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Most of the definition says:

An abstract factory provides an interface for creating families of related objects without specifying their concrete classes

What is the use of Abstract Factory Pattern as we can achieve the task via creating object of concrete class itself. Why do we have a factory method that creates object of Concrete class?

Please provide me any real life example where I must implement abstractFactory pattern?

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11 Answers 11

Abstract Factory is a very central design pattern for Dependency Injection (DI). Here's a list of Stack Overflow questions where application of Abstract Factory has been accepted as the solution.

To the best of my understanding, these questions represent real concerns or problems that people had, so that should get you started with some real-life examples:

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All of these examples describe the Factory Method Pattern, because all of them return a single product interface. None of these is an Abstract Factory Pattern, because none of them produce a family of related product interfaces. – jaco0646 Jul 16 at 14:15
In the interest of full disclosure, the author of this answer should have made it clear that he is also the author of every one of the linked answers; so this list is NOT a representative sample from the SO community. – jaco0646 Jul 16 at 14:24
@jaco0646 IIRC, the Factory Method pattern is a specialisation of the Template Method pattern, which relies on inheritance. I may be mistaken, though, as I'm currently travelling, and don't have my GoF book with me. What do you mean by "none of them produce a family of related product interfaces"? – Mark Seemann Jul 16 at 15:01
The simplest clue that indicates a factory does not conform to the Abstract Factory Pattern is to count the abstract products the factory produces (I used the term "product interfaces" in place of "abstract products" to avoid overuse of the word "abstract"). A factory that produces a single abstract product cannot be an Abstract Factory, because by definition, Abstract Factory produces a family of related products. It's critical to note this family is not referring to different implementations of one interface, but rather to products with different, related interfaces. – jaco0646 Jul 17 at 14:20
Here is an example oodesign.com/abstract-factory-pattern.html. This is what the abstract factory pattern was originally created for. – user2802557 Jul 18 at 16:17

A real life example for the use of the Abstract Factory pattern is providing data access to two different data sources (e.g. a SQL Database and a XML file). You have two different data access classes (a gateway to the datastore). Both inherit from a base class that defines the common methods to be implemented (e.g. Load, Save, Delete).

Which data source shall be used shouldn't change the way client code retrieves it's data access class. Your Abstract Factory knows which data source shall be used and returns an appropriate instance on request. The factory returns this instance as the base class type.

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This answer could accurately describe the Factory Method pattern, or Static Factory pattern, but not the Abstract Factory pattern. – jaco0646 Jul 16 at 13:32

If I understand you right - the question is, why do we have both the Factory method and the abstract factory patterns. You need abstract factory when different polymorphic classes has different instantiation procedure. And you want some module to create instances and use them, without knowing any details of object initialization. For example - you want to create Java objects doing some calculations. But some of them are part of the application, while other's bytecode should be read from the DB. In the other hand - why do we need factory method? Agree, that abstract factory overlaps it. But in some cases - it is much less code to write, having less classes and interfaces makes system easier to comprehend.

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If you look at the design patterns, almost all of them can be made redundant. But what pattern means a commonly used approach for a solution to a similar type of problems. A design pattern provides you a design level approach or solution to a set of similar type of design problem. Using design pattern help you solve your problem and hence deliver faster.

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it easy, imaging that you have a code that works with the abstraction, you should create abstractions and not concrete classes.

You should always work against abstractions because you can modify the code better.

This is a good example: http://en.wikipedia.org/wiki/Abstract_factory_pattern#C.23

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Abstract Factories are great for supporting multiple platforms while keeping your code-base unified. Suppose you have a large Qt or GTK+ or .NET/Mono program that you want to run on Windows, Linux, and OSX. But you have a feature that is implemented in a different way on each platform (perhaps via the kernel32 API or a POSIX feature).

public abstract class Feature
    public abstract int PlatformSpecificValue { get; }

    public static Feature PlatformFeature
            string platform;
            // do platform detection here
            if (platform == "Win32")
                return new Win32Feature();
            if (platform == "POSIX")
                return new POSIXFeature();

    // platform overrides omitted

With this Abstract Factory, your UI doesn't need to know anything about the current platform.

Feature feature = Feature.PlatformFeature;
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I find the Abstract Factory pattern overrated.

First of all, it doesn't happen that often that you have a set of interrelated types you want to instantiate.

Secondly, the level of indirection (abstraction) provided by interfaces normally suffices when working with dependency injection.

The typical example of WindowsGui vs MacGui vs ... where you'd have a WindowsButton, MacButton, WindowsScrollBar, MacScrollbar, etc. is often easier to implement by defining concrete Buttons, Scrollbars, etc. using Visitor and/or Interpreter pattern to provide actual behaviour.

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theres a specific purpose for it. with dependency injection you dont want service locators further down from the composite root. instead you use an injected abstract factory. – Adam Tuliper - MSFT Oct 26 '11 at 14:44
well...using service locator with DI is an anti patteren. An Abstract Factory is the universal solution when we need to create DEPENDENCIES from runtime values. – TheMentor Jun 5 '13 at 21:11

To answer directly your question, you can probably get away without using such a design pattern.

However bear in mind, that most of projects in the real-world evolve and you want to provide some kind of extensibility in order to make your project future-proof.

From my own experience, most of the time, a Factory is implemented and as the project grows it gets changed into more complex design patterns such as an Abstract Factory.

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It's all about dependencies. If you don't care about tight coupling and dependencies, then you don't need an abstract factory. But it will matter as soon as you write an application which needs maintenance.

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Say you create a.jar, and someone else uses your jar and wants to use a new concrete object in your code. If you are not using abstract factory, then she has to modify your code or overwrite your code. But if you are using abstract factory, then she can provide a factory and pass to your code and everything is fine.

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What is the use of Abstract Factory Pattern as we can achieve the task via creating object of concrete class itself. Why do we have a factory method that creates object of Concrete class?

In absence of Abstract Factory, Client need to know details of Concrete Classes. This tight coupling has been removed with Abstract Factory.

Now Factory Method exposes an contract, that client has to use. You can add more products to your factory by adding new products, which implement interface exposed by Factory Method.

Refer to these related SE questions for better understanding:

What is the basic difference between the Factory and Abstract Factory Patterns?


Provide an interface for creating families of related or dependent objects without specifying their concrete classes.

You can understand Intent, Structure, Checklist and Rules of thumb of Abstract Factory pattern from this sourcemaking article.


  1. Decide if "platform independence" and creation services are the current source of pain.
  2. Map out a matrix of "platforms" versus "products".
  3. Define a factory interface that consists of a factory method per product.
  4. Define a factory derived class for each platform that encapsulates all references to the new operator.
  5. The client should retire all references to new, and use the factory methods to create the product objects.
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