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EspañolJAVA PLATFORM, STANDARD EDITION
(Redirected from Java SE)
'Java Platform, Standard Edition' or 'Java SE' is a widely used platform for programming in the Java language. It is the Java Platform used to deploy portable applications for general use.
In practical terms, Java SE consists of a virtual machine, which must be used to run Java programs, together with a set of libraries (or ''packages'') needed to allow the use of file systems, networks, graphical interfaces, and so on, from within those programs.
Java SE was known as ''Java 2 Platform, Standard Edition'' or ''J2SE'' until version 1.4. After that, Sun decided to make a change for marketing purposes and just started referring to the last digit in the version number. Hence, J2SE 5.0 is the same as J2SE ver. 1.5 and JSE 6.0 is the same as JSE ver. 1.6.
The name was again changed by dropping the "2", to Java SE in version 1.6.
Starting with J2SE 1.4 (''Merlin''), Java SE has been developed under the Java Community Process. JSR 59 was the umbrella specification for J2SE 1.4 and JSR 176 specified J2SE 5.0 (''Tiger''). Java SE 6 (''Mustang'') was released under JSR 270.
Java Platform, Enterprise Edition is a related specification which includes all of the classes in Java SE, plus a number which are more useful to programs which run on servers as opposed to workstations.
This is not to be confused with JRE or J2SDK which refers to the actual files that you download and install on your computer in order to run or develop java programs respectively.
The following are descriptions of some of the main Java SE packages. For a complete list of packages see the .
The Java package
The main classes in
★ – the class that is the root of every class hierarchy. ''(See also Java syntax#Methods in the Object class.)''
★ – the base class for enumeration classes (as of J2SE 5.0).
★ – the class that is the root of the Java reflection system.
★ – the class that is the base class of the exception class hierarchy.
★ , , and – the base classes for each exception type.
★ – the class that allows operations on threads.
★ – the class for strings and string literals.
★ and – classes for performing string manipulation (
★ – the interface that allows generic comparison and ordering of objects (as of J2SE 1.2).
★ – the interface that allows generic iteration using the enhanced
★ , , ,, and – classes that provide "system operations" that manage the dynamic loading of classes, creation of external processes, host environment inquiries such as the time of day, and enforcement of security policies.
★ and – classes that provide basic math functions such as sine, cosine, and square root (
★ The primitive wrapper classes that encapsulate primitive types as objects.
★ The basic exception classes thrown for language-level and other common exceptions.
Classes in
The
Java has a more expressive system of reference than most other garbage-collected programming languages, which allows for special behavior for garbage collection. A normal reference in Java is known as a ''strong reference''. The
A '' can be used to implement a cache. An object that is not reachable by a strong reference (that is, not ''strongly reachable''), but is referenced by a soft reference is called ''softly reachable''. A softly reachable object may be garbage collected at the discretion of the garbage collector. This generally means that softly reachable objects will only be garbage collected when free memory is low, but again, it is at the discretion of the garbage collector. Semantically, a soft reference means "keep this object unless the memory is needed."
A '' is used to implement weak maps. An object that is not strongly or softly reachable, but is referenced by a weak reference is called ''weakly reachable''. A weakly reachable object will be garbage collected during the next collection cycle. This behavior is used in the class . A weak map allows the programmer to put key/value pairs in the map and not worry about the objects taking up memory when the key is no longer reachable anywhere else. Another possible application of weak references is the string intern pool. Semantically, a weak reference means "get rid of this object when nothing else references it."
A '' is used to reference objects that have been marked for garbage collection and have been finalized, but have not yet been reclaimed. An object that is not strongly, softly or weakly reachable, but is referenced by a phantom reference is called ''phantom reachable''. This allows for more flexible cleanup than is possible with the finalization mechanism alone. Semantically, a phantom reference means "this object is no longer needed and has been finalized in preparation for being collected."
Each of these reference types extends the class which provides the method to return a strong reference to the referent object (or
The
See ''"Reference Objects and Garbage Collection"'' for a more thorough description of using reference types and reference queues.
