java.nio (NIO stands for New Input/Output [1] [2] ) is a collection of Java programming language APIs that offer features for intensive I/O operations. It was introduced with the J2SE 1.4 release of Java by Sun Microsystems to complement an existing standard I/O. NIO was developed under the Java Community Process as JSR 51. [3] An extension to NIO that offers a new file system API, called NIO.2, was released with Java SE 7 ("Dolphin"). [4]
The APIs of NIO were designed to provide access to the low-level I/O operations of modern operating systems. Although the APIs are themselves relatively high-level, the intent is to facilitate an implementation that can directly use the most efficient operations of the underlying platform.
The Java NIO APIs are provided in the java.nio
package and its subpackages. The documentation by Oracle identifies these features.
java.util.regex
)Integer.MAX_VALUE
bytes (2 GiB)NIO data transfer is based on buffers ( java.nio.Buffer
and related classes). These classes represent a contiguous extent of memory, together with a small number of data transfer operations. Although theoretically these are general-purpose data structures, the implementation may select memory for alignment or paging characteristics, which are not otherwise accessible in Java. Typically, this would be used to allow the buffer contents to occupy the same physical memory used by the underlying operating system for its native I/O operations, thus allowing the most direct transfer mechanism, and eliminating the need for any additional copying. In most operating systems, provided the particular area of memory has the right properties, transfer can take place without using the CPU at all. The NIO buffer is intentionally limited in features in order to support these goals.
There are buffer classes for all of Java's primitive types except boolean
, which can share memory with byte buffers and allow arbitrary interpretation of the underlying bytes.
NIO buffers maintain several pointers that dictate the function of their accessor methods. The NIO buffer implementation contains a rich set of methods for modifying these pointers:
flip()
method, rather than performing a "flip" or paging function in the canonical sense, moves the position pointer to the origin of the underlying array (if any) and the limit pointer to the former position of the position pointer.get()
methods are supplied for transferring data out of a NIO buffer. The bulk implementation, rather than performing a "get" in the traditional sense, "puts" the data into a specified array. The "offset" argument supplied to this method refers not to the offset from within the buffer from which to read, nor an offset from the position pointer, but rather the offset from 0 within the target array.get()
and put()
methods, any get()
or put()
is conducted from the position pointer. Should one need to read from a different position within the underlying array, whilst not adjusting the writing position, the mark()
and reset()
methods have been supplied.mark()
method effectively stores the position of the position pointer by setting the mark pointer to the position of the position pointer. The reset()
method causes the position pointer to move to the mark pointer's position.clear()
method or the flip()
method the mark pointer is discarded.clear()
method does not ensure zero-ing of the buffer, but does return the limit pointer to the upper boundary of the underlying array, and the position pointer to zero.put()
and get()
operations for NIO buffers are not thread safe.map()
a java.nio.MappedByteBuffer
from a java.nio.channels.FileChannel
up to Integer.MAX_VALUE
in size (2GiB); regions beyond this limit can be accessed using an offset greater than zero.Channels (classes implementing the interface java.nio.channels.Channel
) are designed to provide for bulk data transfers to and from NIO buffers. This is a low-level data transfer mechanism that exists in parallel with the classes of the higher-level I/O library (packages java.io
and java.net
). A channel implementation can be obtained from a high-level data transfer class such as java.io.File
, java.net.ServerSocket
, or java.net.Socket
, and vice versa. Channels are analogous to "file descriptors" found in Unix-like operating systems.
File channels ( java.nio.channels.FileChannel
) can use arbitrary buffers but can also establish a buffer directly mapped to file contents using memory-mapped file. They can also interact with file system locks. Similarly, socket channels ( java.nio.channels.SocketChannel
and java.nio.channels.ServerSocketChannel
) allow for data transfer between sockets and NIO buffers.
