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The right approach to PHP programming: practical tips and examples

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Release: 2023-10-07 10:42:01
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Reliable, maintainable code is the backbone of any successful PHP project. To achieve this, we can write code following SOLID principles. These principles include the Single Responsibility Principle (SRP), the Open-Closed Principle (OCP), the Liskov Substitution Principle (LSP), the Interface Segregation Principle (ISP), and the Dependency Inversion Principle (DIP).

Single Responsibility Principle (SRP)

The Single Responsibility Principle states that a class should have only one reason to change. In PHP, this means that a class should have a single responsibility. Such a design can improve the maintainability and readability of the code.

Bad Example - Mixed Responsibilities

class  User
 { 
    public  function  verify ( $username , $password ) { /* ... */ } 
    public  function  sendEmail ( $message ) { /* ... */ } 
}
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Good Example - Single Responsibility

class  UserAuthenticator
 { 
    public  function  verify ( $username , $password ) { /* ... */ } 
} 
class EmailSender
 {
     public  function  sendEmail ( $message ) { /* ... */ }
}
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Open-Closed Principle (OCP)

The Open-Closed Principle stipulates that a class should be open for extension, but closed for modification. In PHP, we can implement this principle using interfaces and abstract classes. By defining interfaces and abstract classes, we can extend functionality without modifying existing code.

Bad example - modify directly

class Square
{
    public $side;
    public function __construct($side)
    {
        $this->side = $side;
    }
}
class AreaCalculator
{
    public function calculate($shapes)
    {
        $area = 0;
        foreach ($shapes as $shape) {
            if ($shape instanceof Square) {
                $area += $shape->side * $shape->side;
            } elseif ($shape instanceof Circle) {
                $area += pi() * $shape->radius * $shape->radius;
            }
        }
        return $area;
    }
}
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Good example - open for extension

interface Shape
{
    public function area();
}
class Square implements Shape
{
    private $side;
    public function __construct($side)
    {
        $this->side = $side;
    }
    public function area()
    {
        return $this->side * $this->side;
    }
}
class Circle implements Shape
{
    private $radius;
    public function __construct($radius)
    {
        $this->radius = $radius;
    }
    public function area()
    {
        return pi() * $this->radius * $this->radius;
    }
}
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Richter Substitution Principle (LSP)

The Liskov Substitution Principle stipulates that objects of a superclass should be replaced by objects of a subclass without affecting the correctness of the program. In PHP, adhering to this principle ensures that a derived class maintains the contract of its base class. This ensures code consistency and reliability.

Bad example - Violating LSP

class Bird
{
    public function fly() { /* ... */ }
}
class Ostrich extends Bird
{
    public function fly() { throw new Exception("鸵鸟不能飞"); }
}
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Good example - Following LSP

interface Bird
{
    public function fly();
}
class Sparrow implements Bird
{
    public function fly() { /* ... */ }
}
class Ostrich implements Bird
{
    public function fly() { /* ... */ }
}
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Interface isolation Principle (ISP)

The Interface Isolation Principle states that clients should not be forced to rely on interfaces they do not use. In PHP, this means creating smaller, more focused interfaces rather than large, monolithic interfaces. This design improves code flexibility and maintainability.

Bad Example - Interface Abscess

interface Worker
{
    public function work();
    public function eat();
    public function sleep();
}
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Good Example - Interface Isolation

interface Workable
{
    public function work();
}
interface Eatable
{
    public function eat();
}
interface Sleepable
{
    public function sleep();
}
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Dependency Inversion Principle (DIP)

The Dependency Inversion Principle states that high-level modules should not depend on low-level modules, but both should depend on abstractions. In PHP, we can use dependency injection and abstraction to decouple classes. This improves the testability and maintainability of your code.

Bad example - high level module depends on low level module

class LightBulb
{
    public function turnOn() { /* ... */ }
    public function turnOff() { /* ... */ }
}
class Switch
{
    private $bulb;
    public function __construct()
    {
        $this->bulb = new LightBulb();
    }
    public function operate()
    {
        // Operate the bulb
    }
}
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Good example - abstraction and dependency injection

interface Switchable
{
    public function turnOn();
    public function turnOff();
}
class LightBulb implements Switchable
{
    public function turnOn() { /* ... */ }
    public function turnOff() { /* ... */ }
}
class Switch
{
    private $device;
    public function __construct(Switchable $device)
    {
        $this->device = $device;
    }
    public function operate()
    {
        // Operate the device
    }
}
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In summary, writing PHP code that adheres to SOLID principles is critical to creating maintainable and scalable applications. By adhering to these principles and implementing the provided examples, you can ensure that your PHP code is more robust, flexible, and easier to maintain over time. Keep in mind that applying these principles may require changes in thinking and design, but the benefits in code quality and maintainability are worth the effort. Good luck writing great PHP code!

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