Reflection is a constituent of the Java API which enables Java code to examine and "reflect" upon Java components at runtime and to use the reflected members. Classes in this package, along with
Reflection is used to instantiate classes and invoke methods using their names, a concept that allows for dynamic programming. Classes, interfaces, methods, fields, and constructors can all be discovered and used at runtime. Reflection is supported by metadata that the JVM has about the program. There are two basic techniques involved in reflection:
# ''Discovery'' involves taking an object or class and discovering the members, superclasses, implemented interfaces, and then possibly using the discovered elements.
# ''Use by name'' involves starting with the symbolic name of an element and using the named element.
Discovery typically starts with an object and calling the method to get the object's
★ – returns an array of objects representing all the public methods of the class or interface
★ – returns an array of objects representing all the public constructors of the class
★ – returns an array of objects representing all the public fields of the class or interface
★ – returns an array of
★ – return the
★ – returns an array of
The
★ – returns the
★ – returns the
★ – returns the
★ – returns an
★ – returns an
★ – returns the new
The
The implementation of a
The
The stream classes follow the decorator pattern by extending the base subclass to add features to the stream classes. Subclasses of the base stream classes are typically named for one of the following attributes:
★ the source/destination of the stream data
★ the type of data written to/read from the stream
★ additional processing or filtering performed on the stream data
The stream subclasses are named using the naming pattern
The following table shows the sources/destinations supported directly by the
:
Other standard library packages provide stream implementations for other destinations, such as the
Data type handling and processing or filtering of stream data is accomplished through stream filters. The filter classes all accept another compatible stream object as a parameter to the constructor and ''decorate'' the enclosed stream with addional features. Filters are created by extending one of the base filter classes , , , or .
The
The following table shows the other processes and filters supported directly by the
:
The class supports ''random access'' reading and writing of files. The class uses a ''file pointer'' that represents a byte-offset within the file for the next read or write operation. The file pointer is moved implicitly by reading or writing and explicitly by calling the or methods. The current position of the file pointer is returned by the method.
The class represents a file or directory path in a file system.
The class is a file descriptor that represents a source or sink (destination) of bytes. Typically this is a file, but can also be a console or network socket.
Main articles: New I/O
In J2SE 1.4, the package
The java.math package supports multiprecision arithmetic (including modular arithmetic operations) and provides multiprecision prime number generators used for cryptographic key generation. The main classes of the package are:
★ – provides arbitrary-precision signed decimal numbers.
★ – provides arbitrary-precision integers. Operations on
★ – encapsulate the context settings which describe certain rules for numerical operators.
★ – an enumeration that provides eight rounding behaviors.
The
The
Data structures that aggregate objects are the focus of the
Main articles: Java applet
Created to support Java applet creation, the
Main articles: JavaBeans
Included in the
Most of the APIs in
Main articles: Abstract Windowing Toolkit
The Abstract Windowing Toolkit contains routines to support basic GUI operations and uses basic windows from the underlying native system. Many independent implementations of the Java API (such as GNU's libgcj) implement everything but AWT, which is not used by most server-side applications. This package also contains the Java2D graphics API.
Main articles: Java Remote Method Invocation
The
Support for security, including the message digest algorithm, is included in the
Main articles: Java Database Connectivity
An implementation of the JDBC API (used to access SQL databases) is grouped into the
Main articles: RMI-IIOP
Provides the support for the remote communication between applications, using the RMI over IIOP protocol. This protocol combines RMI and CORBA features.
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Main articles: CORBA
Provides the support for the remote communication between applications using general inter ORB protocol and supports other features of the common object request broker architecture. Same as RMI and RMI-IIOP, this package is for calling remote methods of objects on other virtual machines (usually via network). From all communication possibilities CORBA is the most portable between various languages. However it is also rather difficult to understand.
Main articles: Swing (Java)
Swing is a collection of routines that build on
Swing is a very rich system in its own right, supporting pluggable looks and feels (PLAFs) so that widgets in the GUI can imitate those from the underlying native system. Design patterns permeate the system, especially a modification of the model-view-controller pattern, which loosens the coupling between function and appearance. One inconsistency is that (as of J2SE 1.3) fonts are drawn by the underlying native system, and not by Java, limiting text portability. Workarounds, such as using bitmap fonts, do exist. In general, ''layouts'' are used and keep elements within an aesthetically consistent GUI across platforms.
Provides the error tolerant HTML parser that is used for writing various web browsers and web bots.
