop, callbacks, or execute triggers falls into this category.


dont mark this guy down. technically he is correct martinfowler.com/bliki/InversionOfControl.html IoC is a very general principal. Flow of control is "inverted" by dependency injection because you have effectively delegated dependancies to some external system (e.g. IoC container)
Agreed with Schneider's comment. 5 downvotes? The mind boggles, since this is the only answer that's really correct. Note the opening: 'like a gui program.' Dependency injection is only the most commonly-seen realization of IoC.
Indeed, this is one of the few correct anwsers! Guys, IoC is not fundamentally about dependencies. Not at all.
+1 - This is a good description (with example) of the following statement by Martin Fowler - "Early user interfaces were controlled by the application program. You would have a sequence of commands like "Enter name", "enter address"; your program would drive the prompts and pick up a response to each one. With graphical (or even screen based) UIs the UI framework would contain this main loop and your program instead provided event handlers for the various fields on the screen. The main control of the program was inverted, moved away from you to the framework."
I now get it why it is sometimes facetiously referred to as the "Hollywood Principle: Don't call us, we'll call you"
r
rpattabi

What is Inversion of Control?

If you follow these simple two steps, you have done inversion of control:

Separate what-to-do part from when-to-do part. Ensure that when part knows as little as possible about what part; and vice versa.

There are several techniques possible for each of these steps based on the technology/language you are using for your implementation.

--

The inversion part of the Inversion of Control (IoC) is the confusing thing; because inversion is the relative term. The best way to understand IoC is to forget about that word!

--

Examples

Event Handling. Event Handlers (what-to-do part) -- Raising Events (when-to-do part)

Dependency Injection. Code that constructs a dependency (what-to-do part) -- instantiating and injecting that dependency for the clients when needed, which is usually taken care of by the DI tools such as Dagger (when-to-do-part).

Interfaces. Component client (when-to-do part) -- Component Interface implementation (what-to-do part)

xUnit fixture. Setup and TearDown (what-to-do part) -- xUnit frameworks calls to Setup at the beginning and TearDown at the end (when-to-do part)

Template method design pattern. template method when-to-do part -- primitive subclass implementation what-to-do part

DLL container methods in COM. DllMain, DllCanUnload, etc (what-to-do part) -- COM/OS (when-to-do part)


How you are saying Interfaces. Component client (when-to-do part) as "when" does not make sense when we use interfaces ( Ex: Dependency Injection), we just abstract it out and give the client flexibility about adding any implementation but there is no "when" involved there. I agree with "when" in case of Raising Events of Event Handling.
By 'component client' I meant the user / client of the interface. The client knows 'when' to trigger the 'what-to-do' part whether the intention is to extend the functionality or not.
Take a look at this wonderful article by Martin Fowler. He shows how interfaces make the fundamental part of inversion of control: martinfowler.com/articles/injection.html#InversionOfControl
two first sentences are brilliant. awesome !! perfect separating by when-to-do and what-to-do !! i dont know why other answers get that many of upvotes. they just talking codes without any understandings.
@rpattabi, give an example in code of what you said in the answer
B
Bharat Mallapur

Inversion of Controls is about separating concerns.

Without IoC: You have a laptop computer and you accidentally break the screen. And darn, you find the same model laptop screen is nowhere in the market. So you're stuck.

With IoC: You have a desktop computer and you accidentally break the screen. You find you can just grab almost any desktop monitor from the market, and it works well with your desktop.

Your desktop successfully implements IoC in this case. It accepts a variety type of monitors, while the laptop does not, it needs a specific screen to get fixed.


@Luo Jiong Hui Nice explanation.
Most of Design patterns, if not all, have their counterparts in our daily life that we see and understand so well. The most efficient way of understanding a design pattern is to know their daily life counterparts. And I believe there are many.
Incorrect answer. You are explaining dependency injection and not IoC. See Rogério's comment on this answer above
I agree. This is DI, not IoC. Still gets an upvote from, because it is a simple approach, yet helps expand the understanding of the topic.
It explains the dependency injection. Not Ioc. But nice and clear explanation.
i
iliketocode

Inversion of Control, (or IoC), is about getting freedom (You get married, you lost freedom and you are being controlled. You divorced, you have just implemented Inversion of Control. That's what we called, "decoupled". Good computer system discourages some very close relationship.) more flexibility (The kitchen in your office only serves clean tap water, that is your only choice when you want to drink. Your boss implemented Inversion of Control by setting up a new coffee machine. Now you get the flexibility of choosing either tap water or coffee.) and less dependency (Your partner has a job, you don't have a job, you financially depend on your partner, so you are controlled. You find a job, you have implemented Inversion of Control. Good computer system encourages in-dependency.)

