Object-oriented programming

programming paradigm based on the concept of objects
(Redirected from Object oriented programming)

Object-oriented programming (OOP) is a way of writing computer programs using "objects" to stand for data and methods. Often, computer programs that are not object-oriented are a list of instructions for the computer, telling it to do certain things in a certain way. This is called procedural programming. However, in object-oriented programming, computer programs use objects that talk to one another to change the data in those objects and to work in a way that the user wants. Because of the way object-oriented programming is designed, it helps the developer by allowing for code to be easily reused by other parts of the program or even by other people.

Most programming languages are a mix of different ways of writing computer programs (called programming paradigms). For example, Python allows for computer programs to be written both in object-oriented programming and in procedural programming. There are many programming languages that allow you to write computer programs in object-oriented programming. Some of these programming languages are: C++, Java, Ruby, Perl, Emarald, Sapphire, PHP, Python, C#, etc.

Features

change

The main idea of object-oriented programming is that everything is an object. However, the object can be of different types:

  • Variables can hold different types of information that are supported by the programming language. Examples are the integer data type and the lists data structure. Variables also exist in procedural programming languages. In object-oriented programming, variables are mainly known as attributes, particularly when it belongs (or is contained in) an object.
  • Procedures are lists of instructions telling the computer to take input, do some calculations or change data, and return the output to the user. Procedures also exist in procedural programming languages. In object-oriented programming, procedures are mainly known as methods.
  • Classes are collections of different variables and procedures. Classes usually talk to one another to make changes to data in order to work in a way that the user wants.

Objects is a term used to refer to instances of classes.

Examples

change

In the examples below, we create a class called Human. This class contains the attributes name (for the name of the person) and friend (for the name of the friend). Each of the methods in the Human class contains a list of instructions that makes use of both the name and friend attributes.

Python

change

This code is in Python.

class Human(object):
    def __init__(self, name, friend=None):
        self.name = name
        self.friend = friend
    def say_name(self):
        print(f"My name is {self.name}")
    def say_goodnight(self):
        if self.friend is None:
            print("Good night nobody.")
        else:
            print(f"Good night {self.friend.name}")

# Create a new Human object named stephen with name "Stephen"
stephen = Human("Stephen")
# Create a new Human object named joe with name "Joe" and stephen as a friend
joe = Human("Joe", stephen)

stephen.say_name() # Shows 'My name is Stephen'
stephen.say_goodnight() # Shows 'Good night nobody.'
joe.say_name() # Shows 'My name is Joe'
joe.say_goodnight() # Shows 'Good night Stephen'

This code is in Java.

The Human class
public class Human {
    private String name; // the name of this Human
    private Human friend; // the Human's friend
    
    // This constructor creates a new Human object when given the name and friend
    public Human(String name, Human friend) {
        this.name = name;
        this.friend = friend;
    }
    
    // This constructor creates a new Human object when only given the name
    public Human(String name) {
        this(name, null);
    }
    
    public void sayName() {
        System.out.println("My name is " + this.name);
    }
    
    public void sayGoodnight() {
        if (friend == null) {
            System.out.println("Good night nobody.");
        } else {
            System.out.println("Good night " + friend.name);
        }
    }
}
A method for talking to the Human class above
public class Main {
    public static void main(String[] args) {
        // Create a new Human object stephen with name "Stephen"
        Human stephen = new Human("Stephen");

        // Create a new Human object joe with name "Joe" and stephen as a friend
        Human joe = new Human("Joe", stephen);

        stephen.sayName(); // Shows 'My name is Stephen'
        stephen.sayGoodnight(); // Shows 'Good night nobody.'
        joe.sayName(); // Shows 'My name is Joe'
        joe.sayGoodnight(); // Shows 'Good night Stephen'
    }
}

Criticism

change

Even though object-oriented programming is popular, some people think that it is bad and criticize it.

  • Luca Cardelli wrote a paper titled 'Bad Engineering Properties of Object-Oriented Languages'.
  • Richard Stallman wrote in 1995, "Adding OOP to Emacs is not clearly an improvement; I used OOP when working on the Lisp Machine window systems, and I disagree with the usual view that it is a superior way to program."[1]
  • A study by Potok et al.[2] tells us that there is very little difference in productivity between OOP and procedural approaches.
  • Christopher J. Date said that comparing OOP to other things, especially how OOP and the other things are related, is difficult because people don't agree on the meaning of OOP.[3]
  • Alexander Stepanov suggested that OOP gives a point of view that is limited as far as math, and called it, "almost as much of a hoax as Artificial Intelligence" [4][5]
  • Paul Graham has suggested that the purpose of OOP is to act as a herding mechanism which keeps average programmers in average organizations from "doing too much damage". This also slows down faster, better programmers who know how to do things in a more powerful and more compact way. [1]

References

change
  1. "Mode inheritance, cloning, hooks & OOP (Google Groups Discussion)".
  2. http://www.csm.ornl.gov/~v8q/Homepage/Papers%20Old/spetep-%20printable.pdf
  3. C. J. Date, Introduction to Database Systems, 6th-ed., Page 650
  4. "The AI Effect".
  5. "STLport: An Interview with A. Stepanov". www.stlport.org.