★ Java EE
★ Java ME
★ Java Class Library
★ Java SE Main page
★
★ Java SE API documentation
★ JSR 270 (Java SE 6)
★ JSR 176 (J2SE 5.0)
★ JSR 59 (J2SE 1.4)
★ Java software development kits (status as of August 2006):
★
★ 1.7 (early development)
★
★ 1.6 (stable, current)
★
★ 1.5 (stable)
★
★ 1.4 (stable)
★
★ 1.3 (obsolete)
★
★ 1.2 (no longer actively supported)
★ Open Source Java
★ Java SE Tech Tips
'Java Platform, Standard Edition' or 'Java SE' is a widely used platform for programming in the Java language. It is the Java Platform used to deploy portable applications for general use.
In practical terms, Java SE consists of a virtual machine, which must be used to run Java programs, together with a set of libraries (or ''packages'') needed to allow the use of file systems, networks, graphical interfaces, and so on, from within those programs.
| Contents |
| Nomenclature, standards and specifications |
| General purpose packages |
| Discovery |
| Use by name |
| Arrays and proxies |
| Streams |
| Random access |
| File system |
| Special purpose packages |
| See also |
| External links |
Nomenclature, standards and specifications
Java SE was known as ''Java 2 Platform, Standard Edition'' or ''J2SE'' until version 1.4. After that, Sun decided to make a change for marketing purposes and just started referring to the last digit in the version number. Hence, J2SE 5.0 is the same as J2SE ver. 1.5 and JSE 6.0 is the same as JSE ver. 1.6.
The name was again changed by dropping the "2", to Java SE in version 1.6.
Starting with J2SE 1.4 (''Merlin''), Java SE has been developed under the Java Community Process. JSR 59 was the umbrella specification for J2SE 1.4 and JSR 176 specified J2SE 5.0 (''Tiger''). Java SE 6 (''Mustang'') was released under JSR 270.
Java Platform, Enterprise Edition is a related specification which includes all of the classes in Java SE, plus a number which are more useful to programs which run on servers as opposed to workstations.
This is not to be confused with JRE or J2SDK which refers to the actual files that you download and install on your computer in order to run or develop java programs respectively.
General purpose packages
The following are descriptions of some of the main Java SE packages. For a complete list of packages see the .
The Java package
java.lang contains fundamental classes and interfaces closely tied to the language and runtime system. This includes the root classes that form the class hierarchy, types tied to the language definition, basic exceptions, math functions, threading, security functions, as well as some information on the underlying native system.The main classes in
java.lang are:★ – the class that is the root of every class hierarchy. ''(See also Java syntax#Methods in the Object class.)''
★ – the base class for enumeration classes (as of J2SE 5.0).
★ – the class that is the root of the Java reflection system.
★ – the class that is the base class of the exception class hierarchy.
★ , , and – the base classes for each exception type.
★ – the class that allows operations on threads.
★ – the class for strings and string literals.
★ and – classes for performing string manipulation (
StringBuilder as of J2SE 5.0).★ – the interface that allows generic comparison and ordering of objects (as of J2SE 1.2).
★ – the interface that allows generic iteration using the enhanced
for loop (as of J2SE 5.0).★ , , ,, and – classes that provide "system operations" that manage the dynamic loading of classes, creation of external processes, host environment inquiries such as the time of day, and enforcement of security policies.
★ and – classes that provide basic math functions such as sine, cosine, and square root (
StrictMath as of J2SE 1.3).★ The primitive wrapper classes that encapsulate primitive types as objects.
★ The basic exception classes thrown for language-level and other common exceptions.
Classes in
java.lang are automatically imported into every source file.The
java.lang.ref package provides more flexible types of references than are otherwise available, permitting limited interaction between the application and the Java Virtual Machine (JVM) garbage collector. It is an important package, central enough to the language for the language designers to give it a name that starts with "java.lang", but it is somewhat special-purpose and not used by a lot of developers. This package was added in J2SE 1.2.Java has a more expressive system of reference than most other garbage-collected programming languages, which allows for special behavior for garbage collection. A normal reference in Java is known as a ''strong reference''. The
java.lang.ref package defines three other types of references—'''soft''', '''weak''', and '''phantom''' references. Each type of reference is designed for a specific use.A '' can be used to implement a cache. An object that is not reachable by a strong reference (that is, not ''strongly reachable''), but is referenced by a soft reference is called ''softly reachable''. A softly reachable object may be garbage collected at the discretion of the garbage collector. This generally means that softly reachable objects will only be garbage collected when free memory is low, but again, it is at the discretion of the garbage collector. Semantically, a soft reference means "keep this object unless the memory is needed."
