#Design_Patterns
#Abstract_Factory_Design_Pattern
❓Intent
Provide an interface for creating families of related or dependent objects without specifying their concrete classes.
A hierarchy that encapsulates: many possible "platforms", and the construction of a suite of "products".
The new operator considered harmful.
❓Problem
If an application is to be portable, it needs to encapsulate platform dependencies. These "platforms" might include: windowing system, operating system, database, etc. Too often, this encapsulation is not engineered in advance, and lots of #ifdef case statements with options for all currently supported platforms begin to procreate like rabbits throughout the code.
🤓To be continued tomorrow...
@javaCode☕️
#Abstract_Factory_Design_Pattern
❓Intent
Provide an interface for creating families of related or dependent objects without specifying their concrete classes.
A hierarchy that encapsulates: many possible "platforms", and the construction of a suite of "products".
The new operator considered harmful.
❓Problem
If an application is to be portable, it needs to encapsulate platform dependencies. These "platforms" might include: windowing system, operating system, database, etc. Too often, this encapsulation is not engineered in advance, and lots of #ifdef case statements with options for all currently supported platforms begin to procreate like rabbits throughout the code.
🤓To be continued tomorrow...
@javaCode☕️
#Design_Patterns
#Abstract_Factory_Design_Pattern
❓Discussion
Provide a level of indirection that abstracts the creation of families of related or dependent objects without directly specifying their concrete classes. The "factory" object has the responsibility for providing creation services for the entire platform family. Clients never create platform objects directly, they ask the factory to do that for them.
This mechanism makes exchanging product families easy because the specific class of the factory object appears only once in the application - where it is instantiated. The application can wholesale replace the entire family of products simply by instantiating a different concrete instance of the abstract factory.
Because the service provided by the factory object is so pervasive, it is routinely implemented as a Singleton.
@javaCode☕️
#Abstract_Factory_Design_Pattern
❓Discussion
Provide a level of indirection that abstracts the creation of families of related or dependent objects without directly specifying their concrete classes. The "factory" object has the responsibility for providing creation services for the entire platform family. Clients never create platform objects directly, they ask the factory to do that for them.
This mechanism makes exchanging product families easy because the specific class of the factory object appears only once in the application - where it is instantiated. The application can wholesale replace the entire family of products simply by instantiating a different concrete instance of the abstract factory.
Because the service provided by the factory object is so pervasive, it is routinely implemented as a Singleton.
@javaCode☕️
#Design_Patterns
#Abstract_Factory_Design_Pattern
Structure
The Abstract Factory defines a Factory Method per product. Each Factory Method encapsulates the new operator and the concrete, platform-specific, product classes. Each "platform" is then modeled with a Factory derived class.
@javaCode☕️
#Abstract_Factory_Design_Pattern
Structure
The Abstract Factory defines a Factory Method per product. Each Factory Method encapsulates the new operator and the concrete, platform-specific, product classes. Each "platform" is then modeled with a Factory derived class.
@javaCode☕️
☕️JAVA Language Community
#Abstract_Factory_Design_Pattern
#Design_Patterns
#Abstract_Factory_Design_Pattern
❓Example
The purpose of the Abstract Factory is to provide an interface for creating families of related objects, without specifying concrete classes. This pattern is found in the sheet metal stamping equipment used in the manufacture of Japanese automobiles. The stamping equipment is an Abstract Factory which creates auto body parts. The same machinery is used to stamp right hand doors, left hand doors, right front fenders, left front fenders, hoods, etc. for different models of cars. Through the use of rollers to change the stamping dies, the concrete classes produced by the machinery can be changed within three minutes.
@javaCode☕️
#Abstract_Factory_Design_Pattern
❓Example
The purpose of the Abstract Factory is to provide an interface for creating families of related objects, without specifying concrete classes. This pattern is found in the sheet metal stamping equipment used in the manufacture of Japanese automobiles. The stamping equipment is an Abstract Factory which creates auto body parts. The same machinery is used to stamp right hand doors, left hand doors, right front fenders, left front fenders, hoods, etc. for different models of cars. Through the use of rollers to change the stamping dies, the concrete classes produced by the machinery can be changed within three minutes.
@javaCode☕️
#Design_Patterns
#Abstract_Factory_Design_Pattern
❓Check list
1️⃣Decide if "platform independence" and creation services are the current source of pain.
2️⃣Map out a matrix of "platforms" versus "products".
3️⃣Define a factory interface that consists of a factory method per product.
4️⃣Define a factory derived class for each platform that encapsulates all references to the new operator.
5️⃣The client should retire all references to new, and use the factory methods to create the product objects.
@javaCode☕️
#Abstract_Factory_Design_Pattern
❓Check list
1️⃣Decide if "platform independence" and creation services are the current source of pain.
2️⃣Map out a matrix of "platforms" versus "products".
