In an interview I was asked if polymorphism can be achieved without inheritance. Is this possible?
Yeah, methods can also be polymorphic. If you want a method to perform differently depending on the parameter it receives, that is also polymorphism. You can achieve this by making more than one method with the same name but different parameters.
polymorphism without inheritancethere are languages where you have polymorphism without using inheritance . some examples are javascript, python, ruby, vb.net, and small talk. in each of these languages it is possible to write car.
Polymorphism is an effect of inheritance. It can only happen in classes that extend one another. It allows you to call methods of a class without knowing the exact type of the class. Also, polymorphism does happen at run time.
Polymorphism means "many forms", and it occurs when we have many classes that are related to each other by inheritance. Like we specified in the previous chapter; Inheritance lets us inherit attributes and methods from another class. Polymorphism uses those methods to perform different tasks.
The best explanation on the subject that I've ever read is an article by Luca Cardelli, a renown type theorist. The article is named On Understanding Types, Data Abstraction, and Polymorphism.
Cardelli defines several types of polymorphism in this article:
The kind of polymorphism related to inheritance is classified as inclusion polymorphism or subtype polymorphism.
Wikipedia provides a good definition:
In object-oriented programming, subtype polymorphism or inclusion polymorphism is a concept in type theory wherein a name may denote instances of many different classes as long as they are related by some common super class. Inclusion polymorphism is generally supported through subtyping, i.e., objects of different types are entirely substitutable for objects of another type (their base type(s)) and thus can be handled via a common interface. Alternatively, inclusion polymorphism may be achieved through type coercion, also known as type casting.
Another Wikipedia article called Polymorphism in object-oriented programming seems to answer your questions as well.
This subtyping feature in Java is achieved, among other means, through the inheritance of classes and interfaces. Although the subtyping features of Java may not be evident in terms of inheritance all the time. Take for example the cases of covariance and contravariance with generics. Also, arrays are Serializable and Cloneable although this is not evident anywhere in the type hierarchy. It can also be said that through primitive widening conversion the numeric operators in Java are polymorphic, in certain cases even accepting totally unrelated operands (i.e. concatenation of strings and numbers or of a string plus some other object). Consider also the cases of boxing and unboxing of primitives. These latter cases of polymorphism (coercion and overloading) are not at all related to inheritance.
Inclusion
List<Integer> myInts = new ArrayList<Integer>();
This is the case to which your question seems to refer i.e. when there is an inheritance or implementation relationship between the types, as in this case where ArrayList implements List.
As I mentioned, though, when you introduce Java generics, some time the rules of subtyping get fuzzy:
List<? super Number> myObjs = new ArrayList<Object>(); List<? extends Number> myNumbers = new LinkedList<Integer>();
And in other cases, the relationships are not even evident in the API
Cloneable clone = new int[10]; Serializable obj = new Object[10]
Even so, all these, according to Cardelli, are forms of universal polymorphism.
Parametric
public <T> List<T> filter(Predicate<T> predicate, List<T> source) { List<T> result = new ArrayList<>(); for(T item : source) { if(predicate.evaluate(item)){ result.add(item); } return result; } }
The same algorithm can be used to filter all kinds of lists with all kinds of predicates without having to repeat a single line of code for every possible type of list. The type of the actual list and the type of predicate are parametric. See this example with lambda expressions available in JDK 8 Preview (for the brevity of predicate implementation).
filter(x -> x % 2 == 0, asList(1,2,3,4,5,6)); //filters even integers filter(x -> x % 2 != 0, asList(1L,2L,3L,4L,5L,6L)); //filters odd longs filter(x -> x >= 0.0, asList(-1.0, 1.0)); //filters positive doubles
According to Cardelli, this is a form of universal polymorphism.
Coercion
double sum = 1 + 2.0;
Integer and floating-point arithmetic are totally different. Applying the plus operator to two operands of different types here is impossible without some form of coercion.
In this example, the types integer and double, are automatically coerced (converted) to type double without an explicit cast. The entire expression is promoted to double. This is so because in Java we have primitive widening conversions.
According to Cardelli, this form of automatic coercion is a form of ad-hoc polymorphism provided for the plus operator.
There are languages in which you could not even sum an integer and a floating-point number without an explicit cast (i.e. AFAIK, SML, in which, by the way, parametric polymorphism is key to overcome this kind of problems).
Overloading
double sum = 2.0 + 3.0; String text = "The sum is" + sum;
The plus operator here means two different things depending on the arguments used. Evidently, the operator has been overloaded. This implies it has different implementations depending on the types of operands. According to Cardelli, this is a form of ad-hoc polymorphism provided for the plus operator.
This, of course, also applies to forms of method overloading in classes (i.e java.lang.Math methods min and max are overloaded to support different primitive types).
Even when inheritance plays an important role in the implementation of some of these forms of polymorphism, certainly it is not the only way. Other languages that are not object-oriented provide other forms of polymorphism. Take, for example, the cases of duck typing in dynamic languages like Python or even in statically-typed languages like Go, or algebraic data types in languages like SML, Ocaml and Scala, or type classes in languages like Haskell, multi methods in Clojure, prototypal inheritance in JavaScript, etc.
Ad-hoc Polymorphism > Operator Overloading > Without Inheritence
Ad-hoc Polymorphism > Method Overloading > Without Inheritence
Ad-hoc Polymorphism > Method Overriding > With Inheritence
Parametric Polymorphism > Generics > Without Inheritence
Subtype Polymorphism or Inclusion Polymorphism > Polymorphic Assignment > With Inheritence
Subtype Polymorphism or Inclusion Polymorphism > Polymorphic Return Type > With Inheritence
Subtype Polymorphism or Inclusion Polymorphism > Polymorphic Argument Type > With Inheritence
Coercion Polymorphism > Widening > With or without Inheritence
Coercion Polymorphism > Auto boxing and unboxing > Without Inheritence
Coercion Polymorphism > Var args > Without Inheritence
Coercion Polymorphism > Type Casting > Without Inheritence
If you love us? You can donate to us via Paypal or buy me a coffee so we can maintain and grow! Thank you!
Donate Us With