List of Java keywords
Appearance
(Redirected from Java keywords)
In the Java programming language, a keyword is any one of 68 reserved words[1] that have a predefined meaning in the language. Because of this, programmers cannot use keywords in some contexts, such as names for variables, methods, classes, or as any other identifier.[2] Of these 68 keywords, 17 of them are only contextually reserved, and can sometimes be used as an identifier, unlike standard reserved words. Due to their special functions in the language, most integrated development environments for Java use syntax highlighting to display keywords in a different colour for easy identification.
List of Java keywords
[edit]_
- Added in Java 9, the underscore has become a keyword and cannot be used as a variable name anymore.[3]
abstract
- A method with no definition must be declared as abstract and the class containing it must be declared as abstract. Abstract classes cannot be instantiated. Abstract methods must be implemented in the sub classes. The abstract keyword cannot be used with variables or constructors. Note that an abstract class isn't required to have an abstract method at all.
assert
(added in J2SE 1.4)[4]- Assert describes a predicate (a true–false statement) placed in a Java program to indicate that the developer thinks that the predicate is always true at that place. If an assertion evaluates to false at run-time, an assertion failure results, which typically causes execution to abort. Assertions are disabled at runtime by default, but can be enabled through a command-line option or programmatically through a method on the class loader.
boolean
- Defines a boolean variable for the values "true" or "false" only. By default, the value of boolean primitive type is false. This keyword is also used to declare that a method returns a value of the primitive type
boolean
.
byte
- The
byte
keyword is used to declare a field that can hold an 8-bit signed two's complement integer.[5][6] This keyword is also used to declare that a method returns a value of the primitive typebyte
.[7][8]
case
- A statement in the
switch
block can be labeled with one or morecase
ordefault
labels. Theswitch
statement evaluates its expression, then executes all statements that follow the matchingcase
label; seeswitch
.[9][10]
catch
- Used in conjunction with a
try
block and an optionalfinally
block. The statements in thecatch
block specify what to do if a specific type of exception is thrown by thetry
block.
char
- Defines a character variable capable of holding any character of the java source file's character set.
class
- A type that defines the implementation of a particular kind of object. A class definition defines instance and class fields, methods, and inner classes as well as specifying the interfaces the class implements and the immediate superclass of the class. If the superclass is not explicitly specified, the superclass is implicitly
Object
. The class keyword can also be used in the form Class.class to get a Class object without needing an instance of that class. For example, String.class can be used instead of doing new String().getClass().
continue
- Used to resume program execution at the end of the current loop body. If followed by a label,
continue
resumes execution at the end of the enclosing labeled loop body.
default
- The
default
keyword can optionally be used in a switch statement to label a block of statements to be executed if nocase
matches the specified value; seeswitch
.[9][10] Alternatively, thedefault
keyword can also be used to declare default values in a Java annotation. From Java 8 onwards, thedefault
keyword can be used to allow an interface to provide an implementation of a method.
do
- The
do
keyword is used in conjunction withwhile
to create a do-while loop, which executes a block of statements associated with the loop and then tests a boolean expression associated with thewhile
. If the expression evaluates totrue
, the block is executed again; this continues until the expression evaluates tofalse
.[11][12]
double
- The
double
keyword is used to declare a variable that can hold a 64-bit double precision IEEE 754 floating-point number.[5][6] This keyword is also used to declare that a method returns a value of the primitive typedouble
.[7][8]
else
- The
else
keyword is used in conjunction withif
to create an if-else statement, which tests a boolean expression; if the expression evaluates totrue
, the block of statements associated with theif
are evaluated; if it evaluates tofalse
, the block of statements associated with theelse
are evaluated.[13][14]
enum
(added in J2SE 5.0)[4]- A Java keyword used to declare an enumerated type. Enumerations extend the base class
Enum
.
extends
- Used in a class declaration to specify the superclass; used in an interface declaration to specify one or more superinterfaces. Class X extends class Y to add functionality, either by adding fields or methods to class Y, or by overriding methods of class Y. An interface Z extends one or more interfaces by adding methods. Class X is said to be a subclass of class Y; Interface Z is said to be a subinterface of the interfaces it extends.
