Generic classes in Java
   HOME

TheInfoList



Click Here for Items Related To - Generic classes in Java
OR:
Generic classes in Java on:   [Wikipedia]   [Google]   [Amazon]

Generics are a facility of
generic programming Generic programming is a style of computer programming in which algorithms are written in terms of types ''to-be-specified-later'' that are then ''instantiated'' when needed for specific types provided as parameters. This approach, pioneered b ...
that were added to the
Java programming language Java is a high-level, class-based, object-oriented programming language that is designed to have as few implementation dependencies as possible. It is a general-purpose programming language intended to let programmers ''write once, run anywh ...
in 2004 within version J2SE 5.0. They were designed to extend Java's
type system In computer programming, a type system is a logical system comprising a set of rules that assigns a property called a type to every "term" (a word, phrase, or other set of symbols). Usually the terms are various constructs of a computer progr ...
to allow "a type or method to operate on objects of various types while providing compile-time type safety". The aspect '' compile-time type safety'' was not fully achieved, since it was shown in 2016 that it is not guaranteed in all cases. The
Java collections framework The Java collections framework is a set of classes and interfaces that implement commonly reusable collection data structures. Although referred to as a framework, it works in a manner of a library. The collections framework provides both interf ...
supports generics to specify the type of objects stored in a collection instance. In 1998,
Gilad Bracha Gilad Bracha is a software engineer at F5 Networks, and formerly at Google, where he was on the Dart programming language team. He is creator of the Newspeak language, and co-author of the second and third editions of the Java Language Specificati ...
,
Martin Odersky Martin Odersky (born 5 September 1958) is a German computer scientist and professor of programming methods at École Polytechnique Fédérale de Lausanne (EPFL) in Switzerland. He specializes in code analysis and programming languages. He designe ...
, David Stoutamire and
Philip Wadler Philip Lee Wadler (born April 8, 1956) is an American computer scientist known for his contributions to programming language design and type theory. He is the chair of Theoretical Computer Science at the Laboratory for Foundations of Computer ...
created Generic Java, an extension to the Java language to support generic types. Generic Java was incorporated in Java with the addition of wildcards.


Hierarchy and classification

According to ''Java Language Specification'': *A type variable is an unqualified identifier. Type variables are introduced by generic class declarations, generic interface declarations, generic method declarations, and by generic constructor declarations. *A class is generic if it declares one or more type variables. These type variables are known as the type parameters of the class. It defines one or more type variables that act as parameters. A generic class declaration defines a set of parameterized types, one for each possible invocation of the type parameter section. All of these parameterized types share the same class at runtime. *An
interface Interface or interfacing may refer to: Academic journals * ''Interface'' (journal), by the Electrochemical Society * '' Interface, Journal of Applied Linguistics'', now merged with ''ITL International Journal of Applied Linguistics'' * '' Int ...
is generic if it declares one or more type variables. These type variables are known as the type parameters of the interface. It defines one or more type variables that act as parameters. A generic interface declaration defines a set of types, one for each possible invocation of the type parameter section. All parameterized types share the same interface at runtime. *A method is generic if it declares one or more type variables. These type variables are known as the formal type parameters of the method. The form of the formal type parameter list is identical to a type parameter list of a class or interface. *A constructor can be declared as generic, independently of whether the class that the constructor is declared in is itself generic. A constructor is generic if it declares one or more type variables. These type variables are known as the formal type parameters of the constructor. The form of the formal type parameter list is identical to a type parameter list of a generic class or interface.


Motivation

The following block of Java code illustrates a problem that exists when not using generics. First, it declares an ArrayList of type Object. Then, it adds a String to the ArrayList. Finally, it attempts to retrieve the added String and cast it to an Integer—an error in logic, as it is not generally possible to cast an arbitrary string to an integer. List v = new ArrayList(); v.add("test"); // A String that cannot be cast to an Integer Integer i = (Integer)v.get(0); // Run time error Although the code is compiled without error, it throws a runtime exception (java.lang.ClassCastException) when executing the third line of code. This type of logic error can be detected during compile time by using generics and is the primary motivation for using them. The above code fragment can be rewritten using generics as follows: List v = new ArrayList(); v.add("test"); Integer i = (Integer)v.get(0); // (type error) compilation-time error The type parameter String within the angle brackets declares the ArrayList to be constituted of String (a descendant of the ArrayList's generic Object constituents). With generics, it is no longer necessary to cast the third line to any particular type, because the result of v.get(0) is defined as String by the code generated by the compiler. The logical flaw in the third line of this fragment will be detected as a
compile-time In computer science, compile time (or compile-time) describes the time window during which a computer program is compiled. The term is used as an adjective to describe concepts related to the context of program compilation, as opposed to concept ...
error (with J2SE 5.0 or later) because the compiler will detect that v.get(0) returns String instead of Integer. For a more elaborate example, see reference. Here is a small excerpt from the definition of the interfaces List and Iterator in package : public interface List public interface Iterator