A '' is used to implement weak maps. An object that is not strongly or softly reachable, but is referenced by a weak reference is called ''weakly reachable''. A weakly reachable object will be garbage collected during the next collection cycle. This behavior is used in the class . A weak map allows the programmer to put key/value pairs in the map and not worry about the objects taking up memory when the key is no longer reachable anywhere else. Another possible application of weak references is the string intern pool. Semantically, a weak reference means "get rid of this object when nothing else references it."
A '' is used to reference objects that have been marked for garbage collection and have been finalized, but have not yet been reclaimed. An object that is not strongly, softly or weakly reachable, but is referenced by a phantom reference is called ''phantom reachable''. This allows for more flexible cleanup than is possible with the finalization mechanism alone. Semantically, a phantom reference means "this object is no longer needed and has been finalized in preparation for being collected."
Each of these reference types extends the class which provides the method to return a strong reference to the referent object (or
null if the reference has been cleared or if the reference type is phantom), and the method to clear the reference.The
java.lang.ref also defines the class , which can be used in each of the applications discussed above to keep track of objects that have changed reference type. When a Reference is created it is optionally registered with a reference queue. The application polls the reference queue to get references that have changed reachability state.See ''"Reference Objects and Garbage Collection"'' for a more thorough description of using reference types and reference queues.
Reflection is a constituent of the Java API which enables Java code to examine and "reflect" upon Java components at runtime and to use the reflected members. Classes in this package, along with
java.lang.Class and accommodate applications such as debuggers, interpreters, object inspectors, class browsers, and services such as object serialization and JavaBeans that need access to either the public members of a target object (based on its runtime class) or the members declared by a given class. This package was added in JDK 1.1.Reflection is used to instantiate classes and invoke methods using their names, a concept that allows for dynamic programming. Classes, interfaces, methods, fields, and constructors can all be discovered and used at runtime. Reflection is supported by metadata that the JVM has about the program. There are two basic techniques involved in reflection:
# ''Discovery'' involves taking an object or class and discovering the members, superclasses, implemented interfaces, and then possibly using the discovered elements.
# ''Use by name'' involves starting with the symbolic name of an element and using the named element.
Discovery
Discovery typically starts with an object and calling the method to get the object's
Class. The Class object has several methods for discovering the contents of the class, for example:★ – returns an array of objects representing all the public methods of the class or interface
★ – returns an array of objects representing all the public constructors of the class
★ – returns an array of objects representing all the public fields of the class or interface
★ – returns an array of
Class objects representing all the public classes and interfaces that are members (e.g. inner classes) of the class or interface★ – return the
Class object representing the superclass of the class or interface (null is returned for interfaces)★ – returns an array of
Class objects representing all the interfaces that are implemented by the class or interfaceUse by name
The
Class object can be obtained either through discovery, by using the ''class literal'' (e.g. MyClass.class) or by using the name of the class (e.g. ). With a Class object, member Method, Constructor, or Field objects can be obtained using the symbolic name of the member. For example:★ – returns the
Method object representing the public method with the name "methodName" of the class or interface that accepts the parameters specified by the Class... parameters.★ – returns the
Constructor object representing the public constructor of the class that accepts the parameters specified by the Class... parameters.★ – returns the
Field object representing the public field with the name "fieldName" of the class or interface.Method, Constructor, and Field objects can be used to dynamically access the represented member of the class. For example:★ – returns an
Object containing the value of the field from the instance of the object passed to get(). (If the Field object represents a static field then the Object parameter is ignored and may be null.)★ – returns an
Object containing the result of invoking the method for the instance of the first Object parameter passed to invoke(). The remaining Object... parameters are passed to the method. (If the Method object represents a static method then the first Object parameter is ignored and may be null.)★ – returns the new
Object instance from invoking the constructor. The Object... parameters are passed to the constructor. (Note that the parameterless constructor for a class can also be invoked by calling .)Arrays and proxies
The
java.lang.reflect package also provides an class that contains static methods for creating and manipulating array objects, and since J2SE 1.3, a class that supports dynamic creation of proxy classes that implement specified interfaces.The implementation of a