- Also used to specify an upper bound on a type parameter in Generics.
final
- Define an entity once that cannot be changed nor derived from later. More specifically: a final class cannot be subclassed, a final method cannot be overridden, and a final variable can occur at most once as a left-hand expression on an executed command. All methods in a final class are implicitly
final
.
finally
- Used to define a block of statements for a block defined previously by the
try
keyword. Thefinally
block is executed after execution exits thetry
block and any associatedcatch
clauses regardless of whether an exception was thrown or caught, or execution left method in the middle of thetry
orcatch
blocks using thereturn
keyword.
float
- The
float
keyword is used to declare a variable that can hold a 32-bit single precision IEEE 754 floating-point number.[5][6] This keyword is also used to declare that a method returns a value of the primitive typefloat
.[7][8]
for
- The
for
keyword is used to create a for loop, which specifies a variable initialization, a boolean expression, and an incrementation. The variable initialization is performed first, and then the boolean expression is evaluated. If the expression evaluates totrue
, the block of statements associated with the loop are executed, and then the incrementation is performed. The boolean expression is then evaluated again; this continues until the expression evaluates tofalse
.[15]
- As of J2SE 5.0, the
for
keyword can also be used to create a so-called "enhanced for loop",[16] which specifies an array orIterable
object; each iteration of the loop executes the associated block of statements using a different element in the array orIterable
.[15]
if
- The
if
keyword is used to create an if statement, which tests a boolean expression; if the expression evaluates totrue
, the block of statements associated with the if statement is executed. This keyword can also be used to create an if-else statement; seeelse
.[13][14]
implements
- Included in a class declaration to specify one or more interfaces that are implemented by the current class. A class inherits the types and abstract methods declared by the interfaces.
import
- Used at the beginning of a source file to specify classes or entire Java packages to be referred to later without including their package names in the reference. Since J2SE 5.0,
import
statements can importstatic
members of a class.
instanceof
- A binary operator that takes an object reference as its first operand and a class or interface as its second operand and produces a boolean result. The
instanceof
operator evaluates to true if and only if the runtime type of the object is assignment compatible with the class or interface.
int
- The
int
keyword is used to declare a variable that can hold a 32-bit signed two's complement integer.[5][6] This keyword is also used to declare that a method returns a value of the primitive typeint
.[7][8]
interface
- Used to declare a special type of class that only contains abstract or default methods, constant (
static final
) fields andstatic
interfaces. It can later be implemented by classes that declare the interface with theimplements
keyword. As multiple inheritance is not allowed in Java, interfaces are used to circumvent it. An interface can be defined within another interface.
long
- The
long
keyword is used to declare a variable that can hold a 64-bit signed two's complement integer.[5][6] This keyword is also used to declare that a method returns a value of the primitive typelong
.[7][8]
native
- Used in method declarations to specify that the method is not implemented in the same Java source file, but rather in another language.[8]
new
- Used to create an instance of a class or array object. Using keyword for this end is not completely necessary (as exemplified by Scala), though it serves two purposes: it enables the existence of different namespace for methods and class names, it defines statically and locally that a fresh object is indeed created, and of what runtime type it is (arguably introducing dependency into the code).
package
- Java package is a group of similar classes and interfaces. Packages are declared with the
package
keyword.
private
- The
private
keyword is used in the declaration of a method, field, or inner class; private members can only be accessed by other members of their own class.[17]
protected
- The
protected
keyword is used in the declaration of a method, field, or inner class; protected members can only be accessed by members of their own class, that class's subclasses or classes from the same package.[17]
public
- The
public
keyword is used in the declaration of a class, method, or field; public classes, methods, and fields can be accessed by the members of any class.[17]
return
- Used to finish the execution of a method. It can be followed by a value required by the method definition that is returned to the caller.