Type wildcards

A type argument for a parameterized type is not limited to a concrete class or interface. Java allows the use of ''type wildcards'' to serve as type arguments for parameterized types. Wildcards are type arguments in the form ""; optionally with an upper or lower
bound Bound or bounds may refer to: Mathematics * Bound variable * Upper and lower bounds, observed limits of mathematical functions Physics * Bound state, a particle that has a tendency to remain localized in one or more regions of space Geography *B ...
. Given that the exact type represented by a wildcard is unknown, restrictions are placed on the type of methods that may be called on an object that uses parameterized types. Here is an example where the element type of a Collection is parameterized by a wildcard: Collection c = new ArrayList(); c.add(new Object()); // compile-time error c.add(null); // allowed Since we don’t know what the element type of c stands for, we cannot add objects to it. The add() method takes arguments of type E, the element type of the Collection generic interface. When the actual type argument is ?, it stands for some unknown type. Any method argument value we pass to the add() method would have to be a subtype of this unknown type. Since we don't know what type that is, we cannot pass anything in. The sole exception is
null Null may refer to: Science, technology, and mathematics Computing * Null (SQL) (or NULL), a special marker and keyword in SQL indicating that something has no value * Null character, the zero-valued ASCII character, also designated by , often use ...
; which is a member of every type. To specify the
upper bound In mathematics, particularly in order theory, an upper bound or majorant of a subset of some preordered set is an element of that is greater than or equal to every element of . Dually, a lower bound or minorant of is defined to be an eleme ...
of a type wildcard, the extends keyword is used to indicate that the type argument is a subtype of the bounding class. So List<? extends Number> means that the given list contains objects of some unknown type which extends the Number class. For example, the list could be List<Float> or List<Number>. Reading an element from the list will return a Number. Adding null elements is, again, also allowed. The use of wildcards above adds flexibility since there is not any inheritance relationship between any two parameterized types with concrete type as type argument. Neither List nor List is a subtype of the other; even though Integer is a subtype of Number. So, any method that takes List as a parameter does not accept an argument of List. If it did, it would be possible to insert a Number that is not an Integer into it; which violates type safety. Here is an example that demonstrates how type safety would be violated if List were a subtype of List: List ints = new ArrayList(); ints.add(2); List nums = ints; // valid if List were a subtype of List according to substitution rule. nums.add(3.14); Integer x = ints.get(1); // now 3.14 is assigned to an Integer variable! The solution with wildcards works because it disallows operations that would violate type safety: List nums = ints; // OK nums.add(3.14); // compile-time error nums.add(null); // allowed To specify the lower bounding class of a type wildcard, the super keyword is used. This keyword indicates that the type argument is a supertype of the bounding class. So, List<? super Number> could represent List<Number> or List<Object>. Reading from a list defined as List<? super Number> returns elements of type Object. Adding to such a list requires either elements of type Number, any subtype of Number or
null Null may refer to: Science, technology, and mathematics Computing * Null (SQL) (or NULL), a special marker and keyword in SQL indicating that something has no value * Null character, the zero-valued ASCII character, also designated by , often use ...
(which is a member of every type). The mnemonic PECS (Producer Extends, Consumer Super) from the book Effective Java by
Joshua Bloch Joshua J. Bloch (born August 28, 1961) is an American software engineer and a technology author, formerly employed at Sun Microsystems and Google. He led the design and implementation of numerous Java platform features, including the Java Collect ...
gives an easy way to remember when to use wildcards (corresponding to
covariance In probability theory and statistics, covariance is a measure of the joint variability of two random variables. If the greater values of one variable mainly correspond with the greater values of the other variable, and the same holds for the ...
and contravariance) in Java.


Generic class definitions

Here is an example of a generic Java class, which can be used to represent individual entries (key to value mappings) in a
map A map is a symbolic depiction emphasizing relationships between elements of some space, such as objects, regions, or themes. Many maps are static, fixed to paper or some other durable medium, while others are dynamic or interactive. Although ...
: public class Entry This generic class could be used in the following ways, for example: Entry grade = new Entry("Mike", "A"); Entry mark = new Entry("Mike", 100); System.out.println("grade: " + grade); System.out.println("mark: " + mark); Entry prime = new Entry(13, true); if (prime.getValue()) System.out.println(prime.getKey() + " is prime."); else System.out.println(prime.getKey() + " is not prime."); It outputs: 
grade: (Mike, A)
mark: (Mike, 100)
13 is prime.