Proxy class is provided by a supplied object that implements the interface. The InvocationHandler's method is called for each method invoked on the proxy object—the first parameter is the proxy object, the second parameter is the Method object representing the method from the interface implemented by the proxy, and the third parameter is the array of parameters passed to the interface method. The invoke() method returns an Object result that contains the result returned to the code that called the proxy interface method.The
java.io package contains classes that support input and output. The classes in the package are primarily stream-oriented; however, a class for random access files is also provided. The central classes in the package are and which are abstract base classes for reading from and writing to byte streams, respectively. The related classes and are abstract base classes for reading from and writing to character streams, respectively. The package also has a few miscellaneous classes to support interactions with the host file system.Streams
The stream classes follow the decorator pattern by extending the base subclass to add features to the stream classes. Subclasses of the base stream classes are typically named for one of the following attributes:
★ the source/destination of the stream data
★ the type of data written to/read from the stream
★ additional processing or filtering performed on the stream data
The stream subclasses are named using the naming pattern
''XxxStreamType'' where ''Xxx'' is the name describing the feature and ''StreamType'' is one of InputStream, OutputStream, Reader, or Writer.The following table shows the sources/destinations supported directly by the
java.io package::
| Source/Destination | Name | Stream types | In/Out | Classes |
|---|---|---|---|---|
byte array (byte[]) | ByteArray | byte | in, out | , |
char array (char[]) | CharArray | char | in, out | , |
| file | File | byte, char | in, out | , , , |
string (StringBuffer) | String | char | in, out | , |
thread (Thread) | Piped | byte, char | in, out | , , , |
Other standard library packages provide stream implementations for other destinations, such as the
InputStream returned by the method or the Java EE class.Data type handling and processing or filtering of stream data is accomplished through stream filters. The filter classes all accept another compatible stream object as a parameter to the constructor and ''decorate'' the enclosed stream with addional features. Filters are created by extending one of the base filter classes , , , or .
The
Reader and Writer classes are really just byte streams with additional processing performed on the data stream to convert the bytes to characters. They use the default character encoding for the platform, which as of J2SE 5.0 is represented by the returned by the static method. The class converts an InputStream to a Reader and the class converts an OutputStream to a Writer. Both these classes have constructors that allow the character encoding to use to be specified—if no encoding is specified then the default encoding for the platform is used.The following table shows the other processes and filters supported directly by the
java.io package. All of these classes extend the corresponding Filter class.:
| Operation | Name | Stream types | In/Out | Classes |
|---|---|---|---|---|
| buffering | Buffered | byte, char | in, out | , , , |
| "push back" last value read | Pushback | byte, char | in | , |
| read/write primitive types | Data | byte | in, out | , |
| object serialization (read/write objects) | Object | byte | in, out | , |
Random access
The class supports ''random access'' reading and writing of files. The class uses a ''file pointer'' that represents a byte-offset within the file for the next read or write operation. The file pointer is moved implicitly by reading or writing and explicitly by calling the or methods. The current position of the file pointer is returned by the method.
File system
The class represents a file or directory path in a file system.
File objects support the creation, deletion and renaming of files and directories and the manipulation of file attributes such as ''read-only'' and ''last modified timestamp''. File objects that represent directories can be used to get a list of all of the contained files and directories.The class is a file descriptor that represents a source or sink (destination) of bytes. Typically this is a file, but can also be a console or network socket.
FileDescriptor objects are used to create File streams. They are obtained from File streams and java.net sockets and datagram sockets.Main articles: New I/O
In J2SE 1.4, the package
java.nio (NIO or New I/O) was added to support memory-mapped I/O, facilitating IO operations closer to the underlying hardware with sometimes dramatically better performance. The java.nio package provides support for a number of buffer types. The subpackage provides support for different character encodings for character data. The subpackage provides support for ''channels,'' which represent connections to entities that are capable of performing I/O operations, such as files and sockets. The java.nio.channels package also provides support for fine-grained locking of files.The java.math package supports multiprecision arithmetic (including modular arithmetic operations) and provides multiprecision prime number generators used for cryptographic key generation. The main classes of the package are:
★ – provides arbitrary-precision signed decimal numbers.
