Standard Edition 6
The JRE provides the libraries, Java virtual machine, and other components necessary for you to run applets and applications written in the Java programming language. This runtime environment can be redistributed with applications to make them free-standing.
The JDK includes the JRE plus command-line development tools such as compilers and debuggers that are necessary or useful for developing applets and applications.
The Java Programming Language is a general-purpose, concurrent, strongly typed, class-based object-oriented language. It is normally compiled to the bytecode instruction set and binary format defined in the Java Virtual Machine Specification. For more information see Language Features.
The Java virtual machine is an abstract computing machine that has an instruction set and manipulates memory at run time. The Java virtual machine is ported to different platforms to provide hardware- and operating system-independence.
The Java Platform, Standard Edition provides two implementations of the Java virtual machine (VM):
The client VM is an implementation for platforms typically used for
client applications. The client VM is tuned for reducing start-up time and memory
footprint. It can be invoked by using the
option when launching an application.
The server VM is an implementation designed for maximum program execution speed,
trading off launch time and memory.
It can be invoked by using the
-server command-line option
when launching an application.
For more information, see the VM documentation.
Classes and interfaces that provide basic features and fundamental functionality for the Java platform.
Provides the fundamental Object and Class classes, wrapper classes for primitive types, a basic math class, and more. See the Lang and Util documentation for more information.
Math functionality includes floating point libraries and arbitrary-precision math. For more information, see the Math documentation.
Monitoring and Management
Comprehensive monitoring and management support for Java platform including Monitoring and Management API for Java virtual machine, Monitoring and Management API for the Logging Facility, jconsole and other monitoring utilities, out-of-the-box monitoring and management, Java Management Extensions (JMX), and Sun's Platform Extension. See the Monitoring and Management documentation for more information.
Package Version Identification
The package versioning feature enables package-level version control so that applications and applets can identify at runtime the version of a specific Java Runtime Environment, VM, and class package. For more information, see the Package Version Identification documentation.
Reference objects support a limited degree of interaction with the garbage collector. A program may use a reference object to maintain a reference to some other object in such a way that the latter object may still be reclaimed by the collector. A program may also arrange to be notified some time after the collector has determined that the reachability of a given object has changed. Reference objects are therefore useful for building simple caches as well as caches that are flushed when memory runs low, for implementing mappings that do not prevent their keys (or values) from being reclaimed, and for scheduling pre-mortem cleanup actions in a more flexible way than is possible with the Java finalization mechanism. For more information, see the Reference Objects documentation.
Reflection enables Java code to discover information about the fields, methods and constructors of loaded classes, and to use reflected fields, methods, and constructors to operate on their underlying counterparts on objects, within security restrictions. The API accommodates applications 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. Programs can suppress default reflective access control. For more information, see the Reflection documentation.
A collection is an object that represents a group of objects. The collections framework is a unified architecture for representing collections, allowing them to be manipulated independently of the details of their representation. It reduces programming effort while increasing performance. It allows for interoperability among unrelated APIs, reduces effort in designing and learning new APIs, and fosters software reuse. For more information, see the Collections Framework documentation.
The Concurrency Utilities packages provide a powerful, extensible framework of high-performance threading utilities such as thread pools and blocking queues. This package frees the programmer from the need to craft these utilities by hand, in much the same manner the Collections Framework did for data structures. Additionally, these packages provide low-level primitives for advanced concurrent programming. For more information, See the Concurrency Utilities documentation.
Java Archive (JAR) Files
JAR (Java Archive) is a platform-independent file format that aggregates many files into one. Multiple Java applets and their requisite components (.class files, images and sounds) can be bundled in a JAR file and subsequently downloaded to a browser in a single HTTP transaction, greatly improving the download speed. The JAR format also supports compression, which reduces the file size, further improving the download time. In addition, the applet author can digitally sign individual entries in a JAR file to authenticate their origin. It is fully extensible. For more information, see the Java Archive documentation.
The Logging APIs facilitate software servicing and maintenance at customer sites by producing log reports suitable for analysis by end users, system administrators, field service engineers, and software development teams. The Logging APIs capture information such as security failures, configuration errors, performance bottlenecks, and/or bugs in the application or platform. For more information, see the Logging documentation.
The Preferences API provides a way for applications to store and retrieve user and system preference and configuration data. The data is stored persistently in an implementation-dependent backing store. There are two separate trees of preference nodes, one for user preferences and one for system preferences. For more information, see the Preferences API documentation,
java.nio packages provide a
rich set of APIs for managing an application's I/O. The functionality
includes file and device I/O, object serialization, buffer management,
and character-set support. Additionally, the APIs support features for
scalable servers including multiplexed, non-blocking I/O, memory mapping
and locks for files. For more information, see the I/O documentation.