FileChannel
can be used to do a file copy, which is potentially far more efficient than using old read/write with a byte array. The typical code for this is:
// Getting file channelstry(FileChannelin=FileChannel.open(source,StandardOpenOption.READ);FileChannelout=FileChannel.open(target,StandardOpenOption.WRITE)){// JavaVM does its best to do this as native I/O operations.in.transferTo(0,in.size(),out);}
A selector ( java.nio.channels.Selector
and subclasses) provides a mechanism for waiting on channels and recognizing when one or more become available for data transfer. When a number of channels are registered with the selector, it enables blocking of the program flow until at least one channel is ready for use, or until an interruption condition occurs.
Although this multiplexing behavior could be implemented with threads, the selector can provide a significantly more efficient implementation using lower-level operating system constructs. A POSIX-compliant operating system, for example, would have direct representations of these concepts, select(). A notable application of this design would be the common paradigm in server software which involves simultaneously waiting for responses on a number of sessions.
In Java, a character set is a mapping between Unicode characters (or a subset of them) and bytes. The java.nio.charset
package of NIO provides facilities for identifying character sets and providing encoding and decoding algorithms for new mappings.
It is unexpected that a Channel associated with a Java IO RandomAccess file closes the file descriptor on an interrupt, whereas RandomAccessFiles own read method does not do this. [5]
This section needs expansion. You can help by adding to it. (December 2009) |
JDK 7 includes a java.nio.file
package which, with the Path
class (also new to JDK 7), among other features, provides extended capabilities for filesystem tasks, e.g. can work with symbolic/hard links and dump big directory listings into buffers more quickly than the old File class does. The java.nio.file
package and its related package, java.nio.file.attribute
, provide comprehensive support for file I/O and for accessing the file system. A zip file system provider is also available in JDK 7.
The java.nio.file.LinkOption
is an example of emulating extensible enums with interfaces. [6] In Java, it is not possible to have one Enum
extend another Enum
. However, it is possible to emulate an extensible Enum
type by having an Enum
implement one or more interfaces. LinkOption
is an enum type that implements both the OpenOption
and CopyOption
interfaces, which emulates the effects of an extensible Enum
type. A small down-side to this approach is that implementations cannot be inherited between various Enum
types.
{{cite web}}
: Check date values in: |accessdate=
(help)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 anywhere (WORA), meaning that compiled Java code can run on all platforms that support Java without the need to recompile. Java applications are typically compiled to bytecode that can run on any Java virtual machine (JVM) regardless of the underlying computer architecture. The syntax of Java is similar to C and C++, but has fewer low-level facilities than either of them. The Java runtime provides dynamic capabilities that are typically not available in traditional compiled languages.
A Java virtual machine (JVM) is a virtual machine that enables a computer to run Java programs as well as programs written in other languages that are also compiled to Java bytecode. The JVM is detailed by a specification that formally describes what is required in a JVM implementation. Having a specification ensures interoperability of Java programs across different implementations so that program authors using the Java Development Kit (JDK) need not worry about idiosyncrasies of the underlying hardware platform.
In computing, serialization is the process of translating a data structure or object state into a format that can be stored or transmitted and reconstructed later. When the resulting series of bits is reread according to the serialization format, it can be used to create a semantically identical clone of the original object. For many complex objects, such as those that make extensive use of references, this process is not straightforward. Serialization of objects does not include any of their associated methods with which they were previously linked.
Java Platform, Standard Edition is a computing platform for development and deployment of portable code for desktop and server environments. Java SE was formerly known as Java 2 Platform, Standard Edition (J2SE).
Java and C++ are two prominent object-oriented programming languages. By many language popularity metrics, the two languages have dominated object-oriented and high-performance software development for much of the 21st century, and are often directly compared and contrasted. Java's syntax was based on C/C++.
In computing, the Java API for XML Processing (JAXP), one of the Java XML application programming interfaces (APIs), provides the capability of validating and parsing XML documents. It has three basic parsing interfaces:
A Berkeley (BSD) socket is an application programming interface (API) for Internet domain sockets and Unix domain sockets, used for inter-process communication (IPC). It is commonly implemented as a library of linkable modules. It originated with the 4.2BSD Unix operating system, which was released in 1983.