When you use a desktop computer, you have slaved (or say, controlled). You have to sit before a screen and look at it. Using the keyboard to type and using the mouse to navigate. And a badly written software can slave you even more. If you replace your desktop with a laptop, then you somewhat inverted control. You can easily take it and move around. So now you can control where you are with your computer, instead of your computer controlling it.

By implementing Inversion of Control, a software/object consumer gets more controls/options over the software/objects, instead of being controlled or having fewer options.

With the above ideas in mind. We still miss a key part of IoC. In the scenario of IoC, the software/object consumer is a sophisticated framework. That means the code you created is not called by yourself. Now let's explain why this way works better for a web application.

Suppose your code is a group of workers. They need to build a car. These workers need a place and tools (a software framework) to build the car. A traditional software framework will be like a garage with many tools. So the workers need to make a plan themselves and use the tools to build the car. Building a car is not an easy business, it will be really hard for the workers to plan and cooperate properly. A modern software framework will be like a modern car factory with all the facilities and managers in place. The workers do not have to make any plan, the managers (part of the framework, they are the smartest people and made the most sophisticated plan) will help coordinate so that the workers know when to do their job (framework calls your code). The workers just need to be flexible enough to use any tools the managers give to them (by using Dependency Injection).

Although the workers give the control of managing the project on the top level to the managers (the framework). But it is good to have some professionals help out. This is the concept of IoC truly come from.

Modern Web applications with an MVC architecture depends on the framework to do URL Routing and put Controllers in place for the framework to call.

Dependency Injection and Inversion of Control are related. Dependency Injection is at the micro level and Inversion of Control is at the macro level. You have to eat every bite (implement DI) in order to finish a meal (implement IoC).


I voted up for the compare DI to marriage and IoC to divorce.
" Although the workers give the control of managing the project on the top level to the managers (the framework). But it is good to have some professionals help out. This is the concept of IoC truly come from. " - Firstly the control is with the Manager. Can you explain how that control is inverted ? With the help of professionals (what kind of professional) ? How ?
@Istiaque Ahmed, comparing to a garage where workers have full control of everything, managers in modern car factory control the production. So now workers are controlled instead of controlling. Be aware, managers in this context is part of modern car factory, not part of the workers. Professionals are the managers who are professional at planning and making cars.
Message to married people: don't divorce now, your child classes may also implement IoC.
Yes, this the just my vision about marriage also IoC
E
Efe Ariaroo

Before using Inversion of Control you should be well aware of the fact that it has its pros and cons and you should know why you use it if you do so.

Pros:

Your code gets decoupled so you can easily exchange implementations of an interface with alternative implementations

It is a strong motivator for coding against interfaces instead of implementations

It's very easy to write unit tests for your code because it depends on nothing else than the objects it accepts in its constructor/setters and you can easily initialize them with the right objects in isolation.

Cons:

IoC not only inverts the control flow in your program, it also clouds it considerably. This means you can no longer just read your code and jump from one place to another because the connections that would normally be in your code are not in the code anymore. Instead it is in XML configuration files or annotations and in the code of your IoC container that interprets these metadata.

There arises a new class of bugs where you get your XML config or your annotations wrong and you can spend a lot of time finding out why your IoC container injects a null reference into one of your objects under certain conditions.

Personally I see the strong points of IoC and I really like them but I tend to avoid IoC whenever possible because it turns your software into a collection of classes that no longer constitute a "real" program but just something that needs to be put together by XML configuration or annotation metadata and would fall (and falls) apart without it.


