They are the following: ; Class : Defines the abstract characteristics of a thing (object), including the thing's characteristics (its attributes, fields or properties) and the thing's behaviors (the things it can do, or methods, operations or features). One might say that a class is a blueprint or factorythat describes the nature of something. For example, the class Dog would consist of traits shared by all dogs, such as breed and fur color (characteristics), and the ability to bark and sit (behaviors). Classes provide modularity and structure in an object-oriented computer program. A class should typically be recognizable to a non-programmer familiar with the problem domain, meaning that the characteristics of the class should make sense in context. Also, the code for a class should be relatively self-contained (generally using encapsulation). Collectively, the properties and methods defined by a class are called members. ; Object : A pattern (exemplar) of a class. The class of Dog defines all possible dogs by listing the characteristics and behaviors they can have; the object Lassie is one particular dog, with particular versions of the characteristics. A Dog has fur; Lassie has brown-and-white fur. ; Instance : One can have an instance of a class or a particular object. The instance is the actual object created at runtime. In programmer jargon, the Lassie object is an instance of the Dog class. The set of values of the attributes of a particular object is called its state. The object consists of state and the behaviour that's defined in the object's class. ; Method : An object's abilities. In language, methods (sometimes referred to as "functions") are verbs. Lassie, being a Dog, has the ability to bark. So bark() is one of Lassie's methods. She may have other methods as well, for example sit() or eat() or walk() or save_timmy(). Within the program, using a method usually affects only one particular object; all Dogs can bark, but you need only one particular dog to do the barking. ; Message passing : "The process by which an object sends data to another object or asks the other object to invoke a method." Also known to some programming languages as interfacing. For example, the object called Breeder may tell the Lassie object to sit by passing a "sit" message which invokes Lassie's "sit" method. The syntax varies between languages, for example: [Lassie sit] in Objective-C. In Java, code-level message passing corresponds to "method calling". Some dynamic languages use double-dispatch or multi-dispatch to find and pass messages. ; Inheritance : "Subclasses" are more specialized versions of a class, which inherit attributes and behaviors from their parent classes, and can introduce their own. : For example, the class Dog might have sub-classes called Collie, Chihuahua, and GoldenRetriever. In this case, Lassie would be an instance of the Collie subclass. Suppose the Dog class defines a method called bark() and a property called furColor. Each of its sub-classes (Collie, Chihuahua, and GoldenRetriever) will inherit these members, meaning that the programmer only needs to write the code for them once. : Each subclass can alter its inherited traits. For example, the Collie class might specify that the default furColor for a collie is brown-and-white. The Chihuahua subclass might specify that the bark() method produces a high pitch by default. Subclasses can also add new members. The Chihuahua subclass could add a method called tremble(). So an individual chihuahua instance would use a high-pitched bark() from the Chihuahua subclass, which in turn inherited the usual bark() from Dog. The chihuahua object would also have the tremble() method, but Lassie would not, because she is a Collie, not a Chihuahua. In fact, inheritance is an "a... is a" relationship between classes, while instantiation is an "is a" relationship between an object and a class: a Collie is a Dog ("a... is a"), but Lassie is a Collie ("is a"). Thus, the object named Lassie has the methods from both classes Collie and Dog. : Multiple inheritance is inheritance from more than one ancestor class, neither of these ancestors being an ancestor of the other. For example, independent classes could define Dogs and Cats, and a Chimera object could be created from these two which inherits all the (multiple) behavior of cats and dogs. This is not always supported, as it can be hard both to implement and to use well. ; Abstraction : Abstraction is simplifying complex reality by modelling classes appropriate to the problem, and working at the most appropriate level of inheritance for a given aspect of the problem. : For example, Lassie the Dog may be treated as a Dog much of the time, a Collie when necessary to access Collie-specific attributes or behaviors, and as an Animal (perhaps the parent class of Dog) when counting Timmy's pets.
