GNU Compiler for Java
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| Developer(s) | The GNU Project |
|---|---|
| Operating system | Unix-like |
| Type | Compiler |
| License | GNU GPL |
| Website | http://gcc.gnu.org/java |
The GNU Compiler for Java (GCJ) is a free compiler software for the Java programming language and a part of the GNU Compiler Collection.[1][2]
GCJ can compile Java source code to Java Virtual Machine bytecode or to machine code for a number of CPU architectures. It can also compile class files and whole JARs that contain bytecode.[3][4]
Contents
History
The GCJ runtime-libraries original source is from GNU Classpath project, but there is a code difference between the libgcj libraries. GCJ 4.3 integrates with ecj[clarify], the Eclipse Compiler for Java.[5]
In 2007 a lot of work was done to implement support for Java's two graphical APIs in GNU Classpath: AWT and Swing .
As of 2013 there have been no new developments announced from GCJ[6] and the product is currently in maintenance mode.
Software support for AWT is still in development. The next planned support feature after AWT support is a software support for Swing.[7]
Performance
The compilation function in GCJ should have a faster start-up time than the equivalent bytecode launched in a JVM when compiling Java code into machine code.[8]
CNI (Compiled Native Interface)
The CNI (Compiled Native Interface, previously named 'Cygnus Native Interface') is a software framework for the GCJ that allows Java code to call, and be called, by native applications (programs specific to a hardware and operating-system platform) and libraries written in C++.
CNI closely resembles the JNI (Java Native Interface) framework which comes as a standard with various Java virtual machines.
Comparison of language use
the authors of CNI claim for various advantages over JNI:[9]
| “ | We use CNI because we think it is a better solution, especially for a Java implementation that is based on the idea that Java is just another programming language that can be implemented using standard compilation techniques. Given that, and the idea that languages implemented using Gcc should be compatible where it makes sense, it follows that the Java calling convention should be as similar as practical to that used for other languages, especially C++, since we can think of Java as a subset of C++. CNI is just a set of helper functions and conventions built on the idea that C++ and Java have the *same* calling convention and object layout; they are binary compatible. (This is a simplification, but close enough.) | ” |
CNI depends on Java classes appearing as C++ classes. For example,[10] given a Java class,
public class Int { public int i; public Int(int i) { this.i = i; } public static Int zero = new Int(0); }
one can use the class thus:
#include <gcj/cni.h> #include <Int> Int *mult(Int *p, int k) { if (k == 0) return Int::zero; // Static member access. return new Int(p->i * k); }
See also
- GNU Interpreter for Java (GIJ)
- Excelsior JET (Excelsior Java native code compiler)
- IcedTea
- Kaffe
- SableVM
- JamVM
- Apache Harmony
- Jikes
- C to Java Virtual Machine compilers
- Free Java implementations
- JavaNativeCompiler (seemingly abandoned)
References
- ^ http://gcc.gnu.org/java/
- ^ Campbell, Bill. Introduction to Compiler Construction in a Java World. CRC Press Taylor & Francis Group. ISBN 978-1-4398-6088-5. Retrieved 2/6/2014.
- ^ http://www.linuxjournal.com/article/4860
- ^ http://freecode.com/projects/gcj
- ^ "gcj to use Eclipse compiler as a front end". 2007-01-08. Retrieved 2007-05-20.
- ^ GCJ: News
- ^ The GCJ FAQ - GNU Project - Free Software Foundation (FSF)
- ^ GCJ: The GNU Static Java Compiler
- ^ The GCJ FAQ - GNU Project - Free Software Foundation (FSF)
- ^ The example comes from: http://gcc.gnu.org/onlinedocs/gcj/Objects-and-Classes.html#Objects-and-Classes
External links
- GCJ Homepage
- GCJ Manual
- About CNI section of GCJ Manual
- LWN: GCJ - past, present, and future - the article discuss some history of GCJ.
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