I think what he means is, you can't just read: myService.DoSomething() and go to the definition of DoSomething, because with IoC, myService is just an interface, and the actual implementation is unknown to you, unless you go look it up in xml config files or the main method where your ioc gets setup.
That is where Resharper helps - "click go to implementation" against the interface. Avoiding IoC (or more specifically DI from your example) probably also means you aren't testing properly
Re: it turns your software into a collection of classes that no longer constitute a "real" program but just something that needs to be put together by XML configuration or annotation metadata and would fall (and falls) apart without it -- I think this is very misleading. The same could be said of any program that is written on top of a framework. The difference with a good IoC container is that you should be able to, if your program is well designed & written, take it out and plop in another one with minimal changes to your code, or toss out IoC altogether and construct your objects by hand.
Good to see a real-world answer like this! I think there are plenty of experienced programmers, comfortable with object orientated design and TDD practices, already using interfaces, factory patterns, event driven models and mocking where it makes sense, before this "IoC" buzzword was invented. Unfortunately too many developers/"architects" claim bad practice if you don't use their preferred frameworks. I prefer a better design, use of built-in language concepts and tools, to achieve the same goal with a fraction of the complexity, i.e. without "clouding" the implementation as you say :-)
You can do dependency injection without interfaces, annotations, or any framework support. At a minimum, all you need is classes that do stuff that have constructors that take instances of other objects they need. The big difference is you don't allow these classes to create things themselves. A simple main method can take the role of the dependency injection frameworks and simply call new on each object. Writing this main method is tedious. But the rest of your code stays readable and clean and having the plumbing in one place is actually nice as well.
C
Community

Wikipedia Article. To me, inversion of control is turning your sequentially written code and turning it into an delegation structure. Instead of your program explicitly controlling everything, your program sets up a class or library with certain functions to be called when certain things happen. It solves code duplication. For example, in the old days you would manually write your own event loop, polling the system libraries for new events. Nowadays, most modern APIs you simply tell the system libraries what events you're interested in, and it will let you know when they happen. Inversion of control is a practical way to reduce code duplication, and if you find yourself copying an entire method and only changing a small piece of the code, you can consider tackling it with inversion of control. Inversion of control is made easy in many languages through the concept of delegates, interfaces, or even raw function pointers. It is not appropriate to use in all cases, because the flow of a program can be harder to follow when written this way. It's a useful way to design methods when writing a library that will be reused, but it should be used sparingly in the core of your own program unless it really solves a code duplication problem.


I find that Wikipedia article very confusing and in need of fixing up. Check out the discussion page for a laugh.
Writing your own event loop could still be inversion of control, if that event loop takes the place of a framework and the rest of the code is using IoC principle you have just written your own framework. This is actually not a bad thing, it increases readability at the price of only a little bit more coding (not that it is always appropriate either).
L
Luo Jiong Hui

Suppose you are an object. And you go to a restaurant:

Without IoC: you ask for "apple", and you are always served apple when you ask more.

With IoC: You can ask for "fruit". You can get different fruits each time you get served. for example, apple, orange, or water melon.

So, obviously, IoC is preferred when you like the varieties.


M
Michal Sznajder

But I think you have to be very careful with it. If you will overuse this pattern, you will make very complicated design and even more complicated code.

Like in this example with TextEditor: if you have only one SpellChecker maybe it is not really necessary to use IoC ? Unless you need to write unit tests or something ...

Anyway: be reasonable. Design pattern are good practices but not Bible to be preached. Do not stick it everywhere.


How do you know that you will only have one spellchecker?
@Trace You could know how the program you are going to write is going to get used for example. Still some techniques such as dependency injection is so cheap that there is rarely a reason not to use them in a case like this.
f
ferventcoder

IoC / DI to me is pushing out dependencies to the calling objects. Super simple.

The non-techy answer is being able to swap out an engine in a car right before you turn it on. If everything hooks up right (the interface), you are good.


u
user2330678

Answering only the first part. What is it?

Inversion of Control (IoC) means to create instances of dependencies first and latter instance of a class (optionally injecting them through constructor), instead of creating an instance of the class first and then the class instance creating instances of dependencies. Thus, inversion of control inverts the flow of control of the program. Instead of the callee controlling the flow of control (while creating dependencies), the caller controls the flow of control of the program.