Abstraction is also achieved through Composition. For example, a class Car would be made up of an Engine, Gearbox, Steering objects, and many more components. To build the Car class, one does not need to know how the different components work internally, but only how to interface with them, i.e., send messages to them, receive messages from them, and perhaps make the different objects composing the class interact with each other.; Encapsulation : Encapsulation conceals the functional details of a class from objects that send messages to it. : For example, the Dog class has a bark() method. The code for the bark() method defines exactly how a bark happens (e.g., by inhale() and then exhale(), at a particular pitch and volume). Timmy, Lassie's friend, however, does not need to know exactly how she barks. Encapsulation is achieved by specifying which classes may use the members of an object. The result is that each object exposes to any class a certain interface - those members accessible to that class. The reason for encapsulation is to prevent clients of an interface from depending on those parts of the implementation that are likely to change in future, thereby allowing those changes to be made more easily, that is, without changes to clients. For example, an interface can ensure that puppies can only be added to an object of the class Dog by code in that class. Members are often specified as public, protected or private, determining whether they are available to all classes, sub-classes or only the defining class. Some languages go further: Java uses the default access modifier to restrict access also to classes in the same package, C# and VB.NET reserve some members to classes in the same assembly using keywords internal (C#) or Friend (VB.NET), and Eiffel and C++ allow one to specify which classes may access any member. ; Polymorphism : Polymorphism allows the programmer to treat derived class members just like their parent class' members. More precisely, Polymorphism in object-oriented programming is the ability of objects belonging to different data types to respond to method calls of methods of the same name, each one according to an appropriate type-specific behavior. One method, or an operator such as +, -, or *, can be abstractly applied in many different situations. If a Dog is commanded to speak(), this may elicit a bark(). However, if a Pig is commanded to speak(), this may elicit an oink(). They both inherit speak() from Animal, but their derived class methods override the methods of the parent class; this is Overriding Polymorphism. Overloading Polymorphism is the use of one method signature, or one operator such as "+", to perform several different functions depending on the implementation. The "+" operator, for example, may be used to perform integer addition, float addition, list concatenation, or string concatenation. Any two subclasses of Number, such as Integer and Double, are expected to add together properly in an OOP language. The language must therefore overload the addition operator, "+", to work this way. This helps improve code readability. How this is implemented varies from language to language, but most OOP languages support at least some level of overloading polymorphism. Many OOP languages also support Parametric Polymorphism, where code is written without mention of any specific type and thus can be used transparently with any number of new types. Pointers are an example of a simple polymorphic routine that can be used with many different types of objects. ; Decoupling : Decoupling allows for the separation of object interactions from classes and inheritance into distinct layers of abstraction. A common use of decoupling is to polymorphically decouple the encapsulation, which is the practice of using reusable code to prevent discrete code modules from interacting with each other. However, in practice decoupling often involves trade-offs with regard to which patterns of change to favor. The science of measuring these trade-offs in respect to actual change in an objective way is still in its infancy.Not all of the above concepts are to be found in all object-oriented programming languages, and so object-oriented programming that uses classes is called sometimes class-based programming. In particular, prototype-based programming does not typically use classes. As a result, a significantly different yet analogous terminology is used to define the concepts of object and instance.
An object oriented programming system is one that uses the object oriented programming concepts. Those concepts are explained in the below question in wikianswers.What_are_the_concepts_of_object_oriented_programming
Yes Java is pure object oriented language .
Java is called an object oriented programming language because it implements many of the object oriented programming concepts like abstraction, encapsulation, inheritance etc.
An object oriented programming approach is one in which we use the various object oriented concepts like inheritance, polymorphism, encapsulation, abstraction etc.
Object oriented concepts are a generalisation of the object oriented principals (encapsulation, inheritance, polymorphism and abstraction) without specifying a particular implementation of those principals. Object oriented programming is the application of those principals through an object oriented programming language.
Classes, objects and methods are the three concepts for OOP programming.
java is a programming language/platform that embodies object oriented programming concepts. The question of what is the difference is like asking what is the difference between cars and a volvo.
Because it implements object oriented programming concepts like inheritance, polymorphism, encapsulation, abstraction, polymorphism etc etc.
There isn't any difference. They mean the same thing, although we use the term object-oriented programming rather than object-based programming.
encapsulation,polymarphisam and inheritance
g terms in the context of object oriented programming
The 3 essential concepts of Object Oriented Programming are:InheritanceEncapsulation &Polymorphism
You can read all about it in object-oriented-programming
The concepts of OOP in C++ are the same as for OOP in any other programming language: abstraction, encapsulation, inheritance and polymorphism.
Java is called an Object Oriented Programming Language because many of the object oriented programming concepts are implemented in Java. Some concepts are: 1. Class 2. Object 3. Inheritance 4. Encapsulation 5. Polymorphism 6. Abstraction etc.
Java is an object oriented programming language. The various object oriented concepts in it are: * Class * Object * Instance * Method * Inheritance * Polymorphism * Abstraction * Encapsulation etc...
You do not need object oriented programming. Anything that can be programmed in an object oriented programming language can be programmed in C.
No, Java is a object oriented programming not a pure object oriented programming Bcoz java does not support multiple inheritance.java is object oriented programming bcoz its implement the basic object oriented concepts like inheritace,polimophism, abstraction etc except multiple inheritance.For any query or suggestion plz mail email@example.com
C++ is not a pure object oriented programming language because you are free to use procedural programming and structured programming alongside object oriented programming. A pure object oriented programming language would not permit this. If you were to avoid using object oriented programming principals altogether then you'd effectively be writing C-style code.
Object oriented programming is a paradigm that is common to all object oriented languages. Visual Basic is a programming language that allows you to write programs using the object oriented paradigm.
The hierarchical concepts are there in object oriented programming. It is the sentence containing the word hierarchical.
An object is a type of data structure. It's one of the most basic concepts in object-oriented programming (as you might guess from the name).
C++ is object oriented while C is structured. Everything you can do in C you can also do in C++ with little variation. However, you can also mix object-oriented programming concepts with structured and procedural programming in C++.
The purpose of constructor in object oriented programming is to initialize data.
Structured programming and object-oriented programming are two different things. You can be structured, object-oriented, both, or neither.