I was watching a Google Tech Talks video, and they frequently referred to polymorphism.
What is polymorphism, what is it for, and how is it used?
If you think about the Greek roots of the term, it should become obvious.
So polymorphism is the ability (in programming) to present the same interface for differing underlying forms (data types).
For example, integers and floats are implicitly polymorphic since you can add, subtract, multiply and so on, irrespective of the fact that the types are different. They're rarely considered as objects in the usual term.
But, in that same way, a class like
The classic example is the
With polymorphism, each of these classes will have different underlying data. A point shape needs only two co-ordinates (assuming it's in a two-dimensional space of course). A circle needs a center and radius. A square or rectangle needs two co-ordinates for the top left and bottom right corners (and possibly) a rotation. An irregular polygon needs a series of lines.
And, by making the class responsible for its code as well as its data, you can achieve polymorphism. In this example, every class would have its own
to get the correct behavior for any shape.
This is in contrast to the old way of doing things in which the code was separate from the data, and you would have had functions such as
Object orientation, polymorphism and inheritance are all closely-related concepts and they're vital to know. There have been many "silver bullets" during my long career which basically just fizzled out but the OO paradigm has turned out to be a good one. Learn it, understand it, love it - you'll be glad you did :-)
(a) I originally wrote that as a joke but it turned out to be correct and, therefore, not that funny. The momomer styrene happens to be made from carbon and hydrogen,
Polymorphism is a long word for a very simple concept.
Polymorphism describes a pattern in object oriented programming in which classes have different functionality while sharing a common interface.
The beauty of polymorphism is that the code working with the different classes does not need to know which class it is using since they’re all used the same way. A real world analogy for polymorphism is a button. Everyone knows how to use a button: you simply apply pressure to it. What a button “does,” however, depends on what it is connected to and the context in which it is used — but the result does not affect how it is used. If your boss tells you to press a button, you already have all the information needed to perform the task.
In the programming world, polymorphism is used to make applications more modular and extensible. Instead of messy conditional statements describing different courses of action, you create interchangeable objects that you select based on your needs. That is the basic goal of polymorphism.
Polymorphism is when you can treat an object as a generic version of something, but when you access it, the code determines which exact type it is and calls the associated code.
Here is an example in C#. Create four classes within a console application:
Now create the following in the Main() of the module for the console application:
In this example, we create a list of the base class Vehicle, which does not know about how many wheels each of its sub-classes has, but does know that each sub-class is responsible for knowing how many wheels it has.
We then add a Bicycle, Car and Truck to the list.
Next, we can loop through each Vehicle in the list, and treat them all identically, however when we access each Vehicles 'Wheels' property, the Vehicle class delegates the execution of that code to the relevant sub-class.
This code is said to be polymorphic, as the exact code which is executed is determioned by the sub-class being referenced at runtime.
I hope that this helps you.
Polymorphism is the ability to treat a class of object as if it is the parent class.
For instance, suppose there is a class called Animal, and a class called Dog that inherits from Animal. Polymorphism is the ability to treat any Dog object as an Animal object like so:
It is the concept of object oriented programming.The ability of different objects to respond, each in its own way, to identical messages is called polymorphism.
Polymorphism results from the fact that every class lives in its own namespace. The names assigned within a class definition don’t conflict with names assigned anywhere outside it. This is true both of the instance variables in an object’s data structure and of the object’s methods:
Method names are part of an object’s interface. When a message is sent requesting that an object do something, the message names the method the object should perform. Because different objects can have methods with the same name, the meaning of a message must be understood relative to the particular object that receives the message. The same message sent to two different objects can invoke two distinct methods.
The main benefit of polymorphism is that it simplifies the programming interface. It permits conventions to be established that can be reused in class after class. Instead of inventing a new name for each new function you add to a program, the same names can be reused. The programming interface can be described as a set of abstract behaviors, quite apart from the classes that implement them.
Example-1: Here is a simple example written in Python 2.x.
Example-2: Polymorphism is implemented in Java using method overloading and method overriding concepts.
Let us Consider Car example for discussing the polymorphism. Take any brand like Ford, Honda, Toyota, BMW, Benz etc., Everything is of type Car.
But each have their own advanced features and more advanced technology involved in their move behavior.
Now let us create a basic type Car
Let us implement the Ford Car example.
Ford extends the type Car to inherit all its members(properties and methods).
The above Ford class extends the Car class and also implements the move() method. Even though the move method is already available to Ford through the Inheritance, Ford still has implemented the method in its own way. This is called method overriding.
Just like Ford, Honda also extends the Car type and implemented the move method in its own way.
Method overriding is an important feature to enable the Polymorphism. Using Method overriding, the Sub types can change the way the methods work that are available through the inheritance.
Polymorphism Example Output:
In the PolymorphismExample class main method, i have created three objects- Car, Ford and Honda. All the three objects are referred by the Car type.
Please note an important point here that A super class type can refer to a Sub class type of object but the vice-verse is not possible. The reason is that all the members of the super class are available to the subclass using inheritance and during the compile time, the compiler tries to evaluate if the reference type we are using has the method he is trying to access.
So, for the references car,f and h in the PolymorphismExample, the move method exists from Car type. So, the compiler passes the compilation process without any issues.
But when it comes to the run time execution, the virtual machine invokes the methods on the objects which are sub types. So, the method move() is invoked from their respective implementations.
So, all the objects are of type Car, but during the run time, the execution depends on the Object on which the invocation happens. This is called polymorphism.