Its not about class or object creation, check this martinfowler.com/articles/injection.html#InversionOfControl
In my 15 years of programming this is by far the clearest explanation of what IoC is. Thanks! The main answer does not say it is about class or object creation, with all due respect. It says what inversion of control is using the creation of classes AS AN EXAMPLE. :) And the author uses a minimum of sentences and words with which to communicate the answer! With all due respect, this answer is the best one in the article. WHY is it one of the last entries to be found ...
This is a very good explanation. Thank you
M
Michał Powaga

Inversion of control is a pattern used for decoupling components and layers in the system. The pattern is implemented through injecting dependencies into a component when it is constructed. These dependences are usually provided as interfaces for further decoupling and to support testability. IoC / DI containers such as Castle Windsor, Unity are tools (libraries) which can be used for providing IoC. These tools provide extended features above and beyond simple dependency management, including lifetime, AOP / Interception, policy, etc. a. Alleviates a component from being responsible for managing it's dependencies. b. Provides the ability to swap dependency implementations in different environments. c. Allows a component be tested through mocking of dependencies. d. Provides a mechanism for sharing resources throughout an application. a. Critical when doing test-driven development. Without IoC it can be difficult to test, because the components under test are highly coupled to the rest of the system. b. Critical when developing modular systems. A modular system is a system whose components can be replaced without requiring recompilation. c. Critical if there are many cross-cutting concerns which need to addressed, partilarly in an enterprise application.


Actually, IoC isn't mainly about managing dependencies. Please see martinfowler.com/articles/injection.html#InversionOfControl In particular, note the part saying "Inversion of Control is too generic a term, and thus people find it confusing. As a result with a lot of discussion with various IoC advocates we settled on the name Dependency Injection".
M
Mangu Singh Rajpurohit

I shall write down my simple understanding of this two terms:

For quick understanding just read examples*

Dependency Injection(DI): Dependency injection generally means passing an object on which method depends, as a parameter to a method, rather than having the method create the dependent object. What it means in practice is that the method does not depends directly on a particular implementation; any implementation that meets the requirements can be passed as a parameter. With this objects tell thier dependencies. And spring makes it available. This leads to loosely coupled application development.

Quick Example:EMPLOYEE OBJECT WHEN CREATED,
              IT WILL AUTOMATICALLY CREATE ADDRESS OBJECT
   (if address is defines as dependency by Employee object)

Inversion of Control(IoC) Container: This is common characteristic of frameworks, IOC manages java objects – from instantiation to destruction through its BeanFactory. -Java components that are instantiated by the IoC container are called beans, and the IoC container manages a bean's scope, lifecycle events, and any AOP features for which it has been configured and coded.

QUICK EXAMPLE:Inversion of Control is about getting freedom, more flexibility, and less dependency. When you are using a desktop computer, you are slaved (or say, controlled). You have to sit before a screen and look at it. Using keyboard to type and using mouse to navigate. And a bad written software can slave you even more. If you replaced your desktop with a laptop, then you somewhat inverted control. You can easily take it and move around. So now you can control where you are with your computer, instead of computer controlling it.

By implementing Inversion of Control, a software/object consumer get more controls/options over the software/objects, instead of being controlled or having less options.

Inversion of control as a design guideline serves the following purposes:

There is a decoupling of the execution of a certain task from implementation.
Every module can focus on what it is designed for.
Modules make no assumptions about what other systems do but rely on their contracts.
Replacing modules has no side effect on other modules
I will keep things abstract here, You can visit following links for detail understanding of the topic.
A good read with example

Detailed explanation


S
SacredGeometry

Let's say that we have a meeting in a hotel.

We have invited many people, so we have left out many jugs of water and many plastic cups.

When somebody wants to drink, he/she fills a cup, drinks the water and throws the cup on the floor.

After an hour or so we have a floor covered with plastic cups and water.

Let's try that after inverting the control:

Imagine the same meeting in the same place, but instead of plastic cups we now have a waiter with just one glass cup (Singleton)

When somebody wants to drink, the waiter gets one for them. They drink it and return it to the waiter.

Leaving aside the question of the hygiene, the use of a waiter (process control) is much more effective and economic.