Object Serialization extends the core Java Input/Output classes with support for objects. Object Serialization supports the encoding of objects, and the objects reachable from them, into a stream of bytes; and it supports the complementary reconstruction of the object graph from the stream. Serialization is used for lightweight persistence and for communication via sockets or Remote Method Invocation (RMI). See the Object Serialization documentation for more information.
Provides classes for networking functionality, including addressing, classes for using URLs and URIs, socket classes for connecting to servers, networking security functionality, and more. See the Networking documentation for more information.
APIs for security-related functionality such as configurable access control, digital signing, authentication and authorization, cryptography, secure Internet communication, and more. See the Security documentation for more information.
APIs that enable the development of internationalized applications. Internationalization is the process of designing an application so that it can be adapted to various languages and regions without engineering changes. See the Internationalization documentation for more information.
JavaBeansTM Component API
Contains classes related to developing beans -- components based on the JavaBeansTM architecture that can be pieced together as part of developing an application. See the JavaBeans documentation for more information.
Java Mangement Extensions (JMX)
The Java Management Extensions (JMX) API is a standard API for management and monitoring of resources such as applications, devices, services, and the Java virtual machine. Typical uses include consulting and changing application configuration, accumulating statistics about application behavior, and notifying of state changes and erroneous conditions. The JMX API includes remote access, so a remote management program can interact with a running application for these purposes. See the Java Management Extensions documentation for more information.
The Java platform provides a rich set of APIs for processing XML documents and data. See the Java SE XML documentation for more information.
Java Native Interface (JNI)
Java Native Interface (JNI) is a standard programming interface for writing Java native methods and embedding the Java virtual machine into native applications. The primary goal is binary compatibility of native method libraries across all Java virtual machine implementations on a given platform. See the Java Native Interface documentation for more information.
Optional packages are packages of Java classes (and any associated native code) that application developers can use to extend the functionality of the core platform. The extension mechanism allows the Java virtual machine (VM) to use the classes of the optional extension in much the same way as the VM uses classes in the Java Platform. The extension mechanism also provides a way for needed optional packages to be retrieved from specified URLs when they are not already installed in the JDK or Runtime Environment. See the Java Extension Mechanism documentation for more information.
Endorsed Standards Override Mechanism
An endorsed standard is a Java API defined through a standards process other than the Java Community ProcessSM (JCP). Because endorsed standards are defined outside the JCP, it is anticipated that such standards may be revised between releases of the Java Platform. In order to take advantage of new revisions to endorsed standards, developers and software vendors may use the Endorsed Standards Override Mechanism to provide newer versions of an endorsed standard than those included in the Java Platform as released by Sun Microsystems. See the Endorsed Standards Override Mechanism documentation for more information.
The JDBCTM API provides universal data access from the Java programming language. Using the JDBC 3.0 API, you developers can write applications that can access virtually any data source, from relational databases to spreadsheets and flat files. JDBC technology also provides a common base on which tools and alternate interfaces can be built. For more information, see the JDBC documentation.
Remote Method Invocation (RMI) enables the development of distributed applications by providing for remote communication between programs written in the Java programming language. RMI enables an object running in one Java Virtual Machine to invoke methods on an object running in another Java VM, which may be on a different host. For more information, see the Java SE RMI documentation.
Java IDL technology adds CORBA (Common Object Request Broker Architecture) capability to the Java platform, providing standards-based interoperability and connectivity. Java IDL enables distributed Web-enabled Java applications to transparently invoke operations on remote network services using the industry standard IDL (Object Management Group Interface Definition Language) and IIOP (Internet Inter-ORB Protocol) defined by the Object Management Group. Runtime components include a Java ORB for distributed computing using IIOP communication. For more information, see the Java IDL documentation.
Java Remote Method Invocation over Internet Inter-ORB Protocol technology The RMI Programming Model enables the programming of CORBA servers and applications via the RMI API. You can choose to work completely within the Java programming language using the Java Remote Method Protocol (JRMP) as the transport, or work with other CORBA-compliant programming languages using the Internet InterORB Protocol (IIOP). You use the rmic compiler to generate the code necessary for connecting your applications via the Internet InterORB Protocol (IIOP) to others written in any CORBA-compliant language. To work with CORBA applications in other languages, IDL can be generated from Java programming language interfaces using the rmic compiler with the -idl option. To generate IIOP stubs and tie classes, use the rmic compiler with the -iiop option. For more information, see the RMI-IIOP documentation.
Java SE 6 includes the
The Java Naming and Directory InterfaceTM (JNDI) provides naming and directory functionality to applications written in the Java programming language. It is designed to be independent of any specific naming or directory service implementation. Thus a variety of services--new, emerging, and already deployed ones--can be accessed in a common way. The JNDI architecture consists of a API and an SPI (Service Provider Interface). Java applications use this API to access a variety of naming and directory services. The SPI enables a variety of naming and directory services to be plugged in transparently, allowing the Java application using the JNDI API to access their services. For more information, see JNDI documentation.