Usually this refers the the ability for an object of type A to behave like an object of type B. In object oriented programming this is usually achieve by inheritance. Some wikipedia links to read more:
EDIT: fixed broken links.
Polymorphism is this:
you can pass just a Cup instead of a specific instance. This aids in generality because you don't have to provide a specific measure() instance per each cup type
The term polymorphism comes from:
poly = many
morphism = the ability to change
In programming, polymorphism is a "technique" that lets you "look" at an object as being more than one type of thing. For instance:
A student object is also a person object. If you "look" (ie cast) at the student, you can probably ask for the student ID. You can't always do that with a person, right? (a person is not necessarily a student, thus might not have a student ID). However, a person probably has a name. A student does too.
Bottom line, "looking" at the same object from different "angles" can give you different "perspectives" (ie different properties or methods)
So this technique lets you build stuff that can be "looked" at from different angles.
Why do we use polymorphism? For starters ... abstraction. At this point it should be enough info :)
Let's use an analogy. For a given musical script every musician which plays it gives her own touch in the interpretation.
Musician can be abstracted with interfaces, genre to which musician belongs can be an abstrac class which defines some global rules of interpretation and every musician who plays can be modeled with a concrete class.
If you are a listener of the musical work, you have a reference to the script e.g. Bach's 'Fuga and Tocata' and every musician who performs it does it polymorphicaly in her own way.
This is just an example of a possible design (in Java):
I know this is an older question with a lot of good answers but I'd like to include a one sentence answer:
There are plenty of examples above that show this in action, but I feel this is a good concise answer.
Polymorphism is the ability of the programmer to write methods of the same name that do different things for different types of objects, depending on the needs of those objects. For example, if you were developing a class called
Some of the other answers seem to imply that polymorphism is used only in conjunction with inheritance; for example, maybe
At least in dynamically-typed languages like PHP (I don't know about C++ or Java), polymorphism allows the developer to call a method without necessarily knowing the type of object ahead of time, and trusting that the correct implementation of the method will be called. For example, say the user chooses the type of
In this case, the appropriate
(I was browsing another article on something entirely different.. and polymorphism popped up... Now I thought that I knew what Polymorphism was.... but apparently not in this beautiful way explained.. Wanted to write it down somewhere.. better still will share it... )
read on from this part:
..... polymorphism. That's a geeky way of saying that different nouns can have the same verb applied to them.
Polymorphism is an ability of object which can be taken in many forms. For example in human class a man can act in many forms when we talk about relationships. EX: A man is a father to his son and he is husband to his wife and he is teacher to his students.
In Object Oriented languages, polymorphism allows treatment and handling of different data types through the same interface. For example, consider inheritance in C++: Class B is derived from Class A. A pointer of type A* (pointer to class A) may be used to handle both an object of class A AND an object of class B.
Polymorphism is an important concept in object oriented programming which allows the programmers to know just what they must know. It is the perfect example of "sometimes less is more!"
Not sure why it is attracting down-votes but as far as I see; polymorphism, interfaces, delegates are all techniques of decoupling yourself from things you don't need to know. Oh yes, the word is "abstraction"...
Generally speaking, it's the ability to interface a number of different types of object using the same or a superficially similar API. There are various forms:
Polymorphism in coding terms is when your object can exist as multiple types through inheritance etc. If you create a class named "Shape" which defines the number of sides your object has then you can then create a new class which inherits it such as "Square". When you subsequently make an instance of "Square" you can then cast it back and forward from "Shape" to "Square" as required.
I've provided a high-level overview of polymorphism for another question:
Hope it helps. An extract...
( continued at Polymorphism in c++ )
In object-oriented programming, polymorphism refers to a programming language's ability to process objects differently depending on their data type or class. More specifically, it is the ability to redefine methods for derived classes.
Polymorphism is the ability to use an object in a given class, where all components that make up the object are inherited by subclasses of the given class. This means that once this object is declared by a class, all subclasses below it (and thier subclasses, and so on until you reach the farthest/lowest subclass) inherit the object and it's components (makeup).
Do remember that each class must be saved in separate files.
The following code exemplifies Polymorphism:
The father, a subclass:
The child, another subclass:
The execution method, references Parent class to start:
Note that each class needs to be declared in separate *.java files. The code should compile. Also notice that you can continually use maidenName and familyTree farther down. That is the concept of polymorphism. The concept of inheritance is also explored here, where one class is can be used or is further defined by a subclass.
Hope this helps and makes it clear. I will post the results when I find a computer that I can use to verify the code. Thanks for the patience!
Polymorphism is an object-oriented programming concept that refers to the ability of a variable, function or object to take on multiple forms. A language that features polymorphism allows developers to program in the general rather than program in the specific.
In a programming language that exhibits polymorphism, objects of classes belonging to the same hierarchical tree (i.e. inherited from a common base class) may possess functions bearing the same name, but each having different behaviors.
As an example, let us assume there is a base class named Animals from which the subclasses Horse, Fish and Bird are derived. Let us also assume that the Animals class has a function named Move, which is inherited by all subclasses mentioned. With polymorphism, each subclass may have its own way of implementing the function. So, for example, when the Move function is called in an object of the Horse class, the function might respond by displaying trotting on the screen. On the other hand, when the same function is called in an object of the Fish class, swimming might be displayed on the screen. In the case of a Bird object, it may be flying.
In effect, polymorphism trims down the work of the developer because he can now create a sort of general class with all the attributes and behaviors that he envisions for it. When the time comes for the developer to create more specific subclasses with certain unique attributes and behaviors, the developer can simply alter code in the specific portions where the behaviors will differ. All other portions of the code can be left as is.