Abstraction is one of the fundamental principles of Object Oriented Programming (OOP) that refers to the ability of a system to hide complex implementation details and show only essential functionalities. The goal of abstraction is to simplify interaction with complex objects by allowing users to focus on what an object does, rather than how it does it.
In practice, abstraction is accomplished through the use of abstract classes and interfaces, which define behaviors that must be implemented by subclasses or concrete classes.
Abstraction offers several benefits:
Abstract classes allow you to define methods that have no implementation (abstract methods) and concrete methods that can be used by subclasses. Let's create an example with an abstract class called Shape and subclasses Circle and Rectangle.
// Classe abstrata public abstract class Forma { // Método abstrato public abstract double calcularArea(); // Método concreto public void imprimirArea() { System.out.println("A área é: " + calcularArea()); } }
// Subclasse Circulo public class Circulo extends Forma { private double raio; public Circulo(double raio) { this.raio = raio; } // Implementando o método calcularArea @Override public double calcularArea() { return Math.PI * raio * raio; } }
// Subclasse Retangulo public class Retangulo extends Forma { private double largura; private double altura; public Retangulo(double largura, double altura) { this.largura = largura; this.altura = altura; } // Implementando o método calcularArea @Override public double calcularArea() { return largura * altura; } }
public class Main { public static void main(String[] args) { Forma circulo = new Circulo(5); Forma retangulo = new Retangulo(4, 6); // Imprimindo áreas circulo.imprimirArea(); // Saída: A área é: 78.53981633974483 retangulo.imprimirArea(); // Saída: A área é: 24.0 } }
A área é: 78.53981633974483 A área é: 24.0
Interfaces are another way to implement abstraction. They define methods that the classes that implement them must provide, but they do not provide a default implementation.
// Interface public interface Forma { double calcularArea(); void imprimirArea(); }
// Classe Circulo implementando a interface public class Circulo implements Forma { private double raio; public Circulo(double raio) { this.raio = raio; } @Override public double calcularArea() { return Math.PI * raio * raio; } @Override public void imprimirArea() { System.out.println("A área do círculo é: " + calcularArea()); } }
// Classe Retangulo implementando a interface public class Retangulo implements Forma { private double largura; private double altura; public Retangulo(double largura, double altura) { this.largura = largura; this.altura = altura; } @Override public double calcularArea() { return largura * altura; } @Override public void imprimirArea() { System.out.println("A área do retângulo é: " + calcularArea()); } }
public class Main { public static void main(String[] args) { Forma circulo = new Circulo(5); Forma retangulo = new Retangulo(4, 6); // Imprimindo áreas circulo.imprimirArea(); // Saída: A área do círculo é: 78.53981633974483 retangulo.imprimirArea(); // Saída: A área do retângulo é: 24.0 } }
A área do círculo é: 78.53981633974483 A área do retângulo é: 24.0
Abstraction is a fundamental concept in Object Oriented Programming that helps to create simpler, reusable and easier to maintain systems. By using abstract classes and interfaces, developers can hide implementation complexity, allowing users and other parts of the system to interact with objects in an intuitive way. Understanding and applying abstraction is crucial to effective object-oriented software development.
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