And this is exactly what Spring (another IoC container, for example: Guice) does. Instead of letting the application create what it needs using the new keyword (i.e. taking a plastic cup), Spring IoC offers the application the same cup/ instance (singleton) of the needed object (glass of water).

Think of yourself as an organizer of such a meeting:

Example:-

public class MeetingMember {

    private GlassOfWater glassOfWater;

    ...

    public void setGlassOfWater(GlassOfWater glassOfWater){
        this.glassOfWater = glassOfWater;
    }
    //your glassOfWater object initialized and ready to use...
    //spring IoC  called setGlassOfWater method itself in order to
    //offer to meetingMember glassOfWater instance

}

Useful links:-

http://adfjsf.blogspot.in/2008/05/inversion-of-control.html

http://martinfowler.com/articles/injection.html

http://www.shawn-barrett.com/blog/post/Tip-of-the-day-e28093-Inversion-Of-Control.aspx


aren't singletons static type objects?
You explained Dependency Injection, and it's different term than inversion of control. Dependency Injection Container is an implementation of Inversion of Control.
R
Raghavendra N

I found a very clear example here which explains how the 'control is inverted'.

Classic code (without Dependency injection)

Here is how a code not using DI will roughly work:

Application needs Foo (e.g. a controller), so:

Application creates Foo

Application calls Foo Foo needs Bar (e.g. a service), so: Foo creates Bar Foo calls Bar Bar needs Bim (a service, a repository, …), so: Bar creates Bim Bar does something

Foo needs Bar (e.g. a service), so:

Foo creates Bar

Foo calls Bar Bar needs Bim (a service, a repository, …), so: Bar creates Bim Bar does something

Bar needs Bim (a service, a repository, …), so:

Bar creates Bim

Bar does something

Using dependency injection

Here is how a code using DI will roughly work:

Application needs Foo, which needs Bar, which needs Bim, so:

Application creates Bim

Application creates Bar and gives it Bim

Application creates Foo and gives it Bar

Application calls Foo Foo calls Bar Bar does something

Foo calls Bar Bar does something

Bar does something

The control of the dependencies is inverted from one being called to the one calling.

What problems does it solve?

Dependency injection makes it easy to swap with the different implementation of the injected classes. While unit testing you can inject a dummy implementation, which makes the testing a lot easier.

Ex: Suppose your application stores the user uploaded file in the Google Drive, with DI your controller code may look like this:

class SomeController
{
    private $storage;

    function __construct(StorageServiceInterface $storage)
    {
        $this->storage = $storage;
    }

    public function myFunction () 
    {
        return $this->storage->getFile($fileName);
    }
}

class GoogleDriveService implements StorageServiceInterface
{
    public function authenticate($user) {}
    public function putFile($file) {}
    public function getFile($file) {}
}

When your requirements change say, instead of GoogleDrive you are asked to use the Dropbox. You only need to write a dropbox implementation for the StorageServiceInterface. You don't have make any changes in the controller as long as Dropbox implementation adheres to the StorageServiceInterface.

While testing you can create the mock for the StorageServiceInterface with the dummy implementation where all the methods return null(or any predefined value as per your testing requirement).

Instead if you had the controller class to construct the storage object with the new keyword like this:

class SomeController
{
    private $storage;

    function __construct()
    {
        $this->storage = new GoogleDriveService();
    }

    public function myFunction () 
    {
        return $this->storage->getFile($fileName);
    }
}

When you want to change with the Dropbox implementation you have to replace all the lines where new GoogleDriveService object is constructed and use the DropboxService. Besides when testing the SomeController class the constructor always expects the GoogleDriveService class and the actual methods of this class are triggered.

When is it appropriate and when not? In my opinion you use DI when you think there are (or there can be) alternative implementations of a class.


This should be the most correct answer as its the only one explains how the "control" is inverted.
best explanation so far
C
Community

I agree with NilObject, but I'd like to add to this:

if you find yourself copying an entire method and only changing a small piece of the code, you can consider tackling it with inversion of control

If you find yourself copying and pasting code around, you're almost always doing something wrong. Codified as the design principle Once and Only Once.


g
gogs

For example, task#1 is to create object. Without IOC concept, task#1 is supposed to be done by Programmer.But With IOC concept, task#1 would be done by container.