3️⃣Define a factory interface that consists of a factory method per product.
4️⃣Define a factory derived class for each platform that encapsulates all references to the new operator.
5️⃣The client should retire all references to new, and use the factory methods to create the product objects.
@javaCode☕️
#Design_Patterns
#Abstract_Factory_Design_Pattern
👉Rules of thumb
▪️Sometimes creational patterns are competitors: there are cases when either Prototype or Abstract Factory could be used profitably. At other times they are complementary: Abstract Factory might store a set of Prototypes from which to clone and return product objects, Builder can use one of the other patterns to implement which components get built. Abstract Factory, Builder, and Prototype can use Singleton in their implementation.
▪️Abstract Factory, Builder, and Prototype define a factory object that's responsible for knowing and creating the class of product objects, and make it a parameter of the system. Abstract Factory has the factory object producing objects of several classes. Builder has the factory object building a complex product incrementally using a correspondingly complex protocol. Prototype has the factory object (aka prototype) building a product by copying a prototype object.
▪️Abstract Factory classes are often implemented with Factory Methods, but they can also be implemented using Prototype.
▪️Abstract Factory can be used as an alternative to Facade to hide platform-specific classes.
▪️Builder focuses on constructing a complex object step by step. Abstract Factory emphasizes a family of product objects (either simple or complex). Builder returns the product as a final step, but as far as the Abstract Factory is concerned, the product gets returned immediately.
▪️Often, designs start out using Factory Method (less complicated, more customizable, subclasses proliferate) and evolve toward Abstract Factory, Prototype, or Builder (more flexible, more complex) as the designer discovers where more flexibility is needed.
@javaCode☕️
#Abstract_Factory_Design_Pattern
👉Rules of thumb
▪️Sometimes creational patterns are competitors: there are cases when either Prototype or Abstract Factory could be used profitably. At other times they are complementary: Abstract Factory might store a set of Prototypes from which to clone and return product objects, Builder can use one of the other patterns to implement which components get built. Abstract Factory, Builder, and Prototype can use Singleton in their implementation.
▪️Abstract Factory, Builder, and Prototype define a factory object that's responsible for knowing and creating the class of product objects, and make it a parameter of the system. Abstract Factory has the factory object producing objects of several classes. Builder has the factory object building a complex product incrementally using a correspondingly complex protocol. Prototype has the factory object (aka prototype) building a product by copying a prototype object.
▪️Abstract Factory classes are often implemented with Factory Methods, but they can also be implemented using Prototype.
▪️Abstract Factory can be used as an alternative to Facade to hide platform-specific classes.
▪️Builder focuses on constructing a complex object step by step. Abstract Factory emphasizes a family of product objects (either simple or complex). Builder returns the product as a final step, but as far as the Abstract Factory is concerned, the product gets returned immediately.
▪️Often, designs start out using Factory Method (less complicated, more customizable, subclasses proliferate) and evolve toward Abstract Factory, Prototype, or Builder (more flexible, more complex) as the designer discovers where more flexibility is needed.
@javaCode☕️
#Design_Patterns
#Creational_patterns
👉Creational patterns
In software engineering, creational design patterns are design patterns that deal with object creation mechanisms, trying to create objects in a manner suitable to the situation. The basic form of object creation could result in design problems or added complexity to the design. Creational design patterns solve this problem by somehow controlling this object creation.
1️⃣ #Abstract_Factory_Design_Pattern
▪️Creates an instance of several families of classes
2️⃣ #Builder_Design_Pattern
▪️Separates object construction from its representation
3️⃣ #Factory_Method_Design_Pattern
▪️Creates an instance of several derived classes
4️⃣ #Object_Pool_Design_Pattern
▪️Avoid expensive acquisition and release of resources by recycling objects that are no longer in use
5️⃣ #Prototype_Design_Pattern
▪️A fully initialized instance to be copied or cloned
6️⃣ #Singleton_Design_Pattern
▪️A class of which only a single instance can exist
@javaCode☕️
#Creational_patterns
👉Creational patterns
In software engineering, creational design patterns are design patterns that deal with object creation mechanisms, trying to create objects in a manner suitable to the situation. The basic form of object creation could result in design problems or added complexity to the design. Creational design patterns solve this problem by somehow controlling this object creation.
1️⃣ #Abstract_Factory_Design_Pattern
▪️Creates an instance of several families of classes
2️⃣ #Builder_Design_Pattern
▪️Separates object construction from its representation
3️⃣ #Factory_Method_Design_Pattern
▪️Creates an instance of several derived classes
4️⃣ #Object_Pool_Design_Pattern
▪️Avoid expensive acquisition and release of resources by recycling objects that are no longer in use
5️⃣ #Prototype_Design_Pattern
▪️A fully initialized instance to be copied or cloned
6️⃣ #Singleton_Design_Pattern
▪️A class of which only a single instance can exist
@javaCode☕️