short
- The
short
keyword is used to declare a field that can hold a 16-bit signed two's complement integer.[5][6] This keyword is also used to declare that a method returns a value of the primitive typeshort
.[7][8]
static
- Used to declare a field, method, or inner class as a class field. Classes maintain one copy of class fields regardless of how many instances exist of that class.
static
also is used to define a method as a class method. Class methods are bound to the class instead of to a specific instance, and can only operate on class fields. Classes and interfaces declared asstatic
members of another class or interface are behaviorally top-level classes.[18]
super
- Inheritance basically used to achieve dynamic binding or run-time polymorphism in java. Used to access members of a class inherited by the class in which it appears. Allows a subclass to access overridden methods and hidden members of its superclass. The
super
keyword is also used to forward a call from a constructor to a constructor in the superclass. - Also used to specify a lower bound on a type parameter in Generics.
switch
- The
switch
keyword is used in conjunction withcase
anddefault
to create a switch statement, which evaluates a variable, matches its value to a specificcase
(including patterns), and executes the block of statements associated with thatcase
. If nocase
matches the value, the optional block labelled bydefault
is executed, if included.[9][10] The switch keyword can also be used with the non-reserved keywordyield
to create switch expressions.
synchronized
- Used in the declaration of a method or code block to acquire the mutex lock for an object while the current thread executes the code.[8] For static methods, the object locked is the class's
Class
. Guarantees that at most one thread at a time operating on the same object executes that code. The mutex lock is automatically released when execution exits the synchronized code. Fields, classes and interfaces cannot be declared as synchronized.
this
- Used to represent an instance of the class in which it appears.
this
can be used to access class members and as a reference to the current instance. Thethis
keyword is also used to forward a call from one constructor in a class to another constructor in the same class.
throw
- Causes the declared exception instance to be thrown. This causes execution to continue with the first enclosing exception handler declared by the
catch
keyword to handle an assignment compatible exception type. If no such exception handler is found in the current method, then the method returns and the process is repeated in the calling method. If no exception handler is found in any method call on the stack, then the exception is passed to the thread's uncaught exception handler.
throws
- Used in method declarations to specify which exceptions are not handled within the method but rather passed to the next higher level of the program. All uncaught exceptions in a method that are not instances of
RuntimeException
must be declared using thethrows
keyword.
transient
- Declares that an instance field is not part of the default serialized form of an object. When an object is serialized, only the values of its non-transient instance fields are included in the default serial representation. When an object is deserialized, transient fields are initialized only to their default value. If the default form is not used, e.g. when a serialPersistentFields table is declared in the class hierarchy, all
transient
keywords are ignored.[19][20]
try
- Defines a block of statements that have exception handling. If an exception is thrown inside the
try
block, an optionalcatch
block can handle declared exception types. Also, an optionalfinally
block can be declared that will be executed when execution exits thetry
block andcatch
clauses, regardless of whether an exception is thrown or not. Atry
block must have at least onecatch
clause or afinally
block.
volatile
- Used in field declarations to guarantee visibility of changes to variables across threads. Every read of a volatile variable will be read from main memory, and not from the CPU cache, and that every write to a volatile variable will be written to main memory, and not just to the CPU cache.[21] Methods, classes and interfaces thus cannot be declared volatile, nor can local variables or parameters.
while
- The
while
keyword is used to create a while loop, which tests a boolean expression and executes the block of statements associated with the loop if the expression evaluates totrue
; this continues until the expression evaluates tofalse
. This keyword can also be used to create a do-while loop; seedo
.[11][12]
Reserved Identifiers
[edit]The following identifiers are contextual keywords, and are only restricted in some contexts:
exports
module
non-sealed
- Used to declare that a class or interface which extends a sealed class can be extended by unknown classes.[22]
open
opens
permits
- The permits clause specifies the classes that are permitted to extend a sealed class.[22]
provides
record
requires
sealed
- A sealed class or interface can only be extended or implemented by classes and interfaces permitted to do so.[22]
to
transitive
uses
var
- A special identifier that cannot be used as a type name (since Java 10).[23]
when
- used as an additional check for a
case
statement. [24] with
yield
- Used to set a value for a switch expression, when using labelled statement groups (for example,
case L:
).[25]
Reserved words for literal values
[edit]true
- A boolean literal value.
false
- A boolean literal value.
null
- A reference literal value.