In short Control gets inverted from Programmer to container. So, it is called as inversion of control.

I found one good example here.


A container is a concept in IoC where the object model, including dependencies (relationships between "user" object and "used" object) and object instances, reside and is managed -- e.g., contained. The container is usually provided by a IoC framework, such as Spring. Think of it as a runtime repository for the objects that make up your application.
e
email.privacy

It seems that the most confusing thing about "IoC" the acronym and the name for which it stands is that it's too glamorous of a name - almost a noise name.

Do we really need a name by which to describe the difference between procedural and event driven programming? OK, if we need to, but do we need to pick a brand new "bigger than life" name that confuses more than it solves?


IoC != event driven. Similarities (and in some cases overlap), but they are not principally the same paradigm.
Good question. Event driven programming IS certainly IoC. We write event handlers and they get called from event loop. But, IoC is more generic concept than Event driven programming.. If you override a method in subclass, it is also a kind of IoC. You write a code that would get invoked when appropriate reference (instance) was used.
P
Pang

Inversion of control is when you go to the grocery store and your wife gives you the list of products to buy.

In programming terms, she passed a callback function getProductList() to the function you are executing - doShopping().

It allows user of the function to define some parts of it, making it more flexible.


My wife usually shops with me, but I agree with this statement.
@ha9u63ar Your wife shops with you? Well that's called aggregation then.
If she gives the money as well, it is called DI.
The word Inversion - upside down - came from, when your wife calls getProductList() you have to find the source for money, means the control is at your side. In the case of inversion, she will controll, means the money also she will provide to buy.
A
Abdullah Al Farooq

I understand that the answer has already been given here. But I still think, some basics about the inversion of control have to be discussed here in length for future readers.

Inversion of Control (IoC) has been built on a very simple principle called Hollywood Principle. And it says that,

Don't call us, we'll call you

What it means is that don't go to the Hollywood to fulfill your dream rather if you are worthy then Hollywood will find you and make your dream comes true. Pretty much inverted, huh?

Now when we discuss about the principle of IoC, we use to forget about the Hollywood. For IoC, there has to be three element, a Hollywood, you and a task like to fulfill your dream.

In our programming world, Hollywood represent a generic framework (may be written by you or someone else), you represent the user code you wrote and the task represent the thing you want to accomplish with your code. Now you don't ever go to trigger your task by yourself, not in IoC! Rather you have designed everything in such that your framework will trigger your task for you. Thus you have built a reusable framework which can make someone a hero or another one a villain. But that framework is always in charge, it knows when to pick someone and that someone only knows what it wants to be.

A real life example would be given here. Suppose, you want to develop a web application. So, you create a framework which will handle all the common things a web application should handle like handling http request, creating application menu, serving pages, managing cookies, triggering events etc.

And then you leave some hooks in your framework where you can put further codes to generate custom menu, pages, cookies or logging some user events etc. On every browser request, your framework will run and executes your custom codes if hooked then serve it back to the browser.

So, the idea is pretty much simple. Rather than creating a user application which will control everything, first you create a reusable framework which will control everything then write your custom codes and hook it to the framework to execute those in time.

Laravel and EJB are examples of such a frameworks.

Reference:

https://martinfowler.com/bliki/InversionOfControl.html

https://en.wikipedia.org/wiki/Inversion_of_control


The most appropriate answer I found here.
D
Daniel Sagenschneider

Inversion of Control is a generic principle, while Dependency Injection realises this principle as a design pattern for object graph construction (i.e. configuration controls how the objects are referencing each other, rather than the object itself controlling how to get the reference to another object).

Looking at Inversion of Control as a design pattern, we need to look at what we are inverting. Dependency Injection inverts control of constructing a graph of objects. If told in layman's term, inversion of control implies change in flow of control in the program. Eg. In traditional standalone app, we have main method, from where the control gets passed to other third party libraries(in case, we have used third party library's function), but through inversion of control control gets transferred from third party library code to our code, as we are taking the service of third party library. But there are other aspects that need to be inverted within a program - e.g. invocation of methods and threads to execute the code.

For those interested in more depth on Inversion of Control a paper has been published outlining a more complete picture of Inversion of Control as a design pattern (OfficeFloor: using office patterns to improve software design http://doi.acm.org/10.1145/2739011.2739013 with a free copy available to download from http://www.officefloor.net/about.html).