Java Data Objects (JDO) is a specification of Java object persistence. One of its features is a transparency of the persistence services to the domain model. JDO persistent objects are ordinary Java programming language classes (POJOs); there is no requirement for them to implement certain interfaces or extend from special classes. JDO 1.0 was developed under the Java Community Process as JSR 12. JDO 2.0 was developed under JSR 243 and was released on May 10, 2006. JDO 2.1 was completed in Feb 2008, developed by the Apache JDO project. JDO 2.2 was released in October 2008. JDO 3.0 was released in April 2010.
This article compares two programming languages: C# with Java. While the focus of this article is mainly the languages and their features, such a comparison will necessarily also consider some features of platforms and libraries.
A Java class file is a file containing Java bytecode that can be executed on the Java Virtual Machine (JVM). A Java class file is usually produced by a Java compiler from Java programming language source files containing Java classes. If a source file has more than one class, each class is compiled into a separate class file. Thus, it is called a .class file because it contains the bytecode for a single class.
The syntax of Java is the set of rules defining how a Java program is written and interpreted.
Java OpenGL (JOGL) is a wrapper library that allows OpenGL to be used in the Java programming language. It was originally developed by Kenneth Bradley Russell and Christopher John Kline, and was further developed by the Game Technology Group at Sun Microsystems. Since 2010, it has been an independent open-source project under a BSD license. It is the reference implementation for Java Bindings for OpenGL (JSR-231).
In the Java computer programming language, an annotation is a form of syntactic metadata that can be added to Java source code. Classes, methods, variables, parameters and Java packages may be annotated. Like Javadoc tags, Java annotations can be read from source files. Unlike Javadoc tags, Java annotations can also be embedded in and read from Java class files generated by the Java compiler. This allows annotations to be retained by the Java virtual machine at run-time and read via reflection. It is possible to create meta-annotations out of the existing ones in Java.
The Java collections framework is a set of classes and interfaces that implement commonly reusable collection data structures.
Java is a set of computer software and specifications that provides a software platform for developing application software and deploying it in a cross-platform computing environment. Java is used in a wide variety of computing platforms from embedded devices and mobile phones to enterprise servers and supercomputers. Java applets, which are less common than standalone Java applications, were commonly run in secure, sandboxed environments to provide many features of native applications through being embedded in HTML pages.
The Java language has undergone several changes since JDK 1.0 as well as numerous additions of classes and packages to the standard library. Since J2SE 1.4, the evolution of the Java language has been governed by the Java Community Process (JCP), which uses Java Specification Requests (JSRs) to propose and specify additions and changes to the Java platform. The language is specified by the Java Language Specification (JLS); changes to the JLS are managed under JSR 901. In September 2017, Mark Reinhold, chief Architect of the Java Platform, proposed to change the release train to "one feature release every six months" rather than the then-current two-year schedule. This proposal took effect for all following versions, and is still the current release schedule.
Thrift is an IDL and binary communication protocol used for defining and creating services for programming languages. It was developed by Facebook. Since 2020, it is an open source project in the Apache Software Foundation.
The Java Class Library (JCL) is a set of dynamically loadable libraries that Java Virtual Machine (JVM) languages can call at run time. Because the Java Platform is not dependent on a specific operating system, applications cannot rely on any of the platform-native libraries. Instead, the Java Platform provides a comprehensive set of standard class libraries, containing the functions common to modern operating systems.
Java Database Connectivity (JDBC) is an application programming interface (API) for the Java programming language which defines how a client may access a database. It is a Java-based data access technology used for Java database connectivity. It is part of the Java Standard Edition platform, from Oracle Corporation. It provides methods to query and update data in a database, and is oriented toward relational databases. A JDBC-to-ODBC bridge enables connections to any ODBC-accessible data source in the Java virtual machine (JVM) host environment.
Windows Runtime (WinRT) is a platform-agnostic component and application architecture first introduced in Windows 8 and Windows Server 2012 in 2012. It is implemented in C++ and officially supports development in C++, Rust/WinRT, Python/WinRT, JavaScript-TypeScript, and the managed code languages C# and Visual Basic (.NET) (VB.NET).