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| Scala | |
|---|---|
| Paradigm | multi-paradigm: functional, object-oriented |
| Appeared in | 2003 |
| Designed by | Martin Odersky |
| Developer | Programming Methods Laboratory of EPFL |
| Latest release | 2.6.1/ December 19, 2007 |
| Typing discipline | static, strong, inferred |
| Major implementations | Scala |
| Influenced by | Java, Haskell, Standard ML, Objective Caml, Smalltalk |
| Website | http://www.scala-lang.org |
Scala (Scalable Language) is a multi-paradigm programming language designed to integrate features of object-oriented programming and functional programming.Martin Odersky et al, An Overview of the Scala Programming Language, 2nd Edition
Contents |
Scala runs on the Java Platform (Java Virtual Machine) and is compatible with existing Java programs. An alternative implementation exists for the .NET platform, but the main platform remains the Java Platform Scala on .NET. Programming Methods Laboratory of EPFL (2008-01-07). Retrieved on 2008-01-15. “Scala is primarily developed for the JVM and embodies some of its features. Nevretheless, its .NET support is designed to make it as portable across the two platforms as possible.”. It also runs on Java Platform, Micro Edition Connected Limited Device Configuration.
Scala was created at the École Polytechnique Fédérale de Lausanne (EPFL) in 2001 by Martin Odersky. It was released publicly on the Java platform in January 2004, and on the .NET platform in June the same year. A second version of the language was released in March 2006.
Scala is a pure object-oriented language in the sense that every value is an object. Types and behavior of objects are described by classes and traits. Class abstractions are extended by subclassing and a flexible mixin-based composition mechanism as a clean replacement for multiple inheritance.
Scala is also a functional language in the sense that every function is a value. Scala provides a lightweight syntax for defining anonymous functions, it supports higher-order functions, it allows functions to be nested, and supports currying. Scala\'s case classes and its built-in support for pattern matching model algebraic types used in many functional programming languages.
Furthermore, Scala\'s notion of pattern matching naturally extends to the processing of XML data with the help of regular expression patterns. In this context, sequence comprehensions are useful for formulating queries. These features make Scala ideal for developing applications like web services.
An implementation of a Quicksort algorithm in functional style, for comparison with the Erlang Quicksort example:
def qsort(l: List[Int]): List[Int] = {
l match {
case List() => l
case _ => qsort(for(x <- l.tail if x < l.head) yield x) ::: List(l.head) ::: qsort(for(x <- l.tail if x >= l.head) yield x)
}
}
Scala is equipped with an expressive type system that enforces statically that abstractions are used in a safe and coherent manner. In particular, the type system supports:
The design of Scala acknowledges the fact that in practice, the development of domain-specific applications often requires domain-specific language extensions. Scala provides a unique combination of language mechanisms that make it easy to smoothly add new language constructs in form of libraries:
A joint use of both features facilitates the definition of new statements without extending the syntax and without using macro-like meta-programming facilities.
Scala is designed to interoperate well with popular programming environments like the Java 2 Runtime Environment (JRE) and the .NET CLR. In particular, the interaction with mainstream object-oriented languages like Java and C# is as smooth as possible.
In other words, Scala can effortlessly make use of all libraries available for Java/C#, addressing the common drawback of using advanced functional languages which is that the small community, much of it centered around academia, often does not get to implementing quality libraries for common real-world tasks such as relational database access, XML processing, regular expressions, and so on. Scala can accomplish those tasks in a manner very similarly to how one would in Java or C#.
Scala has the same compilation model (separate compilation, dynamic class loading) as Java and C#, and allows thousands of high-quality libraries to be accessed.
Here is the canonical Hello world program written in Scala:
object HelloWorld extends Application {
println("Hello, world!")
}
or
object HelloWorld {
def main(args: Array[String]) =
println("Hello, world!")
}
Notice how similar it is to the stand-alone Hello World application for Java. The notable difference is that we do not declare anything to be static or void; the object keyword gives us a singleton object, freeing us from having to invoke any such constructs.
One would then compile this from the command line roughly as follows, assuming it was saved in a filename called HelloWorld.scala:
> scalac HelloWorld.scala
One would then run it like so:
> scala -classpath . HelloWorld
This is analogous to how one compiles and runs a Java "hello world" program. Indeed, Scala\'s compilation and execution model is identical to that of Java, making it compatible with Java build tools such as Ant.
There are some ways to test code in Scala:
This article is licensed under the GNU Free Documentation License. It uses material from Wikipedia