What is identified is the following relationship:

Inversion of Control (for methods) = Dependency (state) Injection + Continuation Injection + Thread Injection

Summary of above relationship for Inversion of Control available - http://dzone.com/articles/inversion-of-coupling-control


This is a very clear answer. Thanks for the explanation.
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DDan

I like this explanation: http://joelabrahamsson.com/inversion-of-control-an-introduction-with-examples-in-net/

It start simple and shows code examples as well.

https://i.stack.imgur.com/H4Tbn.png

The consumer, X, needs the consumed class, Y, to accomplish something. That’s all good and natural, but does X really need to know that it uses Y?

Isn’t it enough that X knows that it uses something that has the behavior, the methods, properties etc, of Y without knowing who actually implements the behavior?

By extracting an abstract definition of the behavior used by X in Y, illustrated as I below, and letting the consumer X use an instance of that instead of Y it can continue to do what it does without having to know the specifics about Y.

https://i.stack.imgur.com/i4x6r.png

In the illustration above Y implements I and X uses an instance of I. While it’s quite possible that X still uses Y what’s interesting is that X doesn’t know that. It just knows that it uses something that implements I.

Read article for further info and description of benefits such as:

X is not dependent on Y anymore

More flexible, implementation can be decided in runtime

Isolation of code unit, easier testing

...


The link is very helpful. Really Thanks :)
i
iliketocode

A very simple written explanation can be found here

http://binstock.blogspot.in/2008/01/excellent-explanation-of-dependency.html

It says -

"Any nontrivial application is made up of two or more classes that collaborate with each other to perform some business logic. Traditionally, each object is responsible for obtaining its own references to the objects it collaborates with (its dependencies). When applying DI, the objects are given their dependencies at creation time by some external entity that coordinates each object in the system. In other words, dependencies are injected into objects."


M
Mangu Singh Rajpurohit

IoC is about inverting the relationship between your code and third-party code (library/framework):

In normal s/w development, you write the main() method and call "library" methods. You are in control :)

In IoC the "framework" controls main() and calls your methods. The Framework is in control :(

DI (Dependency Injection) is about how the control flows in the application. Traditional desktop application had control flow from your application(main() method) to other library method calls, but with DI control flow is inverted that's framework takes care of starting your app, initializing it and invoking your methods whenever required.

In the end you always win :)


s
shA.t

Programming speaking

IoC in easy terms: It's the use of Interface as a way of specific something (such a field or a parameter) as a wildcard that can be used by some classes. It allows the re-usability of the code.

For example, let's say that we have two classes : Dog and Cat. Both shares the same qualities/states: age, size, weight. So instead of creating a class of service called DogService and CatService, I can create a single one called AnimalService that allows to use Dog and Cat only if they use the interface IAnimal.

However, pragmatically speaking, it has some backwards.

a) Most of the developers don't know how to use it. For example, I can create a class called Customer and I can create automatically (using the tools of the IDE) an interface called ICustomer. So, it's not rare to find a folder filled with classes and interfaces, no matter if the interfaces will be reused or not. It's called BLOATED. Some people could argue that "may be in the future we could use it". :-|

b) It has some limitings. For example, let's talk about the case of Dog and Cat and I want to add a new service (functionality) only for dogs. Let's say that I want to calculate the number of days that I need to train a dog (trainDays()), for cat it's useless, cats can't be trained (I'm joking).

b.1) If I add trainDays() to the Service AnimalService then it also works with cats and it's not valid at all.

b.2) I can add a condition in trainDays() where it evaluates which class is used. But it will break completely the IoC.

b.3) I can create a new class of service called DogService just for the new functionality. But, it will increase the maintainability of the code because we will have two classes of service (with similar functionality) for Dog and it's bad.


About bloated classes/interfaces: You do not always have to reuse every single interface. Sometimes it just makes sense to split a large interface in to many smaller to see it's functional boundaries. Smaller interfaces are also easier to reuse in other implementations. Also it encourages you to code to an interface wherever it makes sense. Consider "Interface Segregation". Only because you're using an interface does not mean that you are decoupled. A single fat interface is useless. - Just my 2 cents :)
S
Sergiu Starciuc

Inversion of control is about transferring control from library to the client. It makes more sense when we talk about a client that injects (passes) a function value (lambda expression) into a higher order function (library function) that controls (changes) the behavior of the library function.