Unused
[edit]const
- Although reserved as a keyword in Java,
const
is not used and has no function.[2][26] For defining constants in Java, see thefinal
keyword.
strictfp
(added in J2SE 1.2)[4]- Although reserved as a keyword in Java,
strictfp
is obsolete, and no longer has any function.[27] Previously this keyword was used to restrict the precision and rounding of floating point calculations to ensure portability.[8]
See also
[edit]References
[edit]- ^ "Java Platform, Standard Edition Java API Reference".
- ^ a b c "Java Language Specification - Section 3.9: Keywords". The Java Language Specification. Oracle. 2018-08-21. Retrieved 2018-12-25.
- ^ "Treatment of underscores". JEP 302: Lambda Leftovers.
- ^ a b c "Java Language Keywords". The Java Tutorials. Sun Microsystems, Inc. Retrieved 2017-07-24.
- ^ a b c d e f "Primitive Data Types". The Java Tutorials. Sun Microsystems, Inc. February 14, 2008. Retrieved 2008-12-03.
- ^ a b c d e f Flanagan 2005, p. 22.
- ^ a b c d e f g "Returning a Value from a Method". The Java Tutorials. Sun Microsystems, Inc. February 14, 2008. Retrieved 2008-12-03.
- ^ a b c d e f g h i Flanagan 2005, pp. 66–67.
- ^ a b c "The switch Statement". The Java Tutorials. Sun Microsystems, Inc. February 14, 2008. Retrieved 2014-12-18.
- ^ a b c Flanagan 2005, pp. 46–48.
- ^ a b "The while and do-while Statements". The Java Tutorials. Sun Microsystems, Inc. February 14, 2008. Retrieved 2008-12-03.
- ^ a b Flanagan 2005, pp. 48–49.
- ^ a b "The if-then and if-then-else Statements". The Java Tutorials. Sun Microsystems, Inc. February 14, 2008. Retrieved 2008-12-03.
- ^ a b Flanagan 2005, pp. 44–46.
- ^ a b "The for Statement". The Java Tutorials. Sun Microsystems, Inc. February 14, 2008. Retrieved 2008-12-03.
- ^ Flanagan 2005, pp. 50–54.
- ^ a b c "Controlling Access to Members of a Class". The Java Tutorials. Sun Microsystems, Inc. February 14, 2008. Retrieved 2008-12-03.
- ^ "Nested Classes (The Java™ Tutorials > Learning the Java Language > Classes and Objects)".
- ^ "Java Object Serialization Specification version 1.5.0". Sun/Oracle. 2004. 1.5 Defining Serializable Fields for a Class. Retrieved 2010-09-16.[permanent dead link ]
- ^ Grosso, William (November 21, 2001). "Java RMI: Serialization". ONJava. O'Reilly Media. Declaring serialPersistentFields. Retrieved 2010-09-16.
- ^ "Java Volatile Keyword".
- ^ a b c "Sealed Classes". docs.oracle.com. Oracle Corporation. Retrieved 2021-08-07.
- ^ "Chapter 3. Lexical Structure". docs.oracle.com. Retrieved 2018-12-25.
- ^ "Chapter 14. Blocks, Statements, and Patterns".
- ^ "Switch Expressions". docs.oracle.com. Oracle Corporation. Retrieved 2020-12-27.
- ^ a b Flanagan 2005, p. 20.
- ^ "JEP 306: Restore Always-Strict Floating-Point Semantics".
External links
[edit]- Gosling, James; Joy, Bill; Steele, Guy; Bracha, Gilad (June 2005). Java Language Specification (Third ed.). Addison-Wesley Professional. ISBN 978-0-321-24678-3. Retrieved 2008-12-03.
- Flanagan, David (March 2005). Java in a Nutshell (Fifth ed.). O'Reilly Media. ISBN 978-0-596-00773-7. Retrieved 2010-03-03.