Diamond operator

Thanks to
type inference Type inference refers to the automatic detection of the type of an expression in a formal language. These include programming languages and mathematical type systems, but also natural languages in some branches of computer science and linguistic ...
, Java SE 7 and above allow the programmer to substitute an empty pair of angle brackets (<>, called the ''diamond operator'') for a pair of angle brackets containing the one or more type parameters that a sufficiently-close context Type conversion#Implicit type conversion, implies. Thus, the above code example using Entry can be rewritten as: Entry grade = new Entry<>("Mike", "A"); Entry mark = new Entry<>("Mike", 100); System.out.println("grade: " + grade); System.out.println("mark: " + mark); Entry prime = new Entry<>(13, true); if (prime.getValue()) System.out.println(prime.getKey() + " is prime."); else System.out.println(prime.getKey() + " is not prime.");


Generic method definitions

Here is an example of a generic method using the generic class above: public static Entry twice(Type value) Note: If we remove the first in the above method, we will get compilation error (cannot find symbol 'Type') since it represents the declaration of the symbol. In many cases the user of the method need not indicate the type parameters, as they can be inferred: Entry pair = Entry.twice("Hello"); The parameters can be explicitly added if needed: Entry pair = Entry.twice("Hello"); The use of primitive types is not allowed, and Object type (object-oriented programming)#Boxing, boxed versions must be used instead: Entry pair; // Fails compilation. Use Integer instead. There is also the possibility to create generic methods based on given parameters. public Type[] toArray(Type... elements) In such cases you can't use primitive types either, e.g.: Integer[] array = toArray(1, 2, 3, 4, 5, 6);


Generics in throws clause

Although exceptions themselves cannot be generic, generic parameters can appear in a throws clause: public void throwMeConditional(boolean conditional, T exception) throws T


Problems with type erasure

Generics are checked at compile-time for type-correctness. The generic type information is then removed in a process called type erasure. For example, List<Integer> will be converted to the non-generic type List, which ordinarily contains arbitrary objects. The compile-time check guarantees that the resulting code is type-correct. Because of type erasure, type parameters cannot be determined at run-time. For example, when an ArrayList is examined at runtime, there is no general way to determine whether, before type erasure, it was an ArrayList<Integer> or an ArrayList<Float>. Many people are dissatisfied with this restriction. There are partial approaches. For example, individual elements may be examined to determine the type they belong to; for example, if an ArrayList contains an Integer, that ArrayList may have been parameterized with Integer (however, it may have been parameterized with any parent of Integer, such as Number or Object). Demonstrating this point, the following code outputs "Equal": ArrayList li = new ArrayList(); ArrayList lf = new ArrayList(); if (li.getClass()

lf.getClass()) Another effect of type erasure is that a generic class cannot extend the Throwable class in any way, directly or indirectly: public class GenericException extends Exception The reason why this is not supported is due to type erasure: try catch(GenericException e) catch(GenericException e) Due to type erasure, the runtime will not know which catch block to execute, so this is prohibited by the compiler. Java generics differ from C++ Templates, C++ templates. Java generics generate only one compiled version of a generic class or function regardless of the number of parameterizing types used. Furthermore, the Java run-time environment does not need to know which parameterized type is used because the type information is validated at compile-time and is not included in the compiled code. Consequently, instantiating a Java class of a parameterized type is impossible because instantiation requires a call to a constructor, which is unavailable if the type is unknown. For example, the following code cannot be compiled: T instantiateElementType(List arg) Because there is only one copy per generic class at runtime, static variables are shared among all the instances of the class, regardless of their type parameter. Consequently, the type parameter cannot be used in the declaration of static variables or in static methods.


Project on generics

Project Valhalla (Java language), Project Valhalla is an experimental project to incubate improved Java generics and language features, for future versions potentially from Java 10 onwards. Potential enhancements include: * Generic programming#Template specialization, generic specialization, e.g. List * Comparison of C Sharp and Java#Type erasure versus reified generics, reified generics; making actual types available at runtime.


See also

* Generic programming * Template metaprogramming * Wildcard (Java) * Comparison of C Sharp and Java, Comparison of C# and Java * Comparison of Java and C++


References

{{DEFAULTSORT:Generics In Java Java (programming language) Polymorphism (computer science)