So, a simple implementation (with huge implications) of this pattern is a higher order library function (which accepts another function as an argument). The library function transfers control over its behavior by giving the client the ability to supply the "control" function as an argument.

For example, library functions like "map", "flatMap" are IoC implementations.

Of course, a limited IoC version is, for example, a boolean function parameter. A client may control the library function by switching the boolean argument.

A client or framework that injects library dependencies (which carry behavior) into libraries may also be considered IoC


V
V. S.

Since already there are many answers for the question but none of them shows the breakdown of Inversion Control term I see an opportunity to give a more concise and useful answer.

Inversion of Control is a pattern that implements the Dependency Inversion Principle (DIP). DIP states the following: 1. High-level modules should not depend on low-level modules. Both should depend on abstractions (e.g. interfaces). 2. Abstractions should not depend on details. Details (concrete implementations) should depend on abstractions.

There are three types of Inversion of Control:

Interface Inversion Providers shouldn’t define an interface. Instead, the consumer should define the interface and providers must implement it. Interface Inversion allows eliminating the necessity to modify the consumer each time when a new provider added.

Flow Inversion Changes control of the flow. For example, you have a console application where you asked to enter many parameters and after each entered parameter you are forced to press Enter. You can apply Flow Inversion here and implement a desktop application where the user can choose the sequence of parameters’ entering, the user can edit parameters, and at the final step, the user needs to press Enter only once.

Creation Inversion It can be implemented by the following patterns: Factory Pattern, Service Locator, and Dependency Injection. Creation Inversion helps to eliminate dependencies between types moving the process of dependency objects creation outside of the type that uses these dependency objects. Why dependencies are bad? Here are a couple of examples: direct creation of a new object in your code makes testing harder; it is impossible to change references in assemblies without recompilation (OCP principle violation); you can’t easily replace a desktop-UI by a web-UI.


c
cattarantadoughan

I've read a lot of answers for this but if someone is still confused and needs a plus ultra "laymans term" to explain IoC here is my take:

Imagine a parent and child talking to each other.

Without IoC:

*Parent: You can only speak when I ask you questions and you can only act when I give you permission.

Parent: This means, you can't ask me if you can eat, play, go to the bathroom or even sleep if I don't ask you.

Parent: Do you want to eat?

Child: No.

Parent: Okay, I'll be back. Wait for me.

Child: (Wants to play but since there's no question from the parent, the child can't do anything).

After 1 hour...

Parent: I'm back. Do you want to play?

Child: Yes.

Parent: Permission granted.

Child: (finally is able to play).

This simple scenario explains the control is centered to the parent. The child's freedom is restricted and highly depends on the parent's question. The child can ONLY speak when asked to speak, and can ONLY act when granted permission.

With IoC:

The child has now the ability to ask questions and the parent can respond with answers and permissions. Simply means the control is inverted! The child is now free to ask questions anytime and though there is still dependency with the parent regarding permissions, he is not dependent in the means of speaking/asking questions.

In a technological way of explaining, this is very similar to console/shell/cmd vs GUI interaction. (Which is answer of Mark Harrison above no.2 top answer). In console, you are dependent on the what is being asked/displayed to you and you can't jump to other menus and features without answering it's question first; following a strict sequential flow. (programmatically this is like a method/function loop). However with GUI, the menus and features are laid out and the user can select whatever it needs thus having more control and being less restricted. (programmatically, menus have callback when selected and an action takes place).


s
shA.t

Creating an object within class is called tight coupling, Spring removes this dependency by following a design pattern(DI/IOC). In which object of class in passed in constructor rather than creating in class. More over we give super class reference variable in constructor to define more general structure.


R
Rush Frisby

Using IoC you are not new'ing up your objects. Your IoC container will do that and manage the lifetime of them.

It solves the problem of having to manually change every instantiation of one type of object to another.

It is appropriate when you have functionality that may change in the future or that may be different depending on the environment or configuration used in.