Xtend
Paradigm | Object-oriented, imperative, functional |
---|---|
Designed by | Sven Efftinge, Sebastian Zarnekow |
Developer | itemis |
First appeared | 2011 |
Stable release | 2.9.0 / December 1, 2015 |
Typing discipline | Static, strong, inferred |
Platform | Java Virtual Machine |
OS | Cross-platform |
License | Eclipse Public License |
Website | http://www.xtend-lang.org |
Influenced by | |
Java, Scala, Groovy, Smalltalk, Xpand |
Xtend is a general-purpose high-level programming language for the Java Virtual Machine. Syntactically and semantically Xtend has its roots in the Java programming language but focuses on a more concise syntax and some additional functionality such as type inference, extension methods, and operator overloading. Being primarily an object-oriented language, it also integrates features known from functional programming, e.g. lambda expressions. Xtend is statically typed and uses Java's type system without modifications. It is compiled to Java code and thereby seamlessly integrates with all existing Java libraries.
The language Xtend and its IDE is developed as a project at Eclipse.org[1] and participates in the annual Eclipse release train. The code is open source under the Eclipse Public License. Yet, the language can be compiled and run independent of the Eclipse platform.
History
Xtend originated from Xtext, which is the technology used to define the language and the editor. Xtend was first released as part of Xtext in the Eclipse release Indigo[2] in June 2011. Since the Eclipse release Juno[3] (June 2012, Xtend version 2.3) Xtend has become a standalone project.
The language Xtend described here should not be confused with the older language with the same name in the Xpand[4] project. Initially, Xtend was named Xtend2 for better distinction. The '2' was dropped soon for simplicity. With its template expressions, Xtend is meant as a replacement of the entire Xpand technology.
Philosophy
Java is one of the most popular programming languages ever, and it has grown an enormous ecosystem of libraries and tools throughout the years. Yet, its syntax is quite verbose, and some concepts are missing and only added very slowly. Xtend tries to get the best of Java, but kill the syntactic noise and add essential new features to allow for better readable and more powerful code.
To make it easier to learn for Java developers, Xtend's syntax is close to Java's. Xtend maintains maximum compatibility with Java by compiling to Java code and using Java's type system. Java code and Xtend code can be mixed inside the same project at will.
Using a combination of lambda expressions and extension methods, the language can be extended by means of libraries, i.e. without changing the language itself. A small standard library makes heavy use of this.
Xtend has always been designed with good tooling in mind. The Eclipse-based Xtend IDE offers things like syntax highlighting, code completion, refactoring, navigation and debugging. It also integrates tightly with Eclipse's Java Development Toolkit.[5]
Semantics
Xtend resembles Java in many regards. Here is an example Xtend file:
package sample
import java.util.List
class Greeter {
def greetThem(List<String> names) {
for(name: names) {
println(name.sayHello)
}
}
def sayHello(String name) {
'Hello ' + name + '!'
}
}
Xtend provides type inference, i.e. the type of name
and the return types of the methods can be inferred from the context. Classes and methods are public
by default, fields private
. Semicolons are optional.
The example also shows the method sayHello
called as an extension method, i.e. like a feature of its first argument. Extension methods can also be provided by other classes or instances.
Instead of using the imperative for-loop, one could use a functional style lambda expression in square brackets and call the higher-order function forEach
in extension syntax on the list:
def greetThem(List<String> names) {
names.forEach [ println(sayHello) ]
}
Note that the lambda's parameter, if not specified, is called it
, which can be skipped like this
in Java. Its type is inferred as string. Lambda expressions are also automatically coerced to single method interfaces, such that they can be passed e.g. as a java.lang.Comparable
.
Template expressions are multi-line strings within triple quotes with interpolated values in French quotes. In the example above one could write
def sayHello(String name) '''
Hello «name» !
'''
Xtend offers intelligent white-space management - the above text will not be indented in the output - thus meeting the requirements of code generation.
Further language features include multimethods, a powerful switch expression, and operator overloading by means of library methods.
References
- ↑ Sven Efftinge. "Official Xtend Homepage at". Eclipse.org. Retrieved 2013-09-14.
- ↑ "Eclipse Indigo release". Wiki.eclipse.org. 2011-03-30. Retrieved 2013-09-14.
- ↑ "Eclipse Juno release". Wiki.eclipse.org. 2012-03-17. Retrieved 2013-09-14.
- ↑ "Xpand". Wiki.eclipse.org. 2013-06-04. Retrieved 2013-09-14.
- ↑ "JDT". Eclipse.org. Retrieved 2013-09-14.
External links
- Sven Efftinge, Sebastian Zarnekow, Extending Java, Pragmatic Programmer Magazine, Dec 2011.
- Alex Blewitt: Xtend Extends Java, Interview with Sven Efftinge, InfoQ, Jun 2012.