The input method framework enables the collaboration between text editing components and input methods in entering text. Input methods are software components that let the user enter text in ways other than simple typing on a keyboard. They are commonly used to enter Japanese, Chinese, or Korean -- languages using thousands of different characters - on keyboards with far fewer keys. However, the framework also supports input methods for other languages and the use of entirely different input mechanisms, such as handwriting or speech recognition. For more information, see the Input Method Framework documentation.
With the Java Accessibility API, developers can easily create Java applications that are accessible to disabled persons. Accessible Java applications are compatible with assistive technologies such as screen readers, speech recognition systems, and refreshable braille displays. For more information, see the Accessibility documentation.
The JavaTM Print Service API, allows printing on all Java platforms including those requiring a small footprint, such as a Java ME profile. For more information, see Java Print Service documentation.
The Java platform includes a powerful API for capturing, processing, and playing back audio and MIDI (Musical Intstrument Digital Interface) data. This API is supported by an efficient sound engine which guarantees high-quality audio mixing and MIDI synthesis capabilities for the platform. For more information, see Java Sound documentation.
Drag and Drop enables data transfer both across Java programming language and native applications, between Java programming language applications, and within a single Java programming language application. For more information, see Drag and Drop Transfer.
The Java Image I/O API provides a pluggable architecture for working with images stored in files and accessed across the network. The API provides provides a framework for the addition of format-specific plugins. Plug-ins for several common formats are included with Java Image I/O, but third parties can use this API to create their own plugins to handle special formats. For more information, see Image I/O.
The Java 2DTM API is a set of classes for advanced 2D graphics and imaging. It encompasses line art, text, and images in a single comprehensive model. The API provides extensive support for image compositing and alpha channel images, a set of classes to provide accurate color space definition and conversion, and a rich set of display-oriented imaging operators. For more information, see the Java 2D documentation.
The JavaTM platform's Abstract Windowing Toolkit (AWT) provides APIs for constructing user interface components such as menus, buttons, text fields, dialog boxes, checkboxes, and for handling user input through those components. In addition, AWT allows for rendering of simple shapes such as ovals and polygons and enables developers to control the user-interface layout and fonts used by their applications. For more information, see the AWT documentation.
The Swing APIs also provide graphical component (GUI) for use in user interfaces. The Swing APIs are written in the Java programming language without any reliance on code that is specific to the GUI facilities provided by underlying operating system. This allows the Swing GUI components to have a "pluggable" look-and-feel that can be switched while an application is running. For more information, see the Java SE Swing documentation.
Architecture and specifications for for use by debuggers in development environments. For more information, see the Java Platform Debugger Architecture (JPDA) documentation.
The Java Virtual Machine Tool Interface (JVM TI) is a specification for inspecting the state and controlling the execution of applications running in the JVM. The Java Virtual Machine Profiler Interface (JVMPI) has been deprecated. For more information, see the Java Virtual Machine Tool Interface (JVM TI) documentation.
Javadoc is a tool that parses the declarations and documentation comments source files to produce a set of HTML pages describing the program elements. The Doclet API provides a mechanism for clients to inspect the source-level structure of programs and libraries, including javadoc comments embedded in the source. This API can be used by doclets to generate documentation. For more information, see the Javadoc documentation.
The apt tool is a command-line utility for annotation processing. It includes a set of reflective APIs and supporting infrastructure to process program annotations. These reflective APIs provide a build-time, source-based, read-only view of program structure. They are designed to cleanly model the Java programming language's type system after the addition of generics. For more information, see the apt documentation.
The package com.sun.tools.attach contains a Sun Microsystems extension to the Java Platform that allows an application to attach to a running Java virtual machine. Once the attach has been made, a tool agent can be started in the target virutal machine. For more information, see the attach documentation.
The package com.sun.tools.jconsole contains a Sun Microsystems extension to the Java Platform that provides a programmatic interface to access JConsole. For more information, see Using JConsole.
Documentation for the tools and utilities included in the JDK. Covers basic tools (javac, java, javadoc, apt, appletviewer, jar, jdb, javah, javap, extcheck), security tools, internationalization tools, RMI tools, IDL and RMI-IIOP tools, deployment tools, Java Plug-in tools, and Java Web Start tools, monitoring and management tools, and troubleshooting tools. For more information, see the JDK Tools and Utilities documentation.
Sun provides implementations of the JDK and Java Runtime Environment
for Microsoft Windows, Linux, and the Solaris operating systems. See
Other companies may provide implementations of the Java platform for other operating systems such as Macintosh, AIX, etc.