BigDecimal gives the user control over rounding behavior through RoundingMode.★ – provides arbitrary-precision integers. Operations on
BigInteger do not overflow or lose precision. In addition to standard arithmetic operations, it provides modular arithmetic, GCD calculation, primality testing, prime number generation, bit manipulation, and other miscellaneous operations.★ – encapsulate the context settings which describe certain rules for numerical operators.
★ – an enumeration that provides eight rounding behaviors.
The
java.net package provides special IO routines for networks, allowing HTTP requests, as well as other common transactions.The
java.text package implements parsing routines for strings and supports various human-readable languages and locale-specific parsing.Data structures that aggregate objects are the focus of the
java.util package. Included in the package is the Collections API, an organized data structure hierarchy influenced heavily by the design patterns considerations.Special purpose packages
Main articles: Java applet
Created to support Java applet creation, the
java.applet package allows applications to be downloaded over a network and run within a guarded sandbox. Security restrictions are easily imposed on the sandbox. A developer, for example, may apply a digital signature to an applet, thereby labeling it as safe. Doing so allows the user to grant the applet permission to perform restricted operations (such as accessing the local hard drive), and removes some or all of the sandbox restrictions. Digital certificates are issued by such agencies as Thawte or Entrust.Main articles: JavaBeans
Included in the
java.beans package are various classes for developing and manipulating beans, reusable components defined by the JavaBeans architecture. The architecture provides mechanisms for manipulating properties of components and firing events when those properties change.Most of the APIs in
java.beans are intended for use by a bean editing tool, in which beans can be combined, customized and manipulated. One type of bean editor is a GUI designer in an integrated development environment.Main articles: Abstract Windowing Toolkit
The Abstract Windowing Toolkit contains routines to support basic GUI operations and uses basic windows from the underlying native system. Many independent implementations of the Java API (such as GNU's libgcj) implement everything but AWT, which is not used by most server-side applications. This package also contains the Java2D graphics API.
Main articles: Java Remote Method Invocation
The
java.rmi package provides Java remote method invocation to support remote procedure calls between two java applications running in different JVMs. Support for security, including the message digest algorithm, is included in the
java.security package.Main articles: Java Database Connectivity
An implementation of the JDBC API (used to access SQL databases) is grouped into the
java.sql package.Main articles: RMI-IIOP
Provides the support for the remote communication between applications, using the RMI over IIOP protocol. This protocol combines RMI and CORBA features.
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Main articles: CORBA
Provides the support for the remote communication between applications using general inter ORB protocol and supports other features of the common object request broker architecture. Same as RMI and RMI-IIOP, this package is for calling remote methods of objects on other virtual machines (usually via network). From all communication possibilities CORBA is the most portable between various languages. However it is also rather difficult to understand.
Main articles: Swing (Java)
Swing is a collection of routines that build on
java.awt to provide a platform independent widget toolkit. Swing uses the 2D drawing routines to render the user interface components instead of relying on the underlying native operating system GUI support.Swing is a very rich system in its own right, supporting pluggable looks and feels (PLAFs) so that widgets in the GUI can imitate those from the underlying native system. Design patterns permeate the system, especially a modification of the model-view-controller pattern, which loosens the coupling between function and appearance. One inconsistency is that (as of J2SE 1.3) fonts are drawn by the underlying native system, and not by Java, limiting text portability. Workarounds, such as using bitmap fonts, do exist. In general, ''layouts'' are used and keep elements within an aesthetically consistent GUI across platforms.
Provides the error tolerant HTML parser that is used for writing various web browsers and web bots.
See also
★ Java EE
★ Java ME
★ Java Class Library
External links
★ Java SE Main page
★
★ Java SE API documentation
★ JSR 270 (Java SE 6)
★ JSR 176 (J2SE 5.0)
★ JSR 59 (J2SE 1.4)
★ Java software development kits (status as of August 2006):
★
★ 1.7 (early development)
★
★ 1.6 (stable, current)
★
★ 1.5 (stable)
★
★ 1.4 (stable)
★
★ 1.3 (obsolete)
★
★ 1.2 (no longer actively supported)
★ Open Source Java
★ Java SE Tech Tips
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