Java design mode, java design mode pdf

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Author: User

Java design mode, java design mode pdf

This article is my learning notes, welcome to reprint, but please note the Source: http://blog.csdn.net/jesson20121020

One problem with the simple factory model in the previous section is that the creation of the class depends on the factory class. That is to say, if you want to expand the program, you must modify the factory class, which violates the closure principle. Therefore, from the design perspective, how can we solve certain problems? The factory method mode is used to create a factory interface and create multiple factory implementation classes. In this way, you can directly add new factory classes once new functions are required, you do not need to modify the previous code.

We still use the example in the section, the four arithmetic operations, and the factory method mode. The relationship between each part is as follows:

 

Steps for applying the factory method mode:

1. Create a common interface for the four arithmetic operations (same as the simple factory mode example ):

public interface Operator{public double Operate(double d,double e);}
2. Create and add implementation classes (you can add other classes by yourself ):

public class AddOperator implements Operator{@Overridepublic double Operate(double a, double b) {// TODO Auto-generated method stubreturn a + b;}}
public class SubOperator implements Operator {@Overridepublic double Operate(double a, double b) {// TODO Auto-generated method stubreturn a - b;}}
3. Provide a factory interface:
public interface OperatorFactory { public Operator createOperator();}
4. Create two factory classes:

public class AddFactory implements OperatorFactory {@Overridepublic Operator createOperator() {// TODO Auto-generated method stubreturn new AddOperator();}}
public class SubFactory implements OperatorFactory {@Overridepublic Operator createOperator() {// TODO Auto-generated method stubreturn new SubOperator();}}
5. Test class:

public class FactoryTest {public static void main(String[] args) {OperatorFactory factory = new AddFactory();      Operator oper = factory.createOperator();       double result = oper.Operate(3.6,4.8);       System.out.println(result);  }}

In this way, if you want to add the multiplication function in the extended functions, you only need to create an implementation class to implement the Operator Interface and a factory class to implement the OperatorFactory interface, instead of modifying the existing code.










Java 23 design modes

There are three types of design patterns: creation, structure, and behavior.
The creation types include:
I. Singleton, Singleton mode: ensure that a class has only one instance and provide a global access point to it.
2. Abstract Factory: provides an interface for creating a series of related or mutually dependent objects without specifying their specific classes.
3. Factory Method: Define an interface used to create objects, and let the subclass decide which class to instantiate. Factory Method delays the instantiation of a class to the subclass.
4. Builder: separates the construction of a complex object from its representation, so that different representations can be created during the same construction process.
5. Prototype: Use a Prototype instance to specify the type of the object to be created, and copy the Prototype to create a new object.
Behavior types:
6. Iterator: provides a method to access each element of an aggregate object sequentially without exposing the internal representation of the object.
7. Observer: Observer mode: defines one-to-many dependencies between objects. When the status of an object changes, all objects dependent on it will be automatically updated by notification.
8. Template Method: defines the skeleton of an algorithm in an operation, and delays some steps to the subclass, templateMethod allows the subclass to redefine a specific step without changing the structure of an algorithm.
9. Command: encapsulate a request as an object so that you can parameterize the customer with different requests, queue requests and record request logs, and supports unrecoverable operations.
10. State: allows an object to change its behavior when its internal State changes. The object seems to have changed its class.
11. Strategy: Define a series of algorithms, encapsulate them one by one, and enable them to replace each other. This mode allows algorithms to be independent of customers who use them.
12. China of Responsibility, Responsibility chain mode: Enables multiple objects to process requests to avoid coupling between the request sender and receiver.
13. Mediator: uses an intermediary object to encapsulate object interaction of some columns.
14. Visitor, Visitor mode: indicates an operation that acts on each element in an object structure. It allows you to define new operations that act on this element without changing the element classes.
15th, Interpreter, Interpreter mode: a language is defined to define a representation of its grammar and an Interpreter. This Interpreter uses this representation to explain sentences in the language.
16. Memento: capture the internal state of an object without interrupting the object, and save the state outside the object.
There are:
17. Composite: Composite combines objects into a tree structure to represent the relationship between parts of the whole. Composite makes the use of a single object and a Composite object consistent.
18. Facade, appearance mode: provides a consistent interface for a group of interfaces in the subsystem. fa? Ade provides a high-level interface, which makes the subsystem easier to use.
19. Proxy: provides a Proxy for other objects to control access to this object.
20. Adapter: the Adapter mode converts a class of interfaces into another interface that the customer wants. The Adapter mode makes those classes unable to work together due to interface incompatibility.
21. Decrator: the Decorator mode dynamically adds some additional responsibilities to an object. In terms of the added functions, the Decorator mode is more flexible than the subclass generation mode.
22. Bridge: link the abstract Part with its implementation... the remaining full text>

Java 23 design modes

There are three types of design patterns: creation, structure, and behavior.
The creation types include:
I. Singleton, Singleton mode: ensure that a class has only one instance and provide a global access point to it.
2. Abstract Factory: provides an interface for creating a series of related or mutually dependent objects without specifying their specific classes.
3. Factory Method: Define an interface used to create objects, and let the subclass decide which class to instantiate. Factory Method delays the instantiation of a class to the subclass.
4. Builder: separates the construction of a complex object from its representation, so that different representations can be created during the same construction process.
5. Prototype: Use a Prototype instance to specify the type of the object to be created, and copy the Prototype to create a new object.
Behavior types:
6. Iterator: provides a method to access each element of an aggregate object sequentially without exposing the internal representation of the object.
7. Observer: Observer mode: defines one-to-many dependencies between objects. When the status of an object changes, all objects dependent on it will be automatically updated by notification.
8. Template Method: defines the skeleton of an algorithm in an operation, and delays some steps to the subclass, templateMethod allows the subclass to redefine a specific step without changing the structure of an algorithm.
9. Command: encapsulate a request as an object so that you can parameterize the customer with different requests, queue requests and record request logs, and supports unrecoverable operations.
10. State: allows an object to change its behavior when its internal State changes. The object seems to have changed its class.
11. Strategy: Define a series of algorithms, encapsulate them one by one, and enable them to replace each other. This mode allows algorithms to be independent of customers who use them.
12. China of Responsibility, Responsibility chain mode: Enables multiple objects to process requests to avoid coupling between the request sender and receiver.
13. Mediator: uses an intermediary object to encapsulate object interaction of some columns.
14. Visitor, Visitor mode: indicates an operation that acts on each element in an object structure. It allows you to define new operations that act on this element without changing the element classes.
15th, Interpreter, Interpreter mode: a language is defined to define a representation of its grammar and an Interpreter. This Interpreter uses this representation to explain sentences in the language.
16. Memento: capture the internal state of an object without interrupting the object, and save the state outside the object.
There are:
17. Composite: Composite combines objects into a tree structure to represent the relationship between parts of the whole. Composite makes the use of a single object and a Composite object consistent.
18. Facade, appearance mode: provides a consistent interface for a group of interfaces in the subsystem. fa? Ade provides a high-level interface, which makes the subsystem easier to use.
19. Proxy: provides a Proxy for other objects to control access to this object.
20. Adapter: the Adapter mode converts a class of interfaces into another interface that the customer wants. The Adapter mode makes those classes unable to work together due to interface incompatibility.
21. Decrator: the Decorator mode dynamically adds some additional responsibilities to an object. In terms of the added functions, the Decorator mode is more flexible than the subclass generation mode.
22. Bridge: link the abstract Part with its implementation... the remaining full text>

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